System and method for automatic remote activation of an earth-based satellite transmitter

US 4,704,735 A
Filed: 09/12/1985
Issued: 11/03/1987
Est. Priority Date: 09/12/1985
Status: Expired due to Fees

First Claim

Patent Images

1. A transmitter system for controlling transmissions from a portable battery-powered earth-based transmitter to an orbiting satellite such that said transmissions are sent by said transmitter system only when said system detects a unique down-link signal that indicates when said satellite is within range of said transmitter, said transmitter system comprising:

signal processing means for receiving, amplifying and demodulating said unique down-link signal so as to provide a demodulated signal when said satellite is within range of said transmitter;

transmitting control means electronically connected to said signal processing means, said transmitter control means comprising means for detecting when said unique down-link signal is present, said transmitter control means thereafter turning on said transmitter so that said transmissions are sent by said transmitter only when said unique down-link signal is determined to be present;

means, associated with said transmitter control means, for periodically switching said transmitter control means from a "full-stop" mode to a timed operating mode so that said transmitter control means performs said detection only during said timed operating mode; and

battery means, controlled by said transmitter control means, for providing electrical power to said transmitter, to said signal processing means, to said control means, and to said means for periodically switching said transmitter control means, whereby said battery means is switched to a "full on" mode when said transmitter system detects said unique down-link signal and when said satellite is within range of said transmitter.

View all claims

1 Assignment

Timeline View

Assignment View

0 Petitions

Accused Products

Abstract

A system and method for detecting when a satellite is within range of a small, battery-operated, portable transmitter so as to activate the transmitter only when the satellite is within range of the transmitter. The electronic system utilizes a sensitive radio-frequency receiver which can be tuned to receive a unique down-link signal from the orbiting satellite. The signal is amplified and demodulated and then input to a microprocessor. Information is stored in the memory of the microprocessor which identifies the unique down-link signal. The microprocessor compares the demodulated signal with the stored signal and if the two match, the earth-based transmitter is turned on and allowed to transmit for an interval of time. The microprocessor is maintained in a normally "full-stop" mode wherein power to the microprocessor is essentially turned off, and the microprocessor is periodically switched on so that it can check for the presence of the uniquely identifiable down-link signal which triggers transmission.

27 Citations

View as Search Results

29 Claims

1. A transmitter system for controlling transmissions from a portable battery-powered earth-based transmitter to an orbiting satellite such that said transmissions are sent by said transmitter system only when said system detects a unique down-link signal that indicates when said satellite is within range of said transmitter, said transmitter system comprising:
- signal processing means for receiving, amplifying and demodulating said unique down-link signal so as to provide a demodulated signal when said satellite is within range of said transmitter;
  
  transmitting control means electronically connected to said signal processing means, said transmitter control means comprising means for detecting when said unique down-link signal is present, said transmitter control means thereafter turning on said transmitter so that said transmissions are sent by said transmitter only when said unique down-link signal is determined to be present;
  
  means, associated with said transmitter control means, for periodically switching said transmitter control means from a "full-stop" mode to a timed operating mode so that said transmitter control means performs said detection only during said timed operating mode; and
  
  battery means, controlled by said transmitter control means, for providing electrical power to said transmitter, to said signal processing means, to said control means, and to said means for periodically switching said transmitter control means, whereby said battery means is switched to a "full on" mode when said transmitter system detects said unique down-link signal and when said satellite is within range of said transmitter.
- View Dependent Claims (2, 3, 4, 5)
- - 2. A system as defined in claim 1 wherein said signal processing means comprises:
    - a receiving antenna and an amplifier connected to said antenna for amplifying said unique down-link signal when it is received by said antenna;
      
      a first mixer connected to said amplifier for providing a first intermediate-frequency signal derived from said unique down-link signal when mixed with an oscillator signal;
      
      an oscillator stage for providing said oscillator signal to said first mixer;
      
      a filter for filtering substantially all signal frequencies except said intermediate-frequency signal of said mixer;
      
      an FM processor circuit connected to said filter, said FM processor circuit comprising means for providing a second intermediate-frequency signal, and means for amplifying and demodulating said second intermediate-frequency signal to derive a demodulated signal; and
      
      a digital conditioner circuit connected to said FM processor circuit and comprising means for dividing the frequency of said demodulated signal, and means for shaping said second intermediate-frequency signal to form a square wave signal adapted for digital input to said control means.
  - 3. A system as defined in claim 2 wherein said oscillator stage comprises a plurality of local oscillators.
  - 4. A system as defined in claim 3 wherein each said local oscillator is controlled by said control means such that a separate oscillator signal is input to said first mixer from only one local oscillator at a time.
  - 5. A system as defined in claim 4 wherein said local oscillators are controlled by said control means such that each said separate oscillator signal is input to said first mixer in sequence until said control means either determines the presence of said unique down-link signal or completes said timed operating mode.

