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USRE37986E1 - Coding system for multiple transmitters and a single receiver - Google Patents

Coding system for multiple transmitters and a single receiver
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USRE37986E1
USRE37986E1US09/504,146US50414600AUSRE37986EUS RE37986 E1USRE37986 E1US RE37986E1US 50414600 AUS50414600 AUS 50414600AUS RE37986 EUSRE37986 EUS RE37986E
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code
memory
stored
processor
transmitter
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US09/504,146
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Carl Heitschel
Colin Willmott
Wayne Schindler
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Chamberlain Group LLC
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Chamberlain Group LLC
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Priority claimed from US06/615,339external-prioritypatent/US4638433A/en
Priority claimed from US06/792,661external-prioritypatent/US4750118A/en
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Abstract

The present invention comprises a system for remote control of garage doors and other devices wherein an extremely large number of codes are available for remote transmitters for operating the garage operator and wherein each transmitter has its own unique and permanent nonuser changeable code. The receiver at the garage door operator is capable of storing and remembering a number of different codes corresponding to different transmitters such that the receiver can be programmed so as to actuated by more than one transmitted code thus allowing two or more transmitters to actuate the same garage door operator and wherein the receiver stores the valid codes for the different transmitters.

Description

CROSS-REFERENCES TO RELATED APPLICATIONS
This application comprises an improvement on application Ser. No. 615,339, filed May 30, 1984, U.S. Pat. No. 4,638,433, in which the inventor is Wayne R. Schindler assigned to the assignee of the present application.This application is a continuation of application Ser. No.08/700,610 filed Aug.12,1996, now U.S. Pat. No. Re.36,703, which is a continuation of application Ser. No.08/425,724 filed Apr.20,1995, now U.S. Pat. No. Re.35,364, Oct.29,1996, which is a continuation of Ser. No.08/087,142, Jul.2,1993, abandoned, which is a continuation of Ser. No.07/715,006, Jun.13,1991, abandoned, which is a continuation of Ser. No.07/398,379, Aug.24,1989, abandoned, which is a reissue application of U.S. Pat. No.4,750,118, which is a continuation-in-part of application Ser. No.06/615,339 filed May30,1984, now U.S. Pat. No.4,638,433.
BACKGROUND OF THE INVENTION
1. Field of the Invention
This invention relates in general to garage door operators and in particular to a novel garage door operator wherein the receiver can be energized by two or more transmitted codes which are stored in the receiver.
2. Description of the Prior Art
Garage door operators of the prior art used transmitters in which the code can be changed by various methods as, for example, by moving two position switches to change the code. Such systems have also used code changing switches in the receiver so that the receivers can be set to correspond to the selected transmitter code.
It has also been known to use fixed frequency transmitters and fixed frequency receivers such that if the transmitted frequency matches the receiver frequency the receiver will respond.
SUMMARY OF THE INVENTION
It is an object of the present invention to provide a plurality of transmitters wherein each transmitter has its own unique and permanent non-user changeable code and wherein the receiver can be placed into a program mode wherein it will receive and store two or more codes corresponding to two different transmitters. The number of codes which can be stored in transmitters can be extremely high as, for example, greater than one million codes. Thus, the invention makes it possible to eliminate the requirements for code selection switches in the transmitters.
In the present invention the decoder module in the receiver will be capable of learning several different transmitted codes which will eliminate code switches in the receiver and also provides for multiple transmitters for actuating the garage opener.
The communication link can be various system such as radio frequency, light, wires, etc.
The invention makes it very easy for the user to operate the system and more secured code systems are available due to the higher number of available codes.
An encoded signal will be utilized wherein a pulse and blank time comprises a sync time base and different link pulses such as 1, 2, 3 or 4 milliseconds can be selected so as to provide different codings. Each datum can be 1, 2, 3 or 4 times the length of the sync pulse. The timing is from the rising edge to rising edges of the pulse and with ten data bits the number of codes can be in excess of one million codes.
In the invention, each transmitter encoder will contain a chip which contains a unique code and the receives will be able to memorize two or more as, for example, five different transmitter codes. This eliminates the need to have coding switches in either the transmitter or receiver. This eliminates the requirement that the user set the code switches so they match since the code switches are eliminated.
In the invention, during an operate mode, a receiver code must match an already programmed code four times in order to operate the garage door. This match is referred to as a valid code. Each valid code can be separated by up to two error codes and still have the output indicated as accurate.
In the program mode a code must be received four times in a row in order to be permanently stored in the receiver. Any error code will reset the valid code counter.
The advantage of the coding scheme are:
1. Higher peak power without exceeding the FCC rules which gives longer transmitter range.
2. Eliminate code switches in the transmitter and receiver making it easier for a customer to install and operate his garage door operator.
3. Customers having more than one transmitter will not have to match codes.
4. More secure codes due to the higher number of combinations which are available. Other objects, features and advantages of the invention will be readily apparent from the following description of certain preferred embodiments thereof, taken in conjunction with the accompanying drawings although variations and modifications may be effected without departing from the spirit and scope of the novel concepts of the disclosure and in which:
BRIEF DESCRIPTION OF THE DRAWINGS
FIG. 1 is a prespective view illustrating a garage door operator;
FIG. 2 illustrates in block form the invention;
FIG. 3 comprises a flow diagram;
FIG. 4 is a continuation of the flow diagram; and
FIG. 5 illustrates the coding scheme.
DESCRIPTION OF THE PREFERRED EMBODIMENTS
FIG. 1 illustrates agarage door operator10 mounted to the ceiling of a garage and connected to operate adoor17.Garage door operator10 has ahead unit11 which is supported from the ceiling which includes a motor which drives a suitable chain to which atrolley13 is attached so that it moves along arail12. Thetrolley13 has arelease cord20 and pivotally carries alever arm14 which is attached to abracket16 mounted to the door so as to raise and open it by pulling it along conventional rails.
Theheader unit11 includes a receiver and operating mechanism and can be actuated from acontrol unit38 which has a operateswitch39.
The garage door operator can also be operated by thetransmitters26 and28 which have operate transmitbuttons27 and29, respectively.
As illustrated in FIG. 2 the garage door operator includes areceiver41 which has asuitable antenna42 for receiving radio frequency transmissions from thetransmitters26 and28 and supplies an input to adecoder43 which provides an output to amicroprocessor unit44. Themicroprocessor unit44 is connected to a garagedoor operator mechanism46 which includes the motor which drives thechain15 to move thedoor17 in a conventional manner. Thecontrol38 is connected to themicroprocessor44. A pair ofswitches22 and23 are mounted on aswitch unit19 connected to theunit11 and also to themicroprocessor44. Theswitch22 is a two position switch that can be moved between the operate and program positions to establish the “operate” and “program” modes. Theswitch23 can be moved to a number of selected positions indicated by the1 through5 so as to allow the particular code of a number of different transmitters to be stored in the receiver so that the receiver will respond to such codes.
In the illustrated embodiment, the receiving unit can respond to up to five different transmitters which have five different transmitting codes. FIG. 5 illustrates the code utilized in which the bit times are nominally 0.5 milliseconds for example. The data times are nominally 1, 2, 3 or 4 milliseconds.
The sync pulse is a unit measure of time. Each datum is measured with respect to the sync pulse and each datum can be 1, 2, 3 or 4 times the length of the sync pulse. The timing is from the rising edge to rising edge of adjacent pulses. Using 10 data bits the number of codes which is available is in excess of one million codes.
In the invention, each transmitter such astransmitters26 and28 will have a unique code which is determined by the encoder chip contained in the transmitter. The receiver unit will be able to memorize and store a number of different codes as, for example, five different transmitter codes which eliminates the need of coding switches in either the transmitter or receiver which are used in the prior art. This also eliminates the requirement that the user match the transmitter and receiver code switches.
When the garage door operator is initially installed, theswitch22 is moved to the program mode and the energizebutton27 of thefirst transmitter26 is depressed so that the unique code of thetransmitter26 is transmitted. This is received by thereceiver41 and decoded by thedecoder43 and supplied to themicroprocessor unit44. Theswitch23 is placed in the first position and with theswitch22 in the program mode the code of thetransmitter26 will be supplied to thememory address storage47 and stored therein. Then if theswitch22 is moved to the operate mode and thetransmitter26 energized by depressing the transmitswitch27, thereceiver41, decoder and themicroprocessor44 will compare the received code with the code of thetransmitter26 stored in the first memory location in thememory address storage47 and since the stored memory address for thetransmitter26 coincides with the transmitted code of thetransmitter26 themicroprocessor44 will energize the garagedoor operation mechanism46 to open or close the door.
In order to store the code of thesecond transmitter28 theswitch22 is moved again to the program mode and theswitch23 to the second position and thetransmitter28 is energized by depressing its transmitswitch29. This causes thereceiver41 anddecoder43 to decode the transmitted signal and supply it to themicroprocessor44 which then supplies the coded signal of thetransmitter28 to thememory address storage47 where it is stored in a second address storage location. Then theswitch22 is moved to the operate position and when either of thetransmitters26 and28 are energized, thereceiver41decoder43 andmicroprocessor44 will energize the garagedoor operation mechanism46 to cause the door to either move up or down depending upon its initial position. Thus, the codes of thetransmitters26 and28 are transmitted and stored in thememory address storage47 during the program mode after which the garage door operation mechanism will respond to either of thetransmitters26 and28. Any desired number of transmitters can be programmed to operate the garage door mechanism as, for example, up to five transmitters can be programmed into thememory address storage47 by using theprogram switch22 and theselector switch23.
This invention eliminates the requirement that binary switches be set in the transmitter or receiver as is done in systems of the prior art to establish a code to which the receiver will respond and the invention also allows a garage door operator to respond to a number of different transmitters because the specific codes of a number of the transmitters is stored and retained in thememory address storage47 of this unit.
FIGS. 3 and 4 comprise the flow chart which describe both the operate and program modes of the invention. Basically, in the operate mode, a received code must match a program which has already been programmed and for four times so as to operate the garage door. This match is referred to as a valid code in the flow chart. Each valid code can be separated by up to two error codes and still have the output actuate. For example, a code of valid-error-error-valid-valid-valid would actuate the door. On the other hand, a code of valid-valid-valid-error-error-error-valid would not actuate the door.
In the program mode a code must be received four times in a row in order to be permanently stored. Any error code will reset the valid code counter.
With reference to the flow diagrams of FIGS. 3 and 4 if it be assumed initially that theswitch22 is in the operate position an incoming signal will be supplied to terminal A in FIG.3 and an output will be supplied to terminal B which indicates that theswitch22 is not in the program mode but in the operate mode Terminal B is illustrated in FIG.4 and the microprocessor compares the incoming code with any codes in the five code locations stored in thememory address storage47. If these codes match then the error counter is cleared and all other valid counters. If the valid counter receives the code four times than then output is supplied to the terminal C which operates the garage door operator. If the valid counter for the code equals less than 4, then the valid code counter is incremented until the valid code counter does equal 4 which actuates the proper output. Relative to FIG. 4 if the input code does not match any of the five stored codes, then the error counter is incremented and when the error counter equals 3 the error counter is cleared and all valid counters are cleared.
If theswitch22 is in the program mode as shown in FIG. 3 when the incoming signal from a transmitter is received, the flow diagram is followed so as to store the new incoming program in the code location pointed to by thecode location pointer23 . It is to be noted that up to five addresses can be stored in the system of the invention.
It is seen that the present invention allows a receiving system to respond to one of a plurality of transmitters which have different unique codes which can be stored in the receiver during a program mode. Each time the “program mode switch”22 is moved to the program position, a different storage area as determined by theswitch23 can be connected so that the new transmitter code would be stored in that address. After all of the address storage capacity have been used additional codes would erase all old codes in the memory address storage before storing a new one.
Although the invention has been described with respect to preferred embodiments, it is not to be so limited as changes and modifications may be made which are within the full intended scope as defined by the appended claims.

