Datasheet Linear Technology LT1074HVIT#30PBF — Datenblatt
Hersteller | Linear Technology |
Serie | LT1074HV |
Artikelnummer | LT1074HVIT#30PBF |
Step-Down-Schaltregler
Datenblätter
Datasheet LT1074, LT1076
PDF, 189 Kb, Sprache: en, Datei hochgeladen: Sep 3, 2017, Seiten: 16
Step-Down Switching Regulator
Step-Down Switching Regulator
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Preise
Verpackung
Package | TO-220 |
Package Code | T |
Package Index | 05-08-1421 (Std) |
Parameter
Architecture | Constant Frequency Current Mode |
Design Tools | LTspice File |
Export Control | no |
Frequency | 100 kHz |
Integrated Inductor | no |
Ishutdown | 140 µA |
Isupply | 8.5 mA |
Max Phases | 1 |
Monolithic | yes |
Number of Outputs | 1 |
Operating Temperature Range | -40 to 85 °C |
Output Current | 4.4 A |
Polyphase | no |
Switch Current | 6.5 A |
Synchronous | no |
Topology | Buck, Inverting |
Vin Max | 64 V |
Vin Min | 7.3 V |
Vout Max | 35 V |
Vout Maximum | .85Vin |
Vout Min | 2.21 V |
Vswitch Max | 75 V |
Öko-Plan
RoHS | Compliant |
Andere Optionen
LT1074 LT1074 LT1076 LT1076 LT1076HV
Anwendungshinweise
- Step Down Switching Regulators &mdash AN35PDF, 6.2 Mb, Datei veröffentlicht: Aug 1, 1989
Discusses the LT1074, an easily applied step-down regulator IC. Basic concepts and circuits are described along with more sophisticated applications. Six appended sections cover LT1074 circuitry detail, inductor and discrete component selection, current measuring techniques, efficiency considerations and other topics.Auszug aus dem Dokument - LT1074/LT1076 Design Manual &mdash AN44PDF, 477 Kb, Datei veröffentlicht: Sep 1, 1991
This note discusses the use of the LT1074 and LT1076 high efficiency switching regulators. These regulators are specifically designed for ease of use. This application note is intended to eliminate the most common errors that customers make when using switching regulators as well as offering insight into the inner workings of switching designs. There is an entirely new treatment of inductor design based upon simple mathematical formulas that yield direct results. There are extensive tutorial sections devoted to the care and feeding of the Positive Step- Down (Buck) Converter, the Tapped Inductor Buck Converter, the Positive-to-Negative Converter and the Negative Boost Converter. Additionally, many troubleshooting hints are included as well as oscilloscope techniques, soft-start architectures, and micropower shutdown and EMI suppression methods.Auszug aus dem Dokument - Efficiency and Power Characteristics of Switching Regulator Circuits &mdash AN46PDF, 2.6 Mb, Datei veröffentlicht: Nov 1, 1991
Efficiency varies for different DC/DC converters. This application note compares the efficiency characteristics of some of the more popular types. Step-up, step-down, flyback, negative-to-positive, and positive-to-negative are shown. Appended sections discuss how to select the proper aluminum electrolytic capacitor and explain power switch and output diode loss calculations. - Signal Sources, Conditioners and Power Circuitry Circuits of the Fall, 2004 &mdash AN98PDF, 886 Kb, Datei veröffentlicht: Nov 19, 2004
Eighteen circuits are presented in this compilation. Signal sources include a voltage controlled current source, an amplitude/frequency stabilized sine wave oscillator, a versatile, 0V to 50V wideband level shift and four sub-nanosecond pulse generators with risetimes as low as 20ps. Five signal conditioners appear; a unique, single positive rail powered amplifier with output to (and below) zero volts, a milliohmmeter, a 0.02% accurate instrumentation amplifier with 120dB CMRR at 125VCM, a 100MHz switch with 5mV control channel feedthrough and a 5V powered, 15ppm linearity quartz stabilized V→F, converter. The power circuits section features a Xenon flashlamp supply, two 5V powered, 0V to 300V DC/DC converters, a fixed 200V output circuit for APD bias, a 100W 0V to 500V, 28V powered converter and a high current paralleling scheme for linear regulators. Two appended sections consider measurement technique and connection practice in sub-nanosecond circuits.Auszug aus dem Dokument
Konstruktionshinweise
- No Design Switching Regulator 5V, 5A Buck (Step Down) Regulator &mdash DN48PDF, 70 Kb, Datei veröffentlicht: Aug 1, 1991Auszug aus dem Dokument
- No Design Switiching Regulator 5V Buck-Boost (Positive to Negative) Regulator &mdash DN49PDF, 71 Kb, Datei veröffentlicht: Sep 1, 1991Auszug aus dem Dokument
Modellreihe
Serie: LT1074HV (10)
Herstellerklassifikation
- Power Management > Switching Regulator > Step-Down (Buck) Regulators > High Input Voltage Buck | Internal Power Switch Buck
- Power Management > Switching Regulator > Inverting Regulators
Andere Namen:
LT1074HVIT30PBF, LT1074HVIT 30PBF