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ICs for Video Camera AN2125FHS Analog signal processing super single-chip IC for CCD camera I Overview The AN2125FHS is a super single-chip IC, working as an image signal processing circuit for CCD camera including Y/C mix, 75- driver, and sub-carrier generation functions as well as luminance signal processing, color difference signal processing functions and an encoder. Moreover, the AN2125FHS includes auto-whitebalance control circuits, operational amplifiers for AGC, and automatic read-out function from EEPROM at power-on sequence, and DACs for adjustment, therefore a CCD camera system without a microcomputer can be constructed by only additional EEPROM. 102 103 23.20.3 20.00.2 65 Unit: mm 128 1 (0.75) 38 39 1.40.1 3.00.2 1.40.1 0.10.1 +0.1 0.15-0.05 14.00.2 17.20.3 (0.75) 64 0.50 0.18+0.1 -0.05 Seating plane 0 to 10 0.800.20 I Features * For 510H (250 000 pixels) CCD * NTSC/PAL compatible * On-chip FH lock system (sub-carrier generation) * On-chip automatic read-out function from EEPROM data at power-on * On-chip DAC for adjustment (8 bits, 32 channels) * On-chip circuit for external synchronization * On-chip comparator for electronic iris QFH128-P-1420 I Applications * General CCD cameras including monitor cameras, board cameras, video cameras, videophones, video conference systems, and PC input camera 1 DATA 2 BCLIP OUT YC MIX OUT 75DR OUT HAP OUT TRAP VAP OUT Y OUT Y GAM OUT PED SET VCC VCC 72 82 VAP BC IN 89 0H GAMIN 76 GND 74 AGC OUT Y GAMMA IN 85 HAP BC IN 88 PEDESET IN 92 LLSUP IN 93 YC MIX IN 70 R-Y OUT GND 84 KNEE 77 FADE 86 FB 71 N.C. 67 N.C. 66 90 73 83 75 69 68 81 80 91 B-Y OUT N.C. 65 87 94 95 C GAM R-YIN 96 CSW R-YOUT 99 1H GAMIN 78 Y GAM DCC 79 C GAM Y-BIN 97 CSW Y-BOUT 98 C0H IN 100 N.C. 101 64 Sync. Level 75 Drive BUF 6dB Amp. SYCP BUF Clamp Clamp Clamp N.C. 102 C1H IN CHG Base Clip PBLK Base Clip Fade Cont. Y Amp. Gamma Gamma DL HAP LL SUP YFade -60 dB YAP LPF CP2 DC Clamp Cont. Clamp CPOB CPOB YGAN PBLK PBLK LPF 103 PH/2 PH/2 N.C. 63 62 61 60 AN2125FHS I Block Diagram 1HGC OUT2 Clamp CP2 CBLK H/L Clip PED ch.12 Set 104 1HGC LPF H LH L WCLIP Y IN C IN 1HGC IN2 105 R-Y DCC 1H GC 106 ch.7 1HGC OUT1 107 1HGC LPF B-Y DCC ch.18 ch.19 ch.27 LO LIM HI LIM ch.26 ch.5 B Mat GC B-Y Cont. 108 Clamp Clamp PBLK PBLK CPOB CGAM CGAM Clamp Clamp DC DC CPOB CPOB B-Y R-Y LPF LPF DC DC Cont. Cont. CP2 CP2 75DR IN VD2 Sepa. 59 58 57 ch.22 VD2 DATA VD2 OUT B-Y DET 56 55 1HGC IN1 109 CBLK CBLK CAGC TRAP 1H GC 110 ch.8 ch.2 B-Y GC R-Y GC S/H DCC1 B-Y Cont. 111 R Mat GC BLIM IN 54 ALC SW 113 AGC SW LO LIM ch.24 112 HI LIM ch.23 RLIM IN R-Y DET ch.25 S/H OUT Edge DC CPOB ch.14 Cont. Mix GM Cont. ch.28 ch.29 ch.30 114 H VREF W/B L PH2 GC W/B GC PH2 H V L REF 53 52 Fade BPF CHI Clip Mod. BG MONI BYDCH 51 ch.17 Burst Phase 115 V VREF OUT REF 116 SP1 SH LPF C OUT 50 PBLK C SUP Mod. Clamp SP2 117 CPOB DC SH Cont. LPF ch.14 S/H 1 S/H 2 VREF IN 49 ch.15 Burst ch.13 Level Clamp ch.16 S/H DCC2 118 C AGC BYDCL 48 47 46 45 SIG IN 119 AGC FB 120 Clamp CP2 HC ch.11 Y Main Y AGC LPF R-Y IN B-Y IN WBDET Int. Pulse AGC Mode AGC OP- 121 CDSSIG IRIS 122 ch.9 ch.10 White Clip DL DL ALC DCC 123 32-ch. serial D/A WBSTL/SYNC SCLK2 LDA LDB 44 Clamp CPOB PBLK Gamma CHC/BFP INT/EXT PULSE SW INHD Phase 4FSC Comp. 32 BC RST 43 42 41 CP2/PBLK/CBLK 124 Pulse CPOB/HC Sepa. 125 Pulse PONRE RSTE SCLK 40 Sepa. WBLK Gate DC Cont. CP2 DIST ch.4 ch.5 ch.14 126 ch.21 ch.31 ch.20 DRCT 13 14 15 16 10 127 Pulse Sepa. ch.1 PSC N.C. 9 11 V CC 12 ELC -L 128 124 pin VDD LPF 4FSC Cont. VCC 39 XTAL OUT 17 18 19 20 21 22 38 36 37 33 34 35 28 29 30 31 32 25 26 27 23 8 5 6 7 3 4 24 V DD ICs for Video Camera 1 2 VD HD N.C. N.C. VSS N.C. NCE GND RSTM NP SW LL SW EXTLO XTAL IN EXTLDB EXTLDA FHLOCK GND FH2 IN ELC -H ELC -M ALCOUT WBLK IN ELCDET IN N.C. ALC VROUT VIDEO LEVEL N.C. DATA DAOUT4 DAOUT2 DAOUT1 DAOUT3 DATEST2 DATEST1 SCHTEST ICs for Video Camera I Pin Descriptions Pin No. 