Welcome to the CAN-bus Wiki project

Differences

This shows you the differences between two versions of the page.

Link to this comparison view

Both sides previous revision Previous revision
Next revision
Previous revision
controllers:st_microelectronics [2015/04/27 15:14]
heinz added spc58
controllers:st_microelectronics [2019/06/13 18:45] (current)
heinz [Cortex Mx] STM32G4
Line 29: Line 29:
  
 The [[http://​www.st.com/​stm32|STM32]] family of 32‑bit Flash microcontrollers based on the ARM Cortex™‑M processor is designed to offer new degrees of freedom to MCU users. It offers 32‑bit product range that combines high performance,​ real‑time capabilities,​ digital signal processing, and low‑power,​ low‑voltage operation, while maintaining full integration and ease of development. The unparalleled and large range of STM32 devices, based on an industry-standard core and accompanied by a vast choice of tools and software, makes this family of products the ideal choice, both for small projects and for entire platform decisions. The [[http://​www.st.com/​stm32|STM32]] family of 32‑bit Flash microcontrollers based on the ARM Cortex™‑M processor is designed to offer new degrees of freedom to MCU users. It offers 32‑bit product range that combines high performance,​ real‑time capabilities,​ digital signal processing, and low‑power,​ low‑voltage operation, while maintaining full integration and ease of development. The unparalleled and large range of STM32 devices, based on an industry-standard core and accompanied by a vast choice of tools and software, makes this family of products the ideal choice, both for small projects and for entire platform decisions.
 +  *[[https://​www.st.com/​en/​microcontrollers-microprocessors/​stm32g4-series.html | STM32G4]] 32-bit Arm Cortex-M4 core @170 MHz with 3 different hardware accelerators. CAN FD :-); AES-256 encryption,​ 
 +  * [[https://​www.st.com/​en/​microcontrollers-microprocessors/​stm32mp1-series.html | STM32MP1]] single or dual ARM Cortex-A7@650 MHz and Cortex-M4@209 MHz cores **M**ulti **P**rocessor architecture;​ digital and analog peripherals,​ security features,  
 +    * STM32MP157: Dual Cortex-A7 cores @ 650 MHz, Cortex-M4 core @ 209 MHz, 3D GPU, DSI display interface and 2 x CAN FD :-) 
 +    * STM32MP153: Dual Cortex-A7 cores @ 650 MHz, Cortex-M4 core @ 209 MHz and 2 x CAN FD :-) 
 +  * [[https://​www.st.com/​en/​microcontrollers/​stm32l5-series.html | STM32L5]] ARM [[https://​developer.arm.com/​products/​processors/​cortex-m/​cortex-m33| Cortex-M33]] core, CAN FD interface, ​ -40 °C to +125 °C. ultra low power: 33 nA in shutdown mode, integrating ARM's [[https://​www.arm.com/​products/​silicon-ip-securityTrustzone | hardware-based security]], including software isolation, secure boot, key storage, and hardware cryptographic accelerators.  
 +  * [[http://​www.st.com/​en/​microcontrollers/​stm32h7x3.html 