6. A transmitter system for controlling transmissions from a portable, battery-powered earth-based transmitter to an orbiting satellite such that said transmissions are sent by said transmitter only when said transmitter system detects a unique down-link signal that indicates when said satellite is within range of said transmitter, said transmitter system comprising:
- means for receiving and amplifying said unique down-link signal;
  
  means for generating an intermediate-frequency signal from said amplified down-link signal;
  
  means for filtering said intermediate-frequency signal to remove essentially all other frequencies except said intermediate-frequency signal;
  
  means for generating a demodulated signal from said filtered intermediate-frequency signal;
  
  transmitter control means comprising means for storing information representing said unique down-link signal, and further comprising means for comparing said demodulated signal with said stored information so as to determine when they match, thereby indicating when said unique down-link signal is present, said transmitter control means thereafter turning on said transmitter so that said transmissions are sent by said transmitter only when said unique down-link signal is determined to be present;
  
  means, associated with said transmitter control means, for periodically switching said transmitter control means from a "full-stop" mode to a timed operating mode so that said transmitter control means performs said comparison only during said timed operating mode; and
  
  battery means, controlled by said transmitter control means, for providing power to said transmitter and to each of the means in the transmitter system, whereby said battery means is switched to a "full on" mode when said transmitter system detects said unique down-link signal and when said satellite is within range of said transmitter.
- View Dependent Claims (7, 8, 9, 10, 11, 12, 13, 14, 15, 16)
- - 7. A system as defined in claim 6 wherein said means for receiving and amplifying said unique down-link signal comprises a receiving antenna and an RF amplifier stage connected to said antenna.
  - 8. A system as defined in claim 7 wherein said RF amplifier stage comprises a dual-gate field-effect transistor.
  - 9. A system as defined in claim 6 wherein said means for generating said intermediate-frequency signal from said amplified down-link signal comprises:
    - a first mixer stage; and
      
      an oscillator stage connected to said first mixer stage for providing an oscillator signal which is mixed with said amplified down-link signal to provide said intermediate-frequency signal.
  - 10. A system as defined in claim 9 wherein said oscillator stage comprises a plurality of local oscillators each providing a separate oscillator signal for input to said first mixer stage, and wherein said local oscillators are each controlled by said control means such that each said separate oscillator signal is input to said first mixer stage in sequence until said control means either determines the presence of said unique down-link signal or completes said timed operating mode.
  - 11. A system as defined in claim 10 wherein said first mixer stage comprises a dual-gate field-effect transistor.
  - 12. A system as defined in claim 6 wherein said means for filtering said intermediate-frequency signal comprises a tuned transformer.
  - 13. A system as defined in claim 6 wherein said means for generating said demodulated signal from said filtered intermediate-frequency signal comprises an integrated circuit comprising means for providing a second intermediate-frequency signal derived from said first intermediate-frequency signal, and means for amplifying and demodulating said second intermediate-frequency signal.
  - 14. A system as defined in claim 6 further comprising means for digitally conditioning said demodulated signal before said demodulated signal is input to said control means for comparison with said stored information.
  - 15. A system as defined in claim 14 wherein said means for digitally conditioning said demodulated signal comprises an integrated circuit comprising means for dividing the frequency of said demodulated signal and means for shaping said demodulated signal to form a square wave signal adapted for digital input to said control means.
  - 16. A system as defined in claim 6 wherein said control means comprises a microprocessor comprising an erasable programmable read-only memory.

17. A system for controlling transmissions from a portable, battery-powered earth-based transmitter to an orbiting satellite such that said transmissions are sent by said transmitter only when said system detects a unique down-link signal that indicates when said satellite is within range of said transmitter, said system comprising:
- a receiving antenna and an amplifier stage connected to said antenna for amplifying said unique down-link signal when received by said antenna;
  
  a first mixer stage connected to said amplifier stage for mixing said amplified down-link signal with an oscillator signal so as to provide a first intermediate-frequency signal;
  
  a plurality of local oscillators connected to said first mixer stage, each said local oscillator providing a separate oscillator signal for input to said first mixer stage;
  
  a filter connected to said first mixer stage for filtering said first intermediate-frequency signal in order to remove essentially all other signal frequencies except said first intermediate-frequency signal;
  
  an FM processor integrated circuit connected to said filter, said FM processor integrated circuit comprising means for providing a second intermediate-frequency signal derived from said first intermediate-frequency signal, and means for amplifying and demodulating said second intermediate-frequency signal;
  
