Space & Harsh Environment

Overview

Description

The ISL71710M is an active input digital signal isolator with CMOS output, using Giant Magnetoresistive (GMR) technology for small size, high speed, and low power. The ISL71710M is the fastest isolator of its type, with a 150Mbps typical data rate. The symmetric magnetic coupling barrier provides a typical propagation delay of only 10ns and a pulse-width distortion as low as 0. 3ns, achieving the best specifications of any isolator. The ISL71710M has unsurpassed common-mode transient immunity of 50kV/µs. It is ideal for isolating applications such as PROFIBUS, RS-485, and RS-422. The ISL71710M is offered in an 8 Ld 5mm x 4mm SOIC package and is fully specified across the military ambient temperature range of -55°C to +125°C.

Features

  • Barrier Voltage Endurance
    • 2.5kVRMS for 1 minute, 600VRMS continuous (VDE V 0884-10 certified: file 5022321-4880-0001)
    • 1.5kVDC continuous
    • 500VDC at 43MeV•cm2/mg SEDR
  • UL 1577 recognized: file reference E483309
  • 5V/3.3V CMOS/TTL compatible
  • High speed: 150Mbps typical
  • 10ns typical propagation delay
  • 300ps typical pulse-width distortion
  • 4ns typical propagation delay skew
  • 50kV/µs typical common-mode transient immunity
  • Low EMI/RFI emissions
  • Excellent magnetic immunity
  • Passes NASA low outgassing specifications
  • NiPdAu-Ag leadframes (Pb-free, Sn-free)
  • Full military temperature range operation
    • TA = -55°C to +125°C
    • TJ = -55°C to +150°C
  • Radiation characterization
    • Low Lose Rate (LDR) (0.01rad(Si)/s) : 30krad(Si)
  • SEE characterization
    • No SEB/SEL LET, VDD = 7V: 43MeV•cm2/mg

Documentation

Title Type Date
PDF2.49 MB
Datasheet
PDF218 KB
Application Note
PDF296 KB
Application Note
PDF3.16 MB
Brochure
PDF915 KB
Manual - Development Tools
PDF608 KB日本語
White Paper

Design & Development

Software & Tools

Software Downloads

Title Type Date
ZIP426 KB
PCB Design Files

Boards & Kits

Boards & Kits

Models

Models

Title Type Date
IBS57 KB
Model - IBIS

Support