Extron electronics XTP CrossPoint1600, XTP CrossPoint 3200 User Manual

Page 1
XTP CrossPoint Series
Configurable Digital Video Matrix Switchers
User Guide
XTP Systems
68-1736-01 Rev. G
12 17
Page 2

Safety Instructions

Safety Instructions • English
alert the user of the presence of uninsulated dangerous voltage within the product’s enclosure that may present a risk of electric shock.
ATTENTION: This symbol, , when used on the product, is intended
to alert the user of important operating and maintenance (servicing) instructions in the literature provided with the equipment.
For information on safety guidelines, regulatory compliances, EMI/EMF compatibility, accessibility, and related topics, see the Extron Safety and Regulatory Compliance Guide, part number 68-290-01, on the Extron website, www.extron.com.
Sicherheitsanweisungen • Deutsch
WARNUNG: Dieses Symbol auf dem Produkt soll den Benutzer darauf
aufmerksam machen, dass im Inneren des Gehäuses dieses Produktes gefährliche Spannungen herrschen, die nicht isoliert sind und die einen elektrischen Schlag verursachen können.
VORSICHT: Dieses Symbol auf dem Produkt soll dem Benutzer in der im
Lieferumfang enthaltenen Dokumentation besonders wichtige Hinweise zur Bedienung und Wartung (Instandhaltung) geben.
Weitere Informationen über die Sicherheitsrichtlinien, Produkthandhabung, EMI/EMF-Kompatibilität, Zugänglichkeit und verwandte Themen finden Sie in den Extron-Richtlinien für Sicherheit und Handhabung (Artikelnummer 68-290-01) auf der Extron-Website, www.extron.com.
Instrucciones de seguridad • Español
ADVERTENCIA: Este símbolo, , cuando se utiliza en el producto,
avisa al usuario de la presencia de voltaje peligroso sin aislar dentro del producto, lo que puede representar un riesgo de descarga eléctrica.
ATENCIÓN: Este símbolo, , cuando se utiliza en el producto,
avisa al usuario de la presencia de importantes instrucciones de uso y mantenimiento recogidas en la documentación proporcionada con el equipo.
Para obtener información sobre directrices de seguridad, cumplimiento de normativas, compatibilidad electromagnética, accesibilidad y temas relacionados, consulte la Guía de cumplimiento de normativas y seguridad de Extron, referencia 68-290-01, en el sitio Web de Extron, www.extron.com.
Instructions de sécurité • Français
AVERTISSEMENT : Ce pictogramme, , lorsqu’il est utilisé sur le
produit, signale à l’utilisateur la présence à l’intérieur du boîtier du produit d’une tension électrique dangereuse susceptible de provoquer un choc électrique.
ATTENTION : Ce pictogramme, , lorsqu’il est utilisé sur le produit,
signale à l’utilisateur des instructions d’utilisation ou de maintenance importantes qui se trouvent dans la documentation fournie avec le matériel.
Pour en savoir plus sur les règles de sécurité, la conformité à la réglementation, la compatibilité EMI/EMF, l’accessibilité, et autres sujets connexes, lisez les informations de sécurité et de conformité Extron, réf. 68-290-01, sur le site Extron, www.extron.com.
Istruzioni di sicurezza • Italiano
AVVERTENZA: Il simbolo, , se usato sul prodotto, serve ad avvertire
l’utente della presenza di tensione non isolata pericolosa all’interno del contenitore del prodotto che può costituire un rischio di scosse elettriche.
ATTENTZIONE: Il simbolo, , se usato sul prodotto, serve ad avvertire
l’utente della presenza di importanti istruzioni di funzionamento e manutenzione nella documentazione fornita con l’apparecchio.
Per informazioni su parametri di sicurezza, conformità alle normative, compatibilità EMI/EMF, accessibilità e argomenti simili, fare riferimento alla Guida alla conformità normativa e di sicurezza di Extron, cod. articolo 68-290-01, sul sito web di Extron, www.extron.com.
Instrukcje bezpieczeństwa • Polska
OSTRZEŻENIE: Ten symbol, , gdy używany na produkt, ma na celu
poinformować użytkownika o obecności izolowanego i niebezpiecznego napięcia wewnątrz obudowy produktu, który może stanowić zagrożenie porażenia prądem elektrycznym.
UWAGI: Ten symbol, , gdy używany na produkt, jest przeznaczony do
ostrzegania użytkownika ważne operacyjne oraz instrukcje konserwacji (obsługi) w literaturze, wyposażone w sprzęt.
Informacji na temat wytycznych w sprawie bezpieczeństwa, regulacji wzajemnej zgodności, zgodność EMI/EMF, dostępności i Tematy pokrewne, zobacz Extron bezpieczeństwa i regulacyjnego zgodności przewodnik, część numer 68-290­01, na stronie internetowej Extron, www.extron.com.
Инструкция по технике безопасности Русский
ПРЕДУПРЕЖДЕНИЕ: Данный символ, , если указан
на продукте, предупреждает пользователя о наличии неизолированного опасного напряжения внутри корпуса продукта, которое может привести к поражению электрическим током.
ВНИМАНИЕ: Данный символ, , если указан на продукте,
предупреждает пользователя о наличии важных инструкций по эксплуатации и обслуживанию в руководстве, прилагаемом к данному оборудованию.
Для получения информации о правилах техники безопасности, соблюдении нормативных требований, электромагнитной совместимости (ЭМП/ЭДС), возможности доступа и других вопросах см. руководство по безопасности и соблюдению нормативных требований Extron на сайте Extron: ,
www.extron.com, номер по каталогу - 68-290-01.
安全说明 简体中文
警告产品上的这个标志意在警告用户该产品机壳内有暴露的危险 电压,
有触电危险。
注意 产品上的这个标志意在提示用户设备随附的用户手册中有
重要的操作和维护(维修)说明。
关于我们产品的安全指南、遵循的规范、EMI/EMF 的兼容性、无障碍 使用的特性等相关内容,敬请访问 Extron 网站 , www.extron.com,参见
Extron 安全规范指南,产品编号 68-290-01
Page 3
安全記事 • 繁體中文
警告: 若產品上使用此符號,是為了提醒使 用者,產品機殼內存 在著
可能會導致觸電之風險的未絕緣危險電壓。
注意 若產品上使用此符號,是為了提醒使用者,設備隨附的用戶手冊中有
重要的操作和維護(維修)説明
有關安全性指導方針、法規遵守、EMI/EMF 相容性、存取範圍和相關主題的詳細資 訊,請瀏覽 Extron 網站:www.extron.com,然後參閱《Extron 安全性與法規 遵守手冊》,準則編號 68-290-01。
安全上のご注意 日本語
警告: この記 号 が製品上に表示されている場合は、筐体内に絶縁されて
いない高電圧が流れ、感電の危険があることを示しています。
注意:この記号 が製品上に表示されている場合は、本機の取扱説明書に
記載されている重要な操作と保守( 整備)の 指示についてユーザーの注 意 を喚起するものです。
安全上のご注意、法規厳守、EMI/EMF適合性、その他の関連項目に つ い て は 、エ ク ストロ ン の ウェ ブ サ イト www.extron.com よ り 『 Extron Safety and Regulatory Compliance Guide』 ( P/N 68-290-01) をご覧ください。
안전 지침 • 한국어
경고: 이 기호 가 제품에 사용될 경우, 제품의 인클로저 내에 있는
접지되지 않은 위험한 전류로 인해 사용자가 감전될 위험이 있음을 경고합니다.
주의: 이 기호 가 제품에 사용될 경우, 장비와 함께 제공된 책자에 나와
있는 주요 운영 및 유지보수(정비) 지침을 경고합
안전 가이드라인, 규제 준수, EMI/EMF 호환성, 접근성, 그리고 관련 항목에 대한 자세한 내용은 Extron 웹 사이트(www.extron.com)의 Extron 안전 및 규제 준수 안내서, 68-290-01 조항을 참조하십시오.
니다.
Copyright
© 2017 Extron Electronics. All rights reserved.
Trademarks
All trademarks mentioned in this guide are the properties of their respective owners. The following registered trademarks(
®
), registered service marks(
SM
), and trademarks(TM) are the property of RGBSystems, Inc. or
ExtronElectronics (see the current list of trademarks on the Terms of Use page at www.extron.com):
Registered Trademarks (
®
)
Extron, Cable Cubby, ControlScript, CrossPoint, DTP, eBUS, EDID Manager, EDID Minder, Flat Field, FlexOS, Global Configurator, GlobalScripter, GlobalViewer, Hideaway, HyperLane, IPIntercom, IPLink, KeyMinder, LinkLicense, LockIt, MediaLink, MediaPort, NetPA, PlenumVault, PoleVault, PowerCage, PURE3, Quantum, Show Me, SoundField, SpeedMount, SpeedSwitch, SystemINTEGRATOR, TeamWork, TouchLink, V-Lock, VideoLounge, VN-Matrix, VoiceLift, WallVault, WindoWall, XTP, XTPSystems, and ZipClip
Registered Service Mark
(SM)
: S3 Service Support Solutions
Trademarks (™
)
AAP, AFL (Accu-RateFrameLock), ADSP(Advanced Digital Sync Processing), Auto-Image, CableCover, CDRS(ClassD Ripple Suppression), Codec Connect, DDSP(Digital Display Sync Processing), DMI (DynamicMotionInterpolation), DriverConfigurator, DSPConfigurator, DSVP(Digital Sync Validation Processing), eLink, Entwine, EQIP, Everlast, FastBite, FOX, FOXBOX, IP Intercom HelpDesk, MAAP, MicroDigital, Opti-Torque, ProDSP, QS-FPC(QuickSwitch Front Panel Controller), Room Agent, Scope-Trigger, ShareLink, SIS, SimpleInstructionSet, Skew-Free, SpeedNav, StudioStation, Triple-Action Switching, True4K, Vector™ 4K, WebShare, XTRA, and ZipCaddy
Page 4

FCC Class A Notice

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. The ClassA limits 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 interference. This interference must be corrected at the expense of the user.
ATTENTION: The Twisted Pair Extension technology works with unshielded twisted
pair (UTP) or shielded twisted pair (STP) cables; but to ensure FCC Class A and CE compliance, STP cables and STP Connectors are required.
For more information on safety guidelines, regulatory compliances, EMI/EMF compatibility, accessibility, and related topics, see the “Extron Safety and Regulatory
Compliance Guide” on the Extron website.

Battery Notice

This product contains a battery. Do not open the unit to replace the battery. If the battery needs replacing, return the entire unit to Extron (for the correct address, see the Extron Warranty section on the last page of this guide).
CAUTION: Risk of explosion. Do not replace the battery with an incorrect type. Dispose
of used batteries according to the instructions.
ATTENTION : Risque d’explosion. Ne pas remplacer la pile par le mauvais type de pile.
Débarrassez-vous des piles usagées selon le mode d’emploi.
Page 5

Conventions Used in this Guide

Notifications

The following notifications are used in this guide:
WARNING: Potential risk of severe injury or death. AVERTISSEMENT : Risque potentiel de blessure grave ou de mort.
CAUTION: Risk of minor personal injury. ATTENTION : Risque de blessure mineure.
ATTENTION:
Risk of property damage.
Risque de dommages matériels.
NOTE: A note draws attention to important information.
TIP: A tip provides a suggestion to make working with the application easier.

Software Commands

Commands are written in the fonts shown here:
^AR Merge Scene,,Op1 scene 1,1 ^B 51 ^W^C
[01] R 0004 00300 00400 00800 00600 [02] 35 [17] [03]
EX!*X1&*X2)*X2#*X2! CE}
NOTE: For commands and examples of computer or device responses mentioned
in this guide, the character “0” is used for the number zero and “O” represents the capital letter “o.”
Computer responses and directory paths that do not have variables are written in the font shown here:
Reply from 208.132.180.48: bytes=32 times=2ms TTL=32
C:\Program Files\Extron
Variables are written in slanted form as shown here:
ping xxx.xxx.xxx.xxx —t
SOH R Data STX Command ETB ETX
Selectable items, such as menu names, menu options, buttons, tabs, and field names are written in the font shown here:
From the File menu, select New. Click the OK button.

Specifications Availability

Product specifications are available on the Extron website, www.extron.com.

Extron Glossary of Terms

A glossary of terms is available at http://www.extron.com/technology/glossary.aspx.
Page 6
Page 7

Contents

Introduction ................................................1
Guide Overview ................................................... 1
Product Description ............................................. 2
Endpoint Configuration .................................... 3
Input and Output Board and Signal Types ........ 4
Features .............................................................. 7
Installation ................................................ 11
Setup and Installation Checklist ......................... 11
Rear Panel Cabling and Features ....................... 12
Input and Output Boards ............................... 14
Remote Control Ports .................................... 26
Ethernet Connection ...................................... 26
Reset Button and LED ................................... 27
Power ............................................................ 27
Front Panel Configuration Port and Power
LEDs ................................................................ 27
Operation..................................................29
Front Panel Controls and Indicators ................... 29
Input and Output Buttons .............................. 31
Control Buttons ............................................. 32
I/O Controls ................................................... 34
Power LEDs .................................................. 34
Button Icons .................................................. 35
Front Panel Operations ...................................... 35
Definitions ...................................................... 36
Power ............................................................ 36
Front Panel Security Lockouts ....................... 36
Creating a Configuration ................................ 37
Viewing the Configuration .............................. 41
Using Presets ................................................ 44
Muting and Unmuting Video and Audio
Outputs ........................................................ 46
Viewing and Adjusting the Input Audio
Level ............................................................. 48
Viewing and Adjusting the Analog Output
Volume ......................................................... 54
Setting the Front Panel Locks
(Executive Modes) ........................................ 59
Performing a System Reset from the
Front Panel ................................................... 60
Background Illumination................................. 61
Selecting the Rear Panel Remote Port
Protocol and Baud Rate ............................... 61
Rear Panel Operations ....................................... 62
Performing a Hard Reset (Reset 1) ................. 64
Performing Soft System Resets
(Resets 3, 4, and 5) ...................................... 65
Optimizing the Analog Audio .............................. 66
RS-232 Insertion ............................................... 66
Enabling Ethernet and Captive Screw
Insertion ....................................................... 66
Ethernet to RS-232 Insertion ......................... 67
Captive Screw Signal Insertion ....................... 69
Troubleshooting ................................................. 70
Configuration Worksheets.................................. 71
Worksheet Example 1: System Equipment .... 71
Worksheet Example 2: Daily Configuration ..... 72
Worksheet Example 3: Test Configuration ...... 73
XTP CrossPoint 3200 Matrix Switchers
Configuration Worksheet .............................. 74
XTP CrossPoint 1600 Matrix Switchers
Configuration Worksheet .............................. 75
Programming Guide ..................................76
Local Host-Control Ports ................................... 77
Ethernet (LAN) Port............................................ 77
Default IP addresses ...................................... 77
Establishing a Connection.............................. 78
Connection Timeouts .................................... 78
Number of Connections ................................. 78
Using Verbose Mode ..................................... 78
Host-to-Matrix-Switcher Instructions ................. 79
Matrix-Switcher-Initiated Messages ................... 79
Matrix Switcher Error Responses ....................... 80
viiXTP CrossPoint Series • Contents
Page 8
Using the Command and Response Tables ....... 80
Arrangement of Command and Response
Tables ........................................................... 81
SIS Command and Response Table for
Basic Matrix Switcher Commands .................... 87
SIS Command and Response Table for
Input-Board-Specific Commands ..................... 88
SIS Command and Response Table for
Input-Endpoint-Specific Commands ................. 96
SIS Command and Response Table for
Output-Board-Specific Commands ................ 103
SIS Command and Response Table for
Output-Endpoint-Specific Commands ............ 107
SIS Command and Response Table for
Advanced Matrix Switcher Commands ........... 111
SIS command and Response Table for
IP- and Remote Port-Specific Commands ...... 119
Special Characters .......................................... 120
HTML Operation ......................................121
Download the Startup Page ............................. 122
Status Tab ....................................................... 123
System Status Page .................................... 123
DSVP Page ................................................. 124
HDCP Page ................................................. 125
Configuration Tab ............................................ 126
System Settings Page ................................. 126
Passwords Page.......................................... 129
Email Settings Page ..................................... 130
Firmware Upgrade Page .............................. 132
File Management Tab ...................................... 136
File Management Page ................................ 136
Control Tab ...................................................... 137
Set and View Ties Page ............................... 137
Input Adjustments Page............................... 138
Output Adjustments Page ............................ 139
EDID Configuration Page ............................. 142
XTP Power Page ......................................... 143
Global Presets Page .................................... 144
Maintenance and Modifications ............... 145
Mounting the Matrix Switcher .......................... 145
UL Guidelines .............................................. 145
Mounting Instructions .................................. 146
Battery and Power Precautions ....................... 146
Removing and Installing an Input or Output
Board or Blank Panel ...................................... 146
Removing an Input or Output Board or
Blank Panel ................................................ 146
Installing an Input or Output Board or
Blank Panel ................................................ 147
Removing and Installing Button Labels ............ 148
Making Labels Using the Button-Label
Generator Program ..................................... 148
Making Labels from Paper Templates .......... 150
Installing Labels in the Buttons ..................... 150
Ethernet Connection ............................... 152
Ethernet Link ................................................... 152
Ethernet Connection .................................... 152
Default IP Address ....................................... 152
Pinging to Determine the Extron
IP Address .................................................. 153
Pinging to Determine the Web IP Address ... 153 Configuring the XTP CrossPoint
Series Matrix Switcher for Network
Use via the ARP Command ........................ 154
Connecting as a Telnet Client ....................... 155
Telnet Tips ................................................... 155
Subnetting — a Primer .................................... 157
Gateways .................................................... 157
Analog and Remote Devices ........................ 157
IP Addresses and Octets ............................. 157
Subnet Masks and Octets ........................... 157
Determining Whether Devices Are on the
Same Subnet ............................................. 158
XTP CrossPoint Series • Contents viii
Page 9

Introduction

Ext Cable
Cabl
XTP Transmitter
This section contains basic information about this guide and the XTP CrossPoint Series. Topics in this section include the following:
Guide Overview
Product Description
Features

Guide Overview

This guide contains installation, configuration, and operating information for the Extron XTP CrossPoint1600 Matrix Switcher (see figure 1) and XTP CrossPoint 3200 Matrix Switcher. These customizable matrix switchers support up to 16 (XTP CrossPoint1600) or 32 (XTP CrossPoint 3200) inputs and outputs.
NOTE: In this guide, the terms “XTP CrossPoint Series matrix switchers” and “matrix
switchers” refer to any of the matrix switcher models unless otherwise specified.
VGA
PRESSPRESS
PRESS PRESS
USB CHARGER
125 VAC. 50-60 Hz 12A MAX
ron
Cubby 700
e Access Enclosure
HDMI
SELECT
PQLS HDMI OPEN/CLOSE FL OFF
Ethernet
DIRECTV HD
USB
Laptop
PUSH PUSH
POWERGUIDE MENU RES480 480p720p 1080i1080p
DIRECTV
Satellite Receiver
STANDBY/ON
UHD Blu-ray
Extron XTP T USW 103 4K
XTP Transmitter
XTP T USW 103 4K
INPUTS
POWER
123
12V
AUDIO
--A MAX
RGB
HDMIDISPLAYPORT
CONTACT
SIG LINK
XTP OUT
HDMI OUT
HDMI
DisplayPort
Ethernet
PWRHDCPHDMIPC
AUDIO IN
HDMI IN
VGA IN
LAN
ACT LINK
Extron XTP T UWP 202 4K
XTP Transmitter
HDMI HDMI
Ethernet
HDMI
INPUTS
POWER 12V
0.7A MAX
XTP T HD 4K
HDMI
IR
OVER XTP
AUDIO
AUDIO
RS-232 IR
LR
ON
OFF
−+
−+
Rx GTx
LOOP THRU
Extron XTP T HD 4K
XTP Transmitter
AV Control
Network
TALLY OUT
RS-232
R
123
TxRx123
G
G
+V
RS-232 IR
RxGTx
RxTx
LAN
Shielded Twisted Pair
Shielded Twisted Pair
Shielded Twisted Pair
SIG LINK
RESET
RxTx
XTP OUT
LAN
Ethernet
Ethernet
Extron IPCP Pro 550
IP Link Control Processor
100-240V ~ 50-60Hz
5A MAX
XTP CROSSPOINT 1600
1 2
+-+-
SWITCHED 12 VDC 40W MAX TOTAL
3
4
+-+-
12 VDC
RS-232
DISCONNECT POWER
100-240V
2 3 7
1
TxRx GTxRxGTxRxGTxRxG SGSG SGSGRTSCTS
4 5 6 8
TxRx GTxRxGTxRxGTxRxGRTSCTS
CORD BEFORE
SERVICING
12.0A MAX
50-60Hz
1234
5678
SGSGSG SG
1−4
5−8
9−12
13−16
1−4
5−8
OUTPUTS INPUTS
9−12
13−16
IR
INPUTS
INPUTS
INPUTS
INPUTS
OUTPUTS
OUTPUTS
OUTPUTS
OUTPUTS
IPCP PRO 550
1234
PWR OUT = 12W
+V
-SG
+S
eBUS
1 2 3 4 G
5678
FLEX I/O
RELAYSIR/SERIALCOM
Ethernet Ethernet
XTP IN
SIGLINK
SIGLINK
LANLAN LANLAN
SIGLINK
SIGLINK
PWR
PWR
XTP IN
XTP IN
LAN
RS-232/422
REMOTE LAN
XTP OUT
SIG LINK
SIG LINK
LAN LAN LANLAN
SIGLINK
SIGLINK
PWR
PWR
XTP OUT
XTP OUT
LAN
Extron XTP CrossPoint 1600
Modular Digital Matrix Switcher
Ethernet
VGA
POWER 12V
PC
--A MAX
UNIVERSAL
House Network Switch
LAN
SIGLINK
SIGLINK
Audio
XTP IN
LAN
XTP OUT
LAN
SIGLINK
PWR
XTP IN
SIGLINK
PWR
XTP OUT
XTP T VGA
XTP IN
SIGLINK
RS-232
TxRx GTxRx
LAN
XTP OUT
SIGLINK
RS-232
TxRx GTxRx
LAN
AUDIO
RS-232
LRLRLR LR
RS-232
TxRx GTxRx
LR
LRLRLR LR
RS-232
TxRx GTxRx
LRLR LR LR
OVER XTP
RxGTx
XTP IN
SIGLINK
PWR
XTP IN
LAN
RESET
XTP OUT
SIGLINK
PWR
XTP OUT
LAN
INPUTS
LOOP THRU
Extron TLP Pro 1022T
10" Tabletop TouchLink Pro Touchpanel
Shileded Twisted Pair
XTP II CP 4i HD 4K PLUS
AUDIO
XTP CP 4i FIBER 4K
OVER FIBER
RS-232
RS-232
RS-232
IR
IR
IR
IR
TxRx GTxRx
TxRx GTxRx
OVER XTP
RS-232
RS-232
IR
IR
TxRx GTxRx
TxRx GTxRx
AUDIO
LRLRLR
AUDIO
OVER FIBER
RS-232
RS-232
IR
IR
TxRx GTxRx
TxRx GTxRx
OVER XTP
RS-232
RS-232
IR
IR
TxRx GTxRx
TxRx GTxRx
AUDIO
Shielded
TxRx GTxRx
Twisted Pair
XTP CP 4i 4K
RS-232
IR
IR
TxRx GTxRx
XTP CP 4i VGA
XTP II CP 4o HD 4K PLUS
XTP CP 4o FIBER 4K
RS-232
IR
IR
TxRx GTxRx
XTP CP 4o 4K
RS-232
IR
IR
TxRx GTxRx
XTP CP 4o SA
Extron XTP R HD 4K
XTP Receiver
Audio
Shielded Twisted Pair
100-240V 1.3A, 50-60Hz
Extron XPA 1002
Stereo Power Amplier
SIG LINK
IR
RESET
Extron
XTP OUT
RxTx
LAN
XTP T VGA
SIG LINK
POWER 12V 1A MAX
XTP IN
LAN
Extron XTP SR HD 4K
XTP Scaling Receiver
SIG LINK
POWER 12V
0.7A MAX
XTP IN
-+
LAN
17TT
AUDIO/VIDEO
C US
APPARATUS
LISTED
12 LIMITER/ PROTECT
SIGNAL
1
RS-232 IR
LEVEL
OVER XTP
Rx GTx
OVER XTP
RS-232 IR
0 0
IR
RxTx
RS-232
RxTx
Rx GTx
2
ON
OFF
AUDIO
AUDIO
ON
OFF
INPUTS
1
Ethernet
HDMI
Ethernet
HDMI
CLASS 2 WIRING
REMOTE
10V 50 mA
VOL/MUTE
2
AUDIO
LR
−+−+
STANDBY
HDMI
HDMI
AUDIO
OUTPUTS
1
S/PDIF
OUTPUTS
RL
-+-+
S/PDIF
XPA 1002
OUTPUT
2
1
4K Display
REMOTERELAYS
RS-232
2
RESET
TxRx G
4K Display
XTP R HD 4K
RELAYS
1
2
RESET
4K Display
Extron SI 28
Surface Mount Speakers
Figure 1. Typical XTP CrossPoint Application
XTP CrossPoint Series • Introduction 1
Page 10

