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Summary of Contents for Gefen Pro GEF-MOD-16416-DVI
- Page 1 16 16 3GSDI Modular Audio Embedder Matrix SOURCES DISPLAYS GEF-MOD-16416-DVI • GEF-MOD-16416-DVIELR GEF-MOD-16416-ELR • GEF-MOD-16416-DVI1FO GEF-MOD-16416-1FO • GEF-MOD-16416-DPDVI GEF-MOD-16416-DPELR • GEF-MOD-16416-DP1FO User Manual Release A5...
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Page 2: Important Safety Instructions
16x16 Modular Matrix Important Safety Instructions GENERAL SAFETY INFORMATION Read these instructions. Keep these instructions. Heed all warnings. Follow all instructions. Do not use this product near water. Clean only with a dry cloth. Do not block any ventilation openings. Install in accordance with the manufacturer’s instructions. -
Page 3: Warranty Information
16x16 Modular Matrix Warranty Information Gefen warrants the equipment it manufactures to be free from defects in material and workmanship. If equipment fails because of such defects and Gefen is notified within two (2) years from the date of shipment, Gefen will, at its option, repair or replace the equipment, provided that the equipment has not been subjected to mechanical, electrical, or other abuse or modifications. - Page 4 16x16 Modular Matrix Contacting Gefen Technical Support Gefen, LLC c/o Customer Service 20600 Nordhoff St. Chatsworth, CA 91311 Telephone: (818) 772-9100 (800) 545-6900 Fax: (818) 772-9120 Email: support@gefenpro.com Visit us on the Web: www.gefenpro.com Technical Support Hours: 8:00 AM to 5:00 PM Monday - Friday, Pacific Time For 24 / 7 support, see the back of the product for the support number 16x16 Modular Matrix is a trademark of Gefen, LLC.
- Page 5 3GSDI Audio Embedder 16x16 Modular Matrix Operating Notes • There is no internal scaling in the 16x16 Modular Matrix. All of the attached monitors must be able to display the output resolutions of the source devices. For maximum compatibility it is recommended that only one compatible/common resolution be used by all of the source devices.
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Page 6: Packing List
16x16 Modular Matrix Features and Packing List Features • Supports up to two modular input cards and two modular output cards, each with eight connectors • Supports resolutions up to 1920 x 1200 • Advanced EDID management for rapid integration of sources and displays •... -
Page 8: Table Of Contents
Back ......................9 Installing the Battery ..................10 Setting the IR Channel ................10 Installation ......................11 Sample Wiring Diagram ................11 GEF-MOD-16416-DVI ................. 12 GEF-MOD-16416-DVIELR ................12 GEF-MOD-16416-ELR ................14 GEF-MOD-16416-DVI1FO ................16 GEF-MOD-16416-1FO ................18 DisplayPort Package Options ..............20 Operating the 16x16 Modular Matrix Front Panel Controls ................... - Page 9 16x16 Modular Matrix Table of Contents Advanced Operation RS-232 and IP Configuration ................52 RS-232 Interface ..................52 RS-232 Settings ..................52 IP / UDP Configuration ................53 RS-232 / IP Commands ..................54 EDID Management ..................54 IP Configuration ..................64 Routing and Masking ..................
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Page 11: 01 Getting Started
Back ......................9 Installing the Battery ..................10 Setting the IR Channel ................10 Installation ......................11 Sample Wiring Diagram ................11 GEF-MOD-16416-DVI ................. 12 GEF-MOD-16416-DVIELR ................12 GEF-MOD-16416-ELR ................14 GEF-MOD-16416-DVI1FO ................16 GEF-MOD-16416-1FO ................18 DisplayPort Package Options ..............20... -
Page 12: Pre-Configured Options
16x16 Modular Matrix that was purchased. • 16 DVI Input / 16 DVI Output (GEF-MOD-16416-DVI) Two input cards. Each card uses eight DVI inputs, providing a total of 16 DVI inputs. Two output cards. Each card uses eight DVI outputs, providing a total of 16 DVI outputs. - Page 13 Getting Started Pre-Configured Options • 16 CAT-5 ELR Input / 16 CAT-5 ELR Output (GEF-MOD-16416-ELR) Two input cards. Each card uses eight ELR-POL inputs, providing a total of 16 ELR- POL inputs. Each of these ELR-POL inputs are connected to a Sender unit, using a CAT-5e cable, allowing you to extend the matrix up to 330 feet (100 meters) away from the DVI source.
- Page 14 Getting Started Pre-Configured Options • 16 DisplayPort Input / 16 CAT-5 ELR Output (GEF-MOD-16416-DPELR) Two input cards. Each card uses eight DisplayPort inputs, providing a total of 16 DisplayPort inputs. Two output cards. Each card uses eight ELR-POL outputs. Each of these ELR- POL outputs are connected to a Receiver unit, using a CAT-5e cable, allowing you to extend the DisplayPort signal up to 330 feet (100 meters).
- Page 15 Getting Started Pre-Configured Options • 16 DisplayPort Input / 16 Fiber Output (GEF-MOD-16416-DP1FO) Two input cards. Each card contains eight DisplayPort inputs, providing a total of 16 DisplayPort inputs. Two output cards. Each card contains eight SC-type fiber optic connectors. Each of these fiber optic connectors are connected to a Receiver unit, allowing you to extend the DisplayPort signal up to 6600 feet (2 kilometers) using 50μ...
