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Q10611263 TDK Epcos CAP KIT CER 0.25UF-1UF 18PCS visit Digikey
Q10609858 TDK Corporation of America MLP SERIES POWER INDUCTORS visit Digikey
HLMP-Q106-R0021 Broadcom Limited Single Color LED, Deep Red, Untinted Nondiffused, T-3/4, 1.78mm, PLASTIC PACKAGE-2 visit Digikey
HLMP-Q106-TU011 Broadcom Limited Single Color LED, Deep Red, Untinted Nondiffused, T-3/4, 1.78mm, PLASTIC PACKAGE-2 visit Digikey
HLMP-Q106 Broadcom Limited Single Color LED, Deep Red, Clear, 1.78mm visit Digikey
HLMP-Q106-R0011 Broadcom Limited Single Color LED, Deep Red, Untinted Nondiffused, T-3/4, 1.78mm, PLASTIC PACKAGE-2 visit Digikey

transisTOR q106

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Abstract: 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 -
OCR Scan
USI6000 transistors cross reference list MICRON RESISTOR Mos pMOS transistor transistors cross reference nmos pmos array USI-6000 USI-6001 C31G33
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
USI6001-02-P40 USI6001-08-S24 USI6001-24-P20 USI6001-25-P22 USI6001-26-P20 USI6001-27-P22
Abstract: 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 -
OCR Scan
USI-6003 ANalog Devices Quad Opamp transistors ON Semiconductor Universal Semiconductor USI6001-28-P20 USI6001-29-P22 USI6001-30-P20 USI6001-31-P22 USI6005-10-C20 USI6005-11-C20
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
ISL60002DIH325Z-TK SOT-23 marking P 26 FN8082 ISL60002-10 ISL60002-33 ISO9000
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
Abstract: 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
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). 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: , 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
LS7362 LS7362-S LS7362-TS SG1731 motor forward reverse diagram transistor Common Base configuration timing diagram dc motor speed control
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
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
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 , 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 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
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
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). 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
walt UC1637 Q10-5 LS7262-TS LS7262-S LS7260-TS
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