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lab_electrical_engineering:2_capacitors:periodic-signals-on-scope [2026/03/21 20:56] mexleadminlab_electrical_engineering:2_capacitors:periodic-signals-on-scope [2026/03/21 23:00] (current) mexleadmin
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 {{drawio>lab_electrical_engineering:2_capacitors: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 channels, the time base, and the GND line on the left side of the screen drawings.
  
 <wrap left> <wrap left>
-{{drawio>Fig-7_V2-Sine-1kHz-U-1,8V.svg}}\\+{{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> <imgcaption Fig-7_V2-Sine-1kHz-U-1,8V | Sine, f = 1 kHz, U = 1.8V> </imgcaption>
 </wrap> </wrap>
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 ---- ----
 <wrap left> <wrap left>
-{{drawio>Fig-8_V2-Triangle-4kHz-U-3V.svg}}\\+{{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> <imgcaption FFig-8_V2-Triangle-4kHz-U-3V | Triangle, f = 4 kHz, U = 3 V> </imgcaption>
 </wrap> </wrap>
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 ~~PAGEBREAK~~ ~~CLEARFIX~~ ~~PAGEBREAK~~ ~~CLEARFIX~~
 ---- ----
 +\\ \\ \\ \\ \\ \\ \\ \\ \\ \\ \\ \\
 +
 <wrap left> <wrap left>
-{{drawio>Fig-9_V2-Rectangle-unipolar-2kHz-U-5V.svg}}\\+{{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> <imgcaption Fig-9_V2-Rectangle-unipolar-2kHz-U-5V | Rectangle, unipolar, f = 2 kHz, U = 5 V> </imgcaption>
 </wrap> </wrap>
- 
 Channel 1:  $ \frac{V}{\rm DIV} =  $ \\ \\ Channel 1:  $ \frac{V}{\rm DIV} =  $ \\ \\
 Time basis: $ \frac{T}{\rm DIV} =  $ \\  Time basis: $ \frac{T}{\rm DIV} =  $ \\ 
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 ---- ----
 <wrap left> <wrap left>
-{{drawio>Fig-10_V2-Rectangle-bipolar-5kHz-U-2V.svg}}\\+{{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> <imgcaption Fig-10_V2-Rectangle-bipolar-5kHz-U-2V | Rectangle, bipolar, f = 5 kHz, U = 2 V> </imgcaption>
 </wrap> </wrap>
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 <wrap left> <wrap left>
-{{drawio>Fig-11_V2-Sine-DC-Offset-2,5kHz-U-4V-UDC-2V.svg}}\\+{{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> <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> </wrap>
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 ~~PAGEBREAK~~ ~~CLEARFIX~~ ~~PAGEBREAK~~ ~~CLEARFIX~~
 +----