CM 4000 Control Module See page 1−22 for equipment part numbers JupiterXPress Release 7.4 Jupiter AccuSwitch Release 7.4 Installation and Operating Manual Manual part no.
Contacting Grass Valley Region Voice Fax Address Web Site North America (800) 547−8949 Support: (530) 478−4148 Sales: (530) 478−3347 Support: (530) 478−3181 Grass Valley, Inc. 400 Providence Mine Rd. P.O. Box 599000 Nevada City, CA 95959− 7900 USA www.thomsongrassvalley.com Pacific Operations +852−2585−6688 Support: 852−2585−6579 +852−2802−2996 U.K.
Contents = New or revised material Preface . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . xxv Safety Summary . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . xxvii Regulatory Notices . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . xxxi KEMA Certificate . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Electrical . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . CM 4000 Control Module . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . VTR, Control Panel, General Purpose Interface Buses . . . . . . . . . . . . . . . . . . Matrix Router Control Buses . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Control Panels . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
System protection features . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Alarm Modes . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Single CM installation . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Redundant CM installation . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Manual Changeover . . . . . . . . . . . . . . . . . . . . . . .
CP 328 Push Button Control Panel . . . . . . . . . . . . . . . . . . . . . . . . . . CP 330 Control Panel . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . CP 330/6 48 x 6 Six Bus Control Panel . . . . . . . . . . . . . . . . . . . . . . . CP 3000 Switcher Control Panel and CP 3010 Expansion Panel . . . . . . . CP 3020 Push Button Control Panel . . . . . . . . . . . . . . . . . . . . . . . . . . . . . CP 3021 Push Button Expansion Panel . . . . . . . . . . . . . . . . . . . . . . .
CP/VC 3020 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2−59 MC 3010 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2−59 CP 300 / 3800 Series Panels . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2−59 Connection to Thomson/Philips DD Series (“Diamond”) . . . . . . . . . . . . . . . . . . . 2−60 Connection to VTRs and Other Machines . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Connection to Devices using Jupiter ASCII Computer Interface Protocol Encore Control of Jupiter . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2−88 2−91 Section 3 − Software Installation . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3−1 Section 4 − Jupiter Network Suite Control Console . . . . . . . . . . . . . . . . 4−1 Installation . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Disconnecting File Server from LAN . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5−21 Passwords . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5−22 Changing Passwords . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5−25 Setting Password Levels for Control Panels . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Setting Password Levels for Control Panels . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . VGA Status Display Control Panel Entries . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Force Unprotect / Force Unlock Password . . . . . . . . . . . . . . . . . . . . . . . . Displaying Time Code on an MC 3000 Associated with a VGA Status Display . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Default (Semi−permanent) Linkage . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Linkage for Machines That Do Not Enter the Routing Switcher . . . . . . . . . . . Start/Stop machine control using Expansion Panels . . . . . . . . . . . . . . . . . . . . . . . . VGA / MC 3000 Status Display Table Entries . . . . . . . . . . . . . . . . . . . . . . . . . . . . Saturn Master Control Switcher . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Delegation Groups . . . .
CP-310 24 x 8 Eight Bus Control Panel . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . CP 320 Push Button Control Panel . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . CP 328 Push Button Control Panel . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . CP 330 Control Panel . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . CP 330/6 48 x 6 Six Bus Control Panel . . . . .
Machine Control . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . CP 3020 Push Button Control Panel operation . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . LOCK Mode . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . CHOP Mode . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Button/Lamp Test . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Config . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Sticky Outputs . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Sticky Levels . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Sticky Audio . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Category Prompting . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Panel ID . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . MPK Test . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Illumination Adjustment . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Burn In . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Key test . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Multi−Source, One−take Splits . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Menu Functions . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Destination Mode — Press MENU Once . . . . . . . . . . . . . . . . . . . . . . . . . Status Mode — Press MENU Twice . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Audio Mode — Press MENU Three Times . . . . . . . . . . . . . . . . . . . . . . .
Info . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Baud Rate . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Panel ID . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . MPK Test . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Illumination Adjustment . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Slaved Machine Control Panel . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Machine Assignment . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Machine Control Buttons . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Time code display . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Full Function Switcher Panel . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Refresh . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Menus . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Section 9 − Control Center . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Board Status . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . TFTP Status . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Compare Sets . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 10−9 Input and Output Set Usage Tables . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 10−11 Additional Notes . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 10−11 Section 11 − Force Unlock . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Display . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
File . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . System Definition . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . View − display the Input or Output Exception tables. . . . . . . . . . . . . Start Remapping by Entering Physical Numbers . . . . . . . . . . . . . . . . . . . Comment Field . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Remapping . . . . . . . . . . . . . . . . . .
Clearing Parameter Memory (PMEM) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . CM 4000 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Appendix C . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Console Port Connections and Protocol . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Appendix D . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Connecting a Remote PC to a Windows XP Server . . . . . . . . . . . . . . . . . . . . . Appendix J . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . CP 3000 Control Panel Basic Operation . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Input To Output Switching . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Lock . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Appendix Q . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . PS 300 110/220 VAC Power Adaptor Kit Installation Instructions . . . . . . . . . . . . . . . . Mounting Procedure . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Appendix R . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Status and Error Codes . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Preface About This Manual This manual provides hardware installation, software configuration, and operating instructions for the Jupiter CM 4000 Control Module and associated control panels. A printed copy of the manual is normally provided with the system, along with the Routing Products Documentation CD−ROM, part no. 071 8274 xx. This manual can also be accessed through the Jupiter Configuration Editor “Help” pull−down menu.
• FCS 3306/1/2 Control Panel (1200/2400 baud) Field Engineering Bulletin (04−883306−001/2). Describes software running in a CP 3000 Control Panel PROM. This software can be used to talk to remote panels through modems using MPK protocol at 1200 or 2400 Baud.
Safety Summary Read and follow the important safety information below, noting especially those instructions related to risk of fire, electric shock or injury to persons. Additional specific warnings not listed here may be found throughout the manual. WARNING Any instructions in this manual that require opening the equipment cover or enclosure are for use by qualified service personnel only.
Terms on the Product The following terms may appear on the product: DANGER — A personal injury hazard is immediately accessible as you read the marking. WARNING — A personal injury hazard exists but is not immediately accessible as you read the marking. CAUTION — A hazard to property, product, and other equipment is present.
Warnings The following warning statements identify conditions or practices that can result in personal injury or loss of life. Dangerous voltage or current present — Disconnect power before removing protective panels, soldering, or replacing components. Do not service alone — Do not internally service this product unless another person capable of rendering first aid and resuscitation is present. Remove jewelry — Prior to servicing, remove jewelry such as rings, watches, and other metallic objects.
Cautions The following caution statements identify conditions or practices that can result in damage to equipment or other property Use correct power source — Do not operate this product from a power source that applies more than the voltage specified for the product. Provide proper ventilation — To prevent product overheating, provide equipment ventilation in accordance with installation instructions.
Regulatory Notices Certifications and Compliances Safety Certification Category Standard Designed/tested for compliance with: Safety ANSI/UL 1950−1997 3rd Ed. Professional Video and Audio Equipment CAN/CSA−C22.2 No. 950−95 EN 60950 FCC Emission Notice Operation is subject to the following two conditions: (1) This device may not cause harmful interference, and (2) this device must accept any interference received, including interference that may cause undesirable operation.
Canadian EMC Notice of Compliance This digital apparatus does not exceed the Class A limits for radio noise emissions from digital apparatus set out in the Radio Interference Regulations of the Canadian Department of Communications. Le présent appareil numérique n’emet pas de bruits radioélectriques dépassant les limites applicables aux appareils numeriques de la classe A préscrites dans le Règlement sur le brouillage radioélectrique édicte par le ministère des Communications du Canada.
Laser Compliance Laser Safety Requirements The device used in this product is a Class 1 certified laser product. Operating this product outside specifications or altering from its original design may result in hazardous radiation exposure, and may be considered an act of modifying or new manufacturing of a laser product under U.S. regulations contained in 21CFR Chapter1, subchapter J or CENELEC regulations in HD 482 S1.
KEMA Certificate Affiliate with the N. V. KEMA in the Netherlands A member of the International Network for Quality System Assessment and Certification “IQNet” Number:510057.
CM 4000 Control Module JupiterXPress Jupiter AccuSwitch INSTALLATION AND OPERATING MANUAL CM 4000 Installation and Operating Manual 1−1
Introduction For a list of supported MPK control panels, see page 1−27. MPK bus Control Panels Under Monitor Displays VTR operating with Sony protocol MPK bus Automation computer Triton router Apex, Concerto,2 GS 400, Trinix, or Venus router ASCII protocol RS−422/232 converter1 ÏÏ ÏÏ Ï ÏÏÏ ÏÏÏ Ï ÏÏ ÏÏ ÏÏÏ ÏÏ ÏÏ For jumper and switch setting information, refer to the installation manual supplied with the router. Jupiter file server CC 2010 Matrix (Crosspoint bus) cables.
Introduction Section 1 − Introduction The CM 4000 Jupiter Control System is designed to control Grass Valley Crosspoint Bus* and certain other matrix routers; video equipment using Sony remote control protocol; and certain other RS−422 devices. The devices to be operated are connected to the CM 4000, which is in turn connected to Jupiter control panels. The CM 4000 is configured using the Jupiter file server* (Figure 1−1).
Introduction Control Functions DISTRIBUTION SWITCHER CONTROL Grass Valley matrix routers that can be controlled by the CM 4000 include Apex, Concerto, Trinix, and Venus. The crosspoint bus* of the switcher is connected to a CM 4000; this in turn is connected to the Jupiter file server. Triton switchers can be controlled using a serial connection.
Introduction Control panels Note 1: only the JEP−100 control panel is available for use with the AccuSwitch application. Jupiter message−per−keystroke (MPK) control panels are designed to be as simple, flexible, and inexpensive as possible. System software is maintained in a central file server from where it is downloaded to the control processors as required. Control panels are connected to the controlled device through the CM 4000 System Controller, using either the multi−point or single−point method.
Introduction The CP 3824 control panel is a locally−programmable, full−matrix, multiple level breakaway panel capable of locking and protecting outputs. The panel features eight−character display capability and relegendable, lighted push buttons. The 24 button−per−source keys on the left side of the panel are initially assigned to inputs from the file server, but some or all can be re−assigned to new inputs at any time using only the panel itself.
Introduction Status Displays Note: Status displays are very limited with the AccuSwitch application. Please refer to page 1−30. Under Monitor Displays The Grass Valley SlimLine UMDs combine status and tally functions in the same chassis and are available in a wide range of sizes and types. SlimLine UMDs are described on page 2−81. Certain third−party UMDs are also compatible with Jupiter equipment. See page 1−30.
Introduction File Server (Configuration PC) The PC 3000 File Server supplied by Grass Valley is described in detail on page 1−14. When the system is initialized, program information is downloaded from the file server to the control processor(s). Field upgrades and modifications can thus be made through this single station. System Logger Provides the user with system status display in a window on the Jupiter file server or Jupiter remote PC.
Introduction Specifications Note: Some functions are extra−cost options. For more information, see the software package table beginning on page 1−27.
1−10 100−240V 50−60HZ .4A +3V ACTIVATE +5V −5V +12V −12V VGA RESET TIMECODE IN SYNC ALARM UP DOWN Figure 1−2. CM 4000.
Introduction VTR, CONTROL PANEL, GENERAL PURPOSE INTERFACE BUSES Bus controller: CM 4000 System Controller Protocols supported: Please refer to software package table beginning on page 1−27. Cable/connectors: 4−conductor twisted pair plus ground / 9−pin D Transmission speeds: 1200, 2400, 4800, and 9600 bits/sec; 19.2, 38.4, and 115 kbits/sec No. of tributaries (devices) per bus: 1−32, depending on speed requirements Max.
Introduction CONTROL PANELS CP 300/310/320/328/330 Control Panels Connectors: 1, MPK (RS−422/ESbus), looping (9−pin D female) Power requirements: +5VDC +/− 0.25V @ 600 mA. A wall plug−in power supply is supplied with each 300 series panel that will be used with 110 VAC 60 Hz power. Panels that are to be used in areas where 220VAC 50Hz power is the norm are not shipped with any power supply. See page 2−38 for more information.
Introduction CP 3830 Control Panel Connectors: 1, MPK (RS−422/ESbus), looping (9−pin D female) Power requirements: power furnished by control panel chassis power supply.*** CP 3808 Control Panel Connectors: 1, MPK (RS−422/ESbus), looping (9−pin D female) Power requirements: power furnished by control panel chassis power supply.§ CP 3809 Expansion Panel Connectors: 1, MPK (RS−422/ESbus), looping (9−pin D female) Power requirements: power furnished by control panel chassis power supply.
Introduction FILE SERVER Grass Valley PC 3000 System File Server PC 3000 Specifications (Minimum) Intel Pentium 700 processor with 256 K L2 cache 512 Mbytes RAM memory 1.2 Gigabyte hard drive 4X CD−ROM drive 1.44 Mb floppy drive Intel or 3Com Ethernet LAN card Keyboard / mouse 15−inch monitor capable of 1024x768x256 2 serial ports and 1 parallel port Windows 2000 Professional or XP Professional A Site License is required to enable features; see Ordering Information (page 1−22).
Introduction CP 3800 Control Panel: 3.5 in. high x 19 in. wide x approx. 8 in. deep (89 x 483 x 200 mm). The CP 3808, CP 3809, and CP 3830 panels are mounted in a chassis which is 3.5 in. high x 19 in. wide by 4 in. deep (89 x 483 x 100 mm). The chassis has space for two panels; a blank insert is provided when required. CP 3824 Control Panel: 1.75 in. high x 19 in. wide x approx. 6 in. deep (89 x 483 x 152 mm). CP 3832 and CP 3810 panels: 1.75 in. high x 19 in. wide by 4 in. deep 44 x 483 x 100 mm).
Introduction SYSTEM LIMITATIONS Maximum Number of Logical Levels The system−wide maximum number of logical levels is 96. However, the actual number of levels a CM 4000 can control in a particular system varies. The main constraint on the number of levels and outputs a CM 4000 can safely control is the available memory in PMEM, or backed−up permanent memory. When a CM 4000 starts up, the old status tables are used to generate a completely new set of status tables.
Introduction Versions of Jupiter prior to 5.1.0 will not handle edit sets which have more than 64 levels. Should you attempt to edit such a set, the Jupiter Configurator (editor) will detect the error in the Switcher Description table and will not run correctly. Another symptom is that the Configurator will not exit properly. (If you mistakenly do edit a set with more than 64 levels with a pre 5.1.
Introduction — Each CP 2002B/D Control Panel counts as four devices; therefore, a maximum of 16 can be connected to a CM 4000 (two per serial port). Fixed Load Factors The following load factors are fixed and are not subject to the multiplier described below under “Calculating Loading”: — If a CM 4000’s Crosspoint Bus is in use, it counts as twenty devices on that CM 4000. — Each instance of a “remote” (non−Crosspoint Bus) switcher protocol counts as eight devices (maximum one protocol per port).
Introduction 3. If the system wide sum of all base and fixed loading factors is greater than or equal to 160 but less than 320, this system would be considered a “medium” loaded system and a base multiplier of 1.5 should be used in later calculations. 4. If the system wide sum of all base and fixed loading factors is greater than or equal to 320, this system is considered a “heavily” loaded system and a base multiplier of 2.0 should be used in later calculations. 5.
Introduction Example A system is to contain the following: 2 channels of Saturn (1 DVP, 2 DAPs per channel). (Saturn Video and Audio Processors do not directly contribute to Jupiter loading) 1 Saturn MCC 3500 Master Control Console with the Select panel used for delegation purposes.
Introduction ÁÁÁÁ ÁÁÁÁÁÁÁÁÁÁÁÁÁ ÁÁÁÁÁÁÁÁ ÁÁÁÁÁÁÁÁ ÁÁÁÁ ÁÁÁÁÁÁÁÁÁÁÁÁÁ ÁÁÁÁÁÁÁÁ ÁÁÁÁÁÁÁÁ ÁÁÁÁ ÁÁÁÁÁÁÁÁÁÁÁÁÁ ÁÁÁÁÁÁÁÁ ÁÁÁÁÁÁÁÁ ÁÁÁÁ ÁÁÁÁÁÁÁÁÁÁÁÁÁ ÁÁÁÁÁÁÁÁ ÁÁÁÁÁÁÁÁ ÁÁÁÁ ÁÁÁÁÁÁÁÁÁÁÁÁÁ ÁÁÁÁÁÁÁÁ ÁÁÁÁÁÁÁÁ ÁÁÁÁ ÁÁÁÁÁÁÁÁÁÁÁÁÁ ÁÁÁÁÁÁÁÁ ÁÁÁÁÁÁÁÁ ÁÁÁÁ ÁÁÁÁÁÁÁÁÁÁÁÁÁ ÁÁÁÁÁÁÁÁ ÁÁÁÁÁÁÁÁ ÁÁÁÁ ÁÁÁÁÁÁÁÁÁÁÁÁÁ ÁÁÁÁÁÁÁÁ ÁÁÁÁÁÁÁÁ ÁÁÁÁ ÁÁÁÁÁÁÁÁÁÁÁÁÁ ÁÁÁÁÁÁÁÁ ÁÁÁÁÁÁÁÁ ÁÁÁÁ ÁÁÁÁÁÁÁÁÁÁÁÁÁ ÁÁÁÁÁÁÁÁ ÁÁÁÁÁÁÁÁ ÁÁÁÁ ÁÁÁÁÁÁÁÁÁÁÁÁÁ ÁÁÁÁÁÁÁÁ ÁÁÁÁÁÁÁÁ ÁÁÁÁ ÁÁÁÁÁÁÁÁÁÁÁÁÁ ÁÁÁÁÁÁÁÁ ÁÁÁÁÁÁÁÁ ÁÁÁÁ ÁÁÁÁÁÁÁÁÁÁÁÁÁ ÁÁÁÁÁÁÁÁ ÁÁÁÁÁÁÁÁ ÁÁÁÁ ÁÁÁÁÁÁÁÁÁÁÁÁ
Introduction Ordering information JUP−CM 4000 System Controller (software not included) 071 1276 00 JUP−PC 3000 System File Server (desk mount) F7-029500-121 PC workstation with LAN card for storing, editing and compiling system configurations. Also used for logging and diagnostics. Site license is required to enable features, order SW 2500 or SW 3100.
Introduction SlimLine Under Monitor Status/Tally Displays UMD−SD/9 UMD−SD/12 UMD−SD/14 UMD−SD/19 UMD−DD/19 UMD−UD/19 UMD−SD/9 OB UMD−SD/12 OB UMD−SD/14 OB UMD−SD/19 OB UMD−DD/19 OB UMD−UD/19 OB UMD−CTRL/16 Single Display UMD, 9−1/2 inch width Single Display UMD, 12 inch width Single Display UMD, 14 inch width Single Display UMD, 19 inch rack mount Dual Display UMD, 19 inch rack mount Universal Display UMD, 19 inch width Single Display OB van UMD, 9−1/2 inch width Single Display OB van UMD, 12 inch width S
Introduction JUP−CP 3824 Eight Character Jupiter Plus X-Y Control Panel F7-029500-095 JUP−CP 3830 JUP−CP 3830/1 JUP−CP 3830/2 JUP−CP 3830/E Control Panel (without chassis) Single Control Panel (with chassis and blank panel) Dual Control Panel (with chassis) Multi Control Panel (with CP 3809 and chassis) F7-029500-063 F7-029500-062 F7-029500-061 F7-029500-076 JUP−CP 3832 JUP−CP 3864 Eight Character 32 Button Per Source Control Panel Eight Character 64 Button Per Source Control Panel F7-029500-080 F7
Introduction AccuSwitch Frame−Accurate Automation Solution JUP−CM 4000 System Controller F7−029700−001 Software is not included. Required to run SW 4000 frame−accurate switching software. JUP−CM 4000RDN Redundant Control Electronics (2 units) F7−029500−103 Software is not included. Runs SW 4000 frame−accurate switching software.
Introduction Software Control Panel Suite Packages JUP−PC−GUI/M GUI PC for Mouse control w/Basic X−Y Panels F7−029599−004 PC workstation with LAN card for operation of GUI control panels using a mouse. Includes the basic GUI− XY routing switcher control panel software. JUP−PC−GUI/T GUI PC for Touchscreen Control w/Basic X−Y Panels F7−029599−085 PC with LAN card for operation of GUI control panels using a touchscreen. Includes the basic GUI−XY routing switcher control panel software.
Introduction Software Packages − Key Features Jupiter software is available in several software (SW) packages. One of these packages is normally activated by the end user with a unique key code during installation (as described in the Field Engineering Bulletin supplied with the software). The key features of these packages are summarized in the following table. Please keep the differences between packages in mind when you refer to the instructions in this manual.
Introduction Software package Notes JUP−SW 2500 JupiterLE JUP−SW 3100 JupiterPlus JUP−SW 4000 AccuSwitch See Note 1 JUP−SW 3500 JupiterXPress Jupiter ASCII Yes Yes Yes Yes Jupiter ESswitch Yes Yes Yes Yes Jupiter ESbus (Physical) Yes Yes No Yes Jupiter ESbus (VTR) Yes Yes No No SMPTE ES tributary (EG 29−1993) No No Yes No SMPTE ESLAN (EG 30−1995) No No Yes Yes GVG 1020 NVISION Sony Control Vistek Novotronic Microvideo VT−220 (Southbank) No Yes No No Alpha Image Data
Introduction Software package Notes JUP−SW 2500 JupiterLE JUP−SW 3100 JupiterPlus JUP−SW 4000 AccuSwitch See Note 1 JUP−SW 3500 Jupiter XPress CP 300 series All All No All CP 2002 series All All No All CP 3000 series All All No Yes, except CP 3008 and CP 3030 CP 3300 series All All No No CP 3800 series All All No Yes, except CP 3810/S, CP 3830/P, CP 3832/P, and CP 3864/P MC 3000 series No All No Yes, except MC 3020 3040 LOCK/SLCT Mess_UMD WPE Yes Yes No No VGA Contr
Introduction Software package Notes JUP−SW 2500 JupiterLE JUP−SW 3100 JupiterPlus JUP−SW 4000 AccuSwitch See Note 1 JUP−SW 3500 JupiterXPress Software Control Panel Suite (GUI) Option Option Option Option Party line CP interface No Yes No No Jupiter Source Tally/UMD with SlimLine UMD Series Yes Yes No Yes Jupiter Source Tally with RP 1/2/3 UMDs Yes Yes No Yes Jupiter Source Tally with SD 31/32/33 Yes Yes No No Andromeda tally & GPIO management Option Option No Option TSL
Section 2 − Hardware Installation Unpacking and Inspection Each Jupiter Control System is tested, inspected, and found free of defects prior to shipment. Before unpacking the equipment, inspect the shipping carton for evidence of freight damage. If the contents have been damaged, notify the carrier and Grass Valley. Retain all shipping cartons and padding material for inspection by the carrier.
Hardware Installation Leaving ventilation space between the rack mount units is not necessary. System diagrams are shown in the following pages. WARNING Do not block fan opening on side of chassis. WARNING Figure 2−2. Do not block ventilation holes. Rack mount support must be cut shorter if necessary to avoid blocking airflow.
Hardware Installation CM 4000 Connection to Distribution Switchers Although the CM 4000 supports both the JupiterXPress and AccuSwitch applications, only one of these applications can be downloaded and executed in a single CM 4000 at one time. • JupiterXPress provides a limited set of Jupiter switching and machine control functions using the CM 4000 as the interface between Grass Valley Crosspoint Bus routers and the devices on page 1−27.
Hardware Installation CC 2010 Matrix (Crosspoint Bus) Cable The CC 2010 cable is used to connect the CM 4000 to the switcher Crosspoint Bus. Depending on the size of the switcher, this bus may require intermediate buffering through the CB 3000 Control Buffer. See Figure 2−3. The CC 2010 is a 10−conductor (plus ground) cable. The following ready−made cables, with installed 15−pin D male connectors, are available from Grass Valley: Length Part. No. 1 foot (0.3 m) 01−048592−001 2 feet (0.
Hardware Installation Twisted pairs Reset 9 Data 10 Clock 11 Take 12 Confirm 13 1 2 3 Shield Red Red Black Black 9 Yellow Yellow Black Black 10 Green Green Black Black 4 5 11 Blue Blue Black Black 12 White White Black Black 13 1 2 3 4 5 Shield (drain) Ground 8 P1 DB15P (male) 8 Shielded connector Shielded connector 100 ft ( m) max P2 DB15P (male) Figure 2−5. CC 2010 wiring. Reference: “Assembly, XPT Bus Cable Shield,” Grass Valley drawing no. 01−048592−TAB.
Hardware Installation CB 3000 Control Buffer A POWER B POWER REM/ALM OUTPUT (CONTROL) BUSES SELECT A CLEAR SELECT B CROSSPOINT BUS LOOP Figure 2−6. CB 3000. The CB 3000 Control Buffer is required for buffering crosspoint data when the system includes: • More than 96 Venus crosspoint boards, or • More than 50 TVS/TAS 3000 or TVS/TAS 2000 matrix boards, or • If the Crosspoint Bus is sent to more than one equipment rack.
Hardware Installation VDE EMI/RFI Modifications to Matrix Cables User−supplied matrix cables for VDE installations require a ferrite core over each end of the cable, adjacent to the connector. Type 43 material sources Type 43 material 0.375 inch (9.53 mm) or larger inside diameter 0.95 inch (24.13 mm) length (or longer) Fair−Rite, part no. 2643625102 Fair−Rite Products Corp., P.O. Box J, Commercial Row, Wallkill, NY 12589, USA; Tel. (914) 895−2055. Chomerics, part no. 83−10−A637−1000 Chomerics Inc.
Hardware Installation SINGLE CM INSTALLATION If the master alarm is asserted by the main CPU watchdog timer (and assuming that the power supply is operating properly), the CM will be rebooted automatically. REDUNDANT CM INSTALLATION For additional protection, a redundant (slave) CM 4000 can be installed. The slave CM 4000 monitors the master. If a master alarm condition is detected in the master unit, control will be switched to the slave automatically.
Hardware Installation CC−2010 Matrix (Crosspoint bus) cables Routing switcher BOP 4000 Break Out Panel Crosspoint bus port 10/100baseT Jupiter LAN Hub CM 4000 Redundancy Cable Figure 2−9. Redundant CM 4000 installation. Note: the BOP 4000 is supplied with a redundancy cable kit. See Page 2−10. House time code House sync required for vertical interval switching.
Hardware Installation BOP 4000 Break Out Panel kit Cables Note: Cables are supplied with connectors installed. Rear of BOP 4000 8 ea. serial control splitter cables 2 ea. crosspoint bus cables M M F 3 feet (0.91 m) 3 feet (0.91 m) M M 3 feet (0.91 m) 3 feet (0.91 m) CM 4000 Master M 1 ea. Redundancy Cable 1.5 feet (0.46 m) M M M CM 4000 Figure 2−10. BOP 4000 and cables. Assembly no. F7-029500-104.
Hardware Installation Connection to Serial−Control Routers Levels 1, 2, 6 Grass Valley Crosspoint Bus Switcher Level 0 Serial Switcher Level 3 Serial Switcher Level 4 Serial Switcher Level 5 Serial Switcher Crosspoint Bus port Serial Ports CM 4000 System Controller LAN Figure 2−11. Connection to serial control routers (example). House SMPTE time code required for deterministic switching House sync required for vertical interval switching.
Hardware Installation Serial−control Switcher Figure 2−12. Serial−control switcher restrictions. Serial−control Switcher Only one remote switcher of a given type can be connected to a single CM 4000. Level 1 Grass Valley Crosspoint Bus Switcher Level 1 Serial−control Switcher Physical levels cannot be duplicated on a CM 4000 (unless Logical Level Mapping [page 2−29] is used; or, the “400” offset method [footnote on page 5−42] is used).
Hardware Installation TRITON SYSTEMS Triton routers are connected using a CM 4000 serial port. Multiple Triton chassis can be connected to a single CM, but only if all them are connected on the same MIDI bus and connected through the same single serial port. If more than one Triton MIDI bus is needed, the switchers on that bus must be connected to another CM. The serial connector on Triton routers is a 9−pin RS−232 signal level port.
Hardware Installation Up to 20 chassis can be connected in one MIDI loop. Note 1: Some Triton switchers have front−panel controls. to be shown on Jupiter control panels. These controls will operate normally when the router is connected to a Jupiter system but Jupiter 6.0 and after software is required in order for Triton status to be indicated on Jupiter panels.
Hardware Installation SMS 7000 CONNECTIONS The CM 4000 can be connected to a Grass Valley SMS 7000 Signal Management System and router (see Figure 2−15). The protocol setting is: 38400 baud, 8 data bits, no parity, 1 stop bit. The serial cable on the back of the SMS 7000 controller frame may be labeled RS−232, but it can and should function as RS−422 if configured in software. The CM 4000 is connected to one of the DB25 or DB9 ports on the back of the SMS 7000 controller frame.
Hardware Installation to CM 4000 serial port to SMS 7000 1 1 G 6 G 6 2 2 R− T− 7 7 R+ T+ 3 T+ T− 3 R+ 8 8 R− 4 4 9 9 5 = twisted pair DB9P (male) G R− R+ T+ T− Ground Receive minus Receive plus Transmit plus Transmit minus 5 DB9 Figure 2−16. Cable for connecting CM 4000 to SMS 7000 DB9 port.
Hardware Installation JUPITER CONTROL OF ENCORE The CM 4000 can send switching commands to a Grass Valley Encore control system (which can in turn send the commands to a router). The serial ports on the back of the Encore System Controller Board (SCB) use RJ45 connectors; the port selected for the CM connection must be configured for RS−422 operation with an internal jumper. For more information about the SCB ports, refer to the Encore installation and user manuals.
Hardware Installation For those who wish to prepare their own cable: if the SCB is the old style (071 0884 xx series), build the cable as shown in Figure 2−20; if the SCB is the new style (071 1000 xx), build the cable as shown in Figure 2−21. (No adapter is needed when the cable is custom−built). to CM 4000 Serial port to Encore SCB RS−422 port 1 6 1 Rx+ G 2 2 Rx− 7 Rx+ 3 G 4 G 5 Rx− 6 3 Tx+ 8 Tx+ Tx− 4 7 9 DB9P (male) 8 Tx− 5 RJ45P (male) Belden 8723 or equivalent Figure 2−20.
Hardware Installation Software Configuration The CM 4000 connected to the Encore must be configured using the Network Description table (page 5−27) and Serial Protocol table (page 5−30). When Jupiter is controlling Encore, the Serial protocol setting is: GNP (Grass Valley Native Protocol), 9600 baud. The router must be defined on the Switcher Description table (page 5−35). From that point, switcher inputs, outputs, a CP Level Set, and CP input/Output Sets must be defined.
Hardware Installation Double−Y Cable Please refer to Figure 2−23. A Cat5 factory cable kit is available in two versions: If the SCB is the old style (071 0884 xx series), order kit 174 8216 xx. If the SCB is the new style (071 1000 xx series), order kit 174 8217 xx. The factory cable must be used with a customer−supplied adapter, wired as shown in Figure 2−21 on page 2−18. Note that the cables in this kit are eight inches long. Further instructions are provided with the cable kit.
Hardware Installation For those who wish to prepare their own cable: if the SCB is the old style (071 0884 xx series), build the cable as shown in Figure 2−24; if the SCB is the new style (071 1000 xx), build the cable as shown in Figure 2−25.
Hardware Installation to CM 4000 Serial port to Encore SCB RS−422 port 1 G 6 2 Tx+ 1 Tx− 2 3 Rx− 7 Rx+ 3 Tx+ 8 G 4 G 5 Tx− 6 4 9 5 Rx− 7 Rx+ 8 RJ45P (male) DB9P (male) to CM 4000 Serial port to Encore SCB RS−422 port 1 G 6 2 Tx+ 1 Tx− 2 3 Rx− 7 Rx+ Tx+ 8 G 4 G 5 3 Tx− 6 4 9 5 DB9P (male) 7 Rx+ 8 RJ45P (male) Belden 8723 or equivalent Figure 2−25.
Hardware Installation HORIZON CONNECTIONS The CM 4000 can be connected to a Horizon matrix router through the General Purpose Interface with Terminal/Computer Interface software (GPI−T/CI) (see Figure 2−26). The protocol for the GPI−T/CI RS−422 port must be set at: 38400 baud, 8 data bits, even parity, and 1 stop bit (refer to the Horizon GPI−T/CI Manual for configuration instructions).
Hardware Installation DATATEK D−2000/2166 CONNECTIONS The CM 4000 can be connected to a Datatek D−2166 Buffer Control Module, which in turn is connected to a D−2000 Series routing switcher (see page 2−24). The protocol setting is: 38400 baud, 8 data bits, even parity, 1 stop bit. Although the CM 4000 is connected to one of the D−2166 Buffer Control Module ports labelled “RS−232,” the port must be set with an internal jumper to operate according to RS−422.
Hardware Installation UTAH SCIENTIFIC PARTY LINE CONNECTION USING UDI−1B The CM 4000 can be connected to a Utah Scientific Party Line through a UDI−1B Universal Data Interface (see Figure 2−30). Some UDI−1B units are equipped with a 9−pin RS−422 port; others are equipped with a 25−pin RS−232 port. Either type can be used. The protocol for the UDI−1B port must be set at: 9600 baud, 7 data bits, even parity, and 2 stop bits. The UDI−1B must be equipped with software version 81.4 or later.
Hardware Installation to CM 4000 serial port UDI−1B RS−422 Port 1 1 G 1 G G 6 6 6 2 2 R− R+ T− 3 T+ T− R+ 4 T+ 3 R− 4 5 = twisted pair DB9P (male) G R− R+ T+ T− 3 R+ 8 9 9 T− 7 R− 8 8 2 T+ 7 7 4 9 Ground Receive minus Receive plus Transmit plus Transmit minus 5 5 DB9P (male) UDI pinouts may vary − field reports indicate that a straight−through cable should be tried first. Figure 2−31. Cable for connecting CM 4000 to UDI−1B RS−422 port.
Hardware Installation NEXUS AUDIO ROUTING SYSTEM Nexus audio routers can be controlled using the hardware connections shown in Figure 2−33. The Nexus switcher requires special PROMs for this application (please contact Grass Valley for more information). Nexus audio router Nexus protocol Serial Port See Figure 2−34 or 2−35 for a description of this cable LAN CM 4000 System Controller House time code (optional). See pg. 2−64 CM 4000 Installation and Operating Manual Figure 2−33.
Hardware Installation The Nexus router has two ports that can be used for connection to Jupiter: the “XCI” port and the “XCPU” port. Field reports suggest that the XCI port be used if possible. The pinouts for both ports are shown below. to CM 4000 serial port to Nexus router XCI port 1 1 G 6 6 2 2 R− R− 7 7 R+ R+ 3 T+ T− 3 T+ 8 8 T− 4 5 = twisted pair DB9P (male) G R− R+ T+ T− Ground Receive minus Receive plus Transmit plus Transmit minus 4 G 9 9 5 G DB9 Figure 2−34.
