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Ordering number : EN5843 LA71525M Monolithic Linear IC LA71525M Video/audio signal processor for VHS VCRs (single chip for Y/C/A) Overview The LA71525M is a video/audio signal processor IC for VHS VCRs. It handles recording and playback of PAL/GBI, MESECAM, and 4.43 NTSC signals. NTSC software tapes can be converted to PAL for monitoring, and the IC realizes high picture and sound quality. The IC requires no adjustments and minimizes the peripheral component count, making it possible to implement efficient signal handling at low cost. Package Dimensions unit: mm 3174-QFP80E [LA71525M] 0.8 1.0 0.8 23.2 20.0 0.35 41 1.6 0.15 64 65 40 17.2 14.0 0.8 1.6 80 1 24 25 0.8 2.70 3.0max 21.6 0.8 Specifications Maximum Ratings at Ta = 25C Parameter Maximum supply voltage Symbol VCC max VCC max Allowable power dissipation Pd max pin 36, 41, 47 pin 76 Ta 65C 114.3 x 76.1 x 1.6 mm 3 with paper phenol substrate Operating temperature Storage temperature Topr Tstg Conditions SANYO : QFP80E (QIP80E) 15.6 Ratings 7.0 9.0 1400 Unit V V mW -10 to +65 -40 to +150 C C Operating Conditions at Ta = 25C Parameter Recommended supply voltage Symbol VCC1 VCC2 (VCC2) Recommended operating supply voltage range VCC1 opg VCC2 opg Conditions pin 36, 41, 47 pin 76 (pin 76) Ratings 5.0 6.8 (7.5) 4.8 to 5.5 6.4 to 7.9 Unit V V V V V Any and all SANYO products described or contained herein do not have specifications that can handle applications that require extremely high levels of reliability, such as life-support systems, aircraft's control systems, or other applications whose failure can be reasonably expected to result in serious physical and/or material damage. Consult with your SANYO representative nearest you before using any SANYO products described or contained herein in such applications. SANYO assumes no responsibility for equipment failures that result from using products at values that exceed, even momentarily, rated values (such as maximum ratings, operating condition ranges, or other parameters) listed in products specifications of any and all SANYO products described or contained herein. SANYO Electric Co., Ltd. Semiconductor Business Headquarters TOKYO OFFICE Tokyo Bldg., 1-10, 1 Chome, Ueno, Taito-ku, TOKYO, 110-8534 JAPAN 31799RM(KI) No. 5843-1/25 LA71525M Operating Characteristics at Ta = 25C, VCC = 5V Parameter [REC mode Y] Current drain (POWER SAVE MODE) Current drain (REC) EE output level 1 EE output level 2 AGC characteristics 1 AGC characteristics 2 AGC characteristics 3 AGC characteristics 4 Sync separation output level Sync separation output pulse width Sync separation output Pre-delay time Sync separation output Threshold level Sync tip level Pedestal level White level measurement Symbol Input Output Conditions Ratings min 20 130 2.0 2.0 0 -1.2 550 370 4.0 4.2 0.6 typ 22 145 2.1 2.1 0.6 -0.2 650 420 4.2 4.5 0.8 -20 max 24 160 2.2 2.2 1.2 0 Unit ICCS ICCR VEE1 VEE2 AGC1 AGC2 AGC3 T28A T28A T28A T28A T28A T28A T28A T38 T38 T38 T38 T38 T38 T37 T37 T37 T37 T38 Influx current measured at pin 41 in power save mode Sum of influx current at pins 36, 41, 47, 76 measured; 5V: pins 36, 41, 47; 7V: pin 76 T38 output level measured with VIN = 1.0 Vp-p video signal (PAL) T38 output level measured with VIN = 1.0 Vp-p video signal (NTSC) Ratio of VEE and T38 output level with VIN = 2.0 Vp-p video signal Ratio of VEE and T38 output level with VIN = 0.5 Vp-p video signal T38 SYNC level measured with VIN = 700 mVp-pLUMI, 600 mVp-p SYNC T38 SYNC level measured with VIN = 700 mVp-pLUMI, 150 mVp-p SYNC T37 output pulse crest value measured with VIN = 1.0 Vp-p video signal T37 output pulse width measured with VIN = 1.0 Vp-p video signal Delay of output SYNC vs. input SYNC measured with VIN = 1.0 Vp-p video signal Input level gradually attenuated and measured when output pulse width becomes larger than PWSYR by 1 s Potential measured with VIN = 1.0 Vp-p video signal, under following conditions. T38 sync tip level: LSYN Pedestal level: LPED White peak level: LWHT mA mA Vp-p Vp-p dB dB 750 mVp-p 470 mVp-p 4.4 4.8 1.0 -15 900 Vp-p s s dB mV AGC4 VSYR PW SYR T28A TSYR THSYR LVOR T28A T28A T28A 700 800 Simulated H insertion level HDR T28A T38 T38 DC level measured with 2.7V DC applied to T33. Using this as LHDR, differential to LPED (see above) is calculated. T38 DC level measured with 1.3V DC applied to T33. Using this as LWHR, differential to LWHT (see above) is calculated. T25 YNR characteristics measured with VIP = 1 Vp-p standard color bar signal input Serial 00 OFF 10 (weak) 01 (medium) 11 (strong) -150 0 +150 mV White insertion level WHR T28A T38 -150 0 +150 mV REC YNR operation RYNR T28A T25 0 1.7 4.2 / -0.3 -1.4 -4 0 2.7 5.7 / +0.2 -0.4 -2 0 3.7 7.2 / +0.7 +0.6 0 -25 dB dB dB dB dB YLPF frequency response characteristics 1 YLPF frequency response characteristics 2 YLPF frequency response characteristics 3 YLPF frequency response characteristics 4 REC-FM output level Carrier frequency 1 (PAL) Carrier frequency 2 (NTSC) YLPF1 YLPF2 YLPF3 YLPF4 VFM FFM 1 FFM 2 T28A T28A T28A T28A T25 T25 T25 T25 T18 T18 1 MHz response of T25 vs. 500 kHz with VIN = 1 Vp-p standard multiburst signal 2 MHz response of T25 vs. 500 kHz with VIN = 1 Vp-p standard multiburst signal 3 MHz response of T25 vs. 500 kHz with VIN = 1 Vp-p standard multiburst signal 4.43 MHz response of T25 vs. 500 kHz with VIN = 1 Vp-p standard multiburst signal T18 output level measured in no-signal input condition T18 output frequency measured in no-signal input condition 304 3.725 3.325 320 3.8 3.4 336 mVp-p 3.875 3.475 MHz MHz Continued on next page No. 5843-2/25 LA71525M Continued from preceding page Parameter REC-FM output level Secondary distortion Deviation 1 (PAL) Deviation 2 (NTSC) FM modulator linearity Symbol Input Output T18 T28A T28A T26 T18 T18 T18 T18 T26A T26A T24 T37 T24 Conditions Secondary distortion measured in no-signal input condition Ratings min typ -40 max -35 1.05 1.05 +2 9.1 +0.25 1.1 Unit dB MHz MHz % kHz dB dB HMOD DEV1 DEV2 LMOD CS GEMP24 GEMP37 GENH1 T18 deviation measured with VIN = white 100% 1 Vp-p T18 deviation measured with VIN = white 100% 1 Vp-p Output frequency set to f2.85 with 2.85V DC applied to T26 Output frequency shift 0.95 0.95 -2 6.5 -0.75 0.1 1.00 1.00 0 7.8 -0.25 0.6 1/2fH carrier shift Emphasis gain Detail enhancer characteristics 1 Detail enhancer characteristics 2 Detail enhancer characteristics 3 Nonlinear emphasis characteristics 1 Nonlinear emphasis characteristics 2 Nonlinear emphasis characteristics 3 Level difference of T26A and T37 measured with VIN = 500 mVp-p, 10 kHz sine wave input Level difference of T26A and T37 measured with VIN = 158 mVp-p, 2 MHz sine wave input Differential with GEMP24 GENH2 T26A T24 Level difference of T26A and T24 measured with VIN = 50 mVp-p, 2 MHz sine wave input Differential with GEMP24 1.3 2.3 3.3 dB GENH3 T26A T24 Level difference of T26A and T24 measured with VIN = 15.8 mVp-p, 2 MHz sine wave input Differential with GEMP24 1.8 3.3 4.8 dB GNLEMP1 T26A T24 Level difference of T26A and T24 measured with VIN = 500 mVp-p, 2 MHz sine wave input Differential with GEMP24 0.3 1.2 2.1 dB GNLEMP2 T26A T24 Level difference of T26A and T24 measured with VIN = 158 mVp-p, 2 MHz sine wave input Differential with GEMP24 2.5 3.8 5.0 dB GNLEMP3 T26A T24 Level difference of T26A and T24 measured with VIN = 50 mVp-p, 2 MHz sine wave input Differential with GEMP24 Serial 1 2 3 4 6.5 4.5 2.5 0 10.5 8.0 6.0 4.0 0 11.0 9.5 7.5 5.5 0 11.5 dB dB Main linear emphasis characteristics 1 Main linear emphasis characteristics 2 White clip level Dark clip level Video output linearity GME1 T26A T37 Level difference of T26A and T37 measured with VIN = 50 mVp-p, 500 kHz sine wave input Differential with GEMP37 GME2 T26A T37 Level difference of T26A and T37 measured with VIN = 50 mVp-p, 2 MHz sine wave input Differential with GEMP37 12.5 13.0 13.5 dB LWC LDC LINY T28A T28A T28A T37 T37 T38 White clip level at T37 measured with VIN = white 100% 1.0 Vp-p Dark clip level at T37 measured with VIN = white 100% 1.0 Vp-p CTL 1 2 CTL 1 2 185 176 -57.5 -52.0 -0.5 195 185 -52.5 -47.0 0 205 194 -47.5 -42.0 +0.5 % % dB T38 stair levels measured with video signal 1.0 Vp-p (linearity unit, 5 stairs) input. Stair linearity determined by arithmetic processing. [PB mode Y] Current drain PB Dropout compensation time ICCP T DOC T15 T26A T38 5V: pins 36, 41, 47; 7V: pin 76 Sum of influx current at pins 36, 41, 47, 76 measured T20: 4 MHz, 300 mVp-p sine wave T26A: revert time for T38 output from when 0.5 Vp-p video signal T15 input is set to 0 T38 T15: 4 MHz, 300 mVp-p sine wave T26A: 0.5 Vp-p video signal Input/output response 5H after setting T15 input to 0 T38 T38 Playback Y level with DEV = 1.0 MHz FM signal input Playback Y level for self-recording/playback 153 10.5 170 12.5 187 14.5 mA H DOC characteristics GDOC T15 T26A -1.5 0 +1.5 dB PB Y level Self-recording/playback Y level V-YOUT R/P-OUT T15 2.00 1.93 2.10 2.10 2.20 2.27 Vp-p Vp-p Continued on next page No. 5843-3/25 LA71525M Continued from preceding page Parameter FM demodulator linearity Symbol Input T15 Output T25 Conditions Ratings min -3.5 typ 0 max +3.5 Unit % LDEM LDEM = Carrier leak Playback YNR characteristics V DEM4 - (VDEM2 + V DEM6 ) /2 V DEM6 -VDEM2 x 100 -35 dB