vissonic VS Series User Manual

Full intelligent splicing processor hardware

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VISSONIC ELECTRONICS LIMITED

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Summary of Contents for vissonic VS Series

Page 1 VISSONIC ELECTRONICS LIMITED...
Page 2 The meaning of symbols ■ Safety instructions For your safe and correct use of equipments, we use a lot of symbols on the equipments and in the manuals, demonstrating the risk of body hurt or possible damage to property for the user or others.
Page 3 Important note Warning In order to ensure the reliable performance of the equipment and the safety of the user, please observe the following matters during the process of installation, use and maintenance: The matters needing attention of installation  Please do not use this product in the following places: the place of dust, soot and electric conductivity dust, corrosive gas, combustible gas;...
Page 4 Matters needing attention in discarding product  Electrolytic explosion: the burning of electrolytic capacitor on circuit boards may lead to explosion;  Please collect and process according to the classification, do not put into life garbage;  Please process it as industrial waste, or according to the local environmental protection...
Page 5 Please use the latest user manual. The copyright of the manual belongs to VISSONIC ELECTRONICS LIMITED. This manual is protected by the Copyright Law of the People's Republic of China and other intellectual property laws and regulations.
Page 6: Table Of Contents
Contents 1. Overview ............................7 1.1. Product equipment ....................... 7 1.2. Features ..........................7 1.3. Installation ........................... 9 1.4. System diagram ......................... 10 2. Hardware description ........................11 2.1. VW-VH1616 panel Diagram .....................11 2.2. VW-VH3232 panel Diagram .....................12 2.3. VW-VH6868 panel Diagram .....................13 2.4.
Page 7: Overview
1. Overview The VS Series Hybrid Splicing Matrix is a modular LED/LCD processor designed for multimedia environments, with options in 3.5U, 6.5U, and 11U sizes. It supports 12 to 52 mixed input channels, ensuring flexibility and stability through FPGA-based hardware design. Featuring a front panel LCD display and buttons, the processor enables real-time IP address display and configuration.
Page 8 IP addresses and control over device switching.  Modular design supporting mixed insertion of input/output cards, online maintenance expansion, and redundant power supply.  Cross-conversion of various signals, including fiber, DVI, HDMI, and HDBaseT.  Support for 4K resolution input signal capture, seamless output, and splicing output.
Page 9: Installation
1.3. Installation...
Page 10: System Diagram
1.4. System diagram VW-VH3232 HDMI HDMI HDMI HD camera HDMI 4K HD TV RS-232 Control software VIS-HD200 R HDMI VIS-HD200 T HDMI Optical fiber KVM switching system Server arry Power amplifier Mobile phone WiFi wireless router IPAD Audio CAT5e cable...
Page 11: Hardware Description
2. Hardware description 2.1. VW-VH1616 panel Diagram VW-VH1616 front panel: VW-VH1616 rear panel:...
Page 12: Vw-Vh3232 Panel Diagram
2.2. VW-VH3232 panel Diagram VW-VH1616 front panel: VW-VH1616 rear panel:...
Page 13: Vw-Vh6868 Panel Diagram
2.3. VW-VH6868 panel Diagram VW-VH6868 front panel:...
Page 14: Connection Of The Matrix And Peripheral Devices
VW-VH6868 rear panel: 2.4. Connection of the matrix and peripheral devices 2.4.1 Input Interface Description Input any combination of input signal types for VS-HM4I-4K and VS-HD4I-4K...
Page 15: Output Interface Description
The hybrid splicing matrix features a standard RS-232 serial communication port. It supports switching via infrared remote control and can be controlled by various systems, including personal computers, VISSONIC control systems, and other third-party control systems 2.4.4 Matrix RS-232 Control Interface "The hybrid splicing matrix offers 2 RS-232 serial interfaces (one DB9 female, one DB9 male) for...
Page 16: Connection Between The Matrix And Control Computer
Signal Ground 2.4.5 Connection between Matrix Control Computer Connect the computer's COM1 or COM2 serial port to the matrix host's RS-232 port using an RS-232 cable. Use control commands as outlined in 'Chapter Five, Instruction Set' for matrix control.
Page 17 Matrix Ethernet Interface Hardware connection method The matrix can be hardware connected to the Ethernet adapter in two ways: 1) Cross-Connection Method The matrix and the control computer are directly connected using a CAT5 crossover cable. 2) Straight-Through Connection Method...
Page 18 RJ45 Straight-Through and Crossover Cable Wiring Guide Using CAT5e cables in the system, RJ-45 connectors (crystal heads) are installed at both ends to connect network devices. The standard wiring ensures symmetry for interference cancellation, with four color-coded pairs of finely twisted wires in CAT5e cables.
