| 11. | In this case, the voltage divider R1-R2 compensates the voltage variations to some extent.
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| 12. | The two resistors R C2 and R E form another voltage divider that determines the high threshold.
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| 13. | The conventional voltage divider ( Kelvin divider ) uses a tapped string of resistors connected in series.
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| 14. | In a Colpitts VFO, the voltage divider contains the variable capacitor ( either C1 or C2 ).
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| 15. | Now, the two resistors R C1 and R E form a voltage divider that determines the low threshold.
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| 16. | The R 1-R 2 voltage divider conveys this change to the Q2 base voltage and it begins conducting.
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| 17. | The two resistors R 1 and R 2 act only as a " pure " attenuator ( voltage divider ).
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| 18. | These parasitic capacitances act as voltage dividers with the circuit's storage capacitors reducing the output voltage still further.
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| 19. | Capacitors C1 and C2 form a voltage divider that determines the amount of feedback voltage applied to the transistor input.
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| 20. | The standard voltage divider circuit discussed above faces a drawback � AC feedback caused by resistor R E reduces the gain.
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