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Part Manufacturer Description Datasheet Download Buy Part
LTC6993CS6-3#TRMPBF Linear Technology LTC6993 - TimerBlox: Monostable Pulse Generator (One Shot); Package: SOT; Pins: 6; Temperature Range: 0°C to 70°C
LTC6993HS6-4#TRMPBF Linear Technology LTC6993 - TimerBlox: Monostable Pulse Generator (One Shot); Package: SOT; Pins: 6; Temperature Range: -40°C to 125°C
LTC6993CS6-4#PBF Linear Technology LTC6993 - TimerBlox: Monostable Pulse Generator (One Shot); Package: SOT; Pins: 6; Temperature Range: 0°C to 70°C
LTC6993MPS6-3#TRMPBF Linear Technology LTC6993 - TimerBlox: Monostable Pulse Generator (One Shot); Package: SOT; Pins: 6; Temperature Range: -55°C to 125°C
LTC6993CS6-3#TRPBF Linear Technology LTC6993 - TimerBlox: Monostable Pulse Generator (One Shot); Package: SOT; Pins: 6; Temperature Range: 0°C to 70°C
LTC6993HS6-4#TRPBF Linear Technology LTC6993 - TimerBlox: Monostable Pulse Generator (One Shot); Package: SOT; Pins: 6; Temperature Range: -40°C to 125°C

2N2369 transistor pulse generator Datasheets Context Search

Catalog Datasheet MFG & Type PDF Document Tags
2003 - sn1016

Abstract:
Text: . The transistor is switched "off" with a fast edge from the generator and the collector voltage , simple test circuit allows us to see that the LT1016's (Trace B) response to the pulse generator (Trace , TRACE A 5V/DIV PULSE GENERATOR 1k OUTPUTS 10 + TRACE B 5V/DIV LT1016 ­ TRACE C , Voltage Controlled Pulse Width Generator 5V Single Supply Precision RC 1MHz Oscillator FULL-SCALE , ) 330 820 Q2 2N2369 5V OUTPUT ­10V OUTPUT TRANSISTOR SUPPLIES (SHOWN IN HEAVY LINES) CAN


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PDF LT1016 LT1016 LT1711/LT1712 LT1713/LT1714 LT1715 150MHz LT1719/LT1720/LT1721 sn1016 1016fcs ATIC-17 2N2369 transistor pulse generator LT1016CN8 74121 application as pulse generator RCA 2N3866 sn7402 equivalent 2N3866 APPLICATION dual fet q51 2N5160 equivalent
1991 - LT1220

Abstract:
Text: circuit allows us to see that the LT1016’s (Trace B) response to the pulse generator (Trace A) is as , . Always use bypass capacitors. TEST CIRCUIT 7404 TRACE A 5V/DIV PULSE GENERATOR 1k 10Π, 1016fc 13 LT1016 Typical Applications Voltage Controlled Pulse Width Generator Single Supply , 5V (TYP) 330Ω 820Ω Q2 2N2369 5V OUTPUT –10V OUTPUT TRANSISTOR SUPPLIES (SHOWN , Information 1Hz to 10MHz V-to-F Converter the circuit’s output pulse generator , closing feedback loop


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PDF LT1016 LT1016, LT1016 100MHz LT1715 150MHz LT1719/LT1720/LT1721 LT1220
1991 - ATIC-17

Abstract:
Text: circuit allows us to see that the LT1016's (Trace B) response to the pulse generator (Trace A) is as fast , TRACE A 5V/DIV PULSE GENERATOR 1k OUTPUTS 10 + TRACE B 5V/DIV LT1016 ­ TRACE C , LT1016 U TYPICAL APPLICATIO S Voltage Controlled Pulse Width Generator 5V LM385 1.23V Single , pulse . Figure A5 is similar to Figure A2 except that a sink transistor has replaced the Schottky diode , -2810 1000pF 0.1µF 5V (TYP) 330 820 Q2 2N2369 5V OUTPUT ­10V OUTPUT TRANSISTOR SUPPLIES


