MITSUBISHI ICs (TV) M52727SP PAL/NTSC SYSTEM SINGLE-CHIP COLOR TV SIGNAL PROCESSOR DESCRIPTION The M52727SP is an I2C bus interface built-in semiconductor IC designed to process PAL/NTSC type image signals, color signals and deflection signals. Provided with a switch for both S input and AV, black extension function, etc., the M52727SP can meet a wide range of devices from diffusion machines to large screen TV sets. The addition of SECAM chroma-decoder M52325AP will enable the M52727SP to completely and automatically identify the TV systems used all over the world. FEATURES APPLICATION PAL/NTSC Type Color TV, Projecter RECOMMENDED OPERATING CONDITION Recommended supply voltage ....... V24=5V, V9.47=8.2V, V20=9V Operating supply voltage range ... V24=4.75 to 5.25V V9.47=7.6 to 8.8V V9.47=7.6 to 8.8V V20=8.6 to 9.4V Maximum Current ......................... 5.0mA (Pin 18 current) 5.0mA (Pin 13 current) 8.0mA (RGB current) 3.0mA (AUDIO OUT current) 1.0mA (Pin 12 current) Note: Do not use the M52727SP when only the deflection type power supply (pin 9 ) is made to rise. If so, normal horizontal output pulse width cannot be obtained. Keep away 1 m or more from the IC when using a portable telephone. KILLER FILTER ID FILTER BUS SW OUT B BUS SW OUT A GND BLK IN SYNC SEP IN 2 SYNC SEP OUT H VCC IIL VCC SCL SCP OUT H OUT SDA H OSC AFC 1 FILTER H-PHASE CORR V-PULSE OUT AFC 2 FILTER Hi VCC R OUT G OUT B OUT VCD VCC B IN CONTRAST CONT. 1 52 2 51 3 50 4 49 5 48 6 47 7 46 8 45 9 44 10 43 11 42 12 13 14 15 M52727SP •Is capable of reading/writing data with the I2C bus control circuit. •Built-in AV-SW (with volume control) that is also available for S input •Complete and automatic identification of color signals and vertical synchronous frequencies of a TV system •Improvement in the synchronization separation facility at the time of synchronous compression by auto slicer •Built-in black expansion circuit •Built-in vertical phase adjustment function •Built-in two SW systems (ON/OFF by bus control) PIN CONFIGURATION (TOP VIEW) 41 40 39 38 16 37 17 36 18 35 19 34 20 33 21 32 22 31 23 30 24 29 25 28 26 27 ID ADJ KILLER ADJ EXT AUDIO IN AUDIO GND TV AUDIO IN AUDIO VCC AUDIO OUT -(R-Y) IN -(B-Y) IN -(R-Y) OUT SECAM REF. -(B-Y) OUT X-TAL 4.43 SYNC SEP IN 1 Y SW OUT VCD GND TV IN (Y IN) CHROMA APC FILTER EXT IN (C IN) BYPASS X-TAL 3.58 FAST BLK BLACK PEAK HOLD R IN NC G IN Outline 52P4B NC :NO CONNECTION 30 38 Y SW OUT 26 3 BLACK PEAK HOLD BUS SW OUT B 34 EXT IN (C IN) 36 CLAMP HPF CHROMA BPF 1ST AMP (ACC) Hfree(C/D) TV/ EXT CLAMP Y/C F.TRAP2 DL TIME DL FINE TRAP SW Hfree(C/D) TV/EXT CHROMA TRAP DELAY VIDEO TONE 2ND AMP ADJ DET 4 BUS SW OUT A TV IN (Y IN) F. TRAP1 D.TRAP K2 SHARPNESS CLAMP VIDEO MUTE VODEO MUTE BLACK STERETCH CONTRAST 14 11 BUS I/F SDA SCL SYNC SEP IN 1 39 ID REF ID OUT REF FILTER 51 1 35 CHROMA APC DET ID DET ACC DET ID OUT 2 24 37 VCD GND RGB MATRIX CONTRAST COLOR SERVICE 20 Hi V CC ACL SYSTEM DECODE 10 IIL VCC X-TAL 4.43 40 43 41 45 44 12 7 AFC 1 FILTER 16 AFC-1 EO ELIMINATE DRIVE AMP DRIVE R B SYNC SEP 2 SCP OUT -(B-Y) IN -(R-Y) IN BIGP GENE SYNC SEP 1 BRIGHT BRIGHT peak ACL SYSTEM auto 8 AFC GAIN HV BLK H OSC 13 AFC 2 H OUT FILTER 19 AFC-2 H STOP HORIZONTAL COUNT DOWIN 32FH VCO 15 ATT AUDIO SW 50 VERTICAL COUNT DOWIN CLAMP CUT OFF R G B 48 TV EXT AUDIO IN AUDIO IN 50/60 OUT V SYNC TRIG G EXT INPUT R EXT INPUT B EXT INPUT SYNC SEP OUT SYNC SEP IN SYSTEM SET 5 GND -(B-Y) OUT X-TAL -(R-Y) OUT 3.58 32 VCXO TINT PHASE CONT PAL SW CHROMA DEMODULATOR CONTRAST F/F 52 ID FILTER ID ADJ SYSTEM ID KILLER OUT KILLER DET 33 BYPASS KILLER CHROMA VCD VCC FILTER APC FILTER KILLER ADJ 47 AUDIO VCC 17 H VCC 28 NC 18 V PULSE OUT 9 42 SECAM REF. 6 BLK IN 22 G OUT 23 B OUT 21 R OUT 27 G IN 29 R IN 25 B IN 31 FAST BLK 46 AUDIO OUT H PHASE CORR H-PHASE V PHASE RAMP SERVICE SW SECAM REF AF AMP AUDIO ATT 49 AUDIO GND MITSUBISHI ICs (TV) M52727SP PAL/NTSC SYSTEM SINGLE-CHIP COLOR TV SIGNAL PROCESSOR BLOCK DIAGRAM MITSUBISHI ICs (TV) M52727SP PAL/NTSC SYSTEM SINGLE-CHIP COLOR TV SIGNAL PROCESSOR ABSOLUTE MAXIMUM RATINGS (Ta=25˚C) Symbol VCC Pd Topr Tstg Surge Parameter Supply voltage Power dissipation Operating temperature Storage temperature Electrostatic discharge Ratings 6.0, 9.0, 10.0 1.572 -20 to +65 -55 to +150 ±200 Unit V W ˚C ˚C V EXT AUDIO normal gain TV AUDIO normal gain EXT AUDIO maximum output EXT AUDIO input D-range VEA Typ VTA Typ VEA max VEA Imax OFTE TV EXT cross talk Bitween TV-EXT offset 48 Maximum attenuation 2 ATT2 CTTE 48 TV AUDIO maximum gain VTA gmax SG1 V=3V SG1 50 M M SW PIN SW PIN M SW PIN SG1 48 50 M M SW PIN SW PIN M SW PIN M SW PIN SG1 SG1 M SW PIN 50 48 SG1 SG1 SG1 M 50 EXT TV cross talk CTET SW PIN M SW PIN SG1 Maximum attenuation 1 ATT1 50 M SG1 SW PIN 0 EXT AUDIO maximum gain 0 VEA gmax 1 M SW PIN SW PIN AUDIO SW typical condition lowest operating current BUS IIL 50 Iforce Pin 47 current Icc47 IILIcc SW PIN Pin 24 current Icc24 SW PIN SW PIN 20 current Pin Icc20 8.2 9 M M current 9 Pin Icc9 0 8.2 9 0 SW PIN 1 SW PIN Parameter Test conditions Circuit current (Typ.) Symbol SW M 5 8.2 M 5 8.2 Input signal condition S S S VCC 16 44 45 SG PIN P P P P P P P P P P P P P P P P P P P P P P P P condition condition 1 Pin 2 3 4 10 12 13 16 18 21 22 23 26 28 38 39 41 42 43 46 9 20 24 47 ELECTRICAL CHARACTERISTICS 2.3 5.3 1.9 -1.9 -50 4.5 4.5 1.9 39.5 5.4 24.0 Min. 2.6 6.1 -0.4 -0.4 10 -65 -80 5.8 -68 -70 5.8 2.7 62.5 8.4 29.5 Typ. Limits 6.8 1.1 1.1 70 -60 -65 7.3 -63 -65 7.3 11.0 3.5 85.5 11.4 35.0 Max. VP-P VP-P dB dB mV dB dB dB dB dB dB mA mA mA mA mA Unit MITSUBISHI ICs (TV) M52727SP PAL/NTSC SYSTEM SINGLE-CHIP COLOR TV SIGNAL PROCESSOR VkP 36 34 36 34 SGa VS4P 36 34 ACC characteristics 2 ACC2 Overload characteristics Killer operation input level SGa VS4P eb=0V SGa VS4P (L variable) SGa VS4P (+6dB) (-20dB) 36 34 ACC characteristics 1 ACC1 (+6dB) 36 34 Chroma normal output 2 Cn2 SGa SS4P Cn1 36 34 SW PIN SW PIN SW PIN SW PIN SW PIN SW PIN SW PIN PIN 1 0 P 2 0 P P 3 4 P condition 1 condition SW SG Pin SW PIN Input signal SGa SS4P SGa VS4P OV SW S S S condition 16 44 45 36 34 Chroma (PAL) typical condition Parameter SG1 f variable PIN Chroma normal output 1 Symbol ATT max min EXT offset EXT OFATT Test conditions 50 EXT f specific fEXT SW 48 TV f specific fTV SG1 SW PIN ATT max min TV offset TV OFATT VCC M M M M M M M 8.2 9 5 8.2 P P P P P P P P P P P P P P P P P P P P 8 12 13 16 18 21 22 23 26 28 38 39 41 42 43 44 9 20 24 47 M M M M M SW PIN Sound S/N EXT S/NE M M f variable PIN VCC P P P P P P P P P P P P P P P P P P P P P P 3 4 10 12 13 16 18 21 22 23 26 28 38 39 41 42 43 46 9 20 24 47 SW PIN SG1 SW PIN P 2 Sound S/N TV S/NT 48 SG1 V=3V P condition condition 1 PIN Test conditions M TV AUDIO input D-range VTA Imax 48 SG Pin Input signal S S S condition 16 44 45 SW SW PIN TV AUDIO maximum output Parameter VTA max Symbol ELECTRICAL CHARACTERISTICS (cont.) -2.0 -3 -2 390 480 Min. -80 100 100 -60 2.3 5.3 Min. -41 0.5 -1 0 530 680 Typ. Limits 20 40 180 180 2.6 6.1 Typ. Limits -36 2.5 1 2 670 880 Max. 120 140 360 360 6.8 Max. dB dB dB dB mVP-P mVP-P Unit mV kHz kHz mV uVrms uVrms VP-P VP-P Unit MITSUBISHI ICs (TV) M52727SP PAL/NTSC SYSTEM SINGLE-CHIP COLOR TV SIGNAL PROCESSOR SGa VS4P SGa VS4P 36 34 36 34 36 34 36 34 36 34 36 34 36 34 Demodulated output 1H level difference BPF/TOF switching ACC characteristics 3 (EXT) ACC characteristics 4 (EXT) PAL with HBLK level difference BPF characteristics 1 TOF characteristics 1 C input D range APC Hold range DDH B/T ACC3 ACC4 HBLK PAL BPF C1 TOF C1 DCIN Hold PALL 36 34 36 34 SGa VS4P 36 34 Demodulated output carrier leak CLP SGa VS4P eb f variable SW PIN SW PIN SGa VS4P SYNC variable PIN SW PIN SW SW PIN SW PIN SW PIN SW PIN SW PIN SW PIN ec f variable SGa VS4P ec f variable SGa VS4P ec=0mV (-20dB) (+6dB) SGa VS4P (-25dB) ec=0V SGa SS4P SGa VS4P 36 34 Demodulation ratio R-Y/B-Y R-Y R/BP R-Y P 36 34 36 34 APC Pull-in range 1 APC1 PIN P condition condition 1 SGa SW VS4P PIN eb=0V SGa SW VS4P PIN (variable) SGa SW VS4P PIN (p variable) SGa SW VS4P ec=unity PIN Demodulated phase angle 36 34 SG Pin Killer color residual (PAL) Parameter kilP Symbol SW P 2 P P 3 4 S S S Input signal condition 16 44 45 ELECTRICAL CHARACTERISTICS (cont.) M M M M M M M M M M M M M M M M M P P P P P P P P P P P P P P P P P 8 12 13 16 18 21 22 23 26 28 38 39 41 42 43 44 9 Test conditions P P P 20 24 47 VCC -1.0 190 ±600 0 330 580 500 350 400 370 420 500 1 -0.5 0 -2.5 2 5 11 0.56 90 ±600 -41 Typ. 220 260 350 -2 -2 -4.5 0.45 82 ±300 Min. Limits deg Hz dB Unit ±1600 1.0 470 800 690 530 580 690 5 2 2 -0.5 Hz dB mVP-P mVP-P mV dB dB dB 6 mVP-P 15 mVP-P 30 0.68 98 ±1500 -30 Max. MITSUBISHI ICs (TV) M52727SP PAL/NTSC SYSTEM SINGLE-CHIP COLOR TV SIGNAL PROCESSOR 36 34 APC Pull-in range 2 kiIN APC2 SW PIN SGb VS3N 36 34 APC Hold range Hold NT SW PIN SGb VS3N 36 34 H-BLK level difference HBLK NT SW PIN SGb VS3N 36 34 TINT center position T3 SW PIN SGb VS3N TINT control characteristics 2 SW PIN SGb VS3N 36 34 36 34 T2 SW PIN SGb SS3N 36 34 TINT control characteristics 1 SW PIN ec=unity 36 34 SGb VS3N (p variable) Demodulation ratio R-Y/B-Y Demodulated output carrier leak SW PIN SW PIN SW PIN 36 34 SGb VS3N (f variable) SGb VS3N ec=0V SGb VS3N Demodulated phase angle R-Y T1 CLN R/BN R-Y 36 34 Killer color residual (NTSC) VkN N 36 34 Killer operation input level Cn4 SW PIN SW PIN SGb SS3N SGb VS3N 36 34 Chroma normal output 4 Cn3 (L variable) SW PIN SGb SS3N P condition condition 1 1 SW PIN PIN SG Pin 36 34 Chroma (NTSC) typical condition Parameter Chroma normal output 3 Symbol SW P P 0 P 0 S S S Input signal condition 16 44 45 ELECTRICAL CHARACTERISTICS (cont.) P P P P P P P P P VCC 5V/ OPEN M M M M M M M M M M M M M M M M 8.2 9 5 8.2 P P P P P P P P P P P 45 41 42 43 46 51 52 9 20 24 47 Test conditions 85 30 30 0.48 87 +300 -300 320 470 Min. -31 -38 620 870 Max. Hz +710 +1600 -1100 -2900 deg deg deg mVP-P deg mV 109 60 60 25 40 0.65 107 Hz dB dB mVP-P mVP-P Unit 5 1 97 45 45 10 15 0.56 97 +700 +1500 -1000 -2800 -36 -45 480 670 Typ. Limits MITSUBISHI ICs (TV) M52727SP PAL/NTSC SYSTEM SINGLE-CHIP COLOR TV SIGNAL PROCESSOR VCXO Free run frequency condition ACC f free ACC5 0 1 P M M 8.2 9 5 8.2 P P P P P P P P P P P 32 41 42 43 46 51 52 9 20 24 47 320 Min. SGb SGG SW SW PIN SW PIN SW PIN SW PIN SECAM REF output DC voltage H SRDH