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| MITSUBISHI ICs (TV) M52340SP PAL/NTSC SYSTEM SHINGLE-CHIP COLOR TV SIGNAL PROCESSOR DESCRIPTION The M52340SP is a single-chip semiconductor integrated circuit to 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. PIN CONFIGURATION (TOP VIEW) FEATURES *A built-in I C bus control circuit makes it possible to reduce the 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 2 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. 1 2 3 4 5 6 7 8 9 10 11 52 51 50 49 48 47 46 45 44 43 42 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 41 40 39 38 37 36 35 34 33 32 31 30 29 28 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 M52340SP APPLICATION PAL/NTSC system color TV NC : NO CONNECTION 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) BLOCK DIAGRAM VCO VIDEO APC FILTER IIL VCC Hi VCC VIF VCC AUDIO ATT BYPASS VCC VIDEO OUT LIMITER IN VIF GND IF AGC FILTER FM DIREC T OUT 4 51 AUDIO ATT SW AUDIO MUTE SW SYSTEM DECODE SYSTEM auto B EXT INPUT ID OUT SYSTEM ID REF FILTER BRIGHT DRIVE AMP LAMP V SYNC TRIG SECAM REF EO ELIMINATE TV/ EXT KILLER DET F/F BIGP GENE PAL SW PHASE CONT TINT AFC GAIN VCXO AFC-1 32FH VCO MUTE DET MUTE OUT H-PHASE AFC-2 50/60 OUT V.PULSE HORIZONTAL COUNT DOWIN H STOP VERTICAL COUNT DOWIN SERVICE SW CONTRAST CHROMA DEMODULATOR SYNC SEP RGB MATRIX CONTRAST COLOR SERVICE BRIGHT G EXT INPUT DRIVE R B CUT OFF RG B R EXT INPUT SYSTEM SET 4.5/6.0 BUS I/F LOCK DET LIMITER FM DET ATT AF AMP 49 52 10 2 48 33 47 5 50 20 8 RE AGC OUT 3 RF AGC IF AGC VCO 46 AUDIO OUT 15 SDA 11 SCL 31 FAST BLK 25 B IN 29 R IN 21 R OUT VCO ADJ DELAY ADJ - 4 + 4 6 VIF IN 7 VIF AMP VIDEO DET POS/ NEG AFT OUT 1 AFT APC DET DEFEAT VODEO MUTE AFT OUT ADJ DET HV BLK 23 B OUT 22 G OUT 27 G IN 42 SECAM REF. 9 H VCC VIDEO MUTE 2ND AMP CONTRAST CLAMP CONTRAST CONT. 26 VIDEO TONE CHROMA BPF V(Y) SW OUT ACC DET ID DET 18 V PULSE OUT 17 INTERFACE GND 38 DELAY K2 D.TRAP CHROMA APC DET DL TIME DL FINE TRAP SW 1ST AMP (ACC) HPF F. TRAP CHROMA TRAP 19 AFC 2 FILTER 36 40 30 35 CHROMA APC FILTER VCD VCC VCD GND X-TAL 3.58 X-TAL 4.43 -(R-Y) OUT 34 24 37 39 32 ACIDENT 43 41 45 -(R-Y) IN 44 12 SCP OUT -(B-Y) OUT -(B-Y) IN 16 AFC 1 FILTER 14 28 13 H OSC COINCIDENCE TV IN (Y IN) KILLER SYNC FILTER SEP IN M52340SP PAL/NTSC SYSTEM SHINGLE-CHIP COLOR TV SIGNAL PROCESSOR MITSUBISHI ICs (TV) H OUT 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 Surge Parameter Supply voltage Power dissipation Operating temperature Storage temperature 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 ELECTRICAL CHARACTERISTICS Test conditions Limits VCC Min. Typ. Max. Unit S 2 P 1 1 SSSSSS 4 16 31 40 44 45 Symbol Parameter Input signal SW conditions Input pin SG name conditions PIN conditions Standard conditions of circuit current M M M M M 55.0 1.4 9.0 12.0 15.0 80.0 2.0 18.0 20.0 27.0 33.0 24.0 21.0 105.0 2.4 PPP PPPP PPPPPPPPPPPP PP PP 3 4 12 13 16 18 21 22 23 26 36 38 40 41 43 46 48 52 8 9 20 24 47 111100 5V 8V 8V 5V 8V mA mA mA mA mA Icc8 Pin 8 current SW PIN SW PIN Icc9 Pin 9 current Icc20 Pin 20 current Icc24 Pin 24 current Icc47 Pin 47 current SW PIN SW PIN SW PIN SW PIN VIF block 1 1 1 1 0 5V 8V 8V 5V 8V M M 0 M 0 M 0 M 0 M 0 M 0 M 102 50 0 M 0 M 4.0 2.6 4.8 2.1 1.9 1.9 50 4.5 5.2 2.3 2.2 2.2 55 5.5 47 107 60 4.4 3.0 4.8 3.4 52 5.5 2.5 2.5 2.5 V V V V dB MHz dB dB dB V V 10 Standard conditions of IF parameters Vdc NEG Video detector output DC voltage (NEG) SW PIN SW PIN Vdc POS Video detector output DC voltage (POS) Vo NEG Video detector output (NEG) V SG1 Vo POS Video detector output (POS) V SG2 P/N Video S/N V SG3 Vf Video frequency characteristics V SG4 Vin min Input sensitivity V SG5 Vin max Maximum permissible Input V SG6 GR AGC control range M52340SP PAL/NTSC SYSTEM SHINGLE-CHIP COLOR TV SIGNAL PROCESSOR MITSUBISHI ICs (TV) V4H V4T Maximum IF AGC voltage IF AGC voltage (80dBu) V SG7 SW PIN SW PIN SW PIN SW PIN SW PIN SW PIN SW PIN SW PIN SW PIN SW PIN ELECTRICAL CHARACTERISTICS (cont.) Limits VCC Min. Typ. Max. Unit PPPP 9 20 24 47 1.9 2.7 4.3 V 3.7 0 M M M M M M M 0.8 2.2 3.0 M M M M M M 25.0 90 31 7.2 7.2 7.7 0.3 7.7 0.3 1.2 2.6 3.8 36 3 3 28.5 96 70 76 7 7 32.0 0.8 0.8 43 61 4.0 2.3 V Symbol Parameter Input signal SW conditions Input pin PIN SG name conditions conditions S 2 P 1 M M V4L Minimum IF AGC voltage V SG8 SSSS 4 16 31 40 PPPP 3 4 12 13 0 S 44 P 16 Test conditions S 45 PPPPPPPPPPPPPP 18 21 22 23 26 36 38 40 41 43 46 48 52 8 V1 AFT defeat voltage AFT N AFT detector sensitivity (NEG) V SG9 79 kHz/mV V V V V MHz MHz MHz dB % deg % dB dB V1H N Maximum AFT voltage (NEG) V SG10 V1L N Minimum AFT voltage (NEG) V SG11 V3H Maximum RF AGC voltage V SG3 V3L Minimum RF AGC voltage V SG3 CRU Capture range (U) V SG9 CRL Capture range (L) V SG9 CRT Capture range (T) IM Intermodulation V SG12 DG DG V SG13 DP DP V SG13 SPN Sync ratio (NEG) V SG13 DLPH Maximum delay point (NEG/POS) V SG14 DLPL Minimum delay point (NEG/POS) V SG15 SIF block 0 1 1 1 1 0 M52340SP PAL/NTSC SYSTEM SHINGLE-CHIP COLOR TV SIGNAL PROCESSOR MITSUBISHI ICs (TV) Standard conditions of SIF parameters 0 5V 8V 8V 5V 8V M 2.4 2.8 3.2 V VAF AF output DC voltage 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 ELECTRICAL CHARACTERISTICS (cont.) Limits VCC Min. Typ. Max. Unit PPPP 9 20 24 47 200 300 320 330 610 59 440 810 68 1 40 49 53 50 63 3 46 430 410 520 mVrms 540 mVrms 550 mVrms 1010 mVrms dB % dB dB dB 270 340 mVrms Symbol Parameter Input signal SW conditions Input pin SG name PIN conditions conditions S 2 P 1 M M M M M M M M M M SSSS 4 16 31 40 PPPP 3 4 12 13 S 44 P 16 Test conditions S 45 PPPPPPPPPPPPPP 