MITSUBISHI ICs (TV) M52340SP PAL/NTSC SYSTEM SHINGLE-CHIP COLOR TV SIGNAL PROCESSOR DESCRIPTION The M52340SP is a single-chip semiconductor integrated circuit to PIN CONFIGURATION (TOP VIEW) process signals of a color TV. Circuits to process video IF, sound IF, video, color, and deflection signals, a I2C bus control circuit, and D/A are build in this device. This IC can be used not only for popular-type TV sets but also for middle-class TV sets. Combined with a SECAM chroma decoder, the M52325AP, this device can process signals of every type of TVs in the world by discriminating them fully automatically. FEATURES 2 number of peripheral parts and rationalize production lines. •Various filters (TRAP, BPF, Y-DL, RGB clamp) are build in this IC. •PLL detection system is introduced to process video IF and voice IF. Furthermore, AFT coil is not necessary. •DL aperture control •Color signal frequency and vertical frequency of TVs of every type can be discriminated fully automatically. •Horizontal/vertical countdown system •V-pulse output •RGB output 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 M52340SP •A built-in I C bus control circuit makes it possible to reduce the AFT OUT LIMITER IN RF AGC OUT IF AGC FILTER VIF GND VIF IN VIF IN VIF VCC H VCC IIL VCC SCL SCP OUT H OUT H OSC SDA AFC 1 FILTER INTERFACE GND V PULSE OUT AFC 2 FILTER Hi VCC R OUT G OUT B OUT VCD VCC B IN CONTRAST CONT. 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 VIDEO OUT VIDEO APC FILTER VCO VCO FM DIRECT OUT ATT VCC AUDIO OUT -(R-Y) IN -(B-Y) IN -(R-Y) OUT SECAM REF. -(B-Y) OUT SYNC SEP IN X-TAL 4.43 V(Y) SW OUT VCD GND TV IN (Y IN) CHROMA APC FILTER KILLER FILTER AUDIO BYPASS X-TAL 3.58 FAST BLK AC-IDENT R IN COINCIDENCE G IN Outline 52P4B APPLICATION NC : NO CONNECTION PAL/NTSC system color TV RECOMMENDED OPERATING CONDITION Supply voltage .............................. 4.75V to 5.25V (pins 8 and 24) ...........................7.6V to 8.4V (pins 9, 20, and 47) Rated supply voltage .................................... 5.0V (pins 8 and 24) .............................8.0V (pins 9, 20, and 47) Maximum output current ......................................... 5.0mA (pin 18) ......................................... 5.0mA (pin 13) 26 38 V(Y) SW OUT TV IN (Y IN) 36 CHROMA TRAP DL TIME DL FINE TRAP SW AFT OUT AFT IF AGC π 4 / HPF π 4 50 40 TV/ EXT 30 ACIDENT SW 51 VIDEO APC FILTER REF FILTER KILLER SYNC FILTER SEP IN 34 1ST AMP (ACC) CHROMA BPF 2ND AMP ADJ DET APC DET + VCO VIDEO DET - POS NEG VCO ADJ 49 VCO CHROMA APC FILTER 35 24 VCD VCC CHROMA APC DET ID DET ACC DET ID OUT SYSTEM ID KILLER DET LOCK DET VCD GND 37 F/F 32 X-TAL 3.58 X-TAL 4.43 39 VCXO 43 -(R-Y) OUT TINT PHASE CONT PAL SW CHROMA DEMODULATOR CONTRAST RGB MATRIX CONTRAST 20 Hi V CC SYSTEM DECODE 10 IIL VCC COLOR SERVICE 52 VIDEO OUT 45 SCP OUT -(B-Y) IN 44 BIGP GENE SYNC SEP BRIGHT BRIGHT SYSTEM auto 12 5 8 AFC 1 FILTER 16 AFC-1 EO ELIMINATE DRIVE AMP DRIVE R B AFC GAIN 47 BUS I/F HV BLK MUTE OUT 32FH VCO 13 H OUT H OSC COINCIDENCE 28 MUTE DET AFC-2 H STOP HORIZONTAL COUNT DOWIN VERTICAL COUNT DOWIN LAMP 14 ATT AUDIO MUTE SW CUT OFF R G B 4.5/6.0 FM DET 33 AUDIO ATT BYPASS VCC 50/60 OUT V SYNC TRIG G EXT INPUT R EXT INPUT B EXT INPUT 48 FM DIREC T OUT LIMITER VIF GND VIF VCC SYSTEM SET -(R-Y) IN -(B-Y) OUT 41 2 LIMITER IN H-PHASE V.PULSE SERVICE SW SECAM REF AF AMP AUDIO ATT H VCC 19 AFC 2 FILTER 17 INTERFACE GND 18 V PULSE OUT 9 42 SECAM REF. 27 G IN 22 G OUT 23 B OUT 21 R OUT 29 R IN 25 B IN 31 FAST BLK 11 SCL 15 SDA 46 AUDIO OUT BLOCK DIAGRAM F. TRAP K2 D.TRAP DELAY VIDEO TONE CLAMP VIDEO MUTE VODEO MUTE DEFEAT VIF AMP DELAY ADJ CONTRAST 1 7 6 3 CONTRAST CONT. AFT OUT VIF IN RE AGC OUT RF AGC 4 IF AGC FILTER MITSUBISHI ICs (TV) M52340SP PAL/NTSC SYSTEM SHINGLE-CHIP COLOR TV SIGNAL PROCESSOR MITSUBISHI ICs (TV) M52340SP PAL/NTSC SYSTEM SHINGLE-CHIP COLOR TV SIGNAL PROCESSOR ABSOLUTE MAXIMUM RATINGS (Ta=25 ˚C, unless otherwise noted) Symbol VCC Pd Topr Tstg Parameter Supply voltage Power dissipation Operating temperature Storage temperature Surge Electrostatic discharge Ratings 5.0, 8.0 1.4 -20 to 65 -40 to 150 ±200 (-150 for only minus side of pin 18) Unit V W ˚C ˚C V Pin 9 current Pin 20 current Pin 24 current Pin 47 current Icc9 Icc20 Icc24 Icc47 Video S/N Video frequency characteristics Input sensitivity Maximum permissible Input AGC control range P/N Vf Vin min Vin max GR V4T Maximum IF AGC voltage IF AGC voltage (80dBu) V Video detector output (POS) Vo POS V4H V Video detector output (NEG) Vo NEG V V V V Video detector output DC voltage (POS) Vdc POS SG7 SG6 SG5 SG4 SG3 SG2 SW PIN SW PIN SW PIN SW PIN SW PIN SW PIN SW PIN SW PIN SW PIN SW PIN Video detector output DC voltage (NEG) SW PIN SW PIN SW PIN SW PIN SW PIN SW PIN 1 1 0 0 0 0 0 0 0 0 1 M M 1 1 1 0 0 M M M M M M M M M M M M 5V 8V 8V 5V 8V M P P P P P P P P P P P P P P P P P P P P P P P 3 4 12 13 16 18 21 22 23 26 36 38 40 41 43 46 48 52 8 9 20 24 47 1 1 1 1 0 0 5V 8V 8V 5V 8V P 1 PIN conditions Vdc NEG SG1 SG name conditions VCC S S S S S S 4 16 31 40 44 45 S 2 Test conditions SW conditions SW PIN SW PIN V Input pin Input signal Standard conditions of IF parameters VIF block Pin 8 current Standard conditions of circuit current Parameter Icc8 Symbol ELECTRICAL CHARACTERISTICS 2.6 4.0 50 102 4.5 50 1.9 1.9 2.1 4.8 1.4 55.0 9.0 12.0 20.0 Min. 3.0 4.4 60 107 47 5.5 55 2.2 2.2 2.3 5.2 2.0 80.0 15.0 18.0 27.0 Typ. Limits 3.4 4.8 52 2.5 2.5 2.5 V V dBµ dBµ dBµ MHz dB V V V V mA 2.4 5.5 mA mA mA mA Unit 105.0 21.0 24.0 33.0 Max. MITSUBISHI ICs (TV) M52340SP PAL/NTSC SYSTEM SHINGLE-CHIP COLOR TV SIGNAL PROCESSOR SG9 V V V V V V Maximum RF AGC voltage Minimum RF AGC voltage Capture range (U) Capture range (L) Capture range (T) Intermodulation DG DP Sync ratio (NEG) Maximum delay point (NEG/POS) Minimum delay point (NEG/POS) V3H V3L CRU CRL CRT IM DG DP SPN DLPH DLPL VAF AF output DC voltage Standard conditions of SIF parameters SG9 V Minimum AFT voltage (NEG) V1L N SIF block SG3 V Maximum AFT voltage (NEG) V1H N SG13 V SG15 SG14 SG13 SG13 SG12 SG3 SG11 SG10 V V V SG9 AFT detector sensitivity (NEG) µAFT N SG8 AFT defeat voltage V SW 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 SW PIN SW PIN SW PIN SW PIN SW PIN PIN SG name conditions conditions V1 V Input pin Minimum IF AGC voltage Parameter V4L Symbol Input signal ELECTRICAL CHARACTERISTICS (cont.) 0 M M M M S 2 P 1 1 M M M M 0 1 M 1 1 S S S S 4 16 31 40 P P P P 3 4 12 13 0 0 S 44 P 16 0 M M M M M M M P P P P 9 20 24 47 VCC 5V 8V 8V 5V 8V Test conditions S 45 P P P P P P P P P P P P P P 18 21 22 23 26 36 38 40 41 43 46 48 52 8 2.4 90 25.0 31 3.0 2.2 0.8 7.2 7.2 43 3.7 1.9 Min. V V Unit 2.8 70 