SW PIN condition SECAM REF output DC voltage L condition PIN 1 P 0 P 0 P P P P P P Test conditions P M VCC M M M 8.2 9 5 8.2 P P P P P P P P P 42 43 46 51 52 9 20 24 47 4.6 1.2 230 Min. -3 -500 140 M 430 PIN ec f variable SW SGb VS3N SRDL SRA P P 480 Typ. 620 Max. 5.0 1.5 400 Typ. Limits 0 0 280 600 400 5.6 1.8 500 Max. 3 500 430 830 570 670 P 470 P P 480 P P 320 P P 300 P P 190 P P 250 PIN SW PIN SG Pin P VCC Limits ec f variable 0 P P Test conditions SGb VS3N SW P P condition condition 1 PIN Input signal condition S S S 16 44 45 36 34 36 34 36 34 SG Pin Chroma (SECAM) typical condition SECAM REF output AC voltage Parameter TOF characteristics 2 TOF C2 Symbol BPF characteristics 2 Parameter BPF C2 Symbol SW S S S Input signal condition 16 44 45 ELECTRICAL CHARACTERISTICS (cont.) V V mVP-P Unit dB Hz mVP-P mVP-P Unit MITSUBISHI ICs (TV) M52727SP PAL/NTSC SYSTEM SINGLE-CHIP COLOR TV SIGNAL PROCESSOR 36 36 36 36 System distinction 3 3.58 PAL System distinction 4 3.58 NTSC System distinction 5 SECAM System distinction 6 white and black AUTO 4 AUTO 5 AUTO 6 SGa SGa SGb SGa SW PIN SW PIN SW PIN SW PIN SW PIN AUTO 3 SGb 36 System distinction 2 4.43 NTSC AUTO 2 SGa 36 AUTO 1 condition SW PIN condition PIN System distinction 1 4.43 PAL SG Pin SW PIN Parameter System distinction typical condition Symbol SW 1 P 0 P 0 P P S S S Input signal condition 16 44 45 ELECTRICAL CHARACTERISTICS (cont.) P P P P P P P P P P Test conditions 8.2 9 5 8.2 P P P P P P P P P P 32 42 43 46 51 52 9 20 24 47 VCC 1- - - 00 110011 011101 001001 010101 000001 Typ. Limits Unit MITSUBISHI ICs (TV) M52727SP PAL/NTSC SYSTEM SINGLE-CHIP COLOR TV SIGNAL PROCESSOR 36 36 36 36 Video frequency characteristics RGB difference Double amplifier standard gain Chroma trap attenuation 1 Chroma trap attenuation 2 D.TRAP attenuation 1 FBY RGB 2AGY CTR1 CTR2 DTR1 DTR2 36 36 36 36 Video tone control characteristics 1 Video tone control characteristics 2 Video tone control characteristics 3 Video tone control characteristics 4 GT max GT min GT 1M SGB SGB SGB SGB SW PIN SW PIN SW PIN SW PIN M M M M M GT nor SGA SGA SW PIN 36 Y delay time 5 YDL5 36 M Y delay time 4 YDL4 M Y delay time 3 YDL3 SW PIN SW PIN M SW PIN SGA 36 Y delay time 2 YDL2 SGA M SW PIN SGA 36 Y delay time 1 YDL1 36 M SW PIN SGB 36 D.TRAP attenuation 2 M SW PIN SGF M M SW PIN SW PIN SW PIN 36 SGB SGF SGA SGB SGB M M M M SW PIN 36 Video frequency characteristics FBY SGA SW PIN M SW PIN 36 Video normal gain GY SGA M 36 ACL1 0 SW PIN 0 Peak ACL H level 1 SW PIN Parameter Video, interface typical condition Symbol SW Test conditions M 8.2 9 5 8.2 Input signal condition S S S VCC 16 44 45 SG PIN P P P P P P P P P P P P P P P P P P P P P P P P condition condition 1 Pin 2 8 12 13 16 18 21 22 23 26 28 38 39 41 42 43 46 51 52 9 20 24 47 ELECTRICAL CHARACTERISTICS (cont.) -1.9 -4.5 6.0 0.3 20 330 245 110 150 4.3 0 -4 8.9 3.0 Min. 0.5 -1.8 8.7 2.5 40 420 320 170 210 5.5 0.5 -2 10.5 3.7 Typ. Limits 2.9 0.5 11.4 4.9 60 540 410 240 270 -24 -24 -10 -18 -10 -18 6.7 2 12.1 4.8 Max. dB dB dB dB nsec nsec nsec nsec nsec dB dB dB dB dB dB dB dB V Unit MITSUBISHI ICs (TV) M52727SP PAL/NTSC SYSTEM SINGLE-CHIP COLOR TV SIGNAL PROCESSOR M SW PIN SGE SW V=1.3V PIN EXT(G) normal gain EXT(B) normal gain R-G offset voltage B-G offset voltage R cut-off characteristics G cut-off characteristics B cut-off characteristics Color regulation characteristics 0 (typ) EX(G) EX(B) OF RG OF BG C(R) C(G) C(B) Ccon 0 SGD SGD SGD SW PIN SW PIN SW PIN SW PIN SW PIN 1 SW PIN FB EB EXT(R) normal gain EX(R) SGA 1 SW PIN FB EG Drive control characteristics B D(B) -B M SW PIN FB ER Drive control characteristics G D(G) M M M M M M M M M M 36 Brightness control characteristics 3 Lum min SW PIN M SW PIN 36 Brightness control characteristics 2 Lum max M M SW PIN Brightness control characteristics 1 Lum nor M M M M SW PIN SGB 36 f=5MHz Contrast control characteristics 2 GY2 SGA SW PIN SGB 36 f=5MHz Contrast control characteristics 1 GY1 SW PIN SW PIN 36 SGB f=5MHz Service switch operation 1 SSW1 M SW PIN SGA 36 M Peak ACL L level SW PIN ACL2 SGB 36 Video tone control characteristics 5 Parameter GT 5M Symbol SW Test conditions 0V Input signal condition S S S VCC 16 44 45 SG PIN P P P P P P P P P P P P P P P P P P P P P P P P condition condition 1 Pin 2 8 12 13 16 18 21 22 23 26 28 38 39 41 42 43 46 51 52 9 20 24 47 ELECTRICAL CHARACTERISTICS (cont.) 2.0 1.25 1.25 1.25 0 0 11.0 11.0 11.0 5.0 5.0 -1.25 0.75 2.6 2.6 -3.2 Min. 2.8 1.5 1.5 1.5 30 30 13.2 13.2 13.2 6.1 6.1 -1 1 2.9 3.5 -0.6 Typ. Limits dB dB dB dB dB V V V dB dB dB VP-P dB Unit 3.6 1.75 1.75 1.75 VP-P V V V 160 mVP-P 160 mVP-P 15.2 15.2 15.2 7.6 7.6 -0.75 1.25 3.2 -30 -30 -30 4.4 2.0 Max. MITSUBISHI ICs (TV) M52727SP PAL/NTSC SYSTEM SINGLE-CHIP COLOR TV SIGNAL PROCESSOR SW PIN SW PIN -B -B -R -R 36 36 36 Relative amplitude R-Y PAL Relative amplitude R-Y NT Relative amplitude G-Y Relative phase G-Y OSD speed characteristics 1 OSD speed characteristics 2 Input cut switch operation Input cramp potencial 1 Black expanding operation 1 Black expanding operation 2 Black expanding operation 3 RGB output noise Output temperature characteristics HBLK L level VBLK L level Analog RGB maximum output R-Y PAL R-Y NT G-Y A G-Y P OSD 1 OSD 2 CLS CLV1 BLS1 BLS2 BLS3 S/N RGB TC RGB HBLK L VBLK L VA max SW PIN SGE SGC V=0.2v SGC V=0.4v SGC V=0v SG50 SGD SG50 SGD V=0.56V SGE V=0.56V SGE V=1.0V SGE V=1.0V SW PIN M M M M M M M M M M SW PIN 1 1 1 1 1 1 M 1 1 1 1 1 1 SW PIN SW PIN SW PIN SW PIN SW PIN SW PIN SW PIN SW PIN SW PIN SW PIN SW PIN SW PIN f=5M SGB 36 SG50 ER,EG EB,FB SGD 36 ER,EG EB,FB 36 ER,EG EB,FB 36 SGE V=1.3V SW PIN Video mute operation -B VMF SW PIN Color regulation characteristics 2 (min) SGE V=1.3V Ccon 2 -B Color regulation characteristics 1 (max) Parameter Ccon 1 Symbol SW Test conditions M M M M M M M M M M M M Input signal condition S S S VCC 16 44 45 SG PIN P P P P P P P P P P P P P P P P P P P P P P P P condition condition 1 Pin 2 8 12 13 16 18 21 22 23 26 28 38 39 41 42 43 46 51 52 9 20 24 47 ELECTRICAL CHARACTERISTICS (cont.) 5.4 -1.5 -50 -150 100 1.85 3.7 6.2 0.1 0.1 0 2.3 0 -50 450 2.15 4.2 50 20 239 mV mV mV V V nsec nsec deg dB dB dB Unit 7.0 0.5 0.5 1.5 VP-P V V mV/˚C 5.0 mVrms 50 50 800 2.45 4.6 100 90 247 0.36 0.38 242 0.30 0.33 234 0.23 0.25 226 231 0.89 0.62 -40 -35 9.5 Max. 0.75 0.53 -40 8.0 Typ. 0.62 0.43 5.5 Min. Limits MITSUBISHI ICs (TV) M52727SP PAL/NTSC SYSTEM SINGLE-CHIP COLOR TV SIGNAL PROCESSOR 36 36 36 -B 36 36 36 36 36 36 Analog RGB crosstalk TV Analog RGB crosstalk Video input D range Color input D range Color output impedance Video maximum gain Tone control peaking frequency Starting point of black expansion Maximum gain of black expansion amplifier Chroma trap attenuation 3 Y SW OUT input D range Video amplitude with voltage reducing SW set to ON CTAT CTTA VDY VDCO ZCOR Yg max f tone BLS start BLS max CTR3 VY SW DVY 36 ER SGB SGB SGB level variable SGC f variable SGB (V=0.4V) (f=100K) SGB (V=variable) SG50 SGE level variable SGB SGD SG50 SGB f=5M SGB f=5M SGB f=100K 36 FB Analog RGB transmission characteristics ARGB DL SGA SGD BLK RGB ON voltage BLK ON 36 FB Analog RGB ON voltage RGB ON TV SW Test conditions SW PIN SW PIN SW PIN SW PIN SW PIN SW PIN SW PIN SW PIN SW PIN SW PIN SW PIN SW PIN SW PIN SW PIN M M M M M M M M M M M 5V/ OPEN M M M 4.5V Input signal condition S S S VCC 16 44 45 SG PIN P P P P P P P P P P P P P P P P P P P P P P P P condition condition 1 Pin 2 8 12 13 16 18 21 22 23 26 28 38 39 41 42 43 46 51 52 9 20 24 47 36 SG50 SW ER,EG PIN M EB,FB SGD SGA 36 SW SGD level FB PIN M variable Analog RGB input D range Parameter VD RGB Symbol ELECTRICAL CHARACTERISTICS (cont.) 1.56 2.2 14.0 1M 1.4 2.0 3.2 0.25 2.2 Min. 2.06 3.5 4.5 48 2.5 16.5 270 3.3 3.2 2.56 -18 19.0 800 -40 VP-P dB dB dB IRE MHz dB Ω dB dB dB dB nsec 100 100 30 30 -40 V V dB Unit 3.8 0.55 Max. 3.5 0.4 3.8 Typ. Limits MITSUBISHI ICs (TV) M52727SP PAL/NTSC SYSTEM SINGLE-CHIP COLOR TV SIGNAL PROCESSOR 36 36 36 Horizontal pull-in range 1 Horizontal pull-in range 2 Horizontal pulse timing 1 Horizontal pulse timing 2 FPH1 FPH2 HPT1 HPT2 SGc AFC again operation H-V free operation AFC G FS SW PIN SW PIN M SW PIN Horizontal stop operation SH SGA M SW PIN Horizontal pulse amplitude VH 36 M M SW PIN SW PIN M M M M SW PIN SW PIN SW PIN SW PIN M Horizontal pulse width SGa SGa 36 36 SGa SGa SGa (f variable) SW PIN M M TH SGc (f variable) 36 36 SW PIN Horizontal pulse timing 5 (PIN) HPT5 HPT4 Horizontal pulse timing 3 Horizontal pulse timing 4 (PIN) 36 Horizontal free run frequency fH HPT3 M SW PIN BGP pulse width BGP W 36 SW PIN M SW PIN SGb BGP timing 2 BGP2 SGa M SW PIN 36 SGa M BGP timing 1 variable BGP1 0 SW PIN 0 Sync. separation input sensitivity current SW PIN 1 Test conditions M 4V 1V M M P P P P P P P P P P P P 8 12 13 16 17 18 21 22 23 28 39 ISS 36 SG50 V=286 mV SW PIN Input signal condition S S S 16 44 45 SG PIN P P P P condition condition 3 Pin 4 6 7 HAS Synchronization/deflection type standard conditions Parameter SW Auto slice slice level Symbol ELECTRICAL CHARACTERISTICS (cont.) P P P P variable 8.2 9 5 8.2 P P P P 9 20 24 47 VCC 6.10 2.85 2.75 0.1 30 Typ. 3.6 4.0 3.7 22.5 0.5 -1.5 1.2 -2.4 7.5 400 0.2 6.6 4.5 4.3 25.0 0.9 -1.1 1.7 -1.9 9.0 700 -700 15.45 15.68 5.90 2.35 2.25 15 Min. Limits 0.5 9.6 5.0 4.9 27.5 1.4 -0.7 2.2 -1.4 10.5 -400 16.0 6.30 3.35 3.25 0.2 48 Max. V dB V V µsec µsec µsec µsec µsec µsec Hz Hz kHz µsec µsec µsec mA % Unit MITSUBISHI ICs (TV) M52727SP PAL/NTSC SYSTEM SINGLE-CHIP COLOR TV SIGNAL PROCESSOR Vertical output minimum voltage Service switch operation 2 Vertical pull-in range Vertical output pulse width Vertical BLK width Vertical BLK input 50/60 decision 1 50/60 decision 2 50/60 decision 3 50/60 decision 4 Minimum sync. detection width SCP wave height value GP SCP wave height value H-BLK SCP wave height value V-BLK VVL SSV FPV VW VBLK W BLK IN AV ER1 AV ER2 AV ER3 AV ER4 WV SS SCP G SCP H SCP V 36 36 36 36 36 V=0.28V (Wv variable) SGd (fv47Hz) SGd (fv53Hz) SGd (fv57Hz) SGd (fv63Hz) SGd (fv variable) SW PIN SW PIN SW PIN SW PIN SW PIN SW PIN SW PIN SW PIN SW PIN SW PIN SW PIN SW PIN SW PIN Vertical free run frequency fV SGd SW PIN Maximum sync. detection level HLV 36 SW PIN Sync. separation output L SYSL 5V Input signal condition S S S 16 44 45 SG PIN P P P P condition