 +| STM32H7]] ARM® Cortex®-M7 based processor produced in a 40 nm process. @400 MHz core frequency. 1 MB of SRAM and 2 MB of Flash, mass production in Q2 2017. LCD-TFT controller interface, 2 x **CAN FD** :-) (one supports time-triggered CAN TT-CAN), Ethernet, HDMI 
 +    * [[http://​www.st.com/​content/​ccc/​resource/​technical/​document/​data_brief/​group0/​06/​ef/​a1/​ff/​d2/​e1/​44/​5b/​DM00289664/​files/​DM00289664.pdf/​jcr:​content/​translations/​en.DM00289664.pdf | STM32H743xI Data]] ​
   * [[http://​www.st.com/​stm32f0|STM32 F0 ]] Entry-level   * [[http://​www.st.com/​stm32f0|STM32 F0 ]] Entry-level
     * [[http://​www.st.com/​stm32f0 | STM32 F0x1 / F0x2]] Entry-level ARM Cortex-M0 MCU with 128 Kbytes Flash, 48 MHz CPU, one CAN and CEC functions, two I2Cs, two SPIs/one I2S, one HDMI CEC and up to eight USARTs [[http://​www.st.com/​st-web-ui/​static/​active/​en/​resource/​technical/​document/​datasheet/​DM00115237.pdf| STM32F091x[BC] PDF]], [[http://​www.st.com/​st-web-ui/​static/​active/​en/​resource/​technical/​document/​datasheet/​DM00090510.pdf | STM32F072xx PDF]]     * [[http://​www.st.com/​stm32f0 | STM32 F0x1 / F0x2]] Entry-level ARM Cortex-M0 MCU with 128 Kbytes Flash, 48 MHz CPU, one CAN and CEC functions, two I2Cs, two SPIs/one I2S, one HDMI CEC and up to eight USARTs [[http://​www.st.com/​st-web-ui/​static/​active/​en/​resource/​technical/​document/​datasheet/​DM00115237.pdf| STM32F091x[BC] PDF]], [[http://​www.st.com/​st-web-ui/​static/​active/​en/​resource/​technical/​document/​datasheet/​DM00090510.pdf | STM32F072xx PDF]]
Line 41: Line 48:
   * [[http://​www.st.com/​stm32f7|STM32 F7 ]] Hi-Performance & DSP, Cortex M7 based, 2 CAN channels   * [[http://​www.st.com/​stm32f7|STM32 F7 ]] Hi-Performance & DSP, Cortex M7 based, 2 CAN channels
     *The [[http://​www.st.com/​st-web-ui/​static/​active/​en/​resource/​technical/​document/​data_brief/​DM00116941.pdf | STM32F756NG]] is the first Cortex M7 on the market (Oktober 2014). High-performance and DSP with FPU, with 1 Mbytes Flash, 200 MHz CPU, Art Accelerator,​ L1 cache, HW crypto, SDRAM, TFT and 2 bxCAN.     *The [[http://​www.st.com/​st-web-ui/​static/​active/​en/​resource/​technical/​document/​data_brief/​DM00116941.pdf | STM32F756NG]] is the first Cortex M7 on the market (Oktober 2014). High-performance and DSP with FPU, with 1 Mbytes Flash, 200 MHz CPU, Art Accelerator,​ L1 cache, HW crypto, SDRAM, TFT and 2 bxCAN.
 +     * STM32F7x9, @216MHz, 3xCAN, up to 2MiB FLASH, hardware crypto, double precision FPU
 +     * STM32F7x7, @216MHz, 3xCAN, 512 KiB FLASH, hardware crypto, double precision FPU
 +     * STM32F7x6, @216MHz, 2xCAN, 320 KiB FLASH, hardware crypto, single precision FPU
 +     * STM32F7x5/​765,​ @216MHz, 3xCAN, 512 KiB FLASH, double precision FPU
 +     * STM32F7x5/​765,​ @216MHz, 2xCAN, 320 KiB FLASH, single precision FPU
 +
  
