just like it sounds
Series resonant circuits have their lowest impedance at the resonant frequency. Parallel resonant circuits have their highest impedance at the resonant frequency. This characteristic is exploited in the design of filters, oscillators and other circuits.
FEEDBACK CIRCUITS. In addition to parallel and series circuits, there are also closed and short circuits.
The types of circuits are series and parallel!
in bedrooms we have parallel circuit.
Because the series resonant circuit has the lowest possible impedance at resonance frequency, thus allowing the AC current to circulate through it. At resonance frequency, XC=XL and XL-XC = 0. Therefore, the only electrical characteristic left in the circuit to oppose current is the internal resistance of the two components. Hence, at resonance frequency, Z = R. Note: This effect is probably better seen with vectors. Clarification: Resonant circuits come in two flavors, series and parallel. Series resonant circuits do have an impedance equal to zero at the resonant frequency. This characteristic makes series resonant circuits especially well suited to be used as basic pass-band filters (acceptors). However, parallel circuits present their maximum impedance at the resonant frequency, which makes them ideal for tuning purposes.
Series resonant circuits have their lowest impedance at the resonant frequency. Parallel resonant circuits have their highest impedance at the resonant frequency. This characteristic is exploited in the design of filters, oscillators and other circuits.
The resonance effect of the LC circuit has many important applications in signal processing and communications systems.The most common application of tank circuits is tuning radio transmitters and receivers. For example, when we tune a radio to a particular station, the LC circuits are set at resonance for that particular carrier frequency.A series resonant circuit provides voltage magnification.A parallel resonant circuit provides current magnification.A parallel resonant circuit can be used as load impedance in output circuits of RF amplifiers. Due to high impedance, the gain of amplifier is maximum at resonant frequency.Both parallel and series resonant circuits are used in induction heating.LC circuits behave as electronic resonators, which are a key component in many applications:AmplifiersOscillatorsFiltersTuners
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FEEDBACK CIRCUITS. In addition to parallel and series circuits, there are also closed and short circuits.
The types of circuits are series and parallel!
parallel is better
The two basic types of circuits are series and parallel circuits.
in bedrooms we have parallel circuit.
Parallel for main circuits and series parallel for lighting circuits.
They are wired in parallel, series and series - parallel.
In electronics DC stands for direct current. There are three types of circuits in this current. They are the closed, open, and series circuits.
The two main types are series and parallel circuits. From these two circuits comes combinations of different series parallel circuits depending on what end results you need.