Low impedance regulator for a battery with reverse overcharge protection
First Claim
1. A power supply comprising:
- means for receiving a plurality of AC pulses and controllably converting said pulses to a DC output;
a back-up battery;
a switch-over regulating circuit connecting said battery to said DC output, said switch-over regulating circuit having a first FET and a second FET connected in series between said battery and said DC output such that their internal drain-to-source diodes are connected in opposite current conducting directions; and
an error amplifier for monitoring said DC output and providing, at its output, an error signal to said receiving and converting means and said switch-over regulating circuit;
whereby said first FET and said second FET are connected in series with their internal drain-to-source diodes in opposite current conducting directions to prevent said battery from being overcharged by current from said DC output through said diodes.
1 Assignment
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Accused Products
Abstract
An overcharging of a back-up battery through a protection diode of a first power regulating FET is prevented by adding a second power regulating FET that is equivalent to the first FET and the second FET has its source and drain connections reversed. By connecting and operating the second FET in a reverse direction from the first FET, the forward current direction of the protection diode of the second FET is opposite to the forward current direction of the protection diode of the first FET. Thus, the power regulator will always have one of the protection diodes reverse biased, thereby preventing reverse overcharging through the diodes. A power regulator using two such power FETs in series to prevent reverse overcharge current has a lower ON impedance than only one power FET that is in series with a blocking diode, and thereby provides more usable voltage and current for back-up situations.
29 Citations
16 Claims
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1. A power supply comprising:
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means for receiving a plurality of AC pulses and controllably converting said pulses to a DC output; a back-up battery; a switch-over regulating circuit connecting said battery to said DC output, said switch-over regulating circuit having a first FET and a second FET connected in series between said battery and said DC output such that their internal drain-to-source diodes are connected in opposite current conducting directions; and an error amplifier for monitoring said DC output and providing, at its output, an error signal to said receiving and converting means and said switch-over regulating circuit; whereby said first FET and said second FET are connected in series with their internal drain-to-source diodes in opposite current conducting directions to prevent said battery from being overcharged by current from said DC output through said diodes. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14)
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15. A power supply comprising:
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means for receiving a plurality of AC pulses and controllably converting said pulses to a pulsating DC output; a filter for filtering said pulsating DC output to a smooth DC output; a back-up battery; a switch-over regulating circuit connecting said battery to said DC output; an error amplifier for monitoring said DC output and providing, at its output, an error signal to said receiving and converting means and said switch-over regulating circuit; wherein said switch-over regulating circuit includes first and second FETs connected in series drain-to-drain for connecting said battery to said DC output and regulating the voltage of that output, and a bipolar transistor connected between the control electrodes of said first and second FETs and said output of said error amplifier, said control electrode of said first and second FETs being connected to a first reference potential terminal, and the control electrode of said bipolar transistor being connected to a second reference potential terminal. - View Dependent Claims (16)
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Specification