TVC-500 USER MANUAL 020-100539-01
TVC-500 USER MANUAL 020-100539-01
NOTICES COPYRIGHT AND TRADEMARKS © 2010 Christie Digital Systems USA, Inc. All rights reserved. All brand names and product names are trademarks, registered trademarks or trade names of their respective holders. REGULATORY The product has been tested and found to comply with the limits for a Class A digital device, pursuant to Part 15 of the FCC Rules. These limits are designed to provide reasonable protection against harmful interference when the product is operated in a commercial environment.
Table of Contents 1: Introduction 1.1 Using this Manual........................................................................................................................1-1 1.2 Safety Warnings and Guidelines .................................................................................................1-1 1.2.1 Power Cords and Attachments.............................................................................................1-1 1.2.2 Symbols and Labels for the TVC-500 Controller................
Table of Contents DVI-D Cables .......................................................................................................................3-5 No DVI signal .......................................................................................................................3-5 3.4 Connecting Peripheral Devices....................................................................................................3-5 3.5 Connecting Power................................................................
Table of Contents 6.6 Power Supply...............................................................................................................................6-6 6.6.1 Removal ...............................................................................................................................6-6 6.6.2 Replacement.........................................................................................................................6-6 6.7 Optical Disk Drive......................................
Table of Contents 7.4.1 Graphics Output (D4C) ........................................................................................................7-3 7.5 Input (Source Signal) Compatibility............................................................................................7-4 7.5.1 Video Input (V8C) ...............................................................................................................7-4 16-Port Multiple Video Input Module (V8C) ..........................................
1 Introduction 1.1 Using this Manual This manual provides technical information on using the TVC-500 Controller and assisting Christie accredited service technicians in its service and repair. To prevent physical injury or equipment damage, it is important that you read Section 4 Service Guidelines in its entirety before performing any service procedure covered in this manual. Disclaimer: Every effort has been made to ensure the information in this document is accurate and reliable.
Section 1: Introduction Table 1.1 Warning Labels This symbol indicates the presence of hazardous energy circuits or electrical shock hazards. To reduce the risk of injury from electrical shock hazards, do not open this enclosure. Refer all maintenance, upgrades and servicing to qualified personnel. This symbol indicates that the area contains no user or field serviceable parts and electrical shock hazards may be present.
Section 1: Introduction 1.3 Purchase Record and Service Contacts Whether the controller is under warranty or the warranty has expired, Christie’s highly trained and extensive factory and dealer service network is always available to quickly diagnose and correct malfunctions. Should a problem be encountered with any part of the controller, contact your dealer. In most cases, servicing is performed on site.
Section 1: Introduction 1.4.3 Preventing Electrostatic Discharge Electrostatic discharge (ESD) can damage electronic components, such as the system board, CPU and modules. ESD damage can shorten a component's life expectancy or render it useless. The following precautions can reduce the risk of ESD damage to components: • Ground yourself to the controller chassis and ground the chassis to a proper ground point when working with a static-sensitive component or assembly.
2 Hardware The following section outlines the main features of the TVC-500 controller. 2.1 About the TVC-500 Controller The TVC-500 controller is a computer device that allows a user to control a display wall. Specially designed wall management software enables the user to control and display several applications simultaneously on a large, ultra-high resolution desktop. 2.1.
Section 2: Installation and Setup 2.2 Unpacking the TVC-500 2.2.
Section 2: Installation and Setup 2.3 Component Identification 2.3.1 Front Panel Components The following illustration (Figure 2-2) shows the front panel components of the TVC-500 chassis. Table 2.1 lists the components as numbered in Figure 2-2. Figure 2-2 Front Panel Components Table 2.1 Front Panel Components 1 OPTICAL DISC DRIVE ACTIVITY 5 HEADPHONE CONNECTOR LIGHT 2 DVD+RW DRIVE 6 USB CONNECTORS 2.