CL PYNR T15 T26A T25 T38 Ratio of T25 4 MHz component and SDEM with VIN = 300 mVp-p f = 4 MHz VIN = white 50% + CW (15.8 mVp-p) Ratio of 32 fH component and 32.5 fH component Serial 00 OFF 10 (weak) 01 (medium) 11 (strong) 0 -3.7 -9.2 -13.3 -3.5 4.5 2.5 0.5 0 -4 -16.5 -32 -9 -17 2.5 6 6 -8 0 -3.2 -8.2 -11.8 -2.5 6.0 4.0 2.0 0 -3 -15.0 -30 -8 -15 3.5 7 7 -7 0 -2.7 -7.2 -10.3 -1.5 7.5 5.5 3.5 0 -2 -13.5 -28 -7 -13 4.5 8 8 -6 dB dB dB dB dB dB dB dB dB dB dB dB Nonlinear deemphasis characteristics 1 Nonlinear deemphasis characteristics 2 GNLDE1 GNLDE2 T26A T26A T38 T38 Input/output response measured with V IN = white 50% + sine wave f = 2 MHz 158 mVp-p f = 2 MHz, 50 mVp-p CTL 1 2 3 4 Double noise canceler characteristics 1 Double noise canceler characteristics 2 Double noise canceler characteristics 3 Double noise canceler characteristics 4 Double noise canceler characteristics 5 PIC-CTL hard response characteristics 1 PIC-CTL hard response characteristics 2 PIC-CTL soft response characteristics 1 PIC-CTL soft response characteristics 2 Sync tip level Pedestal level White level measurement Simulated V insertion level GWNC1 GWNC2 GWNC3 GWNC4 GWNC5 GPH1 GPH2 GPH3 GPH4 LVOR T26A T26A T26A T26A T26A T26A T26A T26A T26A T38 T38 T38 T38 T38 T38 T38 T38 T38 f = 1.2 MHz, 158 mVp-p, pin 69 open Gr2 bit 8/7 = "10", Gr5 bit 1 = "1" f = 1.2 MHz, 50 mVp-p, pin 69 open Gr2 bit 8/7 = "10", Gr5 bit 1 = "1" f = 1.2 MHz, 15.8 mVp-p, pin 69 open Gr2 bit 8/7 = "10", Gr5 bit 1 = "1" f = 2.5 MHz, 15.8 mVp-p, pin 69 open Gr2 bit 8/7 = "10", Gr5 bit 1 = "1" f = 2.5 MHz, 15.8 mVp-p, pin 69 open Gr2 bit 8/7 = "10", Gr5 bit 1 = "1" f = 1 MHz, 158 mVp-p, Gr5 bit 6/5/4 = "1/0/0" f = 2 MHz, 158 mVp-p, Gr5 bit 6/5/4 = "1/0/0" f = 1 MHz, 158 mVp-p, Gr5 bit 6/5/4 = "0/0/0" f = 2 MHz, 158 mVp-p, Gr5 bit 6/5/4 = "0/0/0" T26A T38 T38 video output sync tip (LSYN), pedestal (LPED), white level (LWHT) potential measured with VIN = white 100% 0.5 Vp-p DC voltage at T38 is measured when 5V is applied to T33. Taking this as LVDP, differential with LSYN above is calculated. DC voltage at T38 is measured when 2.7V is applied to T33. Taking this as LHDP, differential with LPED above is calculated. DC voltage at T38 is measured when 1.3V is applied to T33. Taking this as LWHP, differential with L WHT above is calculated. Pin 37 output pulse crest value measured with VIN = 0.5 Vp-p video signal Pin 37 output pulse width measured with VIN = 0.5 Vp-p video signal Delay of output SYNC vs. input SYNC measured with VIN = 0.5 Vp-p video signal T31 DC level measured - -50 - 0 - +50 mV VDP T26A T38 Simulated H insertion level HDP T26A T38 -100 0 +100 mV White insertion level WHP T26A T38 -100 0 +100 mV Sync separation output level Sync separation output pulse width Sync separation output Pre-delay time 4V regulator FMAGC output level VSYP PWSYP T SYP V REG VFAGC T26A T26A T26A T26A T15 T37 T37 T37 T37 T17 4.0 4.35 0.7 3.8 325 4.2 4.65 0.9 4.0 350 4.4 4.95 1.1 4.2 Vp-p s s V Pin 17 signal amplitude measured with VIN = 150, 300, 600 mVp-p 4 MHz CW 375 mVp-p Continued on next page No. 5843-4/25 LA71525M Continued from preceding page Parameter [REC mode chroma] REC chroma low-range converter output level REC chroma/FM ratio Symbol Input Output Conditions Ratings min CTL 0 1 215 180 -3.7 typ 225 190 -3.0 max Unit VOR-14 T28A C/FM T28A T14A T14A burst level measured with VIN = 1 Vp-p 235 mVp-p 200 -2.3 dB standard color bar signal T14A T18 Down-converted chroma level/FM level ratio with 100% chroma input (RL: 5.1 k) SP/EP and LP T14A burst level ratio with VIN = 1 Vp-p standard color bar signal T56 output amplitude measured with FET probe at VIN = 1 Vp-p standard color bar signal T56 output amplitude measured with FET probe at VIN = 1 Vp-p standard color bar signal VIN = 1 Vp-p standard color bar signal and chroma signal only boosted by +6 dB T14A burst level measured and compared to VOR-14 Burst emphasis amount (NTSC mode) VXO oscillation level (PAL mode) VXO oscillation level (NTSC mode) REC ACC characteristics 1 GBE T28A T14A T56 T56 T14A 5.5 300 300 6.0 500 500 +0.2 0.2 6.5 700 700 +0.5 0.5 dB mVp-p mVp-p dB V VXO-RP T28A V VXO-RN T28A ACCR1 T28A REC ACC characteristics 2 ACCR2 T28A T14A VIN = 1 Vp-p standard color bar signal and chroma signal only boosted by -6 dB T14A burst level measured and compared to VOR-14 T14A -0.5 -0.1 dB REC ACC Killer input level VACCK-ON T28A T14A input burst level measured when output goes off and compared to standard input level, with VIN = 1 Vp-p standard color bar signal and chroma signal being gradually attenuated. -26 dB REC ACC Killer output level REC ACC Demodulator input level V OACCK T28A T14A