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PDF LT1016 LT1016 LT1711/LT1712 LT1713/LT1714 LT1715 150MHz LT1719/LT1720/LT1721 1016fc ATIC-17 74121 application as pulse generator 2N2369 transistor pulse generator RCA 2N3866 2n5160 ATIC-17 c1 ATIC17 SN7402 datasheet Transistor 2N3866 sn7402 equivalent
Lt1016

Abstract:
Text: (Trace B) response to the pulse generator (Trace A) is as fast as a TTL inverter (Trace C) even when , . TEST CIRCUIT 7404 TRACE A 5V/DIV PULSE GENERATOR 1k OUTPUTS 10Ω + TRACE B 5V/DIV , A-to-D 13 LT1016 U TYPICAL APPLICATIO S Voltage Controlled Pulse Width Generator 5V LM385 , fall of the pulse . Figure A5 is similar to Figure A2 except that a sink transistor has replaced the , capacitor. The amplifier controls the circuit’s output pulse generator , closing feedback loop around the


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PDF LT1016 T1016 LT1711/LT1712 LT1713/LT1714 LT1715 150MHz LT1719/LT1720/LT1721 sn1016 1016fcs Lt1016 lt1016 equivalent LT1220
2003 - 2N2369 AVALANCHE PULSE GENERATOR

Abstract:
Text: pulse generator 's finite rise time has become a concern. A recent device, the LT1818 (See Box Section , is so requires a faster pulse generator than Figure 6's 1ns rise time unit. Subnanosecond Rise Time , Rise Time Pulse Generator Output Current ±70mA (Typ) ±40mA (Min) Input Voltage Range ±3.5V , is settable from before-to-after a trigger output. This circuit uses an avalanche pulse generator to , generators as candidates for putting the amplifier into slew rate limiting. Pulse Generator Rise Time


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PDF AN94-11 AN94-12 an94f 2N2369 AVALANCHE PULSE GENERATOR 2N2369 transistor pulse generator 2n2369 avalanche Avalanche Transistor Circuits for Generating nanosecond pulse generator Avtech PICO Electronics 1000V TD1110C ten pao transformer 2N2501
2N2369 equivalent

Abstract:
Text: CIRCUITS FOR 2N2369 , 2N3227 -1.5 V —Í *>- -»I ■«- < 1 ns PULSE WIDTH (ti) = 300 m .DUTY CYCLE = 2 , WAVEFORMS r 10% 90% PULSE GENERATOR V„ RISE TIME < 1 ns SOURCE IMPEDANCE = 50SÎ PW=> 300 ns DUTY , (10 iia pulse ) IC(Peak) 600 mA Collector Current — Continuous 2N2369A, 2N3227 ic 200 mA Total , to +200 °C 2N2368 , 2N2369 , A 2N3227 2N2369A JAN, JTX JTXV AVAILABLE CASE 22-03, STYLE 1 TO-18 (TO , ) 2N2368, 2N2369 , 2N2369A 2N3227 v(BR)EBO 4.5 6.0 - Vdc Collector Cutoff Current (Vce = 20 Vdc, Vbe = 3.0


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PDF 2N2368 2N3227 2N2369A, 2N2368 2N2369 2N2368, 2N2369 equivalent MA 4108 2N2369A MOTOROLA 2N3227 MOTOROLA 2N2369A J 2N2369 input impedance of 2N2369
2N2369 equivalent

Abstract:
Text: 2N2369 2N3227 NPN SILICON TRANSISTORS LOW CURRENT @ EPITAXIAL " @ , ) lCBO 2N2369 2N3227 (VCB = 20 Vdc, TA = 150°C) Min Base Cutoff Current (vcE = 20 Vdc, vOB = 3 Vdc) 2N3227 CoHector-Base Bretidom (1c = 10v Adc, IB = o) BVEBO i BVCEO* 2N2369 , :2$B=1;:Lc) (Ic = 10 mAdc, VCE = 1.0 Vdc) 2N2369 2N3227 12 2N2369 2N3221 (Ic = 10 , , VCE = 2 Vdc) 2N2369 Small Signal Current Gtin (Ic = 10 mAdc, VCE = 10 Vdc, f = 100 mc) Output


