ta1317ang TOSHIBA Semiconductor CORPORATION, ta1317ang Datasheet

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... TOSHIBA Bipolar Linear Integrated Circuit Silicon Monolithic Deflection Processor IC for TV TA1317ANG is a deflection processor IC for a large and wide picture tube. TA1317ANG incorporates an EW, a vertical distortion correction circuit and a dynamic focus correction circuit. It can control various functions via BUS line. Features • ...

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... TRAPEZIUM V AMP V EHT V-RAMP LIMITER V GUARD DETECT V PHASE LVP V-DF DETECT OUT V-DF AMP V-DF V→I PHASE V→I V→I EW-S EW CORNER EW CORRECTION + H-DF EW AMP PHASE H-DF H EHT BATHTUB EW WIDTH EW PWM TA1317ANG CBUS DECODER H-DF OUT V→I H-RAMP 12 2005-08-18 ...

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... In case of not using it, connect a 0.01 µF 3 EHT IN capacitor between this pin and GND DRIVE Vertical output pin Interface Circuit 7 10 kΩ kΩ kΩ 10 kΩ 100 Ω 30 kΩ TA1317ANG Input/Output Signal ⎯ ⎯ 2005-08-18 ...

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... EW PWM collector output. In case of not used, it should be open. GND pin for analog 9 ANALOG GND block feedback pin Interface Circuit kΩ 12.5 kΩ Ω 9 ⎯ ⎯ kΩ TA1317ANG Input/Output Signal DC ⎯ ⎯ 2005-08-18 ...

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... DIGITAL GND GND pin for digital block Interface Circuit 7 100 Ω 11 100 Ω 500 Ω Ω 20 kΩ SDA 13 ACK kΩ SCL 14 15 ⎯ 5 TA1317ANG Input/Output Signal ⎯ Th: 2.25 V Input frequency: 28 k~45 kHz Th: 2.25 V Th: 2.25 V ⎯ 2005-08-18 ...

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... CENTER OUT pin of horizontal sync IC. In case of not used, it should be open. Interface Circuit 7 200 Ω 1 kΩ kΩ 100 Ω kΩ kΩ TA1317ANG Input/Output Signal H-BLK H-DF OUT composite of above two waveforms 2005-08-18 ...

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... TC FILTER generating internal pulse. Connects filter for 23 V-RAMP FILTER generating vertical ramp signal. Interface Circuit 7 1 kΩ kΩ 100 Ω kΩ kΩ 23 100 Ω 1 kΩ TA1317ANG Input/Output Signal Th: 1.5 V ⎯ ⎯ 2005-08-18 ...

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... Pin Pin Name Function No. Connects filter used to automatically adjust oscillation amplitude of 24 AGC FILTER vertical ramp signal. Can switch AGC sensitivity by BUS write function. Interface Circuit 7 1 kΩ TA1317ANG Input/Output Signal ⎯ 2005-08-18 ...

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... V-EHT COMPENSATION H-EHT COMPENSATION V-RAMP LIMIT2 V-RAMP LIMIT1 V-DF AMPLITUDE H-DF AMPLITUDE V INTEGRAL CORRECTION EW PARABOLA * * PICTURE WIDTH2 * * * * * * CENTER SAW OUT V OUT TA1317ANG D0 Preset LSB MSB LSB VD 1000 0000 1000 0000 1000 0000 1000 0000 1000 0000 1000 0000 1000 1000 1000 1000 ...

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... Pin 6 1: AC-coupling 1000000: center 1111111: min Pin 11 Pin 6 ( 10000: center 11111: max Pin 6 10 TA1317ANG Picture Change Solid line Dashed line ⎯ ⎯ Solid line Dashed line Solid line Dashed line Solid line Dashed line ...

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... Picture Change Solid line Dashed line Pin 6 Solid line Dashed line ⎯ Solid line Dashed line Pin 11 Solid line Dashed line ⎯ ⎯ Pin 6 TA1317ANG Preset min (000) center (10000) min (000) center (10000) OFF (0000) 2005-08-18 ...

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... Function Explanation Output Change Pin 6 ( 1000: center 1111: max Pin 18 1000: center 1111: max Pin 18 1000: center 1111: max Pin 16 12 TA1317ANG Picture Change Preset Solid line Dashed line min (0000000 center ⎯ (1000) center ⎯ (1000) center ⎯ ...

