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User’s Manual
UMX-TPS-TX120, -TX130, -TX140
WP-UMX-TPS-TX120-US Black, White
WP-UMX-TPS-TX130-US Black, White
FP-UMX-TPS-TX130-MKM
HDBaseT
TM
Multimedia Extender
UMX-TPS-TX100 series – User's Manual
Important Safety Instructions
Class II apparatus construction.
The equipment should be operated only from the power source indicated on the product.
To disconnect the equipment safely from power, remove the power cord from the rear of the equipment, or from the power source. The
MAINS plug is used as the disconnect device, the disconnect device shall remain readily operable.
There are no user-serviceable parts inside of the unit. Removal of the cover will expose dangerous voltages. To avoid personal injury, do not remove the cover. Do not operate the unit without the cover installed.
The appliance must be safely connected to multimedia systems.
Follow instructions described in this manual.
Ventilation
For the correct ventilation and to avoid overheating ensure enough free space around the appliance. Do not cover the appliance, let the ventilation holes free and never block or bypass the ventilators (if any).
WARNING
To prevent injury, the apparatus is recommended to securely attach to the floor/wall or mount in accordance with the installation instructions.
The apparatus shall not be exposed to dripping or splashing and that no objects filled with liquids, such as vases, shall be placed on the apparatus. No naked flame sources, such as lighted candles, should be placed on the apparatus.
Waste Electrical & Electronic Equipment
WEEE
This marking shown on the product or its literature, indicates that it should not be disposed with other household wastes at the end of its working life. To prevent possible harm to the environment or human health from uncontrolled waste disposal, please separate this from other types of wastes and recycle it responsibly to promote the sustainable reuse of material resources. Household users should contact either the retailer where they purchased this product, or their local government office, for details of where and how they can take this item for environmentally safe recycling. Business users should contact their supplier and check the terms and conditions of the purchase contract.
This product should not be mixed with other commercial wastes for disposal.
Common Safety Symbols
Symbol
Direct current
Caution
Description
Alternating current
Double insulation
Caution, possibility of eletric shock
2
UMX-TPS-TX100 series – User's Manual 3
Symbol Legend
The following symbols and markings are used in the document:
WARNING! Safety-related information which is highly recommended to read and keep in every case!
ATTENTION! Useful information to perform a successful procedure; it is recommended to read.
INFO: A notice which may contain additional information. Procedure can be successful without reading it.
Document Information
This User’s Manual applies to the following versions of the mentioned software, firmware, and hardware:
Item
Lightware Device Controller (LDC) software
Lightware Device Updater (LDU) software
Controller firmware - UMX-TPS-TX100 series
Controller firmware - WP-UMX-TPS-TX100 series
Controller firmware - FP-UMX-TPS-TX130-MKM
Hardware
Version
1.26.0b6
1.5.2b3
1.1.1
1.2.0
1.3.0
1.2
DEFINITION: The short description of a feature or a function.
TIPS AND TRICKS: Ideas which you may have not known yet but can be useful.
Document revision: 2.1
Release date: 13-11-2018
Editor: Judit Barsony
About Printing
Lightware Visual Engineering supports green technologies and eco-friend mentality. Thus, this document is made for digital usage primarily. If you need to print out few pages for any reason, follow the recommended printing settings:
▪ Page size: A4
▪ Output size: Fit to page or Match page size
▪ Orientation: Landscape
TIPS AND TRICKS: Thanks to the size of the original page, a border around the content (gray on the second picture below) makes possible to organize the pages better. After punching the printed pages, they can be placed easily into a ring folder.
1 2 3
Navigation Buttons
Go back to the previous page. If you clicked on a link peviously, you can go back to the source page by the button.
Navigate to the Table Contents.
Step back one page.
Step forward to the next page.
Table of Contents
1. INTRODUCTION ...................................................................................7
1.2. Compatible Devices ......................................................................7
1.3. Model Denomination ....................................................................7
1.4. Box Contents ...............................................................................8
1.6. Model Comparison .......................................................................9
1.7. Typical Application ...................................................................10
2.1. Mounting Options - UMX-TPS-TX100 series ..............................11
2.1.1. Under-desk Double Mounting Kit ................................................... 11
2.2. Mounting Options - WP-UMX-TPS-TX100 series .......................12
2.3. Mounting Options - FP-UMX-TPS-TX130-MKM .........................12
2.4. Connecting Steps .......................................................................13
2.4.1. WP-UMX-TPS-TX100 series ........................................................... 13
2.4.2. UMX-TPS-TX100 series .................................................................. 13
2.5. Powering Options .......................................................................14
3. PRODUCT OVERVIEW ......................................................................15
3.1. Front View - UMX-TPS-TX100 series .........................................15
3.2. Rear View - UMX-TPS-TX100 series ...........................................16
3.3. Front View - WP-UMX-TPS-TX100 series ...................................16
3.4. Rear View - WP-UMX-TPS-TX100 series .....................................17
3.5. Front View - FP-UMX-TPS-TX130-MKM .....................................17
3.6. Rear View - FP-UMX-TPS-TX130-MKM .......................................17
3.7. Electrical Connections .............................................................18
3.7.1. Locking 12V DC Connection .......................................................... 18
3.7.2. 48V DC Connection ........................................................................ 18
3.7.5. DisplayPort Connector ................................................................... 18
3.7.7. Analog Stereo Audio (Jack) ........................................................... 18
3.7.8. Analog Stereo Audio (Phoenix) ..................................................... 18
3.7.9. Ethernet Connector (TPS and LAN Ports) .................................... 19
3.7.10. RS-232 Connector ........................................................................ 19
3.7.13. GPIO - General Purpose Input/Output Ports ............................... 19
3.8. TPS Extender Concept ...............................................................20
3.9. TPS Interface .............................................................................20
UMX-TPS-TX100 series – User's Manual
3.10. Port Diagram ...........................................................................21
3.11. Video Interface.........................................................................22
3.11.1. Video Input Modes ....................................................................... 22
3.11.2. Input Source Selection Modes..................................................... 22
3.12. The Autoselect Feature ...........................................................22
3.13. Audio Interface ........................................................................23
3.13.1. Audio Input Modes ....................................................................... 23
3.13.2. Audio Options - Example .............................................................. 23
3.14. Control Features.....................................................................24
3.14.3. Ethernet Control Interface ........................................................... 25
3.15. Further Built-in Features........................................................26
3.15.1. Automatically Launched Actions – The Event Manager ............ 26
3.15.2. Transmitter Cloning – Configuration Backup and Restore ........ 26
3.15.3. Remote Firmware Upgrade of Connected Lightware Devices ... 26
4.1. Front Panel LEDs .......................................................................27
4.1.6. Firmware Version Indication .......................................................... 28
4.2. Rear Panel LEDs .........................................................................28
4.3. Front Panel Buttons .................................................................29
4.3.4. Programmable Show Me Button ................................................... 29
4.4. Special Functions ......................................................................29
4.4.1. Enable DHCP (Dynamic) IP Address ............................................. 29
4.4.2. Reset to Factory Default Settings .................................................. 30
4.4.5. Entering Firmware Upgrade Mode ................................................. 30
4.5. Software Control Modes ..........................................................30
5. SOFTWARE CONTROL - LIGHTWARE DEVICE CONTROLLER ....31
5.1. Install and Upgrade ..................................................................31
5.2. Running the LDC .........................................................................31
5.3. Connecting to a Device (Device Discovery Window) ..................32
5.4. Crosspoint Menu ........................................................................33
5.5. Port Properties Windows ..........................................................34
5.6. Diagnostic Tools ........................................................................37
5.7. EDID Menu ...................................................................................39
5.7.2. EDID Summary Window ................................................................. 40
5.7.4. Creating an EDID - Easy EDID Creator ........................................... 41
5.8. Control Menu ............................................................................41
5.9. Event Manager ...........................................................................44
5.9.2. Create or Modify an Event .............................................................. 45
5.9.3. Special Tools and Accessories ...................................................... 46
5.9.4. Clear One or More Event(s) ............................................................ 46
5.9.5. Export and Import Events .............................................................. 46
5.9.6. Event Creating - Example ............................................................... 46
5.10. Settings Menu ..........................................................................47
5.11. Configuration Cloning (Backup Tab) .......................................49
5.11.2. Save the Settings of a Device (Backup) ...................................... 50
5.11.3. Upload the Settings to a Device (Restore) .................................. 50
4
Table of Contents
5.12. Advanced View Window ............................................................50
6. LW2 PROGRAMMER'S REFERENCE ...............................................51
6.1. LW2 Protocol Description.........................................................51
6.2. General LW2 Commands .............................................................51
6.2.2. Query Control Protocol ................................................................... 51
6.2.3. View Firmware Version of the CPU ............................................... 52
6.2.8. View Firmware for All Controllers .................................................. 52
6.2.10. Query Health Status ..................................................................... 52
6.2.11. Restore Factory Default Settings ................................................. 52
6.3. A/V Port Settings ......................................................................53
6.3.1. Switch an Input to the Output ........................................................ 53
6.3.6. View Connection State on the Output ........................................... 54
6.3.8. Change Video Autoselect Mode .................................................... 54
6.3.9. Change Audio Autoselect Mode .................................................... 54
6.3.10. Change the Video Input Priorities ................................................ 55
6.3.11. Change Audio Input Priority ......................................................... 55
6.4. Network Configuration .............................................................55
6.4.1. Query the Current IP Status ........................................................... 55
6.4.3. Set the Subnet Mask ...................................................................... 55
6.4.4. Set the Gateway Address ............................................................... 56
6.4.5. Apply Network Settings .................................................................. 56
6.5. GPIO Configuration....................................................................56
6.5.1. Set Level and Direction for Each Pins ........................................... 56
6.6. LW2 Commands – Quick Summary ..............................................57
UMX-TPS-TX100 series – User's Manual
7. LW3 PROGRAMMERS’ REFERENCE ...............................................58
7.2. Protocol Rules ..........................................................................58
7.2.1. LW3 Tree Structure and Command Structure (examples) ........... 58
7.2.3. Command Types............................................................................. 59
7.2.9. Notifications about the Changes of the Properties ..................... 60
7.2.10. Legend for the Control Commands ............................................. 60
7.3. System Commands ......................................................................61
7.3.1. Query the Product Name ................................................................ 61
7.3.3. Query the Serial Number ................................................................ 61
7.3.4. Query the Firmware Version .......................................................... 61
7.3.6. Restore the Factory Default Settings ............................................ 61
7.3.7. Lock the Front Panel Buttons ........................................................ 62
7.3.8. Disable the Default Function of the Front Panel Buttons ............. 62
7.4. Video Port Settings ...................................................................63
7.4.1. Query the Status of Source Ports .................................................. 63
7.4.2. Query the Status of Destination Port ............................................ 64
7.4.3. Query the Video Crosspoint Setting .............................................. 64
7.4.4. Switching Video Input .................................................................... 64
7.4.5. Query the Video Autoselect Settings............................................. 64
7.4.6. Change the Autoselect Mode ........................................................ 65
7.4.7. Query the Input Port Priority .......................................................... 65
7.4.8. Change the Input Port Priority ....................................................... 65
7.4.10. Unmute an Input Port ................................................................... 65
7.4.17. HDCP Setting (Input Port) ............................................................ 66
7.4.18. Test Pattern Generator Mode ...................................................... 67
7.4.19. Test Pattern Resolution ............................................................... 67
7.4.21. HDCP Setting (Output Port) ......................................................... 67
7.4.22. HDMI Mode Settings (Output Port) ............................................. 67
7.4.23. Color Space Setting (Output Port) ............................................... 68
7.4.24. Query the Recent TPS Mode ........................................................ 68
7.4.25. TPS Mode Settings ....................................................................... 68
7.5. Audio Port Settings ...................................................................69
7.5.1. Query the Status of Source Ports .................................................. 69
7.5.2. Query the Status of Destination Port ............................................ 69
7.5.3. Query the Audio Crosspoint Setting .............................................. 70
7.5.4. Switching Audio Input .................................................................... 70
7.5.5. Query the Audio Autoselect Settings ............................................ 70
7.5.6. Change the Autoselect Mode ........................................................ 70
7.5.7. Query the Input Port Priority .......................................................... 71
7.5.8. Change the Input Port Priority ....................................................... 71
7.5.10. Unmute an Audio Input ................................................................ 71
7.5.13. Mute Audio Output ....................................................................... 72
7.5.14. Unmute Audio Output ................................................................... 72
7.5.17. Analog Audio Input Level Settings .............................................. 72
5
Table of Contents
7.6. Network Configuration .............................................................73
7.6.1. Query the DHCP State .................................................................... 73
7.6.2. Change the DHCP State ................................................................. 73
7.6.4. Change the IP Address (Static) ..................................................... 73
7.6.5. Query the Subnet Mask .................................................................. 73
7.6.6. Change the Subnet Mask (Static) .................................................. 73
7.6.7. Query the Gateway Address .......................................................... 73
7.6.8. Change the Gateway Address (Static) .......................................... 74
7.7. RS-232 Port Configuration .......................................................74
7.7.6. RS-232 Operation Mode ................................................................. 75
7.7.7. Command Injection Enable ............................................................ 75
7.8. Infrared Port Configuration ....................................................75
7.8.1. Enable Command Injection Mode ................................................. 75
7.8.2. Enable/Disable Output Signal Modulation .................................... 75
7.9. Sending Message via the Communication Ports .......................76
7.9.1. Sending Message via TCP Port ..................................................... 76
7.9.2. UDP Message Sending via Ethernet .............................................. 76
7.9.3. Message Sending via RS-232 Serial Port ...................................... 77
7.9.4. Using Hexadecimal Codes ............................................................. 77
7.10. GPIO Port Configuration .........................................................78
7.10.1. Set the Direction of a GPIO Pin .................................................... 78
7.10.2. Set the Output Level of a GPIO Pin .............................................. 78
7.10.3. Toggle the Level of a GPIO Pin .................................................... 78
7.11. EDID Management .....................................................................78
7.11.1. Query the Emulated EDIDs ........................................................... 78
7.11.2. Query the Validity of a Dynamic EDID ......................................... 78
7.11.3. Query the Preferred Resolution of an User EDID ........................ 79
7.11.4. Emulating an EDID to an Input Port ............................................. 79
7.11.5. Emulating an EDID to All Input Ports ........................................... 79
7.11.6. Copy an EDID to User Memory .................................................... 79
7.11.7. Deleting an EDID from User Memory .......................................... 79
7.11.8. Resetting the Emulated EDIDs ..................................................... 79
7.12. LW3 Commands - Quick Summary .............................................80
UMX-TPS-TX100 series – User's Manual
8. FIRMWARE UPGRADE ......................................................................83
8.1. About the Firmware Package (LFP file) .....................................83
8.2. Short Instructions ....................................................................83
8.3. Install and Upgrade ..................................................................83
8.4. Detailed Instructions ................................................................84
8.4.1. Establish the Connection ............................................................... 84
8.4.2. Start the LDU and Follow the Instructions .................................... 84
8.5. Keeping the Configuration Settings .........................................87
8.6. Remote Firmware Upgrade of Connected Lightware Devices ...88
9. TROUBLESHOOTING ........................................................................89
10. TECHNOLOGIES ..............................................................................91
10.1. EDID Management .....................................................................91
10.1.1. Understanding the EDID ............................................................... 91
10.1.2. Advanced EDID Management ...................................................... 91
10.2. HDCP Management ...................................................................92
10.2.1. Protected and Unprotected Content ........................................... 92
10.2.2. Disable Unnecessary Encryption ................................................. 92
10.3. Pixel Accurate Reclocking .....................................................93
11.1. Specification ............................................................................94
11.2. Factory Default Settings ........................................................96
11.3. Content of Backup File ............................................................96
11.4. Audio Cable Wiring Guide .........................................................97
11.5. Mechanical Drawings ..............................................................98
11.5.1. UMX-TPS-TX100 series ................................................................ 98
11.5.2. WP-UMX-TPS-TX100 series ......................................................... 99
11.5.3. FP-UMX-TPS-TX130-MKM ........................................................... 99
11.6. Port Numbering ......................................................................100
11.6.1. WP-UMX-TPS-TX120-US ............................................................100
11.6.2. WP-UMX-TPS-TX130-US ............................................................100
11.6.3. UMX-TPS-TX120 .........................................................................100
11.6.4. UMX-TPS-TX130 .........................................................................100
11.6.5. UMX-TPS-TX140 .........................................................................101
11.6.6. FP-UMX-TPS-TX130 ...................................................................101
11.7. Maximum Extension Distances ...............................................101
11.8. Factory EDID List ...................................................................102
11.9. Further Information ..............................................................103
6
UMX-TPS-TX100 series – User's Manual 1. Introduction
Introduction
features in the below listed sections:
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Î
Î
Î
Î
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1.1. Description
This transmitter was designed to extend digital and analog video signals (e.g. VGA, YPrPb, HDMI 1.4 and DP 1.1) and audio signals
(analog stereo audio from local inputs or embedded 7.1 HBR audio).
Video signals with HDCP encryption are also supported. Analog signals (both audio and video) are converted to digital format and the audio signals can be de-embedded from the video. Thus, many combinations of the audio/video signals are available to transmit.
Using the factory, custom or transparent EDID emulation the user can fix and lock EDID data on each input connector. Advanced EDID
Management forces the required resolution from any video source and fixes the output format conforming to the system requirements.
The unit offers bi-directional and transparent IR, RS-232 and Ethernet transmission. Furthermore, the IR and RS-232 connection support command injection, allowing it to send any IR or RS-232 control command directly from the LAN connection.
Remote powering (Power over Ethernet) is available through a single
CAT cable, but local power supply can also be used. UMX-TPS transmitter can be mounted on a rack shelf or used standalone while the WP-UMX-TPS transmitters designed to place into a wall or furniture. The transmitters are compatible with both the HDBaseT TM extenders and matrix switchers.
1.2. Compatible Devices
The transmitter is compatible with other Lightware TPS receivers, matrix TPS and TPS2 boards, 25G TPS2 boards, as well as third-party
HDBaseT extenders, displays, but not compatible with the phased out
TPS-90 extenders.
The transmitter is compatible with any third-party HDBaseT TM device.
HDBaseT TM and the HDBaseT Alliance logo are trademarks of the
HDBaseT Alliance.
1.3. Model Denomination
HDBaseT TM TPS extender Number of outputs
UMX-TPS-TX140
Universal input interfaces analog and digital signals are also accepted
Transmitter Number of inputs
Wallplate
HDBaseT TM
TPS extender
Number of outputs
The device can be mounted into
B225R outlet box
WP-UMX-TPS-TX130-US White
Universal input interfaces analog and digital signals are also accepted
Transmitter Number of inputs
The color of the enclosure
Floorplate
HDBaseT TM
TPS extender
Number of outputs
The device can be mounted into
MK Cablelink Plus
Modular series floorbox
FP-UMX-TPS-TX130-MKM
Transmitter Number
Universal input interfaces analog and digital signals are also accepted of inputs
7
1. Introduction
1.4. Box Contents
UMX-TPS-TX100 series
UMX-TPS-TX100 series transmitter
12V DC adaptor with interchangeable plugs
Infrared emitter unit
Safety and
Warranty
Info
Quick
Start
Guide
Phoenix ® Combicon
3-pole connector
Safety & warranty info,
Quick Start Guide
Phoenix ® Combicon
8-pole connector *
Phoenix ® Combicon
5-pole connector **
* Only for UMX-TPS-TX130 and UMX-TPS-TX140 models.
** Only for UMX-TPS-TX140 model.
UMX-TPS-TX100 series – User's Manual 8
WP-UMX-TPS-TX100 series
Safety and
Warranty
Info
Quick
Start
Guide
WP-UMX-TPS-TX100 series transmitter
Phoenix ® Combicon
3-pole connector
Safety & warranty info,
Quick Start Guide
Fixing screws for mounting
(4 pcs. 3.9x 22mm,
PZ flat-head) 1
Fixing screws for mounting (4 pcs.
6-32 x 1”, oval head) 2
1 For white models of WP-UMX-TPS-100 series.
2 For black models of in WP-UMX-TPS-100 series.
FP-UMX-TPS-TX100 series
FP-UMX-TPS-TX130 transmitter
Phoenix ® Combicon
3-pole connector
Safety & Warranty
Info, Quick Start Guide
Optional Accessories
The following accessories can be purchased separately:
48V DC power adaptor with interchangeable plugs
Switch/outlet box (B225R) for mounting
Safety and
Warranty
Info
Quick
Start
Guide
1.5. Features
3D and 4K Support
High bandwidth allows extension of resolutions up to 4K and even 3D sources and displays are supported.
Signal Transmission up to 170 m
Video and audio signal transmission (HDMI, Ethernet,
RS-232, and Infra-Red over a single CAT5e…CAT7e cable.
Analog Audio and Video A/D Conversion
Analog audio and video signals are converted to digital before being sent to the output.
Deep Color Support and Conversion
It is possible to transmit the highest quality 36-bit video streams for perfect color reproduction.
Pixel Accurate Reclocking
Each output has a clean, jitter free signal, eliminating signal instability and distortion caused by long cables or connector reflections.
HDCP-compliant
The receiver fulfills the HDCP standard. HDCP capability on the digital video inputs can be disabled when nonprotected content is extended.
Built-in Event Manager
The Event Manager tool takes care of all the necessary control in a smaller configuration by performing predefined actions in response to device status changes.
Hence, in a less complex environment, there is no need to invest in additional control solutions, which makes the receiver the best choice for numerous applications.
Autoselect Function for Video Inputs
The Autoselect feature can sense the port status on the video input ports and select automatically one of them.
Priority number can be set for each input port and the feature allows to set various modes for the automatic input selection (First detect, Last detect, Priority mode).
1. Introduction UMX-TPS-TX100 series – User's Manual
RS-232
Breakaway Audio/Video Switching
Breakaway audio/video switching allows for switching audio and video separately by de-embedding and embedding audio from/into HDMI signals. For instance, audio can be de-embedded from the incoming HDMI stream, then at output a different audio can be embedded into the video signal from a different source, or audio can be routed to a separate output port.
Remote Power
The transmitters are PoE-compatible and can be powered locally by the supplied power adaptor, or remotely via the TPS connection (through the CATx cable) with a compatible power source equipment.
TPS Cable Diagnostic Tool
The TPS Cable Diagnostics Tool within the LDC software will help you identify potential twisted pair cable issues in your TPS-capable (HDBaseT compliant) system. It provides a real-time overview of the estimated cable lengths and the quality of the link.
IR
Infrared (IR) is a wireless technology used for device communication over short ranges. IR communication has major limitations because it requires line-of-sight, has a short transmission range and is unable to penetrate walls. Infrared is commonly used for remote control based applications. Third-party control systems may send IR control commands to endpoints turning them on and off or switching their inputs. IR capable extenders can carry the IR signal via CAT cable to greater distances along with other data.
Bi-directional RS-232 Pass-through
AV systems can also contain serial port controllers and controlled devices. Serial port pass-through supports any unit that works with standard RS-232.
GPIO Control Port *
7 GPIO pins operating at TTL digital signal levels and can be controlled with both LW2 and LW3 commands.
* Only for UMX-TPS-TX130 and UMX-TPS-TX140 models.
1.6. Model Comparison
The available models have different features depending on their design. The following table contains the most important differences between the models:
Video ports Audio ports Interface ports
VGA input
DVI-I input
Infra RS-232 GPIO
UMX-TPS-TX120
UMX-TPS-TX130
UMX-TPS-TX140
WP-UMX-TPS-TX120-US Black
WP-UMX-TPS-TX120-US White
WP-UMX-TPS-TX130-US Black
WP-UMX-TPS-TX130-US White
FP-UMX-TPS-TX130-MKM
HDMI input
-
-
-
-
-
-
-
-
-
-
-
-
9
1. Introduction
1.7. Typical Application
Standalone Application Diagram - UMX-TPS-TX140
Blu-ray player IR emitter analog audio
VGA
MAC
12V DC power adaptor
HDMI
DP
GPIO
PIN: 2.1mm
12V 1A
DC
UMX-TPS-TX140
RS-232
TX RX
RS-232
RS-232
SRVC
LINK
IR IN IR OUT
AUDIO2 IN
DVI-I IN
Laptop
DVI
IR
PC
Internet
Touch panel
LAN
Ethernet switch
Button panel
LAN
Integrated System Diagram - UMX-TPS-TX140
HDMI power adaptor
PC or MAC
LAN
Ethernet switch
Ethernet
PIN: 2.1mm
RS-232
TX
RX
12V 1A
DC
GPIO
AUDIO2 IN
DVI-I IN
LIVE
RS-23
SRVC
LINK
N I
R O
UT
UMX-TPS-TX140
LAN
LAN
WiFi access
Made in EU, Hungary
cable
DC
12V 1A
PIN: 2mm
T7 SFTP
CAT6 or CA
Device can be remote powered over TPS link with PoE
(IEEE 802.3af)
For best performance use
12V DC power adaptor
IR
HDMI-TPS-RX97
LAN
TP
S IN
Bidirectional RS-232
Bidirectional IR
3D, 4K supported
HDMI,
Ethernet 10/100
TPS connection
CATx up to 170m
IR detector
HDMI
Remote control
RS-232
HD Projector
OUT 8
OUT
B-A O UT 1
D-O
MX-H
DMI-3
T B OAR
R H
D FO
DMI WITH
TPS
OUT
S/P
1
H DIGIT
DIF
TPS
I/O
AUDIO
IN 2
OUT
2
3D AN
D A
NALO
G A
UDIO
1
S/ PDI
F I/O
2
8CH
OU
TPU
MXTPS
-OB-
12V 4A
8 CH T
DC
PS OUT
D-IB
MX-H
DMI-3
PUT
BOARD WIT
IN 1
-A
DMI WITH
3D
AN
D A NALO
8CH
INPU
T B
OAR
MXTPS
-IB-
12V 3
R H
D FO
TP
S IN 1
TP
G A UDIO
S IN
2
OUT
3
OUT
4
6
5
OUT
6 TP
S OUT
S
/PDI F I/O
7
TPS
OUT S
IN 8 OUT se wit h co
S/
PDI F I/O
5
TPS evices!
5
OUT mpat ible d
IN 6
OUT
6
S
/PDI
F I/O
IN 7
S IN
7
TP
S IN
2
OUT
TPS OU
IN 3
/PDI
F I/O
T 3
12V
power
TPS
3
4
OUT nnect
PS co
on T
IN 4
S /PDI ly u
TPS
4
IN 5
3
12V
TP
power
S IN
4
PS co
on T nnect or. O
TP nly u
TP
S IN 6
TP
S IN
5 evices!
mpat ible d
/PDI
F I/O
8
8 CH T
PS INP
UT BOARD
HDMI
MX-FR17
CATx
(up to 170 m) audio
Speaker
AV Receiver audio
HDMI-TPS-RX97
3af)
(IEEE 802.
For best performance use
Device can be remote powered over TPS link with PoE
RoHS
Made in EU, Hungary
cable
2mm
PIN:
12V 1A
T7 SFTP
Bidirectional RS-232
Bidirectional IR
Ethernet 10/100
3D, 4K supported
HDMI,
TP S IN
Po
)
E
RS-232
HDMI
HDMI
CATx
(up to 170 m)
Local monitor
Projector
Laptop
UMX-TPS-TX100 series – User's Manual
Standalone Application Diagram - WP-UMX-TPS-TX130-US
12V DC power adaptor
Laptop
WP-UMX-T
PS-T
X130-US
ETHERNET
SHOW
ME
AUDIO
SELECT
VIDEO
SELECT
INPUT ST
ATUS
AUD
IO
VGA
DP
HDMI
Auto select
AUDI
DP
HDM
O
Link
RESET
VIDEO
IN
IR
3
O
HDMI
WP-UMX-TPS-
TX130-US
VGA analog audio
IR
Internet
LAN
Ethernet switch
Blu-ray player
TPS connection
CATx up to 170m
DP
LAN
MAC
WiFi access
12V DC power adaptor
RoHS
Made in EU, Hungary
cable
DC
2mm
T7 SFTP ver TPS link with PoE
CAT6 or CA se AWG23
2.3af)
(IEEE 80
For best performance u
Device can be remote powered o
Bidirectional RS-232
10/100
HDMI
Ethernet
HDMI-TPS-RX97
LAN
Po
E
HDMI
RS-232
HD Projector
10
2. Installation
Installation
Î
Mounting Options - UMX-TPS-TX100 series
Î
Mounting Options - WP-UMX-TPS-TX100 series
Î
Mounting Options - FP-UMX-TPS-TX130-MKM
Î
Î
UMX-TPS-TX100 series – User's Manual
2.1. Mounting Options - UMX-TPS-TX100 series
To mount the transmitter Lightware supplies optional accessories for different usage. There are two kinds of mounting kits with similar fixing method. The device has two mounting holes with inner thread on the bottom side; see the bottom view in the
section. Fasten the device by the screws enclosed to the accessory:
INFO: The chipboard screws are not supplied with the mounting kit.
2.1.2. 1U High Rack Shelf
Allows rack mounting for half-rack, quarter-rack and pocket sized units.
VGA IN AUDIO1 IN HDMI IN DP IN
VGA
HDMI
DP
DVI-D
VIDEO
Audio1
HDMI
DVI-D
AUDIO
INPUT STATUS
HDCP
Autoselect
Audio2
RESET
VIDEO
SELECT
AUDIO
SELECT
SHOW
ME VGA IN AUDIO1 IN HDMI IN DP IN
VGA
HDMI
DP
DVI-D
VIDEO
Audio1
HDMI
DVI-D
AUDIO
INPUT STATUS
HDCP
Autoselect
Audio2
RESET
VIDEO
SELECT
AUDIO
SELECT
SHOW
ME
Under-desk double mounting kit
1U high rack shelf
The Under-desk double mounting kit makes easy to mount a single device on any flat surface, e.g. furniture. 1U high rack shelf provides mounting holes for fastening two half-rack or four quarter-rack sized units. Pocket-sized devices can also be fastened on the shelf. To order mounting accessories please contact [email protected]
.
WARNING! Always use the supplied screws. Using different (e.g. longer) ones may cause damage to the device.
INFO: The transmitter is half-rack sized.
2.1.1. Under-desk Double Mounting Kit
The UD-kit double makes it easy to mount a single transmitter on any flat surface (e.g. furniture).
11
1U high rack shelf provides mounting holes for fastening two half-rack or four quarter-rack sized units. Pocket sized devices can also be fastened on the self.
UUMM
XX--TT
PPSS--
TTXX11
4400
Universal TPS T ransmitter
:
HDMI
VGA Autoselect
DP
DVI-D
DVI-A
DVI-D
DP emb.
emb.
VIDEO SELECT
:
Audio1 Audio2
AUDIO SELECT
ATUS LED FUNCTIONS
INPUT ST
Continuous ON: Signal present on active input
OFF: Pass-through mode
ON: Control mode
Reserved
OFF: No TPS link
ON: TPS link good
UUMM
XX--TT
PPSS--
TTXX11
4400
Port legend
2
Video with embedded audio
Universal TPS T ransmitter
:
HDMI
VGA Autoselect
DVI-D
DP
DVI-A
VIDEO SELECT
:
Audio1 Audio2
DVI-D
DP emb.
emb.
AUDIO SELECT
ATUS LED FUNCTIONS
INPUT ST
Continuous ON: Signal present on active input
OFF: Pass-through mode
ON: Control mode
Reserved
OFF: No TPS link
ON: TPS link good
Port legend
Audio only
2
Video with embedded audio
S link with PoE
AWG23
cable
(IEEE 802.3af)
T7 SFTP
For best performance use
Sn:
VGA
HDMI
DP
DVI-D
VIDEO
Audi o1
HDMI
DP
DVI-D
O
AUDI
STA
INPUT
TUS
HDCP
Video
Audio2
SEL
RESET
AUDI
O
SELECT
DP
IN
IN
HDMI
AUDI
O1
IN
AWG23
cable
(IEEE 802.3af)
T7 SFTP
For best performance use
Sn:
Audio1
DP
DP
DVI-D
VIDEO
AUDI
INPUT
DVI-D
O
TUS
STA
HDCP
Autoselect
Audio2
SEL
RESET
AUDI
O
SELECT
VGA
IN
DP
IN
IN
HDMI
AUDI
O1
IN
VGA
IN
Standard rack installation
ATTENTION! Always use all the four screws for fixing the rack shelf ears to the rack rail. Choose properly sized screws for mounting.
Keep minimum two threads left after the nut screw.
VGA IN AUDIO1 IN HDMI IN DP IN
VGA
HDMI
Audio1
DVI-D
VIDEO
DVI-D
AUDIO
INPUT STATUS
HDCP
Autoselect
Audio2
VIDEO
SELECT
RESET
AUDIO
SELECT
SHOW
ME
2. Installation UMX-TPS-TX100 series – User's Manual
2.2. Mounting Options - WP-UMX-TPS-TX100 series
The transmitter can be easily mounted into an industrial standard switch/outlet box (B225R):
INFO: The switch/outlet box is not supplied with the mounting kit but it can be purchased separately. Please contact [email protected]
for the details.
B225R outlet box
Fixing screw
109.2
70.6
100.6
Front side of the extender
Step 1. Insert the extender into the B225R outlet box and position it to get the holes aligned.
2.3. Mounting Options - FP-UMX-TPS-TX130-MKM
FP-UMX-TPS-TX130-MKM bracket is supplied with the product.
It is compatible with CRMB265 floorbox type (MK Cablelink Plus
Modular series).
Tab
Fixing screw
Handle
FP-UMX-TPS-TX130-MKM
FP-UMX-TPS-TX130-MKM bracket
53.4
77
217
FP-UMX-TPS-TX-130-MKM supplied with bracket
Step 1. Loose the two fixing screws on the top of the bracket. Insert the device into the frame.
B225R outlet box
12
Step 2. Move the handles towards the frame. Align the tab on the assembly with the slot in the frame.
Step 3. Fasten the fixing screws to fix the device into the floorbox frame.
Step 2. Fasten the front side of the extender to the B225R outlet box by fitting all the screws.
2. Installation
2.4. Connecting Steps
2.4.1. WP-UMX-TPS-TX100 series
VGA laptop HDMI laptop MacBook
VGA Audio HDMI DP
WP-UMX-TPS-TX100 series transmitter
W P--U X--TTP X113300--U S
Ethernet
VIDEO
SELECT
AUDIO
SELECT
SHOW
ME
INPUT STATUS
VGA
DP
HDMI
Autoselect
VIDEO
AUDIO
DP
HDMI
TPS LINK
AUDIO RESET
IR
VGA IN AUDIO IN DP IN HDMI IN
CATx
Compatible receiver or input board
Power RS-232 LAN
CATx
VGA
HDMI
DP
Audio
Power adaptor Relay box Ethernet
Connect the transmitter and a compatible receiver or the matrix input board by a CATx cable via the TPS connectors.
Connect the transmitter and the sources using the inputs and VGA / DVI-I / HDMI /
DisplayPort cables.
LAN
RS-232
Power
Optionally connect an asymmetric audio device with unbalanced audio signal (e.g. a
VGA laptop) to the 2.5" TRS (jack) audio input port.
Optionally connect the transmitter to a LAN network in order to control the device.
Optionally connect a controller/controlled device (e.g. relay box) to the RS-232 port.
See powering options in the next section.
UMX-TPS-TX100 series – User's Manual
2.4.2. UMX-TPS-TX100 series
VGA laptop HDMI laptop PC MacBook Media player
13
VGA Audio HDMI DVI
UMX-TPS-TX100 series transmitter
VGA IN AUDIO1 IN HDMI IN DP IN
VGA
HDMI
DP
DVI-D
VIDEO
Audio1
HDMI
DP
DVI-D
AUDIO
INPUT STATUS
HDCP
Autoselect
DVI-A Video
Audio2
VIDEO
SELECT
RESET
AUDIO
SELECT
SHOW
ME
Power GPIO RS-232 LAN
DP
CATx
IR
Audio
Compatible receiver or input board
Power adaptor
CATx
VGA
DVI
HDMI
DP
Audio
Relay box
Touch panel
Ethernet Infrared
Connect the the transmitter and a compatible receiver or the matrix input board by a CATx cable via the TPS connectors.
Connect the transmitter and the sources using the inputs and VGA / DVI-I / HDMI / DisplayPort cables.