18 21 22 23 26 36 38 40 41 43 46 48 52 8 AF direct output (4.5MHz) VoAF N VoAF P AF direct output (5.5MHz) S SG17 VoAF S AF direct output (6.0MHz) S SG18 VoAF M AF direct output (6.5MHz) S SG19 VoAF max Maximum AF output (6.0MHz) S SG18 ATT Maximum attenuation (6.0MHz) S SG18 THD AF AF output distortion (6.0MHz) S SG18 LIM Input limiting sensitivity S SG18 AMR AMR S SG20 AFSN AF S/N S SG21 SW PIN SW PIN SW PIN SW PIN SW PIN SW PIN SW PIN SW PIN SW PIN SW PIN Chroma block (PAL) 1 1 1 1 1 0 0 SG50 and SG60 should be input to SY IN for C0 to C21 and C13 to C21 respectively. Standard conditions of chroma parameters M 5V 8V 8V 5V 8V 500 M M M M M M 0 450 -3 -3 -2 700 600 0 -1.5 0 -40 30 900 mVP-P 750 mVP-P 3 1 4 -33 dB dB dB dB 60 mVP-P Cn1 Chroma standard output 1 VI SS4P Cn2 Chroma standard output 2 VI SS4P ACC1 ACC characteristics 1 VS4P VI V=+6dB ACC2 ACC characteristics 2 OV Overload characteristics M52340SP PAL/NTSC SYSTEM SHINGLE-CHIP COLOR TV SIGNAL PROCESSOR MITSUBISHI ICs (TV) VikP Killer operating input level killP Killer color residual (PAL) VS4P VI V=-20dB VI VS4P eb=800mV VS4P VI V=Variable VI VS4P V=-40dB SW PIN SW PIN SW PIN SW PIN SW PIN SW PIN SW PIN SW PIN ELECTRICAL CHARACTERISTICS (cont.) Limits VCC Min. Typ. Max. Unit PPPP 9 20 24 47 400 Hz 0.75 100 ratio deg 100 mVP-P 50 100 500 M 490 700 600 mV 900 mVP-P 750 mVP-P 0.45 80 0 90 0.6 700 Symbol Parameter Input signal SW conditions Input pin SG name conditions PIN conditions S 2 P 1 M MM MM M M M SSSS 4 16 31 40 PPPP 3 4 12 13 S 44 P 16 Test conditions S 45 PPPPPPPPPPPPPP 18 21 22 23 26 36 38 40 41 43 46 48 52 8 APC1 APC pull-in range 1 R/BP Demodulated output ratio (R-Y / B-Y) VI VS4P f=Variable VI VS4P eb= Single chroma R-Y P VI VS4P eb= Single chroma CC Demodulated phase angle R-Y Carrier leak at demodulated output VI VS4P DDH Difference of demodulated output on line VI 4.2M SIN ware Cn3 Standard chroma output 3 VI SS3N Cn4 Standard chroma output 4 VI SS3N SW PIN SW PIN SW PIN SW PIN SW PIN SW PIN SW PIN Chroma block (NTSC) Limits Min. Typ. Max. Unit Symbol P 42 Parameter Input signal SW conditions Input pin SG name PIN conditions conditions SSSSS 2 4 16 31 40 PP PPP 1 3 4 12 13 M M M M M M M M M M S 44 P 16 Test conditions S 45 PPPPPPPPP 18 21 22 23 26 36 38 40 41 PPPP 43 46 48 52 VikN Killer operating input level (NTSC) -45 0 400 0.4 80 25 25 180 4.0 30 600 0.6 95 45 45 300 4.5 -38 dB 60 mVP-P Hz 0.8 110 60 60 ratio deg deg deg 420 mVP-P 5.0 V killN Killer color residual (NTSC) APC2 APC pull-in range 2 R/BN VI VS3N v=Variable VI VS3N eb=0mV VS3N VI f=Variable VI VS3N Demodulated output ratio R-Y/ B-Y eb= Single chroma R-Y N VI VS3N Demodulated phase angle R-Y eb= Single chroma TC1 TINT control characteristic 1 VI VS3N eb= Single chroma TC2 TINT control characteristic 2 VI VS3N eb= Single chroma M52340SP PAL/NTSC SYSTEM SHINGLE-CHIP COLOR TV SIGNAL PROCESSOR MITSUBISHI ICs (TV) SRA SECAM REF output AC voltage SRD SECAM REF output DC voltage SW PIN SW PIN SW PIN SW PIN SW PIN SW PIN SW PIN SW PIN SW PIN ELECTRICAL CHARACTERISTICS (cont.) Limits Min. Typ. Max. Unit Symbol P 42 0001 0101 1001 1101 0011 00 PPPP 43 46 48 52 Parameter Input signal SW conditions Input pin SG name PIN conditions conditions S 2 P 1 M 0 M 0 M 0 M M M 150A AUTO 1 System discrimination 1 4.43PAL VI SS4P SSSS 4 16 31 40 PPPP 3 4 12 13 0 S 44 P 16 Test conditions S 45 PPPPPPPPP 18 21 22 23 26 36 38 40 41 AUTO 2 VI SS4N AUTO 3 VI SS3P AUTO 4 VI SS3N AUTO 5 AUTO 6 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 SW PIN SW PIN SW PIN SW PIN SW PIN SW PIN Video and interface block SG50 should be input to SY IN. (SG60 is input for Y5 to Y7 and Y36 to Y46.) Limits Min. Typ. Max. Unit Symbol Parameter Input signal SW conditions Input pin SG name PIN conditions conditions Standard conditions of video and interface parameters S 2 P 1 1 SSSSS 4 16 31 40 44 PPPPP 3 4 12 13 16 11110 Test conditions S VCC 45 PPPPPPPPPPPPPPPPPP 18 21 22 23 26 36 38 40 41 43 46 48 52 8 9 20 24 47 0 5V 8V 8V 5V 8V MMM MMM M M MMM MMM MMM MMM MMM Ymax Maximum video output VI SGA 3.2 2.1 -4 1.5 3.8 2.5 -2 2.1 4.2 3.2 V V dB 2.7 VP-P GY Standard video gain VI SGA FBY Video frequency characteristic VI SGB 2AGY Standard double-width amplifier output VI SGA CTR1 Chroma trap attenuation 1 VI SS3N -18 dB TRF1 Trap fine adj attenuation 1 VI SS3N DTR1 D. trap attenuation 1 VI SS3N SW PIN SW PIN SW PIN SW PIN SW PIN SW PIN SW PIN SW PIN -24 dB CTR2 M52340SP PAL/NTSC SYSTEM SHINGLE-CHIP COLOR TV SIGNAL PROCESSOR MITSUBISHI ICs (TV) Chroma trap attenuation 2 VI SS4P -18 dB TRF2 Trap fine adj attenuation 2 VI SS4P SW PIN SW PIN ELECTRICAL CHARACTERISTICS (cont.) Limits VCC Min. Typ. Max. Unit PPPP 9 20 24 47 -24 270 80 190 380 1.0 0 -12.0 -5.6 -4 2.1 300 500 1.4 3.6 -9.3 -2.8 -1.4 2.5 150 220 410 620 1.8 6.7 -5 -0.2 1.2 2.9 50 1.8 0.55 -1.3 3.9 3.9 M 0 M 0 M 5.3 5.3 2.2 0.8 -1 4.8 4.8 5.7 5.7 2.6 1.05 -0.7 6.4 M 6.4 6.5 6.5 350 430 nsec nsec nsec nsec VP-P dB dB dB dB VP-P mV V V V dB dB VP-P VP-P dB SW Symbol Parameter Input signal conditions PIN Input pin SG name conditions conditions S 2 P 1 M M M M MM MMM MMM MMM MMM MMM MMM MM MMM M M MM MM M M MM MM MM MM SSSS 4 16 31 40 PPPP 3 4 12 13 S 44 P 16 Test conditions S 45 PPPPPPPPPPPPPP 18 21 22 23 26 36 38 40 41 43 46 48 52 8 DTR2 D. trap attenuation 2 VI SS4P SW YDL1 YDL value 1 VI SGA YDL2 YDL value 2 VI SGA PIN SW PIN SW YDL3 YDL value 3 VI SGA YDL4 YDL value 4 VI SGA PIN SW PIN SW PIN GTnor Video tone control characteristic 1 VI SGB GTmax Video tone control characteristic 2 VI SGB GTmin Video tone control characteristic 3 VI SGB SW PIN SW PIN SW GT2M Video