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Part Manufacturer Description Datasheet BUY
2N2907AUA Microsemi Corporation Small Signal Bipolar Transistor, 0.6A I(C), 60V V(BR)CEO, 1-Element, PNP, Silicon, CERAMIC PACKAGE-4 visit Digikey Buy
2N2907AUB TT Electronics OPTEK Technology Small Signal Bipolar Transistor, 0.6A I(C), 60V V(BR)CEO, 1-Element, PNP, Silicon, visit Digikey Buy
2N2907AUA TT Electronics OPTEK Technology Small Signal Bipolar Transistor, 0.6A I(C), 60V V(BR)CEO, 1-Element, PNP, Silicon visit Digikey Buy
2N2907AUB Microsemi Corporation Small Signal Bipolar Transistor, 0.6A I(C), 60V V(BR)CEO, 1-Element, PNP, Silicon, HERMETIC SEALED, CERAMIC, CERSOT-3 visit Digikey Buy
2N2907A Central Semiconductor Corp Small Signal Bipolar Transistor, 0.6A I(C), 60V V(BR)CEO, 1-Element, PNP, Silicon, TO-18, visit Digikey Buy
2N2907AL Microsemi Corporation Small Signal Bipolar Transistor, 0.6A I(C), 60V V(BR)CEO, 1-Element, PNP, Silicon, TO-206AA, SIMILAR TO TO-18, 3 PIN visit Digikey Buy

2N2907 spice

Catalog Datasheet MFG & Type PDF Document Tags

uc3843 flyback supply opto-coupler

Abstract: flyback uc3843 tl431 . R3 10 k SPICE Application Before rushing to the laboratory to apply this technique, let's give it a try with a SPICE simulation and check that our equations give the correct answers. Figure 6 , Compensator Based on a TL431 and Adapted for a SPICE Simulation 1 vdbfb 2 ph_vfb Plot1 vdbfb in db , R3 10 k Figure 9. In the Slow Lane Sweep, the Fast Lane Input Goes to a Fixed dc Bias SPICE , 0.3 C20 2200 m L1 C5 470 p 2N2907 5 V/ 15 A C7 2200 m D7 R10 27
ON Semiconductor
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uc3843 flyback supply opto-coupler flyback uc3843 tl431 schematic adapter UC3843 UC3843 power supply atx atx power supply schematic uc3843 UC3843 spice model AND8327/D

2n1711 spice model

Abstract: 2N2907 spice 10k VOUT 30V Q6 2N2907 Q5 2N2907 OP777/ OP727/ OP747 V p-p = 32V U3 1/2 , simulation. SPICE modeling is a powerful tool for predicting the performance of analog circuits. Analog Devices provides macro models for most of its ICs. SPICE models can be downloaded from the ADI website
Analog Devices
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2n1711 spice model 2N2907 spice 2N1711 spice dac8212 twin-t bridge filter with operational amplifier 2N2907 PNP spice AN-573 OP777 OP727 AD589 2N1711 REF-02A/D

twin-t bridge filter with operational amplifier

Abstract: 2n1711 spice model 1/2 OP727 R38 10k VOUT 30V Q6 2N2907 Q5 2N2907 OP777/ OP727/ OP747 V p-p , correspond reasonably with the simulation. SPICE modeling is a powerful tool for predicting the performance of analog circuits. Analog Devices provides macro-models for most of its ICs. SPICE models can be
Analog Devices
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op07 equivalent single supply op07 spice model HP5082-2800 2n2222a spice model OP07 E02380

2N2222A/ZTX

Abstract: 2n2222a spice model ppm. Q3 2N2222A/ZTX V+ VOUT Q5 2N2907 Q6 2N2907 U3 1/2 OP727 R40 10k , correspond reasonably with the simulation. SPICE modeling is a powerful tool for predicting the performance of analog circuits. Analog Devices provides macro models for most of its ICs. SPICE models can be
Analog Devices
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2N2222A pin layout pin configuration transistor 2N2222A SPICE model 2n2222a twin-T instrumentation amplifier diode hp5082- 2800 AN5733 OP777/OP727/OP747 AN02380-0-3/10

flyback transformer eldor

Abstract: FQP6N60 ncp1200 : Rather than manually calculating these numbers, we will see later on how a Spice simulator can do the , In this section, we will see how Spice can help us to precisely determine all the component , . Stability Analysis The stability analysis can be investigated using different approaches. Spice has proven , B1 2KBP08M C3 220 µF + 2N2222 Q2 R8 10 k 2N2907 Q1 R5 10 k OVP (optional , Semiconductor C1 100 nF/400 V - Q1 2N2907 ON Semiconductor C2 470 nF/X2 security device
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flyback transformer eldor FQP6N60 ncp1200 PF0082 Z9007-B DE C220 DIODE B82724-A2142-N1 AND8076/D NCP120 NCP1200

