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| Advance Information Digital Video Encoder RGB Output Support HCMOS Technology The MC44724 and MC44725 are Digital Video Encoders (DVE). They convert ITU-601/656 standard 4:2:2 Bit-Paralellel data into analog composite video, S-Video or Y/Cb/Cr or R/G/B in PAL and NTSC formats. They accept the multiplexed ((CB,Y,CR)Y) signals from digital sources such as MPEG decoders and can act as a sync generator master. All video processing is done digitally and requires no external adjustment. Specifically designed for digital satellite, digital cable decoders and multimedia terminals. MC44724 MC44725 * World Wide Operation (PAL-BDGHI, PAL-N,PAL-M, NTSC-M) * SMPTE 170M / ITU - R 624 composite video output * Programmable Color Sub-carrier Frequencies * Analog Horizontal, Vertical, Frame or Composite Sync Outputs * Sync Extraction From Digital Input Data (SAV, EAV) * Sync Polarity and Horizontal Phase Control * Master or Slave Sync (H/Vsync, H/Fsync, ITU-R656 Slave) Operation * Interlaced or Non-Interlaced Support * 625/50 or 525/60 ITU-601/656 two 8-bit or 16-bit ((CB,Y,CR)Y) Digital Input * Luma 2X / Chroma 4X Oversampling Filtering * External VBI Information Data Input (such as TeleText Information Data) * Selectable Two sets of Signals within (CVBS/Y/C) or (Y/Cb/Cr) or (R/G/B) * Six Analog Outputs Through 10-bit DACs * Easily programmed via Serial Bus ( I2C or SPI Bus) * 2 Hardware I2C Chip Addresses * Closed-Caption, CGMS and WSS Information data Insertion * MACROVISION ver. 7.01 Anti-Copy Signal Insertion(MC44724 Only) * On Chip Color - bar Generator * +3.3V Power Supply or +3.3V(Digital)/+5V(Analog) Power Supply VFU SUFFIX 64 VQFP (0.5mm Pitch) The MC44724 device is protected by U.S. patent number 4,631,603,4,577,216 and 4,819,098 and other intellectual property rights. The use of Macrovision's copy protection technology in the device must be authorized by Macrovision and is intended for home and other limited pay-perview uses only, unless otherwise authorized in writing by Macrovision. Reverse engineering or disassembly is prohibited. No. 1 MC44724/5 Rev 0.21 03/25/97 This document contains information on a new product. Specifications and information herein are subject to change without notice. [Pin Assignment] 61 58 62 55 59 52 51 63 56 49 F / Vsync EXT TVIN DVIN0 DVIN1 DVIN2 DVIN3 60 53 64 57 54 TP1 TP7 TP2 TP8 DATST TP3 DLVss DLVdd 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 CVBS / Cb / B1 CVBS / Cb / B1 CVBS / Cb / B1 Vdd Y / G1 Y / G1 Y / G1 Vdd C / Cr / R1 C / Cr /R1 C / Cr / R1 Vdd DAVss Ibias1 VReff1 DAVdd CVBS / Cb / B2Vdd VReff2 CVBS / Cb / B2 CVBS / Cb / B2 Ibias2 NC Hsync TP4 DVdd DVss TP5 TP0 TP6 50 48 47 46 45 44 43 42 41 40 39 38 37 36 35 34 33 MC44724 MC44725 DVIN4 DVIN5 DVIN6 DVIN7 DVss DVdd SEL SCL/SCK C / Cr / R2 Vdd SDA/SI PAL/NTSC SO Y / G2 Vdd C / Cr / R2 Y / G2 Y / G2 C / Cr / R2 ChipA DVdd 30 TEST DVss 20 23 19 26 22 29 clock Reset 31 18 25 21 17 24 No. 2 27 28 32 MC44724/5 Rev 0.21 03/25/97 This document contains information on a new product. Specifications and information herein are subject to change without notice. [Pin Descriptions] PIN 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 39~46 47 48 49 50 51 52~55 56 57 58~61 62 63 64 NAME I/O DESCRIPTIONS CVBS/Cb/B1 O Analog composite video signal output or Cb or B signal output current drive(positive) CVBS/Cb/B1 O Analog composite video signal output or Cb or B signal output current drive(negative) CVBS/Cb/B1Vdd Power Supply for CVBS / Cb / B DAC circuit Y/G1 O Analog luminance or G signal output current drive(positive) Y/G1 O Analog luminance or G signal output current drive(negative) Y/G1Vdd Power Supply for Y / G DAC circuit C/Cr/R1 O Analog chrominance signal output or Cr or R signal output current drive(positive) C/Cr/R1 O Analog chrominance signal output or Cr or R signal output current drive(negative) C/Cr/R1Vdd Power Supply for C / Cr /R DAC circuit DAVss Ground for DAC circuit Ibias1 O Reference current for the 3 DACs1 Vref1 Reference full scale voltage for the 3 DACs1 DAVdd Power Supply for the DACs Vref2 Reference full scale voltage for the 3 DACs2 Ibias2 O Reference current for the 3 DACs2 NC No Connect to pin CVBS/Cb/B2 O Analog composite video signal output or Cb or B signal output current drive(positive) CVBS/Cb/B2 O Analog composite video signal output or Cb or B signal output current drive(negative) CVBS/Cb/B2Vdd Power Supply for CVBS / Cb / B DAC circuit Y/G2 O Analog luminance or G signal output current drive(positive) Y/G2 O Analog luminance or G signal output current drive(negative) Y/GVdd Power Supply for Y / G DAC circuit C/Cr/R2 O Analog chrominance signal output or Cr or R signal output current drive(positive) C/Cr/R2 O Analog chrominance signal output or Cr or R signal output current drive(negative) C/Cr/R2Vdd Power Supply for C / Cr /R DAC circuit ChipA I2C chip address select { 0 : 40(hex)/41(hex) 1 : 1D(hex )/1E(hex) } TEST I TEST pin(Ground) DVss Ground for Digital circuit CLOCK I 27MHz clock input DVdd Power Supply for Digital circuit Reset I Reset signal, active LOW PAL/NTSC I NTSC/PAL select . This pin active only Reset time. (NTSC : Low PAL : High ) SO z(O) If SPI mode, serial data output / If I2C mode, connect to Ground SDA/SI I/O(I) Serial data input, Open drain output / If SPI mode, serial data input SCL/SCK I Serial clock SEL (I) Connect to Ground / If SPI mode, this pin is chip select DVdd Power Supply for Digital circuit DVss Ground for Digital circuit DVIN7~0 I/O Multiplexed 4:2:2 data(CCIR Rec656/601) input (1) TVIN I/O TEST data input EXT I/O Csync/Frame sync output, or external VBI information input F/Vsync I/O Frame sync or Vertical sync input/output Hsync I/O Horizontal sync input/output DATST I