Integral Battery Power Limiting Circuit for Intrinsically Safe Applications

The power-limiting circuit offers a very fast response time with minimal added voltage drop and no signicant extra current drain on the battery. When deployed the technology monitors and clamps the current if it exceeds a predetermined threshold voltage thus shutting down the application. While the current is disabled the circuit periodically sends out a small test current to detect whether the fault has been corrected or removed. Once the fault is resolved the circuit can restore full current to the application (if desired).This unique innovation overcomes the shortcomings of prior methods of creating safety barriers for battery-circuit monitoring. For example a common approach uses a diode or intrinsic safety barrier to protect against reverse polarity as well as a resistor with an inserted fuse. This is problematic because the added voltage drop due to the diode fuse and current-limiting resistor is too great leaving the remaining battery voltage insufcient for most applications.This power-limiting circuit produces a much smaller voltage drop thus sidestepping this problem. In one test case using a 3.6 V lithium battery the added voltage drop in standby mode from the power-limiting circuit was 10 mV compared to roughly 700 mV in more conventional approaches. In addition tests indicate no detectable reduction in battery lifetime using the power-limiting circuit. Where a typical battery might experience a drain of 30 mA the power-limiting circuit would add about 10 µA to that drain which is typically less than the battery’s self-drain. Technology Applications: The circuit technology is primarily useful in battery-powered applications for hazardous environments where a circuit might have to be shut down immediately to avoid a dangerous situation due to a short circuit or other fault. •Transportation of natural gas or other potentially hazardous materials •Offshore rigs and pipelines •Mining applications such as drilling and tunneling •Gasoline pumps and hybrid vehicles •Agriculture uses such as grain elevators •Medical monitoring equipment •Field-based applications for military or other hazardous environments Commercial Opportunity: NASA has applied for a U.S. patent on the Integral Battery Power Limiting Circuit for Intrinsically Safe Applications and is seeking licensees of the technology. NASA has the authority to grant licenses on its domestic and foreign patents and patent applications pursuant to 35 U.S.C. 207-209. NASA has implemented this authority by means of the NASA Patent Licensing Regulations 37 CFR §404. All NASA licenses are individually negotiated with the prospective licensee and each license contains terms concerning commercialization (practical application) license duration royalties and periodic reporting. NASA patent licenses may be exclusive partially exclusive or nonexclusive.