Page 19 T568B standard. HDMI Port Description HDMI-A Type Line Description: Connect various devices like DVD players, desktop computers, projectors, etc., for versatile audio-video usage, including projectors, video recorders, computer monitors, amplifiers, and more. Function TMDS Data2+ TMDS Data2 Shield TMDS Data2–...
Page 20: Hardware Description
3. Hardware description 3.1. Matrix Panel Description 3.1.1 VW-VH1616 Panel Description VW-VH1616 Front Panel: VW-VH1616 Rear Panel: A. Display Screen – Shows matrix status, commands, and results. B. 0~9 Channel Buttons – Input/output channel selection, / and ALL for isolating multiple channels, and ALL for selecting all output channels.
Page 21: Card Description
4. Card Description 4.1. Card Categories Appearance Mode/Name VS-HM4I-4K HDMI input card VS-HD4I-4K HDBasT input card VSP-HM2O-4K output card (2 HDMI signal output) VSP-HM4O-4K HDMI output card(4 signal output) VSP-HD2O-4K Seamless Output Card(2 HDBaseT signal output) VSP-HD4O-4K HDBaseT Output...
Page 22: Vs-Hd4I Input Card Features
 ★Input distance up to 10 meters.  Hot-swappable, supports seamless switching of audio and video signals.  ★Supports selection between 3.5mm analog audio and HDMI embedded audio input.  ★Supports digital audio de-embedding to 3.5mm audio jacks.  Supports EDID reading function.
Page 23: Vsp-Hm2O 4K Splicing Output Card Features
 Hot-swappable and supports serial port switching.  Compatible with HDBaseT protocol.  Supports seamless output on 4 twisted pair channels, with onboard RS232 interface.  Single screen can open 2 windows, signals can overlay, roam, and scale freely.
Page 24: Specifications And Technical Parameters
 2 DB9 serial ports for peripheral control.  1 USB reserved interface.  1 RJ45 interface for programmable functions.  1 4P Phoenix keyboard interface.  1 3P Phoenix serial port for debugging and command reception.  Hot-swappable design.
Page 25 Consumption VS-HD4I-4K & VSP-HD4O-4K parameters Model VS-HD4I VSP-HD4O Specification Link port Input/output Interfaces 4 high-speed RJ45 ports and 4 3-pin Phoenix connectors Supported protocol HDBaseT protocol Pixel Bandwidth 600MHz, full digital Interface Bandwidth 6Gbps, full digital(Total 18Gbps, each color is 6Gbps) Resolution 4096×2160@60(Backward Compatible)
Page 26 Interface Bandwidth 6Gbps full digital (total 18Gbps, each color is 6Gbps) Resolution 4096x2160@60 (Backward Compatible) Bit Clock Jitter (Clock <0.15 Tbit Jitter) Bit Rise Time <0.3Tbit (20%--80%) Bit Fall Time <0.3Tbit (20%--80%) Maximum Transfer 5nS(±1nS) Interface 4 HDMI-A interface、2 3.5mm audio jack Signal Strength T.M.D.S.
Page 27 Controls up to 68 screens, manages multiple screen groups, and Control Scale supports saving/recalling 255 presets Signal Types High-speed differential signals defined in the HDBaseT protocol (POE) via Ethernet Powered with POC (+12V), compatible with our CAT5 series cable...
Page 28 Keyboard Control Port Structure +5V=DC5V,+=DATA+,-=DATA- Ethernet Control Ethernet Control Interface RJ-45 Female Connector Ethernet Control Protocol TCP/IP Ethernet Control Rate Adaptive 10M/100M, Full Duplex or Half Duplex Specifications System Operating Power 100VAC~240VAC ， 50/60Hz, international adaptive power supply Storage, Operating Temperature 0～+50°C...
Page 29: Instruction Set
5. Instruction Set 5.1. VW-VH Matrix Commands Serial Port Protocol: Baud Rate: 9600 Data Bits: 8 Stop Bits: 1 Parity: None Ethernet: Protocol: TCP, IP: 192.168.1.190 Port: 6666 Symbolic Command Meanings: [X1], [X2]... [Xn]: Corresponding input ports [Y1], [Y2]... [Yn]: Corresponding output ports [TX1], [TX2]...
Page 30 PJ_HDMI/PJ_DVI/ PJ_CAT/PJ_HDMI2 /PJ_DVI2/PJ_CAT2 /PJ_DMI4K/U_BO OT/Unknow /:ScanPortResolutio <Resolution/7/In/19 Scan resolution 20x1080x60Hz> Analyze <temp/[5,8]/In/24.5 AllTemperatureIn! temperature of all > input cards Analyze AllTemperatureOut <temp/[9,12]/Out/34 temperature of all .5> output cards Analyze the status AllAnalyseIn! of the input card Analyze the status...
