Draft:Renesas RA
This is a draft article. It is a work in progress open to editing by anyone. Please ensure core content policies are met before publishing it as a live Wikipedia article. Find sources: Google (books · news · scholar · free images · WP refs) · FENS · JSTOR · TWL Last edited by UtherSRG (talk | contribs) 2 months ago. (Update)
Finished drafting? or |
Submission declined on 23 January 2021 by KylieTastic (talk). This submission appears to read more like an advertisement than an entry in an encyclopedia. Encyclopedia articles need to be written from a neutral point of view, and should refer to a range of independent, reliable, published sources, not just to materials produced by the creator of the subject being discussed. This is important so that the article can meet Wikipedia's verifiability policy and the notability of the subject can be established. If you still feel that this subject is worthy of inclusion in Wikipedia, please rewrite your submission to comply with these policies.
Where to get help
How to improve a draft
You can also browse Wikipedia:Featured articles and Wikipedia:Good articles to find examples of Wikipedia's best writing on topics similar to your proposed article. Improving your odds of a speedy review To improve your odds of a faster review, tag your draft with relevant WikiProject tags using the button below. This will let reviewers know a new draft has been submitted in their area of interest. For instance, if you wrote about a female astronomer, you would want to add the Biography, Astronomy, and Women scientists tags. Editor resources
|
Submission declined on 4 December 2020 by AngusWOOF (talk). This submission appears to read more like an advertisement than an entry in an encyclopedia. Encyclopedia articles need to be written from a neutral point of view, and should refer to a range of independent, reliable, published sources, not just to materials produced by the creator of the subject being discussed. This is important so that the article can meet Wikipedia's verifiability policy and the notability of the subject can be established. If you still feel that this subject is worthy of inclusion in Wikipedia, please rewrite your submission to comply with these policies. The proposed article does not have sufficient content to require an article of its own, but it could be merged into the existing article at Renesas Electronics. Since anyone can edit Wikipedia, you are welcome to add that information yourself. Thank you. Declined by AngusWOOF 4 years ago. |
Renesas Advanced (RA)[1] are 32-bit MCUs with Arm® Cortex®-M33, -M23 and -M4 processor cores. The three Renesas RA Family MCU series are based on 32-bit Arm® Cortex®-M cores. All three Renesas RA Series have been designed on common DNA, making these products feature- and pin-compatible. RA integrates Secure Element functionality with PSA certification [2] for secure Internet-of-Things devices for different applications, including devices from Industry 4.0 .
History
[edit]Hardware (Target devices)
[edit]- Initial line-up launched in October 2019 (RA2A1, RA4M1, RA6M1, RA6M2, RA6M3)[3]
- Wireless extension May 2020 (RA4W1)[4]
- v2.2.0 released in December 2020 at the same time as the RA2L1
- v2.0.0 was released on Github at the same time as the RA6M4 in October 2020
- v1.0.0 was released in March 2020.
- v0.8.0 released in October 2019 on Github
MCU Series
[edit]The three Renesas RA Series are feature- and pin-compatible - RA2, RA4 und RA6
Series | Performance | Memory ranges | Series indicator |
RA6 | Up to 120MHz | High memory integration: up to 2MB Flash, 640kB SRAM | Advanced performance, connectivity, Security |
RA4 | Up to 48MHz |
Medium memory integration: up to 256kB Flash,32kB SRAM
|
Excellent low power high performance mix paired with Security. Wireless option |
RA2 | Up to 48MHz | Small memory integration: 256kB Flash, 32kB SRAM | Low power |
RA2 Series operating voltage [1.6-5.5 V] - Max. Operating frequency [48 MHz] [1.6-5.5 V]
[edit]The RA2 microcontroller series is optimized for low power consumption and offers a CPU performance of up to 48 MHz with an Arm Cortex-M23 core with up to 256 KB integrated flash memory and a single power supply in the range from 1.6 V to 5 .5V. With peripherals such as capacitive touch , the RA2 series is ideal for system control or user interface applications such as healthcare equipment, home appliances, office equipment, and meters.
Group | Flash (KB) | SRAM (KB) | Number of Pins | Features |
RA2A1[edit] |
256 | 32 | 32-64 | Five variants with Arm Cortex-M23 core with 48 MHz, 32-64-pin housing, 256 KB flash memory and 32 KB SRAM, including capacitive touch, USB full-speed, 24-bit A / D converter , 16-bit A / D converter, security and Safety features |
RA4 Series
[edit]The RA4 series combines the need for low power consumption with the need for connectivity and computing power. These microcontrollers offer a CPU performance of up to 48 MHz using an Arm Cortex-M4 core with up to 256 KB of integrated flash memory. The series offers a wide range of peripherals, including USB, CAN, ADC, capacitive touch, a segment LCD controller and additional IP security integration. This makes it suitable for industrial plants, household appliances, office equipment, health products and measuring devices.