MUX swith in 8-bit X 2 Multiplexed 4:2:2 data(CCIR Rec656/601) input (1) and (2), or for D/A converter test TP8~5 I/O 8-bit Multiplexed 4:2:2 data(CCIR Rec656/601) input (2), or Multiplexed Cr/Cb data (CCIR Rec656/601) input in 16-bit input mode, or Test data input/output (TP8 : MSB) DVss Ground for Digital circuit DVdd Power Supply for Digital circuit TP4~1 I/O Multiplexed 4:2:2 data(CCIR Rec656/601) input (2), or Multiplexed Cr/Cb data (CCIR Rec656/601) input in 16-bit input mode, or Test data input/output (TP1 : LSB) TP0 I/O Test data inout/output DLVdd Power Supply D/A Converter Digital circuit DLVss Ground for D/A Coverter Digital circuit No. 3 MC44724/5 Rev 0.21 03/25/97 This document contains information on a new product. Specifications and information herein are subject to change without notice. [Block Diagram] CVBS/Cb/B2Vdd F/Vsync ChipA DVdd DVdd DVss DVss CGMS, WSS_gen CC_gen 0 EXT Hsync C/Cr/R2Vdd Y/G2Vdd Y/G1Vdd Sync_generator BG copy protection bus CVBS/Cb/B1Vdd C/Cr/R1Vdd DAC Y/G1 Y/G1 CVBS/Cb/B1 CVBS/Cb/B1 C/Cr/R1 C/Cr/R1 Vref1 Ibias1 Y/G2 Y/G2 CVBS/Cb/B2 CVBS/Cb/B2 C/Cr/R2 C/Cr/R2 Vref2 Ibias2 DAVdd H,V Y 0 off_set 0 DVIN [7 : 0] TVIN TP [8 : 1] TP [0] demux Cb Cr 0 Modulator 0 0 Output Selecter subcarrier gen 0 0 0 0 clock Reset PAL/NTSC I2C / SPI TEST bus BIAS DAC DAC RGB matrix DAC BIAS DAC DAC MC44724/5 SO SCL/SCK SDA/SI TEST SEL DLVdd DLVss DAVss I2C/SPI chip-address 40/41(hex) 1D/1E(hex) No. 4 MC44724/5 Rev 0.21 03/25/97 This document contains information on a new product. Specifications and information herein are subject to change without notice. [Function Descriptions] Clock 27.0Mhz is necessary. This signal on the clock pin needs to be active before the reset pin is de-asserted. ( see figures 1 and 2 ) Reset Procedure RESET is a level sensitive input pin. Driving the RESET pin low causes a DVE reset. The 27Mhz DVE clock signal must be active before RESET is released. De-asserting reset will latch the status of the PAL/ NTSC, TVIN and SEL pins. The PAL/NTSC pin determines the default values for the DVE control registers. The default register values have been chosen so that standard PAL or NTSC video will appear at the DAC outputs immediately when a valid input digital video data stream is present. The value on the SEL pins determine the default serial communication mode. If Low, the DVE use I2C bus operation. If High, the DVE use 4-wired SPI operation. After reset, the VBI signals (Closed-Caption, CGMS and WSS ) are disabled. (see page --- for sub-address register descriptions.) Fig 1 : DVIN Data Input Timing Input Clock 27MHz 50% Tds Input Data DVIN0~7 Tdh Fig 2 : Sync Data Output Timing Clock 27MHz Output Data TP0~8 Output data H/VF sync Td Td No. 5 MC44724/5 Rev 0.21 03/25/97 This document contains information on a new product. Specifications and information herein are subject to change without notice. Input Data Format The input digital video is in accord with the ITU-R Rec.656 and SMPTE 125M standards. It is an two 8-bit or 16-bit multiplexed 4:2:2 ((CB,Y,CR)Y) data stream. Samples are latched on the rising edge of the clock signal. Data is input on pins DVIN[ 7 : 0 ] and TP[ 8 : 1 ] (see figures 3 and 4 for sub-address register descriptions.) Video Timing / Sync Generator The DVE outputs PAL-B,D,G,H,I, PAL-N, PAL-M or NTSC-M standard video signals. The DVE sync generator can be operated in two modes, master or slave. In master mode, the DVE generates all the correct Horizontal and Vertical or Frame sync signals internally, or it is output Csync signal through the EXT pin(C/Fsync). In slave mode, the DVE derives the sync signals from the Bit-Parallel input data stream Start Active Video (SAV) and End Active Video (EAV) data packet information. Sync signals are output on the Hsync and F/Vsync or EXT pins and can be programmed for positive or negative polarity. The phase of Hsync can also be controlled. Also, the DVE allows more two slave modes. One is H/Vsync slave, and the aother is H/Fsync slave mode. Vertical Blanking corresponds to the following lines. 625/50 624-22 311-335 ITU-R line numbering 525/60 1-19 264-282 SMPTE line numbering (see figures 3,4,5,6,7,8,9,10, and 11 for sub-address register descriptions.) Fig 3 : Digital Input Timing(525/60 system) in Master Mode Hsync phase sub-address71[2:0] +4T delay 70(hex){[1:0]=01} -3T delay Hsync Hsync polarity sub-address71[5] T clock 128T 244T 1440T 8-bit input mode DVIN0~7 INVALID FF 00 00 XY Cb0 Y0 Cr0 Y1 Cb2 Y2 Cb718 Y718 Cr718 Y719 FF 00 00 16-bit input mode DVIN0~7 INVALID TP1~8 INVALID Cb0 or Cr0 Cr0 Cb0 Cb2 Cr2 Cb718 Cr718 Cr718 Cb718 Y0 Y1 Y2 Y718 Y719 No. 6 MC44724/5 Rev 0.21 03/25/97 This document contains information on a new product. Specifications and information herein are subject to change without notice. Fig 4 : Digital Input Timing(625/50 system) in Master Mode Hsync phase sub-address71[2:0] +4T delay 70(hex){[1:0]=01} -3T delay Hsync Hsync polarity sub-address71[5] T clock 128T 264T 1440T 8-bit input mode DVIN0~7 INVALID FF 00 00 XY Cb0 Y0 Cr0 Y1 Cb2 Y2 Cb718 Y718 Cr718 Y719 FF 00 00 16-bit input mode DVIN0~7 INVALID TP1~8 INVALID Cb0 or Cr0 Cr0 Cb0 Cb2 Cr2 Cb718 Cr718 Cr718 Cb718 Y0 Y1 Y2 Y718 Y719 Fig 5 : Sync Timing::525/60 Interlaced System in Master Mode Fsync polarity sub-address71[3] sub-address71[7] =0 Fsync Vsync Vsync polarity sub-address71[4] Hsync CSYNC 524 525 1 2 3 4 5 6 7 8 9 10 11 21 22 23 Fsync Vsync Hsync CSYNC 261 262 263 264 265 266 267 268 269 270 271 272 273 283 284 285 No. 7 MC44724/5 Rev 0.21 03/25/97 This document contains information on a new product. Specifications and information herein are subject to change without notice. Fig 6 : Sync Timing::625/50 Interlaced System in Master Mode Fsync polarity sub-address71[3] Vsync polarity sub-address71[4] sub-address71[7] =0 