cPCIS-3320 Series 9U Dual-System CompactPCI Platform User’s Manual Manual Rev. 2.00 Revision Date: April 20, 2005 Part No: 50-15037-100 Advance Technologies; Automate the World.
Copyright 2005 ADLINK TECHNOLOGY INC. All Rights Reserved. The information in this document is subject to change without prior notice in order to improve reliability, design, and function and does not represent a commitment on the part of the manufacturer. In no event will the manufacturer be liable for direct, indirect, special, incidental, or consequential damages arising out of the use or inability to use the product or documentation, even if advised of the possibility of such damages.
Getting Service from ADLINK Customer Satisfaction is top priority for ADLINK Technology Inc. Please contact us should you require any service or assistance. ADLINK TECHNOLOGY INC. Web Site: http://www.adlinktech.com Sales & Service: Service@adlinktech.com TEL: +886-2-82265877 FAX: +886-2-82265717 Address: 9F, No. 166, Jian Yi Road, Chungho City, Taipei, 235 Taiwan Please email or FAX this completed service form for prompt and satisfactory service.
Table of Contents List of Figures ........................................................................ iii 1 Introduction ........................................................................ 1 1.1 1.2 1.3 1.4 1.5 1.6 Features............................................................................... 1 Specifications....................................................................... 2 Mechanical Layout...............................................................
4 Cooling System................................................................. 39 4.1 4.2 4.3 Fan Alarm .......................................................................... 39 Fan Removal and Replacement ........................................ 39 Intake Fans ................................................................... 40 Exhaust Fan .................................................................. 41 Fan Tray Filter Replacement .............................................
List of Figures Figure 1-1: Figure 1-2: Figure 1-3: Figure 1-4: Figure 1-5: Figure 1-6: Figure 1-7: Figure 1-8: Figure 2-1: Figure 2-2: Figure 2-3: Figure 2-4: Figure 2-5: Figure 2-6: Figure 3-1: Figure 3-2: Figure 4-1: Figure 4-2: Figure 4-3: Figure 4-4: Figure 4-5: Figure 4-6: Figure 6-1: Figure 6-2: Figure 6-3: List of Figures Mechanical Layout of the cPCIS-3320 ...................... 3 cPCIS-3320 Series Front View.................................. 4 cPCIS-3320 Series Side View ........................
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1 Introduction The cPCIS-3320 Series 9U Dual-System Platform is ideal for developing telecom applications focusing on media and signaling gateways, as well as telecom value-added services like Location Based Service (LBS), Ring Back Tone (RBT), and Multimedia Message Systems (MMS). This flexible and reliable development platform with optimized I/O and storage provides the best solution for equipment manufacturers and system integrators and shortens time-to-market for fast growing business revenues.
1.2 Specifications CompactPCI Standards PICMG 2.0; 2.1; 2.5; 2.9; 2.11 Form Factor 6U cPCI with 80 mm depth rear I/O Enclosure EIA RS-310C 19" 9U high rack-mount enclosure Coated metal plate outer covering Guarded power switch and reset button Basic Alarm Module (model dependent) Monitors inner chassis temperature & fan status (model dependent) Abnormal status will generate alarm and LED warning Audible alarm reset LED indicators display voltage status on 5V, 3.
1.3 Mechanical Layout Refer to the figures below for the mechanical layout and external dimensions of the cPCIS-3320.
cPCIS-3320 Series External Dimensions (mm) Figure 1-2: cPCIS-3320 Series Front View Figure 1-3: cPCIS-3320 Series Side View 4 Introduction
1.4 cPCIS-3320 Configurations The cPCIS-3320 Base Model comes in the configurations shown in the table below. The “M” designation indicates the optional Chassis Management Module (CMM). Model Number Management System cPCIS-3320/AC Standard Alarm Board cPCIS-3320/M/AC CMM 1.5 System Architecture The cPCIS-3320 Series uses the system architecture shown in the figures below. System A supports 1+7 slots and System B supports 1+4 slots.
cPCIS-3320/AC: Standard Alarm Board Figure 1-4: cPCIS-3320/AC Architecture (Front View) Figure 1-5: cPCIS-3320/AC Architecture (Rear View) 6 Introduction
cPCIS-3320/M/AC: Optional CMM Figure 1-6: cPCIS-3320/M/AC Architecture (Front View) Figure 1-7: cPCIS-3320/M/AC Architecture (Rear View) Introduction 7
1.6 Power Distribution The cPCIS-3320 Series a redundant power supply distribution as shown in figure below. The CMM portion of the diagram applies to the cPCIS-3320/M/AC model and indicates the fan status monitored by the CMM.
