RL INTEGRATORS The RL circuit may also be used as an integrating circuit. An integrated waveform may be obtained from the series RL circuit by taking the output across the resistor. The characteristics of the inductor are such that at the first instant of time in which voltage is applied, current flow through the inductor […]
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Wave-Generation and Wave-Shaping
Wave shaping: rl integrators and integrator waveform analysis.
RL INTEGRATORS The RL circuit may also be used as an integrating circuit. An integrated waveform may be obtained from the series RL circuit by taking the output across the resistor. The characteristics of the inductor are such that at the first instant of time in which voltage is applied, current flow through the inductor […]
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Answers to question and summary of wave shaping
SUMMARY This chapter has presented information on wave shaping. The information that follows summarizes the important points of this chapter. A LIMITER is a device which limits or prevents some part of a waveform from exceeding a specified value. In a SERIES LIMITER, the diode is in series with the output. It can limit either […]
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Answers to question and summary of wave shaping
SUMMARY This chapter has presented information on wave shaping. The information that follows summarizes the important points of this chapter. A LIMITER is a device which limits or prevents some part of a waveform from exceeding a specified value. In a SERIES LIMITER, the diode is in series with the output. It can limit either […]
Continue reading…
WAVE SHAPING:DIFFERENTIATORS AND COUNTERS.
DIFFERENTIATORS DIFFERENTIATION is the direct opposite of integration. In the RC integrator, the output is taken from the capacitor. In the differentiator, the output is taken across the resistor. Likewise, this means that when the RL circuit is used as a differentiator, the differentiated output is taken across the inductor. An application of Kirchhoff’s law […]
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WAVE SHAPING:DIFFERENTIATORS AND COUNTERS.
DIFFERENTIATORS DIFFERENTIATION is the direct opposite of integration. In the RC integrator, the output is taken from the capacitor. In the differentiator, the output is taken across the resistor. Likewise, this means that when the RL circuit is used as a differentiator, the differentiated output is taken across the inductor. An application of Kirchhoff’s law […]
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Wave shaping: parallel limiters.
PARALLEL LIMITERS A PARALLEL-LIMITER circuit uses the same diode theory and voltage divider action as series limiters. A resistor and diode are connected in series with the input signal and the output signal is developed across the diode. The output is in parallel with the diode, hence the circuit name, parallel limiter. The parallel limiter […]
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Wave shaping: parallel limiters.
PARALLEL LIMITERS A PARALLEL-LIMITER circuit uses the same diode theory and voltage divider action as series limiters. A resistor and diode are connected in series with the input signal and the output signal is developed across the diode. The output is in parallel with the diode, hence the circuit name, parallel limiter. The parallel limiter […]
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Wave shaping: nonsinusoidal voltages applied to an rc circuit and rc integrators.
Nonsinusoidal Voltages Applied to an RC Circuit The harmonic content of a square wave must be complete to produce a pure square wave. If the harmonics of the square wave are not of the proper phase and amplitude relationships, the square wave will not be pure. The term PURE, as applied to square waves, means […]
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Wave shaping: nonsinusoidal voltages applied to an rc circuit and rc integrators.
Nonsinusoidal Voltages Applied to an RC Circuit The harmonic content of a square wave must be complete to produce a pure square wave. If the harmonics of the square wave are not of the proper phase and amplitude relationships, the square wave will not be pure. The term PURE, as applied to square waves, means […]
Continue reading…