Fsync Vsync Hsync CSYNC 621 622 623 624 625 1 2 3 4 5 6 7 8 9 21 22 23 Fsync Vsync Hsync CSYNC 309 310 311 312 313 314 315 316 317 318 319 320 321 334 335 Fig 7 : Sync Timing::525/60 Non-interlaced System in Master Mode Fsync polarity sub-address71[3] sub-address71[7] =1 Fsync Vsync Vsync polarity sub-address71[4] Hsync CSYNC 261 262 1 2 3 4 5 6 7 8 9 10 11 21 22 23 Fig 8 : Sync Timing::625/50 Non-interlaced System in Master Mode Fsync polarity sub-address71[3] Fsync Vsync Hsync CSYNC 308 309 310 311 312 1 2 3 4 5 6 7 Vsync polarity sub-address71[4] sub-address71[7] =1 8 9 21 22 23 No. 8 MC44724/5 Rev 0.21 03/25/97 This document contains information on a new product. Specifications and information herein are subject to change without notice. Fig 9 : Analog Sync Timing::Rise and fall 0.148uS 2.37uS 29.41uS 63.56uS 27.04uS 0.148uS 4.74uS NTSC 0.222uS 2.37uS 29.63uS 64.00uS 27.26uS 0.222uS 4.74uS PAL Fig 10 : Sync Timing::525/60 Interlaced System in Slave Mode Odd field Fsync Vsync Fsync polarity sub-address71[4] sub-address71[1:0] =10, 11 Vsync polarity sub-address71[5] Hsync Internal Hsync reset counter Hsync Delay sub-address 7A[7:0], 71[3:0] CSYNC 3 4 5 6 7 Even field Fsync Vsync Hsync CSYNC 266 267 268 269 No. 9 MC44724/5 Rev 0.21 03/25/97 This document contains information on a new product. Specifications and information herein are subject to change without notice. Fig 11 : Sync Timing::625/50 Interlaced System in Slave Mode sub-address71[1:0] =10, 11 Odd field Fsync Vsync Fsync polarity sub-address71[4] Vsync polarity sub-address71[5] Hsync Internal Hsync reset counter Hsync Delay sub-address 7A[7:0], 71[3:0] CSYNC 625 1 2 3 4 Even field Fsync Vsync Hsync CSYNC 313 314 315 316 No. 10 MC44724/5 Rev 0.21 03/25/97 This document contains information on a new product. Specifications and information herein are subject to change without notice. Chroma / Luma Encoding The DVE de-multiplexes the 4:2:2 digital video data stream. The de-multiplexed Y or Luma samples are interpolated (2X oversampled) at the clock rate. Offset compensation is then added, next any VBI signals consisting of Closed-Caption, CGMS and WSS are added to the appropriate lines, then finally composite sync pulses are added to the Luma signal. (see figure 12.) De-multiplexed component color CB and CR samples are interpolated (4X oversampled) at the clock rate. Interpolating simplifies the output filter and allows more accurate encoding. The DVE generates the necessary subcarrier color frequency for PAL or NTSC encoding from the 27Mhz system clock. This color subcarrier is then modulated by the base band component color CB and CR signals to create the video Chroma signal. (see figure 13.) A 7.5 IRE pedestal is added for the 60Hz field rate. This can be added for the 50Hz field rate through serial bus control. (see sub-address register descriptions) CVBS and S-VIDEO or YCbCr or RGB Outputs The internal digital video signals drive 10-bit D/A converters. Converter outputs are bi-directional current sources where the current is proportional to the digital data with reference to the IBIAS reference current. The pins CVBS/Cb/B, Y/G and C/Cr/R are the respective composite, Luma and Chroma or Y/Cb/Cr or R/G/B signal current source pins. Also, each DACs can drive 75ohm load register. User can select 2 sets of signals within above 3 sets. (see "Application Diagram" and "sub-address register descriptions".) Bias Current Gain DACs can be switched off through serial bus control to reduce power consumption. Both outputs of unused DACs should be connected to ground through a resister to avoid charge buildup. No. 11 MC44724/5 Rev 0.21 03/25/97 This document contains information on a new product. Specifications and information herein are subject to change without notice. Fig 12 : Luminance Output Range 470 420 340 290 212 162 82 32 32 Digital Y input code(16~235) 525/60 and 625/50 system 100%amplitude,100%saturation color bar IRE 100 89 70 59 41 30 11 7.5 0 670 620 540 490 412 362 232 200 282 232 code 1023 -40 12 Analog Y output level(525/60 system) 100%amplitude,100%saturation color bar 0 IRE 100 89 70 59 41 30 11 0 232 670 620 540 490 412 362 282 232 code 1023 -43 44 Analog Y output level(625/50 system) 100%amplitude,100%saturation color bar 0 No. 12 MC44724/5 Rev 0.21 03/25/97 This document contains information on a new product. Specifications and information herein are subject to change without notice. Fig 13 : Chrominance Output Range 480 444 332 292 256 220 68 32 32 108 256 256 180 256 404 480 Digital Cr-input code(16~240) 525/60 and 625/50 system 100%amplitude,100%saturation color bar Digital Cb-input code(16~240) 525/60 and 625/50 system 100%amplitude,100%saturation color bar IRE A }30 A }32 A }30 A }32 A }22 A }22 A }11 code 1023 63 59 45 20 0 -20 -45 -59 -63 511 0 Analog C output level(525/60 system) 100%amplitude,100%saturation color bar IRE A }30 A }32 A }30 A }32 A }22 A }22 A }11 code 1023 67 63 48 21.5 0 -21.5 -48 -63 -67 511 0 Analog C output level(625/50 system) 100%amplitude,100%saturation color bar No. 13 MC44724/5 Rev 0.21 03/25/97 This document contains information on a new product. Specifications and information herein are subject to change without notice. Fig 14 : RGB Output Range for 525/60 system IRE 100 670 code 1023 7.5 0 200 232 -40 12 IRE 100 Analog R output level(525/60 system) 100%amplitude,100%saturation color bar 670 0 code 1023 7.5 0 12 200 232 -40 IRE 100 Analog G output level(525/60 system) 100%amplitude,100%saturation color bar 670 0 code 1023 7.5 0 200 232 -40 12 Analog B output level(525/60 system) 100%amplitude,100%saturation color bar Transformation a) R = Y + 1.371 (Cr-128) b) G = Y - 0.698 (Cr - 128) - 0.336 (Cb - 128) c) B = Y +1.732 (Cb - 128) 0 No. 14 MC44724/5 Rev 0.21 03/25/97 