T14A output level measured with spectrum analyzer and compared to VOR-14, in killer condition as described above. -60 -50 dB VACCK-OFF T28A T14A From killer condition as described above, T14A input burst level is measured when output goes on with input chroma level being gradually increased. This is compared to standard input level. Input signal: 50% white signal superimposed with 4.4336 MHz 300 mVp-p CW. After checking that T14A output is on, CW frequency is raised until T14A output goes off. Frequency then is gradually reduced. CW frequency when T14A output goes on: f1 350 -20 dB REC APC Pull-in range 1 fAPC1 T28A T14A Hz REC APC Pull-in range 2 REC AFC Pull-in range 1 fAPC2 T28A T14A Same as above, CW frequency is lowered until T14A output goes off. Then frequency is gradually raised. CW frequency when T14A output goes on: f2 -350 Hz fAFC1 T28A T51 300 mVp-p, 15.6 kHz pulse train with 5 s pulse width is input. Pulse train frequency is raised until T51 output waveform is impaired. Then frequency is lowered. Pulse train frequency when T51 waveform becomes normal: f1 +1.0 kHz REC AFC Pull-in range 2 fAFC2 T28A T51 Same as above, pulse train frequency is lowered until T51 output waveform is impaired. Then frequency is raised. Pulse train frequency when T51 waveform becomes normal: f2 -1.0 kHz BGP delay time BGP width tD tW T28 T37 T60 T37 and T60 waveforms are observed with standard color bar input to T28A T37 T60 3.1 4.7 3.4 4.9 3.7 5.1 s s tD tW A10276 Continued on next page No. 5843-5/25 LA71525M Continued from preceding page Parameter 2 fsc output level 2 fsc duty [PB mode chroma chroma] PB chroma video Output level (PAL mode) Symbol Input T28A T28A T15A T26A Output T58 T58 T38 Conditions T58 level measured in no-signal input condition T58 duty measured in no-signal input condition From T15A in PB and SP mode, a chroma signal down-converted from the PAL chroma noise test signal (SP mode, burst 80 mVp-p) and mixed with a 4 MHz 300 mVp-p sine wave is input. From T26A, a 50% white signal is input. Burst level is measured at T38. PB chroma video Output level (NTSC mode) Ratings min 360 40 490 typ 400 50 580 max 60 670 Unit V2fsc D2fsc P Vop-38 440 mVp-p % mVp-p NVop-38 T15A T26A T38 From T15A in PB and SP mode, a chroma signal down-converted from the NTSC chroma noise test signal (SP mode, burst 160 mVp-p) and mixed with a 4 MHz 300 mVp-p sine wave is input. From T26A, a 50% white signal is input. Burst level is measured at T38. 490 580 670 mVp-p PB chroma Pin 46 output level Vop-46 ACCP1 T15A T26A T15A T26A T46 T46 T46 Under same conditions as for PVop-38, T46 burst level is measured. Under same conditions as for PVop-38, input chroma level is raised by +6 dB. T46 burst level is measured and compared to PVop-46. Under same conditions as for PVop-38, input chroma level is raised by -6 dB. T46 burst level is measured and compared to PVop-38. Under same conditions as for PVop-38, input chroma level is attenuated and input burst level is measured when chroma output at T46 goes off (compared to standard input 80 mVp-p) T38 T38 170 200 0.5 230 0.8 mVp-p dB PB ACC characteristics 1 PB ACC characteristics 2 ACCP2 T15A T26A -0.5 -0.2 dB PB killer input level VACK-P T15A T26A T46 -25 dB Chroma output level in PPB killer condition PB main converter carrier leak V OACK-P T15A T26A T38 measured with spectrum analyzer and compared to PVop-38 in killer condition as described above. Under same conditions as for PVop-38, T38 is measured with spectrum analyzer and 4.43 MHz component is compared to 5.06 MHz component. -44 -40 -40 -33 dB dB C LP T15A T26A Burst deemphasis (NTSC mode) GBD T15A T26A T46 629 kHz, 160 mVp-p CW is mixed with 4 MHz, 300 mVp-p CW and input to T15A. 50% white signal is input from T26A. Output level during T46 burst interval and during other times is compared. -5.75 -5.50 -5.25 dB PB XO output level (PAL mode) PB XO oscillator frequency deviation (PAL mode) NTSC -> PAL conversion V axis burst level VXO-PP fXOP V BNAP T15A T26A T59 T59 T59 output level measured with FET probe in PB mode T59 frequency measured in PB mode: f 300 -9 -1 500 0 0 700 mVp-p Hz dB +9 +1 From T15A, down-converted chroma noise test signal T38 mixed with 4 MHz, 300 mVp-p CW is input. From T26A, 50% white signal is input. -45 burst level at T38 is measured and compared to P Vop-38 NTSC -> PAL conversion Burst level ratio B-NAP T15A T26A T38 Under same conditions as above, +45 burst level is measured and compared to VBNAP -2 0 +2 dB Continued on next page No. 5843-6/25 LA71525M Continued from preceding page Parameter NTSC -> PAL conversion chroma phase Symbol Input T15A T26A T38 Output Conditions 