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... Pin 16 1111: min Pin 16 1111: max Pin 6 11: HIGH 100000: center 111111: max Pin 6 111111: max Pin 11 13 TA1317ANG Picture Change ⎯ ⎯ Solid line Dashed line ⎯ ⎯ Solid line Dashed line Solid line Dashed line Preset center ...

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... Output Change Picture Change Solid line Dashed line Pin 11 ⎯ Pin 6 Solid line Dashed line Pin 11 Solid line Dashed line Pin 11 Solid line Dashed line Pin 11 TA1317ANG Preset center (1000000) Normal (0) center (10000) center (10000) center (10000) 2005-08-18 ...

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... Output Change Picture Change Solid line Dashed line Pin 11 Solid line Dashed line Pin 19 Solid line Dashed line Pin 19 Solid line Dashed line Pin 6 TA1317ANG Preset center (10000) center (1000) center (1000) center (10000000) 2005-08-18 ...

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... V OUT/1 V-DRIVE output self-check (no) POR/1 Power-on reset. Responds with 0 at first reading after power-on second reading. 0: Resister preset Function Explanation 1: OK (yes (yes (pin 17 is low (yes (abnormal (yes (yes) 1: Normal 16 TA1317ANG 2005-08-18 ...

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... SCL S Start condition Bit Transfer SDA SCL Acknowledge SDA by transmitter SDA by receiver SCL from master S C Bus Stop condition SDA stable Change of SDA allowed 1 8 Clock pulse for acknowledge 17 TA1317ANG W/R 0/1 P Bit 9: High impedance Only bit 9: Low impedance 9 2005-08-18 ...

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... HIGH ⎯ t 4.7 SU;STA ⎯ t 100 HD;DAT ⎯ t 250 SU;DAT ⎯ t 4.0 SU;STO ⎯ t 4.7 BUF 18 TA1317ANG ･･････ ････ Transmit data bit MSB Max Unit 1.5 V Vcc V 0.4 V µ 100 kHz ⎯ µs ⎯ ...

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... GND − (*) 1250 D 1/ θ ja − 10 − 20~65 T opr − 55~150 T stg 1250 850 Ambient temperature Ta (°C) Figure 1 P – Ta Curve D Description 19 TA1317ANG Unit mW/°C °C °C 150 Min Typ. Max Unit 8.5 9.0 9.5 V ⎯ 0.0 9.0 V ⎯ 4.0 9.0 V ⎯ kHz ⎯ ...

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... V (00) 2 ⎯ V (80) 1 ⎯ V (80) (Note 10) 2 ⎯ V (F8) 1 ⎯ V (F8) 2 ⎯ V LIN ⎯ V (00) VT ⎯ V (FF) (Note 11) VT ⎯ TA1317ANG Unit mA Typ. Max Unit 4.88 5.10 V 4.88 5.10 V Min Typ. Max Unit (Note 1) 1.2 1.5 1.7 V 3.90 4.10 4.30 (Note 2) V 2.95 3.15 3.35 0.97 1.07 1.17 (Note 3) 1.65 1.75 1.85 V p-p (Note 4) 21 ...

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... M (Note 20) ⎯ ⎯ ⎯ (00) S ⎯ (F8) S (Note 21) ⎯ ⎯ ⎯ (00) ⎯ (FE) (Note 22) ⎯ ETP ⎯ ETN ⎯ (80) ⎯ (Note 23) (87) ⎯ ⎯ ⎯ (Note 24) ⎯ EHT 21 TA1317ANG Min Typ. Max Unit 1.92 2.26 2.60 V p-p 1.27 1.50 1. 1.54 1.82 2.10 V p-p 1.62 1.90 2.18 3.0 4.0 5.2 % 1.58 1.86 2.14 V p-p 1.44 1.69 1.94 8.5 10.0 11.5 % 1.9 2.4 2 ...

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... VGH (Note 34) ⎯ VGL ⎯ I (Note 35) 20 ⎯ (00) (Note 36) ⎯ (FE) ⎯ (80) (Note 37) ⎯ (83) ⎯ (00) Y ⎯ (80) (Note 38) Y ⎯ (FE) Y ⎯ (Note 39) DFB ⎯ V (Note 40 TA1317ANG Min Typ. Max Unit µ A 250 340 430 535 715 895 4.3 5.0 5.7 V p-p 4.3 5.0 5.7 1.9 2.2 2.5 V p-p 1.9 2.2 2.5 2.1 2.8 3 ...