3.2 76 32.0 28.5 96 deg 7 3 V dBµ dBµ % % dB MHz MHz MHz V V V 7 0.8 0.8 V 79 kHz/mV 4.3 2.7 Max. 3 36 3.8 2.6 1.2 0.3 7.7 0.3 7.7 61 4.0 2.3 Typ. Limits MITSUBISHI ICs (TV) M52340SP PAL/NTSC SYSTEM SHINGLE-CHIP COLOR TV SIGNAL PROCESSOR S S S S S S Maximum AF output (6.0MHz) Maximum attenuation (6.0MHz) AF output distortion (6.0MHz) Input limiting sensitivity AMR AF S/N VoAF max ATT THD AF LIM AMR AFSN SG21 SG20 SG18 SG18 SG18 SG18 SG19 SG18 SG17 SW PIN SW PIN SW PIN SW PIN SW PIN SW PIN SW PIN SW PIN SW PIN SW PIN SG name PIN conditions conditions SW conditions S 2 P 1 S S S S 4 16 31 40 P P P P 3 4 12 13 S 44 P 16 VS4P VI V=+6dB ACC characteristics 1 ACC characteristics 2 Overload characteristics Killer operating input level Killer color residual (PAL) Cn2 ACC1 ACC2 OV VikP killP V=-40dB VS4P VI V=-20dB VI VS4P eb=800mV VS4P VI V=Variable VI VS4P SS4P VI Chroma standard output 2 Cn1 SS4P VI Chroma standard output 1 SW PIN SW PIN SW PIN SW PIN SW PIN SW PIN SW PIN SW PIN 1 1 1 1 1 0 0 M M M M M M M M M M M M M M M M M P P P P 9 20 24 47 VCC 5V 8V 8V 5V 8V Test conditions S 45 P P P P P P P P P P P P P P 18 21 22 23 26 36 38 40 41 43 46 48 52 8 SG50 and SG60 should be input to SY IN for C0 to C21 and C13 to C21 respectively. Standard conditions of chroma parameters Chroma block (PAL) S AF direct output (6.5MHz) VoAF M S AF direct output (6.0MHz) VoAF S S Input pin AF direct output (5.5MHz) AF direct output (4.5MHz) Parameter VoAF N VoAF P Symbol Input signal ELECTRICAL CHARACTERISTICS (cont.) 0 -2 -3 -3 450 500 53 49 59 610 330 320 300 200 Min. 30 -40 0 -1.5 0 600 700 63 50 40 1 68 810 440 430 410 270 Typ. Limits Unit dB dB dB % dB dB dB dB 60 mVP-P -33 4 1 3 750 mVP-P 900 mVP-P 46 3 dB 1010 mVrms 550 mVrms 540 mVrms 520 mVrms 340 mVrms Max. MITSUBISHI ICs (TV) M52340SP PAL/NTSC SYSTEM SHINGLE-CHIP COLOR TV SIGNAL PROCESSOR VI VI Standard chroma output 3 Standard chroma output 4 Cn3 Cn4 SECAM REF output AC voltage SECAM REF output DC voltage SRA SRD Demodulated phase angle R-Y R-Y N TINT control characteristic 2 Demodulated output ratio R-Y/ B-Y R/BN TC2 APC pull-in range 2 APC2 TINT control characteristic 1 Killer color residual (NTSC) killN TC1 Killer operating input level (NTSC) Parameter VikN Symbol SS3N SS3N SIN ware 4.2M VS4P VS3N VS3N VS3N eb= Single chroma VI eb= Single chroma VI eb= Single chroma VI eb= Single chroma VI VS3N v=Variable VI VS3N eb=0mV VS3N VI f=Variable VI VS3N Input pin SW PIN SW PIN SW PIN SW PIN SW PIN SW PIN SW PIN SW PIN SW PIN SG name PIN conditions conditions Input signal VI VI Difference of demodulated output on line Chroma block (NTSC) VS4P eb= Single chroma VI eb= Single chroma SW conditions SW PIN SW PIN SW PIN SW PIN SW PIN SW PIN SW PIN VI VS4P f=Variable VI VS4P Input pin PIN conditions SW conditions SG name conditions Input signal DDH CC Demodulated phase angle R-Y Carrier leak at demodulated output Demodulated output ratio (R-Y / B-Y) R/BP R-Y P APC pull-in range 1 Parameter APC1 Symbol ELECTRICAL CHARACTERISTICS (cont.) S S S S 4 16 31 40 P P P P 3 4 12 13 S S S S S 2 4 16 31 40 P P P P P 1 3 4 12 13 S 2 P 1 S 44 P 16 S 44 P 16 M M M M M M M Test conditions S 45 P P P P P P P P P 18 21 22 23 26 36 38 40 41 M M M M M M M M M M M P 42 M VCC P P P P 9 20 24 47 P P P P 43 46 48 52 Test conditions S 45 P P P P P P P P P P P P P P 18 21 22 23 26 36 38 40 41 43 46 48 52 8 4.0 180 25 25 80 4.5 300 45 45 95 0.6 ±600 ±400 0.4 30 -45 Typ. Limits 600 700 50 90 0.6 ±700 Typ. 0 Min. 490 500 0 80 0.45 ±400 Min. Limits deg ratio Hz Unit mV dB Unit deg deg deg ratio 5.0 V 420 mVP-P 60 60 110 0.8 Hz 60 mVP-P -38 Max. 750 mVP-P 900 mVP-P 100 100 mVP-P 100 0.75 Max. MITSUBISHI ICs (TV) M52340SP PAL/NTSC SYSTEM SHINGLE-CHIP COLOR TV SIGNAL PROCESSOR System discrimination 2 4.43NTSC System discrimination 3 3.58PAL System discrimination 4 3.58NTSC System discrimination 5 SECAM System discrimination 6 Black and white System discrimination 1 4.43PAL Parameter VI VI VI VI Input pin SS3N SS3P SS4N SS4P SW PIN SW PIN SW PIN SW PIN SW PIN SW PIN SG name PIN conditions conditions Input signal SW conditions S 2 P 1 0 0 0 S S S S 4 16 31 40 P P P P 3 4 12 13 0 S 44 P 16 M M M M M M Test conditions S 45 P P P P P P P P P 18 21 22 23 26 36 38 40 41 VI VI VI VI VI VI VI VI VI Standard video gain Video frequency characteristic Standard double-width amplifier output Chroma trap attenuation 1 Trap fine adj attenuation 1 D. trap attenuation 1 Chroma trap attenuation 2 Trap fine adj attenuation 2 GY FBY 2AGY CTR1 TRF1 DTR1 CTR2 TRF2 Input pin SS4P SS4P SS3N SS3N SS3N SGA SGB SGA SGA SW PIN SW PIN SW PIN SW PIN SW PIN SW PIN SW PIN SW PIN SW PIN SW PIN SG name PIN conditions conditions Input signal Maximum video output Standard conditions of video and interface parameters Parameter Ymax Symbol SW conditions S 2 P 1 1 S S S S S 4 16 31 40 44 P P P P P 3 4 12 13 16 1 1 1 1 0 150µA P 42 P P P P 43 46 48 52 M M M M M M M M M M M M M M M M M M M M M M M Test conditions S VCC 45 P P P P P P P P P P P P P P P P P P 18 21 22 23 26 36 38 40 41 43 46 48 52 8 9 20 24 47 0 5V 8V 8V 5V 8V Video and interface block SG50 should be input to SY IN. (SG60 is input for Y5 to Y7 and Y36 to Y46.) AUTO 6 AUTO 5 AUTO 4 AUTO 3 AUTO 2 AUTO 1 Symbol ELECTRICAL CHARACTERISTICS (cont.) 1.5 -4 2.1 3.2 Min. Min. 2.1 -2 2.5 3.8 Typ. Limits 00 0011 1101 1001 0101 0001 Typ. Limits -18 -24 -18 2.7 3.2 4.2 Max. Max. dB dB dB VP-P dB V V Unit Unit MITSUBISHI ICs (TV) M52340SP PAL/NTSC SYSTEM SHINGLE-CHIP COLOR TV SIGNAL PROCESSOR conditions SW SGB SGB VI VI VI VI VI VI VI FB ER FB EG Video tone control characteristic 2 Video tone control characteristic 3 Video tone control characteristic 4 Video tone control characteristic 5 Contrast control characteristic 1 Contrast control characteristic 2 Brightness control characteristic 1 Brightness control characteristic 2 Brightness control characteristic 3 Drive control characteristic R Drive control characteristic B EXT (R) I/O characteristic EXT (G) I/O characteristic GTmax GTmin GT2M GT5M GYnor GYmin Lum nor Lum max Lum min D(R) D(B) EX(R) EX(G) SGD SGD SGA SGA f=100kHz SGB f=100kHz SGB SGB SGB SGB VI Video tone control characteristic 1 SGA SGA SGA SGA SS4P GTnor VI VI VI VI SW PIN SW PIN SW PIN SW PIN SW PIN SW PIN SW PIN SW PIN PIN SW PIN SW PIN PIN SW SW PIN SW PIN SW PIN SW PIN SW PIN PIN SW PIN SW SW name PIN Input pin SG conditions conditions VI YDL value 3 YDL value 2 YDL value 1 D. trap attenuation 2 Parameter YDL value 4 YDL4 YDL3 YDL2 YDL1 DTR2 Symbol Input signal ELECTRICAL CHARACTERISTICS (cont.) S 2 P 1 0 0 S S S S 4 16 31 40 P P P P 3 4 12 13 S 44 P 16 M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M Test conditions