Multiple-zone intrusion detection system
First Claim
1. A multiple-zone intrusion detection system comprising:
- a central controller;
a plurality of remote zone transponders;
a two-wire communication cable interconnecting said central controller and said plurality of zone transponders;
said central controller including pulse generating means for applying address pulses on said communication cable for supplying power to and sequentially addressing said zone transponders thereby causing each of said zone transponders to transmit an analog signal on said communication cable back to said central controller; and
an analog-to-digital converter at said central controller for converting said analog signal to a digital signal indicative of the status of an addressed zone transponder.
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Accused Products
Abstract
A central controller is connected by a common two-wire communication cable to a plurality of remote zone transponders. Each zone transponder includes a counting means and a resistive network having a detecting sensor therein. The central controller includes pulse generating means for generating control pulses and address pulses, and an analog-to-digital converter means. A gate enabled by the control pulses passes the address pulses onto the communication cable for supplying power to and incrementing the counting means in each of the zone transponders to sequentially render the resistive network in each operable to transmit a responsive current on the communication cable back to the central controller where the disabling of the gate by the absence of a control pulse permits the analog-to-digital converter means to receive the responsive current from the resistive network of each of the zone transponders and convert it into a digital signal indicative of the status of the detecting sensor therein.
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Citations
21 Claims
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1. A multiple-zone intrusion detection system comprising:
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a central controller; a plurality of remote zone transponders; a two-wire communication cable interconnecting said central controller and said plurality of zone transponders; said central controller including pulse generating means for applying address pulses on said communication cable for supplying power to and sequentially addressing said zone transponders thereby causing each of said zone transponders to transmit an analog signal on said communication cable back to said central controller; and an analog-to-digital converter at said central controller for converting said analog signal to a digital signal indicative of the status of an addressed zone transponder.
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2. A multiple-zone intrusion detection system comprising:
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a central controller; a plurality of remote zone transponders; a two-wire communication cable interconnecting said central controller and said plurality of zone transponders; said central controller including a pulse generating means, a power amplifier and a gate; said pulse generating means generating a series of control pulses and a series of address pulses; said power amplifier providing for amplifying said address pulses and passing them onto said communication cable when said gate is enabled by said control pulses to supply power to and sequentially address said zone transponders thereby causing said zone transponders to individually transmit an analog current signal on said communication cable back to said central controller; and an analog-to-digital converter at said central controller for receiving said analog current signal from an addressed zone transponder when said gate is disabled by the absence of a control pulse to convert said analog current signal to a digital signal indicative of the status of said addressed zone transponder. - View Dependent Claims (3)
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4. A multiple-zone intrusion detection system comprising:
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a central controller; a plurality of remote zone transponders; a two-wire communication cable interconnecting said central controller and said plurality of zone transponders; said central controller including a pulse generating means, a low impedance power amplifier, a gate, and a timing capacitor; each said zone transponder including a power capacitor, a counter/decoder and a resistive network including a sensor; said pulse generating means generating control pulses and address pulses, the periods between succession address pulses being defined as polling intervals; said power amplifier providing for amplifying said address pulses and passing them onto said communication cable when said gate is enabled by said control pulses for charging said power capacitors and incrementing said counter/ decoders for sequentially addressing each of said zone transponders to apply the voltage on its power capacitor to its resistive network thereby causing a response current to be transmitted on said communication cable back to said central controller to charge said timing capacitor when said gate is disabled; and means for determining the time required for said response current to charge said timing capacitor to a predetermined voltage level. - View Dependent Claims (5, 6)
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7. A multiple-zone intrusion detection system comprising:
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a central controller; a plurality of remote zone transponders; a two-wire communication cable interconnecting said central controller and said plurality of zone transponders; said central controller including; a pulse generating means for generating control pulses and address pulses, the periods between successive address pulses being defined as polling intervals; a low impedance power amplifier for amplifying said address pulses; a gate; a timing capacitor connected to said cable; a comparator having a positive input connected to said timing capacitor and having a negative input connected to a fixed voltage; a source of timing pulses; a timing counter connected to count said timing pulses; each said zone transponders including; a power capacitor; a counter/decoder; and a resistive network including a detecting sensor; said control pulses controlling said gate to connect said power amplifier to said cable to supply power address pulses thereon to charge said power capacitors and to increment said counter/decoders to thereby sequentially address said zone transponders to cause the voltage on the power capacitor of an addressed zone transponder to energize the resistive network thereof to transmit current on said cable back to said central controller during a polling interval; said control pulses controlling said gate during the first half of each polling interval to connect said power amplifier to said cable to discharge said timing capacitor and to discharge the current from the resistive network, and controlling said gate during the last half of each polling interval to disconnect said power amplifier from said cable to enable current received from said resistive network to charge said timing capacitor and to enable said timing counter to count said timing pulses; said comparator providing for stopping said timing counter when the voltage of the timing capacitor of the positive input of said comparator exceeds the voltage on the negative input thereof to provide a count thereon indicative of the status of the detecting sensor of each said addressed zone transponders. - View Dependent Claims (8, 9, 10, 11, 12, 13, 14, 15, 16, 17)
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18. In a communication system for transmitting information from a plurality of remote locations to a central location over a common communication cable;
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a plurality of zone transponders each connected to said common communication cable at a different one of said remote locations; control means at said central location including pulse generating means for generating a series of control pulses and a series of address pulses for transmission over said communication cable to said remote locations; the time period between the end of each address pulse and the beginning of the following address pulse defining a polling interval; gating means enabled by each control pulse generated by said pulse generating means to apply a separate address pulse on said communication cable for each of said zone transponders to thereby define an individual response polling interval for each zone transponder; each of said zone transponders including a resistive network having a sensor therein and a counter/decoder means responsive to a different number of said address pulses to energize its resistive network to provide a response current signal during a polling interval for transmission over said communication cable to said central location; and receiver circuit means at said central location for receiving said response current signal during a portion of said polling interval when said gating means is not enabled by a control pulse and converting said current signal to a digital signal indicative of the operational status of said zone transponder.
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19. In an intrusion detection system for controlling communication on a single two-wire cable between a central controller and a plurality of remote zone transponders.
a resistive network including a sensor switch and a power capacitor at each of said zone transponders; -
a pulse generator at said central controller for generating control pulses and address pulses; the periods between successive address pulses defining polling intervals; a low impedance power amplifier at said central controller for amplifying the address pulses generated by said pulse generator; a gate at said central controller controlled by said control pulses to pass address pulses provided by said power amplifier on said cable for use in supplying power to said power capacitor and sequentially rendering each of said zone transponders individually operable to cause current to flow during a polling interval through its resistive network onto the cable back to the central controller; a timing capacitor at said central controller connected to said cable; each said control pulse further providing for enabling said gate during the first portion of each polling interval to discharge said timing capacitor into the low impedance of said power amplifier and disabling said gate during the last portion of each polling interval to charge said timing capacitor with current from the resistive network of an operable zone transponder; and means for sensing the time required to charge said timing capacitor to a determined voltage level with current from the resistive network of an addressed zone transponder to thereby provide an indication of the sensor switch therein. - View Dependent Claims (20, 21)
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Specification