4 MHz, 300 mVp-p CW and 100% chroma signal phase shifted by -90 from burst are mixed and input to T15A. 50% white signal is input to T26A. Chroma phase when pin 67 is 0V is measured and taken as 1. Chroma phase when pin 67 is 5V is measured and taken as 2. P-NAP = 1 - 2 [REC mode/EQ] REC EQ characteristics 1 REC EQ secondary distortion REC EQ characteristics 2 REC EQ characteristics 3 REC EQ characteristics 4 REC EQ characteristics 5 [PB mode/EQ] PB EQ characteristics 1 PB EQ secondary distortion PB EQ characteristics 2 PB EQ characteristics 3 PB EQ characteristics 4 PB EQ characteristics 5 PB EQ characteristics 6 Ratings min 160 typ 180 max 200 Unit deg P-NAP GREQ1 HREQ GREQ2 GREQ3 GREQ4 GREQ5 T22 T22 T22 T22 T22 T22 T18 T18 T18 T18 T18 T18 VIN = 500 mVp-p, f = 4 MHz Input/output response measured Under same conditions as above, secondary harmonics are measured. -3 -2 -1 -35 -20 -20 dB dB dB dB dB dB -40 VIN = 500 mVp-p, f = 627 kHz Input/output response measured VIN = 500 mVp-p, f = 1.07 MHz Input/output response measured V IN = 500 mVp-p, f = 4.5 MHz Input/output response measured VIN = 500 mVp-p, f = 2.0 MHz Input/output response measured -3.3 -1 -2.3 0 -1.3 +1 GPEQ1 HPEQ GPEQ2 GPEQ3 GPEQ4 GPEQ5 GPEQ6 T15A T15A T15A T15A T15A T15A T15A T17 T17 T17 T17 T17 T17 T17 VIN = 400 mVp-p, f = 4 MHz Input/output response measured Under same conditions as above, secondary harmonics are measured. -2.5 -1.1 -40 0.0 -30 -30 dB dB dB MHz VIN = 400 mVp-p, f = 627 kHz Input/output response measured VIN = 400 mVp-p High-range trap frequency and gain measured VIN = 400 mVp-p, f = 1.07 MHz Input/output response measured VIN = 400 mVp-p, f = 4.5 MHz Input/output response measured VIN = 400 mVp-p, f = 2.0 MHz Input/output response measured -1 -11 0 -10 7.8 -25 -30 +1 -9 dB dB dB dB Continued on next page No. 5843-7/25 LA71525M Electrical Characteristics of Audio System Parameter LINE AMP voltage gain (PB) LINE AMP voltage gain (A1, A2, A3) LINE AMP distortion (PB) LINE AMP Output noise voltage (PB) LINE AMP Maximum output voltage (PB) Output voltage with LINE AMP ALC LINE AMP ALC effect LINE AMP ALC distortion MUTE attenuation Symbol Input T11 T71 T73 T75 Output T77 T77 Conditions Ratings min 23.0 23.0 typ 23.5 23.5 max 24.0 24.0 Unit dB dB VGLP VGLR VIN = -30 dBV VIN = -30 dBV THDL VNOL V OML VOA ALC THDA MPB MA1 MA2 MA3 T11 -- T11 T73 T73 T73 T11 T71 T73 T75 T7 -- T79 T79 T79 -- -- -- T77 T77 T77 T77 T77 T77 T77 VIN = -30 dBV Rg = 1 k, DIN audio filter Output voltage for 1% THD 0.01 -80.0 0.1 -74.0 1.5 1.7 -6 1 0.1 0.4 -70.5 1.7 1.9 -5 3 0.5 % dBV : VCC = 6.8V : VCC = 7.5V 1.3 1.5 -7 0 0.01 Vrms dBV dB % VIN = -28 dBV T73 input level reduced from -28 dBV to -8 dBV VIN = -28 dBV -10 dBV signals applied to all inputs and MUTE enabled. 80 90 120 dB EQ AMP open circuit voltage gain EQ AMP input converted noise voltage REC AMP voltage gain REC AMP distortion REC AMP Maximum output voltage Current drain (REC) Current drain (PB) DC offset voltage (PB) in MUTE condition VGOE VNIE VGR THDR VOMR ICCRA ICCPA MT DCO T10 T10 T1 T1 T1 -- -- T77 VIN = -66 dBV Rg = 620, DIN audio filter 58 0.1 13.6 0.001 64 0.8 14.1 0.1 1.5 1.7 11.0 11.5 9.5 10.0 30 70 dB 1.8 Vrms 14.6 0.4 1.7 1.9 13.2 13.8 11.4 12.0 50 mA mV dB % Vrms mA VIN = -20 dBV VIN = -20 dBV Output voltage for 1% THD Output voltage for 1% THD Influx current measured at pin 76 (no-signal condition) Influx current measured at pin 76 (no-signal condition) (no-signal condition) : VCC = 6.8V : VCC = 7.5V : VCC = 6.8V : VCC = 7.5V : VCC = 6.8V : VCC = 7.5V 1.3 1.5 8.8 9.2 7.6 8.0 0 DC offset voltage at pin 77 measured for MUTE ON No. 5843-8/25 LA71525M Pin Function Pin number Pin name Standard DC voltage Signal waveform Equivalent circuit Power ON/OFF H 1 VCC 1 A-REC-OUT 3.3V CW, 3.2 Vp-p 100k 15k A10277 2 A-GND 0V REC MODE SP-CW LP, EP-0V 3 A-EQ-SW1 3.3V REC MODE NONE 3 55k REC-LP,EP H 50k A10278 REC MODE NONE 4 A-EQ-SW2 0V PB, EP MODE SP, LP-CW EP-0V 4 PB-EP H A10279 REC MODE DC V REF REC VREF A10280 5 A-REC-SW 3.3V PB MODE CW 1 mVp-p 5 REC 7V 6 A-HEAD SW-CTL PB 0V DC PB H 6 50k A10281 REC DC 3.3V 7 A-EQ-IN 3.3V PB CW, 1 mVp-p 7 VREF 120k REC DC 3.3V 8 A-EQ-NFB 3.3V 100A 8 A10282 PB CW, 1 mVp-p Continued on next page No. 5843-9/25 LA71525M Continued from preceding page Pin number Pin name Standard DC voltage Signal waveform Equivalent circuit REC DC 3.3V 200 SL/LP H 9 A-EQ-SW1 3.3V PB CW, 95 mVp-p 9 10 100A REC DC 3.3V 10 A-EQ-OUT 3.3V PB CW, 95 mVp-p A10283 VREF REC DC 3.3V 11 A-LINE-PB-IN 3.3V PB CW 95 mVp-p 11 120k 500 500 100A A10284 200 1k 200 AGC-TC1 REC 2.3V DC 200 2.3V 500 1k 500 500 12 12 Carrier Leak Balancer PB 2.3V DC 1k 50A(REC) A10285 