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Page 16: Panel Layout
Getting Started Panel Layout Front Panel Name Description Mode buttons Used to control various features on the Matrix. See Front Panel Controls for more information. Used for routing an Input to an Output. Each of these buttons represents an Output. Routing Basics for more information on routing sources. -
Page 17: Back Panel
Getting Started Panel Layout Back Panel Name Description IP Control Connect an Ethernet cable between this jack and a LAN to use IP control. IP / UDP Configuration for more information. RS-232 Connect the included RS-232 cable from this port to an RS-232 device. See RS-232 and IP Configuration for more information. -
Page 18: Ir Remote Control Unit
Getting Started IR Remote Control Unit NOTE: The IR remote control (Gefen part no. RMT-16416IR) unit is sold separately. Front Name Description Activity indicator This LED glows bright orange when a key is pressed on the remote. Buttons (1 - 16) Used to select the desired matrix routing. -
Page 19: Back
Getting Started IR Remote Control Unit Back (shown with cover removed) Name Description DIP switch bank Use these DIP switches to set the IR channel of the remote. See Setting the IR Channel for more information. Primary battery slot Holds the battery for operating the remote. (shown without battery) Use only 3V CR2032-type batteries. -
Page 20: Installing The Battery
Getting Started IR Remote Control Unit Installing the Battery The IR remote control unit ships with two batteries. Only one battery is required for operation. The second battery is a spare. Use only 3V CR2032-type batteries. Remove the back cover the IR Remote Control unit. Insert the included battery into the primary battery slot. -
Page 21: Installation
The wiring diagram at the bottom of the page provides a general reference for connecting the 16x16 Modular Matrix. See the following pages for detailed connection instructions on each package option. • GEF-MOD-16416-DVI..................page 12 • GEF-MOD-16416-DVIELR................page 12 • GEF-MOD-16416-ELR.................page 14 •... -
Page 22: Gef-Mod-16416-Dvi
Getting Started Installation GEF-MOD-16416-DVI Connect up to 16 DVI sources to the DVI inputs on the rear panel of the 16x16 Modular Matrix using DVI cables. Connect up to 16 DVI displays to the DVI outputs on the rear panel of the 16x16 Modular Matrix. - Page 23 Getting Started Installation Connect a DVI cable from the DVI Out port on each ELR-POL Receiver unit to a DVI display. GEF-DVI-ELRPOL-R DVI cable DVI display Connect both AC power cords from the 16x16 Modular Matrix to available electrical outlets. Connecting both AC power cords will provide redundancy should one of the power supplies fail.
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Page 24: Gef-Mod-16416-Elr
Getting Started Installation GEF-MOD-16416-ELR Connect up to 16 DVI sources to the DVI inputs on each of the DVI ELR-POL Sender units using DVI cables. GEF-DVI-ELRPOL-S DVI cable DVI source (computer, etc) Connect a CAT-5e cable (or better), up to 330 feet (100 meters) from each Sender unit to each ELR-POL jack on the Receiver card, as shown below: GEF-MOD-8ELRPOL-R CAT-5e cable... - Page 25 Getting Started Installation Connect a CAT-5e cable (or better), up to 330 feet (100 meters) from each ELR-POL jack on the Output card to each Receiver unit. GEF-DVI-8ELR-S CAT-5e cable Up to 330 feet (100 meters) GEF-DVI-ELRPOL-R Connect a DVI cable from the DVI Out port on each ELR-POL Receiver unit to a DVI display.
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Page 26: Gef-Mod-16416-Dvi1Fo
Getting Started Installation GEF-MOD-16416-DVI1FO Connect up to 16 DVI sources to the DVI inputs on the rear panel of the 16x16 Modular Matrix using DVI cables. Connect a single strand of SC-terminated 50μ OM3e multimode fiber optic cable from each SC-type connector on the Sender card to each Receiver unit, as shown below. GEF-DVI-8FO-S Multimode Fiber Optic cable. - Page 27 Getting Started Installation Connect a DVI cable from the DVI Out port on each ELR-POL Receiver unit to a DVI display. GEF-DVI-1FO-R DVI cable DVI display Connect both AC power cords from the matrix to available electrical outlets. Connecting both AC power cords will provide power redundancy should one of the power supplies fail.
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Page 28: Gef-Mod-16416-1Fo
Getting Started Installation GEF-MOD-16416-1FO Connect up to 16 DVI sources to the DVI inputs on each of the DVI ELR-POL Sender units using DVI cables. GEF-DVI-1FO-S DVI cable DVI source (computer, etc) Connect a single strand of SC-terminated multimode fiber optic cable from each SC-type connector on the Receiver card to each Sender unit, as shown below. - Page 29 Getting Started Installation GEF-DVI-8FO-S Multimode Fiber Optic cable. Up to 6600 feet (2 kilometers) GEF-DVI-1FO-R Connect a DVI cable from the DVI Out port on each 1FO Receiver unit to a DVI display. GEF-DVI-1FO-R DVI cable DVI display Connect the included power supplies to each 1FO Sender and Receiver unit then connect each power supply to an available electrical outlet.