Audio
IR
LAN
RS-232
GPIO
Power
Optionally connect an asymmetric audio device with unbalanced audio signal (e.g. a VGA laptop) to the 2.5" TRS (jack) audio input port.
Optionally connect a symmetric audio device with balanced audio signal (e.g. a media player) to the 5-pole Phoenix audio input port. See the wiring guide for the connector in the
section.
Optionally for Infrared control:
- Connect the IR emitter to the IR OUT port of the device.
- Connect the IR detector to the IR IN port of the device.
Optionally connect the transmitter to a LAN network in order to control the device.
Optionally for RS-232 control: connect a controller/controlled device (e.g. touch panel) to the RS-232 port.
Optionally connect a controller/controlled device (e.g. relay box) to the GPIO port.
See powering options in the next section.
2. Installation UMX-TPS-TX100 series – User's Manual
2.5. Powering Options
48V DC
Power adaptor
WP-UMX
-TPS-TX130-US
ETHERNET
AUDI
O
SELE
CT
VIDEO
SELE
CT
INP
VIDEO
UT ST
VGA
DP
HDMI
Auto sele
AUDI
DP
HDMI
TPS
O ct
AUDIO
DP
IN
RESE
T
IR
3
O
Power send
TPS-PI-1P1
Typ
0.7
ical: A
: 1.5
- +
A
48 DC
IN
WP-UMX
-TPS-TX130-US
ETHERNET
AUDI
O
SELE
CT
INP
ATUS
UT ST AUDI
VGA
DP sele
Auto
VIDEO ct
A
UDIO
O
DP
HDM
TPS
Link
RESE
T
IR
DP
IN
3
O
CATx
(TPS)
Max:
2.5A
I/O
8
/PD
IF I/O
7
TPS
OU
T 8
S/P
DIF
IN 8
OUT
DIF
I/O
6
S O
TP
IN 7
UT
S
OUT
DIF
12V p owe
I/O
OUT
3 r on
TP
TP
IN 4
S O
UT
S co
4 S nne
/PDI . Onl
4
F I/O
IN 5
/PDI
F I/O
5
TPS
TP
S O e wit
UT S h com patib le d
OU
IN 6
T 6
S/P
MX-HD
MI-3D-OB-A
8CH
OUT
MX-
8 C
H T
TPS2
MX-HD
PUT
ARD
5A
DC IN
PS OU
B-A
MI-3D-I
8CH
INPUT
BOAR
D F
OUT
FOR
TPS
IN 1
HDM
OU
T 1 DIGI
ARD
WITH
OR
HDMI
WIT
H 3
MX-
12V
DC
3A
IN
8 CH TPS
INP
UT BOAR
D
TP
S IN 1
S/P
3D A
OUT
ND
OG
AUD
IO
TAL
I/O 1
AUD
TP
S O
IO
IN 2
TP
UT 2
/PD
D A
ND
LOG
AUDI
S IN
2
O
IF I/ O 2
TPS
OUT
3 S/P
IN 3
TPS
IN
3
12V po wer
S IN
TP
on TPS c
4 onn ector
. Onl
TP
S IN y us e with
PS
T s!
IN 6
5 atib
comp le de vice
TP
S IN
7
TPS
IN
MX-FR17
External power supply
Power send
WP-UMX
-TPS-TX130-US
ETHERNET
ME
W
AUDI
O
SELE
CT
INP
ATUS
UT ST AUDI
DP
O
HDM
TPS
Link
RESE
T
IR
VGA
DP
HDMI
Auto
VIDEO sele ct AUDIO
DP
IN
3
O
CATx
(TPS)
48V DC
Power adaptor
A
PIN: 2
.1mm
RS-
232
TX
RX
12V
1A
DC
GP
IO
LIV
SRVC
IR IN
IR
T
AUD
IO2 IN DVI-I IN
12V DC power adaptor
B
TPS-PI-1P1
PIN: 2.1mm
12V 1A
DC
RS-232
TX
RX
GPIO
LIVE
SRVC
IR IN
IR
OUT
AUDIO2 IN
DVI-I IN
Power send
Max:2.
5A
Typic al: 0
: 1.5
Max
- +
.7A
A
48 DC IN
CATx
(TPS)
External power supply
C
S/P
DIF I/O
8
TPS
OUT
OUT
TP S O
UT
7
-3D-OB-A
MX-HDMI
8CH
OUT
PUT
BOARD
MX-TPS2
-OB-S
OUT
FOR
HDMI
WIT
H 3D
TPS
OUT
1
S/P
OUT
OG
AUDI
AND
ANAL
O
S
/PDI
F I/O
2
TPS
IN 3
DC IN
-3D-I
MX-HDMI
8CH
INP
UT
BOARD
12V 3A
MX-TPS-IB-S
DC
IN
B-A
IN 1
FOR
HDMI
TP
WIT
S IN 1
H 3D
DIF
AL
T PS
OUT
2
1
AUDIO
AND
IN 2
ANAL
AUDI
O
TP
S IN
2
TP
4
S IN
TP onne ctor
use
. Only
5
S IN ompa tible
dev
3 r on TPS c
TP
S IN 12V powe
S IN
6
TP ices
6
F I/O
OUT
OUT
OUT
5
F I/O
DIF
I/O
3
TPS
OUT
3 S/P
12V powe r on TPS c
IN 4
OUT
4 /PDI ctor
F I/O
4
TPS with c
. Only
IN 5
S
/PDI ompa tible
TPS
OUT
6 ices
IN 6
/PDI
S
IN 7
TP
S IN
7
7
F I/O
IN 8
TP
S IN 8
MX-FR17
8 CH TPS INPUT BOARD
Power send
PIN: 2.1mm
RS
-232
TX
RX
12V
1A
DC
GPIO
LIVE
SRVC
IR IN
IR OUT
AUDIO2 IN
DVI-I IN
CATx
(TPS)
A Using local PSU - connect the power adaptor to the DC input on the transmitter first, then to the AC power socket.
B Using PoE with connecting a transmitter: connect the TPS OUT (PoE) port of the transmitter to the
TPS+PoE port of the TPS-PI-1P1 power injector by a CATx cable, and connect the TPS input port of the compatible receiver to the TPS port of the TPS-PI-1P1 by a CATx cable.
C Using PoE with connecting a matrix or an input board: connect the TPS OUT (PoE) port of the transmitter to the PoE-compatible TPS input port of the matrix or input board by a CATx cable.
ATTENTION! In case of connecting the transmitter to an input board of the matrix always connect an external PSU to the board. For the detailed information please read the user's manual of the matrix.
ATTENTION! The Ethernet port does not support PoE. Only the TPS port support PoE function.
14
Product Overview
3. Product Overview
Î
Front View - UMX-TPS-TX100 series
Î
Rear View - UMX-TPS-TX100 series
Î
Front View - WP-UMX-TPS-TX100 series
Î
Rear View - WP-UMX-TPS-TX100 series
Î
Front View - FP-UMX-TPS-TX130-MKM
Î
Rear View - FP-UMX-TPS-TX130-MKM
Î
Î
Î
Î
Î
Î
Î
Î
Î
UMX-TPS-TX100 series – User's Manual
3.1. Front View - UMX-TPS-TX100 series
UMX-TPS-TX120
1 2 3 5 6 7 8 9
UMX-TPS-TX130
1 2 3 5 6 7 8 9
UMX-TPS-TX140
1 2 3 4 5 6 7 8 9
15
1 VGA input
2 Audio1 input
3 HDMI input
4 DisplayPort input
D-SUB connector for analog video signal.
3.5 mm Jack connector for asymmetric analog audio input signal.
HDMI connector for DVI video or HDMI video and audio.
DisplayPort connector for DisplayPort audio/video signal.
5 Input Status LEDs LEDs give feedback about the current status of the unit and input signals.
See the details in the
section.
6 Video Select button
Button for switching between video sources. See the details in the Video
7 Reset button Pushing the button reboots the unit.
8 Audio Select button Button for switching between audio sources. See the details in the
9 Show Me button Special functions can be reached using this button (firmware upgrade
(bootload) mode, DHCP settings, restore factory default settings, condition launching in
).
3. Product Overview
3.2. Rear View - UMX-TPS-TX100 series
UMX-TPS-TX120
1 2 4 5 6 7
UMX-TPS-TX130
UMX-TPS-TX140
1
1
2
2
3
3
4
4
5 6
5 6
7
7 8
9
9
1 12V DC input
12V DC input for local powering. For more details see the Locking 12V DC
section or see all the available
.
2 RS-232 connector
3 GPIO
3-pole Phoenix connector for controlling the device with LDC or third-party control
systems, or third-party device control. Pin assignment can be found in the RS-232
section.
8-pole Phoenix connector for configurable general purpose input/output ports. Pin
assignment can be found in the GPIO - General Purpose Input/Output Ports
section.
4 Ethernet
5 TPS OUT
(PoE)
Locking RJ-45 connector for configuring the device using Lightware Device
Controller (LDC), or upgrading it using Lightware Device Updater (LDU). Any thirdparty control system can use this port to control the device.
Locking RJ45 connector for HDBaseT TM signal transmission. Maximum CATx cable distances can be found in the
section.
6 Status LEDs The LEDs give feedback about the actual state of the device. See the details in the
section.
7 IR IN and
OUT
3-pole TRS connector, also known as 3.5 mm (1/8”) jack plug for optional IR receiver (IR IN) and transmitter (IR OUT) connection. Pin assignments can be
section.
8 Audio2 input 5-pole Phoenix connector for balanced analog audio input. Pin assignment can
be found in the Analog Stereo Audio (Phoenix)
section.
9 DVI-I input DVI-I connector for analog / DVI / HDMI signals. Pin assignment can be found in
section.
UMX-TPS-TX100 series – User's Manual
3.3. Front View - WP-UMX-TPS-TX100 series
1
2
3
4
5
6
7
8
9 q
2
3
4
5
6
1
16
1 Input Status LEDs LEDs give feedback about the current status of the unit and input signals.
See the details in the
section.
2 Audio Select button Button for switching between audio sources. See the details in the
3 Video Select button
Button for switching between video sources. See the details in the Video
4 Ethernet
5
6
7
8
9 q w
VGA input
Audio input
Show Me button
Reset button
IR detector
HDMI input
DisplayPort input
Locking RJ-45 connector for configuring the device using Lightware
Device Controller (LDC), or upgrading it using Lightware Device Updater
(LDU). Any third-party control system can use this port to control the device.
D-SUB connector for analog video signal.
3.5 mm Jack connector for asymmetric analog audio input signal.
Special functions can be reached using this button (firmware upgrade
(bootload) mode, DHCP settings, restore factory default settings, condition launching in
).
Pushing the button reboots the unit.
IR Detector can sense IR light which can be forwarded to the receiver side or use for controlling functions.
HDMI connector for DVI video or HDMI video and audio.
DisplayPort connector for DisplayPort audio/video signal.
7
8
9 q w
3. Product Overview
3.4. Rear View - WP-UMX-TPS-TX100 series
WP-UMX-TPS-TX120-US and WP-UMX-TPS-TX130-US
1
2
3
1
2
RS-232 connector
TPS output
(PoE)
3-pole Phoenix connector for controlling the device with LDC or third-party control systems, or third-party device control. Pin assignment can be found in the
section.
Locking RJ45 connector for HDBaseT TM signal transmission. Maximum CATx cable
distances can be found in the Maximum
section.
3 48V DC input Power the device remotely by a PoEcompatible power injector (TPS-PI-1P1).
If the device has to be powered by a local adaptor (PSU-48VP1), connect the output to the 2-pole Phoenix connector on the rear of the wall plate. See more details about
powering options in the 48V DC Connection
section or see all the available
.
UMX-TPS-TX100 series – User's Manual 17
3.5. Front View - FP-UMX-TPS-TX130-MKM
1
2
3
4
5
6
3
1 Input Status
LEDs
2 Audio Select button
LEDs give feedback about the current status of the unit and input signals. See the details in the
Button for switching between audio sources. See
the details in the Audio Select Button
section.
3 Video Select button
Button for switching between video sources. See the details in the
4 Ethernet Locking RJ-45 connector for configuring the device using Lightware Device Controller (LDC), or upgrading it using Lightware Device Updater
(LDU). Any third-party control system can use this port to control the device.
5 VGA input D-SUB connector for analog video signal.
6 Audio input 3.5 mm Jack connector for asymmetric analog audio input signal.
7 Show Me button
Special functions can be reached using this button (firmware upgrade (bootload) mode,
DHCP settings, restore factory default settings,
condition launching in Event Manager ).
8 Reset button Pushing the button reboots the unit.
8
9 q w
7
9 IR detector IR Detector can sense IR light which can be forwarded to the receiver side or use for controlling functions.
q HDMI input HDMI connector for DVI video or HDMI video and audio.
w DisplayPort input
DisplayPort connector for DisplayPort audio/ video signal.
3.6. Rear View - FP-UMX-TPS-TX130-MKM
1 2 3
1 TPS output
2
3
(PoE)
RS-232 connector
48V DC input
Locking RJ45 connector for HDBaseT TM signal transmission. Maximum CATx cable distances can be found in the
section.
3-pole Phoenix connector for controlling the device with LDC or third-party control systems, or third-party device control. Pin assignment
can be found in the RS-232 Connector section.
Power the device remotely by a PoE-compatible power injector (TPS-PI-1P1). If the device has to be powered by a local adaptor (PSU-48VP1), connect the output to the 2-pole Phoenix connector on the rear of the floor plate. See more details about powering options in the
section or see all the available
3. Product Overview UMX-TPS-TX100 series – User's Manual 18
3.7. Electrical Connections
3.7.1. Locking 12V DC Connection
PIN: 2.1mm
12V
1A DC
PIN: 2.1mm
12V
1A DC
1
Locking DC connector
UMX-TPS-TX100 series transmitters are built with locking 12V DC connector. Do not forget to turn the plug clockwise direction before disconnecting the power adaptor.
WARNING! Always use the supplied 12V power adaptor. Warranty void if damage occurs due to use of a different power source.
3.7.2. 48V DC Connection
WP-UMX-TPS-TX100 series transmitters are built with 2-pole
Phoenix connector for 48V DC 1A power connection.
2
Pin nr.
1
2
Signal
-
+
2-pole Phoenix connector and plug pin assignments
3.7.3. VGA Connector
The transmitter provides a standard 15-pole
D-SUB female connector for connecting VGA devices. Always use high-quality VGA cable for connecting sources and displays; using a VGA cable where all the pins are wired (including the DDC channel's wires) is highly recommended.
3.7.4. HDMI Connector
The extender provides standard 19 pole HDMI connector for input. Always use high quality HDMI cable for connecting sources and displays.
3.7.5. DisplayPort Connector
UMX-TPS-TX140 and WP-UMX-TPS-TX130-US models provide standard 20-pole DisplayPort connector for input.
Always use high quality DP cable for connecting DisplayPort devices.
3.7.6. DVI-I Connector
UMX-TPS-TX130 and UMX-TPS-TX140 transmitters provide a standard
29-pole DVI-I connector for input where digital and analog pins are connected internally. Hence users can use the connector receiving
DVI-A (analog video) and DVI-D signals (digital video and digital audio) as well.
ATTENTION! Only one (DVI-A or DVI-D) mode is available at a time.
You can use the Video Select button to choose the input source.
Always use high quality DVI cable for connecting DVI devices.
The following drawing and table show the pinout of DVI-I connector and the position of analog and digital signal pins.
11
12
13
14
9
10
7
8
15
5
6
3
4
Pin
1
2
1 2 3 4 5 6 7 8
9 10 11 12 13 14 15 16
17 18 19 20 21 22 23 24
C1 C2
C3
C5
C4
Signal
TMDS Data2-
TMDS Data2+
TMDS Data2 Shield not connected not connected
DDC Clock
DDC Data
Analog Vertical Sync
TMDS Data1-
TMDS Data1+
TMDS Data1 Shield not connected not connected
+5V Power
GND (for +5V)
18
19
20
21
Pin
16
17
Signal
Hot Plug Detect
TMDS Data0-
TMDS Data0+
TMDS Data0 Shield not connected not connected
22
23
24
C1
TMDS Clock Shield
TMDS Clock+
TMDS Clock-
Analog Red
C2
C3
Analog Green
Analog Blue
C4 Analog Horizontal Sync
C5 GND
3.7.7. Analog Stereo Audio (Jack)
The connector is used for receiving unbalanced analog audio signal. It is also known as (3.5 mm or approx. 1/8”) audio jack, phone jack, phone plug and mini-jack plug.
1 2 3
Pin nr.
1
2
3
Signal
Left
Right
Ground
Jack audio plug pin assignments
You can find more information about audio functions in the
3.7.8. Analog Stereo Audio (Phoenix)
5-pole Phoenix connector is used for balanced analog audio input in the UMX-TPS-TX140 transmitter.
Unbalanced audio signals can be connected as well. See more details about the balanced and unbalanced input port wiring in the
1 2 3 4 5
Pin nr.
1
4
5
2
3
Signal
Left+
Left-
Ground
Right-
Right+
Analog audio connector and plug pin assignments
Compatible Plug Type
Phoenix ® Combicon series (3.5mm pitch, 5-pole), type: MC 1.5/5-ST-3.5.
You can find more information about analog audio function in the
section.
3. Product Overview UMX-TPS-TX100 series – User's Manual 19
3.7.9. Ethernet Connector (TPS and LAN Ports)
The extender provides standard RJ45 connectors for TPS IN and
LAN ports. Always use high quality Ethernet cable for connecting transmitters and receivers. Maximum CATx cable distances can be
found in the Maximum Extension Distances section.
8 1 1 8 8 1
LAN connector TPS connector of
UMX-TPS-TX100 series transmitters
TPS connector of
WP-UMX-TPS-TX100 series transmitters
Wiring of TPS and LAN Cables
Lightware recommends the termination of LAN cables on the basis of
TIA/EIA T 568 A or TIA/EIA T 568 B standards.
8 1
1
Top Bottom
6
7
4
5
8
2
3
Pin TIA/EIA T568 A Color and name
1 white/green stripe green solid white/orange stripe blue solid white/blue stripe orange solid white/brown stripe brown solid
8
Side
TIA/EIA T568 B Color and name white/orange stripe orange solid white/green stripe blue solid white/blue stripe green solid white/brown stripe brown solid
Pin assignments of RJ45 connector types
You can find more information about TPS interface in the TPS Interface
section.
3.7.10. RS-232 Connector
The extender contains a 3-pole Phoenix connector which is used for RS-232 serial connection.
1 2 3
Pin nr.
1
2
3
Signal
Ground
TX data
RX data
RS-232 connector pin assignments
Compatible Plug Type
Phoenix ® Combicon series (3.5mm pitch, 3-pole), type: MC 1.5/3-ST-3.5.
You can find more information about RS-232 interface in the
section.
3.7.11. IR Connector
IR detector and IR emitter can be connected to the
UMX-TPS-TX100 series extenders with TRS (Tip, Ring, and
Sleeve) connectors. They are also known as (3,5 mm or approx.
1/8”) audio jack, phone jack, phone plug, and mini-jack plug. The pin assignments are the following for the detector and the emitter:
1 2 3 1 2-3
Detector – 3-pole-TRS
1 Tip Signal (active low) 1 Tip
Emitter – 2-pole-TS
+5V
2 Ring
3 Sleeve
GND
+5V
2 Ring
3 Sleeve
Signal (active low)
INFO: Ring pole of the emitter is optional. If your IR emitter has three-pole TRS plug, then the Ring and the Sleeve are the same signal (Output - ).
You can find more information about Infrared interface in the
section.
3.7.12. IR Detector
WP-UMX-TPS-TX100 series transmitters are built with an IR detector on front panel of the wallplate. The sensor is used for receiving IR signals from remote control or other IR emitter devices.
You can find more information about Infrared interface in the
section.
3.7.13. GPIO - General Purpose Input/Output Ports
UMX-TPS-TX130 and UMX-TPS-TX140 transmitters contain a 8-pole Phoenix connector with seven GPIO pins, which operates at TTL digital signal levels and can be set to high or low level (Push-Pull). The direction of the pins can be input or output (adjustable). Voltage ranges for
GPIO inputs are the following:
Logical low level
Logical high level
Input voltage [V]
0 - 0.8
2 - 5
Output voltage
[V]
0 - 0.5V
4.5 - 5V
Max. current
[mA]
30
18
INFO: The maximum total current for the seven GPIO pins is 180 mA.
Pin nr.
Level and direction
1 2 3 4 5 6 7 8
1
4
5
2
3
6
7
Ground
GPIO connector and plug pin assignments
Compatible plug type
Phoenix ® Combicon series (3.5mm pitch 8-pole), type: MC 1.5/8-ST-3.5.
You can find more information about GPIO interface in the
3. Product Overview UMX-TPS-TX100 series – User's Manual
3.8. TPS Extender Concept
The UMX-TPS-TX100 series transmitters and wallplates are universal audio/video extenders with analog/ digital conversion and audio embedding functions. The devices receive analog (VGA, DVI-A) and digital (DP,
HDMI, DVI-D) video signals and transmits HDBaseT (TPS) signal including HDMI/DVI audio/video signals,
Ethernet, RS-232, and Infrared signals. Analog audio signals can be received via the 3.5” TRS (jack) and the
5-pole Phoenix connectors.
The device can be controlled via Ethernet, RS-232 or Infrared and is able to control third-party devices via the
RS-232, Ethernet, Infrared interfaces.
INPUT
VGA
HDMI
DP
1
DVI-D
2
DVI-A
2
Analog audio
VGA IN AUDIO1 IN HDMI IN DP IN
VGA
DP
DVI-D
VIDEO
Audio1
DVI-D
AUDIO
INPUT STATUS
HDCP
Audio2
RESET
VIDEO
SELECT
AUDIO
SELECT
SHOW
ME
OUTPUT
TPS
HDMI / DVI
Ethernet
RS-232
Infrared
+ Ethernet
+ RS-232
+ Infrared
+ GPIO
2
INPUT
VGA
HDMI
DP
3
Analog audio
The summary of the interfaces of UMX-TPS-TX100 series transmitters
OUTPUT
W P--U X--TTP X113300--U S
Ethernet
INPUT STATUS
VGA
DP
AUDIO
DP
Autoselect
VIDEO
TPS LINK
AUDIO RESET
IR
VGA IN AUDIO IN DP IN HDMI IN
or
VIDEO
SELECT
AUDIO
SELECT
SHOW
ME
INPUT STATUS
VIDEO
VGA
DP
HDMI
Autoselect
AUDIO
AUDIO
DP
HDMI
TPS LINK
RESET
IR
TPS
VGA IN AUDIO IN 2 DP IN 3 HDMI IN
HDMI / DVI
Ethernet
RS-232
Infrared
+ Ethernet
+ RS-232
+ Infrared
The summary of the interfaces of WP- and FP -UMX-TPS-TX100 series transmitters
1 Only for UMX-TPS-TX140 model.
2 Only for UMX-TPS-TX130 and UMX-TPS-TX140 models.
3 Only for WP-UMX-TPS-TX130-US and FP-UMX-TPS-TX130-MKM models.
20
INFO: WP-UMX-TPS-TX130-US and FP-UMX-TPS-TX130-MKM models have the same functionality, the only difference in the size of the enclosure.
3.9. TPS Interface
The device is built with TPS (Twisted Pair Single) interface which are using HDBaseT TM technology. It means the unit transmits video, audio, Ethernet, RS-232, and Infrared signals via a single CATx cable.
TPS Interface Working Modes
The TPS working mode between the transmitter and the receiver is determined by the mode set in them.
Both devices TPS mode settings together determine the finally established TPS transmission mode.
The following TPS modes are defined in the transmitter:
▪
▪
▪
▪ Auto : The TPS mode is determined automatically.
▪ HDBaseT : Ideal for high resolution signals up to 4K.
Long reach
LPPF1
LPPF2
: Ideal for big distances up to 1080p@60Hz with extended cable lengths.
*: Only RS-232 communication is transmitted (@ 9600 baud).
*: Only RS-232 (@ 9600 baud) and Ethernet communication are transmitted.
* LPPF: Low Power Partial Functionality.
LPPF1
LPPF2
HDBaseT
Long reach
Auto
LPPF1
LPPF1
LPPF1
LPPF1
LPPF1
LPPF1
LPPF2
LPPF1
LPPF2
LPPF2
LPPF2
LPPF2
Selected mode on RX side
HDBaseT
LPPF1
LPPF2
HDBaseT
Long reach
HDBaseT
Long reach
LPPF1
LPPF2
Long reach
Auto
LPPF1
LPPF2
HDBaseT
Long reach Long reach
Long reach HDBaseT **
** If there is valid HDMI/DVI signal is on the TX side, the TPS mode will be HDBaseT on both side. If the transmitter does not transmits HDMI/DVI signal, the TPS mode will be changed to LPPF2 or LPPF1 automatically. Long reach mode is not available when both sides are set to Auto mode.
When using automatic operation mode selection, the device determines the mode of operation. If both halfs are set to Auto mode, the source side is the initiator. It will negotiate each state transition with its sink side partner.
When one of the devices is configured to manual operation mode selection, the other device may be placed in automatic mode. In this case, the mode transition negotiation is initiated by the host-managed device and the auto-mode device follows through. The allowed cable lengths and resolutions are listed in the
section.
3. Product Overview UMX-TPS-TX100 series – User's Manual
3.10. Port Diagram
The following figure describes the port diagram of the UMX-TPS-TX140 transmitter. The principle of the operation is the same for all models.
VGA in
HDMI in
Analog video
A/D converter
Digital video + Digital audio 5:1 digital
A/V switch
DP in
DVI in
Analog audio in 1
Analog audio in 2
Digital video + Digital audio
Analog video
A/D converter
Digital video + Digital audio
Analog audio
A/D converter
Digital audio
Analog audio
A/D converter
Digital audio
De-embedder
Digital video
Embedder
Digital audio
3:1 digital audio switch
Digital audio
TPS out
Port diagram
The device has four video input ports to receive analog video (VGA, DVI-A) and digital video (HDMI, DP,
DVI-D) signals. The analog signals are converted to digital. A 5:1 digital audio/video switch decides which signal is routed toward the TPS output port. The device also has two analog audio input ports (3.5mm Jack,
5-pole Phoenix). The analog signals are converted to digital ones. The user can choose which audio signal is transmitted on the TPS output port: one from the analog audio sources or the original embedded audio from the HDMI / DP / DVI-D ports.
INFO: The DVI-D input accepts HDMI signal with embedded audio as well.
Besides, the device has four different interfaces to control the unit itself or third-party devices: infrared (input and output), RS-232, Ethernet, and GPIO.
21
3. Product Overview UMX-TPS-TX100 series – User's Manual
3.11. Video Interface
3.11.1. Video Input Modes
The device can receive digital video signal on the HDMI, DisplayPort, and DVI-D input ports and analog video signal on the VGA and the DVI-A input ports.
INFO: Both the DVI-A and DVI-D signals can be received on the same DVI-I input port.
3.11.2. Input Source Selection Modes
Video input source can be selected the following ways:
▪ pressing Video Select button on the device;
▪ using Lightware Device Controller (LDC);
▪ sending LW2 or LW3 protocol commands; or
▪ using the Autoselect function.
3.12. The Autoselect Feature
There are three types of Autoselect as follows.
▪ First detect mode : selected input port is kept connected to the output as long as it has an active signal.
▪ Priority detect mode : always the highest priority active input is selected to transmit.
▪ Last detect mode : always the last attached input is selected to transmit.
„First detect”
Selected port still has a valid signal?
Y
Remains selected
N
N
New event?
Y
Current
Autoselect mode
Port with priority 0 has a valid signal?
N
„Last detect”
„Priority detect”
Y
Last connected input is selected
Port with priority
0 is selected
Port with priority 1 has a valid signal?
N
Y Port with priority
1 is selected
Port with priority 2 has a valid signal?
N
Y Port with priority
2 is selected
Display
Test pattern
„No signal”
Port with priority 30 has a valid signal?
N
Test pattern generator setting
Y Port with priority
30 is selected
„Off” No Audio/Video transmission
22
Automatic Input Selection - Example
DVI-D IN
HDMI IN
DP IN
VGA IN
TPS OUT HDMI
Laptop PC Blu-ray player MacBook
VGA IN HDMI IN DP IN
VGA
HDMI
Audio1
DVI-D
VIDEO
DVI-D
AUDIO
INPUT STATUS
HDCP
Autoselect
Audio2
VIDEO
SELECT
RESET
AUDIO
SELECT
SHOW
ME AUDIO1 IN
UMX-TPS-TX140 transmitter Projector
The Concept
If there is no other source connected to the transmitter, but the Laptop, VGA input will be automatically switched to the TPS output. If the Laptop and the PC are also connected to the transmitter, DVI-D input will be switched to the TPS output. If the Blu-ray player is connected on the HDMI input, and later the MacBook is connected on the DP input of the transmitter, it will be switched to the TPS output – independently of the presence of other video signals.
Settings
▪ TPS output : Set the Autoselect to Enabled . Set Autoselect mode to Priority detect . The priorities are the following (the lowest number means the highest priority):
Source device
MacBook
Blu-ray player
PC
Laptop
Input interface
DP IN
HDMI IN
DVI-D IN
VGA IN
Input port
I3
I2
I4
I1
Priority
0
1
2
3
sections.
3. Product Overview UMX-TPS-TX100 series – User's Manual
3.13. Audio Interface
3.13.1. Audio Input Modes
The device can receive embedded digital audio signal on the HDMI, DisplayPort, and DVI-D input ports and analog audio signal on the Jack and the Phoenix input ports.
Audio Embedding
The transmitter has a built-in audio embedder function which means the audio signal being received on the analog audio input port can be embedded to the TPS output.
The video and audio inputs can be combined with limitations. Below table contains the allowed connections:
HDMI
DP
DVI-D
VGA
DVI-A
HDMI
-
-
-
-
DP
Audio sources
DVI-D
Analog audio
(Jack)
-
-
-
-
-
-
-
-
Allowed audio connections
Analog audio
(Phoenix)
ATTENTION!
Audio embedding is available where the pixel clocking of the video signal is up to 225 MHz.
If the output video is 4K, the audio embedding function is not available.
3.13.2. Audio Options - Example
ANALOG AUDIO IN 2
Media player
Laptop
ANALOG AUDIO IN 1
VGA IN
HDMI IN TPS OUT HDMI
23
Blu-ray player
VGA IN HDMI IN DP IN
VGA
HDMI
Audio1
DVI-D
VIDEO
DVI-D
AUDIO
INPUT STATUS
HDCP
Autoselect
Audio2
VIDEO
SELECT
RESET
AUDIO
SELECT
SHOW
ME AUDIO1 IN
UMX-TPS-TX140 transmitter TPS receiver HDTV
The Concept
Three audio sources are connected to the transmitter: a Blu-ray player on the HDMI input (embedded HDMI audio); a Laptop on the analog audio input 1; and a Media player on the analog audio input 2. There are two video sources as well: the Blu-ray player on the HDMI input (digital video with the embedded audio) and the
Laptop on the VGA input (analog video).
The following options are available for audio routing / signal selection:
▪ If the video input source of the HDTV is the Blu-ray player , you can select from the following audio sources:
– the original embedded HDMI audio from the Blu-ray player ;
– the analog audio input 1 from the Laptop ;
– the analog audio input 2 from the Media player .
▪ If the video input source of the HDTV is the Laptop , you can select from the following audio sources:
– the analog audio input 1 from the Laptop ;
– the analog audio input 2 from the Media player .
3. Product Overview UMX-TPS-TX100 series – User's Manual
3.14. Control Features
3.14.1. Serial Interface
Technical Background
Serial data communication can be established via the local RS-232 port (Phoenix connector) or via the TPS lines. The RS-232 ports – which are connected to the CPU – can be configured separately (e.g. if the Baud rates are different, the CPU does the conversion automatically between the ports). The RS-232 port can be switched to Pass-through mode, Control mode, or Command Injection mode; see the figure below.
TPS serial link
RS-232 local
Mode switch
3
2
Local
RS-232 /
TPS converter
Link RS-232 /
TCP converter
1
Device control
1
Local RS-232 /
TCP converter
LAN port
3
CPU
Block diagram of the serial interface
The following settings are defined:
1 The Local and the TPS serial ports are in Control mode .
2 The Local and the TPS serial ports are in Pass-through mode .
3 The Local and the TPS serial ports are in Command Injection mode .
INFO: All settings are available in the LDC software, see settings in the
section.
Only one mode can be used at the same time: Control mode, or Pass-through mode, or Command Injection mode. If you choose one of them, TPS serial link and local RS-232 port will operate in the same mode.
Pass-through Mode
In pass-through mode, the given device forwards the data that is coming from one of its ports to another same type of port. The command is not processed by the CPU. Incoming serial data is forwarded from local RS-232 port to the TPS output port and vica versa inside the transmitter.
24
Control Mode
The incoming data from the given port is processed and interpreted by the CPU. The mode allows to control the transmitter directly. LW2 or LW3 protocol commands are accepted – depending on the current port setting.
Command Injection Mode
In this mode, the transmitter works as an RS-232 bidirectional converter. The TPS signal is converted to
RS-232 data and vice versa. TCP/IP port numbers are defined for the serial ports (TPS and local) for this purpose. E.g. the default Command Injection port number of the local RS-232 port is 8001. If a command is coming from the TPS interface which addresses to the port no. 8001, it will be transmitted to the Tx pin of the local RS-232 port. That works in the opposite direction of course and the method is the same on the serial interface of the TPS port as well.
RS-232 Signal Transmission – Example
Ethernet
LAN TPS OUT RS-232
System controller
VGA IN HDMI IN DP IN
VGA
DP
DVI-D
VIDEO
Audio1
DVI-D
AUDIO
INPUT STATUS
HDCP
Audio2
VIDEO
SELECT
RESET
AUDIO
SELECT
SHOW
ME AUDIO1 IN
UMX-TPS-TX100 series transmitter TPS receiver Projector
The Concept
The System controller can send commands to the transmitter and it is able to remote control the projector through the TPS receiver via RS-232.
Settings
▪ System controller : wireless IP connection to the same Ethernet as the transmitter is connected to. Use a dedicated software tool (e.g. a terminal) which is suitable for sending commands via TCP/IP to a certain IP:port address.
▪ Transmitter : set the RS-232 mode to Command Injection on TPS output port. Set the further parameters
(Baud rate, Data bits, etc.) in accordance with the specifications of the projector. The transmitter will transmit the RS-232 data toward the receiver.
▪ Receiver : set the RS-232 mode to Pass-through on RS-232 port.
▪ Projector : note the RS-232 port setting that is specified by the Manufacturer. Connect a suitable serial cable with the proper wiring.
3. Product Overview UMX-TPS-TX100 series – User's Manual
3.14.2. IR Interface
ATTENTION! For the complete usage attach an IR emitter unit to the IR OUT and an IR detector unit to the
IR IN connectors.
Technical Background
The Infrared signal transmission is similar to the serial data communication. The transmitter contains dedicated IR I/O connection and also can transmit/receive IR signal via the TPS interface. The signal is in pronto HEX format in both cases.
IR in
IR recognizer for Event
Manager use
TCP / IR converter
LAN port
IR out
TPS / IR converter
TPS
IR link
CPU
Block diagram of the IR interface - UMX-TPS-TX100 series transmitters
IR recognizer for Event
Manager use
IR in
(built-in sensor)
TCP / IR converter
LAN port
TPS / IR converter
TPS
IR link
CPU
Block diagram of the IR interface - WP-UMX-TPS-TX100 series transmitters
The most trivial usage of the IR interface is the transparent mode: signal received or sent on local IR ports are transmitted directly on the TPS IR link port and vica versa. Beside of this there is an IR recognizer in the device where you can assign actions in Event Manager for. The third option is the command injection mode
(like at serial interface in the previous section) where you can send IR commands over LAN. Command injection mode can be turned on and off by input/output ports.
INFO: All settings are available in the LDC software, see settings in the
section.
25
INFO: The modulation of output IR signal can be turned off or on by LW3 command, see details in the
Enable/Disable Output Signal Modulation section.
IR Signal Transmission - Example 1
IR OUT TPS OUT IR IN
Blu-ray player
VGA IN HDMI IN DP IN
VGA
HDMI
Audio1
DVI-D
VIDEO
DVI-D
AUDIO
INPUT STATUS
HDCP
Autoselect
Audio2
VIDEO
SELECT
RESET
AUDIO
SELECT
SHOW
ME AUDIO1 IN
UMX-TPS-TX100 series transmitter TPS receiver Remote controller
The Concept
An IR detector is attached to the Infrared input port of the TPS receiver and IR signals are sent by the Remote controller. The TPS Receiver is connected to an UMX-TPS-TX100 series transmitter built with IR output port via TPS line.
