HDMI-UVC/HDMI-Parallel converter [SVO-03 U&P]

HDMI-UVC/HDMI-Parallel converter [SVO-03 U&P] Hardware specifications Rev. Net Vision Co., Ltd.

SVO-03 U&P hardware specifications Revision history Revision Date Content Charge 1.0 2016/06/08 First edition Yamada 2016/06/29 RGB Notes of a capture are added. Yamada 1.1 2016/07/15 Change of a substrate name (SVO-03 Simple -> SVO-03 U&P) Yamada 2016/10/19 DIP SW Misprint correction of a setup Yamada i

SVO-03 U&P hardware specifications Table of contents 1. Outline... 1 1.1. The function of SVO-03 U&P... 1. Specifications (UVC output mode)... 1 1.3. Specifications (parallel output mode)... 1 2. The operation method of SVO-03 U&P... 2 2.1. When making it operate as UVC output mode... 2 2.2. When making it operate as parallel output mode... 3 3. SVO-03 Block diagram of a board... 5 4. SVO-03 Upper surface photograph of a board... 6 4.1. CN1: Sub power connector... 7 4.2. CN2: USB3.0 Connector... 7 4.3. CN3: HDMI input connector... 7 4.4. CN4: Target connection connector... 8 4.5. CN5: Target connection connector... 9 4.6. Spatial relationship of CN4 and CN5... 9 4.7. RV1, RV2: VDDH, volume for VDDL adjustment... 9 4.8. SW1: Push switch... 9 4.9. SW2: DIP switch... 10 4.10. LED1-9: Operating state monitor... 10 5. Details of an output format... 11 5.1. A signal wire and a timing table... 11 5.2. Output data composition table... 11 6. Dimensional drawing... 12 7. Target side output circuit... 13 7.1. Output circuit schematic view... 13 8. Notes... 14 ii

1. Outline SVO-03 U&P Hardware specifications This book is hardware specifications of the board "SVO-03 U&P" for inputting a HDMI image and changing into USB3.0 or a parallel signal. "SVO-03 U&P" is formerly the stand-alone version of a board "SVO-03", and can perform the image output to image taking in to PC, or other boards without a complicated setup. The change of a switch on a board performs a setup of a video image format. "SVO-03 U&P" has the two modes according to a function. In UVC output mode, since USB Video Class (UVC) which is standards of USB is supported, an image can be downloaded without a driver to PC regardless of OS or software. Moreover, it is 1920x1080 by high-speed transmission of USB3.0. The image of not compressing to 60FPS is supported. In parallel output mode, the parallel video signal format often used is supported. If parallel output mode is used, development of graphic processing equipment with a parallel signal input etc. can be performed smoothly. 1.1. The function of SVO-03 U&P Conversion of HDMI -> USB3.0 (UVC) HDMI -> Conversion of a parallel signal. Specifications (UVC output mode) Power supply: USB bus electric supply (external electric supply is also possible) / +5V 0.65A typ. Entry format: HDMI 1.4 (RGB 4:4:4) Input / output resolution: Input / output frame rate: 1280x720 / 1920x1080 30FPS / 60FPS Output frame format: YUV (UYVY, YUY2) and RGB24 (RGB8:8:8) Un-compressing. Output: USB3.0 Video Class (UVC) Conformity 1.3. Specifications (parallel output mode) Power supply: USB bus electric supply (external electric supply is also possible) / +5V 0.65A typ. Entry format: HDMI 1.4 (RGB 4:4:4) Input / output resolution: Input / output frame rate: 1280x720 / 1920x1080 30FPS / 60FPS (within the limits which does not exceed * pixel clock 100MHz) Output frame format: YUV (UYVY, YUY2) and RGB24 (RGB8:8:8) Un-compressing. Output bit width: (YUV:8bit, 16 bit, 32bit / RGB24:24bit) Output voltage level: Output connector: Single end 1.8? 3.6V CMOS (adjustment is possible) SV series standard of our company (50/60Pin, 2.54mm pin header) * Other resolution and the pixel format can respond individually. 1

2. The operation method of SVO-03 U&P 2.1. When making it operate as UVC output mode 1. Set up a DIP switch beforehand according to a video image format. DIP SW Setup 1 (invalid) 2 ON: The color bar for a test is outputted. OFF: HDMI An image is outputted. 3 (invalid) 4 YUV In the case of a format ON: YUY2 OFF: UYVY It outputs in a pixel format. RGB In a format, set to OFF. 5 RGB/YUV is changed. ON: RGB format (RGB24) OFF: YUV format (YUV 4:2:2) 6 Resolution is set up. ON: 1280x720 OFF: 1920x1080 7 A frame rate is set up. ON: 30 FPS OFF: 60 FPS 8 Set to ON. * When resolution and a frame rate differ from this setup, a setup from the HDMI output device side may be required. * When a setup is changed, a USB connector needs to be re-connected. * RGB24 In the case of an output, it does not correspond to 1080p/60FPS on a transmission rate. 2. Use USB 3.0 cable and it is host PC and SVO-03. A board is connected. 3. "SVO-03" is recognized by PC as a imaging device. Simultaneously, initialization of devices, such as a HDMI receiver and FPGA, is performed on a board. 4. Connect PC, a recorder, etc. using a device and a HDMI cable with a HDMI output. * The HDMI output needs to be supporting the resolution of 720p or 1080p. 5. From PC, start UVC capture software and start image taking in. * "NVCap" of CD attachment can use it as UVC picture capture software for Windows. Please refer to the software manual of NVCap for directions for use separately. 2