Section 2: Installation and Setup 2.3.2 Rear Panel Components The following illustration (Figure 2-3) shows the rear panel components the basic controller configuration. Table 2.2 lists the components as numbered in Figure 2-3. Figure 2-3 Rear Panel Components Table 2.
Section 2: Installation and Setup 2.4 RAID 1 2.4.1 Configurations Redundant Array of Independent Disks (RAID) combines physical hard disks into a single logical unit. The TVC-500 utilizes a hardware RAID solution and comes pre-configured with RAID 1. Recognizing Hard Drive Failures Hard drive failures are indicated by Power-On Self Test (POST) messages (see Section 5 Troubleshooting & Figure 2-4) or the Intel® Matrix Storage Console (Figure 2-5).
Section 2: Installation and Setup Effects of a Hard Drive Failure If more hard drives fail than the fault tolerance method allows, the logical drive fails. In this case, you are likely to lose data. 2.4.2 Disk Replacement - Automatic Rebuild Degraded RAID 1 Volume A RAID 1 volume is reported as 'Degraded' when one of its members fails or is disconnected and data mirroring is lost. As a result, the system can only use the functional member.
3 Connecting the Controller This section discusses how to prepare your controller for operation. It provides a detailed look at the controller chassis and its various components, instructions on how to connect various sources and how to power the controller. 3.1 Input Channel and Display Numbering for TVC-500 Channel numbering refers to the position of the cards in the TVC-500. The following diagrams illustrate how the cards installed in the TVC-500 translate to channels in MASTERSuite.
Section 3: Connecting the Controller Table 3.
Section 3: Connecting the Controller 3.2 Connecting Devices to the TVC-500 Input and display modules can be installed in the TVC-500. 3.2.1 About Source Connections The controller comes pre-configured. You should be able to connect your sources and display content on the display wall when the unit is unpacked. This section provides a high-level overview of the capabilities of the modules available for this controller. It also touches on some system configuration information.
Section 3: Connecting the Controller The jumper setting equivalents are as follows: • Jumper setting #1 in Figure 3-4 (all jumpers on) make this module input channels 1 and 2 • Jumper setting #2 (Least Significant Bit jumper removed) makes that module input channels 3 and 4, etc. Figure 3-4 D2R2-E Jumper J6 Settings for Card Ordering 3.3 Connecting Display Devices/Screens for TVC-500 The controller comes standard with 1 D4C display module and 4 Display Port to DVI Adapters (Figure 3-5).
Section 3: Connecting the Controller DVI-D Cables When connecting DVI-D cables, the controller and Display devices must be powered down. DVI-D connection requires Extended Display Identification Data (EDID), which is detected at startup. 1. Connect the smaller connector of each of the Display Port to DVI Adapter cables to the display module connectors on the rear panel (Figure 3-5). 2. Connect the other end of each cable to a DVI extension cable (not supplied).
Section 3: Connecting the Controller 3.5 Connecting Power The TVC-500 base chassis comes standard with 1 power supply. Connect the approved rated line cord, supplied with the controller, to the AC inlet of the power supply on the rear panel (Figure 3-7) and connect the three-pronged end of the line cords to a grounded AC outlet. The Input voltage must be capable of 100-240 VAC, 15A.
Section 3: Connecting the Controller NOTICE: If installing a hot-plug device, it is not necessary to power down the server. 1. Close all applications. 2. Shut down Windows 7 by selecting Start>Shutdown. 3.6 System Monitoring Apart from the power button LED and the hard drive activity LED, there are no other system monitoring LEDs on the controller. 3.6.1 Monitoring Hard Disk Drives Hard drive read/write activity is indicated by the front panel LED (arrow in Figure 3-9). Figure 3-9 Hard Drive LED 3.6.
4 Service Guidelines This section provides preliminary service information that is important to understand prior to commencing any service work. 4.1 Christie Technical Support If at any time you require additional technical support, please contact one of the Christie service departments below. A variety of product information is also available at the Christie website: www.christiedigital.com NORTH AMERICA Christie Digital Systems Canada, Inc. Christie Digital Systems, Inc. Canada Tel.
