Trainable transceiver and method for learning an activation signal that remotely actuates a device

US 5,699,055 A
Filed: 05/19/1995
Issued: 12/16/1997
Est. Priority Date: 05/19/1995
Status: Expired due to Term

First Claim

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1. A trainable transceiver for receiving an activation signal that includes a radio frequency carrier modulated with a code and learning characteristics of the activation signal for subsequently transmitting a signal having the same characteristics for remotely actuating a device, said trainable transceiver comprising:

a memory for storing a frequency table including a first list of carrier frequencies for activation signals transmitted from remote transmitters that are known to transmit an activation signal of a duration shorter than that of most other activation signals and a second list of carrier frequencies for activation signals transmitted from remote transmitters that are known to continuously transmit an activation signal; and

a controller coupled to said memory and operable in a learning and an operating mode, when in the learning mode, said controller receiving an activation signal, sequentially reading frequencies from the first list in said frequency table until a frequency is read from the first list that corresponds to a carrier frequency of the received activation signal, sequentially reading frequencies from the second list in said frequency table after all the frequencies in the first list have been read without having found a frequency in the first list that corresponds to a carrier frequency of the received activation signal, and storing frequency control data representing the frequency read from the frequency table that corresponds to the carrier frequency of received activation signal, and when in the operating mode, said controller reading said frequency control data and generating an output signal having the same carrier frequency as the received activation signal.

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Abstract

A trainable transceiver for learning and transmitting an activation signal that includes an RF carrier frequency modulated with a code for remotely actuating a device, such as a garage door opener. The trainable transceiver includes a frequency table including a list of frequencies for remote transmitters known to transmit for only a short duration and the trainable transceiver first reads the short duration frequencies from the frequency table. The trainable transceiver may additionally include a prompting circuit for prompting an operator to cause a remote transmitter to retransmit its activation signal if the activation signal ceases before training is complete.

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17 Claims

1. A trainable transceiver for receiving an activation signal that includes a radio frequency carrier modulated with a code and learning characteristics of the activation signal for subsequently transmitting a signal having the same characteristics for remotely actuating a device, said trainable transceiver comprising:
- a memory for storing a frequency table including a first list of carrier frequencies for activation signals transmitted from remote transmitters that are known to transmit an activation signal of a duration shorter than that of most other activation signals and a second list of carrier frequencies for activation signals transmitted from remote transmitters that are known to continuously transmit an activation signal; and
  
  a controller coupled to said memory and operable in a learning and an operating mode, when in the learning mode, said controller receiving an activation signal, sequentially reading frequencies from the first list in said frequency table until a frequency is read from the first list that corresponds to a carrier frequency of the received activation signal, sequentially reading frequencies from the second list in said frequency table after all the frequencies in the first list have been read without having found a frequency in the first list that corresponds to a carrier frequency of the received activation signal, and storing frequency control data representing the frequency read from the frequency table that corresponds to the carrier frequency of received activation signal, and when in the operating mode, said controller reading said frequency control data and generating an output signal having the same carrier frequency as the received activation signal.
- View Dependent Claims (2, 3)
- - 2. The trainable transceiver as defined in claim 1, wherein said controller selects an initial frequency after all the frequencies in said second list have been read, and increments said initial frequency until said controller receives and stores said code signal from said receiving means when in said learning mode.
  - 3. The trainable transceiver as defined in claim 1 and further including a prompting circuit coupled to said controller for prompting an operator to cause the remote transmitter to retransmit its activation signal if the activation signal ceases before training is complete.

4. A trainable transceiver for receiving an activation signal that includes a radio frequency carrier modulated with a code and learning characteristics of the activation signal for subsequently transmitting a signal having the same characteristics for remotely actuating a device, said trainable transceiver comprising:
- a memory for storing a frequency table including a first list of carrier frequencies for activation signals transmitted from remote transmitters that are known to transmit an activation signal of a duration shorter than that of most other activation signals and a second list of carrier frequencies for activation signals transmitted from remote transmitters that are known to continuously transmit an activation signal;
  
  a controller coupled to said memory and operable in a learning and an operating mode, said controller reads a first frequency from the first list in said frequency table and generates and stores frequency control data related to the frequency read from said frequency table when in said learning mode;
  
