Method and apparatus for measuring distances

US 4,804,961 A
Filed: 07/20/1987
Issued: 02/14/1989
Est. Priority Date: 12/12/1985
Status: Expired due to Fees

First Claim

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1. A method for measuring the distance between a first object, which incorporates a transmitter-receiver unit, and a second object, which incorporates a transponder, in which the transmitter-receiver unit transmits a signal to the transponder and receives a signal transmitted by the transponder, these signals being signals of microwave frequencies characterized by transmitting a first unmodulated microwave signal (S1'"'"';

S1) from the transmitter-receiver unit (1;

40);

receiving said signal (S1'"'"';

S1) in the transponder (2;

18;

41);

generating in the transponder a second signal (S3'"'"';

S3) of much lower frequency F_m ;

modulating said second signal (S3'"'"';

S3) in the transponder on a signal (S2'"'"';

S6) having a microwave frequency so that said modulated signal contains the phase of the unmodulated microwave signal received by the transponder;

transmitting the modulated signal (S7'"'"';

S7) from the transponder to the transmitter-receiver unit (1;

29;

40) in which said signal is received and mixed down with the first signal (S1'"'"';

S1) and subsequently (a) low-passed filtered, to form a first measuring signal (s10'"'"';

S10) having the frequency F_m, the phase of which corresponds to the phase difference between the first microwave signal (S1'"'"';

S1) and the microwave signal received in the transmitter-receiver unit (1;

19;

40), and (b) demodulated, therewith to obtain a second measuring signal (S12'"'"';

S12) having the frequency F_m, the phase of which corresponds to the phase of the second signal (S3'"'"';

S3) generated in the transponder; and

by comparing the phases of the measuring signals (S10'"'"';

S12'"'"';

S10;

S12) in a phase comparison circuit (13;

27), forming a phase difference therebetween, said difference between the measuring signals being due to the phase shift of the undemodulated microwave signal transmitted from the transmitter-receiver unit caused by its travel to the transponder and back again, and thereby being proportional to the distance between said two objects.

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Abstract

A method for measuring the distance between a first object, which incorporates a transmitter-receiver unit, and a second object, which incorporates a transponder. In accordance with the invention there is transmitted from the transmitter-receiver unit (19) a first microwave signal (S1), which is received in the transponder (18). A second signal (S3) of much lower frequency F_m is generated in the transponder and is modulated on a signal (S6) of microwave frequency in the transponder to form a modulated signal (S7). The modulated signal (S7) is transmitted from the transponder to the transmitter-receiver unit (19), where it is received and mixed down with the first signal (S1) and thereafter is (a) low-pass filtered to form a first measuring signal (S10) having the frequency F_m, the phase of which corresponds to the phase difference between the first microwave signal (S1) and the microwave signal (S8) received in the transmitter-receiver unit (19) and (b) de-modulated, thereby to form a second measuring signal (S12) having the frequency F_m, the phase of which corresponds to the phase of the second signal (S3) generated in the transponder (18). The phases of the two measuring signals (S10, S12) are compared in a phase comparison circuit (27) to form a difference therebetween, this difference being proportional to the distance between the objects.

111 Citations

15 Claims

1. A method for measuring the distance between a first object, which incorporates a transmitter-receiver unit, and a second object, which incorporates a transponder, in which the transmitter-receiver unit transmits a signal to the transponder and receives a signal transmitted by the transponder, these signals being signals of microwave frequencies characterized by transmitting a first unmodulated microwave signal (S1'"'"';
- S1) from the transmitter-receiver unit (1;
  
  40);
  
  receiving said signal (S1'"'"';
  
  S1) in the transponder (2;
  
  18;
  
  41);
  
  generating in the transponder a second signal (S3'"'"';
  
  S3) of much lower frequency F_m ;
  
  modulating said second signal (S3'"'"';
  
  S3) in the transponder on a signal (S2'"'"';
  
  S6) having a microwave frequency so that said modulated signal contains the phase of the unmodulated microwave signal received by the transponder;
  
  transmitting the modulated signal (S7'"'"';
  
  S7) from the transponder to the transmitter-receiver unit (1;
  
  29;
  
  40) in which said signal is received and mixed down with the first signal (S1'"'"';
  
  S1) and subsequently (a) low-passed filtered, to form a first measuring signal (s10'"'"';
  
  S10) having the frequency F_m, the phase of which corresponds to the phase difference between the first microwave signal (S1'"'"';
  