Section 4: Service Guidelines 4.2 Safety Precautions & Warnings To assure complete safety at all times for users as well as Christie accredited service technicians, it is imperative that the following warnings and precautions are read and understood before attempting servicing, and that the original controller design remain intact. 4.2.1 General Precautions Perform servicing ONLY after becoming thoroughly familiar with the following service guidelines.
Section 4: Service Guidelines 4.3.3 Repair Cautions DO NOT short transistors or ICs during circuit checks. DO NOT operate with heat sinks removed. DO NOT overload transistors or ICs. Make sure the controller is disconnected from AC power before testing, removing, or installing modules. DO NOT operate the controller with any internal part removed. 4.3.4 Maintenance Cleaning Cautions Never use solvents or flammable solutions to clean the workstation.
Section 4: Service Guidelines Never remove a wide key (like the space bar key) from the keyboard. If these keys are improperly removed or installed, the keyboard might not function properly. Cleaning the Mouse 1. Follow the safety precautions before cleaning the mouse. 2. Remove the mouse ball from the housing by removing the retaining plate. 3. Clean the mouse ball. 4. Pull out any debris from the ball socket, and wipe the ball with a clean, dry cloth. 5. Reassemble the mouse.
5 Troubleshooting The TVC-500 is manufactured with numerous replaceable modules, such as printed circuit boards, optical & hard drives and power supplies. This section outlines the details for proper troubleshooting of the TVC-500 and includes a diagnostic chart, which can help you find quick resolve to a specific problem. 5.1 Overview For best results, find the subheading that best describes the problem you are experiencing, then follow the recommendations in the order listed.
Section 5: Troubleshooting 5.2 LED Color Definitions Table 5.1 LED Color Definitions LED State 5.3 LED Color System Status Solid Blue System is on Flashing Blue System is in standby Solid or Flashing Red System has experienced an error (see Section 5.
Section 5: Troubleshooting Table 5.2 Diagnostic LED and Audible Codes Activity Possible Cause Recommended Action Red Power LED blinks two times, once every second, followed by a twosecond pause. Two beeps. CPU thermal protection activated by either of the following methods: • A fan might be blocked or not turning. • The heatsink and fan assembly is not properly attached to the CPU. CAUTION: Internal components might be powered even when the workstation is OFF.
Section 5: Troubleshooting Table 5.2 Diagnostic LED and Audible Codes Activity Red Power LED blinks four times, once every second, followed by a two-second pause. Four beeps. Possible Cause Recommended Action Power failure (power supply is overloaded) CAUTION: Internal components might be powered even when the workstation is OFF. To prevent damage, disconnect the workstation power cord before you remove a component. 1.
Section 5: Troubleshooting Table 5.2 Diagnostic LED and Audible Codes Activity Possible Cause Red Power LED blinks seven times, once every second, followed by a two-second pause. Seven beeps. System board failure (ROM detected failure prior to video). Red Power LED blinks eight times, once every second, followed by a two-second pause. Eight beeps. Invalid ROM based on bad checksum. Recommended Action 1. Clear the Complementary Metal-Oxide Semiconductor (CMOS).
Section 5: Troubleshooting Table 5.2 Diagnostic LED and Audible Codes Activity System does not power-on and LEDs are not blinking.No beeps. Possible Cause System unable to power on. Recommended Action CAUTION: Internal components might be powered even when the controller is off. To prevent damage, disconnect the workstation power cord before you remove a component. To resolve the problem, choose one of the following options: Press and hold the power button for less than 4 seconds.
Section 5: Troubleshooting • Temperature sensors • Cables (front/rear panels, audio, and USB ports) The following table (Table 5.3) describes the POST error messages: Table 5.3 Post Error Messages Screen Messages 101 Option ROM Checksum Error Probable Cause System ROM checksum. Recommended Action Verify the correct ROM: 1. Flash the ROM, if needed. 2. If an expansion card was recently added, remove it to find out if the problem remains. 3. Clear CMOS.
