DRV10983EVM Target Board
DRV10983EVM-TB
This product has been released to the market and is available for purchase. For some products, newer alternatives may be available.

Description & Features

Technical documentation

Support & Training

Order Now



Description

The DRV10983EVM-TB (target board) provides a method to quickly program a limited quantity of devices. This makes initial pilot runs of the device easy to implement. The target board contains a boost converter to create the necessary voltage required to reprogram the settings in the device. The target board requires a MSP-EXP430G2553 Launchpad to operate properly.

Features
  • Easy to implement programming tool
  • Boost regulator creates necessary voltages
  • Allows customer to program devices prior to solder on PCB.
  • Does not include device in socket. Samples must be ordered separately.
  • Requires MSP-EXP430G2553 Launchpad

Order Now
Part Number Buy from Texas Instruments or Third Party Buy from Authorized Distributor Status

DRV10983EVM-TB:
DRV10983 Target Board Programming EVM

$75.00(USD)


Pricing may vary.



ACTIVE
Contact a Distributor  

TI's Standard Terms and Conditions for Evaluation Items apply.

Technical documentation
Datasheet (1)
Title Type Size (KB) Date
PDF 2555 30 Jun 2020
Application notes (1)
Title Type Size (KB) Date
PDF 398 07 Oct 2014
Design files (2)
Title Type Size (KB) Date
ZIP 67 09 Sep 2014
ZIP 8454 27 Aug 2014
More literature (1)
Title Type Size (KB) Date
PDF 38 02 Jan 2019

TI Devices (1)

Part Number Name Product Family
DRV10983  24-V nominal, 3-A peak sensorless sinusoidal control 3-phase BLDC motor driver  Motor drivers 

Support & training

Search our extensive online knowledge base where millions of technical questions and answers are available 24/7.

Search answers from TI experts

Content is provided 'AS IS' by the respective TI and Community contributors and does not constitute TI specifications.
See terms of use.

If you have questions about quality, packaging, or ordering TI products visit our Support page.

Technical articles