Communication apparatus utilizing digital optical signals

US 5,315,645 A
Filed: 12/10/1990
Issued: 05/24/1994
Est. Priority Date: 12/10/1990
Status: Expired due to Fees

First Claim

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1. Communication apparatus utilizing digital optical signals, said apparatus comprising:

first input analog circuit means at a first location for receiving an input analog electrical signal;

first digital circuit means coupled to said input analog circuit means for converting said analog electrical signal to a digital electrical signal;

first optical transmission circuit means coupled to said first digital circuit means for generating and transmitting a first baseband digitally formatted optical signal;

enabling circuit means coupled to said first optical transmission circuit means for enabling said first optical transmission circuit means to transmit a connection command signal;

first optical receiving circuit means located remotely from and in line-of-sight alignment with said first optical transmission circuit means for sensing and receiving said baseband digitally formatted optical signal and for converting said baseband digital formatted optical signal to a digital electrical signal, andsecond digital circuit means coupled to said first optical receiving circuit means for converting said digital electrical signal to an output analog electrical signal, said output analog electrical signal replicating said input analog electrical signal;

said first digital circuit means further comprising a continuously variable slope delta modulation circuit and said second digital circuit means further comprising a continuously variable slope delta demodulation circuit.

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Abstract

Communication apparatus using baseband, digitally formatted optical signals provides an infrared optical communication link between a terminal unit and station unit. Pulse width modulation or continuously variable slope delta modulation digital procotols are used to encode and decode the transmitted and received digital optical signals. A microprocessor senses the presence of a connection command signal to complete the optical communication link. In one embodiment of the invention, a station unit associated with a coin operated type pay telephone instrument communicates with a remotely located terminal unit to permit a user to access and be connected to the public telephone network via the terminal unit. The station unit senses the digitally formatted optical signal and decodes it to derive the supervisory and audio frequency signals and in response to the supervisory signals causes the telephone line to be connected to and disconnected from the station unit. Electrical signals from the telephone line are digitally encoded and transmitted via the optical communication link as baseband digitally formatted optical signals to the terminal unit where they are sensed, converted to electrical digital pulses, decoded and transformed to an analog signal to excite a transducer to produce an audible signal corresponding to the audio signal on the telephone line.

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27 Claims

1. Communication apparatus utilizing digital optical signals, said apparatus comprising:
- first input analog circuit means at a first location for receiving an input analog electrical signal;
  
  first digital circuit means coupled to said input analog circuit means for converting said analog electrical signal to a digital electrical signal;
  
  first optical transmission circuit means coupled to said first digital circuit means for generating and transmitting a first baseband digitally formatted optical signal;
  
  enabling circuit means coupled to said first optical transmission circuit means for enabling said first optical transmission circuit means to transmit a connection command signal;
  
  first optical receiving circuit means located remotely from and in line-of-sight alignment with said first optical transmission circuit means for sensing and receiving said baseband digitally formatted optical signal and for converting said baseband digital formatted optical signal to a digital electrical signal, andsecond digital circuit means coupled to said first optical receiving circuit means for converting said digital electrical signal to an output analog electrical signal, said output analog electrical signal replicating said input analog electrical signal;
  
  said first digital circuit means further comprising a continuously variable slope delta modulation circuit and said second digital circuit means further comprising a continuously variable slope delta demodulation circuit.
- View Dependent Claims (3, 4, 5, 6)
- - 3. Communication apparatus as defined in claims 1 or 2 further including:
    - second input circuit means for receiving a second input analog electric signal;
      