Section 5: Troubleshooting Table 5.3 Post Error Messages Screen Messages Probable Cause Recommended Action 202 Memory Type Mismatch Memory modules do not match. Replace the memory modules with matched sets. 203 Memory module failed self-test and failing rank was disabled Defective memory module. Replace the memory module. 204 Memory module failed and user rank was disabled Improper module load. Reseat the memory module correctly.
Section 5: Troubleshooting Table 5.3 Post Error Messages Screen Messages 303 304 Probable Cause Recommended Action Keyboard Controller Error I/O board keyboard controller is defective or is not set properly. 1. Reconnect the keyboard with the workstation powered OFF. Keyboard or System Unit Error Keyboard failure. 1. Reconnect the keyboard with the workstation powered OFF. 2. Replace the system board. 2. Be sure that none of the keys are pressed. 3. Replace keyboard. 4. Replace system board.
Section 5: Troubleshooting Table 5.3 Post Error Messages Screen Messages Probable Cause Recommended Action External Storage Device Failure External storage device is not detected, is improperly connected, or is defective. 1.Verify that the external device is present and connected properly. 611 Primary Floppy Port Address Assignment Conflict The flexible disk drive is configured at a previously assigned address. Select a new address for the flexible disk drive.
Section 5: Troubleshooting Table 5.3 Post Error Messages Screen Messages Probable Cause Recommended Action 926 Fatal error on IOH Vtd Fatal error detected in the Intel Virtualization Technology. Potential system board problem; contact Christie. 927 Fatal error on DIMM in slot CPU X DIMM Y Fatal multibit ECC error detected on the DIMM in the slot labeled CPU x DIMM y (where x is 0 or 1 and y is 1-6), as labeled on the system board. Replace the DIMM in the identified slot.
Section 5: Troubleshooting Table 5.3 Post Error Messages Screen Messages 5-12 Probable Cause Recommended Action ERROR: Invalid 1394 GUID (Invalid electronic serial number) No electronic serial number is stored with the system. To assign a serial number, select Security >System IDs in the Computer Setup (F10) Utility.
Section 5: Troubleshooting Table 5.3 Post Error Messages Screen Messages Two processors do not have the same frequency operating ranges!!! TVC-500 Operation Manual 020-100539-01 Rev. 1 (08-2010) Probable Cause Mixed type processors detected. Recommended Action Replace processors with matched processors.
6 Remove/Replace Chassis Components Before servicing the TVC-500 controller, please refer to Section 4 Service Guidelines. 6.1 Replacing Hot-Plug Components It is not necessary to power down the controller to remove and replace hot-plug components. For all other service tasks, power down the controller before proceeding. See Section 6.2 Powering Down the Controller 6.2 Powering Down the Controller The front panel Power ON/Standby button does not completely power OFF System power.
Section 6: Chassis Component Replacement Figure 6-1 Access Panel 6.3.2 Replacement 1. Align the bottom groove of the side access panel with the bottom edge of the chassis. 2. 6.4 Rotate the side access panel toward the chassis and press firmly until the latch engages. Airflow Guide Removal and replacement of the chassis airflow guide is described here. 6.4.1 Removal 1. Ensure the TVC-500 controller is powered down. Refer to Section 6.2 Powering Down the Controller. 2. Remove the side access panel (6.
Section 6: Chassis Component Replacement Figure 6-2 Airflow Guide Release Figure 6-3 Airflow Guide Removal 6.4.2 Replacement 1. Insert the airflow guide tabs into the rear chassis slots (1 in Figure 6-4), then lower the airflow guide until it clicks into place in the chassis (2 in Figure 6-4). NOTICE! There should be no resistance when inserting the tabs into the chassis. If resistance is encountered, forcing the airflow guide into place will result in damage to the guide.
Section 6: Chassis Component Replacement Figure 6-4 Airflow Guide Replacement 6.5 Expansion Card Support Removal and replacement of the expansion card support is described here. 6.5.1 Removal 1. Ensure the TVC-500 controller is powered down. Refer to Section 6.2 Powering Down the Controller. 2. Remove the side access panel (6.3.1) if not already removed. 3.