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 N.C. N.C. N.C. ELCDET IN ALCOUT WBLK IN GND FH2 IN ELC -H ELC -M VCC ELC -L ALC VROUT VIDEO LEVEL DATEST 1 DATEST 2 DAOUT 1 DAOUT 2 DAOUT 3 SCHTEST DAOUT 4 DATA VSS VDD VD HD LL SW NP SW EXTLO EXTLDB EXTLDA NCE RSTM FHLOCK GND XTAL IN N.C. Description Pin No. 38 39 40 41 42 43 44 45 46 47 48 49 50 51 52 53 54 55 56 57 58 59 60 61 62 63 64 65 66 67 68 69 70 71 72 73 74 N.C. XTAL OUT VCC SCLK RSTE PONRE CHC / BFP WBSTL / SYNC WBDET B-Y IN R-Y IN BYDCL VREF IN C OUT BYDCH BG MONI R-Y DET RLIM IN BLIM IN B-Y DET VD2 OUT VD2 DATA 75DR IN C IN Y IN WCLIP N.C. N.C. N.C. N.C. TRAP YC MIX OUT YC MIX IN FB VCC 75DR OUT GND AN2125FHS Description 3 AN2125FHS I Pin Descriptions (continued) Pin No. 75 76 77 78 79 80 81 82 83 84 85 86 87 88 89 90 91 92 93 94 95 96 97 98 99 100 101 AGC OUT 0H GAMIN KNEE IH GAMIN Y GAM DCC Y GAM OUT PED SET VAP OUT Y OUT GND Y GAMMA IN FADE HAP OUT HAP BC IN VAP BC IN BCLIP OUT VCC PEDESET IN LLSUP IN B-Y OUT R-Y OUT C GAM R-YIN C GAM Y-BIN CSW Y-BOUT CSW R-YOUT C0H IN N.C. Description Pin No. 102 103 104 105 106 107 108 109 110 111 112 113 114 115 116 117 118 119 120 121 122 123 124 125 126 127 128 N.C. C1H IN ICs for Video Camera Description 1HGC OUT2 1HGC IN2 R-Y DCC 1HGC OUT1 B-Y DCC 1HGC IN1 CAGC TRAP S/H DCC1 ALC SW AGC SW S/H OUT VREF OUT SP1 SP2 S/H DCC 2 SIG IN AGC FB AGC OP- CDSSIG IRIS ALC DCC CPOB / HC CP2 / PBLK / CBLK DIST DRCT N.C. I Absolute Maximum Ratings Parameter Supply voltage Supply current Power dissipation *2 *1 Symbol VCC ICC PD Topr Tstg Rating 5.5 170 876 -20 to +75 -55 to +150 Unit V mA mW C C Operating ambient temperature Storage temperature *1 Note) *1: Except for the operating ambient temperature and storage temperature, all ratings are for Ta = 25C. *2: The above power dissipation shows the package power dissipation at Ta = 75C in free air. 4 ICs for Video Camera I Recommended Operating Range Parameter Supply voltage Symbol VCC Range 4.5 to 5.1 AN2125FHS Unit V I Electrical Characteristics at Ta = 25C 2C Parameter Circuit current Reference voltage 1 Reference voltage 2 Pulse separation CPOB Symbol ITOT VREF VDD VCPOB Conditions VCC = 4.8 V VCC = 4.8 V Output voltage of pin 115 VCC = 4.8 V VCC = 4.8 V Voltage of pin 124 is increased from 0 V. Voltage of pin 124 when the voltage of pin 100 changes from the low-level to VREF . Min 90 1.66 3.21 3.3 Typ 120 1.76 3.38 3.6 Max 150 1.86 3.55 3.9 Unit mA V V V Pulse separation PBLK VPBLK VCC = 4.8 V 1.55 Voltage of pin 100 and voltage of pin 125 are increased from VREF + 1 V and from 0 V, respectively. Voltage of pin 125 when the voltage of pin 99 is reduced by 1 V from the high-level. VCC = 4.8 V Voltage of pin 125 is increased from 0 V. Voltage of pin 125 when the voltage of pin 92 changes from the low-level to VREF . VCC = 4.8 V Voltage of pin 92 and voltage of pin 125 are increased from VREF + 1 V and from 0 V, respectively. Voltage of pin 125 when the voltage of pin 83 is reduced by 0.5 V or more from the high-level. (VREF + 1 V) 3.6 1.8 2.05 V Pulse separation CP2 VCP2 3.9 4.2 V Pulse separation CBLK VCBLK 0.6 0.8 1.0 V Pulse separation FH/2 VFH2 VCC = 4.8 V 1.15 Voltage of pin 103, voltage of pin 100 and voltage of pin 8 are increased from VREF , VREF + 1 V, and 0 V, respectively. Voltage of pin 8 when the voltage of pin 99 is reduced by 1 V from the high-level. 1.4 1.65 V 5 AN2125FHS I Electrical Characteristics at Ta = 25C 2C (continued) Parameter Pulse separation SYNC Symbol VSYNC Conditions VCC = 4.8 V Voltage of pin 62 and voltage of pin 45 are reduced from VREF and VCC , respectively. Voltage of pin 45 when the voltage of pin 68 is reduced by 0.3 V or more. VCC = 4.8 V Inputs sine wave of 14 MHz at 1 V[p-p] to pin 36. Voltage of pin 44 is increased from 0 V. Voltage of pin 44 when chroma output of 200 V[p-p] or more at pin 51 is generated. VCC = 4.8 V Pulse level of SP1 is 1.1 V. VCC = 4.8 V Pulse level of SP2 is 1.1 V. VCC = 4.8 V Open pin 60. Voltage of pin 59 is increased from 0 V. Voltage difference between pin 59 and VREF when the voltage of pin 58 changes from the high-level to the low-level. VCC = 4.8 V, Pin 9 = 2.8 V, Pin 10 = 2.3 V, Pin 12 = 1.8 V, Pin 14 = VREF, CH1 = 80 V Voltage of pin 4 is increased from 0 V. Voltage of pin 4 when the output voltage of pin 126 changes from the high-level to the low-level. Voltage of pin 4 is increased from 0 V. VCC = 4.8 V, Pin 9 = 2.8 V, Pin 10 = 2.3 V, Pin 12 = 1.8 V, Pin 14 = VREF, CH1 = 80 V Voltage of pin 4 is increased from 0 V. Voltage of pin 4 when the output voltage of pin 127 changes from the low-level to the high-level. VCC = 4.8 V Output voltage of pin 34 at Pin 27 = VCC V119 = 10 steps, 20 mV[p-p] V119 = 10 steps, 20 mV[p-p] ICs for Video Camera Min 0.8 Typ 1.0 Max 1.2 Unit V Pulse separation BFP VBFP 3.35 3.65 3.95 V Pulse separation SP 1 Pulse separation SP 2 Pulse separation VD2 VSP1 VSP2 VVD2 0.8 0.8 0.8 1.0 1.0 1.0 1.2 1.2 1.2 V V V Comparator threshold 1 VCP1 1.55 1.8 2.05 V Comparator threshold 2 VCP2 2.05 2.3 2.65 V FH lock detection DC VFHDC 1.9 2.0 2.1 V YAGC maximum gain CAGC maximum gain GYAX GCAX 20 20 24 24 28 28 dB dB 6 ICs for Video Camera I Electrical Characteristics at Ta = 25C 