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C

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Title

Number

Revision

Size

C

Date:

16-Feb-2005

Sheet    of 

File:

C:\Userdata\EVM Design Files\MODULARIZED_EVMS\ADV7311EVM_MODULE_REV1.0\ADV7311EVM_MODULE_REV1.0.Ddb

Drawn By:

CONTROL

1

/RESIN

2

CT

3

GND

4

/RESET

5

RESET

6

SENSE

7

VDD

8

U3

TLC7733IPW

C10 0.1uF

C9
1uF

R12

100k

S1
PB

RESET

RESET ON POWER UP

RESET

D3_3V

CONN_RESET

R11

0

Remove R8 to disable

RESET from Connector

OPTIONAL 5V, 3.0A DC INPUT

MAIN SUPPLY FROM CONNECTOR

R10
330

POWER ON LED (+5V)

LED1
LED

D5V

IN

1

EN

3

GND

2

BYPASS

4

OUT

5

U1

TPS76233

C4
1uF

C5
0.01uF

C8
22uF

D5V

D3_3V

REV 1.0

ENCODER EVM - POWER

F1

FUSE

2

3

1

P1
PJ-002BH

D1
ZENER

SS26

D5V

1

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3

H1

HEADER 3

C2
47uF

C3
22uF

A5V

L1

C6
22uF

C7
0.1uF

A3_3V

L2

Summary of Contents for TVP5146EVM

Page 1: ...Encoder Analog Outputs 7 3 System Level Description 8 4 Required Hardware and Equipment 9 5 Hardware Setup 10 6 Software Installation 11 7 WinVCC4 Quick Start 12 8 WinVCC4 in Depth 15 8 1 Starting WinVCC4 15 8 2 WinVCC4 Configuration Dialog Box 16 8 3 I2 C System Test 17 8 4 Real Time Polling 17 8 5 Main Menu 19 8 5 1 System Initialization 20 8 5 2 Register Editing 24 8 5 3 Property Sheets 29 9 Tr...

Page 2: ...13 Register Map Editor 24 Figure 14 Encoder Module Editor 26 Figure 15 Generic I2 C Register Editor 27 Figure 16 Indirect Register Editor 28 Figure 17 Property Sheets 30 Figure 18 I2 C System Failure Dialog Box 34 Figure 19 Corrective Action Dialog Box 34 Figure 20 Corrective Action Required 35 Figure 21 Corrective Action Required 35 Figure 22 I2 C Error 36 Tables Table 1 Analog Inputs and Pin Ter...

Page 3: ...g a PC parallel port configured for ECP extended capability port or bidirectional mode The parallel port mode can be changed using the PC BIOS setup available during the reboot process The TVP5160 video decoder converts the analog video input signal into digital component data This digital data and the associated clocks from the video decoder are sent to the ADV7311 video encoder The video encoder...

Page 4: ...od LED Composite Testpoints I2C Address Select S Video YPbPr SD ED Reset Composite S Video YPbPr SD ED SCART SDRAM 120 pin Header Connector 5V Power Power Good LED DB25 I2C Tuner Interface VBI Decoder Interface TVP5160 FSS Select I2C Address Select Testpoints Power Down Reset Analog Output ADV7311 120 pin Header Connector Power Good LED Composite Testpoints I2C Address Select S Video YPbPr SD ED R...

Page 5: ...decoder is made available on the TVP5160EVM The output is buffered using a simple emitter follower and the output signal is automatically determined by the TVP5160 decoder If a CVBS is selected as the input then the analog output is the same looped through CVBS output If S Video or YPbPr is the selected input then only Y is output since it contains the sync information Typically the analog output ...

Page 6: ...vided depending on which overlay method is preferred The analog RGB inputs are connected to the TVP5160 analog inputs as discussed in Section 2 1 The digital RGB inputs and FSO are connected to the digital R G and B inputs and FSO which are shared with the C bus C6 9 respectively 2 6 Test Points and Jumpers Various test points are available on the TVP5160EVM for the user This includes the various ...

Page 7: ...ADV7311 board This interface shares all common signals including the I2 C and the 5 V supply The purpose is to modularize the TVP5160 board and allow users to interface it to a variety of other Texas Instruments products including triple video DACs DVI transmitters or to any other platform that shares the same interface This connector shares all digital video data Y 9 0 C 9 0 all video clocks SCLK...