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PDF 2N2369 2N3227 2N2369 equivalent 2N3227 MOTOROLA 2N2369 transistor equivalent transistor 2N2369 2N3227 D4613 2N2369 2N3221 motorola semiconductor handbook MOTOROLA TRANSISTOR 2N3227
1998 - 2N3866 application note

Abstract:
Text: /F Coverters Fast Pulse Height/Width Discriminators High Speed Triggers Line Receivers High Speed , Latch Hold Time (Note 8) 35 ns t PW(D) Minimum Disable Pulse Width 30 ns Note 1 , tail. Ordinary high speed pulse generators are not capable of generating such a signal, and in any , uses a very fast transistor in a common base configuration. The transistor is switched off with a fast edge from the generator and the collector voltage settles to exactly 0V in just a few nanoseconds


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PDF LT1671 LT1394, LT1016 LT1116 LT1016 LT1394 LT1720 1671fs, 2N3866 application note transistor 2n2369 sn1671 LT1671IS8 LT1671CS8 LT1671CMS8 LT1671 LT1394 LT1116
1996 - 2n2369

Abstract:
Text: MOTOROLA Order this document by 2N2369 /D SEMICONDUCTOR TECHNICAL DATA Switching Transistors COLLECTOR 3 LAST SHIP 21/03/00 2N2369 2N2369A* NPN Silicon *Motorola Preferred , Voltage VEBO 4.5 Vdc Collector Current (10 ms pulse ) IC(Peak) 500 mA Collector , = 20 Vdc, IE = 0, TA = 150°C) 2N2369 2N2369A Collector Cutoff Current (VCE = 20 Vdc, VBE = 0) 2N2369A Base Current (VCE = 20 Vdc, VBE = 0) mAdc 2N2369A 1. Pulse Test: Pulse


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PDF 2N2369/D 2N2369 2N2369A* 2N2369/D* 2n2369
2009 - 2N2369 avalanche

Abstract:
Text: parameters for various elements are called out. A sub-nanosecond rise time pulse generator , 1A, 2ns rise , Breakdown Limit PULSE GENERATOR tRISE < 1ns PULSE CURRENT AMPLIFIER tRISE = 2ns Figure 3 , Performance Parameters for Various Elements. Sub-Nanosecond Rise Time Pulse Generator , 1A, 2ns Rise Time , TRANSISTOR WITH 22F SANYO OSCON PARALLELED WITH 2.2F MYLAR Q3 Q6 1 AN122 F05 Figure 5. Pulse , Forward Turn-On Time Measurement Arrangement Includes Sub-Nanosecond Rise Time Pulse Generator , Pulse


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PDF AN122 350ps an122f AN122-19 AN122-20 2N2369 avalanche 2N2369 transistor pulse generator 2N2369 AVALANCHE PULSE GENERATOR Tektronix P6056 2N2501 MOTOROLA CTX-02-16004 P-6056 motorola transistor handbook crystal generator 1GHz chessman
1998 - AN72

Abstract:
Text: . AN72-32 Programmable Sub-Nanosecond Delayed Pulse Generator , circuit allows us to see that the LT1394's (Trace B) response to the pulse generator (Trace A) is faster , difficulties. TEST CIRCUIT 7404 PULSE GENERATOR A = 1V/DIV B = 1V/DIV C = 1V/DIV (INVERTED , -8 A significant consideration for fast comparator development work is the pulse generator . Features , , select a pulse generator with the features needed for the circuit of interest. Also, take the time to


