Thinklogical VX320 Matrix Switch Quick start guide

Type
Quick start guide
QUICK-START GUIDE
U
P
D
A
T
E
S
LINE OUT
MIC IN
P
S
2
USB HID
HOST
CNTRL
USB 1.1
SER IAL PORT
DVI OUT 1 DVI OUT 2
DVI OUT 2 DDC
DVI OUT 1 DDC
PWR FOL
USB 2.0
VX320 Router KVM Matrix Switch Chassis, 24 Rack Units, 1600 Watts
Visit us online at www.thinklogical.com for more product information, current updates and the complete line of Thinklogical products.
USB
2.0
DVI 1
DVI 2
Audio OUT
USB 1.1 (Keyboard / Mouse)
Dual Head DVI & KVM
Source
VEL-U00M24-SCTX
Transmitter
Velocitykvm-24
KVM Matrix Switch
Powered by
MRTS Technology
DVI/RGB IN
Single Head DVI / RGB & KVM Source
Local DVI/RGB
Display (optional)
VEL-U00M24-SCRX
Receiver
DEV
LINE IN
MIC OUT HID
P
S
2
LOCAL
FROM CPU
USB HID
HOST
CNTRL
USB 1.1
UPDATES
SER IAL PORT
DVI OUT 1 DVI OUT 2
DVI IN 2
DVI IN 1
CLINK
PWR
CP FOL
TM
Dual Head DVI & KVM Destinations
VX320
router
QUICK-START GUIDE
1
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.
4
4STEP 4: Connect your KMASS
devices from the Source CPU to
the appropriate
VelocityKVMTransmitter ports.
3
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.
DVI OUT 1
DVI OUT 2
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
monitor(s). L2
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.
Local DVI 1
(optional)
Local DVI 2
(optional)
Optional
local USB
or PS/2
Keyboard &
Mouse
L1 L3
L1: Video 1 and Data Tx to Rx
L2: Data Rx to Tx
L3: Video 2
AUDIO
PS/2 (Mouse)
L1
L2
L3
5
PS/2 (Keyboard)
PS/2 or USB connectors
1
2
3
4
5
6
7
8
9
10
11
12
POWER SUPPLY 1 (LEFT):
POWER SUPPLY 2:
POWER SUPPLY 3:
POWER SUPPLY 4 (RIGHT):
FANS:
TEMPERATURE WARNING:
TEMPERATURE SHUTDOWN:
CPU:
INPUT/OUTPUT CARDS:
ANY OF THE ABOVE
COMMOM
GROUND
The VX320 Router Critical Hardware Alarms: (Located at the top, left rear of the unit.)
Fan failure, temperature spikes, DC voltage and/or current out of range, AC power input interruption or module removed
Fan failure, temperature spikes, DC voltage and/or current out of range, AC power input interruption or module removed
Individual fan monitoring
Chassis over temperature, multiple sensors
Chassis over temperature causing shutdown
Card failure (Only with a redundant card)
SFP+ failure, laser output fault
Audio IN
L1
L2
L3
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.
NOTE: When using a single Controller, the upper
module (Primary) must be installed.
3
VX320_VEL-24_VEL-5_Quick_Start_Rev_B
CONTENTS
Upon receiving your
Thinklogical VX320 KVM
Matrix Switch you should
find the following items:
· VX320 Chassis & Cards
· LC Duplex Bulkhead with
Flange
· 15' CAT5 Cable (1)
· AC Power Cord (4)
· Product Manual CD
Fan failure, temperature spikes, DC voltage and/or current out of range, AC power input interruption or module removed
Fan failure, temperature spikes, DC voltage and/or current out of range, AC power input interruption or module removed
8
*
*Power supplies, Left to Right:
1 Upper Card Cage Primary
2 Upper Card Cage Back-up
3 Lower Card Cage Primary
4 Lower Card Cage Back-up
CONSOLE
ACT
RESET
FAULT
L
A
N
CONTROLLER
RS232
62
2
7
L1
L2
L2
L2
L1
L3
L1
T
R
Video from Tx
Video to Rx T
RData from Rx
Data to Tx
Upper Card Cage*
Lower Card Cage*
Linux Operating System
UPPER CARD CAGE
LOWER CARD CAGE
As used with the Velocitykvm-5 and the Velocitykvm-24
Fiber Extension Systems
Any Card 1-20,
any Port pair 1-16 Any Card 1-20,
any Port pair 1-16
Crosspoint
Crosspoint
Switch
Switch
CONSOLE
ACT
RESET
FAULT
L
A
N
CONTROLLER
RS232
*Both the Upper and Lower Card Cages are designed to handle either Video or Data signals.
L1L2L3
L2L1L3
Velocitykvm-24
D
E
V
DVI/RGB OUT
DVI/RGB IN SER IAL PORT
L1L2
LINE IN
MIC OUT
HID
P
S
2
LOCAL FROM CPU
USB1.1
USB HID
HOST
CNTRL
CAUTION! Replace with same type and rating fuse.
100-240V-,0.5A, 50/60 Hz T 2A ,250VAC
CLINK
PWR
CP FOL
3
100-240V-,0.5A, 50/60 Hz T 2A ,250VAC
CAUTION! Replace with same type and rating fuse.
CNTRL
LINE OUT
MIC IN
HOST
USB HID
U
P
D
A
T
E
S
PWR FOL
USB 2.0
SER IAL PORT
L1
L2
P
S
2
USB1.1
UPDATES
USB
2.0
Audio OUT
USB 1.1 (Keyboard / Mouse)
PS/2 (Mouse)
PS/2 (Keyboard)
Audio IN
Optional
local USB
or PS/2
Keyboard &
Mouse
L2
L1
STEP 4: Connect
your KMASS devices
from the Source CPU
to the appropriate
VelocityKVM
Transmitter ports.
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.
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.
6
DVI / RGB
OUT DDC
DVI / RGB OUT
DVI/RGB OUT
DVI/RGB OUT DDC
PS/2 or USB connectors
1
AUDIO
Velocitykvm-5
Velocitykvm-5
VEL-U00M05-SCRX
Receiver
Transmitter
VEL-U00M05-SCTX
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.
L1 L2
Copyright © 2009. All rights reserved. Printed in the U.S.A. All trademarks and service marks are the property of their respective owners.
Single Head DVI / RGB & KVM Destinations
PHONE: 1-800-291-3211
WEBSITE: www.thinklogical.com
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.)
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.)
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 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.)
*When using Velocity Extenders, fiber L1 carries
Video and Data and is treated as a Video Fiber.
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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Thinklogical VX320 Matrix Switch Quick start guide

Type
Quick start guide

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