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MCT8376Z-Q1

Name: MCT8376Z-Q1
Brand: TI
SKU: MCT8376Z-Q1
Price: 2.6 USD

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Automotive, 70V max, 4A peak, sensored trapezoidal control 3-phase BLDC motor driver

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Data sheet

document-pdfAcrobat MCT8376Z-Q1 Sensored Trapezoidal Integrated FET BLDC Motor Driver datasheet PDF | HTML

MCT8376Z-Q1

ACTIVE

Data sheet

Order now

Product details

Rating

Automotive

Architecture

Integrated FET

Control topology

Sensored, Trapezoidal

Control interface

3xPWM, 6xPWM

Vs (min) (V)

4.5

Vs ABS (max) (V)

70

Features

Active Demagnetization to reduce power losses, Analog or Digital Hall inputs, Code-free Hall sensor based trapezoidal (120°) commutation, Configurable PWM modulation: Synchronous/Asynchronous, Cycle-by-cycle current limit to limit phase current, Integrated protections: UVLO, SPI, Stand-alone operation (no external MCU needed)

Operating temperature range (°C)

-40 to 125

Rating

Automotive

Architecture

Integrated FET

Control topology

Sensored, Trapezoidal

Control interface

3xPWM, 6xPWM

Vs (min) (V)

4.5

Vs ABS (max) (V)

70

Features

Active Demagnetization to reduce power losses, Analog or Digital Hall inputs, Code-free Hall sensor based trapezoidal (120°) commutation, Configurable PWM modulation: Synchronous/Asynchronous, Cycle-by-cycle current limit to limit phase current, Integrated protections: UVLO, SPI, Stand-alone operation (no external MCU needed)

Operating temperature range (°C)

-40 to 125

VQFN (NLG)

28

30 mm² 6 x 5

Three-phase BLDC motor driver with integrated Sensored Trapezoidal control
- Hall Sensor based Trapezoidal (120°) commutation
- Supports Analog or Digital Hall inputs
- Configurable PWM modulation: Synchronous/Asynchronous
- Supports 48V systems
- Supports up to 100kHz PWM frequency
- Active Demagnetization to reduce power losses
- Cycle-by-cycle current limit to limit phase current
4.5V to 65V operating voltage (70V abs max)
High output current capability: 4.5A Peak
Low MOSFET on-state resistance
- 400mΩ RDS(ON) (HS + LS) at TA = 25°C
Reduced switching loss with 1.1V/ns slew rate and reverse recovery loss minimization technique
Low audible noise and ease of motor control with ultra-low dead time < 200ns, and propagation delay < 100ns
Low-power sleep mode
- 1.5µA typical at VVM = 24V, TA = 25°C
Flexible device configuration options
Flexible device configuration options
- MCT8376ZS-Q1: 5MHz 16bit SPI for device configuration and fault status
- MCT8376ZH-Q1: Hardware pin-based configuration
Supports 1.8V, 3.3V, and 5V logic inputs
Built-in 3.3V (5%), 30mA LDO regulator
Built-in 5V (5%), 30mA LDO regulator
Integrated protection features
- Supply under voltage lockout (UVLO)
- Charge pump under voltage (CPUV)
- Overcurrent protection (OCP)
- Motor lock protection
- Thermal warning and shutdown (OTW/OTSD)
- Fault condition indication pin (nFAULT)
- Optional fault diagnostics over SPI