Page 8: ...s caused by backend processing or re encoding These outputs are then fed into a high end or studio quality display monitor such as a Sony Trinitron At the same time the CVBS output from the encoder may also be fed into a video test measurement system such as the Tektronix VM700 This allows various tests to be run and also allows the user to analyze the video waveform or vectorscope Figure 2 TVP516...

Page 9: ...d equipment necessary to use the TVP5160EVM TVP5160EVM provided Universal 5 V power supply provided Parallel cable provided Windows based PC 1 composite RCA video cable 1 YPbPr component RCA video cable Video source pattern generator DVD player etc TV or display monitor that supports YPbPr component video inputs ...

Page 10: ... board NOTE For evaluation it is recommended that the YPbPr component video outputs be used in order to bypass the internal video decoder of the TV or video display 3 Connect the parallel port cable from the TVP5160EVM to the PC NOTE There are footprints for a dc jack and a DB25 connector on the ADV7311 board but the default power and I2 C is provided by the TVP5160 board via the 120 pin connector...

Page 11: ...a GUI All necessary software for the TVP5160EVM is provided on the enclosed CD The following provides the steps required to install WinVCC4 1 Insert the provided TVP5160EVM CD 2 Install Port95NT exe This is the parallel port driver used by WinVCC4 This driver must be installed and the PC must be rebooted before WinVCC4 will operate correctly 3 Install Setup exe Click Next at all prompts and click ...

Page 12: ...160 board I2 C address is changed power must be cycled on the EVM Figure 3 WinVCC4 I2 C Configuration Screen 2 Next to VID_ENC select the ADV7311 and ensure the I2 C address is set to 0x54 This should match the I2C ADDR jumper on the ADV7311 board 3 Ensure that all other boxes are selected as Not Used and that all Program Options buttons are set to Enabled Click OK 4 If there are no I2 C communica...

Page 13: ...me Polling Screen 6 Load the provided TVP5160EVM CMD file into WinVCC4 by clicking on Tools System Initialization Browse The CMD should be available by default as seen below Figure 5 WinVCC4 Main Screen 7 Click the TVP5160 SD ADV7311 dataset in the window and then click the Program Dataset button to initialize the TVP5160EVM Figure 6 WinVCC4 System Initialization ...

Page 14: ... monitor All ADV7311 outputs are enabled simultaneously NOTE To ensure the TVP5160 is working properly go to Video Status by clicking on Edit Property Sheets TVP5160PNP Video Decoder Status and check the H V C lock status and the video standard This is only a check on the TVP5160 board and not the ADV7311 board or the TV display monitor ...

Page 15: ...ograms TVP5160EVM Software WinVCC4 If the dialog shown in the figure below is displayed it means one of two things 1 WinVCC4 did not run to completion the last time it ran In this case click OK to exit the program and restart WinVCC4 2 There is more than one instance of WinVCC4 running at the same time In this case click OK to exit the program Then press CTRL ALT DELETE to bring up the Task Manage...

Page 16: ...C will be set to ADV7311 The I2 C slave address for each device must match the I2 C slave address selected by jumpers on the TVP5160EVM These jumpers are set by the factory to use 0xB8 for the video decoder and 0x54 for the video encoder It is also important to select the correct specific devices The TVP5160 and ADV7311 must be selected for the TVP5160EVM All Program Options must be enabled Disabl...

Page 17: ...by clicking Run System I2C Test in the Tools menu Figure 9 I2 C System Failure 8 4 Real Time Polling Real time polling provides polling functions that execute in the background continuously when enabled via the Real Time Polling dialog There are two polling functions The function that applies to the TVP5160 decoder is VIDEO STANDARD AUTO SWITCH POLLING When the TVP5160 decoder detects a change in ...

Page 18: ...d as needed for the detected standard Using this feature the video source can change its video standard and the system will display using the new standard without user intervention To enable autoswitch polling recommended the video standard autoswitch polling function must be enabled in the Real Time Polling dialog box as shown in Figure 10 The Real Time Polling dialog can also be accessed once Wi...