S 45 P P P P P P P P P P P P P P 18 21 22 23 26 36 38 40 41 43 46 48 52 8 VCC P P P P 9 20 24 47 5.3 5.3 3.9 3.9 -1.3 0.55 1.8 2.1 -4 -5.6 -12.0 0 1.0 380 190 80 270 Min. 5.7 5.7 4.8 4.8 -1 0.8 2.2 2.5 -1.4 -2.8 -9.3 3.6 1.4 500 300 150 350 Typ. Limits 6.5 6.5 6.4 6.4 -0.7 1.05 2.6 50 2.9 1.2 -0.2 -5 6.7 1.8 620 410 220 430 -24 Max. VP-P VP-P dB dB V V V mV VP-P dB dB dB dB VP-P nsec nsec nsec nsec dB Unit MITSUBISHI ICs (TV) M52340SP PAL/NTSC SYSTEM SHINGLE-CHIP COLOR TV SIGNAL PROCESSOR PIN conditions SW -R VI -B -B -R -R ER.EG EB.FB SGD ER.EG SGD EB.FB SGA -R VI VI Color control characteristic 1 Color control characteristic 2 Video mute function Matrix characteristic 1 Matrix characteristic 2 Matrix characteristic 3 Matrix characteristic 4 OSD speed characteristic 1 OSD speed characteristic 2 Contrast control characteristic 3 Contrast control characteristic 4 Additonai brightness voltage Coon 1 Coon 2 VMF MTXB MTXG MTXR MTXG1 OSD1 OSD2 GYnor GYmin ABR SGA SGE SGE SGE SGE SGA SGA SGA VI DL fine delay DLF SGA SGD PIN SW PIN SW PIN SW PIN SW PIN PIN SW PIN SW PIN SW PIN SW PIN SW PIN SW PIN SW PIN SW SW PIN SW PIN SW PIN SW PIN SW PIN SW PIN SW conditions conditions SG name B cutoff characteristic R cutoff characteristic G cutoff characteristic FB EB Input pin Input signal C(B) C(G) C(R) Offset voltage between B and G Offset voltage between R and G OFRG OFBG EXT (B) I/O characteristic Parameter EX(B) Symbol ELECTRICAL CHARACTERISTICS (cont.) S 2 P 1 S S S S 4 16 31 40 P P P P 3 4 12 13 0 1 1 1 1 1 1 1 1 1 M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M 0V 2.9V Test conditions S 45 P P P P P P P P P P P P P P 18 21 22 23 26 36 38 40 41 43 46 48 52 8 1 S 44 P 16 8.5V P P P P 9 20 24 47 VCC 2.0 1.7 300 1.1 180 1.1 610 20 0 2.7 50 20 500 1.7 330 1.7 -50 10 730 45 2.1 2.1 1.8 1.8 2.1 40 -20 5.7 Typ. 1.8 -160 -160 5.3 Min. Limits 50 3.5 160 90 600 1.9 430 1.9 -40 150 870 70 2.4 2.4 2.4 160 160 6.5 Max. V mVP-P VP-P nsec nsec mVP-P VP-P mVP-P VP-P dB mVP-P mVP-P nsec V V V mV mV VP-P Unit MITSUBISHI ICs (TV) M52340SP PAL/NTSC SYSTEM SHINGLE-CHIP COLOR TV SIGNAL PROCESSOR SY SY SY SY SY SY SY BGP timing 2 BGP pulse width Horizontal free running frequency Horizontal pull-in range 1 Horizontal pull-in range 2 Horizontal pulse timing 1 Horizontal pulse timing 2 Horizontal pulse timing 3 Horizontal pulse width Horizontal pulse amplitude Horizontal stop operation AFC gain operation Vertical free running frequency Minimum vertical output voltage Minimum coincidence detection voltage Service switch operation BGP2 BGPW fH FPH1 FPH2 FPT1 FPT2 FPT3 TH VH HSTO AFCG fV VVL CoinL SW SY SY Input pin BGP timing 1 Standard conditions of sync deflection parameters Sync separation input sensitivity current Parameter BGP1 ISS Symbol SGa SGa SGa SGa SGc f Variable SGc f Variable SGa SGb SGa SG name conditions Input signal ELECTRICAL CHARACTERISTICS (cont.) PIN SW PIN SW PIN SW PIN SW PIN PIN SW PIN SW PIN SW SW PIN SW PIN SW PIN SW PIN SW SW PIN SW PIN SW PIN SW PIN SW PIN SW PIN SW PIN PIN conditions SW conditions S 2 P 1 1 0 M M M M M M M M M M M M M M S S S S S 4 16 31 40 44 P P P P P 3 4 12 13 16 1 1 1 0 0 DEF block M M M M M M M M M M M 6.7 0 41 2.8 3 3 21 1.0 -2.0 7.5 +250 15.3 4.8 1.4 1.2 Test conditions S VCC 45 Min. P P P P P P P P P P P P P P P P P P 18 21 22 23 26 28 36 38 40 41 43 46 48 8 9 20 24 47 0 5V 8V 8V 5V 8V 0 0 0.3 44 5.4 4 4 25 1.5 -1.5 8.5 -300 +300 15.7 6 2.2 2.0 0.1 Typ. Limits 0.5 1.5 0.7 47 8.9 29 2.0 -1.0 9.5 -250 16.1 7.2 3.0 2.8 0.2 Max. V V V Hz dB V V µsec µsec µsec µsec Hz Hz kHz µsec µsec µsec mA Unit MITSUBISHI ICs (TV) M52340SP PAL/NTSC SYSTEM SHINGLE-CHIP COLOR TV SIGNAL PROCESSOR SY SY Vertical BLK width 50/60 confirmation 1 50/60 confirmation 2 50/60 confirmation 3 50/60 confirmation 4 Minimum sync detection width VBLKW AVER1 AVER2 AVER3 AVER4 WVSS SW PIN SW PIN SW PIN SGd f57Hz SGd f53Hz SGd f47Hz SGd SW PIN SGd f63Hz M M M M Test conditions S 45 P P P P P P P P P P P P P P 18 21 22 23 26 36 38 40 41 43 46 48 52 8 M S 44 P 16 SW PIN S S S S 4 16 31 40 P P P P 3 4 12 13 M S 2 P 1 SW PIN PIN conditions SW conditions SW PIN SW PIN SGd f Variable SG name conditions f60Hz width:variable SY SY SY Vertical output pulse width VW SY Input pin Vertical pull-in range Parameter FPV Symbol Input signal ELECTRICAL CHARACTERISTICS (cont.) P P P P 9 20 24 47 VCC 13 1.35 0.35 Min. 47 53 57 63 1.5 0.52 Typ. Limits 1.6 0.65 65 Max. µsec Hz Hz Hz Hz msec msec Hz Unit MITSUBISHI ICs (TV) M52340SP PAL/NTSC SYSTEM SHINGLE-CHIP COLOR TV SIGNAL PROCESSOR V1 V4L V4T V4H GR Vin max Vin min Vf P/N Vo POS Vo NEG Vdc POS Vdc NEG 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 Function Data Function Data Function Data Function Data Function Data Function Data Function Sub address VIF block Icc47 Icc24 Icc20 Icc9 Icc8 Symbol 01H 02H 03H 04H 05H 06H 32 C6 C6 A6 1 1 0 32 A6 0 0 0 A0 0 0 A7 64 32 C6 A6 1 0 A6 32 2 C2 0 DLA P/N VCOA AUDM 45/60 TRAP DBF DFA ATT SHARP DEFE CONT DLTA AUTO 00H ELECTRICAL CHARACTERISTICS (cont.) 1 TV/EXT A7 64 TINT A6 32 COLOR 07H 08H 0 A7 8 HP 09H SET A6 32 BRI 0AH 0BH A6 32 0 CG CB A6 A8 A8 A8 32 128 128 128 CR 13H A0 0 0 A0 0 0 TRF SESW HST AFCG 0CH 0DH 0EH 0FH 10H DR MUTE DB MITSUBISHI ICs (TV) M52340SP PAL/NTSC SYSTEM SHINGLE-CHIP COLOR TV SIGNAL PROCESSOR Data Function VoAF M VoAF p VoAF S Data Function Data Function Function Function Data Function Data Function Data Data Function Data Function Data Function Data Function Data Function Data Function Data Function Data Function Data Function Data Function Data Function Sub address Data Function Data Function VoAF N VAF SIF blcok DLPL DLPH SPN DP DG IM CRT CRL CRU V3L V3H V1L N V1H N µAFT N Symbol 01H 02H 03H 04H 05H 06H C6 A6 1 0 1 A1 DLA P/N VCOA AUDM 45/60 TRAP DBF DFA ATT SHARP DEFE CONT DLTA AUTO 00H ELECTRICAL CHARACTERISTICS (cont.) TV/EXT COLOR 07H 08H TINT HP 09H SET BRI 0AH 0BH CR CG CB 13H TRF SESW HST AFCG 0CH 0DH 0EH 0FH 10H DR MUTE DB MITSUBISHI ICs (TV) M52340SP PAL/NTSC SYSTEM SHINGLE-CHIP COLOR TV SIGNAL PROCESSOR Function Data Function Data Function Data Function Data Function Data Function Data Function DDH Data Function Function Data Function Data Function Data Function Data Function Data Function Data Function Data Data Function Data Function CC R-Y P R/BP APC1 killP VikP OV ACC2 ACC1 Cn2 Cn1 32 0 Function Data Function Data Function Data A6 00H DLA P/N Sub address Chroma block Data (PAL) Function AFSN AMR LIM THD AF ATT VoAF max Symbol 32 0 AUDM A6 VCOA 01H 02H 0 0 A0 0 0 45/60 TRAP DBF DFA ELECTRICAL CHARACTERISTICS (cont.) 04H 05H 06H A7 A6 0 64 32 C0 127 A0 0 A6 32 0 2 A3 0 C2 0 ATT SHARP DEFE CONT DLTA AUTO 03H 1 1 TV/EXT A7 64 A6 32 COLOR 07H 08H