Hardware Installation Logical Level Mapping In these systems, the same physical level number is used on more than one logical level. For example, a switcher could have video on level 1, left audio on level 2, and right audio also on level 2. In Figure 2−36, a 60 x 60 audio level is being used as two 60 x 30 switchers, i.e., with half the outputs assigned to the left channel and the other half to the right channel.
Hardware Installation Data Matrix Switching The Jupiter system can be used to control RS−232, RS−422, and RS−423 data switchers. In a typical application, a Venus data matrix switcher can be used to route RS−422 machine control signals. Older model Venus switchers equipped with DM 400 or DM 400A Data Matrix boards require crossover or Y−line cables.
Hardware Installation Connection to Multiple Crosspoint Bus Distribution Switchers CONNECTION USING A SINGLE CM 4000 A single CM 4000 control board can be used to control more than one Crosspoint Bus switcher; however, each physical level must have a unique number. When expanding a system in the field, this may require changing DIP switches or jumpers on the hardware. See Figure 2−37. Note: Figure 2−37 pictures a mixture of TVS and Venus routers.
Hardware Installation DEDICATED CM 4000 PER SWITCHER By using separate CM 4000s, physical level numbers may be duplicated from one switcher to another. When expanding a system in the field, this will eliminate the need to change DIP switches or jumpers on the hardware. See Figure 2−38. Physical level 2 Left audio Physical level 1 Video Physical level 4 Right audio “NEWSROUT” CB−3000 Control Buffer. Required when more than 50 matrix boards are installed in switcher. See page 2−6.
Hardware Installation Connection to Multiple Distribution Switchers with Path Finding Note: Data router pathfinding is not supported. The path finding software option allows two or more Jupiter−controlled routing switchers to operate as a system, where one switcher can access the other’s inputs through a number of tie lines. Tie lines can vary in number from one switcher to another, and from one level to another.
Hardware Installation Tie lines can be connected starting with any input or output but must then follow in sequential order. Inputs 20 21 22 Grass Valley Crosspoint Bus distribution switcher “A” 10 11 12 13 14 Outputs CC 2010 Matrix cable. 50 ft. (15.2 m) max. Crosspoint Bus port CM 4000 System Controller 10/100baseT Jupiter LAN Hub CC 2010 Matrix cable. 50 ft. (15.2 m) max.
Hardware Installation 20 26 27 Crosspoint Bus distribution switcher “A” 13 14 15 83 84 CC 2010 Matrix cable. 50 ft. (15.2 m) max. Crosspoint Bus port CM 4000 System Controller 10/100baseT Jupiter LAN Hub CC 2010 Matrix cable. 50 ft. (15.2 m) max. 44 45 46 Crosspoint Bus port 87 88 Crosspoint Bus distribution switcher “B” 61 62 CM 4000 System Controller 82 Figure 2−40. Non−sequential path finding connections (example).
Hardware Installation Installing File Server PC Minimum hardware and software requirements have already been described (page 1−8). Follow the instructions supplied with the file server for connection of monitor, keyboard, and mouse. JUPITER LAN Jupiter file server(s) are connected to the CM 4000 through an IP hub, switch, or media converter via the “Jupiter LAN.” The Jupiter LAN is an IEEE 802.3 10/100BaseT network using a twisted pair cable with RJ−45 connectors (Cat 5E Enhanced is recommended).
Hardware Installation Installing Control Panels CONNECTIONS T0 CM 4000 Figure 2−42. Control panel connections to CM 4000. For recommended max devices see Bus Loading on page 1−17. For recommended max devices see Bus Loading on page 1−17 CP 3020 Push Button Control Panel CP 3830 Control Panel 12 in.
Hardware Installation SWITCHER CONTROL PANELS CP 300 Series Power supply requirements − A wall plug−in power supply is supplied with each 300 Series panel that will be used with 110 VAC 60 Hz power. Panels that are to be used in areas where 220VAC 50Hz power is the norm are not shipped with any power supply; the user in these areas must provide a source of regulated 5 VDC power to each panel. The power requirement is +5 VDC +/− 0.25 V at 600 mA.
Hardware Installation CP 310 24 X 8 Eight Bus Control Panel Installation is shown on page 2−37. 0 1 2 (etc.) 0 1 Figure 2−44. CP 310 Control Panel (as supplied). 2 (etc.) CHG VID CHG A1 CHG A2 CHG A3 CHG A4 CHG A5 The CP 310 Control Panel is very similar to the CP 300 Control Panel, except that eight buttons on the left side of the panel are used to control eight outputs. Refer to the CP 300 discussion (page 2−38) for installation instructions.
Hardware Installation CP 320 Push Button Control Panel Installation of this panel is shown on page 2−37. DESTINATION SELECTION STATUS VTR2 CAM1 VTR1 CHG OUT CHG VID CHG A1 CHG A2 CHG A3 CHG A4 CHG A5 VTR 1 CG 2 NET 3 VCR 4 CAM 5 AUX EJ SS PROT REM 6 FILM 7 PTCH 8 STU 9 TEST 0 SAT FS MISC TAKE Figure 2−45. CP 320 Push Button Control Panel (as supplied). The CP 320 is a full−matrix, category/number control panel.
Hardware Installation CP 330 Control Panel Installation of this panel is shown on page 2−37. 0 1 2 (etc.) CHG VID CHG A1 CHG A2 CHG A3 CHG A4 CHG A5 Figure 2−46. CP−330 Control Panel (as supplied). The CP 330 can be configured to operate as a 48 x 1 panel, or, as a 24 x 2 panel with the top row of buttons assigned to one output and the bottom row to another. Installation is very similar to the CP 300 (page 2−38).
Hardware Installation CP 3000 Switcher Control Panel and CP 3010 Expansion Panel Installation of these panels is shown on page 2−37. The basic control panel, referred to as the CP 3000, can be configured for single−bus operation (allowing selection of a source for one destination), multi−bus operation (allowing selection of a source for several destinations), or full matrix operation (selection of a source for any destination).
Hardware Installation CP 3020 Push Button Control Panel V1 V2 V3 V4 V5 V6 SA SB E1 E2 E3 C1 C2 C3 C4 T1 T2 R1 R2 NT LOCK CHOP Figure 2−50. CP 3020 Push Button Control Panel with example labels. Installation of this panel is shown on page 2−37. The CP 3020 is a single−bus control panel that can select one of 20 inputs. The push buttons illuminate to indicate status and can be fitted by the user with transparent labels.
Hardware Installation CP 3800 Eight Character Control Panel Installation of this panel is shown on page 2−37. 1 2 3 4 Menu Audio 5 SEQ Over ride 6 Level Dest 7 VTR 1 CG 2 NET 3 SAT A VCR 4 CAM 5 REM 6 EMER B Undo Film 7 Patch 8 STU 9 Frame C Take AUX TEST 0 MISC STILL D 8 Lock/ Prot Clear Figure 2−52. The CP 3800 is a universal, eight−character mnemonic, switcher and machine control panel.
Hardware Installation CP 3808 Control Panel Menu VTR 1 CG 2 NET 3 SAT VCR 4 CAM 5 REM 6 EDIT Clear FILM 7 PTCH 8 STU 9 FS Take AUX TEST 0 MISC STILL Figure 2−53. CP 3808. The CP 3808 control panel is a 16−category, full−matrix,* multiple level breakaway panel capable of locking and protecting outputs. The panel features eight−character display capability and relegendable, lighted push buttons.
Hardware Installation CP 3824 Control Panel 1 2 3 4 5 6 7 8 BLACK BARS TONE SILE NCE CURRENT VTR 1 VTR 2 VTR 3 VTR 4 STU 1 STU 2 EDIT 1 EDIT 2 EBS 1 EBS 2 TEST 1 TEST 2 CLEAR PRESET VTR 1 CG 2 NET 3 VCR 4 CAM 5 PAGE PROT MENU AUX 6 SS 7 REM 8 FILM 1 9 PTCH 0 LEVEL LOCK CHOP STU TEST SAT FS MISC PRE− SEND TAKE SET Figure 2−54. CP 3824.
Hardware Installation CP 3830 Control Panel VTR 1 CG 2 NET 3 Menu VCR 4 CAM 5 SAT 6 Lock Chop FILM 7 PATCH 8 STU 9 Prot Take AUX TEST 0 NUM Clear CURRENT PRESET VIDEO LEFT RIGHT AES1 T/C Figure 2−55. CP 3830. The CP 3830 Control Panel is a 12−category, full−matrix,* multiple−level* breakaway* panel which is capable of locking,* protecting,* and chopping* outputs. The panel features eight−character display capability and relegendable, lighted push buttons.
Hardware Installation CP 3809 Expansion Panel Up to five optional CP 3809 panels can be associated with a CP 3808 or CP 3830 (but not CP 3830P), providing direct switching and continuous status for up to 40 outputs. Figure 2−56 illustrates a CP 3808 with a CP 3809 array for control of 24 outputs.
Hardware Installation CP 3832 Control Panel VTR1 VTR2 VTR3 VTR4 CAM1 CAM2 CAM3 CAM4 BLACK BARS TONE SILENCE CG−1 CG−2 CG−3 CG−4 VTR−041 Level Menu Clear Pre− set Prot/ Lock Take CURRENT VTR5 VTR6 VTR7 VTR8 CAM5 CAM6 CAM7 EBS1 CAM8 EBS2 TEST1 TEST2 FDL1 FDL2 FDL3 FDL4 VTR−041 PRESET Figure 2−57. CP 3832. The CP 3832 is a multiple−level* breakaway* panel which is capable of locking,* and protecting* outputs.
Hardware Installation Hardware Installation Installation of this panel is shown on page 2−37. If desired, the panel hardware can be tested, and window/button brightness adjusted, without being connected to the controller board (such as a CM 4000). For more information, see Diagnostics Mode on page 6−112. Software Configuration The panel uses an eight−character CP Level Set of type “3800” (page 5−58). MPK table entries will depend on the application (see page 5−107).
Hardware Installation CP 3864 Control Panel VTR1 VTR2 VTR3 VTR4 CAM1 CAM2 CAM3 CAM4 BLACK BARS TONE VTR5 VTR6 VTR7 VTR8 CAM5 CAM6 CAM7 CAM8 EBS1 EBS2 TEST1 MON1 MON2 MON3 MON4 STU1 STU2 STU3 STU4 PST PGM MON5 MON6 MON6 MON8 EDIT1 EDIT2 EDIT3 EDIT4 KEY2 BACK UP SILENCE CG−1 CG−2 CG−3 CG−4 TEST2 FDL1 FDL2 FDL3 FDL4 AIR KEY1 VTR1 VTR2 VTR3 VTR4 BY PASS XMIT VTR5 VTR6 VTR7 VTR8 VTR−041 Level Menu Clear Pre− set Lock/ Prot Chop CURRENT VTR
Hardware Installation Unbalanced split panels can be configured to control from 1 to 31 outputs, with keys not used for outputs available to control inputs. For example, if 10 buttons are assigned to outputs then 54 buttons are available for inputs.
Hardware Installation Source/Destination Expansion The CP 3832 and CP 3864 can be combined to increase the number of sources and destinations to a maximum of 128 x 128. Examples are shown in Figure 2−65. 48 CP 3832 sources CP 3832 16 destinations CP 3864 64 sources CP 3832 32 destinations CP 3864 128 sources CP 3864 CP 3832 CP 3864 128 sources CP 3864 128 CP 3864 destinations CP 3832 Figure 2−65.
Hardware Installation CP 3810 Panel The optional CP 3810 panel can be associated with a CP 3832, CP 3864, CP 3808, or CP 3830, providing control of up to 80 outputs. The CP 3810 can also be assigned to one output, providing breakaway (split) switching and/or multi−level status. Figure 2−66 illustrates a CP 3810 with a CP 3832 panel.
Hardware Installation For multi−bus control, the CP 3810 Expansion Panel keys are assigned to outputs using the CP Output table (page 5−78). When used as a machine control panel, the CP 3810 will require entry on the Machine Control table (page 5−135). Operation For operating instructions, see page 6−126. JEP 100 Jupiter / Encore Control Panel Please refer to the JEP 100 installation and operating manual, part no. 071 8376 xx.
Hardware Installation INSTALLING MACHINE CONTROL PANELS MC 3000 Machine Control Panel and CP 3010 Expansion Panel Installation of these panels is shown on page 2−37. The MC 3000 machine control panel includes a series of push buttons for motion control (PLAY, STOP, etc.). A variable speed knob, with a color−coded direction/speed indicator, is also included.
Hardware Installation MC 3010 Machine Control Panel The MC 3010/2 version of this panel is shown in Figure 2−69; installation is shown on page 2−37. The MC 3010 is used to control four (MC 3010/1 version) or eight (MC 3010/2 version) tape machines. The display window shows the name of the machine presently linked to the button group immediately below. Lighted, re−legendable push buttons are provided for motion control and status.
Hardware Installation PREPARING AND INSTALLING BUTTON LABELS Control panels are supplied with general purpose labels already installed. A sheet with additional labels is also provided, and with care, these labels can be substituted for those already installed. Custom labels. Information and templates for creating custom labels can be found at www.thomsongrassvalley.com in the Support/FAQ area (search for Answer ID “1425” or Keywords “lens chip”).
Hardware Installation CP 3800 Series Control Panels Button caps for these panels are most easily removed by pulling back the top edge with the finger tip (see Figure 2−71). For the black-edged buttons on the right side of the CP 3824, use a technique similar to that described above for the CP 3020. Figure 2−71. Removing CP 3800 series keycaps.
Hardware Installation CONNECTION TO THOMSON/PHILIPS DD SERIES (“DIAMOND”) An example of hardware connections is shown in Figure 2−72. • The “Diamond protocol” cable to one of the DD serial ports is required for display of routing switcher status on the DD console. For cable pin−outs, see page 2−63.
Hardware Installation Connection to VTRs and Other Machines CONNECTION TO SONY AND SONY−COMPATIBLE VTRS VTRs are connected to the LAN through a CM 4000 System Controller board. The protocol is set at the file server, as described later in this manual. Serial (Sony) bus1 BVH−2000 BVW−10 BVH−2500 BVW−40 BVU−800 BCB−35/60/65/70/75 DCR−10/18/20/28/34/35 PCB−2600/2650/2800 1See Serial Ports Sony Installation Notes, page 2−61. Figure 2−74. Connection to Sony VTRs. CM 4000 System Controller LAN Sync ref.
Hardware Installation REMOTE CONTROL VIA MODEM RS−422/232 converter Modem Telephone line Modem RS−422/232 converter Serial (MPK) bus operating at 2400 baud Jupiter control panel Figure 2−75. Modem control installation. CM 4000 System Controller The Jupiter system can be controlled through a modem connection using: • A CP 3000 control panel equipped with a 1200/2400 baud PROM (FCS−3306/1/2, part no. 45−043114−01A/B). These products are described in separate documents, part no.
Hardware Installation Installing CM 4000 VGA Status Display Please refer to Appendix A for installation instructions. Serial Data Cables The RS−422 cables used to connect CM 4000 controllers, VTRs, and control panels may be known by various names depending on the devices to which they are connected. Thus a particular serial bus might be called the “Sony bus,” the “MPK bus,” etc. In spite of the different terminology, each of these buses consist of a 4−conductor (plus ground) cable.
Hardware Installation VDE EMI/RFI Modifications to Serial Data Cables User−supplied serial data cables for VDE installations require a ferrite core over each end of the cable, adjacent to the connector. Type 43 material sources Type 43 material 0.250 inch (6.35 mm) inside diameter 0.95 inch (24.13 mm) length (or longer) Fair−Rite, part no. 2643480002 Fair−Rite Products Corp., P.O. Box J, Commercial Row, Wallkill, NY 12589, USA; Tel. (914) 895−2055. Chomerics, part no. 83−10−A636−1000 Chomerics Inc.
Hardware Installation Connection to Saturn Master Control Switcher The Jupiter control system can be used as part of a Saturn Master Control Switcher installation, as shown in Figure 2−80. § Jupiter and Saturn software programs are presently supplied on a multi−disk set, and running the “Install” program loads both Jupiter and Saturn code. Saturn software is accessed using the “Saturn” pull down menu. See Figure 2−79. Figure 2−79. Jupiter/Saturn Configuration menu.
Hardware Installation ÎÎ ÎÎÎÎ ÎÎ Î ÎÎ ÎÎÎ ÎÎÎ Î ÎÎÎ ÎÎ File Server Crosspoint Bus router Crosspoint Bus CP 3000/E Switcher Control MC 3020D Delegation Panel 10/100baseT LAN Video and Audio MC 3000/E Machine Control T VTRs Video Processing Unit MPK bus T MPK bus Audio Processing Unit Audio Processing Unit ESbus CM 4000 Audio Meter cable Under−monitor status displays Tally system or parallel control machines MI 3040 10/100baseT LAN Î ÎÎ ÎÎ Î ÎÎ Î Î ÎÎ Î Î ÎÎ Î ÎÎ Î Î ÎÎ ÎÎ Î ÎÎ Î Î ÎÎ Î Î ÎÎ Î
Hardware Installation MI 3040 Tally Installation To tally lights, switchers, etc. (see discussion) MPK bus Serial data cable (see page 2−63) MI 3040 General Purpose/Tally Interface Serial Ports CM 4000 System Controller LAN Sync ref. See pg. 2−64 Figure 2−81. MPK connections to MI 3040. TALLY SYSTEMS Grass Valley offers the following software packages for operating tally systems: • Jupiter Tally.
Hardware Installation MI 3040 HARDWARE OVERVIEW Relay Outputs The MI 3040 provides 40 electrically isolated output connections for operating tally lights, using solid−state switches which are suitable for low−voltage (<100 V), low−current (<300 milliamps) applications. Note 1: The Jupiter Tally system can only operate tally lights for sources that are connected directly to the Jupiter− controlled router as inputs.
Hardware Installation EXAMPLE OF SATURN TALLY SYSTEM The following diagram shows an example of a Saturn Tally system. For detailed information, refer to “Saturn Tally” in the Saturn Installation and Operating Manual. Î Î ÎÎ Î ÎÎ Î Î ÎÎ ÎÎÎ Î ÎÎ ÎÎ Î Î ÎÎ Î ÎÎ ÎÎ Î Î Î ÎÎ Î ÎÎ Î Î ÎÎ Î ÎÎ Î Î ÎÎ ÎÎ Î ÎÎ ÎÎ ÎÎ ÎÎÎ ÎÎ ÎÎ ÎÎ ÎÎÎ ÎÎ ÎÎ ÎÎÎÎ ÎÎ ÎÎÎ ÎÎ ÎÎ ÎÎÎ ÎÎ ÎÎ When used as a connection point for an MPK bus, the Saturn video processor must be entered on the Serial Protocol table (page 5−30).
Hardware Installation EXAMPLES OF JUPITER TALLY SYSTEMS The diagrams on the following pages show systems that can be controlled by the Jupiter Standard Tally application. Connection to Systems with Saturn Master Control Switcher A Saturn (or MCS 2000) master control switcher can feed the transmitter directly (page 2−71) or indirectly by re−entering the routing switcher (page 2−72). The main difference between these two systems is the tally light next to the master control switcher.
Hardware Installation Î Î ÎÎ ÎÎ Î ÎÎ Î ÎÎ Î ÎÎ Î Î ÎÎ ÎÎ Î Î ÎÎ Î Î ÎÎ Î ÎÎ Î Î ÎÎ Î ÎÎ Î ÎÎ Î Î ÎÎ Î ÎÎ ÎÎ Î ÎÎ ÎÎ ÎÎ Î Î ÎÎÎ Î ÎÎÎ ÎÎÎ ÎÎ ÎÎ ÎÎ ÎÎ Saturn master control switcher Transmitter DIRECT Saturn processor Jupiter−controlled router Sources One connection per tally light. 100 V, 300 mA max. +5 V utility connection Video and audio Ground utility connection Jupiter Control lines MPK bus Tally light MI 3040 General Purpose/ Tally Interface 40 relays. See Fig. 2−90. Figure 2−83.
Hardware Installation See Note 1 on pg. 2−68 ÎÎ Î Î Î ÎÎ Î Î ÎÎ Î ÎÎ Î Î ÎÎ ÎÎÎ Î ÎÎ Î Î Î ÎÎ ÎÎ Î Î ÎÎ Î Î Î Î ÎÎ Î Î ÎÎ Î ÎÎ Î ÎÎ Î ÎÎ ÎÎ ÎÎ ÎÎÎ ÎÎ Î ÎÎ ÎÎ Saturn master control switcher Saturn processor Jupiter−controlled router Sources Transmitter INDIRECT One connection per tally light. 100 V, 300 mA max. +5 V utility connection Video and audio Ground utility connection Jupiter Control lines MPK bus Tally light MI 3040 General Purpose/ Tally Interface 40 relays. See Fig. 2−90.
Hardware Installation Î Î ÎÎ ÎÎ Î ÎÎ Î Î ÎÎ Î Î ÎÎ Î Î Î ÎÎ ÎÎ Î Î ÎÎ Î Î ÎÎ Î ÎÎ Î Î Î Î ÎÎ Î Î ÎÎ Î ÎÎ Î Î ÎÎ Î ÎÎÎ ÎÎÎÎ ÎÎ ÎÎ ÎÎÎ ÎÎ ÎÎ Saturn processor Saturn master control switcher Transmitter DIRECT Jupiter−controlled router Sources Equal number of connections Production switcher Switcher tally relays See Note 1 on pg. 2−68. One connection per tally light. 100 V, 300 mA max.
Hardware Installation See Note 1 on pg. 2−68. Î Î Î ÎÎ ÎÎ Î Î ÎÎ ÎÎÎ Î ÎÎ Î Î Î ÎÎ ÎÎ Î Î Î ÎÎ ÎÎ Î Î ÎÎ Î ÎÎ Î Î Î ÎÎ ÎÎ Î Î ÎÎ ÎÎ ÎÎ ÎÎÎ ÎÎ ÎÎÎ ÎÎÎ ÎÎÎ ÎÎ ÎÎ ÎÎ ÎÎ ÎÎ ÎÎÎ ÎÎ ÎÎÎ ÎÎÎ ÎÎÎ ÎÎ ÎÎ Saturn master control switcher Saturn processor Jupiter−controlled router Transmitter INDIRECT Sources Equal number of connections Production switcher Switcher tally relays See Note 1 on pg. 2−68. One connection per tally light. 100 V, 300 mA max.
Hardware Installation Transmitter DIRECT Non−Saturn non− MCS master control switcher Switcher tally relays Equal number of connections Jupiter−controlled router Sources Equal number of connections Switcher tally relays Production switcher See Note 1 on pg. 2−68 One connection per tally light. 100 V, 300 mA max. +5 V utility connection Video and audio Jupiter Control lines Ground utility connection MPK bus Tally light MI 3040 General Purpose/ Tally Interface 40 relays. See Fig. 2−90.
Hardware Installation Non−Saturn non− MCS master control switcher See Note 1 on pg. 2−68 Switcher tally relays Equal number of connections Jupiter−controlled router Transmitter INDIRECT Sources Equal number of connections Switcher tally relays Production switcher See Note 1 on pg. 2−68 One connection per tally light. 100 V, 300 mA max. +5 V utility connection Video and audio Jupiter Control lines Ground utility connection MPK bus Tally light MI 3040 General Purpose/ Tally Interface 40 relays.
Hardware Installation MI/MC 3040 Hardware Overview Optical status interface LCA MI−3040S 40 Optical couplers Relay Interface LCA MI−3040R 40 Opto− electronic relays Osc. 3.6864MHz 68HC705 Reset Gen. RESET Control PORT A PORT B Data/Address Bus RS−422 Driver/Receiver PORT B TO MPK Figure 2−89. MI/MC 3040 interface block diagram. The MI/MC 3040 interface provides 40 switch closures, monitors 40 isolated status inputs, and interfaces with a CM 4000 using MPK protocol.
Hardware Installation Utility Connections +5 V and ground utility connections are provided on the back panel. There are two +5 V connectors, each of which is equipped with a PCB−mounted 1 amp fuse. The fuse is designed to reset itself automatically. S1 9 10 11 12 13 14 15 16 8 7 6 5 4 3 2 1 8 7 6 5 4 3 2 1 U16 2 +5V R1 VBRD (31) 1 10K 2 U84 R9 3 F86 [SMT] 3 PVA1352 8 5 RDB (31) RDA (31) J2−B9 J2−B8 to external device 220 See Figure 2−92. Figure 2−90.
Hardware Installation Switch Relay S1−1 S1−2 S1−3 S1−4 S1−5 S1−6 S1−7 S1−8 24 25 26 27 28 29 30 31 Switch Relay S2−1 S2−2 S2−3 S2−4 S2−5 S2−6 S2−7 S2−8 32 33 34 35 36 37 38 39 Switch S3−1 S3−2 S3−3 S3−4 S3−5 S3−6 S3−7 S3−8 Relay Switch Relay Switch Relay 8 9 10 11 12 13 14 15 S4−1 S4−2 S4−3 S4−4 S4−5 S4−6 S4−7 S4−8 16 17 18 19 20 21 22 23 S5−1 S5−2 S5−3 S5−4 S5−5 S5−6 S5−7 S5−8 0 1 2 3 4 5 6 7 .
Hardware Installation Figure 2−93. MI/MC 3040 back panel.
Hardware Installation Under Monitor Displays UMD 9 SD Figure 2−94. SlimLine Under Monitor Status Displays (Standard screw mount models shown). UMD 12 SD UMD 14 SD Tally indicators UMD 19 SD UMD 19 DD UMD 19 UD Using Under Monitor Displays, the Jupiter system can display the name of a source (camera, VTR, etc.) when it is switched through a Jupiter−controlled router to a particular monitor.
Hardware Installation Note 1: When controlled by Jupiter or Saturn, SlimLine units display green characters, red tally indicators, and one tally level only. With the Universal Display, only the triple display mode is supported (i.e., 3 segments of 8 characters each, plus tally indicators). Note 2: Because the Cat 5 Ethernet cable connecting the controller to the UMDs carries power, the maximum recommended length is 15 m (50 ft). This is a standard (pin−for−pin) Ethernet cable, not a crossover cable.
Hardware Installation CONNECTION TO SYSTEMS WITH JUPITER−CONTROLLED ROUTER ONLY SlimLine UMDs are connected to the Jupiter CM 4000 through a SlimLine Controller, which has RJ45 ports for Cat 5 Ethernet cable connection to 16 UMDs. Power is provided to the UMDs through the Cat 5 cables. See Figure 2−96. Figure 2−96. SlimLine UMD Status Display installation.
Hardware Installation CONNECTION TO SYSTEMS WITH SATURN MASTER CONTROL SWITCHER A Saturn application is shown in Figure 2−97. No additional connections to the master control switcher itself are required, since all status data is transmitted on the LAN (page 2−65). PRESET PROGRAM AIR Cat 5 cable (see Note 2 on page 2−82) MPK bus loop to additional SlimLine Controllers SlimLine UMD Controller AC power Serial Port MPK bus Serial data cable (see page 2−63) CM 4000 LAN Sync ref. See pg.
Hardware Installation CONNECTION TO SYSTEMS WITH SATURN MASTER CONTROL AND PRODUCTION SWITCHER Using the “Jupiter control” method, UMDs can be used to display the names of inputs that pass through a production switcher as well as the Saturn. See Figure 2−98. PRESET Figure 2−98. Use of MI 3040 with UMDs and production switcher.
Hardware Installation Since production switchers do not use the Jupiter LAN, an MI 3040 General Purpose / Tally Interface must be used to obtain switcher status. For each feed from the Jupiter−controlled router to the switcher(s), there must be a connection from a switcher tally relay to one of the 40 opto−isolators of the MI 3040. This allows the system to determine what source has been selected by such switchers.
Hardware Installation Connection to Automation and Other Systems Note: The following refers to all automation−to−CM 4000 systems, including those with AccuSwitch. The AccuSwitch application itself is described in Appendix G. The CM 4000 will support multiple connections to an automation system (e.g., “channel A control” of an automation system could be connected to Serial Port 1 of the CM and “channel B control” connected to Serial Port 2).
Hardware Installation Connection to Devices using Jupiter ASCII Computer Interface Protocol Serial port Serial Port ASCII bus Control computer See pages 2−89 and 2−90 for examples of this cable LAN CM 4000 System Controller Sync ref. See pg. 2−64 Figure 2−100. These systems are similar to that shown on page 2−87. “ASCII” protocol is set on the Serial Protocol table (page 5−30); and the control computer is identified on the MPK Devices table (page 5−107).
Hardware Installation to CM 4000 Serial port to MSL 4000 IFS 4 1 G 6 Tx+ 1 Tx− 2 G 3 G 4 G 5 G 6 Rx− 7 Rx+ 8 2 Rx− 7 Rx+ 3 Tx+ 8 Tx− 4 9 5 DB9P (male) Belden 8723 or equivalent Figure 2−101. Cable for connecting CM 4000 to MSL 4000 IFS 4.
Hardware Installation to CM 4000 serial port to AT−type computer serial port 1 1 G G G 6 6 2 2 R− T− 7 R+ Tx 7 T+ 3 T+ 3 R+ 8 T− Rx 8 Tx R− 4 4 9 9 = twisted pair 5 5 LG RS−422/232 converter† DB9P (male) G R− R+ T+ T− Rx DB9S (female) Ground Receive minus Receive plus Transmit plus Transmit minus † A Black Box model GJ−IC455B Interface/converter is available from Grass Valley; part no. 05−040935−001. Tx Rx LG Transmit Receive Logic ground Figure 2−102.
Hardware Installation Encore Control of Jupiter The Encore System Controller Board (SCB) can send switching commands to a Jupiter control system (which can in turn send the commands to a Crosspoint Bus router such as Venus). This application uses the “ESswitch” Proposed ESbus Routing Switcher Dialect. Hardware connections are the same as those used when Jupiter controls an Encore system. See page 2−17 and following.
Hardware Installation 2−92 CM 4000 Installation and Operating Manual
Section 3 − Software Installation If the file server was purchased from Grass Valley, the software will have been installed at the factory. In this case, for quick system startup you may wish to refer to the Jupiter Getting Started Guide, part no. 04-045707-003. This booklet provides an abbreviated version of the configuration instructions in this manual.
Software installation 3−2 CM 4000 Installation and Operating Manual
Section 4 − Jupiter Network Suite Control Console The JNS Control Console is the application used to launch the various Jupiter Network Suite (JNS) programs. It is also used to launch the Jupiter Configurator (table editor). The Jupiter Network Suite is a collection of several programs designed as a replacement and enhancement to the Jupiter Network Interface Application (JNIA) software.
JNS Control Console Figure 4−1. The JNS Control Console must be “connected,” i.e., directed to examine/control a particular computer. In this example, there is only one computer—the “File Server.” Click on the computer, then Connect. A menu similar to that shown in Figure 4−2 will appear. Note 1: When starting the Jupiter software for the first time, you may need to confirm that the file “JNS Console.ini” should be created.
JNS Control Console Figure 4−2. The “connection” step will automatically launch certain JNS “servers” (programs) on the File Server PC. Running programs are indicated by the term “Local.” These background programs provide data needed by other software: specifically, the JNS Applications, Tools, and Utilities.
JNS Control Console Party Line Download Physical Control Physical Remapping Utility Router Save/Restore † 14−1 16−1 18−1 JNS Utilities Group Physical Diagnostic Utility 15−1 Click on the appropriate group button, then the program button. For information about individual programs, refer to the page number shown. When the Jupiter system is set up initially, the “Jupiter Configurator” must be used next. This is described in Section 5 of this manual. † Not supported by CM 4000.
Section 5 − Configurator Following hardware installation, all connections to the Jupiter system including those for control, video, audio, data, and tally must be identified and described in a “Configuration Set” consisting of a collection of user−defined tables. The configuration editor (“Configurator”), the editing program used to create and edit these tables, is designed to eliminate manual entry of repetitive information and operate in a familiar, “Windows−like” environment.
Configurator 5. To access Jupiter tables, use the “Jupiter” pull−down menu. For example, if you select the Network Description table the display will be similar to the following (Figure 5−1). Figure 5−1. Jupiter Configurator menu with Network Description table open. If a password entry menu appears, it means that a Jupiter password (other than the factory default of “999999”) has been set. Enter the authorized password and click on “OK.” The password system is discussed in detail starting on page 5−22.
Configurator Configurator Editing Guidelines AUTOMATIC TABLE ENTRY This function is designed to expedite the data entry process and eliminate errors due to differences in spelling and entry of inappropriate data. In cases where a controller board or device must be entered on more than one table, Configurator will automatically copy (or offer as a selectable item) the data entered on the “initial entry” table to all “secondary” tables (including Saturn tables).
Configurator When creating a name for a Jupiter set, table, control panel, or other device, it’s a good practice to use letters and numbers only. If you want to use punctuation or special characters, check the list on page 5−7 before creating a name. • To jump to the bottom of a table, press CTRL+DOWN; to jump to the top, press CTRL+UP. • To scroll to the bottom of a long table, press and hold PAGE DOWN. You can also “drag” the scroll box, or click and hold on the scroll arrows.
Configurator FIND / FILL / INCREMENT “Edit > Find” − searches for a text string in all open tables. “Edit > Fill” − this is a copy/paste function for use with tables containing repetitive material. Select the row or column with the desired text and then “Edit > Fill Right” or “Edit > Fill Down” to paste the information. “Edit > Increment” function − similar to “Edit > Fill” except that incrementing numbers are automatically created in columns to the right or rows below as desired.
Configurator Keyboard Shortcuts To select an entire column, click the name of the column. Click anywhere outside the column to un−select. To select an entire row, click the number of the row. Click anywhere outside the row to un−select. COPY AND PASTE ROWS BETWEEN THE WINDOWS CLIPBOARD AND JUPITER Before copying from a Windows program to Jupiter, be sure to read “Important” on page 5−4.
Configurator Jupiter Naming Rules When creating a name for a Jupiter set, table, control panel, or other device, the following rules should be observed: • Eight character maximum.
Configurator Configuration Set Management The top of the Configurator menu (page 5−9) shows the name of the selected set. This is the system configuration directory that is currently selected for editing. After a set is edited, it should be saved and then compiled. If compiling is successful, the set name will appear on the Jupiter Network Suite Control Center “Application” menu; the set can then be selected for downloading, during which a copy is sent to the system hardware.
Configurator Open Configuration Set C:\PROGRA~1\Thomson\J Figure 5−7. Configuration set editing and downloading.
Configurator COPYING A CONFIGURATION SET FOR EDITING Make a copy of the latest known−good set as follows: 1. On the “File” portion of the Jupiter Configuration menu (page 5−2), click on “Open.” This will bring up a menu similar to that shown in Figure 5−8. This menu will list all existing system configuration sets. The NUMERIC sets are factory−supplied sets provided for quick start and diagnostic purposes. For more information, see page 5−11. The list may also contain a test set used at the factory.
Configurator MAKING THE DESIRED MODIFICATIONS TO THE SET Editing procedures for specific modifications are described later in this manual, starting with the Network Description table on page 5−27. From the Network Description table, you should move on to the Serial Protocol table, then the Switcher Description table, and so on through the remaining Jupiter tables. See page 5−12. Note: As previously explained, you cannot enter data on “secondary” tables first.
