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Toshiba Electronics Europe has added 20 microcontrollers to its TXZ+ family. The M4G group microcontrollers use Arm Cortex-M4 microcontrollers for data processing and are manufactured using a 40nm process.

The microcontrollers, in common with existing TXZ+ devices can be used for high speed data processing applications, for example in IoT equipment, building automation, factory automation, home appliances, AV equipment, multi-function printers and other office equipment.

In addition to the Arm Cortex-M4 core, the new microcontrollers include a floating point unit (FPU) that runs at speeds up to 200MHz. They also integrate 2048kbyte of flash memory for code, a further 32kbyte of data flash with 100k write cycles endurance and 4kbyte of user data flash. They also incorporate multiple interfaces and various communication options.

As with the other devices in the M4G group, the latest additions have enhanced communication functions integrated as a serial memory interface. Among the standards supported are quad / octal SPI, audio interface (I2S), UART, FUART, TSPI and I2C. A three-unit DMAC and bus matrix structure is claimed to “significantly” improve communication throughput, compared to conventional products.

The new microcontrollers have a high speed, high precision 12-bit ADC to support a variety of sensing applications. The ADC allows individual sample-and-hold times to be set for each input channel with up to 24 channels. If integrated with Toshiba’s advanced programmable motor driver (A-PMD), the devices can also be used in AC motor, brushless DC (BLDC) motors, said the company.

Self-diagnosis functions for ROM, RAM, ADC and the clock contribute to the devices’ IEC60730 Class B functional safety certification. The microcontrollers maintain good compatibility with devices within the existing TXZ family M4G group.

Comprehensive documentation, sample software (with examples of actual usage), and driver software for each peripheral are available for free download on the company’s website. Additionally, evaluation boards and development environments are provided in co-operation with Toshiba’s global ecosystem partners.

The new microcontroller products are in mass production now.

http://www.toshiba.semicon-storage.com

Claimed to be the first 70W brushless DC (BLDC) motor driver to provide code-free, sensorless trapezoidal and field-oriented control (FOC), the MCF8316A and MCT8316A BLDC motor drivers enable engineers to spin a BLDC motor in less than 10 minutes, said Texas Instruments. This eliminates months of design time for the design of industrial systems, whether major or small home appliances and medical applications such as ventilators and continuous positive airway pressure (CPAP) machines.

The motor drivers integrate three gate drivers and six high- and low-side MOSFETs with 50mOhm of on-state resistance (RDS(on)) each, to enable up to 70W of power with 8A of peak current for 12- and 24V systems. They also include a low-dropout regulator, power MOSFETs, DC/DC step-down regulator and current-sense amplifiers, eliminating as many as 18 discrete ICs to reduce board space by as much as 70 per cent, said Texas Instruments.

“The need for real-time motor control is more critical than ever, thanks to broad-reaching trends like power efficiency and automation, as well as increasing demand for quieter motors,” said Noman Akhtar, senior research analyst, Omdia. “A growing number of industrial systems are transitioning from AC induction to BLDC motors, which are more power-efficient but require complex hardware and optimised software designs to deliver high performance.”

The MCF8316A and MCT8316A BLDC motor drivers include commutation control algorithms that eliminate the need to develop, maintain and qualify motor control software, which can take months. The algorithms, and high level of integration, enable the motor drivers to manage critical functions such as motor fault detection, while implementing protection mechanisms to increase system reliability. They integrate sensorless technology to determine rotor position and eliminate the need for external Hall sensors.

The MCF8316A sensorless FOC motor driver extracts motor parameters, enabling designers to quickly tune a motor while delivering consistent system performance regardless of motor manufacturing variations. The MCT8316A sensorless trapezoidal control motor driver enables designers to tune a motor using only five hardware pins, simplifying systems by eliminating the need for a microcontroller interface.

Both motor drivers provide advanced real-time control capabilities to help engineers achieve industry-leading acoustic performance in applications such as air purifiers, refrigerators, washing machines and fans. The MCF8316A includes a patented, precise automatic dead-time compensation technique that compensates for current distortion to optimise motor acoustic performance. The MCT8316A includes variable trapezoidal control techniques to reduce motor noise.

The MCT8316A sensorless trapezoidal control motor driver can reach a maximum motor electric speed of 3.5kHz, which is faster than any other code-free, sensorless motor driver. This speeds system response in applications such as robotic vacuums that require fast and precise motor control.

According to Texas Instruments, the motor drivers are the first in the industry to provide a quick and controlled way to actively decelerate a motor, enabling engineers to stop a motor 50 per cent faster than traditional motor-control techniques. They can also stop a motor without indiscriminately pumping energy back into the rail, which protects the system from damage.

Pre-production versions of the MCF8316A and MCT8316A are available in a 40-pin, 5.0 x 7.0mm quad flat no-lead package.

http://www.ti.com