Intrinsically safe battery circuit
First Claim
1. An overload protection circuit for limiting the amount of power delivered from a power source to a load, said protection circuit comprising:
- input terminals;
output terminals;
power controlling means coupling said input terminals to said output terminals for controlling the amount of power delivered to said output terminals; and
load sensing means for sensing the presence of a load at said output terminals and for directing said power controlling means to deliver power to said output terminals only when a load is present, said load sensing means preventing said power controlling means from consuming power from said input terminals except when a load is present.
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Accused Products
Abstract
An overload protection circuit is disclosed which limits the current supplied by a battery to a load. The circuit is particularly adapted for use in portable radio applications which must meet rigorous specifications of intrinsically safe equipment for use in hazardous environments. Load sensor 20 continuously monitors for the presence of load to enable power switch 16 via switch control 22. Current trip circuit 24 monitors the voltage developed across current sensor 18 to provide a disable signal to switch control 22 in the event of an overload condition. Current limit circuit 26 limits the drive signal to power switch 16. Voltage trip circuit 28 prevents overdissipation of the power switch device. Thus, intrinsically safe battery circuit 30 provides protection such that hazardous gases will not be ignited by sparks or thermal heating during overload conditions.
50 Citations
13 Claims
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1. An overload protection circuit for limiting the amount of power delivered from a power source to a load, said protection circuit comprising:
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input terminals; output terminals; power controlling means coupling said input terminals to said output terminals for controlling the amount of power delivered to said output terminals; and load sensing means for sensing the presence of a load at said output terminals and for directing said power controlling means to deliver power to said output terminals only when a load is present, said load sensing means preventing said power controlling means from consuming power from said input terminals except when a load is present. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12)
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13. The method of protecting portable battery-operated equipment against sparking and thermal ignition in a hazardous atmosphere environment, comprising the steps of:
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sensing when the portable equipment is switched on, thereby applying battery power to the portable equipment; continuously limiting the current delivered by the battery to the portable equipment to a predetermined value; interrupting the current delivered by the battery to the portable equipment if the current exceeds a predetermined value; and sensing when the portable equipment is swiched off, thereby removing battery power from the portable equipment such that negligible current is drawn from the battery when the portable equipment is switched off.
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Specification
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- Resources
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Current AssigneeMotorola, Inc. (Motorola Solutions, Inc.)
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Original AssigneeMotorola, Inc. (Motorola Solutions, Inc.)
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InventorsMills, David R., Mukli, Glenn A., Frew, Paul C.
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Primary Examiner(s)Pellinen, A. D.
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Assistant Examiner(s)Gaffin, Jeffery A.
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Application NumberUS06/687,666Time in Patent Office750 DaysField of Search361/91, 361/93, 361/100, 361/101, 307/131, 307/140, 323/275-277, 323/279US Class Current361/101CPC Class CodesH02H 9/008 Intrinsically safe circuits