2 Getting Started This chapter describes the unpacking procedure of the sub-system and installation procedures for CompactPCI boards, power supply units (PSUs) and drive bays. 2.1 Shipping Contents Check the shipping carton for any damage. If the shipping carton and contents are damaged, please notify the dealer for a replacement. Retain the shipping carton and packing material for inspection by the dealer. Obtain authorization before returning any product to ADLINK.
Figure 2-1: cPCIS-3320 Series slot layout. The handles on CompactPCI cards and PSUs ensure simple and safe installation and removal. Please follow the procedures below to install a CompactPCI module into a chassis: CompactPCI Card Installation/Removal Procedure 1. Place the sub-system on a level surface or rackmount it. Remove the blanking plates where required by undoing the retaining screws at each end. Retain the blanking plates for possible future use.
are pulled outwards) by first pressing on the release buttons with your thumb. 3. Carefully insert the module into the desired slot by sliding the edges of the board into the appropriate card guide rail. Take care to ensure correct alignment of the card with the chassis during insertion to prevent damage to the card and/or backplane. Figure 2-2: Installing 6U modules. 4. Continue inserting the card until the handles engage with the chassis.
Figure 2-3: Latching the cPCI module handles securely. 5. Push inwards on the handles for final insertion. Ensure that the buttons on the handles fully latch into position as unless this is done the card is not correctly inserted. Fasten the retaining screws at each end of the card (2 for single slot cards, 4 for double slot cards). 6. To remove the module, undo the retaining screws, press the release buttons (if necessary), and reverse steps 1 through 5 above.
Figure 2-4: Unlatching and removing a cPCI PSU. 2. Pull outwards to remove the PSU. 3. Insert the new PSU module, push on the handle until it latches into position, and replace the retaining screws. 2.3 Rear Transition Module Installation/Removal The installation and removal procedures for a Rear Transition Module (RTM) are the same as those for CompactPCI boards. Because they are shorter than front boards, pay careful attention when inserting or removing RTMs.
2.4 Drive Bay Access To install the required hardware in the two 5.25” drive bays, follow the procedure below: 1. Remove the 16 screws fastening the chassis lid and lift it off of the cPCIS-3320. 2. Remove the three screws fastening the drive bay bracket to the internal chassis structure as shown in the figure below. Remove the bracket from the chassis, undo the four screws attaching the blanking cover to the drive bay bracket, and remove the blanking cover. Figure 2-5: 5.25” drive bay access. 3.
2.5 Powering Up the System Connect the supplied power cord to the socket on the back of the chassis. All supplied PSUs are full range 90-240VAC and do not require input voltage setting. Insert the desired boards into the appropriate card slots as described in Section 2.2 and 2.3. The cPCIS-3320 Series features a guarded power switch. Use a suitably shaped object (such as a pen) to actuate the power switch. After the system is powered up, all LEDs will light up to indicate normal operating conditions.
2.6 System Alarm Board The cPCIS-3320/AC features an embedded alarm board that monitors temperature and fan status. Should a fan become disabled or the temperature exceed 50°C, the Alarm LED will light up and an audible warning will be heard. To disable the audible warning, press the Alarm RST button. The Alarm LED will continue to flash until the fault is corrected.
3 Backplane In this chapter, we will describe the backplane for the cPCIS-3320 Series, the cBP-6413DR, a dual-system 64-bit 6U CompactPCI H.110 bus backplane. 3.1 Specifications CompactPCI Standards PICMG 2.0 R3.0, 2.1 R2.0, 2.5 R1.0, 2.9 R1.0, 2.11 R1.0 Dimensions 415.56 x 262.