Product Description

Input Boards Output Boards XTP CP 4i and XTP CP 4i 4K (XTP input board)
Receives inputs from Extron XTP transmitters and local serial port and IR inserts.
XTP CP 4i Fiber 4K (fiber optic input board) Receives fiber optic and local serial port and IR inserts.
XTP II CP 4i HD 4K PLUS (HDMI input board) Receives 4K HDMI signals and analog audio inputs.
XTP CP 4i HDMI (HDMI input board) Receives HDMI signals and analog audio inputs.
XTP CP 4i HDMI DMA (HDMI input board) Receives HDMI signals and analog audio inputs. SUpports audio downmixing.
XTP CP 4i DVI Pro (DVI Pro input board) Receives DVI Pro signals and analog audio inputs.
XTP CP 4i 3G-SDI (3G-SDI input board) Receives 3G-SDI, HD-SDI, and SDI video inputs and analog audio inputs.
XTP CP 4i VGA (universal analog VGA input board) Receives RGBHV, RGBs, RGsB, HDTV, and YUV component video, S-video, and composite video analog inputs and analog audio inputs.
The XTP CrossPoint Series matrix switchers are configurable, modular switchers that distribute a variety of video, audio, and data types, depending on its configuration. A matrix switcher routes any input signal to any combination of outputs. It can route multiple signals at once.
The XTP CrossPoint Series models are assembled from user-installed and hot-swappable input and output boards in the following quantities:
XTP CrossPoint 1600 — Supports up to four input boards and four output boards.
XTP CrossPoint 3200 — Supports up to eight input boards and eight output boards.
The table below identifies the various types of input boards and output boards currently available, each of which can receive (input boards) or output (output boards) up to four signals (see Input and Output Boards and Signal Types on page 4 for details).
Available Input and Output Board Table
XTP CP 4o and XTP CP 4o 4K (XTP output board)
Outputs signals to Extron XTP receivers, Includes local serial port and IR inserts.
XTP CP 4o Fiber 4K (fiber optic output board) Outputs fiber optic outputs. Includes local serial port and IR inserts.
XTP II CP 4o HD 4K PLUS (HDMI output board) Outputs 4K HDMI nd analog audio outputs. Output is HDCP-compliant if the input is HDCP-compliant.
XTP CP 4o HDMI (HDMI output board) Outputs HDMI and analog audio outputs. Output is HDCP-compliant if the input is HDCP-compliant.
XTP CP 4o DVI Pro (DVI Pro output board) Outputs DVI Pro signals and analog audio outputs.
XTP CP 4o SA (Analog audio output board) Outputs analog audio outputs.
The input boards convert their non-XTP inputs into the digital XTP format used by Extron XTP transmitters and receivers and place them on the matrix switcher backplane. The output boards with non-XTP outputs convert the XTP signal to the appropriate format for that output board type. Thus, as a system, the XTP CrossPoint matrix switchers can transcode inputs in any valid format to the output formats supported by the family of output boards, making them single box solutions to complex digital video signal routing applications. Each input and output is individually isolated and buffered, and any input can be switched to any one or all outputs with virtually no crosstalk or signal noise between channels.
XTP CrossPoint Series • Introduction 2
Page 11
By adding or removing I/O boards within certain rules are detailed in Input and Output
Boards on page 14, you can expand and contract the matrix switcher from a 4-input by
4-output matrix to up to:
XTP CrossPoint 1600 — A 16-input by 16-output matrix
XTP CrossPoint 3200 — A 32-input by 32 output matrixThe matrix switchers can be
remotely controlled via their rear panel Remote RS-232/RS-422 ports, their rear panel LAN port, and their front panel Configuration (USB) port by any of the following:
A control system
A PC
An Extron MKP 2000 remote control panel
An Extron MKP 3000 remote control panel
(RS-232/RS-422 only) An Extron MCP 100 remote control panel
(RS-232/RS-422 only) An Extron MKP 1000 remote keypad
Control can be via the Extron XTP System Configuration Software, the Simple Instruction Set (SIS), or HTML pages (LAN port control only). The SIS is a set of basic ASCII code commands (see Programming Guide on page 76) that provide simple control through a control system or PC. The built-in Web pages (see HTML operation on page 121) can be accessed via the LAN port using a Web browser such as the Microsoft® Internet Explorer®.
The matrix switchers are housed in rack-mountable, metal enclosures with mounting flanges for standard 19-inch racks.
XTP CrossPoint 1600 — 5U high
XTP CrossPoint 3200 — 10U high
The base XTP CrossPoint1600 ships with two internal power supplies on a single AC connection that provide 12 V and 48 V. It can be ordered with two additional optional redundant (12 V and 48 V) power supplies. The customer cannot install the redundant power supplies.
The XTP CrossPoint 3200 ships with three 12 V internal power supplies and one 48 V power supply, on a single AC connection. The matrix switcher can operate using two of the 12 V supplies with the third as a hot backup. The fourth supply provides power over the XTP connection to remote devices (Power over XTP [PoX]).
The 100 VAC to 240 VAC, 50-60 Hz power supplies in the XTP CrossPoint 1600 and XTP CrossPoint 3200 provide worldwide power compatibility and reliability. Front panel LEDs indicate good and failed status for each supply.

Endpoint Configuration

In an XTP system, the transmitters connected to the input boards and the receivers connected to the output boards are known as “endpoints.”
When you configure an XTP system (consisting of an XTP CrossPoint matrix switcher and its connected endpoints), connect a computer to the matrix switcher and configure the endpoints from the matrix switcher. Do not connect the computer directly to the endpoint for configuration when it is part of an XTP system.
XTP CrossPoint Series • Introduction 3
Page 12

Input and Output Board and Signal Types

The XTP CrossPoint Series matrix switchers are assembled from user-installed and hot-swappable input and output boards. This section details the signal types processed by each board and the function of boards.
The boards have a primary signal type that is identified by the name of the board and used as the subsections of the Primary signal type, by board section starting on the next page. Most boards have secondary signal types that are used as the subsections of the
Secondary signal type on page 7.
See the tables below and the following subsections for an explanation of the various input and output board capabilities.
Input Board Signal Type Table
Signal Type
Input Board
XTP CP 4i and XTP CP 4i 4K • XTP CP 4i Fiber 4K • XTP II CP 4i HD 4K PLUS • XTP CP 4i HDMI • XTP CP 4i HDMI DMA • XTP CP 4i DVI Pro • XTP CP 4i 3G-SDI • XTP CP 4i VGA
Output Board
XTP CP 4o and XTP CP 4o 4K • XTP CP 4o Fiber 4K • XTP CP 4o HD 4K PLUS • XTP CP 4o HDMI • XTP CP 4o DVI Pro • XTP CP 4o SA
XTP
Fiber
Output Board Signal Type Table
HDMI 4K
XTP
HDMI
Fiber
DVI Pro
HDMi 4K
3G/HD-SDI/SDI
HDMI
Analog Video
DVI Pro
Remote Power
Remote Power
RS-232 Inserts
RS-232 Inserts
Dedicated UARTs
Dedicated UARTs
Analog Audio
Analog Audio
XTP CrossPoint Series • Introduction 4
Page 13
Primary signal type, by board
XTP input and output boards
The XTP boards are essentially receivers (input boards) and transmitters (output boards). The input board receives up to four XTP inputs, on either Extron XTP DTP 24 SF/UTP cable
or shielded Category 5e, 6, or 7 (CAT x) shielded twisted pair (STP) cable, terminated with RJ-45 connectors, from Extron XTP transmitters.
The output board transmits XTP signals to as many as four XTP receivers. The XTP signals can include digital video signals (or digitized analog video if the tied
input is from a universal VGA input board), audio, RS-232, IR, Ethernet, and remote power capability. A second RJ-45 connector is present that allows you to insert Ethernet communications onto the XTP cable to passively extend them to a LAN (Ethernet) port on the connected endpoint. The maximum transmission distance is 330 feet (100 m).
Each XTP board features remote power (48 VDC @ 13 watts per output) on the XTP inputs and outputs for XTP transmitters and receivers.
Both XTP boards also support RS-232 inputs and dedicated universal asynchronous receiver/transmitters (UARTs) (see Serial port inserts and Dedicated UARTs, both on page 7).
Fiber input and output boards
The fiber input boards have four fiber optic input connectors. The fiber output boards have four fiber optic output connectors. The boards are compatible with any Extron fiber “Plus” product. The fiber signals can include digital video signals, audio, RS-232, and IR.
An RJ-45 connector is present that allows you to insert Ethernet communications onto the fiber cable to passively extend them to a LAN (Ethernet) port on the connected endpoint.
Both fiber boards also support RS-232 inputs and dedicated UARTs (see Serial port
inserts and Dedicated UARTs).
The boards are further categorized by the type of fiber optic cable, multimode or singlemode, which defines the effective range of transmission:
XTP CP 4i Fiber 4K MM — Multimode, long distance, up to 700 m (2297 feet) (depending on the fiber cable)
XTP CP 4i Fiber 4K SM — Singlemode, very long distance, up to 10 km (6.2 miles)
NOTE: The multimode and singlemode boards are physically and functionally identical,
with the exception of the effective range of transmission. In this guide, any reference applies to either transmission mode unless otherwise specified.
HDMI 4K, HDMI, and DVI Pro input and output boards
The HDMI input boards have four HDMI input connectors. The HDMI output boards have four HDMI output connectors. The boards also support digital DVI-D signals with adapters.
The DVI Pro input board has four DVI-I input connectors. The DVI Pro output board has four DVI-I output connectors. Although equipped with DVI-I connectors, the DVI Pro boards support digital DVI-D signals (and HDMI connectors with adapters) only.
The boards meet the DVI 1.0 and HDMI 1.3 specifications, support a maximum resolution of 1920 x 1200 @ 60 Hz and 1080p @ 60 Hz (deep color), and are HDCP-compliant.
The output boards perform down-conversion automatic color bit depth to match the signal to display capabilities.
All digital video input boards support 256 bytes of EDID and can save, import, and export EDID data.
XTP CrossPoint Series • Introduction 5
Page 14
HDMI input boards and DVI Pro input boards both also have four analog balanced stereo inputs on captive screw connectors (see Analog audio inputs on the next page). HDMI output boards and DVI Pro output boards both also have four analog balanced stereo outputs on captive screw connectors (see Analog audio outputs on the next page).
DMA input boards
The DMA input boards provide multi-channel audio downmixing to 2-channel PCM stereo audio for separable audio routing. They can decode and process licensed, branded digital source formats from Dolby®1 and DTS®2, including Dolby TrueHD and DTS-HD Master Audio™.
3G-SDI, HD-SDI, or SDI video input boards
NOTE: 4K video can be routed only to boards that support that resolution.
The 3G/HD-SDI/SDI video input board automatically recognizes and accepts common SMPTE and ITU serial digital data rates, including 2.97 Gbps 3G-SDI, 1.485 Gbps HD-SDI, and 270 Mbps SDI with automatic input equalization. Each input has a buffered and re-clocked loop-through outputs. The 3G input board converts the incoming signal to digital Transition Minimized Differential Signaling (TMDS, the core technology used in HDMI and DVI) before converting to the XTP format used on the backplane.
The board also has four analog balanced stereo inputs on captive screw connectors (see
Analog audio inputs).
VGA universal analog input boards
The VGA universal analog video input board accepts RGBHV, RGBS, RGsB, HDTV component video, YUV component video, S-video, or composite video on 15-pin HD connectors. S-video and composite video require BNC to VGA adapters. The inputs feature auto-detect as the default condition, which automatically recognizes the input signal with no user configuration. The input format can also be forced via remote control.
The VGA input board converts the incoming signal to digital TMDS, the core technology used in HDMI and DVI, before converting to the XTP format used on the backplane. The board de-interlaces and digitizes S-video and composite video to NTSC 480p or PAL 576p.
The VGA input board delivers one block of 128 bytes of analog DDC/EDID handshake data for each input that can be used as an EDID reference for each of the source devices. If no output references are stored, the matrix switcher can use one of the stored EDID data files.
The VGA input board also have four analog balanced stereo inputs on captive screw connectors (see Analog audio inputs).
Analog audio output boards
The audio output board has four analog stereo audio output connectors for balanced or unbalanced 2-channel audio. These boards extract 2-channel audio from the embedded stream for analog audio outputs with mute and audio volume controls.
1. Manufactured under license from Dolby Laboratories. Dolby and the double-D symbol are trademarks of
Dolby Laboratories.
2. For DTS patents, see http://patents.dts.com. Manufactured under license from DTS, Inc. DTS, the Symbol,
DTS in combination with the Symbol, the DTS-HD logo, and DTS-HD Master Audio are registered trademarks or trademarks of DTS, Inc. in the United States and/or other countries. © DTS, Inc. All Rights Reserved.
XTP CrossPoint Series • Introduction 6
Page 15
Secondary signal type
Serial port inserts
The XTP and fiber input and output boards also have four local RS-232 and IR insert inputs on captive screw connectors. The insert inputs support up to a 115k baud rate. Each RS-232 and IR insert and local output is for the associated input or output only and cannot be tied to other outputs or inputs.
Dedicated UARTs — Ethernet insertion
The XTP CrossPoint Series matrix switcher can send control signals to inputs and outputs on the XTP and fiber input and output boards using dedicated UART ports. Each XTP and fiber input and output has a dedicated UART port to allow bidirectional communication on every XTP port simultaneously. Once the Ethernet-to-RS-232 feature is enabled, via the XTP Configuration Software or an SIS command, the XTP input or output is unable to pass any RS-232 commands from the local insert connections on the I/O board but instead passes the communications via the UART.
Analog audio inputs
Boards listed in the table on page 4 as supporting analog audio input have four stereo audio input captive screw connectors for balanced or unbalanced 2-channel audio. These boards can perform analog-to-digital conversion of analog audio inputs for audio breakaway ties. Analog audio input levels can be adjusted through a range of +24 dB gain through –18 dB attenuation.

Features

Analog audio outputs
Boards listed in the table as supporting analog audio output have four stereo audio output captive screw connectors for balanced or unbalanced 2-channel audio. These boards extract 2-channel audio from the embedded stream for analog audio outputs with mute and audio volume controls.
Available in I/O sizes from 4x4 to 32x32 — System configuration is flexible to match
a wide variety of small to large-sized installations.
15.2 Gbps data-rate digital backplane — Ensures switching and distribution of
video signals without degradation, offering the performance required to maintain signal integrity with the most demanding high resolution signals.
Compatible with all XTP integrated system products — XTP CrossPoint Series is
a flexible, reliable signal switching and distribution system that provides a completely integrated solution for multiple digital and analog formats.
Fully digital signal routing — Analog signals are digitized, sending a reliable, high
quality digital video signal to the output destination.
Wide selection of input and output boards — Boards provide integration for a
variety of signal types and formats, ensuring system customization appropriate for a wide range of applications.
Serial port insertion from the Ethernet control port — System level device
control to all remote locations via the Ethernet port of the matrix switcher, providing comprehensive control of endpoints and attached devices without needing additional cabling.
XTP CrossPoint Series • Introduction 7
Page 16
Remote power to XTP transmitters and receivers — To simplify installation in
space-challenged locations, an XTP CrossPoint Series matrix switcher can provide power to remote XTP transmitters and receivers over the same STP cable that is used for sending AV signals. This avoids the need for external power supplies at remote endpoints.
HDMI compatible — Supports HDMI specification features, including data rates up
to 15.2 Gbps, Deep Color up to 12-bit, 3D formats, Lip Sync, and HD lossless audio formats.
HDCP compliant — Ensures display of content-protected media and interoperability
with other HDCP-compliant devices.
HDCP authentication and signal confirmation via RS-232 or Ethernet —
The XTP CrossPoint Series matrix switcher provides real-time verification of HDCP status for each digital video input and output. This allows for simple, quick, and easy signal and HDCP verification through RS-232/RS-422 or Ethernet, providing valuable feedback to a system operator or helpdesk support staff.
HDCP Visual Confirmation provides a green signal when encrypted content
is sent to a non-compliant display — A full-screen green signal is sent when HDCP-encrypted content is transmitted to a non-HDCP compliant display, providing immediate visual confirmation that protected content cannot be viewed on the display.
SpeedSwitch Technology — Provides exceptional switching speed for
HDCP-encrypted content.
SD Pro processing provides deinterlacing of standard definition video —
Deinterlaces 480i and 576i signals for compatibility with HDMI and DVI-equipped displays, without the need for additional scalers.
EDID Minder — Automatically manages EDID communication between connected
devices, ensuring that all sources power up properly and reliably output content for display.
Key Minder — Continuously verifies HDCP compliance for quick, reliable switching.
Authenticates and maintains continuous HDCP encryption between input and output devices to ensure quick and reliable switching in professional AV environments, while enabling simultaneous distribution of a single source signal to one or more displays.
Modular, field-upgradeable and hot-swappable design — The XTP CrossPoint
Series matrix switcher provides substantial flexibility, expandability, and affordability by allowing users to select the configuration required for a system. Additional input and output boards may be added at any time for quick and easy upgradeability or expansion. Hot-swappable components allow the user to replace an I/O board at any time without the need to power down the matrix switcher. This is especially useful for mission-critical applications that require continuous system operation.
Audio breakaway — Provides the capability to separate an embedded audio signal
from its corresponding video signal within the matrix switcher, allowing the audio and video signals from one source to be switched to different destinations.
Ethernet extension — Centralized 10/100 Ethernet communication can be
implemented via an Ethernet pass-through port to reduce the amount of independent network drops required within a system.
Digital output boards provide +5 VDC, 250 mA power on each output for
powering external peripheral devices — Power provided via the digital output of a board eliminates the need of a separate power supply for the connected peripheral device.
XTP CrossPoint Series • Introduction 8
Page 17
Automatic cable equalization for each digital input to 100 feet (30 m) when
used with Extron HDMI or DVI Pro cables — Cable input equalization optimizes signal performance for all incoming signals, ensuring pristine image quality is delivered throughout an XTP CrossPoint System.
Automatic output reclocking — Reshapes and restores timing of digital video signals
at each output, eliminating high frequency jitter to ensure reliable transmission over long cables.
Audio input gain and attenuation — Allows the level of gain or attenuation to be set,
eliminating noticeable volume differences when switching between sources.
Audio output volume adjustment and muting — Audio output can be set
dynamically for each channel through the front panel or serial control eliminating the need for audio preamplifiers in many system designs.
Ethernet monitoring and control — Engineered to meet the needs of professional AV
environments, Ethernet control provides proactive monitoring and system management over a LAN, WAN, or the Internet, using standard TCP/IP protocols. Ethernet control provides for remote selection of input and output ties, adjustment and control of audio input and output levels, and advanced system diagnostics.
Tri-color, backlit buttons — Buttons can be custom labeled for easy identification.
The buttons illuminate red, green, or amber, depending on function, for ease of use in low-light environments.
QuickSwitch Front Panel Controller (QS-FPC) — Provides a discrete button for
each input and output, allowing for simple, intuitive operation.
Global presets — Frequently used I/O configurations may be saved and recalled either
from the front panel, serial, or Ethernet control. This time-saving feature allows I/O configurations to be set up and stored in memory for future use.
View I/O mode — Users can easily view which inputs and outputs are actively
connected.
Front panel configuration port — Enables easy configuration without having to
access rear panel of the matrix switcher.
Front panel security lockout — Prevents unauthorized use in non-secure
environments. In Lock mode, a special button combination is required to operate the matrix switcher from the front panel controller.
Optional remote control — The optional MKP 2000 and MKP 3000 X-Y Remote
Control Panels provide the flexibility to control the matrix switcher from a remote location.
JITC Certified — Successfully completed interoperability and information assurance
testing for use in government applications and other mission-critical environments.
Rack-mountable 5U (XTP CrossPoint 1600) or 10U (XTP CrossPoint 3200) full rack
width metal enclosure.
XTP CrossPoint Series • Introduction 9
Page 18
Internal universal power supply — The 100-240 VAC, 50/60 Hz, international power
supply provides worldwide power compatibility.
Primary and redundant power supplies — Redundant power supplies (optional
for the XTP CrossPoint 1600, standard for the XTP CrossPoint 3200) are available for continuous, mission-critical applications where power reliability is crucial.
Permanent, rechargeable battery — The matrix switcher has a rechargeable lithium
battery to track time of day when power is disconnected.
WARNING: There is a danger of explosion if the battery is incorrectly replaced.
Replace it only with the same or equivalent type recommended by the manufacturer. Dispose of used batteries according to the instructions of the manufacturer.
AVERTISSEMENT : Si la pile est mal remplacée, il y a un risque d’explosion.
Remplacez la batterie seulement avec le même type ou un type similaire de pile, recommandé par le fabricant. Débarrassez-vous des piles utilisées selon les instructions du fabricant.
ATTENTION:
Non-Extron personnel must not attempt to remove the battery. Doing so voids
the warranty.
Du personnel ne faisant pas partie d’Extron ne doit pas essayer de retirer la
batterie. Cela annulerait la garantie.
XTP CrossPoint Series • Introduction 10
Page 19

Installation

This section details the installation and configuration of the XTP CrossPoint Series matrix switchers, including:
Setup and Installation Checklist
Rear Panel Cabling and Features
Front Panel Configuration Port and Power LEDs

Setup and Installation Checklist

Get ready
Familiarize yourself with the XTP CrossPoint Series matrix switcher. Obtain IP setting information for the matrix switcher from the local network administrator
(see Ethernet Connection on page 152).
Configure the matrix switcher
Install the desired input and output boards (see Installing an Input or Output Board
or Blank Panel on page 147). Use a screwdriver to tighten the captive screws that
lock the boards in place.
Perform physical installation
If desired, create and replace button labels (see Removing and Installing Button
Labels on page 148).
If desired install the matrix switcher in a rack (see Mounting the Matrix Switcher on
page 145).
Cable input and output devices to the input and output boards (see Input and Output
Boards on page 14).
If desired, connect computers or control systems to any of the remote control ports (a
serial port [see Remote Control Ports on page 26], a USB port [see Configuration
port on page 27], and a LAN port [see Ethernet Connection on page 26]) on the
matrix switcher.
Connect power (see Power on page 27). Test the matrix switcher by creating a tie (see Example 1: Create a set of video and
audio ties on page 38).
Ancillary operations
Install the XTP System Configuration software (see the XTP System Configuration
Software Help file).
XTP CrossPoint Series • Installation 11
Page 20

Rear Panel Cabling and Features

U
S
S
V
50-60Hz
-- A MAX
5
8
9
12
1316
5
8
9
12
6
LAN
CT
LINK
REMOTE
RS
T
Figure 2 shows an XTP CrossPoint 1600. Figure 3 on the next page shows an XTP CrossPoint 3200. The models have similar features, but different-sized enclosures and a different arrangement of the features.
AB CD EF
XTP CROSSPOINT 1600
14
58
912
1316
14
58
DISCONNECT POWER
CORD BEFORE
SERVICING
100-240V
12.0A MAX
50-60Hz
100-240V
100-240
50-60Hz
-- A MAX
OUTPUTS INPUTS
13−16
9−12
T
NP INPUTS
9−12
13−16
UTPUT OUTPUTS
9−12
13−16
131
1−4
5−8
REMOTE
LAN
-232/RS-422
RS-232/RS-422
RS-232/422
REMOTELAN
1−4
5−8
RESET
ACTLINK
A
RESET
RESE
Figure 2. XTP CrossPoint 1600 Matrix Switcher Rear Panel
ATTENTION:
Use electrostatic discharge (ESD) precautions (be electrically grounded) when
making connections. Electrostatic discharge can damage equipment, even if you cannot feel, see, or hear it.
Prenez des précautions contre les décharges électrostatiques (ESD) (soyez
électriquement relié à la terre) lorsque vous effectuez des connexions. Les décharges électrostatiques peuvent endommager l’équipement, même si vous ne pouvez pas le sentir, le voir ou l’entendre.
Remove system power before making all connections.
Débranchez l’alimentation du système avant de faire n’importe quelle connexion.
Input boards space (see page 14)
A
Output boards space (see page 17)
B
Remote RS-232/RS-422 port (see page 26)
C
LAN port (Ethernet connector) (see page 26)
D
Reset button and LED (see page 27)
E
Power connector (see page 27)
F
XTP CrossPoint Series • Installation 12
Page 21
AB
CDE
F
XTP CrossPoint 3200
REMOTE
RS-232/422
RESET
1-4 5-8 9-12 13-16
LAN
INPUTS
17-2021-24 25-28 29-32 1-45-8 9-12 13-16
1591317212529
4812 16 20 24 28 32
O
I
U
N
T
P
P
U
U
T
T
S
S
15913172125
29
4812 16 20 24 28 32
OUTPUTS
17-2021-24 25-28 29-32
12A MAX
50-60Hz
100-240V
DISCONNECT POWER
CORD BEFORE
SERVICING
Figure 3. XTP CrossPoint 3200 Matrix Switcher Rear Panel
Input boards space (see page 14)
A
Output boards space (see page 17)
B
Remote RS-232/RS-422 port (see page 26)
C
LAN connection (Ethernet connector) (see page 26)
D
Reset button and LED (see page 27)
E
Power connector (see page 27)
F
XTP CrossPoint Series • Installation 13
Page 22