tone control characteristic 4 VI SGB PIN SW GT5M Video tone control characteristic 5 VI SGB GYnor VI SGB Contrast control characteristic 1 f=100kHz PIN SW PIN SW PIN GYmin SGB Contrast control characteristic 2 f=100kHz Lum nor Brightness control characteristic 1 Lum max Brightness control characteristic 2 Lum min Brightness control characteristic 3 D(R) Drive control characteristic R VI SGA D(B) Drive control characteristic B VI SGA M52340SP PAL/NTSC SYSTEM SHINGLE-CHIP COLOR TV SIGNAL PROCESSOR MITSUBISHI ICs (TV) EX(R) EXT (R) I/O characteristic FB ER SGD EX(G) EXT (G) I/O characteristic FB EG SGD SW PIN SW PIN SW PIN SW PIN SW PIN SW PIN SW PIN SW PIN ELECTRICAL CHARACTERISTICS (cont.) Limits VCC Min. Typ. Max. Unit PPPP 9 20 24 47 5.3 -160 -160 1.8 1.8 1.8 20 610 2.1 2.1 2.1 45 730 10 -50 1.1 180 1.1 300 1.7 330 1.7 500 20 50 MMM 2.9V SW PIN Symbol Parameter Input signal conditions Input pin SG name conditions conditions S 2 P 1 M M M M M M M 1 MMM 1 MMM M 1 M 1 M 1 M 1 M MMM 1 1 1 1 MM MM M 40 160 2.4 2.4 2.4 70 870 150 -40 1.9 430 1.9 600 90 160 1.7 MMM 0V EX(B) M -20 160 5.7 mV mV V V V nsec 6.5 EXT (B) I/O characteristic VP-P FB EB SGD SSSS 4 16 31 40 PPPP 3 4 12 13 0 S 44 P 16 Test conditions S 45 PPPPPPPPPPPPPP 18 21 22 23 26 36 38 40 41 43 46 48 52 8 OFRG Offset voltage between R and G OFBG Offset voltage between B and G C(R) C(G) R cutoff characteristic G cutoff characteristic C(B) B cutoff characteristic DLF DL fine delay VI SW PIN SW PIN SW PIN SW PIN SW PIN SW PIN SW SGA Coon 1 Color control characteristic 1 -R SGA Coon 2 Color control characteristic 2 -R SGA PIN SW PIN SW mVP-P mVP-P dB VP-P mVP-P VP-P mVP-P nsec nsec 2.7 0 3.5 50 VP-P VMF Video mute function VI SGA MTXB Matrix characteristic 1 -B SGE MTXG Matrix characteristic 2 -B SGE MTXR Matrix characteristic 3 -R SGE MTXG1 Matrix characteristic 4 -R SGE OSD1 OSD speed characteristic 1 ER.EG EB.FB SGD PIN SW PIN SW PIN SW PIN SW PIN SW PIN SW OSD2 OSD speed characteristic 2 ER.EG SGD EB.FB GYnor Contrast control characteristic 3 VI SGA GYmin Contrast control characteristic 4 VI SGA MMM 8.5V M52340SP PAL/NTSC SYSTEM SHINGLE-CHIP COLOR TV SIGNAL PROCESSOR mVP-P 2.0 M V MITSUBISHI ICs (TV) ABR Additonai brightness voltage PIN SW PIN SW PIN SW PIN SW PIN ELECTRICAL CHARACTERISTICS (cont.) DEF block Limits Typ. Max. Unit Symbol Parameter Input signal SW conditions Input pin SG name conditions PIN conditions S 2 P 1 1 SSSSS 4 16 31 40 44 PPPPP 3 4 12 13 16 11100 Test conditions S VCC 45 Min. PPPPPPPPPPPPPPPPPP 18 21 22 23 26 28 36 38 40 41 43 46 48 8 9 20 24 47 0 5V 8V 8V 5V 8V 0.1 1.2 1.4 4.8 15.3 +250 2.2 6 15.7 +300 -300 7.5 -2.0 1.0 21 6.7 3 3 2.8 41 0 M M M 8.5 -1.5 1.5 25 4 4 5.4 44 0.3 0 0 8.9 47 0.7 1.5 0.5 -250 9.5 -1.0 2.0 29 2.0 2.8 3.0 7.2 16.1 0.2 mA sec sec sec kHz Hz Hz sec sec sec sec V V dB Hz V V V ISS M M M M M M M M M M M M M M M 0 M M M M M M M Standard conditions of sync deflection parameters Sync separation input sensitivity current BGP1 BGP timing 1 SY SGa BGP2 BGP timing 2 SY SGb SW PIN SW PIN SW PIN SW PIN BGPW BGP pulse width SY SGa fH Horizontal free running frequency FPH1 Horizontal pull-in range 1 SY SGc f Variable SW PIN SW PIN SW PIN FPH2 Horizontal pull-in range 2 SY SGc f Variable FPT1 Horizontal pulse timing 1 SY SGa FPT2 Horizontal pulse timing 2 SY SGa FPT3 Horizontal pulse timing 3 SY SGa TH Horizontal pulse width SW PIN SW PIN SW PIN SW PIN SW VH Horizontal pulse amplitude HSTO Horizontal stop operation AFCG AFC gain operation SY SGa PIN SW PIN SW PIN SW fV Vertical free running frequency VVL Minimum vertical output voltage M52340SP PAL/NTSC SYSTEM SHINGLE-CHIP COLOR TV SIGNAL PROCESSOR MITSUBISHI ICs (TV) CoinL Minimum coincidence detection voltage SW Service switch operation PIN SW PIN SW PIN SW PIN SW PIN ELECTRICAL CHARACTERISTICS (cont.) Limits VCC Min. Typ. Max. Unit PPPP 9 20 24 47 65 Hz msec msec 1.6 Hz 57 53 47 13 Hz Hz Hz sec 0.35 0.52 1.5 63 0.65 1.35 Symbol Parameter Input signal SW conditions Input pin SG name conditions PIN conditions S 2 P 1 SSSS 4 16 31 40 PPPP 3 4 12 13 M M MM M S 44 P 16 Test conditions S 45 PPPPPPPPPPPPPP 18 21 22 23 26 36 38 40 41 43 46 48 52 8 FPV Vertical pull-in range SY SGd f Variable SW PIN VW Vertical output pulse width SW PIN VBLKW Vertical BLK width AVER1 50/60 confirmation 1 SY SGd f63Hz SW PIN SW PIN AVER2 50/60 confirmation 2 SY SGd f57Hz SW PIN AVER3 50/60 confirmation 3 SY AVER4 50/60 confirmation 4 M SY SGd f53Hz SGd f47Hz WVSS Minimum sync detection width SY SGd f60Hz width:variable SW PIN SW PIN SW PIN M52340SP PAL/NTSC SYSTEM SHINGLE-CHIP COLOR TV SIGNAL PROCESSOR MITSUBISHI ICs (TV) ELECTRICAL CHARACTERISTICS (cont.) 03H 07H 08H TV/EXT Symbol TINT COLOR Sub address 00H 09H SET HP BRI DR MUTE DB CR CG CB TRF SESW HST AFCG 01H 0BH A0 0 0 0 0CH 0DH 0EH 0FH 10H 13H A6 32 1 8 0 2 0 A7 02H 04H 05H 06H 0AH DLA P/N VCOA AUDM 45/60 TRAP DBF DFA ATT SHARP DEFE CONT DLTA AUTO A6 0 0 A6 32 A6 32 A6 A0 32 0 32 0 0 0 A7 64 C2 0 A7 64 A6 32 A6 32 0 A6 A8 A8 A8 32 128 128 128 A0 0 Icc8 Icc9 Icc20 Icc24 Icc47 Function Data Function Data Function Data Function Data Function Data Function Data Function VIF block Vdc NEG Vdc POS C6 1 Vo NEG Vo POS C6 1 P/N Vf Vin min Vin max GR V4H V4T V4L C6 M52340SP PAL/NTSC SYSTEM SHINGLE-CHIP COLOR TV SIGNAL PROCESSOR MITSUBISHI ICs (TV) V1 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 1 ELECTRICAL CHARACTERISTICS (cont.) 03H TV/EXT COLOR Symbol TINT SET HP BRI DR MUTE DB CR CG CB TRF SESW HST AFCG Sub address 00H 01H 02H 04H 05H 06H 09H 0BH 0CH 0DH 0EH 0FH 10H 13H 07H 08H 0AH DLA P/N VCOA AUDM 45/60 TRAP DBF DFA ATT SHARP DEFE