Extron electronics TPS150 User manual

Extron electronics TPS150 User manual
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Extron electronics TPS150 User manual | Manualzz

TPS150

Twisted Pair A/V Switching and Transmission System

68-958-01 Rev. B

Printed in USA

10 04

Precautions

Safety Instructions • English

This symbol is intended to alert the user of important operating and maintenance

(servicing) instructions in the literature provided with the equipment.

This symbol is intended to alert the user of the presence of uninsulated dangerous voltage within the product's enclosure that may present a risk of electric shock.

Caution

Read Instructions • Read and understand all safety and operating instructions before using the equipment.

Retain Instructions • The safety instructions should be kept for future reference.

Follow Warnings • Follow all warnings and instructions marked on the equipment or in the user information.

Avoid Attachments • Do not use tools or attachments that are not recommended by the equipment manufacturer because they may be hazardous.

Consignes de Sécurité • Français

Ce symbole sert à avertir l’utilisateur que la documentation fournie avec le matériel contient des instructions importantes concernant l’exploitation et la maintenance

(réparation).

Ce symbole sert à avertir l’utilisateur de la présence dans le boîtier de l’appareil de

tensions dangereuses non isolées posant des risques d’électrocution.

Attention

Lire les instructions• Prendre connaissance de toutes les consignes de sécurité et d’exploitation avant d’utiliser le matériel.

Conserver les instructions• Ranger les consignes de sécurité afin de pouvoir les consulter à l’avenir.

Respecter les avertissements • Observer tous les avertissements et consignes marqués sur le matériel ou présentés dans la documentation utilisateur.

Eviter les pièces de fixation • Ne pas utiliser de pièces de fixation ni d’outils non recommandés par le fabricant du matériel car cela risquerait de poser certains dangers.

Sicherheitsanleitungen • Deutsch

Dieses Symbol soll dem Benutzer in der im Lieferumfang enthaltenen

Dokumentation besonders wichtige Hinweise zur Bedienung und Wartung

(Instandhaltung) geben.

Dieses Symbol soll den Benutzer darauf aufmerksam machen, daß im Inneren des

Gehäuses dieses Produktes gefährliche Spannungen, die nicht isoliert sind und die einen elektrischen Schock verursachen können, herrschen.

Achtung

Lesen der Anleitungen • Bevor Sie das Gerät zum ersten Mal verwenden, sollten Sie alle Sicherheits-und

Bedienungsanleitungen genau durchlesen und verstehen.

Aufbewahren der Anleitungen • Die Hinweise zur elektrischen Sicherheit des Produktes sollten Sie aufbewahren, damit Sie im Bedarfsfall darauf zurückgreifen können.

Befolgen der Warnhinweise • Befolgen Sie alle Warnhinweise und Anleitungen auf dem Gerät oder in der Benutzerdokumentation.

Keine Zusatzgeräte • Verwenden Sie keine Werkzeuge oder Zusatzgeräte, die nicht ausdrücklich vom

Hersteller empfohlen wurden, da diese eine Gefahrenquelle darstellen können.

Warning

Power sources • This equipment should be operated only from the power source indicated on the product. This equipment is intended to be used with a main power system with a grounded

(neutral) conductor. The third (grounding) pin is a safety feature, do not attempt to bypass or disable it.

Power disconnection • To remove power from the equipment safely, remove all power cords from the rear of the equipment, or the desktop power module (if detachable), or from the power source receptacle (wall plug).

Power cord protection • Power cords should be routed so that they are not likely to be stepped on or pinched by items placed upon or against them.

Servicing • Refer all servicing to qualified service personnel. There are no user-serviceable parts inside. To prevent the risk of shock, do not attempt to service this equipment yourself because opening or removing covers may expose you to dangerous voltage or other hazards.

Slots and openings • If the equipment has slots or holes in the enclosure, these are provided to prevent overheating of sensitive components inside. These openings must never be blocked by other objects.

Lithium battery • There is a danger of explosion if battery is incorrectly replaced. Replace it only with the same or equivalent type recommended by the manufacturer. Dispose of used batteries according to the manufacturer's instructions.

Avertissement

Alimentations• Ne faire fonctionner ce matériel qu’avec la source d’alimentation indiquée sur l’appareil. Ce matériel doit être utilisé avec une alimentation principale comportant un fil de terre (neutre). Le troisième contact (de mise à la terre) constitue un dispositif de sécurité : n’essayez pas de la contourner ni de la désactiver.

Déconnexion de l’alimentation• Pour mettre le matériel hors tension sans danger, déconnectez tous les cordons d’alimentation de l’arrière de l’appareil ou du module d’alimentation de bureau (s’il est amovible) ou encore de la prise secteur.

Protection du cordon d’alimentation • Acheminer les cordons d’alimentation de manière à ce que personne ne risque de marcher dessus et à ce qu’ils ne soient pas écrasés ou pincés par des objets.

Réparation-maintenance • Faire exécuter toutes les interventions de réparation-maintenance par un technicien qualifié. Aucun des éléments internes ne peut être réparé par l’utilisateur. Afin d’éviter tout danger d’électrocution, l’utilisateur ne doit pas essayer de procéder lui-même à ces opérations car l’ouverture ou le retrait des couvercles risquent de l’exposer à de hautes tensions et autres dangers.

Fentes et orifices • Si le boîtier de l’appareil comporte des fentes ou des orifices, ceux-ci servent à empêcher les composants internes sensibles de surchauffer. Ces ouvertures ne doivent jamais

être bloquées par des objets.

Lithium Batterie • Il a danger d'explosion s'll y a remplacment incorrect de la batterie. Remplacer uniquement avec une batterie du meme type ou d'un ype equivalent recommande par le constructeur. Mettre au reut les batteries usagees conformement aux instructions du fabricant.

Vorsicht

Stromquellen • Dieses Gerät sollte nur über die auf dem Produkt angegebene Stromquelle betrieben werden. Dieses Gerät wurde für eine Verwendung mit einer Hauptstromleitung mit einem geerdeten (neutralen) Leiter konzipiert. Der dritte Kontakt ist für einen Erdanschluß, und stellt eine Sicherheitsfunktion dar. Diese sollte nicht umgangen oder außer Betrieb gesetzt werden.

Stromunterbrechung • Um das Gerät auf sichere Weise vom Netz zu trennen, sollten Sie alle

Netzkabel aus der Rückseite des Gerätes, aus der externen Stomversorgung (falls dies möglich ist) oder aus der Wandsteckdose ziehen.

Schutz des Netzkabels • Netzkabel sollten stets so verlegt werden, daß sie nicht im Weg liegen und niemand darauf treten kann oder Objekte darauf- oder unmittelbar dagegengestellt werden können.

Wartung • Alle Wartungsmaßnahmen sollten nur von qualifiziertem Servicepersonal durchgeführt werden. Die internen Komponenten des Gerätes sind wartungsfrei. Zur Vermeidung eines elektrischen Schocks versuchen Sie in keinem Fall, dieses Gerät selbst öffnen, da beim Entfernen der Abdeckungen die Gefahr eines elektrischen Schlags und/oder andere Gefahren bestehen.

Schlitze und Öffnungen • Wenn das Gerät Schlitze oder Löcher im Gehäuse aufweist, dienen diese zur Vermeidung einer Überhitzung der empfindlichen Teile im Inneren. Diese Öffnungen dürfen niemals von anderen Objekten blockiert werden.

Litium-Batterie • Explosionsgefahr, falls die Batterie nicht richtig ersetzt wird. Ersetzen Sie verbrauchte Batterien nur durch den gleichen oder einen vergleichbaren Batterietyp, der auch vom Hersteller empfohlen wird. Entsorgen Sie verbrauchte Batterien bitte gemäß den

Herstelleranweisungen.

Instrucciones de seguridad • Español

Este símbolo se utiliza para advertir al usuario sobre instrucciones importantes de operación y mantenimiento (o cambio de partes) que se desean destacar en el contenido de la documentación suministrada con los equipos.

Este símbolo se utiliza para advertir al usuario sobre la presencia de elementos con voltaje peligroso sin protección aislante, que puedan encontrarse dentro de la caja o alojamiento del producto, y que puedan representar riesgo de electrocución.

Precaucion

Leer las instrucciones • Leer y analizar todas las instrucciones de operación y seguridad, antes de usar el equipo.

Conservar las instrucciones • Conservar las instrucciones de seguridad para futura consulta.

Obedecer las advertencias • Todas las advertencias e instrucciones marcadas en el equipo o en la documentación del usuario, deben ser obedecidas.

Evitar el uso de accesorios • No usar herramientas o accesorios que no sean especificamente recomendados por el fabricante, ya que podrian implicar riesgos.

Advertencia

Alimentación eléctrica • Este equipo debe conectarse únicamente a la fuente/tipo de alimentación eléctrica indicada en el mismo. La alimentación eléctrica de este equipo debe provenir de un sistema de distribución general con conductor neutro a tierra. La tercera pata (puesta a tierra) es una medida de seguridad, no puentearia ni eliminaria.

Desconexión de alimentación eléctrica • Para desconectar con seguridad la acometida de alimentación eléctrica al equipo, desenchufar todos los cables de alimentación en el panel trasero del equipo, o desenchufar el módulo de alimentación (si fuera independiente), o desenchufar el cable del receptáculo de la pared.

Protección del cables de alimentación • Los cables de alimentación eléctrica se deben instalar en lugares donde no sean pisados ni apretados por objetos que se puedan apoyar sobre ellos.

Reparaciones/mantenimiento • Solicitar siempre los servicios técnicos de personal calificado. En el interior no hay partes a las que el usuario deba acceder. Para evitar riesgo de electrocución, no intentar personalmente la reparación/mantenimiento de este equipo, ya que al abrir o extraer las tapas puede quedar expuesto a voltajes peligrosos u otros riesgos.

Ranuras y aberturas • Si el equipo posee ranuras o orificios en su caja/alojamiento, es para evitar el sobrecalientamiento de componentes internos sensibles. Estas aberturas nunca se deben obstruir con otros objetos.

Batería de litio • Existe riesgo de explosión si esta batería se coloca en la posición incorrecta. Cambiar esta batería únicamente con el mismo tipo (o su equivalente) recomendado por el fabricante.

Desachar las baterías usadas siguiendo las instrucciones del fabricante.

Quick Start — TPS150 Switching and Transmission System

Installation

Step 1

Turn off power to the input and output devices, and remove the power cords from them.

Step 2

If desired, mount the TPT150 transmitter in a rack.

Step 3

If desired, mount the TPR150 receiver using the included projector bracket.

Step 4

Connect source video devices to the transmitter’s inputs.

Inputs 1 and 2 — Connect two RGB video sources.

If desired, connect a monitor to the Input 1 Local Monitor connector.