condition 3 Pin 4 6 7 SYNC SW SEP2 SG50 PIN IN SYNC SEP2 SG50 SW PIN IN SG50 SW 36 V=286 PIN mV Sync. separation output H Parameter SW SYSH Symbol ELECTRICAL CHARACTERISTICS (cont.) M M M M M M M M M M M M M M M M M M M P P P P P P P P P P P P 8 12 13 16 17 18 21 22 23 28 39 Test conditions P P P P P P P P 9 20 24 47 VCC 1.35 2.5 4.21 10 1.35 0.35 65 0 41 8.1 Min. 1.55 2.9 4.5 15 47 53 57 63 1.5 0.52 0 0.3 44 7 0.1 8.2 Typ. Limits Hz V V Hz % V V Unit 1.80 3.3 6.5 0.5 V V V µsec Hz Hz Hz Hz V 1.6 msec 0.65 msec 0.5 0.7 47 18 0.4 8.3 Max. MITSUBISHI ICs (TV) M52727SP PAL/NTSC SYSTEM SINGLE-CHIP COLOR TV SIGNAL PROCESSOR SW 36 Vertical shift operation 3 Vertical shift operation 4 Vertical shift operation 5 VSH 3 VSH 4 VSH 5 36 36 36 Vertical shift operation 2 VSH 2 (50Hz) V=0.28V SGd (50Hz) V=0.28V SGd (50Hz) V=0.28V SGd (50Hz) V=0.28V SGd SW PIN SW PIN SW PIN SW PIN Input signal condition S 16 SG PIN P condition condition 3 Pin SGd SW (50Hz) 36 V=0.28V PIN Vertical shift operation 1 Parameter VSH 1 Symbol ELECTRICAL CHARACTERISTICS (cont.) P 4 P P 6 7 S S 44 45 M M M M M M M M M M P P P P P P P P P P P P 8 12 13 16 17 18 21 22 23 28 39 Test conditions P P P P P P P P 9 20 24 47 VCC 0.93 0.81 0.67 0.53 0.43 Min. 1.08 0.96 0.82 0.68 0.58 Typ. Limits Unit 1.23 msec 1.11 msec 0.97 msec 0.83 msec 0.73 msec Max. MITSUBISHI ICs (TV) M52727SP PAL/NTSC SYSTEM SINGLE-CHIP COLOR TV SIGNAL PROCESSOR I2C - BUS VOL I2C - BUS VTH I2C VOL I2C VTH I C - BUS 0.4V current ID ADJ 4 "L" 2 IBUS ID ADJ4 SW PIN SW PIN SW PIN SCL clock maximum operation frequency fSCL 2 SW PIN 2 I C - BUS Pin input capacitance SW PIN SW PIN SW PIN CI C 2 ID ADJ 3 "L" ID ADJ3 M 0.4V 0.4V M M M M M M M M -180u M M M ID ADJ 2 "H" ID ADJ2 SW PIN ID ADJ 1 "M" ID ADJ1 M P P P P P P P P P P P P P P 8 12 13 16 18 21 22 23 28 39 11 14 52 M SW PIN SW B operation SWB M 0 P P 6 7 Test conditions SW PIN SW PIN SW A operation 0 1 SWA P 4 S S 44 45 Input signal condition S 16 SG condition PIN P condition 3 Pin SW PIN Parameter SW OTHER standard Symbol ELECTRICAL CHARACTERISTICS (cont.) P P 8.2 9 5 8.2 P P P P 9 20 24 47 VCC 0.9 -10 100 2.0 1.10 2.20 1.65 4.8 4.8 Min. 1.25 3.5 2.0 2.5 1.45 2.55 2.05 5.0 0.3 5.0 0.3 Typ. Limits 1.60 10 7.0 3.0 0.4 1.80 2.90 2.45 5.1 0.5 5.1 0.5 Max. V µA kHz pF V V V V V V V Unit MITSUBISHI ICs (TV) M52727SP PAL/NTSC SYSTEM SINGLE-CHIP COLOR TV SIGNAL PROCESSOR Data Function Data Function CTTE Data Function VEA Imax VEA max VTA Typ Data Function Data Function Data Function VEA Typ OFTE Data Function Function Data Function Data Function Data Function Data Function Data A6 0 Sub-address 00H Function SWB Data Function Data Function Sub-address 00H Function SWB Data A6 Function 0 Data Function Data Function Data Function ATT2 VTA gmax CTET ATT1 VEA gmax Symbol IILIcc Icc47 Icc24 Icc20 Icc9 Symbol 0 0 C6 C6 1 1 0 C6 32 1 C6 32 1 C6 32 1 C6 1 32 A6/C6 32 0/1 C6 32 1 32 32 32 A6 0 IDADJ AUDsw SWA 01H 32 A6 IDADJ AUDsw SWA 01H 0 A0 0 0 F TRAP2 02H D TRAP TRAP 0 A0 0 0 F TRAP2 02H D TRAP TRAP ELECTRICAL CHARACTERISTICS (cont.) 0 ACL 0 ACL 06H 2 0 06H D4 0 74 C0 127 E9 2 0 D4 0 ATT SHARPCONT DLTA AUTO TVEXT 03H 04H 05H A0 A6 A6 0 32 32 ATT SHARPCONT DLTA AUTO TVEXT 03H 04H 05H A0 A6 A6 0 0 32 32 C0 127 A0 0 E9 74 C0 127 A0 0 C0 127 E9 74 E9 74 E9 74 DLFA 0 DLFA 07H 08H 0 07H 08H 1 0 A7 A0 64 0 8 0 A7 8 HP 09H 0 A7 Y/C BLACK TINT COLOR SET 1 A7 A0 64 0 HP 09H Y/C BLACK TINT COLOR SET A6 32 BRI 0AH A6 32 BRI 0AH 0 32 DG A6 0 MUTE 0BH 32 A6 MUTE 0BH DG CR CG CB CR CG CB A6 A8 A8 A8 32 128 128 128 DB 0CH 0DH 0EH 0FH A6 A8 A8 A8 32 128 128 128 DB 0CH 0DH 0EH 0FH 10H 0 0 1 A6 0 0 FTR1 CLOFF SESW 10H 1 A6 FTR1 CLOFF SESW 0 0 AFCG V-SIFT 0 A0 0 0 Hfr 13H 0 A0 AFCG V-SIFT 13H Hfr MITSUBISHI ICs (TV) M52727SP PAL/NTSC SYSTEM SINGLE-CHIP COLOR TV SIGNAL PROCESSOR Data Function Data Function fEXT EXT OFATT 1 1 Data Function Data Function APC1 R-Y P 0 1 2 Data Function A0 A6 A6 0 32 32 kilP 0 06H 07H 08H 07H 08H F2 F2 D4 0 1 0 A7 A0 64 0 0 A7 8 HP 09H HP 09H Y/C BLACK TINT COLOR SET ATT SHARP CONT DLTA AUTO TVEXT Y/C BLACK TINT COLOR SET 03H 04H 05H 0/127 AC/CO E7 74 E9 74 0/127 AC/CO 74 E9 74 E9 C0 127 E9 74 1 0 DLFA 06H ATT SHARPCONT DLTA AUTO TVEXT 03H 04H 05H Data Function 0 ACL DLFA VkP 0 A0 0 0 F TRAP2 02H D TRAP ACL 02H F TRAP2 Data Function 0 TRAP D TRAP OV 10 D4 IDADJ AUDsw SWA 01H C6 C6 TRAP Data Function A6 0 01H IDADJ AUDsw SWA ACC2 ACC1 Cn2 Cn1 Data Function Data Function Data Function Data Function Sub-address 00H Function SWB Data Function fTV Symbol Data Function Sub-address 00H Function SWB Data Function Data Function Data Function Data Function TV OFATT S/NE S/NT VTA max VTA Imax Symbol ELECTRICAL CHARACTERISTICS (cont.) A6 32 BRI 0AH BRI 0AH 32 DG A6 0 MUTE 0BH MUTE 0BH DG CR CG CB CR CG CB A6 A8 A8 A8 32 128 128 128 DB 0CH 0DH 0EH 0FH DB 0CH 0DH 0EH 0FH 10H 1 A6 0 0 FTR1 CLOFF SESW 10H FTR1 CLOFF SESW 0 AFCG V-SIFT A0 0 0 Hfr 13H AFCG V-SIFT 13H Hfr MITSUBISHI ICs (TV) M52727SP PAL/NTSC SYSTEM SINGLE-CHIP COLOR TV SIGNAL PROCESSOR Hold PALL Data Function Data Function Data Function TOF C1 DCIN Data Function Data Function HBLK PAL BPF C1 ACC4 ACC3 Data Function Data Function Data Function Data Function DDH B/T Data Function Sub-address 00H Function SWB Data Function CLP R/BP Symbol IDADJ AUDsw SWA 01H TRAP ELECTRICAL CHARACTERISTICS (cont.) F TRAP2 02H D TRAP ACL DLFA 06H F3 1 D4/F3 0/1 F3 1 F3 1 ATT SHARPCONT DLTA AUTO TVEXT 03H 04H 05H 07H 08H HP 09H Y/C BLACK TINT COLOR SET BRI 0AH MUTE 0BH DG DB CR CG CB 0CH0DH 0EH 0FH 10H FTR1 CLOFF SESW AFCG V-SIFT 13H Hfr MITSUBISHI ICs (TV) M52727SP PAL/NTSC SYSTEM SINGLE-CHIP COLOR TV SIGNAL PROCESSOR Data Function Data Function Data Function Data Function Data Function kiIN APC2 R-Y R/BN CLN Data Function Data Function Data Function Data Function Data Function Data Function Data Function T3 HBLK NT Hold NT BPF C2 TOF C2 f free ACC5 T2 T1 Data Function Data Function Data Function VkN N Data Function Sub-address 00H 01H Function SWB IDADJ AUDsw Data A6 D4 Function 0 10 0 Data Function Cn4 Cn3 Symbol TRAP 0 SWA 0 ELECTRICAL CHARACTERISTICS (cont.) A0 0 0 F TRAP2 02H D TRAP 0 ACL 0 DLFA 06H A0 A6 A6 0 32 32 2 1 0 F3 1 F2 07H 08H 0 C0 127 A0 0 A7 A0 64 0 6 E3 8 HP 09H Y/C BLACK TINT COLOR SET D4 0 1 ATT SHARPCONT DLTA AUTO TVEXT 03H 04H 05H A6 32 BRI 0AH 32 A6 0 MUTE 0BH DG CR CG CB A6 A8 A8 A8 32 128 128 128 DB 0CH 0DH 0EH 0FH 10H 1 A6 0 0 FTR1 CLOFF SESW A0 0 0 0 AFCG V-SIFT 13H Hfr MITSUBISHI ICs (TV) M52727SP PAL/NTSC SYSTEM SINGLE-CHIP COLOR TV SIGNAL PROCESSOR SRDH A6 0 Data Function Data Function Data Function Data Function Data Function Data Function AUTO 1 AUTO 2 AUTO 3 AUTO 4 AUTO 5 AUTO 6 Data Function A6 0 Sub-address 00H Function SWB Data Function SRDL Symbol Data Function SRA Data Function Sub-address 00H Function SWB Data Function Symbol 0 0 10 D4 0 0 IDADJ AUDsw SWA 01H 10 D4 IDADJ AUDsw SWA 01H 0 TRAP 0 TRAP ELECTRICAL CHARACTERISTICS (cont.) F TRAP2 A0 0 0 D TRAP 02H 0 ACL 0 ACL A0 0 0 F TRAP2 02H D TRAP 0 DLFA 0 DLFA 06H 2 1 06H F2 0 A0 A6 A6 0 32 32 2 0 F2 0 ATT SHARPCONT DLTA AUTO TVEXT 03H 04H 05H A0 A6 A6 0 32 32 ATT SHARPCONT DLTA AUTO TVEXT 03H 04H 05H 07H 08H 0 07H 08H A7 8 1 0 A7 A0 64 0 0 A7 8 HP 09H 0 B4 1 8 Y/C BLACK TINT COLOR SET 1 A7 A0 64 0 HP 09H Y/C BLACK TINT COLOR SET A6 32 BRI 0AH A6 32 BRI 0AH 0 MUTE A6 32 0 DG 0BH 32 A6 MUTE 0BH DG CR CG CB CR CG CB A6 A8 A8 A8 32 128 128 128 DB 0CH 0DH 0EH 0FH A6 A8 A8 A8 32 128 128 128 DB 0CH 0DH 0EH 0FH 10H 0 A6 1 0 0 FTR1 CLOFF SESW 10H A6 1 0 FTR1 CLOFF SESW 0 0 AFCG V-SIFT A0 0 0 Hfr 13H A0 0 0 AFCG V-SIFT 13H Hfr MITSUBISHI ICs (TV) M52727SP PAL/NTSC SYSTEM SINGLE-CHIP COLOR TV SIGNAL PROCESSOR 0 0 0 A3 0 F TRAP2 02H D TRAP Data Function Data Function Data Function Data Function Data Function Data Function Data Function Data Function Data Function YDL2 YDL3 YDL4 YDL5 GT nor GT max GT min GT 1M GT 5M YDL1 DTR2 DTR1 CTR2 CTR1 Data Function Data Function Data Function Data Function Data Function Data Function C2 E5 50 E5 50 E5 50 E5 50 57 F1 57 F1 57 F1 57 F1 D5 E5 20 50 D5 20 D5 20 D5 20 D5 20 A6 32 A6 32 A6 32 A6 32 A6 32 D5 20 B9 63 A0 0 D5 20 F1 57 Data Function FBY RGB D5 20 D5 20 C0 127 A0 A0 A7 0 0 64 F1 57 2AGY 06H 3 3 1 0 2 0 F5 F5 B1 A4 D4 0 ATT SHARPCONT DLTA AUTO TVEXT 03H 04H 05H Data Function 1 0 DLFA FBY 0 ACL F1 57 A3/C3/D9/E8 1/0 1/0 A3/C3/D9/E8 1/0 1/0 F4/D5/C9/D2 1/0 1 1/0 F4/D5/C9/D2 1/0 1 1/0 TRAP SWA Data Function Sub-address 00H 01H Function SWB IDADJ AUDsw Data A6 A6 Function 0 32 0 Data Function GY ACL1 Symbol ELECTRICAL CHARACTERISTICS (cont.) 07H 08H 1 0 A7 A0 64 0 6 6 F3 F3 A7 0 8 HP 09H Y/C BLACK TINT COLOR SET A7 64 A7 64 A7 64 A7 64 A7 64 32 A5 16 A6 0 MUTE 0BH DG BRI 0AH CR A6 A5 32 16 DB A5 16 CG A5 16 CB 0CH 0DH 0EH 0FH 10H 0 A6/A0 1/0 A6/A0 1/0 A6/A0 1/0 A6/A0 1/0 1 A6 0 FTR1 CLOFF SESW 0 A0 0 0 AFCG V-SIFT 13H Hfr MITSUBISHI ICs (TV) M52727SP PAL/NTSC SYSTEM SINGLE-CHIP COLOR TV SIGNAL PROCESSOR DLFA 06H D5 20 D5 20 D5 20 D5 20 F1 57 F1 57 F1 C0 127 F1 57 0 A0 0 0 F1 57 0 A4 A4 A4 ATT SHARPCONT DLTA AUTO TVEXT 03H 04H 05H 07H 08H C5 48 C0 127 A0 0 HP 09H Y/C BLACK TINT COLOR SET BRI 0AH Data Function Data Function Data Function C(B) Ccon 0 Ccon 1 Ccon 2 Data Function C(R) Data Function Data Function OF BR C(G) Data Function OF RG Data Function Data Function F1 57 F1 57 F1 57 57 MUTE 0BH DG C0 127 C0 127 C0 127 A7 64 A7 64 A7 64 A7 64 A7 A0/B9 64 0/63 C0 127 A0 0 0 ACL 02H F TRAP2 A0 D TRAP Data Function Data Function Data Function Data Function Data Function Data Function TRAP A7 64 EX(B) EX(G) EX(R) D(B) D(G) 01H IDADJ AUDsw SWA Data Function Data Function GY2 Lum nor Lum max Lum min Data Function Sub-address 00H Function SWB Data Function Data Function GY1 SSW1 ACL2 Symbol ELECTRICAL CHARACTERISTICS (cont.) 0/63 A0/B9 DB A8 128 A8 128 A8 128 0/255 A0/C1 A8 128 A8 128 A8 128 CR A8 128 A8 128 A8 128 0/255 A0/C1 CG A8 128 A8 128 A8 128 0/255 A0/C1 CB 0CH 0DH 0EH 0FH 10H 0/1 FTR1 CLOFF SESW A0/A4 AFCG V-SIFT 13H Hfr MITSUBISHI ICs (TV) M52727SP PAL/NTSC SYSTEM SINGLE-CHIP COLOR TV SIGNAL PROCESSOR 01H Data Function Data Function Data Function Data Function VD RGB RGB ON BLK ON Data Function Data Function VA max HBLK L VBLK L Data Function S/N RGB TC RGB Data Function Data Function BLS3 BLS2 BLS1 CLV1 57 F1 57 C0 127 F1 127 C0 127 D5 F1 20 57 C0 127 C0 Data Function Data Function Data Function