CONT DLTA AUTO AFT N V1H N V1L N V3H V3L CRU CRL Function Data Function Data Function Data Function Data Function Data Function Data Function Data Function CRT IM DG DP Data Function Data Function Data Function Data SPN DLPH A6 DLPL Function Data Function Data Function Data 0 C6 Function 1 SIF blcok VAF VoAF N Data Function Data Function A1 1 VoAF p M52340SP PAL/NTSC SYSTEM SHINGLE-CHIP COLOR TV SIGNAL PROCESSOR MITSUBISHI ICs (TV) VoAF S Data Function Data Function VoAF M Data Function ELECTRICAL CHARACTERISTICS (cont.) 03H ATT SHARP DEFE CONT DLTA AUTO TV/EXT COLOR Symbol TINT SET HP BRI DR MUTE DB CR CG CB TRF SESW HST AFCG Sub address 00H A7 0 8 0 0 01H 02H 04H 05H 06H 09H 0BH 0CH 0DH 0EH 0FH 10H 13H 07H 08H 0AH DLA P/N VCOA AUDM 45/60 TRAP DBF DFA A6 0 1 0 2 A6 A0 A7 64 A6 32 A6 0 32 A6 A8 A8 A8 32 128 128 128 A0 0 A0 0 32 0 32 0 0 0 A6 32 C2 0 A6 32 VoAF max ATT Function Data Function Data Function Data A7 A6 0 64 32 C0 127 A0 0 THD AF LIM AMR AFSN Function Data Function Data Function Data Function Data Function Chroma block Data (PAL) Function 0 A3 0 1 Cn1 Cn2 Data Function Data Function ACC1 Data ACC2 OV VikP killP APC1 R/BP Function Data Function Data Function Data Function Data Function Data Function Data Function R-Y P Data Function M52340SP PAL/NTSC SYSTEM SHINGLE-CHIP COLOR TV SIGNAL PROCESSOR MITSUBISHI ICs (TV) CC Data Function DDH Data Function ELECTRICAL CHARACTERISTICS (cont.) 03H TV/EXT COLOR Symbol TINT SET HP BRI DR MUTE DB CR CG CB TRF SESW HST AFCG Sub address 00H A6 A7 0 8 E3 5 E3 5 32 0 0 0 32 64 0 1 0 A7 A6 A6 A8 A8 A8 32 128 128 128 A0 0 A0 0 01H 02H 04H 05H 06H 09H 0BH 0CH 0DH 0EH 0FH 10H 13H 07H 08H 0AH DLA P/N VCOA AUDM 45/60 TRAP DBF DFA ATT SHARP DEFE CONT DLTA AUTO A6 0 0 A6 A0 A6 32 32 0 32 0 0 0 A7 64 A3 0 A6 32 A6 32 Cn3 Cn4 Function Data Function Data Function Data Function E3 5 E3 5 Data Chroma block (NTSC) Function Data VikN Function Data killN Function Data APC2 Function R/BN R-Y N TC1 TC2 B4 1 B4 1 1 1 1 1 1 1 C0 127 A0 0 SRA SRD AUTO 1 Data Function Data Function Data Function Data Function Data Function Data Function Data E0 1 E0 1 AUTO 2 Function Data Function AUTO 3 AUTO 4 AUTO 5 M52340SP PAL/NTSC SYSTEM SHINGLE-CHIP COLOR TV SIGNAL PROCESSOR MITSUBISHI ICs (TV) AUTO 6 Data Function Data Function Data Function Data Function Data Function E0 1 E0 1 E0 1 E0 1 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.) 03H TV/EXT Symbol TINT COLOR Sub address 00H SET HP BRI DR MUTE DB CR CG CB TRF SESW HST AFCG 01H A6 32 0 1 0 0 0 0 8 A7 A5 16 A5 16 A5 16 02H 04H 05H 06H 09H 0BH 0CH 0DH 0EH 0FH 10H 13H 07H 08H 0AH DLA P/N VCOA AUDM 45/60 TRAP DBF DFA ATT SHARP DEFE CONT DLTA AUTO A6 0 1 A6 A2 32 0 32 0 0 0 A0 0 A7 64 A3 1 A6 32 A0 0 A5 16 A5 0 16 A5 16 A0 0 A0 0 Ymax GY E4 51 A7 64 C0 127 A7 64 FBY 2AGY E4 51 E4 51 E4 51 E4 51 E4 51 E4 51 CTR1 TRF1 Function Data Function Data Function Data Function Data Function Data Function Data Function Data Function A6 0/1 DTR1 A0/A6 0/1 A6 1 C5 1 1 CTR2 TRF2 Data Function Data Function Data Function A6 0/1 DTR2 A0/A6 0/1 A6 1 C5 1 1 YDL1 E8 1 E0 2 E9 3 A6 32 A0 0 B9 63 B9 63 B9 63 Data Function Data Function YDL2 Data Function YDL3 YDL4 Data Function Data Function GTnor GTmax GTmin M52340SP PAL/NTSC SYSTEM SHINGLE-CHIP COLOR TV SIGNAL PROCESSOR MITSUBISHI ICs (TV) GT2M GT5M Data Function Data Function Data Function Data Function Data Function ELECTRICAL CHARACTERISTICS (cont.) 03H TV/EXT COLOR Symbol TINT SET HP BRI DR MUTE DB CR CG CB TRF SESW HST AFCG Sub address 00H 01H 02H 04H 05H 06H 09H 0BH 0CH 0DH 0EH 0FH 10H 13H 07H 08H 0AH DLA P/N VCOA AUDM 45/60 TRAP DBF DFA ATT SHARP DEFE CONT DLTA AUTO GYnor A0 0 GYmin Lum nor C0 127 A0 0 A0/B9 0/63 A0/B9 Lum max Lum min D(R) 0/63 C0 127 C0 A0 0 D(B) EX(R) EX(G) 127 C0 127 EX(B) Function Data Function Data Function Data Function Data Function Data Function Data Function Data Function Data Function Data Function Data Function Data OFRG OFBG C(R) A0/C1 0/255 A0/C1 0/255 A0/C1 0/255 A0 0 A0 0 A7 64 A7 64 A7 64 C(G) C(B) E9 0 3 DLF A0 Coon 1 C0 127 A0 0 A0/A4 0/1 0 E4 51 A7 64 Coon 2 VMF PAL/NTSC SYSTEM SHINGLE-CHIP COLOR TV SIGNAL PROCESSOR MTXB Function Data Function Data Function Data Function Data Function Data Function Data Function Data Function Data Function Data MITSUBISHI ICs (TV) M52340SP A6 Function 1 ELECTRICAL CHARACTERISTICS (cont.) 03H CONT Symbol DLTA AUTO TV/EXT TINT COLOR SET Sub address 00H HP BRI DR MUTE DB CR CG CB TRF SESW HST AFCG 01H 02H 04H 05H 06H 09H 0BH 0CH 0DH 0EH 0FH 10H 13H 07H 08H 0AH DLA P/N VCOA AUDM 45/60 TRAP DBF DFA ATT SHARP DEFE MTXG 0 0 0 0 0 A6 A8 A8 A8 128 128 128 A0 0 A0 0 1 MTXR Function Data Function Data A7 64 A7 64 A6 1 MTXG1 A6 1 E4 51 E4 51 E4 51 OSD1 Function Data Function Data Function A7 64 A0 0 A0 0 OSD2 C0 127 Data Function GYnor C0 127 C0 127 A6 0 63 0 0 0 8 0 A0 0 32 A6 A6 C0 A7 A0 0 A6 32 A6 0 32 0 32 0 0 1 A6 32 D9 1 A7 64 A6 32 A8 A8 A8 128 128 128 A0 0 0 A0 0 0 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 A0 0 C9 15 M52340SP PAL/NTSC SYSTEM SHINGLE-CHIP COLOR TV SIGNAL PROCESSOR MITSUBISHI ICs (TV) HPT3 Data Function ELECTRICAL CHARACTERISTICS (cont.) 03H CONT Symbol DLTA AUTO TV/EXT TINT COLOR SET Sub address 00H HP BRI DR MUTE DB CR CG CB TRF SESW HST AFCG 01H 02H 04H 05H 06H 09H 0BH 0CH 0DH 0EH 0FH 10H 13H 07H 08H 0AH DLA P/N VCOA AUDM 45/60 TRAP DBF DFA ATT SHARP DEFE TH VH A5 1 A0/A6 0/1 HSTO AFCG Function Data Function Data Function Data Function Data Function fV Data Function VVL CoinL SW FPV A4 1 VW VBLKW Data Function Data Function Data Function Data Function Data Function Data AVER1 AVER2 AVER3 Function Data Function Data Function Data AVER4 WVSS Function Data Function Data Function M52340SP PAL/NTSC SYSTEM SHINGLE-CHIP COLOR TV SIGNAL PROCESSOR MITSUBISHI ICs (TV) MITSUBISHI ICs (TV) M52340SP PAL/NTSC SYSTEM SHINGLE-CHIP COLOR TV SIGNAL PROCESSOR ELECTRICAL CHARACTERISTICS TEST METHOD P/N Video S/N 1. Input SG3 and measure the rms value of output signal a pin 52. 