RLC circuit Principle The current and voltage of parallel and series-tuned circuits are investigated as a function of frequency. Q-factor and band-width are determined. Tasks Determination of the frequency performance of a - voltage resonance without damping resistor,
- current resonance without damping resistor,
- current resonance with damping resistor.
- Parallel-tuned circuit for
- current resonance without parallel resistor,
- voltage resonance without parallel resistor,
- voltage resonance with parallel resistor.
What you can learn about - Series-tuned circuit
- Parallel-tuned circuit
- Resistance
- Capacitance
- Inductance
- Capacitor
- Coil
- Phase displacement
- Q factor
- Band-width
- Loss resistance
- Damping
Scope of delivery |
PHYWE Digital Function Generator, USB
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13654-99
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1
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Coil, 900 turns
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06512-01
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1
| |
Capacitor 100 nF/250V, G1
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39105-18
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1
| |
Capacitor 470nF/250V, G1
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39105-20
|
1
| |
Resistor 47 Ohm, 1W, G1
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39104-62
|
1
| |
Resistor 100 Ohm, 1W, G1
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39104-63
|
1
| |
Resistor 470 Ohm, 1W, G1
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39104-15
|
1
| |
Connection box
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06000-00
|
1
| |
Connecting cable, 32 A, black, various lengths
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07361-05
|
4
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Connecting cable, 32 A, black, various lengths
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07360-05
|
2
| |
brigde plug
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06027-07
|
1
| |
PHYWE Digital multimeter, 600V AC/DC, 10A AC/DC, 20 MΩ, 200 µF, 20 kHz, −20°C…760°C
|
07122-00
|
1
|
|
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