Single ended class d amplifier
First Claim
1. A class D amplifier circuit for amplifying an RF input signal, comprising in combination:
- a. an on-off switching circuit responsive to said RF input such that said switching circuit alternatively switches to produce high and low conductivity states between two terminals of said switching circuit;
b. a harmonic circuit; and
c. an RF circuit, wherein;
d. said switching circuit, harmonic circuit and RF circuit are series coupled to the positive and negative terminals of a DC power supply to form a Class D amplifier for producing an output signal having a frequency equal to the fundamental frequency of said input signal and an amplitude substantially proportional to the duty cycle of said input signal, said harmonic circuit storing energy when said switching circuit is in the high conductivity state and returning said stored energy to said power supply during the low conductivity state of said switching circuit.
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Accused Products
Abstract
A low level class D amplifier is disclosed. High effeciency is assured by operating the active devices in the switching or class D mode and recovering substantial portions of the power contained in the harmonics generated. The amplifier includes a switching circuit or class D active circuit, a harmonic impedance circuit and an RF circuit serially connected across a power supply for supplying DC power to the amplifier. During the conducting state of the class D active circuit, the harmonic impedance circuit limits the harmonic currents and stores energy as a magnetic field. Substantially all of the stored energy is recovered during the non-conducting portion of the active circuit and returned to the DC power supply. Limiting harmonic currents reduces the dissipation of the active devices. Recovering the stored energy substantially improves the efficiency of the amplifier.
11 Citations
3 Claims
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1. A class D amplifier circuit for amplifying an RF input signal, comprising in combination:
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a. an on-off switching circuit responsive to said RF input such that said switching circuit alternatively switches to produce high and low conductivity states between two terminals of said switching circuit; b. a harmonic circuit; and c. an RF circuit, wherein; d. said switching circuit, harmonic circuit and RF circuit are series coupled to the positive and negative terminals of a DC power supply to form a Class D amplifier for producing an output signal having a frequency equal to the fundamental frequency of said input signal and an amplitude substantially proportional to the duty cycle of said input signal, said harmonic circuit storing energy when said switching circuit is in the high conductivity state and returning said stored energy to said power supply during the low conductivity state of said switching circuit. - View Dependent Claims (2, 3)
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Specification