Claims (62)

We claim as our invention:
1. A garage door operator for a garage door comprising, a garage door operation mechanism with an output shaft connected to said garage door to open and close it, a radio receiver, a decoder connected to receive the output of said radio receiver, a microprocessor connected to receive the output of said decoder and to said garage door operation mechanism to energize it, a switch moveable between program and operate positions connected to said microprocessor to place said microprocessor in the operate or the program mode, a memory means for storing a plurality of addresses connected to said microprocessor when said switch is in the program position, a memory selection switch connected to said microprocessor, a plurality of radio transmitters with different codes, said memory selection switch setable in a first position at a time when a first one of said radio transmitters is energized so that the code of said first transmitter will be stored in said memory means and said memory selection switch setable in a second position at a time when a second one of said radio transmitters is energized so that the code of said second transmitter will be stored in said memory means, and said microprocessor placed in the operate mode when said switch is in the operate position so that either or both of said first and second radio transmitters when energized cause said microprocessor to energize said garage door operator mechanism.
2. A garage door operator for a garage door according toclaim 1 wherein said first and second radio transmitters when energized radiate coded signals and said microprocessor receives and compares coded signals from said first and second transmitters with coded signals stored in said memory means and said microprocessor produces a garage door operate signal if the received transmitted signal and any one of said coded signals stored in said memory means match.
3. A garage door operator according toclaim 2 wherein said memory selection switch has “n” positions where “n” is an integer and the codes of “n” transmitters can be stored in said memory means when said switch is in the program mode.
4. A garage door operator according toclaim 3 wherein the code stored in said memory means can be changed by placing said switch in the program mode and one of said plurality of transmitters is energized which has a code which differs from the code previously stored in said memory means.
5. A remotely controlled system comprising:
at least one radio frequency transmitter having a non-user changeable code for radio frequency transmitting a radio frequency transmission corresponding to the transmitter;
a radio frequency receiver for being adapted to receive the first-mentioned radio frequency transmission from the first-mentioned radio frequency transmitter and being adapted to receive a second radio frequency transmission from a second radio frequency transmitter having a second non-user changeable code, different from said first non-user changeable code;
a program mode designator for designating a program mode;
a memory comprising a plurality of storage locations;
a processor having a processor controlled code location pointer and responsive to a program mode designation by said program mode designator and the reception by said radio frequency receiver of said first-mentioned radio frequency transmission for storing a first stored code corresponding to the first-mentioned radio frequency transmitter in one of said plurality of storage locations derived from the processor controlled code location pointer, the processor responsive to said program mode designation by said program mode designator and the reception by said receiver of said second radio frequency transmission for storing a second stored code corresponding to the second radio frequency transmitter in another of said plurality of storage locations derived from the processor controlled code location pointer, and the processor responsive to an operate mode and the reception of said first-mentioned radio frequency transmission after the storage of said first stored code for providing an operate output and responsive to said operate mode and to the reception of said second radio frequency transmission after the storage of said first and second stored codes for providing an operate output.
6. A remotely controlled system according toclaim 5 wherein the processor comprises a microprocessor.
7. A remotely controlled system according toclaim 5 wherein said processor controlled code location pointer comprises a software controlled code location pointer.
8. A remotely controlled system according toclaim 7 wherein the processor comprises a microprocessor.
9. A remotely controlled system comprising:
a first radio frequency transmitter having a first non-user changeable code and for radio frequency transmitting a first radio frequency transmission corresponding to the first transmitter;
a second radio frequency transmitter having a second non-user changeable code, different from said first non-user changeable code and for radio frequency transmitting a second radio frequency transmission corresponding to the second transmitter; and
an operator for providing an operate output, said operator comprising:
a radio frequency receiver for receiving said first and said second radio frequency transmissions;
a program mode designator for designating a program mode;
a memory comprising a plurality of storage locations;
a processor having a software controlled code location pointer and responsive to a program mode designation by said program mode designator and the reception by said radio frequency receiver of said first radio frequency transmission for storing a first stored code corresponding to the first radio frequency transmitter in one of said plurality of storage locations derived from the software controlled code location pointer, the processor responsive to said program mode designation by said program mode designator and the reception by said receiver of said second radio frequency transmission for storing a second stored code corresponding to the second radio frequency transmitter in another of said plurality of storage locations derived from the software controlled code location pointer, and the processor responsive to an operate mode and the reception of said first radio frequency transmission after the storage of said first stored code for providing an operate output and responsive to said operate mode and to the reception of said second radio frequency transmission after the storage of said first and said second stored codes for providing an operate output.
10. A remotely controlled system according toclaim 9 wherein the processor comprises a microprocessor.
11. A remotely controlled system comprising, a radio receiver, a decoder connected to receive the output of said radio receiver, a microprocessor connected to receive the output of said decoder and to provide an operate output, a program/operate selector connected to said microprocessor to place said microprocessor in a program mode, memory means for storing a plurality of non-user changeable codes connected to said microprocessor when said program/operate selector is in the program position, a memory selector for selecting respective storage addresses in the memory means, a plurality of radio transmitters with different non-user changeable codes, said memory selector pointing to a first storage address at a time when a first one of said radio transmitters is energized so that the code of said first transmitter will be stored in said memory means in said first address and said memory selector pointing to a second storage address at a time when a second one of said radio transmitters is energized so that the code of said second transmitter will be stored in said memory means in said second address, and said microprocessor placed in the operate mode when said program/operate selector is in the operate position so that either of said first and second radio transmitters when energized cause said microprocessor to provide an operate output.
12. A remotely controlled system according toclaim 11 wherein said first and second radio transmitters when energized radiate coded signals and said microprocessor receives and compares coded signals from said first and second transmitters with coded signals stored in said memory means and said microprocessor produces an operate output if the received transmitted signal and any one of said coded signals stored in said memory means match.
13. A remotely controlled system according toclaim 11 wherein said memory selector has “n” positions where “n” is an integer and the codes of “n” transmitters can be stored in said memory means when said switch is in the program mode.
14. A remotely controlled system according toclaim 11 wherein the code stored in said memory means can be changed by placing said program/operate selector in the program mode and one of said plurality of transmitters is energized which has a code which differs from the code previously stored in said memory means.
15. A remotely controlled system according toclaim 11 wherein the memory selector comprises a software controlled code location pointer identifying a memory address.
16. A remotely controlled system comprising: a radio receiver, a decoder connected to receive the output of said radio receiver, a microprocessor connected to receive the output of said decoder and generate an operate output, a selector for selecting a program state connected to said microprocessor to place said microprocessor in the program mode, a memory for storing a plurality of codes connected to said microprocessor when said selector is in the program state position, a memory selector for selecting respective storage addresses in the memory, a plurality of radio transmitters with different non-user changeable codes, said memory selector being adapted to select a first storage location at a time when a first one of said radio transmitters is energized so that the code of said first transmitter will be stored in said memory in the first location and said memory selector being adapted to select a second storage location at a time when a second one of said radio transmitters is energized so that the code of said second transmitter will be stored in said memory in said second location, and said microprocessor placed in the operate mode when said selector is in the operate state so that either of said first and second radio transmitters, when energized cause said microprocessor to provide the operate output.
17. A remotely controlled system according toclaim 16 wherein the memory selector comprises a software controlled code location pointer identifying a memory address.
18. A remotely controlled system according toclaim 16 wherein said first and second radio transmitters when energized radiate coded signals and said microprocessor receives and compares coded signals from said first and second transmitters with coded signals stored in said memory and said microprocessor provides the operate output if the received transmitted signal and any one of said coded signals stored in said memory match.
19. A remotely controlled system according toclaim 16 wherein said memory selector has “n” states where “n” is an integer and the codes of “n” transmitters can be stored in said memory means when said selector is in the program state.
20. A remotely controlled system according toclaim 16 wherein the code stored in said memory can be changed by placing said selector in the program state and one of said plurality of transmitters is energized which has a code which differs from at least one of the codes previously stored in said memory.
21. A remotely controlled system according toclaim 17 wherein the microprocessor increments the code location pointer to select the memory addresses to store the respective transmitter codes.
22. A remotely controlled system comprising: a plurality of RF transmitters, each of said transmitters having its own different non-user changeable transmitter code and having an RF emitter for transmitting when energized, an RF signal carrying a code from which the transmitter code can be derived; a receiver for receiving said coded RF transmissions; a decoder for deriving a code corresponding to the transmitter code in the energized transmitter; a processor for providing in its operate mode an operate output and for providing in its program mode a derived code for storage; a mode selector connected to said processor for placing said processor in its program mode; a memory having a plurality of addresses for storing a plurality of derived codes under the control of said processor; a memory selector controlled by said processor for identifying respective ones of the memory addresses; said memory selector identifying one of the memory addresses so that the processor, when in its program mode, causes the derived code of one of the transmitters to be stored in said memory at the one memory address, and said memory selector identifying a second memory address so that the processor, when in its program mode, causes the derived code of a second transmitter to be stored in said memory at the second memory address; said processor, when in its operate mode, determining whether the derived code and one of the stored codes correspond, said processor providing an operate output in response to derived code and stored code correspondence.
23. A remotely controlled system in accordance withclaim 22, wherein the processor determines whether the derived code has been previously stored in any of the memory locations and if the derived code is already stored, the processor does not cause the derived code to be stored.
24. A remotely controlled system in accordance withclaim 22, wherein if a derived code is stored in all the available storage locations, the memory selector will select one of the memory addresses to be erased and the processor causes the derived code to be stored in that location.
25. A remotely controlled system in accordance withclaim 22, wherein the processor is prevented from producing the operate output until the processor determines that the derived code corresponds with the stored code a preset plurality of times.
26. A remotely controlled system in accordance withclaim 22, wherein the processor is prevented from storing a derived code until the same derived code is received a preset plurality of times.
27. A remotely controlled system in accordance withclaim 22 wherein the processor comprises a microprocessor.
28. A remotely controlled system comprising: a plurality of RF transmitters, each of said RF transmitters having its own different, non-user changeable transmitter code and having a transmitter for transmitting when energized, an RF signal carrying a code from which the transmitter code can be derived; a receiver for receiving said coded RF transmissions; a decoder for deriving a code corresponding to the transmitter code of the energized transmitter; a processor for providing in its operate mode an operate output; a mode selector connected to said processor for placing said processor in its program mode; an addressable memory having a plurality of addresses controlled by said processor for storing a plurality of derived codes; a software controlled memory selector controlled by said processor for identifying respective ones of the memory addresses; said software controlled memory selector identifying one of the memory addresses so that the processor, when in its program mode, causes the derived code of one of the transmitters to be stored in said addressable memory at the one memory address, and said software controlled memory selector identifying another memory address so that the processor, when in its program mode, causes the code of a second transmitter to be stored in said addressable memory at the memory address; said processor, when in its operate mode, determining whether the derived code corresponds with at least one of the stored codes and when there is correspondence said processor providing an operate output.
29. A remotely controlled system according toclaim 28 wherein the processor comprises a microprocessor.
30. A remotely controlled system for providing an operate output responsive to transmitted codes comprising: a radio receiver, a decoder connected to receive an output of said radio receiver, a processor connected to receive an output of said decoder and provide the operate output, a selector for selecting a program state connected to said processor to place said processor in the program mode, a memory for storing a plurality of codes connected to said processor when said selector is in the program state position, a memory selector for selecting respective storage addresses in the memory, a plurality of radio transmitters with different non-user changeable codes, said memory selector being adapted to select a first storage location at a time when a first one of said radio transmitters is energized so that the code of said first transmitter will be stored in said memory in the first location and said memory selector being adapted to select a second storage location at a time when a second one of said radio transmitters is energized so that the code of said second transmitter will be stored in said memory in said second location, and said processor placed in the operate mode when said selector is in the operate state so that either of said first and second radio transmitters, when energized cause said processor to provide the operate output.
31. A remotely controlled system according toclaim 30 wherein the processor comprises a microprocessor.
32. A remotely controlled system according toclaim 31 wherein the memory selector comprises a software controlled code location pointer identifying a memory address.
33. A remotely controlled system according toclaim 31 wherein said first and second radio transmitters when energized radiate coded signals and said microprocessor receives and compares coded signals from said first and second transmitters with coded signals stored in said memory and said microprocessor provides the operate output if the received transmitted signal and any one of said coded signals stored in said memory match.
34. A remotely controlled system according toclaim 30 wherein said memory selector has “n” states where “n” is an integer and the codes of “n” transmitters can be stored in said memory when said selector is in the program state.
35. A remotely controlled system according toclaim 30 wherein the code stored in said memory can be changed by placing said selector in the program state and one of said plurality of transmitters is energized which has a code which differs from the code previously stored in said memory.
36. A remotely controlled system according toclaim 32 wherein the microprocessor increments the code location pointer to select the memory addresses to store the respective transmitter codes.
37. A system for controlling the operation of equipment comprising:
at least one radio frequency transmitter having a non-user changeable code for transmitting a radio frequency transmission corresponding to the transmitter;
a radio frequency receiver being adapted to receive the first-mentioned radio frequency transmission from the first-mentioned radio frequency transmitter and being adapted to receive a second radio frequency transmission from a second radio frequency transmitter having a second non-user changeable code, different from said first non-user changeable code;
a program mode designator for designating a program mode;
a memory comprising a plurality of storage locations;
a processor having a processor controlled code location pointer and being responsive to a program mode designation by said program mode designator and the reception by said radio frequency receiver of said first-mentioned radio frequency transmission for storing a first stored code corresponding to the first-mentioned radio frequency transmitter in one of said plurality of storage locations derived from the processor controlled code location pointer, the processor responsive to said program mode designation by said program mode designator and the reception by said receiver of said second radio frequency transmission for storing a second stored code corresponding to the second radio frequency transmitter in a storage location derived from the processor controlled code location pointer and where the first stored code is not stored, and the processor responsive to an operate mode and the reception of said first-mentioned radio frequency transmission after the storage of said first stored code for operating the equipment and responsive to said operate mode and to the reception of said second radio frequency transmission after the storage of said first and said second stored codes for operating the equipment.
38. A system for controlling the operation of equipment according toclaim 37 wherein said processor controlled code location pointer comprises a software controlled code location pointer.
39. A system for controlling the operation of equipment comprising:
a first radio frequency transmitter having a first non-user changeable code and for transmitting a first radio frequency transmission corresponding to the first transmitter;
a second radio frequency transmitter having a second non-user changeable code, different from said first non-user changeable code and for transmitting a second radio frequency transmission corresponding to the second transmitter; and
an operator for controlling the operation of the equipment, said operator comprising:
a radio frequency receiver for receiving said first and said second radio frequency transmissions;
a program mode designator for designating a program mode;
a memory comprising a plurality of storage locations;
a processor having a processor controlled code location pointer and being responsive to a program mode designation by said program mode designator and the reception by said radio frequency receiver of said first radio frequency transmission for storing a first stored code corresponding to the code of the first radio frequency transmitter in one of said plurality of storage locations derived from the processor controlled code location pointer, the processor responsive to said program mode designation by said program mode designator and the reception by said receiver of said second radio frequency transmission for storing a second stored code corresponding to the code of the second radio frequency transmitter in a storage location derived from the processor controlled code location pointer and where the first stored code is not stored, and the processor responsive to an operate mode and the reception of said first radio frequency transmission after the storage of said first stored code for controlling the operator and responsive to said operate mode and to the reception of said second radio frequency transmission after the storage of said first and said second stored codes for controlling the operator.
40. A system for controlling the operation of equipment comprising:
a first radio frequency transmitter having a first non-user changeable code and for transmitting a first radio frequency transmission corresponding to the first transmitter;
a second radio frequency transmitter having a second non-user changeable code, different from said first non-user changeable code and for transmitting a second radio frequency transmission corresponding to the second transmitter; and
an operator for controlling the operation of the equipment, said operator comprising:
a radio frequency receiver for receiving said first and said second radio frequency transmissions;
a program mode designator for designating a program mode;
a memory comprising a plurality of storage locations;
a processor having a software controlled code location pointer and being responsive to a program mode designation by said program mode designator and the reception by said radio frequency receiver of said first radio frequency transmission for storing a first stored code corresponding to the code of the first radio frequency transmitter in one of said plurality of storage locations derived from the software controlled code location pointer, the processor responsive to said program mode designation by said program mode designator and the reception by said receiver of said radio frequency transmission for storing a second stored code corresponding to the code of the second radio frequency transmitter in a storage location derived from the software controlled code location pointer and where the first stored code is not stored, and the processor responsive to an operate mode and the reception of said first radio frequency transmission after the storage of said first stored code for controlling the equipment and responsive to said operate mode and to the reception of said second radio frequency transmission after the storage of said first and said second stored codes for controlling the equipment.
41. An operator for controlling operation of equipment comprising, a mechanism connected to said equipment to operate it, a radio receiver, a decoder connected to receive an output of said radio receiver, a microprocessor coupled to receive an output of said decoder and coupled to said mechanism to energize it, a device moveable between operate and program positions to place said microprocessor in the program mode, memory means for storing codes in a plurality of addresses coupled to said microprocessor when said device is in the program position, a memory selector for selecting storage addresses in the memory means, a plurality of radio transmitters with different non-user changeable codes, said memory selector selecting a storage address at a time when a first one of said radio transmitters is energized so that a code corresponding to the code of said first transmitter is be stored in said memory means in said first selected address, and said memory selector selecting a storage address at a time when a second one of said radio transmitters is energized and where the first stored code is not stored so that a code corresponding to the code of said second transmitter will be stored in said memory means at that selected address, and said microprocessor being placed in the operate mode when said device is in the operate position so that either of said first and second radio transmitters when energized cause said microprocessor to energize said mechanism.
42. An operator according toclaim 41 wherein said first and second radio transmitters when energized radiate coded signals, said microprocessor receives and compares coded signals from said first and second transmitters with coded signals stored in said memory means, and said microprocessor produces a controller operate signal if the received transmitted signal and any one of said coded signals stored in said memory means correspond.
43. An operator according toclaim 41 wherein said memory selector has “n” positions where “n” is an integer and the codes corresponding to the codes of “n” transmitters can be stored in said memory means when said device is in the program mode.
44. An operator according toclaim 41 wherein the code corresponding to the code of a transmitter is only stored in said memory means by placing said microprocessor in the program mode, and one of said plurality of transmitters is energized which has a code which differs from the code of a transmitter previously stored in said memory means.
45. An operator according toclaim 41 wherein the memory selector comprises a software controlled code location pointer identifying a memory address.
46. An operator for controlling operation of equipment comprising: a radio receiver, a decoder connected to receive the output of said radio receiver, a microprocessor connected to receive the output of said decoder and coupled to said equipment to energize it, a device coupled to said microprocessor to place said microprocessor in an operate mode or a program mode, memory means for storing a plurality of addresses coupled to said microprocessor when said microprocessor is in the program mode, memory selection means for selecting a storage address in the memory, a plurality of radio transmitters with different non-user changeable codes, said memory selection means being adapted to select a first storage location at a time when a first one of said radio transmitters is energized so that a code corresponding to the code of said first transmitter will be stored in said memory means in the first location, and said memory selection means being adapted to select a storage location when a second one of said radio transmitters is energized, and where the corresponding code of said one transmitter is not stored so that the code corresponding to the code of said second transmitter will be stored in said memory means in that location, and when said microprocessor is placed in the operate mode either of said first and second radio transmitters, when energized cause said microprocessor to energize said equipment.
47. An operator according toclaim 46 wherein the memory selection means comprises a software controlled code location pointer identifying a memory address.
48. An operator according toclaim 46 wherein said first and second radio transmitters when energized radiate coded signals corresponding to the codes in said transmitters, said microprocessor receives and compares coded signals from said first and second transmitters with the coded signals stored in said memory means, and said microprocessor produces an operate signal if the codes in the received transmitted signal and any one of said coded signals stored in said memory means correspond.
49. An operator according toclaim 47 wherein said memory selection means has “n” states where “n” is an integer, and the codes corresponding to the codes of “n” transmitters can be stored in said memory means when said microprocessor is in the program mode.
50. An operator according toclaim 47 wherein the code corresponding to the code of a transmitter is only stored in said memory means by placing said microprocessor in the program mode, and one of said plurality of transmitters is energized which has a code which differs from the code of a transmitter previously stored in said memory means.
51. An operator according toclaim 47 wherein the microprocessor increments the code location pointer to select the memory addresses to store the respective transmitter codes.
52. A system for controlling access to an area comprising: a plurality of RF transmitters, each of said transmitters having its own different non-user changeable transmitter code and having means for transmitting when energized an RF signal carrying a code from which the transmitter code can be derived; a receiver for receiving said coded RF transmissions; a decoder for deriving a code corresponding to the transmitter code in the energized transmitter; processor means for providing in its operate mode an operating signal to grant access to said area and for providing in its program mode a derived code for storage; a device moveable between an operate position and a program position for respectively placing said processor means in its operate mode and program mode; memory means having a plurality of addresses for storing a plurality of codes corresponding to the derived codes under the control of said processor means; a memory address selector controlled by said processor means to identify memory addresses; said memory selector identifying one of the memory addresses so that the processor means, when in its program mode, causes a code corresponding to the derived code of one of the transmitters to be stored in said memory means at the one memory address, and said memory selector identifying a memory address where the corresponding code of the one transmitter is not stored so that the processor means, when in its program mode, causes a code corresponding to the derived code of a second transmitter to be stored in said memory means at that identified memory address; said processor means, when in its operate mode, determining whether the derived code and one of the stored codes correspond, said processor means providing an operating signal to grant access to the area upon correspondence.
53. A system in accordance withclaim 52, wherein the processor means determines whether the corresponding derived code has been previously stored in any of the memory addresses and if the corresponding derived code is already stored, the processor means does not cause the corresponding derived code to be stored.
54. A system in accordance withclaim 52, wherein corresponding derived codes have been stored in all the available storage addresses, the memory selector will select one of such already written storage addresses and the processor means causes the most recently received corresponding derived code to be stored in that address.
55. A system in accordance withclaim 52, wherein means are provided to prevent the processor means from granting access until the processor means determines that the derived code corresponds with the stored code a preset plurality of times.
56. A system in accordance withclaim 52, wherein means are provided to prevent the processor means from storing a corresponding derived code until the same derived code is received a preset plurality of times.
57. A system for granting access to an area comprising: a plurality of RF transmitters, each of said RF transmitters having its own different, non-user changeable transmitter code and having a transmitter for transmitting when energized, an RF signal carrying a code from which the transmitter code can be derived; a receiver for receiving said coded RF transmissions; a decoder for deriving a code corresponding to the transmitter code of the energized transmitter; a processor for providing in its operate mode an operating signal to a mechanism to energize it; a mode selector for placing said processor in its program mode; an addressable memory having a plurality of addresses for storing a plurality of derived codes; a software controlled memory selector controlled by said processor for identifying respective ones of the memory addresses; said software controlled memory selector identifying one of the memory addresses so that the processor, when in its program mode, causes a code corresponding to the derived code of one of the transmitters to be stored in said addressable memory at the one memory address, and said software controlled memory selector identifying another memory address so that the processor, when in its program mode, causes the derived code of a second transmitter to be stored in said addressable memory at the other memory address; said processor, when in its operate mode, determining whether the derived code corresponds with at least one of the stored derived codes and when there is correspondence said processor providing an operating signal to grant access to the area.
58. A system according toclaim 37 wherein the processor comprises a microprocessor.
59. A system according toclaim 39 wherein the processor comprises a microprocessor.
60. A system according toclaim 40 wherein the processor comprises a microprocessor.
61. A system according toclaim 52 wherein said processor means comprises a microprocessor.
62. A system according toclaim 57 wherein the processor comprises a microprocessor.
US09/504,1461984-05-302000-02-15Coding system for multiple transmitters and a single receiverExpired - LifetimeUSRE37986E1 (en)