  a digital conditioner integrated circuit connected to said FM processor integrated circuit, said digital conditioner integrated circuit comprising means for dividing the frequency of said second intermediate-frequency signal, and means for shaping said second intermediate-frequency signal to form a square wave signal adapted for digital input;
  
  control means connected to said digital conditioner integrated circuit, said control means comprising means for digitally storing information representing said unique down-link signal, and means for comparing said digitally conditioned square wave signal with said stored information so as to determine when said unique down-link signal is present, said control means thereafter turning on said transmitter so that said transmissions are sent by said transmitter only when said unique down-link signal is determined to be present by said control means;
  
  battery means for providing electrical power to said amplifier stage, to said first mixer stage, to said FM processor integrated circuit, to said digital conditioner integrated circuit and to said control means; and
  
  means for periodically switching said control means from a "full-stop" mode to a timed operating mode so that said control means performs said comparison only during said timed operating mode.
- View Dependent Claims (18)
- - 18. A system as defined in claim 17 wherein said local oscillators are controlled by said control means such that each said separate oscillator signal is input to said first mixer stage in sequence until said control means either determines the presence of said unique down-link signal or completes said timed operating mode.

19. A method for controlling transmissions from a portable, battery-powered earth-based transmitter to an orbiting satellite such that said transmission are sent by said transmitter only when said system detects a unique down-link signal that indicates when said satellite is within range of said transmitter, said method comprising the steps of:
- receiving and amplifying at said transmitter said unique down-link signal;
  
  demodulating at said transmitter said amplified down-link signal;
  
  storing in a microprocessor at said transmitter information representing said unique down-link signal;
  
  inputting said demodulated down-link signal to said microprocessor, and said microprocessor thereafter comparing said demodulated down-link signal with said stored information so as to determine when they match, thereby indicating when said down-link signal is present;
  
  normally maintaining said microprocessor in a "full-stop" mode wherein said microprocessor is essentially turned off so that it does not perform said comparison;
  
  periodically switching said microprocessor from said "full-stop" mode to a timed operating mode so that said microprocessor only performs said comparison during said timed operating mode; and
  
  said microprocessor turning on said battery-powered transmitter so that said transmissions are sent only when said unique down-link signal is determined to be present by said microprocessor.
- View Dependent Claims (20, 21, 22, 24)
- - 20. A method as defined in claim 19 wherein said demodulating step is preceded by the steps of:
    - mixing said amplified down-link signal with an oscillator signal so as to provide a first intermediate-frequency signal; and
      
      filtering said first intermediate-frequency signal to remove essentially all signal frequencies except said first intermediate-frequency signal.
  - 21. A method as defined in claim 20 wherein said demodulating step comprises the steps of:
    - processing said first intermediate-frequency signal so as to provide a second intermediate-frequency signal;
      
      amplifying said second intermediate-frequency signal; and
      
      thereafter demodulating said second intermediate-frequency signal.
  - 22. A method as defined in claim 19 wherein said demodulating step is followed by the step of digitally conditioning said demodulated down-link signal so as to adapt said demodulated down-link signal for digital input to said microprocessor.
  - 24. A method as defined in claim 19 further comprising the steps of:
    - generating a plurality of oscillator signals;
      
      mixing in sequence each said oscillator signal with said amplified down-link signal until said microprocessor either determines the presence of said unique down-link signal or completes said timed operating mode.

23. A method as defined in claim 23 wherein said digital conditioning step comprises the steps of:
- dividing the frequency of said demodulated down-link signal; and
  
  shaping said demodulated down-link signal to form a square wave signal adapted for said digital input to said microprocessor.

25. A method of controlling transmissions from a portable, battery-powered earth-based transmitter to an orbiting satellite such that said transmissions are sent by said transmitter only when said system detects a unique down-link signal that indicates when said satellite is within range of said transmitter, said method comprising the steps of:
- receiving and amplifying at said transmitter said unique down-link signal;
  
  generating an intermediate-frequency signal at said transmitter from said amplified down-link signal;
  
  filtering said intermediate-frequency signal to remove essentially all other signal frequencies except said intermediate-frequency signal;
  
  generating a demodulated signal at said transmitter from said filtered intermediate-frequency signal;
  
  storing in a microprocessor at said transmitter information representing said unique down-link signal;
  
  inputting said demodulated down-link signal to said microprocessor, said microprocessor thereafter comparing said demodulated down-link signal with said stored information so as to determine when they match, thereby indicating when said down-link signal is present;
  
  maintaining said microprocessor in a normally "full-stop" mode wherein said microprocessor is essentially turned off;
  
  periodically switching said microprocessor from said "full-stop" mode to a timed operating mode so that said microprocessor performs said comparison only during said timed operating mode; and
  
  turning on said battery-operated transmitter when said unique down-link signal is determined to be present by said microprocessor.
- View Dependent Claims (26)
- - 26. A method as defined in claim 25 wherein said step of generating said intermediate-frequency signal from said amplified down-link signal comprises the steps of:
    - generating a plurality of oscillator signals; and
      
      mixing in sequence each said oscillator signal with said amplified down-link signal until said microprocessor either determines that said unique down-link signal is present or that said timed operating mode is completed.