  a signal generator coupled to said controller for receiving said frequency control data from said controller and for generating a reference radio frequency signal having a frequency related to said frequency control data; and
  
  receiving means coupled to said controller and said signal generator for receiving an activation signal, comparing the carrier frequency of the received activation signal with the frequency of said reference radio frequency signal output from said signal generator, and providing a code signal representing the code contained in the received activation signal when a predetermined relationship exists between the carrier frequency of the received activation signal and the frequency of said reference radio frequency signal,wherein said controller sequentially reads each frequency from said first list in said frequency table and generates and provides frequency control data to said signal generator until said controller receives and stores said code signal from said receiving means or until said controller has read every frequency included in said first list when in said learning mode, said controller providing the stored code signal and frequency control data to said signal generator when in said operating mode, to generate and transmit a modulated radio frequency signal related to the received activation signal.
- View Dependent Claims (5)
- - 5. The trainable transceiver as defined in claim 4, wherein said controller selects an initial frequency after all the frequencies in said second list have been read, and increments said initial frequency until said controller receives and stores said code signal from said receiving means when in said learning mode.

6. A trainable transceiver for receiving an activation signal that includes a radio frequency carrier modulated with a code and learning characteristics of the activation signal for subsequently transmitting a signal having the same characteristics for remotely actuating a device, said trainable transceiver comprising:
- receiving means for receiving an activation signal from an operator-actuated remote transmitter and providing a code signal representing the code contained in the received activation signal;
  
  a controller coupled to said receiving means and operable in a learning and an operating mode, said controller receiving said code signal from said receiving means while executing a training sequence in said learning mode, and generating a code signal and output frequency control data in said operating mode; and
  
  a prompting circuit coupled to said controller for prompting an operator to cause the remote transmitter to retransmit its activation signal if the activation signal ceases before training is complete,wherein, if the activation signal ceases before training is complete, said controller interrupts the training sequence and signals the prompting circuit to prompt the operator to cause the remote transmitter to retransmit its activation signal, and when the activation signal is retransmitted and received, said controller resumes execution of the training sequence from a position in the training sequence at which the training sequence was interrupted.
- View Dependent Claims (7, 8, 9, 10)
- - 7. The trainable transceiver as defined in claim 6 and further including:
    - a signal generator coupled to said controller and to said receiving means for receiving said reference frequency control data from said controller, generating a reference signal having a frequency corresponding to said reference frequency control data, providing said reference signal to said receiving means, receiving said code signal and said output frequency control data, and for generating a modulated radio frequency signal having a relationship to the received activation signal,wherein said receiving means provides said code signal to said controller when a predetermined relationship exists between the carrier frequency of the received activation signal and the frequency of said reference signal provided by said signal generator, and said controller changes the reference frequency control data provided to said signal generator until said receiving means provides said controller with said code signal.
  - 8. The trainable transceiver as defined in claim 7 and further including a memory for storing a frequency table including a first list of carrier frequencies for activation signals transmitted from remote transmitters that are known to transmit an activation signal of a short duration, wherein said controller sequentially reads each frequency from said first list in said frequency table and generates and provides reference frequency control data to said signal generator until said controller receives and stores said code signal from said receiving means or until said controller has read every frequency included in said first list when in said learning mode.
  - 9. The trainable transceiver as defined in claim 8, wherein said frequency table further includes a second list of carrier frequencies for activation signals transmitted from remote transmitters that are known to continuously transmit an activation signal, said controller sequentially reads frequencies from said second list after all the frequencies in said first list have been read.
  - 10. The trainable transceiver as defined in claim 9, wherein said controller selects an initial frequency after all the frequencies in said second list have been read, and increments said initial frequency until said controller receives and stores said code signal from said receiving means when in said learning mode.