2. P/N is defined as follows: 3 P/N = 20 log VONEG Measured Value(VP-P)X10 (dB) Measured Value(mVrms) BW Video frequency characteristics IM Intermodulation 1. Adjust the applied voltage at pin 4 so that the lowest output signal voltage at pin 52 is 2.2V. P52 2.2V 2. Measure elements of 1.07MHz and 4.43MHz of output at pin 52. 3. IM is defined as follows: IM = 20 log Element of 1.07MHz Element of 4.43MHz (dB) 1. Input SG4 and set the frequency f2 to 37.9MHz so that the beat element of 1MHz is output to pin 52. 2. Then set the applied voltage at pin 4 so that the beat element of 1MHz at pin 52 may be 100dB. 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. P52 ATT Maximum attenuation 1. Measure the element of 400Hz of output at pin 46. 2. ATT is defined as follows: V0AFmax (dB) Measured value 100dB 3dB ATT = 20 log LIM Input limiting sensitivity 1MHz Vin min. Input sensitivity BW Decrease the input level of SG18. Measure the input level when the element of 400Hz at pin 46 is 3dB smaller than V0AFM (S6:Maximum AF output (6.0M)). AMR AMR 1. Vam is the element of 400Hz at pin 46. 2. AMR is defined as follows: AMR = 20 log 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 Cn2 Standard chroma output 2 (PAL) 1. Input SS4P to VI IN. 2. Measure output amplitude, Cn1 and Cn2, at pins 41 and 43 respectively. ACC1 ACC characteristics 1 V1LN f 39.9MHz 1. Input VS4P (eb=570mV:level+6dB) to VI IN. 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) V0AFS(mVrms) (dB) Vam(mVrms) 1. Decrease SG5 level until the video detector output is 3dB smaller than the measured value of Parameter V3 "Video detector output". Vin max. Maximum permissible input 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. AFTN V1HN V1LN AFT detector sensitivity (NEG) Maximum AFT voltage (NEG) Minimum AFT voltage (NEG) See the following figure. V1HN f P1 5.0V 3.0V f0 37.9MHz AFTN is defined as follows: AFTN= (5.0-3.0)X103mV f KHz (mV/KHz) MITSUBISHI ICs (TV) M52340SP PAL/NTSC SYSTEM SHINGLE-CHIP COLOR TV SIGNAL PROCESSOR OL Overload characteristics 1. Input VS4P (ec=800mVP-P:chroma+3dB) to VI IN. 2. Measure the output amplitude at pin 41. 3. OL is defined as follows: Measured value (VP-P) OL = 20 log Cn1 (VP-P) VikP Killer operating input level (PAL) 1. Input VS4P (level:variable) to VI IN at input level 0dB. 2. Lower the input level with monitoring the output amplitude at pin 41 and measure the input level when output amplitude is not found. KillP Killer color residual (PAL) 1. Input VS4P (level:-40dB) to VI IN. 2. Measure the output amplitude at pin 41. APC1 APC pull-in range 1 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 signal is output to pin 41 and to the point that no signal is output to the pin. The reference value is 4.433619MHz. R-Y/B-YP Demodulation output ratio 1. Input VS4P (eb=single chroma=ec+50KHz) to VI IN. 2. V41 is the output amplitude at pin 41. 3. V43 is the output amplitude at pin 43. 4. R-Y/B-YP is defined as follows: R-Y/B-YP = 20 log V43 (VP-P) (dB) V41 (VP-P) output amplitude is not found. KillN Killer color residual (NTSC) 1. Input VS3N (level:-40dB) to VI IN. 2. Measure the output amplitude at pin 41. 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 frequency range from the point at which no signal is output to pin 41 and to the point at which signal is output to the pin. (Pull-in state) The reference value is 3.579545MHz. R-Y/B-YN Demodulated output ratio 1. Input VS3N (eb=single chroma=ec+50KHz) to VI IN. 2. V41 is the output amplitude at pin 41. 3. V43 is the output amplitude at pin 43. 4. R-Y/B-YN is defined as follows: R-Y/B-YN = 20 log V43(VP-P) (dB) V41(VP-P) Cn3,Cn4 Standard chroma output 3,4 (NTSC) 1. Input SS3N to VI IN 2. Cn3 and Cn4 are output amplitude measured at pins 41 and 43 respectively. (dB) VikN Killer operating input level (NTSC) 1. Input VS3N (level:variable) to VI IN at input level 0dB. 2. Lower the input level with monitoring the output amplitude at pin 41 and measure the input level when R-YP Demodulated phase angle 1. Input VS4P (eb=single chroma=ec+50KHz) to VI IN. 2. V41 is the output amplitude at pin 41. 3. V43 is the output amplitude at pin 43. 4. R-YP is defined as follows: q R-YN Demodulated phase angle 1. Input VS3N (eb=single chroma=ec+50KHz) to VI IN. 2. V41 is the output amplitude at pin 41. 3. V43 is the output amplitude at pin 43. 4. R-YN is defined as follows: (deg) q R-YP = tan-1 V43 X3.8 (V41X1.9)+45 q R-YP= tan-1 V43 X3.8 (V41X1.9)+45 (deg) * Vector should be found with taking the gain ratio of a demodulator into consideration. * Vector should be found with taking the gain ratio into consideration. 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 MITSUBISHI ICs (TV) M52340SP PAL/NTSC SYSTEM SHINGLE-CHIP COLOR TV SIGNAL PROCESSOR TC1 Tint control characteristics 1 TC2 Tint control characteristics 2 1. Input VS3N (see the following figure) to VI IN. Based on the output voltage at pin 41, find the absolute angle as shown in the above figure. -180 0 90 90 BW Video frequency characteristics 1. Input SGB (5MHz, 0.4VP-P) to VI IN. 2. Measure the amplitude (P-P) except that at blanking part of the output at pin 22 .The amplitude is defined as YB. 3. BW is defined as follows: BW = 20 log (YB VP-P/GY VP-P) (dB) 2AGY Standard double-width amplifier output 1. Input SGA to VI IN. A A B GND 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. TC1 = TCMAX-TC (deg) TC2 = TC-TCMIN (deg) SRA SECAM REF output AC voltage 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 signal is read correctly. Ymax Maximum video output 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. 