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PDF LT1016 LT1016, LT1394, AN72-41 90VDC AN72-42 V-to-90V AN72-43 AN72-44 an72f AN72 PM-5771 2N2369 avalanche an7212 2N2369 AVALANCHE PULSE GENERATOR an7210 application circuits of ic 74121 LM733 2tx-849
1998 - 2N3866 application note

Abstract:
Text: /F Coverters Fast Pulse Height/Width Discriminators High Speed Triggers Line Receivers High Speed , Hold Time (Note 8) 35 ns t PW(D) Minimum Disable Pulse Width 30 ns Note 1 , tail. Ordinary high speed pulse generators are not capable of generating such a signal, and in any , uses a very fast transistor in a common base configuration. The transistor is switched off with a fast edge from the generator and the collector voltage settles to exactly 0V in just a few nanoseconds


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PDF LT1671 LT1394, LT1016 LT1116 LT1016 LT1394 LT1720 1671f 2N3866 application note 2N2369 transistor pulse generator 2N5160 1MHz crystal oscillator LT1671CS8 LT1671CMS8 LT1671 LT1394 LT1116
1996 - 2N2369

Abstract:
Text: Vout 90% 0.1 µF 220 10% Vout 3.3 k Vin 50 PULSE GENERATOR Vin RISE TIME < 1 , MOTOROLA Order this document by 2N2369 /D SEMICONDUCTOR TECHNICAL DATA Switching Transistors 2N2369 2N2369A* NPN Silicon COLLECTOR 3 *Motorola Preferred Device 2 BASE 1 , Collector ­ Emitter Voltage 2 °C/W Collector Current (10 ms pulse ) Operating and Storage , , IE = 0) (VCB = 20 Vdc, IE = 0, TA = 150°C) 2N2369 2N2369A Collector Cutoff Current (VCE = 20


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PDF 2N2369/D 2N2369 2N2369A* 2N2369/D* 2N2369 2N2369A 2N2369A MOTOROLA 2N2369 equivalent 2N2369 motorola 2N2369 datasheet input impedance of 2N2369 data sheet 2N3227 MOTOROLA 2N3227 motorola 2n2369
1996 - 2N2369A

Abstract:
Text: 50 3.3 k 0.0023 µF 0.005 µF 50 PULSE GENERATOR Vin RISE TIME < 1 ns SOURCE IMPEDANCE = , MOTOROLA Order this document by 2N2369 /D SEMICONDUCTOR TECHNICAL DATA Switching Transistors COLLECTOR 3 LAST SHIP 21/03/00 2N2369 2N2369A* NPN Silicon *Motorola Preferred , VEBO 4.5 Vdc Collector Current (10 ms pulse ) IC(Peak) 500 mA Collector Current - , Collector Cutoff Current (VCB = 20 Vdc, IE = 0) (VCB = 20 Vdc, IE = 0, TA = 150°C) 2N2369 2N2369A


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PDF 2N2369/D 2N2369 2N2369A* 2N2369/D* 2N2369A 2N2369 2N2369 equivalent 2N2369A MOTOROLA J 2N2369 1N916 2N3227 input impedance of 2N2369 motorola 2n2369
1998 - Not Available

Abstract:
Text: configuration. The transistor is switched off with a fast edge from the generator and the collector voltage , -2810 330Ω Q2 2N2369 RISE TIME = 3ns FALL TIME = 3ns 5V OUTPUT –10V OUTPUT TRANSISTOR , /F Coverters Fast Pulse Height/Width Discriminators High Speed Triggers Line Receivers High Speed , t PW(D) Minimum Disable Pulse Width 30 ns Note 1: Absolute Maximum Ratings are those , only a few nanoseconds with no ringing or settling tail. Ordinary high speed pulse generators are not


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PDF LT1671 LT1394, LT1016 LT1116 LT1016 LT1394 LT1720 1671fs,
2N2369