Settings:
Set the TPS IR link of the Transmitter to Transparent mode . IR signals are received over the local IR input port of the Receiver by the Remote controller. The signals transmitted further over the TPS line to the Transmitter which can control the Blu-ray player via an IR emitter.
IR Signal Transmission - Example 2
TPS OUT
W P--U X--TTP X113300--U S
Ethernet
VIDEO
SELECT
AUDIO
SELECT
SHOW
ME
INPUT STATUS
VGA
DP
HDMI
Autoselect
VIDEO
AUDIO
DP
HDMI
TPS LINK
AUDIO RESET
IR
VGA IN AUDIO IN DP IN HDMI IN
IR OUT
Remote controller WP-UMX-TPS-TX100 series transmitter
TPS receiver Projector
The Concept
The built-in IR detector of the Wallplate transmitter receives the IR signals from the Remote controller . The signal is transmitted via the TPS line to the TPS receiver . In this way the Remote controller can control the the
Projector via the Wallplate transmitter .
3.14.3. Ethernet Control Interface
The device can be controlled over front panel Ethernet standard RJ45 connector which connected to LAN.
This interface supports both LW2 and LW3 protocols.
The interface can be used to remote control the device with Lightware Device Controller and establish the connection to Lightware Device Updater software and perform firmware upgrade.
3. Product Overview UMX-TPS-TX100 series – User's Manual
3.14.4. GPIO Interface
The GPIO (General Purpose Input/Output) port is a multifunctional input/output interface to control the transmitter or third-party devices and peripherals. You can establish connection between the controller/ controllable device and the transmitter by the 8-pole Phoenix connector. Seven pin's direction is configurable independently based on needs of the application.
GPIO Options - Example
Ceiling lamp Relay 1
VGA IN
GPIO GPIO
Relay 2
TPS OUT HDMI
Projection screen
PC
RESET
VGA IN HDMI IN DP IN
VGA
DP
Audio1
DP
DVI-D
VIDEO
DVI-D
AUDIO
INPUT STATUS
HDCP
DVI-A Video
Audio2
AUDIO1 IN
UMX-TPS-TX130/TX140 transmitter TPS receiver Projector
The Concept
Ceiling lamp is turned off by Relay 1 and projection screen is rolled down by Relay 2 when signal received from the PC over the VGA input. Both relays are controlled by the GPIO port.
Settings of the Transmitter
▪ For Relay 1 : create an event in Event manager: when signal is present on Input 1 (I1) then set GPIO pins to low level for Relay 1 opening. Also create another event when signal is not present on Input 1 (I1) then set GPIO pins to high level for Relay 1 closing.
▪ For Relay 2 : create an event in Event manager when signal is present on Input 1 (I1) then set GPIO pins to high level for Relay 2 closing. Also create another event when signal is not present on Input 1 (I1) then set GPIO pins to low level for Relay 2 opening.
When the PC starts to play the video presentation, the signal is received over the VGA input so GPIO pins send signal to Relay 1 to open which results turning off the lights. Furthermore GPIO pins also send signal to Relay 2 to close and the projection screen is rolled down. When the presentation is ended, signal ceases on the VGA input, so GPIO pins send signal to Relay 1 to close which results turning on the lights and sends signal to Relay 2 to open so projection screen returns to its enclosure.
ATTENTION! Please always check the electrical parameters of the devices what you want to control. The maximum current of one GPIO pin is 30 mA, the maximum total current for the seven pins is 180 mA.
See the LDC settings for GPIO port in the GPIO
section. See also the details about the Event Manager settings in the
section.
26
3.15. Further Built-in Features
3.15.1. Automatically Launched Actions – The Event Manager
The Event Manager feature means that the device can sense changes on its ports and is able to react according to the pre-defined settings. Lightware Device Controller contains a user-friendly software tool and allows to create Events by defining a Condition and an Action.
CONDITION
Video signal is detected on HDMI port I2
ACTION
Turn on the projector connected to the local serial port
Connect Turn on
Blu-ray player
VGA IN HDMI IN DP IN
VGA
HDMI
Audio1
DVI-D
VIDEO
DVI-D
AUDIO
INPUT STATUS
HDCP
Autoselect
Audio2
VIDEO
SELECT
RESET
AUDIO
SELECT
SHOW
ME AUDIO1 IN
UMX-TPS-TX100 series transmitter
Event Manager example
See more information about the settings in the Event Manager section.
3.15.2. Transmitter Cloning – Configuration Backup and Restore
Projector
VGA IN AUDIO1 IN HDMI IN DP IN
VGA
DP
Audio1
DP
DVI-D
VIDEO
DVI-D
AUDIO
INPUT STATUS
HDCP
DVI-A Video
Audio2
RESET
VGA IN AUDIO1 IN HDMI IN DP IN
VGA
HDMI
Audio1
DVI-D
VIDEO
DVI-D
AUDIO
INPUT STATUS
HDCP
Autoselect
Audio2
RESET
VIDEO
SELECT
AUDIO
SELECT
SHOW
ME
VGA IN AUDIO1 IN HDMI IN DP IN
VGA
DP
Audio1
DP
DVI-D
VIDEO
DVI-D
AUDIO
INPUT STATUS
HDCP
DVI-A Video
Audio2
RESET
The transmitter (configuration) cloning of a UMX-TPS-TX100 series transmitter or wallplate is a simple method that eliminates the need to repeatedly configure certain devices to have identical (non-factory) settings. If the devices are installed in the same type of system multiple times then it is enough to set up only one device to fit the user’s needs and then copy those settings to the others, thus saving time and resources.
See more information about the settings in the Configuration Cloning (Backup Tab)
section.
3.15.3. Remote Firmware Upgrade of Connected Lightware Devices
VGA IN AUDIO1 IN HDMI IN DP IN
VGA
HDMI
DP
Audio1
HDMI
DP
DVI-D
VIDEO
DVI-D
AUDIO
INPUT STATUS
HDCP
Autoselect
DVI-A Video
Audio2
RESET
C ON TR OL L
LO OC
PU T
LO OC
1 2
DESTINATIONS
1 2
3
SOURCES
4 5 6
TA AK
A UT
LO OA
PR ES ET T
SA AV
PR RE ES ET T
MMX6x2-HT220
SN:00003326
MMX6x2-HT220
Multiport HDMI and TPS Matrix Switcher
ESC
ENTER
LIVE
5V
48V
RESET
VGA IN AUDIO1 IN HDMI IN DP IN
VGA
HDMI
DP
Audio1
HDMI
DP
DVI-D
VIDEO
DVI-D
AUDIO
INPUT STATUS
HDCP
Autoselect
DVI-A Video
Audio2
RESET
The firmware of the Lightware TPS devices can be upgraded individually by Lightware Device Updater (LDU) software. UMX-TPS-TX100 series transmitters and wallplates contain a feature which allows having a faster and more comfortable firmware upgrade process. When the firmware of the connected extenders has to be upgraded the TPS connection is necessary towards the extenders – nothing else. The LDU will find the connected devices and can upgrade them.
The upgrade process is almost the same as in the case of the usual upgrade process. See the details of the process in the
Remote Firmware Upgrade of Connected Lightware Devices section.
UMX-TPS-TX100 series – User's Manual 4. Operation
Operation
Î
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4.1. Front Panel LEDs
INFO: WP-UMX-TPS-TX130-US and FP-UMX-TPS-TX130-MKM models have the same functionality. The operation of the status
LEDs is also similar.
ATTENTION! When Dark mode is enabled, no LEDs are on, even though the device is fully functional.
4.1.1. Video Input LEDs
VGA IN AUDIO1 IN HDMI IN DP IN
W P--U X--TTP S--TTX S
Ethernet
VIDEO
SELECT
AUDIO
SELECT
SHOW
ME
INPUT STATUS
VGA
DP
HDMI
Autoselect
VIDEO
AUDIO
DP
HDMI
TPS LINK
AUDIO RESET
IR
VGA IN AUDIO IN DP IN HDMI IN
VGA
HDMI
DP
DVI-D
VIDEO
Audio1
HDMI
DP
DVI-D
AUDIO
INPUT STATUS
HDCP
Autoselect
DVI-A Video
Audio2
RESET
VIDEO
SELECT
AUDIO
SELECT
SHOW
ME
OFF: Video source is not selected.
BLINKING: Video source is selected, and signal is not detected.
ON: Video source is selected and signal is present.
4.1.2. Audio Input LEDs
VGA IN
VGA IN
AUDIO1 IN HDMI IN DP IN
W P--U X--TTP X113300--U S
VIDEO
SELECT
AUDIO
SELECT
SHOW
ME
Ethernet
INPUT STATUS
VGA
DP
HDMI
Autoselect
VIDEO
AUDIO
DP
HDMI
TPS LINK
AUDIO RESET
IR
AUDIO IN DP IN HDMI IN
VGA
HDMI
DP
DVI-D
VIDEO
Audio1
HDMI
DP
DVI-D
AUDIO
INPUT STATUS
HDCP
Autoselect
DVI-A Video
Audio2
VIDEO
SELECT
RESET
AUDIO
SELECT
SHOW
ME
OFF: Audio source is not selected.
BLINKING: Audio source is selected, and signal is not detected.
ON (with short pause):
Audio source is selected and the port is active but not embedded to the output video stream (DVI output mode).
ON (continuously): Audio source is selected, the port is active and the audio is embedded to the output video stream (HDMI output mode).
4.1.3. Autoselect LED
VGA
HDMI
DP
DVI-D
VIDEO
Audio1
HDMI
DP
DVI-D
AUDIO
INPUT STATUS
HDCP
Autoselect
DVI-A Video
Audio2
RESET
VIDEO
SELECT
AUDIO
SELECT
SHOW
ME VGA IN AUDIO1 IN HDMI IN DP IN
Ethernet
VGA IN
VIDEO
SELECT
AUDIO
SELECT
W P--U X--TTP S--TTX S
INPUT STATUS
VGA
DP
HDMI
Autoselect
VIDEO
AUDIO
DP
HDMI
TPS LINK
AUDIO RESET
AUDIO IN
SHOW
ME
DP IN
IR
HDMI IN
OFF:
Autoselect function is disabled.
BLINKING:
Autoselect function is enabled, searching for signal
(the video input LEDs are also blinking).
ON:
Autoselect function is enabled, the active video signal is found (the selected video input's LED is also ON).
You can find more details in the The Autoselect Feature section.
4.1.4. HDCP LED
VGA IN AUDIO1 IN HDMI IN DP IN
VGA
HDMI
DP
DVI-D
VIDEO
Audio1
HDMI
DP
DVI-D
AUDIO
INPUT STATUS
HDCP
Autoselect
DVI-A Video
Audio2
RESET
VIDEO
SELECT
AUDIO
SELECT
SHOW
ME
OFF:
Video output signal is not encrypted with HDCP.
ON:
Video output signal is HDCP-encrypted.
You can find more details in the HDCP Management section.
27
4. Operation UMX-TPS-TX100 series – User's Manual 28
4.1.5. TPS LINK LED
W P--U X--TTP S--TTX S
OFF:
No TPS link between the transmitter and the receiver.
VIDEO
SELECT
AUDIO
SELECT
SHOW
ME
Ethernet
INPUT STATUS
VGA
DP
HDMI
Autoselect
VIDEO
AUDIO
DP
HDMI
TPS LINK
AUDIO RESET
IR
BLINKING (slow):
Low power mode is active.
VGA IN AUDIO IN DP IN HDMI IN
BLINKING (fast):
Ethernet fallback mode is active.
ON:
TPS link is established,
HDBaseT or Long Reach mode is active.
You can find more details about TPS operation modes in the
4.1.6. Firmware Version Indication
After being powered on, the transmitter lights up all LEDs, then displays its firmware version using three LEDs on the front panel: the upper three in the left column. The top LED means the first number of the firmware version – actually this is the main version. The second and the third LEDs from the top indicate the second and the third numbers of the firmware version which mean the subversions.
1.1.1
VGA
HDMI
DP
DVI-D
VIDEO
Audio1
HDMI
DP
DVI-D
AUDIO
INPUT STATUS
HDCP
Autoselect
DVI-A Video
Audio2
INPUT STATUS
VGA
DP
HDMI
Autoselect
VIDEO
AUDIO
DP
HDMI
TPS LINK
AUDIO 1.2.0
WP- UMX-TPS-TX130-US UMX-TPS-TX140
Example - WP-UMX-TPS-TX130-US
The process after the device is switched on or rebooted is the following:
Step 4. VGA LED blinks once the first number (1).
Step 5. DP LED blinks twice the second number (2).
Step 6. HDMI LED stays dark showing the third number (0).
4.2. Rear Panel LEDs
4.2.1. LIVE LED
PIN: 2.1mm
RS-232 GPIO LIVE
RS-232
SRVC
LINK
IR IN IR OUT
5 AUDIO2 IN
L R 12V 1A DC TX RX 1 2 3 4 5 6 7 Ethernet 5 DVI-I IN
OFF: The device is not powered.
BLINKING (slow): The device is powered and operational.
BLINKING (fast): The device is in firmware upgrade (bootload) mode.
ON:
4.2.2. RS-232 LED
The device is powered but not operational.
PIN: 2.1mm
RS-232 GPIO
12V 1A DC
OFF:
TX RX 1 2 3 4 5 6 7
LIVE
RS-232
SRVC
LINK
IR IN
5 AUDIO2 IN
Ethernet IR OUT L R 5 DVI-I IN
RS-232 ports (Local and Link) are in Passthrough mode.
Command injection mode is active.
BLINKING:
ON: RS-232 ports (Local and Link) are in Control mode.
See more details about RS-232 modes in the Serial Interface section.
4.2.3. SRVC LED
PIN: 2.1mm
RS-232 GPIO 5 AUDIO2 IN
12V 1A DC TX RX 1 2 3 4 5 6 7 Ethernet
LIVE
RS-232
SRVC
LINK
IR IN IR OUT L R 5 DVI-I IN
ON: Test pattern is the selected and active input source.
See more details about Test pattern input mode in the Test Pattern
section.
4.2.4. LINK LED
PIN: 2.1mm
RS-232 GPIO
12V 1A DC TX RX 1 2 3 4 5 6 7
LIVE
RS-232
SRVC
LINK
IR IN
5
IR OUT L
AUDIO2 IN
R Ethernet 5 DVI-I IN
OFF: No TPS link between the transmitter and the receiver.
BLINKING (slow): Low power mode is active.
BLINKING (fast): Ethernet fallback mode is active.
ON: TPS link is established, HDBaseT or Long Reach mode is active.
See more details about TPS modes in the TPS Interface
section.
4. Operation UMX-TPS-TX100 series – User's Manual 29
4.3. Front Panel Buttons
INFO: WP-UMX-TPS-TX130-US and FP-UMX-TPS-TX130-MKM models have the same functionality. The operation of the front panel buttons is also similar.
4.3.1. Video Select Button
VGA IN AUDIO1 IN HDMI IN
VIDEO
SELECT
AUDIO
SELECT
SHOW
ME
Ethernet
INPUT STATUS
VGA
DP
HDMI
Autoselect
VIDEO
AUDIO
DP
HDMI
TPS LINK
AUDIO RESET
IR
DP IN
W P--U X--TTP S--TTX S
VGA
HDMI
DP
DVI-D
VIDEO
Audio1
HDMI
DP
DVI-D
AUDIO
INPUT STATUS
HDCP
Autoselect
DVI-A Video
Audio2
RESET
VIDEO
SELECT
AUDIO
SELECT
SHOW
ME
Desired video input can be selected by the Video Select button from the front panel.
The selection order of the inputs depends on the model as follows:
4.3.2. Audio Select Button
VGA IN AUDIO1 IN HDMI IN
VIDEO
SELECT
AUDIO
SELECT
SHOW
ME
Ethernet
INPUT STATUS
VGA
DP
HDMI
Autoselect
VIDEO
AUDIO
DP
HDMI
TPS LINK
AUDIO RESET
IR
DP IN
W P--U X--TTP X113300--U S
VGA
HDMI
DP
DVI-D
VIDEO
Audio1
HDMI
DP
DVI-D
AUDIO
INPUT STATUS
HDCP
Autoselect
DVI-A Video
Audio2
VIDEO
SELECT
RESET
AUDIO
SELECT
SHOW
ME
Desired audio input can be selected by the Audio Select button from the front panel.
The selection order of the inputs depends on the model as follows:
VGA IN AUDIO IN DP IN HDMI IN
VGA IN AUDIO IN DP IN HDMI IN
UMX-TPS-TX120:
UMX-TPS-TX130:
UMX-TPS-TX140:
WP-UMX-TPS-TX120-US:
WP-UMX-TPS-TX130-US:
FP-UMX-TPS-TX130-MKM:
VGA HDMI Autoselect
VGA
VGA
VGA
HDMI
Autoselect
DVI-D
HDMI DP
Autoselect
DVI-D
HDMI
DVI-A
DVI-A
Autoselect
VGA HDMI DP Autoselect
VGA HDMI DP Autoselect
UMX-TPS-TX120:
Analog audio Embedded digital audio
UMX-TPS-TX130:
Analog audio Embedded digital audio
UMX-TPS-TX140:
Audio1 Audio2 Embedded audio
WP-UMX-TPS-TX120-US:
Analog audio Embedded digital audio
WP-UMX-TPS-TX130-US:
Analog audio Embedded digital audio
FP-UMX-TPS-TX130-MKM:
Analog audio Embedded digital audio
INFO: Embedded digital audio is received on the digital video input port (HDMI / DP / DVI-D) which is currently selected. If analog video input signal (VGA / DVI-A) is selected which cannot contain embedded audio, this source is skipped.
4.3.3. Port Legend
1 Video only 1 Audio only 2 Video with embedded audio
4.3.4. Programmable Show Me Button
VGA IN AUDIO1 IN HDMI IN DP IN
W P--U X--TTP S--TTX S
VIDEO
SELECT
AUDIO
SELECT
SHOW
ME
Ethernet
INPUT STATUS
VGA
DP
HDMI
Autoselect
VIDEO
AUDIO
DP
HDMI
TPS LINK
AUDIO RESET
IR
VGA
HDMI
DP
DVI-D
VIDEO
Audio1
HDMI
DP
DVI-D
AUDIO
INPUT STATUS
HDCP
Autoselect
DVI-A Video
Audio2
RESET
VIDEO
SELECT
AUDIO
SELECT
SHOW
ME
Action or an operation can be assigned to the Show
Me button. “Show Me button pressed” is a condition that can be selected in the Event
Manager. See more details in
section.
VGA IN AUDIO IN DP IN HDMI IN
4.4. Special Functions
4.4.1. Enable DHCP (Dynamic) IP Address
VGA IN AUDIO1 IN HDMI IN
VIDEO
SELECT
AUDIO
SELECT
SHOW
ME
Ethernet
INPUT STATUS
VGA
DP
HDMI
Autoselect
VIDEO
AUDIO
DP
HDMI
TPS LINK
AUDIO RESET
IR
DP IN
W P--U X--TTP S--TTX S
VGA
HDMI
DP
DVI-D
VIDEO
Audio1
HDMI
DP
DVI-D
AUDIO
INPUT STATUS
HDCP
Autoselect
DVI-A Video
Audio2
RESET
VIDEO
SELECT
AUDIO
SELECT
SHOW
ME
The device has a static IP address as a factory default setting. If this setting does not fit to the circumstances during install or usage, DHCP can be enabled from the front panel:
VGA IN AUDIO IN DP IN HDMI IN
Step 1. Make sure the device is powered on and operational.
Step 2. Press and keep pressed the Show Me button for 5 seconds.
Step 3. After 5 seconds front panel LEDs start blinking; release the button and press it 3 times again quickly (within 3 seconds).
Step 4. The LEDs get dark, DHCP gets enabled.
4. Operation UMX-TPS-TX100 series – User's Manual 30
4.4.2. Reset to Factory Default Settings
VGA IN AUDIO1 IN HDMI IN DP IN
W P--U X--TTP S--TTX S
VGA
HDMI
DP
DVI-D
VIDEO
Audio1
HDMI
DP
DVI-D
AUDIO
INPUT STATUS
HDCP
Autoselect
DVI-A Video
Audio2
RESET
VIDEO
SELECT
AUDIO
SELECT
SHOW
ME
To restore factory default values, do the following steps:
VIDEO
SELECT
AUDIO
SELECT
SHOW
ME
Ethernet
INPUT STATUS
VGA
DP
HDMI
Autoselect
VIDEO
AUDIO
DP
HDMI
TPS LINK
AUDIO RESET
IR
VGA IN AUDIO IN DP IN HDMI IN
4.4.3. Reseting the Device
VGA IN AUDIO1 IN HDMI IN
VIDEO
SELECT
AUDIO
SELECT
SHOW
ME
Ethernet
INPUT STATUS
VGA
DP
HDMI
Autoselect
VIDEO
AUDIO
DP
HDMI
TPS LINK
AUDIO RESET
IR
DP IN
W P--U X--TTP X113300--U S
VGA
HDMI
DP
DVI-D
VIDEO
Audio1
HDMI
DP
DVI-D
AUDIO
INPUT STATUS
HDCP
Autoselect
DVI-A Video
Audio2
VIDEO
SELECT
RESET
AUDIO
SELECT
SHOW
ME
In few cases (after firmware upgrade, etc) you may need to reset the device. Pushing the reset button results the same as you disconnect and reconnect the power adaptor to the transmitter. To reseting the device follow the steps:
VGA IN AUDIO IN DP IN HDMI IN
4.4.5. Entering Firmware Upgrade Mode
VGA IN AUDIO1 IN HDMI IN
VIDEO
SELECT
AUDIO
SELECT
SHOW
ME
Ethernet
INPUT STATUS
VGA
DP
HDMI
Autoselect
VIDEO
AUDIO
DP
HDMI
TPS LINK
AUDIO RESET
IR
DP IN
W P--U X--TTP S--TTX S
VGA
HDMI
DP
DVI-D
VIDEO
Audio1
HDMI
DP
DVI-D
AUDIO
INPUT STATUS
HDCP
Autoselect
DVI-A Video
Audio2
RESET
VIDEO
SELECT
AUDIO
SELECT
SHOW
ME
It may happen that the firmware upgrade process is not successful and the device cannot be switched to bootload mode automatically.
In this case, the device can be forced into firmware upgrade mode as follows:
VGA IN AUDIO IN DP IN HDMI IN
Step 1. Make sure the device is powered on and operational.
Step 2. Press and keep pressed the Show Me button for 10 seconds.
After 5 seconds front panel LEDs start blinking but keep on pressing the button.
Step 3. After 10 seconds the LEDs start blinking faster; release the button and press it 3 times again quickly (within 3 seconds).
Step 4. The LEDs get dark, the device restores the factory default settings and reboots.
Factory default settings are listed in the Factory Default Settings
section.
Step 1. Push the button with a thin object for a second.
Step 2. Wait until the device reboots. You can use the transmitter when the LIVE LED is blinking slowly again.
ATTENTION! Reseting the device does not reset the settings to factory defaults. To reset factory default settings see the previous section.
4.4.4. Control Lock
VGA IN
VGA IN
AUDIO1 IN HDMI IN
W P--U X--TTP X113300--U S
VIDEO
SELECT
AUDIO
SELECT
SHOW
ME
Ethernet
INPUT STATUS
VGA
DP
HDMI
Autoselect
VIDEO
AUDIO
DP
HDMI
TPS LINK
AUDIO RESET
IR
AUDIO IN DP IN
DP IN
HDMI IN
VGA
HDMI
DP
DVI-D
VIDEO
Audio1
HDMI
DP
DVI-D
AUDIO
INPUT STATUS
HDCP
Autoselect
DVI-A Video
Audio2
VIDEO
SELECT
RESET
AUDIO
SELECT
SHOW
ME
Press the Audio Select and
Show Me buttons together
(within 100 ms) to disable/ enable front panel buttons; front panel LEDs blink 4 times when locking/unlocking. If the control lock is enabled and a button is pressed, front panel LEDs blink 3 times.
Step 1. Make sure the transmitter is powered off.
Step 2. Press and keep pressed the Show Me button.
Step 3. Power on the transmitter while the Show Me button is being pressed. If the device is switched to firmware upgrade mode the LIVE LED is blinking quickly (less than 500 ms duty cycle).
The other LEDs are off.
The procedure of firmware upgrade can be found in the
chapter.
4.5. Software Control Modes
User has more possibilities to control the device besides the front panel buttons. The following list contains the software control modes:
▪ Lightware Device Controller (LDC) - you can connect to the device via our control software using Ethernet or RS-232 interface and control or configure the device as you wish. For the details see the
Software Control - Lightware Device Controller
chapter.
▪ LW2 protocol commands : you can configure the device by using the reduced command set of LW2 protocol. For more details
see the LW2 Programmer's Reference chapter.
▪ LW3 protocol commands : you can configure the device by using the full-range command set of LW3 protocol. For more details
see the LW3 Programmers’ Reference chapter.
UMX-TPS-TX100 series – User's Manual
5. Software Control - Lightware Device Controller
Software Control - Lightware Device Controller
on a Windows PC or macOS. The application and the User’s manual can be downloaded from www.lightware.com
.
Î
Î
Î
Connecting to a Device (Device Discovery Window)
Î
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Configuration Cloning (Backup Tab)
Î
5.1. Install and Upgrade
INFO: After the installation, the Windows and the Mac application has the same look and functionality. This type of the installer is equal with the Normal install in case of Windows and results an updateable version with the same attributes.
Installation for Windows OS
Run the installer. If the User Account Control drops a pop-up message click Yes .
During the installation you will be prompted to select the type of the installation: normal and the snapshot install:
Normal install
Available for Windows and macOS
The installer can update only this instance
Only one updateable instance can exist for all users
Snapshot install
Available for Windows
Cannot be updated
More than one different version can be installed for all users
Comparison of installation types
ATTENTION! Using the Normal install as the default choice is highly recommended.
Installation for macOS
Mount the DMG file with double clicking on it and drag the LDC icon over the Applications icon to copy the program into the Applications folder. If you want to copy the LDC into another location just drag the icon over the desired folder.
Upgrading of LDC
Step 1. Run the application.
The Device Discovery window appears automatically and the program checks the available updates on
Lightware’s website and opens the update window if the LDC found updates.
The current and the update version number can be seen at the top of the window and they are shown in this window even with the snapshot install.
The Update window can also be opened by clicking the About icon ?
and the Update button.
Step 2. Set the desired update setting in the Options section.
▪ If you do not want to check for the updates automatically, uncheck the circle , which contains the green tick.
▪ If you want to postpone the update, a reminder can be set with different delays from the drop down list .
▪ If the proxy settings traverse the update process, set the proper values then click the OK button.
Step 3. Click the Download update button to start the upgrading.
The updates can be checked manually by clicking the Check now button.
5.2. Running the LDC
The common way to start the software is double-click on the LDC icon. But the LDC can be run by command line parameters as follows:
Connecting to a Device with Static IP Address
Format: LightwareDeviceController -i <IP_address>:<port>
Example: LightwareDeviceController -i 192.168.0.20:10001
The LDC is connected to a device with the indicated static IP address directly; the Device Discovery window is not displayed. When the port number is not set, the default port is used: 10001 (LW2 protocol). For
LW3 devices use the 6107 port number.
Connecting to a Device via a Serial Port
Format: LightwareDeviceController -c <COM_port>:<Baud>
Example: LightwareDeviceController -c COM1:57600
The LDC is connected to a device with the indicated COM port directly; the Device Discovery window is not displayed. If no Baud rate is set the application will detect it automatically.
31
5. Software Control - Lightware Device Controller
5.3. Connecting to a Device (Device Discovery Window)
There are three tabs for the different type of interfaces: Ethernet, Serial, and USB.
UMX-TPS-TX100 series – User's Manual 32
Establishing the Connection
Select the unit from the discovered Ethernet devices (see the picture on the left); if the device is connected via the RS-232 port click on the Query button next to the desired serial port to display the device’s name and serial number (see the picture below). Double click on the device or select it and click on the green Connect button.
Device Discovery Window
ATTENTION! Before the device is connected via the local RS-232 port, make sure that Control mode and
LW3 protocol are set on the serial port.
The Ethernet tab consists of two lists:
▪ Favorite Devices: You can add any Lightware device that is connected via Ethernet and no need to browse all the available devices. Devices can be added by pressing the Add button or marking the desired device by the symbol in the All Devices list.
▪ All Devices: The Lightware devices are listed which are available in the connected network.
Further Tools
The Tools menu contains the following options:
▪ Log Viewer: The tool can be used for reviewing log files which have been saved previously.
▪ Create EDID: This tool opens the Easy EDID Creator wizard which can be used for creating unique EDIDs in a few simple steps. Functionality is the same as the Easy EDID Creator.
▪ Demo Mode: This is a virtual MX-FR17 matrix router with full functionality built into the LDC. Functions and options are the same as a real MX-FR17 device.
The Terminal window is also available by pressing its button on the bottom.
IP Address Configuration
The IP settings of a device can be changed without establishing the connection to the LDC. If the feature is supported by the device an icon is displayed next to the IP address:
Press the icon to open the IP configuration window and set the necessary parameters then press the Apply button (or Cancel to discard and exit).
Identifying the Device
Clicking on the icon results the blinking of the status LEDs for 10 seconds. The feature helps to identify the device itself in the rack shelf.
5. Software Control - Lightware Device Controller
5.4. Crosspoint Menu
2 1
UMX-TPS-TX100 series – User's Manual
3
7
4
6
5
1 Main menu The available menu items are displayed. The active one is showed with dark grey background color.
2 Information ribbon The label shows the device label which can be edited in the
tab. Device discovery window can be displayed by clicking on this ribbon.
3 Video input ports Each tile represents a video input port. The tile below the port shows the current crosspoint setting; if the port is switched to the output, the color of the tile is white, otherwise grey.
4 Audio input ports Each tile represents an audio input port. The tile below the port shows current crosspoint setting; if the port is switched to the output, the color of the tile is white, otherwise grey. Dark grey means the audio port is not allowed to embed in the current video input port.
5 Advanced view
6
7
Audio output
Video output
Displaying
Advanced View Window , showing the Terminal window and the
LW3 protocol tree.
The audio output of the TPS out port. Clicking on the tile opens the TPS
The video output of the TPS out port. Clicking on the tile opens the TPS
.
Port Tiles
The colors of the port tiles and the displayed icons represent different states and information:
1
2
LINKOUT
TPS A
O1
3
4
5
1 Port name
2 Port icon
3 Port number
4 Signal present indicator green : present grey : not present
5 State indicators
State Indicators
Following icons display different states of the port/signal:
Icon Icon is grey Icon is black Icon is green
A Signal is not encrypted with
HDCP
Signal is encrypted with
HDCP
A
Port is unmuted Port is muted -
-
A
Port is unlocked Port is locked -
A
Autoselect is disabled
-
Autoselect is enabled
33
5. Software Control - Lightware Device Controller
5.5. Port Properties Windows
Clicking on the port tile opens the Port properties window. This section shows the available settings and status information by port types.
5.5.1. Analog Video Inputs
Port properties windows of VGA and DVI-A input ports provide similar settings and status information:
UMX-TPS-TX100 series – User's Manual 34
Available settings:
▪
▪
▪ Mute/unmute the port;
▪ Lock/unlock the port;
▪
▪ Source: Auto / RGB / YUV;
▪ Analog options, see the details below;
No sync screen: configuration settings of the Test Pattern
;
;
Reloading factory default settings for the selected port.
Analog Options
Analog video signals are digitized on the input. The timing parameters can be adjusted here if needed. Timing presets can be saved for each resolution separately. User has 32 user presets to store different timing data.
5.5.2. Digital Video Inputs
Clicking on the HDMI, DisplayPort, or DVI-D input port icon results opening the Port properties window. The most important information and settings are available from the panel.
Port properties window of the VGA video input
Analog options and Presets windows in LDC Port properties window of the HDMI video input
Available settings:
▪ Mute/unmute the port;
▪ Lock/unlock the port;
▪ HDCP setting (enable / disable);
▪
No sync screen: configuration settings of the Test Pattern ;
▪
▪ Reloading factory default settings for the selected port.
5. Software Control - Lightware Device Controller
5.5.3. Analog Audio Inputs 5.5.4. Digital Audio Inputs
UMX-TPS-TX100 series – User's Manual 35
5.5.5. TPS Video Output
Click on the output port to display its properties. The most important information and settings are available from the panel.
Port properties window of the AUDIO1 (Jack) input
Certain parameters of the analog audio input signal can be set as follows:
▪
▪ Mute/unmute the port;
▪ Lock/unlock the port;
Volume: from 0 dB to -52 dB (step 0.25 dB), from -54 dB to -66 dB (step 2 dB); -69 dB; -72 dB; -78 dB (default is 0 dB)
▪
▪ Balance: from 0 to 100, step 1 (default is 50 = center)
Reloading factory default settings for the selected port.
Port properties window of HDMI audio input
Certain parameters of the embedded audio input signal can be set as follows:
▪ Mute/unmute the port;
▪
▪ Lock/unlock the port;
Reloading factory default settings for the selected port.
Port properties window of TPS video output
5. Software Control - Lightware Device Controller UMX-TPS-TX100 series – User's Manual
Available settings:
▪
▪ Mute/unmute the port;
▪ Lock/unlock the port;
Autoselect settings : enable / disable, mode, and priorities. (See
more details about Autoselect feature in The Autoselect Feature
section);
▪ Signal type : Auto / DVI / HDMI 24 bit / HDMI 30 bit / HDMI 36 bit
- The outgoing signal format can be selected by a drop-down menu;
▪ HDCP mode : Auto / Always - The transmitter forces the source sent the signal without encryption if the content allows when
Auto mode is selected;
▪ Power 5V mode : Auto / Always on / Always off - The setting lets the source and the sink devices be connected – independently from the transmitted signal;
▪ Color space : Auto / RGB / YCbCr 4:4:4 / YCbCr 4:2:2 - The outgoing signal color space can be selected by a drop-down menu;
INFO: The color space conversion supports resolutions up to
1600×1200@60Hz. When the pixel clock frequency is above
170MHz, the conversion does not execute, and the original content will be transmitted.
▪ TPS mode : Auto / HDBaseT / Long reach / LPPF1 / LPPF2.
See more information about TPS modes in the TPS Interface
section.
▪
▪
;
▪ Reloading factory default settings for the selected port.
5.5.6. TPS Audio Output
Certain parameters of the digital audio output signal can be set as follows:
Port properties window of the TPS audio output
Available settings:
▪ Mute/unmute the port;
▪ Lock/unlock the port;
▪ Autoselect settings : enable / disable, mode, and priorities. (See more details about Autoselect feature in
section);
▪ Reloading factory default settings for the selected port.
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5. Software Control - Lightware Device Controller UMX-TPS-TX100 series – User's Manual
5.6. Diagnostic Tools
5.6.1. Cable Diagnostics
The cable diagnostics is a useful tool to determine any cable related issues in case of TPS connection.
The estimated cable length and the quality of the link are measured periodically and the diagnostic window shows the values in real-time. If the green bars hit the first line in the middle they turn into red. It means the number of the errors – during the extension – is higher than recommended. The link might be alive but recovering of the received data is not guaranteed.
INFO: Each bar represents a differential line in the CATx cable. The inappropriate termination of the cable usually causes high error rates. Check the cable terminations or change the cable.
37
Table and Chart Views
Cable diagnostics can be displayed in advanced modes as well. Two ways are available: table view and chart view . Data can be exported to a file on clicking on the Export data button.
Table view of cable diagnostics
Reference Values
Value
10 -10 -10 -9
10 -8
10 -7
10 -6
10 -5
10 -4
Excellent image quality
Explanation
Minor error, not recognizable by eyes
Sometimes recognizable flash on a special test pattern
Small noise can be seen
Easy to recognize image error
Bad image quality
Above displayed “Video BER < 10 -10 ” value means that on average there is 1 bad pixel after 10 10 pixels, which means the number of the bit errors is about 1 pixel in every 80 seconds.
INFO: You can find more details about maximum twisted pair cable distances in the Maximum Extension
section.
