Apparatus and method for charging a DC battery
First Claim
1. A power factor correcting and voltage regulating apparatus comprising:
- an apparatus input for receiving an AC power supply signal having a frequency and a peak value;
a first low pass filter means having an input connected to the apparatus input for low pass filtering high-frequency current components out of the AC power supply signal received at the apparatus input, the low pass filter means having also an output;
an inductor connected to the output of the low pass filter means;
a rectifying-modulating bridge circuit means for modulating an alternating current flowing through the inductor at a frequency higher than the AC power supply signal, rectifying this alternating current, and delivering a regulated voltage signal having a value equal or greater than the peak value of the AC power supply signal, the bridge circuit means including two rectifying elements connected respectively to two controllable high frequency bidirectional switch elements to form a pair of boost converters, each of the switch elements having a gate for receiving a switch control signal;
a second low pass filter means for low pass filtering alternating voltage components out of the regulated voltage signal, the second low pass filter means having an output for delivering a DC output voltage signal; and
voltage detecting means for detecting the DC output voltage signal, the voltage detecting means having an output for delivering an output signal indicative of the DC output voltage signal; and
a controlling means for controlling the switch elements to regulate the DC output voltage signal at a desired voltage signal by producing a discontinuous current through the inductor at a frequency substantially higher than the frequency of the AC power supply signal, the controlling means including;
a comparing means for comparing the output signal of the voltage detecting means to a reference voltage signal and delivering a signal representative of a difference between the DC output voltage signal and the desired voltage signal; and
a pulse width modulator for producing the switch control signals as a function of the signal delivered by the comparing means.
1 Assignment
0 Petitions
Accused Products
Abstract
The battery charger comprises a power factor correcting and voltage regulating apparatus having an inductor through which current is modulated by a modulator to obtain an efficient regulation and an efficient power factor correction. According to a first embodiment, the modulator comprises two rectifying elements connected to two controllable high frequency bidirectional switch elements. According to a second embodiment, the modulator comprises a rectifying element connected to a controllable high frequency switch. According to a third embodiment, an efficient battery charger is provided. It comprises an inverter including four controllable high frequency bidirectional switch elements connected in a bridge configuration. According to a fourth embodiment, a two-part battery charger is provided. It has an indicator for indicating quality of the coupling between the two parts thereof. According to a fifth embodiment, a two-part battery charger is provided. It has the necessary means for detecting the voltage delivered at the terminals of the battery and using it for controlling its operation.
-
Citations
12 Claims
-
1. A power factor correcting and voltage regulating apparatus comprising:
-
an apparatus input for receiving an AC power supply signal having a frequency and a peak value; a first low pass filter means having an input connected to the apparatus input for low pass filtering high-frequency current components out of the AC power supply signal received at the apparatus input, the low pass filter means having also an output; an inductor connected to the output of the low pass filter means; a rectifying-modulating bridge circuit means for modulating an alternating current flowing through the inductor at a frequency higher than the AC power supply signal, rectifying this alternating current, and delivering a regulated voltage signal having a value equal or greater than the peak value of the AC power supply signal, the bridge circuit means including two rectifying elements connected respectively to two controllable high frequency bidirectional switch elements to form a pair of boost converters, each of the switch elements having a gate for receiving a switch control signal; a second low pass filter means for low pass filtering alternating voltage components out of the regulated voltage signal, the second low pass filter means having an output for delivering a DC output voltage signal; and voltage detecting means for detecting the DC output voltage signal, the voltage detecting means having an output for delivering an output signal indicative of the DC output voltage signal; and a controlling means for controlling the switch elements to regulate the DC output voltage signal at a desired voltage signal by producing a discontinuous current through the inductor at a frequency substantially higher than the frequency of the AC power supply signal, the controlling means including; a comparing means for comparing the output signal of the voltage detecting means to a reference voltage signal and delivering a signal representative of a difference between the DC output voltage signal and the desired voltage signal; and a pulse width modulator for producing the switch control signals as a function of the signal delivered by the comparing means. - View Dependent Claims (2, 3, 4, 5, 6)
-
-
7. A power factor correcting and voltage regulating method comprising steps of:
-