TINT 0 A7 8 HP 09H SET A6 32 BRI 0AH 0BH A6 0 32 CG CB A6 A8 A8 A8 32 128 128 128 CR 13H A0 0 0 A0 0 0 TRF SESW HST AFCG 0CH 0DH 0EH 0FH 10H DR MUTE DB MITSUBISHI ICs (TV) M52340SP PAL/NTSC SYSTEM SHINGLE-CHIP COLOR TV SIGNAL PROCESSOR Function Data Function Data Function Data Function Sub address AUTO 6 AUTO 5 AUTO 4 AUTO 3 AUTO 2 AUTO 1 SRD SRA TC2 TC1 R-Y N R/BN Data Function Data Function Data Function Data Function Data Function Function Data Function Data Function Data Function Data Function Data Function Data Function Data Function Data Data Chroma block (NTSC) Function Data VikN Function Data killN Function Data APC2 Function Cn4 Cn3 Symbol 01H 02H 03H 04H 05H 06H 32 A6 0 32 A6 0 0 0 A0 0 0 A7 64 32 A6 0 A6 32 1 1 1 1 1 1 0 E0 1 E0 1 E0 1 E0 1 E0 1 E0 1 A3 0 DLA P/N VCOA AUDM 45/60 TRAP DBF DFA ATT SHARP DEFE CONT DLTA AUTO 00H ELECTRICAL CHARACTERISTICS (cont.) 1 TV/EXT C0 127 A0 0 64 A7 A6 32 COLOR 07H 08H TINT 1 1 5 5 5 5 0 B4 B4 E3 E3 E3 E3 A7 8 HP 09H SET A6 32 BRI 0AH 0BH A6 32 0 CG CB A6 A8 A8 A8 32 128 128 128 CR 13H A0 0 0 A0 0 0 TRF SESW HST AFCG 0CH 0DH 0EH 0FH 10H DR MUTE DB MITSUBISHI ICs (TV) M52340SP PAL/NTSC SYSTEM SHINGLE-CHIP COLOR TV SIGNAL PROCESSOR GT5M GT2M GTmin GTmax GTnor YDL4 YDL3 YDL2 YDL1 DTR2 TRF2 CTR2 DTR1 TRF1 CTR1 2AGY FBY GY Ymax Symbol 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 Function Data Function Data Function Data Function Data Function Data Function Data Function Data Function Sub address 01H 02H 03H 04H 05H 06H 32 A6 0 32 A6 0 0 A2 0 A0/A6 0/1 A6 1 C5 1 1 A0/A6 0/1 A6 1 C5 1 1 0 1 A0 0 63 63 63 0 32 51 51 51 51 51 51 51 32 B9 B9 B9 A0 A6 E4 E4 E4 E4 E4 E4 E4 A6 0 A7 64 C0 127 A7 64 A7 64 3 2 1 0 E9 E0 E8 A3 1 DLA P/N VCOA AUDM 45/60 TRAP DBF DFA ATT SHARP DEFE CONT DLTA AUTO 00H 1 TV/EXT A6 32 TINT A0 0 COLOR 07H 08H 0 A7 SET 8 HP 09H A5 16 BRI 0AH A5 0 16 A5 16 A5 16 CR A5 16 CG A5 16 CB 13H A6 0/1 A6 0/1 A0 0 0 A0 0 0 TRF SESW HST AFCG 0CH 0DH 0EH 0FH 10H DR MUTE DB 0BH ELECTRICAL CHARACTERISTICS (cont.) Video and interface block SG50 should be input to SY IN. (SG60 is input for Y5 to Y7 and Y36 to Y46.) MITSUBISHI ICs (TV) M52340SP PAL/NTSC SYSTEM SHINGLE-CHIP COLOR TV SIGNAL PROCESSOR MTXB VMF Coon 2 Coon 1 DLF C(B) C(G) C(R) OFBG OFRG EX(B) EX(G) EX(R) D(B) D(R) Lum min Lum max Lum nor GYmin GYnor Symbol Function 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 Data Function Data Function Data Function Data Function Data Function Data Sub address 01H 02H 03H 04H 05H 06H 1 A6 A0 0 0 E4 51 127 C0 127 127 C0 C0 A0 0 3 E9 DLA P/N VCOA AUDM 45/60 TRAP DBF DFA ATT SHARP DEFE CONT DLTA AUTO 00H ELECTRICAL CHARACTERISTICS (cont.) TV/EXT A7 64 A0 0 C0 127 COLOR 07H 08H TINT HP 09H SET A0 0 A0 0 A7 64 A7 64 A7 64 A0 0 127 A0 0 C0 BRI 0AH 0BH A0/B9 0/63 0/63 A0/B9 0/255 A0/C1 CR 0/255 A0/C1 CG 0/255 A0/C1 CB 13H 0/1 A0/A4 TRF SESW HST AFCG 0CH 0DH 0EH 0FH 10H DR MUTE DB MITSUBISHI ICs (TV) M52340SP PAL/NTSC SYSTEM SHINGLE-CHIP COLOR TV SIGNAL PROCESSOR Data Function Function Data Function Data Function Function Data Function Data Sub address HPT3 GYnor Data Function Data Function Data GYmin Function Data ABR Function Data DEF block Function Data Function Data ISS Function Data BGP1 Function Data BGP2 Function Data BGPW Function Data fH Function Data FPH1 Function Data FPH2 Function Data HPT1 Function Data HPT2 Function OSD2 OSD1 MTXG1 MTXR MTXG Symbol 01H 02H 03H 04H 32 A6 0 32 A6 0 0 1 1 1 1 A6 A6 A6 A6 0 0 0 0 0 A0 0 63 C0 0 DLA P/N VCOA AUDM 45/60 TRAP DBF DFA ATT SHARP DEFE 00H ELECTRICAL CHARACTERISTICS (cont.) A6 32 127 C0 E4 51 E4 51 E4 51 CONT 05H 06H 07H 08H 0 D9 1 A7 64 A0 0 A7 64 A0 0 A0 0 A7 64 A7 64 0 C9 A0 A7 15 0 8 HP 09H DLTA AUTO TV/EXT TINT COLOR SET A6 32 C0 127 BRI 0AH 0BH 32 A6 0 A6 32 CG CB A8 A8 A8 128 128 128 C0 127 A8 A8 A8 128 128 128 CR 13H A0 0 A0 0 0 0 A0 0 A0 0 0 0 TRF SESW HST AFCG 0CH 0DH 0EH 0FH 10H DR MUTE DB MITSUBISHI ICs (TV) M52340SP PAL/NTSC SYSTEM SHINGLE-CHIP COLOR TV SIGNAL PROCESSOR WVSS AVER4 AVER3 AVER2 AVER1 VBLKW VW FPV SW CoinL VVL fV AFCG HSTO VH TH Symbol Function Data Function Data Function Function Data Function Data Function Data Data Function Data Function Data Function Data Function Data Function Data Data Function Function Data Function Data Function Data Function Data Function Sub address 01H 02H 03H 04H DLA P/N VCOA AUDM 45/60 TRAP DBF DFA ATT SHARP DEFE 00H ELECTRICAL CHARACTERISTICS (cont.) CONT 05H 06H 07H 08H HP 09H DLTA AUTO TV/EXT TINT COLOR SET BRI 0AH 0BH CR CG CB 13H 1 A4 A5 1 A0/A6 0/1 TRF SESW HST AFCG 0CH 0DH 0EH 0FH 10H DR MUTE DB MITSUBISHI ICs (TV) M52340SP PAL/NTSC SYSTEM SHINGLE-CHIP COLOR TV SIGNAL PROCESSOR MITSUBISHI ICs (TV) M52340SP PAL/NTSC SYSTEM SHINGLE-CHIP COLOR TV SIGNAL PROCESSOR ELECTRICAL CHARACTERISTICS TEST METHOD P/N Video S/N IM Intermodulation 1. Input SG3 and measure the rms value of output signal a pin 52. 1. Adjust the applied voltage at pin 4 so that the lowest output signal voltage at pin 52 is 2.2V. 2. P/N is defined as follows: P52 3 P/N = 20 log VONEG Measured Value(VP-P)X10 (dB) Measured Value(mVrms) BW Video frequency characteristics 2.2V 1. Input SG4 and set the frequency f2 to 37.9MHz so that 2. Measure elements of 1.07MHz and 4.43MHz of output at the beat element of 1MHz is output to pin 52. 2. Then set the applied voltage at pin 4 so that the beat pin 52. 3. IM is defined as follows: element of 1MHz at pin 52 may be 100dBµ. 3. Decrease f2 to the level at which the beat element becomes 3dB smaller than the element of 1MHz, and read the value at that level. IM = 20 log Element of 1.07MHz Element of 4.43MHz (dB) ATT Maximum attenuation 1. Measure the element of 400Hz of output at pin 46. 2. ATT is defined as follows: P52 100dBµ 3dB ATT = 20 log V0AFmax (dB) Measured value LIM Input limiting sensitivity 1MHz Vin min. Input sensitivity Decrease the input level of SG18. Measure the input level BW when the element of 400Hz at pin 46 is 3dB smaller than 1. Decrease SG5 level until the video detector output is 3dB smaller than the measured value of Parameter V3 "Video 2. AMR is defined as follows: Vin max. Maximum permissible input AMR = 20 log 1. Input 90dBu SG6. 2. VA is the output level at pin 52. Increase SG6 voltage until the output at pin 52 becomes 3dB smaller than VA. The input level at that time is the maximum permissible input. P1 V1HN V0AFS(mVrms) (dB) Vam(mVrms) AF S/N AF S/N 1. Measure the noise (20Hz to 100KHz) of output at pin 46. 2. AF S/N is defined as follows: V0AFmax (dB) Measured value Cn1 Standard chroma output 1 (PAL) AF S/N = 20 log AFT detector sensitivity (NEG) Maximum AFT voltage (NEG) Minimum AFT voltage (NEG) See the following figure. Cn2 Standard chroma output 2 (PAL) 1. Input SS4P to VI IN. 2. Measure output amplitude, Cn1 and Cn2, at pins 41 and ∆f 43 respectively. 