Inputs 3 and 4 —

Connect either component video,

S-video, or composite video sources.

VIDEO

S-VIDEO

R-Y

Y B-Y

For proper system operation, connect only one video format to input 3 and input 4.

Step 5

Connect audio devices to the input 1 through input 4 left and right RCA connectors.

Step 6

Connect an audio device, such as powered speakers, to this 3.8 mm, 5-pole captive screw connector for balanced or unbalanced audio output.

L

R

Step 7

Connect a host device, such as a computer or touch panel control, to the transmitter via this

9-pin D connector and a null modem serial port cable for serial RS-232 control.

TPS150 pin

Connected

RS-232 device pin Function

5

9 6

Female

1

5

6

3

4

7

8

1

2

9

RX

TX

Gnd

Step 8

Connect an optional CTP150CM control panel module or other contact closure device to this 8-pin

3.5 mm captive screw connector.

See chapter 2, Installation.

Not used

Receive data

Transmit data

Not used

Signal ground

Not used

Not used

Not used

Not used

CONTACT

CLOSURE

GND

PROJ PWR

VOL DN

VOL UP

IN4

To make your own contact closure device, wire the connector as shown at right. To issue a command, momentarily short the appropriate pin to ground.

IN3

IN2

IN1

Step 9

Connect a shielded twisted pair (STP) cable or foil shielded pair (FTP) with RJ-45 connectors between the transmitter and receiver. Ensure that both ends of the cable are terminated using the same protocol, either TIA/EIA 568 A or 568 B.

Extron recommends STP or FTP cable only .

Side Clip Down

RJ-45 connector

Tip

See caution

Sleeve

Tip

See caution

Unbalanced Output

Tip

Ring

Sleeve (s)

Tip

Ring

Balanced Output

CAUTION

Connect the sleeve to ground.

Connecting the sleeve to a negative (-) terminal will damage the audio output circuits.

1 2 3 4 5 6 7 8

4

5

6

7

8

2

3

Pin

1

568 A

Wire color

White-green

Green

White-orange

Blue

White-blue

Orange

White-brown

Brown

568 B

Wire color

White-orange

Orange

White-green

Blue

White-blue

Green

White-brown

Brown

1&2

3&6 4&5

7&8

Twisted

Pairs

TPS150 Switching and Transmission System • Quick Start QS-1

Quick Start — TPS150 Switching and Transmission System

Step 10

Connect a projector or plasma display to the receiver’s video outputs.

Output 1 — Connect a

VGA cable between the

15-pin HD female connector and the VGA or RGB input on the display.

Output 2 — Connect a composite video cable between this BNC female connector and the composite video input on the display.

Output 3 — Connect an S-video cable between this 4-pin mini DIN female connector and the S-video input on the display.

Output 4 — Connect a cable between these

BNC female connectors and the component video input on the display.

R - Y Y B - Y

Step 11

Connect a serial cable between the receiver’s

RS-232 Port connector and the serial control connector on the display for control of the display. See the drawing on page QS-1 to wire the connector for RS-232. See chapter 2,

Installation, for RS-422 and RS-485 control.

Step 12

Plug the transmitter, receiver, and input and output devices into a grounded AC source, and turn on the transmitter and input and output devices.

Setup and Operation

Input and projector codes

When user-specified serial commands are programmed for the Input Select buttons and the

Projector Power button, the transmitter sends that serial command to the receiver when the button is pressed. The receiver, in turn, issues the command to the projector.

When a user-specified power on (warm up) or power off (cool down) delay is programmed into the transmitter, the transmitter disables all front panel controls for the duration of the delay.

The projector power timeout function (if enabled) automatically powers off the projector after a user-defined interval.

See chapter 4, Serial Communications, to:

• Program a serial command to each of the transmitter’s Input Select buttons.

• Program projector power on and power off commands to the Projector Power button.

• Set the projector power timeout function.

• Program the projector power delays.

Transmitter Operation

Input Select buttons and LEDs select and identify inputs.

Blank button and LED toggle the video mute function on and off and identify the mute on or off status.

Projector Power button , when programmed, commands the projector to power itself on and off.

Projector Power LED , when lit, indicates that the projector power is on. The LED blinks during the power on and off delay (if programmed).

Some projectors use the same command for power on and off. If the same code is specified for on and off, the Projector

Power LED blinks for each button push.

Volume and buttons

• Increase and decrease the output volume.

• Increase and decrease the selected input’s audio level.

Press and hold the appropriate Input

Select button while you use the Volume buttons to adjust that input’s level.

Mute button and LED toggle the audio mute function on and off and identify the mute on or off status.

Receiver Operation

Cable Equalization Select button and LEDs toggle between high frequency and low frequency to equalize using the Cable

Equalization button and indicate the selection.

Low frequency affects the visible image smear. High frequency affects the detail and sharpness.

Cable Equalization Adjust button increase (+) and decrease () the amount of equalization applied to the selected frequency range (high or low) of the output signal.

Skew Adjustment controls (rear panel) correct for the delay inherent in network (CAT 5) cable.

QS-2 TPS150 Switching and Transmission System • Quick Start

Table of Contents

Chapter 1 • Introduction

....................................................................................................... 1-1

About this Manual

............................................................................................................. 1-2

About the Transmission System

.................................................................................. 1-2

About the TPT150 switching transmitter ......................................................................... 1-2

About the TPR150 receiver ................................................................................................ 1-3

TP Cable Advantages

......................................................................................................... 1-3

Transmission distance ........................................................................................................ 1-4

Features

................................................................................................................................... 1-4

Chapter 2 • Installation

.......................................................................................................... 2-1

Mounting the Transmitter and Receiver

................................................................. 2-2

Rack mounting the transmitter ......................................................................................... 2-2

Projector mounting the receiver ....................................................................................... 2-2

Cabling and Rear Panel Views

...................................................................................... 2-3

Transmitter connections .................................................................................................... 2-3

Video and audio input connections ..................................................................................

2-3

TP and audio output connections ......................................................................................

2-4

Remote control connections ..............................................................................................

2-5

Power connection ...............................................................................................................

2-5

Receiver connections ......................................................................................................... 2-5

TP input connection ............................................................................................................

2-5

Video output connections ..................................................................................................

2-6

Serial connection .................................................................................................................

2-6

Power connection ...............................................................................................................

2-6

TP Cable Termination

........................................................................................................ 2-6

Chapter 3 • Operation

............................................................................................................. 3-1

Controls and Indicators

................................................................................................... 3-2

Transmitter controls and indicators .................................................................................. 3-2

Receiver controls and indicators ....................................................................................... 3-3

Operations

.............................................................................................................................. 3-4

Power ................................................................................................................................. 3-4

Input selection ................................................................................................................... 3-4

Projector power ................................................................................................................. 3-4

Volume adjustment ........................................................................................................... 3-5

Full system reset ................................................................................................................. 3-5

Receiver reset ..................................................................................................................... 3-5

Optimizing the Video

........................................................................................................ 3-6

Troubleshooting

.................................................................................................................. 3-7

General checks ................................................................................................................... 3-7

Specific problems ............................................................................................................... 3-8

TPS150 Switching and Transmission System • Table of Contents i

Table of Contents, cont’d

Chapter 4 • Serial Communications

............................................................................... 4-1

ICS100 Windows-Based Control Program

............................................................... 4-2

System requirements ......................................................................................................... 4-2

Installing the software ...................................................................................................... 4-2

Establishing communications with the program ............................................................. 4-3

Using the software to configure the serial port settings ................................................ 4-6

Using the software to program the input and projector codes ...................................... 4-7

Using the software to operate the transmission system ................................................. 4-9

Using the help system ...................................................................................................... 4-10

Serial Commands

.............................................................................................................. 4-11

Communication protocols ............................................................................................... 4-11

Command and response structure .................................................................................. 4-11

Addressing the transmitter ............................................................................................. 4-11

Transmitter responses ...................................................................................................... 4-12

Using the command/response table ............................................................................... 4-12

Symbols ............................................................................................................................ 4-12

Command/response table for programming and operating the TPT150 ..................... 4-14

Appendix A • Specifications and Part Numbers

................................................... A-1

Specifications

....................................................................................................................... A-2

Part Numbers

....................................................................................................................... A-5

Included parts ................................................................................................................... A-5

Optional accessories ......................................................................................................... A-5

All trademarks mentioned in this manual are the properties of their respective owners.

68-958-01 Rev. B

Printed in USA

10 04 ii TPS150 Switching and Transmission System • Table of Contents

TPS150 Switching and Transmission System

1

Introduction

About this Manual

About the Transmission System

TP Cable Advantages

Features

About this Manual

This manual contains installation, configuration, and operating information for the

Extron TPS150 audio/video Twisted Pair (TP) switching and transmission system.

• Chapter 1 identifies the transmitter’s and receiver’s features.

• Chapter 2 details how to install the transmitter and receiver.

• Chapter 3 describes how to operate the transmitter and receiver from their front panels and use all of their features.

• Chapter 4 provides information about programming and operating the switcher under RS-232 control, such as from a PC or host controller. You can control the switcher using Extron’s TPS150 serial command set or the ICS100 control program.

• Appendix A lists the transmitter’s and receiver’s specifications and pertinent part numbers.

About the Transmission System

The TPS150 consists of two components: the TPT150 AV switcher/TP transmitter

(referred to in this manual as the “switching transmitter” or the “transmitter”) and the TPR150 TP video receiver (referred to in this manual as the “receiver”)

(figure 1-1). The transmitter and receiver form a switching and long distance transmission system. The TPS150 system sends high resolution RGB video (such as

VGA video), low resolution video, and RS-232 control signals to a projector, plasma display, or other display over a single Category (CAT) 5 shielded twisted pair (STP) or foil shielded twisted pair (FTP) cable. The system includes cable compensation and skew control technology that allow you to use these standard network cables.

Extron recommends the use of STP or FTP cable only.

About the TPT150 switching transmitter

The TPT150 transmitter accepts and switches between the following four video inputs:

• Input 1 and input 2 — High resolution video (such as VGA) on 15-pin HD connectors. Input 1 includes a buffered local monitor loop-through connector.

• Input 3 and input 4 — For each input, one only of the following three video formats:

!

Component video (Y, R-Y, B-Y) on three female RCA connectors

!

S-video on one 4-pin mini DIN connector

!

Composite video on female RCA connector

Each input also accepts an unbalanced line level stereo audio signal on left and right RCA connectors. The level of each audio input is individually adjustable to ensure that there is no noticeable volume difference when switching among sources.

The switching transmitter outputs the selected input audio as balanced or unbalanced line level audio on a 5-pin 3.5 mm captive screw connector. The output can also be muted.

