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 <panel type="info" title="Exercise 1.1.1 Microphone amplifier I"> <panel type="info" title="Exercise 1.1.1 Microphone amplifier I">
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-An amplifier circuit shall amplify a microphone signal in such a way that a loudspeaker ($R_{LS}= 8.0 ~\Omega$) can be driven. The [[https://en.wikipedia.org/wiki/Alternating_current#Root_mean_square_voltage|rms value]] of the desired voltage across the loudspeaker shall be $U_{\rm RMS,LS} = 10 ~\rm V$. It is assumed that a sinusoidal signal is to be output. The power is supplied by two voltage sources with $V_{S+} = 15 ~\rm V$ and $V_{S-} = - 15 ~\rm V$. +An amplifier circuit shall amplify a microphone signal so that a loudspeaker ($R_{\rm LS}= 8.0 ~\Omega$) can be driven. The [[https://en.wikipedia.org/wiki/Alternating_current#Root_mean_square_voltage|rms value]] of the desired voltage across the loudspeaker shall be $U_{\rm RMS, LS} = 10 ~\rm V$. It is assumed that a sinusoidal signal is to be output. The power is supplied by two voltage sourceswith $V_{\rm S+} = 15 ~\rm V$ and $V_{\rm S-} = - 15 ~\rm V$. 
-For understanding (especially for tasks 2. and 3.), look at the simulation under the subchapter [[1_amplifier_basics#equivalent_circuit_diagram|equivalent circuit]] in chapter "1. amplifier basics". This example shows a __realistic__ amplifier, but also the idealized current flow can be guessed from this.+For understanding (especially for tasks 2. and 3.), look at the simulation under the subchapter [[1_amplifier_basics#equivalent_circuit_diagram|equivalent circuit]] in chapter "1. amplifier basics". This example shows a realistic amplifier, and the idealized current flow can be guessed from this.
  
-  - Draw a labeled sketch of the circuit with the amplifier as a black box.<WRAP onlyprint> \\ \\ \\ \\ \\ \\ \\ \\ \\ \\ </WRAP> +Draw a labeled sketch of the circuit with the amplifier as a black box.<WRAP onlyprint> \\ \\ \\ \\ \\ \\ \\ \\ \\ \\ </WRAP> 
-  - What power $Pdoes the loudspeaker consume? <WRAP onlyprint> \\ \\ \\ \\ \\ \\ \\ \\ \\ \\ </WRAP> +  - What power (Pdoes the loudspeaker consume? <WRAP onlyprint> \\ \\ \\ \\ \\ \\ \\ \\ \\ \\ </WRAP>  
-  - From this, how can we determine the RMS current $I_{\rm RMS,S}$ of the power supply at which the above-desired voltage $U_{\rm RMS,LS}$ is output at the loudspeaker?  <WRAP onlyprint> \\ \\ \\ \\ \\ \\ \\ \\ \\ \\ \\ \\ \\ \\ </WRAP> +  - From this, how can we determine the RMS current $I_{\rm RMS, S}$ of the power supply at which the above-desired voltage $U_{\rm RMS, LS}$ is output at the loudspeaker?  <WRAP onlyprint> \\ \\ \\ \\ \\ \\ \\ \\ \\ \\ \\ \\ \\ \\ </WRAP> 
-  - Determine from the previous task the maximum current $I_{\rm max,S}$ for which the two power supplies must be designed at least. \\ (Note that for simple amplifiers the output current $I_\rm O$ is always less than or equal to the current $I_\rm S$ of the power supply).<WRAP onlyprint> \\ \\ \\ \\ \\ \\ \\ \\ \\ \\  </WRAP>+  - Determine from the previous task the maximum current $I_{\rm max, S}$ for which the two power supplies must be designed at least. \\ (Note that for simple amplifiersthe output current $I_\rm O$ is always less than or equal to the current $I_\rm S$ of the power supply.<WRAP onlyprint> \\ \\ \\ \\ \\ \\ \\ \\ \\ \\  </WRAP>
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