Configurator c:\Program Files\Thomson\JUPITER\Config Password Table Configuration set “CONFIG01” Configuration set “CONFIG02” ——Network Description ——Serial Protocol ——Network Description ——Serial Protocol ——Switcher Description ——Switcher Input ——Switcher Output ——Switcher Description ——Switcher Input ——Switcher Output ——CP Level Sets ——“KXYZ−LEV” —— ——CP Input Sets ——“KXYZ−INP” —— ——CP Output Sets ——“KXYZ−OUT” ——“MC−OUT” ——“SHOP” ——“DELAY−OUT” ——etc.
Configurator VALIDATING, COMPILING, AND ACTIVATING (DOWNLOADING) A CONFIGURATION SET 1. After you have finished editing, select the “Tools > Validate All Tables” pull−down menu on the main menu menu (page 5−2). If a validation error is reported, move the cursor to the red−colored area of the table to view the reason for the error. Correct the error and run the validator again. 2. Select the “Tools > Compile” pull−down menu on the main menu menu (page 5−2).
Configurator Caution: Once the activate/reboot command has been issued, do not interrupt the process until the reboot is complete. Interruptions such as sending a new command, turning off power, or disconnecting cables will have unpredictable consequences. With a CM 4000, such consequences can include corruption of data stored in flash memory and on the CM hard drive.
Configurator DOWNLOAD NOW / REBOOT LATER (“PENDING REBOOT”) Please refer to Figure 5−11. In order to minimize system downtime due to changes in configuration and application code and to provide the operator the ability to coordinate the time that the system is unavailable, modifications were made to Windows and the CM 4000 embedded code resulting in a different configuration set and code activation procedure compared to previous Jupiter releases.
Configurator Download now / Reboot later procedure 1. Go to “Control Center > Configuration > On Activation > Select and Reboot.” Then select a set and click “Activate.” See Figure 5−12. Figure 5−12. Note 1: With the CM, choosing “Select and Reboot” will not cause the CM to reboot. Reboot of the processor should be accomplished through the use of the Reboot button on the Board Info/Control menu, as described below.
Configurator Downloaded Set Copy of Application (executable code) Reboot Reboot Operating set Executing Application “CONFIGURATION PENDING REBOOT” is indicated when these two sets do not match CM 4000 Figure 5−13. Downloaded Set Copy of Application (executable code) Reboot Reboot Operating set Executing Application “CODE PENDING REBOOT” is indicated when these two sets do not match CM 4000 Figure 5−14.
Configurator Figure 5−15. The “OK” message means that the set/code executing are the same as the set/code on the file server. Important: In systems with more than one controller board it is a good practice to complete the Pending Reboot process as soon as practical. Mismatch Indicator Please refer to Figures 5−16 and 5−17. Under certain conditions, it is possible for the set/code downloaded (or selected for download) to be different than the software that is actually in operation.
Configurator Figure 5−16. Set selected for download Application (executable code) “Activate” (Download) “Activate” (Download) Downloaded set Copy of Application (executable code) Reboot Reboot Operating Set Executing Application FILE SERVER “CODE MISMATCH” is indicated when these two applications do not match CM 4000 “CONFIGURATION MISMATCH” is indicated when these two sets do not match Figure 5−17.
Configurator Troubleshooting ERROR CONDITIONS — “00,” “01,” or “FF” remain indicated on the front panel LED display. Red Alarm light on controller board remains On. The meaning of the various possible LED on/off combinations is shown in Appendix R. — The “Device not connected” message fails to appear or clear. There may be a download fault in the CM 4000 serial control section. It may be possible to correct this by resetting the board manually. See Appendix B.
Configurator To unzip a set, click on “Tools > Unzip Configuration Edit Set”. You will be asked which file to unzip. Make sure that the selected file is a valid zip file that was created by the method outlined above. Once you select a zip file and click OK, the set will be unzipped. If the set already exists, you will be asked if you want to overwrite the set. If you select OK, the set will be overwritten.
Passwords Configurator Passwords Quick Start tip: You may wish to skip the Password table when you first configure the system. If password levels are needed they can be added later. The Jupiter passwords are arranged in a hierarchy, with the “99” level password being the equivalent of a supervisor password. Entry of a 99−level password on the main menu (page 5−2) will allow any system operation, including starting the Jupiter software and creating or changing passwords.
Configurator Passwords However, Bill can enter his own personal password into his panel (or anyone else’s) and temporarily raise the panel’s level to “99.” A new source could then be switched to the Lobby: 99 ÇÇÇ ÇÇÇ ÇÇÇ 80 ÇÇÇ ÇÇÇ ÇÇÇ ÇÇÇ ÇÇÇ ÇÇÇ 90 50 Boss Bill Bill’s control panel Dave’s control panel LOBBY Figure 5−19. Raising the level of a panel. Furthermore, the level of a panel can be raised just long enough to make one switch (or until someone logs out of the panel).
Passwords Configurator When the level of a panel is raised only temporarily, then re−entry of a password will be required for special commands such as protect* and lock,* and for front−panel definition of overrides.* It may also be required for executing an Input Sequence.* For example, Operator Dave can protect the feed to VTR1 (Figure 5−20). No other panel, regardless of password level, could then be used to change the source: † Figure 5−20. Protecting an output.
Configurator Passwords Systems are shipped with a password level of 00 for all panels and outputs; therefore any password can initially be used to access all control panel functions. As shown in Figure 5−9, there is only one table of passwords, and this table is used no matter what configuration set is active or selected for editing. However, the password levels for individual control panels and outputs are stored with individual configuration sets. CHANGING PASSWORDS 1.
Passwords Configurator 5. Use TAB (or click) to select the Level field. Type in the revised password level (if any). This must be a number from 00 to 99. In this example, pressing Enter at this point will create a row for another password. (If left blank, the new row will be deleted automatically when the table is saved.) 6. When editing is complete, select “OK.” To save the changes, select “File > Save.” SETTING PASSWORD LEVELS FOR CONTROL PANELS Please see page 5−113.
Configurator Network Description Table Network Description This table must be used when the following are first installed on the LAN: • CM 4000 System Controller • Saturn Master Control Switcher† • Software Control Panel Suite‡ Password 5−22 Network Description Board Name 1 CM1 Type SB Address 0080CE010100 Redundant Address 0080CE010101 Network Description Serial Protocol 5−30 Switcher Description 5−35 Switcher Input 5−48 Switcher Output 5−55 2 3 Figure 5−24. Network description (example).
Configurator Network Description Table AUTOMATIC TABLE ENTRY Because entries on this table are needed on other tables, the Configurator will automatically copy (or offer as a selectable item) the data entered on this “initial entry” table to all “secondary” tables (including Saturn tables). For example, when a CM 4000 is entered, the name chosen will be added automatically to the Serial Protocol table. For more information about automatic table entry, see page 5−3.
Configurator Network Description Table 5. Press TAB to advance to the board Type box. A pop−up menu will list the possible board types.
Serial Protocol Table Configurator Serial Protocol The Serial Protocol table must be used when a CM 4000 System Controller is first connected to VTRs, control panels, and other serial control devices. This includes “remote” (third party) switchers.† This table is also used when a Saturn video processor serves as a connection point for an MPK bus, and/or when a PC acts as a Software Control Panel.
Configurator Serial Protocol Table ENTERING PROTOCOL FOR CONTROLLER BOARD PORTS 1. On the top of the Jupiter Configurator window (page 5−2), check to see whether the configuration set you want to change is selected for editing. In most cases, you will want to modify the set that is currently active; if so, you may want to copy the active set and select the copy for editing. For more information, please see Copying a Configuration Set for Editing on page 5−10. 2. Click on “Jupiter > Serial Protocol.
Serial Protocol Table Configurator Device type Protocol 1200 2400 4800 9600 19200 38400 115000 ES Control ESC NA NA NA NA NA Std NA ES−Control Panel ESCP Opt Opt Opt Opt Opt Opt Std ESW−Physical ESP Opt Opt Opt Opt Opt Std NA ES Switch ESW Opt Opt Opt Opt Opt Std Note 1 GVG Horizon HRZ NA NA NA NA NA Std NA GVG Native Protocol GNP Opt Opt Opt Std Opt Opt Opt MPK MPK Note 3 Note 3 NA NA NA Std NA Nexus NXS NA NA NA NA NA Std NA
Serial Protocol Table Configurator ES (ESbus) is for controlling a EBU/SMPTE ESbus−compatible VTR. ESC (ESbus control) is for controlling a “remote” (third−party) routing switcher using the proposed ESbus routing switcher dialect.) ESCP (ES−Control Panel) is for a JEP−100 Jupiter / Control Panel operating in Serial mode. For more information, refer to the JEP−100 manual, part no. 071 8376 xx. ESW (ESswitch) This is a simplified version of the ESbus Tributary protocol.
Serial Protocol Table Configurator SATURN VIDEO PROCESSOR − ENTRY FOR MPK PORT The Saturn Master Control Switcher video processor (either digital or analog) can be used as an alternate connection point for an MPK bus. (In Saturn stand−alone systems, it would be the only MPK port available.) Typical uses for the MPK bus include: • Connection to an MI 3040 General Purpose / Tally Interface (see page 2−66 for a system illustration). • Connection to the Saturn console’s Select button group.
Configurator Switcher Description Table Switcher Description Switcher Description Switcher Level VI RV MC Board #In #Out PLvL Follow Level Driver 3 LI 3 LO Option Audio 1 MAINROUT VIDEO CM1 64 64 1 Binary None 2 MAINROUT LEFT CM1 64 64 2 Binary Left 3 MAINROUT RIGHT CM1 64 64 6 Binary Right 4 MAINROUT TC CM1 64 64 3 Binary 5 MAINROUT DATA CM1 65 65 16 DM400B DM 400 Off Time None Enforce 6 Logical level number Physical level number Logical level
Switcher Description Table Configurator ENTERING SWITCHER LEVELS DESCRIPTIONS 1. On the top of the Jupiter Configurator window (page 5−2), check to see whether the configuration set you want to change is selected for editing. In most cases, you will want to modify the set that is currently active; if so, you may want to copy the active set and select the copy for editing. For more information, please see Copying a Configuration Set for Editing on page 5−10. 2. Click on “Jupiter > Switcher Description.
Switcher Description Table Configurator This method of enforcing vertical interval switching applies only to Grass Valley switchers operating on the Crosspoint Bus port of the CM. For “remote serial control” applications, including Triton, VI should be unchecked on all levels. 5. RV Reverse switching. This item applies only to certain data switchers. For video, audio, and time code switchers, leave unchecked.
Switcher Description Table Configurator #In 8. #Out Enter the number of inputs and outputs for this logical level. For Venus video switchers, the maximum for one logical level is 1024 in and out. For Venus audio switchers, where the left and right channels are assigned to different levels, the maximum number of inputs is 512 per level; the maximum number of outputs is 1024 per level.
Configurator Switcher Description Table b. Apex digital audio routers are usually factory set to operate in “two−level stereo” mode, which permits special stereo mode switching such as mix and reverse. The left level is normally set on the rear panel as level 32. The Right stereo channel is automatically given the same number plus 4. This setting requires configuration of two physical levels, typically Level 32 and Level 36. For more information about these hardware settings, refer to the Apex manual.
Switcher Description Table Configurator Note: If non−factory default numbers are used, the following rules should be kept in mind: 1) For analog audio left levels, and for digital audio levels, the binary form of the physical level number cannot have the 4s bit set to 1; e.g., decimal ”2” (binary 00000010) can be used for analog audio left but decimal ”4” (binary 00000100) cannot.
Configurator Switcher Description Table In this example, the Green and Blue chassis would also have their Router Address switches set to “0000.” f. Conventional TVS/TAS square matrix switchers. For these switchers the hardware switches are usually set as follows: Name of level Physical level no.
Switcher Description Table Configurator j. Datatek D−2000/2166†. The physical level number can range from 0 to 6. k. ESbus switchers§. The physical level number can range from 0 to 254 (but is limited to 96 by the CM 4000). l. Nexus†. The physical level number is 0. m. Utah Scientific† switchers. The physical level number can range from 0 to 3. Notice that protocol can be assigned on a level−by−level basis.
Configurator Switcher Description Table 11. Driver Select distribution switcher protocol (“Driver”). Figure 5−29. Switcher protocol selections.
Configurator Switcher Description Table For Triton switchers, select an “A” for each audio chassis. Triton data switchers with rear−panel DIP switch 7 DOWN (“controlled as audio”) also require an “A” entry. For Triton video switchers, or for Triton data routers with switch 7 UP (“controlled as video”), leave the column blank. DM 400 Off Time 15. This item applies only to data switchers (see page 5−47). For video, audio, and time code switchers, leave blank. 16.
Configurator Switcher Description Table Option POINT−TO−POINT DATA SWITCHING OPTIONS (“Normal/Advise/Enforce”) Normally, a distribution switcher allows an input to be sent to more than one output. For example, the video in Figure 5−30 could be switched to two destinations at the same time. Figure 5−30. Video In a data switcher, it may be desirable to restrict operation to “point−to−point” switching.
Switcher Description Table Configurator When “Enforce” is turned on, and an attempt is made to switch control to a new device, then the device presently being controlled will be switched automatically to a “safe” (non−existent) input (Figure 5−32). Figure 5−32. “Safe input” Editor VCR 1 Controller level VCR 2 The control device would then be switched to the new destination (Figure 5−33). Figure 5−33.
Configurator Switcher Description Table DM 400 Off Time DATA SWITCHING − OFF TIME BETWEEN SWITCHES Number of frames switcher will dwell on Safe input when switching between controlled devices When a switch occurs from one VTR control cable to another where the VTRs are of different types, the switch can occur so rapidly that the editing system may not know that a new type of VTR has been connected.
Switcher Input Table Configurator Switcher Input The switcher input table must be used to assign a logical name to each physical input. If there is more than one switcher in the system, a table must be defined for each. Figure 5−35 shows a table for switcher “MAINROUT.
Switcher Input Table Configurator Note: an input name is not entered directly at switcher control panels; rather, it is linked to a category and entry number through the CP Input Sets table. The category and entry number are then entered at the control panel to make the switch. The status mnemonic that appears on control panels is also determined by the CP Input Sets table. For more information, see page 5−62. Important: Mars physical input numbers, when controlled by a Jupiter system, are not continuous.
Switcher Input Table Configurator SPLIT SWITCHING Split (or breakaway) switching is the selection of one input on one level and another input on another level. An example would be the selection of color bars on the video level and test tone on the audio levels. Split switches can be manual, where the operator addresses individual levels and makes each switch separately; or, automatic, where a single category / entry number will cause the split to occur.
Switcher Input Table Configurator ENTERING OR EDITING INPUT NAMES AND NUMBERS 1. On the top of the Jupiter Configurator window (page 5−2), check to see whether the configuration set you want to change is selected for editing. In most cases, you will want to modify the set that is currently active; if so, you may want to copy the active set and select the copy for editing. For more information, please see Copying a Configuration Set for Editing on page 5−10. 2. Click on “Jupiter” and “Switcher Input.
Switcher Input Table Configurator DATA SWITCHING APPLICATIONS In Venus DM 400B data switching applications, the switcher input table is used to assign a logical name to each physical port connected to a “tributary” device. See Figures 5−38 and 5−39. Note: Configuration of DM 400/400A Data Matrix boards is described in Appendix L. Controller Tributary Editor selected as switcher OUTPUT Port 00 VTR 1 selected as switcher INPUT Port 01 DM 400B Data Matrix Tributary Figure 5−38.
Configurator Switcher Input Table Controller / Tributary Reassignment Some VTRs can themselves act as controllers or tributaries. With the DM 400B the associated ports can be configured as both inputs and outputs; this allows their pinouts to adjust automatically depending on which VTR is selected as the output (controller) and which is selected as the input (tributary).
Switcher Input Table Configurator Switcher Input − MAINROUT Logical Input VIDEO Name LEFT RIGHT TC DATA 1 SAFE 064 2 VT01 001 001 001 001 001 3 VT02 002 002 002 002 002 Figure 5−43. Switcher Input and Output tables for application shown on page 5−53.
Configurator Switcher Output Table Switcher Output The Switcher Output table performs much the same function as the switcher input table (described on page 5−48) except that it applies to outputs.
Switcher Output Table Configurator S−T A Security Board Type can be entered. Only controls connected to a control board of that type could then be used to switch the output. A dash (“−”) entry means “none.” The board types that can be selected are “VM” and “SI.” Note: In systems with CM 4000/Jupiter XPress, this field should be left blank (since Jupiter XPress cannot be used in a system that includes VM/SI controllers). Pass word A password level can be entered for the output.
Switcher Output Table Configurator 5. To close the table, click OK. 6. Click on “File > Save” to save the table. 7. Select the next table for editing. When finished, validate, compile and activate the configuration set. (See page 5−13.) SETTING PASSWORD LEVELS FOR SWITCHER OUTPUTS In addition to individual Jupiter passwords assigned to each user, individual switcher outputs can be given a password level. This can be used to provide varying levels of protection from one switcher output to another.
CP Level Set Configurator CP Level Set Figure 5−45. Password 5−22 Network Description 5−27 Serial Protocol 5−30 Switcher Description 5−35 Switcher Input 5−48 Switcher Output 5−55 1 VID VIDEO (MAINROUT) 2 LEFT LEFT (MAINROUT) Control Panel Sets Level set Input set 5−62 Output set 5−78 Override set 5−96 Sequence set 5−99 Category set 5−101 3 RGHT RIGHT (MAINROUT) MPK Devices 5−107 4 TC TC (MAINROUT) CP Level Set — KXYZ−LVL Mnemonic Figure 5−46.
CP Level Set Configurator Note 1: For CP 328 panels, under monitor displays, DD production switchers, or external computer control, use set type “CP 3000.” This is true even when the device can display more than four characters. Mnemonic The Mnemonic column of this table is the source for the ID of each level that will appear on control panels during input selection. Level The Level column determines the order in which the switcher levels will appear in the control panel status display.
CP Level Set Configurator A Note Concerning Level Numbering and External Control Computers Using ASCII Protocol ASCII protocol switching instructions include specification of output, input, and level; with level indicated by a number from 1 to 7. These level numbers correspond to the order in which levels are listed on the CP Level Set table.
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CP Input Set Configurator CP Input Set Password 5−22 Network Description 5−27 Serial Protocol 5−30 Switcher Description 5−35 Switcher Input 5−48 Switcher Output 5−55 1 Test 1 BARS BARS Control Panel Sets Level set 5−58 Input set Output set 5−78 Override set 5−96 Sequence set 5−99 Category set 5−101 2 Test 2 TONE TONE MPK Devices 5−107 3 Test 3 CODE TC 4 VTR 1 VT01 VT01 Machines 5−135 Machine Control 5−139 Delegation Groups 5−149 5 VTR 2 VT02 VT02 6 VTR 3 VT03 VT03 7 VTR
Configurator CP Input Set In the example shown in Figure 5−48, selecting VTR/1 on a control panel will call for the input named “VT01.” The system will look on the Switcher Inputs table for this input name and switch to the indicated inputs; in this case, input 001 for all four levels. The mnemonic “VT01” will be used in the control panel status windows to report the switch.
CP Input Set Configurator PRIMARY (P) AND INDIRECT (I) STATUS INSTRUCTIONS (“SPLIT MNEMONICS”) While the Switcher Inputs table has provision for only one mnemonic per input name (page 5−47), split switching requires a different mnemonic for each device selected.
Configurator CP Input Set BLACK TONE 62 63 64 65 66 TIME CODE GEN TONE 0 1 2 3 4 0 1 2 3 4 0 1 2 3 4 Left audio Right audio Time code Video [4] Switcher Input − MainRout Switcher Input Name [1] 1 2 3 4 5 6 7 8 VIDEO LEFT RIGHT TC BARS TONE TC VT01 VT02 VT03 VT04 VT05 000 064I 000I 000P 000I 000P 001 002 003 004 005 001 002 003 004 005 001 002 003 004 005 000I 000I 000P 001 002 003 004 005 BLK 064P 060I 060I [5] [2] [6] [7] [3] Input Set — KXYZ−INP 1 2 3 4 5 6 7 8 Mnem
CP Input Set Configurator ENTERING OR EDITING A CP INPUT SET (Includes procedure for assigning category/numbers or mnemonics) 1. On the top of the Jupiter Configurator window (page 5−2), check to see whether the configuration set you want to change is selected for editing. For more information, please see Modifying and Downloading a System Configuration Set on page 5−8. 2. Click on “Jupiter,” “Control Panel Sets,” and “CP Input Set.” This will open a list of all existing CP Input Sets. Figure 5−50.
Configurator CP Input Set If you want to use a factory default category set (as shown on pages 5−68 and 5−69) leave the Category Set as “Default.” If you wish to associate an existing Input Set with a different category set than the one originally assigned, see page 5−105. 6. Click on one of the CP types: CP320 CP328 CP2002B CP3000 CP3008† CP3310 CP3800 CP3808 CP3824 CP3830 CP3832 EMEM MC3020L† SATRN† SERIAL UMD3A Figure 5−51.
CP Input Set Configurator • For CP 3832 or CP 3864 control panels (including type “L”), a type “cp3832” table will be required. Click on “Apply” and “Open Table” to open a blank version of the CP table. Then skip to Step 14. 7. If you click on an existing Input Set, this will call up a table similar to that shown in Figure 5−52. Input Set — KXYZ−INP Entry Category 8.
Configurator CP Input Set b. Specify the desired Entry (unit) number. This can be done by clicking on the desired “Entry” field and typing in the number. Press ENTER. Guidelines for using the editor are found on page 5−3. Note: For an input that is heavily used, an entry number of zero can be specified to help speed up control panel operation.
CP Input Set Configurator The 15−category factory default set used for CP 3824 panel is as follows: VTR AUX STU CG SS TEST NET REM SAT VCR FILM FS CAM PTCH MISC The 12−category factory default set used for the CP 3830 panels: VTR ENG EC AUX GFX REM POST TEST Studio NET Xmsn NUM Guidelines for using the editor are found on page 5−3. b. Specify the desired Entry (unit) number. This can be done by double−clicking on the desired “Entry” field and typing in the number. Press ENTER.
Configurator CP Input Set 11. DD (“Diamond”) − E−MEM For DD applications, both E−MEM and Serial tables will probably be required. The dual entries are necessary because of the two hardware connections, as previously described (page 2−60). For the E−MEM table, you will need entries similar to that shown in Figure 5−53. Input Set — DIA−INP Category a.
CP Input Set Configurator 12. DD (“Diamond”) − serial For the Serial table, you will need entries similar to those shown in Figure 5−54. Input Set — ASC−INP Logical Entry Input 1 0 BARS 2 1 TONE 3 2 TC 4 3 VT01 5 4 VT02 6 5 VT03 7 6 VT04 8 7 VT05 48 47 ESS Figure 5−54. Diamond Serial Input Set menu. There are no category choices, since the DD identifies inputs and outputs by number only. a. Specify the desired Entry (unit) number.
CP Input Set Configurator Note: For Thomson Broadcast Automation systems, it is suggested that you print out this Input Set; you will need this information when setting up the Automation Switcher Initialization menu. The input names entered on the Jupiter Input Set table must be in the same order as they are on the Automation table. Any changes made to one table must also be made to the other. When finished, skip to Step 15.
CP Input Set Configurator 14. CP 3832 / CP 3864 If you are entering a set for CP 3832 or CP 3864 (including type “L”), a menu similar to that shown in Figure 5−56 will appear. The purpose of the table is to assign a button position (row number) to each switcher “Input” name. In Figure 5−56, button position “1” will be used to select input “CAM1.” Note that destination buttons are defined on a CP Output Set (page 5−78).
Configurator CP Input Set CP Input Set − 3832−IN Input button 1 Category Input button 64 Entry Mnemonic Logical Input CAM1 CAM1 default 1† 2† CAM2 CAM2 default 64 † VTR12 VTR12 1 default 2 64 Figure 5−59. Entries for CP 3864 operated as single− bus panel. CP Input Set − 3832−IN Category Input button 1 Entry Mnemonic Logical Input CAM1 CAM1 default 1† † 2 CAM2 CAM2 default 32 † VTR12 VTR12 1 default 2 32 IN OUT Input button 32 Input button 1 Figure 5−60.
CP Input Set Configurator Figure 5−62. Entries for CP 3832 (configured as balanced split panel) with 2nd CP 3832 used as source expansion panel. CP Input Set − 3832−IN Category Input button 1 Entry Mnemonic Logical Input 1† 2† CAM1 CAM1 CAM2 CAM2 VTR12 VTR12 default 16 † 17 † VTR13 VTR13 default 48 † VCR12 VCR12 1 default 2 default 16 default 17 48 Input button 17 Input button 48§ Input button 16§ CP 3832 IN OUT 15. To close the table, click OK. 16.
Configurator CP Input Set Copying a CP Input or Output Set for Use with a Different Panel Type After you have created a CP Input or Output Set for one panel type, you may want to copy it for use with a different panel. For example, you may have a set for CP 3000 panels, and want to use it with a CP 320.
CP Output Set Configurator CP Output Set Password 5−22 Network Description 5−27 Serial Protocol 5−30 Switcher Description 5−35 Switcher Input 5−48 Switcher Output 5−55 Control Panel Sets Level set 5−58 Input set 5−62 Output set Override set 5−96 Sequence set 5−99 Category set 5−101 Output Set — MC−OUT Category Entry Auto Mnem Mnemnonic Logical Output Level Set Button MPK Devices 5−107 Machines 5−135 Machine Control 5−139 Delegation Groups 5−149 1 STU 1 QC QC 2 VTR 1 VT01 VT01 3 VTR 2
Configurator CP Output Set — You may want a control panel in the master control room to have access to all possible outputs. This panel might be assigned to Output Set “MC−OUT,” which includes a category/number entry for all destinations. — However, you may want a control panel in a particular department to have access to only a selected number of outputs. This panel would be assigned to an Output Set (such as “NEWS−OUT”) which has only those outputs listed.
CP Output Set Configurator Copying a CP Output Set for Use with a Different Panel Type After you have created a CP Output Set for one panel type, you may want to copy it for use with a different panel. For example, you may have a set for CP 3000 panels, and want to use it with a CP 310. You will need to re−enter the category/number selections (because of the difference in the number of possible categories), but you can save time by copying the set in order to use the same mnemonics and output names.
Configurator CP Output Set ENTERING OR EDITING A CP OUTPUT SET (Includes procedure for assigning category/numbers or mnemonics) 1. On the top of the Jupiter Configurator window (page 5−2), check to see whether the configuration set you want to change is selected for editing. For more information, please see Modifying and Downloading a System Configuration Set on page 5−8. 2. Click on “Jupiter > Control Panel Sets,” then “Output.” This will open a list of all existing CP Output Sets. Figure 5−65.
CP Output Set Configurator If you want to use a factory default category set (as shown on pages 5−84 and 5−85), leave the Category Set as “Default.” If you wish to associate an existing Output Set with a different category set than the one originally assigned, see page 5−105. 6. Click on one of the CP types: Create Output Set CP310 CP320 CP328 CP2002B CP3000 CP3008† CP3310 CP3800 CP3808 CP3824 CP3830 CP3832 EMEM MC3020D† MC3020L† SATRN† SERIAL UMD3A Figure 5−66. .
Configurator CP Output Set • For CP 330/6 panels, select type “CP310.” This panel does not use categories or mnemonics, but the table is used to assign the panel’s six outputs. Press the INSERT button to start building the table. Then skip to Step 11. • For CP 330 panels operated in dual bus mode, select type “CP3000.” This panel does not use categories or mnemonics, but the table is used to assign the panel’s two outputs. Press the INSERT button to start building the table. Then skip to Step 12.
CP Output Set Configurator 9. CP 2002, CP 3000, CP 3800 a. Select the desired Category from the pull−down menu. The 20−category factory default set used for CP 2002, CP 3000, and CP 3800 panels is as follows: VTR VCR FILM AUX b. CG CAM PTCH TEST NET REM STU MISC SAT EJ** FS SS A B C D **EMER on CP 3800 Specify the desired Entry (unit) number. This can be done by double−clicking on the desired “Entry” field and typing in the number. Press TAB.
Configurator CP Output Set Note: If an output is permanently assigned to a CP 3010 button, but that output is later removed from the CP Output table and the new set downloaded, the CP 3010 will continue to display the name of the output until the output is manually deleted. This is done by selecting an output that is not defined and pressing the appropriate TAKE key on the expansion panel.
CP Output Set Configurator b. Specify the desired Entry (unit) number. This can be done by double−clicking on the desired “Entry” field and typing the number. Press ENTER. c. Select the Output name. The source of these names is the Switcher Output table (page 5−55). d. Check the Auto Mnemonic box or enter the desired Mnemonic. The Auto Mnemonic function can be used to enter a control panel mnemonic automatically based on the Name given to the output.
Configurator CP Output Set When finished, skip to Step 17. 13. DD (“Diamond”) − E−MEM For DD applications, both E−MEM and Serial tables will probably be required. The dual entries are necessary because of the two hardware connections, as previously described (page 2−60). For the E−MEM table, you will need entries similar to that shown in Figure 5−68.
CP Output Set Configurator 14. DD (“Diamond”) − serial For the Serial table, you will need entries similar to those shown in Figure 5−69. Output Set − ASC−OUT Entry a. Logical Output 1 1 DD01 2 2 DD02 3 3 DD03 4 4 DD04 5 5 DD05 6 6 DD06 Figure 5−69. Serial Input Set menu. Specify the desired Entry (unit) number. Note: These Entry numbers must match the numbers assigned to the six buttons of the DD Delegation Bus, using the DD “Install > Extern Aux > Config” menu.
Configurator CP Output Set 15. Thomson Broadcast Automation / External Computer If you are entering a set for a serial control device, you will need a table similar to that shown in Figure 5−70. Output Set − ALAM−OUT Logical Entry Output 1 1 QC 2 2 VT01 3 3 VT02 4 4 VT03 5 5 VT04 6 6 VTO5 7 7 VT06 8 8 VTO7 n n VTnn Figure 5−70. Serial Output Set table. The purpose of the table is to establish a unique “Entry” number for each switcher “Output” name.
CP Output Set Configurator 16. CP 3832 / CP 3864 / CP 3810 Note: For CP 3832/64 panels, this table is only needed when more than one output is to be controlled. If you are entering a set for CP 3832 or CP 3864, a menu similar to that shown in Figure 5−71 will appear. The purpose of the table is to assign a button position (row number) to each switcher “Output” name. Exact table entries will depend on the panel and the application, as shown in the following examples.
Configurator CP Output Set A split panel can also be configured with a different number of inputs and outputs (“unbalanced split”), but such panels cannot be expanded. In this application, the number of outputs can be from 1 to 15 (CP 3832) or 1 to 31 (CP 3864). Buttons not assigned to outputs are available for inputs. For example, if two buttons are used for outputs, then 30 buttons will be available for inputs on a CP 3832 panel. See Figures 5−73 and 5−74.
CP Output Set Configurator Expansion mode. Unless the panel is operated in “unbalanced split” mode, control of additional outputs is possible using adjacent CP 3832 or CP 3864 panels. See Figure 5−75.
Configurator CP Output Set The CP 3832/64 can be also be operated in connection with an adjacent CP 3810 Expansion Panel. See Figure 5−76. CP 3832 (Main panel) CP 3810 Output Set — 3832−OUT Category Entry Mnemnonic Logical Output Lev Set Button 1 default 1† MONITOR1 MON1 1 2 default 2† MONITOR2 MON2 2 8 default 8† VTR−4 VTR4 8 9 default 9† VTR−5 VTR5 9 PAGE 1 PAGE 2 16 default 16 † VTR−12 VTR12 16 Figure 5−76. Entries for CP 3810 used as multi−destination panel.
Configurator CP Output Set Multiple Switcher Installations Please refer to Figure 5−77 for the following discussion. When more than one switcher is in the system, and you want to operate the switchers from one control panel, there must be a separate CP Level Set for each switcher ( [1] and [2] ). This is because the CP Level Set is used to determine how status will be shown on the panel; specifically, the first entry on the CP Level Set will be the level that is statused.
Configurator CP Output Set Figure 5−77. CP Output Set and CP Level Set requirements for multiple switcher installations. See page 5−94 for discussion.
CP Override Set Configurator CP Override Set The override function, which allows single−keystroke selection of a source, is used for a quick or emergency switch to an often−used input. For example, the black burst generator could be defined as the first “override” source for the system, corresponding to the first soft key position on a CP 3000 or CP 3800 panel. When in a hurry to find black burst, the operator can then press BLK, TAKE (instead of, for instance, TEST, 1, TAKE).
Configurator CP Override Set DEFINING OVERRIDES 1. On the top of the Jupiter Configurator window (page 5−2), check to see whether the configuration set you want to change is selected for editing. For more information, please see Modifying and Downloading a System Configuration Set on page 5−8. 2. Click on “Jupiter > Control Panel Sets,” then “CP Override set.” This will display a list of all existing CP Override sets. Select Override Set Figure 5−79. Override edit set menu (example).
CP Override Set Configurator Guidelines for using the editor are found on page 5−3. 8. In the “Input” column, select the name of the switcher input for the first override button. The source of these names is the Switcher Input table (page 5−48). Although the CP 3824 has only 24 button−per−input keys, up to 360 inputs can be assigned on this table, i.e., 15 groups (“pages”) of 24 inputs each. Each page of 24 sources would then be accessed with the Page key.
Configurator CP Sequence Set CP Sequence Set A sequence is a switch of one or more sources to one or more destinations. The CP 3000 panel can accommodate a maximum of 25 events (switches) in one sequence. There is no specific limit to the number of sequences, but due to memory restrictions a limit of 16 is recommended.
CP Sequence Set Configurator Note 2: Great care needs to be used to ensure that the switches defined in CP Sequence Sets involving Data Routers do not conflict. Verify that each sequence uses all defined data router inputs and outputs just once, including the implied reverse switches. Failure to do this will result in unintended switches, and possibly switching a single input to multiple outputs at the same time. DEFINING SEQUENCES 1.
Configurator CP Category Set CP Category Set Password 5−22 Network Description 5−27 Serial Protocol 5−30 Switcher Description 5−35 Switcher Input 5−48 Switcher Output 5−55 Category Set − 3200-CAT Mnemonic 1 VTR 2 Font 3 Net Control Panel Sets Level set 5−58 Input set 5−62 Output set 5−78 Override set 5−96 Sequence set 5−99 Category set MPK Devices 5−107 Machines 5−135 Machine Control 5−139 Delegation Groups 5−149 Status Display Header 5−150 VGA Status Display 5−151 Tally 5−152 19 Aud Figure 5−8
CP Category Set Configurator Figure 5−82. CP category set create menu. CP310 OUT CP320 IN CP320 OUT CP328 IN CP328 OUT CP2002B IN CP2002B OUT CP3000 IN CP3000 OUT CP3008 IN† CP3008 OUT† CP3310 IN CP3310 OUT CP3800 IN CP3800 OUT CP3808 IN CP3808 OUT CP3824 IN CP3824 OUT CP3830 IN CP3830 OUT CP 3832 IN CP3832 OUT EMEM IN EMEM OUT SATRN IN SATRN OUT† SERIALIN SERIALOUT UMD3AIN UMD3AOUT This menu is used to enter the name of the set and select the set type.