The audio for the selected input is output locally. It is not sent to the receiver.

1-2 TPS150 Switching and Transmission System • Introduction

The TPT150 has an RS-232 port that accepts ICS100 program control from a connected computer or serial command control from a computer or control system.

The transmitter can also store serial commands that are entered by the operator.

The transmitter sends the appropriate serial commands on the TP link to the receiver whenever an input button or the projector power button is pressed.

An optional CTP150CM control panel can be connected to a contact closure port on the TPT150. Using the CTP150CM, a remote operator can select inputs, power up and down a projector connected to the receiver, and increase and decrease the output volume.

Extron

TPR150

Twisted Pair

Receiver

Extron

TPT150

AV Switcher

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Extron

CTP150CM

Control

Panel

Control

System

Sound

System

VCR

Composite

Video

Input 3

DVD

Component

Video

Input 4

PC

Input 1

Laptop

Input 2

Figure 1-1 — Typical TPS150 Switching and Transmission System application

About the TPR150 receiver

The TPR150 receiver accepts the TP link from the transmitter and outputs the received video and RS-232 commands. The receiver outputs the following signals on the following connectors:

• High-resolution RGB video on one female 15-pin HD connector

• Component video (Y, R-Y, B-Y) on three female RCA connectors

• S-video on one female 4-pin mini DIN connector

• Composite video on one female RCA connector

• Serial (RS-232) commands on one male DB9 connector

TP Cable Advantages

Twisted pair cable is much smaller, lighter, more flexible, and less expensive than coaxial cable. The TPT150 makes cable runs simpler and less cumbersome.

Termination of the cable with RJ-45 connectors is simple, quick, and economical.

TPS150 Switching and Transmission System • Introduction 1-3

Introduction, cont’d

Transmission distance

The maximum distance is determined by the output frequency and resolution. The following table specifies the recommended maximum transmission distances using

STP or FTP CAT 5 cable, terminated with CAT 5 rated connectors.

It is possible to exceed the recommended distance; however, image quality may be reduced.

We recommend the use of pre-terminated and tested cables. Cables terminated on site should be tested before use.

Recommended transmission ranges at 60 Hz

Video format

640 x 480

800 x 600

1024 x 768

1280 x 1024

1600 x 1200

Maximum range

500 feet

500 feet

500 feet

300 feet

250 feet

Features

Four input A/V switcher — Accepts, switches, and transmits RGBHV, component video (Y, R-Y, B-Y), S-video, composite video, and RS-232 serial content.

Accepts and switches unbalanced line level stereo audio.

Buffered monitor output on input 1 — Provides for local monitor output on a

15-pin HD female VGA connector, enabling a signal to be easily monitored locally without the need for a separate distribution amplifier.

Universal projector control — The TPS150 provides universal projector control via serial commands entered by the installing technician. Commands are automatically sent when the input selection or Projector Power buttons are pressed. The included ICS100 control software makes storing projector or display control codes easy

Skew compensation control — Individual red, green, and blue skew controls adjust for the timing delays commonly encountered when CAT 5, CAT 5e, or

CAT 6 cable is used.

Sharpness control — Provides video equalization with individual low frequency and high frequency adjustments. The low frequency control helps remove image smearing. The high frequency control restores image sharpness and detail.

Audio input level adjustment — Each individual input has a level adjustment via the front panel and RS-232 control. Audio levels are saved for each input and are automatically recalled when that input is selected.

Audio output volume adjustment and muting — The output has volume control adjustment via the front panel, RS-232 control, or optional contact closure panel control.

Control — Switcher control is available through the front panel, an RS-232 port serial link, and an optional contact closure control panel. Serial control is provided with the Extron ICS 100 control software and/or a control system issuing serial commands.

1-4 TPS150 Switching and Transmission System • Introduction

Custom engraved front panels — The front panel controllers include attachment posts to hold an optional custom-engraved name plate. Extron can create a custom front plate to neatly and professionally label each input button.

Contact the Extron S 3 Sales & Technical Support Hotline to order the custom plate.

Optional CTP150CM control panel — Seven soft-touch buttons control the input selection, volume up and down, and display power on and off. The

CTP150CM is available in a black or white finish and installs in CPM Series modular connector panels that accept a quad-size Mini Architectural Adapter

Plate (MAAP).

TPS150 Switching and Transmission System • Introduction 1-5

Introduction, cont’d

1-6 TPS150 Switching and Transmission System • Introduction

TPS150 Switching and Transmission System

2

Installation

Mounting the Transmitter and Receiver

Cabling and Rear Panel Views

TP Cable Termination

Mounting the Transmitter and Receiver

The TPS150 comes with rubber feet for the transmitter and receiver, a set of

MTR102 rack ears for the transmitter, and a set mounting brackets for the receiver.

Rack mounting the transmitter

If desired, rack mount the transmitter as follows:

1 .

Remove the rubber feet from the bottom of the transmitter.

2 .

Attach the 992546-2 rack mounting ears to the transmitter with the six provided #8 machine screws (figure 2-1).

3 .

Insert the transmitter into the rack, aligning the holes in the mounting bracket with those of the rack.

W

ER

PR

OJ

EC

TO

W

ER

R

VO

LU

ME

1

3

2

IN

PU

EC

T

4

BL

# 8 Screw (6 Plcs)

Each Side

TPT15

0 A

/V S witc

/ T her wist ed

Pa ran sm itter

Figure 2-1 — Mounting the transmitter

4 .

Secure the transmitter to the rack using the supplied machine screws.

Projector mounting the receiver

If desired, projector mount the receiver as follows:

1 .

Remove the rubber feet from the bottom of the receiver.

2 .

Attach the supplied 992547-2 projector pole mounting brackets to the receiver with the four provided #8 machine screws (figure 2-2).

2-2 TPS150 Switching and Transmission System • Installation

Projector Mounting

Bracket

Figure 2-2 — Projector mounting the receiver

Cabling and Rear Panel Views

Transmitter connections

All connectors are on the rear panel (figure 2-3).

RGB / VGA

INPUT 1

LOCAL MONITOR

OUTPUT

AUDIO

L

R

INPUT 2

AUDIO

L

RGB / VGA

R

VIDEO

INPUT 3

R-Y

AUDIO

L

S-VIDEO

R

Y B-Y

VIDEO

INPUT 4

R-Y

AUDIO

L

S-VIDEO

R

Y B-Y

OUTPUT

UTP LINK

AUDIO

-

+

R

-

+

L

CONTACT

CLOSURE

GND

PROJ PWR

VOL DN

VOL UP

IN4

IN3

IN2

IN1

1 2 4 1 4 3 4 3 4 5 6 7 8

Figure 2-3 — TPT150 transmitter rear panel connectors

100–240 V .3A

50–60 Hz

9 10

Video and audio input connections

1

Input 1 and Input 2 RGB/VGA video connectors — Connect RGBHV or

RGBS sources to these 15-pin HD female connectors.

2

3

Input 1 local monitor output connector — If desired, connect a local monitor or other device to this 15-pin HD female connector.

Input 3 and Input 4 video connectors — Connect either component video,

S-video, or composite video sources to these BNC and 4-pin mini DIN connectors.

For proper system operation, connect only one video format to input 3 and input 4.

TPS150 Switching and Transmission System • Installation 2-3

Installation, cont’d

Connect the various video formats as shown in figure 2-4.

INPUT 3 INPUT 3

Component video

VIDEO R-Y VIDEO R-Y

S-video

S-VIDEO S-VIDEO

Y

Composite video

B-Y Y

VIDEO

INPUT 3

R-Y

S-VIDEO

B-Y

Y B-Y

Figure 2-4 — Input 3 and input 4 video format connections

4

Input audio connectors — Connect unbalanced stereo or mono audio sources to these pairs (left and right) of RCA connectors for audio input.

TP and audio output connections

5

TP connector — Connect one end of an STP or FTP cable to this RJ-45 female connector on the transmitter.

Connect the free end of the same TP cable from the transmitter to the RJ-45 female connector on the receiver.

See TP cable termination, on page 2-6, to properly wire the RJ-45 connector.

Extron recommends the use of STP or FTP cable only.

6 Audio connector — Connect an audio device, such as powered speakers, to this 3.8 mm, 5-pole captive screw connector for balanced or unbalanced audio output.

Figure 2-5 shows how to wire the captive screw audio connector. The connector is included with the transmitter, but you must obtain the cable.

Insert the wires into the appropriate openings in the captive screw connector.

Tighten the screws on top to fasten the wires.

CAUTION Wiring the audio incorrectly can damage the audio output circuits.

Connect the sleeve(s) to ground (GND). Connecting the sleeve(s) to a negative (-) terminal will damage audio output circuits.

Tip

See caution

Sleeve(s)

Tip

See caution

Unbalanced Output

Tip

Ring

Sleeve (s)

Tip

Ring

Balanced Output

Figure 2-5 — Wiring the audio output connector

The audio output always follows the video switch.

2-4 TPS150 Switching and Transmission System • Installation

Remote control connections

7

Contact Closure — If desired, connect an optional CTP150CM control panel module or other contact closure device to this 8-pin 3.5 mm captive screw connector. Refer to the CTP150CM manual.

CONTACT

CLOSURE

8

To make your own contact closure device, wire the connector as shown at right. To issue a switching, volume, or projector power command, momentarily short the appropriate pin to ground.

RS-232 port — Connect a host device, such as a computer or touch panel control, to the TPT150 transmitter via this 9-pin

D connector and a null modem serial port cable for serial

RS-232 control (figure 2-6).

IN4

IN3

IN2

IN1

GND

PROJ PWR

VOL DN

VOL UP

TPS150 pin

Connected

RS-232 device pin Function

5

6

7

8

9

1

2

3

4

RX

TX

Gnd

Not used

Receive data

Transmit data

Not used

Signal ground

Not used

Not used

Not used

Not used

5

9 6

Female

1

Figure 2-6 — Remote port pin assignments for the TPT150 and TPR150

See chapter 4, Serial Communications, for definitions of the ASCII commands and instructions to install and use the control software.

Power connection

9

AC power switch — Toggle the AC power switch to the on ( ) position to turn on the transmitter.

10

AC power connector — Plug a standard IEC power cord into this connector to connect the transmitter to a 100 to 240VAC, 50 Hz to 60 Hz power source.

Receiver connections

All receiver connectors are on the rear panel (figure 2-7).

9 0 - 2 6 0 VAC ; 0 . 2 5 A ; 4 7 - 6 3 H z

U T P L I N K

S K E W A D J

R E D B L U E G R N

R G B / VG A

V I D E O O U T P U T

C O M P O S I T E

S - V I D E O

C O M P O N E N T

R - Y Y B - Y

R S - 2 3 2 P O RT

11 12 13 14 15 16

F U S E : 1 . 6 A ; 2 5 0 V; T I M E D E L AY

17

Figure 2-7 — TPR150 receiver rear panel connectors

TP input connection

11 TP connector — Connect the free end of the STP or FTP cable from the transmitter to this RJ-45 female connector on the receiver.

