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[FreeTutorials.Us] Udemy - Mastering Microcontroller TIMERS, PWM, CAN, RTC,LOW POWER

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种子名称: [FreeTutorials.Us] Udemy - Mastering Microcontroller TIMERS, PWM, CAN, RTC,LOW POWER
文件类型: 视频
文件数目: 211个文件
文件大小: 11.63 GB
收录时间: 2020-11-19 19:23
已经下载: 3
资源热度: 256
最近下载: 2024-12-25 06:46

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[FreeTutorials.Us] Udemy - Mastering Microcontroller TIMERS, PWM, CAN, RTC,LOW POWER.torrent
  • 1. Introduction/1. what are we going to do in this course .mp490.28MB
  • 10. PWM/1. PWM Introduction.mp424.21MB
  • 10. PWM/10. LED brightness control using PWM signal Part 2.mp4100.53MB
  • 10. PWM/2. PWM Exercise Part 1.mp43.14MB
  • 10. PWM/3. PWM Exercise Part 2.mp410.31MB
  • 10. PWM/4. PWM Exercise Part 3.mp489.49MB
  • 10. PWM/5. PWM Exercise Part 4.mp435.48MB
  • 10. PWM/6. PWM Exercise Part 5.mp443.53MB
  • 10. PWM/7. PWM Exercise Part 6.mp435.95MB
  • 10. PWM/8. PWM Exercise Part 7.mp458.81MB
  • 10. PWM/9. LED brightness control using PWM signal Part 1.mp446.36MB
  • 11. Controller Area Network Fundamentals/1. CAN section introduction.mp411.87MB
  • 11. Controller Area Network Fundamentals/2. Introduction to CAN.mp423.52MB
  • 11. Controller Area Network Fundamentals/3. CAN's most attractive features.mp426.23MB
  • 11. Controller Area Network Fundamentals/4. Summary of CAN features.mp413.89MB
  • 11. Controller Area Network Fundamentals/5. Understanding a CAN and its parts.mp427.16MB
  • 11. Controller Area Network Fundamentals/6. CAN single ended signals Vs Differential signal.mp428.07MB
  • 11. Controller Area Network Fundamentals/7. Understanding CAN differential signals.mp466.88MB
  • 11. Controller Area Network Fundamentals/8. CAN Dominant and Recessive Signal states.mp423.57MB
  • 11. Controller Area Network Fundamentals/9. CAN signalling summary.mp416.57MB
  • 12. CAN frame formats/1. CAN Message format explanation Arbitration field.mp440.8MB
  • 12. CAN frame formats/2. Standard CAN Vs Extended CAN.mp442.06MB
  • 12. CAN frame formats/3. CAN Message format explanation ACK bit.mp430.31MB
  • 12. CAN frame formats/4. ACK Summary.mp415.66MB
  • 12. CAN frame formats/5. CAN Message format explanation EOF, IFS and SOF.mp414.14MB
  • 12. CAN frame formats/6. CAN remote frame.mp411.75MB
  • 13. CAN Bus Arbitration/1. Understanding CAN bit wise arbitration.mp452.74MB
  • 14. STM32 bxCAN/1. STM32 bxCAN introdcution.mp430.64MB
  • 14. STM32 bxCAN/10. Exercise CAN loop back mode MSP code implementation.mp412.76MB
  • 14. STM32 bxCAN/11. CAN loopback connection details.mp429.93MB
  • 14. STM32 bxCAN/12. Exercise CAN loop back mode Testing and Protocol decoding.mp460.92MB
  • 14. STM32 bxCAN/13. STM32 bxCAN RX block diagram and acceptance filters.mp440.76MB
  • 14. STM32 bxCAN/2. STM32 bxCAN block diagram.mp447.76MB
  • 14. STM32 bxCAN/3. STM32 bxCAN self test modes.mp420.76MB
  • 14. STM32 bxCAN/4. Exercise CAN loop back mode Project Creation.mp431.48MB
  • 14. STM32 bxCAN/5. CAN bit timing calculation.mp4155.02MB
  • 14. STM32 bxCAN/6. Exercise CAN loop back mode Coding init function.mp469.07MB
