Specifications

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SPEEDDOME ULTRA VI 8000-2830-03, REV. C

INSTALLATION AND SERVICE GUIDE 1 of 34

SpeedDome

Ultra VI

Camera Domes

Installation and Service Guide

RAS816LS and RAS816WLS Series

Figure 1. SpeedDome Ultra camera dome

Contents

About this Guide ....................................................1

About the Camera Dome .......................................2

Data Cable Requirements .....................................8

Install/Removal Tool for Base with I/O Board........8

Power-Up Routine..................................................9

Synchronizing Domes............................................9

Diagnostic LEDs ....................................................9

Warnings and Cautions .......................................10

Indoor Installation.................................................11

Using the Install/Removal Tool ............................18

Troubleshooting Indoor Domes ...........................20

Illustrated Parts List .............................................30

Specifications-Indoor Dome.................................32

Specifications-Outdoor Housing ..........................33

Specifications-23X Camera .................................33

Declarations .........................................................34

About this Guide

This guide explains how to connect the camera

dome to a mounting base and how to service it.

It does not explain how to:

• Determine a mounting location for the camera

dome. The mounting location is determined by

customer requirements; therefore, this

information is provided separately.

• Attach the mounting base. There are two types

of mounting bases. See information shipped

with the base.

• Assemble housings and structures used with

this dome. See information shipped with the

housing and structure.

• Program the dome. See operator's guide

shipped with the dome.

Mounting

Base

Housing

Eyeball

Summary of content (34 pages)

