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--- university:courses:electronics:electronics-lab-pulse-width-modulation [04 Mar 2019 13:14] – [Going Further with the Lab] add ltspice files Antoniu Miclaus
+++ university:courses:electronics:electronics-lab-pulse-width-modulation [25 Jun 2020 22:07] – external edit
@@ Line 41: / Line 41: @@
 Consider the circuit in Figure 1.
-<WRAP centeralign> {{:university:courses:electronics:pwm_carrier-sch.png?500|}} </WRAP>
+<WRAP centeralign> {{ :university:courses:electronics:pwm_carrier.png?400 |}} </WRAP>
 <WRAP centeralign> Figure 1. PWM Principle of operation </WRAP>
@@ Line 57: / Line 57: @@
 ==== Procedure ====
-Use the first waveform generator as the carrier signal providing a 4V amplitude, 2.5V offset, 1 kHz triangle wave excitation to the circuit. Use the second waveform generator as the modulation signal with 3V amplitude, 2.5V offset, 50Hz sine wave.
+Use the first waveform generator as the carrier signal providing a 4V amplitude peak-to-peak, 2.5V offset, 1 kHz triangle wave excitation to the circuit. Use the second waveform generator as the modulation signal with 3V amplitude peak-to-peak, 2.5V offset, 50Hz sine wave.
 Supply the op amp with +5V from the power supply. Configure the scope so that the input signal is displayed on channel 1 and the output signal is displayed on channel 2 .
@@ Line 85: / Line 85: @@
 Consider the circuit in Figure 5.
-<WRAP centeralign> {{:university:courses:electronics:pwm_ref_voltage-sch.png?500|}} </WRAP>
+<WRAP centeralign> {{ :university:courses:electronics:pwm_dc_modulation1_ltspice.png?400 |}} </WRAP>
 <WRAP centeralign> Figure 5. Pulse Width Control using a DC modulation Voltage </WRAP>
@@ Line 103: / Line 103: @@
 ==== Procedure ====
-Use the first waveform generator as source Vin to provide a 5V amplitude, 1 kHz triangle wave excitation to the circuit. Use the second waveform generator as constant voltage source with 5V amplitude.
+Use the first waveform generator as source Vin to provide a 5V amplitude peak-to-peak, 1 kHz triangle wave excitation to the circuit. Use the second waveform generator as constant voltage source with 5V amplitude peak-to-peak.
 Supply the op amp to +5V from the power supply. Configure the scope so that the input signal is displayed on channel 1 and the output signal is displayed on channel 2.
@@ Line 120: / Line 120: @@
 Consider the circuit in Figure 8.
-<WRAP centeralign> {{:university:courses:electronics:pwm_multivibr-sch.png?500|}} </WRAP>
+<WRAP centeralign> {{ :university:courses:electronics:pwm_astable_multivibr.png?400 |}} </WRAP>
 <WRAP centeralign> Figure 8. PWM with Astable Multivibrator </WRAP>
@@ Line 155: / Line 155: @@
 Consider the circuit presented in Figure 11.
-<WRAP centeralign> {{:university:courses:electronics:pwm_dc_multivibr-sch.png?500|}} </WRAP>
+<WRAP centeralign> {{ :university:courses:electronics:pwm_dc_multivibr.png?400 |}} </WRAP>
 <WRAP centeralign> Figure 11. Adjusting the duty cycle for PWM with Multivibrator</WRAP>
@@ Line 187: / Line 187: @@
 Build the above discussed circuits using AD8561 from the Parts Kit and discuss any noticeable changes of the circuit behavior and the input/output signals.
+<WRAP round download>
 **Lab Resources:**
-  * Fritzing files: [[ https://minhaskamal.github.io/DownGit/#/home?url=https://github.com/analogdevicesinc/education_tools/tree/master/m2k/fritzing/pwm_lab_bb | pwm_lab_bb]]
+  * Fritzing files: [[downgit>education_tools/tree/master/m2k/fritzing/pwm_lab_bb | pwm_lab_bb]]
-  * LTspice files: [[ https://minhaskamal.github.io/DownGit/#/home?url=https://github.com/analogdevicesinc/education_tools/tree/master/m2k/ltspice/pwm_lab_ltspice | pwm_lab_ltspice]]
+  * LTspice files: [[downgit>education_tools/tree/master/m2k/ltspice/pwm_lab_ltspice | pwm_lab_ltspice]]
+</WRAP>
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