This document contains information on a new product. Specifications and information herein are subject to change without notice. Fig 15 : RGB Output Range for 625/50 system IRE 100 670 code 1023 0 232 -43 44 IRE 100 Analog R output level(625/50 system) 100%amplitude,100%saturation color bar 670 0 code 1023 0 232 -43 44 IRE 100 Analog G output level(625/50 system) 100%amplitude,100%saturation color bar 670 0 code 1023 0 232 -43 44 Analog B output level(625/50 system) 100%amplitude,100%saturation color bar Transformation a) R = Y + 1.371 (Cr-128) b) G = Y - 0.698 (Cr - 128) - 0.336 (Cb - 128) c) B = Y +1.732 (Cb - 128) 0 No. 15 MC44724/5 Rev 0.21 03/25/97 This document contains information on a new product. Specifications and information herein are subject to change without notice. Copy Generation Managment System (CGMS) Encoding CGMS signals can be encoded by the DVE onto output video line 20 (525 / 60 for Japan). CGMS identification signals also identify and control the TV screen presentation mode - wide screen, letterbox and or normal -16:9 or 4:3. (see figures 18 for sub-address register descriptions.) Closed-Caption Encoding Closed-Captioned or Extended Data Service signals can be encoded by the DVE onto output video line 21/284 (NTSC) and line 22/335 (PAL). The CC data is input through the serial bus interface. Two 8-bit byte data pairs are encoded for each field. There are four registers for holding the data - two bytes per field. The serial data is 7bit US-ASCII MSB first, proceeded by an odd parity bit. Total 8-bits. (P-7-6-5-4-3-2-1-0) The DVE automatically generates the required clock run in and start bit for CC encoding. (see figure 16.) When Closed-Captioning is enabled, the system micro processor (uP) should update the CC data once each frame. The system uP should also write NULL characters when there is no CC data to encode. It is also recommended to write CC data only to the inactive frame. Field1 and Field2 data are double-buffered by the Frame sync falling edge of previous Frame, updating Frame 2 data during Frame1 display and Frame1 data during Frame2 display. (see figures 20 for sub-address register descriptions.) Wide Screen Signalling (WSS) Encoding WSS signals can be encoded by the DVE onto output video line 23 (625 / 50 for Europe). WSS identification signals also identify and control the TV screen presentation mode - wide screen, letterbox and or normal -16:9 or 4:3. (see figures19 for sub-address register descriptions.) No. 16 MC44724/5 Rev 0.21 03/25/97 This document contains information on a new product. Specifications and information herein are subject to change without notice. Serial Control Bus Control of the DVE device is accomplished through the I2C-Bus or SPI serial bus. In I2C mode, pins SDA and SCL are the respective data and clock signals. Device address can be 40(hex)/41(hex) or 1E(hex)/1F(hex) . Slave address is chosen at reset by the state of the ChipA pin signal { 0 : 40(hex)/41(hex), 1 : 1E(hex)/1F(hex) } Sub-address register read and write operations are documented in the following section. In SPI mode, pins SO, SI, SCK and SEL are the respective data input, output, serial clock and chip select signals. Register read and write operations are documented in the following section. MACROVISIONTM Copy Protection When enabled, the Luma and Chroma signals are modified according to the MACROVISIONTM copy protection process for Pay Per View (PPV) applications revision 7.01 dated Sep 6th , 1996. Enabling and control is through the serial control bus. No parts will be sent to the customer until the customer provides MOTOROLA with written confirmation of a license, non-disclosure or waiver from MACROVISIONTM. If your customer would NOT like to use this feature or customer do NOT have an agreement of the copy protection with MACROVISION, and then you should recommend the MC44723FT (no copy guard part). No. 17 MC44724/5 Rev 0.21 03/25/97 This document contains information on a new product. Specifications and information herein are subject to change without notice. Fig 16-a : I2C-BUS Interface Write operation Timing SCL SDA D7 D6 MSB D5 D4 D3 D2 D1 D0 LSB D7 D6 MSB D5 D4 D3 D2 D1 D0 LSB Start chip address(write) ACK Sub-address ACK SCL SDA D7 D6 MSB D5 D4 D3 D2 D1 D0 LSB D7 D6 MSB D5 D4 D3 D2 D1 D0 LSB Data 1 ACK Data N ACK Stop Fig 16-b : I2C-BUS Interface Read operation Timing SCL SDA D7 D6 MSB D5 D4 D3 D2 D1 D0 LSB D7 D6 MSB D5 D4 D3 D2 D1 D0 LSB Start chip address(write) ACK Sub-address ACK Stop SCL SDA D7 D6 MSB D5 D4 D3 D2 D1 D0 LSB D7 D6 MSB D5 D4 D3 D2 D1 D0 LSB Start chip address(Read) ACK Data 1 ACK by MCU SCL SDA D7 D6 MSB D5 D4 D3 D2 D1 D0 LSB D7 D6 MSB D5 D4 D3 D2 D1 D0 LSB Data 2 ACK by MCU Data N Stop ACK by MCU No. 18 MC44724/5 Rev 0.21 03/25/97 This document contains information on a new product. Specifications and information herein are subject to change without notice. Fig 17-a : SPI-BUS Interface Write operation Timing SEL SCK SI x D7 D6 MSB D5 D4 D3 D2 D1 D0 LSB D7 D6 MSB D5 D4 D3 D2 D1 D0 LSB SO (Don't care) x x MSB x x x x x x x LSB x MSB x x x x x x x LSB Start Write Command Sub-address SEL SCK SI D7 D6 MSB D5 D4 D3 D2 D1 D0 LSB D7 D6 MSB D5 D4 D3 D2 D1 D0 LSB SO (Don't care) D7 x MSB x x x x x x LSB x MSB x x x x x x x LSB Data 1 Data N No. 19 MC44724/5 Rev 0.21 03/25/97 This document contains information on a new product. Specifications and information herein are subject to change without notice. Fig 17-b : SPI-BUS Interface Read operation Timing SEL SCK SI SO (Don't care) x D7 D6 MSB x MSB x D5 D4 D3 D2 D1 D0 LSB x LSB D7 D6 MSB x MSB x D5 D4 D3 D2 D1 D0 LSB x LSB x x x x x x x x x x x Start Write Command Sub-address Stop SEL SCK SI x D7 D6 MSB x MSB x D5 D4 D3 D2 D1 D0 LSB x LSB x MSB x x x x x x x LSB D0 LSB SO x x x x x x D7 