0N270598

Microcircuits, Electronic

MICROCIRCUIT,DIGITAL

0N270598

5962-01-084-7401

5962 - Microcircuits, Electronic

National Security Agency

MICROCIRCUIT,DIGITAL

ACT NOW! SUBMIT A QUICK QUOTE.

Technical Characteristics

  • Body Length

    0.755 inches minimum and 0.785 inches maximum

  • Test Data Document

    96906-mil-std-883 standard (includes industry or association standards, individual manufactureer standards, etc.).

  • Body Height

    0.140 inches minimum and 0.180 inches maximum

  • Storage Temp Range

    -65.0/+150.0 deg celsius

  • Design Function And Quantity

    4 gate, nand buffer

  • Terminal Surface Treatment

    solder

  • Inclosure Material

    ceramic and glass

  • Inclosure Configuration

    dual-in-line

  • Output Logic Form

    transistor-transistor logic

  • Features Provided

    positive outputs and monolithic and schottky and hermetically sealed and w/totem pole output

  • Time Rating Per Chacteristic

    6.50 nanoseconds maximum propagation delay time, low to high level output and 6.50 nanoseconds maximum propagation delay time, high to low level output

  • Body Width

    0.245 inches minimum and 0.280 inches maximum

  • Operating Temp Range

    -55.0/+125.0 deg celsius

  • Voltage Rating And Type Per Characteristic

    -1.5 volts minimum power source and 5.5 volts maximum power source

  • Maximum Power Dissipation Rating

    164.0 milliwatts

  • Terminal Type And Quantity

    14 printed circuit

  • Input Circuit Pattern

    quad 2 input

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...