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transisTOR q106

Catalog Datasheet MFG & Type PDF Document Tags

USI6000

Abstract: operational amplifier discrete schematic common source PMOS transistor Q106 with current source load Q8. Common source transistor Q106 with , . To maximize flexibility, design is accomplished at the transistor or component level The same transistor which is part of a CMOS operational amplifier in one circuit, might be part of a precision , 44u/4u, NMOS = 44u/4u) Designed for purely digital applications. The gates of each NMOS transistor and its corresponding PMOS transistor share a common gate. This is not a normal connection for analog
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OCR Scan
Abstract: source PMOS transistor Q106 with current source load Q 8 . Common source transistor Q106 with current , the transistor or component level The same transistor which is part of a CMOS operational amplifier , NMOS transistor and its corresponding PMOS transistor share a common gate. This is not a normal , , NMOS = 32u/4u) Designed for both analog and digital applications. Each transistor has a separate gate , applications and enable the NMOS transistor to be configured as a multi-emitter bipolar transistor with -
OCR Scan
Abstract: at N2 is taken single sided to a second gain stage consisting of common source PMOS transistor Q106 with current source load Q8. Common source transistor Q106 with current source load Q5 acts as a dummy , transistor or component level. The same transistor that is part of a CMOS operational amplifier in one , /4u) Designed for purely digital applications, the gates of each NMOS transistor and its corresponding PMOS transistor share a common gate. This is not a normal connection for analog circuit design -
OCR Scan

USI6000

Abstract: USI-6003 PMOS transistor Q106 with current source load Q8. Common source transistor Q106 with current source , maximize flexibility, design is accomplished at the transistor or component level. The same transistor that , NMOS transistor and its corresponding PMOS transistor share a common gate. This is not a normal , transistor has a separate gate. The W/L ratios are matched for equal transconductance rather than equal size , for multi-supply applications and enable the NMOS transistor to be configured as a multi-emitter
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OCR Scan

ISL60002DIH325Z-TK

Abstract: SOT-23 marking P 26 1.024V VIN = 3.0V, IOUT = 0mA, TA = 25°C unless otherwise specified To Be Added in Q1-06 To Be Added in Q1-06 FIGURE 1. FIGURE 2. To Be Added in Q1-06 To Be Added in Q1-06 FIGURE 3. FIGURE 4. To Be Added in Q1-06 To Be Added in Q1-06 FIGURE 5. FIGURE 6. 8 ISL60002 , = 25°C unless otherwise specified To Be Added in Q1-06 To Be Added in Q1-06 FIGURE 7. FIGURE 8. To Be Added in Q1-06 To Be Added in Q1-06 FIGURE 9. FIGURE 10. To Be Added in Q1-06
Intersil
Original
ISL60002DIH325Z-TK SOT-23 marking P 26 FN8082 ISL60002-10 ISL60002-33 ISO9000

270nA

Abstract: 1.024V VIN = 3.0V, IOUT = 0mA, TA = 25°C unless otherwise specified To Be Added in Q1-06 To Be Added in Q1-06 FIGURE 1. FIGURE 2. To Be Added in Q1-06 To Be Added in Q1-06 FIGURE 3. FIGURE 4. To Be Added in Q1-06 To Be Added in Q1-06 FIGURE 5. FIGURE 6. 8 ISL60002 , = 25°C unless otherwise specified To Be Added in Q1-06 To Be Added in Q1-06 FIGURE 7. FIGURE 8. To Be Added in Q1-06 To Be Added in Q1-06 FIGURE 9. FIGURE 10. To Be Added in Q1-06
Intersil
Original
270nA
Abstract: ISL60002, VOUT = 1.024V VIN = 3.0V, IOUT = 0mA, TA = 25°C unless otherwise specified To Be Added in Q1-06 To Be Added in Q1-06 FIGURE 1. FIGURE 2. To Be Added in Q1-06 To Be Added in Q1-06 FIGURE 3. FIGURE 4. To Be Added in Q1-06 To Be Added in Q1-06 FIGURE 5. FIGURE 6. 7 , (Continued) VIN = 3.0V, IOUT = 0mA, TA = 25°C unless otherwise specified To Be Added in Q1-06 To Be Added in Q1-06 FIGURE 7. FIGURE 8. To Be Added in Q1-06 To Be Added in Q1-06 FIGURE 9 Intersil
Original
5M-1994