5.0V ACC1 ACC characteristics 1 3.0V 1. Input VS4P (eb=570mV:level+6dB) to VI IN. V1LN f0 37.9MHz µAFTN is defined as follows: µAFTN= AMR AMR 1. Vam is the element of 400Hz at pin 46. detector output". µAFTN V1HN V1LN V0AFM (S6:Maximum AF output (6.0M)). (5.0-3.0)X103mV ∆ f KHz f 39.9MHz (mV/KHz) 2. Measure the output amplitude at pin 41. 3. ACC1 is defined as follows: Measured value (VP-P) ACC1 = 20 log (dB) Cn1 (VP-P) ACC2 ACC characteristics 2 1. Input VS4P (input level:-20dB) to VI IN. 2. Measure the output amplitude at pin 41. 3. ACC2 is defined as follows: Measured value (VP-P) ACC2 = 20 log (dB) Cn1 (VP-P) MITSUBISHI ICs (TV) M52340SP PAL/NTSC SYSTEM SHINGLE-CHIP COLOR TV SIGNAL PROCESSOR OL Overload characteristics Cn3,Cn4 Standard chroma output 3,4 (NTSC) 1. Input VS4P (ec=800mVP-P:chroma+3dB) to VI IN. 1. Input SS3N to VI IN 2. Measure the output amplitude at pin 41. 2. Cn3 and Cn4 are output amplitude measured at pins 41 3. OL is defined as follows: Measured value (VP-P) OL = 20 log Cn1 (VP-P) and 43 respectively . VikN Killer operating input level (NTSC) (dB) 1. Input VS3N (level:variable) to VI IN at input level 0dB. VikP Killer operating input level (PAL) 2. Lower the input level with monitoring the output 1. Input VS4P (level:variable) to VI IN at input level 0dB. amplitude at pin 41 and measure the input level when 2. Lower the input level with monitoring the output amplitude at pin 41 and measure the input level when output amplitude is not found . KillN Killer color residual (NTSC) output amplitude is not found. 1. Input VS3N (level:-40dB) to VI IN. KillP Killer color residual (PAL) 2. Measure the output amplitude at pin 41 1. Input VS4P (level:-40dB) to VI IN. 2. Measure the output amplitude at pin 41 APC1 APC pull-in range 1 . APC2 APC pull-in range 2 . 1. Input VS3N (f=eb=ec=variable) to VI IN. 2. Change the input signal frequency and measure the 1. Input VS4P (f=eb=ec=variable) to VI IN. 2. Change the input signal frequency and measure the frequency range from the point at which no signal is frequency range from the point at which signal is output output to pin 41 and to the point at which signal is output to pin 41 and to the point that no signal is output to the to the pin. (Pull-in state) The reference value is 3.579545MHz. pin. The reference value is 4.433619MHz. R-Y/B-YN Demodulated output ratio R-Y/B-YP Demodulation output ratio 1. Input VS4P (eb=single chroma=ec+50KHz) to VI IN. 1. Input VS3N (eb=single chroma=ec+50KHz) to VI IN. 2. V41 is the output amplitude at pin 41. 2. V41 is the output amplitude at pin 41. 3. V43 is the output amplitude at pin 43. 3. V43 is the output amplitude at pin 43. 4. R-Y/B-YP is defined as follows: 4. R-Y/B-YN is defined as follows: R-Y/B-YP = 20 log V43 (VP-P) (dB) V41 (VP-P) R-Y/B-YN = 20 log V43(VP-P) (dB) V41(VP-P) q R-YN Demodulated phase angle R-YP Demodulated phase angle 1. Input VS4P (eb=single chroma=ec+50KHz) to VI IN. 1. Input VS3N (eb=single chroma=ec+50KHz) to VI IN. 2. V41 is the output amplitude at pin 41. 2. V41 is the output amplitude at pin 41. 3. V43 is the output amplitude at pin 43. 3. V43 is the output amplitude at pin 43. 4. R-YP is defined as follows: 4. R-YN is defined as follows: q R-YP = tan-1 V43 X3.8 (V41X1.9)+45° q R-YP= tan-1 (deg) * Vector should be found with taking the gain ratio of a demodulator CC Demodulated output carrier leak Measure the element of 4.43MHz of the demodulated output in no-input state. DDH Difference of demodulated output on line 1. Input 4.2MHZ CW (Vi=575mVP-P) to VI IN. 2. Measure the center DC voltage of output beat amplitude for two lines at pins 41 and 43. The absolute value of the difference in DC voltage is the difference of demodulated output on line. M 1H M 2H GND (deg) * Vector should be found with taking the gain ratio into consideration. into consideration. V43 X3.8 (V41X1.9)+45° MITSUBISHI ICs (TV) M52340SP PAL/NTSC SYSTEM SHINGLE-CHIP COLOR TV SIGNAL PROCESSOR BW Video frequency characteristics TC1 Tint control characteristics 1 TC2 Tint control characteristics 2 1. Input SGB (5MHz, 0.4VP-P) to VI IN. 1. Input VS3N (see the following figure) to VI IN. Based on the output voltage at pin 41, find the absolute angle as 0° of the output at pin 22 .The amplitude is defined as YB. 3. BW is defined as follows: shown in the above figure. -180° 2. Measure the amplitude (P-P) except that at blanking part 90° BW = 20 log (YB VP-P/GY VP-P) (dB) 90° 2AGY Standard double-width amplifier output 1. Input SGA to VI IN. 2. Measure the amplitude (P-P) except that at blanking part A 0° A B B of output at pin 22. CTR1 Chroma trap attenuation 1 (common to R/G/B output) q = tan-1(B/A) GND 1. Input SS3N to VI IN. Measure the frequency level of 3.58MHz at trap data 0. The level is defined as N0. 2. Tint data center (63) is defined as the reference angle (TC). Find angles at tint data max. and tint data min. TC1 and TC2 are differences in angle between TCMAX and TC and between TCMIN and TC and defined as follows. 2. Then, measure the level at trap data 1. 3. CTR1 is defined as follows. Measured value (mVP-P) CRT1 = 20 log N0 (mVP-P) (dB) TRF1 Trap fine adj. attenuation 1 (common to R/G/B output) TC1 = TCMAX-TC (deg) TC2 = TC-TCMIN (deg) 1. Input SS3N to VI IN 2. Measure the output amplitude of the element of 3.58MHz . SRA SECAM REF output AC voltage when trap fine adj. switch is on. (TRFon) SRD SECAM REF output DC voltage Measure the amplitude (SRA) and DC voltage (SRD) of the element of 4.43MHz of output at pin 42. AUTO 1 to 6 System confirmation 1 to 6 Set to AUTO mode and confirm that bus for each output 3. TRF1 is defined as follows. TRFon (mVP-P) TRF1 = 20 log (dB) N0 (mVP-P) DTR1 D. trap attenuation 1 (common to R/G/B output) 1. Input SS3N to VI IN. signal is read correctly. 2. Measure the output amplitude of the element of 3.58MHz Ymax Maximum video output when D. trap switch is on. (DTRon) 1. Input SGA to VI IN 2. Measure the amplitude (P-P) except that at blanking part of output at pins 21,22 and 23. 3. DTR1 is defined as follows. DTRon (mVP-P) DTR1 = 20 log (dB) N0 (mVP-P) CTR2 Chroma trap attenuation 2 (common to R/G/B output) M 1. Input SS4P to VI IN and measure the frequency level of 4.43MHz at trap data 0. The level is defined as P0. 2. Then, measure the level at trap data 1. 3. CTR2 is defined as follows. Measured value (mVP-P) CTR2 = 20 log (dB) P0 (mVP-P) GY Video Standard video output 1. Input SGA to VI IN 2. Measure the amplitude (P-P) except that at blanking part TRF2 Trap fine adj. attenuation 2 of output at pins 21,22 and 23.This amplitude is defined 1. Input SS4P to VI IN. as G1. 