See TP cable termination, on page 2-6, to properly wire the RJ-45 connector.

TPS150 Switching and Transmission System • Installation 2-5

Installation, cont’d

Video output connections

12

RGB/VGA video connector — Connect a VGA cable between this 15-pin HD female connector and the VGA or RGB input on the display.

13

14

15

Composite video connector — Connect a video cable between this BNC female connector and the composite video input on the display.

S-video connector — Connect an S-video cable between this 4-pin mini DIN female connector and the S-video input on the display.

Component video connector — Connect a cable between these BNC female connectors and the component video input on the display.

Serial connection

16

RS-232 connector — Connect a serial cable (figure 2-6) between this 9-pin D connector and the RS-232 connector on the display for control of the display.

Power connection

17

AC power connector — Plug a standard IEC power cord into this connector to connect the receiver to a 100 to 240VAC, 50 Hz to 60 Hz power source.

The receiver is protected by a 1.6 A, 250 V, time delay fuse. If necessary, replace with a time delay fuse with the same amperage and voltage rating.

TP Cable Termination

RJ-45 termination must comply with the TIA/EIA T 568A or TIA/EIA T 568B wiring standards for all connections.

Extron recommends the use of STP or FTP cable only.

Figure 2-8 details the recommended termination of CAT 5 TP cable with RJ-45 connectors in accordance with the TIA/EIA T 568A or TIA/EIA T 568B wiring standards. You can use either standard, but ensure that you use the same standard on both ends of the cable.

Side

1&2

Clip Down

Pins 1 2 3 4 5 6 7 8

1 2 3 4 5 6 7 8

3&6 4&5

RJ-45 connector

7&8

6

7

8

4

5

Pin

1

568 A

Wire color

White-green

2

3

Green

White-orange

Blue

White-blue

Orange

White-brown

Brown

568 B

Wire color

White-orange

Orange

White-green

Blue

White-blue

Green

White-brown

Brown

RGB video signals

Blue +/V. sync +

Blue –/V. sync –

RS-232 +

Green +/H. sync +

Green –/H. sync –

RS-232 –

Red –

Red +

Component video signals

B-Y +

B-Y –

RS-232 +

Y +

Y –

RS-232 –

R-Y –

R-Y +

Composite video signals

Twisted

Pairs

6

7

8

4

5

Pin

1

568 A

Wire color

White-green

2

3

Green

White-orange

Blue

White-blue

Orange

White-brown

Brown

568 B

Wire color

White-orange

Orange

White-green

Blue

White-blue

Green

White-brown

Brown

S-video signals

RS-232 +

Y +

Y –

RS-232 –

C –

C +

RS-232 +

Video +

Video –

RS-232 –

Figure 2-8 — TP cable termination

2-6 TPS150 Switching and Transmission System • Installation

TPS150 Switching and Transmission System

3

Operation

Controls and Indicators

Operations

Optimizing the Video

Troubleshooting

Controls and Indicators

Transmitter controls and indicators

The TPT150 transmitter will not operate properly unless it is connected to a powered TPR150 receiver.

All of the transmitter’s controls are on the front panel (figure 3-1).

7 7 5

PROJECTOR

POWER VOLUME 1 2 3 4 BLANK MUTE POWER

INPUT SELECT

TPT150

A/V Switcher / Twisted Pair Transmitter

2 3

Figure 3-1 — TPT150 transmitter front panel

4 6 1

1

2

3

4

Power LED — When lit, the Power LED indicates that power is applied to the transmitter.

Input Select buttons — The Input 1 Select through Input 4 Select buttons select the associated video and audio input. The selected video input is transmitted to the receiver. The selected audio input is output locally.

If a user-specified serial command is set for an Input Select button, the transmitter also sends that serial command to the receiver when the button is pressed. The receiver, in turn, issues the command to the projector. See chapter 4, Serial Communications, to specify the command to be sent.

The Input Select buttons are also used in conjunction with the Volume buttons

(

5

) to adjust each input’s audio level. See Volume adjustment on page 3-5 for more details.

Blank button and LED — Press the Blank button to toggle video mute on and off. When the output is blanked, no video is transmitted to the receiver, which, in turn, outputs a blank image. The video mute function mutes the video signals only; the sync signal(s) are still active. The Blank LED lights to indicate that the video is blanked.

Projector Power button and LED — Press the Projector Power button to transmit one of two user-specified serial commands to the receiver, which then issues the command to a device such as a projector. See chapter 4, Serial

Communications, to specify the command(s) to be sent.

The Projector Power LED lights green when the power on command is the most recent command transmission and is unlit when the power off command is the most recent transmission.

If a projector power on (warm-up) delay or projector power off (cool-down) is

programmed (see chapter 4, Serial Communications), the Projector Power

LED blinks while that delay times out. All front panel operations are disabled during the delay.

Some projectors use the same command for power on and power off. If the same code is specified for on and off, the Projector Power LED blinks for each button push.

3-2 TPS150 Switching and Transmission System • Operation

5

6

7

Volume up and down buttons — The Volume up ( ) and Volume down ( ) buttons are used to increase and decrease the output volume and the selected input’s audio level. See Volume adjustment on page 3-5 for more details.

The Volume buttons are also used to reset the transmitter. See Full system reset on page 3-5.

Mute button and LED — Press the Mute button to toggle audio mute on and off. When the output is muted, the transmitter outputs no audio on its local

Audio connector. The Mute LED lights to indicate that the audio is muted.

Faceplate posts — These posts can hold an optional custom-engraved name plate. Extron can create a custom front plate to neatly and professionally label each input button. Contact the Extron S 3 Sales & Technical Support Hotline to order the custom plate.

Receiver controls and indicators

The receiver has controls on the front panel and the rear panel (figure 3-2).

C A B L E E QUA L I Z AT I O N

- ADJUST + SELECT

LOW FREQ.

HIGH FREQ.

POWER

T P R 1 5 0

Tw i s t e d Pa i r V i d e o R e c e i v e r

11

U T P L I N K

S K E W A D J

R E D B L U E G R N

R G B / VG A

V I D E O O U T P U T

C O M P O S I T E

S - V I D E O

C O M P O N E N T

R - Y Y B - Y

R S - 2 3 2 P O RT

10 9 8

9 0 - 2 6 0 VAC ; 0 . 2 5 A ; 4 7 - 6 3 H z

F U S E : 1 . 6 A ; 2 5 0 V; T I M E D E L AY

Figure 3-2 — TPR150 receiver front panel

8

9

10

11

Power LED — When lit, the Power LED indicates that power is applied to the receiver.

Cable Equalization Select button and LEDs — Press the Select button to toggle between high frequency and low frequency to equalize. The High

Frequency LED and Low Frequency LED indicate the frequency range that is selected for equalization. Equalize the cable with the Adjust button ( 10 ). See

Optimizing the Video on page 3-6 for more details.

Cable Equalization Adjust button — Press the + side of the button to increase the amount of equalization applied to the selected frequency range

(high or low) of the output signal. Press the – side of the button to decrease the amount of equalization. Select the frequency range with the Select button

(

9

). See Optimizing the Video on page 3-6 for more details.

Skew Adjustment controls — Use an Extron Tweeker or other small screwdriver to correct for the delay inherent in network (CAT 5) cable. See

Optimizing the Video on page 3-6 for more details.

TPS150 Switching and Transmission System • Operation 3-3

Operation, cont’d

Operations

The following paragraphs detail the power-up process and then describe selecting an input, issuing the projector power up and down commands, and adjusting the input level and output volume.

Power

Apply power to the transmitter by connecting the power cord to an AC source and toggling the AC power switch to the on ( ) position. Apply power to the receiver by connecting the power cord to an AC source.

When AC power is applied, the transmitter and receiver perform a self-test that flashes all of the transmitter’s front panel LEDs on and off once. An error-free power up self-test sequence leaves the transmitter’s selected input LED, the Power

LEDs, and the receiver’s High Frequency LED on.

The selected input, the audio input level and output volume, and the blank and mute on/off status are saved in non-volatile memory. When power is applied, the latest configuration is retrieved.

Input selection

Press the Input Select button on the transmitter for the desired input. When you select an input, the following occurs:

• The transmitter sends the video portion of the selected input to the receiver on the TP link. The receiver outputs the video on its appropriate Video

Output connectors.

• If the operator has pre-programmed a serial command or data string for the selected input (such as a projector’s own input selection or video format command), the transmitter sends that serial string to the receiver on the TP link. The receiver then outputs the serial string on its RS-232 port. See chapter 4, Serial Communications, to specify the command to be sent.

• The transmitter outputs the audio portion of the selected input locally, on its own rear panel Audio Output port.

Projector power

The receiver does not receive a confirmation from the projector that it is on or off. Rather, after the TPT150’s power is applied, the first serial string the transmitter sends to the receiver (which passes it to the projector) is the string that was programmed as the projector power on command. From that point, every time you push the button, the transmitter alternates between sending the power off command and the power on command. If the projector is powered on or off locally, the transmitter sends the wrong command the next time the

Projector Power button is pressed.

The Projector Power control is typically used to remotely command the connected projector to power itself up or down. Command strings to be transmitted must be programmed in advance. The projector power timeout function (if enabled) automatically powers off the projector after a user-defined interval. See chapter 4,

Serial Communications, to specify the commands to be sent and to set the timout function.

3-4 TPS150 Switching and Transmission System • Operation

Press the Projector Power button on the transmitter to issue the projector on or off command. When you push the button, the following occurs:

• If no command has been transmitted since transmitter power was applied, or if the power off command was the last command transmitted:

!

The transmitter sends the power on string to the receiver on the TP link.

!

!

The transmitter lights its Projector Power LED.

The transmitter starts its power off timout function (if enabled).

!

The receiver outputs the received serial string on its RS-232 port.

Some projectors use the same command for power on and power off. If the same code is specified for on and off, the Projector Power LED blinks for each button push.

• If the power on command was the last command transmitted:

!

The transmitter sends the power off string to the receiver on the TP link.

!

!

The transmitter turns off its Projector Power LED.

The receiver outputs the received serial string on its RS-232 port.

The same sequence of events occurs when the projector power timeout function

(if enabled) expires.

Volume adjustment

Output volume —

Press and release the Volume up ( ) or Volume down ( ) button to increase or decrease the output volume by 1dB per button push or press and hold the button to ramp the output volume up or down.

Input audio level —

1 .

Press and hold the desired Input Select button.

2 .