      third digital circuit means coupled to said second input circuit means for converting said second input analog electrical signal to an encoded digital electrical signal, said third digital circuit means having an output coupled to said second optical transmission circuit means, said second optical transmission circuit means being responsive to said digital electrical signal to transmit a second baseband digitally formatted optical signal representative of said encoded digital electrical signal, andfourth digital circuit means coupled to said second optical receiving circuit means for decoding said encoded digital electrical signal and for converting said digital electrical signal to an analog electrical signal.
  - 4. Communication apparatus as defined in claim 3 further including:
    - signalling circuit means coupled to said first input circuit means for generating one or more unique control signals for use by said microprocessor to control said communication apparatus, andcontrol signal circuit recognition means coupled to said second digital circuit means and to said microprocessor circuit means for sensing said one or more unique control signals, said microprocessor producing an output control command signal in response to and corresponding to said unique control signal generated at said signalling circuit means.
  - 5. Communication apparatus as defined in claim 4 wherein said signalling circuit means comprises a dual tone multi-frequency (DTMF) generator and said control signal circuit recognition means comprises a DTMF receiver and decoder.
  - 6. Communication apparatus as defined in claim 3 wherein said first and second baseband digitally formatted optical signals are infrared optical signals.

2. Communication apparatus utilizing digital optical signals, said apparatus comprising:
- first input analog circuit means at a first location for receiving an input analog electrical signal;
  
  first digital circuit means coupled to said input circuit means for converting said analog electrical signal to a digital electrical signal;
  
  first optical transmission circuit means coupled to said first digital circuit means for generating and transmitting a first baseband digitally formatted optical signal;
  
  enabling circuit means coupled to said first optical transmission circuit means for enabling said first optical transmission circuit means to transmit a connection command signal;
  
  first optical receiving circuit means located remotely from and in line-of-sight alignment with said first optical transmission circuit means for sensing and receiving said baseband digitally formatted optical signal and for converting said baseband digital formatted optical signal to a digital electrical signal, andsecond digital circuit means coupled to said first optical receiving circuit means for converting said digital electrical signal to an output analog electrical signal, said output analog electrical signal replicating said input analog electrical signal;
  
  said first digital circuit means further comprising a pulse-width-modulation modulator and said second digital circuit means further comprising a pulse-width-modulation demodulator.

7. Communication apparatus utilizing digital optical signals, said apparatus comprising:
- first input circuit means for receiving an input analog electrical signal;
  
  first digital circuit means coupled to said input circuit means for converting said analog electrical signal to a digital electrical signal;
  
  first optical transmission circuit means coupled to said first digital circuit means for generating and transmitting a first baseband digitally formatted optical signal;
  
  first optical receiving circuit means located remotely from and in line-of-sight alignment with said first optical transmission circuit means for sensing and receiving said baseband digitally formatted optical signal and for converting said baseband digital formatted optical signal to a digital electrical signal,second digital circuit means coupled to said first optical receiving circuit means for converting said digital electrical signal to an output analog electrical signal, said output analog electrical signal replicating said input analog electrical signal;
  
  enabling circuit means coupled to said first optical transmission circuit means for enabling said first optical transmission circuit means to transmit a connection command signal;
  
  microprocessor circuit means coupled to said first optical receiving circuit means for sensing and responding to said connection command signal to generate an enable command signal;
  
  second optical transmission circuit means coupled to said microprocessor circuit means for receiving said enable command signal in response to said microprocessor sensing said connection command signal to enable said second optical transmission circuit means to transmit a digitally formatted optical signal acknowledging said connection command signal, andsecond optical receiving circuit means located in the vicinity of said first optical transmission circuit means and remotely from and in line-of-sight alignment with said second optical transmission circuit for receiving said digitally formatted optical signal carrying said acknowledgement response signal to said connection command signal whereby a two-way optical communication link between said first optical transmission circuit means and said first optical receiving circuit means and between said second optical transmission circuit means and said second optical receiving circuit means is established.
- View Dependent Claims (8)
- - 8. Communication apparatus as defined in claim 7 further including target lock signalling means coupled to said microprocessor circuit means for providing an indication that said optical communication link is established and that said first optical transmission circuit means is in line-of-sight alignment with said first optical receiving circuit means.

