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university:courses:alm1k:circuits1:alm-cir-6 [11 Apr 2018 20:06] – add HPH1-1400L component Doug Merceruniversity:courses:alm1k:circuits1:alm-cir-6 [03 Nov 2021 20:14] (current) – [Activity: Transient Response of an RL Circuit] Doug Mercer
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-======Activity 6: Transient Response of an RL Circuit======+======Activity: Transient Response of an RL Circuit, For ADALM1000======
  
 =====Objective:===== =====Objective:=====
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 <WRAP centeralign>Figure 4: Experiment Set-Up</WRAP> <WRAP centeralign>Figure 4: Experiment Set-Up</WRAP>
 +
 +{{ :university:courses:alm1k:circuits1:tr_rl_bb.png?500 |}}
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 +<WRAP centeralign>Figure 5: Breadboard Connections</WRAP>
  
 3. Set the channel A AWG Min value to 0.5 and Max value to 4.5V, Freq = 350 to apply a 4Vp-p square wave centered on 2.5 V as the input voltage to the circuit. From the AWG A Mode drop down menu select the SVMI mode. From the AWG A Shape drop down menus select Square. From the AWG B Mode drop down menu select the Hi-Z mode. 3. Set the channel A AWG Min value to 0.5 and Max value to 4.5V, Freq = 350 to apply a 4Vp-p square wave centered on 2.5 V as the input voltage to the circuit. From the AWG A Mode drop down menu select the SVMI mode. From the AWG A Shape drop down menus select Square. From the AWG B Mode drop down menu select the Hi-Z mode.
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 {{ :university:courses:alm1k:circuits1:alm-cir-lab6-screen1.png?750 |}} {{ :university:courses:alm1k:circuits1:alm-cir-lab6-screen1.png?750 |}}
  
-<WRAP centeralign>Figure 5: Oscilloscope Configuration.</WRAP>+<WRAP centeralign>Figure 6: Oscilloscope Configuration.</WRAP>
  
 This configuration allows the oscilloscope to look at the input voltage of the circuit and the current through the inductor on channel A and the output voltage of the circuit on channel B. Make sure you have checked the Sync AWG selector. This configuration allows the oscilloscope to look at the input voltage of the circuit and the current through the inductor on channel A and the output voltage of the circuit on channel B. Make sure you have checked the Sync AWG selector.
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 • A Capacitor stores charge. What do you think an Inductor stores?  • A Capacitor stores charge. What do you think an Inductor stores? 
 Answer in brief.  Answer in brief. 
 +
 +**Resources:**
 +
 +  * Fritzing files: [[downgit>education_tools/tree/master/m1k/fritzing/rl_filt_bb |rl_filt_bb]]
 +  * LTSpice files: [[downgit>education_tools/tree/master/m1k/ltspice/rl_filt_ltspice | rl_filt_ltspice]]
  
 **For Further Reading:** **For Further Reading:**
  
-[[university:tools:m1k:alice:desk-top-users-guide|ALICE Oscilloscope User's Guide]]+[[university:tools:m1k:alice:desk-top-users-guide|ALICE Oscilloscope User's Guide]]\\ 
 +[[university:courses:alm1k:intro:oscilloscope-terminology|Oscilloscope Terminology]]
  
-**Return to Lab Activity [[university:courses:alm1k:alm_circuits_lab_outline|Table of Contents]]**+**Return to [[university:labs:intro_ee|Introduction to Electrical Engineering]] Lab Activity Table of Contents**\\ 
 +**Return to [[university:courses:alm1k:alm_circuits_lab_outline|Circuits]] Lab Activity Table of Contents**
  
university/courses/alm1k/circuits1/alm-cir-6.1523470000.txt.gz · Last modified: 11 Apr 2018 20:06 by Doug Mercer

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