2C (continued) Parameter AGC minimum gain 1 AGC minimum gain 2 WB characteristic 1 WB characteristic 2 S/H characteristic Iris GC characteristic Iris gate level difference Iris gamma 1 Iris gamma 2 Iris gamma 3 Iris BLK level difference Delay signal amplifier gain 1 Delay signal amplifier gain 2 Luminance gamma characteristic 1 Luminance gamma characteristic 2 Luminance gamma characteristic 3 Luminance gamma BLK level difference V aperture gain V aperture BLK level difference H aperture gain H aperture base clip V aperture base clip Luminance output amplifier gain Luminance high clip level Luminance low clip level Synchronizing signal output level 2 Pedestal control characteristic 1 Pedestal control characteristic 2 Luminance fade characteristic CSW (R-Y) gain CSW (B-Y) gain CSW (R-Y) BLK level difference CSW (B-Y) BLK level difference CSW (R-Y) FH2 level difference CSW (B-Y) FH2 level difference Symbol GYAN1 GYAN2 VSH2 GSH6 VSH9 VTR2 VWG VIG1 GIG2 GIG3 VWB GIH2 GIH5 VYG1 GYG2 GYG3 VYGB VVA1 VVAB VHA1 VHB1 VVB1 GY1 VYH VYL VSYN2 VYP1 VTP2 GYFB GCS1 GCS2 VCSB1 VCSB2 VCSF1 VCSF2 Conditions V119 = 10 steps, 1 200 mV[p-p] V119 = 10 steps, 1 200 mV[p-p] V119 = sin, 500 kHz, 500 mV[p-p] V119 = sin, 500 kHz, 500 mV[p-p] V119 = Square wave 500 kHz, 1 V[p-p] V122 = 10 steps, 1 200 mV[p-p] V6 = GND V122 = C-GND V122 = 10 steps, 1 500 mV[p-p] V122 = 10 steps, 1 500 mV[p-p] V122 = 10 steps, 1 500 mV[p-p] V122 = C-GND V105 = sin, 500 kHz, 500 mV[p-p] V109 = sin, 500 kHz, 500 mV[p-p] V76 = 10 steps, 700 mV[p-p] V76 = 10 steps, 700 mV[p-p] V76 = 10 steps, 1 500 mV[p-p] V76 = C-GND V78 = sin, 500 kHz, 300 mV[p-p] V76 = V78 = C-GND V92 = sin, 4 MHz, 200 mV[p-p] V88 = sin, 500 kHz, 100 mV[p-p] V89 = sin, 500 kHz, 100 mV[p-p] V92 = 10 steps, 600 mV[p-p] V92 = 10 steps, 1 V[p-p] V92 = 10 steps, 200 mV[p-p] V62 = C-GND V92 = C-GND V92 = C-GND V85 = 10 steps, 600 mV[p-p] Min -8.5 -4.5 -470 -2 700 1 100 -20 800 0.5 0.5 -20 6.5 6.5 450 -13 1.5 -20 Typ -6.5 -2.5 AN2125FHS Max -4.5 - 0.5 Unit dB dB -400 0 800 1 300 0 900 1.7 0 8.0 8.0 550 -11 3.5 0 -330 mV[p-p] 2 dB 900 mV[p-p] 1 500 mV[p-p] 20 mV[p-p] 1 000 mV[p-p] 2.9 20 -9 5.5 20 dB dB mV[p-p] dB dB 650 mV[p-p] dB dB mV[p-p] -1 250 -1 050 -850 mV[p-p] -20 900 90 90 - 0.5 700 -50 260 60 -30 0 1 100 130 130 1.0 840 -30 300 90 -15 -40 0 0 0 0 0 0 20 mV[p-p] 1 300 mV[p-p] 160 mV[p-p] 160 mV[p-p] 2.5 dB 980 mV[p-p] -10 mV[p-p] 340 mV[p-p] 120 mV[p-p] 0 -26 1.5 1.5 20 20 20 20 mV[p-p] dB dB dB mV[p-p] mV[p-p] mV[p-p] mV[p-p] V100 = V103 = 10 steps, 600 mV[p-p] -1.5 V100 = V103 = 10 steps, 600 mV[p-p] -1.5 V100 = V103 = C-GND V100 = V103 = C-GND V100 = V103 = C-GND V100 = V103 = C-GND -20 -20 -20 -20 7 AN2125FHS I Electrical Characteristics at Ta = 25C 2C (continued) Parameter Color difference gamma characteristic 1 Color difference gamma characteristic 2 Color difference gamma characteristic 3 Color difference gamma characteristic 4 Color difference gamma characteristic 5 Color difference gamma characteristic 6 R-Y gain characteristic B-Y gain characteristic B-Y matrix characteristic R-Y matrix characteristic R-Y BLK level difference B-Y BLK level difference Burst level Chroma output amplitude R Chroma output amplitude B Chroma high cut characteristic Chroma fade characteristic High-luminance chroma suppress FH lock range H FH lock range L VXO free-running frequency 75- driver gain Luminance main LPF characteristic Symbol VCG1 GCG2 GCG3 VCG4 GCG5 GCG6 GCL1 GCL3 VCM1I VCM2I VCB1 VCB2 VBU1 GCR1 GCR3 GCH GCF GCS FFH3 FFH2 FFR GDR GYM Conditions V76 = 10 steps, 700 mV[p-p] V96 = 10 steps, 350 mV[p-p] V76 = 10 steps, 700 mV[p-p] V96 = 10 steps, 350 mV[p-p] V76 = 10 steps, 1 500 mV[p-p] V96 = 10 steps, 750 mV[p-p] V76 = 10 steps, 700 mV[p-p] V96 = 10 steps, 350 mV[p-p] V76 = 10 steps, 700 mV[p-p] V96 = 10 steps, 350 mV[p-p] V76 = 10 steps, 1 500 mV[p-p] V96 = 10 steps, 750 mV[p-p] V96 = sin, 500 kHz, 200 mV[p-p] V97 = sin, 500 kHz, 200 mV[p-p] V97 = 10 steps, 300 mV[p-p] V96 = 10 steps, 300 mV[p-p] V100 = V103 = C-GND V100 = V103 = C-GND V48 = White, 200 mV[p-p], V47 = C-GND V48 = White, 200 mV[p-p], V47 = C-GND V48 = C-GND, V47 = White, 200 mV[p-p] V48 = White, 400 mV[p-p], V47 = C-GND V48 =White, 200 mV[p-p], V47 = C-GND V48 = V92 = White, 500 mV[p-p] V47 = C-GND HD + 1 Hz HD - 1 Hz V27 = VCC V124 = GND V62 = 10 steps, 700 mV[p-p] V119 = V76 = sin, 4.77 MHz, 500 mV[p-p] ICs for Video Camera Min 10 -13 2.0 10 -13 2.0 6.5 6.5 -160 40 -20 -20 253 6 1 680 0.75 3.57 9 465 -1.5 -30 Typ 80 -10.5 3.5 80 -10.5 3.5 10.0 10.0 -100 100 0 0 300 8 3 760 -40 -40 3.57 9 545 0 -20 Max F0 -8 5.0 F0 -8 5.0 13.5 13.5 Unit HEX dB dB HEX dB dB dB dB -40 mV[p-p] 160 mV[p-p] 20 20 mV[p-p] mV[p-p] 347 mV[p-p] 10 5 dB dB 840 mV[p-p] -20 -18 - 0.75 3.57 9 625 1.5 -10.5 dB dB Hz Hz MHz dB dB 8 ICs for Video Camera I Electrical Characteristics at Ta = 25C 2C (continued) * Input signal waveform AN2125FHS 1. 