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US09/504,146USRE37986E1 (en)1984-05-302000-02-15Coding system for multiple transmitters and a single receiver

Applications Claiming Priority (8)

Application NumberPriority DateFiling DateTitle
US06/615,339US4638433A (en)1984-05-301984-05-30Microprocessor controlled garage door operator
US06/792,661US4750118A (en)1985-10-291985-10-29Coding system for multiple transmitters and a single receiver for a garage door opener
US39837989A1989-08-241989-08-24
US71500691A1991-06-131991-06-13
US8714293A1993-07-021993-07-02
US08/425,724USRE35364E (en)1985-10-291995-04-20Coding system for multiple transmitters and a single receiver for a garage door opener
US08/700,610USRE36703E (en)1984-05-301996-08-12Coding system for multiple transmitters and a single receiver for a garage door opener
US09/504,146USRE37986E1 (en)1984-05-302000-02-15Coding system for multiple transmitters and a single receiver

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US08/700,610Expired - LifetimeUSRE36703E (en)1984-05-301996-08-12Coding system for multiple transmitters and a single receiver for a garage door opener
US09/504,146Expired - LifetimeUSRE37986E1 (en)1984-05-302000-02-15Coding system for multiple transmitters and a single receiver

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US08/700,610Expired - LifetimeUSRE36703E (en)1984-05-301996-08-12Coding system for multiple transmitters and a single receiver for a garage door opener

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Cited By (27)

* Cited by examiner, † Cited by third party
Publication numberPriority datePublication dateAssigneeTitle
WO2003069880A1 (en)*2002-02-112003-08-21The Chamberlain Group, Inc.Device learning mode method
US20030193448A1 (en)*2002-01-152003-10-16Tsui Philip Y.W.Transmitter for operating rolling code receivers
US20030227407A1 (en)*2002-03-222003-12-11Yuen Henry C.Method and system for reverse universal remote control feature
US20040085185A1 (en)*1996-09-062004-05-06Overhead Door CorporationRemote controlled garage door opening system
US20040100391A1 (en)*2002-11-272004-05-27Lear CorporationProgrammable transmitter and receiver including digital radio frequency memory
US6747590B1 (en)*2001-02-122004-06-08Harold J. WeberAlternate command signal decoding option for a remotely controlled apparatus
US20050026605A1 (en)*2003-07-302005-02-03Lear CorporationUniversal vehicle based garage door opener control system and method
US20050026601A1 (en)*2003-07-302005-02-03Lear CorporationUser-assisted programmable appliance control
US20050026604A1 (en)*2003-07-302005-02-03Christenson Keith A.Programmable interoperable appliance remote control
US20050024230A1 (en)*2003-07-302005-02-03Lear CorporationProgrammable vehicle-based appliance remote control
US20050024184A1 (en)*2003-07-302005-02-03Lear CorporationWireless appliance activation transceiver
US20050104726A1 (en)*2003-11-142005-05-19Chen Wen C.Alerting system using a communication protocol
US20060038656A1 (en)*2001-12-192006-02-23Lear CorporationUniversal garage door operating system and method
US7024819B1 (en)*2002-06-242006-04-11Xceltronix, Inc.Automatic door closing device
US7068181B2 (en)2003-07-302006-06-27Lear CorporationProgrammable appliance remote control
US20060279399A1 (en)*2003-07-302006-12-14Lear CorporationRemote control automatic appliance activation
US7183941B2 (en)2003-07-302007-02-27Lear CorporationBus-based appliance remote control
US7183940B2 (en)2003-07-302007-02-27Lear CorporationRadio relay appliance activation
US20070120641A1 (en)*2004-01-222007-05-31Sommer Antriebs- Und Funktechnik GmbhProgramming device for transmitter/receiver systems for contactlessly actuating doors and gates
US20070194880A1 (en)*2006-02-032007-08-23Fitzgibbon James JProgrammer protection method and apparatus for use with a movable barrier operator
US7280031B1 (en)2004-06-142007-10-09Wayne-Dalton Corp.Barrier operator system with enhanced transmitter storage capacity and related methods of storage and retrieval
US20070236328A1 (en)*2006-04-032007-10-11Lear CorporationAll trinary rolling code generation method and system
US20080169899A1 (en)*2007-01-122008-07-17Lear CorporationVoice programmable and voice activated vehicle-based appliance remote control
US20100170569A1 (en)*2006-06-082010-07-08Weigen ChenAutomatic sensing system in sanitary wares
US20100301999A1 (en)*2009-05-272010-12-02Overhead Door CorporationChannel-switching remote controlled barrier opening system
US8976002B2 (en)*2012-08-232015-03-10Philip Yu Wing TSUIUniversal remote control system
US12254727B2 (en)2021-11-242025-03-18Gmi Holdings, Inc.Multi-channel signaling for a barrier operator system

Families Citing this family (42)