Q105

Abstract: Motor driven potentiometers and Q103 cut off and transistors Q104, Q105 and Q106 turn on, shorting the windings together, The , disconnect transistor controlled by the BRAKE signal - See Figure 2A). ENABLE (Pin 10) A high level at , Q105 (1.4V for single transistor or 2.8V for Darlington pairs), the impedance of Q8 and Q4 and the , transistor Q8 turns off and Q4 turns on enabling full power supply drive on Q101 and Q105. Since Pin 5 is , O T O R O6 8 O5 7 Vss 6 N N O4 N Q104 12 R4 Q105 Q106
LSI Computer Systems
Original
A3800 LS7260 LS7262 Q105 Motor driven potentiometers Q104 Q103 Q102 LS7260/LS7262

Motor driven potentiometers

Abstract: Q104 , Q102 and Q103 cut off and transistors Q104, Q105 and Q106 turn on, shorting the windings together , disconnect transistor controlled by the BRAKE signal - See Figure 2A). OSCILLATOR (Pin 14) An R and C , base-emitter junctions of Q101 and Q105 (1.4V for single transistor or 2.8V for Darlington pairs), the , on when internal transistor Q8 turns off and Q4 turns on enabling full power supply drive on Q101 , N Q104 12 R4 Q105 Q106 R6 R5 TO OVERCURRENT ADJUSTMENT Fractional Ohm
LSI Computer Systems
Original
LS7260-S/LS7262-S
Abstract: , Q102 and Q103 cut off and transistors Q104, Q105 and Q106 turn on, shorting the windings together , disconnect transistor controlled by the BRAKE signal - See Figure 2A). ENABLE (Pin 10) A high level at , voltage drops across the base-emitter junctions of Q101 and Q105 (1.4V for single transistor or 2.8V for , transistors Q101 and Q105 will turn on when internal transistor Q8 turns off and Q4 turns on enabling full , 8 O5 7 Vss 6 N N O4 N Q104 12 R4 Q105 Q106 R6 R5 TO LSI Computer Systems
Original
Abstract: and Q109 to cut off and transistors Q104, Q105 and Q106 turn on, shorting the windings together, The , transistor controlled by the BRAKE signal - See Figure 3.) ENABLE (Pin 10) A high level on this input , transistor or 1.4V for a Darlington Transistor). The current in the second path is determined by the power , L3 A Q5 R11 R9 3 Q8 Q109 Q108 12 Q104 R16 Q105 R17 Q106 , Q106 6 O4 BRAKE BRAKE INPUT O5 9 7 LS7362 5 Vss COMMON O6 MOTOR SUPPLY 8 LSI Computer Systems
Original
LS7362-S LS7362-TS

basic motor reverse forward electrical diagram

Abstract: LS7362-TS , Q102 and Q103 cut off causing Q107, Q108 and Q109 to cut off and transistors Q104, Q105 and Q106 turn , configuration requires a power supply disconnect transistor controlled by the BRAKE signal - See Figure 3 , drop across the base-emitter junction of Q101 (0.7V for a single transistor or 1.4V for a Darlington Transistor). The current in the second path is determined by the power supply voltage, the impedance of Q4 , Q105 R17 Q106 R18 TO OVERCURRENT ADJUSTMENT Fractional Ohm Resistor FIGURE 1
LSI Computer Systems
Original
basic motor reverse forward electrical diagram basic dc motor reverse forward electrical diagram SG1731 motor forward reverse diagram transistor Common Base configuration timing diagram dc motor speed control
Abstract: cut off and transistors Q104, Q105 and Q106 turn on, shorting the windings together, The BRAKE has , when left open. (Center- tapped motor configuration requires a power supply disconnect transistor , transistor or 1.4V for a Darlington Transistor). The current in the second path is determined by the power , R L3 A Q5 R11 R9 O1 R1 Q109 Q108 12 Q104 R16 Q105 R17 Q106 , Q106 6 O4 BRAKE BRAKE INPUT O5 9 7 LS7362 5 Vss COMMON O6 MOTOR SUPPLY 8 LSI Computer Systems
Original