PAGE 1
Contents SpeedDome® Ultra VI Camera Domes About this Guide ....................................................1 About the Camera Dome .......................................2 Data Cable Requirements .....................................8 Install/Removal Tool for Base with I/O Board........8 Power-Up Routine..................................................9 Synchronizing Domes............................................9 Diagnostic LEDs ....................................................
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Housing and Eyeball Assembly About the Camera Dome The housing and eyeball assembly consists of the following: The SpeedDome Ultra VI camera dome (Figure 1) comes in black or white finish (to blend into surrounding areas), mounts indoors or outdoors, and can communicate with the video controller over a SensorNet 485, RS-422, or Manchester network. The dome consists of a mounting base, and a housing and rotating eyeball assembly. • Housing.
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Figure 2. Mounting base and housing and eyeball assembly Standard Base Indoor Ceiling Mounting Using hardware shipped with the base, the dome attaches directly to indoor ceilings made of sheet rock, wood, metal, or concrete (Figure 3), or to tile ceiling T-bars where they intersect (Figure 4). Base with I/O Board Figure 3. Surface mounting to hard ceilings Figure 4. Surface mounting to tile ceilings SPEEDDOME ULTRA VI INSTALLATION AND SERVICE GUIDE 8000-2830-03, REV.
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Structural I-Beams Indoor Ceiling/Wall Mounting (Optional) RHIUIB† The camera dome attaches to one of the following optional indoor mounting structures (Figure 5). Sheet Rock, Plaster or Wood Ceilings RHIUTH Tile Ceilings Top hat housing with trim ring This housing attaches to a ceiling or to most indoor mounting structures. A bubble and trim ring provide concealment. Optional bubbles: RUCLR (clear), RUSLV (silver), RUSMK (smoked), or RUGLD (gold).
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Figure 5. Indoor mounting structures (optional) RHIUFB RHIUAB RHIUHC RHIUIB RHIU2X2 RHPLA RHIU2X2P RHIUTH RHIUWM RHIUPNDT RHIUCM RHIUTR RHIU3X3 RHIU4X4 RUCLR RUSLV RUSMK RUGLD SPEEDDOME ULTRA VI INSTALLATION AND SERVICE GUIDE RHIULWM 8000-2830-03, REV.
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Outdoor Mounting (Optional) SpeedDome Housing Adapter Bracket (Optional) Note: This document does not include outdoor installation and service instructions. For these instructions, see Installing the RHODUL Outdoor Housing, 8000-2573-04. An RHSDA adapter bracket (Figure 7) enables the dome to fit into SpeedDome indoor and outdoor housings. Locking pins in the bracket enable the dome to swing out for servicing or removal.
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RHOWPA pole mount Figure 8. Outdoor mounting structures (optional) RHOTR over roof mount (shown with RHOTRF bracket) RHOSW/RHOLW wall mount PHOPN pendant mount RHOSW RHOLW RHOWCA corner bracket (shown with RHOLW mount) SPEEDDOME ULTRA VI INSTALLATION AND SERVICE GUIDE 8000-2830-03, REV.
PAGE 8
Data Cable Requirements Install/Removal Tool for Base with I/O Board Table 2 shows the data cable requirements for SensorNet, RS-422, and Manchester networks. For more information about communication protocols and cable networks, see Communication Protocols and Cable Networks, 8000-2573-19.
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Power-Up Routine Synchronizing Domes After power is connected to the dome, the dome performs the following homing routine. To prevent picture rolling when switching from camera to camera, all domes can be synchronized to a 50Hz or 60Hz ac source. A V-phase adjustment at the control console enables the dome to sync to any line phase. 1. After a few seconds, the camera lens tilts up into the housing and eyeball assembly. 2. The lens tilts downs until it looks at the floor. 3. Eyeball pans slowly. 4.
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! Warnings and Cautions Please review the following warnings and cautions before you begin installation or service. EU power requirements: This product runs on 24Vac. In the EU, it is intended to be powered from a Limited Power Source. A limited power source is a certified source of SELV, and if inherently limited, with 8 amps maximum output current, and a maximum of 100VA available; or if not inherently limited, fused with a maximum value of 3.3 Amps, meeting section 2.
PAGE 11
When using the standard base and wiring cables directly to the dome, ALWAYS connect the video cable to the dome before you connect the 9-pin cable (which contains power). If you connect the 9-pin cable first, you risk shorting delicate electronics near the connector. Indoor Installation This section explains how to connect the housing and eyeball assembly to a: • Standard mounting base I/O PC board (when used). • Mounting base with I/O board.
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2. Attach safety lanyard to cap on housing and eyeball assembly (Figure 11). Use M3 x 6 screw supplied with lanyard. Connecting to the Standard Mounting Base This procedure explains how to connect the housing and eyeball assembly to a standard base. CAUTION: The maximum length of cable allowed between the Class 2 LPS (low voltage) ac source, such as a J-box, and the dome is 250m (820'). Figure 11.
