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| ICs for TV AN5394FB RGB processor IC for the HDTV (Japan) and wide-screen TV s Overview The AN5394FB is an RGB processor IC which converts the brightness and color difference signals to a primary color signal. It can be connected to each input signal of HDTV (Japan), DVD, NTSC, PAL, VGA, etc. and facilitates rationalization and high performance of the endproducts. 36 37 14.000.30 Unit: mm 25 24 (1.60) 13 12.000.20 48 1 (1.60) 0.80 12 * Wider band for signal processing (Y: 30 MHz/-3 dB, color difference: 15 MHz/-3 dB) * Direct input of HD, NTSC and DVD standard YUV signal * High picture quality due to the built-in various correction circuits of Y signal * Auto-cut off functions * Having 2 systems of RGB input, OSD plus character broadcasting or external RGB input such as VGA is supported. * SMD package allows for high density mounting. +0.10 0.30 -0.05 Seating plane (1.00) 0 to 10 0.500.20 QFP048-P-1212B s Applications * HDTV (Japan), wide-screen television, projection television, plasma display panel (PDP), LCD projector, video capture board 0.100.10 1.950.20 s Features 12.000.20 +0.10 0.15 -0.05 14.000.30 1 AN5394FB s Block Diagram Analog VCC 9 V White peak det. Black peak det. RGB out-VCC2 Blooming DC in RGB out-VCC1 ICs for TV Spot killer in APL det. G-CLP R-CLP B-CLP 36 35 34 33 32 31 30 29 28 27 26 Y in R-Y in B-Y in Chroma cont. ABL/ACL Analog GND1 CLP in VCC 5 V DI in BLK in HP in VP in 37 38 25 24 Y IK Video block B-Y Y' R R-S/H R-out G-S/H G-out B-S/H B-out RGB out-GND1 RGB out-GND2 Analog VCC2 OSD-R in OSD-G in OSD-B in 23 R-Y 39 R-Y 40 41 42 43 44 45 46 47 48 Chroma block ABL/ACL block Matrix block G 22 21 G-Y B-Y B RGB out block 20 19 18 I2C block RGB (OSD) RGB 17 16 15 OSD block Pulse block 14 13 10 11 B-in 2 Analog GND2 RGB SW NECK in SCL SDA GND 5 V VP+6H G-in YM Ys R-in 12 1 2 3 4 5 6 7 8 9 ICs for TV s Pin Descriptions Pin No. 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 VP + 6H RGB SW YM input Ys input Neck in SCL SDA GND 5 V R-n G-in B-in Analog GND2 OSD-B in OSD-G in OSD-R in Analog VCC2 RGB out-GND2 RGB out-GND1 B output B-S/H G output G-S/H R output R-S/H Description Pin No. 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 IK Blooming DC in RGB out-VCC1 RGB out-VCC2 Spot killer in Analog VCC1 B-CLP G-CLP R-CLP APL det. Black peak det. White peak det. Yin R-Y in B- Y in Chroma cont. ABL/ACL Analog GND1 CLP in VCC 5V DI in BLK in HP in VP in Description AN5394FB s Absolute Maximum Ratings Parameter Supply voltage Symbol VCC1 VCC2 Supply current *2 *1 Rating 10.0 5.6 70.0 39.2 681 -25 to +70 -55 to +150 Unit V ICC1 ICC2 mA Power dissipation PD Topr Tstg *1 mW C C Operating ambient temperature Storage temperature Note) *1 : Except for the operating ambient temperature and storage temperature, all ratings are for Ta = 25C. *2 : Power dissipation PD indicates the value in the free air at Ta = 70C. For further details, refer to "s Technical Information". 3 AN5394FB s Recommended Operating Range Parameter Supply voltage Symbol VCC1 VCC2 Range 8.1 to 9.9 4.5 to 5.5 ICs for TV Unit V s Electrical Characteristics at VCC1 = 9 V, VCC2 = 5 V, Ta = 25C Parameter (1) DC characteristics Circuit current 1 *1 Circuit current 2 *1 (2) Y-system Video voltage gain Video voltage gain change Frequency characteristics Standard output pedestal Brightness variable range Contrast ratio APL detection voltage APL detection ratio DC regeneration ratio 1 DC regeneration ratio 2 AYG AY fY DCP VBR A(CON) VAPL APL DC1 DC2 Input: Sine wave 0.2 V[p-p] f = 1 MHz; Contrast: max. Ratio between R,G and B Drive: typ. Input: Sine wave 0.2 V[p-p] f = 30 MHz; Contrast: max. Brightness: typ. Brightness: min. max. Contrast: min. max. Input: Total white 0.7 V[0-p] Voltage at APL detection pin 34 4.4 -2.5 -6 2.6 1.8 25 0.7 5.4 0 -3 3.0 2.2 0.93 0.54 100 80 6.4 2.5 1 3.4 2.6 1.3 0.64 105 90 Times dB dB V V dB V Times % % ICC1 ICC2 VCC1 = 9 V, VCC2 = 5 V No signal input VCC1 = 9 V, VCC2 = 5 V No signal input 39 24 51 31 63 35 mA mA Symbol Conditions Min Typ Max Unit Input: Total white 0.7 V[0-p] 0.35 V[0-p] 0.44 Voltage at APL detection pin 34 Input signal APL 10% 90% APL detection pin 34 = 0 V Input signal APL 10% 90% DC regeneration SW/on; Polarity '-' APL det./R = 75 k Input signal APL 10% 90% DC regeneration SW/on; Polarity '+' APL det./R = 75 k Input: Total white 1.4 V[0-p] Blooming DC = 3.8 V Pin 34: 0 V; Brightness: max. Input: Total white 1.4 V[0-p] Blooming DC = 3.8 V 4.2 V Pin 34: 0 V; Brightness: max. 95 70 DC regeneration ratio 3 DC3 110 120 130 % Output blooming level VBL 5.7 6.7 7.7 V Output blooming level change VBL -1.2 - 0.9 - 0.7 V Note) *1: ICC1 is a total of the current at pins 16, 27, 28 and 30. ICC2 is a total of the current at pin 44. 4 ICs for TV s Electrical Characteristics at VCC1 = 9 V, VCC2 = 5 V, Ta = 25C (continued) Parameter (2) Y-system (continued) White gradation correction 1 *2 Y1 Input: Total white 0.7 V[0-p] Gain: max. Level: typ. max. White gradation SW: On Input: Total white 0.7 V[0-p] Gain: max. Level: typ. min. White gradation SW: On Black extension characteristics 1 *3 Black extension characteristics 2 *3 Black extension characteristics 3 *3 Black extension characteristics 4 *4 Black extension characteristics 5 *4 Black extension characteristics 6 *4 White character correction 1 *2 YBL1 YBL2 Output amplitude 0 V[p-p] Level: typ., gain: min. max. - 0.1 0 10 16 Symbol Conditions Min Typ AN5394FB Max Unit 22 % White gradation correction 2 *2 Y2 -26 -20 -14 % 0.1 V V Input: Total white 0.7 V[0-p] - 0.86 - 0.66 - 0.46 Output amplitude1.0 V[0-p], contrast adj level: typ., gain: min. max. Input: Total white 0.7 V[0-p] Output amplitude1.6 V[0-p], contrast adj level: typ., gain: min. max. Black detection open 3 V Level: typ., gain: typ. Black detection open 3 V Level: typ., gain: max. Black