3.
TOP of CHASSIS Figure 3-2: cBP-6413DR Backplane Rear View Backplane 19
3.3 Connector Pin Assignments System Slots System Slots [8-P1], [14-P1] Pin Z A B C D 25 24 GND +5V REQ64# ENUM# +3.3V GND AD[1] +5V V(I/O) AD[0] 23 GND +3.3V AD[4] AD[3] +5V AD[2] GND 22 GND AD[7] GND +3.3V AD[6] AD[5] GND 21 GND +3.3V AD[9] AD[8] M66EN C/BE[0]# GND 20 GND AD[12] GND V(I/O) AD[11] AD[10] GND 19 GND +3.3V AD[15] AD[14] GND AD[13] GND 18 GND SERR# GND +3.3V PAR 17 GND +3.
System Slots [8-P2], [14-P2] Pin Z 22 GND GA4 GA3 GA2 GA1 GA0 GND 21 GND CLK6 GND Reserved Reserved Reserved GND 20 GND CLK5 GND Reserved GND Reserved GND 19 GND GND GND SMDATA SMCLK ALERT# GND 18 GND Reserved Reserved Reserved GND Reserved GND 17 GND Reserved GND PRST# REQ6# GNT6# GND 16 GND Reserved Reserved DEG# GND Reserved GND 15 GND Reserved GND FAL# REQ5# GNT5# GND 14 GND AD[35] AD[34] AD[33] GND AD[32] GND 13 GND AD[38] GND
System Slots [8-P3], [14-P3] Pin Z A B C D E F 19 GND Reserved Reserved Reserved Reserved Reserved GND 18 GND Reserved Reserved Reserved Reserved Reserved GND 17 GND Reserved Reserved Reserved Reserved Reserved GND 16 GND Reserved Reserved Reserved Reserved Reserved GND 15 GND Reserved Reserved Reserved Reserved Reserved GND 14 GND Reserved Reserved Reserved Reserved Reserved GND 13 GND Reserved Reserved Reserved Reserved Reserved GND 12 GND
System Slots [8-P4], [14-P4] Pin Z A B C D E F 25 GND Reserved Reserved Reserved Reserved Reserved GND 24 GND Reserved Reserved Reserved Reserved Reserved GND 23 GND Reserved Reserved Reserved Reserved Reserved GND 22 GND Reserved Reserved Reserved Reserved Reserved GND 21 GND Reserved Reserved Reserved Reserved Reserved GND 20 GND Reserved Reserved Reserved Reserved Reserved GND 19 GND Reserved Reserved Reserved Reserved Reserved GND 18 GND
System Slots [8-P5], [14-P5] Pin Z A B C D E F 22 GND Reserved Reserved Reserved Reserved Reserved GND 21 GND Reserved Reserved Reserved Reserved Reserved GND 20 GND Reserved Reserved Reserved Reserved Reserved GND 19 GND Reserved Reserved Reserved Reserved Reserved GND 18 GND Reserved Reserved Reserved Reserved Reserved GND 17 GND Reserved Reserved Reserved Reserved Reserved GND 16 GND Reserved Reserved Reserved Reserved Reserved GND 15 GND
Peripheral Slots Peripheral Slots [1-P1] - [7-P1], [10-P1] - [13-P1] Pin Z A B C D 25 24 GND +5V REQ64# ENUM# +3.3V GND AD[1] +5V V(I/O) AD[0] 23 GND +3.3V AD[4] AD[3] +5V AD[2] GND 22 GND AD[7] GND +3.3V AD[6] AD[5] GND 21 GND +3.3V AD[9] AD[8] M66EN C/BE[0]# GND 20 GND AD[12] GND V(I/O) AD[11] AD[10] GND 19 GND +3.3V AD[15] AD[14] GND AD[13] GND 18 GND SERR# GND +3.3V PAR 17 GND +3.
