Please provide the text you would like translated into French. I need the text you want me to translate in order to help you.
Instructions: Choose the best answer for each question.
1. What is the primary function of a capture register?
a) To generate a specific time delay. b) To store the current value of a timer/counter at a specific moment. c) To control the speed of a digital clock. d) To convert analog signals to digital signals.
b) To store the current value of a timer/counter at a specific moment.
2. What triggers the capture action in a capture register?
a) A specific voltage level on a dedicated input pin. b) A software instruction issued by the microcontroller. c) A change in the frequency of a signal. d) Both a) and b) are correct.
d) Both a) and b) are correct.
3. Which of the following applications does NOT directly benefit from capture registers?
a) Measuring the width of a pulse signal. b) Determining the frequency of an audio signal. c) Generating a sine wave. d) Timing the occurrence of a button press.
c) Generating a sine wave.
4. What is the main advantage of using capture registers for time measurement compared to software-based methods?
a) Capture registers are more accurate than software-based methods. b) Capture registers are more flexible than software-based methods. c) Capture registers are faster and more efficient than software-based methods. d) Capture registers are easier to implement than software-based methods.
c) Capture registers are faster and more efficient than software-based methods.
5. How can capture registers be used to measure the frequency of a signal?
a) By capturing the time it takes for the signal to complete one full cycle. b) By capturing the time between two consecutive rising edges of the signal. c) By capturing the time between two consecutive falling edges of the signal. d) All of the above are correct.
d) All of the above are correct.
Scenario: You are designing a system to control the speed of a DC motor using a pulse-width modulation (PWM) signal. The PWM signal is generated by a microcontroller and sent to a motor driver. The motor speed is directly proportional to the width of the PWM pulse.
Task:
1. To measure the pulse width, you would need two capture registers: one to capture the time when the PWM signal goes high (rising edge), and another to capture the time when the signal goes low (falling edge). By subtracting the captured values from each other, you obtain the duration of the pulse. 2. Once you have measured the pulse width, you can compare it to a desired target value. Based on the difference, you can adjust the PWM duty cycle (the ratio of on-time to off-time) by modifying the microcontroller's PWM output. If the measured pulse width is lower than the target, you increase the duty cycle to increase the motor speed. Conversely, if the measured pulse width is higher, you decrease the duty cycle to slow down the motor.
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