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Thinklogical VX320 Velocitykvm-4 Velocitydvi System-3 Quick Start Guide User Manual

Vx 320, Quick-start guide, Router

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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

DVI OUT DDC

PWR

FOL

USB 2.0

VX320 Router KVM Matrix Switch Chassis, 24 Rack Units, 1700 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 IN

Audio OUT►

USB 1.1 (Keyboard / Mouse)

Single Head DVI & KVM

Source

VEL-U00M04-SCTX

Transmitter

Velocity

kvm-4

KVM Matrix Switch

Powered by

MRTS

Technology

VEL-U00M04-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

DVI IN

CLINK

PWR
CP

FOL

TM

Single Head DVI & KVM Destination

VX

320

router

QUICK-START GUIDE

2

STEP 2:

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.

6

STEP 6:

Connect your KMASS

devices from the Source CPU to

the appropriate

VelocityKVM

Transmitter ports.

STEP 8: Connect the four supplied AC Power

Cords (PWR-0000056-R) to the receptacles

located on the

VX

320

's power supplies. Plug

each of them into a standard AC source. Verify

that all system functions are operating properly.

DVI OUT

DDC

DVI OUT

STEP 5:

Connect the DVI IN cable

from the CPU to the

VelocityKVM

Transmitter. Connect the DVI

OUT cable from the Transmitter to

the local monitor.

L2

STEP 4:

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

(optional)

Optional

local USB

or PS/2

Keyboard &

Mouse

L1

L1: Video 1 and Data Tx to Rx

L2: Data Rx to Tx

AUDIO

PS/2 (Mouse)

L1

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

COMMON

GROUND

The

VX

320 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

Thinklogical’s™

VX

320

KVM Matrix Switch features

redundant Power Supplies and Fail-Over Controller

Modules for uninterrupted performance, even during

system reconfiguration, updates or debug. The

VX

320

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.

VX320_VEL-4_VEL-3_Quick_Start_Rev_A

CONTENTS

Upon receiving your

Thinklogical™

VX

320

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

3

1

7

L1

L2

L2

L2

L1

L1

T

R

Video/Data

from Tx

Video/Data

to Rx

T

R

Data from Rx

Data to Tx

Upper Card Cage*

Lower Card Cage*

UPPER CARD CAGE

LOWER CARD CAGE

As used with the

Velocity

dvi-3

and the

Velocity

kvm-4

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.

L1

L2

Velocity

kvm-4

Copyright © 2010. All rights reserved. Printed in the U.S.A. All trademarks and service marks are the property of their respective owners.

PHONE: 1-800-291-3211

WEBSITE: www.thinklogical.com

EMAIL: [email protected]

STEP 3:

Connect your Velocity

Transmitter to the

VX

320

using

multi-mode fiber-optic cables (up

to 1000 meters). Connect

L1

to

any Receive Port of the Upper

Card Cage. Connect

L2

to the

same numbered Transmit Port of

the Lower Card Cage . (See the

Digital Crosspoint Switch detail

diagram, below right.)

STEP 1:

Connect your

Velocity Receiver to the

VX

320

using multi-mode fiber-optic cables (up to 1000 meters).

Connect cable

L1*

to any Transmit Port on any card of

the Upper Card Cage. Connect cable

L2

to the same

numbered Receive Port 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 Cards’ LAN

Ports to your Linux CPU

with CAT5 cables.

(CPU IP address:

192.168.13.9)

L2

L1

4

DVI

DVI

Single Head DVI Source

Velocity

dvi

VEL-3 DVI

Transmitter

Local DVI

Power Supply

(PWR-000022-R)

6

STEP 6:

Connect the DVI to Local Display

cable from the

VelocityDVI Transmitter

to your local monitor (optional).

STEP 5:

Connect the DVI

from CPU cable from the

CPU to the

VelocityDVI

Transmitter.

L1

L2

4

STEP 4:

Connect the 5VDC

Power Supply and plug it into a

standard AC source.

Velocit

y

Digital Video

Extension System – 3

Powered by

Transmitter

dvi

MRTS

Technology

L1

L2

Video

/Data

Data

DVI to Local Display

DVI from CPU

5

L1: Video 1 and Data Tx to Rx

L2: Data Rx to Tx

Velocity

dvi

VEL-3 Single Link DVI Receiver

DVI to Display

DDC (PRIMARY)

DVI to Display

(SECONDARY)

Dual Output

Power Supply

(PWR-000022-R)

STEP 2:

Connect the 5VDC Power Supply and plug it into a

standard AC source. Connect your display devices to the

VelocityDVI Receiver. Turn all the devices ON.

L1

L2

Velocity

Digital Video Extension System - 3

L1

L2

MRTS

Technology

Receiver

dvi

Powered by

Video/Data

Data

DVI to Display DD

C

DV Ito Display

2

1

Linux Operating System

3

STEP 1:

Connect your

VelocityDVI-3 Receiver to the

VX

320

using multi-mode fiber-optic cables (up to

1000 meters). Connect

L1

to any Transmit Port of the Upper Card Cage and

L2

to the same numbered

Receive Port of the Lower Card Cage. (See the Digital Crosspoint Switch detail diagram, left.)

STEP 3:

Connect your

VelocityDVI-3

Transmitter to the

VX

320

using multi-

mode fiber-optic cables (up to 1000

meters). Connect

L1

to any Receive Port

of the Upper Card Cage and

L2

to the

same numbered Transmit Port of the

Lower Card Cage. (See the Digital

Crosspoint Switch detail diagram, right.)

Single Head DVI Destination

5

Primary Controller Card

(IP address: 192.168.13.15)
Optional Secondary

Controller Card

(IP address: 92.168.13.16)

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