Chart view of cable diagnostics
5. Software Control - Lightware Device Controller UMX-TPS-TX100 series – User's Manual
5.6.2. Frame Detector
The ports can show detailed information about the signal like full size and active video resolution. This feature is a good troubleshooter if compatibility problems occur during system installation. To access this function, open the port properties window and click on Frame detector button.
5.6.3. Test Pattern
The port generates an image which can be displayed when there is no incoming signal on the port. Each port can have individual settings which can be set by clicking on the Configure button.
Test Pattern Configuration on Video Input Ports
38
Mode: Auto : No sync screen signal is sent when there is no incoming signal.
Always on : No sync screen signal is sent always, independently from the incoming signal.
Always off : No signal is sent when there is no incoming signal.
Resolution: Set the desired image resolution from the drop-down menu.
Color: Click on the desired color or use the sliders and press the Set color button to store.
Frame detector window
Lightware’s Frame Detector function works like a signal analyzer and makes possible to determine the exact video format that is present on the port, thus helps to identify many problems. E.g. actual timing parameters may differ from the expected and this may cause some displays to drop the picture.
Frame Detector measures detailed timings on the video signals just like a built-in oscilloscope, but it is much more easy to use. Actual display area shows the active video size (light grey). Dark grey area of the full frame is the blanking interval which can contain the info frames and embedded audio data for HDMI signals. Shown values are measured actually on the signal and not retrieved only from the HDMI info frames.
Port properties window of the Test pattern input
Test Pattern Configuration on Testpattern Port (I6)
Resolution: Set the desired image resolution from the drop-down menu.
Color: Click on the desired color or use the sliders and press the Set color button to store.
5. Software Control - Lightware Device Controller
A
Export
A
Import
A
Info
A
Edit
Create
Exporting an EDID (save to a file)
Importing an EDID (load from a file)
Display EDID Summary window
Opening Advanced EDID Editor with the selected EDID
EDID menu
A
A
A
Delete selected
Select all
Select none
Opening Easy EDID Creator
Transfer button: executing
EDID emulation or copying
Deleting EDID (from User memory)
Selecting all memory places in the right panel
Selecting none of the memory places in the right panel
UMX-TPS-TX100 series – User's Manual
5.7. EDID Menu
Advanced EDID Management can be accessed by selecting the EDID menu. There are two panels: left one contains Source EDIDs, right one contains Destination places where the EDIDs can be emulated or copied.
39
5.7.1. EDID Operations
Changing Emulated EDID
Step 1. Choose the desired EDID list on the source panel and select an EDID .
A
Step 2. Press the Emulated button on the top of the Destination panel.
Step 3. Select the desired port on the right panel (one or more ports can be selected); the EDID(s) will be highlighted with a yellow cursor.
Step 4. Press the Transfer button to change the emulated EDID.
Learning an EDID
The process is the same as changing the emulated EDID; the only difference is the Destination panel: press the User button. Thus, one or more EDIDs can be copied into the user memory either from the factory memory or from a connected sink (Dynamic).
Exporting an EDID
ATTENTION! This function is working on Windows and macOS operating systems and under Firefox or
Chrome web browsers only.
A
Source EDID can be downloaded as a file (*.bin, *.dat or *.edid) to the computer.
Step 1. Select the desired EDID from the Source panel (line will be highlighted with yellow).
Step 2. Press the Export button to open the dialog box and save the file to the computer.
Export
Importing an EDID
A
Previously saved EDID (*.bin, *.dat or *.edid file) can be uploaded to the user memory:
Step 1. Press the User button on the top of the Source panel and select a memory slot.
Step 2. Press the Import button below the Source panel.
Import
Step 3. Browse the file in the opening window then press the Open button. Browsed EDID is imported into the selected User memory.
ATTENTION! The imported EDID overwrites the selected memory place even if it is not empty.
Deleting EDID(s)
The EDID(s) from User memory can be deleted as follows:
Step 1. Press User button on the top of the Destination panel.
Delete selected
Step 2. Select the desired memory slot(s); one or more can be selected (“Select All” and “Select None” buttons can be used). The EDID(s) will be highlighted with yellow.
Step 3. Press the Delete selected button to delete the EDID(s).
5. Software Control - Lightware Device Controller
5.7.2. EDID Summary Window
Select an EDID from Source panel and press Info button to display EDID summary.
A
Info
UMX-TPS-TX100 series – User's Manual 40
5.7.3. Editing an EDID
A
Select an EDID from Source panel and press Edit button to display Advanced EDID Editor window. The editor can read and write all descriptors, which are defined in the standards,
Edit including the additional CEA extensions. Any EDID from the device’s memory or a saved EDID file can be loaded into the editor. The software resolves the raw EDID and displays it as readable information to the user.
EDID summary window
EDID Editor window
5. Software Control - Lightware Device Controller UMX-TPS-TX100 series – User's Manual
5.7.4. Creating an EDID - Easy EDID Creator
A
Since above mentioned Advanced EDID Editor needs more complex knowledge about EDID,
Lightware introduced a wizard-like interface for fast and easy EDID creation. With Easy EDID
Create
Creator it is possible to create custom EDIDs in four simple steps. By clicking on the Create button below
Source panel, Easy EDID Creator is opened in a new window.
5.8. Control Menu
5.8.1. RS-232
EDID Creator Window
41
RS-232 tab in Control menu
The following settings and functions are available on the local and TPS link RS-232 port:
▪ RS-232 mode : Control, Pass-through, and Command Injection (for more details about serial interface modes see the
section);
▪ Baud rate: 4800, 7200, 9600, 14400, 19200, 38400, 57600, 115200;
▪ Data bits: 8 or 9;
▪ Parity: None, Odd, or Even;
▪ Stop bits: 1, 1.5, or 2;
▪
▪
▪
▪ Command injection: enable or disable;
▪ Command injection port number;
Control protocol: LW2 or LW3;
Message sending via serial port;
Reloading factory defaults (see factory default settings in the
section).
ATTENTION! The RS-232 Operation mode is mirrored on the Local and Link serial port. The other settings can be adjusted separately on the two ports.
5. Software Control - Lightware Device Controller
5.8.2. GPIO
UMX-TPS-TX100 series – User's Manual
5.8.3. Ethernet
42
GPIO tab in Control menu
The GPIO port has 7 pins, which operate at TTL digital signal levels and can be controlled by LDC or protocol commands. Select a GPIO pin and under the Port settings section; the settings (pin direction and input level) are displayed on the port tiles as well:
1
2
GP1 P1 6
5
1 GPIO pin name 4 High level indicator *
2 GPIO port icon 5 Pin direction:
Input : down arrow
Output : up arrow
3 Low level indicator 6 GPIO port number 3 4
* Highlighted with black means the current setting.
INFO: Output level can be set only in case of setting the pin direction to Output. In case of input direction the output level setting and the Toggle button is not available.
For more details about GPIO interface see the GPIO Interface
section.
Ethernet tab in Control menu
Two ports are displayed in the Ethernet settings: Local, CPU, and TPS. You can check the status of the
Ethernet line by each ports: the speed and the duplexity of the connection.
The following settings are available for the local port:
▪ Enable / disable the port;
▪ Reloading factory defaults.
ATTENTION! If the Ethernet port is set to disabled, this may break the connection with the device.
INFO: CPU Ethernet port cannot be disabled.
5. Software Control - Lightware Device Controller UMX-TPS-TX100 series – User's Manual
5.8.4. Infra
ATTENTION! The device has no built-in Infrared receiver and transmitter. For the complete usage attach an IR emitter unit to the IR OUT and an IR detector unit to the IR IN connectors.
Infra-Red (IR) receiver and transmitter options can be found on this tab. There are three submenus are available under it: IR codes , Ports , and Clear all IR codes .
IR Codes
User can set the name of the IR code, the fingerprint (hash), and the repeat timeout in ms, as well as actions can be ordered to each IR codes.
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Description
ID
Name
Fingerprint (hash)
Detected
Repeat timeout (ms)
Function
Code number.
You can give an unique name for the desired code.
Fingerprint code in pronto hexa format.
Indicator gives feedback about the given IR code is detected currently.
You can set a timeout to avoid the involuntary code recurrence.
Actions
Detected IR fingerprints
Action buttons for the desired IR code:
Save : saving the fingerprint.
Cancel : canceling the fingerprint.
Learn : learning the detected IR code.
You can check the detected IR codes in this panel. Pushing Clear button deleting all current fingerprints and switch on or off the automatic scrolling with the Autoscroll pipe.
20 fingerprints can be stored in the device at the same time. Each of them can be ordered to an action in
.
Learning IR Codes
Step 1. Connect the IR detector unit to the IR IN port of the transmitter.
Step 2. Click on the Learn button.
Step 3. Turn the remote controller to the IR detector. A pop-up window appears in LDC - press your remote button to learn.
Step 4. Once the code is received, a new window pops up in LDC - learning completed. Click OK to continue.
Step 5. Optionally type a unique name for the code in the Name text box. The default name is code#, e.g. code0.
IR codes window in Control menu
5. Software Control - Lightware Device Controller UMX-TPS-TX100 series – User's Manual
Ports
User can set the name and command injection port to each sources and destinations. For more details
about IR interface see the IR Interface section.
44
5.9. Event Manager
The feature means that the device can sense changes on its ports and able to react according to the pre-defined settings. The development idea of the Event manager is based on users’ feedbacks. In many cases internal events (such as signal present or HDCP active) are necessary to display but it is not easy when the device is hard to access (e.g. built under the desk).
The Event manager can be configured to perform an action if a condition has been detected. E.g. the desired setup is that after a certain type of signal has been detected on I1 port, the port has to be switched to O1.
The settings can be done via the LDC in the Control/Events tab, or by LW3 protocol commands. Configurable events number depends on the device what you are using actually.
Numerous new ideas and requests have been received in connection with the features and settings of the
Event manager since the first release. Therefore, the user interface has been re-designed and many new functions implemented. The Event editor can be opened by pressing the Edit button at each Event.
There is a grey bar on the left of the Event panel in each line. If a condition and an action are set and the Event is enabled, the bar is displayed in green .
Infra tab - Ports window
Clear all IR codes
Clicking on the button results deleting all stored IR fingerprints.
Control menu, Event Manager tab
5. Software Control - Lightware Device Controller
5.9.1. The Event Editor
Press the Edit button in the desired Event line to open the Event editor window.
1
2
3
4
5
1 Event header The name of the Event is displayed. Type the desired name and press the Set name button. The Event can be cleared by the Clear button. Use the tick mark to enable/disable the Event.
2 Condition header If the condition is set, the description (white colored text) and the exact LW3 protocol expression (yellow colored text) can be seen. If the advanced mode was used the description is “Custom condition”.
3 Condition panel The Wizard, the Advanced or the Link tool is available to set the condition.
The parameters and settings are displayed below the buttons.
4 Condition test The set condition can be tested to see the working method in the practice.
5 Delay settings The action can be scheduled to follow the condition after the set time value.
6 Action header
7
8
Action panel
Action test
If the action is set, the description (white colored text) and the exact LW3 protocol expression (yellow colored text) can be seen. If the advanced mode was used the description is “Custom action”.
The Wizard, the Advanced or the Link tool is available to set the action. The parameters and settings are displayed below the buttons.
The set action can be tested to see the working method in the practice.
UMX-TPS-TX100 series – User's Manual
6
7
8
45
5.9.2. Create or Modify an Event
Wizard Mode
The wizard mode lists the most common conditions and actions, so the user does not have to look for LW3 nodes and properties.
Step 1. Click on the Edit button of the desired Event; the Event editor is displayed.
Step 2. The wizard mode is displayed as default. Select the desired
Category first (e.g. Audio or Video).
Step 3. Select the desired Expression from the drop-down menu. If any other parameter is necessary to set, it is going to be displayed.
Step 4. Press the Apply button to store the settings of the Condition.
Advanced Mode
The goal of this mode is the same as of the wizard: set the properties and methods for conditions and actions. The difference is the number of the available and usable properties and methods of the LW3 protocol. Advanced mode allows almost all of it.
Step 1. Click on the Edit button of the desired Event; the
Event editor is displayed.
Step 2. The wizard mode is the default, press the
Advanced button. The LW3 protocol tree is displayed showing the list of the properties in the drop-down menu. Navigate to the desired node.
Step 3. Select the desired Property from the menu. The manual of the property is displayed below to help to select the necessary property and to set the value.
Step 4. Set the desired value and operator , then press the
Apply button to store settings.
The Link Tool
The new interface allows creating more actions to the same condition. In that case, a condition can trigger more actions. To set such an Event, the Link tool has been introduced.
Step 1. Click on the Edit button of the desired Event; the
Event editor is displayed.
Step 2. The wizard mode is displayed as default, press the
Link button.
Step 3. All the saved Events are analyzed and the conditions are listed (it takes some seconds to finish). The
Show advanced expressions option allows showing the exact path and set the value of the given property.
Step 4. Select the desired Condition and press the Apply button to store the settings.
5. Software Control - Lightware Device Controller UMX-TPS-TX100 series – User's Manual 46
5.9.3. Special Tools and Accessories
The Name of the Event
The name of a port can be changed by typing the new name and clicking the Set button. The following characters are allowed when naming:
Letters (A-Z) and (a-z), numbers (0-9), special characters: hyphen ( - ), underscore ( _ ), and space ( ).
Enable or Disable an Event
The set Event can be enabled or disabled in the Event list, or directly in the Event editor window by setting the tick mark beside the name.
Testing the Condition
When the desired Condition is arranged, the setting can be tested. The
Event list and the Event editor contains a small panel that shows if the set condition is detected and how many times. The Counter can be reset by the button in Event editor. If the Condition is true, the detected mark turns green for two seconds and the Counter is increased.
Testing the Action
The method is the same as testing the Condition, but in this case, the
Action can be triggered manually by pressing the Test button.
TIPS AND TRICKS: The Test button is also placed on the Action panel in the Event list. Thus, you can check the Actions without opening the Event editor.
Delay the Action
In most cases the Action is performed immediately after the Condition is detected. But sometimes a delay is necessary between the Condition and the Action. Therefore, the new Event manager contains the Delay panel which allows that feature with below settings:
▪ No delay : when the Condition is detected, the Action is launched.
▪ Simple delay : when the Condition is detected, the Action is launched after the set time interval.
▪ Still exists : when the Condition is detected, the Action is launched after the set time interval only if the Condition still exists.
▪ Continuously exists : when the Condition is detected, the Action is launched after the set time interval only if the Condition has been existing continuously.
no delay Condition = true Perform the action simple delay Condition = true Delay Perform the action still exist Condition = true Delay Condition = true Perform the action continously exist
Condition = true
Delay
Perform the action
Time
The available delay settings of an Event
TIPS AND TRICKS: Show advanced expressions option is a useful tool when you look for the path or value of a property but just the expression is displayed. The option is available in the Event list window or when Link tool is used.
5.9.4. Clear One or More Event(s)
Clear an Event
Press the Clear button in the Event list or in the header section in the
Event editor.
Clear all Events
When all the Events must be cleared press the Load factory defaults button above the Event list. You will be prompted to confirm the process.
5.9.5. Export and Import Events
The feature allows saving all the Events. The backup file can be uploaded to another UMX-TPS-TX100 series transmitter.
Export all the Events
Step 1. Press the Export button above the Event list.
Step 2. The Save as dialog box will appear. Set the desired folder and file name, then press the Save button.
The generated file is a simple text file which contains LW3 protocol commands. The file can be viewed by a simple text editor, e.g. Notepad.
ATTENTION! Editing the file is recommended only for expert users.
Import all the Events
Step 1. Press the Import button above the Event list.
Step 2. The Open dialog box will appear. Select the desired folder and file, then press the Open button.
5.9.6. Event Creating - Example
The following example shows you on a real-life situation how to set up an Event.
The Concept
The UMX-TPS-TX140 is connected to a projector by the TPS output port. The transmitter is also connected to the projector by the RS-232 port and can send commands via the serial line.
The task is to turn on the projector when signal is detected on the TPS output port.
CONDITION ACTION
Signal is detected on the TPS output
Turn on the projector
RS-232 Settings
Make sure that the serial line is established between the transmitter and the projector. Check that the RS-232 settings of the transmitter is set exactly the same which required for the projector: baud rate, data bits, parity, stop bits. The transmitter needs to be set to: Control protocol: LW3; and RS-232 mode: Pass-through. See the relevant LDC
settings in the RS-232 section.
5. Software Control - Lightware Device Controller UMX-TPS-TX100 series – User's Manual
Setting the Event
You can create the Event in the Wizard in few simple steps:
Step 1. Set the condition.
Select the required parameters to set the condition:
▪ Category : Video;
▪
▪ Expression : Signal is detected on a port;
Port : O1.
Click on the Apply button to complete the procedure.
When it is done, the condition appears on the upper side in textual and LW3 command format as well.
Step 2. Set the action.
If the condition is fulfilled, the following action needs to be launched: the receiver sends a command to the projector over the serial line:
▪ Power on - the required command which is accepted by the projector: PWR0<CR><LF>
For this instance the command has to be closed with the <CR><LF> characters so they need to be escaped. You can use the following format for escaping:
<command
1
><\x0d\x0a><command
...<command n
2
><\x0d\x0a>...
><\x0d\x0a>
In the current case the command is: PWR0\x0d\x0a
Select the required parameters to set the action:
▪ Category : RS-232;
▪ Expression : Send RS-232 message;
▪
▪ Port : P1;
Message : PWR0\x0d\x0a
Step 3. Enable the Event.
Select the E1 enabled pipe in upper left corner to set the Event as launched.
INFO: If you do not find the required category/expression/etc what you need, choose the Advanced mode in the Wizard where the entire LW3 structure tree is available. For example instead of signal detection you can set a specified resolution or color range either as a condition.
5.10. Settings Menu
5.10.1. Status
47
Status tab in Settings menu
The most important hardware and software related information can be found on this tab: hardware and firmware version, serial numbers, temperatures, operation time, and voltage information. Device label can be changed to unique description by the Set button.
Built-in Web
The built-in website of the transmitter allows to connect and query status information of the transmitter via a web browser.
▪ System Requirements for Operating Systems: Microsoft Windows XP, Windows Vista, Windows 7,
Windows 10, macOS, Linux.
▪ Compatible Web Browsers: Mozilla Firefox, Google Chrome, Apple Safari.
ATTENTION! Please be sure that the computer is in the same network as the extender. If the computer has multiple Ethernet connections (for example Wi-Fi and LAN connections are used simultaneously) you will have to know the IP address for the one that is used for controlling the extender.
The .html file of the built -in web can be changed by clicking on Choose file button. Clicking on the Reset button restores the default .html file.
5. Software Control - Lightware Device Controller
5.10.2. Network
UMX-TPS-TX100 series – User's Manual
5.10.4. Front Panel
48
Network tab in Settings menu
IP address and DHCP settings can be set on this tab. Always press the Apply settings button to save changes.
Factory defaults settings can be recalled with a dedicated button.
5.10.3. Backup
Details about this function can be found in the
Configuration Cloning (Backup Tab) section.
Front panel operation LEDs and buttons can be configure in this tab.
You can disable the functionality of the front panel buttons with marking the Button lock option. This is same
▪ Lock front panel enable/disable. This setting is equal with
This configuration is also
available via LW3 protocol, for more details see Lock the Front Panel Buttons
section.
▪ Dark mode enable/disable: all the LEDs on the front panel of the transmitter unit are turned off 60 seconds after enabling the dark mode. Waking up the device is available by disabling the dark mode.
This setting is also available via LW3 protocol, for more details see
section.
▪ Enable default function for Video Select/ Audio Select/ Function button. When this property is disabled, it means that pushing the button will not perform the original function. This makes the button free for
programming custom function by Event Manager . This setting is also available via LW3 protocol, for
more details see
Disable the Default Function of the Front Panel Buttons
section.
5. Software Control - Lightware Device Controller
5.10.5. System
UMX-TPS-TX100 series – User's Manual
5.11. Configuration Cloning (Backup Tab)
49
System tab in Settings menu
Three functions are available under System tab:
▪ Download system log - saving the file of the device.
▪ Load factory defaults - recalling factory defaults settings and values. All factory default settings are
listed in the Factory Default Settings
section.
▪ Reboot - rebooting the system.
Backup tab
Configuration cloning of Lightware LW3 devices is a simple method that eliminates the need to repeatedly configure certain devices to have identical (non-factory) settings. If the devices are installed in the same type of system multiple times then it is enough to set up only one device to fit the user’s needs and then copy those settings to the others, thus saving time and resources.
5.11.1. Steps in a Nutshell
Installing multiple devices with the same customized configuration settings can be done in a few easy steps:
Step 1. Configure one device with all your desired settings using the LDC software.
Step 2. Backup the full configuration file to your computer.
Step 3. If needed, make some modifications to the configuration file using a text editor (e.g. Notepad). E.g. modifying the static IP address is necessary when DHCP is not used.
Step 4. Connect to the other device which has to be configured and upload (restore) your configuration file.
Step 5. Done! You can have as many totally identical, customized devices as you like.
5. Software Control - Lightware Device Controller UMX-TPS-TX100 series – User's Manual
5.11.2. Save the Settings of a Device (Backup)
Step 1. Apply the desired settings in the transmitter (port parameters, crosspoint, etc.)
Step 2. Select the Settings / Backup tab from the menu.
Step 3. Write a short description in the text box on the left (optional).
Step 4. Press the Create a full backup button. You will be prompted to save the file to the computer. The default file name is the following:
BACKUP_<DEVICE TYPE>_SN<SERIAL NUMBER>.LW3
Step 5. Set the desired file name , select the folder and save the file.
TIPS AND TRICKS: Using the exact product type in the filename is recommended since it makes the file usage more comfortable.
About the Backup File
The backup file is a simple text file which contains LW3 protocol commands. The first line is the description and the further lines are the commands which will be executed during the restore process. The file can be viewed (and/or edited) by a simple text editor, e.g. Notepad.
See the entire list of saved data in the Content of Backup File section.
ATTENTION! Editing the command lines is only recommended for expert users.
5.11.3. Upload the Settings to a Device (Restore)
WARNING! Please note that the settings will be permanently overwritten with the restored parameters in the device. Undo is not available.
ATTENTION! The cloning is successful when the backup file is downloaded from the same type of source device as the destination device.
The Restoring Process
Step 1. Select the Settings / Backup tab from the menu.
Step 2. Click on the Choose file button on the right panel and browse to the desired file.
Step 3. The file is verified and the result will be displayed in the textbox below. If the file is correct, then the settings can be restored.
Step 4. Choose IP settings what you want to use after backup. You can apply settings from the backup file, keep actual settings, set it manually in a dialog box or apply DHCP.
Step 5. Press the Start restore process button and click on the Yes button when asked.
Step 6. Reboot the device to apply the network settings after finishing.
5.12. Advanced View Window
1
4
5
2 3
50
7
6
1 LW3 protocol help Pushing the button results a help window opening which describes the most important information about LW3 protocol commands in HTML format.
2 Edit mode The default appearance is the read-only mode. If you want to modify the values or parameters, tick the option. You will be prompted to confirm your selection.
3 Warning mode If this pipe checked in, a warning window pops up when you enable Edit mode.
4 Terminal window Commands and responses with time and date are listed in this window. Sent command starts with ‘>’ character, received response starts with ‘<’ character.
The color of each item depends on the type of the command and response.
The content of the window can be emptied by the Clear button. If the Autoscroll option is ticked, the list is scrolled automatically when a new line is added.
5 Command line Type the desired command and execute it by the Send button. Clear all current commands and responses in the Terminal window by the Clear button.
6 Protocol tree LW3 protocol tree; select an item to see its content.
7 Node list Correspondent parameters and nodes are shown which are connected to the selected item in the protocol tree.
Manual button: Manual (short description) of the node can be called and displayed in the terminal window.
Set button: Saves the value/parameter typed in the textbox.
Call button: Calls the method, e.g. reloads factory default settings.
6. LW2 Programmer's Reference
LW2 Programmer's Reference
supported LW2 commands are described in this chapter.
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UMX-TPS-TX100 series – User's Manual 51
6.1. LW2 Protocol Description
The device accepts commands surrounded by curly brackets - { } - and responds data surrounded by round brackets - ( ) - only if a command was successfully executed.
Format
<in>
<out>
<in 2 >
<out 2 >
<loc>
<id>
<id²>
CrLf
●
Explanation
Input number in 1 or 2 digit ASCII format (01, 5, 07, 16, etc.)
Output number in 1 or 2 digit ASCII format
Input number in 2 digit ASCII format (01, 02, 10, 12 etc.)
Output number in 2 digit ASCII format (01, 02, 10, 12 etc.)
Location number in 1, 2 or 3 digit ASCII format id number in 1 or 2 digit ASCII format id number in 2 digit ASCII format
Carriage return, Line feed (0x0D, 0x0A)
Space character (0x20)
Each command issued by the controller
Each response received from the router
6.2. General LW2 Commands
6.2.1. View Product Type
Description: The device responds its name.
Command {i}
Format
Response (I:<PRODUCT_TYPE>)CrLf
{i}
(I:UMX-TPS-TX140)
Example
Explanation: The connected device is a UMX-TPS-TX140.
Legend: <PRODUCT_TYPE> shows type.
6.2.2. Query Control Protocol
Description: The device can be controlled with different control protocols. This command queries the active protocol of the currently used control interface.
Format
Command {P_?}
Response (CURRENT ● PROTOCOL ● = ● #<protocol>)
CrLf
Explanation: The device communicates with LW2 protocol.
Example
{P_?}
(CURRENT PROTOCOL = #1)
6. LW2 Programmer's Reference UMX-TPS-TX100 series – User's Manual
6.2.3. View Firmware Version of the CPU
Description: View the CPU firmware revision.
Format
Command {f}
Response (FW:<FW_VER><s>)CrLf
{f}
(FW:1.1.1b1 r3082)
Example
Legend: <FW_VER> is the firmware version. It is followed by <s> string which may indicate special versions.
6.2.4. Connection Test
Description: Simple test to see if the connection is established successfully.
Format
Command {PING}
Response (PONG!)CrLf
{ping}
(PONG!)
6.2.5. View Serial Number
Description: The device responds its 8-digit serial number.
Example
Format
Command {s}
Response (SN:<SERIAL_N>)CrLf
{s}
(SN:5A003192)
Example
6.2.6. Compile Time
Description: Returns the date, when the microcontroller firmware was compiled.
Format
Command {CT}
Response (Complied: <DATE&TIME>)CrLf
Example
{ct}
(Compiled: May 11 2017 11:10:09)
6.2.7. View Installed Board
Description: Shows the hardware name and revision of the installed card.
Format
Command {is}
Response (SL# ● 0 ● <MB_DESC>)CrLf
(SL ● END)CrLf
Example
{is}
(SL# 0 UMX-TPS-TX140 V11_2A)
(SL END)
Explanation: The device reports its motherboard (slot 0).
52
6.2.8. View Firmware for All Controllers
Description: Shows the firmware versions of all installed controllers.
Format
Command {FC}
Response (CF ● <DESC>)CrLf
(CF ● <DESC>)CrLf
…
(CF END)CrLf
Example
{fc}
(CF UMX-TPS-TX140 1.1.1b1 r3082)
(SL END)
Explanation: The device has one control panel.
6.2.9. Restart the Device
Description: The device can be restarted without unplugging power.
Format
Command {RST}
Response
{rst}
Explanation: The device reboots; no response is sent in this case.
6.2.10. Query Health Status
Description: Internal voltages and measured temperature values are shown.
Example
Format
Command {ST}
Response (ST ● <DESC>)CrLf
Example
{st}
(ST CPU 11.61V 5.03V 1.84V 1.28V 0.99V
42.24C 42.23C)
6.2.11. Restore Factory Default Settings
Description: Settings can be reset to factory default values as follows:
Format
Command {FACTORY=ALL}
Response (FACTORY ALL…)CrLf
{factory=all}
(FACTORY ALL…)
Example
Explanation: All settings and parameters are reset to factory default, see the table in the
section.
6. LW2 Programmer's Reference UMX-TPS-TX100 series – User's Manual
6.3. A/V Port Settings
6.3.1. Switch an Input to the Output
Following commands with <A/V/AV> option can take effect in multiple layers, according to their parameters.
Depending on ‘A’ or ‘V’ it can change only the Audio or only the Video layer; or ‘AV’ changes both.
INFO: <A/V/AV> option usually can be skipped for legacy purposes. In this case, the devices change all
(Video & Audio) layers but using status commands it displays information about only the Video layer.
Please use AV option, when available.
Description: Switch input <in> to output <out>.
Format
Command {<in>@<out>
Response (O<out²> ●
● <layer>}
I<in²> ● <layer>)CrLf
{2@1 AV}
(O01 I02 AV)
Example
Explanation: I2 audio and I2 video input ports are switched to O1 output port.
Legend:
<layer>
A
V
AV (or nothing)
Layer
Audio layer
Video layer
Audio & Video layer
<out>:
<in>:
O1 output port.
I1...I6 input ports.
ATTENTION! The response of this command does not show if the output is muted. To check the mute status a separate query has to be used like {VC}.
ATTENTION! Analog video inputs does not contain embedded audio. If you use the AV option in case of
VGA input (I1) the audio will be switched to the analog audio input 1 (I1) and in case of DVI-A input (I5) the audio will be switched to the analog audio input 2 (I5).
6.3.2. Mute Output
Description: Mute output <out>. The output signal is turned off.
Command {#<out> ●
Format
<layer>}
Response (1MT<out²> ● <layer>)CrLf
{#01 A}
(1MT01 A)
Example
Explanation: O1 audio port is muted.
ATTENTION! Muting does not change the crosspoint’s state but disables the output itself. This way the last connection can be easily restored with an unmute command. Switching a muted output does not unmute the output.
53
6.3.3. Unmute Output
Description: Unmute output <out>.
Command {+<out> ●
Format
<layer>}
Response (0MT<out²> ● <layer>)CrLf
{+01 V}
(0MT01 V)
Example
Explanation: O1 video port is unmuted.
INFO: Unmuting an output makes the previous connection active as the crosspoint state has not been changed by the muting command, only the output was disabled.
6.3.4. Lock Output
Description: Lock an output port. Output’s state cannot be changed until unlocking.
Format
Command {#><out> ● <layer>}
Response (1LO<out²> ● <layer>)CrLf
{#>01 A}
(1LO01 A)
Example
Explanation: O1 audio output port is locked.
6.3.5. Unlock Output
Description: Unlock an output port. The connection on output can be changed.
Command {+<<out> ●
Response (0LO<out²>
Format
<layer>}
● <layer>)CrLf
{+<01 V}
(0LO01 V)
Example
Explanation: O1 video output port is unlocked.
INFO: The device issues the above response regardless of the previous state of the output (either it was locked or unlocked).
6. LW2 Programmer's Reference UMX-TPS-TX100 series – User's Manual
6.3.6. View Connection State on the Output
Description: Viewing the crosspoint state of the device; showing the input port numbers connected to the outputs.
Command {VC ● <layer>}
Response (ALL<layer>
Format
● <O01> ● <O02>)CrLf
{VC AV}
(ALLV 02)
(ALLA 05)
Legend: O01 shows the corresponding output’s connection state.
Example
<layer>
A
V
AV *
Layer
Audio layer
Video layer
Audio & Video layer
* AV is not used in the response. When AV is typed in the commands, the response will result two lines, one for the Video and one for the Audio port states.
State letters:
Letter
L
M
U
State
Output is locked
Output is muted
Output is locked and muted
Example
L01
M01
U01
Explanation: I2 video input port is connected to the video output port and I5 audio input port is connected to the audio output port.
6.3.7. View Crosspoint Size
Description: Shows the physical crosspoint size.
Command {getsize ●
Format
<layer>}
Response (SIZE=<size> ● <layer>)CrLf
{GETSIZE AV}
(SIZE=6x1 V)
(SIZE=5x1 A)
Example
Legend:
<size>:
<layer>:
<number of inputs>x<number of outputs>
See details in the previous section.
Explanation: The device reports that it has a video crosspoint with 6 inputs (Test pattern is the 6th input) and
1 output and an audio crosspoint with 5 inputs and 1 output.
6.3.8. Change Video Autoselect Mode
Description: The autoselect mode of the video outputs can be changed.
Format
Command {AS_V<out>=<state>;<mode>}
Response (AS_V<out>=<state>;<mode>)CrLf
{as_v1=E;P}
(AS_V1=E;P)
Legend: The output numbers are listed in Port Numbering
section.
Example
Letter
F
P
L
<state>
First detect mode
Priority detect mode
Last detect mode
Letter
E
D
<mode>
Autoselect mode is enabled
Autoselect mode is disabled
Explanation: The Autoselect mode of video output1 is enabled and set to Priority mode.
INFO: The Autoselect mode can be queried by typing the “as_v<out>=?” command.
6.3.9. Change Audio Autoselect Mode
Description: The autoselect mode of the audio outputs can be changed.
Format
Command {AS_A<out>=<state>;<mode>}
Response (AS_A<out>=<state>;<mode>)CrLf
{as_a1=E;P}
(AS_A1=E;P)
Legend: The output numbers are listed in Port Numbering
section.
Example
Letter
F
P
L
<state>
First detect mode
Priority detect mode
Last detect mode
Letter
E
D
<mode>
Autoselect mode is enabled
Autoselect mode is disabled
Explanation: The Autoselect mode of audio output1 is enabled and set to Priority mode.
INFO: The Autoselect mode can be queried by typing the “as_v<out>=?” command.
54
6. LW2 Programmer's Reference UMX-TPS-TX100 series – User's Manual
6.3.10. Change the Video Input Priorities
Description: The settings of video input priority can be changed as follows.
Format
Command {PRIO_V<out>=<in 1 _prio>;
<in 2 _prio>;…;<in n _prio>}
Response (PRIO_V<out>=<in 1 _prio>;
<in 2 _prio>;…;<in n _prio>)CrLf
Example
{prio_v1=1;0;2;3;4;5}
(PRIO_V1=1;0;2;3;4;5)
Legend:
<out>:
<in1_prio>…<inn_prio>:
The output port number: V1
Priority number of the input ports. See more details
about port numbering in the Port Numbering
section.
Explanation: Input 2 has the highest priority (0), Input 1 has the second highest (1). Input 6 has the lowest priority (5).
ATTENTION! Always set all the priority of the ports when changing, otherwise, the change will not be executed and the response will be the current setting (like querying the priority setting).
INFO: In this case, the outputs are linked; the change will affect both local and fiber optical output ports.
INFO: The video priorities can be queried by typing the “prio_v<out>=?” command.
6.3.11. Change Audio Input Priority
Description: The settings of video input priority can be changed as follows.
Format
Command {PRIO_A<out>=<in 1 _prio>;
<in 2 _prio>;…;<in n _prio>}
Response (PRIO_A<out>=<in 1 _prio>;
<in 2 _prio>;…;<in n _prio>)CrLf
{prio_a1=1;0;2;3;4}
Example
(PRIO_A1=1;0;2;3;4)
Legend:
<out>:
<in1_prio>…<inn_prio>:
The output port number: A1
Priority number of the input ports. See more details
about port numbering in the Port Numbering
section.
Explanation: Input 2 has the highest priority (0), Input 1 has the second highest (1). Input 5 has the lowest priority (4).
ATTENTION! Always set all the priority of the ports when changing, otherwise, the change will not be executed and the response will be the current setting (like querying the priority setting).
INFO: In this case, the outputs are linked; the change will affect both local and fiber optical output ports.
INFO: The audio priorities can be queried by typing the “prio_a<out>=?” command.
55
6.4. Network Configuration
6.4.1. Query the Current IP Status
Description: IP address settings can be queried as follows.
Format
Command {IP_STAT=?}
Response (IP_STAT=<type>;<ip_address>;
<subnet_mask>;<gateway_addr>)CrLf
Legend:
{ip_stat=?}
(IP_STAT=0;192.168.0.100;255.255.255.0;
192.168.0.1)
Example
<type>:
<ip_addr>:
<subnet_mask>:
0 = static IP; 1 = DHCP.
IP address (four decimal octets separated by dots).
Subnet mask (four decimal octets separated by dots).
<gateway_addr>: Gateway address (four decimal octets separated by dots).
Explanation: The device has a static (fix) IP address: 192.168.0.100; the subnet mask is 255.255.255.0, the gateway address is 192.168.0.1.
6.4.2. Set the IP Address
Description: IP address can be set as follows.