Input and Output Boards

44
On the XTP CrossPoint 1600, the top slots are for input boards and the bottom slots are for output boards. On the XTP CrossPoint 3200, slots on the left are for input boards and slots on the right are for output boards. Each board installed in a slot supports up to four inputs or outputs of the applicable type (see Input and Output Boards and Signal Types on page 4, Input boards space below, and Output boards space on page 17).
Input boards can be installed in any order in the input slot locations. Output boards can likewise be installed in any order in the output slot locations. You can skip a slot with the only result being that the inputs or outputs serviced by that slot location are not present in the matrix. For example, if you omit installing a board in input slot 3, inputs 9 through 12 are not present and the first connector in input slot 4 remains input 13.
NOTE: Audio ground pins on the input and output boards may be labeled as or .
The wiring and function are the same, whichever way the board is labeled.
Input boards space
A
NOTE: See figure 2 on page 12 and figure 3 on page 13.
Install input boards as desired in input slots 1 through 4 (XTP CrossPoint 1600) or slots 1 through 8 (XTP CrossPoint 3200) and make connections. See Installing the Input
or Output Board or Blank Panel on page 147 and the individual board descriptions
below.
NOTE: Install blank panels in unused locations to ensure proper ventilation.
XTP CP 4i and XTP CP 4i 4K (XTP input board)
INPUTS
PWR
11
SIG LINK
XTP IN
11 11 1133 33 33 33
SIG LINK
PWR
XTP IN
LAN
SIG LINK
PWR
XTP IN
LAN
SIG LINK
PWR
XTP IN
LAN
RS-232
Tx Rx GTxRx
LAN
IR
RS-232
Tx Rx GTxRx
OVER XTP
IR
RS-232
Tx Rx GTxRx
IR
RS-232
Tx Rx GTxRx
IR
XTP CP 4i 4K
22 2222 22
Figure 4. XTP Input Board Connectors and Indicators (XTP CP 4i 4K)
ATTENTION:
The XTP input board can provide power over XTP (PoX) to connected devices.
PoX is intended for indoors use only. No part of a network that uses PoX can be routed outdoors.
La carte entrée XTP peut fournir l’alimentation sur XTP(PoX) aux appareils
connectés. PoX est destiné à une utilisation en intérieur uniquement. Aucune partie d’un réseau qui utilise PoX ne peut être routée en extérieur.
NOTE: PoX must be enabled using:
SIS commands (see the applicable XTP Power SIS commands on page 93)
Built-in HTML pages (see XTP Power Page on page 143)
The XTP System Configuration software (see the XTP System Configuration
Software Help File, available at www.extron.com)
XTP input connectors — Connect an STP cable between a compatible Extron
1
XTP transmitter and this connector (see TP connectors on page 19 to wire the connector).
XTP power indicators — Light to indicate that the input board is providing power
2
over XTP (PoX) to the transmitter connected to this RJ-45 connector.
XTP CrossPoint Series • Installation 14
Page 23
LAN (Ethernet connectors — As desired, connect a TP cable between a host
INPUTS
22 2222 2211 1111 11 33
INPUTS
XTP II CP 4i HD 4K PLUS
11 1111 11 22
IN
66 6666 66 77
3
device or control LAN and this connector for passive extension to the LAN (Ethernet connector on the connected endpoint (see TP connectors on page 19 to wire the connector).
IR/RS-232 Over XTP connectors — If desired, connect serial RS-232 signals,
4
modulated IR signals, or both to these 3.5 mm, 5-pole captive screw connectors for bidirectional RS-232 and IR communications on the associated inputs (see
RS-232 and IR connectors on page 22 to wire the connectors).
XTP CP 4i Fiber 4K (fiber optic input board)
XTP IN
SIGLINK
LANLAN LANLAN
XTP IN
SIG LINK
XTP IN
SIGLINK
XTP IN
SIGLINK
RS-232
Tx Rx GTxRx
IR
OVER FIBER
RS-232
Tx Rx GTxRx
IR
RS-232
Tx Rx GTxRx
IR
XTP CP 4i FIBER 4K
RS-232
Tx Rx GTxRx
IR
Figure 5. Fiber Optic Input Board Connectors and Indicators
XTP In connectors — Connect a fiber optic cable between the Tx connector
1
on a compatible Extron fiber optic transmitter and this connector. This board uses small form factor pluggable (SFP) modules with industry-standard LC fiber optics connectors to provide reliable physical connectivity and precise fiber core alignment.
Signal LED — Indicates that a cable is connected to a fiber optic transmitter. Link LED — Indicates that a valid fiber optic signal is detected. LAN (Ethernet) connectors — As desired, connect a TP cable between a
2
host device or control LAN and this connector for passive extension to the LAN (Ethernet) connector on the connected endpoint (see TP connectors on page 19 to wire the connector).
IR/RS-232 Over Fiber connectors — If desired, connect serial RS-232 signals,
3
modulated IR signals, or both to these 3.5 mm, 5-pole captive screw connectors for bidirectional RS-232 and IR communications on the associated inputs (see
RS-232 and IR connectors on page 22 to wire the connectors).
XTP II CP 4i 4K PLUS and XTP CP 4i HDMI (HDMI input boards)
LRLR LR LR
AUDIO
Figure 6. 4K HDMI Input Board Connectors
Figure 7. HDMI Input Board Connectors
Input connectors — Connect an HDMI cable between this port and the HDMI
1
output port of the digital video source (see HDMI connectors on page 22 for pin assignments and to use the LockIt HDMI Cable Lacing Bracket to secure the connector to the transmitter).
Audio Inputs (analog audio) connectors — Connect balanced or
2
unbalanced stereo audio inputs to these 3.5 mm, 5-pole captive screw connectors (see Analog audio input connectors on the page 24 to wire the connectors).
LRLR LR LR
AUDIO
XTP CP 4i HDMI
IN
XTP CrossPoint Series • Installation 15
Page 24
XTP CP 4i DVI Pro (DVI Pro input board)
IN
88 8888 88 77
IN
77¢¢¢¢¢¢¢¢99999999
IN
2211111111
LOOP OUTINPUT
LRLR LR LR
AUDIO
Figure 8. DVI Pro Input Board Connectors
NOTE: Although the DVI Pro boards use DVI-I connectors, the matrix switchers
handle only DVI-D (digital) video.
Input connectors — Connect a DVI cable between this port and the DVI output
1
port of the digital video source (see DVI connectors on page 23 for pin assignments).
Audio inputs (analog audio) connectors — Connect balanced or
2
unbalanced stereo audio inputs to these 3.5 mm, 5-pole captive screw connectors (see Analog audio input connectors on page 24 to wire the connectors).
XTP CP 4i 3G-SDI (3G/HD-SDI/SDI input board)
LOOP OUTINPUTLOOP OUTINPUTLOOP OUTINPUTLOOP OUTINPUT
LRLR LR LR
AUDIO
XTP CP 4i DVI Pro
IN
XTP CP 4i 3G-SDI
IN
Figure 9. 3G Input Board Connectors
Input connectors — Connect a 3G-SDI, HD-SDI, or SDI video
1
input to this BNC connector. The board also accepts embedded digital audio on this port.
Loop Out connector — Connect a local digital display to this BNC connector for
2
a buffered loop-through on the input signal.
NOTE: The board ships with 75 ohm terminators on the Loop Out connectors.
3
Extron recommends leaving these installed when the loop out is not used.
Audio inputs (analog audio) connectors — Connect balanced or unbalanced stereo audio inputs to these 3.5 mm, 5-pole captive screw connectors (see Analog audio input connectors on page 24 to wire the connectors).
XTP CP 4i VGA (VGA Input board)
LRLR LR LR
AUDIO
XTP CP 4i VGA
IN
Figure 10. VGA Input Board Connectors
Input connectors — Connect a VGA cable between this port
1
and the analog video output port of the digital video source (see
Analog video connectors on page 23 for pin assignments and
non-RGB video formats). Audio Inputs (analog audio) connectors — Connect balanced or
2
unbalanced stereo audio inputs to these 3.5 mm, 5-pole captive screw connectors (see Analog audio input connectors on page 24 to wire the connectors).
XTP CrossPoint Series • Installation 16
Page 25
Output boards space
22 2222 22 44
B
NOTE: See figure 2 on page 12 and figure 3 on page 13.
Install output boards as desired in output slots 1 through 4 (XTP CrossPoint 1600), slots 1 through 8 (XTP CrossPoint 3200) and make connections. See Installing the
Input or Output Board or Blank Panel on page 147 and the individual board
descriptions below.
NOTE:
Install blank panels in unused slots to ensure proper ventilation.
XTP CrossPoint 3200: To ensure reliable operation, it is recommended that
unused output slots (especially slots 5 through 8) be populated with either active output boards or load boards.
XTP CP 4o and XTP CP 4o 4K (XTP Output board)
OUTPUTS
PWR
11
SIG LINK
XTP OUT
11 11 1133 33 33 33
SIG LINK
PWR
XTP OUT
LAN
SIG LINK
PWR
XTP OUT
LAN
SIG LINK
PWR
XTP OUT
LAN
RS-232
Tx Rx GTxRx
LAN
IR
RS-232
Tx Rx GTxRx
OVER XTP
IR
RS-232
Tx Rx GTxRx
IR
Figure 11. XTP Output Board Connectors and Indicators (XTP CP 4o 4K)
ATTENTION:
The XTP output board can provide power over XTP (PoX) to connected
devices. PoX is intended for indoors use only. No part of a network that uses PoX can be routed outdoors.
La carte sortie XTP peut fournir l’alimentation sur XTP(PoX) aux appareils
connectés. PoX est destiné à une utilisation en intérieur uniquement. Aucune partie d’un réseau qui utilise PoX ne peut être routée en extérieur.
RS-232
Tx Rx GTxRx
XTP CP 4o 4K
IR
NOTE: PoX must be enabled using:
SIS commands (see the applicable XTP Power SIS commands on page 106)
Built-in HTML pages (see XTP Power Page, on page 143)
The XTP System Configuration software (see the XTP System Configuration
Software help file, available at www.extron.com)
XTP output connectors — Connect an STP cable between this connector and
1
a compatible Extron XTP receiver (see TP connectors on page 19 to wire the connector).
XTP Power indicators — Lights to indicate that the output board is providing
2
power over XTP (PoX) to the receiver connected to this RJ-45 connector. LAN (Ethernet) connectors — As desired, connect a TP cable between a
3
host device or control LAN and this connector for passive extension to the LAN (Ethernet) connector on the connected endpoint (see TP connectors on page 19 to wire the connector).
IR/RS-232 Over XTP Connectors — If desired, connect serial RS-232 signals,
4
modulated IR signals, or both to these 3.5 mm, 5-pole captive screw connectors for bidirectional RS-232 and IR communications on the associated outputs (see
RS-232 and IR connectors on page 22 to wire the connectors).
XTP CrossPoint Series • Installation 17
Page 26
XTP CP 4o Fiber 4K (fiber optic output board)
OUTPUTS
11 1111 1122 2222 22 33
OUTPUTS
XTP II CP 4o HD 4K PLUS
66 6666 66 77
OUT
2211 11 11 11
XTP OUT
SIGLINK
LANLAN LANLAN
XTP OUT
SIG LINK
XTP OUT
SIGLINK
XTP OUT
SIGLINK
RS-232
Tx Rx GTxRx
IR
OVER FIBER
RS-232
Tx Rx GTxRx
IR
RS-232
Tx Rx GTxRx
IR
Figure 12. Fiber Optic Output Board Connectors and Indicators
XTP Out connectors — Connect a fiber optic cable between the Rx connector
1
on a compatible Extron fiber optic receiver and this connector. This board uses SFP modules with industry-standard LC fiber optics connectors to provide reliable physical connectivity and precise fiber core alignment.
Signal LED — Indicates that a cable is connected to a fiber optic receiver. Link LED — Indicates that a valid fiber optic signal is detected. LAN (Ethernet) connectors — As desired, connect a TP cable between a
2
host device or control LAN and this connector for passive extension to the LAN (Ethernet) connector on the connected endpoint (see TP connectors on page 19 to wire the connector).
IR/RS-232 Over Fiber Connectors — If desired, connect serial RS-232 signals,
3
modulated IR signals, or both to these 3.5 mm, 5-pole captive screw connectors for bidirectional RS-232 and IR communications on the associated inputs (see
RS-232 and IR connectors on page 22 to wire the connectors).
XTP II CP 4o 4K PLUS and XTP CP 4o HDMI (HDMI Output board)
LRLR LR LR
AUDIO
XTP CP 4o FIBER 4K
RS-232
Tx Rx GTxRx
IR
Figure 13. 4K HDMI Output Board Connectors
LRLR LR LR
AUDIO
XTP CP 4o HDMI
OUT
Figure 14. HDMI Output Board Connectors
Output connector — Connect an HDMI cable between this port and an HDMI
1
video display (see HDMI connectors on page 22 for pin assignments and to use the LockIt HDMI Cable Lacing Bracket to secure the connector to the transmitter).
Audio Outputs (analog audio) connectors — Connect audio
2
devices such as an audio amplifier or powered speakers, to these
3.5 mm, 5-pole captive screw connectors. These connectors output unamplified, level audio, whether it is tied from an analog input or de-embedded from a digital input (see Analog audio output connectors on page 25 to wire the connectors).
XTP CrossPoint Series • Installation 18
Page 27
XTP CP 4o DVI Pro (DVI Pro Output board)
OUT
11 1111 11 22
OUT
11
LRLR LR LR
AUDIO
Figure 15. DVI Pro Output Board Connectors
NOTE: Although the DVI Pro boards use DVI-I connectors, the matrix switchers
handle only DVI-D (digital) video.
Output connector — Connect a DVI cable between this port and an DVI video
1
display (see DVI connectors on page 23 for pin assignments). Audio Outputs (analog audio) connectors — Connect audio devices
2
such as an audio amplifier or powered speakers, to these 3.5 mm, 5-pole captive screw connectors. These connectors output unamplified, level audio, whether it is tied from an analog input or de-embedded from a digital input (see Analog audio output connectors on page 25 to wire the connectors).
XTP CP 4o SA (Analog Audio Output board)
LRLR LR LR
AUDIO
XTP CP 4o DVI Pro
OUT
XTP CP 4o SA
OUT
Figure 16. Analog Audio Board Connectors
Audio Outputs (analog audio) connectors — Connect audio
1
devices such as an audio amplifier or powered speakers, to these
3.5 mm, 5-pole captive screw connectors. These connectors output unamplified, level audio, whether it is tied from an analog input or de-embedded from a digital input (see Analog audio output connectors on page 25 to wire the connectors).
Input and output pin assignments and wiring
TP connectors
It is essential that your cables (on the XTP and LAN [Ethernet] connectors) be the correct type and that they be properly terminated with the correct pinout. These links use unshielded twisted pair (UTP) or shielded twisted pair (STP) cables, terminated with RJ-45 connectors. XTP and LAN cables are limited to a length of 330 feet (100 m).
NOTES:
Do not use standard telephone cables. Telephone cables do not support Ethernet
or Fast Ethernet.
Do not stretch or bend cables. Transmission errors can occur.
XTP CrossPoint Series • Installation 19
Page 28
Pins:
Side View
RJ-45 Connector
The cable used depends on your network speed. The matrix switcher LAN port supports both 10 Mbps (10Base-T — Ethernet) and 100 Mbps (100Base-T — Fast Ethernet), half-duplex and full-duplex Ethernet connections. Input and output boards support 100Base-T only.
10Base-T Ethernet requires CAT 3 UTP or STP cable at minimum.
100Base-T Fast Ethernet requires CAT 5e UTP or STP cable at minimum.
The TP cable can be terminated as a straight-through cable or a crossover cable and must be properly terminated for your application.
Crossover cable — Direct connection between the computer and the XTP CrossPoint
matrix switcher.
Patch (straight) cable — Connection of the XTP CrossPoint matrix switcher to an
Ethernet LAN and connection to the input and output board XTP connectors.
12345678
Insert Twisted
Pair Wires
Straight-through Cable
(for connection to a switch, hub, or router)
End 1 End 2
Pin Wire Color Pin Wire Color
1 white-orange 1 white-orange 2 orange 2 orange 3 white-green 3 white-green 4 blue 4 blue 5 white-blue 5 white-blue 6 green 6 green 7 white-brown 7 white-brown 8 brown 8 brown
Pin Wire Color Pin Wire Color
1 white-orange 1 white-green 2 orange 2 green 3 white-green 3 white-orange 4 blue 4 blue 5 white-blue 5 white-blue 6 green 6 orange 7 white-brown 7 white-brown 8 brown 8 brown
Crossover Cable
(for direct connection to a PC)
End 1 End 2
Figure 17. RJ-45 Connector and Pinout Tables
Matrix switcher and XTP board LAN ports —
The LAN ports require CAT 3, CAT 5e, or CAT 6a, crossover or patch cables.
XTP CrossPoint Series • Installation 20
Page 29
XTP board XTP ports —
The XTP input boards and output boards are compatible with shielded twisted pair (F/UTP, SF/UTP, and S/FTP) and unshielded twisted pair (U/UTP) cables.
ATTENTION:
Do not connect these boards to a computer data or telecommunications network.
Veuillez ne pas connecter ces cartes (appareils) (port) à un réseau de données
informatiques ou à un réseau de télécommunications.
Do not use Extron UTP23SF-4 Enhanced Skew-Free AV UTP cable or STP201
cable to link the XTP products.
N’utilisez pas le câble AV Skew-FreeUTP version améliorée UTP23SF d’Extron ou
le câble STP201 pour relier les produits XTP.
To ensure FCC Class A and CE compliance, STP cables and STP connectors are
required.
Afin de s’assurer de la compatibilité entre FCC ClasseA et CE, les câbles STP et
les connecteurs STP sont nécessaires.
Extron recommends using the following practices to achieve full transmission distances up to 330 feet (100 m) and reduce transmission errors.
Use the following Extron XTP DTP 24 SF/UTP cables and connectors for the best
performance:
XTP DTP 24/1000 Non-Plenum 1000' (305 m) spool 22-236-03
XTP DTP 24P/1000 Plenum 1000' (305 m) spool 22-235-03
XTP DTP 24 Plug Package of 10 101-005-02
If not using XTP DTP 24 cables, at a minimum, Extron recommends 24 AWG, solid
conductor, STP cable with a minimum bandwidth of 400 MHz.
Terminate cables with shielded connectors to the TIA/EIA-T568B standard only (patch
cables, see figure 17 on the previous page).
Limit the use of more than two pass-through points, which may include patch points,
punch down connectors, couplers, and power injectors. If these pass-through points are required, use shielded couplers and punch down connectors.
NOTE: When using cable in bundles or conduits, consider the following:
Do not exceed 40% fill capacity in conduits.
Do not comb the cable for the first 20 m, where cables are straightened, aligned,
and secured in tight bundles.
Loosely place cables and limit the use of tie wraps or hook and loop fasteners.
Separate twisted pair cables from AC power cables.
XTP CrossPoint Series • Installation 21
Page 30
RS-232 and IR connectors
RS-232 IR
IR Device
RS-232 Device
T
Type A Plug
1
19
11
33
Figure 18 shows how to wire the RS-232 and IR connector.
TxRx
Tx/Rx
Pins
RxTx
Rx GTx
Gnd
RxTx
Gnd
Figure 18. RS-232 and IR Connector Wiring
NOTES:
The length of exposed wires is critical. The ideal length is 3/16 inch (5 mm).
If the stripped section of wire is longer than 3/16 inch, the exposed wires may
touch, causing a short circuit.
If the stripped section of wire is shorter than 3/16 inch, wires can be easily pulled
out even if tightly fastened by the captive screws.
Do not tin the power supply leads before installing them in the connector. Tinned
wires are not as secure in the connector and could be pulled out.
HDMI connectors
Figure 19 defines the pin arrangement for the HDMI connector.
19
1
18 2
HDMI
ype A Receptacle
Figure 19. HDMI Connector
HDMI
182
Use the LockIt Lacing Brackets, supplied with the input or output board, to securely fasten HDMI cables to devices as follows:
1. Plug the HDMI cable into the panel connection (see figure 18, 1).
44
3
22
55
Figure 20. Installing the LockIt Lacing Bracket
2. Loosen the HDMI connection mounting screw from the panel enough to allow the
LockIt lacing bracket to be placed over it (2). The screw does not have to be removed.
3. Place the LockIt lacing bracket on the screw and against the HDMI connector, then
tighten the screw to secure the bracket (3).
XTP CrossPoint Series • Installation 22
Page 31
ATTENTION:
Male Connector (cable)
Female Connector
1
9
8
17 24
C3 C4
C1 C2
C5
15
Do not overtighten the HDMI connector mounting screw. The shield it fastens
to is very thin and can easily be stripped.
Ne serrez pas trop la vis de montage du connecteur HDMI. Le blindage auquel
elle est attachée est très fin et peut facilement être dénudé.
4. Loosely place the included tie wrap around the HDMI connector and the LockIt lacing
bracket as shown (4).
5. While holding the connector securely against the lacing bracket, use pliers or similar
tools to tighten the tie wrap, then remove any excess length (5).
DVI connectors
Figure 21 defines the pin arrangement for the DVI connector.
Figure 21. DVI Connectors
Analog video connectors
The 15-pin HD (VGA) universal analog input ports accept RGB (RGBHV, RGBs, RGsB), HDTV, component video (bi- or tri-level sync), S-video, or composite video signals, and support EDID emulation. Figure 22 shows the pinouts for each format type on the connector.
15
11
Figure 22. VGA Connectors
15-Pin HD Connector Pinout Table
Pin RGBHV RGBs RGsB Component S-video Composite
1 Red Red Red R-Y 2 Green Green Green/Sync Y Luma Video 3 Blue Blue Blue B-Y Chroma 4 5 6 Red return Red return Red return R-Y return 7 Green return Green return Green return Y return Luma return Video return 8 Blue return Blue return Blue return B-Y return C return
9 10 Ground Ground Ground 11 12 EDID/DDC EDID/DDC EDID/DDC 13 H sync C sync 14 V sync 15 EDID/DDC
return
EDID/DDC
return
XTP CrossPoint Series • Installation 23
Page 32
Analog audio input connectors
Unbalanced Stereo Input
Balanced Stereo Input
Do not tin the wires!
Tip
Ring
Tip
Ring
LR
Sleeves
Tip
Sleeve
Sleeve
Tip
LR
Tip (+)
Sleeve ( )
Sleeve ( )
Ring (-)
Tip (+)
RCA Connector
3.5 mm Stereo Plug Connector
(balanced)
Connectors are included with the matrix switcher, but you must supply the audio cable. See figure 23 to wire a connector for the appropriate input type. Use the supplied tie-wrap to strap the audio cable to the extended tail of the connector. High impedance is generally over 800 ohms.
Figure 23. Captive Screw Connector Wiring for Audio Inputs
NOTE: The length of exposed wires is important. The ideal length is 3/16 inch (5 mm)
(see the NOTES on page 22 for details).
A mono audio connector consists of a tip and sleeve. A stereo audio connector consists of a tip, ring and sleeve. See figure 24 to identify the tip, ring, and sleeve parts of the connector when you are making connections for the matrix switcher from existing audio cables. The ring, tip, and sleeve wires are also shown on the captive screw audio connector diagrams, figure 23, above, and figure 25 on the next page.
Figure 24. Typical Audio Connectors
The level for each analog audio input can be individually set via the front panel or remote control to ensure that the level on the output does not vary from input to input (see Viewing
and Adjusting the Input Audio Level on page 48). You can also use an SIS command
(see page 93), the XTP System Configuration software (see the XTP System Configuration help file, or the HTML pages (see Changing the input gain and attenuation on page 139).
XTP CrossPoint Series • Installation 24
Page 33
Analog audio output connectors
Unbalanced Stereo Output Balanced Stereo Output
Do not tin the wires!
NO GROUND HERE
LR
Connect audio devices, such as an audio amplifier or powered speakers, to these 3.5 mm, 5-pole captive screw connectors. These connectors output the tied unamplified, line level audio. See figure 25 to wire an output connector. Use the supplied tie-wrap to strap the audio cable to the extended tail of the connector.
LR
Tip
Tip
Sleeves
Tip
NO GROUND HERE
Figure 25. Captive Screw Connector Wiring for Audio Outputs
ATTENTION:
For unbalanced audio, connect the sleeves to the ground contact. DO NOT
connect the sleeves to the negative (-) contacts.
Pour l’audio asymétrique, connectez les manchons au contact au sol. Ne PAS
connecter les manchons aux contacts négatifs (–).
The length of exposed wires is important. The ideal length is 3/16 inch (5 mm) (see
the NOTES on page 22 for details).
La longueur des câbles exposés est importante lorsque l’on entreprend de les
dénuder. La longueur idéale est de 5mm (3/16inches) (voir les NOTES à la page 22 pour plus d’informations).
NOTE: The audio that is output on these connectors is converted from the tied
embedded input signal or the analog audio input. This feature allows you to duplicate the outputs while eliminating the need for extra receivers.
Ring
Ring
Tip
The volume level for each analog output can be individually set via the front panel or remote control (see Viewing and Adjusting the Analog Output Volume on page 54). You can also use an SIS command (see page 104), the XTP System Configuration software (see the XTP System Configuration Software Help File, available at www.extron.com), or the HTML pages (see Changing the output volume level on page 140).
By default, the audio ties follow the video ties. Audio breakaway, which can be activated via the front panel or under remote control, allows you to select from any one of the audio input sources and route it separately from its corresponding video source (see
Example 3: Remove a tie from a set of ties on page 40). You can also use an SIS command (see page 87), the XTP System Configuration software (see the XTP
System Configuration Software help file, available at www.extron.com), or the HTML pages (see Set and View Ties Page on page 137).
XTP CrossPoint Series • Installation 25
Page 34

Remote Control Ports

1
5
6
9
LA
Remote RS-232/RS-422 port (see figure 2 on page 12 and figure 3 on
C
page 13) — Connect a host device, such as a computer or touchpanel control, to the matrix switcher via this 9-pin D connector for serial RS-232 or RS-422 control (see figure 26).
Remote RS-232 and RS-422 Pinout Table
Pin RS-232 RS-232
1 2 Tx Tx­3 Rx Rx­4 5 Gnd Gnd 6 7 Rx+ 8 Tx+ 9
Figure 26. Remote RS-232/RS-422 Port
See Programming Guide on page 76, for definitions of the SIS commands (serial commands to control the matrix switcher and connected endpoints via this connector).
NOTE: The matrix switcher can support either the RS-232 or RS-422 serial
communication protocol, and can operate at 9600, 19200, 38400, or 115200 baud rates.
See Selecting the Rear Panel Remote Port Protocol and Baud Rate on page 61 to configure the RS-232/RS-422 port from the front panel.
If desired, connect an MKP 2000 or MKP 3000 remote control panel to the rear panel Remote port on the matrix switcher. See to the MKP 2000 Remote Control Panel User Guide or the MKP 3000 User Guide for details.