9. Communication apparatus utilizing infrared digital optical signals for establishing a bidirectional optical communication path between a first and second location remote from one another, said apparatus comprising:
- a terminal unit at the first location, said terminal unit including;
  
  means for receiving a first analog electrical signal;
  
  means coupled to said first analog receiving means for converting said first analog electrical signal to a first baseband digitally formatted optical signal;
  
  first means for transmitting said first baseband digitally formatted optical signal;
  
  first means for enabling said first transmitting means to transmit a first connection command signal;
  
  a station unit at the second location, said station unit including;
  
  means for receiving said first baseband digitally formatted optical signal;
  
  means coupled to said first optical receiving means for converting said received first baseband digitally formatted optical signal into a second analog electrical signal, said second analog electrical signal replicating said first analog electrical signal;
  
  means for receiving a third analog electrical signal;
  
  means coupled to said third analog receiving means for converting said third analog electrical signal to a second baseband digitally formatted optical signal;
  
  second means for transmitting said second baseband digitally formatted optical signal;
  
  second means for enabling said second transmitting means to transmit a second connection command signal;
  
  said terminal unit further including;
  
  means for receiving said second baseband digitally formatted optical signal;
  
  means coupled to said second optical receiving means for converting said received second baseband digitally formatted optical signal into a fourth analog electrical signal, said fourth analog electrical signal replicating said third analog electrical signal to establish a two-way communication connection between the first and second locations via the bi-directional optical communication path.
- View Dependent Claims (10, 11, 12, 13, 14, 15, 16, 17)
- - 10. Communication apparatus utilizing infrared digital optical signals as defined in claim 9 wherein said means for converting said first analog electrical signal and said means for converting said third analog electrical signal comprise a digital modulator, and said means for converting said received first baseband digitally formatted optical signal and said means for converting said received second baseband digitally formatted optical signal comprise a digital demodulator.
  - 11. Communication apparatus utilizing infrared digital optical signals as defined in claim 10 wherein said digital modulator and said digital demodulator comprise a continuously variable slope delta (CVSD) modulator and demodulator, respectively.
  - 12. Communication apparatus utilizing infrared digital optical signals as defined in claim 10 wherein said digital modulator and said digital demodulator comprise a pulse width modulation (PWM) modulator and demodulator, respectively.
  - 13. Communication apparatus utilizing infrared digital optical signals as defined in claim 10 further including:
    - said means for converting said first baseband digitally formatted optical signal comprising;
      
      a first photo detector for converting said infrared digital optical signals to corresponding digital electrical signals;
      
      at least one stage of first amplification circuit means coupled to said photo detector for amplifying said corresponding digital electrical signals;
      
      first switchable amplification circuit means having an input coupled to said at least one stage of amplification circuit means;
      
      first switching circuit means coupled to said first switchable amplification circuit means and having two operative states, said first operative state for bypassing said first switchable amplification circuit means and corresponding to said apparatus operating at a SHORT distance between said first and second locations and said second operative state for coupling said first switchable amplification circuit means to said digital demodulator and corresponding to said apparatus operating at a LONG distance between said first and second locations;
      
      said means for converting said second baseband digitally formatted optical signal comprising;
      
      a second photo detector for converting said infrared digital optical signals to corresponding digital electrical signals;
      
      at least one stage of second amplification circuit means coupled to said second photo detector for amplifying said corresponding digital electrical signals;
      
      second switchable amplification circuit means having an input coupled to said at least one stage of second amplification circuit means;
      
      second switching circuit means coupled to said second switchable amplification circuit means and having two operative states, said first operative state for bypassing said second switchable amplification circuit means and corresponding to said apparatus operating at said SHORT distance and said second operative state for coupling said second switchable amplification circuit means to said second digital demodulator and corresponding to said apparatus operating at said LONG distance between said first and second locations.
  - 14. Communication apparatus utilizing infrared digital optical signals as defined in claim 13 further including:
    - said means for transmitting said first baseband digitally formatted optical signal comprising first LED circuit means, andsaid means for transmitting said second baseband digitally formatted optical signal comprising second LED circuit means.
  - 15. Communication apparatus utilizing infrared digital optical signals as defined in claim 14 further including said digitally formatted optical signal being transmitted at a predetermined frequency, said predetermined frequency corresponding to a connection command signal, said communication command signal being sensed by said means for converting said first baseband digitally formatted optical signal to maintain said optical communication path.
  - 16. Communication apparatus utilizing infrared digital optical signals as defined in claim 15 further comprising said means for converting said first baseband digitally formatted optical signal including logic circuit means for sensing said communication command signal.
  - 17. Communication apparatus utilizing infrared digital optical signals as defined in claim 16 wherein said logic circuit means comprises a microprocessor having an instruction set for sensing and detecting said communication command signal to enable said second LED circuit means.