Q108

Abstract: SPEED CONTROL of DC MOTOR using 3 phase bridge co and Q109 to cut off and transistors Q104, Q105 and Q106 turn on, shorting the windings together, The , transistor controlled by the BRAKE signal - See Figure 3.) ENABLE (Pin 10) A high level on this input , single transistor or 1.4 Volts for a Darlington Transistor). The current in the second path is determined , 108 12 Q104 R16 Q105 R17 Q106 R18 TO OVERCURRENT ADJUSTMENT Fractional , FET THREE PHASE OUTPUT DRIVER CIRCUITRY Q106 6 O4 BRAKE BRAKE INPUT O5 9 7 LS7362
LSI Computer Systems
Original
Q108 SPEED CONTROL of DC MOTOR using 3 phase bridge co TRANSISTOR commutator low volt
Abstract: , Q102 and Q103 cut off and transistors Q104, Q105 and Q106 turn on, shorting the windings together , disconnect transistor controlled by the BRAKE signal - See Figure 2A). ENABLE (Pin 10) A high level at , voltage drops across the base-emitter junctions of Q101 and Q105 (1.4V for single transistor or 2.8V for , transistors Q101 and Q105 will turn on when internal transistor Q8 turns off and Q4 turns on enabling full , 8 O5 7 Vss 6 N N O4 N Q104 12 R4 Q105 Q106 R6 R5 TO LSI Computer Systems
Original
Abstract: , Q102 and Q103 cut off and transistors Q104, Q105 and Q106 turn on, shorting the windings together , disconnect transistor controlled by the BRAKE signal - See Figure 2A). ENABLE (Pin 10) A high level at , the base-emitter junctions of Q101 and Q105 (1.4V for single transistor or 2.8V for Darlington pairs , will turn on when internal transistor Q8 turns off and Q4 turns on enabling full power supply drive on , P Q101 N O4 12 N N Q104 R4 Q105 Q106 R6 R5 TO OVERCURRENT LSI Computer Systems
Original

basic ac motor reverse forward electrical diagram

Abstract: Q103 , Q102 and Q103 cut off and transistors Q104, Q105 and Q106 turn on, shorting the windings together , disconnect transistor controlled by the BRAKE signal - See Figure 2A). OSCILLATOR (Pin 14) An R and C , base-emitter junctions of Q101 and Q105 (1.4V for single transistor or 2.8V for Darlington pairs), the , on when internal transistor Q8 turns off and Q4 turns on enabling full power supply drive on Q101 , N Q104 12 R4 Q105 Q106 R6 R5 TO OVERCURRENT ADJUSTMENT Fractional Ohm
LSI Computer Systems
Original
basic ac motor reverse forward electrical diagram walt UC1637 Q10-5 LS7262-TS LS7262-S
Abstract: and Q109 to cut off and transistors Q104, Q105 and Q106 turn on, shorting the windings together, The , transistor controlled by the BRAKE signal - See Figure 3.) ENABLE (Pin 10) A high level on this input , transistor or 1.4V for a Darlington Transistor). The current in the second path is determined by the power , R15 O4 6 R11 R9 A Q5 Q109 Q108 12 Q104 R16 Q105 R17 Q106 , Q106 O4 6 BRAKE BRAKE INPUT O5 9 7 LS7362 COMMON O6 5 Vss MOTOR SUPPLY LSI Computer Systems
Original
Abstract: transistors Q104, Q105 and Q106 turn on, shorting the windings together, The BRAKE has priority over all , . (Center- tapped motor configuration requires a power supply disconnect transistor controlled by the BRAKE , and the voltage drop across the base-emitter junction of Q101 (0.7V for a single transistor or 1.4V for a Darlington Transistor). The current in the second path is determined by the power supply , L3 A Q5 R11 R9 3 Q8 Q109 Q108 12 Q104 R16 Q105 R17 Q106 LSI Computer Systems
Original
Abstract: and Q109 to cut off and transistors Q104, Q105 and Q106 turn on, shorting the windings together, The , transistor controlled by the BRAKE signal - See Figure 3.) ENABLE (Pin 10) A high level on this input , transistor or 1.4V for a Darlington Transistor). The current in the second path is determined by the power , R15 O4 6 R11 R9 A Q5 Q109 Q108 12 Q104 R16 Q105 R17 Q106 , Q106 O4 6 BRAKE BRAKE INPUT O5 9 7 LS7362 COMMON O6 5 Vss MOTOR SUPPLY LSI Computer Systems
Original
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