Ethernet Connection

LAN port (see figure 2 and figure 3) — If desired, for IP control of the system,
D
connect the matrix switcher to a PC or to an Ethernet LAN via this RJ-45 connector. You can use a PC to control the networked matrix switcher with SIS commands from anywhere in the world. You can also control the matrix switcher from a PC that is running the Extron XTP Configuration Software or has downloaded HTML pages from the matrix switcher (see TP connectors on page 19 to wire the connector).
Act LED indicator — Indicates transmission of data packets on the RJ-45 connector. This LED should blink quickly as the matrix switcher communicates.
Link LED indicator — Indicates that the matrix switcher is properly connected to an Ethernet LAN. This LED should light steadily.
N
LINK
ACT
XTP CrossPoint Series • Installation 26
Page 35

Reset Button and LED

AABBAABB
RESET
Reset button (see figure 2 on page 12 and figure 3 on page 13) — The
E
Reset button initiates four levels of matrix switcher reset. For resets, press and
hold the button while the matrix switcher is running or while you power up the matrix switcher (see Rear Panel Operations on page 62 for details).

Power

AC power connector
F
NOTE: See figure 2 on page 12 and figure 3 on page 13.
Plug a standard IEC power cord into this connector to connect the matrix switcher to a 100 VAC to 240 VAC, 50-60 Hz power source.

Front Panel Configuration Port and Power LEDs

CONFIG
ENTERPRESET
CONTROL
12
POWER
VIEW
PRIMARY
REDUNDANT
I/O
ESC
AUDIO
VIDEO
CONFIG
ENTERPRESET
123
POWER
CONTROL
4
I/O
AUDIO
ESC
VIEW
VIDEO
XTP CROSSPOINT 1600
XTP SERIES DIGITAL MATRIX SWITCHER
XTP CrossPoint 1600
XTP CROSSPOINT 3200
XTP SERIES DIGITAL MATRIX SWITCHER
XTP CrossPoint 3200
Figure 27. Front Panel Configuration (Config) Port and Power LEDs
Configuration port — This USB mini-B port serves a similar communications function
A
as the rear panel Remote port, but it is easier to access than the rear port after the matrix switcher has been installed and cabled.
NOTE: A front panel Configuration port connection and a rear panel Remote port
connection can both be active at the same time. If commands are sent to both simultaneously, the command that reaches the processor first is handled first.
XTP CrossPoint Series • Installation 27
Page 36
Power LEDs
B
NOTES:
The XTP CrossPoint 3200 has four power supplies installed. These power
supplies are indicated by the following LEDs:
LEDs 1 and 2 — Indicate the status of the two primary 12 V supplies.
LED 3 — Indicates the status of the redundant 12 V supply.
LED 4 — Indicates the status of the 48 V power supply, which provides PoX.
The XTP CrossPoint 1600 has two power supplies, which provide 12 V and
48 V in its standard configuration, with two optional, redundant second power supplies available. These power supplies are indicated by the following LEDs:
Primary LED 1 — Indicates the status from the standard primary 12 V
supply.
Redundant LED 1 — Indicates the status of 12 V from the optional
redundant supply.
Primary LED 2 — Indicates the status from the standard primary 48 V
supply, which provides PoX.
Redundant LED 2 — Indicates the status of 48 V from the optional
redundant supply.
Green — Indicates that the associated power supply is operating within normal tolerances.
Red — Indicates that the associated power supply is operating outside the normal tolerances or has failed.
XTP CrossPoint Series • Installation 28
Page 37

Operation

B
I
This section describes the front panel operation of the XTP CrossPoint Matrix Switcher, including:
Front Panel Controls and Indicators
Front Panel Operations
Rear Panel Operations
Optimizing the Analog Audio
RS-232 Insertion
Troubleshooting
Configuration Worksheets

Front Panel Controls and Indicators

The front panel controls (see figure 28 and figure 29 on the next page) are grouped into two sets. The input and output buttons, A and B, are grouped on the left side of the control panel. The control buttons and video/audio (I/O) selection buttons, C through H, are grouped on the right side of the panel.
A
INPUTS
2
1
3
5
4
6 7
2
1
3
5
4
6 7
8
OUTPUTS
8
10
12
11
11
12
13
13
14
14
15
15
16
16
9
10
9
CDEF GH
ENTERPRESET
CONFIG
Figure 28. Front Panel, XTP CrossPoint 1600 Matrix Switcher
Input buttons (see page 31)
A
Output buttons (see page 31)
B
Enter button (see page 32)
C
Preset button (see page 32)
D
View button (see page 33)
E
Esc button (see page 33)
F
Video button (see page 34)
G
Audio button (see page 34)
H
Power LEDs (see page 34)
I
CONTROL
ESC
VIDEO
VIEW
PRIMARY
12
REDUNDANT
POWER
XTP CROSSPOINT 1600
XTP SERIES DIGITAL MATRIX SWITCHER
I/O
AUDIO
XTP CrossPoint Series • Operation 29
Page 38
17
B
I
17
A
INPUTS
2
1
3
5
4
18
19
20
2
1
3
4
18
19
20
21
5
21
6
22 23
6 7
22 23
7
8
24
24
8
OUTPUTS
9
25
9
25
10
26
10
26
11
27
11
27
12
28
12
28
13
29
13
29
14
30
14
30
15
31
15
31
16
32
16
32
CDEF GH
CONTROL
ENTER PRESET
CONFIG
1
2
POWER
VIEW
3
4
I/O
AUDIO
ESC
VIDEO
XTP CrossPoint 3200
XTP SERIES DIGITAL MATRIX SWITCHER
Figure 29. Front Panel, XTP CrossPoint 3200
Input buttons (see page 31)
A
Output buttons (see page 31)
B
Enter button (see page 32)
C
Preset button (see page 32)
D
View button (see page 33)
E
Esc button (see page 33)
F
Video button (see page 34)
G
Audio button (see page 34)
H
Power LEDs (see page 34)
I
The illuminated buttons can be labeled with text, graphics, or both. The buttons can be set to provide amber background illumination all the time, or the background illumination can be turned off (see Background Illumination on page 61). The buttons blink or are lit at full intensity (depending on the operation) when selected.
XTP CrossPoint Series • Operation 30
Page 39

Input and Output Buttons

Primary functions
Action Select input or output for tie being created. Indication Color: LED appearance:
NOTES:
Input and output buttons cannot select an input or output number that is higher
than your matrix size or if the board that supports it is not installed. Unselectable buttons do have other functions as described in the following pages.
See Front Panel Operations, beginning on page 35, for detailed descriptions of
the following operations.
Amber: video and audio tie Blink: potential tie/untie. Green: video only tie Lit: current tie Red: audio only tie
1 2 3
Secondary functions
Presets Action Select a preset in Preset mode.
Indication Lit: A preset has already been saved to this location.
Blink: Preset location is selected to be saved.
Input audio level
Output audio volume
Output mutes
Background illumination
Action Input buttons: Select the input for audio gain or attenuation adjustment. Indication Input buttons lit: Input audio selected for adjustment. Indication Output buttons lit or blinking: Indicate the input gain or attenuation level. Action Output buttons: Select the output for audio volume adjustment. Indication Output buttons lit: Output audio is selected for adjustment. Indication Input buttons lit or blinking: Indicated the output volume level. Action Output buttons: Press and hold to mute or unmute the output. Indication Output buttons blinking: Output is muted. Action Input 1 and Input 2 buttons:
Toggle between background illumination or buttons unlit.
Input buttons (see figure 28 on page 29 or figure 29 on page 30) — The input
A
buttons have one primary () and three secondary functions (•):
Select and identify an input for creating ties or for audio level adjustment.
Select a preset.
Display the output volume level.
(Input 1 and Input 2 only) Toggle background illumination of the buttons on and off.
Output buttons (see figure 28 or figure 29) — The output buttons have one primary
B
() and three secondary functions (•):
Select and identify an output for ties or for volume adjustment.
Select a preset.
Mute the output.
Display the audio level of the selected input.
through
16
or
32
XTP CrossPoint Series • Operation 31
Page 40

Control Buttons

Primary functions
Action Save changes Select Preset mode Select View mode Cancel or Escape Indication Blink: Save needed Blink: Save preset
NOTE: See Front Panel Operations, beginning on page 35, for detailed
descriptions of the following operations.
Lit: Recall preset
View mode selected
Blinks once
ENTER PRESET
Secondary functions
Port configuration
Front panel locks
Audio Action In Audio mode,
Action 1 Select Configuration mode. Action 2 Select 9600 baud Select 19200 baud Select 38400 baud Select 115200
Indication Blink: 9600 baud Blink: 19200 baud Blink: 38400 baud Blink: 115200 baud Action 1 Select Lock mode 1 or toggle between
mode 2 and mode 1.
Action 2 Select Lock mode 2 or toggle between mode 0 and mode 2.
decrease input
level or output volume.
Enter button (see figure 28 on page 29 or figure 29 on page 30) — Enter has
C
two primary () and two secondary functions (•):
Saves configuration or preset changes that you make on the front panel. To create a
simple configuration:
Specify video, audio, or both (see I/O buttons [
Press the desired input button (
Press the desired output button or buttons (
Press the Enter button.
Indicates that a potential tie has been created but not saved.
With the Preset, View, and Esc buttons, selects Serial Port Configuration mode.
Selects 9600 baud for the rear panel Remote port in Serial Port Configuration mode
and indicates the selection.
Preset button (see figure 28 or figure 29) — Preset has two primary () and three
D
secondary functions (•):
Activates Save Preset mode to save a configuration as a preset and Recall Preset
mode to activate a previously-defined preset.
Blinks when Save Preset mode is active and lights steadily when Recall Preset mode
is active.
With the Enter, View, and Esc buttons, selects Serial Port Configuration mode.
Selects 19200 baud for the rear panel Remote port in Serial Port Configuration mode
and indicates the selection.
With the View and Esc buttons, selects front panel security Lock mode 2 or toggles
between mode 0 (unlocked) and mode 2.
A
).
VIEW
B
G
).
ESC
baud
In Audio mode, increase input
level or output volume.
] and [H]).
XTP CrossPoint Series • Operation 32
Page 41
View (<) button (see figure 28 on page 29 or figure 29 on page 30) — The View
E
(<) button has one primary function () and six secondary functions (•):
Select and indicate View-only mode, which displays the current configuration.
NOTE: View-only mode also provides a way to mute and unmute the outputs.
Decreases the audio level of the selected analog input.
Decreases the volume of the selected analog output.
With the Enter, Preset, and Esc buttons, selects Serial Port Configuration mode.
Selects 38400 baud for the rear panel Remote port in Serial Port Configuration
mode, and indicates the selection.
With the Preset button and Esc button, selects between front panel locks (Lock
mode 2 and Lock mode 0).
With the Esc button, selects between front panel locks (Lock mode 2 and Lock
mode 1).
Esc (>) button (see figure 28 or figure 29) — The Esc (>) button has two primary
F
functions () and six secondary functions (•):
Cancels operations or selections in progress and resets the front panel button
indicators.
Blinks once to indicate that the escape function has been activated.
Increases the audio level of the selected analog input.
Increases the volume of the selected analog output.
With the Enter, Preset, and View buttons, selects Serial Port Configuration mode.
Selects 115200 baud for the rear panel Remote port in Serial Port Configuration
mode and indicates the selection.
With the Preset button and View button, selects between front panel locks (Lock
mode 2 and Lock mode 0).
With the View button, selects between front panel locks (Lock mode 2 and Lock
mode 1).
XTP CrossPoint Series • Operation 33
Page 42

I/O Controls

NOTE: See Front Panel Operations, beginning on page 35, for detailed
descriptions of the following operations.
Primary functions
Action Select video Select audio Indication Green: selected Red: selected
VIDEO AUDIO
Secondary functions
Resets Action 1: Perform a system reset.
Port Configuration
Audio Action Select Audio mode.
Video button (see figure 28 on page 29 or figure 29 on page 30) — Video has
G
one primary () and two secondary functions (•):
Selects and deselects video for a configuration that is being created or viewed and
lights green to indicate that video is available for configuring or for viewing.
With the Audio button, commands the front panel system reset.
Selects the RS-232 protocol for the rear panel Remote port in Serial Port
Configuration mode and indicates the selection.
Audio button (see figure 28 or figure 29) — Audio has one primary () and three
H
secondary functions (•):
Selects and deselects audio for a configuration that is being created or viewed and
lights to indicate that audio is available for configuration or viewing.
Selects the Audio mode, in which you can adjust the analog input audio level and
the analog output audio volume.
With the Video button, commands the front panel system reset.
Selects the RS-422 protocol for the rear panel Remote port in Serial Port
Configuration mode and indicates the selection.
Action Select RS-232. Select RS-422 Indication Blink: selected Blink: selected

Power LEDs

Primary and Redundant Power Supply LEDs
I
NOTE: See Power LEDs on page 28 to identify the power supplies indicated by
the LEDs.
Green — Indicates that the associated power supply is operating within normal tolerances.
Red — Indicates that the associated power supply is operating outside the normal tolerances or has failed.
XTP CrossPoint Series • Operation 34
Page 43

Button Icons

The numbered translucent covers on the input and output buttons can be removed and replaced to insert labels behind the covers.
Input and output labels can be created easily with the Extron Button-Label Generator software, which is shipped with every Extron matrix switcher. Each input and output can be labeled with names, alphanumeric characters, or color bitmaps for easy and intuitive input and output selection (see figure 30). See the Removing and Installing Button Labels on page 148 for details on using the labeling software, blank labels you can fill in yourself, and a procedure for removing and replacing the translucent covers.
INPUTS

Front Panel Operations

9
9
Figure 30. Sample Button Icons
See figure 28 on page 29 or figure 29 on page 30 for front panel views. The following sections detail the power-up process and then provide sample procedures for
the following actions:
Creating ties, sets of ties, and configurations (see page 38)
Changing a configuration (see page 39)
Viewing ties, sets of ties, and configurations (see page 41)
Saving a preset (see page 44)
Recalling a preset (see page 45)
Muting and unmuting outputs (see page 46)
Viewing and adjusting the analog input audio level (see page 48)
Viewing and adjusting the analog output volume (see page 54)
Locking and unlocking the front panel (see page 59)
Performing front panel resets (see page 60)
Toggling background illumination on and off (see page 61)
Reading and setting the Remote port settings (see page 61)
10 13 15
DVD
VCR
Document
Camera
Computer Computer
2928 30
31 32
VTG 200
XTP CrossPoint Series • Operation 35
Page 44

Definitions

Power

The following Extron matrix switcher terms are used throughout this guide:
Tie — An input-to-output connection Set of ties — An input tied to two or more outputs.
NOTE: An output can never be tied to more than one input.
Configuration — One or more ties or one or more sets of ties Current configuration — The configuration that is currently active in the matrix switcher
(also called configuration 0) Global memory preset — A configuration that has been stored. Up to 32 global memory
presets can be stored in memory. Preset locations are assigned to the input buttons and (where necessary) output buttons. When a preset is retrieved from memory, it becomes the current configuration.
Apply power by connecting the IEC power cord between the matrix switcher and an AC source. The matrix switcher performs a self-test that blinks the front panel button indicators red, green, and amber and then turns them off. An error-free power-up self-test sequence leaves
16
15
CONTROL
ENTERPRESET
16
15
I/O
AUDIO
ESC
VIDEO
VIEW
all input, output, and control buttons either unlit or showing background illumination and the Video button and the Audio button lit.
The current configuration and all presets are saved in non-volatile memory. When power is applied, the most recent configuration is retrieved. The previous presets remain intact.
If an error occurs during the self-test, the matrix switcher locks up and does not operate. If your matrix switcher locks up on power-up, call the Extron S3 Sales and Technical Support Hotline. See www.extron.com for the phone number in your region of the world.

Front Panel Security Lockouts

In the procedural descriptions that follow, it is assumed that the matrix switcher is in Lock mode 0 (fully unlocked). The following two Lock modes are also available:
Lock mode 1 — All changes are locked from the front panel (except for setting Lock
mode 2). Some functions can be viewed.
Lock mode 2 — Advanced features are locked and can be viewed only. Basic
functions are unlocked.
NOTE: The matrix switcher is shipped from the factory in Lock mode 2. See Setting
the Front Panel Locks (Executive Modes) on page 59 for a detailed list of basic
and advanced functions and the procedure to set the various front panel locks.
XTP CrossPoint Series • Operation 36
Page 45

Creating a Configuration

The current configuration can be changed using the front panel buttons. Change the current configuration as follows:
1. Press the Esc button to clear any input button indicators, output button indicators, or
control button indicators that may be lit.
2. Press the Video button and Audio button as necessary to select video, audio, or both
for configuration.
3. Press the input and output buttons to select the desired input and one or more outputs.
Input buttons and output buttons light or blink:
Amber to indicate video and audio ties
Green to indicate video only ties
Red to indicate audio only ties
To indicate potential ties, output buttons blink the appropriate color when an input
is selected.
To indicate current ties, output buttons light steadily the appropriate color when an
input is selected.
To clear unwanted outputs, press and release the associated lit output buttons. To
indicate potential unties, output buttons blink the appropriate color when an output is deselected but not untied from the input.
4. Press and release the Enter button to accept the tie or to break an existing tie.
5. Repeat steps 1 through 4 to create or clear additional ties until the desired configuration
is complete.
NOTES:
Only one video input and one audio input can be tied to an output.
If a tie is made between an input and an output, and the selected output was
previously tied to another input, the older tie is broken in favor of the newer tie.
If an input with no tie is selected, only the button for the selected input lights.
When the Video button and the Audio button are lit, if an input with an audio
tie but no video tie is selected, the button for the input and the button for the output light the appropriate color (amber, green, or red).
As each input and output is selected, the associated output button blinks
the appropriate color to indicate a tentative tie. Buttons for outputs that were already tied to the input light the appropriate color steadily. Outputs that are already tied can be left on, along with new blinking selections, or toggled off by pressing the associated output button.
XTP CrossPoint Series • Operation 37
Page 46
Example 1: Create a set of video and audio ties
C O N T R O L
PRESET
ENTER
ESCVIEW
Press the Esc button to clear all selections.
The button flashes once.
I / O
VIDEO AUDIO
Press the Video button to toggle on and off.
The button lights green when selected.
Press the Audio button to toggle on and off. The button lights red when selected.
Press the button.
C O N T R O L
PRESET
ENTER
ESCVIEW
OUTPUTS
1
2
3
4
5
6 7
8
15
16
Press the buttons. The buttons blink amber to indicate that the selected video and audio inputs will be tied to these outputs.
The Enter button blinks green to indicate the need to confirm the change.
ENTER
All input buttons and output buttons return to unlit or background illumination.
Press the Enter button to confirm the configuration change.
The Enter button returns to unlit or background illumination.
1. Clear all selections: Press and release Esc.
2. Select video and audio for the tie: If necessary, press and release Video and Audio
to light both.
3. Select an input: Press and release Input 5.
The button lights amber.
INPUTS
2
1
4. Select the outputs: Press and release Output 3, Output 4, and Output 8.
3
5
4
6 7
15
16
8
NOTE: You can cancel the entire set of ties at this point by pressing and releasing
the Esc button. The Esc button blinks once.
5. Confirm the change: Press and release Enter.
XTP CrossPoint Series • Operation 38
Page 47
The current configuration (see figure 31) is now input 5 video and audio are tied to output 3,
Input 5 (video and audio)
tied to outputs 3, 4, and 8
Output
3 4
8
5
Video Audio
Input
I / O
VIDEO AUDIO
Press the Video button to toggle on and off.
The button lights green when selected.
Press the Audio button to toggle on and off. The button is unlit or background illuminated when deselected.
INPUTS
1
2
3
4
5
6 7
8
OUTPUTS
1
2
3
4
5
6 7
8
Press the button. The button lights green to indicate that video outputs can be tied to or untied from this input.
The Output 3, Output 4, and Output 8 buttons light green to indicate the video ties created in example 1.
OUTPUTS
1
2
3
4
5
6 7
8
15
16
C O N T R O L
PRESET
ENTER
ESCVIEW
Press the button. The button blinks green to indicate that only the selected video input will be tied to this output.
The Enter button blinks green to indicate the need to confirm the change.
ENTER
All input buttons and output buttons return to unlit or background illumination.
Press the Enter button to confirm the configuration change.
The Enter button returns to unlit or background illumination.
output 4, and output 8.
Figure 31. Final Configuration, Example 1
Example 2: Add a video tie to a set of video and audio ties
In the following example, a new video tie is added to the current configuration. The example shows the front panel indications that result from your actions.
NOTE: This example assumes that you have performed example 1 on page 38.
1. Clear all selections: Press and release Esc.
2. Select video only for the tie: Press and release Video and Audio as necessary to
light Video only.
3. Select an input: Press and release Input 5.
4. Select the output: Press and release Output 1.
5. Confirm the change: Press and release Enter.
XTP CrossPoint Series • Operation 39
Page 48
The current configuration (see figure 32) is now:
Input 5 video tied
to outputs 1, 3, 4, and 8
Input 5 audio tied
to outputs 3, 4, and 8
Input
Output
1
3 4
8
5
Video Audio
I / O
VIDEO AUDIO
Press the Video button to toggle on and off.
The button is unlit or background illuminated
when deselected.
Press the Audio button to toggle on and off. The button lights red when selected.
INPUTS
1
2
3
4
5
6 7
8
15
16
OUTPUTS
1
2
3
4
5
6 7
8
15
16
The Output 1 button does not light to indicate the tie created in example 2 because that tie is video only.
The Output 3, Output 4, and Output 8 buttons light red to indicate the audio ties created in example 1.
Press the button. The button lights red.
Video — Input 5 video is tied to output 1, output 3, output 4, and output 8.
Audio — Input 5 audio is tied to output 3, output 4, and output 8.
Figure 32. Final Configuration, Example 2
Example 3: Remove a tie from a set of ties
In the following example, an existing tie is removed from the current configuration. The example shows the front panel indications that result from your actions.
NOTE: This example assumes that you have performed example 1 on page 38 and
example 2 on page 39.
1. Clear all selections: Press and release Esc.
2. Select audio only for the tie: Press and release Video and Audio as necessary to
light Audio only.
3. Select an input: Press and release Input 5.
XTP CrossPoint Series • Operation 40
Page 49
4. Select the output: Press and release Output 4.
C O N T R O L
PRESET
ENTER
ESCVIEW
OUTPUTS
1
2
3
4
5
6 7
8
15
16
Press the button. The button blinks red to indicate the pending change: audio input will be untied.
The Enter button blinks green to indicate the need to confirm the change.
ENTER
All input buttons and output buttons return to unlit or background illumination.
Press the Enter button to confirm the configuration change.
The Enter button returns to unlit or background illumination.
Input 5 video tied
to outputs 1, 3, 4, and 8
Input 5 audio tied
to outputs 3 and 8
Input
Output
1
3 4
8
5
Video Audio
5. Confirm the change: Press and release Enter.
The current configuration (see figure 33) is now:
Video — Input 5 video is tied to output 1, output 3, output 4, and output 8.
Audio — Input 5 audio is tied to output 3 and output 8.