Page 19: ...igure 11 WinVCC4 Main Screen Table 4 Main Menu Summary Menu Contents File Exit Edit Register Map TVP5160PNP 7311 Encoder Module Editor Generic I 2 C Editor Property Sheets TVP5160PNP 7311 Encoder Module Editor Tools System Initialization Real time Polling TV Tuner Control FQ12xx series only Multiple Byte I 2 C Transfers Set I 2 C Bit Rate Run System I 2 C Test Run Continuous I 2 C Test Read VBI FI...

Page 20: ...Click once on the desired data set description to select it Click the Program Device s Using Selected Dataset button to run the selected data set which loads the devices via the I2 C bus When the device initialization has completed the status indicator reads Ready NOTE If Ready does not display then the devices are not initialized and the I2 C bus is not communicating See Section 9 Troubleshooting...

Page 21: ... NOTE The command file CMD must be saved as plain text 8 5 1 2 Command Files The command file is a text file that can be generated using any common editor however it must be saved as plain text Command files are especially useful for quickly switching between the various system configurations These CMD files are unrelated to the typical WindowsTM CMD files A default command file has been provided ...

Page 22: ...DNR Enabled ADV7311 I2C Registers NTSC all DACs Output WR_REG 0x54 0x01 0x01 0x08 CLK Align Enabled SD Oversampled WR_REG 0x54 0x01 0x40 0x10 Selects NTSC SSAF Luma Filter WR_REG 0x54 0x01 0x42 0x41 Enables DAC Outputs PrPb SSAF WR_REG 0x54 0x01 0x44 0x06 RTC Enabled WR_REG 0x54 0x01 0x48 0x14 Enables Double Buffering SD 10 bit DNR disabled WR_REG 0x54 0x01 0x7C 0x02 Global 10 bit enable END_DATAS...

Page 23: ... THS8200 for the THS8200 device WinVCC4 translates the device family mnemonic to the slave address that was selected on the WinVCC4 Configuration dialog upon program startup This eliminates having to edit command files if the alternate slave address must be used If the literal slave address method is used then the slave address entered will be used directly This method is normally used for program...

Page 24: ...can be selected from the Edit menu 8 5 2 1 Register Map Editor The register map editor as shown in Figure 13 allows the display and editing of the entire used register space of the device within a simple scrolling text box To open this click on Edit Register Map in the Edit menu and click on the device type to edit If the intended device type is not shown then use the Windows menu to activate the ...

Page 25: ...om the I 2 C subaddress The data up down arrows incr decr the data value by 1 Write Button Writes the byte in the Data Edit box to the address in the Address Edit box The I 2 C register is written to whether or not the data is different from the last time the register was read Read Button Reads the data from the address in the Address Edit box into the Data Edit box and the register window Read Al...

Page 26: ... encoder module editor as shown in Figure 14 allows the display and editing of the video encoder registers This editor works like the Register Map Editor To open this click on Edit Register Map in the Edit menu and click on Encoder Module Figure 14 Encoder Module Editor ...

Page 27: ...tor works like the Register Map Editor except that the I2 C slave address must be entered and the Read All button is disabled To open this click on Edit Register Map in the Edit menu and then click on Generic I2C The video encoder module registers can be edited using I2 C subaddress 0x54 default or 0x56 if the alternate slave address is being used Figure 15 Generic I2 C Register Editor ...

Page 28: ...s to be typed in directly Address Offset Edit Box This contains the lowest byte of the 24 bit internal address The full 24 bit address is formed by adding the base address to the address offset The address up down arrows increment decrement the address offset by 4 Data Edit Boxes This contains the 32 bit data word that will be written to or read from the indirect address The LSB data is at the low...

Page 29: ...pages Values on the page are changed by manipulating the various dialog controls as seen in Figure 17 There are OK Cancel and Apply buttons at the bottom of each property page These are explained in detail below 8 5 3 1 Reading the Register Map The property sheets were designed so that the data displayed is always current Certain actions cause the entire register map to be read from the device and...

Page 30: ...inVCC4 Configuration With Auto Update enabled default the user can open both the Property Sheets and the Register Map Editor at the same time Changes made to the Property Sheets and applied are updated in the register map window as soon as the Register Map window is clicked on It also works the other way changes made in the Register Map Editor are updated in the Property Sheets as soon as the Prop...