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Page 30: Displayport Package Options
DisplayPort instead of DVI. Refer to the connection instructions for the DVI version of each package if needed. GEF-MOD-16416-DPDVI (based on the GEF-MOD-16416-DVI) Connect up to 16 DisplayPort sources to the DisplayPort inputs on the matrix. Connect up to 16 displays to the DVI outputs on the matrix using DVI cables. -
Page 33: Operating The 16X16 Modular Matrix
16 16 Modular Matrix SOURCES DISPLAYS 02 Operating the 16x16 Modular Matrix Front Panel Controls ................... 24 Front Panel Buttons ..................24 Front Panel LCD Screen ................25 Displaying Matrix Settings ................26 Routing Basics ....................27 Routing Inputs to Outputs ................27 Getting the Current Routing Status ............. -
Page 34: Front Panel Controls
Operating the 16x16 Modular Matrix Front Panel Controls Front Panel Buttons There are a total of 38 buttons on the front panel of the matrix. These buttons are grouped according to their function. Out and In The Out and In buttons comprise the largest group of buttons. The top row of 16 buttons represent the outputs, while the bottom row of 16 buttons represent the inputs. -
Page 35: Front Panel Lcd Screen
Operating the 16x16 Modular Matrix Front Panel Controls Front Panel LCD Screen The front-panel of the 16x16 Modular Matrix contains a 16-character 2-line LCD display which is used to provide feedback when performing routing functions. In addition, this display is used to show the current routing status of the matrix. EDID LOADING PLEASE WAIT EDID LOADING... -
Page 36: Displaying Matrix Settings
Operating the 16x16 Modular Matrix Front Panel Controls Displaying Matrix Settings Besides displaying routing information and other feedback during various operations, the matrix provides setting information, from the Home screen: GEFEN MODULAR MATRIX GEFEN MODUULAR MATRIX From the Home screen, consecutively press the Cancel button to display other matrix settings. -
Page 37: Routing Basics
Operating the 16x16 Modular Matrix Routing Basics Routing Inputs to Outputs The following example illustrates the routing process. An input may be routed to a single or multiple outputs. Multiple inputs cannot be routed to a single output. Press the Set button on the front panel. Pressing the Set button tells the matrix that we want to perform a routing, masking, or preset operation. - Page 38 Operating the 16x16 Modular Matrix Routing Basics Select the desired input (source) button (A1 - B8). For this example, we want to route the source connected to Input 6 to each of the outputs in step 3. Therefore, press button A6 on the bottom row. The selected input will glow bright blue. NOTE: Only one input can be routed at a time.
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Page 39: Getting The Current Routing Status
Operating the 16x16 Modular Matrix Routing Basics Getting the Current Routing Status To display the current routing status of the Matrix, press any one of the Input or Output buttons on the front panel. From our previous routing example, we already know that Input 6 is routed to Output 3, 6, 7, and 9. -
Page 40: One-To-One Routing
Operating the 16x16 Modular Matrix Routing Basics Inputs to Outputs Press the A6 button on the bottom row of buttons. By querying an input, all Outputs that are connected (routed) to the input are displayed: GEFEN MODULAR MATRIX Now, press another Input button on the matrix. We will arbitrarily select Input 2 (button A2). -
Page 41: Saving The Current Routing State
Operating the 16x16 Modular Matrix Routing Basics Saving the Current Routing State The 16x16 Modular Matrix allows routing (and masking) states to be saved to internal non-volatile memory. Each routing state can be recalled at a later time (see page 33). - Page 42 Operating the 16x16 Modular Matrix Routing Basics Select a preset location by pressing any of the first eight input buttons (A1 - A8). The matrix supports up to eight preset locations. For this example, we will store the routing preset using button A1. PRESET MODE SAVE CURRENT SET Press the Set button to store the routing state in the selected location.
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Page 43: Recalling A Saved Routing State
Operating the 16x16 Modular Matrix Routing Basics Recalling a Saved Routing State The 16x16 Modular Matrix allows saved routing (and masking) states to be recalled from memory for instant access. In this example, we will recall the routing preset that we stored in the previous example. In order to clearly see how the recall-process works, try changing the routing state of Input 6 to Output 2. - Page 44 Operating the 16x16 Modular Matrix Routing Basics Press the Set button to recall the routing state from the selected location. The Set button will flash momentarily. Set button PRESET MODE RECALL SAVED SET After a few moments, the selected buttons will turn off and the LCD will return to the Home screen.
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Page 45: Masking
Operating the 16x16 Modular Matrix Masking Masking Outputs “Masking” prevents the output device (display, etc) from receiving an output signal. Instead of powering-down or disconnecting the output device, individual or multiple outputs can be masked. To illustrate masking, we’ll use our original routing example from page Press the Mask button. - Page 46 Operating the 16x16 Modular Matrix Masking Press the Set button to mask the selected outputs. The Set button will flash momentarily. Set button MASK MODE MASK COMPLETED Once the Set button is pressed, the LCD display will indicate that the masking process was successful: MASK MODE MASK COMPLETED...
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Page 47: Getting The Current Masking Status
Operating the 16x16 Modular Matrix Masking Getting the Current Masking Status If the masking state is unknown, it can be queried using the Mask button. Alternatively, the masking state can be retrieved through the Web Interface or by using the command. -
Page 48: Unmasking Outputs
Operating the 16x16 Modular Matrix Masking Unmasking Outputs Once an output (or multiple outputs) has been masked, it can be unmasked. Unmasking an output will allow the video signal to be displayed after a masking operation. We’ll continue with our previous example and unmask Output 6 and Output 7. Press the Mask button. - Page 49 Operating the 16x16 Modular Matrix Masking Press the Set button. The Set button will flash momentarily. Set button MASK MODE MASK COMPLETED Once the Set button is pressed, the LCD display will indicate that the unmasking process was successful: MASK MODE MASK COMPLETED After a few moments, the matrix will return to the Home screen.
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Page 50: Locking The Matrix
Operating the 16x16 Modular Matrix Locking the Matrix Locking the matrix will prevent any changes by disabling all buttons (except the Lock button) on the front panel. This feature is useful in preventing routing or other changes caused by accidentally bumping or pressing the buttons on the front panel. Press the Lock button under the Mode group. -
Page 51: Edid Management
Operating the 16x16 Modular Matrix EDID Management The 16x16 Modular Matrix incorporates EDID management support. Basic EDID functions, such as storing EDID data to inputs can be performed using the buttons on the front panel. Advanced EDID management features are controlled using RS-232 / IP Commands through the Interface. - Page 52 Operating the 16x16 Modular Matrix EDID Management Select the desired input where the EDID will be stored. We will arbitrarily select Input 10, by pressing button B2. EDID DSTOLO MODE Press the Set button. The Set button will flash momentarily. Set button EDID LOADING PLEASE WAIT...