detection open 3 V Level: min. max., gain: typ. Input: Total white 0.7 V[0-p] Blooming DC adjustment Level: max., gain: min. typ. Input: Total white 0.7 V[0-p] Blooming DC adjustment Level: min., gain: min. max. Y input: Total white 0.7 V[0-p] C-Y input: 0.2 V[0-p] Level: min., gain: min. max. ABL/ACL pin 7.5 V Level: min., gain: min. max. ABL/ACL pin 3 V Level: min. max., gain: max. ABL/ACL pin 3 V Level: min., gain: min. max. ABL/ACL pin 5 V 3 V Level: typ., gain: max. - 0.1 0 0.1 YBL3 V YBL4 YBL5 YBL6 VW1 - 0.8 -1.5 - 0.6 -1.1 - 0.4 - 0.7 V V V % -1.20 - 0.75 - 0.30 10.0 25.0 40.0 White character correction 2 *2 VW2 -9.3 0 9.3 % White character correction off *2 WOFF - 0.2 0 0.2 V ABL off *5 ABL start 1*5 ABL start 2*5 ABL gain 1*5 Note) *2: *3: *4: *5: VABL1 VABL2 VABL3 AABL - 0.1 0.28 0 0.39 0.1 0.50 V V V V - 0.84 - 0.64 - 0.44 - 0.48 - 0.37 - 0.26 Adjust the blooming DC voltage (pin 26). Black gradation SW: On Black gradation SW: On, brightness: max. ABLSW: On, brightness: max. 5 AN5394FB s Electrical Characteristics at VCC1 = 9 V, VCC2 = 5 V, Ta = 25C (continued) Parameter (2) Y-system (continued) ACL off *6 AACL1 Input: Total white 0.7 V[0-p] ABL/ACL pin: 7.5 V Level: min., gain: min. max. Input: Total white 0.7 V[0-p] ABL/ACL pin: 3 V Level: min. max., gain: typ. Input: Total white 0.7 V[0-p] ABL/ACL pin: 3 V Level: min., gain: min. typ. Input: Total white 0.7 V[0-p] ABL/ACL pin: 5 V 3 V Level: typ., gain: typ. -5 0 Symbol Conditions Min Typ ICs for TV Max Unit 5 % ACL start 1 *6 AACL2 10 20 30 % ACL start 2 *6 AACL3 -45 -35 -25 % ACL gain 1 *6 AACL4 -34 -22 -10 % (3) Color difference-system Color difference voltage gain *7 Color difference frequency characteristics *7 B-Y axis gain adjustment range NTSC1 *7 B-Y axis gain adjustment range NTSC2 *7 Tint variable range *8 GR fc GB-Y1 Input: Sine wave 0.2 V[p-p] f = 1 MHz, R-YIN ROUT Input: Sine wave 0.2 V[p-p] f = 10 MHz B-Y input: 0.2 V[0-p] B-Y gain: min., brightness: max. Input-SW: NTSC-standard B-Y input: 0.2 V[0-p] B-Y gain: max., brightness: max. Input-SW: NTSC-standard R-Y input: 0.228 V[0-p] B-Y input: 0.406 V[0-p] Tint: min. max. Color: typ. max. Contrast: typ. Color: min., B-Y gain: max. Contrast: max. R-Y input: 0.228 V[0-p] B-Yinput: 0.406 V[0-p] R-Y axis: min. max. 4.64 -6 0.34 5.80 -3 0.48 6.96 +2 0.62 Times dB Times GB-Y2 0.84 1.20 1.56 Times Tc 33 48 68 Color control *7 Color residue *7 R-Y angle adjustment range *8 CCON CMIN R 3 - 50 12 6 0 19 9 50 26 dB mV[p-p] Note) *6: ACLSW: On *7: Adjust tint, drive R and B. *8: Adjust tint, drive R, B and B-Y gains 6 ICs for TV s Electrical Characteristics at VCC1 = 9 V, VCC2 = 5 V, Ta = 25C (continued) Parameter Symbol Conditions Min Typ AN5394FB Max Unit Color difference-system (continued) Input matrix ratio 1 (HD/NTSC) R-Y *7 Input matrix ratio 2 (DVD/NTSC) R-Y *7 Input matrix ratio 3 (HD/NTSC) B-Y *7 Input matrix ratio 4 (DVD/NTSC) B-Y *7 Output matrix ratio 1 (matrix 1/standard) R-Y *7 Output matrix ratio 2 (matrix 2/standard) R-Y *7 Output matrix ratio 3 (matrix 1/standard) B-Y *7 Output matrix ratio 4 (matrix 2/standard) B-Y *7 G-Y matrix ratio (G-Y/R-Y) HD *7 G-Y matrix ratio (G-Y/R-Y) standard *7 G-Y matrix ratio (G-Y/R-Y) matrix 1 *7 G-Y matrix ratio (G-Y/R-Y) matrix 2 *7 G-Y matrix ratio (G-Y/B-Y) HD *7 G-Y matrix ratio (G-Y/B-Y) standard *7 G-Y matrix ratio (G-Y/B-Y) matrix 1 *7 G-Y matrix ratio (G-Y/B-Y) matrix 2 *7 Note) *7: Adjust tint, drive R and B. SW1 SW2 SW3 SW4 SW5 SW6 SW7 SW8 M1 M2 M3 M4 M5 M6 M7 M8 Input: Sine wave 0.2 V[p-p] f = 1 MHz, R-YIN ROUT Input: Sine wave 0.2 V[p-p] f = 1 MHz, R-YIN ROUT Input: Sine wave 0.2 V[p-p] f = 1 MHz, B-YIN BOUT Input: Sine wave 0.2 V[p-p] f = 1 MHz, B-YIN BOUT Input: Sine wave 0.2 V[p-p] f = 1 MHz, R-YIN ROUT Input: Sine wave 0.2 V[p-p] f = 1 MHz, R-YIN ROUT Input: Sine wave 0.2 V[p-p] f = 1 MHz, B-YIN BOUT Input: Sine wave 0.2 V[p-p] f = 1 MHz, B-YIN BOUT G-Y matrix: HD G-Y matrix: Standard G-Y matrix: matrix 1 G-Y matrix: matrix 2 G-Y matrix: HD G-Y matrix: Standard G-Y matrix: matrix 1 G-Y matrix: matrix 2 1.30 1.14 1.53 1.45 1.28 1.10 1.28 1.10 0.23 0.38 0.26 0.26 0.07 0.15 0.22 0.13 1.62 1.42 1.91 1.81 1.60 1.38 1.60 1.38 0.30 0.51 0.34 0.34 0.10 0.19 0.28 0.17 1.94 1.70 2.29 2.17 1.92 1.65 1.92 1.65 0.35 0.58 0.40 0.40 0.13 0.23 0.34 0.21 Times Times Times Times Times Times Times Times Times Times Times Times Times Times Times Times 7 AN5394FB s Electrical Characteristics at VCC1 = 9 V, VCC2 = 5 V, Ta = 25C (continued) Parameter (4) OSD, RGB input Ys input threshold voltage *9 RGB input threshold voltage *9 Ym input threshold voltage *9 CLP input threshold voltage Clamp-possible pulse width OSD gain OSD frequency characteristics OSD contrast ratio 1 OSD contrast ratio 2 RGB gain RGB frequency characteristics RGB contrast ratio (5) Cutoff drive BLK input threshold voltage *10 BLKTH Neck mute input threshold voltage *10 DI input threshold voltage Vp input threshold voltage Hp input threshold voltage Cutoff variable range (R, G, B)*11 Drive variable range (R, G, B) R, G, B pedestal potential difference NTH DTH VTH HTH LRGB GD VP Cutoff R, G, B: min. max. Cutoff SW: min. max. Drive R, G, B: min. max. Cutoff: typ. Bright: typ. BLK SW: On 0.9 0.9 0.9 0.9 0.9 1.6 9.0 - 0.3 1.4 1.4 1.4 1.4 1.4 2.0 11.5 0 YsTH RGBTH YmTH CLPTH WM GOSD fOSD OSDC1 OSDC2 GRGB fRGB RGBC Pin 4 > 2.1 V: OSD Pin 4 < 0.9 V: Main or RGB Pin 2 > 2.1 V: RGB Pin 2 < 0.9 V: Main Pin 3 > 2.1 V: Half tone Pin 3 < 0.9 V: Normal Pin 43 (main, OSD, RGB) Pin 43 (main, OSD, RGB) Input: Sine wave 0.2 V[p-p] f = 1 MHz, Ys pin: 2.1 V Input: Sine wave 0.2 V[p-p] f = 30 MHz, Ys pin: 2.1 V Contrast: max. typ. Ys pin: 2.1 V Contrast: typ. 01 Ys pin: 2.1 V Input: Sine wave 0.2 V[p-p] f = 1 MHz, RGB pin: 2.1 V Input: Sine wave 0.2 V[p-p] f = 30 MHz, RGB pin: 2.1 V Contrast: max. min. RGB pin: 2.1 V 0.9 0.9 0.9 0.9 0.8 4.6 -7 -3 -16 4.6 -7 25 1.4 1.4 1.4 1.4 5.8 -3 -1 -11 5.8 -3 Symbol Conditions Min Typ ICs for TV Max Unit 2.1 2.1 2.1 2.1 7.0 1 1 -7 7.0 1 V V V V s Times dB dB dB Times dB dB 2.1 2.1 2.1 2.1 2.1 2.4 14.0 0.3 V V V V V V dB V Note) *9: SW priority: Ys > Ym, RGB *10: Priority: Neck > single color adjustment (I2C) > auto cutoff > BLK SW(I2C) > BLK pulse *11: Drive R, B adjustment 8 ICs for TV s Electrical Characteristics at VCC1 = 9 V, VCC2 = 5 V, Ta = 25C (continued) Parameter (5) Cutoff drive (continued) Output blanking level IK pulse peak voltage (max.)