LT1074 24V Search Results

LT1074 24v

Abstract: PE-65282 equivalent de LT1074 LT1047 LT1074 LT1074CT7 LT1074CY LT1074HVCY LT1074IY LT1076CY
Contextual Info: SPECIFICATION NOTICE LT1074/LT1076 July 1996 The package designation for the 7-lead TO-220 package has been changed from “Y” to “T7.” The part numbers under the “Order Part Number” section of the LT1074/LT1076 data sheet have changed as follows:

LT1047

Abstract: COILTRONICS LT1074 LT1074CY LT1074 LT1074/LT1076 equivalent de LT1074 LT1074HVCY LT1074HVMK LT1074 24v LT1076
Contextual Info: LT1074/LT1076 Step-Down Switching Regulator tions allow this device to be used as a positive-to-negative converter, a negative boost converter, and as a flyback converter. The switch output is specified to swing 40V below ground, allowing the LT1074 to drive a tappedinductor in the buck mode with output currents up to 10A.

lt074

Abstract: LT 076 lt1075 lt10741t LT1074HVCV LT076 NICHICON-UPL1C221MRH6 LT1Q74 lt1074t LT1076
Contextual Info: .INEAR TECHNOLOGY CORP u S3E 5 i m TECHNOLOGY • SSlfiMbfi DGDb?52 ‘I S T MLTC LT1074/LT1076 S tep -D o w n S w itch in g R e g u la to r FCflTURCS ■ 5AOn-BoardSwitch LT1074 ■ Up to 200kHz Switching Frequency ■ Greatly improved Dynamic Behavior ■ Available in Low Cost 5-Lead Packages

3C80 ferrite

Abstract: LT1074 PHILIPS toroidal core 3c85 sawtooth wave generator using ic 555 PHILIPS toroidal core 3C81 13 tap inductor 3C80 transformer LT1074HVMK lt1076 PE-92102
Contextual Info: Application Note 44 September 1991 LT1074/LT1076 Design Manual Carl Nelson INTRODUCTION The use of switching regulators increased dramatically in the 1980’s and this trend remains strong going into the 90s. The reasons for this are simple; heat and efficiency.

LT1074/LT1076

Abstract: 7-Lead Plastic DD Pak LT1074 HL-AK147QQ LT1076 LT1076-5 MBR340 MBR735 MBR745 PE-92102
Contextual Info: LT1074/LT1076 Step-Down Switching Regulator positive “buck” configuration but several design innovations allow this device to be used as a positive-to-negative converter, a negative boost converter, and as a flyback converter. The switch output is specified to swing 40V

LT1074/LT1076

Abstract: LT1076 REGULATOR 0,12V 10A HL-AK147QQ LT1074 LT1076-5 MBR340 MBR735 MBR745 PE-92102
Contextual Info: LT1074/LT1076 Step-Down Switching Regulator ponents, are included on the chip. The topology is a classic positive “buck” configuration but several design innovations allow this device to be used as a positive-to-negative converter, a negative boost converter, and as a flyback

LT1074HVCT equivalent

Abstract: LT1076 application step down LT1074 24v C1042 LT1074 lt1074hvit
Contextual Info: LT1074/LT1076 Step-Down Switching Regulator ponents, are included on the chip. The topology is a classic positive “buck” configuration but several design innovations allow this device to be used as a positive-to-negative converter, a negative boost converter, and as a flyback

COILTRONICS 50-2-52

Abstract: LT1074/LT1076 "buck converter" LT1076 LT1076 LT1074 COILTRONICS LT1074 5-Lead Plastic DD Pak ltc Q LT1074 24v LT1074CT 12v 10A regulator
Contextual Info: LT1074/LT1076 Step-Down Switching Regulator ponents, are included on the chip. The topology is a classic positive “buck” configuration but several design innovations allow this device to be used as a positive-to-negative converter, a negative boost converter, and as a flyback

Contextual Info: r r u r m TECHNOLOGY _LT 1074/LT10 76 Step-Down Switching Regulator FCOTUiteS • 5A On-Board Switch LT1074 ■ Up to 200kHz Switching Frequency ■ Greatly Improved Dynamic Behavior ■ Available in Low Cost 5-Lead Packages ■ Only 8.5mA Quiescent Current

PE-65282

Abstract: LT1074/LT1076 "buck converter" LT1076 HL-AK147QQ LT1074 LT1076 LT1076-5 MBR340 MBR735 MBR745
Contextual Info: LT1074/LT1076 Step-Down Switching Regulator positive “buck” configuration but several design innovations allow this device to be used as a positive-to-negative converter, a negative boost converter, and as a flyback converter. The switch output is specified to swing 40V

PHILIPS toroidal core 3c85

Abstract: LT1074HV TDK Ferrite Core PC40 3C80 ferrite tapped inductor boost converter LT1074 design manual 3C80 philips LT1074 24v LT1074 COILTRONICS 50-2-52
Contextual Info: Application Note 44 September 1991 LT1074/LT1076 Design Manual Carl Nelson INTRODUCTION The use of switching regulators increased dramatically in the 1980’s and this trend remains strong going into the 90s. The reasons for this are simple; heat and efficiency.