  S1) and the microwave signal received in the transmitter-receiver unit (1;
  
  19;
  
  40), and (b) demodulated, therewith to obtain a second measuring signal (S12'"'"';
  
  S12) having the frequency F_m, the phase of which corresponds to the phase of the second signal (S3'"'"';
  
  S3) generated in the transponder; and
  
  by comparing the phases of the measuring signals (S10'"'"';
  
  S12'"'"';
  
  S10;
  
  S12) in a phase comparison circuit (13;
  
  27), forming a phase difference therebetween, said difference between the measuring signals being due to the phase shift of the undemodulated microwave signal transmitted from the transmitter-receiver unit caused by its travel to the transponder and back again, and thereby being proportional to the distance between said two objects.
- View Dependent Claims (2, 3, 4, 5, 6, 7, 8)
- - 2. A method according to claim 1, characterized by modulating the second signal (S3'"'"';
    - S3) on a subcarrier wave (S4'"'"';
      
      S4) generated in the transponder (2;
      
           41) by means of an oscillator (15;
      
           30), said subcarrier wave having a significantly lower frequency than the microwave signal (S7'"'"';
      
      S7) transmitted by the transponder but, at the same time, having a much higher frequency than the signal (S3'"'"';
      
      S3) generated in the transponder and having the aforesaid frequency F_m ;
      
      modulating the subcarrier wave on the microwave signal (S2'"'"';
      
      S6) as beforementioned, whereafter the thus modulated signal (S7'"'"';
      
      S7) is transmitted by the transponder (2;
      
      18;
      
           41) and received by the transmitter-receiver unit (1;
      
      19;
      
           40) where said demodulation is effected by passing the received and down-mixed signal (S9'"'"';
      
      S9) through a bandpass filter and a detector means.
  - 3. A method according to claim 1, when the transponder used is a passive transponder, characterized by generating the signal (S3'"'"') produced in the transponder (2) by means of an oscillator and modulating the signal when said subcarrier wave (S4'"'"');
    - and by adding the thus modulated signal (S5'"'"') to said generated signal (S3'"'"') having the frequency F_m, to produce a summation signal (S6'"'"') which is caused to modulate the microwave signal (S2'"'"') transmitted by the transmitter-receiver unit (1) and received by the transponder (2), the thus modulated signal (S7'"'"') being sent to the transmitter-receiver unit (1).
  - 4. A method according to claim 1, when the transponder used is a so-called active transponder, characterized by generating in the transponder (18;
    - 41) a microwave signal having the frequency F2 (S6) with the aid of an oscillator (32);
      
      mixing the microwave signal with the microwave signal (S2) of frequency F1 received by the transponder (18;
      
           41), therewith forming the frequency differential F2-F1, which constitutes said generated signal (S3'"'"') having the frequency F_m ;
      
      modulating the last mentioned signal (S3'"'"') with said subcarrier wave (S4) in a second modulator (34), therewith to produce a modulated signal (S5); and
      
      by modulating the microwave signal (S6) generated in the transponder (18;
      
           41) with the aforesaid modulated signal (S5) in a first modulator (31), therewith to produce a further modulated signal (S7) which is sent to the transmitter-receiver unit (19;
      
           40).
  - 5. A method according to claim 1, characterized by transmitting a plurality of microwave frequencies in successive order, and determining the occurrent phase differences in the phase comparison circuit (13;
    - 17) in succession.
  - 6. A method according to claim 5 when the transponder used is a so-called active transponder, characterized by shifting the transmitter-receiver unit and the transponder synchronously between mutually different microwave frequencies, by transmitting from the transmitterreceiver unit (40) a synchronizing pulse which is received by the transponder (41) and which is intended to start a clock (52;
    - 53) in each of the transmitter-receiver unit and the transponder, said clocks (52;
      
      53) being constructed to cause said two units (40,41) to generate simultaneously a succession of pre-determined microwave frequencies.
  - 7. A method according to claim 6, characterized in that the differential frequency F2-F1 between the respective pre-determined microwave frequencies generated in the transmitter-receiver unit (40) and in the transponder (41) is constant.
  - 8. A method according to claim 1 when a multiple of transponders are located within a measuring area, characterized by providing each transponder (41) with an individual code, which is stored in said each transponder;
    - transmitting from the transmitter-receiver unit (40) a coded signal prior to measuring the distance from a given transponder (41), this coded signal being received by all the transponders (41); and
      
      by activating that transponder (41) in which the code stored therein coincides with the transmitted code, so as to cause said transponder to transmit said microwave signal (57) to the transmitter-receiver unit (40).