2. Measure the output amplitude of the element of 4.43MHz when trap fine adj. switch is on. (TRFon) M = G1 3. GY is defined as follows: GY = 20 log (G1VP-P/0.714VP-P) (dB) 3. TRF2 is defined as follows. TRFon (mVP-P) TRF2 = 20 log (dB) P0 (mVP-P) MITSUBISHI ICs (TV) M52340SP PAL/NTSC SYSTEM SHINGLE-CHIP COLOR TV SIGNAL PROCESSOR DTR2 D. trap attenuation 2 GYnor Contrast characteristics 1 1. Input SS4P to VI IN. 1. Input SGB (f=100KHz) to VI IN. 2. Measure the output amplitude of the element of 4.43MHz when D. trap switch is on. (DTRon) 2. Measure output amplitude at pins 21, 22 and 23. GYmin Contrast characteristics 2 3. DTR2 is defined as follows. DTRon (mVP-P) DTR2 = 20 log (dB) P0 (mVP-P) 1. Input SGB (f=100KHz) to VI IN. 2. Measure output amplitude at pins 21, 22 and 23. Note: In parameters Y5, Y6, Y8 and Y9, limits are defined based on the maximum attenuation by comparing each one. YDL1 YDL value 1 3. GYmin is defined as follows: Measured value (VP-P) GYmin = 20 log (dB) GYnor (VP-P) Lum nor Brightness control characteristics 1 1. Input SGA to VI IN. Lum max Brightness control characteristics 2 2. Measure the delay time from signal input to output at pins Lum min Brightness control characteristics 3 21, 22 and 23. 1. No signal is input. (Only SG50 is input to SY IN.) SGA Output signal M 2. Measure DC voltage of output at pins 21, 22 and 23 except that at blanking part. Output waveform Measure the delay time at the center point of rise. M YDL2, 3 and 4 YDL value 2, 3 and 4. 1. Input SGA to VI IN 2. Measure the delay time from signal output at pins 21, 22 GND . and 23 to YDL1. GTnor Video tone 1 1. Input SGB (f=3MHz) to VI IN. 2. Measure output amplitude at pins 21, 22 and 23. GTmax Video tone 2 1. Input SGB (f=3MHz) to VI IN. 2. Measure output amplitude at pins 21, 22 and 23. 3. GTmax is defined as follows: Measured value (VP-P) GTmax = 20 log (dB) GTnor (VP-P) GTmin Video tone 3 1. Input SGB (f=3MHz) to VI IN. 2. Measure output amplitude at pins 21, 22 and 23. 3. GTmin is defined as follows: Measured value (VP-P) GTmin = 20 log (dB) GTnor (VP-P) GT2M Video tone 4 1. Input SGB (f=2MHz) to VI IN. D(R) Drive control characteristics R 1. Input SGA to VI IN. 2. Measure DRmin and DRmax which are output amplitude at pin 21 at D(R) data min and D(R) data max respectively. 3. D(R) is defined as follows: DRmax(VP-P) (dB) D(R) = 20 log DRmin (VP-P) D(B) Drive control characteristics B 1. Input SGA to VI IN. 2. Measure DBmin and DBmax which are output amplitude at pin 23 at D(B) data min and D(B) data max respectively. 3. D(B) is defined as follows: DBmax(VP-P) D(B) = 20 log DBmin (VP-P) (dB) EXR EXT(R) I/O characteristics EXG EXT(G) I/O characteristics EXB EXT(B) I/O characteristics 2. Measure output amplitude at pins 21, 22 and 23. 1. Input SGD to FB, ER, EG and EB. 3. GT2M is defined as follows: Measured value (VP-P) GT2M = 20 log (dB) GTnor (VP-P) 2. Measure output amplitude which is higher than the pedestal level at pins 21, 22 and 23. The amplitude at blanking part should not be measured. GT5M Video tone 5 1. Input SGB (f=5MHz) to VI IN. 2. Measure output amplitude at pins 21, 22 and 23. 3. GT5M is defined as follows: Measured value (VP-P) GT5M = 20 log (dB) GTnor (VP-P) M MITSUBISHI ICs (TV) M52340SP PAL/NTSC SYSTEM SHINGLE-CHIP COLOR TV SIGNAL PROCESSOR OFRG Offset voltage between R and G OSD1 OSD speed characteristics 1 OFBG Offset voltage between B and G OSD2 OSD speed characteristics 2 1. Measure DC voltage of output at pins 21,22 and 23 1. Input SGD to FB, ER, EG and EB. 2. Measure rise time and fall time of the signal of output at except that at blanking part. pins 21,22 and 23. Measurement points should be higher 2. OFRG and OFBG are defines as follows: OFRG = than the pedestal level and blanking part should not be (pin 21 Measured voltege)-(pin 22. Measured voltege) (mV) measured. OFBG = 90% (pin 23 Measured voltege)-(pin 22 Measured voltege) (mV) 10% Output waveform at pins 21,22 and 23. R(C) R cutoff characteristics G(C) G cutoff characteristics B(C) B cutoff characteristics 1. Measure DC voltage of output at pins 21,22 and 23 when M M OSD1 OSD2 R(C), G(C) and B(C) data are maximum and minimum GYmax1 Contrast control characteristics 3 respectively. The DC voltage at blanking part should be GYmin1 Contrast control characteristics 4 measured. 1. Input SGA to VI IN. 2. R(C), G(C) and B(C) are defined as follows: 2. Measure output amplitude at pins 21,22 and 23 when R(C), G(C), and B(C) = 2.9V and 0V are externally applied to pin 26. (Voltage at data max.) - (Voltage at data min.) (V) ISS Sync separation input sensitivity current DLF DL fine delay Make current flow out from pin 40 and measure the flow 1. Input SGA to VI IN. current when the burst gate pulse is not found at pin 12. 2. Measure the time lag (absolute value) between signal YDL4 and output signal at pins 21,22 and 23. Y14 YDL4 signal BGP1 BGP timing 1 BGP2 BGP timing 2 Output signal BGPW BGP pulse width M P40 SYNC BGP1,BGP2 Measure the time lag at the center point of rise . P12 SCP Ccon1 Color control characteristics 1 Ccon2 Color control characteristics 2 BGPW 1. Input SGE to -R IN (pin 45). 2. Measure output amplitude at pins 21,22 and 23 under each condition. VMF Video mute characteristics FH Horizontal free run frequency Measure the output frequency at pin 13 when no signal is input. 1. Input SGF to VI IN. FPH1 Horizontal pull-in range 1 2. Measure output amplitude of the element of 4.43MHz FPH2 Horizontal pull-in range 2 when the mute switch is on and off. (VMFon, VMFoff) 3. VMF is defined as follows: TRFon (VP-P) VMF = 20 log (dB) TRFoff (VP-P) MTXB Matrix characteristics 1 MTXG Matrix characteristics 2 Change the frequency of SGc and measure the frequency at the moment when the output signal at pin 13 and the input signal at pin 40 are pulled in. The horizontal pull-in range is measured by comparing with the horizontal free run frequency. HPT1 Horizontal pulse timing 1 1. Input SGE to -B IN (pin 44). HPT2 Horizontal pulse timing 2 2. Measure output amplitude at pins 22 and 23. HPT3 Horizontal pulse timing 3 (P23 = MTXB, P22 = MTXG) P40 SYNC MTXR Matrix characteristics 3 MTXG1 Matrix characteristics 4 HPT1, HPT2, HPT3 1. Input SGE to -R IN (pin 45). 