SU824078A1 - Converter of resonance circuit parameters to electrical oscillation period - Google Patents

Description

(54) RESONANT CONVERTER CIRCUIT PARAMETER DURING NOSTA converting electrical oscillations caused by the accumulation of errors occurring in successive x converting the output voltage of the amplifier DC, carrying information about the significance of the measured parameters, namely, differentiation, integration and scaling analog signals. Accurate performance of the differentiation operation is not possible due to the inconsistency of the requirement of an infinite increase in the gain factor with increasing frequency. In addition, the differentiator sharply exacerbates high-frequency interference and is prone to self-excitation, which forces the use of corrective circuits that further distort the transformation function. The purpose of the invention is to improve the accuracy of the conversion. The goal is achieved by the fact that in a converter containing an integrator, a DC amplifier at the input of which is included a parallel resonant circuit (reference element), and in a negative feedback circuit - a reference element (series resonant circuit), a comparator, the output of which is through an integrator connected to its one input and to the input of a DC amplifier, an adder was additionally introduced, and its inputs are connected to the outputs of a comparator and a DC amplifier, and the output is connected to the second input parator. FIG. 1 shows a functional electrical converter circuit; in fig. 2 - time diagrams, according to the principle of its work. The converter contains integrator 1, comparator 2, amplifier 3 of a constant current, parallel to the resonant circuit 4 (reference element), support element 5 (the circuit under study) and adder 6. A parallel resonant circuit (reference element) is connected to the input of the DC amplifier , in the negative feedback circuit, support element 5 (the circuit under study Consider the operation of the converter using the example of converting the parameters of a forward resonant circuit, which is included in the negative feedback circuit of the dc amplifier, The last input includes a support element 5 - a Lg inductor. In steady mode, a rectangular two-pole AP with amplitude V is applied at the output of comparator 2, which enters the inputs of the DC amplifier 3, integrator 1, and adder. At the same time, the output of integrator 1 The linearity is determined by the linearity of the voltage defined by the expression V. V L A with a de is the time constant of the integrator 1. Since the voltage from the comparator is fed to the adder 6, as well as to the DC amplifier whose output voltage is 6 are szgmnatore voltage komparaora 1, the output voltage .napr sumatora 6 where Vg equals 3 the output voltage of amplifier 35 DC. p.and PL - transfer coefficients of the adder 6 for the corresponding inputs. At the moment of equality of the voltages Vg and V, the output voltage of the comparator 2 abruptly changes sign to the opposite, and the whole process repeats as described above. Thus, the period of the generated oscillations is from the equality V-n; Vl-P2Uz. The output voltage of the DC amplifier 3 in the established mode of operation (after 5-7 periods of oscillating oscillations) has the form of a parabola with an extremum at a point exactly corresponding to the middle of the half-period ., Thus,% / T - .. vlr (ifJInp | 22 bo 2) I 2 / J The ratio of the half period. preceding the review. For a steady state mode, when the durations of the adjacent half periods are equal, i.e. at t t t 2, the moment of equality of voltages at the inputs of the comparator 2, which is also a component of voltage VjB, is also zero. Consequently, the period of oscillation pdv, en T-9t-9 (n and - bo / If C then the voltage

Claims (2)

Claim 5 824078 at the output of the amplifier 3 constant current ·> ka is described by the expression V '-ν ^ θ + r ι ³ ° ^Lx dtT Since for t> 0 the three-fold term in tends to zero, the expression for the oscillation period will be similar when converting the values of L and C in parallel 16-chains after the Converter of resonant circuit parameters in the period of electric oscillations, containing an integrator, DC amplifier, to the input which includes a parallel resonant circuit (reference element), and a negative element, a serial resonant circuit, a comparator, the output of which is connected through the integrator through the integrator, is connected to the input silitel 3 DC. Then, if the support element included in the negative feedback circuit of the DC amplifier 3 is capacitance C _o , then if the support element is an inductor L _o , then The converter allows you to generate oscillations, the period of which is directly proportional to the value of the investigated parameter of the resonant circuits. its one input and to the input of the DC amplifier of t A and ₁₅ sistent in that, in order to improve conversion accuracy, it introduced an adder, and its one input connected to the output of the comparator, and the second to the input of the amplifier "DC, and the output is connected 20 to the second input of the comparator.