Title: A.C. Bridges

I claim:

1. An a.c. bridge comprising

a first arm including an element having a standard resistance;

a second arm including an element having a standard reactance, one end of said second arm being connected to one end of said first arm;

a third arm having terminals for connection to an unknown impedance, one end of said third arm being connected to the other end of said first arm;

a fourth arm comprising a resistive circuit including first and second variable resistance elements, said fourth arm being connected between the other ends of said second and third arms, said second variable resistance having a movable tap;

an a.c. voltage source;

means for connecting one terminal of said source to the junction between said first and second arms and the other terminal of said source to the junction between said third and fourth arms;

first and second phase-sensitive rectifier circuits each having an input terminal and a reference signal terminal;

means for coupling an unbalance signal from the junction between said first and third arms and said movable tap of said second variable resistance to the input of each of said rectifier circuits;

circuit means for supplying a first a.c. reference signal having a predetermined phase relation with the voltage developed across the unknown impedance to said reference input terminal of said first rectifier circuit to synchronize said rectifier circuit;

circuit means for supplying a second a.c. reference signal having a second predetermined phase relation with the voltage developed across the unknown impedance to synchronize said rectifier circuit; and

indicating means coupled to the outputs of the phase-sensitive rectifier circuits for indicating the senses of their output signal levels;

the magnitude of said first resistive element being adjustable until the phase difference between the unbalance signal at the input of said first rectifier circuit and the first reference signal supplied thereto is at a predetermined value,

said movable tap on said second variable resistance being subsequently adjustable until the phase difference between the signal at the input of said second rectifier circuit and said second reference signal supplied thereto is at a predetermined value, without affecting the phase relation between the signal at the input of the first rectifier circuit and the first a.c. reference signal to balance the bridge.

2. An a.c. bridge according to claim 1, in which the first and second resistive elements are arranged in parallel in the fourth arm.

3. An a.c. bridge according to claim 1, in which the resistance of the second resistive element is much larger than the reactance of the standard capacitor and the second resistive element and standard capacitor are arranged in parallel.

4. An a.c. bridge according to claim 1, 2 or 3 including means for coupling it to measuring means for determining the reactance of said unknown impedance.

5. An a.c. bridge according to claim 4, in which the measuring means is arranged to determine the resistive component of the unknown impedance.

6. An a.c. bridge according to claims 1 or 2, in which the fourth arm of the bridge is coupled to a source of a d.c. reference voltage to provide a d.c. current through the first and second resistive elements and the measuring means is a d.c. responsive voltmeter.

7. An a.c. bridge according to claim 1 or 2 in which the first a.c. reference signal is a voltage in quadrature with the boltage developed, in operation, across the unknown impedance and the first said resistance element is adjusted for minimum phase difference as indicated by a minimum value at the output of the first phase sensitive rectifier.

8. An a.c. bridge according to claim 7, in which the second a.c. reference signal is in-phase with the voltage developed, in operation, across the unknown impedance and the second resistive element is adjusted until the amplitude of the unbalance signal at the input of the second phase sensitive rectifier is at a minimum value as indicated by a minimum value at the output of the second phase sensitive rectifier.

9. An a.c. bridge according to claim 1 or 2 in which the first and second resistive elements are continuously variable elements and their d.c. resistance values are substantially equal to their a.c. resistance value at the operational frequencies of the a.c. bridge supply.

10. An a.c. bridge according to claim 1 or 2 in which the second resistive element is a potential divider coupled in parallel with the first resistive element and the phase-sensitive rectifiers are arranged with one of their inputs coupled to the variable resistance tap on the second resistive element.

11. An a.c. bridge according to claim 1 or 2 in which the standard reactance element is chosen to have a reactance which is equal to or less than the lowest resistance of the resistive circuit at the frequency of the a.c. bridge supply.

12. An a.c. bridge according to claim 1 or 2 in which the standard resistance is variable in decade steps to facilitate selection of an appropriate measuring range for the bridge.

13. An a.c. bridge according to claim 1 or 2 including means for disconnecting the resistive circuit from the bridge and substituting a resistor having a value substantially equal to the maximum value thereof while setting the value of the standard resistor to a selected value.


Other info:


Inventors: Tait, David A. G. (34 Mount St., Dorking, Surrey, GB2)

Application Number: 06/055171
Filing Date: 1979-07-06
Publication_date: 1981-07-14
Assignee: Tait, David A. G.

Primary Class(es): 324/725 324/62, 324/57R, 324/DIG.1, 324/59
Other Classes: G01R17/10; G01R17/00; G01R27/00; G01R27/02; G01R27/26
US Patent Ref:

2968180

January, 1961

Schafer

324/57R

Other Refs:
Primary Examiner: Karlsen, Ernest F.
Assistant Examiner:
Attorney: Roylance, Abrams, Berdo & Farley