Intrinsically safe communication systems
First Claim
1. A method of accomplishing intrinsically safe communications comprising:
- establishing a flow of current in a circuit between a power supply located in a safe area and an amplifier located in a hazardous area;
limiting the amount of power that can be available in the portion of the circuit located in the hazardous area to below 625 milliwatts at less than 25 volts;
generating telephonic communication signals at intrinsically safe power levels in said hazardous area in response to audio frequency acoustic compression waves;
modulating the flow of current through said amplifier in response to said telephonic communication signals;
demodulating said telephonic communication signals from said flow of current in the safe area; and
amplifying said demodulated signals in said safe area.
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Accused Products
Abstract
The invention is a communications and tone control system for use between safe and hazardous areas. The invention'"'"'s field terminals operate in hazardous areas and are limited to low, intrinsically safe power levels by the use of zener barriers and current limiting resistors. The limited D.C. electrical power supplied to the field terminal'"'"'s amplifier is modulated by field initiated communication and control signals. The resulting duplex transmission allows a strong information carrying signal and amplifier power to pass through a single twisted pair at intrinsically safe power levels. All field stations are connected in parallel to a central control system in a safe area allowing the communication system to operate redundantly. The field stations can be selectably connected to a plurality of output devices by tone controlled switching circuits.
19 Citations
6 Claims
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1. A method of accomplishing intrinsically safe communications comprising:
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establishing a flow of current in a circuit between a power supply located in a safe area and an amplifier located in a hazardous area; limiting the amount of power that can be available in the portion of the circuit located in the hazardous area to below 625 milliwatts at less than 25 volts; generating telephonic communication signals at intrinsically safe power levels in said hazardous area in response to audio frequency acoustic compression waves; modulating the flow of current through said amplifier in response to said telephonic communication signals; demodulating said telephonic communication signals from said flow of current in the safe area; and amplifying said demodulated signals in said safe area.
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2. A communications device for communicating between a hazardous area and a safe area comprising:
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an amplifier located in the hazardous area; a power supply and demodulator located in the safe area; power limiting means located between and electrically connected to said amplifier and said power supply and demodulator for providing a flow of current between said amplifier and said demodulator while limiting the flow of current in said hazardous area to an intrinsically safe level; a dynamic microphone in said hazardous area capable of generating intrinsically safe telephonic output signals in response to audio frequency acoustic compression waves, said microphone being electrically connnected to said amplifier so the microphone'"'"'s telephonic output signals modulate the current passing through the amplifier; and a second amplifier responsive to said demodulator in said safe area that amplifies the signal to provide an amplified audio frequency output demodulated signal. - View Dependent Claims (3, 4, 5, 6)
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Specification