Data Function Data Function Data Function OSD 1 OSD 2 57 F1 57 D5 F1 20 57 F1 F1 57 C0 127 C0 127 CLS 06H 0 D4/C4 D4/C4 D4/C4 A4 ATT SHARPCONT DLTA AUTO TVEXT 03H 04H 05H Data Function DLFA G-Y P ACL F1 57 F TRAP2 02H D TRAP Data Function TRAP G-Y A IDADJ AUDsw SWA Data Function Sub-address 00H Function SWB Data Function Data Function R-Y NT R-Y PAL VMF Symbol ELECTRICAL CHARACTERISTICS (cont.) 07H 08H 1 1 1 0/1 0/1 0/1 BRI 0AH A7 64 C5 C0 48 127 C0 C5 48 127 C5 A7/E3 C0 48 0/6 127 C0 C5 127 48 HP 09H Y/C BLACK TINT COLOR SET C6 1 MUTE 0BH DG DB A8 128 A8 128 A8 128 A8 128 CG A8 128 A8 128 A8 128 A8 128 CB A8 A8 A8 128 128 128 A8 128 A8 128 A8 128 A8 128 CR 0CH 0DH 0EH 0FH 10H A7 1 FTR1 CLOFF SESW AFCG V-SIFT 13H Hfr MITSUBISHI ICs (TV) M52727SP PAL/NTSC SYSTEM SINGLE-CHIP COLOR TV SIGNAL PROCESSOR Data Function Data Function BGP1 BGP2 01H Data Function Data Function Data Function Data Function SH AFC G FS SYSH A0 Data Function HPT2 HPT1 FPH2 FPH1 fH VH 0 Data Function 0 A7 0 8 TH 0 A7 A0 64 0 Data Function 2 A2 0 HP 09H HPT5 A0 A6 A6 0 32 32 07H 08H Y/C BLACK TINT COLOR SET Data Function 0 06H ATT SHARPCONT DLTA AUTO TVEXT 03H 04H 05H HPT4 0 DLFA HPT3 0 ACL 0 0 A0 0 0 F TRAP2 02H D TRAP C9 15 0 TRAP Data Function 32 A6 IDADJ AUDsw SWA Data Function Data Function Data Function Data Function Data Function Data Function BGP W Data Function Sub-address 00H Function SWB Data A6 Function 0 Data Function ISS HAS Symbol ELECTRICAL CHARACTERISTICS (cont.) A6 32 BRI 0AH 32 A6 0 MUTE 0BH DG CR CG CB A6 A8 A8 A8 32 128 128 128 DB 0CH 0DH 0EH 0FH 10H 1 A6 0 0 FTR1 CLOFF SESW A0/A6 0/1 A0/A5 0/1 A6 1 A6 1 A6 1 A6 1 A0 0 0 0 AFCG V-SIFT 13H Hfr MITSUBISHI ICs (TV) M52727SP PAL/NTSC SYSTEM SINGLE-CHIP COLOR TV SIGNAL PROCESSOR Data Function Data Function Data Function Data Function Data Function Data Function Data Function Data Function Data Function Data Function Data Function Data Function Data Function Data Function Data Function FPV VBLK W AV ER3 AV ER4 WV SS SCP G SCP H SCP V VSH 1 VSH 3 VSH 2 AV ER2 AV ER1 BLK IN VW Data Function Data Function VVL SSV Data Function Sub-address 00H Function SWB Data Function Data Function fV HLV SYSL Symbol IDADJ AUDsw SWA 01H TRAP ELECTRICAL CHARACTERISTICS (cont.) D TRAP ACL 02H F TRAP2 DLFA 06H ATT SHARPCONT DLTA AUTO TVEXT Y/C 03H 04H 05H 07H 08H HP 09H BLACK TINT COLOR SET BRI 0AH MUTE 0BH DG DB CR CG CB 0CH 0DH 0EH 0FH 10H 0/1 FTR1 CLOFF SESW A6 1 B4 1 E1 1 A0/A4 2 1 0 AFCG V-SIFT 13H Hfr MITSUBISHI ICs (TV) M52727SP PAL/NTSC SYSTEM SINGLE-CHIP COLOR TV SIGNAL PROCESSOR Data Function Data Function Data Function Data Function Data Function Data Function Data Function Data Function Data Function SWB ID ADJ1 ID ADJ2 ID ADJ3 I2C VTH CI C fSCL IBUS ID ADJ4 2 I2C VOL Data Function SWA 0/1 A6/C6 Sub-address 00H Function SWB A6 Data Function 0 Data Function Sub-address 00H Function SWB Data Function Data Function Symbol VSH 5 VSH 4 Symbol 0 0 63 32 32 A0 A0 B9 A6 A6 0 0/1 0 IDADJ AUDsw SWA 01H IDADJ AUDsw SWA 01H 0 TRAP TRAP ELECTRICAL CHARACTERISTICS (cont.) F TRAP2 A0 0 0 A0/A7 D TRAP 02H F TRAP2 02H D TRAP 0 ACL ACL 0 DLFA DLFA 06H 06H A0 A6 A6 0 32 32 2 0 A2 0 ATT SHARPCONT DLTA AUTO TVEXT 03H 04H 05H ATT SHARPCONT DLTA AUTO TVEXT 03H 04H 05H 07H 08H 0 0 A7 A0 64 0 0 A7 8 HP 09H Y/C BLACK TINT COLOR SET 07H 08H HP 09H Y/C BLACK TINT COLOR SET A6 32 BRI 0AH BRI 0AH 32 DG A6 0 MUTE 0BH MUTE 0BH DG CR CG CB CR CG CB A6 A8 A8 A8 32 128 128 128 DB 0CH 0DH 0EH 0FH DB 0CH 0DH 0EH 0FH 10H 1 A6 0 0 FTR1 CLOFF SESW 10H FTR1 CLOFF SESW 4 3 0 AFCG V-SIFT 1 1 A0 0 0 Hfr 13H D9 E2 AFCG V-SIFT 13H Hfr MITSUBISHI ICs (TV) M52727SP PAL/NTSC SYSTEM SINGLE-CHIP COLOR TV SIGNAL PROCESSOR MITSUBISHI ICs (TV) M52727SP PAL/NTSC SYSTEM SINGLE-CHIP COLOR TV SIGNAL PROCESSOR ELECTRICAL CHARACTERISTICS TEST METHOD CTTE TV ICC** Circuit Current 1. Test each pin current, and make it ICC** rms value of pin 46 output signal. 2. Standard ICC** EXT Cross Talk 1. Input SG1 into pin 48 and test 2. Expressed as (mA) CTTE=20 log IILICC BUS IIL Lowest Operation Current 1. Gradually reduce the current from 13.6 mA at pin 10 , measure the current that causes malfunction to occur at Test value (mVP-P) (dB) VA 4(mVP-P) OFTE TV EXT Offset 1. Test output voltage difference of pin 46 without input. BUS, and specify the value as IILIcc. VEATyp EXT AUDIO Normal Gain 2. Standard IILICC** 1. Input SG1 (Typ) into pin Expressed as (mA) 46 VEAgmax EXT AUDIO Maximum Gain 1. Input SG1 into pin 50 and test 50 and test P-P value of pin P-P value of pin output signal, and make it VA8. 2. P-P value of pin 46 output VEATyp=20 log signal, and make it VA1. VA8 (dB) VIN 2. VTATyp TV AUDIO Normal Gain VA1 (dB) VIN VEAgmax=20 log 1. Input SG1 (Typ) into pin 46 ATT1 Maximum Attenuation 1 1. Input SG1 into pin 50 and test 48 output signal, and make it VA9. 2. and test P-P value of pin 46 output VTATyp=20 log signal. 2. VA9 VIN (dB) VEAmax EXT AUDIO Maximum Output ATT1=20 log Test value (mVP-P) (dB) VA 1(mVP-P) 1. Input SG1 (V=3VP-P) into pin 46 CTET EXT 50 and test P-P value of pin output signal. T V Cross Talk 1. Input SG1 into pin 50 and test P-P value of pin 46 output VEAImax EXT AUDIO Input D Range 1. Input SG1 (level variable) into pin signal. 50 and then measure the distortion factor of the output signal at pin 2. CTET=20 log Test value (mVP-P) (dB) VA 1(mVP-P) . when the distortion factor is 1%. VTAgmax TV AUDIO Maximum Gain 1. Input SG1 into pin 48 and test 46 2. Gradually increase the input and measure the input level VTAmax TV AUDIO Maximum Output P-P value of pin 46 output signal, and make it VA4. 1. Input SG1 (V=3VP-P) into pin 46 48 and test P-P value of pin output signal. 2. VTAgmax=20 log VA4 (dB) VIN VTAImax TV AUDIO Input D Range 1. Input SG1 (level variable) into pin ATT2 Maximum Attenuation 2 1. Input SG1 into pin 48 and test P-P value of pin 46 output and then measure 2. Test value (mVP-P) (dB) VA 4(mVP-P) 46 . 2. Gradually increase the input and measure the input level when the distortion factor is 1%. signal. ATT1=20 log 48 the distortion factor of the output signal at pin S/NT Sound S/N TV 1. Test the noise level of pin 46 . 46 . S/NE Sound S/N EXT 1. Test the noise level of pin MITSUBISHI ICs (TV) M52727SP PAL/NTSC SYSTEM SINGLE-CHIP COLOR TV SIGNAL PROCESSOR TV OFATT ATT max min Offset TV 1. Test DC offset of pin 46 VikP Killer Operation Input Level (PAL) 1. Input VS4P (level variable) into pin at ATT max min. input SG.A into pin 2. TV OFATT=ATTmin - ATTmax 34 with level 0 dB and 36 . 2. Lower the input level while monitoring the output fTV TV f Specific amplitude at pin 1. Input SG1(f specific) into pin 48 . 41 , and then measure the input level when no output amplitude is generated. 2. Measure the frequency whose amplitude takes -3dB of VA8 at pin 46 KilP Killer Color Residual (PAL) . 1. Input VS4P(eb=0V) into pin 1. Input SG1(f variable) into pin , SG.A into pin 46 41 36 . . Note.) Take measurements in the auto color mode. KILLER 50 . malfunction may occur in the forced color mode. 2. Measure the frequency whose amplitude takes -3dB of VA9 at pin 34 2. Test the output amplitude of pin fEXT EXT f Specific . APC1 APC Pull-in Range 1 EXT OFATT ATT max min Offset EXT 1. Test DC offset of pin 46 1. Input VS4P (f=eb=ec=variable) into pin at ATT max min. 36 2. EXT OFATT=ATTmin - ATTmax 34 , SG.a into pin . 2. Change the input signal frequency and measure the Cn1 Chroma Normal Output 1 (PAL) frequency range when the output signal at pin Cn2 Chroma Normal Output 2 (PAL) into existence (is placed in the pull-in status). The basic 1. Input SS4P into pin 34 , SG.A into pin 2. Test the output amplitude of pin , 43 and make Cn1,Cn2. 3. At the same time, test the output amplitude of pin 44 and R-Y P Demodulated Phase Angle 36 . 36 make the ec phase variable 3. Measure the output at pin 41 , advance the ec phase, and measure the phase where the output becomes zero. . 2. Test the output amplitude of pin 41 . R//BP Demodulated Ratio R-Y/B-Y 3. Test value(VP-P) ACC1 = 20 log 43, and specify 0 deg for the phase where the output is zero. 1. Input VS4P(eb=570mV: Input level+6dB) into pin 1. Input VS4P (ec=Single Chroma=eb+50kHz) into pin (dB) SG.a into pin Cn1 (VP-P) ACC2 ACC Characteristics 2 1. Input VS4P(Input level -20dB) into pin 36 , SG.a into pin 2. Measure the output at pin ACC1 ACC Characteristics 1 , SG.A into pin P-Y 1. Input VS4P (ec=Single Chroma, phase variable) into pin 34 make it Vcn1. 34 comes value shall be 4.433619 MHz. . 36 41 41 34 , SG.A into pin . 41 . 34 , . 2. Test the output amplitude of pin 41 and make it V41. 3. Test the output amplitude of pin 43 and make it V43. 4. R/BP = 20 log 2. Test the output amplitude of pin 36 V43 (VP-P) (dB) V41 (VP-P) CLP Demodulated Output Carrier Leak 3. Test value(VP-P) ACC2 = 20 log 1. Input SS4P into pin (dB) Cn1 (VP-P) 1. Input VS4P (ec=800mVP-P: Croma +3dB) into pin 36 SG.a into pin element of demodulation output at pin OV Overload Characteristics SG.A into pin 34 , . 34 , 41 . 34 Cn1 (VP-P) . , SG.a into pin 2. Measure the 1H level difference at pins 3. Test value(VP-P) 41 DDH Demodulated Output 1H Level Difference 1. Input VS4P(ec=0V) into pin 2. Test the output amplitude of pin OL = 20 log 36 . 2. Measure each of 4.43MHz element and 8.86MHz (dB) M 41 36 and . 43 . MITSUBISHI ICs (TV) M52727SP PAL/NTSC SYSTEM SINGLE-CHIP COLOR TV SIGNAL PROCESSOR B/T BPF/TOP Switching 1. Input VS4P(input level-25dB) into pin Hold PALL APC Hold Range 34 , SG.a into pin 1. Input VS4P (f=eb=ec=variable) into pin 36 . 2. Test the output amplitude of pin 41 on TV, EXT. 3. B/T = 20 log 34 , SG.a into pin 36 . 2. Change the input signal frequency range and then measure the frequency range when the output signal at EXT (VP-P) (dB) TV (VP-P) pin 41 comes into existence (is placed in the pull-in status). ACC3 ACC Characteristics 3 (EXT) Cn3 Chroma Normal Output 3 (NTSC) 1. Input VS4P(input level+6dB) into pin 34 , SG.a into pin 36 . Cn4 Chroma Normal Output 4 (NTSC) 1. Input SS3N into pin 2. Test the output amplitude of pin 41 . 34 , SG.b into pin 36 . 2. Test the output amplitude of pin 41, 43 and make Cn3,Cn4. 3. Test value(VP-P) VikN Killer Operation Input Level (NTSC) (dB) ACC3 = 20 log Cn1 1. Input VS3N (level variable) into pin of 0 dB and input SG.b into pin ACC4 ACC Characteristics 4 (EXT) 36 34 with the input level . 