D6 MSB D5 D4 D3 D2 D1 Start Read Command Data 1 SEL SCK SI x MSB x x x x x x x LSB D0 LSB x MSB x x x x x x x LSB D0 LSB SO D7 D6 MSB D5 D4 D3 D2 D1 D7 D6 MSB D5 D4 D3 D2 D1 Data 2 Data N Stop No. 20 MC44724/5 Rev 0.21 03/25/97 This document contains information on a new product. Specifications and information herein are subject to change without notice. [Specifications] Maximum Ratings DC Supply Voltage Input Voltage, All Inputs Output Voltage, All Outputs DC Output Current, per Pin Power Dissipation Storage Temperature Vdd Vin Vout Iout Pd Tstg -0.5 ~ +7.0 -1.5 ~ Vdd+1.5 -0.5 ~ Vdd+1.5 25 750 -65 ~ +150 V V V mA mW Ae Electrical Characteristics Characteristic Power Supply Voltage(Analog Blocks) DAVDD Power Supply Voltage(Digital Blocks) DVDD Supply Current(Analog Blocks) Supply Current(Digital Blocks) Operating Temperature Symbol Min AVDD 3.1 4.75 DVDD 3.1 AIcc DIcc Ta 0 Typ 3.3 5.0 3.3 30 170 - Max 3.5 5.25 3.5 70 Unit V V mA mA Ae DAC Blocks Characteristics(Power Supply 3.3V,Ta=25A e A }3A e ) Characteristics Symbol Min Typ Max Resolution 10 Integral Non-Linearity INL A }4.0 Differential Non-Linearity DNL A }2.0 Analog Output Voltage Vyo 0.85 1.00 1.15 Full Scale Output Voltage Vyfs 0.85 1.00 1.15 Zero Scale Output Voltage Vyzs 0.0 0.1 External Load Resistance RL 75 120 - Unit Bit LSB LSB Vp-p V V E Other Vref = 1.1V Vref = 1.1V Vref = 1.5V DAC Blocks Characteristics(Power Supply 5.0V,Ta=25A e A }3A e ) Characteristics Symbol Min Typ Max Resolution 10 Integral Non-Linearity INL A }4.0 Differential Non-Linearity DNL A }2.0 Analog Output Voltage Vyo 1.5 2.0 Full Scale Output Voltage Vyfs 1.5 2.0 Zero Scale Output Voltage Vyzs 0.0 0.1 External Load Resistance RL 75 240 - Unit Bit LSB LSB Vp-p V V E Other Vref = 1.5V Vref = 1.5V Vref = 2V Vref = 2V No. 21 MC44724/5 Rev 0.21 03/25/97 This document contains information on a new product. Specifications and information herein are subject to change without notice. [Specifications] Clock Blocks Characteristics Characteristic Clock Rate Clock Duty Cycle Symbol fc Dty Min 45 Typ 27.0 50 Max 55 Unit MHz Ai Digital Blocks Electrical Characteristics(Power Supply 3.3V,Ta=25A Characteristics Symbol Min Typ Input Voltage HIGH ViH 2.0 LOW ViL Output Voltage HIGH VoH 2.4 (2.0mA) LOW VoL Input Leakage Current Iin A }2.5 Hi-Z Leakage Current Ioz A }20 Input Capacitance Cin Load Capacitance CL Data Setup Time Tds 4 Data Hold Time Tdh 5 Input Rise Time Tr Input Fall Time Tf Data delay Td - e A }3A e ) Max Unit V 0.8 V V 0.4 V EA EA 20 pF 20 pF nS nS 5 nS 5 nS 27 nS IIC/SPI-BUS Blocks Characteristics(Power Supply 3.3V,Ta=25A e A }3A e Characteristics Symbol A @Min Typ Input Voltage LOW VILM 0.8 Input Voltage High VIHM 2.3 Input Current VIM A }10 SDA Output Voltage (IOM=3mA) VOM 0.4 Output Current (during acknowledge) IOM 3 - ) Max Unit V V EA V mA Clock 50A 50A Tds Input Data not valid Tdh not valid Tr Tf valid No. 22 MC44724/5 Rev 0.21 03/25/97 This document contains information on a new product. Specifications and information herein are subject to change without notice. [I2C-BUS Slave Address 40(hex)/41(hex) or 1E(hex)/1F(hex)] WRITE MODE S Slave Address A Sub Address A DATA 0 A -------- DATA N AP 40(hex) or 1E(hex) if more than 1byte DATA is transmitted, then auto-increment of the Sub Address is performed S Slave Address A Sub Address DATA 0 DATA N P Start condition 40(hex) or 1E(hex) Acknowledge, generated by the slave Sub address byte First data byte continued data byte(Sub Address is auto increment) Stop condition READ MODE S Slave Address A Sub Address N AP Slave receiver 40(hex) or 1E(hex) then S Slave Address A DATA N AM DATA N + 1 AM --------- AM P Slave transmitter 41(hex) or 1F(hex) S Slave Address A Sub Address N DATA N DATA N + 1 AM P Start condition Slave receiver is act transmitter is ad Acknowledge, generated by the slave Sub Address byte DATA byte of Register N DATA byte of Register N + 1 (address auto-increment) Acknowledge, generated by the micro controller Stop condition (When Last AM must be '1' ) No. 23 MC44724/5 Rev 0.21 03/25/97 This document contains information on a new product. Specifications and information herein are subject to change without notice. [SPI-BUS] WRITE MODE S Write Command 40(hex) or 1E(hex) Sub Address DATA 0 -------- DATA N P if more than 1byte DATA is transmitted, then auto-increment of the Sub Address is performed S Write Command Sub Address DATA 0 DATA N P Chip select on ( Hi to Lo) 40(hex) or 1E(hex) Sub address byte First data byte continued data byte(Sub Address is auto increment) Chip select off (Lo to Hi) READ MODE S Write Command 40(hex) or 1E(hex) Sub Address N P Slave receiver then S Read Command 41(hex) or 1F(hex) DATA N DATA N + 1 --------P Slave transmitter S Sub Address N Read Command DATA N DATA N + 1 P Chip select on (Hi to Lo) Sub Address byte set 41(hex) or 1F(hex) DATA byte of Register N DATA byte of Register N + 1 (address auto-increment) Chip select off (Lo to Hi) No. 24 MC44724/5 Rev 0.21 03/25/97 This document contains information on a new product. Specifications and information herein are subject to change without notice. [Register Mapping and Description] Sub-address 70 : Variable I/O Switch (write/read) MSB Register 70 bs-off self-SW color bar select VBLK SW EXTsync SW F/Vsync SW M/S mode1 M/S mode0 LSB default : 0000_0001(bin) bs - off : color burst control switch On/Off 0 : color burst ON (default) 1 : color burst OFF : internal self H/V counter reset switch On / Off 0 : self counter reset OFF (default) 1 : self counter reset ON Note : this mode is ONLY valid at when 70h[1: 0] is "10(bin)" or "11(bin)". : color bar select 0 : color bar 1 : color bar Luma 100% 100% Chroma 100% 75% self - SW color bar select VBLK SW : Vertical Blanking Mask Enabale switch On-Off 0 : reject VBI