- Page 53 Operating the 16x16 Modular Matrix EDID Management After a few moments, the selected buttons will turn off and the LCD will return to the Home screen. GEFEN MODULAR MATRIX GEFEN MODULAR MATRIX page | 43...
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Page 54: Saving The Default Edid To An Input
Operating the 16x16 Modular Matrix EDID Management Saving the Default EDID to an Input There may be instances when the downstream EDID data is corrupt or the EDID is not being read correctly by the matrix. On the other hand, it may be desirable to use a “generic”... - Page 55 Operating the 16x16 Modular Matrix EDID Management Press the Set button. The Set button will flash momentarily. Set button EDID LOADING PLEASE WAIT Once the Set button is pressed, the matrix will begin copying the default EDID to the specified input. The LCD will indicate that the matrix is copying the EDID: EDID LOADING PLEASE WAIT...
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Page 56: Ir Control
Operating the 16x16 Modular Matrix IR Control Routing Sources using the IR Remote Control Unit The 16x16 Modular Matrix can be controlled using the RMT-16416IR IR remote control unit (not included). The IR remote control unit provides discrete routing between each input and output. -
Page 57: Using The Ir Extender
Operating the 16x16 Modular Matrix IR Control Press button 11 GEFEN MODULAR MATRIX Input 5 has now been routed to Output 11. After a few moments, the Set button and the associated buttons for the routed input and output will turn off. Using the IR Extender There may be situations where the IR sensor is blocked by a cabinet or other mounting device. -
Page 58: Resetting The Matrix
Operating the 16x16 Modular Matrix Resetting the Matrix The 16x16 Modular Matrix can be restored to the factory-default settings. When the matrix is reset, all TCP/IP/UDP settings will be restored to the default settings. In addition, the matrix will be reset to a “1-to-1” routing state (Input 1 > Output 1, Input 2 > Output 2, and so on). -
Page 61: 03 Advanced Operation
16 16 Modular Matrix SOURCES DISPLAYS 03 Advanced Operation RS-232 and IP Configuration ................52 RS-232 Interface ..................52 RS-232 Settings ..................52 IP / UDP Configuration ................53 RS-232 / IP Commands ..................54 EDID Management ..................54 IP Configuration ..................64 Routing and Masking .................. -
Page 62: Rs-232 And Ip Configuration
Advanced Operation RS-232 and IP Configuration RS-232 Interface DE-9 DA-15 RS-232 Controller Matrix DB-25 Only TXD, RXD, and GND pins are used. DC-37 RS-232 Settings Description Setting 19200 Baud rate DD-50 Data bits None Parity Stop bits None Hardware flow control IMPORTANT: When sending RS-232 commands, a carriage return must be included at the end of the command. -
Page 63: Ip / Udp Configuration
Advanced Operation RS-232 and IP Configuration IP / UDP Configuration The 16x16 Modular Matrix supports IP-based control using Telnet, UDP, or the built-in Web-based GUI. To set up IP control, the network settings for the 16x16 Modular Matrix must be configured via RS-232. The default network settings for the matrix are as follows: Description IP Address / Port Description... -
Page 64: Rs-232 / Ip Commands
Advanced Operation RS-232 / IP Commands EDID Management Command Description #edidbatolo Read downstream EDID and stores in any Local Input #ediddetolo Set to default EDID on Local Input #ediddstoba Read downstream EDID and stores in EDID Bank #ediddstolo Read downstream EDID and stores into a Local EDID #lock_edid Locks Local EDID and disables auto-loading after power-up... - Page 65 Advanced Operation RS-232 / IP Commands Examples: #edidbatolo 2 3 6 7 Loading EDID bank 2 to locals Inputs: 3 6 7, please wait..Finished Loading #edidbatolo 5 0 Loading EDID bank 5 to all locals Inputs, please wait..Finished Loading #ediddetolo The #ediddetolo command stores the default (Internal) EDID to the specified input(s).
- Page 66 Advanced Operation RS-232 / IP Commands #ediddstoba The #ediddstoba command reads the downstream EDID and stores it to the specified EDID bank. Syntax: #ediddstoba param1 param2 Parameters: Output [1 ... 16] param1 EDID bank [1 ... 20] param2 Examples: #ediddstoba param1 param2 Loading Downstream EDID 25 to EDID bank 20, please wait..
- Page 67 Advanced Operation RS-232 / IP Commands #lock_edid The #lock_edid command secures the EDID stored on all inputs. This prevents the default EDID from being loaded to all inputs during a power-up procedure. This feature can be enabled or disabled. Syntax: #lock_edid param1 Parameters: Value...
- Page 68 Advanced Operation RS-232 / IP Commands #loedidtolo The #loedidtolo command loads an EDID file and stores it in the specified input. If param1 = 0, then the downstream EDID is stored in all 16 inputs. Syntax: #loedidtolo param1 Parameters: Input [1 ...
- Page 69 Advanced Operation RS-232 / IP Commands #prbaedid The #prbaedid command displays the EDID stored in the specified EDID bank. Syntax: #prbaedid param1 Parameters: param1 EDID bank [1 ... 20] Example: #prbaedid 11 Print the Bank EDID 11 on terminal screen 0x00 0xFF 0xFF 0xFF 0xFF 0xFF 0xFF 0x00 0x10 0xAC 0x35 0x40 0x4C 0x32 0x33 0x32 0x31 0x13 0x01 0x03 0x80 0x41 0x29 0x78...
- Page 70 Advanced Operation RS-232 / IP Commands #prdsedid The #prdsedid command displays the EDID stored in the specified EDID bank. Syntax: #prdsedid param1 Parameters: param1 Output [1 ... 16] Example: #prdsedid 8 Print the Downstream EDID 8 on terminal screen,, please wait... 0x00 0xFF 0xFF 0xFF 0xFF 0xFF 0xFF 0x00 0x10 0xAC 0x35 0x40 0x4C 0x32 0x33 0x32 0x31 0x13 0x01 0x03 0x80 0x41 0x29 0x78...