Section 6: Chassis Component Replacement Figure 6-6 Expansion Card Support Removal 6.5.2 Replacement 1. Insert the expansion card support tabs into the rear chassis slots (1 in Figure 6-7), then lower the support until it clicks into place in the chassis (2 in Figure 6-7). NOTICE! There should be no resistance when inserting the tabs into the chassis. If resistance is encountered, forcing the expansion card support into place will result in damage to the support.
Section 6: Chassis Component Replacement 6.6 Power Supply Removal and replacement of the power supply is described here. 6.6.1 Removal 1. Ensure the TVC-500 controller is powered down. Refer to Section 6.2 Powering Down the Controller. 2. Remove the side access panel (6.3.1) if not already removed. 3. Pull out the power supply locking handle marked with the green label (1 in Figure 6-8 left). 4. Use the handle to pull the power supply out of the chassis (2 in Figure 6-8 left).
Section 6: Chassis Component Replacement 6.7 Optical Disk Drive Removal and replacement of the optical disk drive is described here. 6.7.1 Removal 1. Ensure the TVC-500 controller is powered down. Refer to Section 6.2 Powering Down the Controller. 2. Remove the side access panel (6.3.1) if not already removed. 3. Remove the airflow guide (6.4.1) if not already removed. 4. Remove the expansion card support (6.5.1) if not already removed. 5.
Section 6: Chassis Component Replacement 6.8 Hard Drive (SATA) Removal and replacement of a hard drive is described here. 6.8.1 Removal 1. Ensure the TVC-500 controller is powered down. Refer to Section 6.2 Powering Down the Controller. 2. Remove the side access panel (6.3.1) if not already removed. 3. Press the hard drive carrier release latch at the green touch point and rotate the handle outward (Figure 612). Figure 6-12 Hard Drive Carrier Release Latch 4.
Section 6: Chassis Component Replacement 6.8.2 Replacement NOTE: Bays 1 and 2 in Figure 6-15 are occupied by SATA drives as configured by Christie. When replacing drives, ensure that the drive containing the operating system always occupies the same bay. 1. Using the hard drive carrier from 6.8.1, set the replacement hard drive in the carrier at an angle (Figure 616). Carefully separate the lower carrier rails (1 in Figure 6-16), then lower the drive between them.
Section 6: Chassis Component Replacement 6.9 Expansion Card Guide/Front Fan Holder Removal and replacement of this assembly and individual fans is described here. 6.9.1 Removal 1. Ensure the TVC-500 controller is powered down. Refer to Section 6.2 Powering Down the Controller. 2. Remove the side access panel (6.3.1) if not already removed. 3. Remove the airflow guide (6.4.1) if not already removed. 4. Remove the expansion card support (6.5.1) if not already removed. 5.
Section 6: Chassis Component Replacement 2. Lift out the bottom of the fan to be replaced and remove it (Figure 6-19). Figure 6-19 Removal/Replacement of Fan from Fan Holder 6.9.2 Replacement 1. Orient the replacement fan so that the fan label points into the expansion card guide/front fan holder. 2. Insert the fan cable under the fan holder hooks (1 in Figure 6-19). Rotate the fan near the retention tab and press it until it snaps into place (2 in Figure 6-19). 3.
Section 6: Chassis Component Replacement Figure 6-20 Memory Fan Assembly Release Figure 6-21 Memory Fan Assembly Removal 6.10.2 Replacement 1. Place the memory fan assembly in the chassis slots (1 in Figure 6-22). 2. Press the release tabs at the green touch points with the index fingers, while grasping the side of the fan assembly with the remaining fingers. Carefully lower the assembly into the chassis until it clicks into place (2 in Figure 6-22). Figure 6-22 Memory Fan Assembly Replacement 6.