Configurator CP Category Set The table entries correspond to the CP 3000 and CP 3800 category keys as follows: 1 6 2 3 7 4 8 9 5 VTR 1 CG 2 NET 3 SAT A 10 VCR 4 CAM 5 REM 6 EJ B FILM 7 PTCH 8 STU 9 FS C AUX TEST 0 MISC SS D 11 12 13 14 15 16 17 18 19 20 Original CP 3000 engraved keys CP 3000/3800 key positions showing number of corresponding row on Category Set table Figure 5−83. CP 3000/3800 key positions.
CP Category Set Configurator The table entries correspond to the CP 3808 category keys as follows: VTR 1 CAM 2 SAT 3 EJ 1 2 3 4 VCR 4 NET 5 REM 6 FILM 5 6 7 8 Stu 7 MISC 8 AUX 9 FS 9 10 11 12 CGEN TEST 0 PTCH STILL 13 14 15 16 Figure 5−85. CP 3808 key positions. Each CP 3824 Category Set can contain up to 15 category mnemonics; if less than 15 categories are entered, the remaining category keys will be inoperative.
Configurator CP Category Set Changing the Category Set Associated with an Input or Output Set A custom Category Set can be created at any time. The following procedure is used to assign a new Category Set to an existing CP Input Set or CP Output Set. 1. On the main menu, click on “Jupiter” and “Control Panel Sets.” Then select “Input” or “Output,” as desired. A menu similar to Figure 5−88 will appear. Figure 5−88. CP set dialog (example). 2. Select the name of the existing set of interest. 3.
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Configurator MPK Devices MPK Devices MPK Devices MPK Devices 1 STUMC Device Type MC−3000 Expansion Pass word Board CM1 Port 6 Address Input Sets In Panel Output Sets Out Panel Level Set Overide Set Sequence Set 00000016 2 STUCP CP−3000 CM1 6 00000014 KXYZ−INP KXYZ−OUT KXYZ−LEV KXYZ−OVE KXYZ−SEQ 3 ENGCP CP−3000 CM1 6 00000013 KXYZ−INP KXYZ−OUT KXYZ−LEV KXYZ−OVE KXYZ−SEQ 4 MC CP−3000 CM1 2 00000000 KXYZ−INP MC−OUT KXYZ−LEV KXYZ−OVE KXYZ−SEQ 5 SHOP CP−3000
MPK Devices Configurator Important: Row numbers on Jupiter tables are used as the “logical” numbers for devices. Changing the row number of an existing device (by inserting/deleting a new control panel in the middle of the table, for example) will disrupt control of the system, requiring controller boards to be memory−cleared and reset (see “Clearing Battery−Protected Memory in Appendix B). One way to avoid this interruption is to add new devices at the end of tables.
Configurator MPK Devices Selecting a CP 3832L or CP 3864L device type will cause the right−hand group of six buttons to function as level selection buttons. ES−LAN applies to the JEP−100 Jupiter / Encore Control Panel. For more information, refer to the JEP−100 manual, part no. 071 8376 xx. Expansion As a general rule, the Expansion box is checked when the panel is used with an expansion panel; for example, when a CP 3000 is used with a CP 3010. For special uses of this column, see the notes below.
MPK Devices Configurator With the exception of the CP 3800 Series panels, RP 1/2/3, RP 1/2/3 C, and SlimLine Under Monitor Displays, device addresses such as “00000018” are determined at time of manufacture and cannot be changed by the user. To display the address of a control panel, please see Display Control Panel ID on page 6−21. Input Sets Name of CP Input Set to be assigned to this device. The usual practice is to have one CP Input Set, containing the names of all inputs, apply to all panels.
Configurator MPK Devices For each dual−bus CP 330, enter the name of the output set that will be used to assign the two destinations. For each CP 328 (including “/S” type) or CP 330/6, enter the name of the output set that will be used to assign the destinations. For each CP 3809 Expansion Panel, the “Out Set” column must be blank. For CP 3810 / 3810S / 3810L Expansion Panel entries, see page 5−131 and following.
MPK Devices Configurator SETTING UP A SWITCHER CONTROL PANEL FOR FULL−MATRIX, MULTI−BUS, OR SINGLE−BUS CONTROL The output(s) that can be controlled by a control panel will depend on the CP Output Set entry for that panel on the MPK Devices menu: 1. On the top of the Jupiter Configurator window (page 5−2), check to see whether the configuration set you want to change is selected for editing.
MPK Devices Configurator SETTING PASSWORD LEVELS FOR CONTROL PANELS In addition to individual Jupiter passwords assigned to each user, individual control panels can be given a password level. This can be used to provide varying levels of protection from one control panel to another. To change the password level for a control panel: 1. On the top of the Jupiter Configurator window (page 5−2), check to see whether the configuration set you want to change is selected for editing.
MPK Devices Configurator VGA STATUS DISPLAY CONTROL PANEL ENTRIES Use of control panels with the VGA Status Display requires entries to the MPK Devices table. The following example applies to the VGA system shown on page A−1.
Configurator MPK Devices MI 3040 GENERAL PURPOSE / TALLY INTERFACE ENTRIES Tally Interface Applications When an MI 3040 is configured as an “MI 3040/T,” that is, configured to control tally lights (as shown on page 2−67 and following), an entry similar to that shown as row 1 in Figure 5−92 will be required. If there is more than one MI 3040, an entry with a unique Device Name will be required for each.
MPK Devices Configurator UNDER MONITOR DISPLAY ENTRIES Hardware installation was discussed on page 2−81. Software configuration varies according to the switching equipment used. SYSTEMS WITH JUPITER−CONTROLLED DISTRIBUTION SWITCHER ONLY SlimLine Applications The system shown in Figure 5−93 corresponds to the MPK table shown in Figure 5−94. Output names M/E 3 Routing switcher M/E 2 M/E 1 Figure 5−93. Example of SlimLine installation.
MPK Devices Configurator Device Type “UMD3A” is used for all displays in the SlimLine series. Note: No entries are needed for the SlimLine Controller chassis even though it is on an MPK bus. The address of SlimLine UMDs is set with front−panel buttons. For Dual Display (DD) models, the address of the first (left− hand) display is set manually; the address of the second display is automatically set to the same number plus 100 hex. For triple displays (i.e.
Configurator MPK Devices SYSTEMS WITH SATURN MASTER CONTROL SWITCHER Two methods are available for configuring UMDs with Saturn systems: • “Saturn control” − in most cases this will be the preferred method because 1) it involves fewer tables, 2) it will provide status for inputs connected to the Saturn Internal Matrix Option, and 3) it is designed to integrate with the “Monitor Follow” function of Saturn.
MPK Devices Configurator SYSTEMS WITH SATURN MASTER CONTROL AND PRODUCTION SWITCHER If UMD status from a production switcher upstream of Saturn is needed, the “Jupiter control” method must be used. “Jupiter control” of UMDs is based on the software used for tally light control. See page 5−120 for an example system of this type. Note : “Jupiter control” cannot be used to status inputs connected to the Saturn Internal Matrix Option. Each UMD must named on the MPK Devices table (page 5−121).
MPK Devices Configurator PRESET PROGRAM “SD−PRST” AIR “SD−PRGM” “SD− AIR” SlimLine UMD Controller Preset MPK bus Program On air Saturn master control switcher CM 4000 “CM1” Output names Input name PRD A B K1 K2 BP MCS−A MCS−B MCSK1 Jupiter− controlled router MCSK1 MCSBP PROD1 PROD2 Equal number of connections Production switcher Switcher tally relays Video Optional tally light. Relays Jupiter Control lines 0 1 2 3 4 0 1 2 3 4 Figure 5−95.
Configurator MPK Devices MPK Devices MPK Devices Device Expansion Type Pass word Board Port Address Input Sets In Panel Output Sets Out Panel Level Set 1 SD−PRST UMD3A CM1 4 00000032 KXYZ−INP PRESET 2 SD−PRGM UMD3A CM1 4 00000033 KXYZ−INP PROGRAM KXYZ−LEV 3 SD−AIR UMD3A CM1 4 00000034 KXYZ−INP ONAIR KXYZ−LEV SI1 5 00000028 4 TALLY1 MI−3040/T 5 MCS_TLY MCS_TALY DVP−1 1 CM1 Saturn application 2 Sequence Set KXYZ−LEV 7 MCS−2000 application Output Set —
MPK Devices Configurator PERMANENT DISPLAY OF MNEMONIC Front Panel Configuration Using the front−panel buttons, SlimLine and RP 1/2/3 series UMDs can be configured to display a mnemonic permanently. For more information, refer to the applicable UMD manual. Jupiter Configuration To cause the Jupiter system to display a mnemonic on a permanent basis, the MPK Devices table can be used to assign an Input Set to the status display containing only one input name and mnemonic. See Figure 5−97.
Configurator MPK Devices EXTERNAL CONTROL DEVICE ENTRIES Note: Even though they are not shown on the Serial Protocol table as MPK devices, “ESswitch,” ASCII, DD, and GVG200 control devices require entries to the MPK Devices table. ENCORE CONTROL OF JUPITER Encore installation was discussed on page 2−91. Serial port configuration was discussed on page 5−30 and following.
Configurator MPK Devices Notice that device Type “Serial” is used for the “ASCII” protocol connection. For device Type “Serial,” the Input and Output Sets must be created specifically for use by “serial” devices: the Input Set describes which router inputs can be selected by the DD (and a number that the DD will use to refer to that input); the Output Set describes which router outputs are wired to the DD (and a number that the DD will use to refer to that output).
Configurator MPK Devices AUTOMATION CONTROL Automation control can be implemented with the JupiterXPress application or with the AccuSwitch application. Note that only one of these applications can be operated in a CM 4000 at one time. JupiterXPress Automation control of the JupiterXPress application can be via Jupiter ESswitch protocol (ESW) or the Jupiter ASCII Interface protocol. In either case device type “Serial” is selected on this table.
MPK Devices Configurator CP 3830 DUAL CONFIGURATION Dedicated Output Panel Dual CP 3830 panels can be configured so that the second panel is always used for output selection. The output panel’s buttons will glow amber. MPK bus CP 3830 “CP3830IN” CP 3830 “CP3830OU” Dedicated output panel CM 4000 “CM1” Figure 5−100.
Configurator MPK Devices CP 3832 / 3864 MULTI−PANEL APPLICATIONS Except for unbalanced split§ and type “L”configurations, CP 3832 and CP 3864 panels can be combined to increase the number of sources and destinations to a maximum of 128 x 128. SINGLE−BUS APPLICATION 128 X 1 control station Input button 1 Main CP 3864 “CP3864A” Input button 65 Expansion CP 3864 “CP3864B” CM 4000 “CM1” MPK bus Figure 5−102. Note: Assignment of specific CP sets to a panel identifies it as the “main” panel, i.e.
MPK Devices Configurator X−Y APPLICATION (WITH BALANCED SPLIT PANEL) 48 X 16 control station Hardware installation was discussed on page 2−49. Figure 5−105 shows an example MPK Devices table for the system in Figure 5−104. 48 sources Expansion CP−3832 “CP3832IN” Input button 17 Input button 1 Main CP−3832 “CP3832S” 16 destinations MPK bus CM 4000 “CM1” Figure 5−104. Note: Assignment of specific CP sets to a panel identifies it as the “main” panel; i.e., the panel with input button number 1.
Configurator MPK Devices X−Y APPLICATION (NO SPLIT PANEL) 64 X 32 control station Source (Main) Panel “CP3864” 64 sources Destination Panel “CP3832” 32 destinations MPK bus Figure 5−106. CM 4000 “CM1” Note: Assignment of specific CP sets to a panel identifies it as the “main” panel.
MPK Devices Configurator X−Y APPLICATION (NO SPLIT PANEL) 128 X 128 control station Input button 1 Main Panel CP 3864 “P3864X1” Input button 65 CP 3864 “P3864X2” 128 sources Output button 1 CP 3864 “P3864Y1” Output button 65 CP 3864 “P3864Y2” 128 destinations Figure 5−108. MPK bus CM 4000 “CM1” Note: Assignment of specific CP sets to a panel identifies it as the “main” panel, i.e., the panel with input button number 1.
Configurator MPK Devices CP 3810 APPLICATIONS The optional CP 3810 panel can be associated with a CP 3832, CP 3864, CP 3808, or CP 3830, providing control of up to 80 output buses. The CP 3810 can also be assigned to one output, providing breakaway (split) switching and/or multi−level status. Multi−Bus Control In the example shown in Figure 5−110, a CP 3832 is being used to select 32 inputs while the CP 3810 is used to select 80 outputs.
MPK Devices Configurator Single Bus Control (“CP 3810L”) In the example shown in Figure 5−112, a CP 3832 is used to select inputs and a CP 3810 is used to control the individual levels of one output. The CP 3810 can thus be used for breakaway switching. The corresponding MPK table entries are shown in Figure 5−113. 32 CP 3832 “CP3832” sources CP 3810 “CP3810” Levels for 1 destination MPK bus Figure 5−112.
Configurator MPK Devices X−Y Application In the example shown in Figure 5−114, a CP 3864 is used to select inputs, a CP 3832 is used to select outputs, and a CP 3810 is used to control/status the individual levels of the output selected by the CP 3832. The CP 3810 can thus be used for breakaway switching. 64 sources CP 3864 “CP3864” 32 CP 3832 “CP3832” destinations CP 3810 “CP3810” STATUS of individual levels MPK bus Figure 5−114.
MPK Devices Configurator Single Bus Status Only (Stand−alone) (“CP−3810L”) In this mode, the panel is configured to status a single output. No other panel is associated with the panel. and there is no switcher control. An example entry is shown in Figure 5−117. CP 3810 “CP3810” Levels for 1 destination MPK bus Figure 5−116.
Configurator Machines Table Machines Password 5−22 Network Description 5−27 Serial Protocol 5−30 Switcher Description 5−35 Switcher Input 5−48 Switcher Output 5−55 Control Panel Sets Level set 5−58 Input set 5−62 Output set 5−78 Override set 5−96 Sequence set 5−99 Category set 5−101 MPK Devices 5−107 Machines Machine Name Device Type Board Port 1 VT01 Sony Mch CM1 1 2 VT05 Sony Mch CM1 7 Address Machines Machine Control 5−139 Delegation Groups 5−149 Status Display Header 5−150 VGA Status D
Machines Table Configurator Type Device types (shown on a pull−down menu) are limited to the following: Sony machine serial protocol Ampex machine serial protocol† Board Select the name of controller board connected to this machine. The source of these names is the Network Description table (page 5−27). Port Number of controller board port connected to this machine. The port must support the necessary protocol for this machine (as configured on the Serial Protocol table, page 5−30).
Configurator Machines Table Sony Mach “VT01” Address: none Sony protocol CP with EXP. “TAPECP” Address: 00000008 hex MC with EXP. “TAPEMC” Address: 00000016 hex MPK protocol Sony Mach “VT05” Address: none Sony protocol Figure 5−119. VTRs as listed in Machines table on page 5−135. (Machine control panels are listed in MPK table on page 5−107.
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Configurator Machine Control Table Machine Control Password 5−22 Network Description 5−27 Serial Protocol 5−30 Switcher Description 5−35 Switcher Input 5−48 Switcher Output 5−55 Control Panel Sets Level set 5−58 Input set 5−62 Output set 5−78 Override set 5−96 Sequence set 5−99 Category set 5−101 MPK Devices 5−107 Machines 5−135 Machine Control Delegation Groups 5−149 Machine Control Associated Name Preroll In VT01 2 Status Display Header 5−150 VGA Status Display 5−151 Sony Mch In VC01 2 Tally
Machine Control Table Configurator Device Name Device Type These columns repeat the descriptions of all machines (as entered on the Machines table, page 5−135) and machine control panels (as entered on the MPK Devices table, page 5−107). Mnemonic Use of this column varies according to the device type. For machines, this entry will appear on the panel controlling the machine: For a serial control machine, the Mnemonic is always the same as the Device Name.
Machine Control Table Configurator ASSIGNING (LINKING) MACHINES TO CONTROL PANELS The Jupiter system has an automatic machine assignment function, whereby control of a VTR is linked to a remote panel based on the VTR being switched to a destination associated with that panel. In other words, machine control follows the routing switcher. Note 1: The GUI machine control panel, if installed in the system, bypasses the machine linkage process described below.
Machine Control Table Configurator Figure 5−121. Example of machine control linkage. Equipment shown here corresponds to table shown in Figure 5−122.
Configurator Machine Control Table EXAMPLE OF MACHINE CONTROL TABLES SETUP MPK Devices MPK Devices Device Type Expansion Pass word Board Port Address 1 TAPEMC MC−3000E CM1 6 00000016 2 TMC3010 MC−3010 CM1 6 00000029 Input Sets In Panel Output Sets Out Panel Level Set Overide Set Sequence Set Machines Machine Name Device Type Board Port Address Preroll 1 VT01 Sony Mch CM1 1 2 2 VC01 Sony Mch CM1 2 2 3 VC02 Sony Mch CM1 3 2 Machine Control Device Name Mnem
Machine Control Table Configurator OPERATIONAL SEQUENCE FOR LINKAGE Figure 5−123 shows a detailed view of the CP 3000 and MC 3000 control panels previously shown in Figure 5−121 and listed in Figure 5−122. The objective in this example is to use the CP 3000 switcher control panel to assign VTR “VT01” as the “A” input to the control room’s production switcher, and thereby link the machine to the MC 3000 Machine Control Panel.
Configurator Machine Control Table [1] SELECT source Switcher input name VT01 VC01 VC02 PrdA PrdB PrdC CAT=VTR SELECT=VT01 VT01 VT01 VT01 VT01 Switcher output nam A CP−3000 Switcher control B C Expansion panel [2] TAKE to destination ABC Machine control linkage follows routing switcher Production switcher Identifies machines selected as sources for production switcher A 00:54:49:11 T1 VT01 STOP MAN B C Status Machine name STOP STOP STOP VT01 VC01 VC02 MC−3000 Machine control Expansion p
Machine Control Table Configurator DEFAULT (SEMI−PERMANENT) LINKAGE Using the file server, machines can be linked directly to a specific control panel on a semi−permanent basis. An example system is shown in Figure 5−124. In this arrangement, only the file server can re−assign control of a machine to another panel. In other words, the normal linkage function (where machine control follows the routing switcher) is bypassed. The entries needed on the Machine Control table are shown in Figure 5−125.
Configurator Machine Control Table LINKAGE FOR MACHINES THAT DO NOT ENTER THE ROUTING SWITCHER In some cases, machines may be wired directly to one destination, or to several destinations through distribution amplifiers only (see Figure 5−126). Although these machines do not pass through the routing switcher, it is still possible to use switcher control panels to establish linkages. In order to do this, imaginary switcher input and output names must be used as pointers on the Machine Control menu.
Machine Control Table Configurator START/STOP MACHINE CONTROL USING EXPANSION PANELS The CP 3010 expansion panel and the CP 3810 expansion panel can be used as a limited−function machine control panels, providing Start and Stop commands for VTRs. When the CP 3010 is used as an expansion panel for a CP 3000 control panel, Start/Stop machine control is provided by the and > buttons. When the CP 3810 is used as an expansion panel, Start/Stop machine control is provided by the PLAY/ STOP buttons.
Configurator Delegation Groups Delegation Groups Password 5−22 Network Description 5−27 Serial Protocol 5−30 Switcher Description 5−35 Switcher Input 5−48 Switcher Output 5−55 Control Panel Sets Level set 5−58 Input set 5−62 Output set 5−78 Override set 5−96 Sequence set 5−99 Category set 5−101 MPK Devices 5−107 Delegation Group Name Machines 5−135 Machine Control 5−139 Delegation Groups 1 STU Status Display Header 5−150 VGA Status Display 5−151 2 ENG Tally 5−152 3 TAPE Path Finding 5−174 4 E
Status Display Configurator Status Display Headers Thomson WXYZ TELEVISION FACILITY CONTROL SYSTEM PAGE: 00 May 10, 1999 SWITCHER STATUS 12:34:56 −−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−− OUTPUT VIDEO LEFT RIGHT TC −−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−− PRDA VT01 VT01 VT01 VT01 PRDB VC01 VC01 VC01 PRDC VTR1 VTR1 VTR1 PRDD CAM1 ANN1 ANN1 VTR1 VTR2 VTR2 VTR2 VTR2 SAT1 SAT1 SAT1 SAT1 VTR3 CON2 CON2 CON2 VTR4 TST4 TST4 TST4 STUA
Configurator Status Display VGA Status Display Table Password 5−22 Network Description 5−27 Serial Protocol 5−30 Switcher Description 5−35 Switcher Input 5−48 Switcher Output 5−55 Control Panel Sets Level set 5−58 Input set 5−62 Output set 5−78 Override set 5−96 Sequence set 5−99 Category set 5−101 MPK Devices 5−107 Machines 5−135 Machine Control 5−139 Delegation Groups 5−149 Status Display Header 5−150 VGA Status Display VGA Status Display Table Board 1 CM1 Page File Name VGA01 Video Mode VC8 2 Tal
Tally Configurator Tally RELAY DESCRIPTION Password 5−22 Network Description 5−27 Serial Protocol 5−30 Switcher Description 5−35 Switcher Input 5−48 Switcher Output 5−55 Control Panel Sets Level set 5−58 Input set 5−62 Output set 5−78 Override set 5−96 Sequence set 5−99 Category set 5−101 MPK Devices 5−107 Machines 5−135 Machine Control 5−139 Delegation Groups 5−149 Status Display Header 5−150 VGA Status Display 5−151 Tally Tally Relay Tally Device Relay Logical Input 1 TALLY1 0 VT01 2 TALLY1 1
Tally Configurator Figure 5−133 shows a tally system with a Jupiter−controlled routing switcher, a Saturn (or non−Saturn) master control switcher, and a direct feed to the transmitter. The corresponding Tally Relay Descriptions table is also shown. Notice that the table remains the same whether or not a Saturn master control switcher is used. Figure 5−134 shows a system with a Jupiter−controlled routing switcher, Saturn (or non−Saturn) master control, and a production switcher.
Tally Configurator Master control switcher ÏÏ Ï ÏÏ Ï ÏÏ Ï ÏÏ Ï Ï Ï Ï Ï ÏÏ ÏÏ Ï Ï ÏÏ ÏÏ ÏÏ Ï ÏÏÏ ÏÏ ÏÏ ÏÏ ÏÏ ÏÏ ÏÏ ÏÏ Ï ÏÏ Ï ÏÏÏ ÏÏ ÏÏÏ ÏÏÏ ÏÏ Ï VC01 VC02 VT01 Transmitter Input names Routing switcher Relays Video and audio Jupiter control lines MPK bus 0 1 2 Tally light MI−3040/T “TALLY1” Tally Relay 1 2 3 5−154 Tally Device Relay Logical Input TALLY1 TALLY1 TALLY1 VT01 VC02 VC01 0 1 2 Figure 5−133.
Configurator Tally Master control switcher Ï Ï Ï ÏÏ Ï Ï Ï ÏÏ ÏÏ Ï Ï ÏÏ Ï ÏÏ ÏÏ Ï Ï ÏÏ Ï ÏÏ Ï ÏÏ Ï Ï ÏÏ Ï ÏÏ Ï ÏÏ ÏÏ Ï ÏÏ Ï ÏÏ ÏÏ ÏÏ ÏÏÏÏ ÏÏÏÏÏ PRD VC01 VC02 VT01 Transmitter Input names Routing switcher Production switcher Video and audio Relays Jupiter control lines MPK bus Tally light MI−3040/T “TALLY1” Tally Relay 1 2 3 4 0 1 2 3 Tally Device Relay Logical Input TALLY1 TALLY1 TALLY1 TALLY1 VT01 VC02 VC01 PRD 0 1 2 3 CM 4000 Installation and Operating Manual Figure 5−134.
Tally Configurator Master control switcher Ï Ï Ï ÏÏ Ï ÏÏ Ï Ï ÏÏ ÏÏ Ï Ï ÏÏ Ï ÏÏ ÏÏ Ï Ï Ï ÏÏ Ï ÏÏ Ï Ï ÏÏ Ï ÏÏ Ï ÏÏ ÏÏ Ï ÏÏÏ ÏÏ ÏÏ ÏÏ ÏÏ Ï ÏÏÏ ÏÏÏ PRD VC01 VC02 VT01 MCS Input names Routing switcher Transmitter Production switcher Relays Video and audio Jupiter control lines MPK bus 0 1 2 3 4 Tally light MI−3040/T “TALLY1” Tally Relay 1 2 3 4 5 5−156 Tally Device Relay Logical Input TALLY1 TALLY1 TALLY1 TALLY1 TALLY1 VT01 VC02 VC01 PRD MCS 0 1 2 3 4 Figure 5−135.
Configurator Tally Master control switcher ÏÏ Ï Ï ÏÏ ÏÏ Ï Ï ÏÏ Ï Ï ÏÏ Ï ÏÏ ÏÏ Ï Ï Ï ÏÏ ÏÏ ÏÏ Ï ÏÏ Ï Ï Ï ÏÏ Ï ÏÏ ÏÏ Ï Ï ÏÏ Ï ÏÏ ÏÏ ÏÏ ÏÏ ÏÏÏ ÏÏ ÏÏ PRD VC01 VC02 VT01 MCS Video and audio Jupiter control lines Transmitter Input names Tally light Routing switcher M/E 3 M/E 2 M/E 1 Production switcher Relays MPK bus 0 1 2 3 4 MI−3040/T “TALLY1” CM 4000 “CM1” SlimLine Controller Tally Relay 1 2 3 4 5 6 7 8 Tally Device Relay Logical Input TALLY1 TALLY1 TALLY1 TALLY1 TALLY1 UMDSD1 UMDDD1A UMDDD1B
Tally Configurator TALLY DEPENDENCY Password 5−22 Network Description 5−27 Serial Protocol 5−30 Switcher Description 5−35 Switcher Input 5−48 Switcher Output 5−55 Control Panel Sets Level set 5−58 Input set 5−62 Output set 5−78 Override set 5−96 Sequence set 5−99 Category set 5−101 MPK Devices 5−107 Machines 5−135 Machine Control 5−139 Delegation Groups 5−149 Status Display Header 5−150 VGA Status Display 5−151 Figure 5−137. Tally Dependency table (example).
Configurator Tally If the main output is fed from a switcher other than the router (such as a master control switcher), then the main output is not identified as such. Instead, the names of all possible routing switcher outputs that could be selected for the main output are listed (“Output” column in Figure 5−139).
Tally Configurator BASIC TALLY SYSTEM WITH SATURN MASTER CONTROL SWITCHER Direct Connection to Transmitter Please see Figure 5−142. This table has only one type of entry: MCS_TLY. Saturn (“MCS_TLY”) entries These entries are used in systems equipped with a Saturn Master Control Switcher (or BTS MCS 2000). They allow the Jupiter system to find out which of the sources feeding the master control switcher have been switched to the MCS “On−air” output.
Configurator Tally Transmitter Saturn video processor BKGDA BKGDB BUS INPUTS KEY 1 KEY 2 BYPASS Saturn audio processor ISO1 ISO2 MAIN A L Physical Output Output name 000 MAIN−A Video router Audio router 001 MAIN−B 002 KEYINS1 003 KEYINS2 004 BYPASS 005 ISO 1 006 ISO 2 000 MAIN−A 001 MAIN−B 002 MIXINS1 003 MIXINS2 004 BYPASS R MAIN B L R BUS INPUTS MIX 1 MIX 2 L R L R BYPASS L R Tally Dependency 1 2 3 4 5 6 7 Tally Device Opto Logical Output Tally MCS_
Tally Configurator Indirect Connection to Transmitter Please see Figure 5−143. There are two types of entries on this table: an unqualified output entry and MCS_TLY entries. Unqualified output This is the name (“XMIT”) of the routing switcher output leading to the transmitter (or the name of the output leading to the primary program line). All sources switched to this output will be tallied. The rest of the row remains blank. There can be more than one unqualified output if desired.
Configurator Tally ÏÏ Ï ÏÏ Ï ÏÏ Ï ÏÏ Ï Ï ÏÏ Ï Ï Ï Ï ÏÏ ÏÏ Ï Ï ÏÏ ÏÏ Ï ÏÏ ÏÏ Ï Ï ÏÏÏÏÏÏ ÏÏ ÏÏÏ Saturn video processor BKGDA BKGDB BUS INPUTS KEY 1 KEY 2 BYPASS Saturn audio processor ISO1 ISO2 MAIN A L Physical Output Output Name 000 MAIN−A Video router Audio router 001 MAIN−B 002 KEYINS1 003 KEYINS2 004 BYPASS 005 ISO 1 006 ISO 2 007 XMIT 000 MAIN−A 001 MAIN−B 002 MIXINS1 003 MIXINS2 004 BYPASS 007 XMIT R MAIN B L R BUS INPUTS MIX 1 MIX 2 L R L R BYPASS
Tally Configurator CONFIGURATION FOR SYSTEMS WITH SATURN MASTER CONTROL SWITCHER AND PRODUCTION SWITCHER Direct Connection to Transmitter Please see Figure 5−145. There are two types of entries on this table: MCS_TLY entries; and production switcher entries. There is no unqualified output entry. Saturn (“MCS_TLY”) entries These entries are used in systems equipped with a Saturn Master Control Switcher (BTS MCS 2000).
Configurator Tally Transmitter Saturn video processor BKGDA BKGDB BUS INPUTS KEY 1 KEY 2 BYPASS Saturn audio processor ISO1 ISO2 MAIN A L Video router Audio router Physical Output Output Name 000 MAIN−A 001 MAIN−B 002 KEYINS1 003 KEYINS2 004 BYPASS 005 ISO 1 006 ISO 2 007 PROD1 008 PROD2 000 MAIN−A 001 MAIN−B 002 MIXINS1 003 MIXINS2 004 BYPASS 007 PROD1 008 PROD2 MAIN B R L BUS INPUTS MIX 1 MIX 2 R L R L R BYPASS L R Tally light Production switche
Configurator Tally Production Switcher Entries These entries will allow the Jupiter system to find out which of the sources feeding the production switcher have been switched to the switcher’s Program output. The number of entries will be the same as the number of inputs from the routing switcher. The Name is that of the MI 3040/T connected to the production switcher’s tally outputs. The source of this name is the MPK Devices table (page 5−115). As a convention, a name such as “TALLY1” is used.
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Configurator Tally Indirect Connection to Transmitter Please see Figure 5−146. There are three types of entries on this table: an unqualified output entry; MCS_TLY entries; and production switcher entries. Unqualified Output This is the name (“XMIT”) of the routing switcher output leading to the transmitter (or the name of the output leading to the primary program line). All sources switched to this output will be tallied. The rest of the row remains blank.
Configurator Tally ÏÏ Ï ÏÏ Ï ÏÏ Ï ÏÏ Ï Ï ÏÏ ÏÏ Ï Ï Ï ÏÏ ÏÏ Ï Ï ÏÏ ÏÏ Ï Ï ÏÏ ÏÏ Ï Ï ÏÏÏÏÏÏ ÏÏ ÏÏÏ Saturn video processor BKGDA BKGDB BUS INPUTS KEY 1 KEY 2 BYPASS Saturn audio processor ISO1 ISO2 MAIN A L Physical Output Output Name 000 MAIN−A Video router Audio router 001 MAIN−B 002 KEYINS1 003 KEYINS2 004 BYPASS 005 ISO 1 006 ISO 2 007 PROD1 008 PROD2 009 XMIT 000 MAIN−A 001 MAIN−B 002 MIXINS1 003 MIXINS2 004 BYPASS 007 PROD1 008 PROD2 009 XMIT R MAIN B
Tally Configurator CONFIGURATION FOR SYSTEMS WITH NON−SATURN MASTER CONTROL SWITCHER Tally Dependency Tally Device Opto Logical Output Tally XMIT 1 2 TALLY1 2 MCS1 TALLY1 /4 3 TALLY1 3 MCS2 TALLY1 /4 4 TALLY1 4 MCS3 TALLY1 /4 5 TALLY1 5 MCS4 TALLY1 /4 6 TALLY1 6 MCS5 TALLY1 /4 7 TALLY1 0 PROD1 TALLY1 /3 8 TALLY1 1 PROD2 TALLY1 /3 Figure 5−147. Tally dependencies table for systems with non−Saturn master control switcher (Figure 5−148).
Configurator Tally Switcher tally relays Non−Saturn master control switcher Output names MCS1 MCS2 MCS3 Routing switcher MCS4 MCS5 XMIT PROD1 Transmitter PROD2 Production switcher Switcher tally relays Relays 0 1 2 3 4 0 1 2 3 4 5 6 MI 3040/T “TALLY1” Opto−isolators Video and audio Jupiter Control lines Tally light CM 4000 Installation and Operating Manual Figure 5−148. Example of tally system with non−Saturn master control switcher.
Tally Configurator EXAMPLE OF TALLY SYSTEM OPERATION Master control switcher PRD VC01 VC02 VT01 MCS MCSM1 MCSM2 MCSK1 MCSK2 MCSBP XMIT PROD1 Transmitter PROD2 Routing switcher Production switcher Switcher tally relays Relays Video Jupiter Control lines 0 1 2 3 4 Tally light “on” 0 1 Crosspoint “on” MI−3040/T “TALLY1” Opto−isolators Figure 5−149. Example of tally system operation. Equipment shown here corresponds to tables and discussion on next page.
Configurator Tally Figure 5−150. Tables for system shown in Figure 5−149.
Path Finding Configurator Sequential Path Finding Password 5−22 Network Description 5−27 Serial Protocol 5−30 Switcher Description 5−35 Switcher Input 5−48 Switcher Output 5−55 Control Panel Sets Level set 5−58 Input set 5−62 Output set 5−78 Override set 5−96 Sequence set 5−99 Category set 5−101 MPK Devices 5−107 Machines 5−135 Machine Control 5−139 Delegation Groups 5−149 Figure 5−151. Path finding data table (example).
Path Finding Configurator If all tie lines are busy and an attempt is made to switch to an additional upstream source, the control panel will indicate “Blocked.” In order to release a tie line, a downstream output using a tie line must be switched to a local input. In this example, “MainRout” output 55 could be switched to VT16, or some other source known to be a local input (such as black burst).
Path Finding Configurator SWITCHER INPUT TABLES Referring to Figure 5−153 and the Switcher Input table for “NEWSROUT,” the entries for VT21 and VT22 follow the normal pattern. However, there are also entries for VT15 and VT16—machines that are normally sources for “MAINROUT.” In the following columns, there are Group Name selections such as “VNEWMAIN,” “LNEWMAIN,” etc.
Configurator Path Finding Starting with number Starting with number Sequential Path Finding Tie lines from “NEWSROUT” to “MAINROUT” Tie lines from “MAINROUT” to “NEWSROUT” 1 2 3 4 5 6 7 8 Path Finding Group Name Source Switcher/Level Physical Output Destination Switcher/Level Physical Input Count VNEWMAIN LNEWMAIN RNEWMAIN TNEWMAIN VMAINNEW LMAINNEW RMAINNEW TMAINNEW VIDEO (NEWSROUT) LEFT (NEWSROUT) RIGHT (NEWSROUT) TC (NEWSROUT) VIDEO (MAINROUT) LEFT (MAINROUT) RIGHT (MAINROUT) TC (MAINROUT)
Path Finding Configurator PATH FINDING FOR THREE OR MORE SWITCHERS Connecting three switchers for path finding purposes possible, with five as the recommended maximum. This is illustrated in Figure 5−154. Notice that no tie lines directly connect switcher “A” and switcher “C.” In the corresponding Path Finding Data table, there would be descriptions of the tie lines from “A” to “B,” from “B” to “A,” from “B” to “C,” and from “C” to “B.