0 B q = tan-1(B/A) 2. Measure the amplitude (P-P) except that at blanking part of output at pin 22. CTR1 Chroma trap attenuation 1 (common to R/G/B output) 1. Input SS3N to VI IN. Measure the frequency level of 3.58MHz at trap data 0. The level is defined as N0. 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) 1. Input SS3N to VI IN. 2. Measure the output amplitude of the element of 3.58MHz when trap fine adj. switch is on. (TRFon) 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. 2. Measure the output amplitude of the element of 3.58MHz when D. trap switch is on. (DTRon) 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) TRF2 Trap fine adj. attenuation 2 1. Input SS4P to VI IN. 2. Measure the output amplitude of the element of 4.43MHz when trap fine adj. switch is on. (TRFon) M = G1 3. TRF2 is defined as follows. TRFon (mVP-P) TRF2 = 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 of output at pins 21,22 and 23.This amplitude is defined as G1. 3. GY is defined as follows: GY = 20 log (G1VP-P/0.714VP-P) (dB) MITSUBISHI ICs (TV) M52340SP PAL/NTSC SYSTEM SHINGLE-CHIP COLOR TV SIGNAL PROCESSOR DTR2 D. trap attenuation 2 1. Input SS4P to VI IN. 2. Measure the output amplitude of the element of 4.43MHz when D. trap switch is on. (DTRon) 3. DTR2 is defined as follows. DTRon (mVP-P) DTR2 = 20 log (dB) P0 (mVP-P) Note: In parameters Y5, Y6, Y8 and Y9, limits are defined based on the maximum attenuation by comparing each one. GYnor Contrast characteristics 1 1. Input SGB (f=100KHz) to VI IN. 2. Measure output amplitude at pins 21, 22 and 23. GYmin Contrast characteristics 2 1. Input SGB (f=100KHz) to VI IN. 2. Measure output amplitude at pins 21, 22 and 23. 3. GYmin is defined as follows: Measured value (VP-P) GYmin = 20 log (dB) GYnor (VP-P) Lum nor Brightness control characteristics 1 Lum max Brightness control characteristics 2 Lum min Brightness control characteristics 3 1. No signal is input. (Only SG50 is input to SY IN.) SGA Output signal YDL1 YDL value 1 1. Input SGA to VI IN. 2. Measure the delay time from signal input to output at pins 21, 22 and 23. 2. Measure DC voltage of output at pins 21, 22 and 23 except that at blanking part. Output waveform M Measure the delay time at the center point of rise. 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 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. 2. Measure output amplitude at pins 21, 22 and 23. 3. GT2M is defined as follows: Measured value (VP-P) GT2M = 20 log (dB) GTnor (VP-P) 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 GND 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) EXR EXT(R) I/O characteristics EXG EXT(G) I/O characteristics EXB EXT(B) I/O characteristics 1. Input SGD to FB, ER, EG and EB. 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. M (dB) MITSUBISHI ICs (TV) M52340SP PAL/NTSC SYSTEM SHINGLE-CHIP COLOR TV SIGNAL PROCESSOR OFRG Offset voltage between R and G OFBG Offset voltage between B and G 1. Measure DC voltage of output at pins 21,22 and 23 except that at blanking part. 2. OFRG and OFBG are defines as follows: OFRG = (pin 21 Measured voltege)-(pin 22. Measured voltege) (mV) OFBG = (pin 23 Measured voltege)-(pin 22 Measured voltege) (mV) 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 R(C), G(C) and B(C) data are maximum and minimum respectively. The DC voltage at blanking part should be measured. 2. R(C), G(C) and B(C) are defined as follows: R(C), G(C), and B(C) = (Voltage at data max.) - (Voltage at data min.) (V) DLF DL fine delay 1. Input SGA to VI IN. 2. Measure the time lag (absolute value) between signal YDL4 and output signal at pins 21,22 and 23. Y14 YDL4 signal Output signal OSD1 OSD speed characteristics 1 OSD2 OSD speed characteristics 2 1. Input SGD to FB, ER, EG and EB. 2. Measure rise time and fall time of the signal of output at pins 21,22 and 23. Measurement points should be higher than the pedestal level and blanking part should not be measured. 90% 10% Output waveform at pins 21,22 and 23. M OSD1 M OSD2 GYmax1 Contrast control characteristics 3 GYmin1 Contrast control characteristics 4 1. Input SGA to VI IN. 2. Measure output amplitude at pins 21,22 and 23 when 2.9V and 0V are externally applied to pin 26. ISS Sync separation input sensitivity current Make current flow out from pin 40 and measure the flow current when the burst gate pulse is not found at pin 12. BGP1 BGP timing 1 BGP2 BGP timing 2 BGPW BGP pulse width P40 SYNC BGP1,BGP2 M Measure the time lag at the center point of rise. Ccon1 Color control characteristics 1 Ccon2 Color control characteristics 2 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 1. Input SGF to VI IN. 2. Measure output amplitude of the element of 4.43MHz 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 1. Input SGE to -B IN (pin 44). 2. Measure output amplitude at pins 22 and 23. (P23 = MTXB, P22 = MTXG) MTXR Matrix characteristics 3 MTXG1 Matrix characteristics 4 1. Input SGE to -R IN (pin 45). 