Peripheral Slots [1-P2] - [7-P2], [10-P2] - [13-P2] Pin Z 22 GND GA4 GA3 GA2 21 GND Reserved GND Reserved 20 GND Reserved GND Reserved 19 GND GND GND 18 GND Reserved Reserved 17 GND Reserved GND 16 GND Reserved Reserved Reserved GND Reserved GND 15 GND Reserved GND Reserved Reserved Reserved GND 14 GND AD[35] AD[34] AD[33] GND AD[32] GND 13 GND AD[38] GND V(I/O) AD[37] AD[36] GND 12 GND AD[42] AD[41] AD[40] GND AD[39] GND 11 GND AD[45]
Peripheral Slots [1-P3] - [7-P3], [10-P3] - [13-P3] Pin Z A B C D E F 19 GND Reserved Reserved Reserved Reserved Reserved GND 18 GND Reserved Reserved Reserved Reserved Reserved GND 17 GND Reserved Reserved Reserved Reserved Reserved GND 16 GND Reserved Reserved Reserved Reserved Reserved GND 15 GND Reserved Reserved Reserved Reserved Reserved GND 14 GND Reserved Reserved Reserved Reserved Reserved GND 13 GND Reserved Reserved Reserved Reserved R
Peripheral Slots [1-P4] - [7-P4], [10-P4] - [13-P4] Pin Z A B C D E F 25 GND SGA4 SGA3 SGA2 SGA1 SGA0 GND 24 GND GA4 GA3 GA2 GA1 GA0 GND 23 GND +12V Reserved CT_EN# -12V CT_MC GND 22 GND PFS0# 21 GND -SELVbat PFS1# 20 GND No Pin No Pin No Pin No Pin 19 GND No Pin No Pin No Pin No Pin No Pin GND 18 GND VRG No Pin No Pin No Pin VRG Rtn GND 17 GND No Pin No Pin No Pin No Pin No Pin GND 16 GND No Pin No Pin No Pin No Pin No Pin GND 15
Peripheral Slots [1-P5] - [7-P5], [10-P5] - [13-P5] Pin Z A B C D E F 22 GND Reserved Reserved Reserved Reserved Reserved GND 21 GND Reserved Reserved Reserved Reserved Reserved GND 20 GND Reserved Reserved Reserved Reserved Reserved GND 19 GND Reserved Reserved Reserved Reserved Reserved GND 18 GND Reserved Reserved Reserved Reserved Reserved GND 17 GND Reserved Reserved Reserved Reserved Reserved GND 16 GND Reserved Reserved Reserved Reserved R
CMM Slots CMM Slots [S69] Pin Z A B C 25 24 23 22 21 20 GND +5V Reserved Reserved +3.3V GND Reserved +5V V(I/O) Reserved Reserved GND GND +3.3V Reserved Reserved +5V Reserved GND GND Reserved GND +3.3V Reserved GND +3.3V Reserved Reserved GND ENUM4# GND GND Reserved GND V(I/O) AD[11] ENUM3# GND 19 GND +3.3V Reserved Reserved GND ENUM2# GND 18 GND Reserved GND +3.3V Reserved ENUM1# GND 17 GND +3.
CMM Slots [S55] Pin Z A 22 GND GND GND GND GND GND GND 21 GND LPA13_DA+ LPA13_DA- Reserved INH#1 DEG#1 GND 20 GND LPA13_DB+ LPA13_DB- Reserved Reserved FAL#1 GND 19 GND LPB13_DA+ LPB13_DA- Reserved INH#2 DEG#2 GND 18 GND LPB13_DB+ LPB13_DB- Reserved Reserved FAL#2 GND 17 GND Reserved Reserved Reserved INH#3 DEG#3 GND 16 GND Reserved Reserved Reserved Reserved FAL#3 GND 15 GND Reserved Reserved Reserved INH#4 DEG#4 GND 14 GND Reserved Rese
Other Connectors CompactPCI 47-Pin PSU Connectors [CN1-CN4] Pin Signal Pin Signal 47 ACL/-DC IN 31 GA2 46 ACN/+DC IN 30 V1 SENSE 45 CGND 29 V1ADJ 44 V3 SHARE 28 GA1 43 IPMB_PWR 27 EN# 42 +FAL# 26 RESERVED 41 V2 SHARE 25 GA0 40 IPMB_SDA 24 RTN 39 INH# 23 RESERVED 38 DEG# 22 RTN 37 IPMB_SCL 21 V4 36 V3 SENSE 20 V3 35 V1 SHARE 19 RTN 34 S RTN 13-18 V2 33 V2 SENSE 5-12 RTN 32 V2ADJ 1-4 V1 ATX Power Out [CN5, CN7] Pin Signal Pin Signal 1 +3
5-Pin DC (Out) Power Connector [CN6] Pin Signal 1 Ground 2 +3.