  • 14. STM32 bxCAN/7. Exploring bxCAN TX path.mp471.71MB
  • 14. STM32 bxCAN/8. Exercise CAN loop back mode Coding Tx function.mp496.71MB
  • 14. STM32 bxCAN/9. understanding bxCAN operating modes.mp433.1MB
  • 15. bxCAN Frame filtering/1. Understanding bxCAN acceptance filtering with examples.mp470.38MB
  • 15. bxCAN Frame filtering/2. Exploring filtering data structures.mp461.23MB
  • 15. bxCAN Frame filtering/3. Exercise CAN loop back mode Coding RX function.mp471.13MB
  • 15. bxCAN Frame filtering/4. Exercise CAN filter config implementation and testing TX-RX.mp492MB
  • 16. CAN interrupts/1. Understanding STM32 bxCAN Interrupt requests (IRQs).mp4145.99MB
  • 16. CAN interrupts/2. CAN LOOPBACK interrupt mode implementation Part -1.mp4113.37MB
  • 16. CAN interrupts/3. CAN LOOPBACK interrupt mode implementation Part -2.mp453.19MB
  • 17. CAN normal mode and exercise/1. Exercise CAN Normal Node Introduction - Part-1.mp421.14MB
  • 17. CAN normal mode and exercise/10. Exercise CAN Normal Node Sending Remote Frame Part-10.mp418.41MB
  • 17. CAN normal mode and exercise/11. Exercise CAN Normal Node Testing- Part-11.mp432.13MB
  • 17. CAN normal mode and exercise/12. Exercise CAN Normal Node Testing TX at 1Mbitsec - Part-12.mp456.09MB
  • 17. CAN normal mode and exercise/13. Exercise CAN Normal Configuring acceptance filtering - Part-13.mp444.45MB
  • 17. CAN normal mode and exercise/14. Exercise CAN Normal Configuring acceptance filtering - Part-14.mp424.84MB
  • 17. CAN normal mode and exercise/2. Exercise CAN Normal Node Project Creation- Part-2.mp47.06MB
  • 17. CAN normal mode and exercise/3. Exercise CAN Normal Node Code Implementation - Part-3.mp454.7MB
  • 17. CAN normal mode and exercise/4. Exercise CAN Normal Node Code Implementation - Part-4.mp49.76MB
  • 17. CAN normal mode and exercise/5. Exercise CAN Normal Node Code Implementation - Part-5.mp418.68MB
  • 17. CAN normal mode and exercise/6. Exercise CAN Normal Node Testing TX - Part-6.mp452.15MB
  • 17. CAN normal mode and exercise/7. Exercise CAN Normal Node Testing TX - Part-7.mp414.08MB
  • 17. CAN normal mode and exercise/8. Exercise CAN Normal Node RX Code implementation- Part-8.mp472.53MB
  • 17. CAN normal mode and exercise/9. Exercise CAN Normal Node RX Code implementation- Part-9.mp450.67MB
  • 18. Low Power Modes/1. Section Introduction.mp45MB
  • 18. Low Power Modes/10. Current measurement with SLEEPONEXIT feature.mp454.8MB
  • 18. Low Power Modes/11. SLEEPONEXIT Exercise summary.mp411.4MB
  • 18. Low Power Modes/2. MCU low power modes introduction.mp422.4MB
  • 18. Low Power Modes/3. Processor specific low power modes.mp447.79MB
  • 18. Low Power Modes/4. Entering normal and deep sleep modes.mp413.39MB
  • 18. Low Power Modes/5. Entering sleep mode using SLEEPONEXIT feature.mp433.1MB
  • 18. Low Power Modes/6. Exercise Usage of SLEEPONEXIT feature.mp414.42MB
  • 18. Low Power Modes/7. waking up from SLEEPONEXIT feature.mp422.05MB
  • 18. Low Power Modes/8. Exercise test SLEEPONEXIT feature -creating a project.mp43.4MB
  • 18. Low Power Modes/9. Exercise Implementation and current measurement without SLEEPONEXIT feature.mp461.52MB
