Four-Channel, Fast, Low-Power, 3.75kVRMS Digital Isolators

Industry's Fast Low Power Digital Isolators

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The MAX14430–MAX14432 are fast, low power, 4-channel, digital galvanic isolators using Maxim’s proprietary process technology. These devices transfer digital signals between circuits with different power domains while using as little as 0.58mW per channel at 1Mbps with a 1.8V supply. The MAX14430/1/2 have an isolation rating of 3.75kVRMS for 60 seconds. For applications requiring 5kVRMS of isolation, see the MAX14434-MAX14436.

The MAX14430–MAX14432 family offers all three possible unidirectional channel configurations to accommodate any 4-channel design, including SPI, RS-232, RS-485, and digital I/O applications. Output enable for the A side of the MAX14431R/S/U/V is active-low, making them ideal for isolating a port on a shared SPI bus since the active-low CS signal can directly enable the MISO signal on the isolator. All other devices in the family have the traditional active-high enable.

Devices are available with a maximum data rate of either 25Mbps or 200Mbps and with outputs that are either default-high or default-low. The default is the state the output assumes when the input is either not powered or is open-circuit. See the Ordering Information for suffixes associated with each option. Independent 1.71V to 5.5V supplies on each side of the isolator also make the devices suitable for use as level translators.

The MAX14430–MAX14432 are available in a 16-pin narrow-body SOIC package with 4mm of creepage and clearance. The package material has a minimum comparative tracking index (CTI) of 600V, which gives it a group 1 rating in creepage tables. All devices are rated for operation at ambient temperatures of -40°C to +125°C.
MAX14430, MAX14431, MAX14432: Functional Diagram MAX14430, MAX14431, MAX14432: Functional Diagram Enlarge+

Key Features

  • Robust Galvanic Isolation for Fast Digital Signals
    • Up to 200Mbps Data Rate
    • Withstands 3.75kVRMS for 60s (VISO)
    • Continuously Withstands 445VRMS (VIOWM)
    • Withstands ±10kV Surge between GNDA and GNDB with 1.2/50μs waveform
    • High CMTI (50kV/μs, Typical)
  • Low Power Consumption
    • 1.1mW per Channel at 1Mbps with VDD = 3.3V
    • 3.5mW per Channel at 100Mbps with VDD = 1.8V
  • Options to Support a Broad Range of Applications
    • 2 Data Rates (25Mbps, 200Mbps)
    • 3 Channel Direction Configurations
    • 2 Output Default States (High/Low)


  • Battery Management
  • Fieldbus Communications for Industrial Automation
  • Isolated RS-485/RS-422, CAN
  • Isolated SPI Interface
  • Medical Systems
Part NumberChannelsUni-directional InputsUni-directional InputsUni-directional Data Rate
Insulation RatingUni-directional Propagation
Oper. Temp.
Side ASide BmaxmaxminmaxSee Notes
MAX14430B 44-253750VRMS351.715.5-40 to +125
MAX14430C 4-20010
MAX14430E 4-2535
MAX14430F 4-20010
MAX14431B 312535
MAX14431C 3120010
MAX14431E 312535
MAX14431F 3120010
MAX14432B 222535
MAX14432C 2220010
MAX14432E 222535
MAX14432F 2220010
$2.28 @1k
See All Digital Isolators (74)
Pricing Notes:
This pricing is BUDGETARY, for comparing similar parts. Prices are in U.S. dollars and subject to change. Quantity pricing may vary substantially and international prices may differ due to local duties, taxes, fees, and exchange rates. For volume-specific and version-specific prices and delivery, please see the price and availability page or contact an authorized distributor.

MAX14430FSEVKIT: Evaluation Kit for the MAX14430/MAX14431/MAX14432
MAX14431FSEVKIT: Evaluation Kit for the MAX14430/MAX14431/MAX14432
MAX14432FSEVKIT: Evaluation Kit for the MAX14430/MAX14431/MAX14432

Quality and Environmental Data

Request Reliability Report for: MAX14430 
Lead-Free Package Tin (Sn) Whisker Reports

CAD Symbols and Footprints

  • MAX14430BASE+
  • MAX14430BASE+T
  • MAX14430CASE+
  • MAX14430CASE+T
  • MAX14430EASE+
  • MAX14430EASE+T
  • MAX14430FASE+
  • MAX14430FASE+T
  • Device   Fab Process   Technology   Sample size   Rejects   FIT at 25°C   FIT at 55°C  

    Note : The failure rates are summarized by technology and mapped to the associated material part numbers. The failure rates are highly dependent on the number of units tested.

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