The feedback circuit (450) provides feedback to vary an input impedance of an amplifier including the amplifier circuit and the feedback circuit.
An apparatus for controlling the voltage applied to a shield interposed between a induction coil powered by a power supply via a matching network, and the plasma it generates, comprises a shield, a first feedback circuit, and a second feedback circuit.
An input impedance to the amplifier circuit has a same impedance characteristic as a feedback circuit impedance of the feedback circuit.
The first feedback is a high frequency loop feedback (40) and the second is a low frequency feedback circuit (50).
The output stage is a feedback circuit where the first rounding block (U1) is coupled with the second rounding block (U2) and the second rounding block is coupled with the feedback circuit.
Alternatively, the feedback circuit (450) may always be enabled to provide feedback.
The feedback circuit receives the switcher output signal and provides a feedback signal.
A feedback circuit is coupled to the amplifier circuit and includes a capacitor.
A feedback circuit (208), including a capacitor, is coupled to the amplifier circuit.
The device further includes feedback circuitry electrically coupled to the conductive circuitry.
The circuit also includes a feedback circuit coupled to the charge pump array.
The feedback circuit supplies a feedback signal onto the first dynamic-flop of the chain.
The resonance means comprises an electrical feedback circuit.
The feedback circuit (450) may be programmable and may be enabled to provide feedback or disabled to provide no feedback.
In a sigma-delta modulator the feedback circuit (4, 5) has an adjustable feedback factor controlled by an adjusting member (6) for adjusting the feedback factor of the feedback circuit.
The circuit can include an instrumentation amplifier electrically coupled with a first feedback circuit including at least one resistor and a second feedback circuit including an op-amp.
A feedback circuit is coupled to receive the combined, third output through a global feedback loop.
A feedback signal corresponding to a state of the switch (68) is generated by a feedback circuit (70).
A feedback circuit is configured generates the feedback signal responsive to the current sense signal.
The feedback circuit is provided with a delay device, a waveform matching circuit, and a weighting circuit.
Requêtes fréquentes français :1-200, -1k, -2k, -3k, -4k, -5k, -7k, -10k, -20k, -40k, -100k, -200k, -500k, -1000k,
Requêtes fréquentes anglais :1-200, -1k, -2k, -3k, -4k, -5k, -7k, -10k, -20k, -40k, -100k, -200k, -500k, -1000k,
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