2.2. When making it operate as parallel output mode 1. Set up a DIP switch beforehand according to a video image format. SW Setup 1 Bit width setup: Refer to following table. 2 ON: RGB Input compulsion mode YUV HDMI which is not corresponded to an output When connecting with a device and a color space cannot set up normally, this SW may be solved by turning ON. OFF: It is usually the mode. 3 Bit width setup: Refer to following table. 4 YUV 8bit In the case of the mode, it is as follows. ON: OFF: YUY2 Form UYVY Form RGB In the case of the mode, set to OFF. Chapter 5 is referred to for details. 5 RGB/YUV is changed. ON: RGB format (RGB24) OFF: YUV format (YUV 4:2:2) 6 Resolution is set up. ON: 1280x720 OFF: 1920x1080 7 A frame rate is set up. ON: 30 FPS OFF: 60 FPS 8 Set to OFF. * When resolution and a frame rate differ from this setup, a setup from the HDMI output device side may be required. * When a setup is changed, a USB connector needs to be re-connected. SW1-7 is set up by output pixel format according to the following table. SW YUV 8bit Output YUV 8bit Output YUV 16bit Output YUV 32bit Output RGB 24bit Output (UYVY) (YUY2) 1 OFF OFF ON OFF ON 2 OFF OFF OFF OFF OFF 3 OFF OFF OFF ON OFF 4 OFF ON Usually, OFF (Refer to 5.1) Usually, OFF (Refer to 5.1) OFF 5 OFF OFF OFF OFF ON 6 ON(720p) ON(720p) ON(720p) ON(720p) ON(720p) 3

/ OFF(1080p) / OFF(1080p) / OFF(1080p) 7 ON(30FPS) ON(30FPS) ON(30FPS) / OFF(60FPS) ON(30FPS) / OFF(60FPS) ON(30FPS) / OFF(60FPS) * SW4 sets up the order (UYVY/YUY2) of a row for every byte at the time of YUV mode. * A setup of 1080p/60FPS does not correspond on the relation of a pixel clock at the time of 16 bit or a 24-bit output. 2. Connect the cable to a target to a target connection connector. 3. Use USB 3.0 cable and it is host PC and SVO-03. A board is connected. 4. Connect PC, a recorder, etc. using a device and a HDMI cable with a HDMI output. 5. It is outputted in the format for which the image from HDMI was set to the target connection connector with a DIP switch in this stage. * The details of an output format are 5. Please refer to a chapter. * The HDMI output needs to be supporting the resolution of 720p or 1080p. * Before connection with a target, it is VDDL (output IO voltage level). Please check suiting the level of a connection place. * A setup of the resolution which cannot be set up depending on an output pixel format, and a frame rate exists. Pixel format conversion table YUV4:2:2 Parallel output mode RGB24 Parallel output mode 4

3. SVO-03 Block diagram of a board It is SVO-03 below. The outline block diagram of a board is shown. 5

4. SVO-03 Upper surface photograph of a board SW1 LED1-9 CN3: HDMI Connector CN1: CN4, 5: Target connection Connector External power supply CN2: USB 3.0 Connector IO voltage adjustment SW2: DIP SW 6

