Single frequency time division duplex transceiver

US 5,123,008 A
Filed: 03/13/1989
Issued: 06/16/1992
Est. Priority Date: 03/16/1988
Status: Expired due to Term

First Claim

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1. A time division duplex transceiver comprising a transmitter section and a receiver section;

wherein the transmitter section includes common circuitry which is common to circuitry in the receiver section;

wherein switch means are provided for switching the common circuitry alternately between the two sections at a transmit/receive alternation frequency;

wherein the receiver section is of the superheterodyne type and comprises a local oscillator and a mixer, and an IF stage, said mixer receiving an incoming signal from an aerial and a signal from the local oscillator, which signals are mixed to produce a difference frequency for application to the IF stage, and wherein the transmitter section comprises an oscillator which is common to the local oscillator in the receiver section and an RF amplifier for amplifying the output of said oscillator for application to the aerial;

wherein the local oscillator is switchable between a first frequency for receive and a second frequency for transmit, and wherein the frequency difference between said first frequency and said second frequency is equal to the frequency of the IF stage, or a multiple thereof;

wherein the local oscillator comprises a voltage controlled oscillator VCO forming part of a main phase locked loop, said phase locked loop further comprising a phase detector for detecting the phase difference between a first input derived from the output of the VCO and a second input derived from a reference oscillator, and a loop filter for low pass filtering the output of said phase detector for application to the frequency control input of said VCO;

and wherein the reference oscillator for the main phase locked loop comprises a crystal controlled oscillator having switchable output frequencies for transmit and receive.

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Abstract

A time division duplex transceiver incorporating a dual conversion superheterodyne receiver, and in which the first receiver local oscillator doubles as the frequency source for the transmitter. The oscillator is a voltage controlled oscillator VCO forming part of a mixer-type phase locked loop. Frequency deviation in the loop is achieved by mixing the VCO output with a selected harmonic of the output of the second receiver local oscillator. The reference oscillator is a crystal controlled oscillator whose output is switched as between transmit mode and receive mode at a switch before being passed to the loop phase detector. The transceiver is able to rapidly and repeatedly alternate between transmit and receive modes and is thus well suited to time division multiplex operation.

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12 Claims

1. A time division duplex transceiver comprising a transmitter section and a receiver section;
- wherein the transmitter section includes common circuitry which is common to circuitry in the receiver section;
  
  wherein switch means are provided for switching the common circuitry alternately between the two sections at a transmit/receive alternation frequency;
  
  wherein the receiver section is of the superheterodyne type and comprises a local oscillator and a mixer, and an IF stage, said mixer receiving an incoming signal from an aerial and a signal from the local oscillator, which signals are mixed to produce a difference frequency for application to the IF stage, and wherein the transmitter section comprises an oscillator which is common to the local oscillator in the receiver section and an RF amplifier for amplifying the output of said oscillator for application to the aerial;
  
  wherein the local oscillator is switchable between a first frequency for receive and a second frequency for transmit, and wherein the frequency difference between said first frequency and said second frequency is equal to the frequency of the IF stage, or a multiple thereof;
  
  wherein the local oscillator comprises a voltage controlled oscillator VCO forming part of a main phase locked loop, said phase locked loop further comprising a phase detector for detecting the phase difference between a first input derived from the output of the VCO and a second input derived from a reference oscillator, and a loop filter for low pass filtering the output of said phase detector for application to the frequency control input of said VCO;
  
  and wherein the reference oscillator for the main phase locked loop comprises a crystal controlled oscillator having switchable output frequencies for transmit and receive.
- View Dependent Claims (2, 3, 4)
- - 2. A transceiver as claimed in claim 1 wherein the crystal controlled reference oscillator itself comprises two further phase locked loops, each loop incorporating a programmable divider whose division ratio is set, one for transmit and one for receive, and a switch means for selecting the output from one or the other of said further phase locked loops depending upon whether the transceiver is in a transmit mode or a receive mode for application to the main phase locked loop.
  - 3. A transceiver as claimed in either one of claims 1 or 2 in which the main phase locked loop is of the mixer type and additionally incorporates a mixer which mixes the VCO output frequency with the output from a further oscillator, and a filter means for filtering the frequency difference output from said mixer for application to the phase detector.
  - 4. A transceiver as claimed in either one of claims 1 or 2, wherein the receiver section is of the dual conversion type and comprises a further second local oscillator, a further second mixer and a further second IF stage, the second mixer receiving a signal from the first IF stage and a signal from the second local oscillator, which signals are mixed to produce a difference frequency for application to the second IF stage.