Page 31 0x0B: Solid color (depending on RGB values). [x]:1 Input 2： Output [y]:Channel [z]:0x00: Pass-through. 0x01: Red, green, and blue color bars 0x02:16-level grayscale. 0x03:32-level grayscale. No graphic input 0x04:64-level <#SignalMode[x],[ port outputs <SignalMode[x],[y], grayscale. y],[z],[r],[g],[b]> graphics (input is [z],[r],[g],[b]>...
Page 32 Close the signal of All$. all output ports Video and infrared All#. serial ports correspond directly. Route [RX1] [TY1] serial [RX1]R[TY1]. communication RS:[RX1]->[TY1] (RS232 forward channel) Route [RX1] [TY1] serial [RX1]S[TY1]. communication TS:[RX1]->[TY1] (RS232 reverse channel). Connect input IR [RX1] to output IR [RX1]Q[TY1].
Page 33 Query the current <SUBR:[X1].[X2].[ <^SUBR> network subnet X3].[X4]> mask. Query the current <GAR:[X1].[X2].[X <^GAR> network gateway 3].[X4]> Query the current <SHAR:[X1]:[X2]:[ <^SHAR> network hardware X3]:[X4]:[X5]:[X6] address. > network <#SPORT[5000]> port number of the <SPORT:[X1]> matrix <#SIPR[192].[168]. matrix <SIPR:[X1].[X2].[X [0].[2]>...
Page 34 68].[0].[1]> card gateway. .[X3].[X4]> <#HSSUBR[255].[ preview <HGAR:[X1].[X2].[ 255].[255].[0]> card subnet mask. X3].[X4]> preview <#HSSHAR[98]:[0 <HSHAR:[X1]:[X2] card hardware 0]:[c1]:[00]:[00]:[0 :[X3]:[X4]:[X5]:[X6 address 2]> ]> hexadecimal). Restore factory <#HSNETDEFAU settings LT> preview card. <^HSResolution_is_ 1280*720> <^HSResolution_is_ 800*600> <^HSResolution> Current resolution. <^HSResolution_is_ 640*480>...
Page 35 VGA setting Set to VGA signal $[x]VGAIn! <$[x]VGAIn!> input Set to YPbPr signal $[x]YUVIn! <$[x]YUVIn!> input [x] ： baud rate <#Cmd_Baud[x]> 0:9600 1:38400 2:115200 3:230400 COM0 <#Cmd_Port[x]> <Cmd_Port[x]> COM1 2:KeyBoard Return command <Cmd_Port[x]> <^Cmd_Port> port and baud rate <Cmd_Baud[x]>...
Page 36 Character <#CharDir[x1]> movement 1: left 2: right <CharDir[x1]> direction Erase <CharErase> characters of the <Set Succeed!> current channel Input crop Returns <^CropInput[x1],[x2 <^CropInput[x1]> cropping status of ],[x3],[x4],[x5]> input [x1] Input image crop: Input Horizontal position Vertical position <#CropInput[x1],[x...
Page 37 Channel [x] output analog $[x]AudioAOut! audio/Phoenix <Set Succeed!> infrared serial port input Channel [x] output digital $[x]AudioDOut! audio/network port <Set Succeed!> infrared serial port input Channel [x] output $[x]AudioOn! <Set Succeed!> audio is turned on...
Page 38 1280x768x60Hz (except SDI) output resolution $[x]->1280x800x6 <$[x]->1280x800x6 channel 0Hz! 0Hz!> 1280x800x60Hz (except SDI) output resolution $[x]->1280x960x6 <$[x]->1280x960x6 channel 0Hz! 0Hz!> 1280x960x60Hz (except SDI) output resolution $[x]->1280x1024x <$[x]->1280x1024x channel 60Hz! 60Hz!> 1280x1024x60Hz (except SDI) output resolution $[x]->1360x768x6 <$[x]->1360x768x6 channel 0Hz! 0Hz!>...
Page 39 $[x]->1920x1080x channel <$[x]->1920x1080x 25Hz! 1920x1080x25Hz 25Hz!> (valid HDMI card) output resolution $[x]->1920x1080x channel <$[x]->1920x1080x 30Hz! 1920x1080x30Hz 30Hz!> (valid HDMI card) output $[x]->1920x1080x resolution <$[x]->1920x1080x 50Hz! channel 50Hz!> 1920x1080x60Hz output $[x]->1920x1080x resolution <$[x]->1920x1080x 60Hz! channel 60Hz!> 1920x1080x60Hz output resolution $[x]->1920x1200x...