LT1074 24v

Abstract: LT1074 COILTRONICS LT1074 LT1076 equivalent HL-AK147QQ LT1076HV equivalent LT1076 COILTRONICS 50-2-52 MBR340 MBR735
Contextual Info: LT1074/LT1076 Step-Down Switching Regulator ponents, are included on the chip. The topology is a classic positive “buck” configuration but several design innovations allow this device to be used as a positive-to-negative converter, a negative boost converter, and as a flyback

PE-65282

Abstract: 7-Lead Plastic DD Pak NICHICON-UPL1C221MRH6 LT1074HV MOTOROLA-MBR745 lt1047pd12 7 lead plastic dd pak COILTRONICS LT1074 LT1074/LT1076 lt1339 application note
Contextual Info: LT1074/LT1076 Step-Down Switching Regulator positive “buck” configuration but several design innovations allow this device to be used as a positive-to-negative converter, a negative boost converter, and as a flyback converter. The switch output is specified to swing 40V

lt1074

Abstract: Boost Converter step up LT1074 24v
Contextual Info: LT1074/LT1076 Step-Down Switching Regulator ponents, are included on the chip. The topology is a classic positive “buck” configuration but several design innovations allow this device to be used as a positive-to-negative converter, a negative boost converter, and as a flyback

LT 076

Abstract: 0594 um18a xy 801 ic equivalent de LT1074
Contextual Info: r r u TECHNOLOGY v m _ L T 1 Q 7 4 / L T 1 0 7 6 S te p -D o w n S w itc h in g R e g u la to r FCATURCS • ■ ■ ■ ■ ■ ■ ■ 5A On-Board Switch LT1074 100kHz Switching Frequency Greatly Improved Dynamic Behavior Available in Low Cost 5 and 7-Lead Packages

24v 12v 10A regulator

Abstract: 24v 12v 20A regulator CD4047 100KHZ CIRCUITS Step-up 12V to 36V 300mA cd4047 ic IC CD4047 CD4047 equivalent ic IRFZ44 "pin compatible" alternator dual voltage 12V 24V 24V to 12V REGULATOR IC
Contextual Info: Automotive 12V, 24V and 42V Systems DC/DC Conversion Solutions – InfoCard 21 Entertainment, Security and Critical Control Systems High Efficiency 24V/36V Conversion to Low Voltage 42V STEP-DOWN • Always-On TO 3V, 5V, 12V, ETC. LTC1149 LT1074HV/LT1076HV

LT1257

Abstract: LT485 AN6752 OP227 "direct replacement" ltc1097 an6266 AN2544 LTC201 spice AN6677 AN1523
Contextual Info: SUBJECT INDEX Subject Index to Linear Technology’s Applications Circuits A GUIDE TO THE INDEX Linear Technology has made a major effort to address a wide variety of circuit topics. The number of application problems solvable with innovative circuit techniques or new linear integrated circuits continues to grow. This comprehensive index includes

MAX232

Abstract: max232 specification MAX252 8 pin MAX9690 equivalent MAX584 max-232 38544 LTC902 max232 MTBF calculation MAX9687
Contextual Info: December 1, 1994 RR-1H Product Reliability Report This report presents the product reliability data for Maxim’s analog products. This data is a result of extensive reliability stress testing that we performed from January 1990 to January 1994. It is separated into six

MAX232

Abstract: MAX1074 LTC902 MAX252 8 pin max232 MTBF calculation max232 specification MAX9687 38544 MAX9690 equivalent analog devices dg508 die
Contextual Info: December 1, 1994 RR-1H Product Reliability Report This report presents the product reliability data for Maxim’s analog products. This data is a result of extensive reliability stress testing that we performed from January 1990 to January 1994. It is separated into six

Hughes 3121H-P laser

Abstract: sprague 673D pin diagram for IC cd 1619 fm receiver transistor databook ztx MBR170 AD7800 ADS7880 IN4002 diode motor driver IRFZ44 microcontroller AD1674 AND APPLICATION NOTES
Contextual Info: LINEAR TECHNOLOGY FEBRUARY 1993 IN THIS ISSUE . . . COVER ARTICLE New Switching Regulators Maximize Efficiency . 1 Milton Wilcox and Randy Flatness Editor's Page . 2 Richard Markell DESIGN FEATURES New Isolators Replace “Optos” . 3

1N5819

Abstract: LT1176 LT1176-5 PE-92102 T-50 dip buck converter
Contextual Info: LT1176/LT1176-5 Step-Down Switching Regulator FEATURES • ■ ■ ■ ■ ■ ■ ■ tion. The power switch, all oscillator and control circuitry, and all current limit components are included on the chip. The topology is a classic positive “buck” configuration but

LT 485 8 pin dip

Abstract: HL-AG210LL LT1176-5 LT1176 COILTRONICS 100-1-52 1N5819 PE-92102 T-50 20-lead Plastic SOL LT-1176
Contextual Info: LT1176/LT1176-5 Step-Down Switching Regulator FEATURES n n n n n n n n and all current limit components are included on the chip. The topology is a classic positive buck configuration but several design innovations allows this device to be used as a positive-to-negative converter, a negative boost converter,

Contextual Info: LT1176/LT1176-5 Step-Down Switching Regulator and all current limit components are included on the chip. The topology is a classic positive buck configuration but several design innovations allows this device to be used as a positive-to-negative converter, a negative boost converter,

LT1070CT

Abstract: LT1070 simulation flyback converter pin diagram of LM308 Op Amp IC LT1074 design manual LT1172 boost converter 60v cuk converter 5V 10A LTspice LT1071 24V DC to 5V 1A DC flyback converter
Contextual Info: LT1070/LT1071 5A and 2.5A High Efficiency Switching Regulators DESCRIPTIO U FEATURES • ■ ■ ■ ■ ■ ■ ■ ■ ■ Wide Input Voltage Range: 3V to 60V Low Quiescent Current: 6mA Internal 5A Switch 2.5A for LT1071 Very Few External Parts Required