Format
Command {IP_ADDRESS=<type>;<ip_address>}
Response (IP_ADDRESS=<type>;<ip_address>)CrLf
Example
{ip_address=0;192.168.0.110}
(IP_ADDRESS=0;192.168.0.110)
Legend: <type>: 0 = static IP; 1 = DHCP
INFO: The IP address can be queried by typing the “ip_address=?” command. The response contains the fix IP address that is stored in the device even if DHCP is enabled; in this case, this IP address is not valid.
6.4.3. Set the Subnet Mask
Description: Subnet mask can be set as follows.
Command {IP_NETMASK=<subnet_mask>}
Response (IP_NETMASK=<subnet_mask>)CrLf
Legend:
Format
<subnet_mask>:
Example
{ip_netmask=255.255.255.0}
(IP_NETMASK=255.255.255.0)
Four decimal octets separated by dots.
INFO: The subnet mask can be queried by typing the “ip_address=?” command. The response contains the fix IP subnet mask that is stored in the device even if DHCP is enabled; in this case, this IP subnet mask is not valid.
6. LW2 Programmer's Reference UMX-TPS-TX100 series – User's Manual
6.4.4. Set the Gateway Address
Description: Gateway address can be set as follows.
Format
Command {IP_GATEWAY=<gateway_addr>}
Response (IP_GATEWAY=<gateway_addr>)CrLf
Example
{ip_gateway=192.168.0.50}
(IP_GATEWAY=192.168.0.50)
Legend: <gateway_addr>: Four decimal octets separated by dots.
INFO: The gateway address can be queried by typing the “ip_gateway=?” command. The response contains the static IP gateway address that is stored in the device even if DHCP is enabled. In that case, the latest valid gateway address (for static IP) is stored.
6.4.5. Apply Network Settings
Description: Apply the network settings and restart the network interface.
Format
Command {ip_apply}
Response (IP_APPLY)CrLf
{ip_apply}
(IP_APPLY)
Example
6.5. GPIO Configuration
6.5.1. Set Level and Direction for Each Pins
Description: GPIO pins can be configured as follows. See more details about GPIO connector in the section and about the interface in the section.
Format
Command {GPIO<pin_nr>=<dir>;<level>}
Response (GPIO<pin_nr>=<dir>;<level>)CrLf
Legend: <pin_nr>:
<dir>:
<level>:
Example
{gpio1=O;H}
(GPIO1=O;H)
GPIO pin number 1...8
The direction of the communication, it can be input or output.
The level of the pin, it can be low or high.
Parameter <dir>
I
O
Description
Input
Output
Parameter <level>
L
H
T
Explanation: GPIO pin 1 is set to output with high level.
Description
Low
High
Toggle
INFO: The current GPIO pin configuration can be queried by typing the {GPIO<pin_nr>=?} command.
56
6. LW2 Programmer's Reference
6.6. LW2 Commands – Quick Summary
General LW2 Commands
Operation
View Firmware Version of the CPU
View Firmware for All Controllers
Change the Video Input Priorities
Restore Factory Default Settings
A/V Port Settings
See in section
{I}
{P_?}
{F}
{PING}
{S}
{CT}
{IS}
{FC}
{RST}
{ST}
{FACTORY=ALL}
Operation
View Connection State on the Output
Change the Video Input Priorities
Command
See in section
{<in>@<out> ● <layer>}
{#<out> ● <layer>}
{+<out> ● <layer>}
{#><out> ● <layer>}
{+<out> ● <layer>}
{VC ● <layer>}
{GETSIZE ● <layer>}
Command
{AS_V<out>=<state>;<mode>;<no_signal>}
{AS_A<out>=<state>;<mode>;<no_signal>}
{PRIO_V<out>=<in
1
_prio>;…;<in n
_prio>}
{PRIO_A<out>=<in
1
_prio>;…;<in n
_prio>}
UMX-TPS-TX100 series – User's Manual
Network Configuration
Operation
GPIO Configuration
Operation
Set Level and Direction for Each Pins
See in section
Command
{IP_STAT=?}
{IP_ADDRESS=<type>;IP_ADDRESS}
{IP_NETMASK=<subnet_mask>}
{IP_GATEWAY=<gateway_address>}
{IP_APPLY}
See in section
Command
{GPIO<pin_nr>=<dir>;<level>}
57
7. LW3 Programmers’ Reference
LW3 Programmers’ Reference
commands are described in this chapter.
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Sending Message via the Communication Ports
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UMX-TPS-TX100 series – User's Manual 58
7.1. Overview
The Lightware Protocol #3 (LW3) is implemented in almost all new Lightware devices (matrix switchers, signal extenders and distribution amplifiers) since 2012. The protocol is ASCII-based and all commands are terminated with a carriage return (Cr, ‘\r’) and line feed (Lf, ‘\n’) pair. It is organized as a tree structure that provides outstanding flexibility and user-friendly handling with ‘nodes’, ‘properties’ and ‘methods’. The
Advanced View of the Lightware Device Controller software is the perfect tool for browsing and learning how the LW3 protocol can be used in practice.
7.2. Protocol Rules
7.2.1. LW3 Tree Structure and Command Structure (examples)
/
MEDIA
VIDEO
XP
SourcePortCount
SourcePortStatus
DestinationPortCount
DestinationPortStatus
DestinationPortAutoselect
[...]
I1
I2
I3
I4
I5
I6
O1
AUDIO
UART
IR
GPIO
ETHERNET
EDID
SYS
MANAGEMENT
[...]
Command type
(GET/SET/CALL/MAN)
Path of the method/property
Method/property
Parameters
Command
Response
Î CALL /MEDIA/VIDEO/XP:switch(I1:O1;I2:O2)
Í mO /MEDIA/VIDEO/XP:switch
Prefix of the response Method/property
Path of the method/property
7.2.2. General Rules
▪
▪
▪ All names and parameters are case-sensitive .
▪ The nodes are separated by a slash (‘/’) character.
▪ The node name can contain the elements of the English alphabet and numbers.
▪ Use the TCP port no. 6107 when using LW3 protocol over Ethernet.
When a command is issued by the device, the received response cannot be processed by the CPU.
The node paths describe the exact location of the node, listing each parent node up to the root.
7. LW3 Programmers’ Reference UMX-TPS-TX100 series – User's Manual
7.2.3. Command Types
GET command
The GET command can be used to get the child nodes, properties and methods of a specific node. It can also be used to get the value of a property. Use the dot character (.) when addressing a property:
Î GET /.SerialNumber
Í pr /.SerialNumber=87654321
GETALL command
The GETALL command can be used to get all child nodes, properties and methods of a node with one command.
Î GETALL /MEDIA/UART
Í ns /MEDIA/UART/P1
Í ns /MEDIA/UART/P2
Í pr /MEDIA/UART.PortCount=2
Í pr /MEDIA/UART.PortUi=P1:12209;P2:12224
Í pr /MEDIA/UART.P1=Local RS-232
Í pr /MEDIA/UART.P2=TPS out RS-232
SET command
The SET command can be used to modify the value of a property. Use the dot character (.) when addressing the property:
Î SET /MEDIA/VIDEO/I1.ColorSpaceMode=0
Í pw /MEDIA/VIDEO/I1.ColorSpaceMode=0
CALL command
A method can be invoked by the CALL command. Use the colon character (:) when addressing the method:
Î CALL /MEDIA/VIDEO/XP:switch(I1:O1)
Í mO /MEDIA/VIDEO/XP:switch
MAN command
The manual is a human readable text that describes the syntax and provides a hint for how to use the primitives. For every node, property and method in the tree there is a manual, type the MAN command to get the manual:
Î MAN /MEDIA/VIDEO/O1.Pwr5vMode
Í pm /MEDIA/VIDEO/O1.Pwr5vMode ["0" | "1" | "2"] 0 - Auto, 1 - Always On, 2 - Always Off
59
7.2.4. Prefix Summary
DEFINITION: The prefix is a 2-character long code that describes the type of the response.
The following prefixes are defined in the LW3 protocol:
Prefix nnE nm pr pw pE a node
Description an error for a node a manual for a node a read-only property read-write property an error for the property
Prefix Description pm a manual for the property ma method mO a response after a success method execution mF a response after a failed method execution mE an error for a method mm a manual for a method
7.2.5. Error Messages
There are several error messages defined in the LW3 protocol, all of them have a unique error number.
Î CALL /MEDIA/VIDEO/XP:switch(IA:O1)
Í mE /MEDIA/VIDEO/XP:switch %E004:Invalid value
7.2.6. Escaping
DEFINITION: An escape sequence is a sequence of characters that does not represent itself when used inside a character or string literal, but is translated into another character or a sequence of characters.
Property values and method parameters can contain characters which are used as control characters in the protocol. They must be escaped. The escape character is the backslash (‘\’) and escaping means injecting a backslash before the character that should be escaped (like in C language).
Control characters are the following: \ { } # % ( ) \r \n \t
The original message: CALL /MEDIA/UART/P1:sendMessage(Set(01))
The escaped message: CALL /MEDIA/UART/P1:sendMessage(Set\(01\))
7. LW3 Programmers’ Reference UMX-TPS-TX100 series – User's Manual
7.2.7. Signature
DEFINITION: The signature is a four-digit-long hexadecimal value that can be optionally placed before every command to keep a command and the corresponding responses together as a group.
Each line is terminated with a carriage return (Cr, ‘\r’) and line feed (Lf, ‘\n’) characters. In several cases the number of the lines in the response cannot be determined in advance, e.g. the client intends to receive for the whole response and also wants to be sure, that the received lines belong together and to the same command.
In these cases, a special feature the ‘signature’ can be used. The response to that particular command will also be preceded by the signature, and the corresponding lines will be between brackets:
Î 1700#GET /EDID.*
Í {1700
Í pr /EDID.EdidStatus=F89:E1;D1:E2;D1:E3;D1:E4;F89:E5
Í m- /EDID:copy
Í m- /EDID:delete
Í m- /EDID:reset
Í m- /EDID:switch
Í m- /EDID:switchAll
Í }
INFO: The lines of the signature are also Cr and Lf terminated.
7.2.8. Subscription
DEFINITION: Subscription to a node means that the user will get a notification if a property of the node changes.
A user can subscribe to any node. These notifications are asynchronous messages and are useful to keep the client application up to date, without having to periodically poll the node to detect a changed property.
When the user does not want to be informed about the changes anymore, he can simply unsubscribe from the node.
ATTENTION! The subscriptions are handled separately for connections. Hence, if the connection is terminated all registered subscriptions are deleted. After reopening a connection all subscribe commands have to be sent in order to get the notifications of the changes on that connection.
Subscribe to a Node
Î OPEN /MEDIA/VIDEO
Í o- /MEDIA/VIDEO
Get the Active Subscriptions
Î OPEN
Í o- /MEDIA/VIDEO
Í o- /EDID
Í o- /DISCOVERY
Subscribe to Multiple Nodes
Î OPEN /MEDIA/VIDEO/*
Í o- /MEDIA/VIDEO/*
Unsubscribe from a Node
Î CLOSE /MEDIA/VIDEO
Í c- /MEDIA/VIDEO
Unsubscribe from Multiple Nodes
Î CLOSE /MEDIA/VIDEO/*
Í c- /MEDIA/VIDEO/*
7.2.9. Notifications about the Changes of the Properties
When the value of a property is changed and the user is subscribed to the node, which the property belongs to, an asynchronous notification is generated. This is notification is called as the ‘change message’. The format of such a message is very similar to the response for the GET command:
Í CHG /EDID.EdidStatus=F48:E1
A Short Example of How to Use the Subscription
There are two independent users controlling the device through two independent connections ( Connection #1 and Connection #2 ). The events in the rows occur after each other.
Î OPEN /MEDIA/VIDEO/QUALITY
Í o- /MEDIA/VIDEO/QUALITY
Î GET /MEDIA/VIDEO/Quality.QualityMode
Í pm /MEDIA/VIDEO/QUALITY.QualityMode=graphic
Î GET /MEDIA/VIDEO/Quality.QualityMode
Í pm /MEDIA/VIDEO/QUALITY.QualityMode=graphic
Î SET /MEDIA/VIDEO/Quality.QualityMode=video
}
}
Í pw /MEDIA/VIDEO/QUALITY.QualityMode=video
Connection #1
Connection #2
Í CHG /MEDIA/VIDEO/QUALITY.QualityMode=video Connection #1
Explanation: The first user ( Connection #1 ) set a subscription to a node. Later the other user ( Connection #2 ) made a change, and thanks for the subscription, the first user got a notification about the change.
7.2.10. Legend for the Control Commands
Format
<in>
<out>
<port>
<loc>
<parameter>
<expression>
·
Í
Î
Input port number
Output port number
Description
Input or output port number
Location number
Variable, which is defined and described in the command
Batched parameters: the underline means that more expressions or parameters can be placed by using a semicolon, e.g. I2;I4;I5 or F27:E1;F47:E2
Sent command
Received response
Space character
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7. LW3 Programmers’ Reference UMX-TPS-TX100 series – User's Manual
7.3. System Commands
7.3.1. Query the Product Name
The name of the product is a read-only parameter and cannot be modified.
Command and Response
Î GET·/.ProductName
Í pr·/.ProductName= <product_name>
Example
Î GET /.ProductName
Í pr /.ProductName=UMX-TPS-TX140
7.3.2. Set the Device Label
ATTENTION!
The device label can be changed to a custom text in the
tab of the LDC software. This writable parameter is not the same as the ProductName parameter.
Command and Response
Î SET·/MANAGEMENT/UID.DeviceLabel= <Custom_name>
Í pw·/MANAGEMENT/UID.DeviceLabel= <Custom_name>
The Device Label can be 39 character length and ASCII characters are allowed. Longer names are truncated.
Example
Î SET /MANAGEMENT/UID.DeviceLabel=UMX-TPS_Control_room
Í pw /MANAGEMENT/UID.DeviceLabel=UMX-TPS_Control_room
7.3.3. Query the Serial Number
Command and Response
Î GET·/.SerialNumber
Í pr·/.SerialNumber= <serial_nr>
Example
Î GET /.SerialNumber
Í pr /.SerialNumber=87654321
61
7.3.4. Query the Firmware Version
Command and Response
Î GET·/SYS/MB.FirmwareVersion
Í pr·/SYS/MB.FirmwareVersion= <firmware_version>
Example
Î GET /SYS/MB.FirmwareVersion
Í pr /SYS/MB.FirmwareVersion=1.1.1b1 r3082
7.3.5. Resetting the Device
The transmitter can be restarted – the current connections (LAN, RS-232) will be terminated.
Command and Response
Î CALL·/SYS:reset()
Í mO·/SYS:reset=
Example
Î CALL /SYS:reset()
Í mO /SYS:reset=
7.3.6. Restore the Factory Default Settings
Command and Response
Î CALL·/SYS:factoryDefaults()
Í mO·/SYS:factoryDefaults=
Example
Î CALL /SYS:factoryDefaults()
Í mO /SYS:factoryDefaults=
The device is restarted, current connections are terminated, and the default settings are restored. See the complete list in the
Factory Default Settings section.
7. LW3 Programmers’ Reference UMX-TPS-TX100 series – User's Manual
7.3.7. Lock the Front Panel Buttons
Command and Response
Î SET /MANAGEMENT/UI.ControlLock= <lock_status>
Í pw /MANAGEMENT/UI.ControlLock= <lock_status>
Parameters
<lock_status> 1: None - All functions of the front panel button are enabled.
2: Locked - The front panel buttons are locked and they can be unlock by pressing Audio select
Show me buttons or with LW3 protocol command.
3: Force locked - Locking and unlocking of the front panel buttons are possible only via protocol command.
Example
Î SET /MANAGEMENT/UI.ControlLock=1
Í pw /MANAGEMENT/UI.ControlLock=1
7.3.8. Disable the Default Function of the Front Panel Buttons
This setting makes possible to set an event with Event Manager where the Condition is pressing a button and the original function of the chosen button will not be executed.
Command and Response
Î SET /MANAGEMENT/UI/BUTTONS/ <btn_id> .DefaultFunctionEnable= <btn_status>
Í pw /MANAGEMENT/UI/BUTTONS/ <btn_id> .DefaultFunctionEnable= <btn_status>
Parameters
Indentifier
<btn_id>
<btn_staus>
Parameter description
Button identifier number
Status of the default function
Parameter value
B1 : Video select
B2 : Audio select
B3 : Show me button
Enable
Disable
Example
Î SET /MANAGEMENT/UI/BUTTONS/B1.DefaultFunctionEnable=false
Í pw /MANAGEMENT/UI/BUTTONS/B1.DefaultFunctionEnable=false
7.3.9. Dark Mode
This command turns LEDs off the on the transmitter.
Command and Response
Î SET /MANAGEMENT/UI/DARKMODE.DarkModeEnable= <darkmode_status>
Í pw /MANAGEMENT/UI/DARKMODE.DarkModeEnable= <darkmode_status>
Parameters
<darkmode_status> true: Dark mode is enabled.
false: Dark mode is disabled.
Example
Î SET /MANAGEMENT/UI/DARKMODE.DarkModeEnable=true
Í pw /MANAGEMENT/UI/DARKMODE.DarkModeEnable=true
7.3.10. Dark Mode Delay
The LEDs on the front panel turn off after some delay time , which can be set in seconds.
Command and Response
Î SET /MANAGEMENT/UI/DARKMODE.DarkModeDelay= <delay_time>
Í pw /MANAGEMENT/UI/DARKMODE. DarkModeDelay = <delay_time>
Parameters
<delay_time> 0- Delay time in seconds.
Example
Î SET /MANAGEMENT/UI/DARKMODE.DarkModeDelay=10
Í pw /MANAGEMENT/UI/DARKMODE.DarkModeDelay=10
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7. LW3 Programmers’ Reference UMX-TPS-TX100 series – User's Manual
7.4. Video Port Settings
INFO: Video port numbering can be found in the Port Numbering section.
7.4.1. Query the Status of Source Ports
Command and Response
Î GET·/MEDIA/VIDEO/XP.SourcePortStatus
Í pr·/MEDIA/VIDEO/XP.SourcePortStatus= <in1_state> ; <in2_state> ; <…> ; <in#_state>
The response contains 5 ASCII characters for each port. The first character indicates the mute/lock state, the next four characters represent a 2-byte HEX code showing the current state of the input ports.
Example
Î GET /MEDIA/VIDEO/XP.SourcePortStatus
Í pr /MEDIA/VIDEO/XP.SourcePortStatus=M00AA;T00AF;T00AA;T00EF;T000A;T002E
Parameters
M 0 0 A A
T
L
M
U
Letter (Character 1)
Mute state Lock state
Unmuted
Unmuted
Muted
Unlocked
Locked
Unlocked
Muted Locked
Letter
Byte 1
Byte 2
Mute / Lock status
Reserved character, always 0.
Reserved character, always 0.
Embedded audio / HDCP status
Signal present / Connection status
0 0
0 1
1 0
1 1
Character 2
BIT 7-6 BIT 5-4
Byte 1
Character 3
BIT 3-2 BIT 1-0
Reserved
Reserved
Reserved
Reserved
Reserved
Reserved
Reserved
Reserved
Character 4
BIT 7-6 BIT 5-4
Byte 2
Embedded audio status
HDCP status
Character 5
BIT 3-2 BIT 1-0
Signal present status
Connection status
Unknown
Reserved
No embedded audio
Embedded audio presents
Not encrypted
Encrypted
No signal
Signal presents
Not connected
Connected
63
The Most Common Received Port Status Responses
T00AA
T 0 0
Unlocked,
Unmuted
0 0 0 0 0 0 0 0
Reserved Reserved Reserved Reserved
1 0
No embedded audio
A
1 0
Not encrypted
1 0
No signal
A
1 0
Not connected
T00AB
T 0 0
Unlocked,
Unmuted
0 0 0 0 0 0 0 0
Reserved Reserved Reserved Reserved
1 0
No embedded audio
A
1 0
Not encrypted
T 0 0
Unlocked,
Unmuted
0 0 0 0 0 0 0 0
Reserved Reserved Reserved Reserved
1 0
No embedded audio
A
1 0
Not encrypted
1 0
No signal
B
F
1 1
Connected
T00AF 1 1
Signal presents
1 1
Connected
T00EF
T 0 0
Unlocked,
Unmuted
0 0 0 0 0 0 0 0
Reserved Reserved Reserved Reserved
1 1
Embedded audio presents
E
1 0
Not encrypted
1 1
Signal presents
F
1 1
Connected
T00BF
T 0 0
Unlocked,
Unmuted
0 0 0 0 0 0 0 0
Reserved Reserved Reserved Reserved
1 0
No embedded audio
B
1 1
Encrypted
1 1
Signal presents
F
1 1
Connected
T00FF
T 0 0
Unlocked,
Unmuted
0 0 0 0 0 0 0 0
Reserved Reserved Reserved Reserved
1 1
Embedded audio presents
F
1 1
Encrypted
1 1
Signal presents
F
1 1
Connected
Only for analog video ports: Character 5 is E (11 10) which means signal is present but the cable is not connected. The explanation is analog video ports have no hotplug signal which indicates the connection status.
T 0 0 E F
T00EF
Unlocked,
Unmuted
0 0 0 0 0 0 0 0
Reserved Reserved Reserved Reserved
1 1
Embedded audio presents
1 0
Not encrypted
1 1
Signal presents
1 1
Connected
7. LW3 Programmers’ Reference UMX-TPS-TX100 series – User's Manual
7.4.2. Query the Status of Destination Port
Command and Response
Î GET·/MEDIA/VIDEO/XP.DestinationPortStatus
Í pr·/MEDIA/VIDEO/XP.DestinationPortStatus= <out1_state> ; <out2_state> ; <…> ; <out#_state>
Parameters
<out#_state> The response contains 5 ASCII characters for each port. The first character indicates the mute/lock state, the next 2-byte long HEX code showing the current state of the output port.
Example
Î GET /MEDIA/VIDEO/XP.DestinationPortStatus
Í pr /MEDIA/VIDEO/XP.DestinationPortStatus=M00BF
Legend: See at previous section.
Example and Explanation
M 0
0 0
Unlocked,
Muted
Reserved
0 0
Reserved
0 0
Reserved
0
0 0
Reserved
1 0
No embedded audio
B
1 1
Encrypted
1 1
Signal presents
F
1 1
Connected
7.4.3. Query the Video Crosspoint Setting
Command and Response
Î GET·/MEDIA/VIDEO/XP.DestinationConnectionList
Í pr·/MEDIA/VIDEO/XP.DestinationConnectionList= <in>
Parameters
<in> Video input port number
Example
Î GET /MEDIA/VIDEO/XP.DestinationConnectionList
Í pr /MEDIA/VIDEO/XP.DestinationConnectionList=I1
7.4.4. Switching Video Input
Command and Response
Î CALL·/MEDIA/VIDEO/XP:switch( <in> : <out> )
Í mO·/MEDIA/VIDEO/XP:switch
Example
Î CALL /MEDIA/VIDEO/XP:switch(I2:O1)
Í mO /MEDIA/VIDEO/XP:switch
I2 port is connected to O1 port.
7.4.5. Query the Video Autoselect Settings
Command and Response
Î GET·/MEDIA/VIDEO/XP.DestinationPortAutoselect
Í pr·/MEDIA/VIDEO/XP.DestinationPortAutoselect= <out1_set> ; <out2_set> ; <…> ; <out#_set>
The response shows the settings of each output one by one.
Parameters
Identifier Parameter description
<out#_set> Two-letter code of the
Autoselect settings
Parameter values
1 st letter E: Autoselect is enabled
D: Autoselect is disabled
2 nd letter F : First detect mode: the first active video input is selected.
P: Priority detect: always the highest priority active video input will be selected.
L: Last detect: always the last attached input is switched to the output automatically.
Example
Î GET /MEDIA/VIDEO/XP.DestinationPortAutoselect
Í pr /MEDIA/VIDEO/XP.DestinationPortAutoselect=EL
EL: the Autoselect is Enabled on output, selected mode is Last detect.
INFO: For more information about the Autoselect feature see The Autoselect Feature
section.
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7. LW3 Programmers’ Reference UMX-TPS-TX100 series – User's Manual
7.4.6. Change the Autoselect Mode
Command and Response
Î CALL·/MEDIA/VIDEO/XP:setDestinationPortAutoselect( <out1_set> ; <out2_set> ; <…> ; <out#_set> )
Í mO·/MEDIA/VIDEO/XP.setDestinationPortAutoselect
Parameters
See the previous section.
Example 1.
Î CALL /MEDIA/VIDEO/XP:setDestinationPortAutoselect(O1:EP)
Í mO /MEDIA/VIDEO/XP:setDestinationPortAutoselect
The setting is changed to EP : Autoselect is enabled (E); the mode is set to priority detect (P).
Example 2.
Î CALL /MEDIA/VIDEO/XP:setDestinationPortAutoselect(O1:D)
Í mO /MEDIA/VIDEO/XP:setDestinationPortAutoselect
The setting is changed to DPM : Autoselect is disabled (D). The other settings remain unchanged. Since the outputs are linked, the change will affect local and link out.
7.4.7. Query the Input Port Priority
Command and Response
Î GET·/MEDIA/VIDEO/XP.PortPriorityList
Í pr·/MEDIA/VIDEO/XP.PortPrioirtyList= <out1_list> ; <out2_list> ; <…> ; <out#_list>
The response shows the priority of each output one after another. The priority number can be from 0 to 31;
0 is the highest- and 30 is the lowest priority. 31 means that the port will be skipped from the priority list.
Parameters
<out#_list> The input port priority order of the given output port: <in1>,<in2>,<…>,<in>
Example
Î GET /MEDIA/VIDEO/XP.PortPriorityList
Í pr /MEDIA/VIDEO/XP.PortPriorityList=0,1,2,3,4,5
Parameters
Output
Video input port
Priority
I1
0
I2
1
I3
2
I4
3
I5
4
I6
5
Highest priority is assigned to I1 port.
ATTENTION! The same priority number can be set to different input ports. When the priority numbers match, the input port with the lowest port number will have the highest priority.
65
7.4.8. Change the Input Port Priority
Command and Response
Î CALL·/MEDIA/VIDEO/XP:setAutoselectionPriority ( <in> \( <out> \): <prio> );( <in> \( <out> \): <prio> )
Í mO·/MEDIA/VIDEO/XP:setAutoselectionPrioirty
Parameters
<prio> Priority number from 0 to 31, equal numbers are allowed (31 means that the port will be skipped from the priority list).
An input port priority can be set on an output port. Many settings can be executed by separating a semicolon (no space), see the example below.
Example
Î CALL /MEDIA/VIDEO/XP:setAutoselectionPriority(I1\(O1\):4;I2\(O1\):4)
Í mO /MEDIA/VIDEO/XP:setAutoselectionPriority
The priority number of input 1 and Input 2 has been set to 4 on output 1. The example shows that certain control characters have been escaped: the backslash “\” character is inserted before the “(“ and “)” characters.
See more information about the escaping in the Escaping section.
7.4.9. Mute an Input Port
Command and Response
Î CALL·/MEDIA/VIDEO/XP:muteSource( <in> )
Í mO·/MEDIA/VIDEO/XP:muteSource
Example
Î CALL /MEDIA/VIDEO/XP:muteSource(I1)
Í mO /MEDIA/VIDEO/XP:muteSource
7.4.10. Unmute an Input Port
Command and Response
Î CALL·/MEDIA/VIDEO/XP:unmuteSource( <in> )
Í mO·/MEDIA/VIDEO/XP:unmuteSource
Example
Î CALL /MEDIA/VIDEO/XP:unmuteSource(I1)
Í mO /MEDIA/VIDEO/XP:unmuteSource
7. LW3 Programmers’ Reference
7.4.11. Lock an Input Port
Command and Response
Î CALL·/MEDIA/VIDEO/XP:lockSource( <in> )
Í mO·/MEDIA/VIDEO/XP:lockSource
Example
Î CALL /MEDIA/VIDEO/XP:lockSource(I1)
Í mO /MEDIA/VIDEO/XP:lockSource
7.4.12. Unlock an Input Port
Command and Response
Î CALL·/MEDIA/VIDEO/XP:unlockSource( <in> )
Í mO·/MEDIA/VIDEO/XP:unlockSource
Example
Î CALL /MEDIA/VIDEO/XP:unlockSource(I1)
Í mO /MEDIA/VIDEO/XP:unlockSource
7.4.13. Mute Output
Command and Response
Î CALL·/MEDIA/VIDEO/XP:muteDestination( <out> )
Í mO·/MEDIA/VIDEO/XP:muteDestination
Example
Î CALL /MEDIA/VIDEO/XP:muteDestination(O1)
Í mO /MEDIA/VIDEO/XP:muteDestination
7.4.14. Unmute Output
Command and Response
Î CALL·/MEDIA/VIDEO/XP:unmuteDestination( <out> )
Í mO·/MEDIA/VIDEO/XP:unmuteDestination
Example
Î CALL /MEDIA/VIDEO/XP:unmuteDestination(O1)
Í mO /MEDIA/VIDEO/XP:unmuteDestination
UMX-TPS-TX100 series – User's Manual 66
7.4.15. Lock Output
Command and Response
Î CALL·/MEDIA/VIDEO/XP:lockDestination( <out> )
Í mO·/MEDIA/VIDEO/XP:lockDestination
Example
Î CALL /MEDIA/VIDEO/XP:lockDestination(O1)
Í mO /MEDIA/VIDEO/XP:lockDestination
7.4.16. Unlock Output
Command and Response
Î CALL·/MEDIA/VIDEO/XP:unlockDestination( <out> )
Í mO·/MEDIA/VIDEO/XP:unlockDestination
Example
Î CALL /MEDIA/VIDEO/XP:unlockDestination(O1)
Í mO /MEDIA/VIDEO/XP:unlockDestination
7.4.17. HDCP Setting (Input Port)
HDCP capability can be enabled/disabled on the input ports, thus, non-encrypted content can be seen on a non-HDCP compliant display. See more information in the
Command and Response
Î SET·/MEDIA/VIDEO/< in >.HdcpEnable= <hdcp_status>
Í pw·/MEDIA/VIDEO/< in >.HdcpEnable= <hdcp_status>
Parameters
<hdcp_status> true : HDCP enabled false : HDCP disabled
Example
Î SET /MEDIA/VIDEO/I2.HdcpEnable=true
Í pw /MEDIA/VIDEO/I2.HdcpEnable=true
INFO: HDCP can be set for digital video inputs (I2, I3, I4) only. The function is unavailable on the analog inputs (I1, I5)
7. LW3 Programmers’ Reference UMX-TPS-TX100 series – User's Manual
7.4.18. Test Pattern Generator Mode
The output port can send a special image towards the sink device for testing purposes. The setting is available on the input ports with the below-listed parameters.
Command and Response
Î SET·/MEDIA/VIDEO/<In>.FreeRunMode= <freerun_mode>
Í pw·/MEDIA/VIDEO/<In>.FreeRunMode= <freerun_mode>
Parameters
<freerun_mode>
Test pattern generator mode
0
Always Off
The test pattern is not displayed on the output
1
Always On
The test pattern is displayed on the output
2
Auto
The test pattern is displayed if there is no signal on the input port
Example
Î SET /MEDIA/VIDEO/I1.FreeRunMode=2
Í pw /MEDIA/VIDEO/I1.FreeRunMode=2
7.4.19. Test Pattern Resolution
Command and Response
Î SET·/MEDIA/VIDEO/<In>.FreeRunResolution= <freerun_resolution>
Í pw·/MEDIA/VIDEO/<In>.FreeRunResolution= <freerun_resolution>
Parameters
<freerun_resolution>
Resolution
0
640x480p60
1
720x480i60
2
720x480p60
3
720x576i50
<freerun_resolution>
Resolution
4
720x576p50
5
800x600p60
<freerun_resolution>
Resolution
8
1280x1024p60
Example
Î SET /MEDIA/VIDEO/I2.FreeRunResolution=10
Í pw /MEDIA/VIDEO/I2.FreeRunResolution=10
9
1280x1080i60
6
1024x768p60
10
1920x1080p60
7
1280x720p60
11
1920x1200p60
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7.4.20. Test Pattern Color
Command and Response
Î SET·/MEDIA/VIDEO/ <in> .FreeRunColor= <RGB_code>
Í pw·/MEDIA/VIDEO/ <in> .FreeRunColor= <RGB_code>
Parameters
<RGB_code> RGB color in RR;GG;BB format (separated by semicolons).
Example
Î SET /MEDIA/VIDEO/I1.FreeRunColor=10;80;20
Í pw /MEDIA/VIDEO/I1.FreeRunColor=10;80;20
The test pattern color is on VGA input (I1) is set to green.
7.4.21. HDCP Setting (Output Port)
HDCP capability can be set to Auto/Always on the output ports, thus, non-encrypted content can be
transmitted to a non-HDCP compliant display. See more information in the HDCP Management
section.
Command and Response
Î SET·/MEDIA/VIDEO/<On>.HdcpModeSetting= <hdcp_mode>
Í pw·/MEDIA/VIDEO/<On>.HdcpModeSetting= <hdcp_mode>
Parameters:
<hdcp_mode>
HDCP mode
0
Auto
1
Always
Example
Î SET /MEDIA/VIDEO/O1.HdcpModeSetting=0
Í pw /MEDIA/VIDEO/O1.HdcpModeSetting=0
7.4.22. HDMI Mode Settings (Output Port)
Command and Response
Î SET·/MEDIA/VIDEO/ <out> .HdmiModeSetting= <hdmi_mode>
Í pw·/MEDIA/VIDEO/ <out> .HdmiModeSetting= <hdmi_mode>
Parameters
<hdmi_mode>
HDMI mode
0
Auto
1
DVI
Example
Î SET /MEDIA/VIDEO/O1.HdmiModeSetting=2
Í pw /MEDIA/VIDEO/O1.HdmiModeSetting=2
2
HDMI 24bit
3
HDMI 30bit
4
HDMI 36bit
7. LW3 Programmers’ Reference
7.4.23. Color Space Setting (Output Port)
Command and Response
Î SET·/MEDIA/VIDEO/ <out> .ColorSpaceSetting= <colorspace>
Í pw·/MEDIA/VIDEO/ <out> .ColorSpaceSetting= <colorspace>
Parameters
<colorspace>
Color space
0
Auto
Example
Î SET /MEDIA/VIDEO/O1.ColorSpaceSetting=2
Í pw /MEDIA/VIDEO/O1.ColorSpaceSetting=2
7.4.24. Query the Recent TPS Mode
1
RGB
Command and Response
Î GET·/REMOTE/ <port> . tpsModeSetting
Í pr·/REMOTE/ <port> . tpsModeSetting = <tps_mode>
Parameters
2
YCbCr 4:4:4
<tps_mode>
TPS mode
A
Auto
H
HDBaseT
L
Long reach
Example
Î GET /REMOTE/D1.tpsModeSetting
Í pr /REMOTE/D1.tpsModeSetting =H
See more information about TPS modes in the TPS Interface
section.
7.4.25. TPS Mode Settings
Command and Response
Î SET·/REMOTE/ <port> .tpsModeSetting= <tps_mode>
Í pw·/REMOTE/ <port> .tpsModeSetting= <tps_mode>
Parameters: See at previous section.
Example
Î SET /REMOTE/S1.tpsModeSetting=A
Í pw /REMOTE/S1.tpsModeSetting=A
1
LPPF1
3
YCbCr 4:2:2
2
LPPF2
UMX-TPS-TX100 series – User's Manual 68
7. LW3 Programmers’ Reference UMX-TPS-TX100 series – User's Manual
7.5. Audio Port Settings
INFO: Audio port numbering can be found in the
section.
7.5.1. Query the Status of Source Ports
Command and Response
Î GET·/MEDIA/AUDIO/XP.SourcePortStatus
Í pr·/MEDIA/AUDIO/XP.SourcePortStatus= <in1_state> ; <in2_state> ; <…> ; <in#_state>
The response contains 5 ASCII characters for each port. The first character indicates the mute/lock state, the next four characters represent a 2-byte HEX code showing the current state of the input ports.
Example
Î GET /MEDIA/AUDIO/XP.SourcePortStatus
Í pr /MEDIA/AUDIO/XP.SourcePortStatus=T000F;M000B;T000A;T000A;T000C
Legend:
M
U
T
L
Letter (Character 1)
Mute state Lock state
Unmuted
Unmuted
Muted
Muted
Unlocked
Locked
Unlocked
Locked
Letter
Byte 1
Byte 2
Mute / Lock status
Reserved character, always 0.
