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The pancake structure was a means to minimize stray capacitance.
These had higher stray capacitance than the pancake type.
Stray capacitance now simply alters the high-frequency potential division obtained.
Nuvistors were very small, reducing stray capacitances and lead inductances.
A large inductor will have a stray capacitance (which creates its self-resonant frequency).
This can unintentionally cause 'stray capacitance' around the p.c.b.
This (often unwanted) effect is termed "stray capacitance".
Atmospheric pressure changes can also introduce deformations to the housing, influencing the frequency by changing stray capacitances.
However, losses through stray capacitance increase with increasing clock frequency and a practical limit is around a few hundred kilohertz.
Stray capacitances to earth from P' 1 and P' 2 are shorted out by the primary of the detector transformer at balance.
Good high-frequency response requires carefully designed and implemented windings without excessive leakage inductance or stray capacitance.
The windings of signal coils minimize leakage inductance and stray capacitance to improve high-frequency response.
Rise time values in a resistive circuit are primarily due to stray capacitance and inductance in the circuit.
At a high enough frequency, the stray capacitance presents a low impedance shunt path for the signal, and the bias tee becomes ineffective.
Also, to minimize the unwanted effects of stray capacitance, it is good practice to locate the sensing electronics as near the sensor electrodes as possible.
Yet another attractive feature is that earthing XX' prevents stray capacitances to earth from interfering with component measurement.
Parallel capacitances add together, and so both the dielectric loss and the stray capacitance loss add up to a net capacitance.
Hence all the stray capacitances (the cable capacitance, the amplifier input capacitance, etc.) are virtually grounded and they have no influence on the output signal.
Capacitance also occurs between the cable's conductors and any nearby conductive objects, including house wiring and damp foundation concrete; this is called "stray capacitance".
The coupling can occur directly between input and output wiring with stray capacitance or mutual inductance between input and output.
The primary source of error in capacitance measurements is stray capacitance, which if not guarded against, may fluctuate between roughly 10 pF and 10 nF.
It is a compromise, balancing the needs for low stray capacitance, low losses in iron and copper, operation without saturation at the required direct current, good linearity, etc.
The stray capacitance can be held relatively constant by shielding the (high impedance) capacitance signal and then connecting the shield to (a low impedance) ground reference.
Stray capacitance and inductance are especially troublesome with respect to stability at high frequencies where capacitive reactance is small and any mutual coupling induces relatively large e.m.f.s.
In large motors, the stray capacitance of the windings provides paths for high frequency currents that pass through the motor shaft ends, leading to a circulating type of bearing current.