March 23, 2020 – STMicroelectronics has introduced the STM32L5x2 series of ultra-low-power microcontrollers (MCUs) featuring security as a highlight. To provide better security for IoT connected applications.
The STM32L5 series MCU has a clock frequency of up to 110MHz and is based on the Arm Cortex-M33 32-bit RISC processor core with built-in Arm TrustZone hardware security technology. Trusted computing technology was originally developed and designed for devices such as desktops, mobile devices, and communications infrastructure, capable of verifying the legitimacy of connected devices, and creating a protected implementation for data protection functions and sensitive code (encryption modules and key storage) Environment to prevent any attempt to damage the device or software; untrusted code runs in another independent execution environment.
On this basis, STMicroelectronics has added the ability to add or delete each I / O pin, peripheral or flash or SRAM storage area at will in the TrustZone isolation and protection area to completely isolate sensitive work tasks to the maximum extent. To improve the safety of the equipment. In addition, TrustZone implemented by STMicroelectronics supports secure boot, dedicated read and write protection of internal SRAM and flash memory, and encryption algorithm acceleration technologies, including AES 128 / 256-bit key hardware acceleration and public key acceleration (PKA), and protection of external storage AES-128 Instant Decryption of Code or Data (OTFDEC). STM32L5 also supports active tamper detection and secure firmware installation. Due to security concerns, the STM32L5 has passed PSA Level 2 certification.
Thomas Ensergueix, senior director of the Automotive and IoT business line at Arm, said: “As IoT and embedded devices continue to improve intelligence and functionality, security must be built from scratch. The STM32L5 family makes it easier for developers to develop Arm Cortex-M33-based processors PSA-certified trusted devices provide a reliable and secure platform for the development of consumer, industrial and other devices. “
In addition to these flexible information protection and product design, STMicroelectronics has also added its proprietary Some ultra-low-power technologies, such as adaptive voltage regulation, real-time acceleration, power gating, and a variety of low-power operating modes, enable microcontrollers to be powered from either a coin cell battery or from energy harvesting. High performance and long battery life. In addition, when the VDD voltage is high enough, the high-efficiency switching buck regulator can be turned on or off in real time to improve low-power performance. The final ULPMark test results were very good: 370 ULPMark-CoreProfile and 54 ULPMark-PeripheralProfile (1.8V operating voltage). ULPMark is a key indicator of energy efficiency of ultra-low-power microcontrollers developed by EEMBC based on real-world benchmarks.
Ricardo De Sa Earp, General Manager of STMicroelectronics’ Microcontroller Division, said: “ST is a leader in the MCU market, placing smart cities, smart buildings and smart industries as the company’s strategic priorities. We recognize that a series of Best-in-class ultra-low-power and industry-leading data security MCUs are important for protecting mission-critical applications and edge computing data. Inheriting ST’s expertise in ultra-low-power design and manufacturing processes, it is solid in Arm TrustZone Based on this, join our data security protection technology and rely on the industry-leading STM32 development ecosystem. STM32L5x2 MCUs are industrial IoT applications that require reliability and security, such as metering, health (human or machine) monitoring, and mobile sales terminals. Ideal. “
The STM32L5x2 MCU is equipped with a 512 KB dual-zone flash memory, allowing simultaneous read and write operations, convenient device management, and supports error correction code (ECC) diagnostics to improve data security. It is also equipped with 256KB SRAM to support high-speed external memory, including single-line, dual-line, Four- or eight-wire SPI and Hyperbus flash or SRAM with SRAM, PSRAM, NOR, NAND, or FRAM memory interfaces.
The digital peripherals of STM32L5x2 include a USB Full Speed controller with a dedicated power supply. Even if the system power is 1.8V, customers can still use USB to transfer data. It also includes UCPD control that complies with USB Type-C version 1.2 and USB Power Delivery version 3.0 specifications. Device. Intelligent analog functions include state-of-the-art analog-to-digital converters (ADCs), two power-gated digital-to-analog converters (DACs), two ultra-low power comparators, and two operational amplifiers, two of which have external Internal voltage follower circuit and programmable gain amplifier (PGA) function.
The STM32L5 series belongs to the market-leading STM32 MCU product family, fully supports the development ecosystem of STM32, and has its own STM32CubeL5 one-stop software package, which includes the hardware abstraction layer and underlying drivers, FreeRTOS, Trusted Firmware-M (TF-M ), Secure Boot and Secure Firmware Update (SBSFU), USB-PD device drivers, MbedTLS and MbedCrypto, FatFS file system, and touch-sensing drivers. In addition, the STM32CubeL5 has more than 300 project examples that can run on the STM32L552E-EV evaluation board, the STM32L562E-DK discovery kit, and the NUCLEO-L552ZE-Q development board. These projects can be compiled using ArmKeil® development tools, IAR or STM32CubeIDE toolkits. Project output includes an STM32CubeMX configuration file, allowing users to easily customize settings and update code.
STM32L5x2 MCUs are now in full production. There are currently two versions of the product on sale: consumer and commercial standard temperature versions (-40 ° C to + 85 ° C) and extreme environment high temperature versions (-40 ° C to + 125 ° C).
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