Configurator Path Finding Figure 5−154. Example of path finding connections between video levels of three switchers.
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Configurator Path Finding PATH FINDING BETWEEN ANALOG AND DIGITAL EQUIPMENT Automatic Conversion of Separate Analog Signals to Combined Digital Signals The pathfinding table can be used with customer−supplied ADCs and DACs to provide automatic conversion between analog equipment and digital equipment (such as VTRs). See Figure 5−155. ANALOG ENVIRONMENT DIGITAL ENVIRONMENT ANALOG EQUIPMENT L A TO D CONVERTER R L R ANALOG ROUTER D TO A CONVERTER DIGITAL ROUTER DIGITAL EQUIPMENT Figure 5−155.
Path Finding Configurator “VTR1” (ANALOG) Figure 5−156. Example of automatic conversion system (video connections not shown). For corresponding table entries, see Figure 5−157.
Configurator Path Finding Switcher Description Switcher 1 2 3 Level VI RV MC MAINROUT LEFT MAINROUT RIGHT MAINROUT AES Board #In #Out PLvl CM1 CM1 CM1 64 64 64 64 64 64 Follow Level 2 6 32 Driver 3 LI 3 LO Option Binary Binary Binary DM 400 Off Time Audio Left Right None Sequential Path Finding “Locked” tie lines through A to D converter 1 2 3 4 Path Finding Group Name Source Switcher/Level Physical Output Destination Switcher/Level Physical Input Count GROUP1 GROUP2 GROUP3 GROUP
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Configurator Path Finding Non−Sequential Path Finding Password 5−22 Network Description 5−27 Serial Protocol 5−30 Switcher Description 5−35 Switcher Input 5−48 Switcher Output 5−55 Control Panel Sets Level set 5−58 Input set 5−62 Output set 5−78 Override set 5−96 Sequence set 5−99 Category set 5−101 MPK Devices 5−107 Machines 5−135 Machine Control 5−139 Delegation Groups 5−149 Figure 5−158. Non−Sequential Path Finding data table (example).
Path Finding Configurator VT22 Figure 5−159. Example of non−sequential path finding connections between video levels of two switchers. For corresponding tables, see Figure 5−160.
Configurator Path Finding See note 1 See note 1 Sequential Path Finding Tie lines from “NewsRout” to “MAINROUT” 1 2 3 4 5 6 7 6 Tie lines from “MainRout” to “NEWSROUT” Path Finding Group Name Source Switcher/Level Physical Output Destination Switcher/Level Physical Input Count GROUP1 GROUP2 GROUP3 GROUP4 GROUP5 GROUP6 GROUP7 GROUP8 VIDEO (NEWSROUT) LEFT (NEWSROUT) RIGHT (NEWSROUT) TC (NEWSROUT) VIDEO (MAINROUT) LEFT (MAINROUT) RIGHT (MAINROUT) TC (MAINROUT) 13 13 13 13 61 61 61 61 VIDEO (MAI
Exclusion Configurator Exclusion Password 5−22 Network Description 5−27 Serial Protocol 5−30 Switcher Description 5−35 Switcher Input 5−48 Switcher Output 5−55 Control Panel Sets Level set 5−58 Input set 5−62 Output set 5−78 Override set 5−96 Sequence set 5−99 Category set 5−101 MPK Devices 5−107 Machines 5−135 Machine Control 5−139 Delegation Groups 5−149 Status Display Header 5−150 VGA Status Display 5−151 Tally 5−152 Path Finding Exclusion Logical Input Logical Output 1 MULTBRST XMIT 2 SINESQ X
Configurator Y Line Y Line Table (DM 400/400A) Password 5−22 Network Description 5−27 Serial Protocol 5−30 Switcher Description 5−35 Switcher Input 5−48 Switcher Output 5−55 Control Panel Sets Level set 5−58 Input set 5−62 Output set 5−78 Override set 5−96 Sequence set 5−99 Category set 5−101 MPK Devices 5−107 Machines 5−135 Machine Control 5−139 Delegation Groups 5−149 Status Display Header 5−150 VGA Status Display 5−151 Tally 5−152 Figure 5−162. Y Line table (example).
Configurator Time Standard table Video Reference Table These tables are used only for configuration of a CM 4000 System Controller running AccuSwitch software. CM 4000/AccuSwitch installation is described in Appendix G. CM VGA Options This table is discussed in Appendix H.
Section 6 − Control Panel Operation CP 300 24 x 1 Single Bus Control Panel Each input button of the CP 300 is assigned to a specific source (and the entire panel assigned to a single destination) during the installation procedure described on page 2−38. Audio−follow−video switching - When one of the 24 input buttons is pressed, a TAKE* command is issued to all levels of the switcher matrix.
Control Panel Operation CP 300 Series “Protect/lock” output indicator (button flash) − If the output has been protected* or locked* the active input button will flash; this indicates that the input cannot be changed. Note: CP 300, CP 310, and CP 330−type panels cannot be used to turn off protect or lock mode—this can only be done with the same panel that was originally used to protect the output. For additional protect/lock information − see page 6−12.
Control Panel Operation CP 300 Series CP 320 Push Button Control Panel DESTINATION SELECTION STATUS VTR2 CAM1 VTR1 CHG OUT CHG VID CHG A1 CHG A2 CHG A3 CHG A4 CHG A5 VTR 1 CG 2 NET 3 VCR 4 CAM 5 AUX EJ SS PROT REM 6 FILM 7 PTCH 8 STU 9 TEST 0 SAT FS MISC TAKE Figure 6−4. CP 320 Push Button Control Panel (as supplied). Installation of this panel is shown on page 2−37. For a general description, see page 2−40.
Control Panel Operation CP 300 Series Before the TAKE push button is pressed, the desired Breakaway Level push buttons are pressed to designate the levels to be switched. Another input selection is then made using the category/number push buttons. The desired Breakaway Level push buttons are again selected corresponding to the levels to be added to the switcher TAKE command. The TAKE button is then pressed, causing the switcher to perform the split, using the two designated inputs from the desired levels.
Control Panel Operation CP 300 Series CP 330/6 48 x 6 Six Bus Control Panel Select output... ...then input. Figure 6−6. CP 330/6 Operation. 0 1 2 3 4 5 Each input button of the CP 330/6 is assigned to a specific source (and the output buttons assigned to six destinations) during the installation procedure described on page 2−41. Audio−follow−video operation - Access to six switcher outputs is provided by the buttons on the right side of the panel.
Control Panel Operation CP 300 Series CP 300 Series Diagnostics Control panels can be tested without affecting switcher operations. CP 300/310/330 To enter the diagnostic mode, press and hold CHG VID and then press CHG A5: the CHG VID and CHG A1 lights will come on; CHG VID will enable the Button/Lamp Test and CHG A1 will start the Lamp Self−Test. Button/Lamp Test This test is used to check the proper operation of control panel push buttons.
Control Panel Operation CP 3000 CP 3000 Switcher Control Panel Note: For a general discussion of the CP 3000, please see page 2−42; for a short tutorial on basic operations only, see Appendix J. The top row of the display shows output status for four levels. Using the CLEAR key, the bottom row can be toggled between the first page of input override selections and the name of the current output (see Figure 6−7).
Control Panel Operation CP 3000 CATEGORY AND NUMBER INPUT SELECTION The user selects a switcher input by first pressing the desired input category keypad push button. The display menu line will be cleared and the category name will appear (see Figure 6−8). CAT=VTR SELECT=???? F1 F2 F3 F4 LEV MENU CLR MORE VTR 1 CG 2 NET 3 SAT A VCR 4 CAM 5 REM 6 EJ B FILM 7 PTCH 8 STU 9 FS C AUX TEST 0 MISC SS D CHOP TAKE PROT LOCK Figure 6−8. Display after category has been selected.
Control Panel Operation CP 3000 PROTECT OUTPUT The protect function prevents an output from being switched by other system control panels. For example, if a VTR is recording a program or if the output is feeding a program line, care must be taken to insure that the signal is not switched or disrupted. To Protect an Output The operator presses PROTECT. The system will request verification. (See Figure 6−10.) Press TAKE. If entry of a password is requested, please see Passwords on page 6−22.
Control Panel Operation CP 3000 To Unprotect an Output The panel that protected an output is used to unprotect the output. To unprotect the output, press PROTECT. The protect prompt will appear (See Figure 6−10.) Press TAKE. If entry of a password is requested, please see Passwords on page 6−22. The P symbol in the display status line will be removed. The output is now available for control by any panel in the system. For additional protect/lock information − see page 6−12.
Control Panel Operation CP 3000 LOCK OUTPUT The Lock function prevents an output from being switched, including being switched by the panel which set the lock. The output is unlocked by the same panel before a switch can be made. To Lock an Output The operator presses the LOCK push button. The system will request verification (see Figure 6−12). Press TAKE. If entry of a password is requested, please see Passwords on page 6−22.
Control Panel Operation CP 3000 If entry of a password is requested, please see Passwords on page 6−22. The L symbol in the display status line will be removed. The output is now available for control by any panel in the system. Additional Protect/Lock Information Protect − On Jupiter control panels with a PROTECT button: after a given source has been switched to a given destination, and PROTECT is pressed, the source for that destination can then be changed only at the panel which protected the output.
Control Panel Operation CP 3000 CHOP INPUTS Chop is a special switching function which automatically alternates inputs to a switcher output. This mode is useful in system test modes and for comparison of switcher inputs. The matrix chops between the currently selected input and the new chop input. This new input is selected via the normal input selection process, except CHOP is pressed instead of TAKE. The matrix will then rapidly alternate between the two switcher inputs.
Control Panel Operation CP 3000 LEVELS SELECTION (SPLIT SWITCHING) Normally, a request for a given input will be issued to all levels defined for that input name in the Switcher Input table (page 5−48). However, in some cases it may be desirable to prevent certain levels from switching. De−selecting Switcher Levels After selecting category and number, the bottom row will display the input mnemonic for each level as selected, i.e., non− blanked. See Figure 6−15.
Control Panel Operation CP 3000 Switching Different Inputs with a Single TAKE Command By using the procedure just described, a completely different input can be selected from one level to another before pressing TAKE. 1. Select an input without pressing TAKE. 2. Press LEVEL. a. If you want to de−select a level, press the appropriate function key now. 3. Select another input. 4. Press LEVEL, then press the Function key for the level(s) you want to receive this input. 5.
Control Panel Operation CP 3000 VTR1 VT1L VT1R VT1T STAT SEQ AUD OUT Page 1 VTR1 VT1L VT1R VT1T DIAG DEF PWD LOG Page 2 VTR1 VT1L VT1R VT1T ID Page 3 Figure 6−17. Menu selections. STAT — DISPLAY OUTPUT STATUS Selecting STATUS permits the operator to review the current status of all levels of the output controlled by the panel. The operator presses MENU and then the STATUS soft−key. The display prompt line is cleared and the output status prompt appears. (See Figure 6−18.
CP 3000 Control Panel Operation SEQ — SELECT INPUT SEQUENCES Special input selection sequences or macros may be defined via the Sequence Set table (Figure 5−80). On the CP 3000 Switcher Control Panel, the SEQUENCE soft−key allows the operator to access these pre−defined sequences. The operator presses MENU and then the SEQ soft−key to display the first page of sequence names. The operator then presses the soft−key corresponding to the desired sequence and TAKE.
Control Panel Operation CP 3000 AUD — AUDIO MODES When the Jupiter system is used to control a Venus switcher, the CP 3000 panel can be used for special audio switching modes such as sending a mono signal to both channels of a stereo output, mixing stereo signals into a mono output, and reversing channels. This function requires proper entries to the “Audio” column of the Switcher Description table (see page 5−35). 1. Select an output (as described on page 6−20). Press TAKE. 2.
Control Panel Operation CP 3000 Left signal on Left channel “NORM” = Right signal on Right channel “LEFT” = Left signal on Left channel Left signal on Right channel Right signal on Left channel “RGHT” = Right signal on Right channel Left + Right signals on Left channel “MIX” = Left + Right signals on Right channel Right signal on Left channel “REV” = Left signal on Right channel Figure 6−21. The “REV” mode is on the second page (accessible using the MORE key). 6. Press TAKE.
Control Panel Operation CP 3000 OUT — DISPLAY/CHANGE OUTPUT The OUTPUT menu selection displays the current logical matrix output to which the control panel is assigned. The operator presses MENU and then the OUTPUT soft−key. The display prompt line is cleared and the current control panel logical output is displayed. (see Figure 6−24.) The display remains until the operator presses CLEAR or TAKE. VTR1 VT1L VT1R VT1T PANEL OUTPUT = VTR2 Figure 6−24.
Control Panel Operation CP 3000 DEF — RE−DEFINE INPUT OVERRIDES The control panel overrides permit a quick selection of switcher inputs and level selections. The overrides must first be defined on the Override Set table (Figure 5−78). For each definition, there is a choice of allowing or not allowing the override to be edited from the front panel. Important: Front−panel editing of overrides is temporary.
Control Panel Operation CP 3000 PASSWORDS Note: For a general description of the Jupiter password system, including creation of passwords, please see page 5−22. Single−Event Password Entry If a password is requested during entry of a command, the output about to be affected has a password level higher than that of the panel. After entry of a higher−level six−digit password, the command can be completed by pressing TAKE; however, the panel will then revert to its previous password level.
CP 3000 Control Panel Operation LOG — Logout (CP 3000 Panel Only) If the Enter New Password or Raising Password Level functions just described have been used and you later wish to log out to prevent unauthorized operation, press MENU, MORE, and LOG. The panel will revert to the password level defined on the MPK Devices menu (page 5−107).
Control Panel Operation CP 3010 CP 3010 Expansion Panel Operation The CP 3010 can be used as a companion to the CP 3000 Switcher Control Panel (described immediately below) or to the MC 3000 Machine Control Panel (see page 6−131).
CP 3010 Control Panel Operation Permanent Assignment of Outputs to the TAKE Keys Outputs can also be assigned permanently, as described on page 5−79. Note: If an output is permanently assigned to a CP 3010 button, but that output is later removed from the CP Output table, and the new set downloaded, the CP 3010 will continue to display the name of the output until the output is manually deleted. To do this, select an output that is not defined and press the appropriate TAKE key on the expansion panel.
Control Panel Operation CP 3020 CP 3020 Push Button Control Panel operation Installation of this panel is shown on page 2−37. See also page 2−43. The CP 3020 is a single bus control panel that can select one of 20 inputs using the button−per−input technique. The number of inputs can be increased by means of the CP 3021 Expansion Panel.
Control Panel Operation CP 3800 CP 3800A Eight Character Control Panel 1 2 3 4 Menu Audio 5 SEQ Over ride 6 Level 7 Dest VTR 1 CG 2 NET 3 SAT A VCR 4 CAM 5 REM 6 EMER B Undo Film 7 Patch 8 STU 9 Frame C Take AUX TEST 0 MISC STILL D 8 Lock/ Prot Clear Figure 6−29. OVERVIEW The CP 3800A is a universal, eight−character mnemonic, switcher and machine control panel.
Control Panel Operation CP 3800 DISPLAY In general, the top row of the display is used to show status or operational modes, error messages, page numbers and instructions. The bottom row shows selection items corresponding to the row of soft keys under the display (i.e. levels, destinations, etc.).
Control Panel Operation CP 3800 Note: The “undo−undo” (toggle) function will not re−establish “special stereo switches” for Venus (mix, reverse, etc.) The TAKE button executes any change(s) which has(have) been selected. When any action has been selected that requires a TAKE to be completed, this button will illuminate in red to indicate that it is “armed.” ÎÎÎ ÎÎÎÎÎÎ ÎÎÎÎÎÎ ÎÎÎ ÎÎÎ ÎÎÎ ÎÎÎ ÎÎÎ ÎÎÎ ÎÎÎ ÎÎÎ ÎÎÎÎÎÎ ÎÎÎÎÎÎ ÎÎÎ MENU AUDIO SEQ OVER RIDES LEVEL DEST Figure 6−32.
Control Panel Operation ÎÎÎ ÎÎÎ ÎÎÎÎÎÎ PROT/ LOCK CP 3800 CLEAR Figure 6−33. PANEL CONTROL GROUP The bottom two buttons below the Mode group select protection or locking (PROT/LOCK) and clear category/number selections and/or cancel ongoing definitions (CLEAR). Protect/lock mode is described on page 6−61. The CLEAR button will clear any category/number selection if one is in progress.
Control Panel Operation CP 3800 MULTIPLE DESTINATION MODE This mode, sometimes referred to as “multi−bus” or “full−matrix control” mode, is in effect when none of the “mode” buttons are illuminated. This mode displays the top level status for eight destinations. Note: If no destinations are defined for the panel, upon powering up the panel will go into the “adding destination assignment” mode as explained on page 6−34. Follow the steps outlined to define at least one destination to one button.
Control Panel Operation CP 3800 MULTIPLE DESTINATION MODE (CONT’D) Selecting Destination(s) and Making a Switch 1. Select the destination soft key(s). Select the soft key under the desired destination (first scrolling to a different page if required). That soft key will illuminate green, and if Category Prompting is enabled, valid categories in the Category/Number Group will also illuminate green. Category/number selections will be ignored until a soft key has been selected.
Control Panel Operation CP 3800 MULTIPLE DESTINATION MODE (CONT’D) Destination = PRODCTN4 Category = Vid_Tape Number = 12 New Source = VTR_0012 Figure 6−38. Example Single Destination Assignment Display Page − Category & Two Digits Selected. If multiple destinations have been selected, the top line will display as many as possible (up to 6) and then indicate additional destinations with ellipses (...).
Control Panel Operation CP 3800 MULTIPLE DESTINATION MODE (CONT’D) Adding or Changing a Destination Soft Key Assignment A destination may be added to any unused location in the display. One additional page will be available when adding destination assignments. Changing a destination that has already been defined on the panel is also possible. Note: Destinations that have been defined in the panel’s CP Output set (page 5−79) cannot be changed.
Control Panel Operation CP 3800 MULTIPLE DESTINATION MODE (CONT’D) When assigning a destination to a soft key position for the first time, selecting the TAKE button will complete the assignment and clear all illuminated buttons. The panel will remain on the current page, with the page number displayed in the upper left corner. 5. If changing an existing assignment, press TAKE again.
Control Panel Operation CP 3800 MULTIPLE DESTINATION MODE (CONT’D) Entering Single Destination Mode This mode displays multi−level status for a single destination. 1. Press the DEST button. The DEST button will illuminate in green. 2. Select the destination to be controlled: — If the desired destination has already been assigned to a soft key, select the key. — If the desired destination has not been assigned to a soft key, press DEST again. Button should now be flashing red.
Control Panel Operation CP 3800 ÎÎÎ ÎÎÎ ÎÎÎ DEST SINGLE DESTINATION MODE (“SINGLE−BUS CONTROL”) This mode displays multi−level status for a single destination. The DEST button remains illuminated in high green. As explained previously, this panel can be system defined at the file server for Multiple/Single Destination Mode operation, or Single Destination Mode only operation.
Control Panel Operation CP 3800 ÎÎÎ ÎÎÎ ÎÎÎ DEST SINGLE DESTINATION MODE (CONT’D) Scrolling to Other Pages Scrolling to other pages is achieved with the Up/Down Arrows in the Menu Control Group. Only pages containing levels will be accessible. The presence of page numbers in the upper left corner indicate that more than eight levels have been defined for the selected destination. Selecting a Destination Note: This procedure varies according to system definition. 1. Press DEST.
Control Panel Operation CP 3800 ÎÎÎ ÎÎÎ ÎÎÎ DEST SINGLE DESTINATION MODE (CONT’D) 2. Select a category. After a valid category has been selected, the display will reflect the choice and if prompting is enabled, the valid number buttons will illuminate in red in the category/number group. Current Destination = PRODCTN4 Category = Vid_Tape Number = ??? New Destination = ???????? Figure 6−48. Example Destination Assignment Display Page − Category Selected. 3. Select a number.
Control Panel Operation CP 3800 ÎÎÎ ÎÎÎ ÎÎÎ DEST SINGLE DESTINATION MODE (CONT’D) Making a Switch 1. Select a category. To select a new source, the user enters Source Assignment Mode by selecting any of the green illuminated Category buttons. The display will update as shown below and if prompting is enabled (page 6−51), the available source number buttons will illuminate in red. Destination = PRODCTN4 Category = Vid_Tape Current Source = VTR_0001 Number = ??? New Source = ???????? Figure 6−51.
Control Panel Operation CP 3800 ÎÎÎ ÎÎÎ ÎÎÎ LEVEL LEVEL SELECTION MODE (“SPLIT” OR “BREAKAWAY” SWITCHING) This mode is in effect when the “LEVEL” button is illuminated. Level selection mode can be entered at any time. This mode is accessed either by directly selecting the LEVEL button or by selecting any level soft key when in single destination mode. This mode is indicated by the illumination of the LEVEL button: green if all levels are selected, red if any subset of levels are selected.
Control Panel Operation CP 3800 ÎÎÎ ÎÎÎ ÎÎÎ LEVEL LEVEL SELECTION MODE (CONT’D) The soft keys return to their selected destination states illuminated in green when returning to the multiple destination mode. The LEVEL button blinks in red to indicate that breakaway levels have been selected. It can be reselected at any time to examine the state of the level soft keys. Making a Split Switch—Multiple Destination Mode (“DEST” Button OFF) 1. Use a soft key to select a destination. 2.
Control Panel Operation CP 3800 ÎÎÎ ÎÎÎ ÎÎÎ AUDIO AUDIO CONTROL MODE (VENUS SPECIAL STEREO SWITCHING) This mode is in effect when the “AUDIO” button is illuminated. Note: Audio Control mode can only be used if an appropriately configured Venus switcher is connected. (For more information see “Audio” on page 5−43.) This mode is accessed by directly selecting the AUDIO button. If no such levels have been defined, the button will have no effect.
Control Panel Operation CP 3800 ÎÎÎ ÎÎÎ ÎÎÎ AUDIO AUDIO CONTROL MODE (CONT’D) To Perform a Special Stereo Switch: 1. Select a destination and a source. 2. Press AUDIO. 3(a).
Control Panel Operation CP 3800 ÎÎÎ ÎÎÎ ÎÎÎ MENU MENU MODE This mode is in effect when the “MENU” button is illuminated. Menu mode is used to access less frequently needed functions, run diagnostics, and to configure the panel. Select the MENU button to enter this mode. That button will illuminate in green and the panel will present the following display: Menu Page − Select Desired Soft Key VTR CNTL DIAGNOSTIC CHOP CONFIG PASSWORD Figure 6−58. Top Level Menu Page.
Control Panel Operation CP 3800 ÎÎÎ ÎÎÎ ÎÎÎ MENU MENU MODE (CONT’D) If a source is selected which does not support machine control the display will indicate as follows: Destination = PRODCTN4 PLAY STOP NO MACHINE CONTROL DEFINED for RECORD Figure 6−61. Example Single Destination Machine Control Page − No Machine defined warning.
Control Panel Operation CP 3800 ÎÎÎ ÎÎÎ ÎÎÎ MENU MENU MODE (CONT’D) Diagnostics Upon selection of the Diagnostics soft key of the menu page, the panel will enter the firmware diagnostics mode and the following display will be shown: DIAGNOSE LED TEST MENU MENU Figure 6−64. Menu Diagnostics Select Page. Press the up and down arrows to scroll to the desired selection. Press TAKE to execute the desired selection. To exit the diagnostics mode press CLEAR at any time.
Control Panel Operation CP 3800 ÎÎÎ ÎÎÎ ÎÎÎ MENU MENU MODE (CONT’D) MPK Test This diagnostic, which requires the panel to be disconnected from the MPK data cable, is used for factory testing of the MPK port. Pressing any key will exit the test and return the panel to the Diagnostics menu.
Control Panel Operation CP 3800 ÎÎÎ ÎÎÎ ÎÎÎ MENU MENU MODE (CONT’D) Chop This menu selection allows chopping alternatively between the previously selected source and a new source. Upon selection of the CHOP soft key, the MENU button will illuminate in red and the following display will be shown: Enter Input to CHOP and Press TAKE to Complete Category = Vid_Tape Number = ?? New Source = ???????? Figure 6−65. Menu Diagnostics Select Page.
Control Panel Operation CP 3800 ÎÎÎ ÎÎÎ ÎÎÎ MENU MENU MODE (CONT’D) Config Upon selection of the Configuration soft key of the Menu page, the MENU button will illuminate in red and the following display will be shown: Menu Configuration Page − Select Desired Soft Key Output Level Audio Prompting Figure 6−66. Menu Configuration Select Page. Pressing the red MENU button again, or CLEAR, will exit the configuration mode.
Control Panel Operation CP 3800 ÎÎÎ ÎÎÎ ÎÎÎ MENU MENU MODE (CONT’D) Sticky Audio Mode: Press TAKE to turn Sticky Audio OFF ON − Clear to Exit Figure 6−69. Menu Configuration − Sticky Audio Page. Pressing TAKE will cause the sticky audio mode to toggle. CLEAR will return to the previous page.
Control Panel Operation CP 3800 ÎÎÎ ÎÎÎ ÎÎÎ MENU MENU MODE (CONT’D) Password Level Request During TAKE If the user requests a TAKE that requires a higher level password than the panel is currently set to, the user will also be presented with the password security page below. Entry of a valid password and TAKE will execute the take that one time only: Panel Security Level = 66 Enter New Password Then Select TAKE PASSWORD = ?????? (FOR THIS TAKE ONLY) Figure 6−73. One Time Only Password Security Page.
Control Panel Operation CP 3800 ÎÎÎ ÎÎÎ ÎÎÎ OVER RIDES OVERRIDE MODE This mode is in effect when the “OVERRIDES” button is illuminated. Up to 10 pages of Overrides (80 total) may be defined. The up/down arrow keys may be used to access all pages containing defined overrides. Overrides may be defined using the file server in the CP Override set assigned to the panel (page 5−96), or, interactively by the user as described below.
Control Panel Operation CP 3800 ÎÎÎ ÎÎÎ ÎÎÎ OVER RIDES OVERRIDE MODE (CONT’D) 1 Some Override Levels Not Valid For Destination − Partial Take Occurred ALLBLACK ALL_BARS SET_UP_A SET_UP_B OVERRD05 OVERRD06 OVERRD07 OVERRD08 Figure 6−76. Example Override Mode Warning Display. 1 All Override Levels Not Valid For Destination − No Take Occurred ALLBLACK ALL_BARS SET_UP_A SET_UP_B OVERRD05 OVERRD06 OVERRD07 OVERRD08 Figure 6−77. Example Override Mode Warning Display.
Control Panel Operation CP 3800 ÎÎÎ ÎÎÎ ÎÎÎ OVER RIDES OVERRIDE MODE (CONT’D) To create the definition, the operator selects TAKE. The panel displays it is ready to define an override and the OVERRIDE button blinks in red to indicate that a definition is in progress. Defining Override − Press TAKE to Complete Category = Vid_Tape Number = 12 New Source = VTR_0012 Figure 6−80. Example Override Definition Menu − Source Selection.
Control Panel Operation CP 3800 ÎÎÎ ÎÎÎ ÎÎÎ OVER RIDES OVERRIDE MODE (CONT’D) Erasing An Override Overrides may be erased if no longer needed or to make room for new definitions from the Define Overrides Home mode. Enter define mode by double punching the OVERRIDE button (see above for menu display). Selecting CLEAR at this point allows erasing user defined overrides.
Control Panel Operation CP 3800 ÎÎÎ ÎÎÎ ÎÎÎ SEQ SEQUENCE MODE This mode is in effect when the “SEQ” button is illuminated. Sequence mode may be selected from either single or multiple destination home state by selecting the SEQ button, which will then illuminate in green. No keypad operations may be in progress. Any selected levels or audio modes are suspended while in sequence mode as sequences contain their own level and audio definitions.
Control Panel Operation CP 3800 ÎÎÎ ÎÎÎ ÎÎÎ SEQ SEQUENCE MODE (CONT’D) Entering Define Mode The panel is placed in Define Sequence mode by double punching the SEQUENCE button, which will then illuminate in red to indicate this mode.
Control Panel Operation CP 3800 ÎÎÎ ÎÎÎ ÎÎÎ SEQ SEQUENCE MODE (CONT’D) In single destination mode the user is prompted to select a source: 3 Destination = Studio A, Select Source VTR_01 VTR_02 VTR_03 ENGNRING STUDIO_A STUDIO_D MONITR45 MONITR46 Figure 6−90. The user may then set up any kind of basic or complex source selection per normal operation. Destination changes/selections are also recorded as part of the Sequence definition.
Control Panel Operation CP 3800 ÎÎÎ ÎÎÎ ÎÎÎ SEQ SEQUENCE MODE (CONT’D) Viewing Sequence Definitions To view sequence definitions, place the panel in the Define Sequence mode as defined above. Then select an existing sequence. The following display will be shown: 1 Definition of , Entry:01, TST_SQ17 TST_SQ17 TST_SQ17 TST_SQ17 Destination=PROCTN1, TST_SQ17 TST_SQ17 Source=Test−17 TST_SQ17 TST_SQ17 Figure 6−93. Example Viewing Sequence Definition − Sequence Entry 1.
Control Panel Operation CP 3800 ÎÎÎ ÎÎÎ ÎÎÎ PROT/ LOCK PROTECT/LOCK MODE The bottom two buttons below the Mode group select protection or locking (PROT/LOCK) and clear category/number selections and/or cancel ongoing definitions (CLEAR). Protection is accessed by selecting the PROT/LOCK button once, illuminating green to indicate this condition. Locking is accessed by selection twice (double punch). The PROT/LOCK button will illuminate red.
Control Panel Operation CP 3800 ÎÎÎ ÎÎÎ ÎÎÎ PROT/ LOCK PROTECT/LOCK MODE, CONT’D 1 PROTECT Destinations? VTR_0123 VTR_0124 VTR_0125 Select TAKE to Execute, CLEAR to Cancel VTR_0126 STUDIO_A STUDIO_B STUDIO_C PRDCTN4 Figure 6−99. Example Protect Multiple Destinations Prompt. The bottom line will display the current page of destination names and the selected destination buttons will be illuminated.
Control Panel Operation CP 3800 TIE LINE STATUS AND OPERATION All destinations employing tie lines will be so indicated with a blinking “T” in the destination status display in the 1st character position. When in single destination mode, the 1st character position of each level will also reflect tie line status with the blinking “T.
Control Panel Operation CP 3808 CP 3808 Control Panel CP 3808 VTR−01−V VTR 1 CAM 2 SAT 3 EJ VCR 4 NET 5 REM 6 FILM Clear Stu 7 MISC 8 AUX 9 FS Take CGEN TEST 0 PTCH STILL COLORBAR VTR−01−L PRESET VTR−01−R VTR−01−T Menu Figure 6−101. (For installation and configuration instructions, please see page 2−45.) The CP 3808 control panel is a 16−category,* full−matrix,* multi level breakaway* panel capable of locking* and protecting* outputs.
Control Panel Operation CP 3808 DESTINATION (OUTPUT) SELECTION CP 3808 VTR−01−V VTR−01−L VTR 1 CAM 2 SAT 3 EJ VCR 4 NET 5 REM 6 FILM Clear Stu 7 MISC 8 AUX 9 FS Take CGEN TEST 0 PTCH STILL STUDIO−A PRESET VTR−01−R VTR−01−T Menu Figure 6−102. Press once to show current destination in Preset window. To select a destination: 1. Press the MENU button once. The Preset window will display the present destination.
Control Panel Operation CP 3808 SOURCE SELECTION CP 3808 Video VTR 1 CAM 2 SAT 3 EJ VCR 4 NET 5 REM 6 FILM Clear Stu 7 MISC 8 AUX 9 FS Take CGEN TEST 0 PTCH STILL VTR−01 Left PRESET Right T/C Menu Figure 6−103. To select a source (input): — press a category (e.g., “VTR”) and unit number combination, or — use the UP and DOWN arrows to scroll through all sources, or — press a category key and use UP/DOWN to scroll through the possible units in that category... ...then press TAKE.
Control Panel Operation CP 3808 LEVEL BREAKAWAYS (SPLIT SWITCHING) CP 3808 Video VTR 1 CAM 2 SAT 3 EJ VCR 4 NET 5 REM 6 FILM Clear Stu 7 MISC 8 AUX 9 FS Take CGEN TEST 0 PTCH STILL VTR−041 Left PRESET Right T/C Menu Figure 6−105. Breakaways can be accomplished either by selecting the levels to switch, and then selecting a source; or by selecting a source and then deselecting unwanted levels.
Control Panel Operation CP 3808 Level Deselect Method 1. Select a source. The available level mnemonics appear in the Level windows; applicable level buttons will illuminate in “high” green. 2. Deselect levels by pressing the appropriate level button. The button lamp will change to “low” green, and the corresponding level window will be blanked. To move beyond the first four levels, use the UP and DOWN arrow keys. Pressing CLEAR will cancel the operation. 3. Press TAKE.
Control Panel Operation CP 3808 To return to Home mode, press CLEAR. Status Mode — Press MENU Twice This mode allows the UP and DOWN buttons to select and status levels beyond the first four. The mode is indicated by the message “1 STATUS” in the Preset window. The “1” refers to “page 1,” that is, the first page of four levels being displayed. To return to Home mode (in which UP and DOWN are used for source selection) press CLEAR.
Control Panel Operation 2. CP 3808 Press LOCK. This has the effect of locking only those levels this control panel can control (as defined on the CP Level set assigned to the panel). The TAKE button will illuminate steady red, indicating the output has been locked by this panel. If another panel selects this output for control, that panel’s LOCK button will blink. If the other panel attempts to switch this output, a “LOCKED” message will appear, along with the name of the locking panel.
CP 3808 Control Panel Operation To unprotect the output: 1. Press and release MENU until “UNPROT?” appears. 2. Press UNPROT. The TAKE button will return to green. If the output cannot be unprotected, it has been protected by another panel. The display will indicate “Protect” and show the name of protecting panel. An output may be force unprotected, no matter which panel protected it, if the password level of the unprotecting panel is level 90 or greater.
Control Panel Operation CP 3808 Baud Rate When selected, this option displays the current baud rate for the panel. Press DOWN to decrease the baud rate, UP to increase. Available baud rates are: 38400, 19200, 9600, 4800, 2400, and 1200. Pressing TAKE will program the changed setting; CLEAR will cancel. The baud rate must agree with the setting for the CM 4000 port used by the panel (see Serial Protocol on page 5−30).
CP 3808 Control Panel Operation The “low” green level is used for normal button lighting. “High” green and “high” red are also used, but these are not adjustable. Note: The amber color, which is presently used only for a CP 3830 dedicated output panel, is created by combining low green and low red. For each setting, use the UP and DOWN buttons to change to the desired brightness and press TAKE. Press CLEAR to exit. Burn In This test rotates through the button lamp and Display tests continually.