10-step APL50 signal 2. 10-step APL50 reverse signal 3. Square wave 4. Sine wave A With BLK and PED B With BLK 5. White signal 0 11 63.5 Time [s] 9 AN2125FHS I Electrical Characteristics at Ta = 25C 2C (continued) * Input signal waveform (continued) CP2 0.5 s PBLK CBLK 3 s 2.5 s 4.5 V 3 s 2.5 V 1.5 s 9 s 1.5 V 11 s ICs for Video Camera 1.5 s CPOB 4.5 V 1.3 s 3 V 1 V to 3 V variable 1 V to 3 V variable 1 s SYNC 3 s 0V WBLK 27 s 0 18 s 2V fH/2 0 2V 4.5 V BFP 5 s 2.5 s 2.4 V 1 V to 3 V variable HD 6.3 s 3V 0 3V 63.5 s = 1 H VD 0H 10 H 2 s 500 kHz Square wave 30 ns 1.1 V SP 1 s 0V 0.8 V 100 H 110 H 200 H 10 ICs for Video Camera I Terminal Equivalent Circuits Pin No. 1 2 3 4 Pin name N.C. N.C. N.C. ELCDET IN 15 A 7.4 k 4 Equivalent circuit AN2125FHS Description Comparator detection signal input for ELC 5 ALCOUT Output for iris detection x 20 x 2 5 40 A 6 WBLK IN 6 350 7 k 120 A 120 A Iris signal gate pulse input 7 8 GND FH2 IN VDD Ground for signal processing system Color-difference-signal synchronizingpulse input 6 k 8 9 ELC -H 15 A 350 Comparator "H" threshold for ELC 9 11 AN2125FHS I Terminal Equivalent Circuits (continued) Pin No. 10 Pin name ELC -M 15 A 10 350 15 A ICs for Video Camera Equivalent circuit Description Comparator "M" threshold for ELC 11 12 VCC ELC -L 20 A 12 350 VCC for signal processing system Comparator "L" threshold for ELC 13 ALC VROUT VIDEO LEVEL dead-zone-addition output 13 350 50k 200 A 14 VIDEO LEVEL VIDEO LEVEL setting DC input 200 A 14 350 200 A 15 DATEST 1 1 k DC monitor of internal DAC ch.14 output and output for other channel Connect pin 124 to ground for test mode. 15 10 k 300 A 16 DATEST 2 1 k Output of internal DAC ch.4 for monitor 16 10 k 300 A 12 ICs for Video Camera I Terminal Equivalent Circuits (continued) Pin No. 17 Pin name DAOUT 1 1 k Equivalent circuit AN2125FHS Description External DAC ch.5 output 17 300 A 18 DAOUT 2 1 k External DAC ch.21 output 18 300 A 19 DAOUT 3 1 k External DAC ch.31 output 19 300 A 20 21 SCHTEST DAOUT 4 20 SCH mode monitor External DAC ch.20 output and DC monitor for other channel output Connect pin 124 to ground for test mode. 1 k 21 300 A 22 DATA 22 6 k DAC data input 23 24 25 VSS VDD VD Ground of logic circuits part Power supply monitor of logic circuits part: Approx. 3.5 V Vertical synchronization pulse input 6 k 25 13 AN2125FHS I Terminal Equivalent Circuits (continued) Pin No. 26 HD Pin name Equivalent circuit 6 k 26 ICs for Video Camera Description Horizontal synchronization pulse input 27 LL SW 6 k 27 LL/INT setting H: LL mode L: INT mode 28 NP SW 6 k 28 29 EXTLO 10 k 29 2 k NTSC/PAL setting H: NTSC L: PAL Power-on read setting H: DAC change disabled. L: DAC change enabled. 85 k 30 EXTLDB 30 10 k DAC load pulse input 2 Ch.17 to ch.32 are assigned. 31 EXTLDA 31 10 k DAC load pulse input 1 Ch.1 to ch.16 are assigned. 32 NCE 10 k 32 CE control input for EEPROM 33 RSTM RST control input for EEPROM 33 10 k 14 ICs for Video Camera I Terminal Equivalent Circuits (continued) Pin No. 34 Pin name FHLOCK 3 k 30 k AN2125FHS Equivalent circuit Description INT mode error pulse detection output: Approx. 2 VDC 300 1 k 1 k 1 k 3 k 34 35 36 GND XTAL IN XTAL: ground of encoder system 4 fSC input 36 200 6 k 2.7 k 40 A 37 38 39 N.C. N.C. XTAL OUT 200 x4 x4 4 fSC output 39 x1 x1 200 70 A 40 41 VCC SCLK 41 6 k XTAL: VCC of encoder system DAC CLK I/O SLK input at adjusting CLK output at reading EEPROM data 42 RSTE 42 RST output for EEPROM 43 PONRE 43 CE output for EEPROM 15 AN2125FHS I Terminal Equivalent Circuits (continued) Pin No. 44 Pin name CHC / BFP 50 A 44 350 20 A Equivalent circuit ICs for Video Camera Description Chroma high cut setting/BFP input and luminance High luminance threshold for WB-speed variation-setting 20 A 1 k 1 k 45 WBSTL / SYNC 20 A 45 350 64 k Low luminance threshold for WB-speed variation-setting SYNC pulse input 1 k 1 k 46 WBDET 20 A 70 k WB variable switch detection output 46 1 k 47 B-Y IN VREF 50 A 47 50 A B-Y signal encoder input 1 k 48 R-Y IN R-Y signal encoder input 50 A 48 50 A VREF 1 k 16 ICs for Video Camera I Terminal Equivalent Circuits (continued) Pin No. 49 Pin name BYDCL 25 A 49 350 1 k AN2125FHS Equivalent circuit Description Low color temperature inclination setting for B-Y color reproduction curve 