Group | Flash (KB) | SRAM (KB) | Number of Pins | Operating voltage (V) | Maximum operating frequency(MHz) | Features |
RA4M1[edit] |
256 | 32 | 40-100 | 1.6-5.5 | 48 | Seven variants of 48 MHz microcontroller with Arm Cortex-M4 core, 40-100-pin housings, 256 KB flash memory and 32 KB SRAM, including segment LCD controller, capacitive touch, USB full-speed, 14- Bit A / D converter, security and safety features |
RA4W1[edit] |
512 | 96 | 56 | 1.8-3.6 | 48 | Bluetooth Low Energy 5.0 microcontroller with Arm Cortex-M4 core at 48 MHz with 56-pin QFN housing, 512 KB flash memory and 96 KB SRAM, including segment LCD controller, capacitive touch, USB full-speed, 14 -Bit A / D converter, security and safety features |
RA6 Series - Operating voltage [2.7-3.6 V] - Max. Operating frequency [200 MHz]
[edit]The RA6 series offers the most comprehensive integration of communication interfaces and the highest level of performance. These microcontrollers contain an Arm Cortex-M4 or Cortex-M33 core, a memory area of 512 KB to 2 MB Flash and a CPU performance of up to 200 MHz. The series offers the integration of Ethernet, USB full-speed and USB high-speed, QSPI, Octa-SPI, CAN and TFT screen drivers. The RA6 series is suitable for applications such as IoT endpoints, white goods, counters and other industrial and consumer applications.
Group | Flash (KB) | SRAM (KB) | Number of Pins | Features |
RA6M1[edit] |
512 | 256 | 64-100 | Four variants of 120 MHz microcontrollers with Arm Cortex-M4 core, 64-100-pin housings, 512 KB flash memory and 256 KB SRAM as well as capacitive touch, CAN, USB full-speed, security functions and analog functionality |
RA6M2[edit] |
512-1024 | 384 | 100-145 | Six variants of 120 MHz microcontroller with Arm Cortex-M4 core, 100-145-pin housings, up to 1 MB flash memory and 384 KB SRAM as well as capacitive touch, Ethernet, CAN, USB full-speed, security , Safety and analog functionality |
RA6M3[edit] |
1024-2048 | 640 | 100-176 | Ten variants of 120 MHz microcontrollers with Arm Cortex-M4 core with 100-176-pin housing, up to 2 MB flash memory and 640 KB SRAM as well as TFT-LCD controller, 2D graphics engine and capacitive touch, Ethernet , CAN, USB, security, safety and analog functionality |
RA6M4[edit] |
512-1024 | 256 | 64-144 | Nine variants of 200 MHz microcontrollers with Arm Cortex-M33 core with 64-144-pin housings, up to 1MB flash memory and 256 kB SRAM, as well as capacitive touch, Ethernet, CAN, USB full-speed, OctaSPI, security , Safety and analog functionality |
Software
[edit]Flexible software package
[edit]The RA Flexible Software Package (FSP) includes drivers for all peripheral elements of the RA microcontroller that FreeRTOS RTOS , Middleware Stacks, and defined APIs to the entire ecosystem arm to use.
Features
[edit]- HAL driver
- Configurator and code generator
- Static and dynamic analysis with industry standard tools
- Application support in RTOS and non-RTOS environments
- FreeRTOS support
- Tool to configure RTOS resources (threads, mutexes, etc.)
- TCP / IP and other connectivity protocol stacks
- Easy connectivity options to major cloud providers
- USB middleware support for CDC and mass storage classes
- Secure connections via Mbed TLS
- Enable PSA cryptographic APIs and support for built-in hardware acceleration
- Graphic interface tools with Segger emWin and TES Dave2D
- Safe debugging functions
- Renesas tool support and third-party solutions
- Full source code available on GitHub
Components
[edit]- CMSIS-package files for the integrated development environment Renesas e2 studio
- Board Support Package (BSP) for RA microcontrollers and evaluation boards
- HAL driver for peripherals
- Middleware-Stacks and protocols
- Module configurators and code-generators
- Source files for integration in development environment exercises and tools from third-party providers
Tool-chain
[edit]The RA FSP supports the following development environments with the appropriate Compiler : e2 studio IDE (GCC Compiler for Arm), Arm Keil MDK (Arm Compiler v6), IAR Embedded Workbench
Debugger
[edit]- SEGGER J-Link
- Renesas E2 & E2 Lite
Ecosystem
[edit]In addition to the Renesas e2 Studio IDE, the FSP also supports third-party tools and IDEs. This support is provided by the RA Smart Configurators (RASC) application. The Renesas RA Smart Configurator is a desktop application that can be used to configure the software system (BSP, drivers, RTOS and middleware) for an RA microcontroller when using a third party IDE and toolchain. The RA Smart Configurator can currently be used with IAR Embedded Workbench, Keil MDK and the Arm Compiler 6 toolchains.
Evaluation boards
[edit]Evaluation boards RA6 Series
[edit]EK-RA6M3G [1] (with optional graphic plug-on board) , EK-RA6M3 [2] , EK-RA6M2 [3], EK-RA6M1 [4], EK-RA6M4 [5].