* 12 AN5394FB Symbol Conditions Min Typ Max Unit BLK IKmax BLK SW: On BLK (pin 46): 2.1 V IK input (pin 25) BLK SW: On Auto cutoff mode IK input (pin 25) BLK SW: On Auto cutoff mode IK input (pin 25) BLK SW: On Auto cutoff mode VCC2 = 5 V I = 3 mA at pull-up 1.6 k VCC2 = 5 V 1.0 2.7 1.4 3.5 1.8 4.3 V V IK pulse peak voltage varying width*12 IK 2.5 3.1 3.7 V Potential difference for IK pulse IK-PED vs. pedestal *12 (6) I2C * DAC SCL * SDA Input threshold voltage Sink ability at ACK Maximum clock frequency VTH VACK - 0.01 0.23 0.31 V 1.5 100 3.0 0.4 V V kHz Note) *12: Priority ... NECK > single color adjustment (I2C) > auto cutoff > BLKSW * Design refernce data VCC = 9 V, VCC = 5 V, Ta = 25C Note) The characteristics listed below are theoretical values based on the IC design and are not guaranteed. Parameter (1) Y-system Y (main) Input dynamic range R, G, B output dynamic range APL detection stop Black extension inhibition delay S/N Y output amplitude Ambient temp. dependency Y signal delay time (2) Color difference-system R-Y, B-Y input dynamic range (HD) R-Y, B-Y input dynamic range (NTSC) Symbol Conditions VCC1 = 9 V V26 = 1.5 V Contrast; typ. VCC1 = 9 V For pedestal 3 V BLK, DI = 2.1 V Delay from BLK, DI Band width 20 MHz - 20C to +70C f = 5 MHz Min Typ Max Unit DYIN1 1.4 V[p-p] DOUT APLS THBLACK S/N Y/T TDY DCIN1 DCIN2 - - 4.4 0 60 -56 2 19 0.7 1.1 - - V[p-p] V ns dB % ns Input-SW: HD Input-SW: NTSC standard V[p-p] V[p-p] 9 AN5394FB s Electrical Characteristics at VCC = 9 V, VCC = 5 V, Ta = 25C (continued) The characteristics listed below are theoretical values based on the IC design and are not guaranteed. ICs for TV Parameter Symbol Conditions Min - - Typ 0.7 0 Max - - Unit (2) Color difference-system (continued) R-Y, B-Y input dynamic range (DVD) R-Y angle adjustment range (2) DCIN3 R2 Input-SW: DVD standard R-Y input: 0.228 V[0-p] B-Y input: 0.406 V[0-p] R-Y axis: min. Contrast: min. max. -20C to +70C f = 5 MHz -20C to +70C Pin 40: Open 3 V White gradation SW: On Gain: max, Level: typ. Pin 40: Open 6 V White gradation SW: On Gain: max, Level: typ. f = 10 MHz f = 10 MHz f = 10 MHz f = 10 MHz f = 10 MHz f = 10 MHz f = 10 MHz f = 10 MHz f = 10 MHz f = 10 MHz f = 10 MHz f = 10 MHz f = 5 MHz f = 5 MHz V[p-p] Color difference contrast ratio Tint ambient temp. dependency Color difference signal delay time CCONT TC/T TDC 26 - 2 40 4 2.0 - dB C ns % Times Color difference output amplitude C/T Ambient temp. dependency Chroma control (1) CHROMA(1) Chroma control (2) CHROMA(2) 0 Times (3) Cross-talk Y cross-talk Y cross-talk Y(main OSD) Y(main RGB) CT1 CT2 CT3 CT4 CT5 CT6 CT7 CT8 CT9 CT10 CT11 CT12 -75 -78 -67 -80 -66 -85 -54 -52 -47 -44 -44 -48 dB dB dB dB dB dB dB dB dB dB dB dB Color difference cross-talk R-Y(main OSD) Color difference cross-talk B-Y(main OSD) Color difference cross-talk R-Y(main RGB) Color difference cross-talk B-Y(main RGB) Cross-talk (OSD main) Cross-talk (OSD RGB) Cross-talk between OSD Cross-talk (RGB main) Cross-talk (RGB OSD) Cross-talk between RGB (4) OSD, RGB OSD signal delay RGB signal delay Ys rise-up delay Ys fall delay tdOSD tdRGB trYs tfYs 12 15 31 40 ns ns ns ns 10 ICs for TV s Electrical Characteristics at VCC = 9 V, VCC = 5 V, Ta = 25C (continued) The characteristics listed below are theoretical values based on the IC design and are not guaranteed. AN5394FB Parameter (4) OSD, RGB (continued) Ym rising delay Ym falling delay RGB rising delay RGB falling delay Symbol Conditions Min Typ Max Unit trYm tfYm trRGB tfRGB Ys: Low varying amount of high Ym: Low varying amount of high RGB: Low varying amount of high RGB, Ym: Low varying amount of high -20C to +70C 22 20 28 43 -40 -40 -40 -50 1.5 2 1.5 2 200 ns ns ns ns mV mV mV mV V[p-p] % V[p-p] % mV Pedestal change at Ys changeover VP(Ys) Pedestal change at Ym changeover VP(Ym) Pedestal change at RGB changeover VP(RGB) Pedestal change at RGB+Ym changeover OSD input dynamic range OSD output amplitude ambient temp. dependency RGB input dynamic range RGB output amplitude ambient temp. dependency R, B-in clamp voltage variable range (5) Cutoff drive Blanking delay Pedestal fluctuation at contrast variation Pedestal fluctuation at color variation tdBLK(1) VP(CONT) VP(COLOR) VP (RGB+Ym) DOSD OSD T DRGB RGB T VCLP -20C to +70C R-in, B-in-DC adj min. max. From BLK to BLK output Contrast: min. max. Contrast: min. max. 45 0 0 0 -1.5 7.8 ns mV mV mV mV/C V Pedestal fluctuation at tint variation VP(TNIT) Output pedestal potential ambient temp. dependency Spot killer operation (6) I2C DAC 4 * 5 * 6DAC DNLE 8-bit DAC DNLE (excluding 40, 80, CO) 8-bit DAC DNLE (for 40, 80, CO only) 7-bit DAC DNLE (excluding 40) 7-bit DAC DNLE (for 40 only) L1 L2 L3 L4 L5 1LSB = {DAT (max.) - data(min.)}/(2N-1) 1LSB = {DAT (max.) - data(min.)}/(2N-1) 1LSB = {DAT (max.) - data(min.)}/(2N-1) 1LSB = {DAT (max.) - data(min.)}/(2N-1) 1LSB = {DAT (max.) - data(min.)}/(2N-1) VP T VSP -20C to +70C Lowering 9V system VCC Pin 29: C = 10 F 0.1 0.1 -1.0 0.1 -1.0 1.0 1.0 1.0 1.0 1.0 1.9 1.9 2.0 1.9 2.0 LSB STep LSB STep LSB STep LSB STep LSB STep 11 AN5394FB s Terminal Equivalent Circuits Pin No. 1 VCC 5 V (pulse VCC /pin 44) 50 k ICs for TV Equivalent circuit Description VP+6H: VP+6H pin * Outputs the pulse whose width is pin 48 input pulse plus 6H. * Recommended use range: 200 A to 0 A 4V 200 0V 1 2 VCC 5 V (pulse VCC /pin 44) 42.5 k 40 A 2 200 RGB-in: RGB switch signal input pin * Input threshold voltage: 1.4 V 1) 2.1 V < V2 Outputs the signal inputted from Pins 9, 10 and 11. 