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LTC4444-5IMS8E#TRPBF Linear Technology IC 1.75 A HALF BRDG BASED MOSFET DRIVER, PDSO8, LEAD FREE, PLASTIC, MSOP-8, MOSFET Driver visit Linear Technology - Now Part of Analog Devices
LT1158CN#TR Linear Technology IC HALF BRDG BASED MOSFET DRIVER, PDIP16, 0.300 INCH, PLASTIC, DIP-16, MOSFET Driver visit Linear Technology - Now Part of Analog Devices
LT1158IS Linear Technology IC 15 A HALF BRDG BASED MOSFET DRIVER, PDSO16, PLASTIC, SOL-16, MOSFET Driver visit Linear Technology - Now Part of Analog Devices
LT1158CN#TRPBF Linear Technology IC HALF BRDG BASED MOSFET DRIVER, PDIP16, 0.300 INCH, PLASTIC, DIP-16, MOSFET Driver visit Linear Technology - Now Part of Analog Devices
LT1158IS#TR Linear Technology IC 15 A HALF BRDG BASED MOSFET DRIVER, PDSO16, SOIC-16, MOSFET Driver visit Linear Technology - Now Part of Analog Devices
LT1160IS#TR Linear Technology IC 1.5 A HALF BRDG BASED MOSFET DRIVER, PDSO14, 0.150 INCH, PLASTIC, SO-14, MOSFET Driver visit Linear Technology - Now Part of Analog Devices

555 pwm mosfet

Catalog Datasheet MFG & Type PDF Document Tags

SLA7060M

Abstract: SLA7060MLF2102 fixed off time and pulse-width modulation (PWM) control of the output current in a power multi-chip , , synchronous/asynchronous PWM operation, and a "sleep" function. The minimum CLOCK input is an ideal fit for , appropriate pull-up resistors to ensure a proper input-logic high. For PWM current control, the maximum , 3 A Output Rating Internal Sequencer for Microstepping Operation PWM Constant-Current Motor Drive , PWM Off Time toff kHz - µs - 9.0 - µs - 7.0 - µs - 1.8
Allegro MicroSystems
Original

Unipolar motor control

Abstract: fixed off time and pulse-width modulation (PWM) control of the output current in a power multi-chip , /asynchronous PWM operation, and a "sleep" function. The minimum CLOCK input is an ideal fit for applications , pull-up resistors to ensure a proper input-logic high. For PWM current control, the maximum output current , for Microstepping Operation PWM Constant-Current Motor Drive Cost-Effective, Multi-Chip Solution , . Range Logic Input Voltage Logic Input Current VDD VIH VIL IIH IIL Max. Clock Frequency PWM Off Time fclk
Sanken Electric
Original

SLA7066M

Abstract: SLA7060M pulse-width modulation (PWM) control of the output current in a power multi-chip module (PMCMTM). There are , logic section provides the sequencing logic, direction, control, synchronous/asynchronous PWM operation , ensure a proper input-logic high. For PWM current control, the maximum output current is determined by , 3 A Output Rating Internal Sequencer for Microstepping Operation PWM Constant-Current Motor Drive , PWM Off Time toff kHz - µs - 9.0 - µs - 7.0 - µs - 1.8
Allegro MicroSystems
Original

SLA7060

Abstract: SLA7067M pulse-width modulation (PWM) control of the output current in a power multi-chip module (PMCMTM). There are , logic section provides the sequencing logic, direction, control, synchronous/asynchronous PWM operation , ensure a proper input-logic high. For PWM current control, the maximum output current is determined by , 3 A Output Rating Internal Sequencer for Microstepping Operation PWM Constant-Current Motor Drive , PWM Off Time toff kHz - µs - 9.0 - µs - 7.0 - µs - 1.8
Allegro MicroSystems
Original

SLA7062M board

Abstract: cmos logic stepper fixed off time and pulse-width modulation (PWM) control of the output current in a power multi-chip , , synchronous/asynchronous PWM operation, and a "sleep" function. The minimum CLOCK input is an ideal fit for , appropriate pull-up resistors to ensure a proper input-logic high. For PWM current control, the maximum , 3 A Output Rating Internal Sequencer for Microstepping Operation PWM Constant-Current Motor Drive , PWM Off Time toff kHz - µs - 9.0 - µs - 7.0 - µs - 1.8
Allegro MicroSystems
Original

SLA7060M

Abstract: SLA7060MLF2102 fixed off time and pulse-width modulation (PWM) control of the output current in a power multi-chip , , synchronous/asynchronous PWM operation, and a "sleep" function. The minimum CLOCK input is an ideal fit for , appropriate pull-up resistors to ensure a proper input-logic high. For PWM current control, the maximum , 3 A Output Rating Internal Sequencer for Microstepping Operation PWM Constant-Current Motor Drive , PWM Off Time toff kHz - µs - 9.0 - µs - 7.0 - µs - 1.8
Allegro MicroSystems
Original