Reserved character, always 0.
Reserved character, always 0.
Signal present / Connection status
T 0 0 0 F
Character 2
BIT 7-6 BIT 5-4
Byte 1
Character 3
BIT 3-2 BIT 1-0
Reserved Reserved Reserved Reserved
0 0
0 1
1 0 Reserved Reserved Reserved Reserved
1 1
Example and Explanation (for input 2, M000B):
M 0 0
Unlocked,
Muted
0 0
Reserved
0 0
Reserved
0 0
Reserved
0 0
Reserved
Character 4
BIT 7-6 BIT 5-4
Byte 2
Character 5
BIT 3-2 BIT 1-0
Reserved Reserved
Signal present status
Connection status
Unknown
Reserved
Reserved Reserved
No signal
Not connected
Signal presents
Connected
0 0
Reserved
0
0 0
Reserved
1 0
No signal
B
1 1
Connected
69
The Most Common Received Port Status Responses
T000A
T 0 0 0
Unlocked,
Unmuted
0 0 0 0 0 0 0 0 0 0 0 0
Reserved Reserved Reserved Reserved Reserved Reserved
T000B
T 0 0 0
Unlocked,
Unmuted
0 0 0 0 0 0 0 0 0 0 0 0
Reserved Reserved Reserved Reserved Reserved Reserved
1 0
No signal
A
B
1 0
Not connected
1 0
No signal
1 1
Connected
T000F
T 0 0 0
Unlocked,
Unmuted
0 0 0 0 0 0 0 0 0 0 0 0 1 1
Reserved Reserved Reserved Reserved Reserved Reserved Signal presents
F
1 1
Connected
Only for Phoenix audio port: Character 5 is C (11 00) which means signal is present but the cable connection status is unknown. The explanation is Phoenix connector has no pin which can indicate the connection status so this is always unknown.
T 0 0 0 C
T000C
Unlocked,
Unmuted
0 0 0 0 0 0 0 0 0 0 0 0 1 1
Reserved Reserved Reserved Reserved Reserved Reserved Signal presents
0 0
Unknown
7.5.2. Query the Status of Destination Port
Command and Response
Î GET·/MEDIA/AUDIO/XP.DestinationPortStatus
Í pr·/MEDIA/AUDIO/XP.DestinationPortStatus= <out1_state>
The response contains 5 ASCII characters for each port. The first character indicates the mute/lock state, the next 2-byte long HEX code showing the current state of the output port.
Example
Î GET /MEDIA/AUDIO/XP.DestinationPortStatus
Í pr /MEDIA/AUDIO/XP.DestinationPortStatus=T000F
Legend: See at previous section.
Example and Explanation:
T 0 0
0 0 0 0 0 0 0 0
Unlocked,
Unmuted
Reserved Reserved Reserved Reserved
0 0
Reserved
0
0 0
Reserved
1 1
Signal presents
F
1 1
Connected
7. LW3 Programmers’ Reference
7.5.3. Query the Audio Crosspoint Setting
Command and Response
Î GET·/MEDIA/AUDIO/XP.DestinationConnectionList
Í pr·/MEDIA/AUDIO/XP.DestinationConnectionList= <in>
Parameters
<in> Audio input port number
Example
Î GET /MEDIA/AUDIO/XP.DestinationConnectionList
Í pr /MEDIA/AUDIO/XP.DestinationConnectionList=I5
I5 input port is connected to the output port.
7.5.4. Switching Audio Input
Command and Response
Î CALL·/MEDIA/AUDIO/XP:switch( <in> : <out> )
Í mO·/MEDIA/AUDIO/XP:switch
Example
Î CALL /MEDIA/AUDIO/XP:switch(I2:O1)
Í mO /MEDIA/AUDIO/XP:switch
Explanation: I2 port is connected to O1 port.
7.5.5. Query the Audio Autoselect Settings
Command and Response
Î GET·/MEDIA/AUDIO/XP.DestinationPortAutoselect
Í pr·/MEDIA/AUDIO/XP.DestinationPortAutoselect= <out_set>
The response shows the settings of each output one by one.
Parameters
<out_set> Two-letter code of the Autoselect settings:
Letter
1 st letter
2 nd letter
Explanation
E: Autoselect is enabled.
D: Autoselect is disabled.
F: First detect mode: the first active audio input is selected.
P: Priority detect mode: always the highest priority active audio input will be selected.
L: Last detect mode: always the last attached input is switched to the output automatically.
UMX-TPS-TX100 series – User's Manual 70
Example
Î GET /MEDIA/AUDIO/XP.DestinationPortAutoselect
Í pr /MEDIA/AUDIO/XP.DestinationPortAutoselect=EL
EL: the Autoselect is Enabled on output, selected mode is Last detect.
INFO: For more information about the Autoselect feature see The Autoselect Feature
section.
7.5.6. Change the Autoselect Mode
Command and Response
Î CALL·/MEDIA/AUDIO/XP:setDestinationPortAutoselect( <out> : <out_set> )
Í mO·/MEDIA/AUDIO/XP.setDestinationPortAutoselect
Parameters
See at previous section.
Example 1.
Î CALL /MEDIA/AUDIO/XP:setDestinationPortAutoselect(O1:EL)
Í mO /MEDIA/AUDIO/XP:setDestinationPortAutoselect
The setting is changed to EPM : Autoselect is enabled ( E ); the mode is set to Priority detect ( P ), and the port will be disconnected if a higher priority port becomes active ( M ).
Example 2.
Î CALL /MEDIA/AUDIO/XP:setDestinationPortAutoselect(O1:D)
Í mO /MEDIA/AUDIO/XP:setDestinationPortAutoselect
The setting is changed to DPM Autoselect is disabled ( D ). The other settings remain unchanged. Since the outputs are linked, the change will affect local and link out.
INFO: For more information about the Autoselect feature see The Autoselect Feature
section.
7. LW3 Programmers’ Reference UMX-TPS-TX100 series – User's Manual
7.5.7. Query the Input Port Priority
Command and Response
Î GET·/MEDIA/AUDIO/XP.PortPriorityList
Í pr·/MEDIA/AUDIO/XP.PortPrioirtyList= <out1_list> ; <out2_list> ; <…> ; <out#_list>
The response shows the priority of each output one after another. The priority number can be from 0 to 31;
0 is the highest- and 30 is the lowest priority. 31 means that the port will be skipped from the priority list.
Parameters
<out1_list> The input port priority order of the given output port: <in1>,<in2>,…,<in>
Example
Î GET /MEDIA/AUDIO/XP.PortPriorityList
Í pr /MEDIA/AUDIO/XP.PortPriorityList=0,1,2,3,4,5
Output
Video input port
Priority
I1
0
Highest priority is assigned to I1 port.
I2
1
I3
2
I4
3
I5
4
I6
5
ATTENTION! The same priority number can be set to different input ports. When the priority numbers match, the input port with the lowest port number will have the highest priority.
7.5.8. Change the Input Port Priority
Command and Response
Î CALL·/MEDIA/AUDIO/XP:setAutoselectionPriority <(in> \( <out> \): <prio> );( <in> \( <out> \): <prio> )
Í mO·/MEDIA/AUDIO/XP:setAutoselectionPrioirty
Parameters
<prio> Priority number from 0 to 31, equal numbers are allowed (31 means that the port will be skipped from the priority list).
An input port priority can be set on an output port. Many settings can be executed by separating a semicolon
(no space), see the example below.
Example
Î CALL /MEDIA/VIDEO/XP:setAutoselectionPriority(I1\(O1\):4;I2\(O1\):4)
Í mO /MEDIA/VIDEO/XP:setAutoselectionPriority
The priority number of input 1 and Input 2 has been set to 4 on output 1. The example shows that certain control characters have been escaped: the backslash “\” character is inserted before the “(“ and “)” characters.
See more information about the escaping in the
7.5.9. Mute an Audio Input
Command and Response
Î CALL·/MEDIA/AUDIO/XP:muteSource( <in> )
Í mO·/MEDIA/AUDIO/XP:muteSource
Example
Î CALL /MEDIA/AUDIO/XP:muteSource(I1)
Í mO /MEDIA/AUDIO/XP:muteSource
7.5.10. Unmute an Audio Input
Command and Response
Î CALL·/MEDIA/AUDIO/XP:unmuteSource( <in> )
Í mO·/MEDIA/AUDIO/XP:unmuteSource
Example
Î CALL /MEDIA/AUDIO/XP:unmuteSource(I1)
Í mO /MEDIA/AUDIO/XP:unmuteSource
7.5.11. Lock an Input Port
Command and Response
Í CALL·/MEDIA/AUDIO/XP:lockSource( <in> )
Í mO·/MEDIA/AUDIO/XP:lockSource
Example
Î CALL /MEDIA/AUDIO/XP:lockSource(I1)
Í mO /MEDIA/AUDIO/XP:lockSource
7.5.12. Unlock an Input Port
Command and Response
Î CALL·/MEDIA/AUDIO/XP:unlockSource( <in> )
Í mO·/MEDIA/AUDIO/XP:unlockSource
Example
Î CALL /MEDIA/AUDIO/XP:unlockSource(I1)
Í mO /MEDIA/AUDIO/XP:unlockSource
71
7. LW3 Programmers’ Reference
7.5.13. Mute Audio Output
Command and Response
Î CALL·/MEDIA/AUDIO/XP:muteDestination( <out> )
Í mO·/MEDIA/AUDIO/XP:muteDestination
Example
Î CALL /MEDIA/AUDIO/XP:muteDestination(O1)
Í mO /MEDIA/AUDIO/XP:muteDestination
7.5.14. Unmute Audio Output
Command and Response
Î CALL·/MEDIA/AUDIO/XP:unmuteDestination( <out> )
Í mO·/MEDIA/AUDIO/XP:unmuteDestination
Example
Î CALL /MEDIA/AUDIO/XP:unmuteDestination(O1)
Í mO /MEDIA/AUDIO/XP:unmuteDestination
7.5.15. Lock Output
Command and Response
Î CALL·/MEDIA/AUDIO/XP:lockDestination( <out> )
Í mO·/MEDIA/AUDIO/XP:lockDestination
Example
Î CALL /MEDIA/AUDIO/XP:lockDestination(O1)
Í mO /MEDIA/AUDIO/XP:lockDestination
7.5.16. Unlock Output
Command and Response
Î CALL·/MEDIA/AUDIO/XP:unlockDestination( <out> )
Í mO·/MEDIA/AUDIO/XP:unlockDestination
Example
Î CALL /MEDIA/AUDIO/XP:unlockDestination(O1)
Í mO /MEDIA/AUDIO/XP:unlockDestination
UMX-TPS-TX100 series – User's Manual 72
7.5.17. Analog Audio Input Level Settings
7.5.17.1. Volume
Command and Response
Î SET·/MEDIA/AUDIO/<In>.Volume= <level>
Í pw·/MEDIA/AUDIO/<In>.Volume= <level>
Parameters
<level> Sets the input volume (attenuation) between -95.625 dB and 0 dB in step of -0.375 dB. The value is rounded up if necessary to match with the step value.
Example
Î SET /MEDIA/AUDIO/I1.Volume=-15
Í pw /MEDIA/AUDIO/I1.Volume=-15.000
7.5.17.2. Balance
Command and Response
Î SET·/MEDIA/AUDIO/<In>.Balance= <level>
Í pw·/MEDIA/AUDIO/<In>.Balance= <level>
Parameters
<level> Sets the balance; 0 means left balance, 100 means right balance, step is 1.
Center is 50 (default).
Example
Î SET /MEDIA/AUDIO/I5.Balance=75
Í pw /MEDIA/AUDIO/I5.Balance=75
The balance level of the right audio sink is set to 75%, the left one is set to 25%.
7. LW3 Programmers’ Reference
7.6. Network Configuration
7.6.1. Query the DHCP State
Command and Response
Î GET·/MANAGEMENT/NETWORK.DhcpEnabled
Í pw·/MANAGEMENT/NETWORK.DhcpEnabled= <dhcp_status>
Parameters
<dhcp_status> true: The current IP address is DHCP.
false: The current IP address is fix.
Example
Î GET /MANAGEMENT/NETWORK.DhcpEnabled
Í pw /MANAGEMENT/NETWORK.DhcpEnabled=true
7.6.2. Change the DHCP State
Command and Response
Î SET·/MANAGEMENT/NETWORK.DhcpEnabled= <dhcp_status>
Í pw·/MANAGEMENT/NETWORK.DhcpEnabled= <dhcp_status>
Parameters
<dhcp_status> true: The dynamic IP address is set.
false: Fix IP address is set.
Example
Î SET /MANAGEMENT/NETWORK.DhcpEnabled=false
Í pw /MANAGEMENT/NETWORK.DhcpEnabled=false
7.6.3. Query the IP Address
Command and Response
Î GET·/MANAGEMENT/NETWORK.IpAddress
Í pr·/MANAGEMENT/NETWORK.IpAddress= <IP_Address >
Example
Î GET /MANAGEMENT/NETWORK.IpAddress
Í pr /MANAGEMENT/NETWORK.IpAddress=192.168.0.100
UMX-TPS-TX100 series – User's Manual
7.6.4. Change the IP Address (Static)
Command and Response
Î SET·/MANAGEMENT/NETWORK.StaticIpAddress= <IP_address>
Í pw·/MANAGEMENT/NETWORK.StaticIpAddress= <IP_address>
Example
Î SET /MANAGEMENT/NETWORK.StaticIpAddress=192.168.0.85
Í pw /MANAGEMENT/NETWORK.StaticIpAddress=192.168.0.85
7.6.5. Query the Subnet Mask
Command and Response
Î GET·/MANAGEMENT/NETWORK.NetworkMask
Í pr·/MANAGEMENT/NETWORK.NetworkMask= <netmask>
Example
Î GET /MANAGEMENT/NETWORK.NetworkMask
Í pr /MANAGEMENT/NETWORK.NetworkMask=255.255.255.0
7.6.6. Change the Subnet Mask (Static)
Command and Response
Î SET·/MANAGEMENT/NETWORK.StaticNetworkMask= <netmask>
Í pw·/MANAGEMENT/NETWORK.StaticNetworkMask= <netmask>
Example
Î SET /MANAGEMENT/NETWORK.StaticNetworkMask=255.255.255.0
Í pw /MANAGEMENT/NETWORK.StaticNetworkMask=255.255.255.0
7.6.7. Query the Gateway Address
Command and Response
Î GET·/MANAGEMENT/NETWORK.GatewayAddress
Í pr·/MANAGEMENT/NETWORK.GatewayAddress= <gw_address>
Example
Î GET /MANAGEMENT/NETWORK.GatewayAddress
Í pr /MANAGEMENT/NETWORK.GatewayAddress=192.168.0.1
73
7. LW3 Programmers’ Reference
7.6.8. Change the Gateway Address (Static)
Command and Response
Î SET·/MANAGEMENT/NETWORK.StaticGatewayAddress= <gw_address>
Í pw·/MANAGEMENT/NETWORK.StaticGatewayAddress= <gw_address>
Example
Î SET /MANAGEMENT/NETWORK.StaticGatewayAddress=192.168.0.5
Í pw /MANAGEMENT/NETWORK.StaticGatewayAddress=192.168.0.5
7.7. RS-232 Port Configuration
7.7.1. Protocol Setting
Command and Response
Î SET·/MEDIA/UART/ <serial_port> .ControlProtocol= <cont_prot>
Í pw·/MEDIA/UART/ <serial_port> .ControlProtocol= <cont_prot>
Parameters
Identifier
<serial_port>
<cont_protocol>
Parameter description Parameter values
Serial port number P1-P2
Selected protocol
0 : LW2
1 : LW3
Example
Î SET /MEDIA/UART/P1.ControlProtocol=1
Í pw /MEDIA/UART/P1.ControlProtocol=1
7.7.2. BAUD Rate Setting
Command and Response
Î SET·/MEDIA/UART/ <serial_port> .Baudrate= <baudrate>
Í pw·/MEDIA/UART/ <serial_port> .Baudrate= <baudrate>
Parameters
Identifier
Parameter description
<serial_port> Serial port number
Parameter values
P1-P2
<baudrate> Baud rate value 0 : 4800; 1 : 7200; 2 : 9600; 3 : 14400; 4 : 19200; 5 : 38400; 6 : 57600; 7 : 115200
Example
Î SET /MEDIA/UART/P1.Baudrate=2
Í pw /MEDIA/UART/P1.Baudrate=2
UMX-TPS-TX100 series – User's Manual
7.7.3. Databit Setting
Command and Response
Î SET·/MEDIA/UART/ <serial_port> .DataBits=8|9
Í pw·/MEDIA/UART/ <serial_port> .DataBits=8|9
Example
Î SET /MEDIA/UART/P1.DataBits=8
Í pw /MEDIA/UART/P1.DataBits=8
7.7.4. Stopbits Setting
Command and Response
Î SET·/MEDIA/UART/ <serial_port> .StopBits= <stopbit>
Í pw·/MEDIA/UART/ <serial_port> .StopBits= <stopbit>
Parameters
Identifier
<serial_port>
<stopbit>
Parameter description Parameter values
Serial port number P1-P2
Stopbit value
0 : 1
1 : 1,5
2 : 2
Example
Î SET /MEDIA/UART/P1.StopBits=0
Í pw /MEDIA/UART/P1.StopBits=0
7.7.5. Parity Setting
Command and Response
Î SET·/MEDIA/UART/ <serial_port> .Parity= <parity>
Í pw·/MEDIA/UART/ <serial_port> .Parity= <parity>
Parameters
Identifier
<serial_port>
<parity>
Parameter description Parameter values
Serial port number
Parity value
P1-P2
0 : no value
1 : odd
2 : even
Example
Î SET /MEDIA/UART/P1.Parity=0
Í pw /MEDIA/UART/P1.Parity=0
74
7. LW3 Programmers’ Reference UMX-TPS-TX100 series – User's Manual
7.7.6. RS-232 Operation Mode
Command and Response
Î SET·/MEDIA/UART/ <serial_port> .Rs232Mode= <serial_mode>
Í pw·/MEDIA/UART/ <serial_port> .Rs232Mode= <serial_mode>
Parameters
Identifier
<serial_port>
<serial_mode>
Parameter description
Serial port number
Parameter values
P1-P2
0 : Pass-through
1 : Control
2 : Command injection
Example
Î SET /MEDIA/UART/P1.Rs232Mode=1
Í pw /MEDIA/UART/P1.Rs232Mode=1
INFO: See more information about RS-232 modes in the Serial Interface section.
7.7.7. Command Injection Enable
Command and Response
Î SET·/MEDIA/UART/ <serial_port> .CommandInjectionEnable= <CI_enable>
Í pw·/MEDIA/UART/ <serial_port> .CommandInjectionEnable= <CI_enable>
Parameters
Identifier
<serial_port>
<CI_enable>
Parameter description Parameter values
Serial port number P1-P2
Command injection enable true: Command injection enable false: Command injection disable
Example
Î SET /MEDIA/UART/P1.CommandInjectionEnable=true
Í pw /MEDIA/UART/P1.CommandInjectionEnable=true
ATTENTION! The Command injection status is stored in another read-only property:
/MEDIA/UART/ <serial_port> .CommandInjectionStatus.
7.8. Infrared Port Configuration
INFO: Infrared input and output port numbering can be found in the
7.8.1. Enable Command Injection Mode
Command and Response
Î SET·/MEDIA/IR/ <port> .CommandInjectionEnable=true|false
Í pw·/MEDIA/IR/ <port> .CommandInjectionEnable=true|false
Example
Î SET /MEDIA/IR/S1.CommandInjectionEnable=true
Í pw /MEDIA/IR/S1.CommandInjectionEnable=true
7.8.2. Enable/Disable Output Signal Modulation
Command and Response
Î SET·/MEDIA/IR/ <port> .EnableModulation=true|false
Í pw·/MEDIA/IR/ <port> .EnableModulation=true|false
Example
Î SET /MEDIA/IR/D1.EnableModulation=false
Í pw /MEDIA/IR/D1.EnableModulation=false
Signal modulation is turned off on IR output (D1).
INFO: The default setting value is "true" (enabled).
75
7. LW3 Programmers’ Reference UMX-TPS-TX100 series – User's Manual
7.9. Sending Message via the Communication Ports
7.9.1. Sending Message via TCP Port
The device can be used for sending a message to a certain IP:port address. The three different commands allow controlling the connected (third-party) devices.
Sending a TCP Message (ASCII-format)
The command is for sending a command message in ASCII-format. This method allows escaping the control characters. For more information see the Escaping section.
Command and Response
Î CALL•/MEDIA/ETHERNET:tcpMessage( <IP_address> : <port_no> = <message> )
Í mO•/MEDIA/ETHERNET:tcpMessage
Example
Î CALL /MEDIA/ETHERNET:tcpMessage(192.168.0.103:6107=C00)
Í mO /MEDIA/ETHERNET:tcpMessage
The 'C00' message is sent to the indicated IP:port address.
Example with HEX codes
Î CALL /MEDIA/ETHERNET:tcpMessage(192.168.0.20:5555=C00\x0a\x0d)
Í mO /MEDIA/ETHERNET:tcpMessage
The 'C00' message with CrLf (Carriage return and Line feed) is sent to the indicated IP:port address. The
\x sequence indicates the HEXA code; see more information in the Using Hexadecimal Codes section.
Sending a TCP Text (ASCII-format)
The command is for sending a text message in ASCII-format. This method does not allow escaping or inserting control characters.
Command and Response
Î CALL·/MEDIA/ETHERNET:tcpText( <IP_address> : <port_no> = <text> )
Í mO·/MEDIA/ETHERNET:tcpText
Example
Î CALL /MEDIA/ETHERNET:tcpText(192.168.0.103:6107=pwr_on)
Í mO /MEDIA/ETHERNET:tcpText
The 'pwr_on' text is sent to the indicated IP:port address.
76
Sending a TCP Binary Message (HEX-format)
The command is for sending a binary message in Hexadecimal format. This method does not allow escaping or inserting control characters.
Command and Response
Î CALL·/MEDIA/ETHERNET.tcpBinary( <IP_address> : <port_no> = <HEX_message> )
Í mO·/MEDIA/ETHERNET:tcpBinary
Example
Î CALL /MEDIA/ETHERNET:tcpBinary(192.168.0.103:6107=0100000061620000cdcc2c40)
Í mO /MEDIA/ETHERNET:tcpBinary
The '0100000061620000cdcc2c40' message is sent to the indicated IP:port address.
INFO: There is no need to insert a space or other separator character between the binary messages.
7.9.2. UDP Message Sending via Ethernet
The device can be used for sending a message to a certain IP:port address. The three different commands allow controlling the connected (third-party) devices.
Sending UDP Message (ASCII-format)
The command is for sending a UDP message in ASCII-format. This method allows escaping the control characters.
For more information see the Escaping section.
Command and Response
Î CALL·/MEDIA/ETHERNET:udpMessage( <IP_address> : <port_no> = <message> )
Í mO·/MEDIA/ETHERNET:udpMessage
Example
Î CALL /MEDIA/ETHERNET:udpMessage(192.168.0.103:6107=C00)
Í mO /MEDIA/ETHERNET:udpMessage
The 'C00' message is sent to the indicated IP:port address.
Example with HEX codes
Î CALL /MEDIA/ETHERNET:udpMessage(192.168.0.20:9988=C00\x0a\x0d)
Í mO /MEDIA/ETHERNET:udpMessage
The 'C00' message with CrLf (Carriage return and Line feed) is sent to the indicated IP:port address. The \x
sequence indicates the HEXA code; see more information in the Using Hexadecimal Codes section.
7. LW3 Programmers’ Reference UMX-TPS-TX100 series – User's Manual
Sending a TCP Text (ASCII-format)
The command is for sending a text message in ASCII-format via UDP-protocol. This method does not allow escaping or inserting control characters.
Command and Response
Î CALL•/MEDIA/ETHERNET:udpText( <IP_address> : <port_no> = <text> )
Í mO•/MEDIA/ETHERNET:udpText
Example
Î CALL /MEDIA/ETHERNET:udpText(192.168.0.20:9988=open)
Í mO /MEDIA/ETHERNET:udpText
The 'open' text is sent to the indicated IP:port address.
Sending a UDP Binary Message (HEX-format)
The command is for sending a binary message in Hexadecimal format via UDP protocol. This method does not allow escaping or inserting control characters.
Command and Response
Î CALL•/MEDIA/ETHERNET:udpBinary( <IP_address> : <port_no> = <HEX_message> )
Í mO•/MEDIA/ETHERNET:udpBinary
Example
Î CALL /MEDIA/ETHERNET:udpBinary(192.168.0.20:9988=433030)
Í mO /MEDIA/ETHERNET:udpBinary
The '433030' message is sent to the indicated IP:port address.
INFO: There is no need to insert a space or other separator character between the binary messages.
7.9.3. Message Sending via RS-232 Serial Port
Sending a Message (ASCII-format)
The command is for sending a command message in ASCII-format. This method allows escaping the control characters. For more information see the Escaping section.
Command and Response
Î CALL•/MEDIA/UART/P1:sendMessage( <message> )
Í mO•/MEDIA/UART/P1:sendMessage
Example
Î CALL /MEDIA/UART/P1:sendMessage(PWR0)
Í mO /MEDIA/UART/P1:sendMessage
The 'PWR0' message is sent out via the P1 serial port.
77
Sending a Text (ASCII-format)
The command is for sending a command message in ASCII-format. This method does not allow escaping the control characters.
Command and Response
Î CALL•/MEDIA/UART/P1:sendText( <message> )
Í mO•/MEDIA/UART/P1:sendText
Example
Î CALL /MEDIA/UART/P1:sendText(open)
Í mO /MEDIA/UART/P1:sendText
The 'open' text is sent out via the P1 serial port.
Sending a Binary Message (HEX-format)
The command is for sending a command message in Hexadecimal-format. This method does not allow escaping the control characters.
Command and Response
Î CALL•/MEDIA/UART/P1:sendBinaryMessage( <message> )
Í mO•/MEDIA/UART/P1:sendBinaryMessage
Example
Î CALL /MEDIA/UART/P1:sendBinaryMessage(433030)
Í mO /MEDIA/UART/P1:sendBinaryMessage
The '433030' message is sent out via the P1 serial port.
7.9.4. Using Hexadecimal Codes
Hexadecimal codes can be inserted in the ASCII message when using: sendMessage command: CALL /MEDIA/UART/P1:sendMessage(C00\x0D) tcpMessage command: CALL /MEDIA/ETHERNET:tcpMessage(C00\x0D) udpMessage command: CALL /MEDIA/ETHERNET:udpMessage(C00\x0D)
▪ C00 : the message.
▪
▪ \x : indicates that the following is a hexadecimal code.
0D : the hexadecimal code (Carriage Return).
7. LW3 Programmers’ Reference
7.10. GPIO Port Configuration
INFO: Use the GET command to query a parameter.
7.10.1. Set the Direction of a GPIO Pin
Command and Response
Î SET·/MEDIA/GPIO/ <gpio_port> .Direction= <dir>
Í pw·/MEDIA/GPIO/ <gpio_port> .Direction= <dir>
Parameters
Identifier
<gpio_port>
<dir>
Parameter description
GPIO port number
Direction of the GPIO pin
Parameter values
P1-P6
I : Input
O: Output
Example
Î SET /MEDIA/GPIO/P1.Direction=I
Í pw /MEDIA/GPIO/P1.Direction=I
7.10.2. Set the Output Level of a GPIO Pin
Command and Response
Î SET·/MEDIA/GPIO/ <gpio_port> .Output= <value>
Í pw·/MEDIA/GPIO/ <gpio_port>.
Output= <value>
Parameters
Identifier
<gpio_port>
<value>
Parameter description
GPIO port number
Parameter values
P1-P6
Value of the GPIO pin H : High level
L : Low level
Example
Î SET /MEDIA/GPIO/P1.Output=H
Í pw /MEDIA/GPIO/P1.Output=H
UMX-TPS-TX100 series – User's Manual 78
7.10.3. Toggle the Level of a GPIO Pin
Command and Response
Î CALL·/MEDIA/GPIO/ <gpio_port> :toggle()
Í mO·/MEDIA/GPIO/ <gpio_port> :toggle
Example
Î CALL·/MEDIA/GPIO/P1:toggle()
Í mO /MEDIA/GPIO/P1:toggle
If the direction of the pin is input: the output value is toggled.
If the direction of the pin is output: the output value and the input value are toggled.
7.11. EDID Management
7.11.1. Query the Emulated EDIDs
Command and Response
Î GET·/EDID.EdidStatus
Í pr·/EDID.EdidStatus= <source> :E1; <source> :E2; <source> :E3; <source> :E4
Example
Î GET /EDID.EdidStatus
Í pr /EDID.EdidStatus=D1:E1;D1:E2;D1:E3;D1:E4
Emulated EDID memory for input port is listed with the EDID number that is currently emulated on the input.
7.11.2. Query the Validity of a Dynamic EDID
Command and Response
Î GET·/EDID/D/ <dynamic_edid> .Validity
Í pr·/EDID/D/ <dynamic_edid> .Validity= <edid_ validity>
Parameters
<edid_ validity> true: The ‘Validity’ property is true, valid EDID is stored in D1 memory place.
false: The stored EDID is not valid in D1 memory place.
Example
Î GET /EDID/D/D1.Validity
Í pr /EDID/D/D1.Validity=true
7. LW3 Programmers’ Reference UMX-TPS-TX100 series – User's Manual
7.11.3. Query the Preferred Resolution of an User EDID
Command and Response
Î GET·/EDID/U/ <user_edid> .PreferredResolution
Í pr·/EDID/U/ <user_edid> .PreferredResolution= <preferred_resolution>
Example
Î GET /EDID/U/U2.PreferredResolution
Í pr /EDID/U/U2.PreferredResolution=1920x1080p60.00Hz
INFO: Use the "Manufacturer" property to query the manufacturer and the "MonitorName" property to query the name of the monitor.
7.11.4. Emulating an EDID to an Input Port
Command and Response
Î CALL·/EDID:switch( <source> : <destination> )
Í mO·/EDID:switch
Parameters
Identifier
<source>
Parameter description
Source EDID memory place
<destination> The emulated EDID memory of the desired input port.
Parameter values
F# : Factory
U#: User
D#: Dynamic
E#: Emulated
Example
Î CALL /EDID:switch(F49:E2)
Í mO /EDID:switch
7.11.5. Emulating an EDID to All Input Ports
Command and Response
Î CALL·/EDID:switchAll( <source> )
Í mO·/EDID:switchAll
Parameters
<source>
Example
Source EDID memory place: Factory / User / Dynamic.
Î CALL /EDID:switchAll(F47)
Í mO /EDID:switchAll
79
7.11.6. Copy an EDID to User Memory
Command and Response
Î CALL·/EDID:copy( <source> : <destination> )
Í mO·/EDID:copy
Parameters
Identifier Parameter description Parameter values
<source> Source EDID memory place F# : Factory
U#: User
D#: Dynamic
<destination> The desired User EDID memory slot U#: User
Example
Î CALL /EDID:copy(D1:U1)
Í mO /EDID:copy
The EDID of the last connected sink of D1 (Output 1) has been copied to U1.
7.11.7. Deleting an EDID from User Memory
Command and Response
Î CALL·/EDID:delete( <user_edid> )
Í mO·/EDID:delete
Example
Î CALL /EDID:delete(U1)
Í mO /EDID:delete
7.11.8. Resetting the Emulated EDIDs
Command and Response
Î CALL·/EDID:reset()
Í mO·/EDID:reset
Example
Î CALL /EDID:reset()
Í mO /EDID:reset
section.
7. LW3 Programmers’ Reference
7.12. LW3 Commands - Quick Summary
Î
Î
SET·/MANAGEMENT/UID.DeviceLabel= <Custom_name>
Î
Î
Î
Restore the Factory Default Settings
Î
Î
SET /MANAGEMENT/UI.ControlLock= <lock_status>
Disable the Default Function of the Front Panel Buttons
Î
SET /MANAGEMENT/UI/BUTTONS/ <btn_id> .DefaultFunctionEnable= <btn_status>
Î
SET /MANAGEMENT/UI/DARKMODE.DarkModeEnable= <darkmode_status>
Î
SET /MANAGEMENT/UI/DARKMODE.DarkModeDelay= <delay_time>
Query the Status of Source Ports
Î
GET·/MEDIA/VIDEO/XP.SourcePortStatus
Query the Status of Destination Port
Î
GET·/MEDIA/VIDEO/XP.DestinationPortStatus
Query the Video Crosspoint Setting
Î
GET·/MEDIA/VIDEO/XP.DestinationConnectionList
Î
CALL·/MEDIA/VIDEO/XP:switch( <in> : <out> )
UMX-TPS-TX100 series – User's Manual
Query the Video Autoselect Settings
Î
GET·/MEDIA/VIDEO/XP.DestinationPortAutoselect
Î
CALL·/MEDIA/VIDEO/XP:setDestinationPortAutoselect( <out1_set> ; <out2_set> ; <…> ; <out#_set> )
Î
GET·/MEDIA/VIDEO/XP.PortPriorityList
Change the Input Port Priority
Î
Î
CALL·/MEDIA/VIDEO/XP:muteSource( <in> )
Î
CALL·/MEDIA/VIDEO/XP:unmuteSource( <in> )
Î
CALL·/MEDIA/VIDEO/XP:lockSource( <in> )
Î
CALL·/MEDIA/VIDEO/XP:unlockSource( <in> )
Î
CALL·/MEDIA/VIDEO/XP:muteDestination( <out> )
Î
CALL·/MEDIA/VIDEO/XP:unmuteDestination( <out> )
Î
CALL·/MEDIA/VIDEO/XP:lockDestination( <out> )
Î
CALL·/MEDIA/VIDEO/XP:unlockDestination( <out> )
Î
SET·/MEDIA/VIDEO/< in >.HdcpEnable= <hdcp_status>
Î
SET·/MEDIA/VIDEO/<In>.FreeRunMode= <freerun_mode>
80
7. LW3 Programmers’ Reference
Î
SET·/MEDIA/VIDEO/<In>.FreeRunResolution= <freerun_resolution>
Î
SET·/MEDIA/VIDEO/ <in> .FreeRunColor= <RGB_code>
Î
SET·/MEDIA/VIDEO/<On>.HdcpModeSetting= <hdcp_mode>
HDMI Mode Settings (Output Port)
Î
SET·/MEDIA/VIDEO/ <out> .HdmiModeSetting= <hdmi_mode>
Color Space Setting (Output Port)
Î
SET·/MEDIA/VIDEO/ <out> .ColorSpaceSetting= <colorspace>
Î
GET·/REMOTE/ <port> . tpsModeSetting
Î
SET·/REMOTE/ <port> .tpsModeSetting= <tps_mode>
Query the Status of Source Ports
Î
GET·/MEDIA/AUDIO/XP.SourcePortStatus
Query the Status of Destination Port
Î
GET·/MEDIA/AUDIO/XP.DestinationPortStatus
Query the Audio Crosspoint Setting
Î
GET·/MEDIA/AUDIO/XP.DestinationConnectionList
Î
CALL·/MEDIA/AUDIO/XP:switch( <in> : <out> )
Query the Audio Autoselect Settings
Î
GET·/MEDIA/AUDIO/XP.DestinationPortAutoselect
Î
CALL·/MEDIA/AUDIO/XP:setDestinationPortAutoselect( <out> : <out_set> )
Î
GET·/MEDIA/AUDIO/XP.PortPriorityList
Change the Input Port Priority
Î
UMX-TPS-TX100 series – User's Manual
Î
CALL·/MEDIA/AUDIO/XP:muteSource( <in> )
Î
CALL·/MEDIA/AUDIO/XP:unmuteSource( <in> )
Î
CALL·/MEDIA/AUDIO/XP:unlockSource( <in> )
Î
CALL·/MEDIA/AUDIO/XP:muteDestination( <out> )
Î
CALL·/MEDIA/AUDIO/XP:unmuteDestination( <out> )
Î
CALL·/MEDIA/AUDIO/XP:lockDestination( <out> )
Î
CALL·/MEDIA/AUDIO/XP:unlockDestination( <out> )
Analog Audio Input Level Settings
Î
SET·/MEDIA/AUDIO/<In>.Volume= <level>
Î
SET·/MEDIA/AUDIO/<In>.Balance= <level>
Î
GET·/MANAGEMENT/NETWORK.DhcpEnabled
Î
SET·/MANAGEMENT/NETWORK.DhcpEnabled= <dhcp_status>
Î
GET·/MANAGEMENT/NETWORK.IpAddress
Change the IP Address (Static)
Î
SET·/MANAGEMENT/NETWORK.StaticIpAddress= <IP_address>
Î
GET·/MANAGEMENT/NETWORK.NetworkMask
81
7. LW3 Programmers’ Reference
Change the Subnet Mask (Static)
Î
SET·/MANAGEMENT/NETWORK.StaticNetworkMask= <netmask>
Î
GET·/MANAGEMENT/NETWORK.GatewayAddress
Change the Gateway Address (Static)
Î
SET·/MANAGEMENT/NETWORK.StaticGatewayAddress= <gw_address>
Î
SET·/MEDIA/UART/ <serial_port> .ControlProtocol= <cont_prot>
Î
SET·/MEDIA/UART/ <serial_port> .Baudrate= <baudrate>
Î
SET·/MEDIA/UART/ <serial_port> .DataBits=8|9
Î
SET·/MEDIA/UART/ <serial_port> .StopBits= <stopbit>
Î
SET·/MEDIA/UART/ <serial_port> .Parity= <parity>
Î
SET·/MEDIA/UART/ <serial_port> .Rs232Mode= <serial_mode>
Î
SET·/MEDIA/UART/ <serial_port> .CommandInjectionEnable= <CI_enable>
Î
SET·/MEDIA/IR/ <port> .CommandInjectionEnable=true|false
Enable/Disable Output Signal Modulation
Î
SET·/MEDIA/IR/ <port> .EnableModulation=true|false
Sending Message via the Communication Ports
Î
CALL•/MEDIA/ETHERNET:tcpMessage( <IP_address> : <port_no> = <message> )
Î
CALL·/MEDIA/ETHERNET:tcpText( <IP_address> : <port_no> = <text> )
Î
CALL·/MEDIA/ETHERNET.tcpBinary( <IP_address> : <port_no> = <HEX_message> )
UMX-TPS-TX100 series – User's Manual
UDP Message Sending via Ethernet
Î
CALL·/MEDIA/ETHERNET:udpMessage( <IP_address> : <port_no> = <message> )
Î
CALL•/MEDIA/ETHERNET:udpText( <IP_address> : <port_no> = <text> )
Î
CALL•/MEDIA/ETHERNET:udpBinary( <IP_address> : <port_no> = <HEX_message> )
Message Sending via RS-232 Serial Port
Î
CALL•/MEDIA/UART/P1:sendMessage( <message> )
Î
CALL•/MEDIA/UART/P1:sendText( <message> )
Î
CALL•/MEDIA/UART/P1:sendBinaryMessage( <message> )
Set the Direction of a GPIO Pin
Î
SET·/MEDIA/GPIO/ <gpio_port> .Direction= <dir>
Set the Output Level of a GPIO Pin
Î
SET·/MEDIA/GPIO/ <gpio_port> .Output= <value>
Toggle the Level of a GPIO Pin
Î
CALL·/MEDIA/GPIO/ <gpio_port> :toggle()
Î
Query the Validity of a Dynamic EDID
Î
GET·/EDID/D/ <dynamic_edid> .Validity
Query the Preferred Resolution of an User EDID
Î
GET·/EDID/U/ <user_edid> .PreferredResolution
Emulating an EDID to an Input Port
Î
CALL·/EDID:switch( <source> : <destination> )
Emulating an EDID to All Input Ports
Î
CALL·/EDID:switchAll( <source> )
Î
CALL·/EDID:copy( <source> : <destination> )
Deleting an EDID from User Memory
Î
CALL·/EDID:delete( <user_edid> )
Î
82
Î
About the Firmware Package (LFP file)
Î
Î
Î
Î
Keeping the Configuration Settings
Î
Remote Firmware Upgrade of Connected Lightware Devices
UMX-TPS-TX100 series – User's Manual
Firmware Upgrade
8. Firmware Upgrade
The transmitter can be upgraded by using Lightware Device Updater (LDU)
software over LAN. The firmware pack with the necessary components (*.lfp file) for your specific product, the LDU application, and the User's manual can be downloaded from the Support page of our website www.lightware.com
.