- Page 71 Advanced Operation RS-232 / IP Commands #predidst The #predidst command displays the EDID used by each input. Syntax: #predidst param1 Parameters: None Example: #predidst EDID table Input| Source |ID |Monitor name 1| Default|GFN |GEFEN_XPT_SL 2| Default|GFN |GEFEN_XPT_SL 3| Bank 2|MEI |PanasonicTV0 4| Bank 2|MEI |PanasonicTV0 5| Bank...
- Page 72 Advanced Operation RS-232 / IP Commands #prloedid The #prloedid command displays the EDID stored in the specified input. Syntax: #prloedid param1 Parameters: param1 Input [1 ... 16] Example: #prloedid 3 Print the local Input 3 on terminal screen, please wait..0x00 0xFF 0xFF 0xFF 0xFF 0xFF 0xFF 0x00 0x34 0xA9 0xAF 0xA0 0x01 0x01 0x01 0x01 0x00 0x14 0x01 0x03 0x80 0x00 0x00 0x78...
- Page 73 Advanced Operation RS-232 / IP Commands #set_bank_name The #set_bank_name command sets the name of the specified EDID bank. The bank cannot exceed 20 characters in length. Spaces are not permitted when naming EDID banks. If a space is required, use the underscore (“_”) character. Use the #show_bank_name command to display the specified bank name.
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Page 74: Ip Configuration
Advanced Operation RS-232 / IP Commands IP Configuration Command Description #ipconfig Displays the current IP configuration #resetip Resets the IP configuration to factory-default settings #set_http_port Sets the Web server listening port #set_tcp_term_pass Sets the TCP terminal password #set_tcp_term_port Sets the TCP terminal port #set_udp_port Sets the local UDP port #set_udp_rip... - Page 75 Advanced Operation RS-232 / IP Commands #resetip The #resetip command resets the IP configuration to factory-default settings. The matrix must be rebooted after executing this command. Syntax: #resetip Parameters: None #set_http_port The #set_http_port command specifies the Web server listening port. The matrix must be rebooted after executing this command.
- Page 76 Advanced Operation RS-232 / IP Commands #set_tcp_term_pass The #set_tcp_term_pass command sets the TCP terminal password. The default password is Admin. The matrix must be rebooted after executing this command. The password cannot exceed 20 characters in length. Syntax: #set_tcp_term_pass param1 param2 param3 Parameters: Old password param1...
- Page 77 Advanced Operation RS-232 / IP Commands #set_udp_port The #set_udp_port command sets the local UDP server listening port. The default port setting is 21. The matrix must be rebooted after executing this command. Syntax: #set_udp_port param1 Parameters: Port [1 ... 65535] param1 Example: #set_udp_port 56...
- Page 78 Advanced Operation RS-232 / IP Commands #set_udp_rport The #set_udp_rport command sets the remote UDP listening port. The default UDP remote port is 50008. The matrix must be rebooted after executing this command. Syntax: #set_udp_rport param1 Parameters: Port [1 ... 65535] param1 Example: #set_udp_rport 1024...
- Page 79 Advanced Operation RS-232 / IP Commands #show_tcp_term_pass The #show_tcp_term_pass command displays the current TCP terminal password. Use the #set_tcp_term_pass command to set the password. Syntax: #show_tcp_term_pass Parameters: None Example: #show_tcp_term_pass TCP Terminal password: reindeer #show_user_name The #show_user_name command displays the TCP terminal user name for the current session.
- Page 80 Advanced Operation RS-232 / IP Commands #sipadd The #sipadd command sets the IP address of the matrix. The IP address must be entered using dot-decimal notation. The matrix must be rebooted after executing this command. Syntax: #sipadd param1 Parameters: IP address param1 Example: #sipadd 192.168.1.127...
- Page 81 Advanced Operation RS-232 / IP Commands #use_tcp_term_pass The #use_tcp_term_pass command enables or disables the login credentials when starting a terminal session. Syntax: #use_tcp_term_pass param1 Parameters: Value [0 ... 1] param1 Value Description Disable password prompt Enable password prompt Example: #use_tcp_term_pass 1 TCP Terminal password at login is set to ON #use_udp_access The #use_udp_access command enables or disables UDP access mode.
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Page 82: Routing And Masking
Advanced Operation RS-232 / IP Commands Routing and Masking Command Description #callpreset Restores the specified routing / masking preset #maskout Masks the specified outputs #prpreset Displays the current list of presets #savepreset Saves the current routing / masking preset #set_input_name Assigns an input with the specified name #set_output_name Assigns an output with the specified name... - Page 83 Advanced Operation RS-232 / IP Commands #maskout The #maskout command masks the specified outputs. If param2 = 0, then all outputs will be masked. At least one output must be specified. No more than 9 outputs can be specified at a time. Run this command again if additional outputs require masking. Syntax: #maskout param1 [...
- Page 84 Advanced Operation RS-232 / IP Commands #prpreset The #prpreset command displays the current list of presets in tabular form. Syntax: #prpreset Parameters: None Example: #prpreset Preset table Set | Outputs 1-16 | M 2 A 2 A 3 A 4 M 5 A 6 A 7 A 8 A 9 M10 M11 A12 A13 A14 A15 A16 | A14 A13 A11 A10 A12 A12 A13 A14 A10 A10 A10 A12 A12 A15 A10 A12 | A11 A 2 A 3 A 4 A 5 A 6 A 7 A 8 A 9 A10 A11 A12 A13 A14 A15 A16 | A13 A14 A15 A14 A15 A13 A12 A10 A17 A11 A12 A13 A14 A15 A16 A17...