2. Lower the input level while monitoring the output 1. Input VS4P(input level-20dB) into pin 34 , SG.a into pin amplitude at pin 36. 41 , and then measure the input level when no output amplitude is generated. 2. Test the output amplitude of pin 41 . KilN Killer Color Residual (NTSC) 3. ACC4 = 20 log 1. Input VS3N (eb=0V) into pin Test value(VP-P) (dB) 2. Test the output amplitude of pin Cn1 34 , SG.a into pin 36 . 34 , SG.b into pin 36 . 2. Change the input signal frequency and measure the and the BLK period. M 41 36 41 . 1. Input VS3N (f=eb=ec=variable) into pin . 2. Measure the level difference between the output color pattern period of pin SG.b into pin APC2 APC Pull-in Range 2 HBLK PAL HBLK. Level Difference PAL 1. Input VS4P(ec=0mV)into pin 34 , frequency range when the output signal at pin 41 comes into existence (is placed in the pull-in status). The basic value shall be 3.579545 MHz. Note: When measuring 3.58 MHz APC pull-in, set the APC BPFC1 BPF Characteristics 1 pin to high-level, supply the signal to the pin, and then 1. Input VS4P (ec single frequency, 0.3 VP-P, _f variable) and SG.a into pins 34 and 36 , take measurements with the APC pin OPEN. respectively. When the APC pin is set to high-level, oscillation of 2. Measure the output amplitude at pin 41 with ec=fsc+10kHz, 3.58 MHz may stop. Use the above conditions for the +800 kHz, or -800 kHz. measurement to check that this status is not held. TOFC1 TOF Characteristics 1 1. Input VS4P (ec single frequency, 0.3 VP-P, _f variable) and SG.a into pins 34 and 36 , respectively. 2. Measure the output amplitude at pin 41 with R-Y N Demodulated Phase Angle 34 ec=fsc+10kHz, +800 kHz, or -800 kHz. R-Y N 1. Input VS3N (eb=unity Chroma, phase variable) into pin , SG.b into pin 36 . 2. Measure the output at pin , make the ec phase 43 variable, and specify 0 deg for the phase where the output is zero. DCIN C Input D Range 1. Input VS4P (SYNC 1V) into pin 34 , SG.a into pin 36 . 3. Observe the output at pin 41 , advance the ec phase and measure the position where the output is 0. 2. Test value DCIN = 20 log Cn1 (dB) R/BN Demodulated Ratio R-Y/B-Y 1. Input VS3N(ec=unity Chroma=eb+50kHz) and SG.b into pin 34 . 2. Test the output amplitude of pin 41 and make V41. 3. Test the output amplitude of pin 43 and make V43. 4. R/BN = 20 log V43(VP-P) (dB) V41(VP-P) MITSUBISHI ICs (TV) M52727SP PAL/NTSC SYSTEM SINGLE-CHIP COLOR TV SIGNAL PROCESSOR f free CLN Demodulated Output Carrier Leak 1. Input SS3N into pin 34 , SG.b into pin 36 . 1. Test the oscillate frequency of pin 2. Measure each of 3.58MHz element and 7.16MHz element of demodulation output at pin VCXO Free Run Frequency 2. f free = f 32 and make f CN16. CN16-3579545 (Hz) 41 ACC5 ACC Lock 1. Input SG.G(f=3.579545MHz,V variable) into pin T1 TINT Control Characteristics 1 T2 TINT Control Characteristics 2 into pin 1. Input VS3N (see the diagram below) and SG.b into pins 36 SG.b 2. When the amplitude of SG.G is switched to 0.5 VP-P or 2.0 VP-P, the output at pin 34 and 36 , respectively. -180° 0° 90° 34 , . 41 shall be Vcn17a or Vcn17b, respectively. 90° 3. Vcn 17b Vcn 17a ACC5 = 20 log A A B 0° 0 B 0 = tan-1(B/A) SRA SECAM REF Output AC Voltage 1. Measure the amplitude (SRA) of 4.43 MHz element of the output at pin GND Find the absolute angle from the output at pin 41 according to the diagram above. (dB) 42 . SRDL SECAM REF Output DC voltage L 1. Test the output DC voltage of pin 2. Assuming the TINT DATA center (64) as the basic angle (TC), find the angle for TINT DATA MAX and MIN and 42 . SRDH SECAM REF Output DC voltage H 1. Test the output DC voltage of pin 42 . express with the difference in angle between them. AUTO1~6 System Distinction 1~6 (MAX = TCMAX, MIN = TCMIN) 1. Place the IC in the AUTO mode and then check that BUS 3. TC1=TCMAX-TC (deg) reads input signals appropriately. TC2=TC-TCMIN (deg) ACL1 Peak ACL "H" Level T3 TINT Center Position 1. Input SGA into pin 1. Shall be the basic angle for the TINT data center. . 36 2. Measure the amplitude (P-P) except for the blanking block 2. T3=TC of the output at pin 21 HBLK NT H-BLK Level Difference 1. Input VS3N(ec=0mV) into pin 34 M , SG.b into pin 36 . 2. Measure the level difference between the output pattern period and the BLK period at pin 41 . Hold NT APC Hold Range 1. Input VS3N(.f=eb=ec=variable) into pin 34 , SG.b into pin 36 . 2. Change the input signal frequency and measure the frequency range when the output signal at pin 41 GY Video Normal Gain 1. Input SGA into pin 36 . 2. Measure the amplitude (P-P) except for the blanking block of the output at pin comes 21 . into existence (is placed in the pull-in status). The basic M value shall be 3.579545 MHz. BPFC2 BPF Characteristics 2 1. Input VS3N (ec single frequency, 0.3 VP-P, _f variable) and SG.a into pins 34 and 36 , respectively. 2. Measure the output amplitude at pin 41 3. Test value GY=20 log with ec=fsc+10 VIN(0.714V) (dB) kHz, +800 kHz, or -800 kHz. FBY Video Frequency Characteristics 1. Input SGB (5MHz, 0.714VP-P) into pin TOFC2 TOF Characteristics 2 1. Input VS3N (ec single frequency, 0.3 VP-P, _f variable) and SG.a into pins 34 and 36 , kHz, +800 kHz, or -800 kHz. of the output at pin respectively. 2. Measure the output amplitude at pin 41 with ec=fsc+10 36 . 2. Measure the amplitude (P-P) except for the blanking block 3. 21 . Test value (VP-P) FBY=20 log GY (VP-P) (dB) MITSUBISHI ICs (TV) M52727SP PAL/NTSC SYSTEM SINGLE-CHIP COLOR TV SIGNAL PROCESSOR FBYRGB Video Frequency Characteristics RGB Difference 1. Input SGB (5MHz, 0.4VP-P) into pin DTR1 D. TRAP Attenuation 1 (pin 21 output) 36 . 1. Set D.TRAP DATA to 1, and take measurement as in the 2. Measure the amplitude (P-P) except for the blanking block of the output at pins 21 , 22 and 23 . case of CTR1. DTR2 D. TRAP Attenuation 2 (pin 3. The maximum test value and the minimum test value are assumed to be MRGB and SRGB, respectively. 4. SRGB (VP-P) FBYRGB=20 log MRGB (VP-P) YDL1 Y delay time 1 (dB) 1. Input SGA into pin 2AGY=20 log Test value against 38 Output signal M SGA . Measure the delay time at the center of the rising portion. 21 output) 1. Input SGF (f = 3.58 MHz) into pin 21 21 (dB) CTR1 Chroma Trap Attenuation 1 (pin amplitude at pin . input signal. 36 . VIN (1VP-P) 36 2. Measure the delay time of output from pin 2. Test the output amplitude (P-P) of pin 3. output) case of CTR2. 2AGY Double Amplifier Standard Output 1. Input SGA into pin 21 1. Set D.TRAP DATA to 1, and take measurement as in the 36 , YDL2~4 measure the output Y delay time 2 to 4 1. Input SGA into pin wit TRAP DATA 0, and specify the 36 . 2. Measure the delay time between the signal output from value as VY60OFF. pin 21 and Y10 YDL1. 2. Set TRAP DATA to 1, switch f TRAP1/f TRAP2 to 0/1, and then measure the respective output amplitude values at pin 21 YDL5 Y delay time 5 1. Input SGA into pin . fTRAP1 fTRAP2 0 0 Vf00 0 1 Vf01 1 0 Vf10 1 1 Vf11 3. TRAP00,01,10,11= Vf00,Vf01,Vf10,Vf11(mVP-P) 20 log (dB) VY6OFF (mVP-P) 4. Specify TRAP01 as the attenuation for fixing. the output signal at pin 1. Input SGF (f = 4.43 MHz) into pin amplitude at pin 21 36 , measure the output with TRAP DATA 0, and specify the Test the output amplitude of each pin values at pin VY100K, VY3M. fTRAP1 0 0 1 1 fTRAP2 0 1 0 1 (dB) GTmax Video Tone 2 1. Input SGB (f= 3MHz, 0.4VP-P) into pin 2. Test the output amplitude of pin 5. Of the values from TRAP400 to TRAP411, the maximum attenuation value shall be specified as the attenuation for . 3. Test value (VP-P) (dB) VY100K GTmin Video Tone 3 2. Test the output amplitude of pin Vf00 Vf01 Vf10 Vf11 36 21 . 1. Input SGB (f= 3MHz, 0.4VP-P) into pin 3. TRAP400,401,410,411= Vf00,Vf01,Vf10,Vf11(mVP-P) 20 log (dB) VY7OFF (mVP-P) 4. Specify TRAP401 as the attenuation for fixing. arrangement. VY3M VY100K GTmax = 20 log . 21 2. 2. Set TRAP DATA to 1, switch f TRAP1 and f TRAP2 to 21 and Y13YDL4. 1. Input SGB (f=100kHz, 0.4VP-P, 3MHz) into pin value as VY7OFF. 0/1, and then measure the respective output amplitude 21 GTnor Video Tone 1 5. Of the values from TRAP00 to TRAP11, the maximum arrangement. CTR2 Chroma Trap Attenuation 2 (pin 21 output) . 2. Measure the absolute value of difference in time between GTnor = 20 log attenuation value shall be specified as the attenuation for 36 21 36 . . 3. GTmin = 20 log Test value (VP-P) (dB) VY100K GT1M Video Tone 4 1. Input SGB (f= 1MHz, 0.4VP-P) into pin 2. Test the output amplitude of pin 21 36 . 3. GT1M = 20 log Test value (VP-P) VY100K (dB) . 36 . and make MITSUBISHI ICs (TV) M52727SP PAL/NTSC SYSTEM SINGLE-CHIP COLOR TV SIGNAL PROCESSOR GT5M Video Tone 5 D(B) Drive Control Characteristics B 1. Input SGB (f= 5MHz, 0.4VP-P) into pin 36 . 1. Input SGA into pin 2. Test the output amplitude of pin 21 . Test value (VP-P) 3. GT5M = 20 log (dB) VY100K 21 . with D(B) DATA EX(R) EXT(R) Normal Gain EX(G) EXT(G) Normal Gain SSW1 Service Switch Operation 1 1. Input SGB (f= 5MHz) into pin EX(B) EXT(B) Normal Gain . 36 2. Measure the output amplitude at pin 21 with the service 1. Input SG50 and SGD (V=0.7V) into pin 36 and FB, respectively. Input SGD (V=0.35V) into each of ER, EG SW set to OFF. 3. Measure the output amplitude at pin 21 with the service and EB. 2. Measure the amplitude over the pedestal level except for SW set to ON. 4. GY1 = 20 log 23 and DBmax, respectively. DBmax(VP-P) 3. D(B) = 20 log (dB) DBmin (VP-P) 36 . 2. Test the output amplitude of pin . min and max. Specify the measured values as DBmin ACL2 Peak ACL "L" Level 1. Input SGA into pin 36 2. Measure the output amplitude at pin Test value the blanking block of the outputs at pins 21 , 22 (dB) VY21 . M . 36 2. Test the output amplitude of pin 3. GY1 = 20 log Test value (dB) VY21 21 . 3. EXT(R),EXT(G),EXT(B)=20 log GY2 Contrast Control Characteristics 2 1. Input SGB (f= 5MHz) into pin 23 VY31B. GY1 Contrast Control Characteristics 1 1. Input SGB (f= 5MHz) into pin and Specify the respective values as VY31R, VY31G and 36 Test value (dB) 0.35 OFRG R-G Offset Voltage . 2. Measure the output amplitude at pin 21 when 0V is OFBG B-G Offset Voltage 1. Test the output DC voltage of pin 21 , 22 , 23 except blanking applied to pin 26 from outside. 