* Cited by examiner, † Cited by third party
Publication numberPriority datePublication dateAssigneeTitle
US5926111A (en)1994-08-291999-07-20D & B Supply, Inc.Pulsed width modulated remote signalling and location identification system for summoning a service industry worker
BR9606663A (en)1995-05-171997-09-16Chamberlain Group Inc Transmitter to send an encrypted signal to control a receiver actuator to receive an encrypted signal from a transmitter and to generate an actuation signal and receiver to receive an encrypted radio frequency signal from a transmitter and to generate an actuation signal
US6690796B1 (en)1995-05-172004-02-10The Chamberlain Group, Inc.Rolling code security system
US6980655B2 (en)2000-01-212005-12-27The Chamberlain Group, Inc.Rolling code security system
US5781143A (en)*1996-02-061998-07-14Rossin; John A.Auto-acquire of transmitter ID by receiver
KR100229823B1 (en)1996-12-211999-11-15윤종용A remote control system with devices recognizing each different remote control signal and a method of controlling the same
US6243000B1 (en)*1998-02-132001-06-05Philip Y. W. TsuiWireless rolling code security system
US6441719B1 (en)*1998-02-132002-08-27Philip Y. W. TsuiRemote signaling device for a rolling code security system
US5990828A (en)1998-06-021999-11-23Lear CorporationDirectional garage door opener transmitter for vehicles
US6275682B1 (en)1998-08-142001-08-14Rf-Link Systems Inc.RF signal transmitting device
US6720861B1 (en)1999-03-122004-04-13Best Access SystemsWireless security control system
US6915146B1 (en)*2000-04-252005-07-05The Chamberlain Group, Inc.Method and apparatus for receiving a plurality of different codes at a plurality of different frequencies
DE10025561A1 (en)2000-05-242001-12-06Siemens Ag Self-sufficient high-frequency transmitter
US6856237B1 (en)2000-06-262005-02-15Doorking, Inc.Method and apparatus for radio frequency security system with automatic learning
DE10032916A1 (en)*2000-07-062002-01-24Bosch Gmbh Robert Method and device for controlling a barrier to a parking space for a vehicle
US20020057542A1 (en)*2000-07-312002-05-16Colling Robert E.Impact activated electronic battery kill switch
US6611205B2 (en)2001-06-082003-08-26Allstar CorporationGate operator safety system
US6847287B1 (en)2001-06-112005-01-25Linear CorporationTransmitter-receiver control system for an actuator and method
AU2002320270B2 (en)2001-07-032008-06-05Clark Davis BoydSelf-powered switch initiation system
JP4727860B2 (en)*2001-08-032011-07-20富士通株式会社 Wireless operation device and program
DE10150128C2 (en)*2001-10-112003-10-02Enocean Gmbh Wireless sensor system
US6726192B2 (en)*2001-12-132004-04-27Lawrence N. DeversWood panel clamping tool
US6832076B2 (en)2002-02-112004-12-14The Chamberlain Group, Inc.Audible diagnostic information apparatus and method
US7107040B2 (en)2002-02-112006-09-12The Chamberlain Group, Inc.Method and apparatus for displaying blocked transmitter information
US7173514B2 (en)*2002-03-152007-02-06Wayne-Dalton Corp.Operator for a movable barrier and method of use
US6963267B2 (en)*2002-03-152005-11-08Wayne-Dalton CorporationOperator for a movable barrier and method of use
FR2837939B1 (en)*2002-03-262004-09-17Somfy METHOD FOR REPROGRAMMING BIDIRECTIONAL OBJECTS
US6903650B2 (en)*2002-05-202005-06-07Wayne-Dalton Corp.Operator with transmitter storage overwrite protection and method of use
US6990317B2 (en)2002-05-282006-01-24Wireless InnovationInterference resistant wireless sensor and control system
CN1276592C (en)*2002-09-302006-09-20苏州宝时得电动工具有限公司Garage door opener
US20040074150A1 (en)2002-10-012004-04-22Joseph WycechStructural reinforcement assembly and a method for structurally reinforcing a member or a portion of an article of manufacture
US7375612B2 (en)2002-10-072008-05-20Wayne-Dalton Corp.Systems and related methods for learning a radio control transmitter to an operator
FR2847060B1 (en)*2002-11-122005-02-11Somfy Sas METHOD OF SECURING THE MODE OF RECORDING A DEVICE PILOTTING AN ELEMENT ENSURING THE SAFETY AND / OR COMFORT OF A BUILDING
US9148409B2 (en)2005-06-302015-09-29The Chamberlain Group, Inc.Method and apparatus to facilitate message transmission and reception using different transmission characteristics
US8422667B2 (en)2005-01-272013-04-16The Chamberlain Group, Inc.Method and apparatus to facilitate transmission of an encrypted rolling code
US12149618B2 (en)2005-01-272024-11-19The Chamberlain Group LlcMethod and apparatus to facilitate transmission of an encrypted rolling code
US7378964B1 (en)*2005-05-042008-05-27Israel AmirVery low power active RFID receiver
GB0600314D0 (en)*2006-01-092006-02-15Locca Tech LtdElectronic access control device
US10652743B2 (en)2017-12-212020-05-12The Chamberlain Group, Inc.Security system for a moveable barrier operator
US11074773B1 (en)2018-06-272021-07-27The Chamberlain Group, Inc.Network-based control of movable barrier operators for autonomous vehicles
CA3107457A1 (en)2018-08-012020-02-06The Chamberlain Group, Inc.Movable barrier operator and transmitter pairing over a network
US10997810B2 (en)2019-05-162021-05-04The Chamberlain Group, Inc.In-vehicle transmitter training

Citations (146)