Section 6: Chassis Component Replacement 6.11.1 Removal 1. Ensure the TVC-500 controller is powered down. Refer to Section 6.2 Powering Down the Controller. 2. Remove the side access panel (6.3.1) if not already removed. 3. Remove the airflow guide (6.4.1) if not already removed. 4. Remove the memory fans (6.10). 5. Carefully push outward on the memory slot socket levers (1 in Figure 6-23). Lift the DIMM straight up and out of its socket (2 in Figure 6-23). Figure 6-23Remove Memory Module 6.11.
Section 6: Chassis Component Replacement Figure 6-25 Open DIMM Socket Levers Figure 6-26 Installing DIMM 6.12 Expansion Cards Removal and replacement of cards in the expansion slots is described here. 6.12.1 Removal 1. Ensure the TVC-500 controller is powered down. Refer to Section 6.2 Powering Down the Controller. 2. Remove the side access panel (6.3.1) if not already removed. 3. Remove the expansion card support (6.5.1) if not already removed. 4.
Section 6: Chassis Component Replacement Figure 6-28 Expansion Card Removal 6.12.2 Replacement 1. Angle the replacement card into the card guide. Align the PCIe card keyway with the slot key. Firmly seat the card in the slot (1 in Figure 6-29). 2. Re-attach any connectors that were previously connected to the removed card. 3. Close the retention clamp by rotating it downward (2 in Figure 629). NOTE: It is normal for the retention clamp to have a slight (5-10 degree) angle when closed.
Section 6: Chassis Component Replacement 6.13 CPU Heatsink Removal and replacement of the CPU heatsink is described here. NOTE: Only one CPU is installed in the TVC-500 Controller, even though the system board is capable of supporting dual processors. 6.13.1 Removal 1. Ensure the TVC-500 controller is powered down. Refer to Section 6.2 Powering Down the Controller. 2. Remove the side access panel (6.3.1) if not already removed. 3. Remove the airflow guide (6.4.1) if not already removed. 4.
Section 6: Chassis Component Replacement • If installing a new heatsink, do not apply thermal compound to the CPU because the new heatsink already has thermal compound applied to the heatsink surface. Instead, remove the thermal compound protective liner from the bottom of the new heatsink. 2. Align the four mounting screws with the mounting holes in the system board and carefully place the heatsink on the CPU.
Section 6: Chassis Component Replacement 6.14.2 Replacement 1. Using extreme care, fully raise the CPU socket lever and cover. NOTICE! The CPU socket contacts are delicate. To avoid bending the contacts, use extreme care when installing the CPU in the socket. 2. Align the notches in the CPU base with the tabs on the socket as shown in Figure 6-33. Seat the CPU into the socket. ensure that the underside of the CPU is level with the top of the CPU socket. 3.
Section 6: Chassis Component Replacement 9. Prepare the chassis for system board removal. Move the optical drive out of the chassis far enough to clear the system board (6.7.1). Place the optical drive cables in the bottom optical drive bay. a. Place the expansion card cables in the hard drive bays. b. Place the CPU, memory power and rear system fan cables over the chassis edge. NOTE: Use the CPU and memory power cables to hold up the shorter rear system fan cable. 10.
Section 6: Chassis Component Replacement 1. During the Startup sequence, press the F9 key to access RBSU. 2. Select the Advanced Options menu. 3. Select Serial Number. 4. Enter the serial number located on the back panel, near the A.C. power jack and press the ENTER key. 5. Select Product ID. 6. Enter the product ID located on the back panel, above the power supply and press the ENTER key. 7. Press ESC once to close the menu and a second time to exit RBSU. 8. Press F10 to confirm exiting RBSU.
Section 6: Chassis Component Replacement 4. Press the release tab of the battery holder (arrow in Figure 6-35). 5. Rotate the battery enough to get beyond the latch, then lift it straight up. 6.17.2 Replacement 1. Orient the replacement battery so that the positive (+) terminal is facing up. 2. Place the battery edge under the plastic housing tab and press gently until it snaps into place. TVC-500 Operation Manual 020-100539-01 Rev.