AND8076

Abstract: SPH6156 Spice simulator can do the job for us. Primary Inductance and Peak Current For AC/DC adapters , In this section, we will see how Spice can help us to precisely determine all the component , different approaches. Spice has proven to be rather accurate for http://onsemi.com 8 AND8076/D , µF/ 400 V + 2N2222 Q2 R8 10 k 2N2907 Q1 R5 10 k OVP (optional) C11 10 nF , ON Semiconductor C23 1.0 nF ­ Q1 2N2907 ON Semiconductor C22 220 µF/25 V
ON Semiconductor
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AND8076 SPH6156 2n2907 smd NCP1200P60 MBR30100 xfmr spice
Abstract: -29 *2N3638 or 2N2907 select for inverse HFE 5 Select for operation at 1.3V IQ 600 µA to 900 µA DS005518 , production Full production Full production SPICE IBIS Package Marking 1K+ bag [logo] $17.6000 of National Semiconductor
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LM185-1 2/LM285-1 2/LM385-1 LM285-1 LM385-1 LM185-2
Abstract: converterâ'™s input filter inductor will saturate. If you are modeling the inrush current in SPICE, you , µF R5 1 MΩ Q1 2N2907 C2 180 pF Vdrain R2 5 kΩ R1 62k Ω C1 2200 pF Q2 D3 Interpoint
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MTR2815S

1200P60

Abstract: 1200p60 ic circuit Frequency Jittering for Lower EMI SPICE Models Available for TRANsient and AC Analysis Internal , 3 NCP1200 6 4 5 2N2222 Rd To Gate VCC Q 2 2N2907 7 40 Figure 26 , 5 1N4148 To Gate 2N2907 Figure 25. The higher ON resistor slows down the MOSFET while the , rise fall time improvement by 5X with standard 2N2222/2N2907: Figure 27. Improving Turn-Off Time
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1200P60 1200p60 ic circuit 200D6 datasheet 200D6 200D6 ic 200D1 PATH NCP1200/D

LM385

Abstract: 385by -29 *2N3638 or 2N2907 select for inverse HFE 5 Select for operation at 1.3V IQ 600 µA to 900 µA DS005518 , 8 MSL Full production Full production Budgetary Samples & Pricing Electronic Orders SPICE IBIS Qty , Pack Orders SPICE IBIS Qty $US each Size Models N/A N/A Package Marking [logo]¢2¢T LM185BXH-1.2 [logo
National Semiconductor
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LM385 385by LM385/MAX691/MAX692/MAX693/MAX694/LM380 spice LM185 LB-21

NCP1200

Abstract: NCP1200 D Frequency Jittering for Lower EMI SPICE Models Available for TRANsient and AC Analysis Internal , 2N2907 7 40 Figure 26. Improving Both Turn-On and Turn-Off Times 1 12 Q\ 8 1 5 2 3 3 NCP1200 7 6 1N4148 To Gate 5 4 2N2907 Figure 25. The higher ON , with short connections. Results showed a rise fall time improvement by 5X with standard 2N2222/2N2907
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NCP1200 D NCP1200P60G pwm cross reference 2262 1200p100 1200P40 200D1

1200P60

Abstract: 200D6 ic Frequency Jittering for Lower EMI SPICE Models Available for TRANsient and AC Analysis Internal , Rd To Gate VCC Q 2 2N2907 7 40 Figure 26. Improving Both Turn-On and Turn-Off , 2N2907 Figure 25. The higher ON resistor slows down the MOSFET while the lower OFF resistor ensures , improvement by 5X with standard 2N2222/2N2907: Figure 27. Improving Turn-Off Time Only 8 1 2
ON Semiconductor
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transformer egston HVDC plus ac-dc voltage regulator using SCR NCP1200D60R2 EGSTON POWER SUPPLY 200DY

NCP1200 D

Abstract: ic ncp1200 Optocoupler Connection Builtâ'in Frequency Jittering for Lower EMI SPICE Models Available for TRANsient and , Rd To Gate VCC Q 2 2N2907 7 40 Figure 26. Improving Both Turnâ'On and , 2N2907 Figure 25. The higher ON resistor slows down the MOSFET while the lower OFF resistor ensures , improvement by 5X with standard 2N2222/2N2907: Figure 27. Improving Turnâ'Off Time Only 8 1 2 3
ON Semiconductor
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ic ncp1200