Three-phase BLDC motor driver with integrated Sensored Trapezoidal control
- Hall Sensor based Trapezoidal (120°) commutation
- Supports Analog or Digital Hall inputs
- Configurable PWM modulation: Synchronous/Asynchronous
- Supports 48V systems
- Supports up to 100kHz PWM frequency
- Active Demagnetization to reduce power losses
- Cycle-by-cycle current limit to limit phase current
4.5V to 65V operating voltage (70V abs max)
High output current capability: 4.5A Peak
Low MOSFET on-state resistance
- 400mΩ RDS(ON) (HS + LS) at TA = 25°C
Reduced switching loss with 1.1V/ns slew rate and reverse recovery loss minimization technique
Low audible noise and ease of motor control with ultra-low dead time < 200ns, and propagation delay < 100ns
Low-power sleep mode
- 1.5µA typical at VVM = 24V, TA = 25°C
Flexible device configuration options
Flexible device configuration options
- MCT8376ZS-Q1: 5MHz 16bit SPI for device configuration and fault status
- MCT8376ZH-Q1: Hardware pin-based configuration
Supports 1.8V, 3.3V, and 5V logic inputs
Built-in 3.3V (5%), 30mA LDO regulator
Built-in 5V (5%), 30mA LDO regulator
Integrated protection features
- Supply under voltage lockout (UVLO)
- Charge pump under voltage (CPUV)
- Overcurrent protection (OCP)
- Motor lock protection
- Thermal warning and shutdown (OTW/OTSD)
- Fault condition indication pin (nFAULT)
- Optional fault diagnostics over SPI

The MCT8376Z-Q1 provides a single-chip code-free sensored trapezoidal control for driving 4.5V to 65V brushless-DC motors. The MCT8376Z-Q1 integrates three 1/2-H bridges with 70V absolute maximum voltage capability and a very low RDS(ON) of 400mΩ (high-side and low-side combined) to enable high power drive capability. Current is sensed using an integrated current sensing feature which eliminates the need for external sense resistors. Power management features with integrated LDO generate the necessary voltage rails for the device and can be used to power external circuits.

MCT8376Z-Q1 implements sensored trapezoidal control in a fixed-function state machine, so an external microcontroller is not required to spin the brushless-DC motor. The MCT8376Z-Q1 device integrates three analog hall comparators for position sensing to achieve sensored trapezoidal BLDC motor control. The control scheme is highly configurable through hardware pins or register settings ranging from motor current limiting behavior to fault response. The speed can be controlled through a PWM input.

There are a large number of protection features integrated into MCT8376Z-Q1, intended to protect the device, motor, and system against fault events.

The MCT8376Z-Q1 provides a single-chip code-free sensored trapezoidal control for driving 4.5V to 65V brushless-DC motors. The MCT8376Z-Q1 integrates three 1/2-H bridges with 70V absolute maximum voltage capability and a very low RDS(ON) of 400mΩ (high-side and low-side combined) to enable high power drive capability. Current is sensed using an integrated current sensing feature which eliminates the need for external sense resistors. Power management features with integrated LDO generate the necessary voltage rails for the device and can be used to power external circuits.

MCT8376Z-Q1 implements sensored trapezoidal control in a fixed-function state machine, so an external microcontroller is not required to spin the brushless-DC motor. The MCT8376Z-Q1 device integrates three analog hall comparators for position sensing to achieve sensored trapezoidal BLDC motor control. The control scheme is highly configurable through hardware pins or register settings ranging from motor current limiting behavior to fault response. The speed can be controlled through a PWM input.

There are a large number of protection features integrated into MCT8376Z-Q1, intended to protect the device, motor, and system against fault events.

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*	Data sheet	MCT8376Z-Q1 Sensored Trapezoidal Integrated FET BLDC Motor Driver datasheet	PDF \| HTML	02 Dec 2025

Design & development

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Evaluation board

DRV8376EVM — DRV8376 evaluation module

The DRV8376EVM is an integrated driver IC evaluation module for three-phase motor driver applications and provides single-chip power stage design for customers driving 4.5V to 65V brushless DC motors. Along with the hardware of the DRV8376, the TMS320F280049C microcontroller-based board has (...)

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VQFN (NLG)	28	Ultra Librarian

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

MCT8376Z-Q1

Automotive, 70V max, 4A peak, sensored trapezoidal control 3-phase BLDC motor driver

MCT8376Z-Q1

Product details

Technical documentation

Design & development

DRV8376EVM — DRV8376 evaluation module

Ordering & quality

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TI E2E™ forums with technical support from TI engineers

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