Page 31: ...y Table 8 Property Sheet Button Controls Button Control Definition OK Writes to all writeable registers whose data has changed A register is flagged as changed if the value to be written is different from the value last read from that address Closes the dialog Cancel Causes all changes made to the property page since the last Apply to be discarded Changes made to dialog controls with immediate har...

Page 32: ...P5160 Output Control check the Enable YCbCr Outputs and Enable Clock Outputs check boxes and click Apply No color GLCO pin is not set to output the GLCO signal Go to Edit Property Sheets TVP5160 GPIO page set the drop down box labeled GLCO I2CA Terminal to Genlock Output and click Apply Screen colors are only magenta and green Wrong YCbCr output format Go to Edit Property Sheets TVP5160 Output Con...

Page 33: ... already set to one of these two modes switch to the other setting See Section 4 2 1 Device was placed in power down mode Press the reset button on the TVP5160EVM EVM was configured for an external I 2 C master Reinstall 0 resistors R5 and R6 Control EVM using the PC parallel port No I 2 C communication Still no I 2 C communication The PC may not be capable of operating in the required parallel po...

Page 34: ...closing the I2 C system test report dialog box the dialog in Figure 19 appears Figure 19 Corrective Action Dialog Box 1 If the cable is NOT connected from the PC parallel port to the TVP5160EVM or if the EVM power is not on a Click NO b The dialog shown in Figure 20 appears instructing you to correct the problem ...

Page 35: ...ommunication problem cannot be resolved in another way Correct slave address settings reset or power cycle the EVM and or check that the device type selected was TVP5160 c Click OK to continue d The real time polling dialog appears Click OK to close it and get to the main menu e Click Exit in the File menu to exit the program f See troubleshooting guide above Figure 21 Corrective Action Required 9...

Page 36: ...P mode or bidirectional mode sometimes called PS 2 mode or byte mode If one of these two modes is already selected change to the opposite mode 5 Exit and save changes 9 2 2 General I2 C Error Report The error report shown in Figure 22 appears when an I2 C error occurs at any time other than after the I2 C system test In this example there was an acknowledge error at slave address 0x54 the video de...

Page 37: ...SLEU063 TVP5160EVM User s Guide 37 10 TVP5160EVM Schematics This chapter contains the TVP5160EVM schematics ...

Page 38: ...rawn By ADV7311 MODULE REV 1 0 R Pr SV B Pb G Y CVBS REV 1 0 ENCODER EVM BLOCK DIAGRAM SCL SDA I2C I2C RESET CONN_RESET Power Power SDA SCL HSYNC VSYNC BLANK CLKIN RTC UV 9 0 Y 9 0 Testpoints Testpoints CLKIN VSYNC HSYNC SDA SCL CONN_RESET RTC BLANK Y 9 0 UV 9 0 Connector Connector HSYNC VSYNC BLANK CLKIN RTC RESET C 9 0 Y 9 0 SCL SDA ADV7311 ADV7311 DVI Tx DVI Tx ADV7311 Board Revision 1 0 Feb 20...

Page 39: ... ADV7311EVM_MODULE_REV1 0 Ddb Drawn By REV 1 0 ENCODER EVM I2C 11 10 U2E 74AHC05 R4 2 2k R5 2 2k SDA SCL C1 0 1uF R7 2 2k R8 2 2k R1 2 2k R2 2 2k R3 2 2k SCL R9 0 SDA R6 0 D3_3V DB11 DB9 DB17 DB15 1 2 14 7 U2A 74AHC05 3 4 U2B 74AHC05 5 6 U2C 74AHC05 9 8 U2D 74AHC05 13 12 U2F 74AHC05 D3_3V 8 7 6 5 4 3 2 14 1 15 16 17 18 19 20 13 12 11 10 9 21 22 23 24 25 26 27 P3 DB25F ...

Page 40: ...NSE 7 VDD 8 U3 TLC7733IPW C10 0 1uF C9 1uF R12 100k S1 PB RESET RESET ON POWER UP RESET D3_3V CONN_RESET R11 0 Remove R8 to disable RESET from Connector OPTIONAL 5V 3 0A DC INPUT MAIN SUPPLY FROM CONNECTOR R10 330 POWER ON LED 5V LED1 LED D5V IN 1 EN 3 GND 2 BYPASS 4 OUT 5 U1 TPS76233 C4 1uF C5 0 01uF C8 22uF D5V D3_3V REV 1 0 ENCODER EVM POWER F1 FUSE 2 3 1 P1 PJ 002BH D1 ZENER SS26 D5V 1 2 3 H1 ...