While you continue to hold the Input Select button, press and release the

Volume up ( ) or Volume down ( ) button to increase or decrease the selected input’s volume or press and hold the button to ramp the selected input’s volume up or down.

3 .

Release the Input Select button.

Full system reset

To restore the I/O configurations, projector codes, volume levels, and serial setup to the default setting, press and hold the transmitter’s Volume up ( ) and Volume down ( ) buttons while you apply power to the transmitter. Continue to hold the

Volume buttons until the transmitter LEDs stop changing and then release the

Volume buttons.

Receiver reset

To reset a TPR150 receiver to its default settings, disconnect TPT150 transmitter power for 10 seconds or more.

TPS150 Switching and Transmission System • Operation 3-5

Operation, cont’d

Optimizing the Video

The TPR150 receiver features cable equalization controls for high and low frequency adjustments and RGB skew control to compensate for misconvergence of colors that can result from long CAT 5 cable runs. The following steps detail how to use these features to optimize the output image.

These adjustments should be made with the highest resolution input selected on the TPT150 transmitter.

1 .

Carefully set the rear panel RGB skew controls to minimum

(fully counterclockwise).

2 .

Power up the transmitter, receiver, and display.

S K E W A D J

R E D B L U E G R N

3 .

Select the highest resolution.

4 .

As needed, use the front panel low frequency control to eliminate any visible image smear.

C A B L E E QUA L I Z AT I O N

- ADJUST + SELECT

LOW FREQ.

a .

If necessary, press and release the Cable Equalization Select button to light the Low Frequency LED.

HIGH FREQ.

b .

Press the + side of the button to increase the amount of equalization applied to the output signal’s low frequency range. Press the – side of the button to decrease the amount of equalization.

5 .

As needed, use the front panel high frequency control to maximize the detail and sharpness.

a .

If necessary, press and release the Cable Equalization Select button to light the High Frequency LED.

b .

Press the + side of the button to increase the amount of equalization applied to the output signal’s high frequency range. Press the – side of the button to decrease the amount of equalization.

6 .

If the red, green, and blue video are not properly aligned, use a Tweeker or small screwdriver to gently adjust the red, green, and/or blue Skew

Adjustment controls to correct for the delay inherent in network (CAT 5) cable.

The Skew Adjustment controls are sensitive. Make each adjustment carefully.

7 .

Repeat steps 4 through 6 to fine tune the adjustments.

3-6 TPS150 Switching and Transmission System • Operation

Troubleshooting

This section gives recommendations on what to do if you have problems operating the transmitter/receiver system, and it provides examples and descriptions for some image problems you may encounter.

The following tips may help you in troubleshooting.

• Some symptoms may resemble others, so you may want to look through all of the examples before attempting to solve the problem.

• Be prepared to backtrack in case the action taken does not solve the problem.

• It may help to keep notes and sketches in case the troubleshooting process gets lengthy. This will also give you something to discuss if you call for technical support.

• Try simplifying the system by eliminating components outside the system that may have introduced the problem or made it more complicated.

• For sync-related problems: Portable digital projectors are designed to operate close to the immediate video source (the receiver). Sync problems may result from using long cables or from improper termination. A sync adapter, such as Extron’s ASTA (active sync termination adapter), may help solve these problems.

• For LCD and DLP projectors and plasma displays: In addition to the syncrelated information above, check the user’s manual that came with the projector for troubleshooting tips, as well as for settings and adjustments.

Each manufacturer may have its own terms, so look for terms like “auto setup,” “auto sync,” “pixel phase,” and “tracking.”

General checks

1 .

Ensure that all devices are plugged in and powered on. The transmitter and receiver both have Power LEDs to indicate that power is applied.

2 .

Ensure that the input selected is active.

3 .

Ensure that the proper signal format is supplied.

4 .

Check the cabling and make corrections as necessary.

5 .

Reset the switcher. See Full system reset on page 3-5.

6 .

Call the Extron S 3 Sales & Technical Support Hotline if necessary.

TPS150 Switching and Transmission System • Operation 3-7

Operation, cont’d

Specific problems

The table below shows some common operating problems and their solutions.

Problem

No image appears.

Distorted image appears.

Possible cause Solution

System not receiving Ensure that the video source, the power transmitter and receiver, and the display are plugged into a live AC power source and the transmitter is turned on.

No video input

No video output

Check that the input device is sending a video signal to the transmitter.

Select a different input. If a screen display does not appear, check the output connection.

The projector has the On the projector, manually check wrong input/signal that the input and format are format selected.

correct. If not, check that the proper signal string for the input selection is programmed into the transmitter.

Video may be muted.

Press the transmitter’s Blank button to disable video mute.

Improperly adjusted receiver

Follow the steps in Optimizing

the Video on page 3-6.

3-8 TPS150 Switching and Transmission System • Operation

TPS150 Switching and Transmission System

4

Serial Communications

ICS100 Windows Control Program

Serial Commands

The transmitter must be programmed with commands to be sent upon input selection and with projector power on/off commands before those commands will be sent.

The transmitter can also be configured with several serial port variables to match the controlling device and the device to be controlled.

You can program and operate the transmitter either by using the ICS100 Windowsbased control program or by sending individual ASCII commands. Both programming methods require that a null modem serial port cable be connected between a computer and the transmitter’s RS-232 port.

ICS100 Windows-Based Control Program

The ICS100 Control Program, a graphical control software for Windows, provides a way to program the transmitter.

System requirements

• Operating system —

Windows 95 / 98 / ME / NT / 2000 / XP / XP Pro

If you are using Windows NT, Service Pack 6 must be installed.

• Hardware — Pentium 150 or faster CPU

• Memory — Minimum: 128 MB

Recommended: 256 MB

• Screen resolution — Minimum: 800 x 600

Recommended: 1024 x 768

• Disk space — 5 MB

Installing the software

The control program is contained on a CD-ROM, and must be installed on the hard drive.

1 .

Click Start > Run.

2 .

Click the Browse button. An open file window appears.

3 .

Navigate to the drive or folder that contains the software.

4 .

Double-click the setup icon.

5 .

Click OK in the Run window.

6 .

Click OK in the InlineControl Setup window.

7 .

Follow the instructions in the setup program to complete the installation.

4-2 TPS150 Switching and Transmission System • Serial Communications

Establishing communications with the program

The TPT150 transmitter will not operate properly unless it is connected to a powered TPR150 receiver.

Start the control program and establish communications with the TPT150 as follows:

1 .

Click Start > Programs > Extron > ICS100. The control program window appears.

The TPS150 does not respond until it has been contacted with the valid address.

If you have previously connected to the transmitter and you have not addressed any other device since then, after a moment, the program reports that it has connected to a TPT150 (figure 4-1). Proceed to step 10.

Figure 4-1 — ICS100 program window and connected message

If you have not connected to the transmitter before or if you have connected to a different device since then, after a moment, the program reports a failure to connect (figure 4-2). Continue to step 2.

Figure 4-2 — ICS100 program window and warning

TPS150 Switching and Transmission System • Serial Communications 4-3

Serial Communications, cont’d

The transmitter’s serial port is factory-configured to 9600 baud, no parity, no flow control, half-duplex mode. If desired, the computer’s serial port settings can be changed from within the ICS100 program.

2 .

Click Communications > Comm Port > Comm 1 (or the correct Comm port). The serial port setup window appears (figure 4-3).

Figure 4-3 — Serial port setup window

3 .

Click in the appropriate radio buttons to select the desired settings for the computer connected to the transmitter.

4 .

Click OK.

5 .

Click Inline Model > Select Address. The addresses window (figure 4-4) appears.

Figure 4-4 — Addresses window

The transmitter must be addressed before it will accept and respond to commands. The addressing operation routes setup information to a particular unit on a network and enables command responses. Once the transmitter is addressed, it can accept an unlimited number of commands. If a different unit is addressed, the TPS150 ignores subsequent commands until it is addressed again.

The factory-installed default address is 97, but this number can be changed.

The transmitter can also take commands after receiving a broadcast address of

00, but it does not send responses. Broadcast addressing is for multiple units on a network serial line in half-duplex mode.

6 .

Click and drag on the slider or click the scroll up ( ) or scroll down ( ) button until the desired address is visible.

7 .

Click on the desired address. The default address is 97.

8 .

Click OK.

4-4 TPS150 Switching and Transmission System • Serial Communications

9 .

Click Inline Model > Query Hardware to configure the ICS100 program to communicate with the TPT150 and to confirm that communications have been established with the transmitter. The connected window appears (figure 4-5).

Figure 4-5 — Connected window

10 .

Click OK.

11 .

Use the software to configure serial port settings, program the input and projector codes, and/or operate the transmission system. See the procedures on the following pages.

After you are finished sending commands to the transmitter, always end the session by selecting a different address from the one assigned to the TPT150.

This prevents the transmitter from responding to commands meant for another unit.

12 .

Click Inline Model > Select Address. The Addresses window (figure 4-4) appears.

13 .

Click and drag on the slider or click the scroll up ( ) or scroll down ( ) button until an address other than the transmitter’s address is visible.

14 .

Click on the desired address.

15 .

Click OK.

TPS150 Switching and Transmission System • Serial Communications 4-5

Serial Communications, cont’d

Using the software to configure the serial port settings

If necessary, use the ICS 100 software to change the serial port settings of either the transmitter or receiver.

The transmitter’s serial port is factory-configured to 9600 baud, no parity, no flow control, half-duplex mode. If desired, serial port settings can be changed from within the ICS100 program.

1 .

Click Communications > Comm Port > Comm 1 (or the correct Comm port). The serial port setup window appears (figure 4-6).

Figure 4-6 — Serial port setup window

2 .

Click in the appropriate radio buttons to select the desired settings for the transmitter and the receiver.

The receiver’s RS-232 port should be connected to the display device’s communications port. Refer to the display device’s user manual for the appropriate serial port protocol and settings.

The transmitter and receiver are buffered and can operate with different serial port protocols.

3 .

Click OK.

If you change the serial protocols, communications between the computer and the transmitter are lost until the computer is updated to match the new transmitter settings).

4 .

If no further operations are to be performed, halt communication with the switcher by selecting a different address. See Establishing communications with

the program, step 12.

4-6 TPS150 Switching and Transmission System • Serial Communications

Using the software to program the input and projector codes

Use the control program to program the transmitter’s input selection and projector power on/off buttons as follows:

1 .

Click Controls > Projector Codes > Input Codes. The Program Projector Codes window appears (figure 4-7).

Figure 4-7 — Program Projector Codes window

2 .

For each input or projector code to be programmed : a .

Click and drag the slider to select the desired input or projector code or enter one of the following into the field above the slider (figure 4-8):

• 1 through 4 — Input 1 through 4 code

• 5 — Power off code

• 6 — Projector on code

Figure 4-8 — Input or projector code selection b .