ATTENTION! While the firmware is being upgraded, the normal operation mode is suspended as the transmitter is switched to bootload mode. Signal processing is not performed. Do not interrupt the firmware upgrade. If any problem occurs, reboot the device and restart the process.
ATTENTION! The firmware upgrade process has an effect on the configuration and the settings of the device. For more details,
please see the Keeping the Configuration Settings section before
the upgrade.
8.1. About the Firmware Package (LFP file)
The firmware files are packed in one package which is called LFP file.
You need only this file to do the upgrade on your device.
▪ The package contains all the necessary components, binary, and other files; You do not have to get further files.
▪ There is a descriptor file in the package that contains each firmware with version number and a list showing the compatible devices. The descriptor is displayed after loaded the LFP file in the LDU.
8.2. Short Instructions
Step 1. Get the firmware pack and the Lightware Device Updater (LDU) application.
Step 2. Install the LDU application.
Step 3. Establish the connection between the computer and the device(s).
Step 4. Start the LDU and follow the instructions shown on the screen.
8.3. Install and Upgrade
Installation for Windows OS
INFO: The application can be installed under Windows XP or above.
Run the installer. If the User Account Control drops a pop-up message click Yes . During the installation you will be prompted to select the type of the installation:
Normal install
Available for Windows and macOS
The installer can update only this instance
Only one updateable instance can exist for all users
Snapshot install
Available for Windows
Cannot be updated
More than one different version can be installed for all users
Comparison of install types
83
ATTENTION! Using the Normal install as the default value is highly recommended.
Installation for macOS
INFO After the installation the Windows and the Mac application has the same look and functionality. This type of the installer is equal with the Normal install in case of Windows and results an updateable version with the same attributes.
Mount the DMG file with double clicking on it and drag the LDU icon over the Applications icon to copy the program into the Applications folder. If you want to copy the LDU into another location just drag the icon over the desired folder.
LDU Upgrade
Step 1. Run the application. In the welcome screen click on the ?
button in the top right corner; the About window will appear.
Click on the Check now button. The program checks the available updates on Lightware website and shows its version.
8. Firmware Upgrade UMX-TPS-TX100 series – User's Manual
Step 2. Set the desired update settings in the Options section.
▪ If you do not want to check for the updates automatically, uncheck the circle , which contains the green tick.
▪ If you want to postpone the update, a reminder can be set with different delays from the drop down list .
▪ If the proxy settings traverse the update process, set the proper values then click the OK button.
Step 3. Press the Update button to download the new version; the installer will start.
8.4. Detailed Instructions
8.4.1. Establish the Connection
Make sure that the computer and the device are connected via an Ethernet cable and the connection is established between them.
8.4.2. Start the LDU and Follow the Instructions
After launching LDU the welcome screen will appear:
Step 1. Select the package.
Click on the Browse button and select the “.lfp” file that will be used for the upgrade.
84
Package information is displayed:
▪ General version info, creation date, short description,
▪
▪ Devices which are compatible with the firmware,
Components in the package with release notes.
Click on the Next button and follow the instructions.
TIPS AND TRICKS: Files with “.lfp” extension are associated to LDU during installation. If you double click on the “.lfp” file, the application is launched, the package is loaded automatically and above screen is shown.
Pressing the
A
button a list will appear showing the supported devices.
Click on the Extender button on the main screen.
8. Firmware Upgrade
Step 2. Select device.
UMX-TPS-TX100 series – User's Manual 85
Firmware Components
The firmware components of the selected devices are listed on the following screen: installed and update versions. (Update version will be uploaded to the device.)
The following step is to select the desired device(s). The available and supported devices are searched and listed automatically. If the desired device is not listed, update the list by clicking the Refresh button. Select the desired devices: highlight them with a yellow cursor, then click OK .
A tick mark can be seen in the Added column if the device was added by the user previously.
Add a device by clicking on the Add device button. The previous screen will be shown; select the desired device(s) and click on OK .
Remove a device by selecting it (highlight with yellow) and click on Remove device button, or click on Remove all button to empty the list. Devices which are not necessary to update (all firmware components are up-todate) can be removed by the Remove up-to-date button from the device list.
Enabling Factory reset will perform factory default values for all settings in the device. Three different status can exist:
▪
▪ Enabled by user : all settings will set to factory default values.
▪ Disabled by user : your settings will be saved and restored after upgrading.
Enabled by default and not changeable by user : firmware upgrade must perform a factory reset to apply all changes coming with the new firmware version.
Click on the Next button to continue.
8. Firmware Upgrade
Step 3. Upgrade the device.
Click on the Start button to continue.
UMX-TPS-TX100 series – User's Manual
When you confirmed the warnings, the upgrade process starts automatically.
86
A warning window will pop up before starting upgrading the device:
▪ Do not unplug the power cable and the LAN cable while the upgrade is in progress. Click OK to continue.
Details button opens a new window where the process is logged – see below.
8. Firmware Upgrade UMX-TPS-TX100 series – User's Manual
Step 4. Finish.
If the upgrade of a device is finished, the log can be opened by the View button on the right When all the tasks are finished, a window appears. Click OK to close and Next to display the summary page.
Repeat button starts the process again with the selected device(s).
Open logs button opens the temporary folder where the logs can be found.
Export logs by saving the files as a zipped file.
Press Exit to close the program.
If the upgrade failed, the progress bar of the device is changed to red; restart the device(s) and repeat the process.
ATTENTION! However the device is rebooted after the firmware upgrade, switching it off and on again is recommended.
87
8.5. Keeping the Configuration Settings
User can keep all configuration settings and restore to the device after firmware upgrading or can choose to perform a factory reset – it means all settings will be erased in the device. For the detailed information about saved data refer to the
section.
The following flow chart demonstrates how this function works in the background.
End Start Backup
The details about the procedure: when firmware upgrade starts, the first step is making a backup of the settings of the device. The firmware package checks the backup data and if it is needed, a conversion is applied to avoid incompatibility problems between the firmware versions. If you do not want to keep configuration settings, you can set the Factory reset option enabled.
The instruction in the firmware package of the device will inform you about this function availability, reading it is highly recommended in every case.
Upgrading Factory reset
Flow chart of firmware upgrade
Conversion/Restore
Instructions page in the UMX-TPS-TX100 series firmware package
ATTENTION! In specific cases restoring cannot be applied fully and certain settings are not copied back to the device. If a warning message appears, user can get back the original data from the backup. Logs of the upgrade procedure contain all backup data, it can be exported at the end of the upgrade procedure. In case of any question, please contact [email protected]
.
ATTENTION! In certain cases, the new firmware version requires setting all parameters to set factory defaults. In this case, the “Factory reset” option is enabled by default and not changeable by the user, see
details in the Firmware Components section.
ATTENTION! The feature is only supported by LDU version 1.3.0 and above.
8. Firmware Upgrade UMX-TPS-TX100 series – User's Manual
8.6. Remote Firmware Upgrade of Connected Lightware Devices
Firmware of Lightware devices can be upgraded via another connected Lightware device without removing the device from the system. It means user does not have to connect directly to the upgradable device, it can be reached and flashed through other devices. It’s a more comfortable way to keep up-to-date your Lightware devices.
VGA IN AUDIO1 IN HDMI IN DP IN
VGA
HDMI
DP
DVI-D
VIDEO
Audio1
HDMI
DP
DVI-D
AUDIO
INPUT STATUS
HDCP
Autoselect
DVI-A Video
Audio2
RESET
VIDEO
SELECT
AUDIO
SELECT
SHOW
ME
C ON RO
K
L
TP PU T
LO K
1 2
DESTINATIONS
1 2
3
SOURCES
4 5 6
TA
A
AK
UT
E
O
LO
PR RE
OA
ES
D
ET T
SA
PR RE
VE
ES
E
SE ET T
USB
CONTROL MMX6x2-HT220
SN:00003326
MMX6x2-HT220
Multiport HDMI and TPS Matrix Switcher
ESC
ENTER
LIVE
5V
48V
RESET
VGA IN AUDIO1 IN HDMI IN DP IN
VGA
HDMI
DP
DVI-D
VIDEO
Audio1
HDMI
DP
DVI-D
AUDIO
INPUT STATUS
HDCP
Autoselect
DVI-A Video
Audio2
RESET
VIDEO
SELECT
AUDIO
SELECT
SHOW
ME
There are two types of remote upgrading:
Extended Upgrade
▪ Intelligent devices can be upgraded via another intelligent or basic device via TPS or OPTS/OPTM link.
▪ For example, UMX-TPS-TX100 series extenders can be upgraded via MMX6x2-HT series matrix or a
HDMI-TPS-RX95 extender.
Hosted Upgrade
▪ Basic devices can be upgraded only via an intelligent device via TPS link.
▪ For example, TPS 95 series extenders can be upgraded via MMX6x2-HT series matrix or
UMX-TPS-TX100 series extenders.
▪ In case of hosted upgrade, the procedure is almost the same as described in Firmware upgrade –
. The only difference is that the host device’s name, and IP address appears beside the name of the device to be upgraded.
ATTENTION!
During hosted upgrade the host device turned to bootload mode when the extender is upgraded. During the upgrade normal operation mode is suspended. When the upgrade is successfully finished, the normal operation mode is restored.
Remote device in device selection window
88
Troubleshooting
9. Troubleshooting
signal chain starting from source side and moving forward to the receiver end.
LW2
LW3
Link to connections/cabling section.
Link to front panel operation section.
Link to LDC software section.
Link to LW2 protocol commands section.
Link to LW3 protocol commands section.
UMX-TPS-TX100 series – User's Manual 89
At first, check front panel LEDs and take the necessary steps according to their states. For more information
about status, LEDs refer to Front Panel LEDs
and
Symptom
No picture on the video output
Not the desired picture displayed on the video output
Root cause Action
Device or devices are not powered properly
Cable connection problem
TPS mode problem
Video signal
Check the extenders and the other devices if they are properly powered; try to unplug and reconnect them.
Cables must fit very well, check all the connectors (video and TPS cables).
Check the actual TPS mode and the selected modes of the extenders.
LW3
The input port is muted Check the mute state of input port.
Refer to
The output port is muted Check the mute state of output port.
LW2
LW3
LW2
LW3
Display is not able to receive the video format
HDCP is disabled
Check the emulated EDID; select another
(e.g. emulate the display’s EDID on the input port).
Enable HDCP on the input and output ports.
LW3
LW3
Video input is set to test pattern (no sync screen) statically
LW3
Check test pattern settings in the properties of the input ports.
LW3
Video source is set to
Testpattern input (I6)
Check the crosspoint settings
LW2
LW3
Video output is set to test pattern (no sync screen) as there is no picture on video source
Check video settings of the source.
9. Troubleshooting
Symptom
No audio is present on output
HDMI output signal contains no audio
Connected serial device does not respond
Root cause
Source audio volume is low or muted
Audio input port is muted
Action
Audio signal
Check the audio settings of the source.
Check the audio input port properties
LW2
LW3
Audio output port is muted
Check the output port properties.
LW2
LW3
HDMI mode was set to
DVI
DVI EDID is emulated
Cable connection problem
Check the properties of the output port and set the signal type to HDMI or Auto.
LW3
Check the EDID and select and HDMI
EDID to emulate.
LW3
RS-232 signal
Check the connectors to fit well; check the wiring of the plugs.
Refer to
RS-232 settings are different
Check the port settings of the transmitter and the connected serial device(s).
RS-232 mode is not right Check the RS-232 mode settings (control, command injection, or disconnected)
LW3
LW3
No LAN connection can be established
Incorrect IP address is set (fix IP)
Network
Use dynamic IP address by enabling
DHCP option.
Restore the factory default settings (with fix IP).
LW3
IP address conflict Check the IP address of the other devices, too.
LW2
LW3
UMX-TPS-TX100 series – User's Manual
Symptom
Connected device does not respond
Output level cannot be changed
Front panel buttons are out of operation
Error messages received continuously
Cable connection problem
The direction of the selected pin is set to input
Root cause
Buttons are locked
Different protocol is set
Action
GPIO
Check the connectors to fit well; check the wiring of the plugs.
Check and modify the direction setting of the desired pin
LW2
LW3
Refer to
Miscellaneous
Unlock the buttons
Check the port protocol settings (LW2
/ LW3) and use the proper protocol commands.
LW3
90
UMX-TPS-TX100 series – User's Manual
Technologies
and cases we met in the practice. These sections help to understand features and technical standards like the followings:
Î
Î
Î
10.1. EDID Management
10.1.1. Understanding the EDID
The Extended Display Identification Data (EDID) is the passport of display devices (monitors, TV sets, projectors). It contains information about the capabilities of the display, such as supported resolutions, refresh rates (these are called Detailed Timings), the type and manufacturer of the display device, etc.
After connecting a source to a display (DVI, HDMI, DP), the source reads out the EDID to determine the resolution and refresh rate of the image to be transmitted.
Who are you?
I am a monitor.
Here is my EDID.
Now I know what
I can send.
EDID Communication
Most DVI computer displays have 128-byte long EDID structure.
However, Digital Televisions and HDMI capable displays may have another 128 bytes, which is called E-EDID and defined by CEA
(Consumer Electronics Association). This extension contains information about additional Detailed Timings, audio capabilities, speaker allocation and HDMI capabilities. It is important to know that all HDMI capable devices must have CEA extension, but not all devices with CEA extension are HDMI capable.
Common Problems Related to EDID
Problem: “My system consists of the following: a computer, a
Lightware device, a WUXGA (1920x1200) LCD monitor, and an SXGA (1280x1024) projector. I would like to see the same image on the monitor and the projector. What
EDID should I choose on the Lightware device?”
Solution: If you want to see the image on both displays, you need to select the resolution of the smaller display (in this case SXGA), otherwise the smaller display may not show the higher resolution image.
Problem: “I have changed to a different EDID on an input port of the Lightware device to have a different resolution but nothing happens.”
Solution: Some graphics cards and video sources read out the
EDID only after power-up and later they do not sense that
EDID has been changed. You need to restart your source to make it read out the EDID again.
10.1.2. Advanced EDID Management
Each DVI sink (e.g. monitors, projectors, plasma displays, etc...) must support the EDID data structure. Source BIOS and operating systems are likely to query the sink using DDC2B protocol to determine what pixel formats and interface are supported. DVI standard uses EDID data structure to identify the monitor type and capabilities. Most DVI sources (VGA cards, set top boxes, etc.) will output DVI signal after accepting the connected sink’s EDID information. In the case of EDID readout failure or missing EDID, the source will not output DVI video signal.
Lightware devices provide the Advanced EDID Management function that helps system integration. The built-in EDID Router can store and emulate factory pre-programmed- and User programmable EDIDs. The
EDID of the attached monitors or projectors for each output are stored in a non-volatile memory. This way the EDID of a monitor is available when the monitor is unplugged or switched off.
Any EDID can be emulated on any input. An emulated EDID can be copied from the EDID router’s memory (static EDID emulation), or from the last attached monitor’s memory (dynamic EDID emulation).
For example, the Lightware device can be set up to emulate a sink device, which is connected to one of the outputs. In this case, the EDID automatically changes, if the monitor is replaced with another display device (as long as it has a valid EDID).
EDID is independently programmable for all inputs without affecting each other. All inputs have their own EDID circuit.
INFO: The user is not required to disconnect the video cable to change an EDID as opposed to other manufacturer’s products.
EDID can be changed even if a source is connected to the input and powered ON.
INFO: When EDID has been changed, the router toggles the
HOTPLUG signal for 2 seconds. Some sources do not sense this signal. In such cases, the source device must be restarted or powered OFF and ON again.
91
10. Technologies UMX-TPS-TX100 series – User's Manual
10.2. HDCP Management
Lightware Visual Engineering is a legal HDCP adopter. Several functions have been developed which helps to solve HDCP related problems. Complex AV systems often have both HDCP and non-HDCP components.
The transmitter allows transmitting HDCP encrypted and unencrypted signals. The devices will be still
HDCP compliant as they will never output an encrypted signal to a non-HDCP compliant display device. If an encrypted signal is switched to a non-compliant output, a red screen alert or muted screen will appear.
10.2.1. Protected and Unprotected Content
Many video sources send HDCP protected signal if they detect that the sink is HDCP capable – even if the content is not copyrighted. This can cause trouble if an HDCP capable device is connected between the source and the display. In this case, the content cannot be viewed on non-HDCP capable displays and interfaces like event controllers. Rental and staging technicians often complain about certain laptops, which are always sending HDCP encrypted signals if the receiver device (display, matrix router, etc.) reports HDCP compliancy. However, HDCP encryption is not required all the time e.g. computer desktop image, certain laptops still do that.
To avoid unnecessary HDCP encryption, Lightware introduced the HDCP enabling/disabling function: the
HDCP capability can be disabled in the Lightware device. If HDCP is disabled, the connected source will detect that the sink is not HDCP capable, and turn off authentication.
10.2.2. Disable Unnecessary Encryption
HDCP Compliant Sink
Protected content
Encrypted signal
HDMI/DVI/DP cable
AUDIO1 IN HDMI IN
VGA
HDMI
DP
DVI-D
VIDEO
Audio1
HDMI
DP
DVI-D
AUDIO
INPUT STATUS
HDCP
Autoselect
DVI-A Video
Audio2
VIDEO
SELECT
RESET
AUDIO
SELECT
SHOW
ME VGA IN DP IN
UMX-TPS-TX100 series transmitter
CATx cable
Compatible
TPS receiver
Encrypted signal
HDMI cable HDCP-compliant sink
All the devices are HDCP-compliant, no manual setting is required, both protected and unprotected contents are transmitted and displayed on the sink.
92
Not HDCP-compliant Sink 1.
Unprotected content
Non-encrypted signal
HDMI/DVI/DP cable
AUDIO1 IN HDMI IN
VGA
HDMI
Audio1
HDMI
DP
DVI-D
VIDEO
DP
DVI-D
AUDIO
INPUT STATUS
HDCP
Autoselect
DVI-A Video
Audio2
RESET
VGA IN DP IN
UMX-TPS-TX100 series transmitter
CATx cable
Compatible
TPS receiver
Non-encrypted signal
HDMI cable Non-HDCP compliant sink
Not-HDCP compliant sink is connected to the receiver. Some sources (e.g. computers) always send HDCP encrypted signals if the receiver device reports HDCP compliancy, however, HDCP encryption is not required all the time (e.g. computer desktop image). If HDCP is enabled in the transmitter, the image will not be displayed on the sink.
Setting the HDCP parameter to Auto on the output port and disable HDCP on the input port, the transmitted signal will not be encrypted if the content is not protected. Thus, non-HDCP compliant sinks will display nonencrypted signal.
Not HDCP-compliant Sink 2.
Protected content
Encrypted signal
HDMI/DVI/DP cable
AUDIO1 IN HDMI IN
VGA
HDMI
DP
Audio1
HDMI
DP
DVI-D
VIDEO
DVI-D
AUDIO
INPUT STATUS
HDCP
Autoselect
DVI-A Video
Audio2
VIDEO
SELECT
RESET
AUDIO
SELECT
SHOW
ME VGA IN DP IN
UMX-TPS-TX100 series transmitter
CATx cable
Compatible
TPS receiver
HDMI cable Non-HDCP compliant sink
The layout is the same as in the previous case: non-HDCP compliant display device is connected to the receiver but the source would send protected content with encryption. If HDCP is enabled on the input port of the transmitter, the source will send encrypted signal. The sink is not HDCP compliant, thus, it will not display the video signal (but blank/red/muted/etc. screen). If HDCP is disabled on the input port of the transmitter, the source will not send the signal. The solution is to replace the display device to an HDCPcapable one.
10. Technologies
10.3. Pixel Accurate Reclocking
Signal reclocking is an essential important procedure in digital signal transmission. After passing the reclocking circuit, the signal becomes stable, jitter-free, and can be transmitted over more equipment like processors, or event controllers. Without reclocking, sparkles, noise, and jaggies appear on the image.
Lightware’s sophisticated Pixel Accurate Reclocking technology fixes more problems than general TMDS reclocking. It removes not only intra-pair skew but inter-pair skew as well. The Pixel Accurate
Reclocking circuit eliminates the following errors:
Intra-pair skew
Skew between the + and - wires within a differential wire pair (e.g.
Data2- and Data2+). It’s caused by different wire lengths or slightly different wire construction (impedance mismatch) in DVI cable. It results in jitter.
+
-
Intra-pair skew
Inter-pair skew
Skew between two differential wire pairs in a cable. It is caused by different wire pair lengths or different number of twists in the DVI cable. Too much inter-pair skew results color shift in the picture or sync loss.
+
-
+
-
Inter-pair skew
UMX-TPS-TX100 series – User's Manual
Jitter
Signal instability in the time domain. The time difference between two signal transitions should be a fixed value, but noise and other effects cause variations.
+
-
Jitter
Noise
Electromagnetic interference between other electronic devices such as mobile phones, motors, etc. and the DVI cable are coupled onto the signal. Too much noise results in increased jitter.
+
Noise
93
Appendix
Tables, drawings, guides, and technical details as follows:
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UMX-TPS-TX100 series – User's Manual
11.1. Specification
General
Compliance ......................................................................................... CE
EMC compliance (emission) .........................................EN 55032:2015
EMC compliance (immunity) .........................................EN 55035:2017
Warranty .......................................................................................3 years
Cooling.........................................................................................Passive
Operating temperature ............................... 0 to +50˚C (+32 to +122˚F)
Operating humidity ..................................10% to 90%, non-condensing
Power (UMX-TPS-TX100 series)
Power supply ........... External power adaptor or PoE remote powering
Power adaptor ..................In 100-240 V AC 50/60 Hz, Out 12V DC, 1 A
Power connector .......................... Locking DC connector (2.1 mm pin)
Power over TPS ............................................ DC 48V, 1A (IEEE 802.3af)
Power consumption .......................................................................... 9 W
Power (WP-UMX-TPS-TX100 series)
Power supply ........... External power adaptor or PoE remote powering
Power adaptor ..................In 100-240 V AC 50/60 Hz, Out 48V DC, 1 A
Power connector ...................................... Phoenix ® Combicon (2-pole)
Power over TPS ............................................ DC 48V, 1A (IEEE 802.3af)
Power consumption .......................................................................... 9 W
Power (FP-UMX-TPS-TX130MKM)
Power supply ........... External power adaptor or PoE remote powering
Power adaptor ..................In 100-240 V AC 50/60 Hz, Out 48V DC, 1 A
Power connector ...................................... Phoenix ® Combicon (2-pole)
Power over TPS ............................................ DC 48V, 1A (IEEE 802.3af)
Power consumption .......................................................................... 9 W
94
Enclosure (UMX-TPS-TX100 series)
Rack mountable .................................................................................Yes
Material .................................................................................. 1 mm steel
Dimensions in mm ...............................................221W x 100.4D x 26H
Dimensions in inch ...........................................8.7 W x 3.95 D x 1.02 H
Weight - UMX-TPS-TX120 .............................................................. 629 g
Weight - UMX-TPS-TX130 .............................................................. 642 g
Weight - UMX-TPS-TX140 .............................................................. 647 g
Enclosure (WP-UMX-TPS-TX100 series)
Rack mountable .................................................................................. No
Material .................................................................................. 1 mm steel
Dimensions in mm ........................................ 115.9W x 67.5D x 114.3H
Dimensions in inch ...........................................4.56 W x 2.65 D x 4.5 H
Weight - WP-UMX-TPS-TX120-US ................................................. 452 g
Weight - WP-UMX-TPS-TX130-US ................................................. 457 g
Enclosure (FP-UMX-TPS-TX130MKM)
Rack mountable .................................................................................. No
Material .................................................................................. 1 mm steel
Dimensions in mm ..............................................116 W x 54.4 D x 77 H
Dimensions in inch .........................................4.56 W x 2.14 D x 3.03 H
Weight ............................................................................................. 330 g
Weight with bracket ...................................................................... 606 g
Video Ports
VGA Input
Connector type .....................................DE-15F (15-pole D-sub Female)
Supported video signal ........................... Analog RGB and YPbPr video
Color depth ...................................................... Up to 24 bits, 8 bit/color
Max. data rate ..................Up to 170 MHz video and graphics digitizer
Max. resolution ..............................................Up to 1600x1200@60 Hz
11. Appendix
HDMI Input
HDMI port connector type .................19-pole HDMI Type A receptacle
Standard ..................................................................... DVI 1.0, HDMI 1.4
Color depth ....................Deep color support up to 36 bits, 12 bit/color
Color space ............................................ RGB, YCbCr 4:4:4, YcbCr 4:2:2
Max. video resolutions .............................. 1920x1080@120 Hz, 24 bit
.......................................................................1600x1200@60 Hz, 36 bit
.......................................................................3840x2160@30 Hz, 24 bit
Audio formats ........................................8 channel PCM, Dolby TrueHD
....................................................................... DTS-HD Master Audio 7.1
Reclocking .................................................... Pixel Accurate Reclocking
3D support ..........................................................................................Yes
HDCP compliant..........................................................................Yes, 1.1
DisplayPort Input
DisplayPort connector type .......................20-pole, DP 1.1a receptacle
Color depth ....................Deep color support up to 36 bits, 12 bit/color
Color space ............................................ RGB, YcbCr 4:4:4, YCbCr 4:2:2
Max. video resolutions ..........................................1920x1080@120 Hz
..................................................................................2560x1600@60 Hz
..................................................................................4096x2400@30 Hz
3D support ..........................................................................................Yes
HDCP compliant..........................................................................Yes, 1.3
DVI-I Input with DVI-D support
Connector type ...................................................................29-pole, DVI-I
Standard ..................................................................... DVI 1.0, HDMI 1.4
Color depth ....................Deep color support up to 36 bits, 12 bit/color
Color space ............................................ RGB, YCbCr 4:4:4, YcbCr 4:2:2
Max. video resolutions .............................. 1920x1080@120 Hz, 24 bit
.......................................................................1600x1200@60 Hz, 36 bit
.......................................................................3840x2160@30 Hz, 24 bit
Audio formats ........................................8 channel PCM, Dolby TrueHD
....................................................................... DTS-HD Master Audio 7.1
UMX-TPS-TX100 series – User's Manual
Reclocking .................................................... Pixel Accurate Reclocking
3D support ..........................................................................................Yes
HDCP compliant..........................................................................Yes, 1.1
DVI-I Input with DVI-A support
Connector type ...................................................................29-pole, DVI-I
Supported video signal ........................... Analog RGB and YPbPr video
Color depth ...................................................... Up to 24 bits, 8 bit/color
Max. data rate ..................Up to 170 MHz video and graphics digitizer
Max. resolution ..............................................Up to 1600x1200@60 Hz
TPS Output Port
TPS port connector type............................................... RJ45 connector
Compliance ...........................................................................HDBaseT
TM
Transferred signals ................ Video, Audio, RS-232, Infrared, Ethernet
Max. video resolutions .............................. 1920x1080@120 Hz, 24 bit
.......................................................................1600x1200@60 Hz, 36 bit
.......................................................................3840x2160@30 Hz, 24 bit
Audio Ports
Embedded Audio Signal
Supported on .........................................DisplayPort, DVI-D, HDMI ports
Supported audio formats ....................................Up to 8 channel PCM,
...........................................................................................Dolby TrueHD
.........................................................DTS HD Master Audio 7.1 formats
Analog Audio Input (Jack)
Connector type ..................................... 3.5mm TRS (approx. 1/8" jack)
Sampling frequency ..................................................................... 48 kHz
Volume............................................................................... -95.62 – 0 dB
Maximum input level ............................... +0 dBu, 0.77 Vrms, 2.19 Vpp
Analog Audio Input (Phoenix)
Connector type .............................................. 5-pole Phoenix connector
Signal transmission ........................... Balanced and unbalanced audio
Sampling frequency ..................................................................... 48 kHz
95
Volume............................................................................... -95.62 – 0 dB
Maximum input level ............................... +4 dBu, 1.23 Vrms, 3.47 Vpp
Control Ports
RS-232
Connector type .............................................. 3-pole Phoenix connector
Available Baud rates ..........................between 4800 and 115200 baud
Available Data bits ......................................................................... 8 or 9
Available Parity.......................................................... None / Odd / Even
Available Stop bits ...................................................................1 / 1.5 / 2
Infrared
Number of IR ports ....................................................... 2 (1x RX, 1x TX)
Connector type 1 x 3.5mm TRS and 1 x 3.5mm TS (approx. 1/8" jack)
Ethernet
Connector type .................................................................. Locking RJ45
Ethernet data rate .............. 10/100Base-T, full duplex with autodetect
Power over Ethernet (PoE) ..............................................Not supported
GPIO
Connector type .............................................. 8-pole Phoenix connector
Number of configurable pins ................................................................7
Port direction................................................................... Input or output
Input voltage: Low level .............................................................0 - 0,8 V
Input voltage: High level ............................................................... 2 - 5 V
Output voltage: Low level ...........................................................0 - 0,5 V
Output voltage: High level ......................................................... 4.5 - 5 V
Max. current: Low level .................................................................30 mA
Max. current: High level ................................................................18 mA
Total available current ................................................................180 mA
EDID Management
EDID emulation ....... Yes, both on the analog and on the digital inputs
EDID memory .................. 120 factory presets, 15 user-programmable
11. Appendix
11.2. Factory Default Settings
Video
Audio
Parameter Setting/Value
Crosspoint settings
I1 (VGA in)
I1 (Analog audio in 1)
Video port settings
Enabled
Disabled
HDCP
Autoselect
Emulated EDID on analog video inputs
Emulated EDID on digital video inputs
Test pattern mode
Test pattern resolution
Factory #89: Universal Analog
EDID
Dynamic #1: Copy EDID from connected sink device.
Auto
640x480p
Test pattern color (RGB code)
Test pattern resolution on
Testpattern input (I6)
Test pattern color (RGB code) on
Testpattern input (I6)
Output signal type
#7F7F7F (grey)
640x480p
#108020 (green)
Output HDCP mode
Power 5V mode
Color space
TPS mode
Volume
Balance
Auto
Auto
Always on
Auto
Auto
Analog audio port settings (I1 and I5)
0.00 dB (100%)
50 (center)
Network settings
IP address
Subnet mask
Static gateway
DHCP
LW2 port number
LW3 port number
HTTP port number
192.168.0.100
255.255.255.0
192.168.0.1
Disabled
10001
6107
80
UMX-TPS-TX100 series – User's Manual
Output level
Direction
Parameter
Control protocol
Baud rate
Databits
Parity
Stopbits
Operation mode
Setting/Value
RS-232 settings
LW2
57600
8
None
1
Pass-through
Command injection port nr. - Local 8001
Command injection port nr. - TPS 8002
Command injection status
IR port settings
Enabled
Comm. inj. input port nr. - Local 9001
Comm. inj. output port nr. - Local 9002
Comm. inj. input port nr. - TPS
Comm. inj. output port nr. - TPS
9003
9004
GPIO port settings
High
Input
96
11.3. Content of Backup File
The backup file contains numerous settings and parameters saved from the device. When the file is uploaded to a device, the followings will be overwritten:
Analog video input ports (VGA, DVI-A)
Horizontal position, Vertical position, Active horizontal size, Active vertical size, Total horizontal size, Pixel phase
Test pattern mode, Test pattern resolution, Test pattern color
Digital video input ports (HDMI, DP, DVI-D)
Video port name, Audio port name, HDCP setting
Test pattern mode, Test pattern resolution, Test pattern color
TPS output port
Port name, HDCP mode, HDMI mode, Power +5V mode, Color space setting
Analog audio input ports
Port name, Volume, Balance
Crosspoint settings
Video crosspoint settings, audio crosspoint settings
Autoselect (enable/disable, delay settings, priority list)
Mute/lock state of video ports, Mute/lock state of audio ports
Serial ports (local and TPS)
RS-232 mode, Control protocol, Baud rate, Data bits, Stop bits, Parity
Port name and Command Injection (CI) port number
IR port
Port status (enable / disable), Code length, Repetition code,
Modulation state
Input port name, Output port name
CI status (enable / disable), CI port number
Network settings
DHCP status (enable / disable), Static IP address, Network mask,
Gateway address, LW2/LW3/HTTP port nr
Further settings
Device label, Control lock
User presets (U1-U32), User EDID data (U1-U15), Event Manager: settings of all Events (E1-E20)
GPIO port configuration (pin 1-7)
11. Appendix
11.4. Audio Cable Wiring Guide
Inputs and outputs of audio devices are symmetric or asymmetric.