11. A method using a trainable transceiver for learning an activation signal that remotely actuates a device, the method comprising the steps of:
- (a) receiving an activation signal from a remote transmitter;
  
  (b) reading a first frequency from a frequency table including a first list of carrier frequencies for activation signals transmitted from remote transmitters that are known to transmit an activation signal of a duration shorter than that of most other activation signals and including a second list of carrier frequencies for activation signals transmitted from any known remote transmitters that do not have a carrier frequency included in the first list of carrier frequencies;
  
  (c) generating a reference signal having a frequency related to the frequency read from the frequency table;
  
  (d) mixing the reference signal with the received activation signal and providing a mixed output signal;
  
  (e) filtering the mixed output signal to provide a code included in the received activation signal when the frequency of the reference signal has a predetermined relation to the radio frequency of the received activation signal;
  
  (f) sequentially reading a next frequency from the frequency table with the frequencies in the first list being read prior to the frequencies in the second list;
  
  (g) repeating steps (c) through (f) to vary the frequency of the reference signal until the predetermined relation between radio frequency of the received activation signal is obtained and the radio frequency of the received activation signal is identified; and
  
  (h) generating and storing radio frequency control data, which indicates the identified radio frequency and code of the received activation signal.
- View Dependent Claims (12)
- - 12. The method as defined in claim 11 and further including the step of prompting an operator to cause the remote transmitter to retransmit its activation signal if the activation signal ceases before training is complete.

13. A method using a trainable transceiver for learning an activation signal that remotely actuates a device, comprising the steps of:
- (a) receiving an activation signal from a remote transmitter;
  
  (b) selecting an initial frequency;
  
  (c) generating a reference signal having a frequency that is related to the selected frequency;
  
  (d) mixing the reference signal with the received activation signal and providing a mixed output signal;
  
  (e) filtering the mixed output signal to provide a code included in the received activation signal when the frequency of the reference signal has a predetermined relation to the radio frequency of the received activation signal;
  
  (f) prompting an operator to cause the remote transmitter to retransmit its activation signal if the activation signal ceases before training is complete;
  
  (g) selecting a different frequency and repeating steps (c) through (g) to vary the frequency of the reference signal until the predetermined relation between radio frequency of the received activation signal is obtained and the radio frequency of the received activation signal is identified;
  
  (h) generating and storing radio frequency control data, which indicates the identified radio frequency and code of the received activation signal.
- View Dependent Claims (14, 15, 16, 17)
- - 14. The method as defined in claim 13, wherein the step of selecting a different frequency includes incrementing the selected frequency by a predetermined increment.
  - 15. The method as defined in claim 13, wherein the steps of selecting an initial frequency and selecting a different frequency include sequentially reading frequencies from a frequency table including a list of carrier frequencies for activation signals transmitted from known remote transmitters.
  - 16. The method as defined in claim 15, wherein the frequency table includes a first list of carrier frequencies for activation signals transmitted from remote transmitters that are known to transmit an activation signal of a short duration.
  - 17. The method as defined in claim 16, wherein the frequency table further includes a second list of carrier frequencies for activation signals transmitted from any known remote transmitters that do not have a carrier frequency included in the first list of carrier frequencies, and wherein the step of sequentially reading a next frequency from the frequency table includes reading a first frequency in the second list if a last frequency in the first list was previously read.

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Current Assignee
Gentex Corporation
Original Assignee
Prince (Wellman Holdings, Inc.)
Inventors
Dykema, Kurt A., Duckworth, Paul C.
Primary Examiner(s)
Holloway, III, Edwin C.

Application Number

US08/446,085
Time in Patent Office

942 Days
Field of Search

340/825.22, 340/825.69, 340/825.72, 340/825.71, 340/825.44, 340/825.31, 455/151.2, 455/285, 455/115, 455/116, 341/176
US Class Current

340/5.25
CPC Class Codes

G08C 17/02   using a radio link

G08C 19/28   using pulse code

G08C 2201/20   Binding and programming of ...

H03J 1/0025   in a remote control unit re...

H04B 1/202   by remote control

H04B 1/38   Transceivers, i.e. devices ...

Trainable transceiver and method for learning an activation signal that remotely actuates a device

First Claim

8 Assignments

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Abstract

186 Citations

17 Claims

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Trainable transceiver and method for learning an activation signal that remotely actuates a device

First Claim

8 Assignments

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0 Petitions

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Accused Products

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Abstract

186 Citations

17 Claims

Specification

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Solutions

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