16-bit MCU targets motor and power supply control

16-bit MCU targets motor and power supply control

New Products |
By Jean-Pierre Joosting

Renesas Electronics Corporation has announced a new addition to its popular RL78 microcontroller (MCU) family that includes 8- and 16-bit devices for power-sensitive applications.

The RL78/G24 features the highest performance among all the devices in the RL78 family, boosting its performance with an application-specific Flexible Application Accelerator (FAA) and a fast CPU that can achieve an operating frequency of 48 MHz. Its enhanced peripheral functions, including analog and timer capabilities, are ideal for motor control, power supply control, and lighting control. In particular, by using the FAA, the MCU can distribute tasks such as inverter control, encryption, sensing, and arithmetic operations efficiently and independently of the CPU, thus substantially boosting processing speed.

Key features of the RL78/G24 MCU series include:

  1. CPU operating at 48 MHz (maximum) and FAA operating independently from the CPU.
  2. 12-bit A/D converter capable of simultaneous sampling of 3 channels with a maximum conversion speed of 1 µs.
  3. High-speed comparator with a latency of 50 ns typical.
  4. Equipped with DALI-2 function for lighting communication standard.
  5. High temperature support up to 125°C.
  6. Compact package offering, with the smallest 3- x 3-mm package option.

The RL78/G24 MCU offers a standby function to reduce power consumption. Customers can choose from two modes, HALT mode, which cuts power consumption by 60% compared to normal operation mode, and STOP mode, which reduces power consumption by 99% compared to HALT mode. These power-saving modes allow the device to use less power overall. 

Developers developing with the RL78/G24 MCU can use the Smart Configurator to easily generate driver code for peripheral functions via a graphical user interface (GUI), similar to other RL78 devices. Renesas also offers Model-Based Design using MATLAB and Simulink. As an evaluation environment, users can take advance of the Fast Prototyping Board (FPB), which comes with Arduino Uno and Pmod™ Type 6 A interfaces and Grove connectors for access to all pins. In addition, they can debug and program the device using only a USB cable. Evaluation kits for motor applications and power/lighting applications are also available, which are ideal for initial evaluation of individual applications.

In addition to the high-end RL78/G24 MCU, the low-power RL78 family also offers the RL78/G23, a new-generation standard model; the RL78/G22, a small-pin, small-memory version with enhanced capacitive touch functionality and lower power consumption; and the RL78/G15 and RL78/G16 that support an ambient operating temperature of 125°C for the 8-bit, small-pin MCU market. The RL78/G16, for example, is available in a 10-pin package and a 3- x 3-mm package, which is the smallest pin count option with high-sensitivity touch keys. With its operational tolerance across a wide temperature range, the RL78/G16 can be mounted in high-temperature locations, enabling smaller systems and more flexible designs.

“Traditionally, processing was done only by the CPU core and a significant burden was placed on the CPU. Tuning to achieve a balance between high-speed processing and CPU load took a considerable amount of time,” said Osamu Ogura, Software Development Manager, Industrial System Development Division of TESSERA TECHNOLOGY INC., a Renesas eco-system partner. “With the FAA capability that comes with the RL78/G24, we were able to divide the communication processing for the CPU and power control as with the FAA. This allowed us to shorten the development time overall.”

“Our collaboration with Renesas enables developers to use Model-Based Design to improve their system performance and identify issues before implementing on the MCU,” said Brian McKay, Global Strategic Partner Manager, MathWorks. “Mutual customers can use RL78 virtual models in Simulink to gain a variety of capabilities, including generating production-quality code, Processor-in-the-Loop testing, and maintaining a digital thread.”

If you enjoyed this article, you will like the following ones: don't miss them by subscribing to :    eeNews on Google News


Linked Articles