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lab_electrical_engineering:2_capacitors:periodic-signals-on-scope [2026/03/21 20:32] – ↷ Page moved and renamed from mexlefirst_intern:display-of-periodic-signals-on-the-oscilloscope to lab_electrical_engineering:2_capacitors:periodic-signals-on-scope mexleadminlab_electrical_engineering:2_capacitors:periodic-signals-on-scope [2026/03/21 23:00] (current) mexleadmin
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 Build the following circuit in <imgref Fig-6_V2-periodic-signals> with the function generator and the oscilloscope. Build the following circuit in <imgref Fig-6_V2-periodic-signals> with the function generator and the oscilloscope.
  
-{{drawio>Fig-6_V2-periodic-signals.svg}}\\+{{drawio>lab_electrical_engineering:2_capacitors:Fig-6_V2-periodic-signals.svg}}\\
 <imgcaption Fig-6_V2-periodic-signals | Periodic signals on the oscilloscope> </imgcaption> <imgcaption Fig-6_V2-periodic-signals | Periodic signals on the oscilloscope> </imgcaption>
 +\\ \\ \\ 
 Set the signals listed in <tabref Table-1-Signals_V2> on the function generator and draw the corresponding oscilloscope screen images. The signal display on the oscilloscope should optimally fill the screen Set the signals listed in <tabref Table-1-Signals_V2> on the function generator and draw the corresponding oscilloscope screen images. The signal display on the oscilloscope should optimally fill the screen
  
-{{drawio>Table-1-Signals_V2.svg}}\\+{{drawio>lab_electrical_engineering:2_capacitors:Table-1-Signals_V2.svg}}
 <tabcaption Table-1-Signals_V2 | Signals> </tabcaption> <tabcaption Table-1-Signals_V2 | Signals> </tabcaption>
 +\\ \\ \\ 
 +Also document the settings of the used channels, the time base, and the GND line on the left side of the screen drawings.
  
-Also document the settings of the used channelsthe time baseand the GND line on the left side of the screen drawings.+<wrap left> 
 +{{drawio>lab_electrical_engineering:2_capacitors:Fig-7_V2-Sine-1kHz-U-1,8V.svg}} 
 +<imgcaption Fig-7_V2-Sine-1kHz-U-1,8V | Sine, f = 1 kHz, U = 1.8V> </imgcaption> 
 +</wrap>
  
-{{drawio>Fig-7_V2-Sine-1kHz-U-1,8V.svg}}\\ +Channel 1:  $ \frac{V}{\rm DIV=  $ \\ \\ 
-<imgcaption Fig-7_V2-Sine-1kHz-U-1,8V | Sine, f = 1kHz, U 1,8V> </imgcaption>+Time basis: $ \frac{T}{\rm DIV}  $ \\ 
  
-Channel 1: $$ \frac{V}{\rm DIV} = $$ +~~PAGEBREAK~~ ~~CLEARFIX~~ 
-\\  +---- 
-Time basis: $$ \frac{T}{\rm DIV} =  $$ +<wrap left> 
-\\ +{{drawio>lab_electrical_engineering:2_capacitors:Fig-8_V2-Triangle-4kHz-U-3V.svg}
 +<imgcaption FFig-8_V2-Triangle-4kHz-U-3V | Triangle, f 4 kHz, U = 3 V> </imgcaption> 
 +</wrap>
  
-{{drawio>Fig-8_V2-Triangle-4kHz-U-3V.svg}}\\ +Channel 1:  $ \frac{V}{\rm DIV=  $ \\ \\ 
-<imgcaption FFig-8_V2-Triangle-4kHz-U-3V | Triangle, f 4kHz, U = 3V> </imgcaption>+Time basis: $ \frac{T}{\rm DIV}  $ \\ 
  
-Channel 1: $$ \frac{V}{\rm DIV} = $$ +~~PAGEBREAK~~ ~~CLEARFIX~~ 
-\\  +---- 
-Time basis: $$ \frac{T}{\rm DIV} =  $$ +\\ \\ \\ \\ \\ \\ \\ \\ \\ \\ \\ \\
-\\ +
  
-{{drawio>Fig-9_V2-Rectangle-unipolar-2kHz-U-5V.svg}}\\ +<wrap left> 
-<imgcaption Fig-9_V2-Rectangle-unipolar-2kHz-U-5V | Rectangle, unipolar, f = 2kHz, U = 5V> </imgcaption>+{{drawio>lab_electrical_engineering:2_capacitors:Fig-9_V2-Rectangle-unipolar-2kHz-U-5V.svg}} 
 +<imgcaption Fig-9_V2-Rectangle-unipolar-2kHz-U-5V | Rectangle, unipolar, f = 2 kHz, U = 5 V> </imgcaption> 
 +</wrap> 
 +Channel 1:  $ \frac{V}{\rm DIV} =  $ \\ \\ 
 +Time basis: $ \frac{T}{\rm DIV} =  $ \\ 
  
-Channel 1: $$ \frac{V}{\rm DIV} = $$ +~~PAGEBREAK~~ ~~CLEARFIX~~ 
-\\  +---- 
-Time basis: $$ \frac{T}{\rm DIV} =  $$ +<wrap left> 
-\\ +{{drawio>lab_electrical_engineering:2_capacitors:Fig-10_V2-Rectangle-bipolar-5kHz-U-2V.svg}
 +<imgcaption Fig-10_V2-Rectangle-bipolar-5kHz-U-2V | Rectangle, bipolar, f 5 kHz, U = 2 V> </imgcaption> 
 +</wrap>
  
-{{drawio>Fig-10_V2-Rectangle-bipolar-5kHz-U-2V.svg}}\\ +Channel 1:  $ \frac{V}{\rm DIV=  $ \\ \\ 
-<imgcaption Fig-10_V2-Rectangle-bipolar-5kHz-U-2V | Rectangle, bipolar, f 5kHz, U = 2V> </imgcaption>+Time basis: $ \frac{T}{\rm DIV}  $ \\ 
  
-Channel 1: $$ \frac{V}{\rm DIV} = $$ +~~PAGEBREAK~~ ~~CLEARFIX~~ 
-\\  +---- 
-Time basis: $$ \frac{T}{\rm DIV} =  $$ +<wrap left> 
-\\ +{{drawio>lab_electrical_engineering:2_capacitors:Fig-11_V2-Sine-DC-Offset-2,5kHz-U-4V-UDC-2V.svg}
 +<imgcaption Fig-11_V2-Sine-DC-Offset-2,5kHz-U-4V-UDC-2V | Sine DC Offset, f 2.5 kHz, U = 4 V, UDC = 2 V> </imgcaption> 
 +</wrap>
  
-{{drawio>Fig-11_V2-Sine-DC-Offset-2,5kHz-U-4V-UDC-2V.svg}}\\ +Channel 1:  $ \frac{V}{\rm DIV=  $ \\ \\ 
-<imgcaption Fig-11_V2-Sine-DC-Offset-2,5kHz-U-4V-UDC-2V | Sine DC Offset, f = 2,5kHz, $U$ = 4V, $U_{\rm DC}2V> </imgcaption>+Time basis: \frac{T}{\rm DIV} =  $ \\ 
  
-Channel 1: $$ \frac{V}{\rm DIV} = $$ +~~PAGEBREAK~~ ~~CLEARFIX~~ 
-\\  +----
-Time basis: $$ \frac{T}{\rm DIV} =  $$ +
-\\ +