2. Measure output amplitude at pins 21 and 22. (P21 = MTXR, P22 = MTXG1) P13 H OUT MITSUBISHI ICs (TV) M52340SP PAL/NTSC SYSTEM SHINGLE-CHIP COLOR TV SIGNAL PROCESSOR TH Horizontal pulse width AVER1 50/60 confirmation 1 VH Horizontal pulse amplitude AVER2 50/60 confirmation 2 TH AVER3 50/60 confirmation 3 VH P13 H OUT AVER4 50/60 confirmation 4 Confirm that the frequency of output at pin 18 is the same at HSTO Horizontal stop operation each input frequency (pull-in state). Also, confirm the state Confirm that the horizontal output is high when the horizontal stop switch is on. of the bus write mode (D7). WVSS Minimum sync detection width AFCG AFG gain operation Reduce the width of signal SGd and measure the width of 1. Measure AFCon which is the output amplitude of pin 16 when AFC switch is on and AFCoff which is that when the switch is off. 2. AFCG is defined as follows: AFCon (VP-P) AFCG = 20 log (dB) AFCoff (VP-P) FV Vertical free run frequency Measure the output frequency at pin 18 when no signal is input. VVL Minimum vertical output voltage P18 V. PULSE M GND CoinL Minimum coincidence detection voltage Measure the output DC voltage at pin 28 when no signal is input. SW Service SW operation Measure the output DC voltage at pin 18 when the service switch is on. FPV Vertical pull-in range Decrease the frequency of SGd and measure the frequency when output waveform at pin 18 is pulled in. VVL Vertical pulse width P18 V. PULSE M GND VBLKW Vertical BLK width Output waveform at pins 21, 22 and 23 M GND input signal when the output waveform at pin 18 disappears. MITSUBISHI ICs (TV) M52340SP PAL/NTSC SYSTEM SHINGLE-CHIP COLOR TV SIGNAL PROCESSOR INPUT SIGNAL VIF/SIF SG. No. SG. 1 SG. 2 SG. 3 SG. 4 SG. 5 SG. 6 SG. 7 SG. 8 SG. 9 SG. 10 SG. 11 SG. 12 SG. 13 SG. 14 SG. 15 SG. 16 SG. 17 SG. 18 SG. 19 SG. 20 SG. 21 Input signal (Value at pin terminal is 50Ω) f0 = 38.9MHz, 90dBµ, fm = 20KHz, AM77.8% f0 = 38.9MHz, 90dBµ, fm = 50KHz, AM77.8% f0 = 38.9MHz, 80dBµ, CW f1 = 45.75MHz, 90dBµ, CW Mixed signal f2 = 44±5MHz, 90dBµ, CW f0 = 38.9MHz, Variable, fm = 20KHz, AM77.8% f0 = 38.9MHz, fm = 20KHz, AM16%, Level variable f0 = 38.9MHz, 80dBµ, CW f0 = 38.9MHz, 110dBµ, CW f0 = 38.9 ±5MHz, 90dBµ, CW f0 = 37.9MHz, 90dBµ, CW f0 = 39.9MHz, 90dBµ, CW f1 = 38.9MHz, 90dBµ, CW Mixed signal f2 = 34.47MHz, 80dBµ, CW f3 = 33.4MHz, 80dBµ, CW f0 = 38.9MHz, Standard 10-step modulation, Sync ratio:28.6%, AM = 87.5% video modulation, Sync chip level 90dBµ f0 = 38.9MHz, 93dBµ, CW f0 = 38.9MHz, 73dBµ, CW f0 = 4.5MHz, 100dBµ, fm = 400Hz, FM±25KHz dev f0 = 5.5MHz, 100dBµ, fm = 400Hz, FM±50KHz dev f0 = 6.0MHz, 100dBµ, fm = 400Hz, FM±50KHz dev f0 = 6.5MHz, 100dBµ, fm = 400Hz, FM±50KHz dev f0 = 6.0MHz, 100dBµ, fm = 400Hz, AM30% f0 = 6.0MHz, 100dBµ, CW Note 1: The timing and pulse width of the horizontal blanking pulse should be as shown in the following figure by adjusting the variable resistor of the single shot multi vibrator. Pin13 Horizontal output 8µs Horizontal blanking pulse 12µs The variable resistor at pin 15 of the TTL IC, M74LS221P, is used to fix the timing at 8µs and that at pin 7 is used to fix the pulse width at 12µs. Coil adjustment VCO coil 1. Set the test conditions as shown in the parameter V14. 2. Input CW (f0=38.9MHz, Vi=90dBµ) to input pin A. 3. Set the DC voltage at pin 1 (AFT OUT) to 1/2VCC (4.0V) by adjusting VCO coil. Voltage Pin 1 Output waveform 4.0V Frequency 38.9MHz Note) VCO coil should always be adjusted as above before using this IC. MITSUBISHI ICs (TV) M52340SP PAL/NTSC SYSTEM SHINGLE-CHIP COLOR TV SIGNAL PROCESSOR INPUT SIGNAL PARAMETERS INCLUDING INPUT SIGNALS 1. Input signal name is four alphanumeric characters. Ex.) S S 4 P Standard Signal 4.43MHz PAL system Fourth character Third character Second character First character First character: Standard=S, Nonstandard=V (Modified parts should be specified.) Second character: Meaning of signal Third character: Frequency of burst and chroma 4(4.433619MHz), 3(3.579545MHz) (In case of "S", SECAM standard signal is applied.) Fourth character: Color system N(NTSC), P(PAL) 2. Structure of input color signal The following figure shows the structure of color signal. ec(n) ec(n+1) eb(n+1) eb(n) ec eb H.sync 500mVP-P 1. When S (standard) is used as the first character, the standard color bar signal of each system is applied. H.sync should be added for input clamp. (The frequency of H.sync is fixed according to the fourth character. P:50Hz, N:60Hz) 2. Amplitude and frequency of burst are represented as eb. In case of standard signal, the amplitude is 285mVP-P and the frequency is shown by the third character. 3. Amplitude and frequency of chroma are represented as ec. In case of standard signal, the amplitude is 570mVP-P and the frequency is shown by the third character. 4. The following figure shows the phase of a PAL system signal. R-Y ec(n) eb(n) B-Y eb(n+1) ec(n+1) MITSUBISHI ICs (TV) M52340SP PAL/NTSC SYSTEM SHINGLE-CHIP COLOR TV SIGNAL PROCESSOR VIDEO/INTERFACE SG. No. Input signal (Value at pin terminal is 50Ω) PAL system PAL system APL 100% standard video signal should be input as sync separation input as shown in the figure. SG. A 0.714VP-P 5µs 1VP-P The vertical signal should be interlaced at 50Hz. 0.286VP-P 2µs 7µs The frequency and amplitude of signal Lumi can be 5µs changed by signal SGA. SG. B The typical amplitude is 0.714mVP-P. 2µs 7µs Sync SG. C 4µs Level:variable 0.7V SG. D 0V 20µ SG. E 24µ 20µ 0.5V f = 100kHz SG. 50 Level:variable typ = 0.3VP-P H = 15.625KHz, V = 50Hz Standard PAL SYNC f = 3.58MHz 5µs 1VP-P 0.714VP-P SG. F 0.286VP-P NTSC system SG. 60 Level:variable typ = 0.3VP-P H = 15.734KHz, V = 60Hz 63.5µs Standard NTSC SYNC MITSUBISHI ICs (TV) M52340SP PAL/NTSC SYSTEM SHINGLE-CHIP COLOR TV SIGNAL PROCESSOR DEFLECTION SG. No. Input signal (Value at pin terminal is 50Ω) The input signal should be PAL system APL-variable video 64µs signal. Vertical signal should be interlaced at 50Hz. 0.714VP-P 5µs Pedestal SG. a 0.286VP-P 2µs 7µs The input signal should be NTSC APL-variable video signal. 