The main advantage of the symmetric lines is the better protection against the noise therefore, they are widely used in the professional audio industry. Symmetric audio is most often referred to as balanced audio, as opposed to asymmetric, which is referred to as unbalanced audio. Lightware products are usually built with 5-pole Phoenix connectors so we would like to help users assembling their own audio cables. See the most common cases below.
ATTENTION!
Symmetric and asymmetric lines can be linked with passive accessories (e.g. special cables), but in this case half of the line level is lost.
ATTENTION!
There are numerous types of regularly used connector and cable types to connect audio devices. Please always make sure that a connector or cable fits your system before use.
ATTENTION!
Never join the phase-inverted (negative, cold or -) poles (either right and left) to the ground or to each other on the output side, as this can damage the unit.
INFO: Use a galvanic isolation in case of a ground loop.
The Pinout of the 5-pole Phoenix Connector
1 2 3 4 5
Pin nr.
3
4
1
2
5
Signal
Left+
Left-
Ground
Right-
Right+
Compatible Plug Type
Phoenix ® Combicon series (3.5mm pitch, 5-pole), type: MC 1.5/5-ST-3.5.
UMX-TPS-TX100 series – User's Manual
From Unbalanced Output to Balanced Input
2 x 6.3 (1/4") TS - Phoenix 2 x RCA - Phoenix
3.5 (1/8") TRS - Phoenix
From Balanced Output to Unbalanced Input
Phoenix - 2 x 6.3 (1/4") TS Phoenix - 2 x RCA
Phoenix - 3.5 (1/8") TRS
From Balanced Output to Balanced Input
Phoenix - 2 x 6.3 (1/4") TRS 2 x 6.3 TRS (1/4") - Phoenix
97
Phoenix - 2 x XLR
AUDIO Output
3
2
3
2
2
3
2 x XLR - Phoenix
2
3
AUDIO Input
Phoenix - Phoenix
AUDIO Input
11. Appendix UMX-TPS-TX100 series – User's Manual
11.5. Mechanical Drawings
11.5.1. UMX-TPS-TX100 series
UMX-TPS-TX140 can be seen in the pictures, but the dimensions are the same for all the three models.
Dimensions are in mm.
Front View
VGA
HDMI
DP
DVI-D
VIDEO
Audio1
HDMI
DP
DVI-D
AUDIO
INPUT STATUS
HDCP
Autoselect
DVI-A Video
Audio2
VIDEO
SELECT
RESET
AUDIO
SELECT
SHOW
ME VGA IN AUDIO1 IN 2 HDMI IN 3 DP IN
221
Rear View
PIN: 2.1mm
RS-232 GPIO
12V 1A DC TX RX 1 2 3 4 5 6 7 Ethernet
LIVE
RS-232
SRVC
LINK
IR IN
5
IR OUT L
AUDIO2 IN
R 4 5 DVI-I IN
Bottom View
178.5
20
M3 thread M3 thread
Top View
Side View
Universal TPS Transmitter
VIDEO SELECT: VGA HDMI
Autoselect
DP
DVI-A
DVI-D
AUDIO SELECT: Audio1 HDMI emb.
Audio2
DP emb.
DVI-D emb.
INPUT STATUS LED FUNCTIONS
Blinking: Selected input has no signal
Continuous ON: Signal present on active input
Rear LED functions
LIVE
OFF: No power
Blinking (1 sec): Normal operation
Fast blinking (0.5 sec): Firmware upgrade mode
Continuous ON: Powered but no operation
RS-232
OFF: Pass-through mode
Blinking: Command injection mode
ON: Control mode
SRVC
Reserved
TPS link
OFF: No TPS link
Blinking: Low power mode
ON: TPS link good
Port legend
Video only
Audio only
2 Video with embedded audio
UMX-TPS-TX140
Device can be remote powered over TPS link with PoE
(IEEE 802.3af)
For best performance use AWG23
CAT6 or CAT7 SFTP cable
Sn: RoHS
Made in EU, Hungary
98
11. Appendix UMX-TPS-TX100 series – User's Manual
11.5.2. WP-UMX-TPS-TX100 series
WP-UMX-TPS-TX130-US can be seen in the pictures, but the dimensions are the same for both models.
Dimensions are in mm.
Front View
Ø7.5 90°/Ø (4x)
11.5.3. FP-UMX-TPS-TX130-MKM
Dimensions are in mm.
Front View
116
VIDEO
SELECT
AUDIO
SELECT
SHOW
ME
VGA
DP
HDMI
Autoselect
AUDIO
DP
HDMI
TPS LINK
115.9
RS-232
RX TX
48V 1A DC
Sn:
Made in EU, Hungary
RoHS
10.95
34.95
94
46 34.95
10.95
13 45.5
9
94
54.4
99
11. Appendix
11.6. Port Numbering
11.6.1. WP-UMX-TPS-TX120-US
Audio/Video Ports
Port name
VGA in
HDMI in
Test pattern
Audio in
TPS out
RS-232 and IR Ports
Port name
Local serial port
TPS serial link
Video port nr. (LW2)
I1
I2
I3
-
O1
Port nr. (LW2 / LW3)
P1
P2
Video port nr. (LW3)
Till fw v1.0.3
P1
P2
P3
-
P4
From fw v1.1.0
I1
I2
I3
-
O1
Emulated
EDID memory
-
-
E1
E2
-
Audio port nr. (LW2)
I2
I1
O1
Port name
-
-
Local IR input
TPS IR input
11.6.2. WP-UMX-TPS-TX130-US
Audio/Video Ports
Port name
VGA in
DP in
HDMI in
Test pattern
Audio in
TPS out
RS-232 and IR Ports
Port name
Local serial port
TPS serial link
Video port nr. (LW2)
I1
I2
I3
I4
-
O1
Port nr. (LW2 / LW3)
P1
P2
Video port nr. (LW3)
Till fw v1.0.3
P1
P2
P3
P4
-
P5
From fw v1.1.0
I1
I2
I3
I4
-
O1
Emulated
EDID memory
E1
-
-
E2
-
Audio port nr. (LW2)
I2
I3
I1
O1
Port name
-
-
Local IR input
TPS IR input
Audio port nr. (LW3)
Till fw v1.0.3
-
P2
-
P1
P3
From fw v1.1.0
-
I2
-
I1
O1
Port nr. (LW2 / LW3)
S1
S2
Audio port nr. (LW3)
Till fw v1.0.3
-
P2
P3
-
P1
P4
From fw v1.1.0
-
I2
I3
-
I1
O1
Port nr. (LW2 / LW3)
S1
S2
UMX-TPS-TX100 series – User's Manual 100
11.6.3. UMX-TPS-TX120
Audio/Video Ports
Port name
VGA in
HDMI in
Test pattern
Audio in
TPS out
IR and RS-232 Ports
Port name
Local IR input
Local IR output
TPS IR input
TPS IR output
Video port nr. (LW2)
I1
I2
I3
-
O1
Port nr. (LW2 / LW3)
S1
D1
S2
D2
Video port nr. (LW3)
Till fw v1.0.3
P1
P2
P3
-
P4
From fw v1.1.0
I1
I2
I3
-
O1
Emulated
EDID memory
-
-
E1
E2
-
Audio port nr. (LW2)
Port name
Local serial port
TPS serial link
-
I2
-
I1
O1
11.6.4. UMX-TPS-TX130
Audio/Video Ports
Port name
VGA in
HDMI in
DVI-D in
DVI-A in
Test pattern
Audio in
TPS out
IR and RS-232 Ports
Port name
Local IR input
Local IR output
TPS IR input
TPS IR output
Video port nr. (LW2)
I5
-
O1
I1
I2
I3
I4
Port nr. (LW2 / LW3)
S1
D1
S2
D2
Video port nr. (LW3)
Till fw v1.0.3
P1
P2
P3
P4
P5
-
P6
From fw v1.1.0
I1
I2
I3
I4
I5
-
O1
Emulated
EDID memory
E1
E2
E3
E4
-
-
-
Audio port nr. (LW2)
Port name
Local serial port
TPS serial link
-
I2
I3
-
-
I1
O1
Audio port nr. (LW3)
Till fw v1.0.3
-
P2
-
P1
P3
From fw v1.1.0
-
I2
-
I1
O1
Port nr. (LW2 / LW3)
P1
P2
Audio port nr. (LW3)
Till fw v1.0.3
-
P2
P3
-
-
P1
P4
From fw v1.1.0
-
I2
I3
-
-
I1
O1
Port nr. (LW2 / LW3)
P1
P2
11. Appendix
11.6.5. UMX-TPS-TX140
Audio/Video Ports
Port name
VGA in
HDMI in
DP in
DVI-D in
DVI-A in
Test pattern
Audio1 in
Audio2 in
TPS out
IR and RS-232 Ports
Port name
Local IR input
Local IR output
TPS IR input
TPS IR output
Video port nr. (LW2)
-
-
I5
I6
O1
I1
I2
I3
I4
Port nr. (LW2 / LW3)
S1
D1
S2
D2
-
-
P7
P3
P4
P5
P6
Video port nr. (LW3) Emulated
Till fw v1.0.3
P1
P2
From fw v1.1.0
I1
I2
I3
I4
I5
I6
-
-
O1
EDID memory
-
-
E5
-
-
E1
E2
E3
E4
Audio port nr. (LW2)
I1
I5
-
-
O1
-
I2
I3
I4
Port name
Local serial port
TPS serial link
Audio port nr. (LW3)
Till fw v1.0.3
-
P2
-
-
P3
P4
P1
P5
P6
From fw v1.1.0
-
I2
-
-
I3
I4
I1
I5
O1
Port nr. (LW2 / LW3)
P1
P2
UMX-TPS-TX100 series – User's Manual 101
11.6.6. FP-UMX-TPS-TX130
Audio/Video Ports
Port name
VGA in
DP in
HDMI in
Test pattern
Audio in
TPS out
Video port nr. (LW2)
3
4
1
2
1
-
Video port nr. (LW3)
I1
I2
I3
I4
-
O1
Emulated
EDID memory
E1
E2
-
-
-
Audio port nr. (LW2)
-
3
2
-
1
1
Audio port nr. (LW3)
-
I2
I3
-
I1
O1
RS-232 and IR Ports
Port name
Local serial port
TPS serial link
Port nr. (LW2 / LW3)
P1
P2
Port name
Local IR input
TPS IR input
TPS IR output
11.7. Maximum Extension Distances
Port nr. (LW2 / LW3)
S1
S2
D1
Resolution
Pixel clock rate
Cable lengths ( Auto / Longreach TPS mode)
CAT5e AWG24 CAT7 AWG26** CAT7 AWG23
1024x768@60Hz
1280x720p@60Hz
1920x1080p@60Hz / 24bpp
1920x1200@60Hz
1600x1200@60Hz
1920x1080@60Hz / 36bpp
3840x2160@30Hz UHD
4096x2160@30Hz 4K
65 MHz
73.8 MHz 100 m / 130 m*
148.5 MHz 100 m / 130 m*
152.9 MHz
162 MHz
223.6 MHz
297 MHz
297 MHz
100 m / 130 m*
100 m / NA
100 m / NA
70 m / NA
70 m / NA
70 m / NA
90 m / 120 m*
90 m / 120 m*
90 m / 120 m*
90 m / NA
90 m / NA
70 m / NA
70 m / NA
70 m / NA
* With Long reach operation mode which supports pixel clock frequencies up to 148.5 MHz.
** When remote powering is used with AWG26 cables, distances are 20% shorter.
120 m / 170 m*
120 m / 170 m*
120 m / 170 m*
120 m / NA
120 m / NA
100 m / NA
100 m / NA
100 m / NA
11. Appendix
F29
F30
F31
F32
F33
F18
F19
F20
F21
F22
F23
F24
F25-F28
F14
F15
F16
F17
F10
F11
F12
F13
F6
F7
F8
F9
F1
F2
F3
F4
F5
Mem.
11.8. Factory EDID List
1400 x 1050
1680 x 1050
1920 x 1080
1920 x 1080
2048 x 1080
2048 x 1080
1600 x 1200
1600 x 1200
1920 x 1200
1920 x 1200
2048 x 1200
Reserved
Universal_DVI
1440 x 480i
1440 x 576i
640 x 480
720 x 480
640 x 480
Resolution
@ 60.00
Hz
848 x 480 @ 60.00
Hz
800 x 600
1024 x 768
1280 x 768
@ 60.32
@ 60.00
@ 50.00
Hz
Hz
Hz
1280 x 768
1280 x 768
1360 x 768
1280 x 1024
1280 x 1024
1280 x 1024
1400 x 1050
1400 x 1050
@ 59.94
@ 75.00
@ 60.02
@ 50.00
@ 60.02
@ 75.02
@ 50.00
@ 60.00
Hz
Hz
Hz
Hz
Hz
Hz
Hz
Hz
@ 75.00
Hz
@ 60.00
Hz
@ 50.00
Hz
@ 60.00
Hz
@ 50.00
Hz
@ 60.00
Hz
@ 50.00
Hz
@ 60.00
Hz
@ 50.00
Hz
@ 59.56
Hz
@ 59.96
Hz
@ 60.05
Hz
@ 50.08
Hz
@ 59.95
Hz
@ 59.94
Hz
F59
F60
F61
F62
F63
F55
F56
F57
F58
F51
F52
F53
F54
F47
F48
F49
F50
F43
F44
F45
F46
F39
F40
F41
F42
F34
Mem.
F35
F36
F37
F38
H
H
D
H
H
D
D
D
D
D
D
D
D
D
D
D
D
D
D
D
D
D
D
D
D
D
D
D
Type
D
D
720 x
640 x
640 x
800 x
800 x
800 x
1024 x
1024 x
1024 x
1280 x
1280 x
1280 x
1360 x
720 x
1280 x
Resolution
576
720
@ 50.00
@ 50.00
1280 x 720 @ 60.00
1920 x 1080i @ 50.04
1920 x 1080i @ 50.00
1920 x 1080i @ 60.05
1920 x 1080i @ 60.05
1920 x 1080 @ 24.00
1920 x 1080 @ 25.00
1920 x 1080 @ 30.00
1920 x 1080 @ 50.00
1920 x 1080 @ 60.00
1920 x 1080 @ 60.00
Universal_HDMI_PCM
Universal_HDMI_ALL
Universal_HDMI_DC
720 x 480 @ 30.03
576 @ 25.04
480 @ 60.00
480 @ 75.00
600 @ 50.00
600 @ 60.32
600 @ 75.00
768 @ 49.99
768 @ 60.00
768 @ 75.03
768 @ 50.00
768 @ 59.94
768 @ 75.00
768 @ 60.02
Hz
Hz
Hz
Hz
Hz
Hz
Hz
Hz
Hz
Hz
Hz
Hz
Hz
Hz
Hz
Hz
Hz
Hz
Hz
Hz
Hz
Hz
Hz
Hz
Hz
Hz
Hz
A
A
A
A
A
A
A
A
A
A
A
A
A
H
A
H
H
H
H
H
H
H
H
H
H
H
H
H
Type
H
H
UMX-TPS-TX100 series – User's Manual 102
F74
F75
F76
F77
F70
F71
F72
F73
F64
Mem.
F65
F66
F67
F68
F69
F78
F79
F80
F81-F88
F89
F90
F91
F92-F93
F94
Legend
Type
D
H
A
DL
H3D
H4K
1364 x
1364 x
Resolution
768 @ 50.00
768 @ 59.94
1364 x 768 @ 74.99
1280 x 1024 @ 50.00
1280 x 1024 @ 60.02
1366 x 1024 @ 60.00
1400 x 1050 @ 50.00
1400 x 1050 @ 60.00
1400 x 1050 @ 75.00
1920 x 540 @ 50.00
1920 x 540 @ 60.00
1920 x 1080 @ 50.00
1920 x
1600 x
1600 x
1920 x
1080 @ 60.00
1200 @ 50.00
1200 @ 60.00
1200 @ 59.96
1920 x 1200 @ 50.00
Reserved
Universal_Analog
1920 x 2160
1024 x 2400
Reserved
@ 59.99
Hz
@ 60.01
Hz
Hz
Hz
Hz
Hz
Hz
2048 x 1536 @ 60.00
Hz
Hz
Hz
Hz
Hz
Hz
Hz
Hz
Hz
Hz
Hz
Hz
Hz
DVI EDID
Description
HDMI EDID
Analog EDID
Dual-Link DVI EDID
HDMI EDID with 3D support
HDMI EDID with 4K resolution support
A
A
A
A
A
A
A
A
A
A
A
A
Type
A
A
D
D
A
D
D
A
A
A
A
F95
F96
Mem.
F97
F98
F99
F100
Resolution
Reserved
2560 x 1600 @ 59.86
Hz
3840 x 2400
1280 x 720
F101
F102
F103
F104
1920 x 1080
1024 x 768
1280 x 1024
1280 x 1024
F105
F106
F107
F108
1280 x 1024
1600 x 1200
1600 x 1200
1920 x 1200
F109
F110
F111
F112
2560 x 1440
2560 x 1600
3840 x 2400
3840 x 2160
3840 x 2160
3840 x 2160
F113-F117 Reserved
F118 Universal_4K_PCM
@ 24.00
@ 60.00
@ 60.00
@ 60.00
@ 50.00
@ 60.02
@ 75.02
@ 50.00
@ 60.00
@ 59.56
@ 59.95
@ 59.86
@ 24.00
@ 24.00
@ 25.00
@ 30.00
Hz
Hz
Hz
Hz
Hz
Hz
Hz
Hz
Hz
Hz
Hz
Hz
Hz
Hz
Hz
Hz
F119
F120
Universal_4K_ALL
3840 x 2160 @ 60.00
Hz
H
H
H
H
H
H
H
H
H
H
H
H
Type
D
D
D
H3D
H3D
H
H4K
H4K
H4K
11. Appendix
11.9. Further Information
Limited Warranty Statement
1. Lightware Visual Engineering LLC (Lightware) warrants to all trade and end user customers that any Lightware product purchased will be free from manufacturing defects in both material and workmanship for three (3) years from purchase unless stated otherwise below. The warranty period will begin on the latest possible date where proof of purchase/delivery can be provided by the customer. In the event that no proof can be provided (empty ‘Date of purchase’ field or a copy of invoice), the warranty period will begin from the point of delivery from
Lightware.
1.1. 25G and MODEX product series will be subject to a seven (7) year warranty period under the same terms as outlined in this document.
1.2. If during the first three (3) months of purchase, the customer is unhappy with any aspect of a Lightware product, Lightware will accept a return for full credit.
1.3. Any product that fails in the first six (6) months of the warranty period will automatically be eligible for replacement and advanced replacement where available. Any replacements provided will be warranted for the remainder of the original unit’s warranty period.
1.4. Product failures from six (6) months to the end of the warranty period will either be repaired or replaced at the discretion of Lightware.
If Lightware chooses to replace the product then the replacement will be warranted for the remainder of the original unit’s warranty period.
2. The above-stated warranty and procedures will not apply to any product that has been:
2.1. Modified, repaired or altered by anyone other than a certified
Lightware engineer unless expressly agreed beforehand.
2.2. Used in any application other than that for which it was intended.
2.3. Subjected to any mechanical or electrical abuse or accidental damage.
2.4. Any costs incurred for repair/replacement of goods that fall into the above categories (2.1., 2.2., 2.3.) will be borne by the customer at a pre-agreed figure.
3. All products to be returned to Lightware require a return material authorization number (RMA) prior to shipment and this number must be clearly marked on the box. If an RMA number is not obtained or is not clearly marked on the box, Lightware will refuse the shipment.
3.1. The customer will be responsible for in-bound and Lightware will be responsible for out-bound shipping costs.
3.2. Newly repaired or replaced products will be warranted to the end of the originally purchased products warranty period.
UMX-TPS-TX100 series – User's Manual
Document Revision History
Rev.
Release date
Changes
2.0
19-09-2017 New document format, updated
2.1
13-11-2018
Add supplement in connection with
FP-UMX-TPS-TX130-MKM model;
1080p120Hz signal support info added
Editor
1.0
1.1
1.2
1.3
1.4
1.5
1.6
1.7
26-09-2014 Initial version
14-11-2014
04-12-2014
17-03-2015
07-07-2015
16-12-2015
10-06-2016
Firmware upgrade, Event manager,
Troubleshooting sections added,
LW3 programmers’ reference updated
Minor changes in software control section due to new LDC; SRVC LED function added
WP-UMX transmitters added, certain figures replaced
Autoselect figures changed, LDC and LDU sections upgraded, typographical corrections and minor formatting changes
Safety instructions updated, CE page pulled out, Wall plate rear photo replaced
Minor updates for LDC v1.8.0 and
LDU v1.3.0, updated Event Manager, changes in LW3 structure.
09-05-2017 Minor corrections
Laszlo
Zsedenyi
Zsolt
Marko
Laszlo
Zsedenyi
Laszlo
Zsedenyi
Laszlo
Zsedenyi
Laszlo
Zsedenyi
Laszlo
Zsedenyi
Tamas
Forgacs
Laszlo
Zsedenyi
Tamas
Forgacs
Judit
Barsony
Contact Us [email protected]
+36 1 255 380 0 [email protected]
+36 1 255 3810
Lightware Visual Engineering LLC.
Peterdy 15, Budapest H-1071, Hungar y www.lightware.com
103
©2018 Lightware Visual Engineering. All rights reserved. All trademarks mentioned are the property of their respective owners.
Specifications subject to change without notice.
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Table of contents
- 7 1. INTRODUCTION
- 7 1.1. Description
- 7 1.2. Compatible Devices
- 7 1.3. Model Denomination
- 8 1.4. Box Contents
- 8 1.5. Features
- 9 1.6. Model Comparison
- 10 1.7. Typical Application
- 11 2. INSTALLATION
- 11 2.1. Mounting Options - UMX-TPS-TX100 series
- 11 2.1.1. Under-desk Double Mounting Kit
- 11 2.1.2. 1U High Rack Shelf
- 12 2.2. Mounting Options - WP-UMX-TPS-TX100 series
- 12 2.3. Mounting Options - FP-UMX-TPS-TX130-MKM
- 13 2.4. Connecting Steps
- 13 2.4.1. WP-UMX-TPS-TX100 series
- 13 2.4.2. UMX-TPS-TX100 series
- 14 2.5. Powering Options
- 15 3. PRODUCT OVERVIEW
- 15 3.1. Front View - UMX-TPS-TX100 series
- 16 3.2. Rear View - UMX-TPS-TX100 series
- 16 3.3. Front View - WP-UMX-TPS-TX100 series
- 17 3.4. Rear View - WP-UMX-TPS-TX100 series
- 17 3.5. Front View - FP-UMX-TPS-TX130-MKM
- 17 3.6. Rear View - FP-UMX-TPS-TX130-MKM
- 18 3.7. Electrical Connections
- 18 3.7.1. Locking 12V DC Connection
- 18 3.7.2. 48V DC Connection
- 18 3.7.3. VGA Connector
- 18 3.7.4. HDMI Connector
- 18 3.7.5. DisplayPort Connector
- 18 3.7.6. DVI-I Connector
- 18 3.7.7. Analog Stereo Audio (Jack)
- 18 3.7.8. Analog Stereo Audio (Phoenix)
- 19 3.7.9. Ethernet Connector (TPS and LAN Ports)
- 19 3.7.10. RS-232 Connector
- 19 3.7.11. IR Connector
- 19 3.7.12. IR Detector
- 19 3.7.13. GPIO - General Purpose Input/Output Ports
- 20 3.8. TPS Extender Concept
- 20 3.9. TPS Interface
- 21 3.10. Port Diagram
- 22 3.11. Video Interface
- 22 3.11.1. Video Input Modes
- 22 3.11.2. Input Source Selection Modes
- 22 3.12. The Autoselect Feature
- 23 3.13. Audio Interface
- 23 3.13.1. Audio Input Modes
- 23 3.13.2. Audio Options - Example
- 24 3.14. Control Features
- 24 3.14.1. Serial Interface
- 25 3.14.2. IR Interface
- 25 3.14.3. Ethernet Control Interface
- 26 3.14.4. GPIO Interface
- 26 3.15. Further Built-in Features
- 26 3.15.1. Automatically Launched Actions – The Event Manager
- 26 3.15.2. Transmitter Cloning – Configuration Backup and Restore
- 26 3.15.3. Remote Firmware Upgrade of Connected Lightware Devices
- 27 4. OPERATION
- 27 4.1. Front Panel LEDs
- 27 4.1.1. Video Input LEDs
- 27 4.1.2. Audio Input LEDs
- 27 4.1.3. Autoselect LED
- 27 4.1.4. HDCP LED
- 28 4.1.5. TPS LINK LED
- 28 4.1.6. Firmware Version Indication
- 28 4.2. Rear Panel LEDs
- 28 4.2.1. LIVE LED
- 28 4.2.2. RS-232 LED
- 28 4.2.3. SRVC LED
- 28 4.2.4. LINK LED
- 29 4.3. Front Panel Buttons
- 29 4.3.1. Video Select Button
- 29 4.3.2. Audio Select Button
- 29 4.3.3. Port Legend
- 29 4.3.4. Programmable Show Me Button
- 29 4.4. Special Functions
- 29 4.4.1. Enable DHCP (Dynamic) IP Address
- 30 4.4.2. Reset to Factory Default Settings
- 30 4.4.3. Reseting the Device
- 30 4.4.4. Control Lock
- 30 4.4.5. Entering Firmware Upgrade Mode
- 30 4.5. Software Control Modes
- 31 5. SOFTWARE CONTROL - LIGHTWARE DEVICE CONTROLLER
- 31 5.1. Install and Upgrade
- 31 5.2. Running the LDC
- 32 5.3. Connecting to a Device (Device Discovery Window)
- 33 5.4. Crosspoint Menu
- 34 5.5. Port Properties Windows
- 34 5.5.1. Analog Video Inputs
- 34 5.5.2. Digital Video Inputs
- 35 5.5.3. Analog Audio Inputs
- 35 5.5.4. Digital Audio Inputs
- 35 5.5.5. TPS Video Output
- 36 5.5.6. TPS Audio Output
- 37 5.6. Diagnostic Tools
- 37 5.6.1. Cable Diagnostics
- 38 5.6.2. Frame Detector
- 38 5.6.3. Test Pattern
- 39 5.7. EDID Menu
- 39 5.7.1. EDID Operations
- 40 5.7.2. EDID Summary Window
- 40 5.7.3. Editing an EDID
- 41 5.7.4. Creating an EDID - Easy EDID Creator
- 41 5.8. Control Menu
- 41 5.8.1. RS
- 42 5.8.2. GPIO
- 42 5.8.3. Ethernet
- 43 5.8.4. Infra
- 44 5.9. Event Manager
- 45 5.9.1. The Event Editor
- 45 5.9.2. Create or Modify an Event
- 46 5.9.3. Special Tools and Accessories
- 46 5.9.4. Clear One or More Event(s)
- 46 5.9.5. Export and Import Events
- 46 5.9.6. Event Creating - Example
- 47 5.10. Settings Menu
- 47 5.10.1. Status
- 48 5.10.2. Network
- 48 5.10.3. Backup
- 48 5.10.4. Front Panel
- 49 5.10.5. System
- 49 5.11. Configuration Cloning (Backup Tab)
- 49 5.11.1. Steps in a Nutshell
- 50 5.11.2. Save the Settings of a Device (Backup)
- 50 5.11.3. Upload the Settings to a Device (Restore)
- 50 5.12. Advanced View Window
- 51 6. LW2 PROGRAMMER'S REFERENCE
- 51 6.1. LW2 Protocol Description
- 51 6.2. General LW2 Commands
- 51 6.2.1. View Product Type
- 51 6.2.2. Query Control Protocol
- 52 6.2.3. View Firmware Version of the CPU
- 52 6.2.4. Connection Test
- 52 6.2.5. View Serial Number
- 52 6.2.6. Compile Time
- 52 6.2.7. View Installed Board
- 52 6.2.8. View Firmware for All Controllers
- 52 6.2.9. Restart the Device
- 52 6.2.10. Query Health Status
- 52 6.2.11. Restore Factory Default Settings
- 53 6.3. A/V Port Settings
- 53 6.3.1. Switch an Input to the Output
- 53 6.3.2. Mute Output
- 53 6.3.3. Unmute Output
- 53 6.3.4. Lock Output
- 53 6.3.5. Unlock Output
- 54 6.3.6. View Connection State on the Output
- 54 6.3.7. View Crosspoint Size
- 54 6.3.8. Change Video Autoselect Mode
- 54 6.3.9. Change Audio Autoselect Mode
- 55 6.3.10. Change the Video Input Priorities
- 55 6.3.11. Change Audio Input Priority
- 55 6.4. Network Configuration
- 55 6.4.1. Query the Current IP Status
- 55 6.4.2. Set the IP Address
- 55 6.4.3. Set the Subnet Mask
- 56 6.4.4. Set the Gateway Address
- 56 6.4.5. Apply Network Settings
- 56 6.5. GPIO Configuration
- 56 6.5.1. Set Level and Direction for Each Pins
- 57 6.6. LW2 Commands – Quick Summary
- 58 7. LW3 PROGRAMMERS’ REFERENCE
- 58 7.1. Overview
- 58 7.2. Protocol Rules
- 58 7.2.1. LW3 Tree Structure and Command Structure (examples)
- 58 7.2.2. General Rules
- 59 7.2.3. Command Types
- 59 7.2.4. Prefix Summary
- 59 7.2.5. Error Messages
- 59 7.2.6. Escaping
- 60 7.2.7. Signature
- 60 7.2.8. Subscription
- 60 7.2.9. Notifications about the Changes of the Properties
- 60 7.2.10. Legend for the Control Commands
- 61 7.3. System Commands
- 61 7.3.1. Query the Product Name
- 61 7.3.2. Set the Device Label
- 61 7.3.3. Query the Serial Number
- 61 7.3.4. Query the Firmware Version
- 61 7.3.5. Resetting the Device
- 61 7.3.6. Restore the Factory Default Settings
- 62 7.3.7. Lock the Front Panel Buttons
- 62 7.3.8. Disable the Default Function of the Front Panel Buttons
- 62 7.3.9. Dark Mode
- 62 7.3.10. Dark Mode Delay
- 63 7.4. Video Port Settings
- 63 7.4.1. Query the Status of Source Ports
- 64 7.4.2. Query the Status of Destination Port
- 64 7.4.3. Query the Video Crosspoint Setting
- 64 7.4.4. Switching Video Input
- 64 7.4.5. Query the Video Autoselect Settings
- 65 7.4.6. Change the Autoselect Mode
- 65 7.4.7. Query the Input Port Priority
- 65 7.4.8. Change the Input Port Priority
- 65 7.4.9. Mute an Input Port
- 65 7.4.10. Unmute an Input Port
- 66 7.4.11. Lock an Input Port
- 66 7.4.12. Unlock an Input Port
- 66 7.4.13. Mute Output
- 66 7.4.14. Unmute Output
- 66 7.4.15. Lock Output
- 66 7.4.16. Unlock Output
- 66 7.4.17. HDCP Setting (Input Port)
- 67 7.4.18. Test Pattern Generator Mode
- 67 7.4.19. Test Pattern Resolution
- 67 7.4.20. Test Pattern Color
- 67 7.4.21. HDCP Setting (Output Port)
- 67 7.4.22. HDMI Mode Settings (Output Port)
- 68 7.4.23. Color Space Setting (Output Port)
- 68 7.4.24. Query the Recent TPS Mode
- 68 7.4.25. TPS Mode Settings
- 69 7.5. Audio Port Settings
- 69 7.5.1. Query the Status of Source Ports
- 69 7.5.2. Query the Status of Destination Port
- 70 7.5.3. Query the Audio Crosspoint Setting
- 70 7.5.4. Switching Audio Input
- 70 7.5.5. Query the Audio Autoselect Settings
- 70 7.5.6. Change the Autoselect Mode
- 71 7.5.7. Query the Input Port Priority
- 71 7.5.8. Change the Input Port Priority
- 71 7.5.9. Mute an Audio Input
- 71 7.5.10. Unmute an Audio Input
- 71 7.5.11. Lock an Input Port
- 71 7.5.12. Unlock an Input Port
- 72 7.5.13. Mute Audio Output
- 72 7.5.14. Unmute Audio Output
- 72 7.5.15. Lock Output
- 72 7.5.16. Unlock Output
- 72 7.5.17. Analog Audio Input Level Settings
- 73 7.6. Network Configuration
- 73 7.6.1. Query the DHCP State
- 73 7.6.2. Change the DHCP State
- 73 7.6.3. Query the IP Address
- 73 7.6.4. Change the IP Address (Static)
- 73 7.6.5. Query the Subnet Mask
- 73 7.6.6. Change the Subnet Mask (Static)
- 73 7.6.7. Query the Gateway Address
- 74 7.6.8. Change the Gateway Address (Static)
- 74 7.7. RS-232 Port Configuration
- 74 7.7.1. Protocol Setting
- 74 7.7.2. BAUD Rate Setting
- 74 7.7.3. Databit Setting
- 74 7.7.4. Stopbits Setting
- 74 7.7.5. Parity Setting
- 75 7.7.6. RS-232 Operation Mode
- 75 7.7.7. Command Injection Enable
- 75 7.8. Infrared Port Configuration
- 75 7.8.1. Enable Command Injection Mode
- 75 7.8.2. Enable/Disable Output Signal Modulation
- 76 7.9. Sending Message via the Communication Ports
- 76 7.9.1. Sending Message via TCP Port
- 76 7.9.2. UDP Message Sending via Ethernet
- 77 7.9.3. Message Sending via RS-232 Serial Port
- 77 7.9.4. Using Hexadecimal Codes
- 78 7.10. GPIO Port Configuration
- 78 7.10.1. Set the Direction of a GPIO Pin
- 78 7.10.2. Set the Output Level of a GPIO Pin
- 78 7.10.3. Toggle the Level of a GPIO Pin
- 78 7.11. EDID Management
- 78 7.11.1. Query the Emulated EDIDs
- 78 7.11.2. Query the Validity of a Dynamic EDID
- 79 7.11.3. Query the Preferred Resolution of an User EDID
- 79 7.11.4. Emulating an EDID to an Input Port
- 79 7.11.5. Emulating an EDID to All Input Ports
- 79 7.11.6. Copy an EDID to User Memory
- 79 7.11.7. Deleting an EDID from User Memory
- 79 7.11.8. Resetting the Emulated EDIDs
- 80 7.12. LW3 Commands - Quick Summary
- 83 8. FIRMWARE UPGRADE
- 83 8.1. About the Firmware Package (LFP file)
- 83 8.2. Short Instructions
- 83 8.3. Install and Upgrade
- 84 8.4. Detailed Instructions
- 84 8.4.1. Establish the Connection
- 84 8.4.2. Start the LDU and Follow the Instructions
- 87 8.5. Keeping the Configuration Settings
- 89 9. TROUBLESHOOTING
- 91 10. TECHNOLOGIES
- 91 10.1. EDID Management
- 91 10.1.1. Understanding the EDID
- 91 10.1.2. Advanced EDID Management
- 92 10.2. HDCP Management
- 92 10.2.1. Protected and Unprotected Content
- 92 10.2.2. Disable Unnecessary Encryption
- 93 10.3. Pixel Accurate Reclocking
- 94 11. APPENDIX
- 94 11.1. Specification
- 96 11.2. Factory Default Settings
- 96 11.3. Content of Backup File
- 97 11.4. Audio Cable Wiring Guide
- 98 11.5. Mechanical Drawings
- 98 11.5.1. UMX-TPS-TX100 series
- 99 11.5.2. WP-UMX-TPS-TX100 series
- 99 11.5.3. FP-UMX-TPS-TX130-MKM
- 100 11.6. Port Numbering
- 100 11.6.1. WP-UMX-TPS-TX120-US
- 100 11.6.2. WP-UMX-TPS-TX130-US
- 100 11.6.3. UMX-TPS-TX
- 100 11.6.4. UMX-TPS-TX
- 101 11.6.5. UMX-TPS-TX
- 101 11.6.6. FP-UMX-TPS-TX
- 101 11.7. Maximum Extension Distances
- 102 11.8. Factory EDID List
- 103 11.9. Further Information