Viewing the Configuration

Figure 33. Final Configuration, Example 3
The current configuration can be viewed using the front panel buttons. The View-only mode prevents inadvertent changes to the current configuration. View-only mode also provides a way to mute audio outputs (see Muting and Unmuting Audio Outputs on page 46).
View the current configuration as follows:
1. Press the Esc button to clear any input button indications, output button indications, or
control button indications that may be on.
2. Press and release the View button. All of the buttons light for outputs that are not tied
as follows:
Amber: No tied video or audio input
Green: No tied video input
Red: No tied audio input
If you press an output button for which there are no ties, the output buttons light for all outputs without ties.
3. Select video, audio, or both to view by pressing the Video button, Audio button, or
both.
XTP CrossPoint Series • Operation 41
Page 50
4. Select the desired input or outputs whose ties you wish to view by pressing the input
I / O
VIDEO AUDIO
OUTPUTS
1
2
3
4
5
6 7
8
15
16
Until you select an input, the buttons for all untied outputs light the appropriate color:
Amber if no inputs are tied
Green if no video inputs are tied (only audio is tied) Red if no audio inputs are tied (only video is tied).
Press the Audio button to toggle on and off.
The button lights red when selected.
Press the Video button to toggle on and off.
The button lights green when selected.
INPUTS
1
2
3
4
5
6 7
8
15
16
OUTPUTS
1
2
3
4
5
6 7
8
15
16
The output buttons for outputs that are not tied to Input 5 are either unlit or background illuminated.
The output buttons for outputs that are tied to Input 5 light or blink the appropriate color:
Amber for audio and video ties (audio follow) Green for video ties (audio breakaway) Red for audio ties (audio breakaway)
Press the button. It lights amber.
and output buttons.
NOTES:
To see all ties of the current configuration, press and release each input and
output button, one at a time, with the Video button and the Audio button lit.
When you view video and audio ties, the Video button is lit green and the
Audio button is lit red. After you select an input or output, the output buttons
light different colors to show where video and audio ties are not the same (audio is broken away). Amber indicates video and audio, green indicates video only, and red indicates audio only.
After 30 seconds of front panel inactivity, View-only mode automatically
deselects.
Example 4: Viewing video and audio, audio only, and video only ties
In the following example, we view the video and audio, audio only, and video-only ties in the current configuration. The steps show the front panel indications that result from your action.
NOTE: This example assumes that you have performed example 1 on page 38,
example 2 on page 39, and example 3 on page 40.
1. Clear all selections: Press and release Esc.
2. Select View-only mode: Press and release View. View lights red.
3. Select video and audio for viewing: Press and release Video and Audio as
necessary to light both.
4. Select an input: Press and release Input 5.
XTP CrossPoint Series • Operation 42
Page 51
NOTE: You can also view a set of ties by selecting a tied output. Demonstrate this
I / O
VIDEO AUDIO
OUTPUTS
1
2
3
4
5
6 7
8
15
16
Press the button.
The button is unlit or background illuminated when deselected.
The Audio button remains lit red to indicate that only audio is selected.
The output buttons for outputs that are not tied to Input 5 are either unlit or background illuminated.
The output buttons for outputs that are tied to Input 5 light red to indicate audio ties (audio breakaway).
I / O
VIDEO AUDIO
OUTPUTS
1
2
3
4
5
6 7
8
15
16
The output buttons for outputs that are not tied to Input 5 are either unlit or background illuminated.
The output buttons for outputs that are tied to Input 5 light green to indicate video ties (audio breakaway).
Press button.
The button lights green when selected.
Press the button.
The button is unlit or background illuminated when deselected.
All input buttons and output buttons return to unlit or background illumination.
VIEW
Press the button.
The View button returns to unlit or background illumination.
as follows:
Note the number of a lit output button, and then press and release the output
button for an untied (unlit or background illumination) output.
Observe that all of the untied outputs light.
Then press the output button that you noted previously.
Observe that the selected output button, the tied input button (input 5), and the
output buttons light for all of the outputs that are tied to the input.
5. Deselect video: Press and release Video.
6. Toggle audio off and video on: Press and release Video and Audio.
If video ties are established for input 5, the output buttons light green for all video outputs tied to input 5. If no ties are established for input 5, all output buttons return to either unlit or to background illumination.
7. Exit View-only mode: Press and release View.
XTP CrossPoint Series • Operation 43
Page 52

Using Presets

Input buttons
Output buttons
Preset
1
Preset6Preset
7
Preset
10
Preset15Preset
16
Preset
11
Preset
3
Preset8Preset
9
Preset4Preset
5
Preset13Preset
14
Preset
12
Preset
2
Preset
17
Preset22Preset
23
Preset
26
Preset31Preset
32
Preset
27
Preset
19
Preset24Preset
25
Preset20Preset
21
Preset29Preset
30
Preset
28
Preset
18
INPUTS
1
2
3 4
5
6
7
8
9
10
11
12
14
15
16
13
1
2
3
4
5
6
7
8
9
10
11
12
14
15
16
13
OUTPUTS
PRESET PRESET
1
2
3
14
15
16
Press and hold the Preset button until it blinks.
2 seconds
All input buttons with assigned presets light red.
If you then save the configuration to a lit preset number, the
configuration data at that preset location will be overwritten.
Preset Assigned
No Preset Assigned
The current configuration (configuration 0) can be saved as a preset in any one of 32 preset memory locations. All 32 presets are assigned to the input buttons and (where necessary) output buttons and are available to be either saved or retrieved from the front panel. When a preset is recalled from memory, it becomes the current configuration.
NOTES:
Only the audio and video ties are stored and recalled; audio gain settings are not
saved, and they do not change when a preset is recalled.
Presets cannot be viewed from the front panel unless they are recalled as the
current configuration.
The current configuration and all presets are stored in non-volatile memory. When
power is removed and restored, the current configuration is still active and all presets are retained.
When a preset is recalled, it replaces the current configuration, which is lost
unless it is also stored as a preset. The recalled preset overwrites all of the current configuration ties in favor of the preset configuration ties.
All models have 32 presets; on the XTP CrossPoint 1600, preset numbers 17
through 32 are available using the output buttons. Figure 34 shows the presets associated with the input and output buttons on the XTP CrossPoint 1600.
Figure 34. XTP CrossPoint 1600 Preset Locations
Example 5: Saving a preset
In the following example, the current configuration is saved as a preset. The example shows the front panel indications that result from your actions.
1. Clear all selections: Press and release Esc.
2. Select Save Preset mode: Press and hold Preset for approximately 2 seconds until it
blinks.
XTP CrossPoint Series • Operation 44
Page 53
3. Select the preset: Press and release the input or output button for the desired preset.
C O N T R O L
PRESET
ENTER
ESCVIEW
INPUTS
1
2
3
4
5
6 7
8
15
16
The Enter button blinks
to indicate the need to save the preset.
The Preset button continues to blink.
Press the button.
The button blinks to indicate that this preset number is selected but not saved.
C O N T R O L
PRESET
ENTER
ESCVIEW
1
2
3
14
15
16
The Enter and Preset buttons return to unlit or background illumination.
Press the button.
All input buttons return to unlit or background illumination.
PRESET
1
2
3
14
15
16
Press and release the button. The Preset button lights.
All input buttons with assigned presets light red.
Preset Assigned
No Preset Assigned
C O N T R O L
PRESET
ENTER
ESCVIEW
INPUTS
1
2
3
4
5
6 7
8
15
16
The Enter button blinks to
indicate the need to recall the preset.
Press the button.
The button blinks to indicate that this preset number is selected but not recalled.
C O N T R O L
PRESET
ENTER
ESCVIEW
1
2
3
14
15
16
The Enter and Preset buttons return to unlit or background illumination.
Press the button.
All input buttons return to unlit or background illumination.
4. Save the Preset: Press and release Enter to save the preset. The current
configuration is now stored in the selected memory location.
Example 6: Recalling a preset
In the following example, a preset is recalled to become the current configuration. The steps show the front panel indications that result from your action.
1. Clear all selections: Press and release Esc.
2. Select Recall Preset mode: Press and release Preset.
3. Select the preset: Press and release the input button or output button for the desired
preset.
4. Recall the preset: Press and release Enter. The configuration stored in the selected
memory location is now the current configuration and can be viewed in the View-only mode (see example 4 on page 42).
XTP CrossPoint Series • Operation 45
Page 54

Muting and Unmuting Video and Audio Outputs

Individual outputs can be muted or unmuted as follows:
NOTE: Output mutes are protected when front panel Lock mode 2 is selected. You
can view the status of the output (muted or unmuted) in Lock mode 2 but you cannot change it from the front panel (see Setting the Front Panel Locks (Executive
Modes) on page 59).
1. Press the Esc button to clear any input button indications, output button indications, or
control button indications that may be on.
2. Press and release the View button.
3. Select video, audio, or both to mute or unmute by pressing the Video button and the
Audio button.
4. One at a time, press and hold the buttons for the desired outputs for approximately
2 seconds. The output buttons for the selected outputs blink to indicate the mute or return to their previous state to indicate the unmute.
5. Press and release the View button to return to normal matrix switcher operation.
NOTES:
You can mute video and audio, video-only, or audio-only outputs. Pressing and
releasing the Video button and the Audio button toggles each selection on and off.
When you enter View-only mode, the output buttons turn on for all outputs
without ties.
Mutes are saved to non-volatile memory. When power is removed and restored,
the mute settings are retained.
Example 7: Muting and unmuting an output
In the following example, a matrix switcher output is muted and unmuted. The steps show the front panel indications that result from your action.
1. Clear all selections: Press and release the Esc button.
2. Select View-only mode: Press and release the View button. The button lights red.
3. Select both video and audio for viewing and muting: If necessary, press and
release the Video button and the Audio button.
NOTE: This example assumes that you have performed example 1 on page 38,
example 2 on page 39, and example 3 on page 40.
XTP CrossPoint Series • Operation 46
Page 55
I / O
VIDEO AUDIO
OUTPUTS
1
2
3
4
5
6 7
8
15
16
Until you select an input, the buttons for all untied outputs light amber if no inputs are tied, green if no video inputs are tied (only audio is tied), or red if no audio are tied (only video is tied).
Press the Audio button to toggle on and off.
The button lights red when selected.
Press the Video button to toggle on and off.
The button lights green when selected.
NOTE: Output mutes are protected when front panel Lock mode 2 is selected. You
3
4
3
4
The button blinks to indicate that the output is muted.
The button blinks to indicate that the output is muted.
Mute outputs one at a time.
2 seconds
2 seconds
Press and hold the Output 3 button.
Press and hold the Output 4 button.
Green-Unlit = Video is muted. Red-Unlit = Audio is muted. Green-Amber = Video and audio are muted.
(Amber is visible only after you have selected the Video and Audio buttons).
can view the mutes in Lock mode 2 but you cannot change them from the front panel (see Setting the Front Panel Locks (Executive Modes) on page 59).
If front panel Lock mode 2 is selected and you try to perform steps 4 and 5, the actions are ignored.
4. Mute outputs: One at a time: a. Press and hold the Output 3 button for approximately 2 seconds until the button
begins to blink.
b. Press and hold the Output 4 button for approximately 2 seconds until the button
begins to blink.
NOTES:
If both video and audio are selected, the mute action toggles both the video
and audio outputs. If either the video output or the audio output is already muted, the unmuted output is muted and the muted output is unmuted.
If both video and audio are selected and only video is muted, the output
button blinks between green and amber. If only audio is selected, the output button blinks between red and amber.
XTP CrossPoint Series • Operation 47
Page 56
5. Mute outputs: One at a time:
3
4
3
4
Unmute outputs one at a time.
2 seconds
2 seconds
Press and hold the Output 3 button.
Press and hold the Output 4 button.
The button returns to its previous indication (either lit, background illuminated, or unlit) to indicate that the output is unmuted.
The button returns to its previous indication (either lit, background illuminated, or unlit) to indicate that the output is unmuted.
All input buttons and output buttons return to unlit or background illumination.
VIEW
Press the button.
The View button returns to unlit or background illumination.
CD Jukebox
Output Le
VUdBu
Output Le
VUdBu
a. Press and hold the Output 3 button for approximately 2 seconds until the button
returns to its previous state. The output 3 video and audio signals are unmuted.
b. Press and hold the Output 4 button for approximately 2 seconds until the button
returns to its previous state. The output 4 video and audio signals are unmuted.
NOTE: If both video and audio are selected, the unmute action toggles both
the video and audio outputs. If either the video output or the audio output is already unmuted, the muted output is unmuted and the unmuted output is muted.
6. Exit View-only mode: Press and release the View button.

Viewing and Adjusting the Input Audio Level

The level of each analog audio input can be displayed and adjusted through a range of
-18 dB to +24 dB to ensure that there is no noticeable volume difference among sources
(see figure 35). The audio level can be adjusted from the front panel or under remote control. The default audio level is 0 dB.
+4 +1
-2
-5
-8
-12
-15
-18
Low Audio
+4 +1
-2
-5
-8
-12
-15
-18
High Audio
Figure 35. Audio Gain and Attenuation
21+24 18+21 15+19 12+16
9+13 6+10 3+7 0
-3
-6
-9
-12
-15
-18
-21
VUdBu 21+24 18+21 15+19 12+16
9+13 6+10 3+7 0
-3
-6
-9
-12
-15
-18
-21
vel
FULL HIGH DEFINITION 1080P VIDEO OUTPUT
Local Audio Inputs
Local Audio Inputs
TM
Blu-Ray Player
INPUTS
2
1
3
5
4
67
10
12
13
9
16
14
8
11
15
OUTPUTS
2
1
3
5
4
67
10
13
12
9
16
14
8
11
15
XTP CrossPoint 1600
BLU-RAY DISC PLAYER
CONFIG
vel
21+24 18+21 15+19 12+16
No noticeable
9+13 6+10
volume differences
3+7 0
+4 +1
-2
-5
-8
-12
-15
-18
Output
CONTROL
I/O
AUDIO
ESC
ENTERPRESET
VIDEO
VIEW
PRIMARY 1 2
REDUNDANT
POWER
XTP CROSSPOINT 1600
XTP SERIES DIGITAL MATRIX SWITCHER
Level
-3
-6
-9
-12
-15
-18
-21
between sources
Audio System
XTP CrossPoint Series • Operation 48
Page 57
1. Press the Esc button to clear any input buttons, output buttons, or control buttons that
may be lit.
2. Press and hold the Audio button until the button begins to blink red to enter Audio
mode. Release the button.
3. Press and release an input button to select an input that has analog audio. The output
buttons display the audio level for the selected input; the more output buttons lit, the greater the gain or attenuation.
Green output buttons indicate a gain (+) audio level.
Red output buttons indicate an attenuation (–) level.
Audio gain and attenuation is displayed differently on different models.
XTP CrossPoint 3200 — Each output button indicates 1 dB when lit steadily
(see the table on the next page).
XTP CrossPoint 1600 — Each output button indicates 1 dB when blinking and
2 dB when lit steadily (see the table on page 51).
4. Press and release the Esc (>) and View (<) buttons to increase and decrease the audio
level.
5. Press and release the Audio button to exit the Audio mode. The Audio button stops
blinking.
NOTES:
Pressing the Enter or Preset button also exits Audio mode. Pressing the
Preset button changes to Recall Preset mode.
There is one level setting per analog audio input. The audio level setting is
shared by the left and right audio inputs.
The audio level settings are stored in non-volatile memory. When power is
removed and restored, the audio level settings are retained.
Exiting Audio mode by pressing the Audio button always returns the I/O
configuration to video and audio selected for configuration (the Video and
Audio buttons lit).
XTP CrossPoint Series • Operation 49
Page 58
Red indicates a negative (attenuation) level.
dBdB
Output LED Indication Output LED Indication
12345678910111212345678910111213141516
12
18 19 20 21 22 23 24 25 26 27 28 29 30 31 3217
13 14 15 16
24
18 19 20 21 22 23 2417
25 26 27 28 29 30 31 32
1234567891011
11
10
18 19 20 21 22 23 24 25 26 27 28 29 30 31 3217
12345678910
18 19 20 21 22 23 24 25 26 27 28 29 30 31 3217
123456789
9
18 19 20 21 22 23 24 25 26 27 28 29 30 31 3217
12345678
8
18 19 20 21 22 23 24 25 26 27 28 29 30 31 3217
1234567
7
18 19 20 21 22 23 24 25 26 27 28 29 30 31 3217
123456
6
18 19 20 21 22 23 24 25 26 27 28 29 30 31 3217
12345
5
18 19 20 21 22 23 24 25 26 27 28 29 30 31 3217
1234
4
18 19 20 21 22 23 24 25 26 27 28 29 30 31 3217
123
3
18 19 20 21 22 23 24 25 26 27 28 29 30 31 3217
45678910111213141516
78910111213141516
678910 11 12 13 14 15 16
5678910111213141516
910111213141516
8910 11 12 13 14 15 16
12 13 14 15 16
11 12 13 14 15 16
10 11 12 13 14 15 16
12345678910111213141516
23
18 19 20 21 22 2317
12345678910111213141516
22
18 19 20 21 2217
12345678910111213141516
21
18 19 20 2117
12345678910111213141516
20
18 19 2017
12345678910111213141516
19
18 1917
12345678910111213141516
18
1817
12345678910111213141516
17
18 19 20 21 22 23 24 25 26 27 28 29 30 31 32
17
12345678910111213141516
16
18 19 20 21 22 23 24 25 26 27 28 29 30 31 3217
123456789101112131415
15
18 19 20 21 22 23 24 25 26 27 28 29 30 31 3217
21 22 23 24 25 26 27 28 29 30 31 32
20 21 22 23 24 25 26 27 28 29 30 31 32
19 20 21 22 23 24 25 26 27 28 29 30 31 32
24 25 26 27 28 29 30 31 32
23 24 25 26 27 28 29 30 31 32
22 23 24 25 26 27 28 29 30 31 32
16
345678910111213141516
12
2
18 19 20 21 22 23 24 25 26 27 28 29 30 31 3217
2 345678910111213141516
1
1
18 19 20 21 22 23 24 25 26 27 28 29 30 31 3217
12345678910111213141516
0
18 19 20 21 22 23 24 25 26 27 28 29 30 31 3217
1234567891011121314
14
18 19 20 21 22 23 24 25 26 27 28 29 30 31 3217
12345678910111213
13
18 19 20 21 22 23 24 25 26 27 28 29 30 31 3217
= unlit button
= lit button
Green indicates a positive (gain) level.
15 16
14 15 16
XTP CrossPoint Series • Operation 50
Page 59
Output LED Indication
dB
61
Red indicates a negative (attenuation) level.
24
112134 5678910 12
13
14
15
16
23
22
21
20
19
18
17
16
15
14
13
12
11
10
9
2134 5678910
2134 5678910
2134 56789
2134 56789
2134 5678
2134 5678
2134 567
2134 567
213456
213456
1345
2
21345
8 9
8 9
7 8 9
7 8 9
6 7 8 9
6 7 8 9
16
14
15
13
112134 5678910 12
12
13
112134 5678910
12
13
112134 5678910
12
11
13
12
11
13
12
1110
13
12
1110
13
9
9
10
10
10
10
10
10
10
1110
11
11
11
11
11
11
11
12
12
12
12
12
12
12
12
13
13
13
13
13
13
13
13
14
14
14
14
14
14
14
14
14
14
14
14
14
14
15
15
15
15
15
15
15
15
15
15
15
15
15
15
16
16
16
16
16
16
16
16
16
16
16
16
16
16
8
2134
7
2134
6
213
5
213
4
21
3
21
2
1
1
1
0
1 3 4 5
= Unlit button = Lit button = Blinking button
Green indicates a positive (gain) level.
5 6 7 8 9
5 6 7 8 9
4 5 6 7 8 9
4 5 6 7 8 9
3 4 5 6 7 8 9
3 4 5 6 7 8 9
3 4 5 6 7 8 9
3 4 5 6 7 8 9
10
10
10
10
10
10
10
10
10
11
11
11
11
11
11
112
112
112
12
12
12
12
12
12
12
12
16
14
15
13
16
14
15
13
16
14
15
13
16
14
15
13
16
14
15
13
16
14
15
13
16
14
15
13
16
14
15
13
27 8 9
13
14
15 16
XTP CrossPoint Series • Operation 51
Page 60
Example 8: Viewing and adjusting an input audio level
AUDIO
AUDIO
Press and hold.
2 seconds
INPUTS
1
2
3
4
5
6 7
8
15
16
OUTPUTS
1
2
3
4
5
6 7
8
15
16
Press the button. It lights green.
Each output button indicates 1 dB when lit. When the buttons are lit green, then indicate a gain (+) audio level. When the output buttons are lit red, they indicate an attenuation (-) level.
The output buttons display the audio level and polarity (gain or attenuation) of the selected input.
OUTPUTS
Because of the different gain and attenuation display schemes, the input audio levels that result from the following example are shown two times:
As displayed on an XTP CrossPoint 3200 matrix switcher
As displayed on an XTP CrossPoint 1600 matrix switcher
The XTP CrossPoint 3200 drawings show the actions that led up to the display. The XTP CrossPoint 1600 drawings show the gain or attenuation display only, not the actions that caused it. The actions are the same for both models.
In the following example, an audio level is viewed and adjusted. The steps show the front panel indications that result from your action.
1. Clear all selections: Press and release the Esc button.
2. Select Audio mode: Press and hold the Audio button for approximately 2 seconds
until it blinks.
3. Select an input with analog audio: Press and release the Input 5 button (see
figure 36). Figure 36 and figure 37 show an audio gain level of +8 dB.
Figure 36. Select an Input
Figure 37 shows the same +8 dB level as figure 36, but displayed on an XTP CrossPoint 1600 matrix switcher.
2
1
Figure 37. Level Display on an XTP CrossPoint 1600 Matrix Switcher
3
5
4
6 7
15
8
16
XTP CrossPoint Series • Operation 52
Page 61
4. Change the audio level: Press and release the View (<) button once (see figure 38) to
VIEW
OUTPUTS
1
2
3
4
5
6 7
8
15
16
Press the button.
The output buttons display the audio level and polarity (gain or attenuation) of the selected input.
Each output button indicates 1 dB when lit. When the buttons are lit green, they indicate a
gain (+) audio level. When the output buttons are lit red, they indicate
an attenuation (-) level.
OUTPUTS
I / O
VIDEO AUDIO
The Audio button stops blinking and lights.
Press the button.
All input buttons and output buttons return to unlit or background illumination.
The Video button lights green.
decrease the input audio level by 1 dB. Press and release the View (<) button several more times (see figure 36) to decrease
the input audio level by 1 dB per button press. Note the output button indication changes that occur each time the View (<) button is pressed.
Figure 38 and figure 39 show the result of pressing the View (<) button a total of nine times, an audio attenuation level of -1 dB. Note that the level is now displayed in red to indicate a negative level.
Figure 38. Adjust the Analog Input Audio Level
Figure 39 shows the same –1 dB level as in figure 38, but displayed on an XTP CrossPoint 1600 matrix switcher.
2
1
3
5
4
6 7
15
8
16
Figure 39. Level Display on an XTP CrossPoint 1600 Matrix Switcher
5. Exit Audio mode: Press and release the Audio button.
XTP CrossPoint Series • Operation 53
Page 62

Viewing and Adjusting the Analog Output Volume

The level of each analog audio output can be displayed and adjusted through a range of 100% (no attenuation) to 0% (maximum [76 dB] attenuation). The audio level can be adjusted from the front panel or under serial port, USB port, or Ethernet control. The default volume is 100% (no attenuation).
NOTE: Output volume is protected when front panel Lock mode 2 is selected. You can
view the volume in Lock mode 2 but you cannot adjust it from the front panel (see
Setting the Front Panel Locks (Executive Modes) on page 59).
1. Press the Esc button to clear any input buttons, output buttons, or control buttons that
may be lit.
2. Press and hold the Audio button until the button begins to blink red to enter Audio
mode. Release the button.
3. Press and release an output button to select an output that has analog audio. The input
buttons display the volume level for the selected output. As a general rule, the more buttons that are lit, the higher the volume. The fewer buttons that are lit, the lower the volume.
For a more detailed analysis of decoding the displayed value, see “Reading the displayed volume” below.
4. Press and release the Esc (>) and View (<) buttons to increase or decrease the audio
volume.
5. Press and release the Audio button to save the audio settings and exit the Audio mode.
The Audio button stops blinking.
NOTES:
Only the volume for the analog audio outputs is adjustable.
There is one audio volume level setting per analog output. The audio level
setting is shared by the left and right audio inputs.
The audio volume levels are stored in non-volatile memory. When power is
removed and restored, the audio level settings are retained.
Exiting Audio mode by pressing the Audio button always returns the I/O
buttons to Video lit green and Audio lit red.
Pressing the Enter or Preset button also exits Audio mode. Pressing the
Preset button changes to Recall Preset mode.
Reading the displayed volume
This section is a detailed look at reading the output volume display on the front panel. If you do not need to read the exact value of the volume setting, skip this section.
There are 65 steps of volume attenuation, with 1 dB per step (button push), except for 0-to-1, which is 13 dB. At maximum attenuation, no input buttons are lit, 76 dB of attenuation is applied, and the audio output is effectively muted. At no attenuation, all input buttons are lit and the output volume is equal to the input signal plus any gain or attenuation that is applied to that specific input using the input audio level adjustment (see Viewing and Adjusting
the Input Audio Level on page 48). Other than the minimum and maximum volume, the
matrix switchers indicate the volume differently, depending on the model (see the table on page 56 to read the volume display for each display scheme).
XTP CrossPoint Series • Operation 54
Page 63
For each display scheme, the input buttons blink or light sequentially to indicate the approximate volume of the selected output. Volume is defined as a percentage of the input audio signal that is applied to the output. From 0% of volume, the first Esc (>) button push applies 5.5% of the input audio signal. From 5.5% on, each Esc (>) push applies 1.5% more of the input audio signal to the output:
Push Esc (>) button again — 5.5% + 1.5% = 7% volume
XTP CrossPoint 1600 — Input 1 blinks slowly
XTP CrossPoint 3200 — Input 1 lights steadily
Push Esc (>) button twice more — 7% + 1.5% + 1.5% = 10% volume
XTP CrossPoint 1600 — Input 1 lights steadily
XTP CrossPoint 3200 — Input 1 and Input 2 light steadily
Push Esc (>) button 19 times more — 10% + (19 times 1.5%) = 38.5% volume
XTP CrossPoint 1600 — Input 1 through Input 5 light steadily and Input 6 blinks
XTP CrossPoint 3200 — Input 1 through Input 11 light steadily and Input 12
blinks When all input buttons are lit, the audio output is 100% of the audio input level. Another way to view the volume level is to think in terms of the attenuation that is applied to
the output. Attenuation reduction is indicated by the lit or blinking input buttons: when fewer input buttons are lit, attenuation is greater (and the volume is quieter).
At minimum volume, all input buttons are unlit or background illuminated and 76 dB of
attenuation is applied to the output. The audio output is effectively muted.
The first step of volume increase causes Input 1 to blink. Attenuation is reduced by
13 dB (63 dB of attenuation is applied to the output).
The second step of volume increase reduces the attenuation by an additional 1 dB
(62 dB of attenuation is applied to the output). (On the XTP CrossPoint 3200, Input 1 lights steadily.)
Successive steps of volume increase cause consecutive input buttons to first blink and
then light steadily. (On the XTP CrossPoint 3200, each consecutive button indicates a
1 dB attenuation reduction when blinking and a 2 dB attenuation reduction when lit.) For example: When lit steadily, Input 3 indicates the following, depending on the
matrix switcher model:
XTP CrossPoint 1600 — 52 dB of attenuation when compared to Input 3
blinking (53 dB to 55 dB of attenuation). Input 4 blinking (49 dB to 51 dB of
attenuation) is at least 2 dB less than Input 3 blinking (53 dB minus 51 dB) and at
most 6 dB less (55 dB minus 49 dB).
XTP CrossPoint 3200 — 58 dB of attenuation when compared to Input 3
blinking (59 dB of attenuation). Input 4 blinking (57 dB of attenuation) is 6 dB less
than Input 2 steadily-lit (60 dB minus 57 dB).
On the XTP CrossPoint 3200, the volume indications of the buttons are additive.
For example: Input 1 lit (23 dB [22 dB + 1 dB] of attenuation reduction), Input 2 lit (2 dB [1 dB + 1 dB] of attenuation reduction), and Input 3 blinking (1 dB of attenuation reduction) indicate that the output attenuation has been reduced by a total of 25 dB (22 dB + 2 dB + 1 dB = 25 dB).
At full volume, no attenuation is applied to the output and all input buttons are lit
steadily.
XTP CrossPoint Series • Operation 55
Page 64
Highest # input button lit
XTP CrossPoint 1600
XTP CrossPoint 3200
None
1
1
1
2
2
3
3
4
4
5
5
6
6
7
7
8
8
1
2
2
3
3
4
4
5
5
6
6
7
7
8
8
9
9
10
10
11
11
12
12
13
13
14
14
15
15
16
16
dB of
attenuation
76 63 62
61 60 59 58 57 56 55 54 53 52 51 50 49 48 47 46 45 44 43 42 41 40 39 38 37 36 35 34 33
32
Output volume
0%None
5.5% 7%
8.5%
10%
11.5% 13%
14.5%
16%
17.5%
19%
20.5%
22%
23.5%
25%
26.5%
28%
29.5%
31%
32.5%
34%
35.5%
37%
38.5%
40%
41.5% 43%
44.5%
46%
47.5%
49%
50.5%
52%
XTP CrossPoint 1600
Highest # input button lit
XTP CrossPoint 3200
9
9
10
10
11
11
12
12
13
13
14
14
15
15
16
16
dB of
attenuation
17
17
18
18
19
19
20
20
21
21
22
22
23
23
24
24
25
25
26
26
27
27
28
28
29
29
30
30
31
31
32
32
31 53.5% 30 55%
29 28 27 26 25 24
23 22 21 20 19 18 17 16 15 14 13 12 11 10
Output
volume
56.5% 58%
59.5% 61%
62.5% 64%
65.5% 67%
68.5% 70%
71.5% 73%
74.5% 76%
77.5% 79%
80.5% 82%
83.5% 85%
9
86.5%
8 7 6 5 4 3 2 1
0
88%
89.5% 91%
92.5% 94%
95.5% 97%
98.5%
100%
= blinking LED
XTP CrossPoint Series • Operation 56
Page 65
Example 9: Viewing and adjusting an analog output volume level
AUDIO
AUDIO
Press and hold.
2 seconds
1
2
16
1
2
3
1
12
13
14
15
16
17
18
19
27
28
29 30
31
32
INPUTS
Each lit input button beyond input 1 indicates that 3 percent of the total input volume is applied to the output. The flashing button indicates an additional 1.5 percent.
39 dB attenuation
41.5% volume
Press to light the button.
39 dB attenuation,
In the following example, the audio output volume is viewed and adjusted. The steps show the front panel indications that result from your action.
Because of the different volume display schemes, the output audio levels that result from the following example are shown twice:
As displayed on an XTP CrossPoint 3200 matrix switcher
As displayed on an XTP CrossPoint 1600 matrix switcher
The XTP CrossPoint 3200 drawings show the actions that led up to the display. The XTP CrossPoint 1600 drawing shows the volume display only, not the actions that caused it.
1. Clear all selections: Press and release the Esc button.
2. Select Audio mode: Press and hold the Audio button for approximately 2 seconds
until it blinks.
3. Select an output: Press and release the Output 1 button (see figure 38).
In figure 40 and figure 41, the lit or blinking input buttons indicate 41.5 percent of the applied audio input. The unlit input buttons indicate an audio volume attenuation of 39 dB.
Figure 40. Select Output 1
Figure 41 shows the same volume as figure 40, but displayed on an XTP CrossPoint 1600.
2
1
Figure 41. Volume Display on an XTP CrossPoint 1600 Matrix Switcher
NOTE: Volume is protected when front panel Lock mode 2 is selected. You can
view the volume in Lock mode 2 but you cannot change it from the front panel (see Setting the Front Panel Locks (Executive Modes) on page 59).
If front panel Lock mode 2 is selected and you try to perform step 4, the actions are ignored and the Enter, Video, and Audio buttons blink.
3
5
4
6 7
41.5% volume
8
INPUTS
10
9
11
XTP CrossPoint Series • Operation 57
12
13
14
15
16
Page 66
4. Change the volume: Press and release the Esc (>) button once (see figure 42) to
ESC
1
2
3
1
12
13
14
15
16
17
18
19
27
28
29 30
31
32
INPUTS
Decrease the audio attenuation (thereby increasing the audio level) that is applied to the output volume level by 1 dB per button push.
Each lit input button beyond input 1 indicates that 3 percent of the total input is applied to the output.
26 dB attenuation,
61% volume
Press the button
26 dB attenuation
I / O
VIDEO AUDIO
The Audio button stops blinking and lights.
Press the button.
All input buttons and output buttons return to unlit or background illumination.
The Video button lights green.
increase the volume by 1.5%. Press and release the Esc (>) button several more times (figure 42) to increase the
volume by 1.5% per button press. Note the input button indication changes that occur each time the Esc (>) button is pressed and released.
NOTE: You can press and hold the Esc (>) or View (>) button to ramp the level up
or down by 3 dB per second to the high or low limit.
Figure 42 shows the result of pressing the Esc (>) button a total of 13 times. In figure 42 and figure 43, the lit or blinking input buttons indicate 61 percent of the applied audio input. The unlit input buttons indicate an audio volume attenuation of 26 dB.
Figure 42. Adjust the Output Audio Volume
Figure 43 shows the same volume (61%) as in figure 42, but displayed on an XTP CrossPoint 1600 matrix switcher.
61% volume
INPUTS
2
1
Figure 43. Volume Display on an XTP CrossPoint 1600 Matrix Switcher
3
5
4
6 7
8
11
10
9
12
13
14
15
16
5. Exit Audio mode: Press and release the Audio button.
XTP CrossPoint Series • Operation 58
Page 67