27. A transmitter system for controlling transmissions from a portable battery-powered earth-based transmitter to an orbiting satellite such that said transmissions are sent by said transmitter only when said system detects a unique down-link signal that indicates when said satellite is within range of said transmitter, said transmitter system comprising:
- signal processing means for receiving, amplifying and demodulating at said transmitter said unique down-link signal so as to provide a demodulated signal when said satellite is within range of said transmitter;
  
  digital conditioning means connected to said signal processing means, said digital conditioning means comprising means for dividing the frequency and shaping the waveform of the signal output from said signal processing means to form a square wave;
  
  control means connected to said digital conditioning means, said control means comprising means for detecting when said unique down-link signal is present, said control means thereafter turning on said transmitter so that said transmissions are sent by said transmitter only when said unique down-link signal is determined to be present; and
  
  battery means for providing electrical power to said transmitter, to said signal processing means and to said control means, whereby said battery means is switched to a "full on" mode when said transmitter system detects a unique down-link signal that indicates when said satellite is within range of said transmitter.

28. A transmitter system for controlling transmissions from a portable, battery-powered earth-based transmitter to an orbiting satellite such that said transmission are sent by said transmitter only when said system detects a unique down-link signal that indicates when said satellite is within range of said transmitter, said transmitter system comprising:
- means for receiving and amplifying said unique down-link signal;
  
  means for generating an intermediate-frequency signal from said amplified down-link signal;
  
  means for filtering said intermediate-frequency signal to remove essentially all other frequencies except said intermediate-frequency signal;
  
  means for generating a demodulated signal from said filtered intermediate-frequency signal;
  
  means for dividing the frequency and shaping the waveform of said demodulated signal;
  
  control means comprising means for storing information representing said unique down-link signal, and further comprising means for comparing said demodulated signal with said stored information so as to determine when they match, thereby indicating when said unique down-link signal is present, said control means thereafter turning on said transmitter so that said transmissions are sent by said transmitter only when said unique down-link signal is determined to be present;
  
  battery means for providing power to said transmitter and to each said means; and
  
  means for periodically switching said control means from a "full-stop" mode to a timed operating mode so that said control means performs said comparison only during said timed operating mode.

29. A method for controlling transmissions from a portable, battery-powered earth-based transmitter to an orbiting satellite such that said transmissions are sent by said transmitter only when said system detects a unique down-link signal that indicates when said satellite is within range of said transmitter, said method comprising the steps of:
- receiving and amplifying said unique down-link signal;
  
  demodulating said amplified down-link signal;
  
  dividing the frequency of said demodulated down-link signal;
  
  shaping said demodulated down-link signal to form a square wave signal adapted for digital input to a microprocessor;
  
  storing in said microprocessor information representing said unique down-link signal;
  
  inputting said demodulated down-link signal to said microprocessor, and said microprocessor thereafter comparing said demodulated down-link signal with said stored information so as to determine when they match, thereby indicating when said down-link signal is present; and
  
  said microprocessor thereafter turning on said transmitter so that said transmissions are sent only when said unique down-link signal is determined to be present by said microprocessor.

Specification

Resources

Litigation Campaign Assessment

Current Assignee
Telonics Incorporated
Original Assignee
Telonics Incorporated
Inventors
Swapp, Mavin C., Beaty, David W.
Primary Examiner(s)
Ng, Jin F.

Application Number

US06/776,020
Time in Patent Office

782 Days
Field of Search

455/12, 455/49, 455/68, 455/69, 455/73, 455/77, 455/88, 455/92, 455/127, 455/166, 340/870.11, 340/870.28, 340/870.39, 340/825.54, 340/825.72, 343/6.5 R, 343/6.5 SS, 343/6.8 R, 343/7.5
US Class Current

455/68
CPC Class Codes

H04B 7/18517 Transmission equipment in e...

System and method for automatic remote activation of an earth-based satellite transmitter

First Claim

1 Assignment

0 Petitions

Accused Products

Abstract

27 Citations

29 Claims

Specification

Solutions

Use Cases

Quick Links

System and method for automatic remote activation of an earth-based satellite transmitter

First Claim

1 Assignment

Subscription Required

Subscription Required

0 Petitions

Subscription Required

Accused Products

Subscription Required

Abstract

27 Citations

29 Claims

Specification

Subscription Required

Solutions

Use Cases

Quick Links