2) V2 < 0.9 V Outputs the signal inputted from pins 13, 14, 15 or pins 37, 38, 39. Note) If you switch main input to RGB input in a high speed within 1H period, WB will be changed. In this case, adjust R-in DC adj. and B in DC adj. of the sub-address 16,17. 40 A 5V 2.25 V 0V * Priority of signal switch Ys > Ym > RGB * Recommended use range: 0 V to 5 V 3 VCC 5 V (pulse VCC /pin 44) 40 A 3 200 40 A 5V Ym in: Half tone switch signal input pin * Input threshold voltage: 1.4 V 1) 2.1 V < V3 Lowers the amplitude of the signal inputted from pins 9, 10, 11 or pins 37, 38, 39. 2) V3 < 0.9 V Normal * Priority of signal switch Ys > Ym > RGB * Recommended use range: 0 V to 5 V 2.25 V 0V 12 ICs for TV s Terminal Equivalent Circuits (continued) Pin No. 4 VCC 5 V (pulse VCC /pin 44) 40 A AN5394FB Equivalent circuit Description Ys in: OSD switch signal input pin * Input threshold voltage: 1.4 V 1) 2.1 V < V4 Outputs the OSD signal inputted from pins 13, 14 and 15. 2) V4 < 0.9 V Outputs the OSD signal either from pins 9, 10, 11 or Pins 37, 38, 39. * Priority of signal switching Ys > Ym > RGB 2.25 V * Recommended use range: 0 V to 5 V 4 200 40 A 5V 0V 5 VCC 5 V (pulse VCC /pin 44) 5V 16 A 40 A 0V 2.25 V 200 5 Neck in: Neck input pin * Input threshold voltage: 1.4V Hingh: V19, 20 2.1 V Low: V19, 20 0.9 V * Force the RGB output down to BLK level when the input = high. At this time, BLKSW (I2C) and the single color adjustment SW (I2C) become invalid and the IK clamp pulse is not outputted. * Recommended use range: 0 V to 5 V 500 5 k 6 VCC 5 V (pulse VCC /pin 44) 20 A 50 A SCL: I2C clock input pin * Input threshold voltage: 2 V * Recommended use range: 0 V to 5 V 3.25 V 2.75 V 1 k Data 6 200 13 AN5394FB s Terminal Equivalent Circuits (continued) Pin No. 7 Equivalent circuit VCC 5 V (pulse VCC /pin 44) 20 A 50 A ICs for TV Description SDA: I2C bus input pin * Input threshold voltage: 2 V * Recommended use range: 0 V to 5 V 3.25 V 2.75 V 1 k Data 7 200 8 GND: GND pin * Pin 8 : Pulse-system GND pin RGB in: RGB signal input pin for analog signal * A standard input signal is 0.7 V[0-p] from a black level to a white level. Pin 9: R signal input pin Pin 10: G signal input pin Pin 11: B signal input pin Drive them at a low impedance. * Clamp an input signal with pin 43 clamp pulse. * Recommended use range:Do not apply the DC voltage from outside. 9 10 11 0.7 V[0-p] VCC 9 V (analog VCC2 /pin 16) 1 k 1 k 4.5 V NP, 0.1 F Pins 9 10 11 200 40 A 3.75 V 400 A 12 GND: GND pin * Pin 12: GND pin for OSD, RGB input circuit 14 ICs for TV s Terminal Equivalent Circuits (continued) Pin No. 13 14 15 Equivalent circuit VCC 9 V (analog VCC2 /pin 16) 0.7 V[0-p] AN5394FB Description OSD in: OSD signal input pin for analog signal * A standard input signal is 0.7 V[0-p] from black to white level Pin 13: B signal input pin Pin 14: C signal input pin Pin 15: R signal input pin Drive them at a low impedance. * Clamp the input signal with pin 43 clamp pulse. * Recommended use range:Do not apply the DC voltage from outside. 1 k 1 k 4.5 V NP, 0.1 F Pins 13 14 15 200 40 A 3.0 V 500 A 16 Pins 16, 27, 28, 30 Circuit 9V 47 F 0.01 F VCC 9 V: Signal-system power supply pin * Apply 9 V for use. * Pin 16: OSD, RGB input circuit power supply pin (pair with pin 12 GND) Pin 27: RGB output circuit power supply pin (pair with pin 18 GND) Pin 28: RGB output circuit power supply pin (pair with pin 17 GND) Pin 30: Analog power supply pin (pair with pin 42 GND) * Recommended use range: 8.1 V to 9.9 V GND: GND pin * Pin 17: GND pin for RGB output circuit GND: GND pin * Pin 18: GND pin for RGB output circuit 17 18 19 27 VCC 9 V (RGB output VCC1, 2 / pins 27, 28) 200 A 50 80 R, G, B-out: RGB output pin 28 * Output dynamic range 1.5 V to 7.5 V * Use the standard output pedestal at approx. 3 V. * Pin 23: R output pin Pin 21: G output pin Pin 19: B output pin Pins 19, 21, 23 * Recommended use range: -4 mA to +4 mA 200 A 50 15 AN5394FB s Terminal Equivalent Circuits (continued) Pin No. 20 VCC 9 V (RGB output VCC1 /pin 27) ICs for TV Equivalent circuit Description RGB-S/H: Pin to sample-hold the auto cutoff signal * Use a less-leak capacitor to hold during V period. Also be careful of the leak between pins. * Ground on use if you do not use an auto-cutoff. Pin 20: for B signal Pin 22: for G signal Pin 24: for R signal * Recommended use range: 0 V to 5 V DC 66 A 200 A Pins 20,22,24 200 0.1 F 14 k 200 3V 1 k 1 k 21 22 23 24 25 Refer to pin 19 Refer to pin 20 Refer to pin 19 Refer to pin 20 Refer to pin 19 Refer to pin 20 Refer to pin 19 Refer to pin 20 IK: IK input pin * Clamps a feed-back input signal of auto cutoff-pulse. * Recommended use range: Do not apply DC voltage from outside. VCC 9 V (RGB output VCC1 /pin 27) 25 k 25 k 1 k 3.0 V 25 200 3 k 1 k 3 k 600 A 200 A 4 PF 1 k 3V 16 ICs for TV s Terminal Equivalent Circuits (continued) Pin No. 26 Equivalent circuit VCC 9 V (analog VCC1 /pin 30) 100 A 50 A AN5394FB Description Blooming level in: * Input pin to determine a blooming level DC voltage 5.25 V 100 A 26 1 k 300 50 A Output clip level 24 k 3.3 k V26 3V 5V * Recommended use range: 1.5 V to 5 V 27 28 29 Refer to pin 16 Refer to pin 16 Refer to pin 16 Refer to pin 16 Spot killer in: Spot killer pin * Used to quickly discharge the electricity of the CRT when the set is turned-off. * Raises DC voltage of RGB output pins (pins 19, 21 and 23) when RGB output VCC 9 V (pin 27) becomes low. VCC 9 V (analog VCC1 /pin 30) 10 k 1.75 k VCC 9 V 29 10 F to RGB output circuit 100 k 30 31 32 33 Refer to pin 16 Refer to pin 16 RGB CLP: Clamps the main signal to the voltage proportioned to brightness data. * Shorten the distance between the pin and the external capacitor. Pin 