4.1. CN1: Sub power connector SVO-03 U&P Hardware specifications It is a power connector for using it, when power supply capacity cannot be filled with USB bus electric supply, or when not supplying electric power via a USB bus. Use connector A2-2PA-2.54DSA (71): HIROSE ELECTRIC CO.,LTD. Pin Signal Direction Remarks Pin Signal Direction Remarks watch name watch name 1 +5V IN DC5V power supply 2 GND - Power supply ground 4.2. CN2: USB3.0 Connector USB3.0 linked to host PC It is a connector. A commercial USB3.0 Type-B cable can use it. It is the connector which served as the use as power supply of SVO-03. Use connector USB30B-09 K-PC: JC ELECTRONICS CORPORATION Pin Signal Direction Remarks Pin Signal Direction Remarks watch name watch name 1 VBUS IN +5V bus power 2 D- I/O USB2.0 differential pear 3 D+ I/O USB2.0 differential pair + 4 GND - The ground for power 5 SSRX- IN USB3.0 receiving differential pear 6 SSRX+ IN USB3.0 receiving differential pair + 7 GND DRAIN - The ground for signals 8 SSTX- OUT USB3.0 transmitting differential pear 9 SSTX+ OUT USB3.0 transmitting 4.3. CN3: HDMI input connector It is a connector for letting a HDMI cable pass and connecting with the device corresponding to a HDMI output. This board is recognized as a HDMI monitor. Use connector 5-1903015-1: TE Connectivity Pin Signal Direction Remarks Pin Signal Direction Remarks watch name watch name 1 D2+ IN TMDS data 2+ 2 D2 shield - TMDS data 2 shield 3 D2- IN TMDS data 2-4 D1+ IN TMDS data 1+ 5 D1 shield - TMDS data 1 shield 6 D1- IN TMDS data 1-7 D0+ IN TMDS data 0+ 8 D0 shield - TMDS data 0 shield 9 D0- IN TMDS data 0-10 CLK+ IN TMDS clock + 11 CLK - TMDS clock shield 12 CLK- IN TMDS clock shield 13 CEC I/O CEC data 14 Utility - Utility (N. C.) 15 DDCSCL I/(O) DDC clock 16 DDCSDA I/O DDC data 17 GND - - 18 +5V IN +5V power supply 19 HPD OUT Hot plug detection 7

4.4. CN4: Target connection connector It is a connector for connecting a target. Correspondence of the signal in this board is shown with the pin number of SV series standard connector, and a signal name in the following table. Use connector A1-50PA-2.54DSA: HIROSE ELECTRIC CO.,LTD. Pin No Signal name Assignment on this board Pin No Signal name Remarks 1 VDD_L Target I/O level power 2 GND - 3 P0 supply Pixel_DATA16 4 GND - 5 P1 Pixel_DATA17 6 GND - 7 P2 Pixel_DATA18 8 GND - 9 P3 Pixel_DATA24 10 GND - 2 1 Top View 4 48 50.......... 3 ----- 47 49 ----- 11 P4 Pixel_DATA25 12 HS The Horizontal Synchronizing signal to a target 13 VS The Vertical Synchronizing 14 XRST The reset signal to a target 15 VDD_H signal to a target Target power supply 16 GND - 17 SDA I2C_DATA 18 GND - 19 SCL I2C_CLK 20 GND - 21 DCK Pixel_CLK 22 GND - 23 Y0 Pixel_DATA0 24 GND - 25 Y1 Pixel_DATA1 26 GND - 27 Y2 Pixel_DATA2 28 GND - 29 Y3 Pixel_DATA3 30 GND - 31 Y4 Pixel_DATA4 32 GND - 33 Y5 Pixel_DATA5 34 GND - 35 Y6 Pixel_DATA6 36 GND - 37 Y7 Pixel_DATA7 38 GND - 39 DE DE synchronized signal to a 40 GND - 41 Y8 target Pixel_DATA8 42 Y9 Pixel_DATA9 43 Y10 Pixel_DATA10 44 Y11 Pixel_DATA11 45 Y12 Pixel_DATA12 46 Y13 Pixel_DATA13 47 Y14 Pixel_DATA14 48 Y15 Pixel_DATA15 49 +3.3V Up to 300 ma of output current 50 P5 Pixel_DATA26 * Express the intact pin as this board in gray. * The picture signal line is displayed in green. 8

4.5. CN5: Target connection connector It is a connector which connects a target. Correspondence of the signal in this board is shown with a pin number common to SV series, and a signal name in the following table. Use connector A1-10PA-2.54DSA: Hirose Electric Pin No Signal name Remarks Pin No Signal name Remarks 51 P6 Pixel_DATA27 52 P7 Pixel_DATA28 53 P8 Pixel_DATA29 54 P9 Pixel_DATA30 55 P10 Pixel_DATA31 56 P11 Pixel_DATA19 57 P12 Pixel_DATA20 58 P13 Pixel_DATA21 59 P14 Pixel_DATA22 60 P15 Pixel_DATA23 Top View 52 60 51 59 4.6. Spatial relationship of CN4 and CN5 Mating surface view 52 60 2 51 59 1 CN5 4 48 50........................................ 3 CN4 47 49 It is an equivalent for the pin header of 60 in all pins about CN4 and CN5. In connection with a cable, 60 pin-connection connector is "Hirose Electric. :HIF3BA-60D-2.54R "case of connection of board versus board" Hirose Electric : It becomes HIF3H-60DA-2.54DSA(71)." 4.7. RV1, RV2: VDDH, volume for VDDL adjustment SVO-03 It is the volume for adjustment of the power supply for the exteriors generated on a board. It can adjust in 1.6V-4.2V. It is connected to translator IC and VDDL sets up the level of a parallel image output signal. On the other hand, VDDH is SVO-03 only by being outputted to the connector. It is not used inside a board. All can be used as a power supply of an external device. 4.8. SW1: Push switch Under the present circumstances, the function which a user can use is not assigned. 9