  • 19. Current reduction tips and tricks/1. Tips to reduce current consumption.mp419.28MB
  • 19. Current reduction tips and tricks/2. Current measurement with increased HCLK frequency.mp440.46MB
  • 19. Current reduction tips and tricks/3. Current measurement with increased UART baudrate.mp470.88MB
  • 19. Current reduction tips and tricks/4. Clock gating and RCC Low power register settings.mp491.11MB
  • 19. Current reduction tips and tricks/5. IO analog mode and effect on current consumption.mp417.77MB
  • 19. Current reduction tips and tricks/6. Current measurement in IO analog mode.mp452.72MB
  • 2. Development board details/2. About the development board used in this course.mp441.85MB
  • 2. Development board details/3. Board Details and Locating Documents.mp437.17MB
  • 2. Development board details/4. ST-Link Driver Installation.mp432.32MB
  • 2. Development board details/5. ST Link Firmware Upgrade.mp432.31MB
  • 20. WFI and WFE/1. Understanding WFI instruction.mp428.9MB
  • 20. WFI and WFE/10. WFE project implementation-Part2.mp433.84MB
  • 20. WFI and WFE/11. Difference and similarity between WFI and WFE.mp48.78MB
  • 20. WFI and WFE/12. When to use WFE and WFI .mp411.07MB
  • 20. WFI and WFE/2. WFI Exercise Introduction.mp43.73MB
  • 20. WFI and WFE/3. WFI Exercise Implementation.mp480.95MB
  • 20. WFI and WFE/4. Understanding WFE and event register of ARM Cortex Mx processor.mp461.28MB
  • 20. WFI and WFE/5. WFE wake-up behavior and Comparison with WFI.mp458.43MB
  • 20. WFI and WFE/6. WFE exercise introduction.mp45.52MB
  • 20. WFI and WFE/7. WFE project explanation.mp48.32MB
  • 20. WFI and WFE/8. Generating Peripheral events in STM32 MCU.mp437.63MB
  • 20. WFI and WFE/9. WFE project implementation-Part1.mp421.56MB
  • 21. STM32 Low Power modes and Voltage domains/1. MCU specific low power modes.mp464.36MB
  • 21. STM32 Low Power modes and Voltage domains/2. STM32 MCU voltage domains.mp434.15MB
  • 22. STM32 Voltage Regulator/1. STM32 voltage regulator and its modes.mp486.22MB
  • 22. STM32 Voltage Regulator/2. Voltage regulator Over Drive and Power Down mode.mp432.4MB
  • 23. Current Measurement and datasheet comparison RUN Mode/1. Current measurement with core-mark in Run mode-Part1.mp4190.66MB
  • 23. Current Measurement and datasheet comparison RUN Mode/2. Current measurement with core-mark in Run mode-Part2.mp433.29MB
  • 23. Current Measurement and datasheet comparison RUN Mode/3. Run mode current measurement + HCLK180MHz+ all peripherals enabled.mp426.73MB
  • 23. Current Measurement and datasheet comparison RUN Mode/4. Run mode current measurement + HCLK180MHz + all peripherals enabled + ART.mp425.33MB
  • 24. Current Measurement and datasheet comparison SLEEP Mode/1. SLEEP mode current measurement.mp451.43MB
  • 24. Current Measurement and datasheet comparison SLEEP Mode/2. SLEEP mode and Voltage regulator settings to save current.mp469MB
  • 25. Current Measurement and datasheet comparison STOP Mode/1. STOP mode and wake-up latency.mp436.85MB
  • 25. Current Measurement and datasheet comparison STOP Mode/2. STOP mode current measurement.mp4165.22MB
