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ISL3284E

Obsolete

±16.5kV ESD Protected, +125°C, 3.0V to 5.5V, SOT-23 Package, 20Mbps, Full Fail-safe, Low Power, RS-485/RS-422 Receivers

Features

  • IEC61000 ESD protection on RS-485 inputs: ±16.5kV
  • Class 3 ESD level on all other pins: >5kV HBM
  • Pb-free (RoHS compliant)
  • Wide supply range: 3.0V to 5.5V
  • Specified for +125°C operation
  • Logic supply pin (VL) eases operation in mixed supply systems (ISL3282E, ISL3284E, ISL3285E only)
  • Full fail-safe (open, short, terminated/undriven)
  • True 1/8 unit load allows up to 256 devices on the bus
  • High data rates: up to 20Mbps
  • Low quiescent supply current: 500µA (max)
  • Very low shutdown supply current: 20µA (max)
  • -7V to +12V common mode input voltage range
  • Tri-statable Rx available (active low or high EN input)
  • 5V tolerant logic inputs when VCC ≤ 5V
Find Other Products in RS-485/422, RS-232, & Multi-protocol Transceivers
ISL328xE Functional Diagram
ISL328xE Functional Diagram

Description

The Intersil ISL3280E, ISL3281E, ISL3282E, ISL3283E, ISL3284E, ISL3285E are ±16. 5kV IEC61000 ESD Protected, 3. 0V to 5. 5V powered, single receivers that meet both the RS-485 and RS-422 standards for balanced communication. These receivers have very low bus currents (+125µA/-100µA), so they present a true “1/8 unit load” to the RS-485 bus. This allows up to 256 receivers on the network without violating the RS-485 specification’s 32 unit load maximum and without using repeaters. Receiver inputs feature a “Full Fail-Safe” design, which ensures a logic high Rx output if Rx inputs are floating, shorted, or terminated but undriven. The ISL3280E and ISL3284E feature an always enabled Rx; the ISL3281E and ISL3285E feature an active high Rx enable pin and the ISL3282E and ISL3283E include an active low enable pin. All versions are offered in Industrial and Extended Industrial (-40°C to +125°C) temperature ranges. A 26% smaller footprint is available with the ISL3282E and ISL3285E TDFN package. These devices, plus the ISL3284E, also feature a logic supply pin (VL) that sets the VOH level of the RO output (and the switching points of the RE/RE input) to be compatible with another supply voltage in mixed voltage systems. For companion single RS-485 transmitters in micro packages, please see the ISL3293E datasheet.

Applications

  • Clock Distribution
  • High Node Count Systems
  • Space Constrained Systems
  • Security Camera Networks
  • Building Environmental Control/Lighting Systems
  • Industrial/Process Control Networks
Part NumberStatusSamplesStockRoHSPackageLead Count (#)Carrier TypeMoisture Sensitivity Level (MSL)Pb (Lead) FreePb Free CategoryTemp. Range (°C)
ISL3284EFHZ-TObsoleteN/AOut of StockRoHS:EN
SOT236#Reel2YesPb-Free 100% Matte Tin Plate w/Anneal-e3-40 to +125°C
ISL3284EIHZ-TObsoleteN/AOut of StockRoHS:EN
SOT236#Reel2YesPb-Free 100% Matte Tin Plate w/Anneal-e3-40 to +85°C
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    Recommended Documents (1)

  1. Datasheet
    ISL3280E, ISL3281E, ISL3282E, ISL3283E, ISL3284E, ISL3285E Datasheet
    RECOMMENDED
    PDF 993 KB FN6543 Mar 31, 2022

    Datasheets (1)

  1. Datasheet
    ISL3280E, ISL3281E, ISL3282E, ISL3283E, ISL3284E, ISL3285E Datasheet
    RECOMMENDED
    PDF 993 KB FN6543 Mar 31, 2022

    Application Notes & White Papers (14)

