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- 本文提供有关 Linux<sup>®</sup> 控制器局域网(CAN)框架的信息。 它说明了如何激活CAN接口以及基于示例的使用方法。6 KB(484个字) - 2020年11月6日 (五) 15:28
- 142字节(2个字) - 2019年12月12日 (四) 16:27
- {{DISPLAYTITLE:如何发送或接收CAN数据}} =如何发送或接收 CAN 数据=6 KB(589个字) - 2020年1月6日 (一) 15:01
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- * briefly introduce the FDCAN peripheral and its main features * explain how each instance can be allocated to the two runtime contexts and linked to the corresponding so3 KB(488个字) - 2020年11月5日 (四) 11:20
- * explain how each instance can be allocated to the three runtime contexts and linked to the corresponding The VREFBUF is supplied via the VDDA pin. When enabled, it can provide a reference voltage in the range of: 1,5V, 1,8V, 2,048V or 2,5V.4 KB(608个字) - 2020年11月9日 (一) 11:34
- * explain how each instance can be allocated to the three runtime contexts and linked to the corresponding * It can operate under '''Normal mode''' or low-power '''Sample and Hold mode''' (us4 KB(513个字) - 2020年11月9日 (一) 14:51
- * explain how each instance can be allocated to the three runtime contexts and linked to the corresponding :* BSEC lower OTP access can be made available to the Arm<sup>®</sup> Cortex<sup>®</sup>-A7 non-3 KB(366个字) - 2020年11月2日 (一) 11:06
- …All pin settings are performed via the [[GPIO internal peripheral]], which can be configured through Linux<sup>®</sup> kernel. This is the purpose of ST microprocessor pin can be configured in several modes:2 KB(351个字) - 2020年5月7日 (四) 23:53
- …t-discoverer|gst-discoverer]] is a GStreamer command line utility that you can use on board to get information on a video media content.276字节(36个字) - 2020年5月8日 (五) 22:47
- * explain how each instance can be allocated to the three runtime contexts and linked to the corresponding …r [[USBH_internal_peripheral|USBH]] (mass storage). The USBPHYC peripheral can be used to boot on a kernel stored on a USB key, or after a kernel panic to3 KB(477个字) - 2020年11月10日 (二) 11:11
- * explain how each instance can be allocated to the three runtime contexts and linked to the corresponding The FMC instance can be allocated to the Arm<sup>®</sup> Cortex<sup>®</sup>-A7 non-secur3 KB(347个字) - 2020年11月2日 (一) 11:14
- Linux<sup>®</sup> kernel provides some user space tools that can be used for testing the [[IIO overview|IIO subsystem]]. The Linux<sup>®</sup> kernel IIO tools source code can be found under tools/iio<ref name="iio tools source">{{CodeSource | Linux…2 KB(328个字) - 2020年5月6日 (三) 23:26
- * explain how each instance can be allocated to the three runtime contexts and linked to the corresponding * The conversions can be performed in '''single, continuous, scan or discontinuous mode'''.5 KB(720个字) - 2020年11月9日 (一) 11:11
- * explain how each instance can be allocated to the three runtime contexts and linked to the corresponding The QUADSPI instances can be allocated to:3 KB(389个字) - 2020年11月2日 (一) 11:12
- * explain how each instance can be allocated to the three runtime contexts and linked to the corresponding It can be used in various applications<ref name="DFSDM training">[https://st-onlin5 KB(681个字) - 2020年11月9日 (一) 15:31
- Complete device tree bindings can be found at this location: <ref>{{CodeSource | Linux kernel | Documentation '''STM32CubeMX''' can be used to generate the board device tree. Refer to [[#How_to_configure_the3 KB(423个字) - 2020年5月6日 (三) 21:15
- * explain how each instance can be allocated to the three runtime contexts and linked to the corresponding The SPI peripheral can be used to communicate with an external devices using the SPI (Serial Perip5 KB(768个字) - 2020年11月5日 (四) 10:25
- * explain how each instance can be allocated to the three runtime contexts and linked to the corresponding …ral assignment|Peripheral assignment]] describes which peripheral instance can be assigned to which context.2 KB(336个字) - 2020年11月10日 (二) 09:33
- '''STM32CubeMX''' can be used to generate the board device tree. Refer to [[#How_to_configure_the Only the timeout-sec parameter can be modified, as illustrated above.3 KB(426个字) - 2020年5月6日 (三) 21:50
- * explain how each instance can be allocated to the three runtime contexts and linked to the corresponding **I2C instances 4 and 6 can be '''secure''' (under [[ETZPC_internal_peripheral|ETZPC]] control).5 KB(773个字) - 2020年11月5日 (四) 11:24
- …firmware authentication will use the same API (using bootrom services) but can use a different key to authenticate. The key hash must be store in OTP to… MCU SRAM can be dedicated to MCU usage (isolated). It must not be done at boot time to…3 KB(545个字) - 2020年5月7日 (四) 23:40
- * explain how each instance can be allocated to the three runtime contexts and linked to the corresponding …s. Each sub-block has its own clock generator and I/O line controller, and can be configured either as transmitter or receiver.4 KB(575个字) - 2020年11月5日 (四) 10:49
- '''STM32CubeMX''' can be used to generate the board device tree. Refer to [[#How_to_configure_the …the domain, and a lock status. Additional information on these parameters can be found in the device tree bindings documentation <ref name=bindings/>.4 KB(638个字) - 2020年5月6日 (三) 18:08