H.110 DC Power Terminal [J1 - J4] Connector Signal J1 -SELVbat J2 -SELVbat Rtn J3 VRG J4 VRGRtn Power LED Connector [J5] 1 2 7 8 Pin Signal Pin Signal 1 +12V 2 GND 3 -12V 4 GND 5 +3.
INH# Connector [J9] Pin Signal 1 INH# 2 GND Pin Signal 1 FAL# 2 GND FAL# Connector [J10] DC Power Terminal [J11, J14, J15] Backplane Connector Signal J11 GND J14 +12V J15 -12V 35
3.4 Jumper Settings V(I/O) Select [J12, J13, J16] Connector Signal J12 +5V J13 V(I/O) J16 +3.3V (default: J12-J13 shorted) H.
Power FAL# Jumper [JP3] 1 7 2 8 Pin Signal Pin Signal 1 FAL# 2 FAL1#(POWER1) 3 FAL# 4 FAL2#(POWER2) 5 FAL# 6 FAL3#(POWER3) 7 FAL# 8 FAL4#(POWER4) (default: 1-2, 3-4, 5-6, 7-8 shorted) Power INH# Jumper [JP4] 1 2 7 8 Pin Signal Pin Signal 1 INH# 2 INH1#(POWER1) 3 INH# 4 INH2#(POWER2) 5 INH# 6 INH3#(POWER3) 7 INH# 8 INH4#(POWER4) (default: 1-2, 3-4, 5-6, 7-8 shorted) H.
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4 Cooling System The cPCIS-3320 Series subsystems are equipped with six frontaccess hot swappable fans (five intake on the bottom, one exhaust on the top) to provide an effectively cooled environment. Two conventional upper exhaust fans provide additional ventilation. The chassis is equipped with an air filter that is removable for cleaning and/or replacement. The cPCIS-3320/AC features an embedded alarm board that monitors fan status and initiates a visible and audible alarm upon fan failure.
Intake Fans 1. Loosen the two screws attaching the intake fan tray cover at the base of the chassis and remove the cover. (Note filter location for Section 4.3 Fan Tray Filter Replacement.) Figure 4-1: Remove the intake fan tray cover (note filter location) 2. Remove the two screws securing the faulty fan module, lift the handle, and pull the module out of the fan tray.
Figure 4-3: Remove the faulty intake fan module 3. Replace with a functional fan module and reinstall the fan tray cover. Exhaust Fan 1. Loosen the two screws attaching the exhaust fan tray cover at the upper right of the chassis and remove the cover.
2. Remove the two screws securing the fan module, lift the handle, and pull the faulty fan module out of the fan tray. Figure 4-5: Remove the screws securing the fan module Figure 4-6: Remove the faulty exhaust fan module 3. Replace with a functional fan module and reinstall the fan tray cover.
For replacement fan modules, please contact your ADLINK distributor. 4.3 Fan Tray Filter Replacement The air filter is located in the front intake fan tray cover at the base of the chassis. To clean/replace the filter, remove the tray cover as shown in Figure 4.1 above. Clean the filter or replace it with a new one, and reinstall the fan tray cover.