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... BLLM BLLH Parabola amplitude adjustment (EW parabola) change amount at PWM V PP Test Test Condition Circuit ⎯ CHH (Note 41) ⎯ CLH ⎯ ⎯ ⎯ (Note 42) ⎯ ⎯ ⎯ ⎯ (00) ⎯ (20) (Note 43) ⎯ (3F) ⎯ TA1317ANG Min Typ. Max Unit 20.0 26.0 32.0 % 26.0 32.1 38.0 5.05 5.90 6.75 2.30 2.70 3.10 ⎯ 0.00 0.10 ms 5.10 6.00 6.90 2.05 2.40 3.00 ⎯ 0.00 0.10 0.00 0.02 0.06 1.6 2.00 2 ...

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... Input vertical trigger pulse to pin Pulse level (VT) = 3.0 V (2) Measure pin 22 (TC FILTER) voltages ( TCH TCM below. Pin 22 (TC FILTER) waveform Pin 23 (V-RAMP FILTER) waveform TA1317ANG . When timing pulse is output shown in the figure TCL V TCH V TCM V TCL 2005-08-18 ...

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... RMP . TP6 (V fb until pin 4 (V DRIVE) voltage is 0 The voltage is made when the external power supply voltage 0 0 Pin 6 (V NF) external supply voltage (V − 0 0.2 TA1317ANG V RMP + 0 2005-08-18 ...

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... Measure Pin 6 (V NF) vertical sawtooth amplitude V Pin 6 (V NF) waveform 26 Test Method = ± 3°C, data = preset values) (unless otherwise specified using the figure for Note 4. 4H using the figure for Note Pulse level (VT) = 3.0 V NFM TA1317ANG . V NFM 2005-08-18 ...

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... ± 3°C, data = preset values) (unless otherwise specified Pulse level (VT) = 3.0 V shown in the figure below. shown in the figure below. using the following formula (83 (80 (83) − (80 TA1317ANG (80 (83 2005-08-18 ...

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... Test Method = ± 3°C, data = preset values) (unless otherwise specified Pulse level (VT shown in the figure below. (FE) as shown in the figure below. using the following formula (FE (00 (FE) − (00 TA1317ANG (00 2005-08-18 ...

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... ± 3°C, data = preset values) (unless otherwise specified Pulse level (VT NF) amplitude (V ). NFL 6 (V NF) amplitude (V ). NFH , V ) using the following formulas. NFP NFN − V − NFH NFM NFL × 100 NFP NFN V V NFM NFM TA1317ANG NFM × 100 2005-08-18 ...

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... V (80) as shown in the figure below. 2 and V (F8) as shown in the figure below. 2 from measured result using the following LIN formula (00) − V (F8 (F8) − (00 × 100 V = LIN 2 × [V (80 (80 TA1317ANG (00) 1 (80) and 1 (F8) 1 2005-08-18 ...

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... NF) waveform 31 Test Method = ± 3°C, data = preset values) (unless otherwise specified Pulse level (VT) = 3.0 V NF) voltage V (00). VT NF) voltage V (FF). VT Calculate change amount V using the following formula (FF (00 (FF) − (00 TA1317ANG 2005-08-18 ...

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... ± 3°C, data = preset values) (unless otherwise specified Pulse level (VT) = 3.0 V (80) as shown in the figure below. (BF) as shown in the figure below. using measured result and the following formula. S (80) − (8F × 100 V S (80 (8F TA1317ANG S S 2005-08-18 ...

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... ± 3°C, data = preset values) (unless otherwise specified Pulse level (VT) = 3.0 V measure V ∫ (80) as shown in the figure below. measure V ∫ (8F) as shown in the figure below. formula. V ∫ V ∫ (80) (8F) V ∫ (8F) − V ∫ (80) × 100 V ∫ ∫ (80) TA1317ANG 2005-08-18 ...

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... Calculate change amount V 34 Test Method = ± 3°C, data = preset values) (unless otherwise specified Pulse level (VT) = 3.0 V measure Pin 6 (V NF) amplitude V (80). E measure Pin 6 (V NF) amplitude V (87). E using the following formula. EHT (80) − (87 × 100 V = EHT V (87) E TA1317ANG 2005-08-18 ...