  • 25. Current Measurement and datasheet comparison STOP Mode/3. Microcontroller wake-up Pins discussion.mp452.11MB
  • 26. STM32 BACKUP SRAM and STANDBY MODE effect/1. Understanding STM32 BACKUP SRAM.mp418.46MB
  • 26. STM32 BACKUP SRAM and STANDBY MODE effect/2. Different types of MCU resets.mp460.44MB
  • 26. STM32 BACKUP SRAM and STANDBY MODE effect/3. BACKUP SRAM exercise Intro.mp44.61MB
  • 26. STM32 BACKUP SRAM and STANDBY MODE effect/4. Backup SRAM Exercise implementation part 1.mp4183.08MB
  • 26. STM32 BACKUP SRAM and STANDBY MODE effect/5. Backup SRAM Exercise implementation part 2.mp4129.59MB
  • 27. RTC and RTC Calendar Block/1. RTC Introduction.mp428.81MB
  • 27. RTC and RTC Calendar Block/10. Exercise RTC Calendar Testing with system reset and STANDBY exit.mp467.76MB
  • 27. RTC and RTC Calendar Block/2. RTC BCD programming example.mp454.96MB
  • 27. RTC and RTC Calendar Block/3. RTC block diagram and RTC Clock selection.mp449.02MB
  • 27. RTC and RTC Calendar Block/4. RTC and STM32 device HAL APIs explanation.mp427.28MB
  • 27. RTC and RTC Calendar Block/5. Exercise RTC Calendar Part-1.mp4111.6MB
  • 27. RTC and RTC Calendar Block/6. Exercise RTC Calendar Part-2.mp469.94MB
  • 27. RTC and RTC Calendar Block/7. Exercise RTC Calendar Part-3.mp480.23MB
  • 27. RTC and RTC Calendar Block/8. Exercise RTC Calendar Part-4.mp4138.88MB
  • 27. RTC and RTC Calendar Block/9. Exercise RTC Calendar Testing.mp426.66MB
  • 28. RTC Alarm/1. RTC Alarm Introduction.mp447.88MB
  • 28. RTC Alarm/2. STM32 CUBE APIs for RTC Alarm Handling.mp443.68MB
  • 29. RTC Interrupts/1. RTC Interrupts and IRQ numbers.mp458.46MB
  • 29. RTC Interrupts/2. RTC Interrupts Summary.mp413.78MB
  • 3. Installing OpenSTM32 System-Workbench/2. Downloading and Installing OpenSTM32 System-Workbench.mp480.63MB
  • 3. Installing OpenSTM32 System-Workbench/3. Installing OpenSTM32 System-Workbench.mp437.42MB
  • 3. Installing OpenSTM32 System-Workbench/4. STM32 CUBE mx installation.mp439.27MB
  • 30. RTC Alarm Exercises/1. RTC Alarm Exercise-1.mp4118.32MB
  • 30. RTC Alarm Exercises/2. RTC Alarm Exercise-1 Testing.mp444.53MB
  • 30. RTC Alarm Exercises/3. RTC Alarm Exercise-2.mp45.15MB
  • 30. RTC Alarm Exercises/4. RTC Alarm Exercise-2 Testing.mp433.67MB
  • 30. RTC Alarm Exercises/5. RTC Alarm Exercise-3.mp4119.56MB
  • 30. RTC Alarm Exercises/6. RTC Alarm Exercise-4.mp458.73MB
  • 4. STM32 HAL and Project Architecture/1. Introduction to STM32 Cube Project Architecture.mp420.33MB
  • 4. STM32 HAL and Project Architecture/10. Linking Handle Structure and Peripheral.mp486.73MB
  • 4. STM32 HAL and Project Architecture/11. STM32 HAL Header File Hierarchy.mp453.74MB
  • 4. STM32 HAL and Project Architecture/2. Creating and Importing Project into OpenSTM32 System Workbench – Part1.mp461.02MB
  • 4. STM32 HAL and Project Architecture/3. Understanding Project Hierarchy.mp478.61MB
  • 4. STM32 HAL and Project Architecture/4. Project Layers Interaction.mp494.87MB
  • 4. STM32 HAL and Project Architecture/5. STM32 Cube framework program flow-1.mp419.57MB
  • 4. STM32 HAL and Project Architecture/6. STM32 Cube framework program flow-2.mp420.62MB
  • 4. STM32 HAL and Project Architecture/7. HAL_Init().mp455.7MB