2. Measure output amplitude at pins 21 and 22. (P21 = MTXR, P22 = MTXG1) BGPW P12 SCP FH Horizontal free run frequency Measure the output frequency at pin 13 when no signal is input. FPH1 Horizontal pull-in range 1 FPH2 Horizontal pull-in range 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 HPT2 Horizontal pulse timing 2 HPT3 Horizontal pulse timing 3 P40 SYNC HPT1, HPT2, HPT3 P13 H OUT MITSUBISHI ICs (TV) M52340SP PAL/NTSC SYSTEM SHINGLE-CHIP COLOR TV SIGNAL PROCESSOR TH Horizontal pulse width VH Horizontal pulse amplitude TH VH AVER1 50/60 confirmation 1 AVER2 50/60 confirmation 2 AVER3 50/60 confirmation 3 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 Confirm that the horizontal output is high when the horizontal stop switch is on. AFCG AFG gain operation 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 each input frequency (pull-in state). Also, confirm the state of the bus write mode (D7). WVSS Minimum sync detection width Reduce the width of signal SGd and measure the width of input signal when the output waveform at pin 18 disappears. 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 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 50) f0 = 38.9MHz, 90dB, fm = 20KHz, AM77.8% f0 = 38.9MHz, 90dB, fm = 50KHz, AM77.8% f0 = 38.9MHz, 80dB, CW f1 = 45.75MHz, 90dB, CW Mixed signal f2 = 445MHz, 90dB, CW f0 = 38.9MHz, Variable, fm = 20KHz, AM77.8% f0 = 38.9MHz, fm = 20KHz, AM16%, Level variable f0 = 38.9MHz, 80dB, CW f0 = 38.9MHz, 110dB, CW f0 = 38.9 5MHz, 90dB, CW f0 = 37.9MHz, 90dB, CW f0 = 39.9MHz, 90dB, CW f1 = 38.9MHz, 90dB, CW Mixed signal f2 = 34.47MHz, 80dB, CW f3 = 33.4MHz, 80dB, CW f0 = 38.9MHz, Standard 10-step modulation, Sync ratio:28.6%, AM = 87.5% video modulation, Sync chip level 90dB f0 = 38.9MHz, 93dB, CW f0 = 38.9MHz, 73dB, CW f0 = 4.5MHz, 100dB, fm = 400Hz, FM25KHz dev f0 = 5.5MHz, 100dB, fm = 400Hz, FM50KHz dev f0 = 6.0MHz, 100dB, fm = 400Hz, FM50KHz dev f0 = 6.5MHz, 100dB, fm = 400Hz, FM50KHz dev f0 = 6.0MHz, 100dB, fm = 400Hz, AM30% f0 = 6.0MHz, 100dB, 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 8s Horizontal blanking pulse 12s The variable resistor at pin 15 of the TTL IC, M74LS221P, is used to fix the timing at 8s and that at pin 7 is used to fix the pulse width at 12s. Coil adjustment VCO coil 1. Set the test conditions as shown in the parameter V14. 2. Input CW (f0=38.9MHz, Vi=90dB) 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.) SS4P Standard Signal 4.43MHz PAL system Fourth character Third character Second character First character First character: Second character: Third character: Fourth character: Standard=S, Nonstandard=V (Modified parts should be specified.) Meaning of signal Frequency of burst and chroma 4(4.433619MHz), 3(3.579545MHz) (In case of "S", SECAM standard signal is applied.) Color system N(NTSC), P(PAL) 2. Structure of input color signal The following figure shows the structure of color signal. ec(n) ec eb eb(n) eb(n+1) ec(n+1) 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. ec(n) eb(n) R-Y 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. PAL system PAL system APL 100% standard video signal should be input as sync separation input as shown in the figure. SG. A The vertical signal should be interlaced at 50Hz. 0.286VP-P 2s 7s The frequency and amplitude of signal Lumi can be changed by signal SGA. SG. B The typical amplitude is 0.714mVP-P. 5s 5s 1VP-P 0.714VP-P Input signal (Value at pin terminal is 50) 2s 7s Sync SG. C Level:variable 4s 0.7V SG. D 0V 20 24 20 SG. E 0.5V f = 100kHz Level:variable typ = 0.3VP-P H = 15.625KHz, V = 50Hz SG. 50 Standard PAL SYNC f = 3.58MHz 5s SG. F 0.286VP-P 1VP-P 0.714VP-P NTSC system SG. 60 Level:variable typ = 0.3VP-P H = 15.734KHz, V = 60Hz 63.5s 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 50) The input signal should be PAL system APL-variable video signal. Vertical signal should be interlaced at 50Hz. 5s SG. a 0.286VP-P 0.714VP-P Pedestal 64s 2s 7s The input signal should be NTSC APL-variable video signal. Vertical signal should be interlaced at 60Hz. 5s SG. b 0.714VP-P Pedestal 0.286VP-P 63.5s 2s 7s 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 0.22u 0.1u Hi VCC VCC 8 4 8 7 SY IN FB IN ER IN EG IN 7 5 4 3 1 6 5 6 2 3 1 2 TEST CIRCUIT VIDEO OUT U3660M M52325AP 14 15 9 13 1 S3 1 75 75 75 3k 75 0.01u P52 9 13 10 15 16 11 12 14 0.01u 0.01u 0.01u 10 16 0.01u 0.01u 11 12 0 S40 VI IN 0.1u 1k -R IN -B IN 75 75 75 220 10u 1u 12P EXT R IN EXT G IN 1800p 3.3k 330k 10u 10k 3.58M X_TAL 0.01u 0.22u 2.2u 1 1u P43 1.8M 0.015u P41 15p Sync OUT Y IN P38 P36 S.S IN P40 100p 0 S44 1 0.01u AFT OUT A H.OUT SDA P13 P16 2.7k SCL P18 0.01u 510 S16 P12 47u 12k 6.8k 0.01u 680k 10u B503F18 1u FBP IN A 2.2uH 300k 0.022u 0.1u 0.22u P28 4.3M X_TAL 680k P48 P46 0 0.1u 0.47u DIRECT OUT AUDIO OUT S45 52 42 GND 51 41 38 37 36 35 34 32 31 50 49 48 45 44 43 40 39 33 47 46 30 29 28 27 VCC M52340SP VCC Hi VCC GND Hi VCC VCC GND 1 8 13 A 47u 2 10 16 11 12 14 15 3 4 9 17 18 20 5 6 7 19 21 22 23 B R P21 G P22 3.6k 3.6k 3.6k P23 24 A 0.01u 47u 25 26 cont. 0.1u P26 RF AGC OUT 1646 V.PULSE OUT 0.01u P1 P3 P4 S4 PAL/NTSC SYSTEM SHINGLE-CHIP COLOR TV SIGNAL PROCESSOR 270k 47u 0.01u VR 20k +5V 2200p 0.01u EXT B IN EB IN 270k 50 1u 50 S2 0.1u 0.22u VIN 75 620 10k 8 7 4 6 5 3 1 2 SIN M74L221P 9 13 4700p 5.1k MITSUBISHI ICs (TV) M52340SP 3k 10 11 12 14 15 16 1k Units Resistance : Capacitance : F 1k VR 20k MITSUBISHI ICs (TV) M52340SP PAL/NTSC SYSTEM SHINGLE-CHIP COLOR TV SIGNAL PROCESSOR TYPICAL CHARACTERISTICS THERMAL DERATING (MAXIMUM RATING) 1.5 1.4 POWER DISSIPATION Pd (mW) 1.0 0.5 0 0 25 50 65 75 100 125 150 AMBIENT TEMPERATURE Ta (C) VIDEO OUT 2VP-P VIF / SIF VCC GND DIRECT OUT 5V IL VCC 8V 4 HI VCC SW AUDIO MUTE SW SYSTEM DECODE 4.5/6.0 SYSTEM SET SYSTEM auto BUS I/F SDA LOCK DET LIMITER FM DET ATT AF AMP AUDIO ATT AUDIO POWER 49 51 2 5 52 10 8 48 33 47 50 2.2VP-P