REC 1.8V 2k 13 1k 200 13 ACC-FILT DC 250 50k PB 1.8V 200A A10286 REC 2.8V 200 200mVp-p 627kHz 14 REC-C-OUT 14 PB 0V A10287 650A(REC) A10288 Continued on next page No. 5843-10/25 LA71525M Continued from preceding page Pin number Pin name Standard DC voltage Signal waveform PB-Y-FM 400 mVp-p REC 4.2V PB Y-FM/C-IN C-IN (FROM Pre) PB 3.2V A10289 Equivalent circuit 200 200 500 15 10k 3.70V 15 500 10k 10pF 100A A10290 REC 1.6V A-EQ-OUT 16 PM (R03) DC 1k 1k REG 300 PB 1.6V 16 1k 1k A10291 200 REC 2.6V FM 730 mVp-p 17 PB-EQ-OUT PB Y-FM 340 mVp-p PB 2.6V 100 17 200 180A(PB) A10292 A10293 PEC Y-FM 730 mVp-p REC 1.9V REC-Y FM-OUT 18 30k A10294 A10295 200 18 100 PB 1.9V REC 4.2V REC PAUSE 2.5V 19 REC-H-OUT DC 22k 20k 19 EE or PB 0V 50k 30k A10296 Continued on next page No. 5843-11/25 LA71525M Continued from preceding page Pin number Pin name Standard DC voltage Signal waveform Equivalent circuit REC 4.7V FM 700 mVp-p 8k 20 500 500 20 PB-Y-FM-IN (FROM EQ) PB 2.5V PB-Y FM 320 mVp-p 3.25V 8k 100A(PB) A10297 A10298 125A REC 1.6V 500 200 2k 500 1k 21 AGC-TC2 DC 21 30k PB 1.7V REC-ON A10299 REC 0V PB-EMITTER -PEAKING PB 2.6V DC 200 22 22 340mVp-p 200 50k A10300 A10301 500 mV REC 2.1V 24 200 A10302 2k 2k 2.1V 23 MAIN-EMPH OUT PB 0V 23 500 1k 2pF A10303 24 00 mVp-p REC 2.1V 24 MAIN-EMPH FILTER 200 2k 2k 2.1V A10304 23 500 1k 2pF PB 0V DC A10305 Continued on next page No. 5843-12/25 LA71525M Continued from preceding page Pin number Pin name Standard DC voltage Signal waveform Equivalent circuit 640A 200 A10306 500mVp-p REC-Y REC 1.6V 25 500mVp-p MAIN-DE-EMPH. OUT PB 1.2V A10307 2.5k 25 A10308 500mVp-p REC 2.9V A10309 30k 15k 15k 200 26 CLAMP-IN 500mVp-p PB 2.8V A10310 20k 26 500 400A A10311 27 Y-GND 0V 28 REC VSYNC 1.7V 28 VIDEO-IN1 1.0Vp-p 200 A10312 50k 10k 2.3V PB 0V DC 22A 24A 24A A10313 7.5k 500 29 REC 2.6V FBC-FILT (Feed Back Clamp) 200 29 DC 500 500 20k PB 2.6V 130A A10314 30 REC VSYNC 1.7V 30 VIDEO-IN2 1.0Vp-p 200 A10315 50k 10k 2.3V PB 0V 22A 24A 24A A10316 Continued on next page No. 5843-13/25 LA71525M Continued from preceding page Pin number Pin name Standard DC voltage Signal waveform Equivalent circuit REC 4.1V 31 31 REG DC 23k PB 4.1V 10k A10317 32 REC VSYNC 1.7V 1.0Vp-p 200 A10318 50k 10k 32 VIDEO-IN3 2.3V PB 0V 22A 50A 50A 33 1k 1k 10k 24A A10319 0 to 0.8V : Through 1.0 to 2.2V : Character Ins. 2.5 to 3.2V : QH Ins. 3.8 to VCC V : QV Ins. 33 QV/QH-INS CHARA-INS 50k 30k 30k A10320 REC VSYNC 1.7V 34 VPS-OUT 1.0Vp-p 200 A10321 34 PB 0V 470A A10322 1.0Vp-p 4V REC 2.3V A10323 35 7.5k 35 VIDEO-AGC-IN 7.5k 17k PB 3.1V 740A A10324 Continued on next page No. 5843-14/25 LA71525M Continued from preceding page Pin number Pin name Standard DC voltage Signal waveform Equivalent circuit 36 Y-VCC 5V DC 20k 500 500 4.2V 20k 37 SYNC-OUT 0V A10325 200 50k 10pF 37 A10326 100 100 REG 15.5k 200 2.1Vp-p 38 VIDEO-OUT VSYNC 0.8V 38 11k A10327 26k 620A 1.8A A10328 1k 1k 39 REC 3.1V 39 VCA-FILT DC 500 9k PB 3.1V 200A A10329 350 mVp-p 15k 200 REC 2.8V VCA-IN (CLAMP) A10330 1k 15k 40 350mVp-p 40 500 PB 2.8V A10331 100A A10332 41 VCC2 5V DC Continued on next page No. 5843-15/25 LA71525M Continued from preceding page Pin number Pin name Standard DC voltage Signal waveform Equivalent circuit 350mVp-p REC 1.8V A10333 350 42 Y-CCD-DRIVE 370mVp-p PB 1.8V A10334 42 370A A10335 NTSC MODE 4.2V 43 NTSC-H OUT WITHOUT NTSC MODE 0V DC 200 43 50k 50k A10336 REC 1.7V 1k 1k REG 44 PQ 2 (RO2) DC 300 PB 1.8V 44 1k 1k A10337 4k 1k REC 1.8V 210mVp-p 65k 45 PB CHROMA IN 45 A10338 PB 1.9V 35k A10339 REC 0V PB CHROMA OUT 100 210mVp-p 46 46 PB 2.0V A10340 400A (PB) A10341 Continued on next page No. 5843-16/25 LA71525M Continued from preceding page Pin number Pin name Standard DC voltage Signal waveform Equivalent circuit 47 C-VCC 5V DC 150mVp-p REC 2.8V A10342 48 C-CCD-DRIVE2 48 440A (PB) 130mVp-p PB 2.8V A10343 A10344 500 200 500 REC 4.0V 200 49 49 SLD-FILT DC 22k 1k 51 A10345 PB 4.1V 2k 150mVp-p REC 2.9V A10346 250 50 C-CCD-DRIVE 1 130mVp-p PB 2.9V A10347 50 440A A10348 500k 200 500k REC 4.0V H 10mVp-p A10349 49 200 51 AFC/APC-FILT 22k 2k 1k PB 4.0V Field A10350 51 A10351 97A 140mVp-p 52 C-CCD-IN 3.2V 52 10k 2.5V A10352 500 A10353 Continued on next page No. 5843-17/25 LA71525M Continued from preceding page Pin number Pin name Standard DC voltage Signal waveform Equivalent circuit P.A.STOP 53 53 PA STOP-TR-SW 0V DC H A10354 50k 54 REC-APC-FILTER 2.1V 50k H A10355 5k 2.1V 70k 3rd H 54 A10356 55 REC 4.0V 600mVp-p A10358 200 200 500 2k 55 VXO/XO-IN PB 3.9V 600mVp-p 62A (VXO) A10358 90A 650A 340A (XO) (VXO) A10359 REC 2.5V 600mVp-p A10360 100 200 100 900 2k 56 VXO/XO-OUT 100k 56 300k PB 2.5V 500mVp-p 900A 100A (XO) (XO) A10361 500A