  1. Application Note
    AN1978: Surge Protection for Renesas' Standard RS-485 Transceivers
    PDF 365 KB AN1978 Apr 12, 2023
    AI-generated Summary: The document details surge protection circuits for RS-485 transceivers, focusing on Level 4 (4kV) protection using gas discharge tubes (GDTs) for higher overvoltage and overcurrent tolerance. It compares protection schemes by component count, board area, and cost, highlighting that higher-level protection increases complexity and expense. The BOMs for Level 3 and Level 4 circuits list components such as transceivers, bidirectional TVS diodes, transient blocking units, thyristors or GDTs, and resistors. The GDT switching characteristic explains how it diverts transient currents to ground by transitioning from high impedance to a crowbar current path. Simpler protection can be achieved with overvoltage protected transceivers.
  2. Application Note
    AN1985: Transient Protection for the Standard RS-485 Transceiver: ISL3152E
    PDF 207 KB an1985 Aug 19, 2022
    AI-generated Summary: Transient protection for RS-485 transceivers involves careful TVS diode design to prevent damage from high surge currents. Internal ESD structures in the ISL3152E share transient current with external TVS diodes, risking damage without current-limiting resistors. Using thick-film resistors under 200 ohms between TVS and transceiver limits surge current while minimizing bus voltage attenuation. Recommended PCB layout includes low-inductance ground and Vcc planes, 0603 resistors for wave or reflow soldering, and proper component placement to reduce inductance and enhance protection.
  3. Application Note
    AN1979: Surge Protection simplified with Renesas' Overvoltage Protected (OVP) Transceivers
    PDF 474 KB AN1979 Aug 16, 2022
    AI-generated Summary: The document explains surge protection using Renesas’ Overvoltage Protected (OVP) transceivers with various protection schemes. It details the use of TVS diodes and thyristors to protect data lines against surge currents while maintaining low capacitance for high data rates. Different configurations address various common-mode voltage ranges and surge levels, ensuring compliance with IEC61000-4-5 standards. The paper includes calculations for peak protection voltages and discusses device characteristics and combinations for robust surge protection in industrial applications.
  4. Application Note
    R15AN0002: RS-485 Transient Protection in Industrial DC-Supply Buses
    PDF 178 KB r15an0002eu-rs-485-transient-protection Oct 28, 2019
  5. White Paper
    How to Simplify Industrial PC Interfaces
    PDF 920 KB how-to-simplify-industrial-pc-interfaces 简体中文 Aug 16, 2018
    Industrial PC designs increasingly demand compact form factors and flexible communication interfaces. This paper explores how modern dual-protocol transceivers support both RS-232 and RS-485 standards while offering high integration and advanced configuration options. It also presents application examples that illustrate their versatility in industrial systems.
    6. View More (14)

    Product Notices (PCN, EOL, etc) (2)

  1. End Of Life Notice
    PLC21035 - End of Life Notice
    PDF 1.17 MB Jun 25, 2021
  2. Product Change Notice
    PCN15046 - Wafer Fabrication Site Change for Listed Intersil Products - Global Foundry P6 Process transfer to Palm Bay - Phase II
    PDF 398 KB PCN15046 Jan 07, 2016

    Marketing Collateral (9)

  1. Brochure
    Analog ICs Brochure
    PDF 5.43 MB R07CL0009EJ0800 Rev.8.00 日本語 Nov 10, 2025
  2. Training
    R15TB0008: Principles of the Driver and Receiver in RS-485 Networks Tutorial
    PDF 719 KB R15TB0008EU0100 Rev.1.00 Dec 18, 2023
  3. Training
    R15TB0007: Understanding ESD, EFT, and Surge in RS-422 and RS-485 Networks
    PDF 762 KB R15TB0007EU0100 Rev.1.00 Dec 04, 2023
  4. Training
    R15TB0004: Interfacing a 5V RS-485 Transceiver to a 3V Microcontroller Tutorial
    PDF 208 KB R15TB0004EU0100 Rev.1.00 Oct 26, 2023
  5. Brochure
    Transceivers Brochure
    PDF 2.95 MB R15CP0002EU0000 Rev.0.00 Oct 20, 2023
    6. View More (9)

    Other (4)

  1. Document
    TB347: Tape and Reel Specification for Integrated Circuits
    PDF 858 KB tb347 Dec 02, 2025
  2. Technical Brief
    TB509: Detecting Bus Signals Correctly with Failsafe Biased RS-485 Receivers
    PDF 266 KB tb509 简体中文 May 26, 2023
  3. Technical Brief
    R70TB0002: Understanding the Differences in ESD Device-Level Testing
    PDF 188 KB R70TB0002EU0100 Rev.1.00 May 17, 2022
  4. Document
    TB505: Understanding the Difference between HBM and IEC 61000-4-2 ESD Immunity
    PDF 254 KB tb505 Sep 15, 2010
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