Page 41: ...awn By 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 H2 HEADER 10X2 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 H3 HEADER 10X2 SDA SCL SDA SCL TP 1 TP1 TP TP 1 TP2 TP HSYNC VSYNC BLANK CLKIN RTC HSYNC VSYNC BLANK CLKIN RTC 1 2 3 4 5 6 7 8 9 10 11 12 H4 HEADER 6X2 REV 1 0 UV 9 0 Y 9 0 UV 9 0 Y 9 0 Y0 Y1 Y2 Y3 Y4 Y5 Y6 Y7 Y8 Y9 UV0 UV1 UV2 UV3 UV4 UV5 UV6 UV7 UV8 UV9 ENCODER EVM TESTPOIN...

Page 42: ...43 GPIO2 44 GPIO3 45 GND 46 GPIO4 47 GPIO5 48 GPIO6 49 GPIO7 50 GND 51 AMCLK 52 ASCLK 53 ALRCLK 54 AMXCLK 55 GND 56 GND 57 GND 58 5V 59 5V 60 D9 76 GND 77 RCr0 78 RCr1 79 RCr2 80 RCr3 81 RCr4 82 RCr5 83 RCr6 84 RCr7 85 RCr8 86 RCr9 87 GND 88 GND 89 5V 90 SCLK 91 PCLK 92 VSYNC 93 GLCO 94 FID 95 GND 96 GY0 97 GY1 98 GY2 99 GY3 100 GY4 101 GY5 102 GY6 103 GY7 104 GY8 105 GY9 106 GND 107 BCb0 108 BCb1...

Page 43: ... 1k C25 0 1uF V 1 V 2 NC 3 U10 AD1580 A3_3V ENCODER EVM ADV7311 C14 0 1uF A3_3V D3_3V A3_3V 1 3 2 JP1 JMP3 I2C ADDRESS SELECTION 1 2 Base Addr 0x56 2 3 Base Addr 0x54 Default R13 10k D3_3V R14 10k A3_3V A3_3V D3_3V R33 4 7k C33 4 7uF A3_3V Y0 Y1 Y2 Y3 Y4 Y5 Y6 Y7 Y8 Y9 Y9 Y8 Y7 Y6 Y5 Y4 Y3 Y2 Y1 Y0 C0 C1 C2 C3 C4 C5 C6 C7 C8 C9 VAA1 R21 75 R20 560 R19 560 R22 75 R29 560 R28 560 C24 0 1uF CVBS SV_Y...

Page 44: ...Power DQ 15 0 CAS RAS DQM AQ 11 0 CLK WE BA0 CS TSOPII 50 SDRAM TSOPII 50 SDRAM DQ 15 0 CAS RAS CS DQM AQ 11 0 CLK WE BA0 BA1 TSOPII 86 SDRAM TSOPII 86 SDRAM DQ 15 0 CAS RAS DQM AQ 11 0 CLK WE BA0 BA1 CS TSOPII 54 SDRAM TSOPII 54 SDRAM SDA SCL Y 9 0 HSYNC VSYNC FID DATACLK C 9 0 AVID INTREQU RESET GLCO Connector Connector INTREQ_TP AVID HSYNC VSYNC FID Y 9 0 DATACLK C 9 0 GLCO SCART_CLK SCART_CVBS...

Page 45: ...LE_REV 2 0 ddb Drawn By TVP5160EVM I2C REV 2 0 11 10 U2E 74AHC05 R53 2 2k R54 2 2k SDA C1 0 1uF R7 2 2k R9 2 2k R8 2 2k R24 2 2k R52 2 2k SCL R5 0 SDA R6 0 D3_3V 8 7 6 5 4 3 2 14 1 15 16 17 18 19 20 13 12 11 10 9 21 22 23 24 25 26 27 P3 DB25 DB11 DB9 DB17 DB15 1 2 14 7 U2A 74AHC05 3 4 U2B 74AHC05 5 6 U2C 74AHC05 9 8 U2D 74AHC05 13 12 U2F 74AHC05 D3_3V TP 1 T0 TP 1 T1 TP 1 T2 TP 1 NACK TP 1 POUT ...