ATT VCC 20 APPLICATION EXAMPLE RF AGC OUT (REV) 3 15 11 SCL 31 25 CUT OFF RGB RF AGC F AGC VCO ADJ VCO 46 DELAY ADJ 4 B EXT INPUT ID OUT COLOR SERVICE BRIGHT G EXT INPUT DRIVE R B R EXT INPUT + 4 VIF IN 29 21 LAMP HV BLK 6 7 VIF AMP FAST BLK B IN R IN R B OUT PUT VIDEO DET POS/ NEG SYSTEM ID REF FILTER BRIGHT DRIVE AMP V SYNC TRIG SECAM REF VERTICAL COUNT DOWIN 50/60 OUT V.PULSE HORIZONTAL COUNT DOWIN H STOP AFC GAIN AFC-1 VCXO 32FH VCO MUTE DET MUTE OUT H-PHASE AFC-2 SERVICE SW CONTRAST CHROMA DEMODULATOR EO ELIMINATE KILLER DET F/F BIGP GENE PHASE CONT TINT PAL SW SYNC SEP RGB MATRIX CONTRAST 1 23 22 27 42 9 18 17 AFT APC DET DEFEAT VODEO MUTE AFT OUT ADJ DET VIDEO MUTE G G IN SECAM REF CONTRAST 2ND AMP CLAMP 26 VIDEO TONE ACC DET ID DET CHROMA APC DET -(B-Y) OUT VHROMA BPF 38 +B H VCC 8V DEFLECTION VCC V.PULSE DELAY K2 D.TRAP DL TIME DL FINE TRAP SW 1ST AMP (ACC) 8V F. TRAP CHROMA TRAP HPF 19 36 35 37 -(R-Y) OUT -(R-Y) -(B-Y) IN IN 34 12 SCP 40 16 30 32 43 41 45 44 24 39 14 28 13 H. OUTPUT 4.43 3.58 5V VIDEO CHROMA VCC SV 1VP-P TV IN F.B.P VCC MUTE 2V P-P 16 3 9 13 12 10 16 14 11 12 1 9 SECAM M52325AP 6 7 15 8 1 3 4 1H DL 8 10 5 M52340SP PAL/NTSC SYSTEM SHINGLE-CHIP COLOR TV SIGNAL PROCESSOR MITSUBISHI ICs (TV) MITSUBISHI ICs (TV) M52340SP PAL/NTSC SYSTEM SHINGLE-CHIP COLOR TV SIGNAL PROCESSOR DESCRIPTION OF PIN Pin No. Name Description Peripheral circuit of pin DC voltage 1 AFT OUT 1k 4.0V 5.6k 20p 2 LIMITER IN 100 30k 10p 3.0V 3 RE AGC OUT 50 7.5V to 0.5V 4 IF AGC FILTER 1k 4.5V to 2.5V 5 VIF GND 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 6 VIF IN 7 1.2k 1.5V 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. Name Description Peripheral circuit of pin DC voltage 12 SCP OUT Sandcastle pulse output 5V to 0V 200 13 H OUT MAX 4mA Horizontal frequency pulse output 200 4V to 0V 51.6k 80k 15 SDA I2C bus data input V 10 5V to 0V 14 H OSC CSB-503 F18 is used. 10k X24 600 300 300 3.1V 40k 16 AFC 1 FILTER 6k 48k 5.5V 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 DC voltage 17 GND Power supply for R/G/B output 150 18 V pulse Open emitter input X120 PIN 18 2.5V 19 AFC 2 FILTER 2.0k PIN 19 20 Hi VCC Power supply for R/G/B output 8V 21 22 23 B OUT G OUT R OUT MAX 4mA Primary-color (R, G and B) signal output pin 50 X135 2.9V TYP 24 VCD VCC Power supply for video chroma 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 DC voltage 25 27 29 B IN G IN R IN External R/G/B input pin 5k 26 CONTRAST Pin to adjust contrast externally 15k 15k 1k 28 COINCIDENCE Sync detection pin Sync Hi Async Lo 7.5V to 0.5V 30 KILLER FILTER 50k 70k 31 FAST BLK V 100 0V 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 32 3.58MHz X-tal Pin used to connect an oscillator (3.58MHz) 1.3k 40p 100 200 0V 33 AUDIO BYPASS 15.2k 2.5V 20k V 34 ID Filter 50k 2.3V 35 CHROMA APC FILTER 4k 3.3V 135 36 TV IN (Y IN) 200 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 37 VCD GND 57k 38 V(Y) SW OUT Pin to output 6dB amplifier 21k 1.75V 41k 39 X-TAL 4.43MHz Pin used to connect an oscillator (4.43MHz) 1.3k 3.2V 100 1k 40 SYNC SEP IN Emitter input 1k 5.7V 41 -(B-Y) OUT -(R-Y) OUT 135 2.3V 43 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 SECAM REF 4.4V to 1.3V 4.5k 44 -(B-Y) IN 3.0V -(R-Y) IN 45 4.5k 100 46 AUDIO OUT 3.2V 47 AUDIO VCC 8.0V 45.4k 10k 48 FM DIRECT OUT 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 DC voltage 49 49 VCO 50 50 4.0V 51 VIDEO APC FILTER 14k 200 2.9V 52 VIDEO OUT 8k 2.2V or 5.7V MITSUBISHI ICs (TV) M52340SP PAL/NTSC SYSTEM SHINGLE-CHIP COLOR TV SIGNAL PROCESSOR [DATA list] Data No. A0 A1 A2 A3 A4 A5 A6 A7 A8 A9 B0 B1 B2 B3 B4 B5 B6 B7 B8 B9 C0 C1 C2 E7 E8 Dat a D7 D6 D5 D4 D3 D2 D1 D0 Decimal No. 0 0 0 0 0 0 0 0 1 0 0 0 0 0 0 1 0 0 0 0 0 1 0 0 0 0 0 0 0 0 0 0 1 0 0 0 0 0 0 1 0 0 0 0 0 1 1 0 0 0 0 0 0 0 0 0 1 0 0 0 0 0 0 1 0 0 0 0 0 1 1 1 0 1 1 0 0 0 0 0 1 0 0 0 0 0 0 1 0 0 0 0 0 1 1 1 1 0 1 0 0 0 0 0 1 0 0 0 0 0 0 1 0 0 0 0 0 1 1 1 1 1 0 0 0 0 0 0 1 0 0 0 0 0 0 1 0 0 0 0 0 1 1 1 1 1 1 1 1 1 0 0 1 0 0 0 1 0 0 1 0 0 0 0 0 0 1 1 1 1 1 1 1 1 0 0 1 0 0 0 0 0 1 0 1 1 1 1 1 1 1 1 1 1 1 1 1 0 0 1 0 1 2 4 8 16 32 64 128 3 5 9 17 33 65 129 7 15 31 63 127 255 6 54 37 C3 C4 C5 C6 C7 C8 C9 D0 D1 D2 D3 D4 D5 D6 D7 D8 D9 E0 E1 E2 E3 E4 E5 E6 E9 Data Data D7 D6 D5 D4 D3 D2 D1 D0 Decimal 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 1 0 0 0 1 0 0 1 0 0 0 1 0 0 0 0 0 1 0 0 1 0 0 0 1 1 0 0 1 1 0 1 1 0 0 1 0 0 1 1 1 1 0 1 1 0 1 0 1 1 0 0 1 1 1 1 1 1 0 1 0 1 1 0 0 0 0 0 1 1 0 0 1 1 0 0 1 1 1 0 1 1 1 1 0 1 0 0 0 0 0 0 0 0 0 0 0 1 0 0 0 1 1 0 0 1 1 0 0 1 0 0 0 1 1 0 0 1 0 0 1 1 0 0 0 0 1 0 0 0 1 0 0 1 0 0 0 1 0 1 1 1 1 1 1 0 1 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 1 0 1 0 0 1 12 24 48 96 14 28 56 112 30 60 120 10 20 40 80 18 36 38 34 35 69 51 50 68 39 MITSUBISHI ICs (TV) M52340SP PAL/NTSC SYSTEM SHINGLE-CHIP COLOR TV SIGNAL PROCESSOR INITIAL CONDITION D7 00H 01H 02H 03H 04H 05H 06H 07H 08H 09H 0AH 0BH 0CH 0DH 0EH 0FH 10H 13H 0 0 0 0 0 0 0 0 0 0 0 0 0 1 1 1 0 0 D6 POS/NEG D5 1 1 TRAP 0 0 1 1 AUTO 0 0 D4 0 0 DBF 0 0 D3 D2 D1 0 0 DFA 0 0 0 0 No function D0 DATA 0 0 4.5/6.0 0 0 0 0 A6 A6 A0 A7 A6 A6 C2 A7 A6 A7 A6 A6 A6 A8 A8 A8 A0 A0 0 A MUTE 0 0 1 DEFEAT 0 0 0 1 0 1 0 MUTE 0 0 0 0 0 0 0 DELAY ADJ 0 0 0 0 VCO ADJ 0 0 AUDIO ATT 0 0 SHARPNESS 0 0 0 CONTRAST 0 0 0 0 0 0 TINT 0 COLOR 0 0 BRIGHT 0 TV/EXT 1 0 0 3.58 0 0 DL TIME 1 0 0 0 1 0 HPHASE 0 0 1 1 1 0 0 0 F TRAP 0 AFCG 0 0 0 0 NTSC SECAM 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 DRIVE R 0 0 0 DRIVE B 0 0 0 CUT OFF R 0 0 CUT OFF G 0 0 CUT OFF B 0 0 0 HST 0 0 SERSW 0 0 0 0 0 0 |
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