Transcript
The VX320 Router Critical Hardware Alarms: (Located at the top, left rear of the unit.)
router
QUICK-START GUIDE
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VX320
As used with the Velocitykvm-5 and the Velocitykvm-24 Fiber Extension Systems
KVM Matrix Switch
Dual Head DVI & KVM Source
STEP 3: Connect the DVI IN cables from the CPU to the VelocityKVM Transmitter. Connect the DVI OUT cable(s) from the Transmitter to the local L1 monitor(s).
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STEP 8: Connect the four supplied AC Power Cords (PWR-0000056-R) to the receptacles located on the VX320's power supplies. Plug each of them into a standard AC source. Verify that all system functions are operating properly.
L3: Video 2 Optional local USB or PS/2 Keyboard & Mouse
L3
Velocitykvm-24 PWR
L2
DVI IN 2
DVI OUT 1
DVI IN 1
FOL
SER IAL PORT
L3
LINE IN
DVI OUT 2
CP CLINK
MIC OUT
UPDATES
P S 2 HID
HOST
USB 1.1
FROM CPU
USB HID
LOCAL
CNTRL
DEV
VEL-U00M24-SCTX Transmitter USB 2.0
8
Local DVI 2 (optional)
VX320 Router KVM Matrix Switch Chassis, 24 Rack Units, 1600 Watts
2 Upper Card Cage Back-up 3 Lower Card Cage Primary 4 Lower Card Cage Back-up
5 STEP 5: Ensure the VelocityKVM Transmitter’s ON/OFF switch is in the OFF (0) position. Connect the AC Power Cord and plug it into a standard AC source. Turn the switch ON.
UPPER CARD CAGE
STEP 2: Connect your Velocity Receiver to the VX320 using multi-mode fiber-optic cables (up to 1000 meters). Connect cables L1* and L3 to any Transmit Ports on any cards of the Upper Card Cage. Connect cable L2 to any Receive Port on any card of the Lower Card Cage. (See the Digital Crosspoint Switch detail diagram, below left.)
ACT RESET FAULT
L A N
RS232
Local DVI 1 (optional)
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*When using Velocity Extenders, fiber L1 carries Video and Data and is treated as a Video Fiber.
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L1
L1
ACT
FAULT
L3
L A N
STEP 6: Connect your Velocity Transmitter to the VX320 using multi-mode fiber-optic cables (up to 1000 meters). Connect L1 and L3 to any VX320 Upper Card Cage Receive Ports. Connect L2 to any Lower Card Cage Transmit Port. (See the Digital Crosspoint Switch detail diagram, below right.)
STEP 4: Connect your KMASS devices from the Source CPU to the appropriate VelocityKVMTransmitter ports.
L3 L1
RESET
L1
USB 1.1 (Keyboard / Mouse)
· · ·
STEP 1: Ensure that the Receiver’s ON/OFF switch is in the OFF (0) position. Depending on your configuration, connect your desktop devices (monitors, keyboard, mouse, etc.) to the VelocityKVM Receiver using standard cables as shown in the example below. Turn all the devices ON. Insert the AC power cord into the Receiver and plug it into a standard AC source. Turn the unit ON.
CONSOLE
CONSOLE
PS/2 (Mouse) PS/2 (Keyboard)
VX320 Chassis & Cards LC Duplex Bulkhead with Flange 15' CAT5 Cable (1) AC Power Cord (4) Product Manual CD
Dual Head DVI & KVM Destinations
CONTROLLER
Audio OUT► ◄Audio IN
· ·
NOTE: When using a single Controller, the upper module (Primary) must be installed.
DVI 1 DVI 2
Upon receiving your Thinklogical™ VX320 KVM Matrix Switch you should find the following items:
Thinklogical’s™ VX320 KVM Matrix Switch features redundant Power Supplies and Fail-Over Controller Modules for uninterrupted performance, even during system reconfiguration, updates or debug. The VX320 remains fully functional with only one of the two Upper or Lower Card Cage Power Supplies installed or with one Controller activated.