33: R signal clamp pin Pin 32: G signal clamp pin Pin 31: B signal clamp pin * Recommended use range: 0 V to 5 V (Do not apply DC voltage from outside.) VCC 9 V (analog VCC1 /pin 30) 2 k 1 k 400 A DC voltage Pins 31 32 33 0.1 F 200 1 k 200 14 k 3V 1 k 1 k 1 k 3.75 V 17 AN5394FB s Terminal Equivalent Circuits (continued) Pin No. 34 Equivalent circuit VCC 9 V (analog VCC1 /pin 30) 50 A 3 k 3 k ICs for TV Description APL det.: APL detection pin for main signal * Outputs the voltage proportioned to main signal * Fit an RC filter at this pin. R: For adjusting detection sensitivity C: For adjusting tracking characteristics * Recommended use range: 0 V to 3 V DC voltage 34 200 200 C 35 R 3V VCC 9 V (analog VCC1 /pin 30) 40 A 1.5 k 6 k 35 200 200 7 k 300 DC voltage Black peak det.: Detecting the blackest level of main signal * Externally fit an RC filter at this pin. * Corrects a black gradation with this detection voltage R: For adjusting the detection sensitivity C: For adjusting the tracking characteristics * Recommended use range: 0 V to 9 V 300 A 36 VCC 9 V (analog VCC1 /pin 30) 50 A 40 A 18 pF C R 9V 200 36 DC voltage 200 200 250 40 A 50 k 4 k White peak det.: Detecting the darkest level of main signal * Externally fit an RC filter between this pin and VCC. * Makes a white gradation correction and a blooming control with this detection voltage. R: For adjusting detection sensitivity C: For adjusting tracking characteristics * Recommended use range: 0 V to 9 V 18 C R 200 A ICs for TV s Terminal Equivalent Circuits (continued) Pin No. 37 VCC 9 V (analog VCC1 /pin 30) 0.7 V[0-p] AN5394FB Equivalent circuit Description Y-in: Y input pin for main signal * Input 0.7 VB-W * Drive this pin with a low impedance. A high impedance is likely to change a white balance for the volume on the user side. * Clamps the input signal with a clamp pulse of pin 43. * Recommended use range: Do not apply DC voltage from outside. 1 k 1 k 5.25 V NP, 0.1 F 37 3.75 V 400 A 38 39 VCC 9 V (analog VCC1 /pin 30) 0.35 V 1 k 1 k R-Y in, B-Y in: R-Y, B-Yinput pin for main signal * Pin 38: R-Y signal input pin Pin 39: B-Y signal input pin * Color bar input amplitude at switching the G-Y matrix HD NTSC DVD 0.35 V 0.245 V 0.35 V 0.35 V 0.312 V 0.35 V 5.25 V Pin 38 Pin 39 NP, 0.1 F Pins 38 39 3.75 V 400 A * Drive this pin with a low impedance. A high impedance is likely to change a white balance for the volume on the user side. * Clamps the input signal with a clamp pulse of pin 43. * Recommended use range: Do not apply DC voltage from outside. 19 AN5394FB s Terminal Equivalent Circuits (continued) Pin No. 40 Equivalent circuit VCC 9 V (analog VCC1 /pin 30) 50 A ICs for TV Description Chroma cont.: External pin for chroma signal correction control * Correcting the color level inside the IC in order to adjust Y/C-Y ratio depending on white gradation correction of Y signal. This pin is for external control on this correction value. * Controls the correction value of color level for 2 to 0 times the open mode by means of applied voltage. * Recommended use range: 3.0 V to 6.0 V 3.75 V DC 4.5 V 1.5 V 40 5.2 k 16 k 16 k 20 k 20 k 4.5 V 0.01 F 41 5.25 V 50 A VCC 9 V (analog VCC1 /pin 30) 3.5 V 3.5 V DC voltage 41 5.2 k 7V 7V ABL/ACL in: Control voltage input pin for ABL/ACL * Apply the signal inversely proportional to the screen brightness of CRT. * Operating range is 7 V to 2 V. * Possible to control contrast and brightness in inverse proportion to the applied voltage (Controls the main signal and the OSD signal) * Recommended use range: 0 V to 9 V 100 A 40 k 4 k 5.2 k 4 k 42 40 k 100 A GND: GND pin * Pin 42: Analog GND pin CLP in: Clamp pulse input pin * Input threshold voltage: 1.4 V (to clamp at high) * Clamps the signal inputted from the pins below. Pins 9, 10, 11, 13, 14, 15, 37, 38, 39 * Recommended clamp pulse width: NTSC: 2.5 s HD: 1.0 s * Recommended use range: 0 V to 5 V 43 VCC 9 V (pulse VCC /pin 44) 40 A 43 200 40 A 5V 2.25 V 0V 20 ICs for TV s Terminal Equivalent Circuits (continued) Pin No. 44 5V 44 Circuit AN5394FB Equivalent circuit Description VCC 5 V: Pulse-system supply voltage pin * Apply 5 V on use. * Pin 44: Pulse-system supply voltage pin (pair with pin 8 GND) * Recommended use range: 4.5 V to 5.5 V 47 F 0.01 F 45 VCC 5 V (pulse VCC /pin 44) 16 A 5V 40 A 0V 2.25 V 200 45 500 5 k DI in: Input pin for correction inhibition pulse * Input threshold voltage: 1.4 V High: V45 2.1 V Low: V45 0.9 V * At the input high, the following Y-signal corrections are inhibited. Black gradation correction: Det. and corr. inhibited White gradation correction: Det. and corr. inhibited DC transfer amount correction: Det. and corr. inhibited * In the DI pin input, only detection is inhibited, but correction is left uninhibited. * Recommended use range: 0 V to 5 V BLK in: Blanking pulse input pin * Input threshold voltage: 1.4 V High: V46 2.1 V Low: V46 0.9 V * Blanking RGB output at input = high * At input = high, the following Y-signal corrections are inhibited: Black gradation correction: Detection and correction inhibited White gradation correction: Detection and correction inhibited DC transfer amount correction: Detection and correction inhibited * At BLK-SW/off, the BLK is released, but the above-mentioned correction is not released. * Recommended use range: 0 V to 5 V 46 VCC 5 V (pulse VCC /pin 44) 16 A 5V 40 A 0V 2.25 V 200 46 500 5 k 21 AN5394FB s Terminal Equivalent Circuits (continued) Pin No. 47 VCC 5 V (pulse VCC /pin 44) 40 A 5V 40 A ICs for TV Equivalent circuit Description HP in: HP pulse input pin * Input threshold voltage: 1.4 V * Does BLK on the RGB output at input = high High input: V47 2.1 V Low input: V47 0.9 V * The auto cutoff timing pulse is generated by HP pulse. * Recommended use range: 0 V to 5 V 0V 1.5 V 200 47 5 k 500 40 k 48 VCC 5 V (pulse VCC /pin 44) 40 A 5V 40 A 0V 1.5 