Setting the Front Panel Locks (Executive Modes)

Press and hold for 2 seconds.
The matrix switcher has three levels of front panel security lock that limit the operation of the matrix switcher from the front panel. The three levels are:
Lock mode 0 — The front panel is completely unlocked. All front panel functions are
available.
Lock mode 1 — All changes are locked from the front panel (except for setting Lock
mode 2). Some functions can be viewed.
Lock mode 2 — Basic functions are unlocked. Advanced features are locked and can
be viewed only. Basic functions consist of:
Making ties
Saving and recalling presets
Setting input audio gain and attenuation
Changing Lock modes
Advanced functions consist of:
Setting audio output mutes
Setting audio output volume
Setting the rear panel remote port protocol and baud rate
NOTE: The matrix switcher is shipped from the factory in Lock mode 2.
Selecting Lock mode 2 or toggling between mode 2 and mode 0
NOTE: If the matrix switcher is in Lock mode 0 or mode 1, this procedure selects
mode 2. The Preset, View, and Esc buttons blink twice. If the matrix switcher is in Lock mode 2, this procedure selects mode 0 (unlocks the
matrix switcher). The View and Esc blink twice.
Toggle the lock on and off by pressing and holding the Preset button, the View button, and the Esc button simultaneously for approximately 2 seconds (see figure 44).
Lock mode 2
C O N T R O L
ENTER
PRESET
Press and hold for 2 seconds.
ESCVIEW
ENTER
C O N T R O L
PRESET
ESCVIEW
Lock mode 0
C O N T R O L
ENTER
PRESET
C O N T R O L
ENTER
ESCVIEW
PRESET
Figure 44. Toggle Front Panel Lock Between Mode 2 and Mode 0
ESCVIEW
XTP CrossPoint Series • Operation 59
Page 68
Selecting Lock mode 2 or toggling between mode 2 and mode 1
Press and hold for 2 seconds.
CONTROL
VIEW
ESC
Press and hold the buttons simultaneously while you apply power to the switcher.
Release the buttons.
Power
The switcher flashes the button indicators and then turns them off.
Continue to hold the View and Esc buttons until all input and output buttons return to unlit and the Video and Audio buttons light.
NOTE:
If the matrix switcher is in Lock mode 0 or mode 1, this procedure selects mode 2.
If the matrix switcher is in Lock mode 2, this procedure selects mode 1.
Toggle the lock on and off by pressing and holding the View button and the Esc button simultaneously for approximately 2 seconds (see figure 45).
Lock mode 1
C O N T R O L
ENTER
PRESET
Press and hold for 2 seconds.
C O N T R O L
ENTER
ESCVIEW
PRESET
ESCVIEW
Lock mode 2
C O N T R O L
ENTER
PRESET
C O N T R O L
ENTER
ESCVIEW
PRESET
ESCVIEW
Figure 45. Toggle Front Panel Lock Between Mode 2 and Mode 1

Performing a System Reset from the Front Panel

The front panel reset is identical to issuing the EZXXX} SIS command defined on
page 112. A system reset performs the following functions:
NOTES:
System reset does not reset the Internet protocol (IP) or serial port settings or
replace user-installed firmware.
This function resets not only the matrix switcher, but any connected endpoints.
Clears all ties and presets
Clears all mutes
Disables all RS-232 output inserts
Resets all input audio levels to unity gain (0 dB)
Sets all output volume levels to 100% (0 dB of attenuation)
Reset the matrix switcher to the factory default settings by pressing and holding the View button and Esc button simultaneously while you apply AC power to the matrix switcher (see figure 46).
Figure 46. System Reset
NOTE: If background illumination was turned on before the reset, all buttons are unlit
after the reset. But, when you cycle power, background illumination returns to the condition that you previously selected.
XTP CrossPoint Series • Operation 60
Page 69

Background Illumination

1
2
5
16
Press and hold the buttons.
After the illumination status of the buttons change (after approximately 2 seconds), release the buttons.
2 seconds
I / O
VIDEO AUDIO
C O N T R O L
PRESET
ENTER
ESCVIEW
C O N T R O L
PRESET
ENTER
ESCVIEW
The flashing Control button indicates the baud rate as follows: Enter — 9600 Preset — 19200 View — 38400 Esc — 115200
The flashing I/O button indicates the protocol as follows: Video — RS-232 Audio — RS-422/RS-485
In this example, the port is set to RS-232 at 9600 baud.
All Control buttons light with one flashing.
Both I/O buttons light with one flashing.
Press and hold the buttons.
C O N T R O L
PRESET
ENTER
I / O
VIDEO AUDIO
ESC VIEW
Press and release the button(s) to configure the port as follows: Baud rate: Enter — 9600 Preset — 19200 View — 38400 Esc — 115200
Serial protocol: Video — RS-232 Audio — RS-422/RS-485
The selected buttons blink and the others remain lit.
In this example, the port is set to RS-422 at 38400 baud.
The buttons on the front panel can be set to provide amber background illumination at all times or the background illumination can be turned off. To toggle the background illumination on or off, press and hold the Input 1 and Input 2 buttons simultaneously for approximately 2 seconds (see figure 47).
Figure 47. Toggle Background Illumination on or off

Selecting the Rear Panel Remote Port Protocol and Baud Rate

The matrix switchers can operate at the 9600, 19200, 38400, and 115200 baud rate and can support either RS-232 or RS-422 serial communication protocol. The settings of these variables can be viewed and changed from the front panel.
View and configure the serial communications settings as follows:
1. Select Serial Port Configuration mode: Simultaneously press and hold all Control
buttons (Enter, Preset, View, and Esc).
2. Release the Control buttons.
3. Change a value: Press and release the button that relates to the desired value.
NOTE: If front panel Lock mode 2 is selected and you try to perform step 3, the
actions are ignored and the Enter, Video, and Audio buttons blink (see Setting
the Front Panel Locks (Executive Modes) on page 59).
XTP CrossPoint Series • Operation 61
Page 70
4. Exit the Serial Port Configuration mode: Press and release an output button.
C O N T R O L
PRESET
ENTER
I / O
VIDEO AUDIO
ESCVIEW
5
All Control and I/O buttons return to unlit or background illumination.
Press and release
an output button.

Rear Panel Operations

The rear panel has a Reset button that initiates four levels of resets (numbered 1, 3, 4, and 5 for the sake of comparison with an Extron IPL product). The Reset button is recessed, so use a small screwdriver, a pointed stylus, or a ballpoint pen. See the table on the next page for a summary of the modes.
ATTENTION:
Review the reset modes carefully. Some reset modes delete all user loaded content
and revert the device to default configuration.
Étudier de près les différents modes de réinitialisation. Certains modes de
réinitialisation suppriment la totalité du contenu chargé de l’utilisateur et remettent l’appareil en mode de configuration par défaut.
NOTE: The reset modes listed below close all open IP and Telnet connections and close
all sockets. Also, the following modes are separate functions, not a continuation from Mode 1 to Mode 5.
Mode Activation Result Purpose and
Notes
1 Hold down the recessed Reset
button while applying power to the matrix switcher.
NOTE: After a mode 1 reset is
performed, update the matrix switcher firmware to the latest version. Do not operate the matrix switcher firmware version that results from the mode 1 reset. If you want to use the factory default firmware, you must upload that version again (see
Firmware Upgrade Page
on page 132 for details on uploading firmware).
3 Hold down the Reset button until
the Reset LED blinks once (about 3 seconds), then press and release
Reset (<1 second) within 1 second.
The matrix switcher reverts to the factory default firmware. Event scripting will not
start if the matrix switcher is powered on in this mode. All user files and settings (such as drivers, adjustments, and IP settings) are maintained.
NOTE: If you do not want to update
firmware, or you performed a mode 1 reset by mistake, cycle power to the matrix switcher to return to the firmware version that was running before the mode 1 reset. Use the 0Q SIS command (see page 115) to confirm that the factory default firmware is no longer running (look for the asterisk [*] following the version number.
Mode 3 turns events on or off. During resetting, the Reset LED blinks 2 times if events are starting, 3 times if events are stopping.
Use mode 1 to revert to the factory default firmware version if incompatibility issues arise with user-loaded firmware.
Mode 3 is useful for troubleshooting.
XTP CrossPoint Series • Operation 62
Page 71
4 Hold down the Reset button twice
(once at 3 seconds and again at 6 seconds). Then press and release
Reset (<1 second) within 1 second.
Mode 4:
Enables ARP capability.
Sets the IP address to the factory default.
Sets the subnet address to the factory
default.
Mode 4 enables you to set IP address information using ARP and the MAC address.
Sets the gateway address to the factory
default.
Sets port mapping to the factory default.
Turns DHCP off.
Turn events off.
The Reset LED blinks four times in quick succession during the reset.
5 Hold down the Reset button until the
Reset LED blinks three times (once at 3 seconds, again at 6 seconds, and then again at 9 seconds). Then press and release Reset (<1 second) within 1 second.
Mode 5 performs a complete reset to factory defaults (with the exception of the firmware):
Does everything mode 4 does.
Resets most real time adjustments,
including:
Mode 5 is useful if you want to start over with configuration and uploading or to replace events.
clears all ties and presets
clears all mutes
disables all RS-232 output inserts
clears all audio settings
Resets all IP options.
Removes/clears all files for the matrix
switcher.
The reset LED blinks four times in quick succession during the reset.
XTP CrossPoint Series • Operation 63
Page 72

Performing a Hard Reset (Reset 1)

Power
RESET
RESET
Press and hold the button while you apply power.
Release the Reset button.
The switcher flashes the front panel button indicators green, red, and amber and then turns them off.
Continue to hold the Reset button until all input and output buttons return to either unlit or to background illumination and the Video and Audio buttons turn on.
The hard reset function restores the matrix switcher to the base firmware that it was shipped with. After a hard reset, events do not automatically start, but user settings and files are restored.
Perform a hard reset as follows:
NOTE: The hard reset restores the factory-installed firmware. The matrix switcher
reverts to that factory firmware the next time power is cycled off and on unless a firmware update is performed before the power cycle.
1. If necessary, turn off power to the matrix switcher.
2. Press and hold the Reset button on the rear panel while you apply AC power to the
matrix switcher (see figure 48).
Figure 48. Hard Reset
XTP CrossPoint Series • Operation 64
Page 73

Performing Soft System Resets (Resets 3, 4, and 5)

I / O
VIDEO AUDIO
I / O
VIDEO AUDIO
I / O
VIDEO AUDIO
RESETRESET RESET
RESETRESET RESET
RESETRESET RESET
Release, then immediately press and release again.
IP Settings
Reset
6 seconds
Absolute Reset
9 seconds
Press and hold the Reset button.
Press and hold the Reset button.
Press and hold the Reset button.
3 seconds
Events Reset
(Mode 4)
(Mode 5)
(Mode 3)
Front panel I/O buttons flash once.
Reset LED flashes once.
Release, then immediately press and release again.
Reset LED flashes twice.
Reset LED flashes
three times.
Front panel I/O buttons flash twice.
Front panel I/O buttons flash three times.
Release, then immediately press and release again.
Perform a soft reset of the matrix switcher as follows:
1. Use a small screwdriver to press and hold the rear panel Reset button until the Reset
LED and the front panel Video and Audio buttons blink the number of times for the desired reset: once (events reset), twice (system reset), or three times (absolute reset) (see figure 49).
Figure 49. Soft System Resets
2. Release the Reset button and then immediately press and release the Reset button
again. Nothing happens if the second momentary press does not occur within 1 second.
XTP CrossPoint Series • Operation 65
Page 74

Optimizing the Analog Audio

The level for each analog audio input can be adjusted within a range of -18 dB to +24 dB, so there are no noticeable volume differences between sources and for the best headroom and signal-to-noise ratio. The volume for each analog audio output can be adjusted from full loudness to effectively muted. Adjust the levels as follows:
1. Connect analog audio sources to all desired inputs and connect the analog audio
outputs to output devices such as audio players (see Input and Output Boards on page 14). For best results, wire all of the inputs and the outputs balanced.
2. Power on the audio sources, the matrix switcher, and the audio players.
3. Switch among the inputs (see Creating a Configuration on page 37), listening to
the audio with a critical ear or measuring the output audio level with test equipment, such as a VU meter.
4. As necessary, adjust the input audio level of each input (see Viewing and Adjusting
the Input Audio Level on page 48) so that the approximate output level is the same
for all selected inputs.
5. Tie an audio input to each analog audio output.
6. As necessary, adjust the output audio level of each output (see Viewing and Adjusting
the Analog Output Volume on page 54).

RS-232 Insertion

The XTP twisted pair and fiber input and output boards allow you to insert RS-232 control signals onto the same XTP cable that carries video and audio to extend them to the Over XTP port on a connected endpoint (see figure 50 on the next page and figure 51 on page 70). The control signals can be inserted two ways:
Ethernet to RS-232 insertion (see Ethernet to RS-232 Insertion on the next page) —
A control signal applied to the matrix switcher LAN port can be routed to any matrix
switcher XTP port.
Captive screw insertion (see Captive Screw Signal Insertion on page 69) —
A control signal applied to an RS-232 captive screw port on an XTP board is tied
directly to the same-numbered XTP port on that board.
RS-232 port 1 is tied to XTP port 1 only, 2 is tied to 2, and so on.
You must physically connect a cable connected to the captive screw connector where a
control signal is to be inserted.
The insert inputs and outputs, whether inserted via Ethernet or captive screw connectors, can support up to a 115k baud rate.

Enabling Ethernet and Captive Screw Insertion

For an XTP port to distribute the inserted signal, it must be enabled for either Ethernet insertion or captive screw insertion (default). The simplest way to make this selection is using the XTP Configuration Software.
Alternatively, you can make this selection via SIS commands.
For the input XTP and fiber boards, see the input board Captive screw and Ethernet
serial port insertion enables SIS commands on page 92.
For the output XTP and fiber boards, see the output board Captive screw and
Ethernet serial port insertion enables SIS commands on page 105.
XTP CrossPoint Series • Operation 66
Page 75

Ethernet to RS-232 Insertion

SIG LINK
SIG LINK
SIG LINK
XT
HD Camera
Figure 50 is an example of a typical Ethernet to RS-232 insertion, in which an Extron IPCP module provides control of an HD camera via the matrix switcher. Configure this type of insertion as follows:
1. Connect a TP cable from the IPCP module to the LAN port, directly or via a network.
2. If necessary, enable the port (input port 4 in this example) for Ethernet (see Enabling
Ethernet and Captive Screw Insertion on the previous page).
3. If necessary to match the device to be controlled, configure the port RS-232 protocol
(baud rate, parity, data bits, and stop bits) (see RS-232 protocol on page 69).
4. Connect the XTP cable to the endpoint as usual.
5. Connect a serial cable from the endpoint to the device to be controlled.
SIG LINK
SIG LINK
SIG LINK
SIG LINK
Network
SIG LINK
PWR
ACT LINK
LAN
XTP
PWR
ACT LINK
LAN
XTP
PWR
ACT LINK
LAN
XTP
PWR
ACT LINK
LAN
XTP
REMOTE
RS-232/RS-422
LINK
ACT LINK
SIG LINK
PWR
SIG LINK
PWR
SIG LINK
PWR
SIG LINK
PWR
RESET
SIG LINK
PWR
ACT LINK
XTP
ACT LINK
XTP
ACT LINK
XTP
ACT LINK
XTP
ACT LINK
LAN
LAN
LAN
LAN
LAN
XTP
SIG LINK
PWR
ACT LINK
LAN
XTP
SIG LINK
PWR
ACT LINK
LAN
XTP
SIG LINK
PWR
ACT LINK
LAN
XTP
XT
RS-232 IR
Tx GGGGRx TxRx
RS-232 IR
Tx GGGGRx TxRx
RS-232 IR
Tx GGGGRx TxRx
RS-232 IR
Tx GGGGRx TxRx
RS-232 IR
TxRx Tx Rx
RS-232 IR
TxRx Tx Rx
RS-232 IR
TxRx Tx Rx
RS-232 IR
TxRx Tx Rx
IR/RS-232 OVER XTP
IR/RS-232 OVER XTP
IR/RS-232 OVER XTP
IR/RS-232 OVER XTP
RS-232 IR
TxRx Tx Rx
RS-232 IR
TxRx Tx Rx
RS-232 IR
TxRx Tx Rx
RS-232 IR
TxRx Tx Rx
RS-232 IR
TxRx Tx Rx
RS-232 IR
TxRx Tx Rx
RS-232 IR
TxRx Tx Rx
RS-232 IR
TxRx Tx Rx
XTP CP 4i
IN
XTP CP 4i
IN
XTP CP 4i
IN
XTP CP 4i
IN
DISCONNECT POWER
CORD BEFORE
SERVICING
100-240V
50-60Hz
12.0A MAX
IPCP
Module
INPUTS
13−16
OUTPUTS
13−16
9−12
9−12
1−4
5−8
1−4
5−8
RS-232
Insertion
IN
PWR
IN
PWR
IN
PWR
IN
PWR
P CROSSPOINT 1600
AUDIO
LR
−+
−+
RS-232
OVER XTP
RS-232 IR
Rx GTx
SIG LINK
RxTx
XTP OUT
RESET
LAN
POWER 12V
0.7A MAX
XTP T HDMI
INPUTS
XTP T HDMI
HDMI
LOOP THRU
AUDIO
ON
OFF
RS-232
Figure 50. Typical Ethernet to RS-232 Insertion to an Input Endpoint
Port number
For Ethernet to RS-232 insertion, the insertion port number must be stated from a specific starting point. This number is entered as the Telnet port number when you establish communication with the insertion port.
For the purposes of this discussion, consider the Ethernet insertion ports as serial (RS-232) ports. The rear panel Remote RS-232/RS-422 port and all input serial ports in the matrix switcher are numbered sequentially (see the table on the next page for the default values). Output serial ports start 34 XTP CrossPoint positions out from the starting point and continue on sequentially.
XTP CrossPoint Series • Operation 67
Page 76
UART Default Values
Port 1600 3200 Port 1600 3200
Serial 1999 Input 1 2001 Output 1 2033 Input 2 2002 Output 2 2034 Input 3 2003 Output 3 2035 Input 4 2004 Output 4 2036 Input 5 2005 Output 5 2037 Input 6 2006 Output 6 2038 Input 7 2007 Output 7 2039 Input 8 2008 Output 8 2040 Input 9 2009 Output 9 2041
Input 10 2010 Output 10 2042 Input 11 2011 Output 11 2043 Input 12 2012 Output 12 2044 Input 13 2013 Output 13 2045 Input 14 2014 Output 14 2046 Input 15 2015 Output 15 2047 Input 16 2016 Output 16 2048 Input 17 2017 Output 17 2049 Input 18 2018 Output 18 2050 Input 19 2019 Output 19 2051 Input 20 2020 Output 20 2052 Input 21 2021 Output 21 2053 Input 22 2022 Output 22 2054 Input 23 2023 Output 23 2055 Input 24 2024 Output 24 2056 Input 25 2025 Output 25 2057 Input 26 2026 Output 26 2058 Input 27 2027 Output 27 2059 Input 28 2028 Output 28 2060 Input 29 2029 Output 29 2061 Input 30 2030 Output 30 2062 Input 31 2031 Output 31 2063 Input 32 2032 Output 32 2064
XTP CrossPoint Series • Operation 68
Page 77
Changing the starting point
You can change the starting port number. The simplest way to make this change is using the XTP Configuration Software.
Alternatively, you can change the starting port number via SIS commands.
For the input XTP and fiber boards, see the input board Set UART starting point
SIS command on page 92.
For the output XTP and fiber boards, see the output board Set UART starting point
SIS commands on page 106.
RS-232 protocol
You may also need to set the RS-232 protocol of the addressed port to match the connected device. The simplest way to make this change is using the XTP Configuration Software.
Alternatively, you can change the port RS-232 settings via SIS commands.
For the input XTP and fiber boards, see the input board Set serial port parameters
SIS command on page 92.
For the output XTP and fiber boards, see the output board Set serial port parameters
SIS commands on page 105.