  • 4. STM32 HAL and Project Architecture/8. Understanding main.c msp.c and it.c.mp448.68MB
  • 4. STM32 HAL and Project Architecture/9. Peripheral Handle Structure.mp480.87MB
  • 5. Understanding STM32 HAL program flow with UART exercise/1. Importing Source Codes.mp486.66MB
  • 5. Understanding STM32 HAL program flow with UART exercise/10. Peripheral Low Level Initialization IRQ settings.mp485.22MB
  • 5. Understanding STM32 HAL program flow with UART exercise/11. STM32 HAL Peripheral data handling APIs.mp435.08MB
  • 5. Understanding STM32 HAL program flow with UART exercise/12. UART Data TXing Part 1.mp486.73MB
  • 5. Understanding STM32 HAL program flow with UART exercise/13. UART Data TXing Part 2.mp465.1MB
  • 5. Understanding STM32 HAL program flow with UART exercise/14. UART Data RXing Intro.mp411.42MB
  • 5. Understanding STM32 HAL program flow with UART exercise/15. Implementing UART DATA RXing in Polling mode.mp4120.3MB
  • 5. Understanding STM32 HAL program flow with UART exercise/16. UART Data RXing in Interrupt Mode Part 1.mp412.61MB
  • 5. Understanding STM32 HAL program flow with UART exercise/17. UART Data RXing in Interrupt Mode Part 2.mp4124.96MB
  • 5. Understanding STM32 HAL program flow with UART exercise/18. UART Data RXing in Interrupt Mode Part 3.mp497.42MB
  • 5. Understanding STM32 HAL program flow with UART exercise/19. UART Data RXing in Interrupt Mode Part 4.mp425.17MB
  • 5. Understanding STM32 HAL program flow with UART exercise/2. Project Creation.mp450.51MB
  • 5. Understanding STM32 HAL program flow with UART exercise/3. Low level Processor specific hardware initialization Part 1.mp423.71MB
  • 5. Understanding STM32 HAL program flow with UART exercise/4. Low level Processor specific hardware initialization Part 2.mp448.83MB
  • 5. Understanding STM32 HAL program flow with UART exercise/5. Low level Processor specific hardware initialization Part 3.mp4110.75MB
  • 5. Understanding STM32 HAL program flow with UART exercise/6. Peripheral High Level Initialization.mp4146.78MB
  • 5. Understanding STM32 HAL program flow with UART exercise/7. Peripheral Low Level Initialization.mp466.39MB
  • 5. Understanding STM32 HAL program flow with UART exercise/8. Peripheral Low Level Initialization configuring Pin Packs.mp442.47MB
  • 5. Understanding STM32 HAL program flow with UART exercise/9. Peripheral Low Level Initialization Alternate function settings.mp4180.28MB
  • 6. Clocks and PLL Programming/1. Introduction to different clock sources of the microcontroller.mp489.83MB
  • 6. Clocks and PLL Programming/10. Exercise PLL Configuration via HSI Part 1.mp4160.06MB
  • 6. Clocks and PLL Programming/11. Exercise PLL Configuration via HSI Part 2.mp4131.45MB
  • 6. Clocks and PLL Programming/12. Exercise PLL Configuration via HSE.mp431.5MB
  • 6. Clocks and PLL Programming/13. Exercise PLL Configuration for 180MHz.mp43.7MB
  • 6. Clocks and PLL Programming/14. Exercise PLL Configuration for 180MHz implementation.mp461.3MB
  • 6. Clocks and PLL Programming/2. Understanding methods to configure the SYSCLK.mp420.12MB
  • 6. Clocks and PLL Programming/3. Exploring clock handling APIs in RCC driver files.mp469.84MB
