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Drivers para motores de CC sin escobillas (BLDC)
Controladores BLDC de control integrado

MCT8316A

ACTIVO

Controlador de motor BLDC trifásico de 40 V máx., 8 A de pico, control trapezoidal sin sensor

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MCT8316A

ACTIVO
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Detalles del producto

Rating Catalog Architecture Integrated FET Control topology Sensorless, Trapezoidal Control interface 1xPWM, Analog, Serial Vs (min) (V) 4.5 Vs ABS (max) (V) 40 Features 120 or 150 degree modulation for improved acoustic performance, Active Demag to reduce power losses, Code-free high speed sensored trapezoidal control, Configurable motor startup and stop options, Fast Deceleration (<150 ms), Fast startup time (<50 ms), Integrated protections UVLO,OCP,OTW-OTSD,AVS, Optional closed loop speed control, Stand-alone operation, Up to 3 kHz (electrical frequency), Variable monitoring through DACOUT, Windmilling support through forward resynchronization and reverse drive Operating temperature range (°C) -40 to 125
Rating Catalog Architecture Integrated FET Control topology Sensorless, Trapezoidal Control interface 1xPWM, Analog, Serial Vs (min) (V) 4.5 Vs ABS (max) (V) 40 Features 120 or 150 degree modulation for improved acoustic performance, Active Demag to reduce power losses, Code-free high speed sensored trapezoidal control, Configurable motor startup and stop options, Fast Deceleration (<150 ms), Fast startup time (<50 ms), Integrated protections UVLO,OCP,OTW-OTSD,AVS, Optional closed loop speed control, Stand-alone operation, Up to 3 kHz (electrical frequency), Variable monitoring through DACOUT, Windmilling support through forward resynchronization and reverse drive Operating temperature range (°C) -40 to 125
VQFN (RGF) 40 35 mm² 7 x 5
  • Three-phase BLDC motor driver with integrated sensorless motor control algorithm
    • Code-free high speed Trapezoidal Control
    • Supports upto 3 kHz (electrical frequency)
    • Very fast startup time (<50 ms)
    • Fast Deceleration (<150 ms)
    • Supports 120° or 150° modulation to improve acoustic performance
    • Windmilling support through forward resynchronization and reverse drive
    • Analog, PWM, freq. or I2C based speed input
    • Active Demagnetization to reduce power losses
    • Configurable motor startup and stop options
    • Optional closed loop speed control
    • Anti-voltage surge protections prevents overvoltage
    • Variable monitoring through DACOUT
  • 4.5- to 35-V operating voltage (40-V abs max)
  • High output current capability: 8-A peak
  • Low MOSFET on-state resistance
    • 95-mΩ RDS(ON) (HS + LS) at TA = 25°C
  • Low power sleep mode
    • 3-µA (maximum) at VVM = 24-V, TA = 25°C
  • Speed loop accuracy: 3% with internal clock and 1% with external clock reference
  • Flexible device configuration options
    • MCT8316AV: I2C interface (EEPROM)
    • MCT8316AT: Hardware pin based configuration
  • Supports up to 100-kHz PWM frequency for low inductance motor support
  • Does not require external current sense resistor
  • Built-in 3.3-V ±5%, 20-mA LDO regulator
  • Built-in 3.3-V/5-V, 170-mA buck regulator
  • Dedicated DRVOFF pin to disable (Hi-Z) outputs
  • Spread spectrum and slew rate for EMI mitigation
  • Suite of Integrated protection features
    • Supply undervoltage lockout (UVLO)
    • Motor lock detection (5 different types)
    • Overcurrent protection (OCP)
    • Thermal warning and shutdown (OTW/TSD)
    • Fault condition indication pin (nFAULT)
    • Optional fault diagnostics over I2C interface
  • Three-phase BLDC motor driver with integrated sensorless motor control algorithm
    • Code-free high speed Trapezoidal Control
    • Supports upto 3 kHz (electrical frequency)
    • Very fast startup time (<50 ms)
    • Fast Deceleration (<150 ms)
    • Supports 120° or 150° modulation to improve acoustic performance
    • Windmilling support through forward resynchronization and reverse drive
    • Analog, PWM, freq. or I2C based speed input
    • Active Demagnetization to reduce power losses
    • Configurable motor startup and stop options
    • Optional closed loop speed control
    • Anti-voltage surge protections prevents overvoltage
    • Variable monitoring through DACOUT
  • 4.5- to 35-V operating voltage (40-V abs max)
  • High output current capability: 8-A peak
  • Low MOSFET on-state resistance
    • 95-mΩ RDS(ON) (HS + LS) at TA = 25°C
  • Low power sleep mode
    • 3-µA (maximum) at VVM = 24-V, TA = 25°C
  • Speed loop accuracy: 3% with internal clock and 1% with external clock reference
  • Flexible device configuration options
    • MCT8316AV: I2C interface (EEPROM)
    • MCT8316AT: Hardware pin based configuration
  • Supports up to 100-kHz PWM frequency for low inductance motor support
  • Does not require external current sense resistor
  • Built-in 3.3-V ±5%, 20-mA LDO regulator
  • Built-in 3.3-V/5-V, 170-mA buck regulator
  • Dedicated DRVOFF pin to disable (Hi-Z) outputs
  • Spread spectrum and slew rate for EMI mitigation
  • Suite of Integrated protection features
    • Supply undervoltage lockout (UVLO)
    • Motor lock detection (5 different types)
    • Overcurrent protection (OCP)
    • Thermal warning and shutdown (OTW/TSD)
    • Fault condition indication pin (nFAULT)
    • Optional fault diagnostics over I2C interface