LM motor driver

Abstract: SLA7062M fixed off time and pulse-width modulation (PWM) control of the output current in a power multi-chip , , synchronous/asynchronous PWM operation, and a "sleep" function. The minimum CLOCK input is an ideal fit for , appropriate pull-up resistors to ensure a proper input-logic high. For PWM current control, the maximum , 3 A Output Rating Internal Sequencer for Microstepping Operation PWM Constant-Current Motor Drive , PWM Off Time toff kHz - µs - 9.0 - µs - 7.0 - µs - 1.8
Allegro MicroSystems
Original
Abstract: fixed off time and pulse-width modulation (PWM) control of the output current in a power multi-chip , /asynchronous PWM operation, and a "sleep" function. The minimum CLOCK input is an ideal fit for applications , pull-up resistors to ensure a proper input-logic high. For PWM current control, the maximum output current , for Microstepping Operation PWM Constant-Current Motor Drive Cost-Effective, Multi-Chip Solution 100 V , Input Current IIH IIL Max. Clock Frequency PWM Off Time fclk toff 70 to 100%Itripmax 38 to 64%Itripmax 9 Allegro MicroSystems
Original
Abstract: motor with internal fixed off time and pulse-width modulation (PWM) control of the output current in a , , synchronous/asynchronous PWM operation, and a â'sleepâ' function. The minimum CLOCK input is an ideal fit , use of appropriate pull-up resistors to ensure a proper input-logic high. For PWM current control ,  To 3 A Output Rating  Internal Sequencer for Microstepping Operation  PWM , and M2 -25 -50 -75 μA Logic Input Current IIL Max. Clock Frequency fclk PWM Sanken Electric
Original

step motor driver sla

Abstract: SLA7062M Self-excitation PWM current control method · Built-in synchronous chopping function to prevent the audible motor , Logic Supply Current Output MOSFET Breakdown Voltage Output MOSFET ON Resistance Output MOSFET Diode , Step Reference Current Ratio Switching Time PWM Minimum ON Time Chopping OFF Time (VDD , 88.2 83.1 77.3 70.7 63.4 55.5 47.1 38.2 29 19.5 9.8 . VREF=VSENSE=100%, VREF=0.1 to 1.0V . , 88.2 83.1 77.3 70.7 63.4 55.5 47.1 38.2 29 19.5 9.8 . VREF =VSENSE=100%, VREF=0.1 to 1.0V
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Original

SLA7066M

Abstract: (built-in sequencer) · 2-phase excitation to 2W 1-2 phase excitation support · Self-excitation PWM , =25°C, unless otherwise specified) Symbol min Main Supply Current Logic Supply Current Output MOSFET Breakdown Voltage Output MOSFET ON Resistance Output MOSFET Diode Forward Voltage Maximum Clock Frequency , Switching Time PWM Minimum ON Time Chopping OFF Time IBB Conditions IBBS Conditions IDD V (BR , Mode F 100 98.1 92.4 83.1 70.7 55.5 38.2 19.5 . VSENSE=100%, VREF=0.1 to 1.0V VREF= . 2.0
Sanken Electric
Original

tip 46

Abstract: 5-phase drive STEPPER MOTOR Self-excitation PWM current control method · Built-in synchronous chopping function to prevent the audible motor , =25°C, unless otherwise specified) Symbol min. Main Supply Current Logic Supply Current Output MOSFET Breakdown Voltage Output MOSFET ON Resistance Output MOSFET Diode Forward Voltage Maximum Clock Frequency , Switching Time PWM Minimum ON Time Chopping OFF Time IBB Conditions IBBS Conditions IDD V (BR , = 1V in Mode F 100 98.1 92.4 83.1 70.7 55.5 38.2 19.5 . VSENSE=100%, VREF=0.1 to 1.0V VREF
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Original