PAGE 13
5. Connect the 9-pin plug (data and power) to the 9-pin receptacle (Figure 13). 4. Set termination jumper JW1 (Figure 12). Depending upon the dome’s location in the communications line, set jumper JW1 across the appropriate pins as described in the following chart: Position of dome in communications line… Setting Pins Between other devices Unterminated 1-2* End of communications line Terminated 2-3 CAUTION: DO NOT connect 9-pin plug unless you have performed step 3 first! a.
PAGE 14
6. Connect 4-pin plug (alarm input/output) to 4-pin receptacle (Figure 13). 7. Check LEDs to verify that power and data are reaching dome (Figure 13). a. Feed cable through access hole in base. LEDs CR2, CR3, and CR4 surround video connection and are visible through opening. LEDs light in the following order: b. Connect alarm wires to 4-pin plug (refer to chart below). c. Insert plug into mating receptacle in top of housing and eyeball assembly. To test Manchester network: a.
PAGE 15
8. Connect the housing and eyeball assembly to the base (Figure 14) by aligning the Cap and Base tabs and then turning clockwise until you hear a click. 2. Connect video cable to BNC connector P8 on I/O board. 3. Connect Manchester, RS-422, or SensorNet 485 data wires to connector P1. Figure 14. Connecting housing and eyeball assembly to base (cables and lanyard not shown) Align tabs on Cap and Base. Turn clockwise to latch Manchester data connections.
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5. Connect alarm input cable, if used, to P4 connector. Figure 15. Electrical connections Pin Color Designation 1 — Alarm 3 input (3.5mA sink) 2 — Alarm 2 input (3.5mA sink) 3 — Alarm 1 input (3.5mA sink) 4 — Alarm 0 input (3.5mA sink) 5 — Ground 6 — Ground 6. Connect power to P7 connector. Pin 1 Pin 1 Pin 1 Pin Color Designation 1 Black 24 Vac 2 Red Ground 3 White 24 Vac P3 P7 P8 I/O BOARD P4 7. Reattach I/O board. Pin 1 8. Connect power to base. P1 9.
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Figure 16. Test switch/LEDs on I/O board SW1 11. Connect the housing and eyeball assembly to the base (Figure 18) by aligning the Cap and Base tabs and then turning clockwise until you hear a click. Figure 18. Connecting housing and eyeball assembly to base(cables and lanyard not shown) RS422 Test Pushbutton Align tabs on Cap and Base. Turn clockwise to latch Comm. LED Power LED 10. Set dome address (Figure 17). Recessed at top of housing and eyeball assembly are three rotary address switches.
PAGE 18
TO CONNECT DOME: Using the Install/Removal Tool 1. Insert dome "eyeball down" into tool's receptacle. Fins on dome mate with slots in tool. Use fins to properly align dimple at top of dome with label on tool. CAUTION: Do not use this tool to connect the dome to the standard base. 2. Align label on tool with logo on I/O board in base. Push dome up into place.
PAGE 19
Figure 19. How to use the install/removal tool Skirt or Bubble Attachment/Detachment A B Catch notch and pull down. C Snap tool into pole. Attachment Detachment Dome Connection (reverse steps to disconnect) Line up Line up D Turn until you feel a click. B C E Do not use this tool to connect the standard base! SPEEDDOME ULTRA VI INSTALLATION AND SERVICE GUIDE 8000-2830-03, REV.
PAGE 20
Items You Will Need Troubleshooting Indoor Domes You should have on hand the following items: CAUTION: This troubleshooting section is for indoor camera domes only! To troubleshoot outdoor domes, see installation and service manual shipped with the outdoor housing. Phillips-head screwdriver Small slotted screwdriver 2.5mm (0.1") slotted screwdriver (for wire connections). Wider blade widths can damage connectors. Socket wrench with 5" extension and 5.
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4. Isolate problem to housing and eyeball assembly or base by attaching dome to another base with I/O board. Does dome display video or respond to commands? Procedure Follow steps until the problem is corrected. 1. Check video on monitor (a, b, or c). a. No video? Go to step 2. YES Problem is likely cable connections or I/O board if used. Go to step 5. b. Contrast or color off? NO YES Ship entire dome (base included, if it contains an I/O board) back to the GSC.
PAGE 22
6. Observe green power LED on I/O board (Figure 21). Is green LED off or not on steady? P1 connector (Manchester data) Pin YES Verify 24Vac cable is properly attached. If OK, replace I/O board or ship entire dome to the GSC. NO P7 Connector (AC in) Color Designation 1 Black 24 Vac 2 Red Ground 3 White 24 Vac 5 Black Manchester (+) 6 White Manchester (–) P1 connector (RS-422 data) 7. Observe yellow communication LED on I/O board (Figure 21).
PAGE 23
9. Check spring finger connector on I/O board by connecting housing and eyeball assembly to original base to verify contact between spring fingers and CPU board (under cap). Does dome produce video and respond to commands? Procedure 1. Match symptom to one of the following criteria: − Dome functions but does not pan − Dome functions but does not tilt YES Spring fingers may not have seated properly. Reconnect housing and eyeball assembly.
PAGE 24