- Page 85 Advanced Operation RS-232 / IP Commands #savepreset The #savepreset command saves the current routing and masking state to a specified preset. To restore a saved preset, use the #callpreset command. Syntax: #savepreset param1 Parameters: Preset [1 ... 16] param1 Example: #savepreset 2 Current routing state is saved to preset #set_input_name...
- Page 86 Advanced Operation RS-232 / IP Commands #set_output_name The #set_output_name command names the specified output. The name of the output cannot exceed 20 characters in length Spaces are not permitted when naming outputs. If a space is required, then use the underscore (“_”) character. Syntax: #set_output_name param1 param2 Parameters:...
- Page 87 Advanced Operation RS-232 / IP Commands #show_input_name The #show_input_name command displays the name of the specified input. Syntax: #show_input_name param1 Parameters: param1 Input [0 ... 16] Example: #show_input_name 12 Input 12 - signal_generator #show_output_name The #show_output_name command displays the name of the specified output. Syntax: #show_output_name param1 Parameters:...
- Page 88 Advanced Operation RS-232 / IP Commands #show_preset_name The #show_preset_name command displays the name of the specified preset. Syntax: #show_preset_name param1 Parameters: param1 Preset [1 ... 16] Example: #show_preset_name 2 Preset 2 - Studio51 #unmaskout The #unmaskout command unmasks the specified output(s). Multiple outputs can be specified.
- Page 89 Advanced Operation RS-232 / IP Commands The m command displays the current matrix status in tabular form. The required DIP switch settings for the IR remote control unit are also displayed, based on the current IR channel of the matrix. Do not precede this command with the “#” symbol. Syntax: Parameters: None...
- Page 90 Advanced Operation RS-232 / IP Commands The r command routes the specified input to the specified outputs. Up to eight outputs can be specified at a time. Do not precede this command with the “#” symbol. If param2 = 0, then the specified input will be routed to all outputs.
- Page 91 Advanced Operation RS-232 / IP Commands The s command routes the specified inputs to all outputs. Do not precede this command with the “#” symbol. If param1 = 0, then the matrix will be placed in a 1-to-1 routing state. In other words, Input 1 is routed to Output 1, Input 2 is routed to Output 2, and so on.
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Page 92: System
Advanced Operation RS-232 / IP Commands System Command Description #factory_reset Resets the matrix to factory-default settings #fadefault Resets the routing and masking to factory-default settings #fw_upgrade Used to update the 16x16 Modular Matrix firmware #help Displays a list of available RS-232 / Telnet commands #hpdto Cycles with HPD line on the specified output #lock_fo... - Page 93 Advanced Operation RS-232 / IP Commands #fadefault The #fadefault command resets the routing and masking to factory-default settings. This command is similar to the #factory_reset command, except that TCP/IP settings are preserved. Syntax: #fadefault Parameters: None Example: #fadefault Reset to factory default, Please wait Routing 1-1,2-2,...
- Page 94 Advanced Operation RS-232 / IP Commands #help The #help command displays the list of available RS-232 / IP commands. The #help command can also be used to provide help on a specific command. Syntax: #help [param1] Parameters: Command (optional) param1 Notes: When asking for help on a specific command, the “#”...
- Page 95 Advanced Operation RS-232 / IP Commands #hpdto The #hpdto command cycles the HPD line on the specified input. This command is the equivalent of performing a physical hot-plug (disconnecting and reconnecting the input cable) on the source device. Syntax: #hpdto param1 Parameters: Input [1 ...
- Page 96 Advanced Operation RS-232 / IP Commands #reboot The #reboot command reboots the matrix. This is the equivalent of physically disconnecting and reconnecting the AC power cord to the matrix. param1 must be included as part of the command at all times. Syntax: #reboot param1 Parameters:...
- Page 97 Advanced Operation RS-232 / IP Commands #set_ir The #set_ir command sets the IR channel of the matrix. In order for the included IR remote control unit to function correctly with the matrix, both the matrix and the IR remote must share the same IR channel. After executing this command, the DIP switch settings for the included IR remote control unit are returned.
- Page 98 Advanced Operation RS-232 / IP Commands #show_temp The #show_temp command displays the temperature of each board within the matrix. Syntax: #show_temp Parameters: None Example: #show_temp Temperature result [C deg] for UI board:34 Temperature result [C deg] for BP board sensor1 (Mindspeed) - 47 sensor2 (power) - 39 Temperature result [C deg] for Inputs board...
- Page 99 Advanced Operation RS-232 / IP Commands #show_ver_data The #show_ver_data command displays the current hardware and firmware version. Syntax: #show_ver_data Parameters: None Example: #show_ver_data UI Firmware Release version 0.4.7 Release date: Jan 24 2013 Release time: 13:27:36 BP Firmware Release version 0.4.4 Output Firmware Release version: 1|0.3.13 2|0.0.0...
- Page 100 Advanced Operation RS-232 / IP Commands #show_voltage The #show_voltage command displays the input and output board voltages. Syntax: #show_voltage Parameters: None Example: #show_voltage ADC UI measurment result: VCC CORE 1.8, Value = 1864 mVolt PSU1 - DS460 PSU1 PSOK, Value = 3058 mVolt PSU1 Imon, Value = 196 mV ->...
- Page 101 Advanced Operation RS-232 / IP Commands The f command enables / disables the +5V on the specified input. Do not precede this command with the “#” symbol. Syntax: f param1 param2 Parameters: Input [1 ... 16] param1 Value [0 ... 1] param2 Value Description...
