NSN: 5962-01-521-2793

Microcircuits, Electronic

MICROCIRCUIT,DIGITAL

5962 - Microcircuits, Electronic

MICROCIRCUIT,DIGITAL

ACT NOW! SUBMIT A QUICK QUOTE.

Technical Characteristics

  • ~1

    current; thermal overload protection; 1.3 w power um

  • Time Rating Per Chacteristic

    1.500 microseconds minimum delay and 8.00 microseconds maximum delay

  • Part Name Assigned By Controlling Agency

    500 ma low-dropout linear regulator in umax

  • Body Height

    0.037 inches minimum and 0.043 inches maximum

  • Body Width

    0.116 inches minimum and 0.120 inches maximum

  • Body Length

    0.188 inches minimum and 0.198 inches maximum

  • End Item Identification

    rat-31 radar 3d band sl/t

  • Maximum Power Dissipation Rating

    1.3 watts

  • Operating Temp Range

    -40.0/+85.0 deg celsius

  • Storage Temp Range

    -65.0/+150.0 deg celsius

  • Current Rating Per Characteristic

    500.00 amperes collector cutoff current, dc, base open not applicable

  • Inclosure Configuration

    quad-in-line

  • Supplementary Features

    applications notebook computers; cellular and cordless telephones; personal digital assistants, pda; palmtop computers; base stations; usb hubs; docking stations

  • Special Features

    500 ma output current; 130 mv dropout at 500 ma; up to porm 1 pct output voltage accuracy preset at 1.5 v; 1.8 v; 2.5 v; 3.3 v; or 5.0 v; adjustable from 1.25 v to 5.0 v; reset output with 4 ms timeout period; 80 ua ground current; 0.1 ua shutdown

Related Manufacturers

Certified to
AS6081 Methods

Implementing Quality Procurement

A rigorous vendor selection process and vendor management system are essential to ensuring quality.
Read more...

Supplying Quality Products

We take every measure to ensure that we supply quality, authentic parts including a strict vendor selection process and rigorous product inspections..
Read more...

Providing Quality People

Our team of dedicated account managers, procurement professionals and specialized inspectors is the most valuable resource we have.
Read more...