Datasheet Linear Technology LT1763CS8#TRPBF

ManufacturerLinear Technology
SeriesLT1763
Part NumberLT1763CS8#TRPBF

500mA, Low Noise, LDO Micropower Regulators

Datasheets

Datasheet LT1763
PDF, 1.2 Mb, Language: en, File uploaded: Sep 2, 2017, Pages: 22
500mA, Low Noise, LDO Micropower Regulators
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Prices

Packaging

PackageSO-8
Package CodeS8
Package Index05-08-1610 (S8)

Parametrics

Demo BoardsDC368A
Design ToolsLTspice File
Discrete Pass Elementno
Dropout Voltage0.3 V
Export Controlno
FeaturesShutdown
Ishutdown1 µA
Isupply0.03 mA
Max Junction Temp150 Deg
Number of Outputs1
Operating Temperature Range0 to 70 °C
Output Current0.5 A
Output VoltageAdj,1.5, 1.8, 2.5, 3, 3.3, 5
PSRR65 dB
RMS Noise20 µV
Theta JA40В°C/W (DE), 70В°C/W (S8)
TypePNP
Vin Max20 V
Vin Min1.8 V
Vout Max20 V
Vout Min1.22 V

Eco Plan

RoHSCompliant

Application Notes

  • Minimizing Switching Regulator Residue in Linear Regulator Outputs &mdash AN101
    PDF, 358 Kb, Language: en, File published: Jul 16, 2005, Pages: 12
    Application Note 101. Linear regulators are commonly employed to post-regulate switching regulator outputs. Benefits include improved stability, accuracy, transient response and lowered output impedance. Ideally, these performance gains would be accompanied by markedly reduced switching regulator generated ripple and spikes. In practice, all linear regulators encounter some difficulty with ripple and spikes, particularly as frequency rises. This publication explains the causes of linear regulators' dynamic limitations and presents board level techniques for improving ripple and spike rejection. A hardware based ripple/spike simulator is presented, enabling rapid breadboard testing under various conditions. Three appendices review ferrite beads, inductor based filters and probing practice for wideband, sub-millivolt signals.
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  • Performance Verification of Low Noise, Low Dropout Regulators &mdash AN83
    PDF, 542 Kb, File published: Mar 1, 2000
    In an increasing trend, telecommunications, networking, audio and instrumentation require low noise power supplies. In particular, there is interest in low noise, low dropout linear regulators (LDO). Establishing and specifying LDO dropout performance is relatively easy to do. Verifying that a regulator meets dropout specification is similarly straightforward. Accomplishing the same missions for noise and noise testing is considerably more involved. The noise bandwidth of interest must be called out, along with operating conditions. Low noise performance is affected by numerous subtleties; changes in operating conditions can cause unwelcome surprises. Because of this, LDO noise must be quoted under specified operating and bandwidth conditions to be meaningful. Failure to observe this precaution results in misleading data and erroneous conclusions. This Application Note suggests a noise testing method, details its implementation and presents results.
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Design Notes

  • Lowest Noise SOT-23 LDOs Have 20ВµA Quiescent Current, 20ВµVrms Noise &mdash DN220
    PDF, 114 Kb, File published: Dec 1, 1999
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Articles

  • Dual Regulators Offer Flexibility with Independent Shutdown Control and Adjustable Start-Up Timing &mdash LT Journal
    PDF, 210 Kb, File published: May 1, 2004
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Model Line

Manufacturer's Classification

  • Power Management > LDO Linear Regulators > Positive Linear Regulators (LDO) | Extended Temperature (H & MP) Linear Regulators

Other Names:

LT1763CS8TRPBF, LT1763CS8 TRPBF