Click in the ASCII or Hex radio button to select the appropriate format.

Selecting the Hex radio button causes the transmitter to convert the primary code that you will enter in step 2c to a hex value before saving it. Then, when you press the button, the transmitter sends the hex value.

TPS150 Switching and Transmission System • Serial Communications 4-7

Serial Communications, cont’d c .

Enter the desired code in the code window (figure 4-9).

Spaces are ok w hen yo u are entering ASCII codes.

Figure 4-9 — Code entry (ASCII code)

Codes that are intended to be hex codes must be in pairs (such as 03 or DE).

Use a leading 0 if necessary. Letters must be uppercase. Spaces between bytes are acceptable in ASCII codes (figure 4-9), but are not allowed in hex codes

(figure 4-10).

01234 hex

Figure 4-10 — Code entry (hex code)

Clicking one of the Unprintable Codes (figure 4-11) buttons inserts that function into the line feed or carriage return string of data characters.

Unprintable codes are displayed in the code window as | (figure 4-12).

Code Definition

Left bracket

Right bracket

Start of heading

Start of text

End of text

End of transmission

Enquiry

Acknowledge

Bell

Backspace

Horizontal tab

Line feed

Code Definition

Vertical tab

Form feed

Carriage return

Shift out

Shift in

Data link escape

Device control 1

Device control 2

Device control 3

Device control 4

Negative acknowledge

Synchronous idle

Code Definition

End of transmission block

Cancel

End of medium

Substitute

Escape

File separator

Group separator

Record separator

Unit separator

Delete

Figure 4-11 — Unprintable codes

|| indicates carriage ret u rn/line feed entered b y p u shing the and bu ttons.

Figure 4-12 — Code entry with unprintable codes d .

Click Program to save the command.

4-8 TPS150 Switching and Transmission System • Serial Communications

3 .

Repeat step 2 for each button or code to be programmed.

4 .

Click in the upper right corner of the window to close the window.

5 .

Click Controls > Projector Codes > Projector Delay. The program projector delay window appears (figure 4-13).

Figure 4-13 — Program projector delay window

When you open the window, the ICS 100 automatically resets the projector delay in the transmitter to 0 seconds and displays 000 in the variable window.

6 .

For the power on (warm-up) delay (0 to 60 seconds) and power off

(cool-down) delay (0 to 256 seconds), click and drag the slider or click the scroll left ( ) or scroll right ( ) button until the desired interval (in seconds) appears in the variable window.

The ICS100 program automatically sends the revised projector delay to the transmitter as soon as you move the slider.

If you click the Projector On or Projector Off button, the Projector Power

LED on the transmitter’s front panel blinks while the delay times out. All front panel operations are disabled during the delay.

7 .

Click in the upper right corner of the window to close the window.

8 .

If no further operations are to be performed, halt communication with the switcher by selecting a different address. See Establishing communications with

the program, step 12.

Using the software to operate the transmission system

Use the control program to operate the transmitter as follows:

1 .

Click Controls > Control Panel. The transmitter control panel window appears

(figure 4-14).

Figure 4-14 — Transmitter control panel window

TPS150 Switching and Transmission System • Serial Communications 4-9

Serial Communications, cont’d

2 .

With the exception of input audio level, the controls on the control panel window operate the same as the physical front panel of the transmitter. See chapter 3, Operation.

If you click the Projector On or Projector Off button, the Projector Power

LED on the transmitter’s front panel blinks while the delay times out. All front panel operations are disabled during the delay.

The button mutes and unmutes the audio output.

3 .

For input volume control, click Controls > Input Volume. The Set Input Volume window appears (figure 4-15).

Figure 4-15 — Transmitter input volume window a .

For each input, select that input on the front panel.

b .

Click and drag on the slider or click the scroll up ( ) or scroll down ( ) button to adjust the input level from 0dB (unity) through –15dB as required for best performance.

Clicking the Reset Volume button resets each input’s audio level to 0db

(unity).

4 .

Click in the upper right corner of the window to close the window.

5 .

If no further operations are to be performed, halt communication with the switcher by selecting a different address. See Establishing communications with

the program, step 12.

Using the help system

For information about program features, you can access the help program in the following ways:

• From the ICS100 startup window, select Help from the Help menu.

• From the Button Codes window, press the F1 key.

4-10 TPS150 Switching and Transmission System • Serial Communications

Serial Commands

Communication protocols

The transmitter’s and receiver’s serial ports (figure 4-16) are factory-configured to

9600 baud, no parity, no flow control, half-duplex mode. If you change the transmitter’s serial protocols, communications between the computer and the transmitter are lost until the computer is updated to match the new transmitter settings.

TPS150 pin

Connected

RS-232 device pin Function

4

5

6

7

1

2

3

8

9

RX

TX

Gnd

Not used

Receive data

Transmit data

Not used

Signal ground

Not used

Not used

Not used

Not used

5

9 6

Female

1

Figure 4-16 — Remote port pin assignments for the TPT150 and TPR150

The communications protocols of the receiver should match the protocols of the device to be controlled.

Command and response structure

Valid commands consist of a leading delimiter, one or more characters in a command code, and an ending delimiter. The transmitter’s response to an RS-232 command also consists of a leading delimiter, a command code, and an ending delimiter.

The transmitter’s leading delimiter code is always a left bracket ( [ ). The ending delimiter code is always a right bracket ( ] ).

Example : [CPp@] — where “[“ is the leading delimiter, “CPp@” is the command

(reset the transmitter’s serial port to default values), and “]” is the ending delimiter.

Addressing the transmitter

The transmitter must be addressed before it will accept and respond to commands.

The address packet ([CC##], where ## is the 2-digit address ) routes setup information to a particular unit on a network and enables command responses.

Once the transmitter is addressed, it can accept an unlimited number of commands.

If a different unit is addressed, the TPT150 ignores subsequent commands until it is addressed again.

The factory-installed default address is 97, but this number can be changed. The transmitter can also take commands after receiving a broadcast address of 00, but it does not send responses. Broadcast is for multiple units in a network configuration in half duplex mode.

By definition, the display device connected to the receiver’s RS-232 port is assigned an address that is one larger than the transmitter’s (for example, 98 to the transmitter’s default 97). If you address the display, the transmitter passes the commands received directly through to the receiver’s RS-232 port, allowing you to control the display. The transmitter also passes responses on the receiver’s RS-232 port back to its own serial port.

TPS150 Switching and Transmission System • Serial Communications 4-11

Serial Communications, cont’d

When the system is in Pass-Through mode [CC98], commands and responses are sent between the transmitter and receiver. If the system is not in Pass-Through mode, all of the receiver responses to the transmitter’s button commands are buffered until you return the system to pass-through mode, at which time the buffered responses are sent back to the controlling device. In this way, the controller can track the activity that has occurred.

After you are finished programming the transmitter, always terminate the session by sending an address packet to another unit with a different address. This prevents the transmitter from responding to commands meant for another unit.

Transmitter responses

When a command is valid, the transmitter performs the command and sends the following response:

[R0 •{address}{echo of the command sent}]

When a command is invalid, either because the command is not recognized or it contains invalid parameters, the transmitter sends the following response:

[R1 •{address}{echo of the command sent}]

Using the command/response table

The command/response table begins on page 4-14. The command set is case sensitive and commands must be entered as shown. The table below shows the hexadecimal equivalent of each ASCII command.

ASCII to HEX Conversion Table

Space

Symbols, defined below, are used throughout the command/response table to represent variables in the command/response fields. Command and response examples are shown throughout the table.

Symbols

= Carriage return/line feed

• = Space

X1

= Address number 00 – 97

00 addresses all units, but individual units do not respond.

97 is the factory-installed default for the transmitter.

Transmitter address + 1 is defined as the device connected to the receiver’s RS-232 port.

The very first command that you send to the transmitter must be the connect, [CC X1 ], command, where

X1 is the transmitter’s address. The transmitter will not accept other commands or respond until it has been addressed.

The very last command that you send to the transmitter should be the connect, [CC

X1

], command, where

X1

is a different address. This prevents the transmitter from accepting and responding to commands meant for other devices.

4-12 TPS150 Switching and Transmission System • Serial Communications

X2

= Input number

X3

= On/off status

X4

= Input volume

X5

= Output level

X6

= Button or code

01 – 04

0 = off, 1 = on

–15 (dB) of attenuation (minimum volume) through 00 (dB) (maximum volume)

–31 (dB) of attenuation (maximum attenuation) through 20 (dB) (maximum gain)

01 = input 1 code

02 = input 2 code

03 = input 3 code

04 = input 4

05 = projector power off code

06 = projector power on code

X7

= ASCII button code Up to 63 alphanumeric characters.

If you need to use the bracket delimiters in a stored ASCII command, you need to use the insert brackets feature. With this feature, one character replaces the left bracket

( [ ) and another character replaces the right bracket ( ] ). The default values are a single quote mark ( ‘ ) in place of the left bracket and a double quote ( “ ) in place of the right bracket. The TPT150 replaces the characters with the bracket delimiters in the stored ASCII or hex command string.

X8

= Hex button code Similar to the ASCII button code,

X7

, with the addition of an ASCII-to-hex conversion before the value is stored. For example, if you send the ASCII value 0F, the TPT150 converts it to the hex value 0F. When you press the button, the TPT150 sends 0F hex.

Entries must be in pairs; use a leading 0 if necessary. Letters must be uppercase.

Spaces between bytes are not allowed.

The insert brackets feature is not available for hex codes.

X9

X10

X11

= Projector power timeout interval 000 or 001 - 255 (minutes). 000 = no timeout.

= Power on (warm up) delay (in seconds)

= Power off (cool down) delay (in seconds)

000 – 060

000 – 256

Leading zeroes in the power on and power off delay are accepted but not required.

X12

= Baud rate

0 = 1200

3 = 9600 (default)

1 = 2400

4 = 19,200

2 = 4800

5 = 38,400

X13

= Parity mode: 0 = no parity (default), 1 = odd parity, 2 = even parity

X14

= Stop bits: 0 = 1 stop bit, 1 = 2 stop bits

X15

= Flow control mode: 0 = disable (default), 1 = enable (software flow control (Xon/Xoff)

X16

= Reset level: 0 = reset the serial port to 9600 baud, no parity, Xoff, and half duplex mode; reset the address to 97; and enable the front panel. Do not reset input codes, projector power codes, or volume settings.

1 = perform all of the same resets AND erase all input codes, projector power codes, and volume settings.

