DRV10983 Three-Phase Sensorless BLDC Motor Driver

Texas Instruments Power_Management — specifications, applications, sourcing support and RFQ.

DRV10983 Three-Phase Sensorless BLDC Motor Driver

RFQ Available Sourcing Support Alternative Matching RoHS
Part Number
DRV10983
Manufacturer
Texas Instruments
Package
HTSSOP-24, 7.80 mm x 6.40 mm nominal body size
Category
Power Management
Product Type
LDO Regulator

Quick Sourcing Note

DRV10983 from Texas Instruments is a Power_Management three-phase sensorless BLDC motor driver in an HTSSOP-24 package with a 7.80 mm x 6.40 mm nominal body size. It operates from an 8 to 28 V input range and integrates the three-phase power MOSFET output stage. The driver supports 2 A continuous winding current and 3 A peak winding current with 250 mOhm total high-side plus low-side RDS(on). It uses continuous sinusoidal 180 degree commutation and proprietary sensorless BEMF control. Listed applications include appliance fan and HVAC motor drive designs.

Specifications

TypeDescription
Part NumberDRV10983
ManufacturerTexas Instruments
Product TypeLDO Regulator
CategoryPower Management
Component TypePower_IC
Package CaseHTSSOP-24, 7.80 mm x 6.40 mm nominal body size
Input Voltage Range8 to 28 V
Motor Driver TopologyThree-phase sensorless motor driver
Integrated Power MOSFETsYes
Total Driver RDS(on)250 mOhm
Continuous Drive Current2 A
Peak Drive Current3 A
Commutation MethodContinuous sinusoidal 180 degree commutation
Control SchemeProprietary sensorless BEMF control
External Sense ResistorNot required
Optional External Sense ResistorSupported
Speed Control InterfacesPWM, analog, or I2C
I2C InterfaceSupported
SPEED Pin Input TypeAnalog or PWM
Speed Feedback InterfacesFG pin or I2C
FG Pin FunctionTACH feedback
Direction ControlDIR pin
Spin-Up ProfileCustomizable with EEPROM
Integrated Step-Down Regulator Output5 V or 3.3 V
Standby Mode Supply Current3 mA
Sleep Mode Supply Current180 uA
Standby Mode Regulator StateRegulator remains running
Sleep Mode Regulator StateRegulator shuts off
Overcurrent ProtectionSupported
Lock DetectionSupported
Voltage Surge ProtectionSupported
UVLO ProtectionSupported
Thermal Shutdown ProtectionSupported
PackageHTSSOP
Package Body Size7.80 mm x 6.40 mm
ApplicationAppliance fan
ApplicationHVAC
Datasheet Statusrequest_only

Product Overview

DRV10983 is a Texas Instruments Power_Management IC for three-phase sensorless BLDC motor control. The device integrates the power MOSFET output stage and is specified for an 8 to 28 V supply/input operating range, with 2 A continuous winding current and 3 A peak winding current capability.

The motor drive architecture uses continuous sinusoidal 180 degree commutation with proprietary sensorless BEMF control. Speed commands can be provided through PWM, analog, or I2C interfaces, while feedback is available from the FG pin or through I2C register access. The SPEED pin accepts analog or PWM input, the FG pin provides TACH feedback, and the DIR pin controls forward-reverse direction.

The device is supplied in a 24-pin thermally enhanced HTSSOP package with a 7.80 mm x 6.40 mm nominal body size. It includes a configurable EEPROM spin-up profile, an integrated 5 V or 3.3 V step-down regulator, and protection features including overcurrent, lock detection, voltage surge, UVLO, and thermal shutdown. Datasheet-listed applications include appliance fan and HVAC systems.

Key Features

  • 8 to 28 V device supply input range
  • Integrated three-phase power MOSFET output stage
  • 250 mOhm total high-side plus low-side RDS(on)
  • 2 A continuous and 3 A peak winding current
  • Continuous sinusoidal 180 degree sensorless commutation
  • Proprietary sensorless BEMF motor control scheme
  • PWM, analog, or I2C speed command options
  • FG pin or I2C motor speed feedback
  • DIR pin supports forward-reverse direction control
  • EEPROM-customizable motor spin-up profile
  • Integrated 5 V or 3.3 V step-down regulator
  • Overcurrent, lock, surge, UVLO, and thermal shutdown protection

Typical Applications

  • Appliance fan motor drive
  • HVAC motor drive
  • Three-phase BLDC motor control
  • Sensorless fan motor control
  • PWM-controlled motor speed designs
  • I2C-configured motor driver systems

Procurement Notes

When requesting a quote for DRV10983, buyers should confirm the manufacturer, package or case, required quantity, target date code, compliance documents, packing method, destination country and expected delivery schedule.

If alternatives are acceptable, buyers should share the approved vendor list, required electrical or optical limits, package constraints and qualification requirements. Any alternative part should be reviewed by the buyer's engineering team before production use.

For power IC and power device sourcing, voltage rating, current rating, power dissipation, package thermal performance, protection features, qualification grade and application conditions should be reviewed before approval.

FAQ

What input voltage range does the DRV10983 support?

The DRV10983 supports an 8 to 28 V device supply/input operating range. This specification applies to its operation as a three-phase sensorless BLDC motor driver.

Does the DRV10983 require an external sense resistor?

An external sense resistor is not required for default motor drive operation. The datasheet facts also state that an optional external sense resistor is supported to monitor power delivered to the motor.

Which speed control interfaces are supported by DRV10983?

The DRV10983 supports PWM, analog, or I2C speed command inputs. Its dedicated SPEED pin accepts analog or PWM input, and I2C is supported for register access for command and feedback.

What package is used for the DRV10983?

The DRV10983 is supplied in a 24-pin thermally enhanced HTSSOP package. The nominal package body size is 7.80 mm x 6.40 mm for DRV10983 and DRV10983Z.

Technical Review & Sourcing Note

Prepared by LDeepAI Component Sourcing Team. Reviewed for RFQ, documentation and alternative sourcing use. Last updated: June 30, 2026.

This page is based on manufacturer datasheet information and LDeepAI sourcing review. Specifications should be verified against the official manufacturer datasheet before final procurement or design approval. Final electrical, optical and reliability approval should be confirmed by the buyer's engineering team.

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