40. Sketch the waveform for i of the network of Fig. 1.66 ift, 2r, and the total reverse recovery time is 9 ns. 10 4₁=5 ns www 10 k

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**Exercise: Understanding Diode Recovery and Circuit Responses** **Question:** 40. Sketch the waveform for current \(i\) of the network shown in Fig. 1.66 if the reverse recovery time \(t_r = 2t_f\), and the total reverse recovery time is 9 ns. **Figure Details:** 1. **Voltage Pulse Diagram:** - The diagram on the left shows a voltage pulse \(v_i\). - Amplitude: 10 volts. - Pulse width \(t_1 = 5\) nanoseconds (ns). - Pulse starts at 0 ns and ends at 5 ns, returning to 0 volts. 2. **Circuit Diagram:** - The circuit on the right includes a diode and a resistor. - The resistor has a value of 10 kΩ. - The diode is forward-biased with the voltage pulse \(v_i\). **Concept Explanation:** - **Reverse Recovery Time:** This is the time it takes for a diode to switch from conducting in the forward direction to being fully non-conducting in the reverse direction. - **Task Objective:** Using the given reverse recovery time of 9 ns and \(t_r = 2t_f\), where \(t_r\) is the reverse recovery time and \(t_f\) is the forward recovery time, sketch the current waveform (\(i\)) through the diode and resistor network. The exercise challenges students to understand the impact of reverse recovery time on current waveform and how the diode’s switching characteristics affect the circuit’s response.