9. Apparatus for measuring the distance between a first object, incorporating a transmitter-receiver unit, and a second object, incorporating a transponder, in which apparatus the transmitter-receiver unit is constructed to transmit a signal of microwave frequency to the transponder and to receive a signal of microwave frequency transmitted therefrom, characterized in that the transmitter-receiver unit (1;
- 19;
  
  40) includes a microwave oscillator (7;
  
  20) and a transmitting aerial (3;
  
  21) and receiving aerial (4;
  
  22);
  
  that the transponder (2;
  
  18;
  
  41) includes a receiving aerial (6;
  
  28) and a transmitting aerial (5;
  
  29), the transponder being intended to receive an unmodulated microwave signal (S1'"'"';
  
  S1) transmitted from the transmitter-receiver unit;
  
  that the transponder incorporates signal generating means (8;
  
  32;
  
  33) for generating a second signal (S3'"'"';
  
  S3) of much lower frequency F_m than the frequency of the unmodulated microwave signal;
  
  that a first modulator (17;
  
  31) is provided in the transponder for modulating said second signal (S3'"'"';
  
  S3) on a signal (S2'"'"';
  
  S6) having a microwave frequency so that said modulated signal contains the phase of the unmodulated microwave signal received by the transponder, which transponder is constructed to transmit this modulated signal to the transmitter-receiver unit, which unit is constructed to receive said signal;
  
  that the transmitter-receiver unit includes a mixer (9;
  
  23) for mixing down the received signal (S8'"'"';
  
  S8) with the frequency generated by the microwave oscillator (7;
  
  20); and
  
  in that the transmitter-receiver unit is constructed to divide a thus received signal, partly via a low-pass filter (10;
  
  24) so as to produce a measuring signal (S10'"'"';
  
  S10) having the aforesaid frequency F_m the phase of which corresponds to the phase difference between the phase of the signal (S1'"'"';
  
  S1) transmitted from the transmitter-receiver unit and the phase of the signal (S8'"'"';
  
  S8) received in said unit, and partly via a detector circuit (11,12;
  
  25,26) for demodulating the signal received by the transmitter-receiver unit, thereby to form a second measuring signal (S12'"'"';
  
  S12) having the frequency F_m, the phase of which corresponds to the phase of the signal (S3'"'"';
  
  S3) of frequency F_m generated in the transponder (2;
  
  18;
  
  41); and
  
  in that the transmitter-receiver unit (1;
  
  19;
  
  40) incorporates a phase comparison circuit (13;
  
  27) for comparing the phases of the aforesaid measuring signals, the difference between the measuring signals being due to the phase shift of the unmodulated microwave signal transmitted from the transmitter-receiver unit caused by its travel to the transponder and back again, which is proportional to the distance (R) between said objects.
- View Dependent Claims (10, 11, 12, 13, 14, 15)
- - 10. Apparatus according to claim 9, characterized in that the transponder (2;
    - 18;
      
           41) incorporates an oscillator (8;
      
           30) for generating a subcarrier wave (S4'"'"';
      
      S4) having a frequency which is much lower than the frequency of the microwave signal (S2'"'"';
      
      S6) transmitted by the transponder, but which, at the same time, is substantially higher than the aforesaid frequency F_m ;
      
      that the transponder includes a second modulator (14;
      
           34) which in intended to modulate said generated signal of frequency F_m on the subcarrier wave (S4'"'"';
      
      S4);
      
      in that the first modulator (17;
      
           31) is constructed to modulate the thus modulated subcarrier wave (S5'"'"';
      
      S5) on the microwave signal (S2'"'"';
      
      S6) present in the transponder, therewith to produce a signal (S7'"'"';
      
      S7) which is passed to the transmitting aerial (5;
      
           29) of the transponder; and
      
      in that the detector circuit incorporated in the transmitter-receiver unit (1;
      
      19;
      
           40) includes a bandpass filter (11;
      
           25) and a detector (12;
      