Page 40 2560x1080x30Hz output $[x]->3840x2160x resolution <$[x]->3840x2160x Only 4K cards 25Hz! channel 25Hz!> 3840x2160x25Hz output $[x]->3840x2160x resolution <$[x]->3840x2160x Only 4K cards 30Hz! channel 30Hz!> 3840x2160x30Hz output $[x]->4096x2160x resolution <$[x]->4096x2160x Only 4K cards 25Hz! channel 25Hz!> 4096x2160x25Hz output $[x]->4096x2160x resolution <$[x]->4096x2160x Only 4K cards...
Page 41 <#EchoOpen> Turn on echo <EchoOpen> <#EchoClose> Turn off echo <EchoClose> Query echo <EchoOpen><Echo <^EchoState> status Close> EDID operation commands Copy the EDID of [R]EDIDTo[T]. channel [R] output to input channel [T] <#UpdateEDID[x]/ Update the EDID [data]> of the [x]th input UpdateEnd.
Page 42 Update the URL address specific channel. <#SetChnStreamA [x1]: Channel 1 or <Set Succeed!> ddr/[x1]/[x2]/[x3]> [x2]: Corresponding channel image, [x3]: Signal list ID split screen mode <#SetChnVoMode[ single screen, <SetChnVoMode[x] x]> screens, 9 screens, > screens, screens 0: Output one port <#SetCardMode[x]...
Page 43 Subtitle <#TitleBgColor[x], <^TitleBgColor[x],[ background color [R],[G],[B]> R],[G],[B]> R, G, B <#TitleLeft[x]> Subtitles move left <^TitleLeft[x]> Subtitles move <#TitleRight[x]> <^TitleRight[x]> right Subtitle moving speed (moving <#TitleSpeed[x],[y] <^TitleSpeed[x],[y] speed > > means movement) <#TitleColor[x],[R] Subtitle color R, G, <^TitleColor[x],[R], ,[G],[B]> [G],[B]>...
Page 44 ],[y]> size (maximum 255) Real-time time display position <#CLOCK_POS[x] [y]: horizontal ,[y],[z]> position [z]: vertical position example, system time <#Rtc_Clock[x],[x Tuesday, November year, month, day, 1],[x2],[x3],[x4],[x 16, 2021 14:30:05 hour, minute, 5]> <#Rtc_Clock2021/1 second, week 1/16/14/30/05/2> <^CLOCK_INFO[ Clock display Return switch, size x]>...
Page 45 [x1]: number horizontal window rows [x2]: number of vertical window rows Splicing wall [x] rows and columns [x1]: number <#VIR[x],[x1],[x2] horizontal window <VIR[x],[x1],[x2]> > rows [x2]: number of vertical window rows Splicing wall [x] rows and columns <#OPEN[x],[x1],[x [x1]: number <OPEN[x],[x1],[x2]...
Page 46 [x1]: Window identification [x2]: Layer number Window closing settings: [x]: <#CLOSE[x],[x1]> <CLOSE[x],[x1]> Splicing wall logo [x1]: Window logo Close all windows <#CLOSEALL[x]> <CLOSEALL[x]> of videowall [x] Query the splicing The return code is <^JOINT> status the same as the...
Page 47: Operation Instructions
6. Operation instructions 6.1. Seamless output card switching Example 1. Switch the matrix "first input" to "second output", then the key operation is: Press in sequence Display printing Remark Select "First Input" Press once to switch the matrix Select "Second Output"...
Page 48: Save Call Switching State
To display the signal from "Input 1" in "Window ID:5" on "Wall1," press the corresponding key sequence. Press in sequence Display printing Remark Select "First Input" One press for matrix switching One more press for splicing switching. Select 'Splicing Wall 1...
Page 49: Query Settings
To save the current splicing output card switching state in the matrix, the key operation is: Press in sequence Display printing Remark Pressing once saves SAVE SaveSwitchPlan seamless output card state SavePJ Pressing again saves SAVE Wall:Plan: splicing output card state...
Page 50 Enter edit mode, now the edit cursor is displayed Move the cursor to the desired modification position Input the desired modification value ENTER Set Succeed! Set Succeed! To change the port number, gateway, and subnet mask, press the "IP" key to enter the interface, and then press for modification.
Page 51: Common Troubleshooting Methods
7. Common troubleshooting methods Malfunction phenomenon Solutions  Check for correct command input. A single beep indicates the device received the correct command and processed it  If no response from the device, check wiring. The Matrix unable to switch 'active' indicator on the front panel should blink when data is received.
Page 52  Check if splicing parameters are correctly set. Follow the sequence of combination, screen mapping, and resolution. Ensure correct mapping of windows to output ports. Refresh the software to confirm.  Confirm valid signal for the drawn window's input source.
Page 53  Whether the output device supports audio input.  When there is no audio on the HDMI input card, please confirm whether the HDMI input is analog or digital. The input can only be analog or digital, and the output supports simultaneous analog and digital input out.

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