X17

= Architectural information:

S150•{serial #(9 digits)}{Rev level (1 character)}{firmware #(5 or 6 digits)}{firmware Rev level(2 digits)}

{selected baud rates}1200,2400,4800,9600,19200,38400•{reserved for future use}

TPS150 Switching and Transmission System • Serial Communications 4-13

Serial Communications, cont’d

Command/response table for programming and operating the TPT150

Command ASCII Command Response

(host to TPT150) (TPT150 to host)

Additional description

Addressing

Connect [CC X1 ] {none}

Change address number

Example:

Reset address to factory default

[ADDR X1 ]

[ADDR95]

[ADDR@]

[R0• X1 •ADDR X1 •]

[R0•95•ADDR95•]

[R0• X1 •ADDR@•]

Connect the host computer to the addressed unit. This command is case sensitive.

Change the TPT150’s address to

X1 and the displays to X1 +1.

Change the transmitter’s address number to 95 and the display’s to

96.

Reset the TPT150’s and display’s addresses to the factory defaults

(97 and 98 [97 +1]).

Input selection

Select an input [CH X2 ] [R0• X1 •CH X2 •]

Increment input selection

Decrement input selection

Query input selection

[CH+]

[CH–]

[CH?]

[R0• X1 •CH+•]

[R0• X1 •CH–•]

[R0• X1 •CH?• X2 ]

Select input X2 to transmit to the receiver and output to the display.

Select the next higher input to transmit to the receiver and output to the display. If you send this command when input 4 is selected, the transmitter wraps around to select input 1.

Select the next lower input to transmit to the receiver and output to the display. If you send this command when input 1 is selected, the transmitter wraps around to select input 4.

Input X2 is selected.

Blanking and muting

Blank the output

Unblank the output

Toggle the blank status

Mute the output

Unmute the output

Toggle the mute status

Query mute status

[BLANK1]

[BLANK0]

[BLANK]

[MUTE011]

[MUTE010]

[MUTE]

[MUTE01?]

[R0• X1 •BLANK1•]

[R0• X1 •BLANK0•]

[R0• X1 •BLANK•]

[R0• X1 •MUTE011•]

[R0• X1 •MUTE010•]

[R0• X1 •MUTE•]

[R0• X1 •MUTE01?• X3 ]

Mute the output video.

Unmute the output video.

Toggle the audio mute on and off.

Mute the output audio.

Unmute the output audio.

Toggle (change the state of) the audio mute).

The audio output is X3

(0 = off [audio unmuted],

1 = on [audio muted]).

4-14 TPS150 Switching and Transmission System • Serial Communications

Command/response table for programming and operating the TPT150 (Cont’d)

Command ASCII Command Response

(host to switcher) (switcher to host)

Additional description

Input audio level

Adjust the input audio level [VIN X2 X4 0] [R0• X1 •VIN X2 X4 0•] Set the input X2 audio level to a specified value.

Leading zeros are required in the input number ( X2 ).

Two-digit numbers are required for the audio level variable ( X4 ); use leading zeroes as required.

The negative sign (–) is required for audio attenuation level variable values other than 00)

Example:

Increment the input audio level

[VIN02–13]

[VIN X2 +]

[R0•95•VIN02–13•]

[R0• X1 •VIN X2 +•]

Decrement the input audio level

Query the input audio level setting

Reset all inputs’ audio levels

[VIN

[VIN

X2

X2

[VIN@]

–]

?]

[R0•

[R0•

[R0•

X1

X1

X1

•VIN X2

•VIN?•

–•]

X4

•VIN@•]

]

Increase the input X2 audio level by 1dB.

Decrease the input X2 audio level by 1dB.

The audio input X2 audio level is set to X4 dB.

Set all input’s audio level adjustments to their factory defaults (0dB).

Output level

Adjust the audio output level [VOL01 X5 0] [R0• X1 •VOL01 X5 0•] Set the output level to a specified value.

Two-digit numbers are required for the level variable ( X5 ), use leading zeroes as required.

The negative sign (–) is required for attenuation level variable values other than 00)

Example:

Increment the output level

Decrement the output level

Query the output level setting

Reset the output level

[VOL01–130]

[VOL+]

[VOL–]

[VOL?]

[VOL@]

[R0•95•VOL01–130•]

[R0•

[R0•

[R0•

[R0•

X1

X1

X1

X1

•VOL+•]

•VOL–•]

•VOL?• X5

•VOL@•]

]

Increase the output level by 1dB.

Decrease the output level by 1dB.

The audio output level is set to

X5 dB.

Set the output level adjustment to its factory default (0dB).

Program projector power and input command codes

Store ASCII code to a button

Example:

View a button’s ASCII code

Example:

[PCL1 X6 X7 ]

[PCL103’S-video”]

[PCL1 X6 ?]

[PCL103?]

[R0• X1 •PCL1 X6 X7 •] Program button X6 code to X7 .

[R0• X1 •PCL103’S-video”•] Program button 2 to send the command string [S-video].

The ’ and ” characters insert the delimiter brackets for devices that require them.

[R0• X1 •PCL1 X6 ?• X7 ]

[R0• X1 •PCL103[S-video]] View button 3’s command string

[S-video]. The ’ and ” characters insert the delimiter brackets for devices that require them.

Brackets inserted using the insert brackets feature appear as brackets when you use view command.

Store hex code to a button

Example:

[PCH1 X6 X8

[PCH1020F]

] [R0• X1 •PCH1 X6 X8

[R0•97•PCH1020F•]

•] Program button X6 code to X8 .

Program button 2 to send the hex command string 0F.

View a button’s hex code [PCH1 X6 ?] [R0• X1 •PCH1 X6 ?• X8 ]

The insert brackets feature is not available for hex codes.

TPS150 Switching and Transmission System • Serial Communications 4-15

Serial Communications, cont’d

Command/response table for programming and operating the TPT150 (Cont’d)

Command ASCII Command Response

(host to switcher) (switcher to host)

Program projector power and input command codes (continued)

Reset button code (ASCII or hex) [PCL1 X6 @] [R0• X1 •PCL1 X6 @•]

Additional description

Assign a projector power timeout

Example:

View the projector power timeout

[TOUT05 X9 ]

[TOUT05060]

[TOUT05?]

[R0• X1 •TOUT05 X9 •]

[R0•97•TOUT05060•]

[R0• X1 •TOUT05?• X9 ]

Clear any codes assigned to a button. The transmitter does not send any code when the button is pressed.

Set the transmitter to issue the power off command X9 minutes after power on.

The projector is powered off after

60 minutes.

The projector power timeout is set to X9 minutes.

Projector commands

Send projector power code

Toggle the projector power

Set the power on delay

Set the power off delay

Enable automatic audio mute and unmute during the projector power command.

[PPWR X3 ]

[PPWR]

[PPWRD1 X10 ]

[PPWRD0 X11 ]

[PPWRM1]

[R0• X1 •PPWR X3 •]

[R0• X1 •PPWR•]

[R0• X1 •PPWRD1 X10 •]

[R0• X1 •PPWRD0 X11 •]

[R0• X1 •PPWRM1•]

Send the projector power on or off ( X3 ) command. (0 = power off, 1 = power on).

If the projector power is on, turn it off; if it is off, turn it on.

Set the power on (warm up) delay to X10 seconds. During the delay, serial commands to the projector and TPT150 front panel operation are disabled.

Set the power off (cool down) delay to X11 seconds. During the delay, serial commands to the projector and TPT150 front panel operation are disabled.

Mute the audio when the projector power off command is issued; unmute the audio when the power on command is issued.

Disable automatic mute/unmute

Serial port configuration

Set both serial ports’ parameters

[PPWRM0] [R0• X1 •PPWRM0•]

[CP1 X12 X13 X14 X15 02 X12 X13 X14 X15 0]

[R0• X1 •CP1 X12 X13 X14 X15 02 X12 X13 X14 X15 0•]

Command description:

Example:

1 = transmitter port 2 = receiver port

[CP1 X12 X13 X14 X15 02 X12 X13 X14 X15 0]

Baud Parity Stop rate bits

Flow control

Baud rate

Parity Stop bits

Flow control

[CP130000241110] [R0•97•CP130000241110•] Set the transmitter’s serial port to

9600 baud, no parity, and 1 stop bit, Xoff; set the receiver’s serial port to 19200 baud, odd parity, 2 stop bits, and Xon.

If you change the transmitter’s settings, you may not be able to read the response until you change the controller’s settings.

Set transmitter’s serial port parameters [CP1 X12 X13 X14 X15 0] [R0• X1 •CP1 X12 X13 X14 X15 0•]

Reset both serial ports to default [CP1@] [R0• X1 •CP1@•] Reset both serial ports to their default settings: 9600 baud, no parity, 1 stop bit , and Xoff.

View both serial ports’ parameters [CP1?] [R0• X1 •CP1?• X12 X13 X14 X15 X12 X13 X14 X15 ]

4-16 TPS150 Switching and Transmission System • Serial Communications

Command/response table for programming and operating the TPT150 (Cont’d)

Command

Front panel lockout

Disable front panel

Enable front panel (default)

Toggle front panel lockout

ASCII Command Response

(host to switcher) (switcher to host)

[FP0]

[FP1]

[FP]

[FP?]

[R0• X1 •FP0•]

[R0• X1 •FP1•]

[R0• X1 •FP•]

[R0• X1 •FP?• X3 ]

Additional description

Disable the transmitter’s buttons.

Enable transmitter’s buttons.

Toggle front panel status

(enabled-to-disabled or disabledto-enabled).

0 = front panel off, 1 = on.

View front panel lockout

Transmitter reset

Reset transmitter [DFLT X16 ] {none} 0 = reset serial port settings and addresses without deleting input button codes, projector power codes, input audio level, and volume.

1 = factory reset, including input codes, projector power codes, input audio levels, and volume level.

Architectural information

View architectural information [ARC] [R0• X1 •ARC• X17 ] Display the transmitter model, revision, and connection information.