(a) receiving by means of an apparatus input an AC power supply signal having a frequency and a peak value; (b) low pass filtering high-frequency current components out of the AC power supply signal received at the apparatus input by means of a first low pass filter means having an input connected to the apparatus input, and an output; (c) providing an inductor connected to the output of the low pass filter means; (d) modulating an alternating current flowing through the inductor at a frequency higher than the AC power supply signal, and rectifying the alternating current to deliver a regulated voltage signal having a value equal or greater than the peak value of the AC power supply signal by means of a rectifying-modulating bridge circuit means, the bridge circuit means including two rectifying elements connected respectively to two controllable high frequency bidirectional switch elements to form a pair of boost converters, each of the switch elements having a gate for receiving a switch control signal; (e) filtering alternating voltage components out of the regulated voltage signal, and delivering a DC output voltage signal; and (f) controlling the switch elements to produce a discontinuous current through the inductor at a frequency substantially higher than the frequency of the AC power supply signal to regulate the DC output voltage signal at a desired voltage signal, the step (f) further including steps of; (i) detecting the DC output voltage signal delivered from step (e), and delivering an output signal indicative of the DC output voltage signal; (ii) comparing the output signal delivered in step (i) to a reference voltage signal to produce a signal representative of a difference between the DC output voltage signal and the desired voltage signal; and (iii) producing the switch control signals by means of a pulse width modulator as a function of the signal produced from step (ii). - View Dependent Claims (8, 9, 10)
-
-
11. A power factor correcting and voltage regulating apparatus comprising:
-
an apparatus input for receiving an AC power supply signal having a frequency and a peak value; a first low pass filter means for low pass filtering high-frequency current components out of the AC power supply signal received at the apparatus input; rectifying means for rectifying an AC signal delivered from the first low pass filter means, the rectifying means having an output for delivering a rectified voltage signal; an inductor connected in series to the output of the rectifying means; modulating means for modulating a current flowing through the inductor to produce a modulated alternating current through the inductor at a frequency higher than the AC power supply signal and to produce a regulated voltage signal having a value equal or greater than the peak value of the AC power supply signal, the modulating means including a rectifying element connected to a controllable high frequency switch means to form a boost converter, the controllable high frequency switch means having a gate for receiving a switch control signal; a second low pass filter means for low pass filtering alternating voltage components out of the regulated voltage signal, and delivering a DC output voltage signal; and a voltage detecting means for detecting the DC output voltage signal and delivering an output signal indicative of the DC output voltage signal; controlling means for controlling the controllable high frequency switch means to regulate the DC output voltage signal at a desired voltage signal by producing a discontinuous current through the inductor at a frequency substantially higher than the frequency of the AC power supply signal, the controlling means including; a comparing means for comparing the output signal of the voltage detecting means to a reference voltage signal and delivering a signal representative of a difference between the DC output voltage signal and the desired voltage signal; and a pulse width modulator for producing the at least one control signal as a function of the signal delivered by the comparing means.
-
-
12. A power factor correcting and voltage regulating method comprising steps of:
-
(a) receiving by means of an apparatus input an AC power supply signal having a frequency and a peak value; (b) low pass filtering high-frequency current components out of the AC power supply signal received at the apparatus input; (c) rectifying an AC signal delivered from step (b) to produce a rectified voltage signal at an output of a rectifying means; (d) providing an inductor connected in series to the output of the rectifying means; (e) modulating a current flowing through the inductor to produce a modulated alternating current through the inductor at a frequency higher than the AC power supply signal and to produce a regulated voltage signal having a value equal or greater than the peak value of the AC power supply signal by means of a modulating means including a controllable high frequency switch means connected to a rectifying element to form a boost converter, the controllable high frequency switch means having a gate for receiving a switch control signal; (f) low pass filtering alternating voltage components out of the regulated voltage signal, and delivering a DC output voltage signal; and (g) controlling the controllable high frequency switch means to produce a discontinuous current through the inductor at a frequency substantially higher than the frequency of the AC power supply signal to regulate the DC output voltage signal at a desired voltage signal, the step (g) further including steps of; (i) detecting the DC output voltage signal delivered from step (f) and delivering an output signal indicative of the DC output voltage signal; (ii) comparing the output signal delivered in step (i) to a reference voltage signal to produce a signal representative of a difference between the DC output voltage signal and the desired voltage signal; and (iii) producing the control signal by means of a pulse width modulator as a function of the signal produced from step (ii).
-
Specification