50 51 VREF IN C OUT VREF (pin 115) input Encoder chroma output 190 x2 51 x2 190 52 BYDCH 50 A 70 A High color temperature inclination setting for B-Y color reproduction curve 25 A 52 350 1 k 53 BG MONI 53 350 Y-B color reproduction curve monitor 120 A 50 A 54 R-Y DET 15 A 54 350 R-Y comparator input for WB 1 k 17 AN2125FHS I Terminal Equivalent Circuits (continued) Pin No. 55 Pin name RLIM IN Equivalent circuit ICs for Video Camera Description RWBDC detection 500 k 100 A 55 56 BLIM IN BWBDC detection 500 k 100 A 56 57 B-Y DET 15 A 57 350 1 k B-Y comparator input for WB 58 VD2 OUT 58 350 VD2 pulse separation output 59 VD2 DATA Video signal + VD2 input 59 350 1 k 25 k 120 A VREF 18 ICs for Video Camera I Terminal Equivalent Circuits (continued) Pin No. 60 Pin name 75DR IN 10 k 60 350 25 k AN2125FHS Equivalent circuit Description Video signal input before 75- termination 25 k 120 A VREF 61 C IN VREF 10 k 61 25 A Chroma signal input for Y/C Mix 62 Y IN 1 k Luminance signal input for Y/C Mix 62 25 A VREF 25 A 63 WCLIP 63 350 Color difference signal high chroma clip setting 10 k 100 A 64 65 66 67 N.C. N.C. N.C. N.C. 19 AN2125FHS I Terminal Equivalent Circuits (continued) Pin No. 68 Pin name TRAP 100 A 500 x2 50 x2 1 k 68 500 100 A 100 A ICs for Video Camera Equivalent circuit Description Setting to eliminate the frequency characteristic which is not required in Y/C Mix signal. 69 YC MIX OUT 500 x2 69 x2 500 100 A 100 A Y/C Mix output 70 YC MIX IN 2 k SYNC-chip clamping for Y/C Mix signal driver input 1 k 150 A 70 5 A 71 FB FB input for V sag correction 13 k 1.3 V 6.5 k Sig. 50 A 13 k 71 4 k 72 VCC VCC of Y/C Mix, driver and color reproduction circuit 20 ICs for Video Camera I Terminal Equivalent Circuits (continued) Pin No. 73 Pin name 75DR OUT Equivalent circuit 20 x 32 73 x 48 20 74 75 GND AGC OUT 200 x2 75 x2 200 76 0H GAMIN 1 k 70 A 70 A 300 A x 16 x8 30 A 300 A AN2125FHS Description Driver output of 75 GND of Y/C Mix, driver and color reproduction circuit YAGC output Y gamma input non-delay signal 76 25 A VREF 77 KNEE Y gamma circuit knee-setting Normally open 25 A 29 k 29 k 300 A 600 77 600 30 A 78 1H GAMIN 1 k Y gamma input delay signal 78 25 A VREF 21 25 A AN2125FHS I Terminal Equivalent Circuits (continued) Pin No. 79 Pin name Y GAM DCC Equivalent circuit ICs for Video Camera Description Capacitor pin for Y gamma output DC stabilization circuit 79 150 A VREF 80 Y GAM OUT 200 x2 80 x2 200 70 A 70 A Y gamma output 81 PED SET 70 k 81 350 30 A Pedestal level setting 1 k 82 VAP OUT 200 x2 82 x2 200 70 A 70 A V aperture output 83 Y OUT 200 Luminance signal H/L clip Pedestal-added output 83 500 A 22 ICs for Video Camera I Terminal Equivalent Circuits (continued) Pin No. 84 85 Pin name GND Y GAMMA IN 120 A 85 350 AN2125FHS Equivalent circuit Description Ground for signal processing system Y gamma signal H aperture generation circuit input 1 k 86 FADE 35 A 86 350 Fade setting 0.5 V or less in the state of fade 1 k 87 HAP OUT 200 15 k x2 87 x2 200 70 A H aperture output 88 HAP BC IN H aperture coring input 50 A 88 350 5 k 1 k VREF 89 VAP BC IN 50 A 89 350 5 k VREF 1 k V aperture coring input 23 AN2125FHS I Terminal Equivalent Circuits (continued) Pin No. 90 Pin name BCLIP OUT Equivalent circuit ICs for Video Camera Description Luminance signal aperture Mix output 200 x2 90 x2 200 91 92 VCC PEDESET IN 70 A Ground for signal processing system Luminance + aperture signal input VREF 50 A 92 50 A 1 k 93 LLSUP IN 35 A 93 350 AGC output detection DC input 94 B-Y OUT 200 x2 94 x2 200 13 k B-Y signal output 95 R-Y OUT 200 x2 95 x2 200 13 k R-Y signal output 24 ICs for Video Camera I Terminal Equivalent Circuits (continued) Pin No. 96 Pin name C GAM R-YIN Equivalent circuit VREF 25 A 96 25 A AN2125FHS Description Color difference signal input after synchronization (R-Y) 1 k 97 C GAM Y-BIN VREF 25 A 97 25 A Color difference signal input after synchronization (Y-B) 1 k 98 CSW Y-BOUT 200 x2 98 x2 200 99 CSW R-YOUT 200 x2 99 x2 200 100 C0H IN VREF 40 A 100 40 A 70 A Input of non-delay signal of S/H output 50 A 70 A Color- difference-signal synchronizingpulse input (R-Y) 50 A Sync. color difference signal input (Y-B) 1 k 25 AN2125FHS I Terminal Equivalent Circuits (continued) Pin No. 101 102 103 Pin name N.C. N.C. C1H IN Equivalent circuit ICs for Video Camera Description Input of delay signal of S/H output VREF 40 A 103 40 A 1 k 104 1HGC OUT2 200 x2 104 x2 200 70 A 70 A Output of the amplifier for adjusting amplitude of CCD DL output (color difference) 105 1HGC IN2 18 k 105 350 300 k Output of the amplifier for