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lab05_en:inverting_op-amp_basics_amplification [2026/04/01 17:09] – [Investigation of inverting input] mexleadminlab05_en:inverting_op-amp_basics_amplification [2026/04/28 16:21] (current) – [Analysis of inverting input currents] mexleadmin
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 +$R_{\rm 2}{\rm~=}$
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-$R_{\rm 2}{\rm~=}$+== Analysis of inverting input currents ==
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 +{{drawio>lab05:Fig-30_inverting_op-amp_inv_input.svg}}
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-== Investigation of inverting input ==+<imgcaption Fig-30_inverting_op-amp_inv_input | Inverting Op-Amp: Analysis of currents of the inverting input> </imgcaption>
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-{{drawio>lab05:Fig-30_inverting_op-amp_inv_input.svg}}+$U_{\rm DD}{\rm~=10~V},~U_{\rm SS}{\rm~=-10~V},~R_{\rm 1}{\rm~=10~k\Omega}$\\ \\ 
 +Use the values from <imgref Fig-20_inverting_op-amp> for $U_{\rm IN},~U_{\rm OUT},~R_{\rm 2}$.
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-<imgcaption Fig-30_inverting_op-amp_inv_input | Inverting Op-Amp: Investigate inverting input> </imgcaption>+\\ 
 +Complete the arrows in the scematic of the circuit.\\ 
 +Determine the the currents $I_{\rm 1}$ and $I_{\rm 2}$ indirectly by measuring the voltage across known resistors\\ 
 +and calculate the algebraic sum of the currents at node $N_{\rm {12}}$ using Kirchhoff’s Current Law (KCL). 
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 +$U_{\rm 2}{\rm~=}$\\ 
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 +$I_{\rm 1}{\rm~=}$ 
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 +$I_{\rm 2}{\rm~=}$ 
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 +$I_{\rm N12}{\rm~=}$ 
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 +== Analysis of inverting input voltages == 
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 +{{drawio>lab05:Fig-40_inverting_op-amp_inv_input_virt_gnd.svg}} 
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 +<imgcaption Fig-40_inverting_op-amp_inv_input_virt_gnd | Inverting Op-Amp: Analysis of virtual GND of the inverting input> </imgcaption>
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 $U_{\rm DD}{\rm~=10~V},~U_{\rm SS}{\rm~=-10~V},~R_{\rm 1}{\rm~=10~k\Omega}$\\ \\ $U_{\rm DD}{\rm~=10~V},~U_{\rm SS}{\rm~=-10~V},~R_{\rm 1}{\rm~=10~k\Omega}$\\ \\
-For  $U_{\rm IN},~U_{\rm OUT},~R_{\rm 2}$  use the values from <imgref Fig-20_inverting_op-amp>.+Use the values from <imgref Fig-20_inverting_op-amp> for $U_{\rm IN},~U_{\rm OUT},~R_{\rm 2}$.
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-Complete the arrows in the scematic of the circuit.\\ +Complete the reference arrows in the scematic of the circuit.\\ 
-Determine the the currents $I_{\rm 1}$ and $I_{\rm 2}$ indirectly through a voltage measurement. +Take the values for $U_{\rm 1},~U_{\rm 2},~U_{\rm OUT}$ from <imgref Fig-30_inverting_op-amp_inv_input>.\\ 
-Calculate the sum of the currents at ${\rmNode_1}$. +Calculate the voltage $U_{12}$ using Kirchhoff's Voltage Law (KVL) within the circuit loop.\\ 
- +Verify your calculated result by measuring $U_{12}$. 
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-- Virt masse messen\\ +\\ 
-r2 kurzschluss+$U_{\rm 1}{\rm~=}$ 
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 +$U_{\rm 2}{\rm~=}$ 
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 +$U_{\rm OUT}{\rm~=}$ 
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 +Calculated $U_{\rm 12}{\rm~=}$ 
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 +Measured $U_{\rm 12}{\rm~=}$ 
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 +Analyse the physical significance of the potential at $N_{12}$ relative to GND (defined as $U_{12}$) in the context of the operational amplifier's input configuration. What do you observe?\
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 +What happens if you short-circuit $R_2$ (the feedback resistor)?\\ 
 +Experimentally verify this effect and explain the observed behavior regarding the output voltage.\\ 
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