information data in vertical blanking period (default) 1 : through VBI information data in vertical blanking period : Composite sync/Flame sync output switch 0 : Frame sync output (default) 1 : compsite sync output : Flame sync /Vertical sync output switch 0 : Vertical sync output (default) 1 : Frame sync output EXTsync SW F/Vsync SW M/S sync mode1 : Master or Slave sync mode M/S sync mode0 00 : 656 slave or H/V master mode 01 : 656 slave mode(no H/Vsync output) (defalt) 10 : Fsync/Hsync slave mode 11 : Vsync/Hsync slave mode No. 25 MC44724/5 Rev 0.21 03/25/97 This document contains information on a new product. Specifications and information herein are subject to change without notice. Sub-address 71 : Sync control (write/read) MSB Register 71 non-inter VBI SW h-polarity v-polarity f-polarity h- delay2 h-delay1 LSB h-delay0 default : 0000_0100(bin) non-inter : non-interlaced mode select 0 : interlace mode (default) 1 : non-interlace mode : vertical blanking information signal input control switch on EXT pin 0 : VBI input Off (default) 1 : VBI input On : polarity of Hsync 0 : negative (default) 1 : positive : polarity of Vsync 0 : negative (default) 1 : positive : polarity of Fsync 0 : field1 (odd) = low level (default) 1 : field1 (odd) = high level : delay on Hsync with referance to DVIN data in Master mode 000: + 4 clock delay 001: + 3 clock delay 010: + 2 clock delay 011: + 1 clock delay 100: + 0 clock delay 101: - 1 clock delay 110: - 2 clock delay 111: - 3 clock delay Note : this h-delay can be also related with 7A[7:0] register and can delay totally +2023 clock delay in H/V or H/Fsynnc slave mode. VBI SW h-polarity v-polarity f-polarity h-delay2 h-delay1 h-delay0 No. 26 MC44724/5 Rev 0.21 03/25/97 This document contains information on a new product. Specifications and information herein are subject to change without notice. Sub-address 72 : PAL/NTSC setup (write / read) MSB Register 72 phase-set TEST EXT I/O SW LSB color bar setup75 625/525 PAL/ NTSC2 PAL/ NTSC1 default : 0000_1000(bin) NTSC (If "PAL/NTSC" pin is LOW level) 0000_0101(bin) PAL phase-set : color sub-currier phase syncronization 0 : free running (default) 1 : 1 phase reset/8 field and 1 phase reset/4 flam : for test, should be "0" : Input/Output switch on EXT pin 0 : VBI input(default) 1 : Csync or Flame sync output : internal color bar genarator control 0 : nomal operation (default) 1 : color bar genarator On (need to set color bar mode on sub-address 70[5]. ) : Setup level for Luminance 0 : setup level for luminunce = 0IRE 1 : setup level for luminunce = 7.5IRE TSET EXT I/O SW color bar setup75 625/525 : control line mode 0 : 525 lines / 60 Hz mode 1 : 625 lines / 50 Hz mode PAL/NTSC2 PAL/NTSC1 : subcarrier control 00 : NTSC(M) 01 : PAL (BDGHI) 10 : PAL (M) 11 : PAL (N) No. 27 MC44724/5 Rev 0.21 03/25/97 This document contains information on a new product. Specifications and information herein are subject to change without notice. Sub-address 73: Vertical Blanking Information Luma (Y) Level (write only) MSB Register 73 Y7 Y6 Y5 Y4 Y3 Y2 Y1 Y0 LSB default : 1000_0000(bin) Sub-address 74: Vertical Blanking Information Chroma (U) Level (write only) MSB Register 74 U7 U6 U5 U4 U3 U2 U1 U0 LSB default : 79(dec) (NTSC) 157(dec) (PAL) Sub-address 75: Vertical Blanking Information Chroma (V) Level (write only) MSB Register 75 V7 V6 V5 V4 V3 V2 V1 V0 LSB default : 128(dec) (NTSC) 107(dec) (PAL) No. 28 MC44724/5 Rev 0.21 03/25/97 This document contains information on a new product. Specifications and information herein are subject to change without notice. Sub-address 76 : signal control 1(write only) MSB Register 76 Cr Cb Luma CVBS dac C dac Y dac LSB dac sw1 dac sw0 default : 0000_0000(bin) Cr Cb Luma : Cr/Cb signal control 0 : Cr, Cb On (default) 1 : chrominance Off : luminance control 0 : luminance On (default) 1 : luminance Off : D/A converter (1) output On-Off control 0 : CVBS/Cb/BDAC1, C/Cr/RDAC1, Y/GDAC1 output On (default) 1 : CVBS/Cb/BDAC1, C/Cr/RDAC1, Y/GDAC1 output Off : 1~9-pin's D/A converter output signal control 01 or 11 : R/G/B output On 10 : Y/Cr/Cb output On 00 : Y/C/CVBS output On CVBSdac Cdac Ydac dac sw1 dac sw0 Sub-address 77 : signal control 2 (write only ) MSB Register 77 B R G B dac R dac G dac dac sw4 LSB dac sw3 default : 0000_0001(bin) B R G Bdac Rdac Gdac dac sw4 dac sw3 : B/R/G signal control 0 : B/R/G signal On (default) 1 : B/R/G signal Off : D/A converter (2) output On-Off control 0 : CVBS/Cb/BDAC2, C/Cr/RDAC2, Y/GDAC2 output On (default) 1 : CVBS/Cb/BDAC2, C/Cr/RDAC2, Y/GDAC2 output Off : 17~25-pin's D/A converter (2) output signal control 01 or 11 : R/G/B output On (default) 10 : Y/Cr/Cb output On 00 : Y/C/CVBS output On No. 29 MC44724/5 Rev 0.21 03/25/97 This document contains information on a new product. Specifications and information herein are subject to change without notice. Sub-address 78~79 : Sub-carrier phase control (write only) MSB Register 78 sc-ph9 sc-ph8 sc-ph7 sc-ph6 sc-ph5 sc-ph4 sc-ph3 LSB sc-ph2 default : 0000_0000(bin) MSB Register 79 sc-ph1 LSB sc-ph0 default : 0000_0000(bin) sc-ph9 sc-ph8 sc-ph7 sc-ph6 sc-ph5 sc-ph4 sc-ph3 sc-ph2 sc-ph1 sc-ph0 : sub-currier phase control 0000_0000 : sub-currier phase 0 degree (default) to 1111_1111 : sub-currier phase 359 degree Sub-address 7A : Hsync delay control (write only) MSB LSB H-dela10 H-delay9 H-delay8 H-delay7 H-delay6 H-delay5 H-delay4 H-delay3 Register 7A default : 0000_0000(bin) h-delay10 h-delay9 h-delay8 h-delay7 h-delay6 h-delay5 h-delay4 h-delay3 : delay on Hsync with reference to DVIN data 0000_0000_000 : Hsync delay 0 delay to 1111_1111_000 : Hsync delay +255 delay Note : this h-delay can be also related with 71[3:0] register and can delay totally +2023 delay(1111_1111_111) in H/V or H/ Fsync slave mode. No. 30 