V 200 48 5 k 500 40 k VP in: VP pulse input pin * Input threshold voltage: 1.4 V High input: V48 2.1 V Low input: V48 0.9 V * The data for color, tint, brightness and contrast will be re-written at the time when VP pulse goes high to low. But at DAC SW (V-latch Mode): In the through mode, the data will be rewritten according to the timing sent, regardless of VP pulse. * Auto cutoff timing pulse will be generated according to VP pulse. * Be sure to keep the VP pulse width more than 6H. * Recommended use range: 0 V to 5 V 22 ICs for TV s Application Note 1. PD Ta curves of QFP048-P-1212B PD T a 2.500 AN5394FB 2.000 1.959 Power dissipation PD (W) For mounting on the standard PCB (glass epoxy board 75 mm x 75 mm x 0.8 mm) Rth (j-a) = 63.8C/W 1.500 1.064 1.000 Independent IC without a heat sink Rth (j-c) = 117.4C/W 0.500 0.000 0 25 50 75 100 125 150 Ambient temperature Ta (C) 23 AN5394FB s Application Note (continued) 2. I2C bus 1) Sub address byte and data byte format: ( ) is for initial state. ICs for TV Sub address 00 (41H) 01 (41H) 02 (81H) 03 (41H) 04 (81H) 05 (81H) 06 (81H) 07 (01H) 08 (01H) 09 (01H) 0A (01H) 0B (81H) 0C (81H) 0D (81H) 0E (89H) 0F (89H) 10 (89H) 11 (89H) 12 (89H) 13 (21H) 14 (09H) 15 (09H) 16 (41H) 17 (41H) 18 (01H) 19 (01H) Data byte D7 D6 D5 D4 D3 D2 D1 D0 Color(V latch) Tint(V latch) Brightness(V latch) Contrast(V latch) Drive R Drive G Drive B Cutoff R Cutoff G Cutoff B Cutoff SW R Cutoff SW G Cutoff SW B Color temperature correction R Color temperature correction G Color temperature correction B ACL gain level ABL gain level Black gradation correction gain White gradation correction gain White character correction gain G-Y SW Input SW ACL start level ABL start level Black gradation correction level White gradation correction level White character correction level B-Y axis gain R-Y axis angle RGB limit R in DC adj. 1H/2H B in DC adj. changeover DC Single color Single color Single color Blanking reproduction White gradation Black gradation Cutoff /contrast /contrast adjustment R adjustment G adjustment B off interlocking auto/manual ratio polarity interlocking DC transfer Auto cutoff V-latch current ABL off White gradation Black gradation amount Test mode ACL off correction off correction off correction off changeover through 24 ICs for TV s Application Note (continued) 2. I2C bus control contents 1) I2C bus protocol AN5394FB S Slave address O Write A Sub address A Data byte A P Start condition Acknowledge bit Stop condition 2) Slave address The slave address of this IC is 84H. 3) Since the data status at power on is not guaranteed, be sure to send data to all addresses before using. 4) Sub-address data DAC name Color control bit Sub Data address(H) address(H) ( )Standard status 7 00 00 to (40) to 7F Operation Remarks Chroma amplitude upped with With V latch data upped Complete iris of Refer to "(5) V latch opdata(00) color with eration" in s Application Note for details. Direction to make the flesh tone red with data(00) Direction to make the flesh tone green with data(7F) Pedestal upped with data upped With V-latch Tint control 7 01 00 to (40) to 7F Brightness control Contrast control 8 7 02 03 00 to (80) to FF With V-latch 00 to (40) to (7F) Signal amplitude upped with With V-latch data upped complete iris of color with data(00) 00 to (40) to 7F 00 to (40) to 7F 00 to (40) to 7F (00) to 80 to FF Cutoff (R) 00 to (80) to C0 R-out pedestal is upped with data up 30LSB 30LSB 30LSB Drive (R) Drive (G) Drive (B) Cufoff (R) 8 8 8 8 + 2SW 04 05 06 07 + 0A R gain upped with data upped G gain upped with data upped B gain upped with data upped R output pedestal 2.0 V 07 00 0A 00 FF 00 40 FF 00 80 FF 00 C0 FF 25 AN5394FB s Application Note (continued) 2. I2C bus control contents (continued) 4) Sub-address data (continued) DAC name Cutoff (G) bit Sub Data address(H) address(H) ( )Standard status 8 + 2SW 08 + 0A (00) to 80 to FF Cutoff(G) 00 to (20) to 30 G output pedestal G-out pedestal is upped with data up 30LSB 30LSB 30LSB ICs for TV Operation Remarks 2.0 V 08 00 0A 00 Cutoff (B) 8 + 2SW 09 + 0A (00) to 80 to FF FF 00 10 FF 00 20 FF 00 30 FF Cutoff (B) 00 to (08) to 0C B output pedestal B-out pedestal is upped with data up 30LSB 30LSB 30LSB 2.0 V 09 00 0A 00 Color temperature correction (R) 8 0B 00 to 80 to (FF) at manual cutoff 00 to (80) to FF at auto cutoff FF 00 04 FF 00 08 FF 00 0C FF Used for color temperature correction at manual cutoff. Color temperature correction R R output pedestal At auto-cutoff, R-out pedestal is upped with data up 0.64 V 00 Color temperature correction (G) 8 0C 00 to 80 to (FF) at manual cutoff 00 to (80) to FF at auto cutoff Used for color temperature correction at manual cutoff. G output pedestal FF Color temperature correction G At auto-cutoff, G-out pedestal is upped with data up 0.64 V 00 FF 26 ICs for TV s Application Note (continued) 2. I2C bus control contents (continued) 4) Sub-address data (continued) DAC name Color temperature correction (B) bit Sub Data address(H) address(H) ( )Standard status 8 0D Operation AN5394FB Remarks B output pedestal 00 to 80 to (FF) Used for color temp. at manual correction at manual cutoff. cutoff B-out pedestal is upped with 00 to (80) to FF data up at auto cutoff Color temp. correction B 0.64 V 00 ACL start level 4 0E(L) lower 4-bits 00 to (08) to 0F Pin 41: Adjusts the start level of output amplitude change against the voltage of ABL/ACL pin FF Output amplitude (V[p-p]) FF F8 F0 ABL/ACL (V) ACL gain 4 Output amplitude (V[p-p]) 0E(H) upper 4-bits 00 to (80) to F0 Pin 41: Adjusts the start level of output amplitude change against the voltage of ABL/ACL pin 08 88 F8 ABL/ACL (V) Pedestal (V) ABL start level 4 0F(L) lower 4-bits 00 to (08) to 0F Pin 41: Adjusts the start level of output amplitude change against the voltage of ABL/ACL pin FF F8 F0 ABL/ACL (V) ABL gain 4 Pedestal (V) 0F(H) upper 4-bits 00 to (80) to F0 Pin 41: Adjusts the start level of output amplitude change against the voltage of ABL/ACL pin 08 88 F8 ABL/ACL (V) 27 AN5394FB s Application Note (continued) 2. I2C bus control contents (continued) 4) Sub-address data (continued) DAC name Black gradation correction gain bit Sub Data address(H) address(H) ( )Standard status 4 10(H) Upper 4-bit 00 to (80) to F0 Operation Adjusts the gain to be corrected at correcting the black extension ICs for TV Remarks Correction on (V) 08 Black level 88 F8 Correction off (V) Correction on (V) Black gradation correction start level 4 10(H) Lower 4-bit 00 to (08) to 0F Adjusts signal level where black extension correction starts Black level 8F 88 80 Correction off (V) Output White gradation correction gain 4 11(H) Upper 4-bit 00 to (80) to F0 Adjusts correction amount at correcting the gamma 00 80 F0 Input Output White gradation correction level 4 11(H) Lower 4-bit 00 to (80) to 0F Adjusts a converging point at correcting the gamma FF F8 F0 Input B correction on (V) White character correction gain 4 12(H) Upper 4-bit (00) to 80 to F0 Adjusts a detecting(or slicing) level for white characters Output amplitude 8F 88 80 *Y-in input Correction off (V) B correction on (V) White character correction start level 4 12(H) Lower 4-bit (00) to 08 to 0F Adjusts the amount to add the sliced white signal to (B) Output amplitude F8 88 08 *Y-in input Correction off (V) 28 ICs for TV s Application Note (continued) 2. I2C bus control contents (continued) 4) Sub-address data (continued) DAC name B-Y axis gain bit Sub Data address(H) address(H) ( )Standard status 6 13 00 to (20) to 3F Operation AN5394FB Remarks Adjusts B-Y gain in accorB-Y output dance with 3 modes of HD/ at rainbow signal input NTSC B-Y G(B-Y) Data up R-Y Gain ratio up B-Y axis gain = G(B-Y) is variable. G(B-Y) G(R-Y) G-Y matrix SW 2 11XXXXXX 00XXXXXX G-Y matrix changeover (Standard/matrix/matrix2) Note) Normally use it at either HD or standard. Standard (HD): 00 Standard (NTSC, DVD): 11 Matrix 1 (NTSC, DVD): 10 Matrix 2 (NTSC, DVD): 01 R-Y angle adjustment 4 14 (X0) to XF Carries out R-Y angle adjustment in accordance with maR-Y output trix changeover data up at rainbow signal input 90 (+ 0 to +19) 1F 00 Note) Normally use it at the angle of 90 90 G(R-Y) R-Y angle adjustment R-Y output peak moves. Input SW 4 00XXXXXX 11XXXXXX Output matrix changeover (Standard/matrix/matrix2) Note) Normally use it at standard. Standard (HD, NTSC, DVD): 00 Matrix 1 (NTSC, DVD): 10 Matrix 2 (NTSC, DVD): X1 XX00XXXX XX11XXXX Input signal changeover (HD/NTSC/DVD) HD: 00 NTSC: 10 DVD: X1 RGB limit 4 15 (X0) to XF Output level The RGB output limited level is lowered when data is upped. X0 X8 XF *Y-in input Input level 29 AN5394FB s Application Note (continued) 2. I2C bus control contents (continued) 4) Sub-address data (continued) DAC name R-in DC. adj. bit Sub Data address(H) address(H) ( )Standard status 7 16 00 to (40) to 7F Operation The input clamp voltage of R-in (pin 9) rises with data up. The input clamp voltage of B-in (pin 11) rises with data up. Timing pulse width changeover for auto cutoff. Note) Use it at standard except for progressive scan ICs for TV Remarks WB is likely to vary in switching the main and RGB screen within 1H period with a high speed. It is possible to adjust the position error of WB by controlling an input clamp voltage. 1H (normal): 0 2H (progressive scan): 1 B-in DC. adj. 7 17 00 to (40) to 7F 1H/2H SW 1 1XXXXXXX 0XXXXXXX Single color adjustment R-off SW12-7 1 18 0XXXXXXX 1XXXXXXX X0XXXXXX X1XXXXXX XX0XXXXX XX1XXXXX XXX0XXXX XXX1XXXX XXXX0XXX XXXX1XXX XXXXX0XX XXXXX1XX XXXXXX0X XXXXXX1X XXXXXXX0 XXXXXXX1 Blanking R output only. Normal: 0 R-BLK: 1 Normal: 0 G-BLK: 1 Normal: 0 B-BLK: 1 With BLK: 0 Without BLK: 1 -: 0 +: 1 Interlocking: 0 Non-interlocking: 1 Interlocking: 0 Non-interlocking: 1 Auto: 0 Manual: 1 Single color 1 adjustment G-off SW12-6 Single color adjustment B-off SW12-5 Blanking off SW12-4 DC regeneration ratio polarity SW12-3 White gradation correction/contract interlocking SW12-2 Black gradation correction/contrast interlocking SW12-1 Cutoff manual/ auto SW12-0 1 Blanking G output only. Blanking B output only. 1 Output blanking on/off changeover (+side)Pedestal down with APL up (-side)Pedestal up with APL up (On side) White gradation correction level is upped in sequence with contrast up. (On side) Black gradation correction level is upped in sequence with contrast up. 1 1 1 1 30 ICs for TV s Application Note (continued) 2. I2C bus control contents (continued) 4) Sub-address data (continued) DAC name DAC mode SW19-7 V-Latch mode SW19-6 ACL SW19-5 ABL SW19-4 White gradation correction SW19-3 Black gradation correction SW19-2 DC transmission amount correction SW19-1 Auto cuttoff current changeover SW19-0 bit Sub Data address(H) address(H) ( )Standard status 1 1 19 0XXXXXXX 1XXXXXXX X0XXXXXX X1XXXXXX XX0XXXXX XX1XXXXX XXX0XXXX XXX1XXXX XXXX0XXX XXXX1XXX XXXXX0XX XXXXX1XX XXXXXX0X XXXXXX1X XXXXXX0X XXXXXX1X Operation Bits for inspection Be sure to use it with 0 Through mode changeover for V-latch DAC ACL on/off changeover ABL on/off changeover White gradation correction on/off changeover Black gradation correction on/off changeover DC transfer amount on/off changeover Auto cutoff current changeover to large/small Normal: 0 Through: 1 On: 0 Off: 1 On: 0 Off: 1 On: 0 Off: 1 On: 0 Off: 1 On: 0 Off: 1 AN5394FB Remarks 1 1 1 1 1 1 Small current: 0 Large current: 1 31 AN5394FB s Application Note (continued) 2. I2C bus control contents (continued) 5) V-latch operation (Function) The data for sub-address 00 to 03 remains unchanged until VP pulse comes. ICs for TV I2C bus Data 1 transfer Data 2 transfer VP IC ouput Old data Data 1 Data 2 6) Auto increment: This IC performs the designation of sub address by using the lower 5 