The MCT8316A provides a single-chip, code-free sensorless trapezoidal solution for customers requiring high speed operation (up to 3kHz electrical) or very fast startup time (<50ms) for 12- to 24-V brushless-DC motors up to 8-A peak current. The MCT8316A integrates three 1/2-H bridges with 40-V absolute maximum capability and a very low RDS(ON) of 95 mΩ (high-side + low-side). Power management features of an adjustable buck regulator and LDO generate the 3.3-V or 5.0-V voltage rails for the device and can be used to power external circuits.

Sensorless trapezoidal control is highly configurable through register settings (MCT8316AV) or hardware pins (MCT8316AT) ranging from motor start-up behavior to closed loop operation. Register settings for MCT8316AV can be set in non-volatile EEPROM, which allows the device to operate stand-alone once it has been configured. The device receives a speed command through a PWM input, analog voltage, variable frequency square wave or I2C command. There are a large number of protection features integrated into the MCT8316A, intended to protect the device, motor, and system against fault events.

Documentation for reference:

The MCT8316A provides a single-chip, code-free sensorless trapezoidal solution for customers requiring high speed operation (up to 3kHz electrical) or very fast startup time (<50ms) for 12- to 24-V brushless-DC motors up to 8-A peak current. The MCT8316A integrates three 1/2-H bridges with 40-V absolute maximum capability and a very low RDS(ON) of 95 mΩ (high-side + low-side). Power management features of an adjustable buck regulator and LDO generate the 3.3-V or 5.0-V voltage rails for the device and can be used to power external circuits.

Sensorless trapezoidal control is highly configurable through register settings (MCT8316AV) or hardware pins (MCT8316AT) ranging from motor start-up behavior to closed loop operation. Register settings for MCT8316AV can be set in non-volatile EEPROM, which allows the device to operate stand-alone once it has been configured. The device receives a speed command through a PWM input, analog voltage, variable frequency square wave or I2C command. There are a large number of protection features integrated into the MCT8316A, intended to protect the device, motor, and system against fault events.