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Page 102: Web Interface
Advanced Operation Web Interface Using the built-in Web Server Access the built-in Web interface by entering the IP address of the matrix that was specified in step 3 under IP / UDP Configuration (page 51). Once connected to the matrix, the login screen will be displayed. -
Page 103: Routing ► Routing
Advanced Operation Web Interface The Web interface is divided into four main pages: Routing, Status, Manage EDID, and Configuration. Each of these pages is represented by a tab. Click on the desired tab to open the its page. Each page also has it’s own set of tabs which can be accessed. When the Web interface is opened, the Routing page / tab will be displayed. - Page 104 Advanced Operation Web Interface Lock Matrix Locks / unlocks the matrix. When the matrix is locked, no modifications can be made using the Web GUI. When the matrix is locked, the button text will read “Unlock Matrix” and a red bar will appear across the top portion of the screen with the text “Matrix is LOCKED”.
- Page 105 Advanced Operation Web Interface Name Displays the current name of each output. The name of each output can be #set_output_name changed. Refer to the for details on naming outputs. Output Click to place a check mark in the box and select the desired output. Multiple outputs can be selected at a time.
- Page 106 Advanced Operation Web Interface Log Out Click here to terminate the current Web session are return to the login page. Save Routing Preset Saves the current routing state to memory. Click the drop-down list to select the desired routing preset. Click the Save button to save the preset to memory.
- Page 107 Advanced Operation Web Interface Routing ► Preset Names Name Type the desired name of the Preset in this field. Save Changes Click this button to save the Preset Name. Cancel Click this button to cancel the name change(s). page | 97...
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Page 108: Routing ► I/O Names
Advanced Operation Web Interface Routing ► I/O Names Name Save Changes Type the desired name of Click this button to save the Input / Output each Output or Input in these name. fields. Cancel Click this button to cancel the name change(s). page | 98... -
Page 109: Routing ► +5V
Advanced Operation Web Interface Routing ► +5V WARNING: Use caution when applying power to inputs. If the source device supplies +5V on the input, then enabling the +5V may cause damage to the source and/or the 16x16 Modular Matrix. Refresh LOCK Power Updates the Web page to reflect Enables/disables the power lock... - Page 110 Advanced Operation Web Interface Check All Places a check mark in each box under the +5V column. Clear All Clears all check marks from the +5V column. Click this button to enable +5V on the selected input(s). See the previous page for information on selecting inputs.
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Page 111: Routing ► Output Masks
Advanced Operation Web Interface Routing ► Output Masks Refresh Updates the Web page to reflect the new Input and/or Output Name. Output # Indicates the number of each output. If the output has been masked, it will be highlighted in blue (as shown). Name The current name of each output. - Page 112 Advanced Operation Web Interface Check All Places a check mark in each box under the Mask column. Clear All Clears all check marks from the Mask column. Click this button to enable masking on the selected output(s). See the previous page for information on selecting inputs.
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Page 113: Status ► In / Out
Advanced Operation Web Interface Status ► In / Out The In/Out tab provides information on the hardware and firmware of the 16x16 Modular Matrix. The OUTPUTS column lists each Output Card that is installed. The INPUTS column lists each Input Card that is installed. The information presented on this screen is used by Gefen Technical Support for troubleshooting purposes, only. -
Page 114: Status ► System
Advanced Operation Web Interface Status ► System The System tab provides additional detailed information on the 16x16 Modular Matrix hardware. The information presented on this screen is used by Gefen Technical Support for troubleshooting purposes, only. page | 104... -
Page 115: Manage Edid ► Assign
Advanced Operation Web Interface Manage EDID ► Assign Lock EDID Secures the Local EDID and disables the automatic loading after power-up. #lock_edid See the command for more information. If the Lock EDID button is clicked (enabled), the “EDID locked on power cycle” message will be displayed in red. - Page 116 Advanced Operation Web Interface Input # Indicates the number of each input. Name The current name assigned to each input. The name of each input can be assigned using the Web interface or by using the #name command. Checkbox Click to select the Input(s) to where the EDID source will be copied.
- Page 117 Advanced Operation Web Interface EDID Source Displays the EDID source used by the input. In the illustration above, the EDID source is Output 1. EDID Name Displays the name of the current EDID being used on the input. Copy Copies the EDID source to the selected input(s). Cancel Clears all check marks from each box.
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Page 118: Manage Edid ► Bank Names
Advanced Operation Web Interface Manage EDID ► Bank Names Bank # Indicates the EDID bank number. Name Type the desired name of the EDID bank in this field. Click the Save Changes button to save the bank name. Click the Cancel button to restore the previous name. Save Changes Cancel Saves the current name... -
Page 119: Manage Edid ► Upload / Download
Advanced Operation Web Interface Manage EDID ► Upload / Download Upload Click this button to upload the EDID Browse... to the specified bank. Click this button to select the EDID file to be uploaded. Select Bank Click this drop-down list to select the bank SAVED EDIDS to where the EDID will be uploaded. -
Page 120: Configuration ► Change Ip Settings
Advanced Operation Web Interface Configuration ► Change IP Settings Change IP Settings Assigns the IP address, subnet, gateway, HTTP listening port, Telnet port, and UDP port. The MAC address cannot be changed. Save Settings Saves the current settings for the Change IP Settings. After clicking this button, the Web interface will display a dialog indicating that the matrix must be rebooted for changes to take effect. -
Page 121: Configuration ► Tcp / Telnet Terminal Login Settings
Advanced Operation Web Interface Configuration ► TCP / Telnet Terminal Login Settings Old Password Type the current (old) password in this field. New Password Type the new password in this field. Force Password on Connect Click this check box to have the matrix prompt for a password each time a Telnet session is started. -
Page 122: Configuration ► Udp Connection Settings
Advanced Operation Web Interface Configuration ► UDP Connection Settings Remote UDP IP Address Type the remote UDP IP address in this text box. Remote UDP Port Enter the remote UDP port in this text box. Enable UDP Access Check this box to enable UDP access. If this box is unchecked, the UDP access will be unavailable. -
Page 123: Configuration ► Web Login Settings
Advanced Operation Web Interface Configuration ► Web Login Settings Username Click this drop-down list to select the username to be changed. Old Password Type the current (old) password in this field. New Password Type the new password in this field. Confirm Password Re-type the new password in this field. -
Page 124: Configuration ► System Configuration
Advanced Operation Web Interface Configuration ► System Configuration NOTE: As of this writing, the firmware upgrade procedure is not functional from within the Web interface. This feature will be available in a future release of the product. The firmware upgrade procedure must be performed using RS-232. - Page 125 Advanced Operation Web Interface Browse Click this button to select the firmware file to be uploaded. See the Firmware Upgrade Procedure for instructions on upgrading the firmware Browse Click this button to select the saved configuration file to be loaded into memory. Restore Uploads the selected configuration file to the matrix.