adjusting amplitude of CCD DL output (color difference) 8 k 10 k VREF 106 R-Y DCC 106 100 A Additional capacitor for DC control 25 k 15 A VREF 107 1HGC OUT1 200 70 A Output of the amplifier for adjusting amplitude of CCD DL output (luminance) 107 200 70 A 26 ICs for Video Camera I Terminal Equivalent Circuits (continued) Pin No. 108 Pin name B-Y DCC Equivalent circuit AN2125FHS Description Additional capacitor for DC control 108 100 A 15 A VREF 109 1HGC IN1 109 18 k 350 300 k 8 k 10 k VREF 110 CAGC TRAP 4 fSC component elimination setting 25 k Output of the amplifier for adjusting amplitude of CCD DL output (luminance) 500 1 k 110 150 A 111 S/H DCC1 111 100 A Pin to add capacitor for DC stabilization of sample-and-hold output 15 A VREF 112 ALC SW VDD ALC/ELC mode switching L: ALC mode H: ELC mode 5 k 112 27 AN2125FHS I Terminal Equivalent Circuits (continued) Pin No. 113 Pin name AGC SW Equivalent circuit ICs for Video Camera Description AGC on/off switching L: On H: Off VDD 5 k 113 114 S/H OUT 200 x2 114 x2 200 13 k Color separation S/H output after WB 115 VREF OUT Reference voltage source: Approx. 1.75 V Impedance: Approx. 1 115 56 k 10 k 116 SP1 90 A 116 350 1.5 V Sampling pulse input 117 SP2 90 A 117 350 1.5 V Sampling pulse input 28 ICs for Video Camera I Terminal Equivalent Circuits (continued) Pin No. 118 Pin name S/H DCC 2 Equivalent circuit 118 100 A AN2125FHS Description Pin to add capacitor for DC stabilization of sample-and-hold output 15 A VREF 119 SIG IN VREF 25 A 119 CDS signal input 1 k 120 AGC FB x2 120 x2 30 k 1 k 30 k 25 A FB pin of operational amplifier for AGC 121 AGC OP- 15 A 121 350 Negative input of operational amplifier for AGC 1 k 122 CDSSIG IRIS 1 k CDS signal input (for iris) 122 25 A VREF 25 A 29 AN2125FHS I Terminal Equivalent Circuits (continued) Pin No. 123 Pin name ALC DCC Equivalent circuit 123 ICs for Video Camera Description Additional capacitor pin for stabilizing iris output 15 A VREF 124 CPOB / HC 25 A 124 350 25 A CPOB pulse input Luminance high-cut setting 1 k 125 CP2/PBLK/CBLK CP2/PBLK/CBLK pulse input 25 A 125 350 25 A 1 k 126 DIST 20 A 126 350 40 k ELC detection pulse 127 DRCT ELC detection pulse 20 A 127 350 40 k 128 N.C. 30 ICs for Video Camera I Application Example (Analog CCD camera system) CCD MN3716 (NTSC) MN3726 (PAL) CDS AN2018S 1H delay line MN3860SA AN2125FHS V-Dr MN3113F Analog signal processing AN2125FHS Video signal output TG MN5216-2 EEPROM MN6310S Note) The AN2125FHS can provide the analog CCD camera system without microcomputers. I Usage Notes 1. Surge Be careful handling the pins listed in the righthand table since surge breakdown voltage for those pins are not so large. Those for the other pins are greater than 250 V. Pin No. + surge 21 30 31 32 2. Power-on sequence Apply the supply voltage to each VCC pins (pins 11, 40, 72 and 91) simultaneously. 3. For external parts 1) Select and adjust a trimmer capacitor or variable capacitance diode for the 4 fSC crystal oscillator so that the specified center frequency will be obtained when the crystal oscillator is in free-running operation. 2) The trap for the output on pin 80 suppresses fCK /2. Select the trap by carefully considering the subject and other operating conditions. 3) Connect a power-on reset circuit to pin 29 of EXTLO against instantaneous power failure. Set the power-on reset circuit so that when the power restores, the pin 29 is surely short-circuited to GND and its voltage rises up after minimum 16 cycles of VD (VD: vertical scanning period) from having input a stable HD and VD pulses simultaneously with power application to this IC. Surge Breakdown Voltage 250 V 240 V 240 V 230 V 31 FCK GND CPOB PBLK FH2 GND SP1 SP2 GND IRS1 IRS2 GND CP2 HD CBLK WBLK BF SYNC VD GND CDS GND TP1 R11 6.8 k R2 1.6 k 1 2 R4 4.7 R5 4.7 k R10 22 R1 270 R16 R17 1.6 k 2.2 k R21 1.6 k TP18 TP16 C59 100 F/ 25 V C58 0.33 F R20 2.2 k TP17 TP36 R13 4.7 k D1 R12 3.6 k R15 3.6 k TP8 TP9 +12V GND AN2125FHS L1 8.2 H R6 Open R51 100 k TP14 TP21 TP22 TP26 R36 Open Q4 2SC4617 R49 2.2 k TP39 R38 130 k R42 47 k R46 5.1 k TP23 R47 10 k R8 15 k C6 33 F/6.3 V C5 0.01 F R4 22 R7 0 TP11 TP15 C57 0.33 F R9 13 k TP10 R44 580 k C29 R52 16 C43 33 F/6.3 V R50 100 k C28 C3 0.01 F R37 1 M R40 47 k C12 1 F TP24 C26 C16 10 F/ 6.3 V R41 10 k C45 0.01 F 3 TP12 R14 6.8 k TP13 AN7805 (Regulator) C61 100 F/6.3 V R79 75 C60 100 F/6.3 V R78 1 k TP37 BNC C20 C30 1 F C19 C18 C27 1 F C44 1 F C21 C23 (NTSC) C22 C1 0.001 F R43 27 R45 10 k C25 0.047 F MN3860SA TP3 R26 6.8 k C15 C17 9 pF 1 VBB VO2 16 2 VO1 N.C. 15 C9 3 VDD2 VO3 14 0.01 F 4 CLP