bits. The uppermost bit is used for designation of auto increment. * When the sub address uppermost bit is defined as 0 (sub address: 00 to 19 HEX) The sequential data transfer leads to the sequential change of sub address, then the data is inputted. I2C bus transfer Slave address Sub address X Sub address X X+1 X+2 Data 1 Input data Data 1 Data 2 Data 3 Data 2 Data 3 The data is inputted as above. But the data will be invalid after sub address 1A. * When the sub address uppermost bit is defined as 1 or sub address is 80 to 99 HEX, the sequential data transfer leads to data input on the same address. I2C bus transfer Slave address Sub address 8Y Sub address 8Y 8Y 8Y Data 1 Input data Data 1 Data 2 Data 3 Data 2 Data 3 32 ICs for TV s Application Circuit Example VCC 9 V AN5394FB Analog YUV signal (HD/NISC/DVD) Blooming DC in VCC 9 V White peak det. Black peak det. RGB out-VCC2 36 35 33 32 31 30 29 28 27 26 25 24 B-Y 0.35 V Y in R-Y in B-Y in IK R-Y 0.35 V Spot killer in Y RGB out-VCC1 0.7 V[0-p] Analog VCC APL det. G-CLP R-CLP B-CLP 37 38 Y R-S/H R-out G-S/H G-out B-S/H B-out RGB out-GND1 RGB out-GND2 Analog VCC2 OSD-R in OSD-G in OSD-B in VCC 9 V 0.7 V[0-p] Video block B-Y Y' R 23 R-Y 39 R-Y 40 41 42 43 44 45 46 47 48 Chroma cont. ABL/ACL Analog GND1 CLP in VCC 5 V VCC 5 V DI in BLK in HP in VP in Chroma block ABL/ACL block Matrix block G 22 21 RGB out block G-Y B-Y B 20 19 18 I2C block RGB (OSD) RGB 17 16 15 OSD block 14 13 Pulse block 10 11 12 1 2 3 4 5 6 7 8 9 Analog RGB signal NECK in GND 5 V RGB SW VP+6H SCL Ym Ys SDA Analog GND2 R-in G-in B-in 0.7 V[0-p] Analog YUV signal (HD/NTSC/DVD) Video signal HD NTSC/DVD 700 650 551 501 199 149 50 700 Analog RGB signal Chrominance signal NTSC 350 318 623 490 413 287 210 77 413 490 295 HD Pr 0 -32 -318 350 -350 270 80 DVD 350 32 R-Y 0 77 -77 -413 623 -490 413 210 Cr 0 55 -55 -295 350 -350 232 118 Y Y Pb 0 -80 -270 -350 B-Y 0 -210 -413 -623 Cb 0 -118 -232 -350 Y = 0.2125R + 0.7154G + 0.0721B Y= 0.3R + 0.59G + 0.11B Pr = 0.6349(R-Y) Pb = 0.5389(B-Y) Y = 0.3R + 0.59G + 0.11B Cr = R-Y/1.4 Cb = B-Y/1.78 33 Request for your special attention and precautions in using the technical information and semiconductors described in this material (1) An export permit needs to be obtained from the competent authorities of the Japanese Government if any of the products or technologies described in this material and controlled under the "Foreign Exchange and Foreign Trade Law" is to be exported or taken out of Japan. (2) The technical information described in this material is limited to showing representative characteristics and applied circuit examples of the products. It does not constitute the warranting of industrial property, the granting of relative rights, or the granting of any license. (3) The products described in this material are intended to be used for standard applications or general electronic equipment (such as office equipment, communications equipment, measuring instruments and household appliances). Consult our sales staff in advance for information on the following applications: * Special applications (such as for airplanes, aerospace, automobiles, traffic control equipment, combustion equipment, life support systems and safety devices) in which exceptional quality and reliability are required, or if the failure or malfunction of the products may directly jeopardize life or harm the human body. * Any applications other than the standard applications intended. (4) The products and product specifications described in this material are subject to change without notice for reasons of modification and/or improvement. At the final stage of your design, purchasing, or use of the products, therefore, ask for the most up-to-date Product Standards in advance to make sure that the latest specifications satisfy your requirements. (5) When designing your equipment, comply with the guaranteed values, in particular those of maximum rating, the range of operating power supply voltage and heat radiation characteristics. Otherwise, we will not be liable for any defect which may arise later in your equipment. Even when the products are used within the guaranteed values, redundant design is recommended, so that such equipment may not violate relevant laws or regulations because of the function of our products. (6) When using products for which dry packing is required, observe the conditions (including shelf life and after-unpacking standby time) agreed upon when specification sheets are individually exchanged. (7) No part of this material may be reprinted or reproduced by any means without written permission from our company. Please read the following notes before using the datasheets A. These materials are intended as a reference to assist customers with the selection of Panasonic semiconductor products best suited to their applications. Due to modification or other reasons, any information contained in this material, such as available product types, technical data, and so on, is subject to change without notice. Customers are advised to contact our semiconductor sales office and obtain the latest information before starting precise technical research and/or purchasing activities. B. Panasonic is endeavoring to continually improve the quality and reliability of these materials but there is always the possibility that further rectifications will be required in the future. Therefore, Panasonic will not assume any liability for any damages arising from any errors etc. that may appear in this material. C. These materials are solely intended for a customer's individual use. Therefore, without the prior written approval of Panasonic, any other use such as reproducing, selling, or distributing this material to a third party, via the Internet or in any other way, is prohibited. 2001 MAR |
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