 All STM32 families are implementing CAN using the ST bxCAN module. But not all family members have CAN. Most have. All STM32 families are implementing CAN using the ST bxCAN module. But not all family members have CAN. Most have.
Line 51: Line 64:
  
 ==== Automotive SPC58 ==== ==== Automotive SPC58 ====
-[[http://​www.st.com/​web/​en/​catalog/​sense_power/​FM2098/​SC963/​SS1690/​LN1871 | SPC58]] family of multi-core micro-controllers,​ enable functional safety and encryption in automotive systems, for applications like advanced driver assistance systems (ADAS). Up to 6 MiB Flash and 768 KiB internal RAM memory, eight CAN interfaces. ​ +  * [[https://​www.st.com/​b/​content/​st_com/​en/​products/​automotive-microcontrollers/​spc5-32-bit-automotive-mcus/​spc5-mcus-for-interior-networking-and-low-power-applications/​spc58-g-line-mcus.html | SPC58 Chorus G-Line]] 32-bit General-Purpose Automotive Power Architecture® MCU; single-core (SPC584G), dual-core (SPC58EG) and triple-core (SPC58NG) versions with up to 6 Mbytes of Flash memory; 1 x FlexRay, 6 x FlexCAN 
 +  * ST's **Chorus** automotive micro-controller [[ | SPC58H]] with 16 CAN FD interfaces as well as 24 LIN interfaces Chorus can act as a gateway for multiple electronic control units. Three processor cores, more than 1,2 Mbit/s RAM and other on-chip peripherals,​ 
 +  * [[http://​www.st.com/​web/​en/​catalog/​sense_power/​FM2098/​SC963/​SS1690/​LN1871 | SPC58]] ​:-) family of multi-core micro-controllers,​ enable functional safety and encryption in automotive systems ​(ASIL-B), for applications like advanced driver assistance systems (ADAS). Up to 6 MiB Flash and 768 KiB internal RAM memory, eight CAN interfaces, seven Bosch [[controllers:​c_can|M_CAN]],​ all **ISO CAN-FD** compliant, and 1 Time-Triggered Controller Area Network M_TTCAN.\\ [[http://​www.st.com/​web/​en/​resource/​technical/​document/​data_brief/​DM00175640.pdf | SPC58NE84E7,​ SPC58NE84C3 Data sheet]] (PDF)
 ==== Automotive SPC57 ==== ==== Automotive SPC57 ====
 [[http://​www.st.com/​web/​catalog/​sense_power/​FM2098/​SC963/​SS1534/​LN1870 | SPC57]] family integrates the [[controllers:​bosch|Bosch M_CAN]] module :-). First samples do support only 8 byte in the data frame, final versions will support 64 byte data frames by end of 2013. Update 3/2015: no news regarding CAN FD. The [[http://​www.st.com/​st-web-ui/​static/​active/​en/​resource/​technical/​document/​data_brief/​DM00072764.pdf| data sheet]] does not mention CAN FD. [[http://​www.st.com/​web/​catalog/​sense_power/​FM2098/​SC963/​SS1534/​LN1870 | SPC57]] family integrates the [[controllers:​bosch|Bosch M_CAN]] module :-). First samples do support only 8 byte in the data frame, final versions will support 64 byte data frames by end of 2013. Update 3/2015: no news regarding CAN FD. The [[http://​www.st.com/​st-web-ui/​static/​active/​en/​resource/​technical/​document/​data_brief/​DM00072764.pdf| data sheet]] does not mention CAN FD.
Line 66: Line 80:
   * SPEAr 320 - ARM926 based, 2 CAN Channels based on BOSCH [[controllers:​c_can|C_CAN]]   * SPEAr 320 - ARM926 based, 2 CAN Channels based on BOSCH [[controllers:​c_can|C_CAN]]
   * SPEAr 1310 - dual Cortex-A9 based, 2 CAN Channels ​   * SPEAr 1310 - dual Cortex-A9 based, 2 CAN Channels ​
 +
 +==== Accordo 5 ====
 +  * [[https://​www.st.com/​en/​automotive-infotainment-and-telematics/​sta1295.html | STA 1295]] Dual Core 32-bit ARM Cortex-A7 / Cortex-M3 processor, 3D GPU, HW Video Decoder, integrated DSP sound subsystem, audio ADCs and DACs, isolated CAN MCU for Display Audio, Navigation and Digital Instrument Cluster applications,​ The Cortex-M3 features 3 CANFD channels
 +    * Dedicated ARM Cortex-M3 core
 +    * three CAN-FD ports :-)
  
 ==== Accordo 2 ==== ==== Accordo 2 ====

QR Code
QR Code controllers:st_microelectronics (generated for current page)