ic 139

Abstract: SLA7060 Self-excitation PWM current control method · Built-in synchronous chopping function to prevent the audible motor , Logic Supply Current Output MOSFET Breakdown Voltage Output MOSFET ON Resistance Output MOSFET Diode , Step Reference Current Ratio Switching Time PWM Minimum ON Time Chopping OFF Time (VDD , = 1V in Mode F 100 98.1 95.7 92.4 88.2 83.1 77.3 70.7 63.4 55.5 47.1 38.2 29 19.5 9.8 , 77.3 70.7 63.4 55.5 47.1 38.2 29 19.5 9.8 . VREF=VSENSE=100%, VREF=0.1 to 1.0V . 2.0
Sanken Electric
Original
Abstract: excitation to 4W 1-2 phase excitation support · Self-excitation PWM current control method · Built-in , 63.4 55.5 47.1 38.2 29 19.5 9.8 VREF. =.VSENSE=100%, VREF=0.1 to 1.0V 2.0 ClockOutON 1.5 ClockOutOFF , =­1.5mA 3 ­3 +10 0.95 1.00 1.05 When VREF = 1V in Mode F 100 98.1 95.7 92.4 88.2 83.1 77.3 70.7 63.4 55.5 , 92.4 88.2 83.1 77.3 70.7 63.4 55.5 47.1 38.2 29 19.5 9.8 VREF. =.VSENSE=100%, V REF=0.1 to 1.0V 2.0 , 15 Main Supply Current Logic Supply Current Output MOSFET Breakdown Voltage Output MOSFET ON Sanken Electric
Original
Abstract: -phase excitation to 2W 1-2 phase excitation support · Self-excitation PWM current control method · Built-in , Output MOSFET Breakdown Voltage Output MOSFET ON Resistance Output MOSFET Diode Forward Voltage Maximum , 70.7 55.5 38.2 19.5 . = VREF .VSENSE=100%, VREF=0.1 to 1.0V 2.0 ClockOutON 1.5 ClockOutOFF 1.8 Mode 2 , 1.00 1.05 When VREF = 1V in Mode F 100 98.1 92.4 83.1 70.7 55.5 38.2 19.5 . = VREF . VSENSE =100%, VREF , Ratio Switching Time PWM Minimum ON Time Chopping OFF Time When Clock Duty = 50% VDD ·0.25 Sanken Electric
Original
Abstract: type 44-pin molded package for automatic assembly and low profile ⪠Self-excitation PWM current , structure for lower thermal resistance. The control IC (MIC) and the four power elements (MOSFET) are all , mode, as well as reduced power during PWM off-time maximize energy savings. Not to scale Functional Block Diagram + Comp - DAC Synchro Control PWM Control + Comp - PWM Control , synchronous rectifying circuit reduces losses at PWM switch-off ⪠Synchronous PWM chopping function Sanken Electric
Original
Abstract: PWM current control with fixed off-time Microstepping off-time adjusted automatically by step The , four power elements (MOSFET) are all separate ICs. The package (HSOP) provides wide output terminals , . Package: 44-pin HSOP surface mount Low-power sleep mode, as well as reduced power during PWM off-time , PWM Control + Comp - PWM Control 19 26 RsB NC NC NC NC NC 3 20 25 , synchronous rectifying circuit reduces losses at PWM switch-off Synchronous PWM chopping function prevents Allegro MicroSystems
Original
Abstract: type 44-pin molded package for automatic assembly and low profile ⪠Self-excitation PWM current , resistance. The control IC (MIC) and the four power elements (MOSFET) are all separate ICs. The package , reduced power during PWM off-time maximize energy savings. Not to scale Functional Block Diagram + Comp - DAC Synchro Control PWM Control + Comp - PWM Control 19 26 RsB NC , ratio ⪠Built-in synchronous rectifying circuit reduces losses at PWM switch-off ⪠Synchronous Allegro MicroSystems
Original

SI7321M

Abstract: SI-7321M assembly and low profile Self-excitation PWM current control with fixed off-time Microstepping off-time , four power elements (MOSFET) are all separate ICs. The package (HSOP) provides wide output terminals , . Package: 44-pin HSOP surface mount Low-power sleep mode, as well as reduced power during PWM off-time , PWM Control + Comp - PWM Control 19 26 RsB NC NC NC NC NC 3 20 25 , synchronous rectifying circuit reduces losses at PWM switch-off Synchronous PWM chopping function prevents
Allegro MicroSystems
Original

pc1093

Abstract: FBDT Bipolar Analog Integrated Circuit µ PC1909 IC µ PC1909 1 IC 1.2 A 2 MOS-FET 1 1 µ PC1909 Vicor Q, Q 2 MOS-FET 7 24 V µ PC1909CX 16 , 12 11 10 9 PWM 1 ­ + + OLS ON/OFF PWM 2 1 2 , OUT1 12 FB PWM 12 13 DTC1 OUT1 OUT1 OUT2 14 VREF 4.9 V TYP . , IB(COMP1) VCOMP1 = VREF IB(COMP2) IO short VCOMP2 = VREF PWM IREF = 0
NEC
Original
C10535J pc1093 FBDT DTC2 2SK1954 g1430 PC1909GS G14309JJ2V0DS00 51MIN P16C-100-300B-2 P16GM-50-300B-6
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