Page 46: ...ata EVM Design Files MODULARIZED_EVMS TVP5160EVM TVP5160EVM_MODULE_REV2 0 TVP5160EVM_MODULE_REV 2 0 ddb Drawn By TVP5146EVM TV TUNER INTERFACE REV 2 0 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 H2 SAMTEC SSW 120 02 G D SDA SCL TUNER_CVBS D5V ...

Page 47: ...esign Files MODULARIZED_EVMS TVP5160EVM TVP5160EVM_MODULE_REV2 0 TVP5160EVM_MODULE_ Drawn By TVP5160EVM VBI DECODER INTERFACE CVBS_IN HSYNC VSYNC RED GREEN BLUE FSS_RGB D5V SDA SCL DR DG DB FSO REV 2 0 1 2 3 4 5 6 7 8 9 10 11 12 H3 SAMTEC SSW 106 02 G D 1 2 3 4 5 6 7 8 9 10 11 12 H4 SAMTEC SSW 106 02 G D T_CVBS R60 0 ...

Page 48: ..._IN L2 2 2uH L1 1 8uH C8 330pF C10 330pF C6 8 2pF C7 220pF C3 5 6pF C9 220pF L7 2 2uH C22 330pF C23 330pF C21 8 2pF Y G_IN Y G_OUT Pr R_OUT Pb B_OUT Pr R_IN Pb B_IN L6 2 2uH C18 330pF C20 330pF C16 8 2pF L9 2 2uH C29 330pF C31 330pF C27 8 2pF SCRT_GRN_OUT SCRT_BLUE_OUT SCRT_GRN_IN SCRT_BLUE_IN CVBS_IN CVBS_OUT Y_IN Y_OUT C_IN C_OUT Y G_IN Y G_OUT Pb B_IN Pb B_OUT Pr R_IN Pr R_OUT SCRT_GRN_IN SCRT_...

Page 49: ...R LED1 LED L14 L15 C40 22uF C43 0 1uF A3_3V L13 L12 C39 47uF C48 47uF CONTROL 1 RESIN 2 CT 3 GND 4 RESET 5 RESET 6 SENSE 7 VDD 8 U3 TLC7733IPW C47 0 1uF C46 1uF R23 100k RESET RESET RESET ON POWER UP D3_3V RESET RESET REV 2 0 F1 FUSE 2 3 1 P1 PJ 002BH 1 2 D1 ZENER 5V 3 0A DC INPUT SS26 D5V 1 2 3 H1 HEADER 3 C33 47uF C34 22uF A5V L11 GND 1 VIN1A 2 VIN1B 3 MR 5 EN1 6 EN2 7 RESET 8 GND 9 VIN2A 10 VIN...

Page 50: ... VSSQ 4 DQ2 5 DQ3 6 VDDQ 7 DQ4 8 DQ5 9 VSSQ 10 DQ6 11 DQ7 12 VDDQ 13 DQML 14 WE_ 15 CAS_ 16 RAS_ 17 CS_ 18 BA 19 A10 20 A0 21 A1 22 A2 23 A3 24 VDD 25 VSS 26 A4 27 A5 28 A6 29 A7 30 A8 31 A9 32 NC 33 CKE 34 CLK 35 DQMH 36 NC 37 VDDQ 38 DQ8 39 DQ9 40 VSSQ 41 DQ10 42 DQ11 43 VDDQ 44 DQ12 45 DQ13 46 VSSQ 47 DQ14 48 DQ15 49 VSS 50 U4 SDRAM_50TSOPII DQ0 DQ1 DQ2 DQ3 DQ4 DQ5 DQ6 DQ7 DQ8 DQ9 DQ10 DQ11 DQ1...

