Electrical transmission or interconnection systems – Switching systems – Condition responsive
Reexamination Certificate
1999-11-23
2001-09-18
Ballato, Josie (Department: 2836)
Electrical transmission or interconnection systems
Switching systems
Condition responsive
C315S291000, C315S307000, C327S446000
Reexamination Certificate
active
06291909
ABSTRACT:
BACKGROUND OF THE INVENTION
The present invention relates to solid state relays and, more particularly, to solid state relays used in traffic signal light control systems.
Intersecting vehicle thoroughfares often have provided at their intersections standards supporting vehicle traffic control signal lights with one light of each color on each standard visible across the intersection from each of the thoroughfares. These signal lights are typically operated under the control of a control system, including the timing controller and the conflict monitor, housed in a control system cabinet provided in the vicinity of the intersection. The control system and the signal lights are typically operated using alternating current obtained from a commercial electrical power distribution system.
The green, red and yellow signal lights usually used at an intersection, under the direction of the control system, are typically operated to be continuously switched on for selected short time intervals, or are otherwise operated in a switched on-switched off, or flashing, sequence over other selected time intervals. The control system accomplishes such operation of the signal lights through generating signals in the timing controller to close and open load switches that control the supply of alternating currents through a flash transfer relay to the signal lights in those situations in which the signal lights are to be continuously switched on during selected intervals. The flash transfer relay is placed in a first switching state by the conflict monitor during times including those selected intervals that enables the load switches to be effective in selecting those intervals for delivery of alternating current to the lights. In those intervals in which the signal lights are to flash, the conflict monitor directs this condition through the flash transfer relay by changing the relay to another, or second, switching state.
The flash transfer relays provided in typical traffic signal light control systems have traditionally been electromagnetic devices using the presence or the absence of current in a coil to create or end magnetic fields to open or close electrical contacts. These contacts, in the absence of contamination, or other electrical conductivity limiting effects, tend to have very small voltage drops there across during times they are closed and carrying substantial electrical currents therethrough. Thus, they dissipate relatively little electrical power during the carrying of substantial electrical currents therethrough. On the other hand, such contacts suffer from impact recoil so that they rapidly open and close following the first making contact in a switch closing thereby leading to “chattering”, and there are discharges between the contacts as they come close to one another leading to “arcing” which causes corrosion and erosion of those contacts. Such contacts, of course, are already subject to contamination from external sources if they are not in a sealed enclosure. In addition, such behavior often leads to the generation of unwanted electrical noise in the circuits connected thereto and in circuits located nearby.
Because of these deficiencies in electromechanical relays, solid state relays have been developed as substitutes in some situations. Such relays use power semiconductor devices which can operate as switches to switch on and off relatively large currents, and can withstand relatively large voltages thereover when switched off. The use of such semiconductor device switches avoids the presence of any moving parts which can wear out, and avoids the use of contacts which are subject to erosion, corrosion and contamination, and thereby also avoids contact chattering and the undue generation of electrical noise. However, such power semiconductor switches do have a relatively large voltage drop there across even when switched on to conduct current therethrough and, thus, these devices are subject to significant electrical energy dissipation.
The use of a solid state relay for flash transfer relays in traffic signal light control systems of typical design is difficult because of the electrical signals available to operate the flash transfer relay. In typical control systems of the past, electromechanical relays were used which merely need to have an alternating current supply provided to the coil thereof whenever relay contacts therein are to be actuated, and removed therefrom when those relay contacts are to no longer be actuated. Thus, such a selectively provided alternating current supply serves as the operating signal for switching the flash transfer relay between switching states thereof.
In some typical traffic signal light control systems, such signal operation control alternating current is always supplied when the signal lights are to be switched on continuously over selected intervals, and this alternating current is removed when the signal lights are to flash (a “energized”“energized” system). Other typical signal light control systems are operated in the opposite manner with the signal operation control alternating current being supplied only during instances in which the signal lights are to be flashing, and otherwise not provided when the signal lights are to be switched continuously on over selected intervals (an“deenergized” system).
However, in either type of system, in those situations in which the signal operation control alternating current is not being provided to the flash transfer relay, that relay may not be receiving any electrical power which can be continuously used to operate the circuitry therein which controls the selection of the corresponding switching state thereof. Thus, there is a desire for a solid state relay which can operate as a flash transfer relay in a traffic signal light control system of a typical design.
BRIEF SUMMARY OF THE INVENTION
The present invention provides a semiconductor based relay for selectively coupling differing periodic power sources to loads through semiconductor switches provided therein while selectively using such power sources to also contribute to the operation of the relay circuitry, each in a different manner, in conjunction with selection signals. Such selection signals are provided by a control system which is typically a traffic signal light control system that provides these signals to operate controlled switches for use with the relay serving as a flash transfer relay therein, and with the loads being signal lights. No other sources of electrical energization are typically provided to the flash transfer relay in the control system.
Suitable semiconductor switches are triads activated by bilateral switches. Optical isolation between the bilateral switches and the rest of the relay switching controller is provided. The periodic power source outputs are typically converted to constant polarity waveforms in contributing to the operation of the relay circuitry.
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Ballato Josie
HLO, L.L.P.
Kinney & Lange , P.A.
Rios Roberto
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