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... V 3 Voltage applied to pin 3 (EHT IN EHL EHH . IN Pulse level (VT) = 3.0 V 0C, data: 81) ) and measure Pin 10 (EW FD) voltage V EV 0C, data: 80) ) and measure Pin 10 (EW FD) voltage V EV using the following formula (FC) − (00 TA1317ANG and V . EHL EHH ) 3 (FC). (00). 2005-08-18 ...

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... Calculate change amount V 36 Test Method = ± 3°C, data = preset values) (unless otherwise specified Pulse level (VT) = 3.0 V (EW FD) amplitude V (00). PB (EW FD) amplitude V (20). PB (EW FD) amplitude V (3F). PB using the following formula. PB Pin 10 (EW FD) waveform = V (3F) − (00 TA1317ANG 2005-08-18 ...

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... Pulse level (VT (EW FD) amplitude V (00 (EW FD) amplitude V (F8). TC and V using the following formulas. TCP TCN VTC(00) VTC(F8) Pin 10 (EW FD) waveform (00) − (20 × 100 V TCP V (20) PB (F8) − (20 × 100 V TCN V (20) PB TA1317ANG 2005-08-18 ...

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... Pulse level (VT (EW FD) amplitude V (00 (EW FD) amplitude V (F8). BC and V using the following formulas. BCP BCN VTC(00) VTC(F8) Pin 10 (EW FD) waveform (00) − (20 × 100 V BCP V (20) PB (F8) − (20 × 100 V BCN V (20) PB TA1317ANG 2005-08-18 ...

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... ± 3°C, data = preset values) (unless otherwise specified Pulse level (VT) = 3.0 V (EW FD) amplitude V (00). M (EW FD) amplitude V (F8). M and V using the following formulas Pin 10 (EW FD) waveform (00) − (20 × 100 (20) PB (F8) − (20 × 100 (20) PB TA1317ANG 2005-08-18 ...

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... ± 3°C, data = preset values) (unless otherwise specified Pulse level (VT) = 3.0 V (EW FD) amplitude V (00 (EW FD) amplitude V (F8). S and V using the following formulas Pin 10 (EW FD) waveform (00) − (20 × 100 (20) PB (F8) − (20 × 100 (20) PB TA1317ANG 2005-08-18 ...

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... ± 3°C, data = preset values) (unless otherwise specified Pulse level (VT) = 3.0 V (EW FD) phase V (00 (EW FD) phase V (FE). ET and V using the following formulas. ETP ETN V (FE) V (00 Pin 10 (EW FD) waveform V (FE × 100 V ETP 20 V (00 × 100 V ETN 20 TA1317ANG 2005-08-18 ...

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... ± 3°C, data = preset values) (unless otherwise specified Pulse level (VT) = 3.0 V measure Pin 10 (EW FD) amplitude V (80). HC measure Pin 10 (EW FD) amplitude V (87). HC using the following formula (87 (80) HC Pin 10 (EW FD) waveform = V (87) − (80 TA1317ANG 2005-08-18 ...

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... EHT ( Pulse level (VT) = 3.0 V measure the following. and V (C0) as shown in the figure below. X (00), I (40), I (80), I (C0) using the following formula Pin 24 (AGC FILTER) waveform 200 Ω TA1317ANG (00), V (40), V (80 2005-08-18 ...

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... OUT) amplitude V (8F). N (CENT OUT) amplitude V (80 (8F) N Pin 19 (CENT OUT) waveform Pin 19 (CENT OUT) waveform . IN Pulse level (VT) = 3.0 V pin 19 (CENT OUT) amplitude V (F8). P pin 19 (CENT OUT) amplitude V (08 (F8) P Pin 19 (CENT OUT) waveform Pin 19 (CENT OUT) waveform TA1317ANG 2005-08-18 ...

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... Pulse level (HT) H cycle = 30 µ (H-DF OUT) amplitude V (80). HD (H-DF OUT) amplitude V (88 (H-DF OUT) amplitude V (8F). HD and V using the following formulas. HDP HDN Pin 16 (H-DF OUT) waveform (8F) − (88 × 100 V HDP V (88) HD (80) − (88 × 100 V HDN V (88) HD TA1317ANG 2005-08-18 ...