5. A time division duplex tranceiver comprising a transmitter section and a receiver section, wherein the transmitter section includes common circuitry which is common to circuitry in the receiver section, and wherein switch means are provided for automatically switching the common circuitry alternately between the two sections at a predetermined transmit/receive alternation frequency;
- wherein the receiver section is of the superheterodyne type and comprises a local oscillator and a mixer, and an IF stage, said mixer receiving an incoming signal from an aerial and a signal from the local oscillator, which signals are mixed to produce a difference frequency for application to the IF stage, and wherein the transmitter section comprises an oscillator which is common to the local oscillator in the receiver section and an RF amplifier for amplifying the output of said oscillator for application to the aerial;
  
  wherein the local oscillator is switchable between a first frequency for receive and a second frequency for transmit, and wherein the frequency difference between said first frequency and said second frequency is equal to the frequency of the IF stage, or a multiple thereof;
  
  wherein the local oscillator comprises a voltage controlled oscillator VCO forming part of a main phase locked loop, said phase locked loop further comprising a phase detector for detecting the phase difference between a first input derived from the output of the VCO and a second input derived from a reference oscillator, and a loop filter for low pass filtering the output of said phase detector for application to the frequency control input of said VCO; and
  
  wherein the reference oscillator for the main phase locked loop comprises a crystal controlled oscillator having switchable output frequencies for transmit and receive.
- View Dependent Claims (6, 7, 8)
- - 6. A transceiver as claimed in claim 5 wherein the crystal controlled reference oscillator itself comprises two further phase locked loops, each loop incorporating a programmable divider whose division ratio is set, one for transmit and one for receive, and a switch means for selecting the output from one or the other of said further phase locked loops depending upon whether the transceiver is in a transmit mode or a receive mode for application to the main phase locked loop.
  - 7. A transceiver as claimed in either one of claims 5 or 6 in which the main phase locked loop is of the mixer type and additionally incorporates a mixer which mixes the VCO output frequency with the output from a further oscillator, and a filter means for filtering the frequency difference output from said mixer for application to the phase detector.
  - 8. A transceiver as claimed in any one of claims 5 or 6, whereing the receiver section is of the dual conversion type and comprises a further second local oscillator, a further second mixer and a further second IF stage, the second mixer receiving a signal from the first IF stage and a signal from the second local oscillator, which signals are mixed to produce a difference frequency for application to the second IF stage.

9. A time division duplex transceiver comprising a transmitter section and a receiver section;
- wherein the transmitter section includes common circuitry which is common to circuitry in the receiver section;
  
  wherein switch means are provided for switching the common circuitry alternately between the two sections at a transmit/receive alternation frequency;
  
  wherein the receiver section is of the superheterodyne type and comprises a local oscillator and a mixer, and an IF stage, said mixer receiving an incoming signal from an aerial and a signal from the local oscillator, which signals are mixed to produce a difference frequency for application to the IF stage, and wherein the transmitter section comprises an oscillator which is common to the local oscillator in the receiver section and an RF amplifier for amplifying the output of said oscillator for application to the aerial;
  
  wherein the local oscillator is switchable between a first frequency for receive and a second frequency for transmit,wherein the frequency difference between said first frequency and said second frequency is equal to the frequency of the IF stage, or a multiple thereof;
  
  wherein said transmitter section transmits and the receiver section receives at the same frequency;
  
  wherein the local oscillator comprises a voltage controlled oscillator VCO forming part of a main phase locked loop said phase locked loop further comprising a phase detector for detecting the phase difference between a first input derived from the output of the VCO and a second input derived from a reference oscillator, and a loop filter for low pass filtering the output of said phase detector for application to the frequency control input of said VCO; and
  
  wherein the reference oscillator for the main phase locked loop comprises a crystal controlled oscillator having switchable output frequencies for transmit and receive.
- View Dependent Claims (10, 11, 12)
- - 10. A transceiver as claimed in claim 9 wherein the crystal controlled reference oscillator itself comprises two further phase locked loops, each loop incorporating a programmable divider whose division ratio is set, one for transmit and one for receive, and a switch means for selecting the output from one or the other of said further phase locked loops depending upon whether the transceiver is in a transmit mode or a receive mode for application to the main phase locked loop.
  - 11. A transceiver as claimed in either one of claims 9 or 10 in which the main phase locked loop is of the mixer type and additionally incorporates a mixer which mixes the VCO output frequency with the output from a further oscillator, and a filter means for filtering the frequency difference output from said mixer for application to the phase detector.
  - 12. A transceiver as claimed in any one of claims 9 or 10, wherein the receiver section is of the dual conversion type and comprises a further second local oscillator, a further second mixer and a second IF stage, the second mixer receiving a signal from the first IF stage and a signal from the second local oscillator, which signals are mixed to produce a difference frequency for application to the second IF stage.

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Current Assignee
Avaya Incorporated
Original Assignee
Shaye Communications Ltd (AT&T, Inc.)
Inventors
Beesley, Graham E.
Primary Examiner(s)
Olms, Douglas W.
Assistant Examiner(s)
KIZOU, HASSAN

Application Number

US07/322,059
Time in Patent Office

1,191 Days
Field of Search

370/29, 370/109, 370/32, 370/32.1, 370/24, 370/27, 455/76, 455/78, 455/83, 455/84, 455/86, 455/79, 455/82, 455/87
US Class Current

370/280
CPC Class Codes

H04B 1/408 the transmitter oscillator ...

H04B 1/56 with provision for simultan...

Single frequency time division duplex transceiver

First Claim

5 Assignments

0 Petitions

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Abstract

79 Citations

12 Claims

Specification

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Single frequency time division duplex transceiver

First Claim

5 Assignments

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Subscription Required

0 Petitions

Subscription Required

Accused Products

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Abstract

79 Citations

12 Claims

Specification

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Solutions

Use Cases

Quick Links