New Industry Products

Processor Family IC for Wearable Applications

July 09, 2017 by Paul Shepard

Toshiba Electronic Devices & Storage Corporation announced that mass production has commenced for TZ1201XBG, the latest addition to its line-up of ApP Lite™ application processors for IoT devices, including wearables. The compact TZ1201XBG graphics processor is based on a high-performance 32-bit ARM® Cortex®-M4F processor capable of operating at 96MHz (up to 120MHz with overdriving). Combining the ARM core with on-chip power management gives the TZ1201XBG a low power consumption of 70μA/MHz in active mode. With a 350mAh battery and an always-on display this enables around one month between charges in second watch applications - and two months for minute watches.

With 2.2MB of embedded high-speed SRAM, an advanced LCD controller and 2D graphics accelerators, the TZ1201XBG provides a powerful platform for alpha-blending, drawing, rotating, texturing and resizing images, and for on-the-fly color conversion. The fully-featured processor offers integrated support for either an HVGA (480x320) display at 30fps or a QVGA display (320x240) at up to 60fps.

The high-precision analogue front-end (AFE) combines a 24-bit delta-sigma ADC, 12-bit ADC, 12-bit DAC and an LED DAC thereby supporting direct sensing. These, in combination with software filtering, secure significant space and power savings.

120 free GPIOs and integrated USB, UART, SPI, and I2C interfaces support the use of external sensors and peripherals to monitor activity and movement, expanding the landscape of customer applications.

The integrated audio interfaces for voice command and voice trigger processing, and the 2D graphics accelerators, will allow Toshiba’s customers to deliver a higher level user experience.

Key features include: Low power design with active current consumption of 70 μA/MHz; High performance 2D graphics accelerator enabling smooth functioning of the graphical user interface (GUI); High-precision AFE with up to 4-channel voltage/current/impedance multi-sensing, 3 configurable amplifier mode with little additional external components, instrumentation amplifier/trans impedance amplifier/programmable gain amplifier (PGA), and up to 22-bit effective number of bits (ENoB) dedicated about 10 µV; Support various I/Os such as I2C, UART, SPI to use external sensors and peripheral devices to monitor the duration and level of physical activity to promote exercise and healthy lifestyles.