7 Specifications 7.1 Hardware 7.1.1 Main Chassis Drive Bays 4 x hot plug 3.5” SATA drive bays 3 x media drive bays Expansion Slots 2 x PCIe2 x16 2 x PCIe2 x16 mechanical/x8 electrical 1 x PCIe2 x8 mechanical/x4 electrical 1 x PCIe x8 mechanical/x4 electrical 1 x PCI (not used) Cooling 2 x Memory fans 2 x Expansion Card fans 2 x Rear Exhaust fans 2 x Power Supply fans 1 x CPU Heatsink Chipset Intel® 5520 Chipset Processor Intel® Xeon™ Quad Core 2.
Section 7: Specifications Keyboard 1 USB 2.0 Ports 12 (3 front, 6 rear, 3 internal) IEEE 1394 (Firewire) 2 (1 front, 1 rear) RJ-45 (LAN) 2 7.1.4 Integrated SATA Storage Controller Disk Drive and Enclosure Interface 3GB/s Serial ATA RAID Support RAID 1 (Mirroring) 7.1.5 Storage Capacity 250 059 350 016 bytes (250GB) Height 25cm (1.0”) Width 10.2cm (4.0”) Interface Serial ATA Transfer Rate Synchronous (Max.
Section 7: Specifications Network Transfer Rate: 10Base-T (Half-Duplex): 10Mb/s 10Base-T (Full-Duplex): 20Mb/s 100Base-TX (Half-Duplex): 100Mb/s 100Base-TX (Full-Duplex): 200Mb/s 1000BaseTX (Half and FullDuplex): 2000Mb/s Cable Support 7.2 7.3 10Base-T: Cat. 3, 4, 5 UTP; up to 100m (328ft) 10/100/1000Base-TX: Cat.
Section 7: Specifications 7.5 Max. Digital Output Resolution per Channel 2560x1600 @ 60Hz (DP), 1920 x 1200 @ 60Hz (via supplied DP to DVI-D adapter) Max. Cards per System 1 (4 display channels), 2 (8), 3 (12) Video Window Update Rate Real time: 25/30 fps (PAL/NTSC) Optional Output Connector Type DVI-D (via DP to DVI-D adapter) Max. Power Consumption 35 Watts Max. Power Requirements + 5V @ 2.8A, +3.3V @ 6.
Section 7: Specifications Max. Capture Resolution per Channel 2048 x 1536 (analog), 1920 x 1200 (digital), 1080p (HD) - HDCP not supported Input Connector Type DVI-I or HD15 VGA, HDMI, Component (with adapter) Power Consumption 15 Watts (Max.) Power Requirements +3.3V @ 0.25A, +12V @ 2A Horizontal frequency range 15 – 110kHz Vertical frequency range1 25 – 200Hz Scan format Progressive Dot (pixel) clock rate Analog: 25 – 170MHz Digital: 25 – 165MHz Active pixels per scan line 640 min.
Section 7: Specifications 7.6.2 Electro-Magnetic Compatibility Emissions FCC CFR47, Part 15, Subpart B, Class A – Unintentional Radiators CISPR 22: 2003 +A1:2004 / EN55022:1998 +A1:2000 +A2:2003, Class A – Information Technology Equipment Immunity CISPR 24: 1997 / EN55024:1998 +A1:2001 +A2:2003 EMC Requirements Information Technology Equipment Marking The product shall bear the CE markings and conform to all relevant European directives, standards, safety, health, and environmental concerns.
Section 7: Specifications Non Storage Temperature -40°C to +60°C (-40°F to +140°F) NOTE: Derate by 1 degree C (1.8 degrees F) for every 305m (1000ft) altitude over 1525m (5000ft) Relative Humidity 8% to 90% non-condensing Shock (Single event only) • Operating Shipping • TVC-500 Operation Manual 020-100539-01 Rev. 1 (08-2010) Half-sine: 160cm/s, 2-3ms (~100g) Square: 422cm/s, 20g Altitude 0 to 9,144m (30 000 ft) max. Vibration (random, noncontinuous) 2.
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