3. GY2 = 20 log Test value (dB) VY21 part. 2. OFRG=(pin 21 Test voltage)-(pin Lum nor Brightness Control Characteristics 1 OFBG=(pin 23 Test voltage)-(pin 22 Test voltage)(mV) Lum max Brightness Control Characteristics 2 C(R) R Cut-off Characteristics Lum min Brightness Control Characteristics 3 C(G) G Cut-off Characteristics 1. No input. 22 Test voltage)(mV) C(B) B Cut-off Characteristics 2. Test the output DC voltage of pin 21 except blanking part. 3. Lum max=Test value-Lum nor 1. Test the output DC voltage of pin 21 , 22 , 23 except blanking part when each of C(R), C(G), C(B) DATA is OUTPUT WAVEFORM max, min. 2. C(R),C(G),C(B) =(DATAmax voltage)-(DATAmin voltage) (V) M Ccon0 Color Regulation Characteristics 0 1. Input SGE (V=1.3V) into -B IN (pin 2. Test the output amplitude of pin D(G) Drive Control Characteristics G 1. Input SGA into pin 36 44 ). 23 and make VY37. . 2. Measure the output amplitude at pin 22 with D(G) DATA min and max. Specify the measured values as Dgmin and Dgmax, respectively. 3. D(G) = 20 log DGmax(VP-P) (dB) DGmin (VP-P) Ccon1 Color Regulation Characteristics 1 Ccon2 Color Regulation Characteristics 2 1. Input SGE into -B IN (pin 44 ). 2. Test the output amplitude of pin 23 and make VY38, VY39. 3. Ccon1, Ccon2=20 log VY38, VY39 (dB) VY37 MITSUBISHI ICs (TV) M52727SP PAL/NTSC SYSTEM SINGLE-CHIP COLOR TV SIGNAL PROCESSOR VMF Video Mute Characteristics CLS Input Cut Switch Operation 1. Input SGB(f=5MHz) into pin 36 . 2. Test the output amplitude of pin 1. Test the output DC of pin 38 . 38 . . 21 CLV1 Input Cramp Potencial 1 3. VMF = 20 log Test value (dB) VY21 1. Test the output DC of pin BLS1 Black Expanding Operation 1 R-Y PAL R-Y/B-Y PAL Relative Amplitude BLS2 Black Expanding Operation 2 R-Y NTSC R-Y/B-Y PAL Relative Amplitude BLS3 Black Expanding Operation 3 G-Y /B-Y R-Y/B-Y PAL Relative Amplitude 1. Input SGC (Y49 0.2V, Y50 0.4V, Y51 0V) into pin <G-Y <G-Y Relative Phase 1. Input SGE(V=1VP-P)into -B IN (pin 44 2. Test the output amplitude of pin 22 , (and make B-Y, G-Y ). 23 4. BLS1, 2, 3=BLS off-BLS on B) S/N RGB RGB Output Noise 4. Test the output amplitude of pin21 , 22 . (and make R-Y, G-Y 1. Test the output noise level of pin 21 except BLK part. R) 5. Change into NTSC mode and test the output amplitude of Tc RGB RGB Output Temperature Characteristics 1. Measure the voltage except for BLK block of the output at pin 21 . (and make R-Y n) pin 6. R-YP B-Y when the ambient temperature is -20˚C and specify 2. Measure the voltage except for BLK block of the output at pin RNT = G-Y R X COS7˚ G-Y BNT = G-Y B-G-Y 8. TcRGB = R X SIN7˚ G-Y R G-Y B =Tan-1 NTSC<G-Y = Tan-1 (deg) (V65˚C) - (V-20˚C) (mV/˚C) 85˚C HBLKL HBLK "L" Level VBLKL VBLK "L" Level (G-Y RNT)2+(G-Y BNT)2 (-) B-Y NTSC G-Y/B-Y = when the ambient temperature is 65˚C and specify 3. (G-Y R)2+(G-Y B)2 (-) B-Y PAL G-Y/B-Y = 21 the value as V-65˚C. 7. G-Y PAL<G-Y 21 the value as V-20˚C. (-) R-Y N (-) B-Y R-Y NTSC= . 3. Specify DC except for BLK of BLS 1 (ON) as BLS on. . 3. Input SGE(V=0.56V) into -R IN (pin 45 ). R-Y PAL = 36 2. Specify DC except for BLK of BLS 0 (OFF) as BLS off. 1. Test the output voltage of pin 21 on the term of HBLK, VBLK. VAmax Analog RGB Maximum Output 1. Input SG50 into pin G-Y RNT (deg) G-Y BNT 36 . Input SGD into each of ER, EG, EB and FB. 2. Test the output amplitude of pin 21 , 22 , 23 except BLK part. OSD1 OSD Speed Characteristics 1 VDRGB Analog RGB Input D Range OSD2 OSD Speed Characteristics 2 1. Input SG50 into pin 36 . Input SGD into each of FB, ER, 1. Input SG50 into pin 2. Measure the signal rising/falling time above the pedestal , 22 and Input SGD (level 0.5V, 1.0V) into 2. Test of the output aplitude of pin 23 21 , 22 , 23 3. . PIN 21 , 90% 10% M M OSD1 OSD2 22 , 23 OUTPUT WAVEFORM and make VY57RT, VY57GT, VY57BT, VY57RH, VY57GH, VY57BH . level except for the blanking block of the output at pins 21 36 . each of ER, EG, EB and FB. EG and EB. VDRGB = 20 log VY57RH, VY57GH, VY57BH (dB) VY57RT, VY57GT, VY57BT MITSUBISHI ICs (TV) M52727SP PAL/NTSC SYSTEM SINGLE-CHIP COLOR TV SIGNAL PROCESSOR RGBON Analog RGB ON Voltage Ygmax Video Maximum Gain RGBON BLK RGB ON Voltage 36 1. Input SGB(f=100kHz, V=0.4VP-P) into pin ARGB DL Analog RGB Transmission Characteristics 2. Test the output amplitude into pin 1. Input SGA into pin 21 and SGD(level variable) into FB. 2. Observing the output at pin 21 , measure the SGD level 21 . except BLK part. 3. Ygmax = 20 log Test value (dB) 0.4VP-P that keeps pedestal electric potential for the period of SGD "H". f tone Tone Control Peaking Frequency 3. At the same time, measure the delay time between SGD and pin 21 . 1. Input SGB (0.714V f variable) into pin 36 . 2. Varying the frequency of SGB, find the frequency where 4. Increasing SGD, measure the SGD level where BLK of output amplitude takes a maximum value at pin 21 . SGD "H" period takes place. CENTER VOLTAGE BLS start Black Expansion Start Point 1. Input SGC (level variable) into pin T1 T2 36 . 2. Make VY68A the output amplitude when SGC level is 0. 3. Gradually changing the SGC level largely, measure the RGBON amplitude at which the output at pin 21 does not change with the black expansion is turned on/off (specified to be CTAT Analog RGB TV Crosstalk 1. Input SG50 into pin 36 VY68). and SGB (f=5MHz) into ER. 2. When the voltages of 0V and 0.7V are applied to FB, the amplitude except for BLK portion of the output at pin 21 are specified as V0V and V0.7V, respectively. V0V (dB) 3. CTAT=20 log V0.7V 4. Measure the output at pin 21 when the SGC level set to 0.714 (specified to be VY68 TYP). VY68-VY68A 5. BLS start = X 100 VY68TYP-VY68A BLS max Maximum Gain of Black Expansion Amplifier 1. Input SGB (level 0.3VP-P) into pin CTTA TV 36 pin . 2. When the voltages of 0V and 0.7V are applied to FB, the amplitude except for BLK portion of the output at pin 21 are 36 . 2. When 5V and OPEN are applied to pin Analog RGB Crosstalk 1. Input SGB(f=5MHz) into pin (IRE) specified as VY0V and VY0.7V, respectively. VY0V (dB) VY0.7V 3. CTTA=20 log 21 30 , the output at is specified to be VY69 5V and VY69 OPEN, respectively. 3. BLS max=20 log VY69 5V (dB) VY69 OPEN CTR3 Chroma Trap Attenuation 3 1. Perform TRAP CONT. of trap data for the attenuation VDY Video Input D Range when adjustments are made at Y7. 1. Input SGB(f=100kHz, level variable Lumi:0.714,1.428V) into pin 36 . 2. Standard CTR3 shall be specified to be a value given in (dB) when TRAP CONT. is performed on the trap data at 2. Test the output amplitude of pin except BLK part, and 21 Y6. make VY63T, VY63H. VYSW Y SW OUT Input D Range 3. VDY=20 log VY63H VY63T 1. Input SGB(f=100kHz level variable Lumi:0.714, 1.428V) (dB) into pin 2. Test the output Lumi level of pin VDCO Color Input D Range 3. VDCO=20 log 21 VY64H VY64T x VYCN1 except BLK part. (dB) NO SECAM. 3. VYSW=20 log VY71H VY71T (dB) 1. Input SGB(f=100kHz Lumi:0.714) into pin 36 . 2. For standard DVY, switch the voltage at pin 24 4.5V, measure the output at pin 41 and make VY71T, DVY Video Amplitude with Voltage Reducing SW Set to ON Zcor Color Output Impedance 1. Test the output impedance of pin 38 VY71H. 1. Input SGE(1.0VP-P, 2.0VP-P) into -B. 2. Test the output amplitude of pin 36 . and 43 as SECAM, value in (VP-P). 21 to 0V and , and then give the MITSUBISHI ICs (TV) M52727SP PAL/NTSC SYSTEM SINGLE-CHIP COLOR TV SIGNAL PROCESSOR HAS Auto Slice Slice Level SH Horizontal Stop Operation 1. Test the output voltage of pin 39 as no input and make VHAS1. , measure the voltage at 9 which H.OUT output stops. 2. Input SG50(V=286mVP-P) into 36 . 3. Test the sink-chip and pedestal potencial of pin 39 and AFCG AFC Gain Operation 1. Test the output amplitude of pin make VHASS, VHASP. 4. When lowering the voltage at pin 16 when AFC Gain Switch is changed and make AFCon when SW is ON and (VHAS1-VHASS) HAS = (VHASP-VHASS) * 100 (%) VHASP SYNC VHAS1 VHASS ISS Sync. Separation Input Sensitivity Current Supply current from pin when the voltage at pin (dB) FS H-V Free Operation Test the voltage difference of pin 39 when H.FREE SW is ON and OFF. , then measure the flow current 7 SYSH SYNC SEP Output "H" SYSL SYNC SEP Output "L" is 0.5 VDC or less. 8 AFCoff when SW is OFF. AFCon (VP-P) AFCoff (VP-P) 2. AFCG = 20 log BGP1 BGP Timing 1 BGP2 BGP Timing 2 PIN 8 "H" OUTPUT BGPW BGP Pulse Width PIN 36 SYNC GND "L" BGP1,BGP2 HLV Minimum Sync. Detection Level PIN 12 1. Input SG50 (V=variable) into pin SCP 36 . 2. Gradually reduce the SG50 amplitude from 286 mVP-P, measure the amplitude where the horizontal synchroBGPW nization is put out of the range and specify the value to be HLV1. HLV1 286 FH Horizontal Freerun Frequency Test the output frequency of pin 13 as 3. HLV= no input. * 100 (%) FV Vertical Free-run Frequency Test the output frequency of pin FPH1 Horizontal Pull-in Range 1 FPH2 Horizontal Pull-in Range 2 Change the SGc frequency and then calculate the difference 18 as no input. VVL Vertical Output Minimum Voltage in test value from 15.625 kHz of the frequency range pull in by output signal at pin and input signal at pin 13 PIN 18 V. PULSE 36. 15.625kHz - Test value (Hz) M HPT1 Horizontal Pulse Timing 1 GND HPT2 Horizontal Pulse Timing 2 HPT2-HPT1 HPT3 Horizontal Pulse Timing 3 HPT3-HPT1 SW Service Switch Operation 2 HPT4 Horizontal Pulse Timing 4 HPT4-HPT1 Test the output DC voltage of pin HPT5 Horizontal Pulse Timing 5 HPT5-HPT1 DATA ON. PIN 39 SYNC FPV Vertical Pull-in Range Lower frequencies of SG.d at pin HPT1, HPT2, HPT3 13 when the service switch 39 from higher frequency and then measure the frequency when the output waveform at pin PIN 18 18 is pulled in. H OUT VW Vertical Output Pulse Width PIN TH Horizontal Pulse Width M VH Horizontal Pulse Amplitude TH VH GND PIN 13 H OUT 18 V. PULSE MITSUBISHI ICs (TV) M52727SP PAL/NTSC SYSTEM SINGLE-CHIP COLOR TV SIGNAL PROCESSOR VBLKW Vertical BLK Width SWA SW A PIN 21 OUTPUT WAVEFORM Test the voltage of pin 4 when SW A is DATA ON and OFF 4 when SW B is DATA ON and OFF at no input. M SWB SW B GND Test the voltage of pin at no input. BLK IN Vertical BLK Input Apply 5V to BLK IN and test the output DC voltage into pin 21 IDADJ1 ID ADJ 1 "M" . Test the output DC voltage of pin AVER1 50/60 Decision 1 AVER2 50/60 Decision 2 AVER3 50/60 Decision 3 AVER4 50/60 Decision 4 18 . IDADJ2 ID ADJ 2 "H" 1. Test the output DC voltage of pin 52 . 