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5 Power Supply Unit The cPCIS-3320 Series subsystems are equipped with four ADLINK cPS-H325/AC CompactPCI power modules. 5.1 Features X PICMG 2.11 CompactPCI power interface compliant X 250W 3U X 8HP Eurocard package X Meets IEC1000-3-2 harmonic correction X Internal OR-ing diodes for N+1 redundancy X Hot-swappable X Third-wire current sharing X EMI meets EN 55022 / FCC CLASS A X CE marking compliance 5.
5.3 Input Characteristics 46 X Input Voltage: Typ. 90 - 264 VAC X Power Factor Correction: Meets Harmonic Correction IEC1000-3-2. Power Factor typ. 0.95-0.97 X Input Connector: Positronic 47-pin PCIH47M400A1 X Input Frequency: 47-63Hz X Inrush Current: Less than 30A @ 230VAC X Input Current: 2.8A @115VAC / 1.
5.4 Output Characteristics Output Voltage (see below for properties) Output Current (A) MIN. MAX. TYP. PEAK. 5V MAIN +VO1 (1, 2, 3, 4, 6) 2.0 33.0 25.0 – 3.3V AUX. +VO2 (1, 2, 3, 4, 6, 7) 0 33.0 18.0 – 12V AUX. +VO3 (1, 2, 3, 4, 6, 7) 0 5.5 5.5 6.0 -12V AUX. –VO4 (1, 5, 6, 8, 9) 0 1 0.5 1.
X Noise & Ripple: Typ. 1% peak to peak or 50mV, whichever is greater. X OVP: Built-in at all outputs. X Adjustability: Available at VO1, 2 & 3. X Output Trim: Electrical trim available at VO1/VO2 [ADJ #]. X Remote Sensing: Available at VO1, VO2 & VO3. X Hot-Swap: Available. X N+1 Redundancy: Installed with internal OR-ing diodes at all outputs for N+1 redundancy operation. X Current Sharing: Third-wire current sharing at VO1,2 &3. X Power OK Signal: Available for all output.
6 Chassis Management Module The ADLINK cPCI-8603-pRMC is a Chassis Management Module (CMM) that provides a remote management interface for both chassis and board management. The CMM is an optional module for the cPCIS-3320 Series Its features include monitoring and event logging of board status, temperature, fans and power supply. Remote control board reset is also provided. The user can remotely access and configure the CMM via Ethernet with a webbased user interface. 6.
CMM Mechanical Diagrams Figure 6-1: cPCI-8603 Top, Front and Side View Figure 6-2: cPCI-R8603 RTM Top and Front View 50 Chassis Management Module
Figure 6-3: N2525A CMM module Top and Isometric View Chassis Management Module 51
CMM System Management Architecture Features 52 X PICMG 2.0 CompactPCI Specification R3.0 Compliant X PICMG 2.9 System Management R1.0 Compliant X Compatible with PICMG 2.
Specifications General CompactPCI Features PICMG 2.0 CompactPCI Specification R3.0 Compliant PICMG 2.9 System Management R1.0 Compliant Compatible with PICMG 2.16-compliant components Form Factor Standard 6U CompactPCI 1-slot (4TE/HP, 20.32mm) width CPU Agilent eRMC 2.
Environment Operating temperature: 0 to 40°C Storage temperature: -20 to 65°C Humidity: 20% to 80% non-condensed Shock: 10G peak-to-peak, 11ms duration, non-operation Vibration: Non-operation: 1.5Grms, 5-500Hz, each axis Operation: 0.5Grms, 5-500Hz, each axis, with 2.5” HDD Certificates/ Tests CE, FCC Table 6-1: cPCI-8603 Chassis Management Module Specifications 6.2 CMM Setup To setup the CMM, connect a remote console running Windows 2000 platform (IP address - 192.168.0.
Enter the Chassis Management Interface as follows: 1. Open Internet browser on the remote console (requires Java Virtual Machine: http://java.com/). 2. Enter URL Address ? http://192.168.0.100 3. Login: ADMIN (Default) 4. Password: ADMIN (Default) 5. Click on the Blades tab to monitor board status (you may need to wait for the CMM to scan the PCI Bus).