Control Panel Operation CP 3808 AUDIO SWITCHING MODE (VENUS SPECIAL STEREO SWITCHING) The CP 3808 has the capability of controlling Venus Audio Modes, which are Normal, Mix, and Reverse. These changes are made to individual levels prior to completing a switch by pressing the TAKE button. Note: Audio switching mode can only be used if an appropriately configured Venus switcher is connected. To perform a special stereo switch: 1. Select a source. 2. Press MENU.
Control Panel Operation CP 3808 NORMAL − Use right audio for this channel RIGHT RIGHT (Right signal on Right channel) MIX − Mix left and right on this channel LEFT RIGHT RIGHT (Left + Right signals on Right channel) REVERSE − Cross opposite channel signal over to this channel LEFT RIGHT (Left signal on Right channel) 5. Press TAKE. PASSWORDS Note: For a general description of the Jupiter password system, please see page 5−22.
Control Panel Operation CP 3824 CP 3824 Control Panel (For installation and configuration instructions, please see page 2−46.) The CP 3824 control panel is a locally−programmable, full−matrix,* multiple level breakaway panel capable of locking* and protecting* outputs. The panel features eight−character display capability and relegendable, lighted push buttons.
Control Panel Operation CP 3824 SOURCE SELECTION 1 2 3 4 5 6 7 8 BLACK BARS TONE SILE NCE CURRENT VTR 1 VTR 2 VTR 3 VTR 4 STU 1 STU 2 EDIT 1 EDIT 2 EBS 1 EBS 2 TEST 1 TEST 2 CLEAR VTR 1 CG 2 NET 3 VCR 4 CAM 5 PAGE PROT MENU AUX 6 SS 7 REM 8 FILM 1 9 PTCH 0 LEVEL LOCK CHOP STU TEST SAT FS MISC PRE− SEND TAKE SET PRESET Button−per−source keys (programmable overrides) Category/ Number keys Figure 6−110.
Control Panel Operation CP 3824 Flip−flop Operation The present source is shown in the Current window, while the previous source is shown in the Preset window. This allows “flip−flopping” the sources, or switching between the current and preset sources by simply pressing the TAKE button. As an example, if you wish to change the source from BARS to VTR−002, first select the VTR category.
CP 3824 Control Panel Operation LOCKING OR UNLOCKING AN OUTPUT Locking an output prevents that output from being switched by any panel in the system, including the initiating panel. To lock an output: 1. Press the LOCK button. This has the effect of locking only those levels this control panel can control (as defined on the CP Level set assigned to the panel). The button will blink, indicating the output has been locked by this panel.
Control Panel Operation CP 3824 If the other panel has no LOCK button, that panel’s TAKE button will blink. To unprotect the output: 1. Press the PROT button again. The PROT button will stop blinking. If the output cannot be unprotected, it has been protected by another panel. The display will indicate “Protect” and show the name of protecting panel. An output may be force unprotected, no matter which panel protected it, if the password level of the unprotecting panel is level 90 or greater.
Control Panel Operation CP 3824 LEVEL BREAKAWAYS (SPLIT SWITCHING) Breakaway Using Override Keys (PRESET Off) 1 Press CLEAR 2 Press LEVEL PAGE PROT MENU CURRENT LEVEL LOCK CHOP PRE− SEND TAKE SET CLEAR PRESET These six buttons now function as temporary level select keys. Lighted buttons initially indicate defined levels.
Control Panel Operation CP 3824 Breakaway Using Category/Number Keys (PRESET Off) 1 Press CLEAR CURRENT CLEAR VTR 1 CG 2 NET 3 VCR 4 CAM 5 AUX 6 SS 7 REM 8 FILM 1 9 PTCH 0 STU TEST SAT FS MISC PRESET § 2 Select a Category and Number§ Steps 2 and 3 can be performed in reverse order if desired. Press LEVEL§ 3 PAGE PROT MENU VTR−001 CURRENT LEVEL LOCK CHOP VTR−002 PRE− SEND TAKE SET PRESET These six buttons now function as temporary level select keys.
Control Panel Operation CP 3824 Breakaway Switching − Multi−Level Take This function allows setup of different sources on different levels with all levels switched using a single TAKE. For example, you can select video from VTR1 and audio from VTR2 to switch to VTR3 with a single TAKE. 1. Select the first source using the Category/Number keys. The Override keys cannot be used for this function. 2. Press LEVEL. This activates the six “temporary level” buttons (the outlined buttons in Figure 6−116).
Control Panel Operation 1. CP 3824 Press MENU three times. The word “STICKY” appears in the Current window. 2. Use UP/DOWN to toggle the display to “ON?” 3. Press TAKE. If more than six levels have been defined, UP/DOWN will increment through additional pages of levels. When multiple pages of levels exist, the Preset display will prompt PG 1 (2, 3, etc.) next to the “ON,” and allow the user to select additional pages for toggling on or off the level.
Control Panel Operation CP 3824 DEFINING OVERRIDES The 24 Override keys on left side of the panel can be programmed from the front panel using the SEND key. 1. Press CLEAR. This returns the panel to the “home state.” 2. Locate the desired override page and key position for the new input: a. Press PAGE, then UP/DOWN to access additional pages. The page number is shown in the Current window. Pressing UP and DOWN together returns to page 1.
Control Panel Operation CP 3824 Restoring Override Keys to Default Assignments (Default Select Mode) Preset sources assigned to the 24 programmable buttons and their various pages are initially assigned in the Jupiter Configuration Sets and downloaded to the CM 4000. These initial assignments are considered the “DEFAULT” assignments. Other preset sources and combinations of levels can be assigned dynamically at the CP 3824 without downloading new configuration sets.
CP 3824 Control Panel Operation MENU FUNCTIONS Destination Mode — Press MENU Once In this mode (already described on page 6−76) the destination is shown in the Preset window. To return to Home mode, press CLEAR. Default Select Mode — Press MENU Twice This mode is used to return Override buttons to the inputs assigned by the file server. See page 6−86. Sticky Mode — Press MENU Three Times Allows breakaway operation during which the selected Levels remain selected after a TAKE. See page 6−83.
Control Panel Operation CP 3830 CP 3830 Control Panel VTR 1 CG 2 NET 3 Menu VCR 4 CAM 5 SAT 6 Lock Chop FILM 7 PATCH 8 STU 9 Prot Take AUX TEST 0 NUM Clear CP 3830 COLORBAR CURRENT PRESET VIDEO LEFT RIGHT AES1 T/C Figure 6−119. (For installation and configuration instructions, please see page 2−47.) The CP 3830 Control Panel is a 12−category,* full−matrix,* multi−level* breakaway* panel, capable of locking,* protecting,* and chopping* outputs.
Control Panel Operation CP 3830 DESTINATION SELECTION VTR 1 CG 2 NET 3 Menu VCR 4 CAM 5 SAT 6 Lock Chop FILM 7 PATCH 8 STU 9 Prot Take AUX TEST 0 NUM Clear CP 3830 Press once, then select new output OUTPUT CURRENT COLORBAR PRESET VIDEO LEFT RIGHT AES1 T/C Figure 6−120. To select a destination: 1. Press the MENU button once. The Preset window will display the present destination.
Control Panel Operation CP 3830 SOURCE SELECTION VTR 1 CG 2 NET 3 Menu VCR 4 CAM 5 SAT 6 Lock Chop FILM 7 PATCH 8 STU 9 Prot Take AUX TEST 0 NUM Clear CP 3830 CURRENT PRESET VIDEO LEFT RIGHT AES1 T/C Figure 6−121. To select an input: — press a category (e.g., “VTR”) and unit number combination, or — use the UP and DOWN arrows to scroll through all sources, or — press a category key and use UP/DOWN to scroll through the possible category entries. ...then press TAKE.
Control Panel Operation CP 3830 Note: The output currently being controlled by the CP 3830 will not be affected. (To assign Expansion Panel buttons to outputs, see pages 5−79 and 6−124 (CP 3809) or 5−79 and 6−126 (CP 3810). Flip−flop Operation The present source is shown in the Current window, while the previous source is shown in the Preset window. This allows “flip−flopping” the sources, or switching between the current and preset sources by simply pressing the TAKE button.
Control Panel Operation CP 3830 LOCKING OR UNLOCKING AN OUTPUT Locking an output prevents that output from being switched by any panel in the system, including the initiating panel. In a single destination panel, it essentially locks the panel from further operator action until unlocked. Note: The CP 3830P Preset (preview) output cannot be locked or protected. To lock an output: 1. Press the LOCK button.
CP 3830 Control Panel Operation If another CP 3830 panel selects this output for control, that panel’s PROT button will blink red. If the other panel attempts to switch this output, a “PROTECT” message will appear, along with the name of the protecting panel. If a CP 3808 panel selects this output for control, that panel’s TAKE button will blink red (the CP 3808 has no Protect button). To unprotect the output: 1. Press the PROT button again. The PROT button switch to “low” green.
Control Panel Operation CP 3830 LEVEL BREAKAWAYS (SPLIT SWITCHING) VTR 1 CG 2 NET 3 Menu VCR 4 CAM 5 SAT 6 Lock Chop FILM 7 PATCH 8 STU 9 Prot Take AUX TEST 0 NUM Clear CP 3830 COLORBAR CURRENT VTR− PRESET VIDEO LEFT RIGHT AES1 T/C Figure 6−126. Level buttons Breakaways can be accomplished either by presetting the levels to switch, and then selecting a source, or by selecting a source and then deselecting unwanted levels.
CP 3830 Control Panel Operation Level Deselect Method 1. Select a source. The source mnemonic appears in the Preset window; applicable level buttons will illuminate in “high” green. 2. Deselect levels by pressing the appropriate level button. The button will switch to “low” green, and the Preset window will display the level name. Pressing CLEAR will cancel the operation. 3. Press TAKE (or, on a CP 3830P, PRESET TAKE, TAKE).
Control Panel Operation CP 3830 MENU FUNCTIONS Destination Mode — Press MENU Once In this mode (already described on page 6−89) the destination is shown in the Preset window. (The CP 3830P will show two destinations.) If the panel is equipped with a CP 3809 Expansion, the outputs controlled by that panel will be indicated. To return to Home mode, press CLEAR. Status Mode — Press MENU Twice This mode allows the six level buttons to select and status each level. To return to Home mode press CLEAR.
CP 3830 Control Panel Operation Panel ID (Address) Mode—Press MENU Four Times This option displays the current MPK address for this panel in the Preset window. Diagnostics Mode — Press MENU Five Times For a description of the diagnostics and adjustments, please see the CP 3808 Diagnostic Mode on page 6−71, starting with Step 2. Except as noted, this description applies to the CP 3830.
Control Panel Operation CP 3830 AUDIO SWITCHING MODE (VENUS SPECIAL STEREO SWITCHING) The CP 3830 has the capability of controlling Venus Audio Modes, which are Normal, Mix, and Reverse. These changes are made to individual levels prior to completing a switch by pressing the TAKE button. Note: Audio switching mode can only be used if an appropriately configured Venus switcher is connected. To Perform a Special Stereo Switch: 1. Select a source. 2. Press MENU. The MENU button will light in red.
Control Panel Operation CP 3830 4. Toggle the Right channel soft key to the desired mode: NORMAL − Use right audio for this channel RIGHT RIGHT (Right signal on Right channel) MIX − Mix left and right on this channel LEFT RIGHT RIGHT (Left + Right signals on Right channel) REVERSE − Cross opposite channel signal over to this channel LEFT RIGHT (Left signal on Right channel) 5. Press TAKE.
Control Panel Operation CP 3832 / 3864 CP 3832 / 3864 Control Panels The CP 3832 is a button−per−source control control panel configurable for single bus* (32 X 1) or “split” operation. In split configurations some of the buttons control inputs and some control outputs. The panel includes buttons for TAKE, LOCK,* and PROTECT.* For installation and configuration instructions, please see page 2−49.
CP 3832 / 3864 Control Panel Operation SINGLE−BUS OPERATION 32 sources (green) Figure 6−131. CP 3832. 64 sources (green) Figure 6−132. CP 3864. Each input button of the CP 3832 / 3864 can be assigned to a specific source using a CP Input set (page 5−74.) The name of this set, and the name of the destination to be controlled, is entered on the MPK Devices table (page 5−110 and following). To verify destination − for the CP 3832, press MENU. The destination will be shown in the Preset window.
Control Panel Operation CP 3832 / 3864 Breakaway Switching − Sticky* Level(s) Blinking LEVEL button indicates Sticky mode Figure 6−133. To “retain” certain levels (keep them selected after a Take), press PRESET (so that the button is flashing red). Then press the LEVEL button. The name of the first level will be displayed in the Preset window. Advance to the desired level by pressing LEVEL; then press PROT/LOCK.
CP 3832 / 3864 Control Panel Operation CHOP (CP 3864 ONLY) To chop* an output: 1. With PRESET off, select the first source. 2. Press PRESET. 3. Select the second source, and press CHOP. The CHOP button will blink red, with the first source displayed in the Current window, and the second source displayed in the Preset window. The chop operation will automatically stop after approximately three minutes. The chop will finish with the source in the Current window remaining switched to the destination.
Control Panel Operation CP 3832 / 3864 To unprotect the output: 1. Press the PROT/LOCK button again. The Preset display will ask “Unprot?” 2. Press TAKE. The PROT button will switch to “low” green. If the TAKE command is ignored, the output has been protected by another panel. To find out the name of the panel, select an input button. An output may be force unprotected, regardless of the panel that protected it, if the password level of the unprotecting panel is level 90 or greater.
CP 3832 / 3864 Control Panel Operation The Preset display will ask “Unlock?” 2. Press TAKE. The PROT/LOCK button lamp will switch to “low” green. If the TAKE command is ignored, the output has been locked by another panel. To find out the name of the panel, select an input button. An output may be forced unlocked, no matter which panel locked it, if the password level of the unlocking panel is level 90 or greater. The password level is defined in the MPK Devices table entry (page 5−107).
Control Panel Operation CP 3832 / 3864 SPLIT PANEL OPERATION 31 sources (green) 1 destination (amber) 16 sources (green) 16 destinations (amber) Figure 6−134. Examples of CP 3832 split configurations. 63 sources (green) 1 destination (amber) 32 sources (green) 32 destinations (amber) Figure 6−135. Examples of CP 3864 split configurations.
CP 3832 / 3864 Control Panel Operation Breakaway switching − multi−level Take − Check to see that the desired output has been selected on the bottom row; if not, select it now. To switch different sources to different levels with a single Take command, turn PRESET on (the button will flash red). Then press the LEVEL button. The name of the first level will be displayed in the Preset window.
Control Panel Operation CP 3832 / 3864 OPERATION AS A SOURCE OR DESTINATION EXPANSION PANEL The CP 3832 / 3864 can be combined with other CP 3832s and CP 3864s to increase the number of sources and destinations to a maximum of 128 x 128. Examples are shown in Figures 6−136, 6−137, and 6−138. 64 sources (green) CP 3832 used as source expansion panel Figure 6−136. 48 sources (green) CP 3832 used as source expansion panel 16 destinations (amber) Figure 6−137.
Control Panel Operation CP 3832 / 3864 Single−Bus Operation For single−bus applications, such as illustrated in Figures 6−139 and 6−140, operation is very similar to that described on page 6−101. The main difference is that only the Main panel’s control buttons (“LEVEL,” “TAKE,” etc.) are normally used. On the expansion panel(s), the control buttons are not illuminated and the word “Source” always appears in the Preset window.
Control Panel Operation CP 3832 / 3864 Source Expansion Operation (with “balanced Split” 16 x 16 Main Panel) For expansion with balanced split§ main panel applications, such as illustrated in Figure 6−141, operation is very similar to that described on page 6−106. The main difference is that only the Main panel’s control buttons (“LEVEL,” “TAKE,” etc.) are normally used. On the expansion panel(s), the control buttons are not illuminated and the word “Source” always appears in the Preset window.
Control Panel Operation CP 3832 / 3864 Destination Expansion Operation For destination expansion applications, such as illustrated in Figure 6−142, operation is very similar to that described on page 6−106. Configuration will be slightly different (since neither panel in Figure 6−142 is being used in the “split” mode). In terms of operation, only the Main panel’s control buttons (“LEVEL,” “TAKE,” etc.) are normally used.
Control Panel Operation CP 3832 / 3864 MENU FUNCTIONS Destination Mode — Press MENU Once In this mode the destination is shown in the Preset window. If the panel is equipped with a CP 3810 Expansion, the outputs controlled by that panel will be indicated. To exit this mode, press CLEAR. Audio Status Mode— Press MENU Twice Note 1: Audio status mode can only be used if an appropriately configured Venus switcher is connected.
Control Panel Operation CP 3832 / 3864 1. Press and release MENU until “DIAGNOSE” appears in the Current window. 2. Use the LEVEL button to select the desired diagnostic. 3. Press TAKE. Instructions for each diagnostic are given below. To exit the diagnostics mode press CLEAR at any time. (It may be necessary to press CLEAR twice.) LED Test This test cycles through the button lamps (LEDs) and illuminates them in green and then red. The test will stop after one cycle.
Control Panel Operation CP 3832 / 3864 The address must agree with the setting for the panel on the MPK Devices table (see page 5−107). MPK Test This diagnostic requires the panel be disconnected from the MPK data cable. This test allows the factory to test the MPK connection on the control panel.
Control Panel Operation CP 3832 / 3864 AUDIO SWITCHING MODE (VENUS SPECIAL STEREO SWITCHING) The CP 3832/64 has the capability of controlling Venus Audio Modes, which are Normal, Mix, and Reverse. These changes are made to individual levels prior to completing a switch by pressing the TAKE button. Note: Audio switching mode can only be used if an appropriately configured Venus switcher is connected. To perform a special stereo switch: 1. Enter Preset mode by pressing PRESET. The button will flash red.
Control Panel Operation 5. CP 3832 / 3864 Press the LEVEL button to move to the right channel. Toggle the right channel to the desired mode by pressing the PRESET button.: NORMAL − Use right audio for this channel RIGHT RIGHT (Right signal on Right channel) MIX − Mix left and right on this channel LEFT RIGHT RIGHT (Left + Right signals on Right channel) REVERSE − Cross opposite channel signal over to this channel LEFT RIGHT (Left signal on Right channel) 6. Press TAKE.
Control Panel Operation CP 3832L / 3864L CP 3832L / 3864L Control Panels The CP 3832L is a CP 3832 panel configured so that the right−hand group of six buttons function as level selection buttons. The CP 3832L is a button−per−source control control panel configurable for single bus* (32 X 1) or “split” operation. In split configurations some of the buttons control inputs and some control outputs. For installation and configuration instructions, please see page 2−49.
Control Panel Operation CP 3832L / 3864L SINGLE−BUS OPERATION 32 sources (green) Figure 6−148. CP 3832L. 64 sources (green) Figure 6−149. CP 3864L. Each input button of the CP 3832L / 3864L can be assigned to a specific source using a CP Input set (page 5−74.) The name of this set, and the name of the destination to be controlled, is entered on the MPK Devices table (page 5−110 and following).
CP 3832L / 3864L Control Panel Operation PROTECT/UNPROTECT FUNCTIONS CP 3832L A CP 3832L will indicate when another panel has protected (or locked) an output by flashing the last selected input button. The CP 3832L cannot protect/unprotect (or lock/unlock) an output. CP 3864L Protecting an output prevents that output from being switched by other panels in the system. The protecting panel may still change the output. To protect an output with the CP 3864L: 1. Press the Protect button.
Control Panel Operation CP 3832L / 3864L SPLIT PANEL OPERATION 31 sources (green) 1 destination (amber) 16 sources (green) 16 destinations (amber) Figure 6−150. Examples of CP 3832L split configurations. 63 sources (green) 1 destination (amber) 32 sources (green) 32 destinations (amber) Figure 6−151. Examples of CP 3864L split configurations.
Control Panel Operation CP 3832L / 3864L Breakaway switching − multi−level Take − Check to see that the desired output has been selected on the bottom row; if not, select it now. To switch different levels with a single command, press the first desired level button. The name of the first level will be displayed in the Preset window. Press the next desired level button, etc. When all selections have been made, perform the switch by pressing an input button.
Control Panel Operation CP 3832L / 3864L Baud Rate When selected, this option displays the current baud rate for the panel. Press Level 1 to cycle through the baud rate settings. Available baud rates are: 38400, 19200, 9600, 4800, 2400, and 1200. Pressing the “Level 6” button (CP 3832L) or the “Protect” button (CP 3864L) will program the changed setting; Level 3 will cancel. The baud rate must agree with the setting for the CM 4000 port used by the panel (see Serial Protocol on page 5−30).
CP 3832L / 3864L Control Panel Operation Burn In This test rotates through the button lamp and Display tests continually. Press Level 3 to cancel. Keyboard Test This diagnostic displays the number of each button as it is pressed. Pressing the Level 1 key will change the lamp color. Pressing Level 3 twice exits. Display Test This test cycles through and displays all legal characters. The test will stop after one cycle. Pressing Level 3 exits.
Control Panel Operation CP 3809 CP 3809 Expansion Panel Operation The CP 3809 can be used as a companion to the CP 3808 Switcher Control Panel or to the CP 3830 Control Panel. Each button on the CP 3809 panel represents a destination, with the display line above providing status. Up to five CP 3809 panels can be associated with a CP 3808 or CP 3830, providing up to 40 outputs for control. Figure 6−155 illustrates a control panel array for CP 3809 control of 16 outputs.
CP 3809 Control Panel Operation Deleting an Output on TAKE Key To delete an output that has been dynamically assigned to the expansion panel, use the CP 3808/3830 to select an output that is not defined and press the appropriate button on the expansion panel. Permanent Assignment of Outputs to the Expansion Panel Outputs can also be assigned permanently, using the CP Output Set. See page 5−79.
Control Panel Operation CP 3810 CP 3810 Expansion Panel Operation The CP 3810 panel can be associated with a CP 3832, CP 3864, CP 3808, or CP 3830 Main panel, providing control of up to 80 outputs. The CP 3810 can be configured as a “CP 3810L,” allowing it to be assigned to one output; this provides breakaway (split) switching and/or multi−level status. Alternatively, it can be configured as a “CP 3810S,” meaning that the selected outputs will remain selected until explicitly changed by the operator.
Control Panel Operation CP 3810 Audio−follow−video Switching PRESET OFF method. See Figure 6−157. [1] PRESET OFF [2] Select destination(s) [3] Select source Figure 6−157. Switching with Preset OFF. 1. Check to see that PRESET is OFF. 2. Use the CP 3810 to select the destination(s). The “page” of eight destinations can be scrolled with the arrow buttons to display up to 80 possible destinations. The selected output button(s) will glow “high” green to show it will be affected by the switch. 3.
Control Panel Operation CP 3810 PRESET ON method. See Figure 6−158. [2] Select source [3] Select destination(s) [1] PRESET ON [4] Press TAKE Figure 6−158. Switching with PRESET ON. 1. Check to see that PRESET is ON. 2. Select a source using the Main panel. 3. Use the CP 3810 to select the destination(s). The “page” of eight destinations can be scrolled with the arrow buttons to display up to 80 possible destinations.
Control Panel Operation CP 3810 SINGLE−BUS CONTROL In the example shown in Figure 6−159, a CP 3832 is used to select inputs and a “CP 3810L” is used to control the individual levels of one output. The CP 3810 can thus be used for breakaway switching. To find out what output is being controlled by the CP 3810, use the “show destination” procedure for the Main panel. In the example shown in Figure 6−159, the CP 3832 MENU button would be pressed.
Control Panel Operation CP 3810 X−Y Application In the example shown in Figure 6−161, a CP 3864 is used to select inputs, a CP 3832 is used to select outputs, and a “CP 3810L” is used for control/status the individual levels of the output selected by the CP 3832. The CP 3810 can thus be used for breakaway switching.
Control Panel Operation MC 3000 MC 3000 Machine Control Panel and CP 3010 Expansion Panel Direction indicator 00:54:49:11 T1 VT01 STOP MAN Variable speed knob RDY STOP PLAY VAR > > SET MARK REC OUT REC IN << >> REC MODE Figure 6−163. MC 3000 machine control panel STOP STOP STOP VT01 VC01 VC02 Status Device Figure 6−164.
Control Panel Operation MC 3000 MC 3000 CONTROL FUNCTIONS RDY Toggles the machine in and out of scanner ready mode. STOP Stops machine regardless of mode. PLAY Playback mode. May or may not override current mode, depending on machine. > VAR Slow motion playback. Speed is indicated in the display window. > May or may not override current mode, depending on machine. When first pressed, speed will be 1/5 or +0.2 play speed.
Control Panel Operation MC 3000 REC IN When pressed at the same time as PLAY, starts record mode and illuminates Record LED. Same as ESbus Play and Enter. When machine is stopped, pressing RECORD IN places machine in E−E Monitor mode. REC MODE Select a recording mode. Depending on the machine, pressing the button will cycle through the following, as indicated in the display window: Off − Record inhibit.
Control Panel Operation MC 3000 CP 3010 CONTROL FUNCTIONS The method by which machines are linked (assigned) to the CP 3010 is described in detail elsewhere in this manual (see Assigning Machines to Control Panels on page 5−141). Linkage is indicated by the name of the machine appearing in the display window. TAKE −−−−−− SEL > When a machine name appears in the window, pressing SEL enables Start/Stop control (described below).
Control Panel Operation MC 3010 MC 3010 Machine Control Panel VTR1 VTR2 STOP READY REC −−−−−− −−−−−− −−−−−− SHIFT REW FFD GANG START PLAY VTR4 STOP READY REC −−−−−− −−−−−− −−−−−− SHIFT REW FFD GANG START PLAY STOP READY REC −−−−−− −−−−−− −−−−−− SHIFT REW FFD GANG START PLAY STOP READY REC −−−−−− −−−−−− −−−−−− SHIFT REW FFD GANG START PLAY Figure 6−165. MC 3010/2 Dual 4−Machine Control Panel Installation of these panels has already been described (page 2−37).
Control Panel Operation MC 3010 Action desired System response (status) Press STOP −−−−−− SHIFT STOP −−−−−− SHIFT Stop READY −−−−−− REW READY −−−−−− REW Ready Play PLAY REC −−−−−− FFD PLAY press & hold REC −−−−−− FFD Record PLAY press & hold Rewind then press PLAY STOP READY −−−−−− −−−−−− SHIFT REW then press press & hold STOP −−−−−− SHIFT REC −−−−−− FFD then press Fast forward Figure 6−166.
Control Panel Operation MC 3010 DIAGNOSTICS The diagnostics mode allows several panel functions to be checked without sending any machine commands. Figure 6−167. Keys used to enter diagnostic mode. press & hold GANG START GANG START then press DISPLAY KEYBOARD READY −−−−−− REW READY −−−−−− REW LAMPS READY −−−−−− REW Figure 6−168. Diagnostic menu. Press appropriate READY/REWIND key to select test.
Control Panel Operation VGA Display VGA Status Display Operation The VGA Status Display provides a supervisory, system−wide display of switcher, machine, or system status. The display video is provided by the VGA output of a CM 4000. The display format is initially based on a set of factory default pages, but can be customized as needed. (For more information about installation and configuration, see Appendix A.) Basic controls for this display are located on the front panel of the CM 4000 (Figure 6−169).
Control Panel Operation VGA Display The following discussion is based on the factory default set of display pages.
Control Panel Operation VGA Display Note 2: If the cursor mode in the switcher status display will not work, it may be that no CP 3000 was defined for the VGA on the MPK Devices table (page 5−114). Force Unprotect / Force Unlock As a supervisory system, the VGA / CP 3000 can be configured such that it can unprotect or unlock any output shown on the display.
VGA Display Control Panel Operation Note that the MC 3000 can send control commands to any selected machine, even when the machine has not been delegated (“assigned”) to any delegation group. Important: As a supervisory system, the VGA / MC 3000 can send control commands to any machine, even to a machine linked to and being controlled by another panel. In this condition both panels will be able to send commands. However, the VGA can take exclusive control by using CHANGE MODE as described below.
Control Panel Operation 6−142 VGA Display CM 4000 Installation and Operating Manual
Section 7 − Software Control Panel Suite The Software Control Panel Suite (“Graphical User Interface”) consists of seven routing switcher and machine control applications plus a configuration application. Only one of the applications can be activated at a time. Note 1: Activation of the Software Control Panel Suite requires a license floppy disk provided by Grass Valley. For more information, please refer to the Field Engineering Bulletin supplied with the Jupiter software.
Software Control Panel Suite Machine Control Devices table These entries are described on the following pages. Guidelines for using the table editor are found on page 5−3. For information about management of Configuration Sets, including compiling and activating sets, see page 5−8. NETWORK DESCRIPTION TABLE Network Description 1 Board Name PC1 Redn Type PC Address 192.168.253.2 Figure 7−1. Board Name Create a name for the PC that will display the Software Control Panels.
Software Control Panel Suite SERIAL PROTOCOL TABLE Serial Protocols 1 Name PC1 Proto 1/2 MPK 3/4 UND 5/6 UND 7/8 UND 9/10 UND 11/12 UND 13/14 UND 15/16 UND Baud 1/2 38.4 3/4 UND 5/6 UND Figure 7−2. Name Enter the name of t7he PC displaying the Software Control Panels. This must be the same as that entered on the Network Description table (Figure 7−1). Proto 1/2 Select “MPK” for ports 1/2. Leave the other ports undefined. Baud 1/2 Select “38.4” for ports 1/2.
Software Control Panel Suite MPK DEVICES TABLE MPK Devices Dev Name Dev Type Exp PW Board Port Address Inp Set Out Set Lev Set 3800INP 3800OUT 3800LEV 1 3800 CP−3800 N VM1 6 00C19E22 2 PC1MC1 MC−3000 N PC1 1 01010101 3 PC1MC2 MC−3000 N PC1 1 23232323 4 PC1MC3 MC−3000 N PC1 1 45454545 5 PC1MC4 MC−3000 N PC1 1 67676767 6 PC1MC5 MC−3000 N PC1 1 89898989 7 PC1MC6 MC−3000 N PC1 1 90909090 Over Set Seq Set Figure 7−3.
Software Control Panel Suite MACHINE CONTROL TABLE Machine Control Dev Name Dev Type Board Port Address Group I/O 1 PC1MC1 MC−3000 PC1 1 01010101 Out 2 PC1MC2 MC−3000 PC1 1 23232323 Out 3 PC1MC3 MC−3000 PC1 1 45454545 Out 4 PC1MC4 MC−3000 PC1 1 67676767 Out 5 PC1MC5 MC−3000 PC1 1 89898989 Out 6 PC1MC6 MC−3000 PC1 1 90909090 Out Asoc Name Preroll Figure 7−4. Dev Name Enter the Device Name for each of the six Slaved Machine Control panels.
Software Control Panel Suite Main Screen At the end of the installation process, the Software Panels program can be launched using the JNS Console, in the “JNS Applications” program group. (For more information about the JNS Console, see Section 4.) Note: If the application can’t find an active set, it will not start. Be sure you have selected a configuration set (as described on page 5−10), and then compiled and activated the set (page 5−13). Figure 7−5.
Software Control Panel Suite Panel Configuration When the “Configure” button is selected, a password screen will appear. When the system is first configured, the screen will have a “New Password” box and a “Confirm Password” box. — If a password is desired, enter up to eight alphanumeric characters (case sensitive) and re−enter to confirm. Then select “Apply.” The screen shown in Figure 7−6 will appear. — If no password is desired, just select “Apply.” The screen shown in Figure 7−6 will appear.
Software Control Panel Suite Operation Following configuration, any one of the following panels can be selected: • Slaved Machine Control − provides the ability to send the same command to up to six machines at once. • Full Function − the Full Function screen provides the user with full−matrix switcher control features including breakaway, presets, and setup memory. • Full Function Machine Control − provides the user with full function control, including time code mark and search, of one machine at a time.
Software Control Panel Suite SLAVED MACHINE CONTROL PANEL Figure 7−8. The Slaved Machine Control panel provides the ability to control up to six machines from a single screen. The panel includes a Gang button for slaving machines together. Machine Assignment To link to a machine, select the “Machine” window; a drop down list will show the machines entered on the Machine Control table of the active configuration set (see page 5−135).
Software Control Panel Suite Machine Control Buttons Gang Allows a machine control command to be sent to more than one machine. Stop Stops machine regardless of mode Play Playback mode. May or may not override current mode, depending on machine. Record Immediately begins recording REW or FF Full speed shuttle (rewind or fast forward) Ready Toggles the machine in and out of scanner ready mode Time code display The time code display window will display hours, minutes, seconds and frames.
Software Control Panel Suite FULL FUNCTION SWITCHER PANEL Level 1 Preset Level 1 Status Multi−level Status Multi−level Preset Figure 7−9. This panel provides full matrix control with breakaway switching capability. Memories allow the user to Save/Recall up to four sets of 12 Direct Take inputs per output. To Status a Destination 1. Select the Destination button. The Categories section will be rewritten to display the categories available to the operator, up to a maximum of 16.
Software Control Panel Suite To Switch a Source 1. Select the Source button. The Categories section will be rewritten to display all source categories available to the operator. The Function buttons will change from gray to white to indicate they are active. 2. Select the desired Source Category button. The Source Entries section will be rewritten to display up to 15 source buttons. Additional Source buttons, if available, are accessed by using the scroll buttons. 3.
Software Control Panel Suite Breakaway Switching (“Deselect” Method) When more than one level is to be switched, the following method is suggested: — If the destination needs to be changed, select it at this time. — The “Source” button lettering should be yellow (active). If not, select it. 1. Choose the first source Category and Entry. The name of the source will appear above all the Level buttons. 2. Deselect the Level button(s) for the level(s) not receiving this source.
Software Control Panel Suite Audio Modes (Venus Special Stereo Switching) The Full Function Switcher Panel has the capability of controlling Venus Audio Modes, which are Normal, Mix, and Reverse. These changes are made to individual levels prior to completing a switch by pressing the TAKE button. Note: Audio switching mode can only be used if an appropriately configured Venus switcher is connected. To perform a special stereo switch: 1. Select a source.
Software Control Panel Suite LEFT LEFT (Left + Right signals on Left channel) RIGHT REVERSE− Cross opposite channel signal over to this channel LEFT (Right signal on Left channel) RIGHT 4.
Software Control Panel Suite Presets Direct Take Preset Assignments The Presets Function allows the user to save frequently−used sources in a 12−button Direct Take Presets window. Four of these Direct Take setups may be saved. 1. If the Functions buttons are grayed out, select the Source button. All buttons in the Functions section are toggle function, i.e. select to turn On and select again to turn Off. 2. Select the Presets button.
Software Control Panel Suite 5. Select the desired Source Entry button. The source entry will be entered into the Preset display. 6. Select the desired Direct Take button. The Source name will be written to the button. 7. Repeat the above steps as required. A Direct Take button may be reassigned to a new source using the normal assignment procedure. 8. To make a Direct Take assignment permanent, follow the “Memory” procedure below.
Software Control Panel Suite Switching using the Categories/Source Entries section remains active. Memory The memory window allows the user to save or recall up to four sets of 12 Direct Take setups. Saving a Direct Take Setup Note: Saved presets for a given configuration set may not be valid with other configuration sets. For example, if a preset calls for input ”VTR1” and “VTR1” does not appear in a set downloaded at a later time the preset will fail. 1.