52 . IDADJ3 ID ADJ 3 "L" For input frequencies, check that the output frequencies at pin 52 1. Test the output DC voltage of pin are the same (put in the same pull-in status). At the same time, check the status of BUS write mode (D7). ICVOL IC BUS VOL Supply a current of 3 mA to pin WVSS Minimum Sync. Detection Width 14 and then measure the voltage of acknowledge bit. Narrowing the width of SG.d signal at pin input signal width when the output at pin 36 16 , measure the becomes out of I2CVTH I2C BUS VTH synchronization. Lowering the "H" voltage of SDA/SCL input, measure the voltage at which BUS does not operate. SCPG SCP Wave Height Value GP SCPH SCP Wave Height Value H-BLK CI2C I2C BUS Pin Input Capacity SCPV SCP Wave Height Value V-BLK Test the output waveform of pin Test the capacity of pin as no input. PIN 12 OUTPUT 11 and 14 on OPEN. 12 fSCL SCL Clock Maximum Operation Frequency Test the SCL maximum operation frequency BUS reacted. GP IBUS IC BUS 0.4V Current Test the current of pin 11 and 14 when 0.4V is applied. H-BLK VSH1 Vertical Shift Operation 1 VSH2 Vertical Shift Operation 2 VSH3 Vertical Shift Operation 3 VSH4 Vertical Shift Operation 4 VSH5 Vertical Shift Operation 5 V-BLK IDADJ4 ID ADJ 4 "L" 2 Measure the voltage when a current of 180µA flows from pin 52 . 1. Input SG.d(f=50Hz,V=285mVP-P) into pin 36 . 2. Measure the delay time from signal input at the center point of falling portion at pin 39 center point of rising portion at pin to signal output at the 18 . 3. Make VSH1,VSH2,VSH3,VSH4 and VSH5(nsec) each value. PIN 39 SYNC VSH1,VSH2,VSH3,VSH4,VSH5 PIN 18 V OUT MITSUBISHI ICs (TV) M52727SP PAL/NTSC SYSTEM SINGLE-CHIP COLOR TV SIGNAL PROCESSOR Note 1. Adjust the one-shot multivibrator's potentiometer so that the timing of the horizontal blanking pulse and pulse width are as shown in the figure below. PIN 13 HORIZONTAL OUTPUT 8µs HORIZONTAL BLANKING PULSE 12µs Set 8µs via the pin 15 potentiometer of TTL IC, M74LS221P, and set 12µs via the pin 7 potentiometer. About Input Signal Parameter Including Color Signal 1. The name of input signal is made of 4 alphanumeric characters. Note) S S 4 P Standard Signal 4.43MHz PAL system 4th characters 3rd characters 2nd characters 1st characters 1st Characters : Standard=S , No standard=V (however, the part of change is specified.) 2nd Characters : Meanings of signal 3rd Characters : Expressed as burst and chroma frequency. 4(4.433619MHz), 3(3.579545MHz) (however, this is treated the same as SECAM standard signal in case of "S") 4th Characters : Expressed as color system. N(NTSC), P(PAL) 2. Configuration of input color signal. Configurations of color signal are shown in the figure below. ec(n) ec(n+1) eb(n+1) eb(n) ec eb H.sync 500mVP-P 1. If the first character of a signal name is S (standard), the signal conforms to the standard color bar signal in types. However, H.sync is to be added for input clamp. (The frequency of H.sync conforms to the 4th character. P: 50 Hz, N: 60 Hz) 2. The amplitude of burst and the frequency are given in eb. If they are standardized, the amplitude is 285 mVP-P and the frequency conforms to the 3rd character of the signal name. 3. The amplitude of chroma and the frequency are given in ec. If they are standardized, the amplitude is 570 mVP-P and the frequency conforms to the 3rd character of the signal name. 4. The phase correlation on the PAL type signal is shown in the figure below. R-Y ec(n) eb(n) B-Y eb(n+1) ec(n+1) MITSUBISHI ICs (TV) M52727SP PAL/NTSC SYSTEM SINGLE-CHIP COLOR TV SIGNAL PROCESSOR Video/Interface Signals (50Ω termination) SG. No. PAL type Make input for sync separation PAL type APL 100% normal SG. A 0.714VP-P 4.7µs video signal shown in the figure on the right. Vertical must 1VP-P be inter laced at 50Hz. 0.286VP-P 2µs 7µs On the SGA signal, Lumi. signal frequency and amplitude 4.7µs are variable. However, standard amplitude is 0.714 VP-P SG. B 2µs 7µs Sync SG. C 4µs LEVEL VARIABLE 0.7V SG. D 0V 24µ 20µ 20µ 0.5VP-P SG. E f = 100kHz SG. 50 Level variable typ = 0.3VP-P H = 15.625kHz, V = 50Hz STANDARD PAL SYNC NTSC type f = 3.58MHz 4.7µs 1VP-P 0.714VP-P SG. F 0.286VP-P 63.5µs SG. 60 Level variable typ = 0.3VP-P H = 15.734kHz, V = 60Hz STANDARD NTSC SYNC Level variable f = 3.579545MHz SG. G CW MITSUBISHI ICs (TV) M52727SP PAL/NTSC SYSTEM SINGLE-CHIP COLOR TV SIGNAL PROCESSOR AUDIO Signals (50Ω termination) SG. No. SG. 1 f=1kHz, 1VP-P, CW 50Ωtermination f variable Level variable (TYP f=1kHz, 1VP-P) TENDENCY SG. No. Signals (50Ω termination) Make SG.a PAL type APL variable video signal. 64µs Vertical must be interlaced at 50Hz. 4.7µs 0.714VP-P PEDESTAL SG. a 0.286VP-P 2µs 7µs Make SG.b NTSC type APL variable video signal. 63.5µs Vertical must be interlaced at 50Hz. 4.7µs 0.714VP-P PEDESTAL SG. b 0.286VP-P 2µs 7µs Duty 90% Frequency variable Level variable (standard 1VP-P) SG. c 1VP-P Duty 95% Frequency variable Level variable (standard 1VP-P) Duty variable (standard : 95%) SG. d 1VP-P P1 1 52 50 P2 2 51 P51 KILLER ADJ 0.047u 200k IC ADJ P52 10u BLK IN P3 3 50 P4 SYNC SEP2 IN 48 0.01u 5 GND BUS SW A 4 GND 49 620 50 47k KILLER FILTTER 75 10u 1u ID FILTTER 0.033u TV AUDIO IN 6 VCC 47 47u 9 -R IN 11 10k 3k 7 46 20k 9 8 44 10 7 A 9 0.01u 14 15 16 1 5 2200p 4 3 11 VR 20k P39 39 15 16 1 14 SDA P13 H.OUT 13 5 4 12 13 15 38 P38 1k 1k 5.1k 16 GND 37 Sync OUT 0.1u 11 3 1.5k 14 M52325AP 6 3300p 10 7 M52727SP +5V 2 9 8 S.S IN 40 P42 FBP IN P12 14 4700p 12 13 M74L221P 6 SCL VR 20k 1u 11 10 A 41 42 43 12 P41 P43 13 510 -(B-Y) IN SYNC SEP OUT P8 8 -(R-Y) IN 45 1 -B IN 12 U3660M 2 0.01u 10 0.01u 75 0.01u 75 3 4.3M X_TAL 4 100 5 100p 0.01u 0.1u 100µH 0 1 A P46 0 AUDIO SW45 SW44 OUT 10k 1800p 1u 6.8k 6.2k 0.1u 220k 1u B503F18 P16 0.22u P17 17 0.01u 1.5k 15 2 H BYPASS 36 Y IN 75 6 0.01u 16 1 P18 18 35 75 0.22u 19 34 C IN A 20 VCC 33 FB IN P21 P22 G P23 B 23 22 21 R 30 31 32 75 7 0.01u 10u 47u 1u 12k EXT AUDIO IN 75 47k 220 S16 10u 56p 47u 3.3k 1u 0.015u 680k 2.7k V.PULSE OUT 3.58M X_TAL 3.6k 3.6k 560 0.01u 0.22u 300k 3.6k ER IN 28 EB IN 25 NC P26 cont. 26 27 EG IN EXT B IN 9V 8.2V 5V Units Resistance : Ω Capacitance : F A 24 VCC 29 75 8 0.01u 75 0.1u EXT G IN 0.1u 1u EXT R IN 0.1u 47u 75 68k 150k 0.22u 0.1u MITSUBISHI ICs (TV) M52727SP PAL/NTSC SYSTEM SINGLE-CHIP COLOR TV SIGNAL PROCESSOR TEST CIRCUIT DIAGRAM MITSUBISHI ICs (TV) M52727SP PAL/NTSC SYSTEM SINGLE-CHIP COLOR TV SIGNAL PROCESSOR TYPICAL CHARACTERISTICS THERMAL DERATING POWER DISSIPATION Pd (W) 2.0 1.572 1.5 1.0 0.5 0 0 25 50 65 75 100 125 150 AMBIENT TEMPERATURE Ta (˚C) Vcc Vcc Vcc BUS SW B CONTRAST BUS I/F 14 11 38 30 2VP-P 5V DELAY VIDEO TONE 1VP-P EXT IN (C IN) CLAMP 1VP-P TV IN (Y IN) CHROMA BPF 34 1ST AMP (ACC) Hfree(C/D) HPF TV/ EXT CLAMP Y/C F. TRAP 2 DL TIME DL FINE TRAP SW 2ND AMP ADJ DET 4 Hfree(C/D) TV/EXT CHROMA TRAP 36 F. TRAP 1 K2 D.TRAP SHARPNESS VIDEO MUTE CLAMP BLACK STERETCH BLACK VODEO MUTE PEAK HOLD 26 3 SDA SCL Vcc BUS SW OUT A 39 6 16 ID REF ID OUT REF FILTER 51 33 BYPASS 35 24 9 8 1 SECAM M52325AP 7 37 15 10 20 9V RGB MATRIX CONTRAST COLOR SERVICE ACL SYSTEM DECODE 10 IIL VCC 4.43 40 43 41 45 44 BIGP GENE 3 4 12 8 10 1H DL 16 14 11 3.58 1 Vcc 5 16 AFC-1 9 SCP 12 7 AFC GAIN HV BLK 8.2V 19 47 17 APPLICATION EXAMPLE B IN FAST BLK +8 V PULSE OUT DELECTION Vcc 8.2V H VCC BLK IN G OUT B OUT R OUT G IN R IN SECAM REF. AUDIO POWE R AUDIO VCC 8.2V 28 NC 18 9 42 6 22 23 21 27 29 25 31 46 H PHASE CORR H-PHASE V PHASE RAMP SERVICE SW SECAM REF AF AMP AUDIO ATT 49 AUDIO GND 13 H OUTPUT AFC-2 H STOP HORIZONTAL COUNT DOWIN 32FH VCO 15 ATT VERTICAL COUNT DOWIN CLAMP 50 AUDIO SW CUT OFF R G B 48 TV AUDIO EXT AUDIO IN IN 50/60 OUT V SYNC TRIG G EXT INPUT R EXT INPUT B EXT INPUT SYNC SEP IN 2 EO ELIMINATE DRIVE AMP DRIVE R B SYNC SEP 2 F.B.P SYNC SEP BRIGHT BRIGHT peak ACL SYSTEM auto 8 Vcc SYNC SEP OUT SYSTEM SET 5 GND -(R-Y) -(B-Y) -(R-Y) -(B-Y) IN OUT OUT IN 32 VCXO TINT PHASE CONT PAL SW CHROMA DEMODULATOR CONTRAST F/F 52 ID ADJ 5V VIDEO CHROMA 13 12 Vcc 1 CHROMA APC DET ID DET ACC DET ID OUT 2 SYSTEM ID KILLER OUT KILLER DET 3 KILLER ADJ ID FILTER MITSUBISHI ICs (TV) M52727SP PAL/NTSC SYSTEM SINGLE-CHIP COLOR TV SIGNAL PROCESSOR MITSUBISHI ICs (TV) M52727SP PAL/NTSC SYSTEM SINGLE-CHIP COLOR TV SIGNAL PROCESSOR DESCRIPTION OF PIN Pin No. Name Peripheral circuit of pins Pin waveform DC voltage (V) Min. 1.90 Typ. 2.40 Max. 2.90 Min. 2.20 Typ. 2.70 Max. 3.20 Note 50k 1 KILLER FILTER 100k 2k 2k 50k 2 ID FILTER 0 BUS SW B H BUS SW B L 5.00 BUS SW B H 4.80 Min. 20k 3 SUB SWB Typ. 5.10 BUS SW B L BUS SW B H 0.50 BUS SW B L 0.30 Max. 4.80 Min. 0 20k 4 BUS SWA 5.00 Typ. 0.30 5.10 Max. 0.50 Min. 5 GND Typ. Max. 0 BUS SW A H BUS SW A L BUS SW A H BUS SW A L BUS SW A H BUS SW A L MITSUBISHI ICs (TV) M52727SP PAL/NTSC SYSTEM SINGLE-CHIP COLOR TV SIGNAL PROCESSOR DESCRIPTION OF PIN (cont.) Pin No. Name Peripheral circuit of pins 100k 6 Pin waveform DC voltage (V) Min. 0 Typ. 0 Max. 0.3 Min. 5.50 Typ. 6.10 Max. 6.70 Min. 8.00 Typ. 8.20 Max. 8.40 12.5k BLK IN 10k 50k 7 SYNC SEP 2 IN 500 40k 8 20k SYNC SEP OUT 20k 30k Min. 9 H VCC Typ. 8.20 Max. 10 IIL VCC Min. 1.10 Typ. 1.40 Max. 1.70 Note MITSUBISHI ICs (TV) M52727SP PAL/NTSC SYSTEM SINGLE-CHIP COLOR TV SIGNAL PROCESSOR DESCRIPTION OF PIN (cont.) Pin No. Name Peripheral circuit of pins Pin waveform DC voltage (V) Note Min. 43k 11 SCL 5k Typ. Max. Min. 12 SCP OUT Typ. Max. 4.21 BGP 2.50 HBLK 1.35 VBLK 5.00 BGP 2.90 HBLK 1.55 VBLK 6.50 BGP 3.30 HBLK 1.80 VBLK 3.90 H 0 L 4.40 H 0.30 L Min. 200 13 H OUT 200 Typ. H Max. 0.50 Min. 43k 14 38k Typ. SDA Max. 15 10k 675 H OSC 300 Min. 4.80 Typ. 5.4 Max. 5.9 375 L MITSUBISHI ICs (TV) M52727SP PAL/NTSC SYSTEM SINGLE-CHIP COLOR TV SIGNAL PROCESSOR DESCRIPTION OF PIN (cont.) Pin No. Name Peripheral circuit of pins Pin waveform DC voltage (V) Min. 4.80 Typ. 5.50 Max. 6.20 Min. 2.20 Typ. 2.70 Max. 3.20 Note 20k 16 AFC 1 AILTER 3k 24k 100k 17 H PHASE CORR 2.4k 2.4k 10k 5.20 H Min. L 50k 18 V.PULSE OUT 5.80 H 0 L 6.40 H 0.50 L Typ. 470 Max. 1k 1k Min. 3.60 Typ. 4.20 Max. 4.80 2k 33k 19 AFC2 FILTER 2.4k 2.4k 62k 120k Min. 20 HI Vcc Typ. Max. 9.00 MITSUBISHI ICs (TV) M52727SP PAL/NTSC SYSTEM SINGLE-CHIP COLOR TV SIGNAL PROCESSOR DESCRIPTION OF PIN (cont.) Pin No. Name Peripheral circuit of pins Pin waveform DC voltage (V) 1.75 Note H Min. L 50 21 R OUT 22 G OUT 23 B OUT 2.25 H 0.10 L 2.75 H 0.50 L Typ. Max. Min. 24 VCD Vcc Typ. 5.00 Max. Min. 2.20 Typ. 2.80 Max. 