4.9. SW2: DIP switch It opts for operational mode, a pixel format, etc. according to the state of SW2 at the time of the power supply input of SVO-03. Although the function is fundamentally assigned as follows, refer to the explanation of Chapter 2 for the details of the DIP switch function in each mode. Numbe Functional name At the time of OFF At the time of ON r 1 Bit Width 1 8 Bit 16 Bit / 24 Bit 2 Test Color Pattern Normal operation Color bar output 3 Bit Width 2 Normal Force 32 Bit 4 UYVY/YUY2 UYVY YUY2 5 RGB/YUV YUV 4:2:2 RGB24 6 Resolution 1920x1080 1280x720 7 Frame Rate 60 FPS 30 FPS 8 Boot Switch Parallel output mode UVC Mode (USB Output) 4.10. LED1-9: Operating state monitor LED Explanation 1 It is red LED by which the silk notation was carried out with "CAM POWER". It blinks during firmware operation. 2 It is LED by which the silk notation was carried out with "VSYNC". The V-Sync synchronized signal of an output is turned on and off to a target with the cycle which carried out the circumference for 3 minutes. When an output picture is 30fps, it is 5 in 1 second. Time blink is repeated. 3-4 - 5-6 - 7 When FPGA is outputting the UVC frame to FX3, FV synchronized signal is carried out ON/OFF with the cycle which carried out the circumference for 3 minutes. 8 The light is switched on when the stored picture is loaded to the frame memory for a target output. In the state where one frame after another is outputted, it is visible as a high-speed blink state. 9 It blinks, when the source image is inputted into FPGA from HDMI. The V-Sync synchronized signal from a HDMI-RX receiver is carried out ON/OFF with the cycle which carried out the circumference for 3 minutes. 10

5. Details of an output format In the parallel output mode of "SVO-03 U&P", timing, such as a pixel clock and a blanking period, is fixed according to the frame format. When fine timing needs to be adjusted, you examine the standard version "SVO-03" or please ask to our business. 5.1. A signal wire and a timing table * Polarity VS and HS:negative logic (a low -- active) -- DCK-falling and coming out -- change Pixel_DATA: It changes in DCK falling. Resolution 1280x720 1920x1080 1280x720 1920x1080 FPS 30 60 30 60 30 60 30 Format YUV4:2:2 RGB24 Bit Width 8 16 32 24 fdck [MHz] 74.25 37.125 74.25 74.25 74.25 37.125 74.25 74.25 A [DCKs] 99000 8250 11000 44160 8250 11000 B [DCKs] 2376000 1229250 2464000 1192320 1129250 2464000 C [DCKs] 99740 41510 90392 44304 41510 90392 D [DCKs] 2560 1280 1920 960 1280 1920 E [DCKs] 740 370 280 144 370 280 5.2. Output data composition table Format YUV4:2:2 RGB24 Bit Width 8 8 16 16 32 32 24 DIP SW 4 (UYVY/YUY2) OFF ON OFF ON OFF ON OFF Pixel_DATA [31:24] - - - - V Y - Pixel_DATA [23:16] - - - - Y V R Pixel_DATA [15:8] - - U->V Y U Y B Pixel_DATA [7:0] U->Y->V->Y Y->U->Y->V Y V->U Y U G 11

6. Dimensional drawing It is SVO-03 below. The dimensional drawing of a board is published. With the actual board, the 10-mm portion to VCUT is not contained in a upper end and each lower end, but, as for the size of the lengthwise direction, other SV series has become the same 101.6 [mm]. 12

SVO-03 internal SN74AVCA164245GRE4 CN4 or CN5 SVO-03 U&P Hardware specifications 7. Target side output circuit 7.1. Output circuit schematic view +3.3V VDDL VCCB VCCA To a target module The output signal to camera modules, such as a general-purpose output port, CLKOUT, XRST, SCL, and SDA, From the Texas Instruments company HP, the electric specification of level shift IC (SN74AVCA164245GRE4) should have a data sheet downloaded, and refer to it. Any questions, please contact our sales. 13

8. Notes When I use this board, please be sure to protect the following notes. 1. It is SVO-03 when performing connection of a target and removal. Be sure to change the power supply of a board into the state of OFF, and to perform it. 2. It may change without a preliminary announcement about the contents of this book in the future. 3. Reproducing a part or all of the contents of this book without notice is forbidden. 4. Although every precaution has been taken in the contents of this document, please contact if you have any chance suspicious points, errors, a point of notice, such as omissions sv-support@net-vision.co.jp. 14