           26).
  - 11. Apparatus according to claim 10 when the transponder used is a so-called passive transponder, characterized in that the transponder (2) incorporated an oscillator (8) for generating said signal (S3'"'"') having the frequency F_m ;
    - in that located between the second modulator (14) and the first modulator (17) is a third modulator (16) which is constructed to modulate the aforesaid modulated subcarrier wave (S4'"'"') arriving from said secondmodulator (14) with said signal (S3'"'"') having the frequency F_m ; and
      
      in that the first modulator (17) is constructed to modulate the signal (S6'"'"') generated in the third modulator (16) with the microwave signal (S2'"'"'), which is therewith transmitted fromthe transponder (2).
  - 12. Apparatus according to claim 10 when the transponder used is a so-called active transponder, characterized in that the transponder (18;
    - 41) incorporates a microwave oscillator (32) for generating a microwave signal (S6), and a mixer (33) which is intended to form a signal (S3) with the differential frequency F_m between the last mentioned microwave signal (S6) and the microwave signal (S2) received by the transponder (2), the signal thus formed constituting said signal (S3) having the frequency F_m ;
      
      in that the second modulator (34) is constructed to modulate the last mentioned signal (S3) with said subcarrier wave (S4);
      
      in that said first modulator (31) is constructed to modulate the signal (S5) arriving from the second modulator (34) with the signal (S6) arriving from the microwave oscillator (32) of the transponder (18;
      
      41), the resultant modulated signal being transmitted by means of the transmitting aerial (29) of the transponder (18;
      
      41).
  - 13. Apparatus according to claim 12, characterized in that both the transmitter-receiver unit (40) and the transponder (41) incorporate a sequence generator (42;
    - 43) for controlling a frequency synthesizer (44;
      
      45) with an associated frequency memory (46;
      
      47) having stored therein a pre-determined series of frequencies of microwave frequency, said frequency synthesizers (44;
      
      45) being intended to steer the microwave oscillator (20;
      
      32) of respective units (40;
      
      41) such as to cause said oscillator to generate said series of frequencies;
      
      in that said sequence generator (42;
      
      43) is connected to a clock (52;
      
      53) which is intended to steer said sequence generator (42;
      
      43) in a manner to cause the generator to pass through a sequence in which said series of frequencies are generated in a successive order;
      
      in that said clocks (52;
      
      53) are constructed to be activated and to operate simultaneously with one another upon receipt of a respective synchronizing pulse; and
      
      in that the transmitter-receiver unit (40) incorporates a control unit (54) which is constructed to generate said synchronizing pulse; and
      
      in that means (60;
      
      56-50;
      
      61-63, 74-76) are provided for transmitting the synchronizing pulse to the clock (52) of the transmitter-receiver unit (40) and to the clock (53) of the transponder (41).
  - 14. Apparatus according to claim 13, characterized in that the transmitter-receiver unit (40) is provided with a modulator (58) located between the microwave oscillator (20) and the transmitter aerial (21) of said unit, said modulator (58) being steered by the control unit (54) in a manner to modulate a pulse train on the microwave signal (S6) to be transmitted;
    - and in that the transponder (41) incorporates a detector circuit (61-63) for de-modulating said pulse train.
  - 15. Apparatus according to claim 14, characterized in that when a multiple of transponders (41) are used, each of the transponders is provided with an individual code stored in a memory (69);
    - in that a decoder (70) is provided for comparing the code stored in the memory (69) with a code transmitted from the transmitter-receiver unit (40) in the form of a pulse train, which is de-modulated by means of said detector circuit; and
      
      in that the decoder (70) is intended to activate the transponder (41) for frequencies and transmitting said series of frequencies, when agreement is found between said compared codes.

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Current Assignee
Stiftelsen Institutet For Mikrovagsteknik Vid Tekniska Hogskolan I Stockholm
Original Assignee
Stiftelsen Institutet For Mikrovagsteknik Vid Tekniska Hogskolan I Stockholm
Inventors
Hane, Bengt
Primary Examiner(s)
Tubbesing, T. H.
Assistant Examiner(s)
Hellner, Mark

Application Number

US07/088,848
Time in Patent Office

575 Days
Field of Search

342/43, 342/112, 342/118, 342/125, 342/127, 342/129, 342/42
US Class Current

342/125
CPC Class Codes

G01S 13/84 for distance determination ...

Method and apparatus for measuring distances

First Claim

1 Assignment

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Abstract

111 Citations

15 Claims

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Method and apparatus for measuring distances

First Claim

1 Assignment

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Subscription Required

0 Petitions

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Accused Products

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Abstract

111 Citations

15 Claims

Specification

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Use Cases

Quick Links

Others