Software Control Panel Suite Recalling a Direct Take Setup 1. Select the destination by following the Status a Destination procedure above (page 7−11). 2. Select the Source button. The Categories section will be rewritten to display all source categories available to the operator. The Function buttons label color will change from gray to white to indicate they are active. 3. Select Memory. The Memory button label color will change from white to red and the Memory window will appear. 4.
Software Control Panel Suite FULL FUNCTION MACHINE CONTROL Figure 7−13. The Full Function Machine Control screen provides the user with control of one machine at a time. The screen includes an eight−character display for selecting and displaying current machine linkage, twelve machine control buttons, a numeric keypad for entering time code values, a time code readout, and a motion control knob with direction and speed indicators.
Software Control Panel Suite Machine Control Buttons Ready Toggles the machine in and out of scanner ready mode. Stop Stops machine regardless of mode. Play Playback mode. May or may not override current mode, depending on machine. Shuttle knob remains centered. Record Immediately begins recording. Search Go to the time code point captured with Mark, minus the Preroll value set on the Machine Control Devices table. REW or FF Full speed shuttle (rewind or fast forward).
Software Control Panel Suite DUBS PANEL Figure 7−14. The Dubs screen provides the ability to switch the same source to multiple destinations with a single Take. To Status a Destination 1. Select the desired Destination button. The status of the current output will be shown in the Status window. Additional Destination buttons, if available, are accessed by using the scroll buttons.
Software Control Panel Suite Switching Multiple Destinations to the Same Input (Dub Switching) 1. Select the appropriate Destination buttons. Additional Destination Entries buttons, if available, are accessed by using the scroll buttons. The label of the selected buttons will change from black to yellow and the entry name of the last destination selected will be written in the Destination display. The Status display will be rewritten to provide current source status.
Software Control Panel Suite SOURCE/DESTINATION PANEL Figure 7−15. The Source/Destination panel provides full−matrix routing switcher control using Category and Entry buttons. To Status a Destination 1. Select the Destination button. The Categories section will be rewritten to display all categories available to the operator. 2. Select the desired Category button. The Entries section will be rewritten to display up to 24 destination buttons.
Software Control Panel Suite For more information, see “To Status a Destination” above. 2. Select the Source button. The Categories section will be rewritten to display all categories available to the operator. 3. Select the desired Source Category button. The Source Entries section will be rewritten to display up to 24 source buttons. Additional Source buttons, if available, are accessed by using the scroll buttons. 4. Select the desired “Source Entries” button.
Software Control Panel Suite SALVO PANEL Figure 7−16. The Salvo screen provides the ability to switch multiple source/destination combinations with a single Take. Multiple Source/Destination Switching (Salvo) 1. The Salvo Setup function should be On (indicated by a red button label) and the Mem function should be Off (indicated by a black button label). 2. Select the first desired Source Entry button. Additional Source Entries buttons, if available, are accessed by using the scroll buttons.
Software Control Panel Suite 4. Select the next desired Source Entry button, then Destination Entry buttons, etc. 5. Select Take to execute the switch. Memory The memory window allows the user to save or recall up to four sets of Salvo setups. Note: Saved salvos for a given configuration set may not be valid with other configuration sets. For example, if a preset calls for input ”VTR1” and “VTR1” does not appear in a set downloaded at a later time the preset will fail. Saving a Salvo Setup 1.
Software Control Panel Suite 4. Select Store. The setup will be saved in the selected location. Checking a Salvo Setup 1. Select Memory. 2. Select the desired Memory location (1, 2, 3, or 4). 3. Select Recall. Recalling and taking a Salvo Setup 1. Select Memory. 2. Select the desired Memory location (1, 2, 3, or 4). 3. Select Recall. 4. Select Take to execute the switch. Memory Location labeling Note: This feature requires that the GUI PC includes a keyboard.
Software Control Panel Suite X − Y PANEL Figure 7−18. The X−Y Panel is similar to the Source/Destination panel but has one set of category and entry buttons for the source and another set for the destination. To Status a Destination 1. Select the desired Destination Category button. The Destination Entries section will be rewritten to display up to 12 destination buttons. Additional Destination buttons, if available, are accessed by using the scroll buttons.
Software Control Panel Suite 3. Select Take to execute the switch. The Current Source display will change to the new source indicating the switch was made. The Preset display will change to the previously selected source. Flip−flop switching between the old and new source will be accomplished by pressing the Take button again. Paths Full / Protected / Locked / Excluded Messages − see page 7−8.
Section 8 − Board Status This application displays board status and information. It can be used to help make certain that all system controllers are using compatible software and user−created configuration sets, and that enough free memory is available for the system to operate properly. Since most of this information also appears in the Control Center, this application will eventually be phased out. Figure 8−1.
JNS Board Status The Version field shows what version of application code each board is running. This should indicate the same version for all boards in the system. If not, a fresh download to all boards should be performed. The example above (Figure 8−1) shows a set that has 5 PCs in the Network Description table. Board Status cannot show information for PCs. Refresh The Board Status application does not poll for board information. Click on the Refresh button to refresh the display.
Section 9 − Control Center The JNS Control Center, which replaces the JNIA Control Center, has four tabs: • The Board Status tab (page 9−1) shows a list of boards with status and up time. • The TFTP* Status tab (page 9−2) shows the state of TFTP transfers to boards. • The Board Info/Control tab (page 9−3) allows you to see board information and send commands to boards. • The Configuration tab (page 9−6) allows you to select configurations and activate them. BOARD STATUS Figure 9−1.
JNS Control Center TFTP STATUS Figure 9−2. This table shows TFTP status while the boards are in the process of downloading. The first column shows the boards in the order that they appear in the Network Description table (again, PCs do not appear). The second column shows the name of the file that the board is downloading. In the example above, you can see some boards downloading their configuration files (.cfg), one board downloading code (.
JNS Control Center BOARD INFO/CONTROL Figure 9−3. This application can be used to help make certain that all system controllers are using compatible software and user−created configuration sets. It also allows you to send commands to the boards. The first column of the table shows board names in the order that they appear in the Network Description table (PCs do not appear). The second column displays the current IP address of the board.
JNS Control Center To select all the boards, click on the Select All button. To de−select all boards click on the Unselect All button. Reboot This button sends a reboot command to the selected boards only. This differs from the Reboot button on the Configuration tab, which sends reboots to all boards. Note: Having different versions of software or configuration tables between boards can cause system instability. Clear PMEM This button clears PMEM on the selected boards.
JNS Control Center MENU COMMANDS Several commands are accessible through the control center’s menu: File Exit This closes the application. Options Scan Rate You must select the correct scan rate for your system for board up−time to be displayed correctly: NTSC - Select this if you use NTSC. PAL - Select this if you use PAL. Time Sync This item does not apply to CM 4000 units (it is used by the VM 3000, which is described in a separate manual).
JNS Control Center CONFIGURATION Figure 9−4. The Configuration tab allows you to see a list of compiled sets and select a set for activation. It also allows you to restore a previously activated set and reboot the boards. Simple Set Activation On the left side of the window, you will see a box that shows a list of compiled sets. To activate a set, click on the set name in the list, make sure the Select and Reboot radio button is selected, and click on the Activate button.
JNS Control Center Though the “Configuration” tab gives no indication of activity during file transfers, other tabs (described above) can be used to determine when it is safe to initiate some other command. Depending on a several factors such as the number of boards, configuration size, need to update the *.sys file, LAN transmission rate, LAN traffic, etc., a complete set change can take several seconds or multiple minutes.
JNS Control Center 9−8 CM 4000 Installation and Operating Manual
Section 10 − CP Input/Output Set Editor The Control Panel Input/Output Set Editor (sometimes referred to as the “Active Editor”) allows special CP I/O Sets to be created and downloaded to the system controllers without using the Jupiter Configurator or the Control Center (see Figure 10−1). Since the download is limited to these special sets, the download process occurs much more rapidly than it would otherwise.
JNS CP I/O Set Editor The CP I/O Set Editor is launched using the JNS Console, in the “JNS Applications” program group. (For more information about the JNS Console, see Section 4.) Note: If the application can’t find an active set, it will not start. Be sure you have selected a configuration set (as described on page 5−10), and then compiled and activated the set (page 5−13). PASSWORDS When the CP I/O Set Editor is started, the system presents a log in dialog: Figure 10−2.
JNS CP I/O Set Editor Select Group − Allows CP I/O Set Editor sets to be grouped and activated (downloaded) (see page 10−5). Activate Sets − Can be used to activate individual CP I/O Set Editor sets (see page 10−7). Close/Save − These options are only available when an set is open. “Save” makes the modified set information available for activation. Print Log − Allows the user to specify a log file to print (see page 10−7). Print Setup − Standard Windows dialog for printer selection, etc.
JNS CP I/O Set Editor This dialog lists the sets that have been created for use with the CP I/O Set Editor (when first opened, the list will be empty.) From here, you can edit existing sets, delete and copy sets, and create new sets. To create a new set, select New. The following dialog is displayed: Figure 10−5. This table shows the CP I/O Sets that are in use by the active (“Current”) Set.
JNS CP I/O Set Editor The Edit Set window for output sets is similar, except that the Category/Entry numbers are grayed out (cannot be changed). The Level Set and Button assignments are shown but cannot be changed. On an Input set table, selecting the Category field displays a drop−down list of categories; Entry numbers are typed in. The Mnemonic column contains simple edit fields. The Input/Output field is a combo box that lists all switcher inputs or outputs.
JNS CP I/O Set Editor To create a new group, select the New button. The following dialog is displayed: Figure 10−8. Enter a new name and select OK. The group will be created and the Edit Group dialog will be displayed (Figure 10−9). Figure 10−9. The left column shows all the CP input and output sets. The right−hand column shows all the sets in this group. To add sets to the group, select one or more entries from the left−hand column and click the >> button.
JNS CP I/O Set Editor READY − The board has received the new control panel set, or the board does not need the set. The set will only be sent to boards that require it. NO MEMORY − The board has reported back that there is insufficient memory to download the selected sets. The board will not be downloaded at this time. UNKNOWN − The board is not responding. If a board has not responded within 15 seconds, this will change to INACTIVE. The OK button is disabled until the process has completed.
JNS CP I/O Set Editor LOG IN/LOG OUT Logging In The user must log into the system to be able to edit and activate sets and groups. When the user selects the “Log In” option from the File menu, he will be prompted with the following dialog: Figure 10−12. The user will be required to enter his or her log in name and password. The system password level will be set to the user’s password level. Passwords are up to eight characters in length and can be any alphanumeric character.
JNS CP I/O Set Editor Figure 10−13. The window contains a list of users and their password levels. Actual passwords are not displayed in this window. Each password is assigned a level 1 through 4. This level determines the entries in the table that the operator has authority to change. Level 4 is the highest and can change any entry. Level 3 can change levels 1, 2, and 3. Level 2 can change levels 1 and 2, while level 1 passwords can only change level 1 entries.
JNS CP I/O Set Editor Figure 10−15. Highlight the two sets for the comparison and press the Compare button to start the comparison. The following comparison window will be displayed: Figure 10−16. The comparison list shown puts the two sets together for scrolling purposes. Various highlight shadings are used to distinguish between items added, changed, or deleted. Care will be taken to display only the changes made.
JNS CP I/O Set Editor INPUT AND OUTPUT SET USAGE TABLES Input/Output Set Usage, from the View menu, shows where inputs are and outputs are being used. Figure 10−17. This window is displayed when the user selects an input. It displays all the control panel input sets where the input is used. ADDITIONAL NOTES 1. The CP I/O Set Editor does not know when a PMEM Clear is done on a controller board.
JNS CP I/O Set Editor 10−12 CM 4000 Installation and Operating Manual
Section 11 − Force Unlock Figure 11−1. This application replaces the JNIA Force Unlock application. It allows you to unlock or unprotect any outputs that have been locked or protected from anywhere in the system. Display The first column lists the name of any outputs that are locked or protected. The second column lists the panel that locked or protected the output. Sometimes, the application is unable to determine which panel was used; in this case, the field may be blank or may contain a number.
JNS Force Unlock 11−2 CM 4000 Installation and Operating Manual
Section 12 − Logger and Log Viewer Figure 12−1. The JNS Logger and Log Viewer are used to create, view, and print log files of Jupiter LAN activity. These files can be useful for troubleshooting. The Log Viewer will display Jupiter LAN activity as it occurs and record errors detected by the Jupiter Network Suite. To assure accuracy of the date/time stamp, connecting the CM 4000 to house time code is recommended (for additional information about time code, see page G−11).
JNS Logger Figure 12−2. The Logger “Options” pull−down menu allows the operator to select which events to log. Figure 12−3. To begin logging, select “Start.” The following dialog box will appear when logging is in progress: Figure 12−4. Note: This dialog will remain on the desktop until Stop is selected, but it does not appear in the Window Task Bar on the bottom of the screen.
JNS Logger To run the Log Viewer, select “Start > Programs > Jupiter Network Suite > Log Viewer.” Figure 12−5. Dynamic Displays When first started, the Log Viewer is in the Dynamic Data mode, i.e. all displays show Jupiter LAN activity as it happens. Select “View” and select the desired Dynamic Displays. Figure 12−6. Dynamic Displays hold up to 256 lines of information. Static Displays To view Jupiter LAN activity that has been logged to a file, select “File” and then “Open” the desired log file.
JNS Logger Figure 12−7. Sort displays by clicking on the column heading. To select Dynamic Displays after opening a log file, select “File > Dynamic Data” and then select the desired Dynamic Displays. Date/Time Filter Set the Date/Time Filter, (“View > Date/Time Filter”) in order to filter log data. The selected Static Display as well as new Static Displays created after setting the filter will use the filter settings. IMPORTANT NOTE for JNS Release 5.1.
Section 13 − Configuration Upload OVERVIEW Configuration Upload displays all CM 4000s on the LAN that are running Jupiter XPress, displays configuration information about each CM 4000, and allows for the currently active configuration set and the previously active configuration set to be uploaded from any of the CM 4000s. Whenever a configuration set is successfully compiled, the set is zipped and placed in the Jupiter\Comp directory.
JNS Configuration Upload 3. Information for each active CM−4000 on the PC’s subnet that is running Jupiter XPress is displayed. If all CM 4000s are not listed, click on the Broadcast button. All running CM 4000s that are connected to the network should then be displayed regardless of subnet. Figure 13−2.
JNS Configuration Upload Note: If you do not see any CM 4000s listed when the Multicast button is selected, you may need to set the Gateway and Subnet Mask in the Jupiter Settings. Go to “Tools > Jupiter Settings.” Then fill in the Gateway and the Subnet Mask: Figure 13−3. Figure 13−4. After editing and saving your changes, you may need to reboot the CM 4000s in order to see them listed for the multicast scope.
JNS Configuration Upload 4. Select one of the CM 4000s and click on the Upload Configuration Sets button. In a few seconds, the currently active configuration set is uploaded as_active.zip and the previously active set is uploaded as_prev.zip. A message informs the user when the sets have been uploaded. Figure 13−5. 5. 13−4 Use the Jupiter Configurator to unzip, open, edit, and compile the Current Set (_active.zip) or the Previous Set (_prev.zip) just as you would any other set.
Section 14 − Physical Control Figure 14−1. The JNS Physical Control is a replacement for the Jupiter Physical Control application. It allows the user to switch using “physical” input and output numbers. Logical levels are displayed on the left in the order that they appear in the Switcher Description table. To perform a switch, first select a level from the list, then enter the physical output number in the Output field.
JNS Physical Control 14−2 CM 4000 Installation and Operating Manual
Section 15 − Physical Diagnostic Utility FEATURES This utility allows the user to see the physical inputs and outputs associated with a logical or physical control panel, input mnemonic, output mnemonic, and level mnemonic. It also provides the user the opportunity to view outputs associated with a logical or physical input. This utility can be used in conjunction with the Physical Remapping Utility. The user must be logged into the network for this utility to function.
JNS Physical Diagnostics Status Bar − Allows the user to display or hide the status bar. Input Mapping − Provides the user with the input mapping table. Input/Output Exception Table − Provides the user with the Input or Output Exception tables. Options Manual − Allows the user to update the log file manually. Automatically − Allows the user to update the log file automatically. Window Cascade − Cascades all non−minimized MDI child windows. Tile − Tiles all non−minimized MDI child windows.
JNS Physical Diagnostics Figure 15−2. Select a control panel (MPK device) by clicking on one row of the grid table. The row will be highlighted and the OK button will be enabled. When OK is selected, the following dialog will be displayed: Figure 15−3. This dialog displays a filename that consists of the name of the control panel the user has chosen and the current time and date. Select the Change button to change the filename.
JNS Physical Diagnostics Figure 15−4. The title bar of this MDI child window shows the log file name, and the first two fields of the dialog show the control panel the user has chosen. To display the associated physical information, select an output, input and level mnemonic. Once these fields are filled in, select UPDATE to display the “Physical” table. The Physical table displays the switcher, logical level name, physical inputs and outputs associated with the logical information.
JNS Physical Diagnostics Figure 15−5. The title bar of this window displays the Control Panel Output Set name as well as the logical control panel name. The table displays the output set for the selected control panel. To select an output, click on any row in the table, and click “OK.” The output mnemonic is displayed in the output field of the Level Set table in the Physical Diagnostic child window.
JNS Physical Diagnostics NOTE: If the selected output and level set have an input associated with it, then the input mnemonic will be displayed in the input field of the Level Set table. If no input is associated with the selected output and level, an INVALID red color mark will be displayed in the input field of the Level Set table. Physical Data Update After selecting the panel mnemonics, the UPDATE button of the MDI child window will be enabled to allow the user to update the physical information.
JNS Physical Diagnostics Figure 15−8. Inputs are selected either by physical number, or logical name. Once all the fields are filled in, the program will then display a list of outputs the input is currently switched to. The information in this table can be printed to the currently selected Windows printer. EXCEPTION TABLES The Input and Output Exception Tables display the current physical input and output remappings: Figure 15−9.
JNS Physical Diagnostics 15−8 CM 4000 Installation and Operating Manual
Section 16 − Physical Remapping Utility This application allows the user to change individual or ranges of physical inputs and outputs, mapping around failed crosspoints or entire crosspoint boards. This utility can be used in conjunction with the Physical Diagnostics Utility. The user must be logged into the network for this utility to function. Note: The Physical Remapping Utility does not support remote PC operation or AccuSwitch applications. Figure 16−1.
JNS Remapping Save Log File − Saves the current log file under the existing name. If the file has not yet been named, the program will default to the Save As option. Save Log File As − Saves the current log file under a new name. Page Setup − Sets up the page layout of the printer. Print Log File − Prints the current log file. Exit System Definition This menu allows selection, on a level by level basis, of the range sizes for the level, and the idle physical inputs and outputs for the level.
JNS Remapping Figure 16−3. Figure 16−4. Comment Field A comment field in the main dialog box is available as a word−wrap box for the user to enter relevant comments regarding the remap.
JNS Remapping Remapping When Remap is selected, the system will check to make sure that the old physical number(s) are valid, then it will check to make sure that the new physical number(s) are available by checking the Switcher Description, the Switcher Input or Output tables, and the Input or Output Exception tables. If the physical numbers are valid, the system will display the following confirmation dialog box: Figure 16−5. Select Proceed or Cancel.
JNS Remapping System Definition From this menu you can select range sizes, idle inputs, and idle outputs on a level basis. The following dialog box will be presented: Figure 16−7. The Switcher Name, Switcher Level, #In and #Out fields are read from the active set’s Switcher Description table and cannot be modified. The range is selected from a drop−down list. Range numbers from one to the minimum of 64 and #In/Out are valid.
JNS Remapping Enter both the idle input and output selections at least once. The information entered into the tables will be stored by the system and be displayed each time the application is used. Controls allow editing the tables as needed, but the information will remain persistent. Exception Tables For efficiency and speed, remappings will be limited to a maximum of 64 inputs and 64 outputs.
Section 17 − Router Control Utility Figure 17−1. This application allows the user to do simple Takes using any control panel input, output and level set in their currently active set. Configuration When you first open the Router Control Utility, you will see the Configure window. You must select an input, output, and level set. These sets will be used when making switches. Figure 17−2. Click on one of each set and then click on OK.
JNS Router Control Displaying Status The table at the top of the window displays the status for the currently selected output. Initially, the grid is empty because no output is selected. To display status for an output, select an output from the Outputs list. The name of the output appears in the first column, and status is displayed for each level in the selected level set. If nothing is currently switched to the output in any of the levels, “?” will appear.
Section 18 − Router Save/Restore Figure 18−1. The Router Save/Restore application displays router status (setup) and allows the user to save and restore router status. OPERATION When the application is first run, it displays the status for the entire router. Outputs from the Switcher Output table are displayed in the first column, and level names from the Switcher Description table are displayed along the top row. Input status is displayed in the white cells in the table.
JNS Router Save/Restore Note: Because restoration includes lock/protect status, it is possible for the Router Save/Restore application to override and switch a locked or protected output. For example, if an output is not in a lock/protect condition at the time of a save, but is later switched and locked/protected, it will be “force unlocked/unprotected” and switched back to the saved input when status is restored.
Appendix A CM 4000 VGA Status Display HARDWARE INSTALLATION The CM 4000 provides a VGA output for system status display. Basic controls for this display are located on the front panel (Figure A−1). UP DOWN NEXT SELECT Figure A−1. VGA controls on CM 4000. The CM 4000 VGA Status Display can optionally be operated with the CP 3020, a 1 3/4−inch rack mount panel configured as a device type “VC 3020.” (Figure A−2.
VGA SUMMARY OF SOFTWARE CONFIGURATION PROCEDURE Following hardware installation: 1. The optional control panels, if any, must be configured as MPK devices: a. A CP 3020 used with the VGA is configured as type “VC 3020” (page 5−114). b. A CP 3000 used with the VGA is a type “VCP−3000” (page 5−114). If the CP 3000 has an expansion panel, it must be entered as a type “VCP3000E.” c.
VGA CUSTOM DISPLAY FORMATTING This discussion assumes that the reader is familiar with ASCII file editing concepts and that the procedure described on page A−2 has been used to create preliminary VGA display pages based on the factory default layouts. The VGA status display output of the CM 4000 is designed to give a great deal of flexibility to the user in defining what kind of system information will be displayed at a particular location on the VGA screen.
VGA 3) Field attributes are a single digit number 0−9 immediately following the field definition. 4) The field separation character(s) is a or . 5) Switcher name is defined for every subsequent line until re−defined with another switcher name field. 6) Switcher Input and Output name are defined for the rest of the current line. 7) Level status is defined for the current column position until re−defined with another level status.
VGA Definition Syntax Key: −−−−−−−−−−−−−−−−−−−−−− n = Color Code oooooooo = 8 char System Output Name iiiiiiii = 8 char System Input Name llllllll = 8 char System Level Name ssssssss = 8 char System Switcher Name pppp = 4 digit Physical Output Number mmmmmmmm = 8 char System Machine Control Device Name dddddddd = 8 char Delegation Group Name bbbbbbbb = 8 char System Board Name −−−−−−−− = User defined screen text (any length) xx = 2 digit Button Number ggg = 3 digit group number (0−999) ee = 2 digit line nu
VGA Page Description Examples These examples assume that the procedure described on page A−2 has been used to create preliminary VGA display pages based on the factory default layouts, and that the .vga file now needs to be customized.
VGA Switcher Input Status Page P#01 SMAIN T0Thomsonö KXYZ TELEVISION FACILITY CONTROL SYSTEM Page: p0 a0 T1 Switcher Input Status i0 T6−−−−−−−−−−−+−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−− T0INPUT T6| T0SDV T6−−−−−−−−−−−+−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−− I0000 T6 | l0SDV T6 | C T6−−−−−−−−−−−+−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−− I0001 T6 | T6 | C T6−−−−−−−−−−−+−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−
VGA Machine and Delegation Status Page P#02 T0Thomsonö KXYZ TELEVISION FACILITY CONTROL SYSTEM Page: p0 a0 T1 Machine & Delegation Status i0 T6−−−−−−−−−+−−−−−−−−−+−−−−−−−−−+−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−− T0Machine T6| T0 Status T6| T0 Linkage T6| T0Jupiter Saturn T6−−−−−−−−−+−−−−−−−−−+−−−−−−−−−+−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−− M5VTR1 T6 | m0 T6 | k0 T6| d5Jupiter d5Saturn M5VTR2 T6 | m0 T6 | k0 T6| M5VTR3 T6 | m0 T6 | k0 T6| Thomson KXYZ TELEVISION FACILITY CONTROL S
VGA TIE LINE (PATH FINDING) PAGE (For a general discussion of path finding, please see page 5−174.) The VGA tie line display allows the user to determine which sources and destinations are using which tie lines. See Figure A−8. Group 1 Group 2 line line line line 0 1 2 3 DVE−1 VTR 2 VTR 1 G002 L03 > > > > Keyer 1 Monitor 1 G002 L03 Monitor 2 Monitor 4 Figure A−8. Tie line display. In path finding, there is a “Group” for each switcher level.
VGA Tie Line Status Display P#04 T0Thomsonö KXYZ TELEVISION FACILITY CONTROL SYSTEM Page: p0 a0 T1 VGA Tie Line Status Display i0 T6−−−−−−−−−−−−−+−−−−−−−−−−+−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−− T0Group No. T6 | T0Line No.
Appendix B PROGRAM RESTART PROCEDURES CM 4000 Reset There are four ways to reset this controller: A . Control Center Go to “Start > Programs > Jupiter Network Suite > JNS Applications > Control Center.” Then select the “Configuration” tab and “Reboot.” This will reset all controllers in the system.
Reset Procedures B−2 CM 4000 Installation and Operating Manual
Appendix C Console Port Connections and Protocol CM 4000 Console connector Figure C−1. Location of Console connector. To controller board Console connector To computer/terminal pin 2 Txd pin 3 Rxd pin 5 Logic ground DB9P (male) Rxd pin 3 TxD pin 2 Signal Gnd pin 7 pin 2 OR DB25P connector pin 3 pin 5 DB9S connector Figure C−2. Console cable for all controller boards. The Console connection is provided for test purposes.
pROBE C−2 CM 4000 Installation and Operating Manual
Appendix D Decimal−Hexadecimal−Binary−ASCIIConversion Chart 0 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 00 01 02 03 04 05 06 07 08 09 0A 0B 0C 0D 0E 0F 10 11 12 13 14 15 16 17 18 19 1A 1B 1C 1D 1E 1F 00000000 00000001 00000010 00000011 00000100 00000101 00000110 00000111 00001000 00001001 00001010 00001011 00001100 00001101 00001110 00001111 00010000 00010001 00010010 00010011 00010100 00010101 00010110 00010111 00011000 00011001 00011010 00011011 00011100 000111
D−2 Decimal−hex−binary chart D−2 CM 4000 Installation and Operating Manual
Appendix E Mark/Search Commands in Jupiter Control System This appendix is to clarify the operation and implementation of these two commands when used with the MC 3000 control panel. MC 3000 CONTROL PANEL OPERATION The operation of the MC 3000 control panel is generalized to support time code and non−time code oriented machines. This insures that the operator interface is consistent. Descriptions are included for operation with time code and without.
Mark/search Commands E−2 CM 4000 Installation and Operating Manual
Appendix F “ESbus” Specifications MECHANICAL AND ELECTRICAL CHARACTERISTICS Source: EBU tech. 3245−E, Remote−Control Systems for Television Equipment, December, 1984. 1 1 FG FG 6 6 TC RC 2 2 TA RA 7 7 TB RB 3 3 RB TB 8 8 RA TA 4 4 RC TC 9 9 FG FG 5 5 SP SP Bus controller FG TA TB TC RA RB RC SP Tributary A < B ”MARK” state A > B ”SPACE” state Frame ground Transmit “A” Transmit “B” Transmit−signal common Receive “A” Receive “B” Receive−signal common Spare Figure F−1.
ESbus ESbus VTR protocol to Sony VTR protocol conversion table ESbus command Sony command Hex STOP 41 STOP 20 00 VAPL 42 VAR FWD 22 12 + speed VAR REV 22 22 + speed STPL 43 PLAY 22 01 VFST 45 JOG FWD 22 11 + speed JOG REV 22 21 + speed SHUTTLE FWD 22 13 + speed SHUTTLE REV 22 23 + speed PROG. SPEED + 21 38 PROG.
Appendix G CM 4000 AccuSwitch Installation and Configuration The CM 4000 Control Module is presently available for use with the Jupiter XPress or AccuSwitch applications. Note that only one of these applications can be downloaded and executed in a single CM 4000 at one time. Note: Unlike systems with Jupiter XPress, systems with AccuSwitch can include other processor types (e.g.: VM 3000, SI 3000, Saturn processors).
CM 4000 / AccuSwitch Thomson Broadcast Automation Harris (Louth) Automation Encoda Systems (formerly Columbine JDS/Enterprise Systems) It is anticipated that additional automation systems will be qualified in the near future for control of the CM 4000 module. For more information, please contact Grass Valley.
CM 4000 / AccuSwitch Installing 10Base2 LAN Cables In AccuSwitch applications, the CM 4000 can be on the same Jupiter LAN as VM/SI 3000 units and Saturn processors. The 10Base2 LAN used to connect VM/SI 3000 and Saturn units is the Ethernet thin cable type, also referred to as “thin net.” LAN cabling guidelines are shown on pages G−4 and G−5. Please note the following additional restrictions: • 50−ohm, RG−58 type coaxial cable and BNC connectors must be used for the LAN cabling.
CM 4000 / AccuSwitch ÎÎ ÎÎ Î Î ÎÎ ÎÎÎ Î Î ÎÎ ÎÎÎÎ Î ÎÎÎ ÎÎÎ Media converter or Hub T 10/100BaseT LAN 10Base2 LAN File Server (see page 2−36) Figure G−3. Jupiter 10Base2 LAN cable lengths Controller board (such as VM 3000 Control Processor) T = Ungrounded 50−ohm terminator = BNC T BNC T with insulating cover must be directly on panel R = Repeater/bridge See notes One segment: 185 m (607 ft) max.
CM 4000 / AccuSwitch Figure G−4.10Base2 LAN cable linearity.
CM 4000 / AccuSwitch Figure G−5. ThinLAN insulating cover for tee connector. Velcro G−6 Grass Valley part no: 05−042549−001. Amphenol part no: 31−5271. HP part no: 92227R.
CM 4000 / AccuSwitch ACCUSWITCH SOFTWARE INSTALLATION Software Installation is described in the Field Engineering Bulletin supplied with the software package. ACCUSWITCH SOFTWARE CONFIGURATION For AccuSwitch applications, the CM 4000 must be configured using the Network Description, Serial Devices, Switcher Description, and MPK tables as described below. There are also two new tables that apply specifically to the CM: Time Standard and Video Reference. 1. Network Description table.
CM 4000 / AccuSwitch The CM serial protocol selections are: ESW (a.k.a. “Jupiter ESswitch protocol”). This is a simplified version of the ES Tributary protocol. It is described in Grass Valley document “ESswitch Serial Routing Switcher Control Protocol, Enhanced Version.” (The protocol description used as a reference should be dated June 2001 or later.) CET (ES Tributary) protocol, a.k.a. “CM_ESTR.
CM 4000 / AccuSwitch Note: For every port defined in the Serial Protocol table there must also be an entry in the MPK Devices table, otherwise the CM 4000 will not boot. a. Jupiter ESswitch protocol (ESW) and Jupiter ASCII Interface protocol entries.
CM 4000 / AccuSwitch Automation computer Figure G−11. CM 4000 Control Module Because each device on the serial connection must have a unique address, entries are made in the MPK Devices Table to associate the serial port numbers to the ES−Tributary address of the CM port.
CM 4000 / AccuSwitch 5. Time Standard table. For deterministic switching, time information (hour:min:sec:frame) must be provided to the CM, the preferred time source being house SMPTE time code. This table is used to identify one or more backup time sources for use if the time code source fails. Each CM in the system must be described (except only one entry is required for a redundant pair). Certain fields must be filled in for all systems; see description below.
CM 4000 / AccuSwitch For example, if the SMPTE time code source were to fail the CM would attempt switch to the SNTP source; if that source was not available then the CM hardware clock would be used, etc. For a more technical discussion of CM time keeping, see page G−12. 6. Video Reference table. Video Reference Sync Standard Horizontal Sync Standard Line 1 Figure G−14. Example Video Reference table. Sync Standard − choices are NTSC, PAL, 1080i 60Hz, 1080i 50Hz, and 1080i 59.94Hz.
CM 4000 / AccuSwitch The idea is to synchronize first with another CM 4000 connected to a time code reader. This would keep the time within a few milliseconds of time code. If the TCR host does not respond, it will synchronize with a designated NTP server (some PC set up to perform that function). If the house time code went bad, all CM 4000s could stay synchronized with a designated time server, which could itself be synchronized to an accurate national standard.
CM 4000 / AccuSwitch G−14 CM 4000 Installation and Operating Manual
Appendix H JupiterXPress Configuration Swap Option The Configuration Swap option allows JupiterXPress systems to swap between two similar configurations without a Jupiter file server present. Similar configurations means the same number of boards in the network description table, number and type of control panels in the MPK description table, the same switcher description tables, and the same number of inputs and outputs in the switcher input and output tables.
Configuration Swap 1. Using the configurations for the Jupiter XPress system, Xpress−1 and Xpress−2 for this document, verify that both configurations have at least one Jupiter XPress board running VGA. Using the Jupiter Configurator, go to Jupiter > VGA Status Display: Figure H−1. 2. Select the CM VGA Options (Jupiter > CM VGA Options) to include in each configuration. All options should be selected for this procedure. Figure H−2. 3.
Configuration Swap Thomson Jupiter Configuration Set : Xpress−1 Page: 00 03/07/03 System Command Page 19:42:28 −−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−− BOARD | Current Configuration | Previous Configuration..
Configuration Swap Thomson Jupiter Configuration Set : Xpress−1 Page: 00 03/07/03 System Command Page 20:10:34 −−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−− BOARD | Current Configuration | Previous Configuration..
Appendix I Jupiter Remote PC OVERVIEW “Remote” PC configurations allow a user to operate certain JNS applications/tools from a workstation other than the file server. For example, the Software Control Panel Suite (GUI) could be executed, displayed, and controlled at a Remote computer. Remote applications/tools.
Remote PC Hardware installation As shown in Figure I−1, a Remote PC can be installed on the Jupiter network, or on a separate network (e.g., the facility/IT LAN) connected through a second network interface card (NIC) in the File Server. If you do connect the File Server to a second network, make sure the two networks are logically separated on separate subnets.
Remote PC Software installation Software installation is described in the Field Engineering Bulletin supplied with the software. The following is supplemental information. 1. The Remote PC must have an appropriate IP address (for a Jupiter network, typically in the 192.168.253.x series). The IP address must not conflict with existing equipment. Note that Jupiter does not support DHCP or domains. 2.
Remote PC Configuration 1. At the Remote PC, use the same login as before and launch JNS. 2. Go to the existing File Server and verify that at least one of the “JNS servers” (applets) are “connected” (executing). This is indicated by the green bar above the name of the applet. The JNS server applets allow the various JNS applications (such as the JNS Control Center) to send and receive data to and from the File Server and the system controllers. 3.
Remote PC ADDITIONAL NETWORK CONFIGURATIONS File server − backup PC As a means of protecting the Jupiter system from File Server failure, a second PC can be installed on the Jupiter network using the “File Server” option (which causes all software to be installed, including Local−Only Applications shown on page I−1). A copy of the current Jupiter Configuration set should also be installed by the user and kept current. Following installation, the PC is normally operated as a Remote unit.