Abstract:
Text: TURN-OFF WAVEFORMS ^ 3 :9 0 % Vin > Q . MK Vout - 10% PULSE GENERATOR Vin RISETIME < 1 , Switching Transistors NPN Silicon COLLECTOR 2N2369 2N2369A* 3 EMITTER MAXIMUM RATINGS R ating , cto r-B a se Voltage E m itte r-B a se Voltage Collector Current (10 us pulse ) Collector Current - , BE = 0) 1. Pulse Test: Pulse W idth < 300 us, Duty Cycle < 2.0%. Preferred devices are M otorola , ICBO 2N2369 2N2369A 'c e s 2N2369A2N2369A 40 15 40 4.5 - - - - Vdc Vdc Vdc Vdc nAdc


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PDF 2N2369 2N2369A* 2N2369/D 2N2369 equivalent
Instruments

Abstract:
Text: that the LT1016's (Trace B) response to the pulse generator (Trace A) is faster than a TTL inverter , , the pulse generator runs at a frequency which permits enough charge pumping to offset the input signal , ±5V Figure 1. The LT1016 at a Glance TEST CIRCUIT 7404 A = 5V/DIV VERTICAL B = 5V/DIV PULSE GENERATOR + LT1016 OUTPUTS C = 2V/DIV ­ HORIZONTAL = 5ns/DIV 1V AN13 F02b Figure 2. LT1016 , "). An unbypassed LT1016 is shown responding to a pulse input in Figure 3. The power supply the LT1016


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PDF 2N2369 HP5082-2810 2N3866 2N5160 LT1016 2N2369 an13f AN13-32 Instruments AN13F IC 7404 GP ttl ceramic oscillator using 7404 HP-HEMT-6000 precision Sine 1Mhz Wave Generator sinewave-generator of ic 7475 used in fastest finger first 7404 ttl inverter photos ttl 7474 sine wave
1997 - 2N2369

Abstract:
Text: DISCRETE SEMICONDUCTORS DATA SHEET M3D125 2N2369 NPN switching transistor Product , Philips Semiconductors Product specification NPN switching transistor 2N2369 FEATURES , NPN switching transistor 2N2369 LIMITING VALUES In accordance with the Absolute Maximum Rating , Product specification NPN switching transistor 2N2369 CHARACTERISTICS Tj = 25 °C unless , oscilloscope Philips Semiconductors Product specification NPN switching transistor 2N2369


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PDF M3D125 2N2369 MAM264 SCA54 117047/00/02/pp8 2N2369 transistor 2n2369 BP317 J 2N2369
2N2369

Abstract:
Text: io n response to the pulse generator (Trace A) is as fast as a TTL inverter (Trace C) even when the , capacitor. The amplifier controls the circuit's output pulse generator , completing a feedback loop around the integrating amplifier. To maintain the summing node at zero, the pulse generator runs at a , n T io n 1Hz-10MHz V to F Converter Voltage Controlled Pulse Width Generator xru n s A g , Converters Fast Pulse Height/Width Discriminators 10-25MHz Crystal Oscillator +5V Response Time


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PDF LT1016 LT1016 LT1016. 2N2369 voltage controlled pulse width generator
1994 - 2N2369

Abstract:
Text: 2N2369 HIGH-FREQUENCY SATURATED SWITCH DESCRIPTION The 2N2369 is a silicon planar epitaxial NPN transistor in Jedec TO-18 metal case. It is designed specifically for high-speed saturated switching , 1/4 2N2369 THERMAL DATA R t h j- cas e R t h j-amb Thermal Resistance Junction-case , = 10 mA I B1 = 3 mA V CC = 3 V I B 2 = ­ 1.5 mA 13 18 ns * Pulsed : pulse duration = 300 µs, duty cycle = 1 %. 2/4 0.2 2N2369 TO-18 MECHANICAL DATA mm inch DIM


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PDF 2N2369 2N2369 transistor 2n2369 2N2369 transistor 2N2369 datasheet J 2N2369
ignition module