supplies, Left to Right: * Power 1 Upper Card Cage Primary
L2: Data Rx to Tx
L1
MRTS Technology
*
L1: Video 1 and Data Tx to Rx
L2
Powered by
POWER SUPPLY 1 (LEFT): Fan failure, temperature spikes, DC voltage and/or current out of range, AC power input interruption or module removed POWER SUPPLY 2: Fan failure, temperature spikes, DC voltage and/or current out of range, AC power input interruption or module removed POWER SUPPLY 3: Fan failure, temperature spikes, DC voltage and/or current out of range, AC power input interruption or module removed POWER SUPPLY 4 (RIGHT): Fan failure, temperature spikes, DC voltage and/or current out of range, AC power input interruption or module removed FANS: Individual fan monitoring TEMPERATURE WARNING: Chassis over temperature, multiple sensors TEMPERATURE SHUTDOWN: Chassis over temperature causing shutdown CPU:Card failure (Only with a redundant card) INPUT/OUTPUT CARDS: SFP+ failure, laser output fault ANY OF THE ABOVE COMMOM CONTENTS GROUND
RS232
CONTROLLER
STEP 7: Connect the Controller Card LAN Port to your Linux CPU with a CAT5 cable. (IP address: 192.168.13.15)
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AUDIO L1
L3
1
Velocitykvm-24
Linux Operating System
PWR
L2
FOL
L1
SER IAL PORT
L3
DVI OUT 1 DDC
DVI OUT 1
DVI OUT 2 DDC
DVI OUT 2
USB 1.1
USB HID
MIC IN
USB 2.0
U P D A T E S
P S 2
LINE OUT
HOST
CNTRL
VEL-U00M24-SCRX Receiver L2
Single Head DVI / RGB & KVM Source
DVI OUT 1
LOWER CARD CAGE
DVI OUT 2
STEP 3: Connect the DVI/RGB IN cable from the CPU to the VelocityKVM Transmitter. Connect the DVI/RGB OUT cable from the Transmitter to the local monitor.
3
Optional local USB or PS/2 Keyboard & Mouse
L2 L1
Transmitter VEL-U00M05-SCTX
Velocitykvm-5 FOL
CAUTION! Replace with same type and rating fuse.
L2
L1 PWR
DVI/RGB IN
DVI/RGB OUT
SER IAL PORT
3
CLINK
MIC OUT
UPDATES
P S 2
LINE IN
CP
USB 2.0
L2
Local DVI/RGB Display (optional)
HID
HOST
USB1 .1 LOCAL FROM CPU
USB HID
DEV
CNTRL 100-240V-,0.5A, 50/60 Hz
T 2A ,250VAC
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L2
Single Head DVI / RGB & KVM Destinations
L2
L2
STEP 6: Connect your Velocity Transmitter to the VX320 using multi-mode fiber-optic cables (up to 1000 meters). Connect L1 to any VX320 Upper Card Cage Receive Port. Connect L2 to any Lower Card Cage Transmit Port. (See the Digital Crosspoint Switch detail diagram, right.)
DVI/RGB IN
2 Video to Rx Crosspoint
Lower Card Cage*
T
Data to Tx
PS/2 (Mouse) PS/2 (Keyboard) USB 1.1 (Keyboard / Mouse)
4
5
STEP 4: Connect your KMASS devices from the Source CPU to the appropriate VelocityKVM Transmitter ports.
STEP 1: Ensure that the Receiver’s ON/OFF switch is in the OFF (0) position. Depending on your configuration, connect your desktop devices (monitors, keyboard, mouse, etc.) to the VelocityKVM Receiver using standard cables as shown in the example below. Turn all the devices ON. Insert the AC power cord into the Receiver and plug it into a standard AC source. Turn the unit ON.
STEP 2: Connect your Velocity Receiver to the VX320 using multi-mode fiber-optic cables (up to 1000 meters). Connect L1* to any Transmit Port on any card of the Upper Card Cage and L2 to any Receive Port on any card of the Lower Card Cage. (See the Digital Crosspoint Switch detail diagram, left.)
Upper Card Cage*
T
Audio OUT► ◄Audio IN
PS/2 or USB connectors
1 AUDIO L2
L1
L2
L1
Velocitykvm-5 CAUTION! Replace with same type and rating fuse.
PWR
FOL
DVI/RGB OUT DDC
DVI/RGB OUT
USB 2.0
SER IAL PORT
P S 2
LINE OUT MIC IN
USB HID
T 2A ,250VAC
DVI / RGB OUT DDC
Video from Tx Any Card 1-20, any Port pair 1-16
CNTRL 100-240V-,0.5A, 50/60 Hz
Switch
R
HOST
VEL-U00M05-SCRX Receiver
Crosspoint
STEP 5: Ensure the VelocityKVM Transmitter’s ON/OFF switch is in the OFF (0) position. Connect the AC Power Cord and plug it into a standard AC source. Turn the switch ON.
USB1 .1
U P D A T E S
Switch
Data from Rx
R Any Card 1-20, any Port pair 1-16
PS/2 or USB connectors DVI / RGB OUT
*Both the Upper and Lower Card Cages are designed to handle either Video or Data signals.
VX320_VEL-24_VEL-5_Quick_Start_Rev_B Copyright © 2009. All rights reserved. Printed in the U.S.A. All trademarks and service marks are the property of their respective owners.
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