Evaluation boards RA4 Series
[edit]Evaluation boards RA2 series
[edit]Tools
[edit]- GCC Compiler for Arm
- Arm Keil MDK (Arm Compiler v6)
- IAR Embedded Workbench
The ARM CoreSight Debugger-IP supports a wide variety of on-chip debuggers. The Segger J-Link family [10] and the Renesas E2 [11] / E2 Lite debuggers [12] fully support SWD and JTAG connections as well as ETM and ETB trace data.
- Segger J-Link
- Renesas E2 and E2 lite
Partner
[edit]The RA Partner Ecosystem offers a range of software and hardware modules that are ready for immediate use with MCUs from the Renesas RA family. The RA-Ready label indicates a kind of certified partnership. The solutions have been tested and are explained in videos and application notes.
Documentation
[edit]Part number description
[edit]Component designation with digits from left to right:
1 | 2 | 3 | 4 | 5 | 6 | 7 | 8 | 9 | 10 | 11 | 12 | 13 |
---|---|---|---|---|---|---|---|---|---|---|---|---|
R | 7 | F | A | 6 | M | 3 | A | H | 2 | C | BG | |
Renesas | MCU | Flash | Advanced | Series | Application | Group | Feature | Flash | Temp | Quality | Housing type |
#5 2: RA2 Series, 4: RA4 Series, 6: RA6 Series
#6: Application: A - Analogue, M - Mainstream, W - Wireless
#9 Flash in KB: 3 (16) 4 (24), 5 (32), 6 (48), 7 (64), 8 (96), 9 (128), A (192), B (256), C (384), D (512),E (768), F (1024), G (1536), H (2048)
#10: 2 [-40°C to 85°C], 3 [-40°C to 105°C]
#11: C :Q2A Industrial, D: Q2B Consumer
#12,13# 15 + 16. Housing
Housing shape | Number of Pins | Size in mm | Distance of the Pins in mm | |
BG | BGA | 176 | 13x13 | 0.8 |
FC | LQFP | 174 | 24x24 | 0.5 |
FB | LQFP | 144 | 20x20 | 0.5 |
FP | LQFP | 100 | 14x14 | 0.5 |
FF | LQFP | 80 | 14x14 | 0.65 |
FN | LQFP | 80 | 12x12 | 0.5 |
FK | LQFP | 64 | 14x14 | 0.8 |
FM | LQFP | 64 | 10x10 | 0.5 |
BU | BGA | 64 | 4x4 | 0.4 |
FL | LQFP | 48 | 7x7 | 0.5 |
LM | LGA | 36 | 4x4 | 0.5 |
FJ | LQFP | 32 | 7x7 | 0.8 |
NH | VQFN | 32 | 5x5 | 0.5 |
More links
[edit]- Better security, and machine learning, for Renesas RA MCU support software [13]
- Renesas Goes Mainstream. New ARM-Based Processors are Not Like the Others [14]
- Renesas adds nine RA6M4 MCUs [15]
- Avnet introduces Renesas RA product lineup [16]
- Motor Control Evaluation System for RA Family - RA6T1 Group, Out-of-the-Box: The New RA6T1 Motor Control Starter Kit [17]
- Digi-Key blog on development using RA [18]
- Future Electronics introduces to Renesas RA [19]
- HEX-Five joins RA ecosystem [20]
- Mouser's line-up of RA products [21]
- IAR Systems supports Renesas RA and Renesas RX microcontroller family [22]
- Software Extends Security, Connectivity, Motor Control and Machine Learning Features [23]
- Updated Flexible Software Package That Supports RA Family of MCUs [24]
- Renesas Extends Bluetooth 5.0 Connectivity to RA Family of 32-Bit MCUs with Arm Cortex-M Core [25]
White Papers
[edit]- Securing your IP and Protecting Sensitive Data (https://www.renesas.com/doc/whitepapers/iot-security/whitepaper-security-data-at-rest.pdf)
- How to Solve the 6 Top Security Challenges of Embedded IoT Design (https://www.renesas.com/doc/whitepapers/iot-security/iot-security-whitepaper.pdf)
- Security for the Connected World (https://www.renesas.com/doc/whitepapers/iot-security/security-for-the-connected-world.pdf)
- Secure Internet Communication for IoT Applications (https://www.renesas.com/doc/whitepapers/iot-security/secure-internet-communication-iot-applications.pdf)
Individual evidence
[edit]- ^ |url=https://www.renesas.com/eu/en/products/microcontrollers-microprocessors/ra.html
- ^ |url=https://www.psacertified.org/certified-products/?_company=renesas
- ^ |url=https://www.renesas.com/eu/en/about/press-center/news/2019/news20191008.html
- ^ |url=https://www.renesas.com/eu/en/about/press-center/news/2020/news20200507.html |titel=Renesas Extends Bluetooth 5.0 Connectivity to RA Family of 32-Bit MCUs with Arm Cortex-M Core
- ^ {{|url=https://github.com/renesas/fsp/releases |title=FSP releases }}
Categories:Microcontroller Categories:ARM-Processor
- in-depth (not just brief mentions about the subject or routine announcements)
- reliable
- secondary
- strictly independent of the subject
Make sure you add references that meet all four of these criteria before resubmitting. Learn about mistakes to avoid when addressing this issue. If no additional references exist, the subject is not suitable for Wikipedia.