MC44724/5 Rev 0.21 03/25/97 This document contains information on a new product. Specifications and information herein are subject to change without notice. Sub-address 7B : Digital Video Input Select Control (write only) MSB Register 7B Cr _tmg 2 Cr_tmg1 Cb _tmg 2 Cb_tmg1 Y_tmg LSB 16-bit input mode default : 0000_0000(bin) Cr/Cb_tmg2 Cr/Cb_tmg1 : Cr/Cb clock timing delay in 16-bit Digital Input Mode 00 : Cr clock delay 0 clock (default) 01 : Cr clock delay +1 clock 10 : Cr clock delay +2 clock 11 : Cr clock delay +3 clock : Y clock timing delay in 16-bit Digital Input Mode 0 : Y clock delay 0 clock (default) 1 : Y clock delay +1 clock : 16-bit Multiplexed CbYCrY Digital Video Input mode 0 : 8-bit CbYCrY Digital Video Input mode (default) 1 : 16-bit CbYCrY Digital Video Input mode Y_tmg 16-bit input mode No. 31 MC44724/5 Rev 0.21 03/25/97 This document contains information on a new product. Specifications and information herein are subject to change without notice. Sub-address 7C : signal control 3(write only) MSB Register 7C Ysync R/B sync G sync R/B CGMS G CGMS RGB bf LSB CbCr bf croma bf default : 0000_0000(bin) Y sync : Y sync Signal On/Off (Y/Cb/Cr mode only) 0 : Y sync On (default) 1 : Y sync Off : R/B sync signal On/Off 0 : R/B sync Off (default) 1 : R/B sync On : G sync signal On/Off 0 : G sync Off (default) 1 : G sync On : R/B CGMS data Insertion On/Off 0 : CGMS data On 1 : CGMS data off : G CGMS data Insertion On/Off 0 : CGMS data On 1 : CGMS data off : RGB burst level On/Off 0 : RGB bf data On 1 : RGB bf data off : CbCr burst On/Off 0 : Cb/Cr bf data On 1 : Cb/Cr bf data off : Croma burst On/Off 0 : Croma bf data On 1 : Croma bf data off R/B sync G sync R/B CGMS G CGMS RGB bf CbCr bf Croma Sub-address 7D~7E : Vsync delay control (write only) MSB Register 7D V-delay9 V-delay8 V-delay7 V-delay6 V-delay5 V-delay4 V-delay3 default : 0000_0000(bin) LSB V-delay2 MSB Register 7E V-delay1 LSB V-delay0 default : 0000_0000(bin) No. 32 MC44724/5 Rev 0.21 03/25/97 This document contains information on a new product. Specifications and information herein are subject to change without notice. V-delay9 V-delay8 V-delay7 V-delay6 V-delay5 V-delay4 V-delay3 V-delay2 V-delay1 V-delay0 : delay on Vsync with reference to DVIN data in slave mode 0000_0000_000 : Vsync delay 0 delay to 1111_1111_111 : Hsync delay +1023 delay No. 33 MC44724/5 Rev 0.21 03/25/97 This document contains information on a new product. Specifications and information herein are subject to change without notice. Sub-address 80~82: CGMS characters for Field1(Line20)/Field2(Line283) (write only) MSB Register 80 MSB Register 81 vid128 b16 MSB Register 82 XX XX XX XX vid134 b20 49.1A }0.5E 11.2A }0.6E 70IRE 2.235E NTSC only LSB vid118 b8 vid117 b7 vid127 b15 vid116 b6 vid126 b14 vid115 b5 vid125 b13 vid114 b4 vid124 b12 vid113 b3 vid123 b11 vid133 b19 vid112 b2 vid122 b10 vid132 b18 vid111 b1 LSB vid121 b9 LSB vid131 b17 0IRE Ref b1 b2 b3 b4 b5 b6 b7 b8 b9 b10 b12 b14 b16 b18 b20 b11 b13 b15 b17 b19 -40IRE Fig 18 : CGMS wave form Sub-address 80~81: WSS characters for Line23 (write only) MSB Register 80 MSB Register 81 b16 b15 wss13 b14 wss12 b13 wss11 b12 wss10 b11 wss7 b8 wss6 b7 wss5 b6 wss4 b5 wss3 b4 wss2 b3 PAL only LSB wss1 b2 wss9 b10 wss0 b1 LSB wss8 b9 End of horizontal blanking internal 500mV+-5% 11.0E 10.5E s+-0.25E 27.4E 38.4E 44.5E Fig 19 : WSS wave form No. 34 MC44724/5 Rev 0.21 03/25/97 This document contains information on a new product. Specifications and information herein are subject to change without notice. Sub-address 83~84 :closed caption characters/extended data for Field1(Line21) (write) default 1000_0000 First byte to Encode MSB Register 83 ccp118 ccb117 b7 ccb116 b6 ccb115 b5 ccb114 b4 ccb113 b3 ccb112 b2 ccb111 b1 LSB ccb127 b7 ccb126 b6 ccb125 b5 ccb124 b4 ccb123 b3 ccb122 b2 ccb121 b1 parity Second byte to Encode MSB Register 84 ccp128 parity LSB Sub-address 85~86 :closed cation character/extended data for Field2(Line284) First byte to Encode MSB Register 85 ccp218 ccb217 b7 ccb216 b6 ccb215 b5 ccb214 b4 ccb213 b3 ccb212 b2 LSB ccb211 b1 LSB ccb227 b7 ccb226 b6 ccb225 b5 ccb224 b4 ccb223 b3 ccb222 b2 ccb221 b1 parity Second byte to Encode MSB Register 86 ccp228 parity 4.15A }0.1E 10.50A }0.5E 12.91E 50IRE 33.764E 50IRE 0IRE -40IRE bbbbbbbp bbbbbbb 1234567a 1234567 CHARACTER1 r CHARACTER2 i t y p a r i t y 0IRE Fig 20 : Closed caption wave form sub-address 83 & 84 and 85 & 86 (previous frame data) are double-buffered by Flame sync falling edge Fsync Field 1 Field 2 Fig 21 : Closed caption data update timing No. 35 MC44724/5 Rev 0.21 03/25/97 This document contains information on a new product. Specifications and information herein are subject to change without notice. Sub-address 87 :Closed caption/CGMS MSB Register 87 CC2_flag CC1_flag CC_null default 00h CC2_flag : Closed Caption Status Flag for field2/field1 CC1_flag : 00 : Automatically set to " 11 " at when 2-byte Closed Caption data are written, and then will be cleared to "00" when the data is send to doubled buffer CC_null : Automatically set the null code when the data is send to doubled buffer 0 : Keep data registers 1 : Automatically set the null code WSS : WSS information data insertion On-Off 0 : WSS information data insertion Off 1 : WSS information data insertion On WSS CGMS CC2 CC1 LSB CGMS : CGMS information data insertion On-Off 0 : CGMS information data insertion Off 1 : CGMS information data insertion On CC2 : closed caption/extended data for field2 encoding On-Off 0 : closed caption/extended data for field2 encoding Off 1 : closed caption/extended data for field2 encoding On : closed caption/extended data for field1 encoding 0 : closed caption/extended data for field1 encoding Off 1 : closed caption/extended data for field1 