Abstract:
Text: Gasoline engine ignition circuits represent a severe environment for semiconductor switches. A transistor , transistor . with relative reliability, safe operating area clamps were used, raising both cost and , starting. The bipolar transistor was therefore called upon typically to switch 6 amperes. To do so 207 , at 6000 RPM, 8 cylinder engine (32 watts for 4 mH coil and Darlington bipolar transistor ). (b , bipolar transistor ). The minimum value required can be demonstrated to be less than 2 millijoules


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PDF AN966: AN-969 ignition module 2n2369 avalanche cdi ignition timing advance cdi ignition car cdi ignition irf740 application note cdi ignition circuit design of ignition and fuel system ELECTRONIC CENTRIFUGAL SWITCH 800RPM
ci sn7402

Abstract:
Text: . Response Time Test Circuit 6-30 XTUDS5B LT1016 nppucATions inFORmnnon response to the pulse generator , internal cur- TEST CIRCUIT PULSE GENERATOR OUTPUTS rent levels of the devices connected to it change , amplifier controls the circuit's output pulse generator , completing a feedback loop around the integrating amplifier. To maintain the summing node at zero, the pulse generator runs at a frequency which am6012 , Controlled Pulse Width Generator +5V cext b 74121 Q A1 5 2N3906 1N914 ? N N I«1 H 470pF 0 TO 2.5/is


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PDF LT1Q16 LT1016 LT1016 45-C/W 100-C/W ci sn7402 voltage controlled pulse width generator 1HZ-10MHZ 74121 application as pulse generator ultra fast comparator application note 50GHz mosfet LT1016MJ LT1016CN 2N2369 transistor pulse generator
2m3904

Abstract:
Text: LT1016 nppucnnons inFonmnnon response to the pulse generator (Trace A) is as fast as a TTL inverter , circuit's output pulse generator , closing feedback loop around the integrating amplifier. To maintain the summing node at zero, the pulse generator runs at a frequency which permits enough charge pumping to , flppucfìTions inFonmnTion Voltage Controlled Pulse Width Generator Single Supply Precision RC 1MHz Oscillator , pulse . Figure A5 is similar to A2 except that a sink transistor has replaced the Schottky diode. The


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PDF LT1016 LT1016 LT1116. 2m3904 LINEAR TECHNOLOGY PAX 2N2369 transistor pulse generator LTC883 TRANSISTOR 50GHZ 2M390 voltage controlled pulse width generator HP 5082-4204 CRYSTAL 20 MHZ with 74hc14
lt1016

Abstract:
Text: transistor is switched " off" with a fast edge from the generator and the collector voltage set tles to , Test Circuit ir m i 7 LT1016 flppucnnons m Fonm m ion response to the pulse generator , amplifier controls the circuit's output pulse generator , closing feedback loop around the integrating amplifier. To maintain the sum ming node at zero, the pulse generator runs at a frequency which permits , ions inFonm nTion Voltage Controlled Pulse Width Generator Single Supply Precision RC 1MHz Oscillator


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PDF LT1016 LT1016 LT1016. 2N2369 transistor pulse generator
mosfet to ignition coil

Abstract:
Text: Gasoline engine ignition circuits represent a severe environment for semiconductor switches. A transistor , transistor . Electronic Ignition The introduction of electronic ignition — initially as an "after sales , in order to obtain improved cold starting. The bipolar transistor was therefore called upon typically , 6.0 volts and in some instances as low as 4.5 volts (worst case). A bipolar Darlington transistor and , terms of performance, cost and efficiency. A bipolar Darlington transistor with an 8 mH coil would only


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PDF 00V/DIV AN966: AN-969 mosfet to ignition coil 2n2369 avalanche cdi ignition ignition module capacitor, 100 microfarad and 35 volts Electronic car ignition circuit 6 volt coil ignition cdi ignition timing advance car cdi ignition 12 volt cd ignition schematic
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