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NJM3772FM2 - DUAL STEPPER MOTOR DRIVER

Download the NJM3772FM2 datasheet PDF. This datasheet also covers the NJM3772 variant, as both devices belong to the same dual stepper motor driver family and are provided as variant models within a single manufacturer datasheet.

General Description

The NJM3772 is a stepper motor driver, which circuit is especially developed for use in microstepping applications in conjunction with the matching dual DAC (Digital-to-Analog Converter) NJU39610.

Key Features

  • Dual chopper driver.
  • 1000mA continuous output current per channel.
  • Specially matched to the Dual DAC NJU39610.
  • Packages DIP22 / PLCC28 s BLOCK.

📥 Download Datasheet

Note: The manufacturer provides a single datasheet file (NJM3772_NewJapanRadio.pdf) that lists specifications for multiple related part numbers.

📁 Similar Datasheet

Part Number Description Manufacturer
NJM37770 STEPPER MOTOR DRIVER JRC
NJM37770E2 STEPPER MOTOR DRIVER JRC
NJM3415 Dual High Output Power Operational Amplifier JRC
NJM3415D Dual High Output Power Operational Amplifier JRC
NJM3415L Dual High Output Power Operational Amplifier JRC

Other Datasheets by New Japan Radio

Part Number Description
NJM3772 DUAL STEPPER MOTOR DRIVER
NJM3772D2 DUAL STEPPER MOTOR DRIVER
NJM3770A STEPPER MOTOR DRIVER
NJM3770AD3 STEPPER MOTOR DRIVER
NJM3770AE2 STEPPER MOTOR DRIVER

Full PDF Text Transcription (Reference)

The following content is an automatically extracted verbatim text from the original manufacturer datasheet and is provided for reference purposes only.

View original datasheet text
DUAL STEPPER MOTOR DRIVER NJM3772 s GENERAL DESCRIPTION The NJM3772 is a stepper motor driver, which circuit is especially developed for use in microstepping applications in conjunction with the matching dual DAC (Digital-to-Analog Converter) NJU39610. The NJM3772 contains a clock oscillator, which is common for both driver channels, a set of comparators and flip-flops implementing the switching control, and two H-bridges with internal recirculation diodes. Voltage supply requirements are +5 V for logic and +10 to +45V for the motor. Maximum output current is 1000mA per channel.