* Cited by examiner, † Cited by third party
Publication numberPriority datePublication dateAssigneeTitle
US3233239A (en)1961-07-171966-02-01Motorola IncInduction field transmitter
US3337992A (en)1965-12-031967-08-29Clyde A TolsonRemotely controlled closures
US3579240A (en)1968-04-301971-05-18Alliance Mfg CoSelective radio receiver system
US3716865A (en)1971-06-101973-02-13Chamberlain Mfg CorpRadio controlled system for garage door opener
US3732465A (en)1971-09-201973-05-08Walton CElectronic sensing and actuator system
US3893121A (en)1971-09-071975-07-01Arf ProductsRemote control system
US3898582A (en)1971-12-021975-08-05Alliance Mfg CoTransmitter encoder with output for a time period
US3906348A (en)1973-08-201975-09-16Chamberlain Mfg CorpDigital radio control
US3911397A (en)1972-10-241975-10-07Information Identification IncAccess control assembly
GB1423126A (en)1973-11-071976-01-28Bendix CorpAdaptive addressing systems for airbourne data systems
US3936833A (en)1974-06-121976-02-03The Stanley WorksGarage door radio control transmitter assembly
US4037201A (en)1975-11-241977-07-19Chamberlain Manufacturing CorporationDigital radio control
US4064487A (en)1976-11-171977-12-20The Alliance Manufacturing Company, Inc.Receiver and decoder
US4063410A (en)1976-03-011977-12-20Welling Gregory JDigital watch including a signal transmitter
US4066964A (en)1967-01-061978-01-03Rockwell International CorporationCommunication system
US4081747A (en)1976-07-061978-03-28Meyerle George MRemote control for communication apparatus
US4103238A (en)1976-11-261978-07-25The Alliance Manufacturing CompanyTransmitter modulated with three modulation patterns
US4119896A (en)1976-05-281978-10-10The Alliance Manufacturing Company, Inc.Sequencing control circuit
GB1528901A (en)1975-10-201978-10-18Gilmour WRadio signalling systems
US4130738A (en)1976-06-101978-12-19Sandstedt Gary OBidirectional data transfer and storage system
US4141010A (en)1976-04-071979-02-20Multi-Elmac CompanyDigital encoder for door operator
US4148012A (en)1975-09-261979-04-03Greer Hydraulics, Inc.Access control system
DE2746532A1 (en)1977-10-171979-04-19Loewe Opta GmbhRemote control system for radio and TV receivers - uses data and address buses connected to by single chip microcomputer
US4178549A (en)1978-03-271979-12-11National Semiconductor CorporationRecognition of a received signal as being from a particular transmitter
CH614769A5 (en)1975-09-091979-12-14Kernforschungsz KarlsruheHeat-insulation device on a radiator of an ultra-high-vacuum furnace
DE2856337A1 (en)1978-12-271980-07-10Alltronik GmbhFlat key-operated switch - has radial closure piece rotating to operate contact rod in push-button-like insert
US4218681A (en)1978-02-131980-08-19Hormann KgHand-held transmitter for transmitting different signals
US4241540A (en)1979-07-181980-12-30Chamberlain Manufacturing CorporationFolding screw and rail assembly for a garage door opener
US4241870A (en)1978-10-231980-12-30Prince CorporationRemote transmitter and housing
DE2939589A1 (en)1979-09-291981-04-02Loewe Opta Gmbh, 8640 Kronach COMPUTER CONTROLLED MESSAGE DEVICE
US4263536A (en)1978-08-071981-04-21Clopay CorporationControl circuit for a motor-driven door operator
DE2941394A1 (en)1979-10-121981-04-30Adolf Tedsen KG, 2077 TrittauRemote control system for doors etc. - with transmitter and receivers and plug-in encoding and decoding units respectively
US4286262A (en)1975-09-021981-08-25Mallard Manufacturing CorporationElectronic transmitter device
US4291411A (en)1978-05-031981-09-22Robert Bosch GmbhRemote control for radiotelephones
US4303911A (en)1979-07-301981-12-01Hulick Timothy PRemote control digitally encoded electronic switch
US4305060A (en)1979-02-261981-12-08Multi-Elmac CompanyDecoder circuitry for selectively activating loads
US4315249A (en)1979-02-261982-02-09Multi-Elmac CompanyData communication system for activating remote loads
US4322855A (en)1978-01-241982-03-30Sony CorporationRemote control apparatus
US4328540A (en)1979-02-231982-05-04Hitachi, Ltd.Door operation control apparatus
DE3043605A1 (en)1980-11-191982-07-08SWF-Spezialfabrik für Autozubehör Gustav Rau GmbH, 7120 Bietigheim-Bissingen CONTROL CIRCUIT FOR ELECTRICAL ELEMENTS IN MOTOR VEHICLES
US4360801A (en)1980-04-141982-11-23Stanley VemcoHome security and garage door operator system
US4366482A (en)1981-01-231982-12-28Overhead Door CorporationTransmitter with buzzer
US4369481A (en)1980-04-241983-01-18David EarlyElectronic lock
US4380762A (en)1980-01-311983-04-19Gaetano CapassoPolyfunction programmable data receiver
US4384288A (en)1980-12-311983-05-17Walton Charles APortable radio frequency emitting identifier
US4385296A (en)1978-06-141983-05-24Hitachi, Ltd.Remote-controlled automatic control apparatus
US4392133A (en)1979-06-051983-07-05Lundgren Sten TElectronic lock with changeable opening code
US4393342A (en)1980-12-121983-07-12Hitachi, Ltd.Door operation control apparatus
US4395697A (en)1980-08-151983-07-26Environmental Research Institute Of MichiganOff-image detection circuit for an image analyzer
US4404558A (en)1981-04-151983-09-13Anderson YenElectrical control circuit for operating a garage door or similar device
US4405923A (en)1980-01-311983-09-20Hitachi, Ltd.Garage door control system
GB2119548A (en)1982-03-171983-11-16John Robert CarterLocking system
US4417247A (en)1981-10-291983-11-22Minnesota Mining And Manufacturing CompanyCircuitry controlled by coded manual switching for producing a control signal
US4418333A (en)1981-06-081983-11-29Pittway CorporationAppliance control system
US4422071A (en)1980-01-301983-12-20Nira International B.V.Paging receiver
US4426637A (en)1979-02-261984-01-17Multi-Elmac CompanyCombination encoder-decoder integrated circuit device
EP0099762A1 (en)1982-06-041984-02-01Jacques LewinerCoded remote control devices
GB2060228B (en)1979-10-091984-02-29Mastiff Security Syst LtdComputer system
EP0103791A2 (en)1982-09-171984-03-28Siemens AktiengesellschaftCoding method for an electronic key
US4447808A (en)1981-09-181984-05-08Prince CorporationRearview mirror transmitter assembly
US4453269A (en)1982-09-221984-06-05Chamberlain Manufacturing CorporationApparatus for improving the frequency stability of a transmitter oscillator circuit
US4453161A (en)1980-02-151984-06-05Lemelson Jerome HSwitch activating system and method
US4454509A (en)1980-02-271984-06-12Regency Electronics, Inc.Apparatus for addressably controlling remote units
US4464651A (en)1980-04-141984-08-07Stanley VemcoHome security and garage door operator system
US4471408A (en)1982-01-041984-09-11Mcgraw-Edison CompanyPiggyback code switch device
US4471345A (en)1982-03-051984-09-11Sensormatic Electronics CorporationRandomized tag to portal communication system
US4475069A (en)1980-12-121984-10-02Hitachi, Ltd.Door operation control apparatus
US4475481A (en)1981-07-061984-10-09B.I. IncorporatedIdentification system
US4483683A (en)1982-08-061984-11-20Alley Sr Ronald SSki tow signal assembly
US4485382A (en)1982-07-081984-11-27Moore Charles CTuning circuits with bendable U-shaped variable inductor for garage door actuators
US4491774A (en)1983-12-301985-01-01Motorola, Inc.Control system for a radio-controlled door operator
US4496942A (en)1981-03-101985-01-29Hitachi, Ltd.Method and apparatus for door operation remote control
US4498033A (en)1981-08-111985-02-05Hokuyo Automatic Co., Ltd.Automatic door actuator
US4499464A (en)1979-09-211985-02-12Ardac, Inc.Apparatus for remote authorization for dispensing fluids
US4509093A (en)1982-07-091985-04-02Hulsbeck & Furst Gmbh & Co. KgElectronic locking device having key and lock parts interacting via electrical pulses
EP0143309A2 (en)1983-11-251985-06-05Audi AgLocking system for the doors and luggage boot lid of a motor vehicle
US4529980A (en)1982-09-231985-07-16Chamberlain Manufacturing CorporationTransmitter and receiver for controlling the coding in a transmitter and receiver
US4535333A (en)1982-09-231985-08-13Chamberlain Manufacturing CorporationTransmitter and receiver for controlling remote elements
US4534194A (en)1981-03-161985-08-13Kadex, IncorporatedElectronic lock system
US4536747A (en)1982-02-111985-08-20Jensen Garold KComprehensive intruder-environmental hazard detection, control, and action system
US4550311A (en)1982-12-021985-10-29Racal Security LimitedRemote sensing systems
EP0120162A3 (en)1983-03-011985-11-06Lockheed Electronics Company Inc.Electronic identification system
FR2542732B1 (en)1983-03-171985-12-20Elf France MONOALKYLATION OF SALICYLIC ACID
US4573046A (en)1983-11-011986-02-25Universal Photonics, Inc.Watch apparatus and method for a universal electronic locking system
US4574247A (en)1984-05-211986-03-04Multi-Elmac CompanyFM Signal demodulator
US4581606A (en)1982-08-301986-04-08Isotec Industries LimitedCentral monitor for home security system
GB2131992B (en)1982-11-271986-05-21Kiekert Gmbh Co KgCentral locking system for motor vehicle
US4593412A (en)1984-05-211986-06-03Multi-Elmac CompanyIntegrated oscillator antenna for low power, low harmonic radiation
US4602357A (en)1982-02-121986-07-22Ensco Inc.Coded acoustic alarm transmitter/receiver system
US4602246A (en)1982-02-111986-07-22Jensen Garold KIntruder detector apparatus
US4633247A (en)1984-02-291986-12-30Blaupunkt-Werke GmbhRemote control system for selectively activating and inactivating equipment
US4638496A (en)1982-02-111987-01-20Jensen Garold KSecure reliable transmitting and receiving system for transfer of digital data
US4638433A (en)1984-05-301987-01-20Chamberlain Manufacturing CorporationMicroprocessor controlled garage door operator
US4646072A (en)1985-05-061987-02-24Hughes George WLocking means for garage door actuator signal transmitters
US4652860A (en)1982-10-111987-03-24Bayerische Motoren Werke AktiengesellschaftSecurity installation
US4654745A (en)1984-12-241987-03-31Corby Industries, Inc.Electronic access control system for use with conventional switch plates and boxes
US4653565A (en)1985-07-251987-03-31Chamberlain Manufacturing CorporationGarage door opener
DE3625555A1 (en)1985-10-291987-04-30Chamberlain Mfg Corp DEVICE FOR OPERATING GARAGE GATES AND THE LIKE
US4665397A (en)1983-11-011987-05-12Universal Photonics, Inc.Apparatus and method for a universal electronic locking system
US4667397A (en)1985-06-271987-05-26Premium Allied Tool, Inc.Electrical lead wire and terminal splicing machine
US4670739A (en)1984-12-141987-06-02Kelly Jr Lawrence RCommunication system especially useful as an incident location reporting security system
US4709412A (en)1986-08-261987-11-24Xantech CorporationRemote control unit integrator console
US4722625A (en)1985-09-261988-02-02Triune Automated Painting SystemsRemote control device for powered painting system
US4737770A (en)1986-03-101988-04-12Interactive Technologies, Inc.Security system with programmable sensor and user data input transmitters
US4754255A (en)1984-03-121988-06-28Sanders Rudy TUser identifying vehicle control and security device
US4755792A (en)1985-06-131988-07-05Black & Decker Inc.Security control system
US4758835A (en)1985-08-211988-07-19Vdo Adolf Schindling AgSystem for the locking and/or unlocking of a security device
EP0212050A3 (en)1985-06-071988-08-17Audi AgCoding process
US4794622A (en)1985-06-031988-12-27Linear CorporationLow power transmitter frequency stabilization
US4806929A (en)1986-03-311989-02-21Hitachi, Ltd.Remote monitor control system
US4808995A (en)1986-05-021989-02-28Stanley Automatic OpenersAccessory-expandable, radio-controlled, door operator with multiple security levels
US4825200A (en)1987-06-251989-04-25Tandy CorporationReconfigurable remote control transmitter
EP0319781A2 (en)1987-12-051989-06-14Gimbel, Karl-Heinz, Dipl. Ing.Portable transmitter for the electromagnetic transmission of coded pulses, and tuned receiver therefor
US4843337A (en)1987-11-021989-06-27Conn Jr Roy SDriveway safety light
US4847542A (en)1987-10-221989-07-11Multi-Elmac CorporationAutomatic garage door operator with remote load control
US4847601A (en)1988-04-051989-07-11Conti William SRemote transmitter kit
US4853524A (en)1986-07-241989-08-01Stanley Electric Co., Ltd.Optical identification card system
US4855713A (en)1988-10-071989-08-08Interactive Technologies, Inc.Learn mode transmitter
US4864588A (en)1987-02-111989-09-05Hillier Technologies Limited PartnershipRemote control system, components and methods
US4866434A (en)1988-12-221989-09-12Thomson Consumer Electronics, Inc.Multi-brand universal remote control
US4868559A (en)1987-10-021989-09-19Universal Photonix, Inc.Security system employing optical key shape reader
US4872082A (en)1987-09-021989-10-03Stanley ElectronicsDoor operator safety feature requiring constant actuation to close door
US4881148A (en)1987-05-211989-11-14Wickes Manufacturing CompanyRemote control system for door locks
US4890108A (en)1988-09-091989-12-26Clifford Electronics, Inc.Multi-channel remote control transmitter
US4896353A (en)1988-09-231990-01-23Unisys Corp.Apparatus for fast decoding of a non-linear code
US4897652A (en)1987-03-271990-01-30Alcatel CitMethod of coding numbers in binary form
US4912463A (en)1988-08-091990-03-27Princeton Technology CorporationRemote control apparatus
US4912525A (en)1986-09-171990-03-27Universal Photonix, Inc.Apparatus for transmitting optical signals into a protected environment
US4918439A (en)1987-06-231990-04-17Cl 9, Inc.Remote control device
US4932037A (en)1987-02-111990-06-05Hillier Technologies Limited PartnershipRemote control system, components and methods
US4931789A (en)1983-11-011990-06-05Universal Photonix, Inc.Apparatus and method for a universal electronic locking system
US4951029A (en)1988-02-161990-08-21Interactive Technologies, Inc.Micro-programmable security system
US4963876A (en)1989-08-211990-10-16Sanders Rudy TThin programmable remote control transmitter
EP0401673A1 (en)1989-06-031990-12-12Karl-Heinz Dipl. Ing. GimbelReceiver for coded electromagnetic pulses
US4988992A (en)1989-07-271991-01-29The Chamberlain Group, Inc.System for establishing a code and controlling operation of equipment
US4995053A (en)1987-02-111991-02-19Hillier Technologies Limited PartnershipRemote control system, components and methods
US5049867A (en)1988-11-301991-09-17Code-Alarm, Inc.Vehicle security apparatus
US5140171A (en)1990-07-031992-08-18Janasz Christopher G DeVehicle operated remote control access system
US5148159A (en)1989-04-261992-09-15Stanley ElectronicsRemote control system with teach/learn setting of identification code
US5184132A (en)1991-11-061993-02-02Baird William EGarage door opening device
US5220319A (en)1991-06-031993-06-15Motorola, Inc.Adaptable key holder for a remote control transmitter
EP0561361A1 (en)1992-03-171993-09-22Alltronik electronics GmbHMethod of controlling door actuators and device therefor
EP0563517A1 (en)1992-03-311993-10-06Alltronik electronics GmbHCombined push and pull device
US5252966A (en)1987-05-211993-10-12Trw Inc.Transmitter for remote control system for door locks
US5252960A (en)1991-08-261993-10-12Stanley Home AutomationSecure keyless entry system for automatic garage door operator
US5343500A (en)1991-09-031994-08-30At&T Bell LaboratoriesNon-linear encoder and decoder for information transmission through non-linear channels

Family Cites Families (4)

* Cited by examiner, † Cited by third party
Publication numberPriority datePublication dateAssigneeTitle
US29525A (en)*1860-08-07Metallic alloy for journal bearings and boxes
JPS55114771A (en)*1979-02-231980-09-04Hitachi LtdRemote controller for opening*closing door
CH644406A5 (en)*1980-04-031984-07-31Alusuisse MELT FLOW ELECTROLYSIS CELL FOR THE PRODUCTION OF ALUMINUM.
JPS5980872A (en)*1982-10-281984-05-10アイシン精機株式会社Electromagnetic door lock apparatus of automobile

Patent Citations (154)