A10362 57 C-GND 0V DC REC 1.5V 2 fsc/PB-H OUT PB 2.8V 400mVp-p 5k A10363 200 58 200 58 400mVp-p A10364 500 A10365 Continued on next page No. 5843-18/25 LA71525M Continued from preceding page Pin number Pin name Standard DC voltage Signal waveform Equivalent circuit 1k REG 1k REC 1.5V RL (RO4) DC 59 300 PB 1.5V DC 59 1k 1k A10366 60 200 60 BGP-OUT SYNC+BGP SYNC 1.4V (typ) BGP 4.0V or MORE 50k 20k A10367 1k 200 5k Color 2.0V 61 KILL-FILT DC 1k 1.66k 61 A10368 killer 3.0V 260 2.5V ACK-OUT MODE 62 ACK/SLD OUT SLD-OUT MODE KILLER MODE 4V or MORE COLOR MODE 0V 200 KIL H 2k 2k 20k SLD PULSE 62 200A 0A 1H A10369 A10370 50A 15k 25k 63 SERIALCLOCK-IN 3.0V 5V 1.6V 0V A10371 3V 63 300 60k A10372 Continued on next page No. 5843-19/25 LA71525M Continued from preceding page Pin number Pin name Standard DC voltage Signal waveform Equivalent circuit 50A 15k 25k 64 SERIALDATA-IN 3.0V 5V 1.5V 0V A10373 3V 64 300 ACK A10374 60k REC 1.6V PQ1 (RO1) PB 1.6V 65 1k 1k REG 65 DC 300 1k 1k A10375 0.8V 1k 85k 66 1k 66 C-ROTARYPULSE-IN 0 A10376 20k A10377 0.8V 67 1k 67 CSC-PULSE-IN 20k 0 A10378 A10379 +45 4V or MORE 68 PAL-PULSE +45 1V or LESS 50k 68 A10380 REC 2.1V 17k 40k 69 40k 2.2k 500 23k 69 NC-CTL DC PB 2.1V A10381 Continued on next page No. 5843-20/25 LA71525M Continued from preceding page Pin number Pin name Standard DC voltage Signal waveform 70 10k Equivalent circuit 70 A-MUTEON/OFF MUTE 3V or MORE DC 45k 2.5V 45k 100A GND A10382 VREF REC CW, 95 mVp-p 120k 71 71 A-LINE-IN1 3.3V PB DC 3.3V 100A A10383 VCC REC: ADAPTIVE 200 72 A-ALC-DET 0V 150 72 2k 10k A10384 PB DC 0V VREF REC CW, 95 mVp-p 120k 73 A-LINE-IN2 3.3V 73 PB DC 3.3V 100A A10385 VCC 43k 500 500 500 39k 100k GND A10386 74 A-V REF-FILTER 24k 3.3V DC 74 22k Continued on next page No. 5843-21/25 LA71525M Continued from preceding page Pin number Pin name Standard DC voltage Signal waveform Equivalent circuit VREF REC CW, 95 mVp-p 120k 75 A-LINE-IN3 3.3V 75 PB DC 3.3V 100A A10387 76 A-V CC 7V DC Power ON/OFF H VCC 77 A-LINE-OUT 77 3.3V CW, 1.4 Vp-p 75k 10k A10388 78 A-ALC DET-IN 0V CW, 1.0 Vp-p 78 500 A10389 VREF REC CW, 745 mVp-p 79 120k 500 79 A-REC-IN 3.3V PB DC 3.3V 100A A10390 VREF VREF 1.8k 500 80 7.3k REC CW 745 mVp-p 120k 80 A-REC-NFB 3.3V PB DC 3.3V 100A 1 A10391 No. 5843-22/25 0.01 F 14 VSS 2FSC/PB-H OUT BGP OUT 1H/2H DL 3 + 13 1H DL VCC(+5V) 1 10 F CHROMA OUT SECAM DET 10 12 11 NT:H 3FSC CLK OUT IN 9 0.01 F 8 0.1 F LC89980 7 0.01F VDD 2 5 N.C. 4 N.C. 6 0.01F 1 k 100 H 47 F + 0.1 F TO/FROM MI-COM.SERVO 100 H PB SECAM CHROMA IN 1.8 k 1 F 1 F + + 8.2 k 1.2 k SERIAL CLOCK IN 0.047F + 47 F 0.1 F 0.01 F 4.43 0.047 F ACK OUT 0.01 F + 0.022 F SERIAL DATA IN 10 F 1 F VCC2(+5V) (POWER SAVE MODE) 64 + 63 VXO1 KIL DET LPF VCO INV SLD LPF P 37 47F 62 ACK OUT AMP R 1 F + 61 57 56 60 59 58 BGP RL 2FSC/PB-H C-GND REC APC DET YNR 39 VIDEO AMP 38 10 F 1 M 55 54 53 52 51 50 49 48 65 PQ1 CLP 40 NAP KIL B.D. R 47 46 C-VCC BPF 45 44 43 PQ2 P 42 41 VCC2 C-ROT IN COMB AFC DET TH P Y-VCC 36 VIDEO AGC 35 34 QV/QH INS CNC SYNC SEPA FBC R P AGC DET DETAIL EMPH P R CLAMP RP 28 MAIN EMPH N.L. EMPH R P CLAMP 33 32 0.1 F + + 51 k C-ROT 66 IN 0.1 F + 51 k 67 CSOP IN PB APC DET R PB BGA-B BPF1 SUB CONV P SUB BPF BPF2 YC MIX ACC AMP MOD LINE AMP P REC P C-LPF R KIL 13 0.047 F VIDEO OUT C-SYNC OUT 0.01 F COLOR SEQUENCIAL COMPENSATOR PULSE IN PAL-PULSE OUT SERIAL DECODER PB BGA-A R.A B 1/2 DHP NC N.L. DE-EM 10 F 68 PAL-PULSE P 69 NC-CTL MUTE CTL 82 k 0.1 F 70 MUTE CTL AUDIO IN1 P R ALC VREF ALC DET ACC DET MAIN CONV REC BGA R PIC CTL 71 100 H SUB TITLE DECODER VPS OUT QV.QH.CHARA.IN VIDEO IN3 6.8 k + 22 F 72 Block Diagram and Sample Application Circuit 82 k LA71525M AUDIO IN2 2.2 M 6.8 k 0.1 F 73 + AUDIO IN3 R P 82 k 33 F REG 74 31 3 2 1 + 47 F 0.1 F 6.8 k 0.1 F 75 CLAMP 30 29 0.1 F + VIDEO IN2 1 F 0.1 F 47 F VCC+7V MUTE + 76 A-VCC LINE OUT 0.1 F + 15 k 4.7 F 77 VIDEO IN1 13 k 1.8 k 2SC3331 0.1 F 79 FM AGC PB-EQ REC EQ DOUBLE LIMIT CLP R P MAIN EMPH 26 25 + REC Y-GND 78 27 1 F 1 k 4.7 k PB-EP REC 80 REC AMP A-GND REC-EP.LP 3.3 k EQ PB-LP.SP AMP 7 1 F 8.2 k + 1 + 2 3 4 5 HD SW 6 8 9 10 11 14 15 BAL TC1 12 PM 16 17 SUB REC DEMOD LPF HIGH OUT PEAKING 23 21 22 18 19 20 22 F 0.01 F 120 H + 24 2.7 k 200 pF 1.3 k 56 pF 0.1 F 12 k 390 10 F 33 pF 47 H + 3.3k 43 pF 0.01 F 330 k + 0.022 F 1 k 180 22 F AE 10 390 820 0.01 F 390 pF 680 M REC SECAM CHROMA IN PHASE COMPENSATION 2.2 k 220 pF FE + + 0.022 F 0.01 F H.SW.P.IN 12 11 10 9 REC H REC C IN REC FM IN 10 k 2SC3331 1 k 2SA1318 PB-L 8 7 PB YC OUT 6 5 C SYNC IN 4 HSWP IN 3 2 1 TRICK H R/P 22 k 2SC3331 1 k No. 5843-23/25 13 LA70010 4HD AMP 24 A10392 0.01 F 0.01 F 14 VSS 1H/2H DL 3 N.C. 4 5 7 N.C. 6 1H DL 13 10 12 11 NT:H 3FSC