encoding On CC1 No. 36 MC44724/5 Rev 0.21 03/25/97 This document contains information on a new product. Specifications and information herein are subject to change without notice. I2C-BUS Slave Receiver Sub-address map 70h:[7] [6] [5] [4] [3] [2] [1:0] 71h:[7] [6] [5] [4] [3] [2:0] 72h:[7] [6] [5] [4] [3] [2] [1:0] 73h[7:0] 74h[7:0] 75h[7:0] 76h[7] [6] [5] [4:2] [1:0] burst control (default 0:on) self counter reset switch (default 0:off) color bar select (defalut 0:Luma 100% Chroma 100%) vertical blanking switch(default 0:off) EXT pin output mode select (Csync:1, Flame sync:0) F/Vsync select(default 0:Vsync) Master/Slave mode select(default 01:656_slave) interlaced / non-interlaced (default 0:interlaced) VBI input control on EXT pin (default 0:off) horizontal sync polarity (default 0) vertical sync polarity (default 0) flame sync polarity (default 0) hsync delay control (default 100:0 clock delay) (In slave mode can use with 7A[7:0]) sub-currier phase syncronaiation(default 0) Test mode (default 0:off) EXT I/O switch(defalt 1:cysnc output) color bar generate(default 0:off) setup level control(default 1:7.5IRE) 625lines50Hz/525Lines60Hz (default set PAL/NTSC pin) PAL/NTSC (default set PAL/NTSC pin) 00:NTSC/M 01:PAL/BGHL (10:PAL/M) (11:PAL/N) Y_register(default 80h) U_register(default 79d:ntsc/157d:PAL) V_register(default 128d:ntsc/107d:PAL) Cr on/off (default 0:on) Cb on/off (default 0:on) Luma on/off(default 0:on) (default 0: on) CVBS dac/Cdac/Ydac on/off(default 0: on) D/A converter output signal control (default 00 : CBVS/Y/C output) 77h[7:5] [4:2] [1:0] 78h[7:0] 79h[1:0] 79h[7:2] 7A[7:0] 7B[7:6] [5:2] [1] [0] 7C[7] [6] [5] [4] [3] [2:1] [0] 7D[7:0] 7E[7:2] [1:0] B/R/G signal control (default 0: On) D/A converter(2) output On/Off control(default 0: On) D/A converter(2) output signal control(default 0X: On) sub-currier phase control(default 00h) sub-currier phase control(default 00) n.a. hsync-delay control (In slave mode, is valid with 71h[2:0] register) n.a Cr/Cb clock timing delay in 16-bit digital input mode (default 00: clock delay 0) Y clock timing delay in 16-bit digital input mode (default 0: clock delay 0) 16-bit multiplexed CbYCrYdigital video input mode (default 0: 8-bit YCrCb digital video input mode) Ysync signal On/Off(YCrCb mode only)(default 0: On) R/Bsync signal On/Of(default 0: Off) Gsync signal On/Of(default 0: Off) R/B CGMS data insertion On/Of(default 0: On) G CGMS data insertion On/Of(default 0: On) RGB/CbCr burst On/Off(default 0: On) Chroma burst On/Off(default 0: On) delay on Vsync with reference to DVIN data in slave mode n.a delay on Vsync with reference to DVIN data in slave mode CGMS characters for field1(line20)/field2(line283) WSS characters for field1(line23) CC character1(line21) (default 'h80) CC character2(line21) (default 'h80) CC character1(line284) (default 'h80) CC character2(line284) (default 'h80) Closed Caption Status Flag for field2 Automatic set to null code(Closed Caption data) n.a. WSS information data insetion on/off (default 0: off) CGMS on/off (default 0: off) CC closed caption/extended data for field2 encoding (default 0: off) CC closed caption/extended data for field1 encoding (default 0: off) 80~82h 80~81h 83h[7:0] 84h[7:0] 85h[7:0] 86h[7:0] 87h[7:6] [5] [4] [3] [2] [1] [0] <<<<<<<< M-BUS Format >>>>>> ** WRITE MODE ** S | Slave_address(W) | A | Sub_address | A | Data0 | A | ... | DataN | A | P S Slave_address A Sub_address Data0 DataN P Start condition 42(hex) or 1C(hex) Acknowledge generated by me Sub_address register First data Continued data(address is auto incremented) Stop condition <<<<<<<< SPI-Bus Format >>>>>> ** WRITE MODE ** S | Write Command | Sub_address | Data0 | ... | DataN | P S Write Command Sub_address Data0 DataN P Chip select on (High to Low) 42(hex) or 1C(hex) Sub_address byte First data Continued data byte(address is auto incremented) Chip select off (Low to High) No. 37 MC44724/5 Rev 0.21 03/25/97 This document contains information on a new product. Specifications and information herein are subject to change without notice. [ Ap p r i ca t i o n Di a g r a DLVd d 47uF 0 .0 1 u F DVd d 47uF 0 .0 1 u F 62 63 64 61 60 59 58 57 56 TP0 TP1 TP5 55 TP2 TP6 54 TP7 53 TP3 TP4 DVdd DVss TP8 52 51 DLVss DLVdd DATST Hsync 50 CVBS 1 F / Vsync 49 CVBS / Cb / B1 CVBS / Cb / B1 CVBS / Cb / B1 Vdd Y / G1 Y / G1 Y / G1 Vdd C / Cr / R1 C / Cr /R1 C / Cr / R 1Vdd DAVss Ibias1 VReff1 DAVdd CVBS / Cb / B2 Vdd VReff2 CVBS / Cb / B2 CVBS / Cb / B2 Ibias2 NC 75 Y 0 .0 1 u 47uF 75 0 .0 1 u 47uF C 47uF 75 75 75 75 EXT TVIN DVIN0 DVIN1 DVIN2 DVIN3 48 47 46 45 44 43 42 41 40 39 38 2 3 4 5 6 7 8 9 10 11 M PEG DECODER MC44724 MC44725 DVIN4 DVIN5 DVIN6 DVIN7 DVss DVdd SEL SCL/SCK 2k 0 .0 1 u 750 47uF 4 .7 k 12 13 14 15 37 36 35 34 33 750 C / Cr / R2 Vdd Y / G 2Vdd Y / G2 Y /2 G ChipA DVdd TEST DVss 19 Reset clock 2k C / Cr / R2 18 17 1k 0 .0 1 u 75 75 75 75 75 75 20 21 22 23 24 25 26 27 28 29 30 31 32 PAL/NTSC C / Cr / R2 16 SO If NTSC sy st e m = " e l se PAL sy st e m = " 100k 10uF 0 .0 1 u F 47uF 0 .0 1 u F 47uF 47uF 0 .0 1 u F CVBS cl o ck Y No. 38 C MC44724/5 Rev 0.21 03/25/97 This document contains information on a new product. Specifications and information herein are subject to change without notice. 47uF SDA/SI 0 .0 1 u F M CU 0 .0 1 u 1 k 0 .0 1 u 4 .7 k Package HD D De t a i l A L1 L c HE E min A A1 A2 b c Detail A A2 D E e HD A1 ZD or ZE e b A HE L L1 E y ZD ZE 11.80 11.80 0.50TYP 0.80 0 1.25TYP 1.25TYP 0.18 0.10 9.90 9.90 0.50 0.05 1.40TYP max 1.70 0.15 0.27 0.20 10.1 10.1 12.20 12.20 1.20 10 0.10 unit : m No. 3 9 MC44724/5 Rev 0.21 03/25/97 This document contains information on a new product. Specifications and information herein are subject to change without notice. E |
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