1200P60

Abstract: 200D1 Frequency Jittering for Lower EMI SPICE Models Available for TRANsient and AC Analysis Internal , NCP1200 6 4 5 2N2222 Rd To Gate VCC Q 2 2N2907 7 40 Figure 26. Improving , 5 1N4148 To Gate 2N2907 Figure 25. The higher ON resistor slows down the MOSFET while the , rise fall time improvement by 5X with standard 2N2222/2N2907: Figure 27. Improving Turn-Off Time
ON Semiconductor
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egston 200D6 so8 1N4007 1N5819 AND8069 MTD1N60E

1200p60

Abstract: 200D6 datasheet Frequency Jittering for Lower EMI SPICE Models Available for TRANsient and AC Analysis Internal , Rd To Gate VCC Q 2 2N2907 7 40 Figure 26. Improving Both Turn-On and Turn-Off , 2N2907 Figure 25. The higher ON resistor slows down the MOSFET while the lower OFF resistor ensures , improvement by 5X with standard 2N2222/2N2907: Figure 27. Improving Turn-Off Time Only 8 1 2
ON Semiconductor
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1200P6 NCP1200D60R2G SFH615A-2 spice model Y8848-A 200d4 NCP1200P100G

SOIC-8 OPTOCOUPLER 531

Abstract: 200D6 ic Direct Optocoupler Connection Built-in Frequency Jittering for Lower EMI SPICE Models Available for , the way the driver is internally made: VCC Q 1 2 3 NCP1200 4 8 7 6 5 2N2907 Rd To Gate 2N2222 2 40 , 5 2N2907 1N4148 To Gate Figure 25. The higher ON resistor slows down the MOSFET while the lower , improvement by 5X with standard 2N2222/2N2907: Figure 27. Improving Turn-Off Time Only 1 2 3 4 NCP1200
ON Semiconductor
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NCP1200P40G SOIC-8 OPTOCOUPLER 531 38130 1N4007 marking CD 200d1 diode ncp120010 NCP1200P40 NCP1200D40R2 NCP1200D40R2G NCP1200P100 NCP1200D100R2

200D6

Abstract: 200D6 ic Optocoupler Connection Builtâ'in Frequency Jittering for Lower EMI SPICE Models Available for TRANsient and , Q 2 2N2907 7 40 Figure 26. Improving Both Turnâ'On and Turnâ'Off Times 1 12 Q\ 8 1 5 2 3 NCP1200 7 3 6 4 5 1N4148 To Gate 2N2907 Figure , 5X with standard 2N2222/2N2907: Figure 27. Improving Turnâ'Off Time Only 8 1 2 NCP1200
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1200p60

Abstract: 1200p100 EMI ·SPICE Models Available for TRANsient and AC Analysis ·Internal Temperature Shutdown ·Pb-Free , 3 NCP1200 6 4 5 2N2222 Rd To Gate VCC Q 2 2N2907 7 40 Figure 26 , 5 1N4148 To Gate 2N2907 Figure 25. The higher ON resistor slows down the MOSFET while the , rise fall time improvement by 5X with standard 2N2222/2N2907: Figure 27. Improving Turn-Off Time
ON Semiconductor
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ncp1200D6 diode 1n4007 SFH615A-2

NCP1200

Abstract: transformer egston Frequency Jittering for Lower EMI SPICE Models Available for TRANsient and AC Analysis Internal , NCP1200 6 4 5 2N2222 Rd To Gate VCC Q 2 2N2907 7 40 Figure 23. Improving , 5 1N4148 To Gate 2N2907 Figure 22. The higher ON resistor slows down the MOSFET while the , rise fall time improvement by 5X with standard 2N2222/2N2907: Figure 24. Improving Turn­Off Time
ON Semiconductor
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driver IC damp dip 8 pin smps two HV pin ic battery charging through smps eldor SFH615A UC384X

200D6 ic

Abstract: 200d6 kHz and 100 kHz Direct Optocoupler Connection Built-in Frequency Jittering for Lower EMI SPICE Models , 2N2907 Rd To Gate 2N2222 2 40 7 1 12 5 Q\ 3 Figure 26. Improving Both Turn-On and Turn-Off Times 1 2 3 4 NCP1200 8 7 6 5 2N2907 1N4148 To Gate Figure 25. The higher ON resistor slows , . Results showed a rise fall time improvement by 5X with standard 2N2222/2N2907: Figure 27. Improving
ON Semiconductor
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