CLK OUT IN 9 8 0.1 F LC89980 SW51 321 0.01 F 1 VDD 2 0.01 F 47 F 100 H + T60 TO/FROM MI-COM.SERVO T46 10 k 0.1 F Test Circuit Diagram 1.8 k 0.01 F 1 k 100 H T62 T56 ACK/SLD OUT 4.43 PAL T51 1 F 0.022 F + + 0.047 F SW49 0.047 F 47 F T63A 1.8 k SERIAL CLOCK IN + 8.2 k 1 F 0.01 F + 0.022 F 2.2 k 1 F VCC1 1 F 0.022 F T64 SERIAL DATA IN + 5V 1 2 SW41 64 + 63 VXO1 KIL DET LPF VCO INV SLD LPF P 37 Y-VCC 36 VIDEO AGC 35 34 QV/QH INS CNC SYNC SEPA FBC R P AGC DET P DETAIL EMPH R CLAMP RP Y-GND + 62 ACK OUT AMP R 1F 61 57 56 60 59 58 BGP RL 2FSC/PB-H C-GND YNR 39 VIDEO AMP 38 0.1F 47F + + 55 54 53 52 51 50 49 48 65 PQ1 CLP 10F 1.0M 470F 51 + 46 47 C-VCC BPF 40 VIDEO-OUT 75 45 44 43 PQ2 P T38A 42 41 VCC2 T66A C-ROT IN KIL B.D. R C-ROT 66 IN COMB P NAP 75 T38 T37 T67A H.SW.P IN PB APC DET R N.L. DE-EM 1/2 PB BGA-B BPF1 P R SUB CONV P SUB BPF BPF2 YC MIX R R PIC CTL P ALC VREF REC BGA DHP NC AFC DET TH 67 CSOP IN SW67 68 PAL-PULSE SERIAL DECODER PB BGA-A R.A B P SYNC-OUT 100H 123 0.01 F 69 NC-CTL 2 SW70 70 MUTE CTL SW71 1F 1 k 1 0.1 F 71 LA71525M SW72 22 F + SW73B 72 33 CLAMP REG T33 QVQH INS 32 T31 T73A 1 2 3 1 2.2 M T72 2 SW73A 0.1 F 73 0.1F T32A VIDEO-IN3 31 3 2 1 + 1 k + 47F 0.1F 1 + 2 SW75 33 F 74 0.1 F 75 ALC DET MOD LINE AMP P REC P C-LPF R KIL 13 0.047 F CLAMP 30 0.1F T30A VIDEO-IN2 29 28 0.1F + VCC2 7V 1 k 0.1 F 4.7 F 76 A-VCC MUTE ACC DET MAIN EMPH N.L. EMPH R P ACC AMP MAIN CONV 1F T28A 15 k T77A + 4.7 F 77 VIDEO-IN1 27 T26 T79A 1 SW79 0.1 F 79 REC PB-EP FM AGC PB-EQ REC EQ DOUBLE LIMIT CLP R P MAIN EMPH 26 25 1F + 1 2 SW80 10 F 80 A-GND REC AMP EQ AMP 7 1 F + + + 2 13 k 78 REC 2 T26A 1 SW26 1 k 4.7 k 1.3 k 200 pF REC-EP.LP 1 + 2 4.7 F 0.1 F 3 4 5 HD SW 6 8 9 10 PB-LP.SP 11 14 0.022 F BAL TC1 12 15 PM 16 17 2.2 k SUB REC DEMOD LPF HIGH OUT PEAKING 22 23 19 20 21 18 REC-H OUT 0.01 F 22 F + 24 2.7 k 56 pF T24 T25 18 k 1 k 12 620 PM-IN 12 k SW11 312 10F T10A T11A PM-OUT SW20 43 pF 0.01 F SW24 SW22 1 k 10 k T14A T15A T20A 120 H 3.3 k T17 T18 T19 390 pF 680 SW7 39 k 0.022 F 1 k 0.01 F T1A + 10 F 330 4.7 k SW8 1 k + 39 k T7A 330 k 0.01 F T23 2.2 K 0.01 F REC APC DET No. 5843-24/25 A10393 LA71525M Specifications of any and all SANYO products described or contained herein stipulate the performance, characteristics, and functions of the described products in the independent state, and are not guarantees of the performance, characteristics, and functions of the described products as mounted in the customer's products or equipment. To verify symptoms and states that cannot be evaluated in an independent device, the customer should always evaluate and test devices mounted in the customer's products or equipment. SANYO Electric Co., Ltd. strives to supply high-quality high-reliability products. However, any and all semiconductor products fail with some probability. It is possible that these probabilistic failures could give rise to accidents or events that could endanger human lives, that could give rise to smoke or fire, or that could cause damage to other property. When designing equipment, adopt safety measures so that these kinds of accidents or events cannot occur. Such measures include but are not limited to protective circuits and error prevention circuits for safe design, redundant design, and structural design. In the event that any or all SANYO products(including technical data,services) described or contained herein are controlled under any of applicable local export control laws and regulations, such products must not be exported without obtaining the export license from the authorities concerned in accordance with the above law. No part of this publication may be reproduced or transmitted in any form or by any means, electronic or mechanical, including photocopying and recording, or any information storage or retrieval system, or otherwise, without the prior written permission of SANYO Electric Co., Ltd. Any and all information described or contained herein are subject to change without notice due to product/technology improvement, etc. When designing equipment, refer to the "Delivery Specification" for the SANYO product that you intend to use. Information (including circuit diagrams and circuit parameters) herein is for example only ; it is not guaranteed for volume production. SANYO believes information herein is accurate and reliable, but no guarantees are made or implied regarding its use or any infringements of intellectual property rights or other rights of third parties. This catalog provides information as of March, 1999. Specifications and information herein are subject to change without notice. PS No. 5843-25/25 |
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