Captive Screw Signal Insertion

Figure 51 is an example of a typical captive screw insertion, in which an Extron IPCP module provides control of a Blu-Ray player via the matrix switcher. Configure this type of insertion as follows:
NOTE: Each captive screw insert is for the associated input or output only and cannot
be tied to any other input or output.
1. Connect a TP cable from the IPCP module to the RS-232 captive screw port
(input port 13 in this example).
2. If necessary, enable the port for captive screw (see Enabling Ethernet and Captive
Screw Insertion on page 66).
The RS-232 control signal is inserted directly onto the XTP port of the same number and cannot be tied to any other port.
3. Connect the XTP cable to the endpoint as usual.
XTP CrossPoint Series • Operation 69
Page 78
4. Connect a serial cable from the endpoint to the device to be controlled.
RS
2 TxGRxTxRx
TxRx
G
RS
2
XTP T HDMI
Blu-Ray Player
POWER 12V
0.7A MAX
DISCONNECT POWER
CORD BEFORE
SERVICING
100-240V
12.0A MAX
50-60Hz
XTP CROSSPOINT 1600
INPUTS
XTP T HDMI
HDMI
LOOP THRU
AUDIO
AUDIO
LR
ON
OFF
−+
RS-232
−+
1−4
5−8
INPUTS
9−12
13−16
1−4
5−8
OUTPUTS
9−12
13−16
RS-232
OVER XTP
RS-232 IR
Rx GTx
IPCP
Module
SIG LINK
IN
PWR
SIG LINK
IN
PWR
SIG LINK
IN
PWR
SIG LINK
IN
PWR
SIG LINK
RxTx
XTP OUT
FULL HIGH DEFINITION 1080P VIDEO OUTPUT
SIG LINK
PWR
ACT LINK
LAN
XTP
SIG LINK
PWR
ACT LINK
LAN
XTP
SIG LINK
PWR
ACT LINK
LAN
XTP
SIG LINK
PWR
ACT LINK
LAN
XTP
XT
REMOTE
RS-232/RS-422
RESET
LAN
TM
XTP
XTP
XTP
XTP
ACT LINK
SIG LINK
PWR
ACT LINK
ACT LINK
ACT LINK
ACT LINK
LAN
ACT LINK
LAN
XTP
SIG LINK
PWR
ACT LINK
LAN
XTP
SIG LINK
PWR
ACT LINK
LAN
XTP
SIG LINK
PWR
ACT LINK
LAN
XTP
RESET
BLU-RAY DISC PLAYER
RS-232
Insertion
SIG LINK
PWR
ACT LINK
LAN
LAN
LAN
LAN
LAN
XTP
SIG LINK
PWR
ACT LINK
LAN
XTP
SIG LINK
PWR
ACT LINK
LAN
XTP
SIG LINK
PWR
ACT LINK
LAN
XTP
RS-232 IR
-23
Tx GGGGRx TxRx
Tx GGGGRx TxRx
RS-232 IR
-23
Tx GGGGRx TxRx
IR/RS-232 OVER XTP
RS-232 IR
RS-232 IR
TxRx Tx Rx
TxRx Tx Rx
IR/RS-232 OVER XTP
IR
RS-232 IR
RS-232 IR
GGGTxRx
TxRx Tx Rx
TxRx Tx Rx
IR/RS-232 OVER XTP
IR
RS-232 IR
RS-232 IR
TxRx Tx Rx
TxRx Tx Rx
IR/RS-232 OVER XTP
RS-232 IR
RS-232 IR
TxRx Tx Rx
TxRx Tx Rx
RS-232 IR
TxRx Tx Rx
RS-232 IR
TxRx Tx Rx
RS-232 IR
TxRx Tx Rx
RS-232 IR
TxRx Tx Rx
XTP CP 4i
IN
XTP CP 4i
IN
XTP CP 4i
IN
XTP CP 4i
IN

Troubleshooting

Figure 51. Typical Captive Screw Insertion to an Input Endpoint
This section recommends what to do if you have problems operating the matrix switcher.
1. Ensure that all devices are plugged in and powered on.
2. Check to see if one or more outputs are muted.
3. Ensure an active input is selected for output on the matrix switcher.
4. Ensure that the proper signal format is supplied.
5. Check the cabling and make corrections as necessary.
6. Call the Extron S3 Sales and Technical Support Hotline if necessary. See
www.extron.com for the phone number in your region of the world.
XTP CrossPoint Series • Operation 70
Page 79

Configuration Worksheets

Input sources
Indicate if the configuration is for video, audio, or both.
Rather than trying to remember the configuration for each preset, use worksheets to record this information. Make copies of the blank worksheet on page 74 (XTP CrossPoint 3200) or page 75 (XTP CrossPoint 1600) and use one for each preset configuration. Cross out all unused or inactive inputs and outputs. Use different colors for video and audio.
NOTE: All of the equipment in the following examples is connected through the
appropriate input board, output board, transmitter, or receiver.

Worksheet Example 1: System Equipment

Figure 52 shows a portion of a worksheet for an XTP CrossPoint 1600 in a fictional organization with the system hardware annotated. Inputs 10, 11, and 13 have no connection in this organization, so they are crossed out on the worksheet. Similarly, outputs 7 and 9 through 16 are crossed out.
Camera
Camera/
mic - Main
podium
#2
RGB-HDMI
1 2345678
PC 1
300A
PC 2
RGB-HDMI
300A
Audio
CD
Classroom #1 BluRay
DVS 605
Classroom #2 BluRay
DVS 605
Laptop Streaming
(DVS 605)
9101112
VTG 400
13
14 15
16
2345678910 11 12
1
Main hall
Main hall
Podium
Sound
Sound
FP #1
FP #2
monitor
system
#1
Preset # Title: Video: Audio:
Fill in the preset number and use colors, dashes, etc., to make connecting lines.
Weekly status mtg 3
system
#2
VCR
(VSC 500)
DA 6
Output destinations
13
14 15
16
Figure 52. Worksheet Example 1: System Equipment
Inputs include PCs, an audio CD player, cameras, and an Extron VTG 400DVI. Output devices include monitors, projectors, a stereo, a VCR for recording presentations, and a DA.
The VTG 400DVI video test generator connected to input 12 enables a video test pattern to be sent to one, several, or all output devices for problem isolation or adjustment purposes. An audio test tape or CD could be used in a similar manner to check out the audio components.
XTP CrossPoint Series • Operation 71
Page 80

Worksheet Example 2: Daily Configuration

Input sources
Indicate if the configuration is for video, audio, or both.
Figure 53 continues from worksheet example 1 by showing the video and audio ties that make up the configuration of preset 1. Black lines show video ties and red lines show the audio ties.
Camera
Camera/
mic - Main
podium
1 2345678
RGB-HDMI
#2
PC 1
300A
PC 2
RGB-HDMI
300A
Audio
CD
Classroom #1 BluRay
DVS 605
Classroom #2 BluRay
DVS 605
Laptop Streaming
(DVS 605)
9101112
VTG 400
13
14 15
16
2345678910 11 12
1
Main hall
Main hall
Podium
Sound
Sound
FP #1
FP #2
monitor
system
#1
Preset # Title: Video: Audio:
Fill in the preset number and use colors, dashes, etc., to make connecting lines.
Weekly status mtg 3
system
#2
VCR
(VSC 500)
DA 6
Output destinations
13
14 15
16
Figure 53. Worksheet Example 2: Daily Configuration
In this example:
The image of the presenter, from the main podium camera (input 1), is:
Displayed in the main hall (output 1)
Displayed in the lobby via a distribution amplifier (output 8)
Tied to the VCR (output 6)
The presenter has a presentation on her laptop computer (input 4) that is:
Displayed in the main hall (output 2)
Displayed locally on the podium (output 3)
The audio from the microphone the presenter uses (input 1) is:
Played in the hall (output 1)
Played in the conference room (output 4)
Sent to the VCR (output 6)
Classical music from the CD player (input 5) is:
Played in the background in the main hall on sound system #2 (output 5)
Played in the lobby via a distribution amplifier (output 8)
XTP CrossPoint Series • Operation 72
Page 81

Worksheet Example 3: Test Configuration

Input sources
Indicate if the configuration is for video, audio, or both.
The AV system in our fictional organization needs to be fine tuned on a regular basis. Figure 54 shows a typical test configuration, with an Extron video test generator (input 12) generating a test pattern to all monitors (outputs 1, 2, 3, and 8). Sound checks are run from the CD player (input 5) to all audio systems (outputs 1, 2, 4, 5, and 8).
Camera
Camera/
mic - Main
podium
RGB-HDMI
#2
PC 1
300A
PC 2
RGB-HDMI
300A
1 2345678
Audio
CD
Classroom #1 BluRay
DVS 605
Classroom #2 BluRay
DVS 605
Laptop Streaming
(DVS 605)
9101112
VTG 400
13
14 15
16
1
Main hall
FP #1
2345678910 11 12
Main hall
Podium
Sound
Sound
FP #2
monitor
system
#1
system
#2
VCR
(VSC 500)
DA 6
13
14 15
16
Output destinations
Preset # Title: Video: Audio:
Fill in the preset number and use colors, dashes, etc., to make connecting lines.
Weekly status mtg 3
Figure 54. Worksheet Example 3: Test Configuration
XTP CrossPoint Series • Operation 73
Page 82

XTP CrossPoint 3200 Matrix Switchers Configuration Worksheet

1 2 345678 910111213141516
26 27 28 29 30 31 32
Input sources
Output destinations
Preset # Title: Video: Audio:
Fill in the preset number and use colors, or dashes, etc. to make connecting lines.
Indicate if the configuration is for Video, Audio, or both.
1 2 345678 910111213141516
26 27 28 29 30 31 32
17 18 19 20 21 22 23 24 25
17 18 19 20 21 22 23 24 25
XTP CrossPoint Series • Operation 74
Page 83

XTP CrossPoint 1600 Matrix Switchers Configuration Worksheet

Input sources
Preset
Fill in the preset number and use colors
Indicate if the configuration is for video, audio, or both.
12 13 14 15 16
11
10 12 13 14 15 16
91011
9
Output destinations
, or dashes, etc. to make connecting lines.
1 2345678
12345678
# Title: Video: Audio:
XTP CrossPoint Series • Operation 75
Page 84

Programming Guide

The XTP CrossPoint Series Matrix Switcher can be remotely controlled via:
The XTP System Configuration software (see the XTP System Configuration Software
Help file, available at www.extron.com).
Built-in HTML pages (see HTML Operation, beginning on page 121)
SIS commands (see below)
This section describes the operation of the XTP CrossPoint Series Matrix Switchers via SIS commands, including:
Local Host-Control Ports
Ethernet (LAN) Port
Host-to-Matrix-Switcher Instructions
Matrix-Switcher-Initiated Messages
Matrix Switcher Error Responses
Using the Command and Response Tables
SIS Command and Response Table for Basic Matrix Switcher Commands
SIS Command and Response Table for Input-Board-Specific Commands
SIS Command and Response Table for Input-Endpoint-Specific Commands
SIS Command and Response Table for Output-Board-Specific Commands
SIS Command and Response Table for Output-Endpoint-Specific Commands
SIS Command and Response Table for Advanced Matrix Switcher Commands
SIS Command and Response Table for IP- and Remote Port-Specific
Commands
Special Characters
XTP CrossPoint Series • Programming Guide 76
Page 85

Local Host-Control Ports

The matrix switcher has two local ports that can be directly connected to a host device such as a computer running the Extron DataViewer utility or a control system. These ports make remote control of the matrix switcher possible using a direct connection. The local ports are:
The rear panel Remote RS-232/RS-422 port, a serial port on a 9-pin D female
connector (see Remote RS-232/RS-422 port on page 26)
NOTES:
The rear panel and front panel ports are independent of one another. A front
panel Configuration port connection and a rear panel Remote port connection can be active at the same time.
The serial port protocol of the rear panel Remote RS-232/RS-422 port is:
9600 baud No parity 8-bit
No flow 1 stop bit
See Selecting the Rear Panel Remote Port Protocol and Baud Rate on
page 61 to configure the rear panel Remote port from the front panel.
Extron recommends leaving the Remote RS-232/RS-422 port at 9600 baud.
The front panel Configuration port, a mini USB B port (see Configuration port on
page 27). A standard USB cable and the Extron DataViewer utility, version 2.0 or newer, can be used for connection to the Configuration port.
NOTE: Before you use the Configuration (USB) port for the first time, you need to
install and activate the USB driver on your computer. The simplest way to do this is to install and run the XTP System Configuration software (see the XTP System Configuration Software help file, available at www.extron.com).

Ethernet (LAN) Port

Default IP addresses

The Ethernet cable can be terminated as a straight-through cable or a crossover cable and must be properly terminated for your application (see LAN port on page 26).
Crossover cable — Direct connection between the computer and the
XTP CrossPoint Series matrix switcher.
Patch (straight-through) cable — Connection of the XTP CrossPoint Series matrix
switcher to an Ethernet LAN.
To access the XTP CrossPoint Series matrix switcher via the LAN port, you need the IP address for the unit, and may need the subnet mask and the gateway address. If the IP address has been changed to an address comprised of words and characters, you can determine the actual numeric IP address using the ping (ICMP) utility (see Ethernet Link on page 152 for more details). If the addresses have not been changed, the factory-specified defaults are:
IP address 192.168.254.254
Subnet mask 255.255.0.0
Gateway address 0.0.0.0
XTP CrossPoint Series • Programming Guide 77
Page 86

Establishing a Connection

Establish a network connection to an XTP CrossPoint Series matrix switcher as follows:
1. Open a TCP socket to port 23 using the IP address of the matrix switcher.
NOTE: If the local system administrators have not changed the value, the
factory-specified default, 192.168.254.254, is the correct value for this field.
The matrix switcher responds with a copyright message including the date, the name of the product, firmware version, part number, and the current date and time.
NOTES:
If the matrix switcher is not password-protected, the device is ready to accept
SIS commands immediately after it sends the copyright message.
If the matrix switcher is password-protected, a password prompt appears
below the copyright message.
2. If the matrix switcher is password-protected, enter the appropriate administrator or user
password. If the password is accepted, the matrix switcher responds with Login User or Login
Administrator.
If the password is not accepted, the Password prompt reappears.

Connection Timeouts

The Ethernet link times out after a designated period of time of no communications. By default, this timeout value is set to five minutes but the value can be changed (see the
Configure port timeout SIS commands on page 120).
NOTE: Extron recommends leaving the default timeout at 5 minutes and periodically
issuing the Query (Q) command to keep the connection active. If there are long idle periods, Extron recommends disconnecting the socket and reopening the connection when another command must be sent.

Number of Connections

An XTP CrossPoint Series matrix switcher can have up to 200 simultaneous TCP connections, including all http sockets and telnet connections. When the connection limit is reached, the matrix switcher accepts no new connections until some have been closed. No error message or indication is given that the connection limit has been reached. To maximize performance of an IP Link device, the number of connections should stay low and unnecessary open sockets should be closed.

Using Verbose Mode

Telnet connections to an XTP CrossPoint Series matrix switcher can be used to monitor for changes that occur on the matrix switcher, such as front panel operations and SIS commands from other telnet sockets or a serial port. For a telnet session to receive change notices from the matrix switcher, the telnet session must be in verbose mode 1 or 3 (see the Verbose mode definitions on page 118). In verbose mode 1 and 3, the telnet socket reports changes in messages that resemble SIS command responses.
XTP CrossPoint Series • Programming Guide 78
Page 87

Host-to-Matrix-Switcher Instructions

The matrix switcher accepts SIS (Simple Instruction Set) commands through the rear panel Remote RS-232/RS-422 port, the front panel Configuration port, and the rear panel Ethernet (LAN) Port. SIS commands consist of one or more characters per command field. They do not require any special characters to begin or end the command character sequence. Each matrix switcher response to an SIS command ends with a carriage return and a line feed (CR/LF = ]), which signals the end of the response character string. A string is one or more characters.

Matrix-Switcher-Initiated Messages

When a local event such as a front panel operation occurs, the matrix switcher responds by sending a message to the host. The matrix switcher-initiated messages are listed below (underlined).
The matrix switcher does not expect a response from the host, but, for example, the host program might request a new status.
(c) Copyright 20yy, Extron Electronics, XTP CP nn00, Vx.xx, 60-nnnn-01] <day, date, time>]
The matrix switcher initiates the Copyright message when it is first powered on or when a connection via Internet protocol (IP) is established. Vx.xx is the firmware version number and
60-nnnn-01 is the matrix switcher part number.
NOTE: <day, date, time> are reported only if the connection is via the LAN port.
Password:]
The matrix switcher initiates the Password message immediately after the copyright message when the controlling system is connected using TCP/IP or Telnet and the matrix switcher is password protected. This message means that the matrix switcher requires an administrator or user level password before it will perform the commands entered via this link. The matrix switcher repeats the password message response for every entry other than a valid password until a valid password is entered.
]Login Administrator]
]Login User]
The matrix switcher initiates the Login message when a correct administrator or user password has been entered. If the user and administrator passwords are the same, the matrix switcher defaults to administrator privileges.
Qik]
The matrix switcher initiates the Qik message when a front panel tie creation has occurred.
PrstSnn]
The matrix switcher initiates the PrstS message when a memory preset has been saved from the front panel. “nn” is the preset number.
PrstRnn]
The matrix switcher initiates the PrstR message when a memory preset has been recalled from the front panel. “nn” is the preset number.
Innn•Audxx]
The matrix switcher initiates the Aud message when a front panel input audio level change has occurred. “n” is the input number and “xx” is the dB level.
XTP CrossPoint Series • Programming Guide 79
Page 88
Outnn•Volxx]
Space
The matrix switcher initiates the Vol message when a front panel output audio volume change has occurred. nn is the output number and xx is the volume level.
Vmtnn*x]
The matrix switcher initiates the Vmt message when an output video mute is toggled on or off from the front panel. nn is the output number and x is the mute status: 1 = on, 0 = off.
Amtnn*x]
The matrix switcher initiates the Amt message when an output audio mute is toggled on or off from the front panel. nn is the output number and x is the mute status: 1 = on, 0 = off.
Execn]
The matrix switcher initiates the Exec message when the front panel security lockout (Executive mode) is switched from the front panel. “n” is the Executive mode: 0, 1, or 2.

Matrix Switcher Error Responses

When the matrix switcher receives an SIS command and determines that it is valid, it performs the command and sends a response to the host device. If the matrix switcher is unable to perform the command because the command is invalid or contains invalid parameters, the matrix switcher returns an error response to the host. The error response codes are:
E01 — Invalid input channel number (out of range) E10 — Invalid command E11 — Invalid preset number (out of range) E12 — Invalid output number (out of range) E13 — Invalid value (out of range) E14 — Invalid command for this configuration E17 — Timeout (caused only by direct write of global presets) E22 — Busy E24 — Privileges violation (Users have access to all view and read commands [other than
the administrator password], and can create ties, presets, and audio mutes
E25 — Device not present E26 — Maximum number of connections exceeded E27 — Invalid event number E28 — Bad filename / file not found

Using the Command and Response Tables

The command and response tables begin on page 87. Symbols used in the tables represent variables in the command and response fields. Command and response examples are shown throughout the tables. With the exception of the audio input gain and attenuation commands, the SIS commands are not case sensitive. The ASCII to HEX conversion table below is for use with the command and response table.
ASCII to Hex Conversion Table
XTP CrossPoint Series • Programming Guide 80
Page 89

Arrangement of Command and Response Tables

Different board types and endpoint types accept different types of commands. There is some repetition in the command and response tables, depending on the input and output for which the commands are appropriate. Additionally, basic whole-matrix-switcher commands, more advanced whole-matrix-switcher commands, and IP- and remote port setup commands are presented in separate command and response tables.
The following pages present seven command and response tables, each defining a subset of SIS commands and their responses, with examples where appropriate. The tables that are presented are listed below. For increased detail as to where each command family is presented, see the table below, the table on the next page, and the table on page 83.
SIS Command and Response Table for Basic Matrix Switcher Commands,
starting on page 87 — SIS commands for basic, everyday functions of the XTP CrossPointSeries matrix switcher frame.
SIS Command and Response Table for Input-Board-Specific Commands,
starting on page 88 — SIS commands to control and monitor the inputs to the matrix switcher via assorted input boards.
SIS Command and Response Table for Input-Endpoint-Specific Commands,
starting on page 96 — SIS commands to control and monitor XTP transmitter and XTP switcher endpoints from the matrix switcher.
SIS Command and Response Table for Output-Board-Specific Commands,
starting on page 103 — SIS commands to control and monitor the outputs from the matrix switcher via assorted output boards.
SIS Command and Response Table for Output-Endpoint-Specific Commands,
starting on page 107 — SIS commands to control and monitor XTP receiver endpoints from the matrix switcher.
SIS Command and Response Table for Advanced Matrix Switcher
Commands, starting on page 111 — SIS commands for advanced functions of the
XTP CrossPoint Series matrix switcher frame.
SIS Command and Response Table for IP- and Remote Port-Specific
Commands, starting on page 119 — SIS commands to control and monitor the IP
interface and Remote RS-232/RS-422 port of the XTP CrossPoint matrix switcher.
Matrix Switcher Enclosure Commands
Command family
Create ties Page 87
View ties Page 88
Recall global presets Page 88
Black video resolution within matrix switcher
Test patterns Page 111
Names Page 111
Front panel locks Page 111
Create global presets Page 112
Resets Page 112
View settings Page 113
File directory Page 114
Information requests Page 115
IP and remote port setup Page 119
Basic Advanced IP and Remote Port
Page 111
XTP CrossPoint Series • Programming Guide 81
Page 90
Command family
EDID Page 88Page
Input sync detection
Input audio level
Audio routing selections
HDCP authorized device
HDCP status
Captive screw and Ethernet serial port insertions
Ethernet serial port insert parameters
XTP power Page
AES digital audio
Input selection
Input video format
Image reset
Color
XTP
XTP 4K
Page 91Page
N/A N/A Page 91
N/A N/A Page 91
N/A N/A Page 91
N/A N/A Page 92
Page 92Page
Page 92Page
93
N/A N/A N/A N/A
N/A N/A N/A N/A N/A N/A N/A Page 98 N/A N/A
N/A N/A N/A N/A N/A
N/A N/A N/A N/A N/A
N/A N/A N/A N/A N/A
Tint
Brightness
Contrast
Pixel phase
Horizontal shift
Vertical shift
Save and recall analog input presets
N/A N/A N/A N/A N/A
N/A N/A N/A N/A N/A
N/A N/A N/A N/A N/A
N/A N/A N/A N/A N/A
N/A N/A N/A N/A N/A
N/A N/A N/A N/A N/A
N/A N/A N/A N/A N/A
Input boards Input Endpoints
Fiber 4K HDMI
88
91
92
92
N/A N/A N/A N/A N/A
HDMI
HDMI DMA
Page 88
Page 91
N/A N/A N/A N/A
N/A N/A N/A N/A
DVI Pro 3G
Page 88Page 88Page
Page 91Page 91Page
Page 91Page 91Page
Page 91Page
Page
Page
HD-SDI
SDI
91
91
92
N/A N/A Page 97 Page 99 N/A Page 101
N/A N/A Page 97 Page 99 N/A Page 102
Page
93
Page
Page
Page
Page
Page
Page
Page
Page
Page
Page
VGA XTP T HDMI
88
91
91
N/A Page 97 Page 99 N/A Page 101
N/A
94
94
94
94
94
94
95
95
95
95
XTP T HD 4K
XTP T HWP 101
XTP T HWP 101 4K
XTP FT HD 4K
Page 96 Page 96 Page 96 Page 96
Page 97 Page 99 Page 101 Page 102
Page 96 Page 96 Page 96 Page 96
N/A Page 98 Page 99 Page 102
N/A Page 98 Page 99 Page 102
N/A N/A Page 100 N/A
N/A N/A Page 100 N/A
N/A N/A Page 100 N/A
N/A N/A Page 100 N/A
N/A Page 98 Page 100 Page 102
N/A Page 98 Page 101 Page 102
N/A Page 98 Page 101 Page 102
N/A Page 98 Page 101 N/A
XTP T USW 103
XTP T USW 103 4K
XTP T VGA XTP T FB 202
XTP T FB 202 4K
XTP T UWP 202
XTP T UWP 202 4K
XTP T UWP 302
XTP T EU 202
XTP T MK 202
XTP CrossPoint Series • Programming Guide 82
Page 91
Output boards Output endpoints
Command family
Audio routing selections
HDCP status
Captive screw and Ethernet serial port insertions
Ethernet serial port insert parameters
XTP power Page 106 N/A N/A N/A N/A N/A N/A
Video mutes
Output audio volume
Audio mutes
Relay controls
View video and audio mutes
XTP
XTP 4K
N/A N/A Page 103 Page 103 N/A Page 107 Page 109
N/A Page 103 Page 103 Page 103 N/A Page 108 Page 109
Page 105 Page 105 N/A N/A N/A N/A N/A
Page 105 Page 105 N/A N/A N/A N/A N/A
N/A Page 103 Page 103 Page 103 N/A Page 107 Page 108
N/A N/A Page 104 Page 104 Page 104 Page 107 Page 109
N/A N/A Page 105 Page 105 Page 105 Page 107 Page 109
N/A Page 105 Page 105 Page 105 Page 105 Page 108 Page 110
Fiber 4K HDMI
HDMI
DVI Pro Analog
audio
XTP R HDMI XTP R HD 4K
XTP R HWP 201
XTP R HWP 201 4K
XTP FR HD 4K
Page 108 Page 110
XTP SR HD 4K
XTP SFR HD 4K
XTP SR HDMI
Symbol definitions
= Carriage return and line feed
]
Carriage return (| pipe can be used interchangeably)
=
}
Space character
=
Escape key (W can be used interchangeably)
=
E
Input number (for ties) 00 to 16 or 32 (00 = untied)
=
X!
Output number 01 to 16 or 32
=
X@
Global preset number 00 to 32 (00 = current configuration, applies to view
=
X#
ties command only)
EDID value See the table beginning on page 89.
=
X$
Input signal status 0 = no signal detected
=
X%
Input number (for other
=
X^
functions than ties) Audio gain 00 to 24 (1 dB steps)
=
X&
Numeric dB value -18 to +24 (43 steps of gain or attenuation) (0 dB =
=
X*
Audio attenuation 1 to 18 (1 dB steps)
=
X(
Resolution and rate for
=
X1)
black screen
Input audio source 0 = auto (see the example on page 91)
=
X1!
HDCP authorized device 0 = off
=
X1@
HDCP status (for inputs) 0 = no source device connected
=
X1#
Captive screw or UART 0 = captive screw RS-232 insert (default)
=
X1$
1 = sync detected 01 to 16 or 32 (also addressed input on matrix
switcher endpoints [ sub-inputs])
default)
2 = 1280x720p @ 50 Hz 4 = 1280x720p @ 60 Hz 6 = 1920x1080p @ 60 Hz
1 = HDMI (de-embedded digital audio) (default) 2 = analog 2-channel audio
1 = on (default)
1 = source connected is HDCP-compliant 2 = source connected is not HDCP-compliant
1 = Ethernet RS-232 insert (UART)
XTP CrossPoint Series • Programming Guide 83
Page 92
Port number 01 = remote RS-232/RS-422 port
=
X1%
02 = unused
Baud rate 300, 600, 1200, 1800, 2400, 3600, 4800, 7200,
=
X1^
9600, 14400, 19200, 28800, 38400, 57600, 115200
Parity O = odd
=
X1&
E = even N = none (default) M = mark S = space
Data bits 7, 8 (default)
=
X1*
Stop bits 1 (default), 2
=
X1(
X2)
Port timeout interval (in 10
=
second increments)
1 (10 seconds) to 65000 30 = 300 seconds or 5 minutes (default)
NOTE: X1% through X2) are repeated on page 118 as X7( through X8# and
X9@.
UART starting point
=
X2!
Enable or disable 0 = disable
=
X2@
X2#
X2$
X2%
X2^
X2&
X2*
X2(
Amount of power requested 00 or 13 (watts)
=
Power status 0 = unpowered endpoint
=
Wattage Power usage in 0.1 watt increments.
=
Power supply status 0 = ok
=
AESC digital channel pair 1 (default) or 2
=
AESG digital channel group 1 (default) or 2
=
Input video source 0 = auto
=
The starting point (X2!) is the front panel RS-232/RS-422 port. The next position (X2!+1) is not used.
X2! X2! X2! X2!
+2
to X2!
+2
to X2!
+33
+34
to X2! to X2!
+17
= inputs (XTP CrossPoint 1600)
+33
= inputs (XTP CrossPoint 3200)
+48
= outputs (XTP CrossPoint 1600)
+85
= outputs (XTP CrossPoint 3200)
Default values:
1999 = rear panel remote RS-232/RS-422 port 2000 = unused 2001 to 2016 = XTP CrossPoint 1600 inputs 2001 to 2032 = XTP CrossPoint 3200 inputs 2033 to 2048 = XTP CrossPoint 1600 outputs 2033 to 2064 = XTP CrossPoint 3200 outputs
1 = enable
1 = power provided to endpoint 2 = power available but disabled 3 = no power available, but enabled 4 = fault
Example: 260 = 26.0 watts.
1 = no ok
1 = video 2 = s-video 3 = RGBcvS (SCART) 4 = YUV interlace 5 = RGB 6 = YUV
XTP CrossPoint Series • Programming Guide 84
Page 93
Detected video format 0 = no signal detected
=
X3)
1 = video 2 = s-video 3 = RGBcvS (SCART) 4 = YUV interlace 5 = RGB 6 = YUV
Picture adjustments 000 to 255 (128 = default)
=
X3!
Shift 0 to 65535
=
X3@
Analog input preset 0 through 8
=
X3#
Output audio source 0 = original HDMI audio
=
X3$
1 = embed audio
HDCP status (for outputs) 0, 2, 4, or 6 = no monitor connected
=
X3%
1, 3, or 5 = monitor connected but the video signal
is not encrypted
7 = monitor connected and the video signal is
encrypted
Volume adjustment range 00 through 64 (1 dB per step except for 0 to 1,
=
X3^
which is 13 dB) (see the table on page 104)
Digital and analog audio
=
X3&
mute status
Video and audio mute
=
X3*
status
Relay on endpoint 1 or 2
=
X3(
Pulse duration 0 to 65535 (each step = 16 ms, see the Example
=
X4)
0 = no mutes (default) 1 = digital audio mute 2 = analog audio mute 3 = analog and digital audio mute
0 = no mutes (default) 1 = video mute 2 = digital audio mute 3 = video and digital audio mute 4 = analog audio mute 5 = video and analog audio mute 6 = digital and analog audio mute 7 = video, digital audio, and analog audio mute
on page 108)
Relay status 0 = off
=
X4!
1 = on
Test pattern 00 = disable (default)
=
X4@
01 = color bars, 720p @ 50 Hz 02 = black field, 720p @ 50 Hz 03 = color bars, 720p @ 60 Hz 04 = black field, 720p @ 60 Hz 05 = color bars, 1080p @ 60 Hz 06 = black field, 1080p @ 60 Hz 07 = color bars and audio, 720p @ 50 Hz 08 = black field and audio, 720p @ 50 Hz 09 = color bars and audio, 720p @ 60 Hz 10 = black field and audio, 720p @ 60 Hz 11 = color bars and audio, 1080p @ 60 Hz 12 = black field and audio, 1080p @ 60 Hz
XTP CrossPoint Series • Programming Guide 85
Page 94
Name 12 characters maximum
=
X4#
NOTE: The HTML language reserves certain characters for specific functions
(see Special Characters on page 120).
Lock mode 0 = mode 0
=
X4$
1 = mode 1 2 = mode 2 (default)
Number of inputs 4, 8, 12, 16, 20, 24, 28, or 32
=
X4%
Number of outputs 4, 8, 12, 16, 20, 24, 28, or 32
=
X4^
Installed input board A = XTP CP 4i 4K (TP)
=
X4&
F = XTP CP 4i VGA G = XTP CP 4i (TP) H = XTP CP 4i HDMI I = XTP CP 4i DVI Pro K = XTP CP 4i HDMI DMA N = XTP CP 4i Fiber 4K P = XTP CP 4i 3G-SDI T = XTP CP 4i HD 4K PLUS X = no board installed
Installed output board B = XTP CP 4o 4K (TP)
=
X4*
D = XTP CP 4o (TP) E = XTP CP 4o HDMI J = XTP CP 4o DVI Pro M = XTP CP 4o SA (stereo audio) O = XTP CP 4o Fiber 4K U = XTP CP 4o HD 4K PLUS X = no board installed
Firmware version number to second decimal place (x.xx)
=
X4(
Verbose firmware version-description-upload date/time (see Query firmware
=
X5)
version (verbose) command on page 115)
X5!
X5@
X5#
X5$
X5%
Voltage Positive or negative voltage and magnitude
=
Internal temperature Degrees Fahrenheit
=
Fan speed in RPM
=
Power supply installed
=
status Transmitter endpoint input 1 to 2 or 1 to 3 depending on the transmitter
=
0 = no power supply installed 1 = power supply installed
XTP CrossPoint Series • Programming Guide 86
Page 95