18. In combination with a telephone instrument of the general type arranged to accept coin, credit card and the like for accessing connection to the public telephone switching network, apparatus for establishing a bi-directional optical communication path between a user and the telephone switching network, said apparatus comprising:
- a station unit;
  
  a terminal unit located remotely from said station unit;
  
  said station unit having circuit means for electrically interfacing a telephone line associated with the public telephone switching network and the telephone instrument to electrically and physically couple the telephone line to the telephone instrument, said station unit having first and second operative states, said first state corresponding to the telephone line being electrically connected to the telephone instrument in the normal manner and said second state corresponding to the telephone line being electrically connected said station unit circuit means;
  
  said terminal unit having means for optically coupling said terminal unit to said station unit, said terminal unit further comprising;
  
  microphone means for sensing audio frequency signals and for converting said audio signals to baseband frequency electrical signals, said microphone means having an output;
  
  receiver earpiece means for sensing baseband frequency electrical signals carrying information in the audio frequency spectrum to convert said sensed electrical signals to sound for hearing by a user;
  
  a key pad having circuit means for generating dual tone multi-frequency (DTMF) signals at an output to dial a telephone number;
  
  supervisory circuit means for generating a baseband frequency supervisory signal representative of an "off-hook" condition for initiating a call connection with said station unit, said supervisory signal being used for sustaining said optical coupling between said station unit and said terminal unit;
  
  digital modulation circuit means for converting said baseband frequency supervisory signals and said baseband frequency audio signals to digitally modulated electrical signals;
  
  optical circuit means coupled to said digital modulation circuit means for converting said digitally modulated electrical signals into digitally modulated optical signals for transmission to said station unit;
  
  optical receiving means for sensing optical signals and for converting said sensed optical signals into digitally modulated electrical signals representative of supervisory and audio frequency signals originating at said station unit;
  
  first digital demodulation circuit means for converting said digitally modulated electrical signals into supervisory and audio baseband frequency signals;
  
  said station unit means including;
  
  optical detecting means for receiving a digitally modulated optical signal from said terminal unit to transform said optical signal to a corresponding digitally modulated electrical signal;
  
  second digital demodulation circuit means for converting said digitally modulated electrical signal into supervisory and audio baseband frequency signals;
  
  circuit means response to an "off-hook" supervisory signal for causing said station unit to operate to its second operative state and for coupling baseband frequency electrical signals appearing on the telephone line to said second digital modulation circuit means for converting said baseband frequency signals to digitally modulated electrical signals;
  
  optical transmission circuit means for converting said digitally modulated electrical signals to digitally modulated optical signals for transmission to said terminal unit, whereby audio frequency signals appearing on said telephone line are received at the earpiece of said terminal unit and audio frequency signals at the microphone of said terminal unit are received at said telephone line.
- View Dependent Claims (19, 20)
- - 19. Apparatus as defined in claim 18 wherein said digital modulation circuit means and said digital demodulation circuit means process pulse-width-modulated (PWM) electrical signals.
  - 20. Apparatus as defined in claim 19 wherein said digital modulation circuit means and said digital demodulation circuit means process continuous variable slope delta (CVSD) modulated electrical signals.

21. Communication apparatus utilizing digital optical signals, said apparatus comprising:
- first input circuit means for receiving an input analog electrical signal;
  
  first digital circuit means coupled to said input circuit means for converting said analog electrical signal to a digital electrical signal;
  
  first optical transmission circuit means coupled to said first digital circuit means for generating and transmitting a first baseband digitally formatted optical signal;
  
  enabling circuit means coupled to said first optical transmission circuit means for enabling said first optical transmission circuit means to transmit a connection command signal;
  
  first optical receiving circuit means located remotely from and in line-of-sight alignment with said first optical transmission circuit means for sensing and receiving said baseband digitally formatted optical signal and for converting said baseband digital formatted optical signal to a digital electrical signal, andsecond digital circuit means coupled to said first optical receiving circuit means for converting said digital electrical signal to an output analog electrical signal, said output analog electrical signal replicating said input analog electrical signal.

