Circuit arrangement for converting a bridge unbalance into a frequency variation
First Claim
1. A circuit for the conversion of an unbalance of a resistor bridge into a frequency variation of an RC-oscillator which is proportional thereto comprising, a resistor bridge having input terminals coupled to a voltage supply terminal of the RC-oscillator, means connecting the output terminals of the bridge to the input terminals of a compensation amplifier, a first controllable resistor controlled by the output voltage of the compensation amplifier, a negative feedback operational amplifier having an input connected to the voltage supply terminal via the first controllable resistor, means connecting the first controllable resistor and the operational amplifier in circuit so as to form a part of a frequency determining network of the RC-oscillator, a further amplifier connected to the output of the operational amplifier via an all-pass network which includes three ohmic resistors and a capacitor, one of said network resistors comprising a second controllable resistor connected to a point of reference potential, means connecting the output of the further amplifier to the input of an integrator and an amplitude detector to the output of the integrator, means coupling the detector to the second controllable resistor of the all-pass network so that the detector controls the second controllable resistor in a manner such that the voltage at the output of the integrator is constant, means coupling the output of the integrator to said voltage supply terminal, at least one differentiation circuit and one integration circuit coupled to the oscillator, means coupling a compensation voltage developed at the output of the negative feedback operational amplifier to the input of the compensation amplifier, and means coupling the output voltages of the differentiation and integration circuits to the input of the compensation amplifier so as to be superimposed on the compensation voltage.
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Abstract
The bridge unbalance of a measuring bridge including a measuring transducer is converted into a frequency variation of an RC-oscillator. Since measuring transducers often have characteristics which are not exactly linear, such a conversion, which exactly compensates for said non-linearity, would be effective. For this purpose, correction voltages are derived from the voltages supplied by the oscillator by means of differentiation circuits and integration circuits, which voltages are proportional to the positive respectively the negative powers of the frequency. The differentiation circuits and integration circuits respectively are supplied with oscillator voltages such that at their outputs voltages of the correct phase are obtained. The voltages from the differentiation circuits and integration circuits are added via summing resistors and are superimposed on the compensation voltage of the oscillator.
12 Citations
15 Claims
- 1. A circuit for the conversion of an unbalance of a resistor bridge into a frequency variation of an RC-oscillator which is proportional thereto comprising, a resistor bridge having input terminals coupled to a voltage supply terminal of the RC-oscillator, means connecting the output terminals of the bridge to the input terminals of a compensation amplifier, a first controllable resistor controlled by the output voltage of the compensation amplifier, a negative feedback operational amplifier having an input connected to the voltage supply terminal via the first controllable resistor, means connecting the first controllable resistor and the operational amplifier in circuit so as to form a part of a frequency determining network of the RC-oscillator, a further amplifier connected to the output of the operational amplifier via an all-pass network which includes three ohmic resistors and a capacitor, one of said network resistors comprising a second controllable resistor connected to a point of reference potential, means connecting the output of the further amplifier to the input of an integrator and an amplitude detector to the output of the integrator, means coupling the detector to the second controllable resistor of the all-pass network so that the detector controls the second controllable resistor in a manner such that the voltage at the output of the integrator is constant, means coupling the output of the integrator to said voltage supply terminal, at least one differentiation circuit and one integration circuit coupled to the oscillator, means coupling a compensation voltage developed at the output of the negative feedback operational amplifier to the input of the compensation amplifier, and means coupling the output voltages of the differentiation and integration circuits to the input of the compensation amplifier so as to be superimposed on the compensation voltage.
- 5. A measuring apparatus for converting a resistance variation into a corresponding frequency variation of an oscillator comprising, a resistance bridge having a resistor with a non-linear characteristic in one arm thereof, a compensation amplifier with its input coupled to the output of the resistance bridge, an oscillator comprising, in cascade, an all-pass network, a first amplifier, an integrator and a negative feedback amplifier, said all-pass network including a first controllable resistor and a capacitor, means responsive to the integrator output signal for varying said first controllable resistor so as to maintain the integrator output voltage constant, a voltage supply terminal coupling the output of the integrator to the input of the resistance bridge, a second controllable resistor coupled between the integrator output and an input of the negative feedback amplifier and controlled by the output voltage of the compensation amplifier, means coupling the output of the negative feedback amplifier to the input of the all-pass network, means coupling the output of the negative feedback amplifier to the input of the compensation amplifier to supply a compensation voltage thereto, a network for deriving a plurality of non-linear frequency-dependent voltages comprising differentiation circuit means and integration circuit means of at least partly different order, means coupling the input of said network to circuit points in the oscillator such that the voltages derived at the output of the network are in phase with or in phase opposition to the compensation voltage, and means coupling the voltages at the network output to the input of the compensation amplifier.
Specification