* Cited by examiner, † Cited by third party
Publication numberPriority datePublication dateAssigneeTitle
US3233239A (en)1961-07-171966-02-01Motorola IncInduction field transmitter
US3337992A (en)1965-12-031967-08-29Clyde A TolsonRemotely controlled closures
US4066964A (en)1967-01-061978-01-03Rockwell International CorporationCommunication system
US3579240A (en)1968-04-301971-05-18Alliance Mfg CoSelective radio receiver system
US3716865A (en)1971-06-101973-02-13Chamberlain Mfg CorpRadio controlled system for garage door opener
US3893121A (en)1971-09-071975-07-01Arf ProductsRemote control system
US3732465A (en)1971-09-201973-05-08Walton CElectronic sensing and actuator system
US3898582A (en)1971-12-021975-08-05Alliance Mfg CoTransmitter encoder with output for a time period
US3911397A (en)1972-10-241975-10-07Information Identification IncAccess control assembly
USRE29525E (en)1973-08-201978-01-24Chamberlain Manufacturing CorporationDigital radio control
US3906348A (en)1973-08-201975-09-16Chamberlain Mfg CorpDigital radio control
GB1423126A (en)1973-11-071976-01-28Bendix CorpAdaptive addressing systems for airbourne data systems
US3936833A (en)1974-06-121976-02-03The Stanley WorksGarage door radio control transmitter assembly
US4286262A (en)1975-09-021981-08-25Mallard Manufacturing CorporationElectronic transmitter device
CH614769A5 (en)1975-09-091979-12-14Kernforschungsz KarlsruheHeat-insulation device on a radiator of an ultra-high-vacuum furnace
US4148012A (en)1975-09-261979-04-03Greer Hydraulics, Inc.Access control system
GB1528901A (en)1975-10-201978-10-18Gilmour WRadio signalling systems
US4037201A (en)1975-11-241977-07-19Chamberlain Manufacturing CorporationDigital radio control
US4063410A (en)1976-03-011977-12-20Welling Gregory JDigital watch including a signal transmitter
US4141010A (en)1976-04-071979-02-20Multi-Elmac CompanyDigital encoder for door operator
US4119896A (en)1976-05-281978-10-10The Alliance Manufacturing Company, Inc.Sequencing control circuit
US4130738A (en)1976-06-101978-12-19Sandstedt Gary OBidirectional data transfer and storage system
US4081747A (en)1976-07-061978-03-28Meyerle George MRemote control for communication apparatus
US4064487A (en)1976-11-171977-12-20The Alliance Manufacturing Company, Inc.Receiver and decoder
US4103238A (en)1976-11-261978-07-25The Alliance Manufacturing CompanyTransmitter modulated with three modulation patterns
DE2746532A1 (en)1977-10-171979-04-19Loewe Opta GmbhRemote control system for radio and TV receivers - uses data and address buses connected to by single chip microcomputer
US4322855A (en)1978-01-241982-03-30Sony CorporationRemote control apparatus
US4218681A (en)1978-02-131980-08-19Hormann KgHand-held transmitter for transmitting different signals
US4178549A (en)1978-03-271979-12-11National Semiconductor CorporationRecognition of a received signal as being from a particular transmitter
US4291411A (en)1978-05-031981-09-22Robert Bosch GmbhRemote control for radiotelephones
US4385296A (en)1978-06-141983-05-24Hitachi, Ltd.Remote-controlled automatic control apparatus
US4263536A (en)1978-08-071981-04-21Clopay CorporationControl circuit for a motor-driven door operator
US4241870A (en)1978-10-231980-12-30Prince CorporationRemote transmitter and housing
DE2856337A1 (en)1978-12-271980-07-10Alltronik GmbhFlat key-operated switch - has radial closure piece rotating to operate contact rod in push-button-like insert
US4328540A (en)1979-02-231982-05-04Hitachi, Ltd.Door operation control apparatus
US4305060A (en)1979-02-261981-12-08Multi-Elmac CompanyDecoder circuitry for selectively activating loads
US4315249A (en)1979-02-261982-02-09Multi-Elmac CompanyData communication system for activating remote loads
US4426637A (en)1979-02-261984-01-17Multi-Elmac CompanyCombination encoder-decoder integrated circuit device
US4392133A (en)1979-06-051983-07-05Lundgren Sten TElectronic lock with changeable opening code
US4241540A (en)1979-07-181980-12-30Chamberlain Manufacturing CorporationFolding screw and rail assembly for a garage door opener
US4303911A (en)1979-07-301981-12-01Hulick Timothy PRemote control digitally encoded electronic switch
US4499464A (en)1979-09-211985-02-12Ardac, Inc.Apparatus for remote authorization for dispensing fluids
DE2939589A1 (en)1979-09-291981-04-02Loewe Opta Gmbh, 8640 Kronach COMPUTER CONTROLLED MESSAGE DEVICE
GB2060228B (en)1979-10-091984-02-29Mastiff Security Syst LtdComputer system
DE2941394A1 (en)1979-10-121981-04-30Adolf Tedsen KG, 2077 TrittauRemote control system for doors etc. - with transmitter and receivers and plug-in encoding and decoding units respectively
US4422071A (en)1980-01-301983-12-20Nira International B.V.Paging receiver
US4380762A (en)1980-01-311983-04-19Gaetano CapassoPolyfunction programmable data receiver
US4405923A (en)1980-01-311983-09-20Hitachi, Ltd.Garage door control system
US4453161A (en)1980-02-151984-06-05Lemelson Jerome HSwitch activating system and method
US4454509A (en)1980-02-271984-06-12Regency Electronics, Inc.Apparatus for addressably controlling remote units
US4360801A (en)1980-04-141982-11-23Stanley VemcoHome security and garage door operator system
US4464651A (en)1980-04-141984-08-07Stanley VemcoHome security and garage door operator system
US4369481A (en)1980-04-241983-01-18David EarlyElectronic lock
US4395697A (en)1980-08-151983-07-26Environmental Research Institute Of MichiganOff-image detection circuit for an image analyzer
DE3043605A1 (en)1980-11-191982-07-08SWF-Spezialfabrik für Autozubehör Gustav Rau GmbH, 7120 Bietigheim-Bissingen CONTROL CIRCUIT FOR ELECTRICAL ELEMENTS IN MOTOR VEHICLES
US4475069A (en)1980-12-121984-10-02Hitachi, Ltd.Door operation control apparatus
US4393342A (en)1980-12-121983-07-12Hitachi, Ltd.Door operation control apparatus
US4384288A (en)1980-12-311983-05-17Walton Charles APortable radio frequency emitting identifier
US4366482A (en)1981-01-231982-12-28Overhead Door CorporationTransmitter with buzzer
US4496942A (en)1981-03-101985-01-29Hitachi, Ltd.Method and apparatus for door operation remote control
US4534194A (en)1981-03-161985-08-13Kadex, IncorporatedElectronic lock system
US4404558A (en)1981-04-151983-09-13Anderson YenElectrical control circuit for operating a garage door or similar device
US4418333A (en)1981-06-081983-11-29Pittway CorporationAppliance control system
US4475481A (en)1981-07-061984-10-09B.I. IncorporatedIdentification system
US4498033A (en)1981-08-111985-02-05Hokuyo Automatic Co., Ltd.Automatic door actuator
US4447808A (en)1981-09-181984-05-08Prince CorporationRearview mirror transmitter assembly
US4417247A (en)1981-10-291983-11-22Minnesota Mining And Manufacturing CompanyCircuitry controlled by coded manual switching for producing a control signal
US4471408A (en)1982-01-041984-09-11Mcgraw-Edison CompanyPiggyback code switch device
US4638496A (en)1982-02-111987-01-20Jensen Garold KSecure reliable transmitting and receiving system for transfer of digital data
US4602246A (en)1982-02-111986-07-22Jensen Garold KIntruder detector apparatus
US4536747A (en)1982-02-111985-08-20Jensen Garold KComprehensive intruder-environmental hazard detection, control, and action system
US4602357A (en)1982-02-121986-07-22Ensco Inc.Coded acoustic alarm transmitter/receiver system
US4471345A (en)1982-03-051984-09-11Sensormatic Electronics CorporationRandomized tag to portal communication system
GB2119548A (en)1982-03-171983-11-16John Robert CarterLocking system
EP0099762A1 (en)1982-06-041984-02-01Jacques LewinerCoded remote control devices
US4692762A (en)1982-06-041987-09-08Jacques LewinerRemote control coded devices
US4485382A (en)1982-07-081984-11-27Moore Charles CTuning circuits with bendable U-shaped variable inductor for garage door actuators
US4509093A (en)1982-07-091985-04-02Hulsbeck & Furst Gmbh & Co. KgElectronic locking device having key and lock parts interacting via electrical pulses
US4483683A (en)1982-08-061984-11-20Alley Sr Ronald SSki tow signal assembly
US4581606A (en)1982-08-301986-04-08Isotec Industries LimitedCentral monitor for home security system
EP0103791A2 (en)1982-09-171984-03-28Siemens AktiengesellschaftCoding method for an electronic key
US4453269A (en)1982-09-221984-06-05Chamberlain Manufacturing CorporationApparatus for improving the frequency stability of a transmitter oscillator circuit
US4529980A (en)1982-09-231985-07-16Chamberlain Manufacturing CorporationTransmitter and receiver for controlling the coding in a transmitter and receiver
US4535333A (en)1982-09-231985-08-13Chamberlain Manufacturing CorporationTransmitter and receiver for controlling remote elements
US4652860A (en)1982-10-111987-03-24Bayerische Motoren Werke AktiengesellschaftSecurity installation
EP0106273B1 (en)1982-10-111987-05-13Bayerische Motoren Werke Aktiengesellschaft, Patentabteilung AJ-3Safety device
GB2131992B (en)1982-11-271986-05-21Kiekert Gmbh Co KgCentral locking system for motor vehicle
US4596985A (en)1982-11-271986-06-24Kiekert Gmbh & Co. KommanditgesellschaftRadio-controlled lock method with automatic code change
DE3244049C2 (en)1982-11-271986-06-26Kiekert GmbH & Co KG, 5628 Heiligenhaus Central locking system for a motor vehicle
US4550311A (en)1982-12-021985-10-29Racal Security LimitedRemote sensing systems
EP0120162A3 (en)1983-03-011985-11-06Lockheed Electronics Company Inc.Electronic identification system
FR2542732B1 (en)1983-03-171985-12-20Elf France MONOALKYLATION OF SALICYLIC ACID
US4665397A (en)1983-11-011987-05-12Universal Photonics, Inc.Apparatus and method for a universal electronic locking system
US4573046A (en)1983-11-011986-02-25Universal Photonics, Inc.Watch apparatus and method for a universal electronic locking system
US4931789A (en)1983-11-011990-06-05Universal Photonix, Inc.Apparatus and method for a universal electronic locking system
EP0143309A2 (en)1983-11-251985-06-05Audi AgLocking system for the doors and luggage boot lid of a motor vehicle
US4491774A (en)1983-12-301985-01-01Motorola, Inc.Control system for a radio-controlled door operator
US4633247A (en)1984-02-291986-12-30Blaupunkt-Werke GmbhRemote control system for selectively activating and inactivating equipment
US4754255A (en)1984-03-121988-06-28Sanders Rudy TUser identifying vehicle control and security device
US4593412A (en)1984-05-211986-06-03Multi-Elmac CompanyIntegrated oscillator antenna for low power, low harmonic radiation
US4574247A (en)1984-05-211986-03-04Multi-Elmac CompanyFM Signal demodulator
US4638433A (en)1984-05-301987-01-20Chamberlain Manufacturing CorporationMicroprocessor controlled garage door operator
US4670739A (en)1984-12-141987-06-02Kelly Jr Lawrence RCommunication system especially useful as an incident location reporting security system
US4654745A (en)1984-12-241987-03-31Corby Industries, Inc.Electronic access control system for use with conventional switch plates and boxes
US4646072A (en)1985-05-061987-02-24Hughes George WLocking means for garage door actuator signal transmitters
US4794622A (en)1985-06-031988-12-27Linear CorporationLow power transmitter frequency stabilization
EP0212050A3 (en)1985-06-071988-08-17Audi AgCoding process
US4755792A (en)1985-06-131988-07-05Black & Decker Inc.Security control system
US4667397A (en)1985-06-271987-05-26Premium Allied Tool, Inc.Electrical lead wire and terminal splicing machine
US4653565A (en)1985-07-251987-03-31Chamberlain Manufacturing CorporationGarage door opener
US4758835A (en)1985-08-211988-07-19Vdo Adolf Schindling AgSystem for the locking and/or unlocking of a security device
US4722625A (en)1985-09-261988-02-02Triune Automated Painting SystemsRemote control device for powered painting system
DE3625555A1 (en)1985-10-291987-04-30Chamberlain Mfg Corp DEVICE FOR OPERATING GARAGE GATES AND THE LIKE
US4750118A (en)1985-10-291988-06-07Chamberlain Manufacturing CorporationCoding system for multiple transmitters and a single receiver for a garage door opener
US4737770A (en)1986-03-101988-04-12Interactive Technologies, Inc.Security system with programmable sensor and user data input transmitters
US4806929A (en)1986-03-311989-02-21Hitachi, Ltd.Remote monitor control system
US4808995A (en)1986-05-021989-02-28Stanley Automatic OpenersAccessory-expandable, radio-controlled, door operator with multiple security levels
US4853524A (en)1986-07-241989-08-01Stanley Electric Co., Ltd.Optical identification card system
US4709412A (en)1986-08-261987-11-24Xantech CorporationRemote control unit integrator console
US4912525A (en)1986-09-171990-03-27Universal Photonix, Inc.Apparatus for transmitting optical signals into a protected environment
US4995053A (en)1987-02-111991-02-19Hillier Technologies Limited PartnershipRemote control system, components and methods
US4932037A (en)1987-02-111990-06-05Hillier Technologies Limited PartnershipRemote control system, components and methods
US4864588A (en)1987-02-111989-09-05Hillier Technologies Limited PartnershipRemote control system, components and methods
US4897652A (en)1987-03-271990-01-30Alcatel CitMethod of coding numbers in binary form
US5252966A (en)1987-05-211993-10-12Trw Inc.Transmitter for remote control system for door locks
US4881148A (en)1987-05-211989-11-14Wickes Manufacturing CompanyRemote control system for door locks
US4918439A (en)1987-06-231990-04-17Cl 9, Inc.Remote control device
US4825200A (en)1987-06-251989-04-25Tandy CorporationReconfigurable remote control transmitter
US4872082A (en)1987-09-021989-10-03Stanley ElectronicsDoor operator safety feature requiring constant actuation to close door
US4868559A (en)1987-10-021989-09-19Universal Photonix, Inc.Security system employing optical key shape reader
US4847542A (en)1987-10-221989-07-11Multi-Elmac CorporationAutomatic garage door operator with remote load control
US4843337A (en)1987-11-021989-06-27Conn Jr Roy SDriveway safety light
US4878052A (en)1987-12-051989-10-31Alltronik Gesellschaft Fur Elektronische Steuerung Und Antriebe MbhHand-held transmitter for the emission of coded electromagnetic pulses, and a receiver for receiving pulses emitted by the transmitter
DE3741324C2 (en)1987-12-051991-05-02Alltronik Gesellschaft Fuer Elektronische Steuerung Und Antriebe Mbh, 6108 Weiterstadt, De
EP0319781A2 (en)1987-12-051989-06-14Gimbel, Karl-Heinz, Dipl. Ing.Portable transmitter for the electromagnetic transmission of coded pulses, and tuned receiver therefor
US4951029A (en)1988-02-161990-08-21Interactive Technologies, Inc.Micro-programmable security system
US4847601A (en)1988-04-051989-07-11Conti William SRemote transmitter kit
US4912463A (en)1988-08-091990-03-27Princeton Technology CorporationRemote control apparatus
US4890108A (en)1988-09-091989-12-26Clifford Electronics, Inc.Multi-channel remote control transmitter
US4896353A (en)1988-09-231990-01-23Unisys Corp.Apparatus for fast decoding of a non-linear code
US4855713A (en)1988-10-071989-08-08Interactive Technologies, Inc.Learn mode transmitter
US5049867A (en)1988-11-301991-09-17Code-Alarm, Inc.Vehicle security apparatus
US4866434A (en)1988-12-221989-09-12Thomson Consumer Electronics, Inc.Multi-brand universal remote control
US5148159A (en)1989-04-261992-09-15Stanley ElectronicsRemote control system with teach/learn setting of identification code
EP0401673A1 (en)1989-06-031990-12-12Karl-Heinz Dipl. Ing. GimbelReceiver for coded electromagnetic pulses
US4988992A (en)1989-07-271991-01-29The Chamberlain Group, Inc.System for establishing a code and controlling operation of equipment
US4963876A (en)1989-08-211990-10-16Sanders Rudy TThin programmable remote control transmitter
US5140171A (en)1990-07-031992-08-18Janasz Christopher G DeVehicle operated remote control access system
US5220319A (en)1991-06-031993-06-15Motorola, Inc.Adaptable key holder for a remote control transmitter
US5252960A (en)1991-08-261993-10-12Stanley Home AutomationSecure keyless entry system for automatic garage door operator
US5343500A (en)1991-09-031994-08-30At&T Bell LaboratoriesNon-linear encoder and decoder for information transmission through non-linear channels
US5184132A (en)1991-11-061993-02-02Baird William EGarage door opening device
EP0561361A1 (en)1992-03-171993-09-22Alltronik electronics GmbHMethod of controlling door actuators and device therefor
EP0563517A1 (en)1992-03-311993-10-06Alltronik electronics GmbHCombined push and pull device

Non-Patent Citations (162)