HD 13 C8 5 VCL VOC 12 0.1 F C2 0.1 F 6 VDD1 V IN3 13 7 V IN1 VSS 10 C7 1 F 8 X IN V IN2 9 TP22 C14 33 F/ 6.3 V C13 6.8 F/ 6.3 V (PAL) R48 1 k L3 100 H TP2 MN3861SA R80 110 k R53 R54 36 k 12 k +12V GND C62 22 F/ 6.3 V R77 1 k R57 Open R59 15 k R61 R62 1.8 k 100 k TP36 R24 6.8 k N.C.102 N.C.101 C0H IN 100 CSW R-YOUT 99 CSW Y-BOUT 98 C GAM Y-BIN 97 C GAM R-YIN 96 R-Y OUT 95 B-Y OUT 94 LLSUP IN 93 PEDESET IN 92 VCC 91 BCLIP OUT 90 VAP BC IN 89 HAP BC IN 88 HAP OUT 87 FADE 86 Y GAMMA IN 85 GND 84 Y OUT 83 VAP OUT 82 PED SET 81 Y GAM OUT 80 Y GAM DCC 79 1H GAMIN 78 KNEE 77 0H GAMIN 76 AGC OUT 75 GND 74 75DR OUT 73 VCC 72 F B 71 YC MIX IN 70 YC MIX OUT 69 TRAP 68 N.C. 67 N.C. 66 N.C. 65 1 N.C. 2 N.C. 3 N.C. 4 ELCDET IN 5 ALCOUT 6 WBLK IN 7 GND 8 FH2 IN 9 ELC -H 10 ELC -M 11 VCC 12 ELC -L 13 ALC VROUT 14 VIDEO LEVEL 15 DATEST1 16 DATEST2 17 DAOUT1 18 DAOUT2 19 DAOUT3 20 SCHTEST 21 DAOUT4 22 DATA 23 VSS 24 VDD 25 VD 26 HD 27 LL SW 28 NP SW 29 EXTLO 30 EXTLDB 31 EXTLDA 32 NCE 33 RSTM 34 FHLOCK 35 GND 36 XTAL IN 37 N.C. 38 N.C. TP28 TP29 TP30 TP31 TP32 R65 R100 33 k 0 C52 4.7 F/16 V R63 51 k L2 8.2 H C11 R67 0 R66 20 k C10 47 F/16 V TP7 C51 4.7 F/16 V R72 0 R71 Open C64 0.012 F R68 2 k C53 0.1 F R73 300 R34 100 k R35 10 k LL/INT AGC FSC MONI CN9 GND DATA LD EXTLO EXTLDB EXTLDA NCE RSTM GND POMRE PGM SCLK 5V FADE AGC LL/INT R81 470 k SW1 SW2 SW3 TP33 C63 1 F 32 TP14 I Application Circuit Examples (Board camera-1) CN2 CN5 CN6 CN 4 CN3 CN1 TP4 C4 1 F C39 1 F C37 1 F R27 4.7 k R22 1 k R23 1 k R55 100 k R25 4.7 k R56 0 R58 3 k AN2125FHS Q1 2SC4617 R29 2.2 k R28 R30 100 1 k Q2 2SC4617 TP5 R31 2.2 k TP6 103 104 105 106 C38 0.047 F 107 R39 Q3 2.2 k 2SC4617 108 C36 0.047 F 109 C32 16 pF C31 1 F 110 111 C33 112 113 114 C40 115 33 F/6.3 V 116 117 118 C41 1F/16V C34 119 120 121 122 C42 C35 1 F 123 0.047 F 124 125 126 127 128 C1H IN 1HGC OUT2 1HGC IN2 R-Y DCC 1HGC OUT1 B-Y DCC 1HGC IN1 CAGC TRAP S/H DCC1 ALC SW AGC SW S/H OUT VREF OUT SP1 SP2 S/H DCC2 SIG IN AGC FB AGC OP- CDSSIG IRIS ALC DCC CPOB / HC CP2 / PBLK / CBLK DIST DRCT N.C. N.C. WCLIP Y IN C IN 75DR IN VD2 DATA VD2 OUT B-Y DET BLIM IN RLIM IN R-Y DET BG MONI BYDCH C OUT VREF IN BYDCL R-Y IN B-Y IN WBDET WBSTL / SYNK CHC / HC PONRE RSTE SCLK VCC XTAL OUT TP25 64 63 C46 62 61 TP35 60 C47 59 58 C48 57 10 F/16 V 56 55 C49 54 10 F/16 V 53 TP34 52 51 50 49 48 R60 180 k 47 46 45 C50 33 F/6.3 V 44 43 42 41 40 39 L4 8.2 H C66 0.01 F C55 33 F/6.3 V X1 C54 51 pF C65 100 pF D2 20 k MN13821R 2 1 0.1 F R64 10 k MN6310S R76 Open 3 1 DATA CO 8 2 CE RST 7 3 VCC CLK 6 4 GND POM 5 R74 1000 k R75 Open C67 Open R69 330 R70 Open R32 10 k R33 100 k R82 10 k For PAL CN8 C53 2. 2 F R75 3. 9 k C67 6. 8 F R72 Open R71 Short Change of X1 Change of CCDDL ICs for Video Camera (Note) The ceramic capacitor where the constant is not filled in is 0.1 F. I Application Circuit Examples (Board camera-2) AN7805 [REGULATOR] 1 2 7.012 V GND C49 C50 100 F/25 V 100 F/25 V 3 L1 22 H * The circuit is used to evaluate CCD. Therefore it doesn't guarantee the performance. L2 22 H *3 is a Schottky barrier diode. C1 SW2 SW1 SW3 C6 C12 C16 DA1 MA726 3 C13 4.7 F/25 V ICs for Video Camera C2 R1 100 *1 C6- OVEE CS- C4- C3- C2- C1- C14 C15 D2 MA150 C7 R3 820 C11 15 pF R5 330 C17 10 F/25 V C31 10 F/6.3 V VSS 20 SMD3 19 SMD2 18 SMD1 17 OSCCON 16 VSUB 15 CH2 14 CH1 13 V4 12 V3 11 V2 10 V1 9 VSS 8 VDD 7 H2 6 H1 5 TES 4 CCDSW 3 R2 VSS 1 510 H Xtal NTSC 19.06992 KHZ PAL 19.3125 KHZ Xtal (*1) MN3113F [V-Dr] C1 40 pF C13 HD 11 4.7 F/25 V OVDD 10 C6+ 9 C26 33 F/25 V V CC1 8 C25 7 *3 MA726 DA1 6 4.7 F/25 V C28 5 4.7 F/25 V 4 3 2 1 C30 10 F/6.3 V C4 15 pF C32 10 F/16 V PAL SW4 NT MN5216-2 [CG*SSG] VM24 C8 R4 0 D1 MA150 Q1 2SD601 R12 580 C20 C19 D4 MA D5 MA L3 22 H VR1 500 k R16 33 k C23 R9 1 F/25 V 10 k R2 1 k C10 15 pF R6 3 k R7 6.8 k C18 22 VH 12 CAP1 13 CAP2 14 CAP3 15 V In+ 16 V Out+ 17 SENSE1 18 IV4 19 IV2 20 VCC2 21 VDD C3+ 44 C1+ 43 GND 42 V In- 41 V Out- 40 SENSE2 39 CH2 38 IV3 37 IV1 36 CH1 35 ISUB 34 C5 3 4 SW1 25 TVM PAL NTSC SSI A/1 Normal TES 1/16000 1/80000 CCD 768 H 510 H 23 OV4 24 VM24 25 OV2 26 OV3 27 VM13 28 OV1 29 VL1 30 VL2 31 OSUB 32 VHH 33 VEE No. Name H L C35 2.2 F/25 V R33 2.2 F/16 V Q3 2SB709 C36 47 F/16 V R14 1.8 k R15 10 k C29 4.7 F/16 V 41 VSS 42 REFL2 43 REFL1 44 WBLK 45 WHD 46 HD 47 VD 48 F1 49 LSW 50 VSS 51 VDD 52 HG 53 OFMO 54 TEST 55 TEST 56 TEST 57 TEST 58 TEST 59 TEST 60 VSS 21 VDD 22 FCK20 23 FCK21 24 FCK 25 TVM 26 EXTCLK 27 IESW 28 VR 29 CLR 30 VSS1 31 VDD1 32 HCLR 33 CBLK 34 PBLK 35 CSync. 