Disassembling the Dome Removing the CPU Board CAUTION: Once disassembled, parts of dome housing and eyeball assembly are "extremely fragile" and may break. Proceed using extreme care! CAUTION: Electrostatic-sensitive device. Use a ground strap when handling CPU board. Referring to Figure 22. 1. Remove cap. This section explains how to remove the following parts from the camera dome. Remove three Phillips-head screws holding cap, then "gently" lift cap to one side. • CPU board, page 27 2.
PAGE 25
Removing the P/S Board Removing the Pan Motor CAUTION: Electrostatic-sensitive device. Use a ground strap when handling power supply board. Referring to Figure 24. Referring to Figure 23. 1. Perform procedure "Removing the CPU Board" (page 27). 1. Perform procedure "Removing the CPU Board" (page 27). 2. Perform procedure "Removing the P/S Board" (page 28). 2. Remove metal shield. 3. Remove pan motor. Lift motor housing up as shown (1) to disengage motor from pan gear.
PAGE 26
Removing the Slot Covers Removing the Camera 1. Gently swivel eyeball to totally expose one of two slot covers (Figure 25). 1. Perform procedure "Removing the Slot Covers" (this page). CAUTION: Swiveling fast can damage gears. 2. Remove ribbon cable from camera (Figure 26). Swivel camera yoke to expose camera connector. Then, using a small slotted screwdriver, a) gently pry camera connector loose from camera, and b) pull it down through cable tie wrap. 2.
PAGE 27
Detaching the Eyeball Removing the Camera/Lens Board 1. Perform procedure "Removing the Slot Covers" (page 29). 1. Perform procedure "Removing the Slot Covers" (page 29). 2. Perform procedure "Removing the Camera" (this page). 2. Perform procedure "Removing the Camera" (page 29). 3. Detach eyeball from housing (Figure 28). a. Turn yoke to access tabs. One tab is more accessible than the other.
PAGE 28
The following steps refer to Figure 32. Removing the Tilt Motor 6. Access camera/lens board. 1. Perform procedure "Removing the Slot Covers" (page 29). To do this, loosen captive retaining screw holding bearing assembly in place and remove this assembly. 2. Perform procedure "Removing the Camera" (page 29). 7. Remove cables from camera/lens board. 3. Perform procedure "Detaching the Eyeball" (page 30). a. Small amber ribbon cable is from tilt motor.
PAGE 29
6. Access tilt motor. Updating/Reprogramming Dome Software To do this, loosen captive retaining screw holding tilt cable assembly in place and gently remove this assembly. CAUTION: This procedure involves extracting a flash memory chip, an electrostatic-sensitive device. Use a ground strap when handling the chip. 7. Remove tilt motor (Figure 35). Lift motor housing up as shown (1) to disengage motor from tilt gear. Then pull motor bracket towards outside of cable/tilt assembly (2) to remove motor.
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Bearing Assy., Lens Carriage 2510-0038-01 Illustrated Parts List 31 This section helps you to identify parts that make up the base and housing and eyeball assembly. Parts in Table 3 are shown in Figure 37. 32 Yoke Bracket (Qty. 2) 0500-8038-01/-02 33 Cable Assy., Tilt 0650-1680-01 34 Camera, 23x, NTSC 2003-0046-01 Note: Not all of the parts, which are shown for clarity, are orderable. Parts are subject to change based on design improvements and availability.
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Figure 37. Base, housing, and eyeball assembly Standard Base Assembly* * RUPTB/RUWPTB ** RUIOB/RUWIOB Housing Assembly (0400-1399-01/-02) Base Assembly with I/O Board** 13 14 9 1 2 10 3 11 4 12 5 15 16 17 18 19 20 21 6 7 8 22 Housing and Eyeball Assy. (0100-2477-xx) 23 -01 Color NTSC camera (BLK) -02 Color PAL camera (BLK) -03 Color NTSC camera (WHT) 24 25 26 Eyeball Assy.
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Electrical Specifications-Indoor Dome Operational Input Voltage .........................24-30Vac, 50/60 Hz Pan/Tilt: Design Tolerance ..................16-36Vac, 50/60 Hz UL Class 2 LPS Manual Pan Speed............0.2°-100° per second (scaled to zoom position) Power Consumption..............16W max. Manual Tilt Speed .............0.25°-100° per second (scaled to zoom position) Allowable Drop Out ...............100ms Current ..................................0.85A max. Power On In-Rush Current....
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Lens and Bubble Densities Specifications-23X Camera Eyeball Lens ......................... f0 Type .................................. Interline transfer 1/4" CCD array Bubbles: RUCLR (Clear).................. f0 RUSLV (Silver).................. f1.5 to f2 RUSMK (Smoke) .............. f0.5 RUGLD (Gold) .................. f1.5 to f2 Scanning Area................... 3.2 (H) x 2.4 (V) mm Scanning System .............. 2:1 interlace Video Out .......................... 1.
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Field-of-View Formulas: Declarations 3.2mm* x distance from camera (m) Focal length (mm) = Horizontal view (m) Regulatory Compliance 2.4mm* x distance from camera (m) Focal length (mm) = Vertical view (m) Emissions............................... 47 CFR, Part 15, Class A ICES-003 EN55022 CL. B EN61000-3-2 EN61000-3-3 AS/NZS 3548, Class A CISPR 22 * Horizontal scanning area of pickup device (mm) in camera. ** Vertical scanning area of pickup device (mm) in camera.