SIS Command and Response Table for Basic Matrix Switcher Commands

The table that starts below shows commands for basic operation of the XTP CrossPoint Series matrix switcher frame. Commands shown affect the entire matrix switcher, regardless of the input boards and output boards installed or any connected endpoints.
Command Function
Create Ties
NOTES:
Commands can be entered back-to-back in a string, with no spaces. For example: 1*1!02*02&003*003%4*8$.
The quick multiple tie and tie input to all output commands activate all I/O switches simultaneously.
The matrix switchers support 1-, 2-, and 3-digit numeric entries (1*1, 02*02, or 001*001).
The & tie command for RGB and the % tie command for video can be used interchangeably on the matrix switchers.
Tie input video and audio to output
Example:
Tie input video (RGB) only to output
Example (see last Notes bullet, above):
Tie input video only to output
Example (see last Notes bullet, above):
Tie input audio only to output
Example:
NOTE: Audio is not routed to an output HDMI connector if there is no video input tied to it. Insert a black video signal into audio
breakaway ties using the an audio-only tie.
Untie input video and audio
Quick multiple tie
Example:
Tie input to all outputs, video and audio
Example:
NOTE: 0*! clears all ties.
Tie input to all outputs, RGB (video) only
Example (see last Notes bullet, above):
Tie input to all outputs, video only
Example (see last Notes bullet, above):
Tie input to all outputs, audio only
SIS Command
(Host to Unit)
X!*X@
! OutX@•InX!•All
1*3!
X!*X@
& OutX@•InX!•RGB
10*4&
X!*X@
% OutX@•InX!•Vid
7*5%
X!*X@
$ OutX@•InX!•Aud
12*4$
E
BAFMT command on page 103 and the EEAFMT commands on page 97 and page 99 to make
0*X@! OutX@•In00•All
E+QX!*X@
E
X!
*! InX!•All
5*!
X!
*& InX!•RGB
8*&
X!
*% InX!•Vid
10*%
X!
*$ InX!•Aud
!...X!*X@$
+Q3*4!3*5%3*6$
}
}
Response
(Unit to Host)
Out03In01All
Out04In10RGB
Out05In07Vid
Out04In12Aud
]
Qik
]
Qik
]
In05All
In08RGB
In10Vid
]
]
]
]
]
]
]
]
]
]
]
]
]
]
]
Additional Description
Tie the input X! video and audio to output X@.
Tie input 1 video and audio to output 3. Audio breakaway. Tie input 10 RGB to output 4.
Audio breakaway. Tie input 7 video to output 5.
Audio breakaway. Tie input 12 audio to output 4.
Untie the video and audio input from output X@.
Tie input 3 video and audio to output 4, tie input 3 video to output 5, and tie input 3 audio to output 6.
Tie input 5 video and audio to all outputs.
Audio breakaway.
Tie input 8 RGB to all outputs.
Audio breakaway. Tie input 10 video to all outputs.
Audio breakaway.
NOTE: X! = Input number 0016,
X@ = Output number 0116,
32, or 32, or
64
(00 = untied)
64
XTP CrossPoint Series • Programming Guide 87
Page 96
Command Function
SIS Command
(Host to Unit)
Response
(Unit to Host)
Additional Description
Read ties
NOTE: The & read tie command for RGB and the % read tie command for video can be used interchangeably on the matrix switchers.
Read RGB (video) output tie Read video output tie Read audio output tie
X@
X@
X@
&
%
$
X!]
X!]
X!]
RGB input X! is tied to output X@. Video input X! is tied to output X@. Audio input X! is tied to output X@.
Recall global input presets
NOTES:
Save presets from the front panel (see Example 5: Saving a preset on page 44) or via the Save current configuration as a
global preset SIS command on page 112).
If you try to recall a global preset that is not saved, the matrix switcher responds with the error code E11.
Recall a global input preset
Example:
ERX#
E
R5PRST
PRST
}
}
X#]
PrstR
PrstR05
]
Recall preset 5, which becomes the current configuration.

SIS Command and Response Table for Input-Board-Specific Commands

The table that starts below shows commands that affect inputs only and, in general, apply to installed input boards. Where a command does not apply to all input board types, the valid board types are noted.
Command Function
EDID commands
NOTES:
See the table on the next two pages for
Leading zeroes are optional for the entry of the inputs (
Assign EDID data to an input
Example (XTP CrossPoint 3200):
Example (XTP CrossPoint 1600):
Assign EDID data to all inputs View EDID assignment Save output 1 EDID to user
assigned slot
NOTE: For this command, X$ is valid only in the range of 117 through 124 (XTP CrossPoint 1600) or 133 through 140
(XTP CrossPoint 3200).
Example (XTP CrossPoint 3200): Example (XTP CrossPoint 1600):
SIS Command
(Host to Unit)
X$
values.
EAX^*X$
E
A7*36EDID
E
A7*36EDID
EA*X$
EAX^
EDID
ESX$
EDID
E
S133EDID
E
S117EDID
}
EDID
}
}
}
*EDID
} X$]
]
}
}
Response
(Unit to Host)
X^
s) and EDID values (X$s). Leading zeroes are reported in the response.
EdidAX^*
EdidA07*036
EdidA07*036
EdidA00*
EdidS
EdidS133
EdidS117
X$]
]
]
X$]
X$]
]
]
Additional Description
Assign an EDID value of X$ to input X^. Assign an EDID value of 1280x720 at
60 Hz to input 7. Assign an EDID value of 1600x900 at
60 Hz to input 7. Assign an EDID value of X$ to all inputs.
Save the output 1 EDID to location X$.
Save the output 1 EDID to user location 1. Save the output 1 EDID to user location 1.
NOTE: X! = Input number (for tie) 0016 or
X@ = Output number 0116 or X# = Global preset number 01 - 32 X$ = EDID value (resolution and rate) See the table on the next two pages. X^ = Input number (for other than tie) 0116 or
32 (00 = untied) 32
32
XTP CrossPoint Series • Programming Guide 88
Page 97
Source or value
X$
Output 29
Output 30
029
030
Output 31
Output 32
031
032
2048x1080 @ 50 Hz
061 045
2048x1080 @ 60 Hz
062 046
2048x1080 @ 50 Hz
091 075
2048x1080 @ 60 Hz
092 076
Source or value
Output 22
Output 23
Output 24
Output 25
Output 26
Output 27
Output 28
1600x1200 @ 60 Hz
1680x1050 @ 50 Hz
1680x1050 @ 60 Hz
1920x1080 @ 50 Hz
1920x1080 @ 60 Hz
1920x1200 @ 50 Hz
1920x1200 @ 60 Hz
1600x1200 @ 60 Hz
1680x1050 @ 50 Hz
1680x1050 @ 60 Hz
1920x1080 @ 50 Hz
1920x1080 @ 60 Hz
1920x1200 @ 50 Hz
1920x1200 @ 60 Hz
X$
022
023
024
025
026
027
028
Source or value
X$
Output 15
Output 16
Assigned output values
015 015
016 016
Output 17
Output 18
017
018
Output 19
Output 20
019
020
054 038
055 039
Output 21
1400x1050 @ 50 Hz
1400x1050 @ 60 Hz
VGA – PC values
021
047 031
048 032
058 042
056 040
1440x900 @ 50 Hz
049 033
059 043
057 041
1440x900 @ 60 Hz
050 034
060 044
1600x900 @ 50 Hz
1600x900 @ 60 Hz
1600x1200 @ 50 Hz
051 035
052 036
053 037
084 068
085 069
086 070
087 071
1400x1050 @ 50 Hz
1400x1050 @ 60 Hz
1440x900 @ 50 Hz
1440x900 @ 60 Hz
DVI – PC values
077 061
078 062
079 063
080 064
088 072
089 073
090 074
1600x900 @ 50 Hz
1600x900 @ 60 Hz
1600x1200 @ 50 Hz
081 065
082 066
083 067
Source or value
Output 8
Output 9
Output 10
Output 11
Output 12
Output 13
Output 14
1280x800 @ 60 Hz
1280x1024 @ 50 Hz
1360x768 @ 60 Hz
1280x1024 @ 60 Hz
1360x768 @ 50 Hz
1366x768 @ 50 Hz
1366x768 @ 60 Hz
1280x800 @ 60 Hz
1280x1024 @ 50 Hz
1360x768 @ 60 Hz
1366x768 @ 50 Hz
1280x1024 @ 60 Hz
1360x768 @ 50 Hz
1366x768 @ 60 Hz
X$
Source or value
X$
3200 1600 3200 1600 3200 1600 3200 1600 3200 1600
008 008
009 009
Output 1
Output 2
001 001
002 002
011 011
010 010
Output 3
Output 4
003 003
004 004
012 012
013 013
Output 5
Output 6
005 005
006 006
014 014
Output 7
007 007
041 025
042 026
043 027
040 024
1024x768 @ 50 Hz
1024x768 @ 60 Hz
033 017
034 018
044 028
1280x768 @ 50 Hz
1280x720 @ 50 Hz
1280x720 @ 60 Hz
035 019
036 020
037 021
045 029
046 030
1280x768 @ 60 Hz
1280x800 @ 50 Hz
038 022
039 023
071 055
072 056
073 057
070 054
1024x768 @ 50 Hz
1024x768 @ 60 Hz
063 047
064 048
074 058
1280x768 @ 50 Hz
1280x720 @ 50 Hz
1280x720 @ 60 Hz
065 049
066 050
067 051
075 059
076 060
1280x768 @ 60 Hz
1280x800 @ 50 Hz
068 052
069 053
XTP CrossPoint Series • Programming Guide 89
Page 98
Source or value
X$
2048x1080 @ 50 Hz
117 101
2048x1080 @ 60 Hz
118 102
1080p @ 50 Hz
multi-channel audio
1080p @ 60 Hz
multi-channel audio
131 115
132 116
Source or value
1600x1200 @ 50 Hz
1600x1200 @ 60 Hz
1680x1050 @ 50 Hz
1680x1050 @ 60 Hz
1920x1200 @ 50 Hz
1920x1200 @ 60 Hz
1080i @ 60 Hz
multi-channel audio
1080p@ 50 Hz
2-channel audio
1080p @ 60 Hz
2-channel audio
User assigned 7
User assigned 8
X$
111 095
112 096
113 097
114 098
115 099
116 100
128 112
Source or value
X$
1400x1050 @ 50 Hz
1400x1050 @ 60 Hz
1440x900 @ 50 Hz
1440x900 @ 60 Hz
1600x900 @ 50 Hz
105 089
106 090
107 091
108 092
109 093
129 113
1600x900 @ 60 Hz
1080i @ 50 Hz
2-channel audio
1080i @ 60 Hz
2-channel audio
HDMI – HDTV values
125 109
110 094
126 110
130 114
1080i @ 50 Hz
127 111
139 123
140 124
multi-channel audio
User assigned 5
User assigned 6
User – Assigned EDIDs
137 121
138 122
HDMI – PC values, all with 2-channel embedded audio
Source or value
X$
1280x1024 @ 50 Hz
1280x1024 @ 60 Hz
1360x768 @ 50 Hz
1360x768 @ 60 Hz
1366x768 @ 50 Hz
099 083
101 085
102 086
100 084
103 087
1366x768 @ 60 Hz
720p @ 60 Hz
2-channel audio
720p @ 50 Hz
*
106
*
122
123 107
104 088
multi-channel audio
720p @ 60 Hz
multi-channel audio
User assigned 3
124 108
135 119
User assigned 4
136 120
Source or value
X$
3200 1600 3200 1600 3200 1600 3200 1600 3200 1600
1024x768 @ 50 Hz
1024x768 @ 60 Hz
1280x768 @ 50 Hz
1280x768 @ 60 Hz
1280x800 @ 50 Hz
093 077
094 078
095 079
096 080
097 081
1280x800 @ 60 Hz
480p @ 60 Hz
2-channel audio
576p @ 50 Hz
119 103
098 082
120 104
2-channel audio
720p @ 50 Hz
2-channel audio
121 105
User assigned 1
User assigned 2
133 117
134 118
Default value, digital
*
XTP CrossPoint Series • Programming Guide 90
Page 99
Command Function
Input:
Response Status:
No input detected
Sync detected Sync detected
1 23 4567 8 9
1011
12
13
32
SIS Command
(Host to Unit)
Response
(Unit to Host)
Additional Description
Input sync detection
View all input connections
Example (XTP CrossPoint 3200):
0LS
0LS
X%1X%2X%
3
X%n]
...
0 0 0 1 1 1 0 1 0 0 1 0 1. . .0
16 or 32 (
status of an input, starting from input 1.
n
) X%s; each is the connection
Inputs on XTP CP 4i HD 4K PLUS, XTP CP 4i HDMI, XTP CP 4i HDMI DMA, XTP CP 4i DVI Pro,
XTP CP 4i 3G, XTP CP 4i VGA Boards
Audio input gain and attenuation
NOTE: The set gain (G) and set attenuation (g) commands are case sensitive.
Set audio input gain to +dB value
Example:
Set audio input attenuation to -dB value
Increment gain
Example:
Decrement gain
Example:
Read input gain
Example:
X^*X&
G InX^•Aud
1*2G
X^*X(
g InX^•Aud
X^
+G InX^•Aud
5+G
X^
–G InX^•Aud
7–G
X^
G
3G
In01Aud+02
In05Aud+03
In07Aud-09
X*]
-06
]
X*]
X*]
X*]
X*]
]
]
]
Set input 1 audio gain to +2 dB.
Increase gain by 1 dB. Increase audio input 5 level from +2 dB
to +3 dB. Decrease gain by 1 dB. Decrease audio input 7 level from -8 dB
to -9 dB.
Audio input 3 level is at -6 dB.
Inputs on XTP CP 4i HD 4K PLUS, XTP CP 4i HDMI, XTP CP 4i HDMI DMA, XTP CP 4i DVI Pro, and
XTP CP 4i 3G Boards
Audio routing selections
NOTE: These commands select between the audio embedded in the digital video stream and the 2-channel analog audio.
Input audio selection
Example 1:
Example 2:
View input audio selection View all input audio selections
EIX^*X1! E
I1*1AFMT
E
I1*0AFMT
EIX^
AFMT
E
IAFMT
}
AFMT
}
}
AfmtIX^* AfmtI01*1
AfmtI01*0
} X1!]
} X1!1X1!2X1!
X1!]
]
]
3
...
X1!n]
Use audio from the Use digital audio from the HDMI port of input 1. Auto (0): Digital audio takes priority over analog audio.
16 or 32 (
selections, starting from input 1.
n
) sequential audio input
X1!
source.
Inputs on XTP CP 4i HD 4K PLUS, XTP CP 4i HDMI, XTP CP 4i HDMI DMA, and XTP CP 4i DVI Pro
Boards
Input reports as an HDCP-authorized device
HDCP authorized device on
HDCP authorized device off
View HDCP authorized status
EEX^
EEX^
EEX^
}
*1HDCP
}
*0HDCP
} X1@]
HDCP
HdcpEX^*1
HdcpEX^*0
]
]
Set the input as an HDCP authorized device (default).
Set the input as not an HDCP authorized device.
Show HDCP authorized device status.
NOTE: X% = Input signal status 0 = No signal detected 1 = Sync detected
X^ = Input number (for other than tie) 0116 or
32
X& = Audio gain 024 (1 dB per step) X* = Numeric dB value –18 to +24 (43 steps of gain or attenuation) (0 dB = default) X( = Audio attenuation 118 (1 dB per step) X1) = Resolution and rate for black screen 2 = 1280x720p @50 Hz 4 = 1280x720p @60 Hz 6 = 1920x1080p @60 Hz X1! = Input audio source 0 = Auto (see the example above)
1 = HDMI (de-embedded digital audio) (default) 2 = Analog 2-channel audio
X1@ = HDCP authorized device 0 = off 1 = on (default)
XTP CrossPoint Series • Programming Guide 91
Page 100
Command Function
Inputs on XTP CP 4i HD 4K PLUS, XTP CP 4i HDMI, XTP CP 4i HDMI DMA, and XTP CP 4i DVI Pro
HDCP status
View input HDCP status View HDCP status of all inputs
Captive screw and Ethernet serial port insertion enables
NOTE: See RS-232 Insertion on page 66 for an overview of using serial port insertions.
Enable an input captive screw serial port insertion
Enable an input Ethernet serial port insertion
Set all RS-232 input insertions View input insertion View all input insertions
Ethernet serial port insert parameters
Set serial port parameters
Read serial port parameters Configure current port timeout
Read current port timeout Configure global IP port timeout Read global IP port timeout Set UART starting point
Read UART starting point
SIS Command
(Host to Unit)
Response
(Unit to Host)
Additional Description
Boards (continued)
EIX^
E
IHDCP
} X1#]
HDCP
} X1#1X1#2X1#
3
...
X1#n]
Inputs on XTP CP 4i [XTP], XTP CP 4i 4K [XTP], and XTP CP 4i Fiber 4K Boards
EIX^
EIX^
EIX1$
EIX^
E
ILRPT
EX1%*X1^,X1&,X1*,X1(CP}
EX1%CP} X1^,X1&,X1*,X1(]
E0*X2)TC}
E
0TC
E1*X2)TC}
E
1TC
EX2!MD}
EMD} X2!]
}
*0LRPT
}
*1LRPT
}
*LRPT
} X1$]
LRPT
LrptIX^*0
LrptIX^*1
LrptI00*
} X1$1X1$2X1$
Cpn
Pti0*
} X2)]
Pti1*
} X2)]
Pmd
]
]
X1$]
3
...
X1%
X1^,X1&,X1*,X1(]
Ccp
X2)]
X2)]
X2!]
X1$n]
Enable the captive screw serial port insert on input X^. This disables the Ethernet RS-232 insert.
Enable the Ethernet serial port insert on input X^. This disables the captive screw serial port insert.
X1$
One
for each available (installed) input, starting at input 1. Inputs that are not on an XTP CP 4i [XTP], XTP CP 4i 4K [XTP], or XTP CP 4i Fiber 4K board report as 0.
Sets the initial (lowest) port number for the range of numbers assigned to the serial port and UARTs.
NOTE: X^ = Input number (for other than tie) 0116 or
X1# = HDCP status (for inputs) 0 = No source device connected
1 = Source connected is HDCP-compliant 2 = Source connected is not HDCP-compliant
X1$ = Captive screw or UART 0 = Captive screw RS-232 insert (default) 1 = Ethernet RS-232 insert (UART) X1% = Port number 0318 or 34 = UARTs (inputs) 1 — 16 or 32 X1^ = Baud rate 300, 600, 1200, 1800, 2400, 3600, 4800, 7200, 9600 (default), 14400, 19200, 28800,
38400, 57600, 115200
X1& = Parity odd, even, none, mark, space (only the first letter is required) (n = default) X1* = Data bits 7, 8 (default) X1( = Stop bits 1 (default), 2 X2) = Port timeout (10-sec. increments) 1 (= 10 seconds) - 65000 (default is 30 = 300 seconds = 5 minutes) X2! = UART starting point The starting point (X2!) is the rear panel RS-232/RS-422 port.
The next position (X2!+1) is not used. For the XTP CrossPoint 1600, X2!+2 through X2! For the XTP CrossPoint 3200, X2!+2 through X2! Default values: 1999 = Rear panel remote RS-232/RS-422 port 2000 is unused 2001 through 2016 (XTP CrossPoint 1600) = Input 1 through 16 2001 through 2032 (XTP CrossPoint 3200) = Input 1 through 32
32
+17
are XTP inputs.
+33
are XTP inputs.
XTP CrossPoint Series • Programming Guide 92
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