63.5µs Vertical signal should be interlaced at 60Hz. 0.714VP-P 5µs Pedestal SG. b 0.286VP-P 2µs 7µs Duty 90% Frequency:variable Level:variable (Typ. : 1VP-P) SG. c 1VP-P Duty 95% Frequency:variable Level:variable (Typ. : 1VP-P) Duty : variable (Typ. : 95%) SG. d 1VP-P 2.2uH P1 1646 620 270k 270k 0.1u 3k 47u 0.01u 4 3 0.22u 11 12 0.01u 14 VR 20k 4700p 13 M74L221P 5 2200p 0.01u 10 47u 6 6.8k VR 20k P12 S16 15 2 16 1 P13 H.OUT 13 +5V FBP IN 12 14 1k 1k 5.1k SCL SDA P16 16 15 17 P18 18 35 19 34 A 20 Hi VCC 33 P21 R 21 32 P22 G 22 31 P23 B 23 30 EB IN 25 28 EXT B IN P26 cont. 26 27 Hi VCC Units Resistance : Ω Capacitance : F 75 A 24 VCC 29 0.1u 9 7 10u 8 12k 510 1u 11 10 GND 36 Y IN V.PULSE OUT 10k A 9 1800p VIN 50 A 8 GND 37 P28 EG IN 1u S2 P4 S4 7 38 3.58M X_TAL 50 P3 6 39 M52340SP 40 100p SIN RF AGC OUT 5 VCC Hi VCC 41 ER IN 47u 0.01u 0.47u 4 0.01u AFT OUT 0.01u 3 10u 42 4.3M X_TAL 2 10k VCC 75 43 0.01u 44 0.22u 45 1u GND 75 1.8M 46 S3 1 75 47 0.01u P36 1 0.22u 48 330k Sync OUT 16 FB IN 300k 49 P38 1u 15p 15 0 S40 SY IN 0.022u 0.1u 50 12P P40 14 3.3k S.S IN 13 1 0.1u 51 220 P41 0.1u 11 12 2 2.2u S44 10 9 3 10u S45 75 P43 0.01u 16 4 680k AUDIO OUT 1 15 14 5 M52325AP 6 EXT R IN 0 1 0.01u 0 0.01u -B IN 13 7 8 3k P46 0.01u -R IN 11 12 1 75 75 DIRECT OUT P48 10 9 2 3 EXT G IN 1 1k VI IN 4 75 52 P52 5 U3660M 6 0.1u VIDEO OUT 7 8 0.22u VCC MITSUBISHI ICs (TV) M52340SP PAL/NTSC SYSTEM SHINGLE-CHIP COLOR TV SIGNAL PROCESSOR TEST CIRCUIT 0.01u 3.6k 3.6k 3.6k 47u 0.01u 0.015u 680k 2.7k B503F18 MITSUBISHI ICs (TV) M52340SP PAL/NTSC SYSTEM SHINGLE-CHIP COLOR TV SIGNAL PROCESSOR POWER DISSIPATION Pd (mW) TYPICAL CHARACTERISTICS THERMAL DERATING (MAXIMUM RATING) 1.5 1.4 1.0 0.5 0 0 25 50 65 75 100 125 150 AMBIENT TEMPERATURE Ta (˚C) RF AGC OUT (REV) VIF IN 38 26 2V P-P SV F. TRAP 1VP-P TV IN CHROMA TRAP 36 D.TRAP K2 DELAY VIDEO TONE CLAMP VIDEO MUTE VODEO MUTE DEFEAT AFT F AGC DL TIME DL FINE TRAP SW AFT OUT VIF AMP DELAY ADJ RF AGC CONTRAST 1 7 6 3 4 / π + 4 34 6 16 3 35 CHROMA APC DET ID DET ACC DET 13 12 7 8 ID OUT 1 9 10 15 24 RGB MATRIX CONTRAST 5V -(R-Y) OUT -(B-Y) OUT 32 43 4.43 3.58 39 VCXO TINT PHASE CONT PAL SW CHROMA DEMODULATOR CONTRAST F/F 37 HI VCC 20 8V SYSTEM DECODE 10 COLOR SERVICE 52 IL V CC VIDEO CHROMA 2.2VP-P SYSTEM ID KILLER DET LOCK DET SECAM M52325AP VCC 30 SW 51 REF FILTER 40 1ST AMP (ACC) VHROMA BPF 2ND AMP ADJ DET APC DET HPF 50 VCO π 4 VIDEO DET POS NEG VCO ADJ 49 VIDEO OUT 2VP-P 45 3 16 4 14 44 BIGP GENE 12 8 10 1H DL 11 16 AFC-1 1 5 9 33 ATT BUS I/F 14 MUTE OUT 32FH VCO 13 MUTE 28 MUTE DET AFC-2 H STOP HORIZONTAL COUNT DOWIN 50/60 OUT VERTICAL COUNT DOWIN LAMP HV BLK AUDIO MUTE SW 47 ATT V CC CUT OFF R G B 4.5/6.0 FM DET AFC GAIN V SYNC TRIG G EXT INPUT R EXT INPUT B EXT INPUT VCC EO ELIMINATE DRIVE AMP SCP 48 LIMITER 5 GND DIRECT OUT DRIVE R B 5V VIF / SIF F.B.P 12 8 SYNC SEP BRIGHT BRIGHT SYSTEM SET SYSTEM auto -(R-Y) -(B-Y) IN IN 41 2 VCC H. OUTPUT H-PHASE V.PULSE SERVICE SW SECAM REF AF AMP AUDIO ATT SDA 19 17 18 9 42 OUT PUT 8V +B H VCC 8V DEFLECTION VCC V.PULSE G IN SECAM REF 22 27 B G 23 R R IN 21 29 FAST BLK B IN AUDIO POWER 25 31 11 SCL 15 46 MITSUBISHI ICs (TV) M52340SP PAL/NTSC SYSTEM SHINGLE-CHIP COLOR TV SIGNAL PROCESSOR APPLICATION EXAMPLE MITSUBISHI ICs (TV) M52340SP PAL/NTSC SYSTEM SHINGLE-CHIP COLOR TV SIGNAL PROCESSOR DESCRIPTION OF PIN Pin No. 1 Name Description Peripheral circuit of pin 1k AFT OUT DC voltage 4.0V 5.6k 20p 2 LIMITER IN 100 3.0V 30k 10p 3 RE AGC OUT 4 IF AGC FILTER 5 VIF GND 50 1k 7.5V to 0.5V 4.5V to 2.5V MITSUBISHI ICs (TV) M52340SP PAL/NTSC SYSTEM SHINGLE-CHIP COLOR TV SIGNAL PROCESSOR DESCRIPTION OF PIN (cont.) Pin No. Name Description Peripheral circuit of pin 6 1.2k VIF IN DC voltage 1.5V 7 8 VIF VCC Power supply for VIF 5.0V 9 H VCC Power supply for all circuits in the deflection block 8.0V 10 IIL VCC Power supply for I2C bus IIL 1.5V 51.6k 11 SCL I2C bus clock input V 10 5V to 0V MITSUBISHI ICs (TV) M52340SP PAL/NTSC SYSTEM SHINGLE-CHIP COLOR TV SIGNAL PROCESSOR DESCRIPTION OF PIN (cont.) Pin No. 12 Name SCP OUT Description Peripheral circuit of pin DC voltage 5V to 0V Sandcastle pulse output 200 13 H OUT MAX 4mA Horizontal frequency pulse output 51.6k 15 SDA I2C bus data input 4V to 0V 200 80k V 10 14 H OSC X24 CSB-503 F18 is used. 10k 5V to 0V 3.1V 600 300 300 40k 16 AFC 1 FILTER 6k 5.5V 48k MITSUBISHI ICs (TV) M52340SP PAL/NTSC SYSTEM SHINGLE-CHIP COLOR TV SIGNAL PROCESSOR DESCRIPTION OF PIN (cont.) Pin No. 17 Name Description GND Power supply for R/G/B output V pulse Open emitter input DC voltage Peripheral circuit of pin 150 18 2.5V X120 PIN 18 19 2.0k AFC 2 FILTER 20 Hi VCC 21 B OUT 22 G OUT 23 R OUT 24 VCD VCC PIN 19 Power supply for R/G/B output 8V 50 MAX 4mA Primary-color (R, G and B) signal output pin Power supply for video chroma X135 2.9V TYP 5V MITSUBISHI ICs (TV) M52340SP PAL/NTSC SYSTEM SHINGLE-CHIP COLOR TV SIGNAL PROCESSOR DESCRIPTION OF PIN (cont.) Pin No. Name 25 B IN 27 G IN 29 R IN Description Peripheral circuit of pin DC voltage External R/G/B input pin 5k 26 CONTRAST Pin to adjust contrast externally 15k 15k 1k 28 COINCIDENCE 30 KILLER FILTER Sync detection pin Sync Hi Async Lo 7.5V to 0.5V 50k 70k 31 100 FAST BLK V 0V MITSUBISHI ICs (TV) M52340SP PAL/NTSC SYSTEM SHINGLE-CHIP COLOR TV SIGNAL PROCESSOR DESCRIPTION OF PIN (cont.) Pin No. 32 Name 3.58MHz X-tal Description Pin used to connect an oscillator (3.58MHz) Peripheral circuit of pin DC voltage 200 1.3k 0V 40p 100 33 AUDIO BYPASS 15.2k 2.5V 20k V 34 2.3V ID Filter 50k 35 CHROMA APC FILTER 36 TV IN (Y IN) 4k 3.3V 135 200 2.3V MITSUBISHI ICs (TV) M52340SP PAL/NTSC SYSTEM SHINGLE-CHIP COLOR TV SIGNAL PROCESSOR DESCRIPTION OF PIN (cont.) Pin No. 37 Name Description Peripheral circuit of pin DC voltage VCD GND 57k 38 V(Y) SW OUT Pin to output 6dB amplifier 21k 1.75V 41k 39 X-TAL 4.43MHz 1.3k Pin used to connect an oscillator (4.43MHz) 3.2V 100 1k 40 SYNC SEP IN 41 -(B-Y) OUT 43 -(R-Y) OUT Emitter input 1k 5.7V 135 2.3V MITSUBISHI ICs (TV) M52340SP PAL/NTSC SYSTEM SHINGLE-CHIP COLOR TV SIGNAL PROCESSOR DESCRIPTION OF PIN (cont.) Pin No. Name Description Peripheral circuit of pin DC voltage 20k 42 4.4V to 1.3V SECAM REF 4.5k 44 -(B-Y) IN 45 -(R-Y) IN 3.0V 4.5k 100 46 AUDIO OUT 3.2V 47 AUDIO VCC 8.0V 45.4k 48 FM DIRECT OUT 10k 3.0V 6.9k 35.7k MITSUBISHI ICs (TV) M52340SP PAL/NTSC SYSTEM SHINGLE-CHIP COLOR TV SIGNAL PROCESSOR DESCRIPTION OF PIN (cont.) Pin No. Name Description Peripheral circuit of pin 49 DC voltage 49 4.0V VCO 50 50 51 VIDEO APC FILTER 52 VIDEO OUT 14k 200 2.9V 2.2V or 5.7V 8k MITSUBISHI ICs (TV) M52340SP PAL/NTSC SYSTEM SHINGLE-CHIP COLOR TV SIGNAL PROCESSOR [DATA list] Data No. Data Data Dat a D7 D6 D5 D4 D3 D2 D1 D0 Decimal No. 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 1 0 32 C9 0 0 1 1 1 0 0 0 56 A7 0 1 0 0 0 0 0 1 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 0 1 0 1 37 E9 0 0 1 0 0 1 1 1 39 MITSUBISHI ICs (TV) M52340SP PAL/NTSC SYSTEM SHINGLE-CHIP COLOR TV SIGNAL PROCESSOR INITIAL CONDITION D7 D6 D5 D4 00H 0 01H 0 02H 03H 0 D3 D2 1 0 DELAY ADJ 0 0 A MUTE 0 1 0 0 0 TRAP 0 DBF 0 POS/NEG 0 0 0 0 AUDIO ATT 0 0 0 1 04H 0 DEFEAT 0 05H 0 0 1 0 0 TINT 0 0 COLOR 0 1 0 VCO ADJ 0 SHARPNESS 0 0 0 CONTRAST 0 0 0 06H 0 0 AUTO 0 07H 0 1 0 08H 0 0 09H 0 1 1 0 HPHASE 0 0 0AH 0 0 1 0 0 BRIGHT 0 TV/EXT 1 0 0 3.58 0 0 DRIVE R 0 0 0 DRIVE B 0 0 0 CUT OFF R D1 No function D0 DATA 0 0 A6 0 DFA 0 0 4.5/6.0 0 A6 0 0 A7 0 0 A6 0 A0 0 A6 DL TIME 1 0 C2 0 A7 0 0 0 NTSC SECAM 0 0 A6 A7 0 0 A6 0 0 A6 0 0 A6 0BH 0 MUTE 0 0CH 0 0 1 0DH 1 0 0 0 0 CUT OFF G 0 0 0 A8 0EH 1 0 0 0 0 0 A8 0FH 1 0 0 0 0 A8 10H 0 0 0 0 0 A0 13H 0 0 0 F TRAP 0 AFCG 0 0 0 CUT OFF B 0 0 0 0 0 A0 1 0 HST 0 0 SERSW 0