Page 51: ...DDQ 35 D19 36 D20 37 VSSQ 38 D21 39 D22 40 VDDQ 41 D23 42 VDD 43 VSS 44 D24 45 VSSQ 46 D25 47 D26 48 VDDQ 49 D27 50 D28 51 VSSQ 52 D29 53 D30 54 VDDQ 55 D31 56 NC 57 VSS 58 DQM3 59 A3 60 A4 61 A5 62 A6 63 A7 64 A8 65 A9 66 CKE 67 CLK 68 NC 69 NC 70 DQM1 71 VSS 72 NC 73 D8 74 VDDQ 75 D9 76 D10 77 VSSQ 78 D11 79 D12 80 VDDQ 81 D13 82 D14 83 VSSQ 84 D15 85 VSS 86 U5 SDRAM_86TSOPII DQM DQM DQ0 DQ1 DQ2...

Page 52: ...DQ11 47 VssQ 46 VssQ 6 DQ10 45 DQ3 7 DQ9 44 VccQ 43 DQ4 8 DQ8 42 VccQ 9 Vss 41 NC 40 DQ5 10 UDQM 39 DQ6 11 CLK 38 CKE 37 VssQ 12 NC 36 DQ7 13 A11 35 A9 34 Vcc 14 A8 33 LDQM 15 A7 32 A6 31 WE 16 A5 30 CAS 17 A4 29 Vss 28 RAS 18 CS 19 BA0 20 BA1 21 A10 22 A0 23 A1 24 A2 25 A3 26 Vcc 27 U6 SDRAM_54TSOPII DQ0 DQ1 DQ2 DQ3 DQ4 DQ5 DQ6 DQ7 DQ8 DQ9 DQ10 DQ11 DQ12 DQ13 DQ14 DQ15 CLK DQM DQM WE CAS RAS CS B...

Page 53: ... GPIO1 43 GPIO2 44 GPIO3 45 GND 46 GPIO4 47 GPIO5 48 GPIO6 49 GPIO7 50 GND 51 AMCLK 52 ASCLK 53 ALRCLK 54 AMXCLK 55 GND 56 GND 57 GND 58 5V 59 5V 60 D9 76 GND 77 RCr0 78 RCr1 79 RCr2 80 RCr3 81 RCr4 82 RCr5 83 RCr6 84 RCr7 85 RCr8 86 RCr9 87 GND 88 GND 89 5V 90 SCLK 91 PCLK 92 VSYNC 93 GLCO 94 FID 95 GND 96 GY0 97 GY1 98 GY2 99 GY3 100 GY4 101 GY5 102 GY6 103 GY7 104 GY8 105 GY9 106 GND 107 BCb0 1...

Page 54: ...TREQ_TP INTREQ_TP AVID HSYNC VSYNC FID Y 9 0 DATACLK Y 9 0 C 9 0 C 9 0 GLCO GLCO 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 H6 HEADER 20X2 C0 C1 C2 C3 C4 C5 C6 C7 C8 C9 Y0 Y1 Y2 Y3 Y4 Y5 Y6 Y7 Y8 Y9 D1_8V D3_3V TP 1 D1 8V 1_8V TP 1 D3 3V 3_3V TP 1 GND2 GND TP 1 GND1 GND A5V TP 1 A5V A5V SCART_CVBS_OUT SCART_DATA SCART_CLK SCART_VI...

Page 55: ... 73 IOVDD 74 IOGND 75 BA1 76 A10 77 A0 78 A1 79 A2 80 A3 81 GPIO I2CA1 82 GLCO GPIO I2CA0 83 DATACLK 84 DVDD 85 DGND 86 Y_9 87 Y_8 88 Y_7 89 Y_6 90 Y_5 91 IOVDD 92 IOGND 93 Y_4 94 Y_3 95 Y_2 96 Y_1 97 Y_0 98 DVDD 99 DGND 100 C_9 GPIO FSO 101 C_8 GPIO BLUE 102 C_7 GPIO GREEN 103 C_6 GPIO RED 104 IOVDD 105 IOGND 106 C_5 GPIO 107 C_4 GPIO 108 C_3 GPIO 109 C_2 GPIO 110 DVDD 111 DGND 112 C_1 GPIO FSS5 ...

Page 56: ...tute a license from TI to use such products or services or a warranty or endorsement thereof Use of such information may require a license from a third party under the patents or other intellectual property of the third party or a license from TI under the patents or other intellectual property of TI Reproduction of information in TI data books or data sheets is permissible only if reproduction is...

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