36 CPOB 37 CP1 38 CP2 39 BF 40 VDD VDD 80 NR 79 TEST 78 RWO 77 RW1 76 TEST 75 TEST 74 DS1 73 DS2 72 VSS1 71 VDD1 70 SPO 69 SP1 68 SP1 67 SP2 66 IRS1 65 IRS2 64 LSWCON 63 TEST 62 VDD 61 PT C38 47 F/25 V L4 22 H TP2 C34 2.2 F/50 V Q1 2SD601 D3 MA150 JP1 JP2 JP3 TP1 C9 SUB R10 100 C22 R11 100 C21 47 F/25 V R13 1 M C37 47 F/25 V TP3 TP4 PT 11 TP5 V1 12 V2 13 V3 14 *2 8 H1 7 H2 6 OG 5 LG 2 R Bottom View 1 OO 1/3-510 H NTSC MN3716 PAL MN3726 SUB 10 V4 15 PW 16 CCD(*2) IS 9 TP6 8 7 6 R21 100 5 1 2 3 RL D6 MA VR2 10 kB C24 4 VO R19 100 3 RO Q1 2SC2404 C46 6800 pF R18 4.7 R16 4.7 k TP7 C47 4 R17 4.7 R18 4.7 CDS AN2018S L5 22 H C48 CN1 CN2 CN3 CN4 CN5 FCK GND SP1 SP2 GND IRS1 IRS2 GND CP2 HD CBLK WBLK BF CS VD GND CPOB PBLK FH2 GND CDS GND AN2125FHS Note) In case that the constant is not filled in, the electrolytic capacitor is 47 F/6.3 V and the ceramic capacitor is 0.1 F. CN6 33 Request for your special attention and precautions in using the technical information and semiconductors described in this material (1) An export permit needs to be obtained from the competent authorities of the Japanese Government if any of the products or technologies described in this material and controlled under the "Foreign Exchange and Foreign Trade Law" is to be exported or taken out of Japan. (2) The technical information described in this material is limited to showing representative characteristics and applied circuit examples of the products. It does not constitute the warranting of industrial property, the granting of relative rights, or the granting of any license. (3) The products described in this material are intended to be used for standard applications or general electronic equipment (such as office equipment, communications equipment, measuring instruments and household appliances). Consult our sales staff in advance for information on the following applications: * Special applications (such as for airplanes, aerospace, automobiles, traffic control equipment, combustion equipment, life support systems and safety devices) in which exceptional quality and reliability are required, or if the failure or malfunction of the products may directly jeopardize life or harm the human body. * Any applications other than the standard applications intended. (4) The products and product specifications described in this material are subject to change without notice for reasons of modification and/or improvement. At the final stage of your design, purchasing, or use of the products, therefore, ask for the most up-to-date Product Standards in advance to make sure that the latest specifications satisfy your requirements. (5) When designing your equipment, comply with the guaranteed values, in particular those of maximum rating, the range of operating power supply voltage and heat radiation characteristics. Otherwise, we will not be liable for any defect which may arise later in your equipment. Even when the products are used within the guaranteed values, redundant design is recommended, so that such equipment may not violate relevant laws or regulations because of the function of our products. (6) When using products for which dry packing is required, observe the conditions (including shelf life and after-unpacking standby time) agreed upon when specification sheets are individually exchanged. (7) No part of this material may be reprinted or reproduced by any means without written permission from our company. Please read the following notes before using the datasheets A. These materials are intended as a reference to assist customers with the selection of Panasonic semiconductor products best suited to their applications. Due to modification or other reasons, any information contained in this material, such as available product types, technical data, and so on, is subject to change without notice. Customers are advised to contact our semiconductor sales office and obtain the latest information before starting precise technical research and/or purchasing activities. B. Panasonic is endeavoring to continually improve the quality and reliability of these materials but there is always the possibility that further rectifications will be required in the future. Therefore, Panasonic will not assume any liability for any damages arising from any errors etc. that may appear in this material. C. These materials are solely intended for a customer's individual use. Therefore, without the prior written approval of Panasonic, any other use such as reproducing, selling, or distributing this material to a third party, via the Internet or in any other way, is prohibited. 2001 MAR |
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