ToshibaTMPM4MNFYAFG(DBB)Microcontrollers - MCUs

TMPM4MNFYAFG - Toshiba ARM® Cortex®-M4 Microcontrollers “TXZ+™ Family Advanced Class” Targeting Advanced Motor Control

Toshiba’s new TMPM4MNFYAFG microcontroller is the 256KB Code flash memory/32KB Data Flash version of its M4M group of the TXZ+™ Family Advanced Class of MCU in the 40nm process node in a 100LQFP package.

Consisting of the ARM® Cortex®-M4 CPU core with a clock speed of 160MHz, 256KB Flash, 32KB data flash with 100K program/erase cycle endurance, and 24KB RAM, these MCUs offer various interface and motor control options, including UART, I2C, TSPI, two-unit DMAC, Encoder, CAN and Programmable Motor Driver (PMD) and the Advanced Vector Engine BLDC motors. The advanced PMD circuit can operate synchronously with the high-speed, high-precision ADC allowing to control AC and brushless motors. The Vector Engine is a hardware accelerator that takes Field Oriented Control calculations off the CPU’s workload to control BLDC motors. Moreover, these MCUs can support a wide variety of sensing applications with a 1MSPS, 12-bit ADC. Based on the 2 PMD and Vector Engine, up to three motors can be controlled by this microcontroller.

Key Features and Benefits:

• •  High-performance ARM® Cortex®-M4 core, max 160MHz
• •  256KB Code Flash, 100k rewriteable cycles
• •  Data Flash of 32KB with rewriteable of 100k cycles
• •  RAM of 24KB
• •  Built-in OSC: 10MHz
• •  External Interrupt (INT): 22ch
• •  DMAC: 1unit
• •  CRC calculation circuit: 1ch
• •  CAN Interface – 1ch
• •  ADC 32ch, 12-bit, 1MSPS
• •  Programmable Motor Driver (PMD) 3-ch
• •  Encoder (ENC) inputs for Hall Sensors or Incremental Encoder motor sensing – 3ch
• •  Advanced Vector Engine for hardware Field Oriented Control acceleration – 1ch
• •  GPIO - 87
• •  100pin LQFP – 14mm x 14mm
• •  Operating voltage of 2.7 to 5.5V and Operating temperature of -40 to +105°C
• •  Low-power consumption operations of IDLE & STOP1 modes

Applications:

• •  Robotics
• •  Home appliances
• •  Health care equipment
• •  Office equipment
• •  Complex motor control of various equipment
• •  IoT devices