MAX31912:Ultra-Low Power Industrial, Octal, Digital Input Translator/Serializer

Industry's Lowest Power Industrial Digital Input Serializer

The MAX31912 industrial interface serializer translates, conditions, and serializes the 24V digital output of sensors and switches used in industrial, process, and building automation to 5V CMOS-compatible signals required by microcontrollers. It provides the front-end interface circuit of a programmable logic controller (PLC) digital input module. The device features integrated current limiting, lowpass filtering, and channel serialization. Input current limiting allows a significant reduction in power consumed from the field voltage supply as compared to traditional discrete resistor-divider implementations. Selectable on-chip lowpass filters allow flexible debouncing and filtering of sensor outputs based on the application. On-chip serialization allows a drastic reduction in the number of optocouplers used for isolation. The device serializer is stackable so that any number of input channels can be serialized and output through only one SPI-compatible port. This reduces the number of optocouplers needed to only three, regardless of the number of input channels. For enhanced robustness with respect to high-frequency noise and fast electrical transients, a multibit CRC code is generated and transmitted through the SPI port for each 8 bits of data. The on-chip 5V voltage regulator can be used to power external optocouplers, digital isolators, or other external 5V circuitry. Field-side LED drivers recycle the current from the eight inputs to provide visual input status indication without any additional current or power consumption. The MAX31912 uses patent-pending circuit techniques to achieve further reduction of power beyond what is possible by input current limiting alone. For low-cost applications, Maxim Integrated offers a pincompatible version of this device, the MAX31913, which does not include the patent-pending current-switching circuitry included in the MAX31912.

Key Features
  • Ultra-Low Power and Heat Dissipation
    • Low Quiescent Current (1.6mA, typ)
    • Highly Accurate and Stable Input Current Limiters, Adjustable from 0.5mA to 6mA
    • Special (Patent-Pending) Ultra-Low-Power Mode with Switched Current Limiters
    • Energy-Less Field-Side LED Drivers
  • High Integration Reduces BOM Count, Board Size, and System Cost
    • 8 High-Voltage Input Channels (36V max)
    • On-Chip 8-1 Serialization with SPI Interface,
    • On-Chip 5V Regulator
    • On-Chip Overtemperature Indicator
    • Dual On-Chip Field Supply Voltage Monitors
    • Integrated Debounce Filters, Selectable from 0 to 3ms
  • Robust Features and Performance for Industrial Environments
    • Multibit CRC Code Generation and Transmission for Error Detection and More Reliable Data Transmission
    • High ESD Immunity on All Field Input Pins
  • Accepts Industry standard input types
    • Configurable for IEC 61131-2 Input Types 1, 2, and 3
  • Flexible Power Supply Capability Enables Usage in 5V, 12V, 24V, and Higher Voltage Systems
    • Wide Operating Field Supply Range of 7V to 36V
    • Can Be Powered from the Logic-Side Using a 5V Supply
MAX31912: Block Diagram
MAX31912: Block Diagram
Applications/Uses
  • Digital Input Modules for PLCs
  • Industrial, Building, and Process Automation
  • Motor Control
DataSheet
titleDownload file
MAX31912 Data SheetMAX31912.pdf
Parametrics
Part NumberSensor Interface TypeµC Interface TypeChannelsVSUPPLY
(V)
VSUPPLY
(V)
ISUPPLY
(µA)
Low Pwr. ShutdnOper. Temp.
(°C)
Package/PinsBudgetary
Price
minmaxtypSee Notes
MAX31912IEC 61131-2 Digital Input Types 1, 2, 3SPI87361600No-40 to +125TSSOP-EP/28$3.05 @1k
Design kits & evaluation modules
Quality and Environmental Data
Ordering Information
Part NumberStatusRecommended ReplacementPackageTempRoHS
MAX31912AUI+ActiveTSSOP-EP,;28 pin;63.7 mm²-40°C to +125°CLead Free
MAX31912AUI+TActiveTSSOP-EP,;28 pin;63.7 mm²-40°C to +125°CLead Free
MAX31912.pdf MAX31912
MAX31912_cn.pdf MAX31912
MAX31912.pdf MAX31912
MAX31912.pdf MAX31912
MAX31912.pdf MAX31912
MAX31912_cn.pdf MAX31912