Remote PC I−6 CM 4000 Installation and Operating Manual
Appendix J CP 3000 Control Panel Basic Operation INPUT TO OUTPUT SWITCHING The CP 3000 † is a full−matrix control panel, designed to route any source to any destination. (However, access to certain destinations may be limited by the system administrator.) Looking at Figure J−1, we’ll break the panel up into a couple of groups. The first area is the display window. The top row in the display window shows you the status of each level in the router for a particular destination.
CP 3000 Basic Operation Aud Ch1 Vid Aud Ch2 TC VTR1 VT1L VT1R VT1T BLK BARS TONE SLNC F1 F2 F3 F4 LEV MENU CLR MORE VTR 1 CG 2 NET 3 SAT A VCR 4 CAM 5 REM 6 EJ B FILM 7 PTCH 8 STU 9 FS C AUX TEST 0 MISC SS D CHOP TAKE PROT LOCK Figure J−3. Looking at Figure J−3, the display window shows the home menu. This includes, in the top row, the status of the video, audio channel 1, audio channel 2, and timecode levels. In the bottom row, it displays the override selections.
CP 3000 Basic Operation By depressing the MORE button, you will call up page 2 of the menu. The function buttons change to represent the following: VTR1 VT1L VT1R VT1T DIAG DEF PWD LOG Figure J−5. Page 2 of menu display. F1 F2 F3 F4 F1 = Diagnostics − control panel diagnostics F2 = Define − re−define input overrides F3 = Passwords F4 = Logout By depressing the MORE button, you will call up page 3 of the menu: VTR1 VT1L VT1R VT1T ID Figure J−6. Page 2 of menu display.
CP 3000 Basic Operation Let’s try a simple switch. For example, let’s put VTR1 into VTR2. The first thing you would do when you walk up to a panel is find out what destination the panel is controlling. To do this, you would look for the “CURRENT OUT = ” message; if you don’t see it, press CLR until you do. If you are happy with the output being controlled, we can now change the source feeding our machine. Going to the keypad, press VTR, 1, and then the TAKE button.
CP 3000 Basic Operation LOCK Now that we have routed something to a machine, we don’t want someone from another panel changing or accessing into that machine. So how do we take care of this problem? From the home menu, if you press the LOCK button you will see the display shown in Figure J−8; by pressing the TAKE button, you will have locked out that destination so that no other source can be switched into it from anyone else’s panel—or even your panel.
CP 3000 Basic Operation J−6 CM 4000 Installation and Operating Manual
Appendix K Preparing and activating a replacement CM 4000 As discussed on page 2−8, CM 4000s can be installed as a redundant pair, so that failure of one unit will result in control being taken by the second. A third unit can be kept in reserve and, in the event of a failure, have its address altered and be installed to provide a quick replacement for the failed unit and restore system redundancy. See Figure K−1.
Replacement CM 4000 REPLACING A FAILED UNIT A fault condition should be indicated by a “00,” “01,” or “FF” indication on the front panel LED display, or, in the case of a failed power supply, no lamps illuminated. Control should have switched to the other CM by this point. Check that it has by looking for the green Activate lamp. Then proceed as follows: 1. If necessary, switch control manually to the good unit by pressing the Activate button.
Replacement CM 4000 The current Ethernet address will be displayed: Current Ethernet Address is: 00:40:53:12:34:56 The first 3 bytes of the Ethernet address are the manufacturer’s ID and cannot be changed. The fourth byte will be shown with an option to change it: 00− 40− 53− 12− e. 00 40 53 _ Modify the last 3 bytes to match those of the failed CM 4000. Enter the new digits and press Enter to change Byte 4 or press Enter alone to keep the current byte. In this example, the 4th byte is changed to “21.
Replacement CM 4000 7. To verify that the replacement unit is ready for use: a. Go to “JNS Applications > Control Center > Bootp” and check that the correct MAC address is being used for the replacement CM. Also go to the “TFTP Status” tab and look for an indication that the “transfer succeeded” (“100% complete”). If these indications are correct, proceed as follows: b. Swap control to the replacement CM 4000 by pressing the Activate button. c. Confirm system operation. d.
Appendix L Special Configuration Requirements: Venus DM 400/400A Data Matrix Switching Note 1: The following discussion applies only to older model Venus switchers equipped with DM 400 or DM 400A Data Matrix boards. Newer model Venus systems are equipped with the DM 400B Data Matrix boards; these boards have software−configurable rear−panel pinout functions and do not require crossover or Y−line cables. § The Jupiter system can be used to control RS−232, RS−422, and RS−423 data switchers.
Venus DM 400/400A Rx Tx DM 400/400A Data Matrix Port 03 03 “EDITOR” Forward data switcher level “FOR” Rx 02 04 Port 02 Tx “VCR1D” Rx = Port 04 This crosspoint selected Tx “VCR2D” 02 04 Reverse data switcher level “REV” 03 Figure L−1. Example of DM 400/400A Data switching system.
Venus DM 400/400A SWITCHER DESCRIPTION TABLE An example of a Switcher Description table for a DM 400/400A data matrix switcher is shown in Figure L−3. This table corresponds to the system shown in Figures L−1 and L−2. In this example, a special entry in the “Switcher” column (“DATA”) is used for the data router levels; this forces the Jupiter software to create Switcher Input and Switcher Output tables that are separate from those used for other switcher levels (Figure L−6).
Venus DM 400/400A As an alternative scheme, it is possible to use the same entry in the “Switcher” column (for example, “MAINROUT”) for all levels, including the data levels (Figure L−4). In this case, the Switcher Input and Switcher Output tables will have columns for all switcher levels.
Venus DM 400/400A SWITCHER INPUT AND OUTPUT TABLES Note: Since the software depends on logical numbers, which are actually row numbers on these tables, editing one of the the tables can easily break the logical connection between them. For example, if new inputs are added to the top of the Switcher Input table, all following rows will be pushed down and assume new row (logical) numbers. To minimize this difficulty, Grass Valley recommends that all NEW entries be made at the end of the tables.
Venus DM 400/400A CP LEVEL SET In data router applications, the reverse level should be entered on the CP Level Set(s), but should not be set to Switch, i.e., an “N” should be entered in the “Switch” column. CP INPUT AND OUTPUT SETS The input and output names in the previous tables must be assigned to Category/Entry selections.
Venus DM 400/400A POINT−TO−POINT DATA SWITCHING OPTIONS (“Normal/Advise/Enforce”) In most reverse data switching applications, one of the point−to−point Options (“Advise” or “Enforce”) should be selected for the “controller level.” The controller level is defined as the level receiving data from the editor or other control device . For more information, see page 5−45.
Venus DM 400/400A Y LINE TABLE − VTR CONTROLLER/TRIBUTARY SELECTION Note: These instructions assume that the installer has read “Data Matrix Installation” in Section 3 of the Venus Routing Switcher System Technical Manual. Some VTRs can act as controllers or tributaries. These can be connected with a “Y” cable to two Venus ports— one for use when the VTR is a controller, the other when the VTR is used as a tributary (see Figure L−14).
Venus DM 400/400A Venus Data Matrix “VR1−S” is suggested as the name for VR 1 when used as a Slave. “VR1−M” is suggested as the name for VR 1 when used as a Master. VR1 being used as Master Rx Port 0 “VR1−S” “D−1” Tx Controller Forward data switcher level “FOR” Port 1 “VR1−M” For pin−outs of these cables see Figure L−2 on page L−2.
Venus DM 400/400A CP Input and Output Sets The input and output names in the previous tables must be assigned to Category/Entry selections. In the following examples, intended for use with a CP−3000−type panel, the “C” (for “controller”) category button will be used to select the master VCR and the “D” (for “destination”) category button will be used to select the slave VCR.
Appendix M CP 3000/3010 Output Set Work Sheet CM 4000 Installation and Operating Manual M−1
Output set worksheet M−2 CM 4000 Installation and Operating Manual
Appendix N Jupiter ASCII Communications Protocol Revision E − November 10, 2005 Hardware connections for an external computer are shown on page 2−88. Set−up in the Jupiter Control System File Server includes defining one or more ports as being ASCII in the Serial Protocol Table (page 5−30). The control computer is identified on the MPK Devices table (page 5−123). You will need to define each port as being type “Serial”, and give each port a CP Input set, CP Output Set and CP Level set.
ASCII Protocol LLLLLLL −−−> Router Switcher LEVELS. This corresponds with a logical position in this ASCII port’s CP Level Set. The range is from 1 to 7. For example, 1 refers to the first entry in the CP Level Set, and 5 refers to the fifth entry in that same set. If no levels are specified, then the take is assumed to apply to all levels defined in that set. Level number entries are NOT position−dependent.
ASCII Protocol mand, an invalid command format, or an invalid input, output or level. Invalid inputs, outputs and levels are logged to the system logger. Also if the system is busy a ZN will be issued followed by XOFF. When it is again ready for the next command a XON will be issued. Note that after the XON, response(s) from the prior command may be issued (e.g. ZR response(s)).
ASCII Protocol outputs in that port’s serial output set. All responses are in the “ZR” format described above. When issued, this command also may result in an immediate ZR response for the requested output(s). No ZR response(s) will be returned if the requested output(s) do not have any inputs assigned to them. ZPOOO Lock Output This command LOCKS the specified output from being changed by any system control device.
Appendix O Venus Monitor Configuration When used with a Jupiter control system, the Venus output monitoring hardware allows verification of switcher performance without interrupting normal operations. A separate switching system is used to switch the Monitor Output to any output of the switcher. Using a control panel, the operator picks an output as usual—in this case, the Monitor Output. The operator then selects an input, but this input is actually one of the switcher outputs.
Venus Monitor SOFTWARE CONFIGURATION Figure O−2 is a block diagram of a Venus 64 x 64 switcher and its built−in 64 x 1 monitor switcher. In this example, the monitor output (lower right corner) has been set with a jumper to the highest output number plus 1, or “64.” The crosspoint marked “x” means that the monitor output has been switched to physical input 0 of the monitor switcher, which corresponds to physical output 0 of the Venus itself.
Venus Monitor Switcher Description 1 2 3 4 Switcher Level VI MainRout MainRout MainRout MainRout VIDEO LEFT RIGHT TC RV MC Board #In #Out PLvl M1 M1 M1 M1 64 32 32 16 65 65 65 65 Follow Level Driver 3 LI 1 2 6 3 3 LO Option Binary Binary Binary Binary Audio DM 400 Off Time NONE LEFT RIGHT NONE Figure O−3. Switcher Output − MainRout Figure O−4.
Venus Monitor OPERATIONAL SEQUENCE FOR MONITORING The following example assumes that the Venus has been set up as described above. 1. Using a control panel such as a CP 3000, select the monitor output of the switcher for control. In this example, the operator would select output “MISC 0.” 2. Select one of the switcher outputs to be monitored. In this example, the operator would select category “A,” then an entry number from 0 to 63.
Appendix P CE 3000 Matrix Control / PL 3000 Party Line Interface SC 3000 Serial Control / VG 3000 Video Display / Status Generator These controller boards, which were part of the original BCS 3000 Control System, have been replaced by the VM/SI 3000 and CM 4000 Control Systems. As of Jupiter software release 7.1.0 they are no longer supported and should not be used in systems with current software.
CE/PL/SC 3000 P−2 CM 4000 Installation and Operating Manual
Appendix Q PS 300 110/220 VAC Power Adaptor Kit Installation Instructions This kit (assembly part no. 44−046442−001) provides all hardware needed to modify one CP 300 Series control panel for direct connection to a 110/220 VAC power line. The CP 300 Series includes the CP 300, CP 310, CP 320, CP 328, and CP 330. The kit includes an add−on chassis (which mounts on the rear of the panel) and a detachable, 3−prong AC power cord. The chassis measures approximately 12 in. wide x 5 in. deep x 1−3/4 in.
PS 300 7. Test power supply by applying power and noting lamp test. 8. Test MPK connections by attaching to Jupiter system controller and verifying operation through each connector. For more information about the MPK cables, please refer to page 2−63.
Appendix R Status and Error Codes CB 3000 CROSSPOINT BUFFER AND INTERFACE FAILURE ALARMS DS13 DS14 DS15 DS16 DS17 DS18 DS19 OUT 1 OUT 2 OUT 3 OUT 4 OUT 5 OUT 6 OUT 7 S3 SELECT A DS12 S2 SELECT B 3 SWITCHES NOT ACCESSIBLE THROUGH FRONT PANEL OUT 0 S1 GREEN LEDS MEM.
Status and Error Codes CM 4000 SYSTEM CONTROLLER BOARDS Startup and shutdown codes Compiled: May 04 2001, 14:19:49 CVS tag: COMBO_6_1_0.
Status and error codes This message is logged anytime the log file is changed. It identifies the version of the logging configuration so that the log viewer knows how to read the files. 02 Logger Error. This is a generic message for logger errors. These messages will typically only get logged to the console. This message is typically serious and warrants technical support. 03 Video SYNC input lost. The board could no longer detect a valid video SYNC reference.
Status and Error Codes An attempt to switch the indicated output failed because it was locked. 0D Output %d, level %d is protected. An attempt to switch the indicated output failed because it was protected. 0E Failed to change from configuration %s to %s. The system failed to change the configuration. The system will continue to function, but with the old configuration set. Check the new configuration set and try again.
Status and error codes 19 Maximum number of status observers exceeded, only %d can be attached. The system can only handle a limited number of observers and has reached maximum capacity. 1A Failed to notify switch requestor (named %s) of a status change. The status that should have been returned to the switch requestor could not be scheduled. This implies that the system is overloaded, but it should not happen on a properly balanced system. 1B Error %d sending switches to the router.
Status and Error Codes The system did not receive a response from the bootp server (JNS). This message is typically logged because the JNS control center is not running. A network problem is also possible. The system will continue to operate using the previous application software and configuration. This will give undesirable results if the configuration or software has changed since the last reboot. If no changes have occurred, this should not be a problem. 26 Bootp failed: no vendor extensions.
Status and error codes This is an informational message indicating that the CRC of the specified file is being checked. This allows the system to ensure that no file corruption occurred. 33 %s is up to date This is an informational message indicating the specified file is up to date and need not be reloaded to the system. 34 %s saved as %s This is an informational message indicating that the specified file was downloaded successfully and renamed.
Status and Error Codes 41 Receive failed for UDP port 0x%x errno=0x%x There may be a problem with the LAN hardware or external LAN connections. This is typically serious. 42 Invalid UDP destination name ’%s’ on port 0x%x There may be a problem with the LAN hardware or external LAN connections. This is typically serious. 43 Error setting non blocking for port 0x%x There may be a problem with the LAN hardware or external LAN connections. This is typically serious.
Status and error codes 4E Error 0x %x scheduling actors for the router control device. An error occurred when trying to schedule actors to the command scheduler. System may be over loaded. This is typically a critical problem. 4F Configuration error for router control device %d. An error occurred when trying to get the logical CP number for this device. The device was configured in the protocols table but could not be found in the MPK devices table. 50 Error creating watch list for deferred events.
Status and Error Codes Message transfer during last frame failed to complete. Determinacy of incoming messages was lost. When processing input messages and a message failed to be completely transferred in the previous frame this message is logged. It represents a determinacy error. Increments a serial input channel determinism error metric. 5C Serial Processor: %s DPM access failure. The system was unable to write serial messages.
Status and error codes Failed to create the unit test task. 68 Could not create unit test cleanup task for %s Failed to create the unit test cleanup task. 69 Unable to initialize the bootp information. Activate a valid configuration and start the bootp daemon. The application was unable to initialize the bootp information. The application could not determine its IP address. Make sure a bootp server is running and a valid configuration is activated. 6A Unable to initialize the control center.
Status and Error Codes CP 3800 SERIES CONTROL PANELS This software operates with Jupiter release 4.0 or later. The following FATAL ERR codes can appear on the CP 38XX series of Control Panels. These are firmware errors that the panel found while running. The following list will help explain these errors and possible actions to be taken. 10xx − Where xx is the unknown MPK message type received by the panel.
Appendix S TSL UMD Setup Guide The TSL Under Monitor Display panels are manufactured by Television Systems Limited (http://www.televisionsystems.ltd.uk), and can be controlled via RS−422 serial connection with VM/SI 3000 control boards running Jupiter 7.2 or newer software. The TSL UMD panels have RS−422 serial data and 24 V power on the same connector, so custom−built cables will be necessary to connect the TSL UMD panels with Jupiter.
TSL UMD Setup Guide to VM/SI 3000 Serial port to TSL UMD− QD8 1 1 Rx+ 6 9 G Rx− Rx− 7 10 Rx+ G Tx+ 8 2 2 3 3 11 Tx− 4 4 G 9 12 5 5 13 DB9P (male) Tx+ 6 14 Tx− 7 +24V Power Supply G 15 8 +24V +24V to TSL UMD−D8C Rx+ Rx− Tx+ Tx− G Receive plus Receive minus Transmit plus Transmit minus Ground G 1 G 2 Tx− 3 Rx+ 4 Rx− 5 Tx+ 6 +24V 7 +24V 8 RJ45P (male) Figure S−1 S−2 CM 4000 Installation and Operating Manual
Input Source Assignment The recessed front panel switches are also used to select a serial address for the TSL UMD panel. The valid addresses are 0 – 125. This address is entered in the Jupiter MPK Devices Table in the “Address” field. If the TSL UMD has two displays, then the left−hand display has the TSL serial address entered in the address field, and the right−hand display has that address plus 100.
TSL UMD Setup Guide S−4 CM 4000 Installation and Operating Manual
Appendix T Grass Valley 8964 OMD (On Monitor Display) module The 4−channel GV 8964 OMD (or on−screen display) board, which is based on the 8964 ENC SDI to NTSC/PAL Encoder Module, mounts in the 8900 TFN−V Module Frame. In this application, each of the four channels can insert an 8−character status mnemonic into a digital video stream and display the result on the analog output. Figure T−1 shows the status mnemonic “CAMERA 1” inserted into one of the OSD board’s four video channels.
GV 8964OMD OSD Module JUPITER CONFIGURATION PROCEDURE 1. Network Description table: Each module frame requires a separate row on this table. The board Type is “MN” (Modular Network board). In the Address field enter the IP address of the frame’s network card. 2. MPK Devices table and CP sets. The MPK Devices table requires an entry for the module frame, and a separate entry for each video channel of each OSD board.
GV 8964OMD OSD Module Figure T−4. Serial−type CP Input Set (example). Output Set − MNF−Out Logical Entry Output 1 0 STU1 2 1 SVR1 3 2 SVR2 4 3 VT01 5 6 The Entry number is used to identify an OSD board and channel number, which is then associated with a Logical Output number of the router. For example: Entry “0” = module 0, channel 0; this channel will monitor the status of router output “STU1.” “3” would be module 0, channel 3; it will monitor router output “VT01.
GV 8964OMD OSD Module Input Set. This set, type UMD3A, is the source of the mnemonics that will be inserted into the video. It must include all router inputs that need to be available to the monitored output. See Figure T−7. Figure T−7. UMD3A−type CP Input Set (example). Input Set — OSD−IN Category Entry Auto Mnem Logical Input Mnemonic Test 1 BARS BARS 2 Test 2 TONE TONE 3 Test 3 CODE TC 4 VTR 1 VT01 VT01 5 VTR 2 VT02 VT02 6 CAM 1 CAMERA 1 CAM1 Output Set.
Glossary 10Base2 − a coax version of ETHERNET. Uses a 4.9 mm (0.19 inch) diameter, 50−ohm coaxial cable (RG−58) and BNC connectors, but runs at the same speed (10Mb/s) as ETHERNET. The Jupiter system uses this standard between VM/SI controllers and Saturn. It is also used by the original BCS 3000 controllers. 10/100BaseT − an ETHERNET configuration that uses twisted pair wiring (typically Cat 5 UTP unshielded twisted pair cable with RJ45 8−pin connectors) to transmit data up to 100 Mbps.
binary super crosspoint bus - similar to super crosspoint bus, but the units digits are allowed to cover the range of 0 to F, rather than 0−9 as in previous switcher systems. Generated only by the Jupiter, CE-2500, and BCS 3000 control systems. breakaway − independent operation of a switcher level. Same as “split.” Contrasts with normal AFV operation. Example: selecting video from VTR1 but audio from Announce Booth 2. BTS − Broadcast Television Systems. A joint venture of Bosch and Philips.
Crosspoint Bus - Also called the matrix bus. A five−pair bus that carries switching and status commands between the crosspoint (matrix) cards in the router and the control device. Used with all switchers developed at the Salt Lake City design center, including Trinix and Venus.
DVS − (Philips) Digital Video Systems. Successor to BTS. Now part of Grass Valley. EBU − European Broadcasting Union. Internet address: http://www.ebu.ch/. ES 400 − A term used in Grass Valley technical publications to denote the original asynchronous (non−reclocking) version of the Venus digital audio switcher matrix board and associated components.
file server − a computer dedicated to providing access to a hard disk on a LAN. In Jupiter systems, the PC that holds the Jupiter installation with the active set. follow switch − a switch made automatically on one level in response to a switch made by the operator on another level. See also AFV, REVERSE SWITCHING. force unprotect/unlock − a system management function that allows a new source to be selected for a protected or locked destination. See LOCK, and PROTECT. FPGA − Field Programmable Gate Array.
linkage − the Jupiter machine assignment function, whereby control of a VTR is passed to a remote panel. The system can be configured so that linkage will occur automatically, based on the signal from the VTR being switched to a destination associated with that panel; this function is sometimes described as “machine control following the router.” Linkage can also be accomplished manually, using the MC−3020L Linkage panel. See also DELEGATION.
NetBEUI − NETBIOS Extended User Interface. Windows for Workgroups ships with the NetBEUI protocol to interconnect computers running Windows for Workgroups, MS−DOS, Windows NT, and Microsoft LAN Manager−compatible networks, in a local area network environment. NetBEUI is a small, efficient protocol designed for use on a departmental LAN of 20 to 200 workstations. For enterprise−wide networks where a routable protocol is required, TCP/IP or IPX should be used. NetBIOS − Network Basic Input/Output System.
polling name − a unique address assigned to a switcher control panel. When transmitted by the polling and control card, allows communication between that panel and the switcher matrix. PPM − peak program meter. protect − on Jupiter control panels with a PROTECT button: after a given source has been switched to a given destination, and PROTECT is pressed, the source for that destination can then be changed only at the panel which protected the output.
sequencing − term used in connection with Jupiter for single−command switching of one or more sources to one or more destinations. With a CP 3000 switcher control panel, each named sequence can contain up to 25 switching events. serial bus − term used in connection with Jupiter for the interface bus that connects VTRs and control panels to a controller board such as a VM 3000. Depending on how the bus is configured by software, may also be referred to as Sony bus, Ampex bus, ESBUS, MPK bus, RS−422 bus, etc.
super party line − see PARTY LINE. switch forwarding − see DISTRIBUTED ROUTING. TCS 1 −TELEMATION Control System. Predecessor to BCS 3000 and Jupiter. TCS 1 provides machine control only (no switcher control). TCS 2 − control panel protocol used with the MCS 2000 Master Control Switcher. Contains byte counts, check sums, and error detection. Replaces the TCS CP interface but not the TCS MI interface. TCS2 can only be used with the MCS 2000, which must be equipped with updated PROMs.
ZIF − zero insertion force. Zion − engineering project name for Jupiter “Configurator,” an enhanced, “Windows−like” editor introduced with Jupiter 6.1.
Glossary−12 CM 4000 Installation and Operating Manual
Index AccuSwitch, G−1 defined, Glossary−1 hardware installation, 2−87 , G−2 ordering information, 1−25 software configuration, G−7 Activating configuration set, 5−13 Active I/O Set Editor, 10−1 Symbols .
ASCII CM−4000/AccuSwitch application, G−8 Routing switcher protocol Command set, N−1 Hardware connections, 2−88 Level indication, 5−60 load factor, 1−18 Serial protocol table entry, 5−31 Asoc name, 5−143 Assemble edit, MC−3000, 6−133 Assignable inputs.
CE−3000, P−1 Defined, Glossary−2 CENELEC, xxxiii CET, entry on Serial Protocol table, G−8 replacement CM, K−1 software configuration, 5−29 Reset, B−1 software version, 8−2 status check, 8−1 , 9−1 VGA display controls, 6−138 , A−1 CFR, xxxiii CM_ESTR, G−8 Characters, in set, table, & device names, 5−7 Cheapernet. See Thin net Columbine Systems, G−2 Combiner.
Control Center, 5−8 , 5−13 , 9−1 clearing battery−protected memory, B−1 CM 4000 reset, B−1 VM/SI−3000 reset, B−1 Control Console, 4−1 Controller, VTR, DM 400B, 5−53 Controller board, defined, Glossary−2 Conversion analog−digital, 5−181 RS−232/422 converter.
CP−3000 2400 baud operation, 2−62 Audio switching modes, 6−18 CHOP button, 6−13 CP Category type entry, 5−102 CP Input set type entry, 5−67 CP Output set table entry, 5−82 custom category set, 5−101 custom mounting, 1−15 defining override keys, 5−96 overrides (at panel), 6−21 sequences, 5−99 Diagnostics, 6−20 Display ID, 6−21 Entering mnemonic for switcher input, 5−62 Expansion panel entry on Machine Control table, 5−140 Level statused, 5−59 Front panel drawing, 2−42 Full matrix control, 5−112 General descr
custom category set, 5−101 diagnostics, 6−47 display ID, 6−47 entry on Machine Control Devices table, 5−140 entry on MPK devices table, 5−108 error codes, R−12 front panel drawing, 2−44 installation, 2−44 Level button, 6−41 level selection mode, 6−41 Load factor, 1−17 lock, 6−61 machine control, 6−45 Menu mode, 6−45 modem connection, 2−62 Multiple destination mode, 6−31 changing output soft key, 6−34 erasing an output, 6−35 making a switch, 6−32 permanent output assignment, 5−79 , 5−85 switching to single d
diagnostics, 6−87 displaying address (ID), 6−87 front panel drawing, 2−46 installation, 2−46 LEVEL button, blinking, 6−84 load factor, 1−17 LOCK key, 6−79 MENU key, 6−87 operation, 6−76 force unprotect/unlock, 6−79 , 6−80 overrides, 6−77 power requirements, 1−13 PROTECT key, 6−79 rear panel connectors, 1−13 sticky levels, 6−83 unlock, 6−79 unprotect, 6−79 CP−3830 audio switching modes, 6−96 , 6−98 baud rate set, 6−72 , 6−113 , 6−122 button lamps, brightness, 6−72 categories, 5−70 , 5−85 CHOP button, 6−93 CP
operation, 6−100 force unprotect/unlock, 6−104 , 6−105 Panel name, 6−112 password, 6−100 power requirements, 1−13 PRESET button, blinking red, 6−101 PROT/LOCK button, 6−103 rear panel connectors, 1−13 stereo special switching, 6−115 sticky levels, 6−102 unlock, 6−104 unprotect, 6−103 , 6−119 CP−3864L diagnostics, 6−121 entry on CP Input set table, 5−68 entry on MPK table, 5−109 general description, 2−51 hardware installation, 2−51 operation, 6−117 force unprotect/unlock, 6−119 password, 6−117 PROT/LOCK butt
Hardware connections, 2−60 serial protocol table entry, 5−31 tally and DD−35, 2−67 EN 55103, xxxii EN 60950, xxxi Digital−analog conversion, 5−181 EN Series (Jupiter LAN), 2−36 DIM, 5−32 Encoda Systems, G−2 Dimensions, 1−14 Encoder (8964), T−1 Encore Encore control of Jupiter, 2−91 Jupiter control of Encore, 2−17 MPK Devices table entry, 5−123 serial protocol table entry, 5−33 , Glossary−6 DIP switches, CP−300 Series panels, 2−38 Disable Breakaway, 5−59 Level, 5−59 Display mnemonic, defined, Glossar
ESswitch, 5−32 See also ESbus routing switcher dialect load factor, 1−18 protocol guide, xxvi Routing switcher protocol, Hardware connections, 2−87 , 2−91 ESW, entry on Serial Protocol table, 5−33 , G−8 Ethernet. See LAN Excel, 5−6 Exclusion, 5−188 defined, Glossary−4 Expansion panel See also see model, e.g., CP−3010, CP−3809, etc.
H row, 5−4 Hardware, address, defined, Glossary−5 Installation, 2−1 See also model number of product Harris Automation, G−2 Integrity Instruments, 2−62 HD 482 S1, xxxiii Interface bus, defined, Glossary−5 Hexadecimal−decimal−binary chart, D−1 Horizon General Purpose Interface, connnecting to, 2−23 serial protocol table entry, 5−32 IP address, network devices, 9−3 Horizontal Line, G−12 Hot key.
K KEMA certificate, xxxiv Key caps, 2−58 L L (flashing), on VGA display, 6−139 L4 (Venus level jumper), 5−39 Labels, preparing, 2−58 Lamps Replacing, 2−58 Testing, 2−59 testing. See Diagnostics LAN facility, I−2 Jupiter addresses hardware, 5−27 , K−2 TCP/IP, 9−3 disconnecting file server, 5−21 installation 10/100BaseT, 2−36 defined, Glossary−5 Disabling breakaway to, 5−59 Disabling switching on, 5−59 Mapping, 2−29 , 5−41 Max inputs/outputs, 5−38 max. no. of, 1−16 , 1−27 Physical.
M M, in GUI status display, 7−15 M board. See CE−3000 MAC address, K−2 Machine control CP−3800, 6−45 Devices table, 5−135 , 5−139 full function (GUI), 7−20 load factor, 1−18 slaved (GUI), 7−9 Machine Control table, 5−139 Machines table, 5−135 MADI, defined, Glossary−6 Mains voltage selection, 2−1 Manuals, related, xxv Mapping, Logical level, 2−29 , 5−41 Mark, E−1 Mark key, MC−3000, 6−132 Mars connecting to VM−3000, 1−11 inputs/outputs table entry, 5−38 protocol selection, 5−43 Master control.
Modem, connecting to control panel, 2−62 Monitor combiner. See VM−400 or DC−400 Monitoring, Venus, O−1 MPK Bus Baud rate, 5−33 Cable, 2−63 Installation, 2−37 Max devices, 1−17 Max length, 2−63 defined, Glossary−6 Devices, menu entry, 5−107 Multimedia, Jupiter courses, xxv Multiple switcher installations Hardware installation, 2−31 Path finding, 2−33 Statusing requirements, 5−79 Switcher levels table entry, 5−41 MVD. See Microvideo CP−3832/64 display, 6−115 , 7−14 NT.
status checking, 6−16 , 6−69 , 6−96 Switcher Output table, 5−55 Override Board, 9−4 CP−3800, 6−53 defined, Glossary−7 Defining at CP−3000, 6−21 Input selection, 6−7 Sets, 5−96 P P (entry on switcher input menu), 5−64 P (flashing), on VGA display, 6−139 P board.
Loss, 5−21 Supply, control panels, 1−15 R Power adapter (AC), Q−1 R, in GUI status display, 7−15 PowerPoint, Jupiter courses, xxv Rack mounting, 2−1 PPM, defined, Glossary−8 RCL, defined, Glossary−8 Preroll, 5−140 , 6−132 , E−1 Re−legendable button kit, 5−101 Program restart, B−1 Ready key, MC−3000 panel, 6−132 Reboot Board Info/Control menu, 9−4 CM, B−1 minimizing downtime with CM, 5−15 Record In key, MC−3000, 6−133 Mode key, MC−3000, 6−133 Out key, MC−3000, 6−132 Redundant, CM 4000.
switcher protocol, 5−43 RL11A, 2−38 Router. See Switcher, distribution Router Control Utility, 17−1 Router Save/Restore utility, 18−1 Row editing, 5−4 RP 1/2/3 UMDs, 2−82 RS−232/422 converter control panel connection, 2−62 Utah Scientific connection, 2−25 RS−232/422/423, switching.
Slant, in set, table, & device names, 5−7 Source/destination panel (GUI), 7−24 Slashes, in set, table, & device names, 5−7 Space, in set, table, & device names, 5−7 Slaved machine control (GUI), 7−9 Spaces, 5−3 SlimLine UMDs, 2−81 See also Under Monitor Displays and Jupiter software packages, 1−30 dimensions, 1−15 hardware installation, 2−81 ordering information, 1−23 software configuration, 5−116 specifications, 1−13 Spare parts, ii Slow motion play, MC−3000, 6−132 SMPTE 259M−1997, defined, Glossar
Streamline. See Grass Valley Super Crosspoint bus, defined, Glossary−3 Party line, defined, Glossary−7 Switcher, production. See specific model Support package, 5−21 Symbols, in set, table, & device names, 5−7 Sync Reference cable, 2−64 Vertical interval, 5−36 SW−4000, features, 1−25 Sync Standard, G−12 Swap, H−1 Syntax, naming rules for sets, tables, CPs, etc.
Termination, LAN terminators Installation, G−4 Part number, G−3 Test. See Diagnostics Switcher Description table entries audio/video/data, 5−44 level, 5−40 protocol, 5−43 TFTP, 9−2 Thin net See also LAN Installation, G−3 ThinLAN. See Thin net Third party, routers See also name of router manufacturer entry on Switcher Description table, 5−42 Troubleshooting, 5−20 Probe connections, C−1 program restart, B−1 zipping a configuration set, 5−20 TSI−100.
CP−3824, 6−79 CP−3830, 6−92 CP−3832/3864, 6−104 force, 6−12 all outputs (JNS), 11−1 CP−3808, 6−70 , 6−71 CP−3824, 6−79 , 6−80 CP−3830, 6−92 , 6−93 CP−3832/3864, 6−104 , 6−105 CP−3864L, 6−119 VGA, 6−140 Unprotect CP−3000, 6−10 CP−3808, 6−70 CP−3824, 6−79 CP−3830, 6−92 CP−3832/3864, 6−103 CP−3864L, 6−119 force, 6−12 all outputs (JNS), 11−1 CP−3808, 6−70 , 6−71 CP−3824, 6−79 , 6−80 CP−3830, 6−92 , 6−93 CP−3832/3864, 6−104 , 6−105 CP−3864L, 6−119 VGA, 6−140 Unqualified output (tally), 5−162 , 5−168 Update Board
VMC−3000, A−2 X Voltage (AC line) selection, 2−1 X−Y panel (GUI), 7−29 VT_, serial protocol table entry, 5−33 VTRs Connecting to, 2−61 controlling with, CP−3800, 6−45 ESbus. See ESbus VTRs Linking to control panels, 5−141 Names, entering, 5−135 X−Y selection, defined, Glossary−10 W X3T11, xxxi XCI, 2−28 XCPU, 2−28 XP.
Hyperlinks to Jupiter CM 4000 Installation and Operating Manual Table of Contents iii Jupiter tables CM VGA Options table . . . . . . . . . . . . . . . . . . . CP category set table . . . . . . . . . . . . . . . . . . . . . CP input set table . . . . . . . . . . . . . . . . . . . . . . . . CP level set table . . . . . . . . . . . . . . . . . . . . . . . . CP output set table . . . . . . . . . . . . . . . . . . . . . . . CP override set table . . . . . . . . . . . . . . . . . . . . . .