* Cited by examiner, † Cited by third party
Title
"Remote Security System", R. Kath et al., IBM Technical Disclosure Bulletin, vol. 16, No. 7 Dec. 1973, pp. 2427-2428.
A copy and translation of a Japanese Patent Office action dated Oct. 20, 1992, received in a Japanese patent application related to the instant application and providing a concise explanation of the relevance of JP 55-114771 and JP 59-80872.
a) Exhibit E4, Prior Publication and Prior Public Use of Corresponding Transmitter/Receiver System.
a. Bedienungs—und Einbauanweisung für den Multisender S 43-25 (Drunckschrift 102 der Fa. Th. Düppe KG in Essen).
Alltronik Opposition Brief of Aug. 7, 1990, (with translation), corresponding to German Patent No. 36 25 555 including.
Amended Answer, Affirmative Defenses and Counterclaim to Amended Complaint dated Nov. 21, 2001 (13 pages).
Answer, Affirmative Defenses and Counterclaim to Amended Complaint dated Nov. 16, 2001 (14 pages).
Appellant's Reply Brief dated Oct. 26, 1998.
Articles and German Opposition Materials.
Assembler Language Programming: The IBM System 360, George Struble; Addison-Wesley Publishing 1971, pp. 148-151.
b) A corresponding Description.
b. Schreiben von 5. März an das FTZ in Darmstadt.
c) A Second Corresponding Description.
c. Bedienungsanleitung für UHF-Funksteurerung F 43 vom 05.09.1984.
Chamberlain's Answer to Third Amended Complaint for Declaratory Judgment and Counterclaim dated Mar. 15, 2000 (15 pgs.).
Chamberlain's Answers to Wayne-Dalton's First Set of Interrogatories dated Nov. 28, 2001 (11 pages).
Chamberlain's Reply to Interlogix's Counterclaims dated Nov. 27, 2001 (21 pages).
Chamberlain's Supplemental Reply Memorandum in Support of Chamberlain's Motion for Preliminary Injunction dated Mar. 13, 2001, which includes the following attachments and Exhibits: F & G Scrolling v. IBM, MPEP, Seventh Edition, 715.02 (2000).
Commission Investigative Staff's First Set of Interrogatories to Respondent Computime dated Nov. 28, 2001 (14 pages).
Complainant Chamberlain's Supplemental Answer to Respondents Napoleon et al.'s Interrogatory No. 1 dated Nov. 30, 2001 (7 pages).
d) Two invoices.
d. Prospekt der Fa. Düppe (Druckschrift Nr. 63—Tormatic macht das Tor auf).
Defendant Interlogix, Inc.'s Answer, Affirmative Defenses, and Counterclaims dated Nov. 2, 2001 (28 pages).
Defendant Interlogix, Inc.'s First Set of Requests for Admission to Plaintiff the Chamberlain Group, Inc. dated Nov. 13, 2001 (51 pages).
Defendant Lynx Industries, Inc. and Napoleon Spring Works, Inc. Answer in Opposition to Plaintiff Chamberlain's Motion for a Preliminary Injuction dated Nov. 30, 2000.
Defendant-Appellant's Appeal Brief dated Aug. 24, 1998.
Defendant's Motion for Leave to File Defendant's Supplemental Brief Opposing Plaintiff the Chamberlain Group, Inc's Motion for Sanctions dated Dec. 3, 2001 (35 pages).
Defendant's Response to Plaintiff's Third Set of Interrogatories dated Mar. 21, 2001.
Defendants' Supplemental Brief in Support of Its Motion for Summary Judgment of Non-Infringement and Its Opposition to Chamberlain's Motion for Preliminary Injuction dated Feb. 12, 2001, which includes the following Exhibits.
Defendants' Supplemental Brief Opposing Plaintiff's Motion for Preliminary Injuction dated Feb. 22, 2001, which includes the following Exhibits.
Demonstration of Prototype GDO Without Capability to Learn Multiple Transmitters: Schindler Deposition-pp. 173-180, 184-188, 353-362, 382-384, 386-389, Wilmott Deposition-pp. 330-348, 353-356, 430-434, 436-440, 452-455, 487-492, Schorling Deposition-pp. 102-123.
Derwent WPI Acc. No. 79-D6700B provides an English abstract of DE 27 46 532 A1.
Derwent WPI Acc. No. 80-G1895C provides an English abstract of DE 28 56 337 A1.
Derwent WPI Acc. No. 81-B6887D provides an English abstract of DE 29 41 394 A1.
Derwent WPI Acc. No. 81-D1971D provides an English abstract of DE 29 39 589 A1.
Derwent WPI Acc. No. 85-136225 provides an English abstract of EP 0 143 309 A2.
Derwent WPI Acc. No. 86-332914 provides an English abstract of EP 0 212 050 A2.
Derwent WPI Acc. No. 90-369740 provides an English abstract of EP 0 401 673 A1.
Derwent WPI Acc. No. 90-36974D provides an English abstract of DE 39 18 131 C2.
Derwent WPI Acc. No. 93-296664 provides an English abstract of EP 0 561 361 A1.
Derwent WPI Acc. No. 93-312974 provides an English abstract of EP 0 563 517 A1.
Documents: Deposition Exhibits 117, 159, 161, 162, 120 and 191.
Dorma Opposition Brief of Aug. 8, 1990 of corresponding to German Patent No. 36 25 555. This includes eight (8) Exhibits which are identified in German as follows.
e) An Illustration by the Opposer.
e. Elektronik 1975. Heft 10, Seite 104-105 (einfache Fernsteuerung für 9 Kanäle).
e. Prospekt der fa. Düppe von Apr. 1983—Tormatic UHF Funksteuerung.
Errata Sheet for the Opinion Announcing Judgement of the Court dated Oct. 15, 1999.
Ex. 10-Suppl. Expert Report of Dr. V. Thomas Rhyne (in Overhead Door v. Chamberlain).
Ex. 11-Third Suppl. to Expert Witness Report of Edward G. Fiorito (in Overhead Door v. Chamberlain).
Ex. 12-Chamberlain's Suppl. Answers to Interrogatories (in Overhead Door v. Chamberlain).
Ex. 13-Chamberlain's Proposed Findings of Fact and Conclusions of Law With Respect to Inequitable Conduct (in Overhead Door v. Chamberlain).
Ex. 14-Letter dated Sep. 29, 1990 to Scott Clark at Chamberlain from Richard B. Wakely (in Overhead Door v. Chamberlain).
Ex. 15-Copy of Office Action dated Dec. 24, 1990.
Ex. 15-Second Declaration for Dr. V. Thomas Rhyne.
Ex. 17-Intro. to Microprocessors: Software, Hardware, Programming.
Ex. 18-Transcript Depositon of Wayne Schindler, vol. IV, pp. 393-398, 435-440, 483-488, 519-524, 537-554.
Ex. 19-Letter dated May 26, 2000 from David M. Frischkorn (for Lynx Industries) to Karl Fink (for Chamberlain Group, Inc.).
Ex. 1-Copy of the four claims contained in the Chamberlain application filed Aug. 24, 1989 to reissue the '118 patent.
Ex. 20-Letter dated Jun. 14, 2000 from A. Blair Hughes (for Lynx Industries) to Karl Fink (for Chamberlain Group, Inc.).
Ex. 2-First Office Action dated Jun. 13, 1990 in Heitschel et al. S.N. 07/398,379.
Ex. 3-Examiner Interview Summary Record dated Sep. 23, 1990.
Ex. 4-Amendment and Request for Reconsideration dated Oct. 17, 1990.
Ex. 5-A) Declaration of Wayne Schindler Under 37 C.F.R. § 1.31 dated Oct. 3, 1990, B) Declaration of Colin Wilmott Under 37 C.F.R. § 1.131 dated Oct. 15, 1990, C) Declaration of Carl Heitschel Under 37 C.F.R. § 1.131 dated Oct. 1, 1990, D) Diagram dated Jul. 17, 1984, E) Chamberlain Inter-House Correspondence: Minutes of 1984 GDO Meeting and New Electronic Products, F) Chamberlain Inter-House Correspondence: Proposed Up GDO.
Ex. 6-Amendment dated Oct. 22, 1992.
Ex. 7-PTO-1449 Form, signed and dated Feb. 21, 1995 by Examiner Ruggiero.
Ex. 8-Decision on Appeal of Carl Heitschel, Colin Willmott, and Wayne Schindler in Appeal No. 1999-0880.
Ex. 9-a) Transcript Depos. of Wayne Schindler, pp. 2-5, 62-69, 393-398, 531-536 and Transcript Depos. of Colin Wilmott p. 191-196, 311-316 (both in Overhead Door v. Chamberlain) b) Depos. of Colin Wilmott dated Dec. 13, 1996, pp. 1-8, 160-167, 167-173, 191-196, 323-328.
Ex. A.1—Claims of Chamberlain's Re. 35,364 Patent.
Ex. A-Copy of Overhead Door's Emergency Motion for Judgment as a Matter of Law as to Inequitable Conduct . . . (in Overhead Door Corporation and GMI Holdings, Inc. v. The Chamberlain Group, Inc.).
Ex. A-Copy of U.S. Ct. of Appeals, Federal Circuit case: Festo Corporation v. Shoketsu Kinzoku Kogyo Kabushiki Co., Ltd.
Ex. A-Curriculum Vitae of A. Sidney Katz.
Ex. A-Curriculum Vitae of M. Ray Mercer.
Ex. A—Detailed Expert Report of Joseph C. McAlexander on the Re. 35,364 Patent.
Ex. B—Documents Relied Upon.
Ex. B-File History of U.S. Pat. No. 4,750,118 dated Jun. 7, 1988, Heitschel et al.
Ex. B-List of Cases in which A. Sidney Katz has served as a Patent Expert.
Ex. B-List of Previous Expert Witness Work of M. Ray Mercer.
Ex. B-Office Action dated Jun. 13, 1990 in Heitschel et al. S.N. 07/398,379.
Ex. C-Amendment and Request for Reconsideration dated Oct. 17, 1990 in Heitschel et al. S.N. 07/398,379.
Ex. C-Comparison of Originally filed "Memory Selection Switch" Claim Element to Issued Claims Showing Narrowing Amendments.
Ex. C—Curriculum Vitae of Joseph C. McAlexander.
Ex. C-Sources Consulted.
Ex. D—List of Cases in which Joseph C. McAlexander has testified as an expert.
Ex. D-Transcript of Telephonic Conference Before the Honorable Sidney A. Fitzwater, U.S. District Judge (in Overhead Door Corporation and GMI Holdings, Inc. v. The Chamberlain Group, Inc.).
Ex. E—Compensation.
Expert Report of A. Sidney Katz dated Aug. 1, 2000, which includes the following Exhibits.
Expert Report of Dr. Sharad Malik Regarding Invalidity dated Mar. 4, 2002.
Expert Report of Joseph C. McAlexander dated Sep. 18, 2000, which includes the following Exhibits.
Expert Report of Joseph V. Colaianni dated Jan. 22, 2002.
Expert Report of M. Ray Mercer, Ph.D. dated Aug. 1, 2000, which includes the following Exhibits.
Expert Report of Thomas Austin Gafford dated Jan. 16, 2002.
Expert Witness Report of Larry S. Nixon Pursuant to Fed.R.Civ.P. Rule 26(a)(2)(b) dated Mar. 4, 2002.
f. Prospekt der Fa. Düppe, Title: Tormatic öffnet alle Tore.
First Set of Interrogatories from Chamberlain to Pittway Corporation dated Nov. 21, 2001 (8 pages).
Fourth Amended Complaint for Declaratory Judgment dated Aug. 31, 2000.
g. Der Elektroniker, Heft 11 von Nov. 1981, Seite 11-19.
Guardian Access Corporation's Responses to Chamberlain's First Set of Interrogatories (Nos. 1-36) dated Aug. 17, 2001.
IEEE Standard Dictionary of Electrical and Electronic Terms, Second Edition, Frank Jay editor-in-chief, Wiley-Interscience, 1977, pp. 324-325, 377-378, 384, 500 and 694.
In connection with the pending litigation, Overhead Door Corporation and GMI Holdings, Inc. v. The Chamberlain Group, Inc., Civil Action No. 3:95-CV-1648-D, in the U.S. District Court for the Northern District of Texas, Dallas Division, the following documents are submitted herewith.
In connection with the pending litigation, The Chamberlain Group, Inc. v. Innovative Home Products, Inc. Civil Action No. 00-C-0360, in the U.S. District Court for the Northern District of Illinois Eastern Division, the following documents are submitted herewith.
In connection with the pending litigation, The Chamberlain Group, Inc. v. Lynx Industries, Inc. and Napoleon Spring Works, Civil Action No. 00 CV 0454, in the U.S. District Court for the Northern District of Illinois Eastern Division, the following documents are submitted herewith.
Innovative's Fourth Supplemental Answers to Chamberlain's Contention Interrogatories dated Dec. 15, 2000.
Innovative's Further Supplement Response to Chamberlain's Interrogatory No.'s 1, 2 and 5 and Notice of Prior Art Under 35 U.S.C. § 282 date Nov. 20, 2000.
Installation And Operation Manual SS-32 Supervised Security System, 1984.
International Publication No. WO 85/01980 dated May 9, 1985, to Pinnow.
Introduction to Microcomputers and Microprocessors, Arpad Barna and Dan Porat; John Wiley & Sons, Inc. 1976; p. 18.
Japanese Patent Office Translation of Japanese Patent Application Disclosure No. Sho 55-20830 to Tomoma, laid-open Feb. 14, 1980.
Japanese Patent Office Translation of Japanese Patent Application Disclosure No. Sho 59-80872 to Okuyama et al., laid-open May 10, 1984.
Letter from Kenneth R. Glaser to John F. Flannery dated Mar. 31, 1997 (redacted to delete references to the litigation).
Linear Corporation's First Set of Requests for Admission to Complainant Chamberlain dated Nov. 30, 2001 (19 pages).
Linear Corporation's First Supplemental Responses to Chamberlain's Interrogatories Nos. 1 and 2 dated Nov. 27, 2001 (7 pages).
Linear Corporation's First Supplemental Responses to Chamberlain's Interrogatories Nos. 8 and 12 dated Oct. 30, 2001.
Linear Corporation's Identification of Prior Art dated Jan. 22, 2002.
Linear Corporation's Responses to Chamberlain's First Set of Interrogatories dated Sep. 6, 2001.
Linear Corporation's Second Supplemental Response to Chamberlain's Interrogatory No. 13 and First Supplemental Response to Chamberlain's Interrogatory No. 7 dated Oct. 10, 2001.
Lynx Industries Inc. and Napoleon Spring Works, Inc.'s First Amended Answer and Counterclaims to the First Amended Complaint dated Mar. 13, 2001.
Lynx's Responses to chamberlain's First Set of Interrogatories (Nos. 1-34) dated Aug. 17, 2001.
Meyer-Staufenbiel, Torsten. "Garagentoantrieb mit Funkfernsteuerung", pp. 115-117, 1975.
Microchip Technology Incorporated's Petition for Review of Initial Determination Concerning Motion for Intervention and Statement of Reasons Supporting Limited Intervention by Microchip dated Nov. 28, 2001 (13 pages).
Microprocessor Software; Max Schindler 1980 pp. 65, 67.
MOS Databook from National Semiconductor, pp. 1-25-3-64.
Napoleon's Responses to Chamberlain's First Set of Interrogatories (Nos. 1-34) dated Aug. 17, 2001.
Napoleon's Supplemental Response to Chamberlain's Interrogatory No. 9 dated Oct. 3, 2001.
No Commercial Offer for Sale: Shindler's Deposition-pp. 385-386, Wilmott Deposition-pp. 348-353, Lovegrove Deposition-pp. 77-91, Schorling Deposition-pp. 74-79, 84-101, 103-123.
Notice of Decision by U.S International Trade Commission dated Nov. 13, 2001 (3 pages).
Notice of Initial Determination by ALJ on Remand from U.S. International Trade Commission dated Nov. 21, 2001 (3 pages).
Opinion announcing Judgment of the Court dated Oct. 13, 1999.
Order No. 8: Denying Complainant's Motion to Set a Maximum Number of Interrogatories dated Nov. 21, 2001 (11 pages).
Order of Apr. 30, 1998 adopting the Special Master's Reports and Recommendations.
Plaintiff's Notice of Videotaped Depositions dated Aug. 30, 2000.
Plaintiff's Second Supplemental Notice Pursuant to 35 U.S.C. § 282 dated Nov. 3, 2000.
Plaintiff's Second Supplemental Responses to Defendant's Interrogatories Nos. 1-3, 14 and 20 dated Nov. 2, 2000.
Plaintiff's Supplemental Notice Pursuant to 35 U.S.C. §282, filed May 18, 1998.
Plaintiff's-Appellees Appeal Brief dated Oct. 8, 1998.
Pp. 36 and 37 of an undated dealer reference manual for the AT&T Security System 8000.
Rebuttal Expert Report of A. Sidney Katz dated Sep. 18, 2000.
Reply Memorandum in Support of Chamberlin's Motion for Preliminary Injuction dated Dec. 15, 2000, which includes the following Exhibits.
Respondent Innovative Home Products Inc.'s Response to Amended Complaint and Notice of Investigation dated Sep. 7, 2001.
Respondent Innovative Home Products, Inc.'s Responses to First Set of Interrogatories from Complainant Chamberlain dated Aug. 31, 2001.
Respondent Innovative's Responses to the Commission Investigative Staff's First Set of Requests for the Production of Documents and Things to Respondents dated Sep. 14, 2001.
Respondent Linear Corporation's Amended Response to the Amended Complaint Under Section 337 of the Tariff Act of 1930, as Amended, and Affirmative Defenses dated Sep. 12, 2001.
Respondent Martec Access Products, Inc., Identification of Prior Art dated Jan. 11, 2002.
Respondent Wayne-Dalton Corp.'s Answer to Complaint and Notice of Investigation dated Aug. 6, 2001.
Respondent Wayne-Dalton Corp.'s Answers and Objections to the Third Set of Interrogatories from Chamberlain to Respondent Wayne-Dalton Corporation dated Nov. 26, 2001 (18 pages).
Respondent Wayne-Dalton Corporation's Identification of Prior Art dated Jan. 11, 2002.
Respondents Lynx Industries, Inc., Napoleon Spring Works, Inc., and Guardian Access Corporation's Identification of the Prior Art dated Jan. 11, 2002.
Respondents Lynx Industries, Inc., Napoleon Spring Works, Inc., and Guardian Access Corporation's Response to Verified Complaint Under Section 337 of the Tariff Act of 1930, as Amended, and Affirmative Defenses dated Aug. 8, 2001.
Second Amended Complaint for Declaratory Judgment, filed Feb. 17, 1998, and Exhibits A-G thereto.
Special Master's Report and Recommendation on Plaintiff's Motion for Partial Summary Judgement of Assignor Estoppel, filed Dec. 12, 1997, and Tabs 2, 3, 5, 17, and 18 of Exhibit A and Exhibit C thereto (certain portions of this Report have been redacted and Exhibits A (including Tabs 1, 4, and 16) and b have been included, as being confidential pursuant to a protective order and cannot be disclosed except by court order).
Special Master's Report and Recommendation on Plaintiff's Motion for Partial Summary Judgement of Patent Invalidity under U.S.C. §251, filed Dec. 10, 1997, and Exhibits 1-11 thereto.
Special Master's Report for Summary Judgment of Infringement, filed Jan. 8, 1998, and Exhibits 1 and 3-9 thereto (certain portions of this report have been redacted and Exhibit 2 has been excluded, as being confidential pursuant to a protective order and cannot be disclosed except by court order).
Special Master's Second Amended Report and Recommendation on Plaintiff's Motion for Summary Judgement of Patent Validity under 35 U.S.C. §103, filed Jan. 16, 1998, and Exhibits 1-3 thereto.
The 8086 Family User Manual; Intel Corporation 1980 at 2-35.
The following Litigation Documents are cited herewith.
Third Amended Complaint for Declaratory Judgment dated Mar. 1, 2000.
Translation of pertinent portions of JP 55-114771, (indicating that U.S. Pat. No. 4,328,540 substantially corresponds to this Japanese patent).
U.S. Pat. No. 4,692,762 corresponds to EP 0 099 762 A1 and provides a concise explanation of its relevance. U.S. Pat. No. 4,750,118 corresponds to EP 0 319 781 A2 and DE 37 41 324 C2 and provides a concise explanation of their relevance.
Verified Declaration of Innovative Home Products, Inc. dated Sep. 18, 2001.
Verified Declaration of Wayne-Dalton Corp. dated Nov. 9, 2001 (1 page).
Verified Declaration of Wayne-Dalton Corp. dated Sep. 7, 2001.
Wayne-Dalton Corp.'s Answers and Objections to Chamberlain's First Set of Interrogatories dated Nov. 9, 2001 (16 pages).
Wayne-Dalton Corp's Supplemental Answers and Objections to Certain of Chamberlain's Interrogatories dated Dec. 3, 2001 (22 pages).