  • 6. Clocks and PLL Programming/4. Exercise OSC Init and HSE bypass.mp4117.03MB
  • 6. Clocks and PLL Programming/5. Exercise Clock init implementation.mp4182.5MB
  • 6. Clocks and PLL Programming/6. Exercise SYSTICK configuration and summary.mp4113.55MB
  • 6. Clocks and PLL Programming/7. Exercise Testing.mp415.28MB
  • 6. Clocks and PLL Programming/8. Understanding HSI calibration.mp474.9MB
  • 6. Clocks and PLL Programming/9. PLL introduction and working principle.mp438.67MB
  • 7. Timers/1. Introduction to Timers.mp428.92MB
  • 7. Timers/10. Timer Exercise MSP Init Implementation.mp4104.54MB
  • 7. Timers/11. Timer Exercise Test.mp4170.12MB
  • 7. Timers/12. Timer Exercise Interrupt Mode.mp4173.01MB
  • 7. Timers/13. Timer Exercise 10 Micro timer base generation.mp467.36MB
  • 7. Timers/2. Types of Timers.mp48.99MB
  • 7. Timers/3. Timer Availability in STM32 MCUs.mp474.21MB
  • 7. Timers/4. Timer Availability in STM32 MCUs Summary.mp427.41MB
  • 7. Timers/5. STM32 Basic Timer Assembly.mp432.74MB
  • 7. Timers/6. Timer Exercise Project creation.mp450.77MB
  • 7. Timers/7. Timer Exercise Understanding Timer Clock (TIMx_CLK).mp4155.04MB
  • 7. Timers/8. Timer Exercise Understanding Prescaler and Period(ARR).mp456.95MB
  • 7. Timers/9. Timer Exercise Period Value Calculation.mp429.58MB
  • 8. General Purpose Timer Input Capture Unit/1. Timer with input capture block.mp455.32MB
  • 8. General Purpose Timer Input Capture Unit/10. Input Capture Exercise Update on HSE.mp410.3MB
  • 8. General Purpose Timer Input Capture Unit/11. Input Capture Exercise with 4Mhz external signal.mp445.01MB
  • 8. General Purpose Timer Input Capture Unit/12. Input Capture Exercise with 50KHz external signal.mp440.94MB
  • 8. General Purpose Timer Input Capture Unit/2. Input Capture Exercise working principle.mp417.65MB
  • 8. General Purpose Timer Input Capture Unit/3. Input Capture Exercise time base init.mp4101.85MB
  • 8. General Purpose Timer Input Capture Unit/4. Input Capture Exercise Channel Configuration.mp4130.69MB
  • 8. General Purpose Timer Input Capture Unit/5. Input Capture Exercise Channel Configuration Coding.mp4120.1MB
  • 8. General Purpose Timer Input Capture Unit/6. LSE Configuration.mp4119.48MB
  • 8. General Purpose Timer Input Capture Unit/7. Testing of LSE on MCO1 Pin.mp466.93MB
  • 8. General Purpose Timer Input Capture Unit/8. Timer Input Capture Callback Implementation.mp4176.91MB
  • 8. General Purpose Timer Input Capture Unit/9. Input Capture Exercise Testing.mp431.59MB
  • 9. Timer's Output Compare unit/1. Timer Output compare Introduction.mp435.25MB
  • 9. Timer's Output Compare unit/2. Output Compare Exercise Project Creation.mp412.06MB
  • 9. Timer's Output Compare unit/3. Output Compare Exercise Coding Part 1.mp4124.69MB
  • 9. Timer's Output Compare unit/4. Output Compare Exercise Coding Part 2.mp447.65MB
  • 9. Timer's Output Compare unit/5. Output Compare Exercise Coding Part 3.mp446.93MB
  • 9. Timer's Output Compare unit/6. Output Compare Exercise Coding Part 4.mp4107.32MB
  • 9. Timer's Output Compare unit/7. Output Compare Assignment.mp410.46MB