3.40 Min. 2.90 Typ. 3.40 Max. 3.90 4.5k 25 B IN 27 G IN 29 R IN 4.5k 5k 26 CONTRAST CONT 15k Min. 28 N.C Typ. Max. MITSUBISHI ICs (TV) M52727SP PAL/NTSC SYSTEM SINGLE-CHIP COLOR TV SIGNAL PROCESSOR DESCRIPTION OF PIN (cont.) Pin No. 30 Name Peripheral circuit of pins BLACK PEAK FILTER Pin waveform DC voltage (V) Min. 2.40 Typ. 3.10 Max. 3.80 3k 3k 2.3k 575 2k 2.3k Min. 36k 31 FAST BLK 100 Typ. Max. Min. 2.80 Typ. 3.10 Max. 3.60 Min. 1.50 Typ. 2.00 Max. 2.50 Min. 1.35 Typ. 1.85 Max. 2.35 1.3k 32 X-ral 3.58MHz 100 33 BYPASS 4.5k 34 EXT IN (C IN) 100 4.5k Note MITSUBISHI ICs (TV) M52727SP PAL/NTSC SYSTEM SINGLE-CHIP COLOR TV SIGNAL PROCESSOR DESCRIPTION OF PIN (cont.) Pin No. 35 Name Peripheral circuit of pins Pin waveform DC voltage (V) Min. 2.55 Typ. 3.05 Max. 3.55 4k CHTROMA APC FILTER 1.50 Min. 3.90 4.5k 2.40 36 TV IN (Y IN) Typ. 4.50 100 4.5k 2.90 Max. 5.00 Min. 37 VCD GND Typ. 0 Max. 33 V(Y)SW OUT Min. 1.85 Typ. 2.15 Max. 2.45 Min. 1.65 Typ. 2.10 Max. 2.55 100k 1k 39 SYNC SEP 1 IN 5k 5.1k 1.2k Note MITSUBISHI ICs (TV) M52727SP PAL/NTSC SYSTEM SINGLE-CHIP COLOR TV SIGNAL PROCESSOR DESCRIPTION OF PIN (cont.) Pin No. 40 Name Peripheral circuit of pins X-TAL 4.03MHz Pin waveform DC voltage (V) Min. 2.70 Typ. 3.20 Max. 3.70 Min. 2.45 Typ. 2.95 Max. 3.45 Min. 1.10 Typ. 1.50 1.3k 100 41 43 -(B-Y) OUT -(R-Y) OUT 10k 42 SECAM REF Max. 2.3k 44 45 Min. 2.50 Typ. 3.00 Max. 3.50 Min. 2.90 Typ. 3.30 Max. 3.90 -(B-Y) IN -(R-Y) IN 2.3k 46 1.90 AUDIO OUT Note MITSUBISHI ICs (TV) M52727SP PAL/NTSC SYSTEM SINGLE-CHIP COLOR TV SIGNAL PROCESSOR DESCRIPTION OF PIN (cont.) Pin No. Name Peripheral circuit of pins Pin waveform DC voltage (V) Min. 47 AUDIO Vcc Typ. 8.20 Max. Min. 2.50 Typ. 3.00 Max. 3.50 50k 48 TV AUSIO IN 1.5k Min. 49 AUDIO GND Typ. 0 Max. Min. 2.50 Typ. 3.00 Max. 3.50 Min. 1.35 Typ. 1.80 Max. 2.35 50k 50 EXT AUDIO IN 1.5k 2k 20k 51 KILLER ADJ Note MITSUBISHI ICs (TV) M52727SP PAL/NTSC SYSTEM SINGLE-CHIP COLOR TV SIGNAL PROCESSOR DESCRIPTION OF PIN (cont.) Pin No. 52 Name Peripheral circuit of pins Pin waveform DC voltage (V) ID ADJ Min. 1.55 Typ. 2.0 Max. 2.45 Note 20k PIN VOLTAGE STANDARD CONDITION Sub address 01H 00H Function SWB IDADJ DATA Function A0 0 SWA TRAP 32 0 0 0 04H SHARP A0 0 05H CONT A6 32 DLTA AUTO A6 Sub address Function DATA Function 03H Sub address Function DATA Function 08H COLOR A0 0 Sub address Function DATA Function AUDsw ATT A0 0 09H 2 0 8 CLOFF SESW Hfr HP A7 0 10H TVEXT A2 0 0 0BH DG MUTE A6 32 0 AFCG V Phase 0 0 13H A0 A6 0 0 02H F. TRAP2 ACL DLFA SWK A3 0 1 0 0 Y/C BLACK 0 0 06H 0AH BRI A6 32 SET FTR1 1 D. TRAP 0 0CH DB A6 32 0DH CR A8 128 07H TINT A7 64 0EH CG A8 128 0FH CB A8 128 MITSUBISHI ICs (TV) M52727SP PAL/NTSC SYSTEM SINGLE-CHIP COLOR TV SIGNAL PROCESSOR [DATA LIST] Data No. Data 10 D7 D6 D5 D4 D3 D2 D1 D0 Decimal Data No. Data 10 D7 D6 D5 D4 D3 D2 D1 D0 Decimal A0 0 0 0 0 0 0 0 0 0 C3 0 0 0 0 1 1 0 0 12 A1 0 0 0 0 0 0 0 1 1 C4 0 0 0 1 1 0 0 0 24 A2 0 0 0 0 0 0 1 0 2 C5 0 0 1 1 0 0 0 0 48 A3 0 0 0 0 0 1 0 0 4 C6 0 1 1 0 0 0 0 0 96 A4 0 0 0 0 1 0 0 0 8 C7 0 0 0 0 1 1 1 0 14 A5 0 0 0 1 0 0 0 0 16 C8 0 0 0 1 1 1 0 0 28 A6 0 0 1 0 0 0 0 0 32 C9 0 0 1 1 1 0 0 0 56 A7 0 1 0 0 0 0 0 0 64 D0 0 1 1 1 0 0 0 0 112 A8 1 0 0 0 0 0 0 0 128 D1 0 0 0 1 1 1 1 0 30 A9 0 0 0 0 0 0 1 1 3 D2 0 0 1 1 1 1 0 0 60 B0 0 0 0 0 0 1 0 1 5 D3 0 1 1 1 1 0 0 0 120 B1 0 0 0 0 1 0 0 1 9 D4 0 0 0 0 1 0 1 0 10 B2 0 0 0 1 0 0 0 1 17 D5 0 0 0 1 0 1 0 0 20 B3 0 0 1 0 0 0 0 1 33 D6 0 0 1 0 1 0 0 0 40 B4 0 1 0 0 0 0 0 1 65 D7 0 1 0 1 0 0 0 0 80 B5 1 0 0 0 0 0 0 1 129 D8 0 0 0 1 0 0 1 0 18 B6 0 0 0 0 0 1 1 1 7 D9 0 0 1 0 0 1 0 0 36 B7 0 0 0 0 1 1 1 1 15 E0 0 0 1 0 0 1 1 0 38 B8 0 0 0 1 1 1 1 1 31 E1 0 0 1 0 0 0 1 0 34 B9 0 0 1 1 1 1 1 1 63 E2 0 0 1 0 0 0 1 1 35 C0 0 1 1 1 1 1 1 1 127 E3 0 1 0 0 0 1 1 0 69 C1 1 1 1 1 1 1 1 1 255 E4 0 0 1 1 0 0 1 1 51 C2 0 0 0 0 0 1 1 0 6 E5 0 0 1 1 0 0 1 0 50 E7 0 0 1 1 0 1 1 0 54 E6 0 1 0 0 0 1 0 0 68 E8 0 0 1 0 1 1 0 0 44 E9 0 1 0 0 1 0 1 0 74 F1 0 0 1 1 1 0 0 1 57 F2 0 0 1 0 1 0 1 0 42 F3 0 0 1 0 1 1 1 0 46 F4 0 0 1 1 0 1 0 0 52 F5 0 0 0 0 1 1 1 0 11 MITSUBISHI ICs (TV) M52727SP PAL/NTSC SYSTEM SINGLE-CHIP COLOR TV SIGNAL PROCESSOR INITIAL CONDITION D7 D6 : No Function D5 D4 D3 D2 D1 D0 DATA 1 0 0 0 0 0 A6 1 0 0 ID ADJ 0 A6 DBF 0 F TRAP2 0 DFA 0 0 TRAP 0 0 A0 0 0 A7 0 0 A6 0 0 DL TIME A6 SW B 00H 0 01H 0 0 A UD SW 02H 03H 04H 0 0 0 0 SWA 0 1 0 0 1 0 0 0 ACL 0 AUDIO ATT 0 0 SHARPNESS 0 0 CONTRAST 1 0 0 0 AUTO BLACK Y/C TV/EXT 05H 0 0 06H 0 0 0 0 0 TINT 0 1 0 A2 07H 0 1 0 0 0 0 0 A7 08H 0 0 09H 0 1 1 0 HPHASE 0 0 0 COLOR 0 0AH 0 0 1 0BH 0 MUTE 0 0CH 0 0 1 0DH 1 0 0 0EH 1 0 0 0FH 1 0 0 10H 0 13H 0 1 0 0 BRIGHT 0 0 3.58 0 0 A6 A7 0 0 A6 0 0 A6 0 0 A6 0 0 0 A8 0 0 0 A8 0 0 0 A8 DRIVE G 0 0 0 DRIVE B 0 0 0 CUT OFF R 0 0 CUT OFF G 0 0 CUT OFF B 0 0 0 0 NTSC SECAM 0 0 C OFF F TRAP 0 0 0 0 0 0 0 AFCG H Free SERSW V Phase V Phase V Phase 0 0 0 0 0 0 0 A0 A0 MITSUBISHI ICs (TV) M52727SP PAL/NTSC SYSTEM SINGLE-CHIP COLOR TV SIGNAL PROCESSOR M52727SP I2 C - BUS Format Sub address byte and data byte format : read * SW BIT SUB ADD BUS SWB* IDADJ AUDIO SW* 1 6 1 00H 01H 01H AUDIO ATT 7 8 9 10 11 sharpness contrast cont DL time ADJ* TV/EXT* 6 7 2 1 03H 04H 05H 06H 06H 12 13 Y/C IN* black stretch* TORAP SW* 1 1 06H 06H 1 7 02H 07H 7 1 3 08H 06H 09H 7 6 6 8 8 8 0AH 0BH 0CH 0DH 0EH 0FH 1 02H 1 02H AFC-2 H phase 4 09H V phase 3 13H Service SW* H free* 13H 13H AFC GAIN* 1 1 1 VIDEO MUTE* DOUBLE TRAP* TRAP fine ADJ1* BUS SWA* TRAP fine ADJ2* CLAMP OFF* 1 1 1 1 1 1 0BH 02H 10H 02H 02H 10H No. OTHER VIDEO CHROMA INTER FACE 1 2 3 4 5 6 7 14 15 16 17 18 19 20 21 22 23 24 OTHER tint cont color cont SYSTEM auto* SYSTEM SET* bright cont drive ( R ) drive ( B ) cut off ( R ) cut off ( G ) cut off ( B ) 25 DL fine ADJ 26 peak ACL 27 28 DEFLE CTION Functions 29 30 31 32 33 34 35 36 37 38 39 40 41 42 +40ns 0ns Lo Hi Data byte D4 D3 D7 D6 D5 0 SWB – A15 A14 A35 A45 A55 – A34 A44 A54 – D2 D1 D0 A13 A12 A11 A10 A33 A43 A53 – A32 A42 A52 – A31 A41 A51 A61 A40 A50 A60 AUDIO SW 0 0 0 0 A36 – A56 – A30 TV/EXT Y/C black 0 A76 0 A86 0 0 0 0 AD7 AE7 AF7 A74 A73 A72 A71 A70 A84 A83 A82 A81 A80 – A85 auto – – – AA5 AB5 AC5 AD5 AA4 AB4 AC4 AD4 AA3 AB3 AC3 AD3 3.58 AA2 AB2 AC2 AD2 NTSC AA1 AB1 AC1 AD1 SECAM AA6 0 0 AD6 AE6 AE5 AE4 AE3 AE2 AE1 AF6 AF5 AF4 AF3 AF2 AF1 0 1 A93 0 1 – – AG2 AG1 A96 0 TRAP A75 A95 A94 AA0 AB0 AC0 AD0 AE0 AF0 AG0 Service SW H free AFC GAIN 13H MUTE D.TRAP F.TRAP1 SWA F.TRAP2 CLAMP write Data byte D7 50/60 D6 D5 D4 D3 D2 D1 D0 KILLER ID 3.58 NTSC SECAM CONDITION MITSUBISHI ICs (TV) M52727SP PAL/NTSC SYSTEM SINGLE-CHIP COLOR TV SIGNAL PROCESSOR Initial Data byte Conditions at Power-ON M52727SP Data Functions BUS SWA AUDIO SW SWA 0 1 0 1 AUDIO SW OTHER BUS SWB DL TIME ADJ SWB A71 , A70 TV/EXT TV/EXT Y/C IN Y/C IN 0 0 1 1 INTER FACE black TRAP SW TRAP DL fine ADJ DLf peak ACL ACL SYSTEM auto auto CHROMA SYSTEM SET 3.58,NTSC,SECAM DEFLE CTION H free AFC GAIN OTHER Service SW H free AFC GAIN 0 1 0 1 0 1 0 1 0 1 0 1 1 0 1 0 0 1 1 0 0 1 0 1 0 1 0 1 clamp off clamp Video mute mute double trap d.trap trap fine adj1 f.trap1 0 1 trap fine adj2 f.trap2 0 1 0 1 0 1 170nsec 200nsec 330nsec 430nsec TV EXT OFF ON OFF ON +40nsec 0nsec Lo Hi 0 1 0 0 Service SW H L 0 1 VIDEO black stretch Condition H L TV EXT 0 1 0 0 0 0 1 manual auto 4.43 PAL 3.58 PAL 3.58 NTSC 4.43 NTSC SECAM OFF ON OFF ON NORMAL HIGH OFF ON OFF ON single double low high low high Initial condition H TV H 330nsec TV OFF OFF +40nsec Hi manual 4.43 PAL OFF OFF NORMAL OFF OFF single high low MITSUBISHI ICs (TV) M52727SP PAL/NTSC SYSTEM SINGLE-CHIP COLOR TV SIGNAL PROCESSOR Data byte Conditions at D/A Functions OTHER VIDEO CHROMA INTER FACE DEFLE CTION IDADJ AUDIO ATT sharpness contrast cont tint cont color cont bright cont drive ( R ) drive ( B ) cut off ( R ) cut off ( G ) cut off ( B ) AFC-2 H phase V phase BIT Data 6 7 6 7 7 7 7 6 0 ~ 63 0 ~ 127 0 ~ 63 0 ~ 127 0 ~ 127 0 ~ 127 0 ~ 127 0 ~ 63 0 ~ 63 0 ~ 255 0 ~ 255 0 ~ 255 0 ~ 15 0~7 6 8 8 8 4 3 0 0 0 0 0 0 0 0 0 0 0 0 0 0 Condition DC Lo Hi 63 127 Gain min max 63 f soft sharp 127 Gain min max 127 Phase Red Green 127 Gain min max 127 DC Lo Hi 63 Gain min max 63 Gain min max 255 255 255 15 4 DC min max DC min max DC min max delay min max delay min max Initial condition 32 0 0 32 64 0 32 32 32 128 128 128 8 0 MITSUBISHI ICs (TV) M52727SP PAL/NTSC SYSTEM SINGLE-CHIP COLOR TV SIGNAL PROCESSOR Slave Address A6 A5 A4 A3 A2 1 0 1 1 1 A1 A0 R / W 0 1 0 1 ( = B A H ) READ ( = B B H ) WRITE DATA Format READ S SLAVE ADDRESS START CONDITION WRITE S SLAVE ADDRESS START CONDITION A SUB ADDRESS DATE BYTE A A ACKNOWLEDGE BIT A DATE BYTE ACKNOWLEDGE BIT P TERMINATE CONDITION A P TERMINATE CONDITION Information consists of 8-bit bytes. Each byte is followed by Acknowledge. SDA SCL 1 2-7 8 9 P S START CONDITION ACKNOWLEDGE TERMINATE CONDITION NORMAL Condition Both SDA and SCL are set to HIGH when I2C bus is not used. Start Condition Is defiled at the falling edge of SDA when SCL is set to HIGH. Terminate Condition Is defined at the rising edge of SDA when SCL is set to HIGH. (Caution) Except for start condition and termination condition, the SDA level must not change when SCL is set to HIGH. DATA Transfer The DATA line level must not be changed during data transfer or when the CLOCK line is set to HIGH. Data is effective only when the clock pulse is set to HIGH (including rising and falling edges to cover areas that are not clear). Acknowledge Sending device sends HIGH for the portion of the 9th clock pulse of each byte. In the WRITE operation, this IC pulls down the DATA line for the portion of the 9th clock pulse to keep acknowledging. READ The READ status allows data to be input into this IC. In this status, pull-down of Acknowledge bits to this IC keeps the bits LOW. WRITE The WRITE status allows data to be output from this IC. In this status, pull-down of Acknowledge bits after data byte to the microcomputer keeps the bits LOW. (The output of the M52727SP is set to HIGH.) MITSUBISHI ICs (TV) M52727SP PAL/NTSC SYSTEM SINGLE-CHIP COLOR TV SIGNAL PROCESSOR Cautions for applications •When using the IC, keep setting the ID filter at pin 2 to 0.033µF or less. •For output of color difference, add low pass filter, if necessary. •The constant of the XTAL (4.43M/3.58M) circumference differs depending on the characteristics of XTAL in use.