Documentation for reference:

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Documentación técnica

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* Data sheet MCT8316A High Speed Sensorless Trapezoidal Control Integrated FET BLDC Driver datasheet (Rev. B) PDF | HTML 08 feb 2022
Technical article How motor drive innovations are helping solve robotic movement design challenges PDF | HTML 05 ene 2024
Technical article Top 3 ways to reduce audible noise in motion control applications PDF | HTML 21 dic 2023
Application brief MCx8316x for Vacuum Robot Applications PDF | HTML 09 sep 2022
Application note MCT8316A - Design Challenges and Solution PDF | HTML 22 jun 2022
Certificate MCT8316AEVM EU RoHS Declaration of Conformity (DoC) 07 abr 2022
Technical article What is “real-time control” and why do you need it? PDF | HTML 06 abr 2022
User guide MCT8316A Tuning Guide (Rev. A) PDF | HTML 20 dic 2021
Application note MCF8316A - Design Challenges and Solutions PDF | HTML 29 nov 2021
User guide MCT8316AT Tuning Guide PDF | HTML 29 sep 2021
Technical article 3 ways to speed cycle time when designing with brushless-DC motors PDF | HTML 07 sep 2021
Application note How to Reduce Motor Noise with Code-Free, Sensorless BLDC Motor Drivers PDF | HTML 31 ago 2021
User guide MCT8316AEVM Evaluation Module User's Guide PDF | HTML 30 ago 2021

Diseño y desarrollo

Para conocer los términos adicionales o los recursos necesarios, haga clic en cualquier título de abajo para ver la página de detalles cuando esté disponible.

Placa de evaluación

MCT8316AEVM — Módulo de evaluación MCT8316A para controlador de motor BLDC trifásico sin sensor

El MCT8316A son tres controladores de transistor de efecto de campo de semiconductor de óxido metálico (MOSFET) integrados de medio puente H para el control trapezoidal sin sensor de un motor de corriente continua sin escobillas (BLDC) trifásico para un accionamiento de corriente máxima de 4.5 V a (...)
Guía del usuario: PDF | HTML
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GUI para el módulo de evaluación (EVM)

MCT8316A-GUI GUI for MCT8316AEVM

GUI used to evaluate MCT8316A on the MCT8316AEVM
Productos y hardware compatibles

Productos y hardware compatibles

Productos
Controladores BLDC de control integrado
MCT8316A Controlador de motor BLDC trifásico de 40 V máx., 8 A de pico, control trapezoidal sin sensor
Desarrollo de hardware
Placa de evaluación
MCT8316AEVM Módulo de evaluación MCT8316A para controlador de motor BLDC trifásico sin sensor
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Herramienta de cálculo

BLDC-MOSFET-THERMAL-CALC BLDC integrated MOSFET driver thermal calculator tool

Calculates the thermals of a BLDC integrated MOSFET driver based on user input system parameters
Productos y hardware compatibles

Productos y hardware compatibles

Productos
Controladores BLDC
DRV8311 Controlador de motor trifásico de CC sin escobillas de 24 V abs máx., de 3 a 20 V con FET integrados DRV8316 Controlador de motor trifásico de 40 V máx. y pico de 8 A con detección de corriente integrada DRV8316-Q1 Controlador de motor trifásico de 40 V máx. y pico de 8 A con detección de corriente integrada para DRV8316C Controlador de motor trifásico de 40 V máx. y pico de 8 A con detección de corriente integrada DRV8316C-Q1 Controlador de motor trifásico de 40 V máx. y pico de 8 A con detección de corriente integrada para DRV8317 Controlador de motor trifásico de 24 V máx. y pico de 5 A con detección de corriente integrada
Controladores BLDC de control integrado
MCF8316A Controlador de motor BLDC trifásico de 40 V máx., 8 A de pico, control FOC sin sensor MCT8316A Controlador de motor BLDC trifásico de 40 V máx., 8 A de pico, control trapezoidal sin sensor MCT8316Z Controlador de motor BLDC trifásico de 40 V máx., 8 A de pico, control trapezoidal con sensor MCT8316Z-Q1 Controlador de motor BLDC trifásico, automotriz, de 40 V máx., 8 A de pico, control trapezoidal con
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Pedidos y calidad

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  • REACH
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  • Acabado de plomo/material de la bola
  • Clasificación de nivel de sensibilidad a la humedad (MSL) / reflujo máximo
  • Estimaciones de tiempo medio entre fallas (MTBF)/fallas en el tiempo (FIT)
  • Contenido del material
  • Resumen de calificaciones
  • Monitoreo continuo de confiabilidad
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  • Lugar de ensamblaje

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