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Page 127: 04 Appendix
16 16 Modular Matrix SOURCES DISPLAYS 04 Appendix Card Removal and Installation ................118 Firmware Upgrade Procedure ................121 Specifications ....................125 Modular Matrix 8 DVI Input Card ............... 126 Modular Matrix 8 DisplayPort Input Card ..........126 Modular Matrix 8 ELR Input Card .............. 126 DVI ELR Sender with POL ................ -
Page 128: Card Removal And Installation
Appendix Card Removal and Installation Although each 16x16 Modular Matrix is sold pre-configured, both input and output cards can be removed or added to fit the needs of the application. Each module can easily be removed and installed without using any special tools. WARNING: Modules are sensitive to Electrostatic Discharge (ESD) which can damage the module. - Page 129 Appendix Card Removal and Installation Grab the knobs on both sides of the card, between the thumb and index finger, and gently pull to remove the card from the matrix, as shown on the next page. If a cover plate is being removed, then loosen the fastening screws on both sides of the cover plate and gently remove the cover plate.
- Page 130 Appendix Card Removal and Installation Position either hand on both sides of the matrix and firmly push the card with both thumbs until it snaps in place (32x32 Modular Matrix shown). Secure the card by hand-tightening the fastening screws. Do not overtighten the screws.
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Page 131: Firmware Upgrade Procedure
Appendix Firmware Upgrade Procedure The following items are required to update firmware: • GefenPRO 16x16 Modular Matrix • Computer running Windows XP • Terminal-emulation program (e.g. HyperTerminal) • RS-232 cable (do not use a null-modem cable) • Firmware files: MMTX_BP_[version].bin, MMTX_DVIinout_[version].bin, MMTX_UI_[version].bin To begin the update procedure use the #fw_update command. - Page 132 Appendix Firmware Upgrade Procedure The firmware update procedure will begin. This process should take a couple of minutes and will update the back panel boards. After the firmware update is successful, the following will be displayed in the terminal program: Verify Check sum, please wait Download Completed Successfully! MMTX_BP_e_0_3_43.bin...
- Page 133 Appendix Firmware Upgrade Procedure 10. Repeat steps 3 through 9 using the MMTX_DVIinout_[version].bin file. The update process for the Input / Output boards may take several minutes. After the update process is complete, the following will be displayed in the terminal window: Verify Check sum, please wait Download Completed Successfully!
- Page 134 Appendix Firmware Upgrade Procedure 11. Finally, repeat steps 3 through 9 using the MMTX_UI_[version].bin file. This file updates the Web UI. This file is relatively large and this process may take several minutes. After the update process is complete, the following will be displayed in the terminal window: Verify Check sum, please wait Download Completed Successfully!
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Page 135: Specifications
Appendix Specifications Supported Formats Resolutions (max.) • 1920 x 1200 (WUXGA) • 1080p Full HD Electrical Maximum Pixel Clock • 165 MHz Input Video Signal • 1.2V p-p Connectors Inputs (16 x max.) • 8 x DVI-I, 29-pin, female (digital only) (organized into banks of 8, depending •... -
Page 136: Modular Matrix 8 Dvi Input Card
Appendix Specifications Modular Matrix 8 DVI Input Card GEF-MOD-848DVI-I Maximum Pixel Clock • 165 MHz Input Connectors • 8 x DVI, 29-pin, female (digital only) Power Indicator • 1 x LED, blue Dimensions (W x H x D) • 15.75” x 1” x 10.5” (400mm x 26mm x 267mm) Unit weight •... -
Page 137: Dvi Elr Sender With Pol
Appendix Specifications DVI ELR Sender with POL GEF-DVI-ELRPOL-S Maximum Pixel Clock • 165 MHz ELR Connectors • 8 x RJ-45, female Power Indicator • 1 x LED, blue Link Indicators • 8 x LED, green POL Indicators • 8 x LED, red Dimensions (W x H x D) •... -
Page 138: Dvi Sender Over 1 Fo
Appendix Specifications DVI Sender over 1 FO GEF-DVI-1FO-S Video Input Connector • 1 x DVI-I, 29-pin, female (digital only) Fiber Optic Connectors • SC-type Power Supply • 1 x 5V DC, locking Power Consumption • 10W (max.) Dimensions (W x H x D) •... -
Page 139: Dvi Elr Receiver With Pol
Appendix Specifications DVI ELR Receiver with POL GEF-DVI-ELRPOL-R Maximum Pixel Clock • 165 MHz Video Output Connector • 1 x DVI, 29-pin, female (digital only) ELR Connector • 1 x RJ-45, shielded Dimensions (W x H x D) • 4.3” x 3.4” x 1.1” (110mm x 85mm x 28mm) Unit weight •... - Page 140 Stretch It, Switch It, Split It. Gefen’s Got it. ® 20600 Nordhoff St., Chatsworth CA 91311 1-800-545-6900 818-772-9100 fax: 818-772-9120 www.gefenpro.com support@gefenpro.com This product uses UL or CE listed power supplies.
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