TPS150 Switching and Transmission System • Serial Communications 4-17

Serial Communications, cont’d

4-18 TPS150 Switching and Transmission System • Serial Communications

TPS150 Switching and Transmission System

A

Reference Information

Specifications

Part Numbers

Reference Information

Specifications

Video

Gain ................................................ Unity

Crosstalk ....................................... -42dB @ 10 MHz

Number/signal type ................... 1 set of proprietary analog signals

Connectors ................................... 1 RJ-45 female jack

Video input

Number/signal type

TPT150 ............................... 1 VGA-UXGA RGBHV, RGBS, RGsB with 1 RGB buffered local monitor loop-through

1 VGA-UXGA RGBHV, RGBS, RGsB

2 component video (Y, R-Y, B-Y), or S-video, or composite video

TPR150 ............................... 1 set of proprietary analog signals from a TPT150

Connectors

TPT 150 .............................. 2 female 15-pin HD (RGB input)

1 female 15-pin HD (RGB loop-through)

2 sets of [3 female RCA (component video), 1 female RCA (composite),

1 female 4-pin mini DIN (S-video)]

TPR150 ............................... 1 female RJ-45 jack

Nominal level ............................... 1 V p-p for Y of component video and S-video, and for composite video

0.7 V p-p for RGB

0.3 V p-p for R-Y and B-Y of component video, and for C of S-video

Minimum/maximum levels ....... Analog: 0.3 V to 1.5 V p-p with no offset at unity gain

Impedance .................................... 75 ohms

Return loss .................................... <-44dB @ 5 MHz

DC offset (max. allowable) ......... ±0.5 mV

Video output

Number/signal type

TPT150 ............................... 1 set of proprietary analog signals

TPR150 ............................... 1 RGBHV, RGBS, RGsB

1 component video(Y, R-Y, B-Y)

1 S-video

1 composite video

Connectors

TPT150 ............................... 1 female RJ-45 jack

TPR150 ............................... 1 female 15-pin HD (RGB)

3 female RCA (component video)

1 female 4-pin mini DIN (S-video)

1 female RCA (composite video)

Nominal level ............................... 1 V p-p for Y of component video and S-video, and for composite video

0.7 V p-p for RGB

0.3 V p-p for R-Y and B-Y of component video, and for C of S-video

Minimum/maximum levels ....... 0.3 V to 1.5 V p-p

Impedance .................................... 75 ohms

Return loss .................................... -22dB @ 5 MHz

DC offset ....................................... ±0.5 mV with input at 0 offset

Sync

Input type ..................................... RGBHV, RGBS, RGsB

Output type .................................. RGBHV, RGBS, RGsB (follows input)

A-2 TPS150 Switching and Transmission System • Reference Information

Standards ...................................... NTSC 3.58, NTSC 4.43, PAL, SECAM

Input level ..................................... 2.3 V to 4.6 V p-p, unterminated

Output level .................................. 3.2 V to 4.6 V p-p, unterminated

Input impedance .......................... 510 ohms

Output impedance ....................... 75 ohms

Max. input voltage ....................... 4.6 V p-p

Max. propagation delay .............. 760 ns

Max. rise/fall time ....................... 35 ns

Polarity .......................................... Negative

Audio — TPT150 only

Gain ................................................ -30dB to +9dB, adjustable

Frequency response .................... 20 Hz to 20 kHz, ±2.4dB

THD + Noise ................................. 0.04% @ 1 kHz at nominal level

S/N ............................................... >-96dB at maximum output

Crosstalk ....................................... <-93dB @ 20 kHz, fully loaded

Stereo channel separation .......... >-90dB @ 1 kHz

Audio input — TPT150 only

Number/signal type ................... 4 stereo, unbalanced

Connectors ................................... 4 pairs of RCA connectors

Impedance .................................... >7.8k ohms unbalanced, DC coupled

Nominal level ............................... 2.22dBu (1 Vrms)

Maximum level ............................ +10.1dBu, (unbalanced) at 1%THD+N

0dBu = 0.775 Vrms, 0 dBV = 1 Vrms, 0 dBV 2dBu

Audio output — TPT150 only

Number/signal type ................... 1 stereo, balanced/unbalanced

Connectors ................................... (1) 3.5 mm captive screw connector, 5 pole

Impedance .................................... 51 ohms unbalanced

Gain error ..................................... ±0.03dB channel to channel

Maximum level (Hi-Z) ................ >+10.2dBu, balanced or unbalanced at 1%THD+N

Maximum level (600 ohm) ......... >+4.2dBm, balanced or unbalanced at 1%THD+N

Control/remote — transmitter (TPT150)

Serial control port ........................ RS-232, 9-pin male D connector

Baud rate and protocol ............... 38400, 19200, 9600 (default), 4800, 2400, or 1200 baud (configurable); 8 data bits; 1 (default) or 2 stop bits; no parity (default), or even or odd parity

Serial control pin configurations 2 = RX, 3 = TX, 5 = GND

Contact closure ............................ (1) 3.5 mm captive screw connector, 8 pole for a CTP150CM control panel or locally constructed device

Contact closure pin configurations 1 = input 1, 2 = input 2, 3 = input 3, 4 = input 4, 5 = volume up,

6 = volume down, 7 = projector power, 8 = GND

Program control .......................... Inline Control Software for Windows ® – lCS100

Control — projector (TPR only)

Projector control port ................. RS-232, 9-pin male D connector

Baud rate and protocol ............... 38400, 19200, 9600 (default), 4800, 2400, or 1200 baud (configurable); 8 data bits; 1 (default) or 2 stop bits; no parity (default), or even or odd parity

TPS150 Switching and Transmission System • Reference Information A-3

Reference Information, cont’d

General

Power ............................................ 90 VAC to 260 VAC, 47 to 63 Hz, internal, autoswitchable

TPT150: 9 watts

TPR150: 20 watts

Temperature/humidity .............. Storage -40° to +158°F (-40° to +70°C) / 10% to 90%, noncondensing

Operating +32° to +104°F (0° to +40°C) / 10% to 90%, noncondensing

Rack mount

TPT150 ............................... Yes, with included brackets, part #MTR102

TPR150 ............................... No, but projector pole mountable with included L brackets

Enclosure type .............................. Metal

Enclosure dimensions

TPT 150 .............................. 1.7” H x 17.0” W x 11.5” D (1U high, full rack wide)

4.3 cm H x 43.2 cm W x 29.2 cm D

(Depth excludes connectors. Width excludes rack ears. Height excludes rubber feet.)

TPR150 ............................... 1.7" H x 11.75" W x 6.0" D (1U high)

4.3 cm H x 29.8 cm W x 15.2 cm D

(Depth excludes connectors. Width excludes rack ears. Height excludes rubber feet.)

Product weight

TPT150 ............................... 5.2 lbs (2.4 kg)

TPR150 ............................... 2.2 lbs (1.0 kg)

Shipping weight ........................... 13 lbs (6 kg)

DIM weight

USA/Canada .................... 11 lbs (5 kg)

International ..................... 12 lbs (6 kg)

Vibration ....................................... ISTA 1A in carton (International Safe Transit Association)

Listings .......................................... UL, CUL

Compliances ................................. CE, FCC Class A

MTBF ............................................. 30,000 hours

Warranty ....................................... 3 years parts and labor

All nominal levels are at ±10%

Specifications are subject to change without notice.

A-4 TPS150 Switching and Transmission System • Reference Information

Part Numbers

Included parts

These items are included in each order for a TPS150:

Included parts

TPS150 twisted pair (TP) switching and transmission system

TPT150 switching transmitter

TPR150 receiver

Rack mounting ears

Projector pole mounting brackets

3.81 mm captive screw connector

3.5 mm captive screw connector

ICS100 control software

IEC power cord

Tweeker (small screwdriver)

TPS150 User’s Manual

VGA M6' MHR (molded) VGA cable (6 feet/1.83 meters)

6' component video cable (6 feet/1.83 meters)

SVHS 6' S-video cable (6 feet/1.83 meters)

6' RCA male-to-male composite video cable (6 feet/1.83 meters)

Optional accessories

Accessory

CTP150 remote control panel, black

CTP150 remote control panel, white

Part number

70-369-01

60-575-01

60-574-01

992546-2

992547-2

10-265-02

10-579-01

26-238-01

26-601-01

26-316-02

26-600-01

Part number

60-614-10

60-614-20

TPS150 Switching and Transmission System • Reference Information A-5

Reference Information, cont’d

A-6 TPS150 Switching and Transmission System • Reference Information

FCC Class A Notice

Note: This equipment 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 equipment is operated in a commercial environment. This equipment generates, uses and can radiate radio frequency energy and, if not installed and used in accordance with the instruction manual, may cause harmful interference to radio communications. Operation of this equipment in a residential area is likely to cause harmful interference, in which case the user will be required to correct the interference at his own expense.

Note: This unit was tested with shielded cables on the peripheral devices. Shielded cables must be used with the unit to ensure compliance.

Extron’s Warranty

Extron Electronics warrants this product against defects in materials and workmanship for a period of three years from the date of purchase. In the event of malfunction during the warranty period attributable directly to faulty workmanship and/or materials, Extron Electronics will, at its option, repair or replace said products or components, to whatever extent it shall deem necessary to restore said product to proper operating condition, provided that it is returned within the warranty period, with proof of purchase and description of malfunction to:

USA, Canada, South America, and Central America:

Extron Electronics

1001 East Ball Road

Anaheim, CA 92805, USA

Europe, Africa, and the Middle East:

Extron Electronics, Europe

Beeldschermweg 6C

3821 AH Amersfoort

The Netherlands

Asia:

Extron Electronics, Asia

135 Joo Seng Road, #04-01

PM Industrial Bldg.

Singapore 368363

Japan:

Extron Electronics, Japan

Daisan DMJ Bldg. 6F,

3-9-1 Kudan Minami

Chiyoda-ku, Tokyo 102-0074

Japan

This Limited Warranty does not apply if the fault has been caused by misuse, improper handling care, electrical or mechanical abuse, abnormal operating conditions or non-Extron authorized modification to the product.

If it has been determined that the product is defective, please call Extron and ask for an Applications

Engineer at (714) 491-1500 (USA), 31.33.453.4040 (Europe), 65.383.4400 (Asia), or 81.3.3511.7655 (Japan) to receive an RA# (Return Authorization number). This will begin the repair process as quickly as possible.

Units must be returned insured, with shipping charges prepaid. If not insured, you assume the risk of loss or damage during shipment. Returned units must include the serial number and a description of the problem, as well as the name of the person to contact in case there are any questions.

Extron Electronics makes no further warranties either expressed or implied with respect to the product and its quality, performance, merchantability, or fitness for any particular use. In no event will Extron Electronics be liable for direct, indirect, or consequential damages resulting from any defect in this product even if Extron Electronics has been advised of such damage.

Please note that laws vary from state to state and country to country, and that some provisions of this warranty may not apply to you.

www.extron.com

Extron Electronics, USA

1230 South Lewis Street

Anaheim, CA 92805

USA

714.491.1500

Fax 714.491.1517

Extron Electronics, Europe

Beeldschermweg 6C

3821 AH Amersfoort

The Netherlands

+31.33.453.4040

Fax +31.33.453.4050

Extron Electronics, Asia

135 Joo Seng Road, #04-01

PM Industrial Building

Singapore 368363

+65.6383.4400

Fax +65.6383.4664

© 2004 Extron Electronics. All rights reserved.

Extron Electronics, Japan

Daisan DMJ Building 6F

3-9-1 Kudan Minami

Chiyoda-ku, Tokyo 102-0074 Japan

+81.3.3511.7655

Fax +81.3.3511.7656

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