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* Cited by examiner, † Cited by third party
Publication numberPriority datePublication dateAssigneeTitle
US20040085185A1 (en)*1996-09-062004-05-06Overhead Door CorporationRemote controlled garage door opening system
US6747590B1 (en)*2001-02-122004-06-08Harold J. WeberAlternate command signal decoding option for a remotely controlled apparatus
US7135957B2 (en)2001-12-192006-11-14Lear CorporationUniversal garage door operating system and method
US7167076B2 (en)2001-12-192007-01-23Lear CorporationUniversal garage door operating system and method
US20060038656A1 (en)*2001-12-192006-02-23Lear CorporationUniversal garage door operating system and method
US20030193448A1 (en)*2002-01-152003-10-16Tsui Philip Y.W.Transmitter for operating rolling code receivers
US6756895B2 (en)2002-02-112004-06-29The Chamberlain Group, Inc.Device learning mode method
WO2003069880A1 (en)*2002-02-112003-08-21The Chamberlain Group, Inc.Device learning mode method
US20030227407A1 (en)*2002-03-222003-12-11Yuen Henry C.Method and system for reverse universal remote control feature
US6844900B2 (en)*2002-03-222005-01-18Index Systems, Inc.Method and system for reverse universal remote control feature
US7024819B1 (en)*2002-06-242006-04-11Xceltronix, Inc.Automatic door closing device
US20040100391A1 (en)*2002-11-272004-05-27Lear CorporationProgrammable transmitter and receiver including digital radio frequency memory
US7116242B2 (en)2002-11-272006-10-03Lear CorporationProgrammable transmitter and receiver including digital radio frequency memory
US7120430B2 (en)2003-07-302006-10-10Lear CorporationProgrammable interoperable appliance remote control
US7760071B2 (en)2003-07-302010-07-20Lear CorporationAppliance remote control having separated user control and transmitter modules remotely located from and directly connected to one another
US20050026602A1 (en)*2003-07-302005-02-03Lear CorporationUser-assisted programmable appliance control
US20050024184A1 (en)*2003-07-302005-02-03Lear CorporationWireless appliance activation transceiver
US7855633B2 (en)2003-07-302010-12-21Lear CorporationRemote control automatic appliance activation
US7039397B2 (en)2003-07-302006-05-02Lear CorporationUser-assisted programmable appliance control
US7050794B2 (en)2003-07-302006-05-23Lear CorporationUser-assisted programmable appliance control
US7068181B2 (en)2003-07-302006-06-27Lear CorporationProgrammable appliance remote control
US7084781B2 (en)2003-07-302006-08-01Lear CorporationProgrammable vehicle-based appliance remote control
US7088218B2 (en)2003-07-302006-08-08Lear CorporationWireless appliance activation transceiver
US20060192685A1 (en)*2003-07-302006-08-31Lear CorporationProgrammable appliance remote control
US20050024230A1 (en)*2003-07-302005-02-03Lear CorporationProgrammable vehicle-based appliance remote control
US20050026604A1 (en)*2003-07-302005-02-03Christenson Keith A.Programmable interoperable appliance remote control
US20050026601A1 (en)*2003-07-302005-02-03Lear CorporationUser-assisted programmable appliance control
US20060279399A1 (en)*2003-07-302006-12-14Lear CorporationRemote control automatic appliance activation
US7161466B2 (en)2003-07-302007-01-09Lear CorporationRemote control automatic appliance activation
US20050026605A1 (en)*2003-07-302005-02-03Lear CorporationUniversal vehicle based garage door opener control system and method
US7183941B2 (en)2003-07-302007-02-27Lear CorporationBus-based appliance remote control
US7183940B2 (en)2003-07-302007-02-27Lear CorporationRadio relay appliance activation
US7812739B2 (en)2003-07-302010-10-12Lear CorporationProgrammable appliance remote control
US20070176736A1 (en)*2003-07-302007-08-02Lear CorporationUser-assisted programmable appliance control
US7489922B2 (en)2003-07-302009-02-10Lear CorporationUser-assisted programmable appliance control
US7269416B2 (en)2003-07-302007-09-11Lear CorporationUniversal vehicle based garage door opener control system and method
US7447498B2 (en)2003-07-302008-11-04Lear CorporationUser-assisted programmable appliance control
US20050104726A1 (en)*2003-11-142005-05-19Chen Wen C.Alerting system using a communication protocol
US7034664B2 (en)*2003-11-142006-04-25Iq Group Sdn BhdAlerting system using a communication protocol
WO2005071621A3 (en)*2004-01-222007-10-18Sommer Antriebs & FunktechnikProgramming device for transmitter/receiver systems for contactlessly actuating doors and gates
US20070120641A1 (en)*2004-01-222007-05-31Sommer Antriebs- Und Funktechnik GmbhProgramming device for transmitter/receiver systems for contactlessly actuating doors and gates
CN101128849B (en)*2004-01-222010-09-15佐默驱动及无线电技术有限公司Programming device for transmitter/receiver system for contactless operation of doors and gates
US7280031B1 (en)2004-06-142007-10-09Wayne-Dalton Corp.Barrier operator system with enhanced transmitter storage capacity and related methods of storage and retrieval
US20070194880A1 (en)*2006-02-032007-08-23Fitzgibbon James JProgrammer protection method and apparatus for use with a movable barrier operator
US7872565B2 (en)2006-02-032011-01-18The Chamberlain Group, Inc.Programmer protection method and apparatus for use with a movable barrier operator
US7589613B2 (en)2006-04-032009-09-15Lear CorporationTrinary to trinary rolling code generation method and system
US20070236328A1 (en)*2006-04-032007-10-11Lear CorporationAll trinary rolling code generation method and system
US20100170569A1 (en)*2006-06-082010-07-08Weigen ChenAutomatic sensing system in sanitary wares
US20080169899A1 (en)*2007-01-122008-07-17Lear CorporationVoice programmable and voice activated vehicle-based appliance remote control
US20100301999A1 (en)*2009-05-272010-12-02Overhead Door CorporationChannel-switching remote controlled barrier opening system
US8581695B2 (en)2009-05-272013-11-12Grant B. CarlsonChannel-switching remote controlled barrier opening system
US8970345B2 (en)2009-05-272015-03-03Overhead Door CorporationChannel-switching remote controlled barrier opening system
US9483935B2 (en)2009-05-272016-11-01Overhead Door CorporationChannel-switching remote controlled barrier opening system
US8976002B2 (en)*2012-08-232015-03-10Philip Yu Wing TSUIUniversal remote control system
US12254727B2 (en)2021-11-242025-03-18Gmi Holdings, Inc.Multi-channel signaling for a barrier operator system

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