22. A communication method utilizing digital optical signals, said method comprising the steps of:
- receiving a first analog electrical signal at a first location;
  
  converting said first analog electrical signal to a first baseband digitally formatted optical signal;
  
  transmitting said first baseband digitally formatted optical signal;
  
  receiving said first baseband digitally formatted optical signal at a second location remote from said first location,converting said received first baseband digitally formatted optical signal into a second analog electrical signal, said second analog electrical signal replicating said first analog electrical signal;
  
  the step of converting said first analog electrical signal further including processing said first analog electrical signal utilizing a continuously variable slope delta (CVSD) modulation encoder and digitally encoding said first analog electrical signal at a predetermined frequency, andthe step of receiving said first baseband digitally formatted optical signal including sensing said transmitted first baseband digitally formatted signal at said predetermined frequency thereby establishing an optical communication link between the first and second location when said digitally formatted signal is sensed at said predetermined frequency at the second location and dropping said optical communication link when said digitally formatted signal is not sensed at said predetermined frequency at the second location.
- View Dependent Claims (24, 26, 27)
- - 24. A communication method as defined in claim 22 wherein the step of converting said received first baseband digitally formatted optical signal includes processing said received optical signal utilizing a continuously variable slope delta (CVSD) modulation decoder.
  - 26. A communication method as defined in claim 22 or 23 further including the steps of:
    - receiving a third analog electrical signal at the second location;
      
      converting said third analog electrical signal to a second baseband digitally formatted optical signal;
      
      transmitting said second baseband digitally formatted optical signal;
      
      receiving said second baseband digitally formatted optical signal at the said first location, andconverting said received second baseband digitally formatted signal into a fourth analog electrical signal, said fourth analog electrical signal replicating said third analog electrical signal to establish a bi-directional digital optical communication link between the first and second locations.
  - 27. A communication method as defined in claim 26 wherein the steps of converting said first and second analog electrical signals to first and second baseband digitally formatted optical signals, respectively include the step of converting said first and second analog electrically signals to digitally formatted infrared optical signals.

23. A communication method utilizing digital optical signals, said method comprising the steps of:
- receiving a first analog electrical signal at a first location;
  
  converting said first analog electrical signal to a first baseband digitally formatted optical signal;
  
  transmitting said first baseband digitally formatted optical signal;
  
  receiving said first baseband digitally formatted optical signal at a second location remote from said first location, andconverting said received first baseband digitally formatted optical signal into a second analog electrical signal, said second analog electrical signal replicating said first analog electrical signal;
  
  the step of converting said first analog electrical signal further including processing said first analog electrical signal utilizing a pulse-width-modulation (PWM) encoder and digitally encoding said first analog electrical signal at a predetermined frequency, andthe step of receiving said first baseband digitally formatted optical signal including sensing said transmitted first baseband digitally formatted signal at said predetermined frequency thereby establishing an optical communication link between the first and second location when said digitally formatted signal is sensed at said predetermined frequency at the second location and dropping said optical communication link when said digitally formatted signal is not sensed at said predetermined frequency at the second location.
- View Dependent Claims (25)
- - 25. A communication method as defined in claim 23 wherein the step of converting said received first baseband digitally formatted optical signal includes processing said received optical signal utilizing a pulse-width-modulation (PWM) decoder.

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Current Assignee
Tek Industries Inc.
Original Assignee
TEK Electronics Manufacturing Corporation
Inventors
Matheny, Mark
Primary Examiner(s)
Chin, Stephen
Assistant Examiner(s)
LOOMIS, PAUL A

Application Number

US07/624,983
Time in Patent Office

1,261 Days
Field of Search

379/144, 379/56, 379/58, 379/61, 379/155, 455/600, 455/613, 455/617, 455/608
US Class Current

379/144.01
CPC Class Codes

H04B 10/1143   Bidirectional transmission

H04M 1/737   Characterised by transmissi...

H04M 17/02   Coin-freed or check-freed s...

Communication apparatus utilizing digital optical signals

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Communication apparatus utilizing digital optical signals

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