6. Click on the Sensors tab. Settings will depend on user requirements. The following settings are for a sample system which includes four Temperature Sensors (Temp1CN1, TempCN2, TempCN3, TempCN4), twelve FAN Sensors (FAN0JP1 ~ FN11JP12) and four Voltage Sensors: +3.3V,+5V,+12V,-12V. 7. Click on the Card Config tab.
8. Click on the Network Settings button and make and changes as required. 9. Adjust the RTC (Real Time Clock) setting.
10.If it is necessary to update the firmware of the CMM, click on the Update Firmware button and follow the instructions in Section 5.6 below. 11.Click on the Server Config tab and make any changes as required. 12.Click on the User Config tab.
There are three predefined user’s groups: ADMINISTRATOR, OPERATOR and USER. The privileges are as follows: USER General property access, session info, sensor info, user info, SEL info, board status, history OPERATOR General property access, session info, sensor info, user info, SEL info, board status, history, server action, board control ADMINISTRATOR All Privileges. To setup new accounts, click on the New User button. 13.Click on the Paging Settings tab to setup paging.
6.3 CMM Firmware Update This section describes how to perform a firmware update for the CMM. You will need the following: X TFTPD32 (Windows TFTP server – freeware, available at http://tftpd32.jounin.net/) X New firmware binary file (complete.bin & complete.001) Connect the remote console to the CMM’s LAN port with a crossover cable as described in Section 5.5 above. Create new folder for firmware files: Create a new folder (e.g. E:\RMC-SDK\Build\fwupdate) and then, copy the new firmware (complete.
TFTP Parameter Settings 1. Open a Command Console and run ipconfig to check that the Remote Console’s IP address is the one listed under Server Interfaces (e.g. 192.168.0.x). 2. Click the Settings button and browse to the directory you created above to store the firmware update files (e.g. ”E:\RMC-SDK\Build\Fwupdate”).
3. Under Global Settings, select TFTP server. 4. Make sure the other parameters are as shown in the screen capture above. 5. Click OK to save these settings. CMM Firmware Update After completing TFTP server installation & parameter settings, begin the CMM firmware update process as follows: 1. Make sure the firmware update files (complete.bin & complete.001) have been copied to Base Directory as specified in TFTP Parameter Settings, Step 2 above. 2. Follow Steps 1 to 7 of Section 5.
4. Enter the IP address of the remote console that you confirmed in TFTP Parameter Settings, Step 1 above (e.g. 192.168.0.x). Enter the name of the BIN firmware update file (e.g. complete.bin). 5. Click on OK to begin the firmware upgrade. The process will proceed automatically. 6. Refresh the browser to confirm the new firmware version.
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Important Safety Instructions Please read and follow all instructions marked on the product and in the documentation before operating the system. Retain all safety and operating instructions for future use. X Please read these safety instructions carefully. X Please keep this User’s Manual for future reference. X The equipment should be operated in an ambient temperature between 0 to 50°C. X The equipment should be operated only from the type of power source indicated on the rating label.
X Openings in the case are provided for ventilation. Do not block or cover these openings. Make sure there is adequate space around the system for ventilation when setting up the work area. Never insert objects of any kind into the ventilation openings. X To avoid electrical shock, always unplug all power and modem cables from the wall outlets before removing covers. X Lithium Battery provided (real time clock battery) “CAUTION - Risk of explosion if battery is replaced by an incorrect type.
Warranty Policy Thank you for choosing ADLINK. To understand your rights and enjoy all the after-sales services we offer, please read the following carefully. 1. Before using ADLINK’s products please read the user manual and follow the instructions exactly. When sending in damaged products for repair, please attach an RMA application form which can be downloaded from: http:// rma.adlinktech.com/policy/. 2.
3. Our repair service is not covered by ADLINK's two-year guarantee in the following situations: X Damage caused by not following instructions in the user's manual. X Damage caused by carelessness on the user's part during product transportation. X Damage caused by fire, earthquakes, floods, lightening, pollution, other acts of God, and/or incorrect usage of voltage transformers. X Damage caused by unsuitable storage environments (i.e. high temperatures, high humidity, or volatile chemicals).