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... Calculate change amount T 46 Test Method = ± 3°C, data = preset values) (unless otherwise specified Pulse level (HT) = 4.0 V (H-DF OUT) phase T (08). HD (H-DF OUT) phase T (F8). HD using the following formula (08) T (F8 Pin 16 (H-DF OUT)waveform = T (08 (F8 TA1317ANG 2005-08-18 ...

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... Calculate change amount T 47 Test Method = ± 3°C, data = preset values) (unless otherwise specified Pulse level (HT) = 4.0 V (H-DF OUT) phase T (00). HB (H-DF OUT) phase T (F0). HB using the following formula (F0 (00) HB Pin 16 (H-DF OUT) waveform (00) − (F0 TA1317ANG 1 V 2005-08-18 ...

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... IN Pulse level (VT (V-DF OUT) amplitude V (80). VD (V-DF OUT) amplitude V (88 (V-DF OUT) amplitude V (8F). VD and V using the following formulas. VDP VDN Pin 18 (V-DF OUT) waveform (80) − (88 × 100 V VDP V (88) VD (8F) − (88 × 100 V VDN V (88) VD TA1317ANG 2005-08-18 ...

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... V. When D5 data in Read mode 7 changes from measure TP17 voltage V . LVP to TP6 (V NF). 6 from 5.5 V. When D3 data in Read mode 6 changes from measure TP6 voltage V . VGH from 5.5 V. When D3 data in Read mode 6 changes from measure TP6 voltage V . VGL TA1317ANG 2005-08-18 ...

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... V to TP6 (V NF). 6 and calculate output current (I 20 following formula Ω (CENTER DAC) voltage V (00). CA (CENTER DAC) voltage V (FE). CA DAC) voltage V (80). CD (CENTER DAC) voltage V (83). CD NF) voltage V (00). Y NF) voltage V (80). Y NF) voltage V (FE). Y TA1317ANG ) using the 20 2005-08-18 ...

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... Set VD (sub-address: 00) to DC-Coupling mode (data: 80). (3) Measure center voltage V Pin 6 (V NF) waveform 51 Test Method = ± 3°C, data = preset values) (unless otherwise specified Pulse level (VT DFB . IN Pulse level (VT shown in the figure below TA1317ANG V DFB 10 ms 2005-08-18 ...

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... ± 3°C, data = preset values) (unless otherwise specified Pulse level (VT) = 3.0 V and V as shown in the figure below Sub-address 04 data Sub-address 05 data: 81 − × 100, V CHH V T − × 100, V CLH V B TA1317ANG and 2005-08-18 ...

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... IN measure blanking phase BLHL. measure blanking phase BLHM. measure blanking phase BLHH. measure blanking phase BLLL. measure blanking phase BLLM. measure blanking phase BLLH. Vertical trigger pulse Pin 20 (BLK OUT) BLLL BLHL BLLM BLHM BLLH BLHH TA1317ANG 2005-08-18 ...

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... Calculate change amount V 54 Test Method = ± 3°C, data = preset values) (unless otherwise specified Pulse level (VT) = 3.0 V (EW FD) amplitude V (00). PP (EW FD) amplitude V (20). PP (EW FD) amplitude V (3F). PP using the following formula. PP Pin 10 (EW FD) waveform = V (3F) − (00 TA1317ANG 2005-08-18 ...

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... SW6 SW10 SW8 TP6 SW5 SW7 55 ○ Mylar capacitor M Hin SW12 SW11 1200 pF CTC8 TC4538BP CTC7 1000 pF Pin TA1317ANG 2005-08-18 ...

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... MΩ 330 kΩ +200 V 400 kΩ 18 kΩ TA1317ANG +27 V TA8427K 33 kΩ 27 kΩ − ○ M Mylar capacitor 11 12 H-OUT TA1317ANG 2005-08-18 ...

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... MΩ 330 kΩ + ramp (Internal signal) +200 V 400 kΩ 18 kΩ TA1317ANG TA8427K −B EW parabola (Pin 11) FBP (Pin 12) H ramp EW PWM (Pin ○ M Mylar capacitor 12 + H-OUT TA1317ANG 2005-08-18 ...

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... Package Dimensions Weight: 1.22 g (typ.) 58 TA1317ANG 2005-08-18 ...

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... TA1317ANG 2005-08-18 ...