RU2720327C1 - Compensatory accelerometer - Google Patents

Abstract

FIELD: stabilization system.

SUBSTANCE: invention is intended for use in stabilization, navigation and in medicine. Into a compensation accelerometer comprising a sensitive element, an angle sensor, a reference voltage generator, an amplifier, an integrator connected to the output of the amplifier, integrating the negative feedback, comparator output is connected to input of comparison circuit through serially connected level converter, two waiting synchronous generators, reversible binary counter, electronic switch, input of which is connected to current generator output, and output with one of moment sensor inputs, summing binary counter, comparison circuit, auxiliary frequency generator, additional inputs of comparator, waiting for synchronous generators, reversible binary counter are connected to auxiliary frequency generator, local negative feedback is introduced from the amplifier output, through the high-pass filter, to one of the moment sensor inputs and the two-position relay element with a hysteresis characteristic from the integrator output to the comparator input, as well as a flip-flop from the output of the comparison circuit to the input of the electronic switch, and the output of the reversible binary counter is the digital output of the compensation accelerometer.

EFFECT: high accuracy and wider bandwidth.

1 cl, 1 dwg

Description

The invention relates to measuring equipment and is intended for use in stabilization systems, navigation, guidance and medicine.

Known accelerometer (AS No. 742801, publ. In bull. Inventory No. 23, 1980) containing a sensing element, an angle sensor, an integrating feedback amplifier, a torque sensor, an additional integrating amplifier, an electronic key, a threshold element. The first output of the angle sensor is connected, through an integrating feedback amplifier, to the torque sensor, and the second output of the angle sensor, through a threshold element and an additional integrating amplifier, to the control input of the electronic key.

The disadvantage of the accelerometer is the low accuracy of the measurement, since the choice of the gain with hard negative feedback is limited by the condition of stability of the system. The accuracy of the accelerometer depends on integrating analog amplifiers, a threshold element and an electronic key included in the feedback. The main error of the device for measuring accelerations is associated with the finiteness of the charge time of the capacitor of the integrating amplifier. This error leads to an aperture error inherent in a similar sampling and information processing scheme.

(где Т₁<Т₂, постоянные времени) и один из входов сумматора соединен с выходом интегро-дифференцирующего звена через звено запаздывания с передаточной функцией

(где K и Т- коэффициент передачи и постоянная времени звена запаздывания) и выход фазового детектора отрицательной обратной связи соединен с входом компаратором через дифференцирующее звено с передаточной функцией

(где T₁>T₂, постоянные времени звена запаздывания), и выход реверсивного двоичного счетчика является цифровым выходом компенсационного акселерометра.The closest in technical solution is a compensation accelerometer for measuring accelerations (RF patent No. 2513667 C1 G01P 15/13, published in Bulletin No. 11, 04/20/2014), containing a sensitive element, the angular position of which is fixed by an angle sensor, an amplifier whose input connected to the output of the angle sensor, a phase detector of negative feedback, integrating negative feedback from the output of the comparator to the input of the torque sensor through a comparator, a level converter, two railways connected in series through the information inputs synchronous generators, a reversible binary counter, a comparison circuit, a trigger, an electronic key whose input is connected to the output of the current generator, a summing binary counter whose output is connected to one of the inputs of the comparison circuit, and the input, with the output of the auxiliary frequency generator, a reference voltage generator the outputs of which are connected to the inputs of the angle sensor and the phase detector of negative feedback, the additional inputs of the comparator, waiting for synchronous generators, a reversible binary counter are connected to the gene Ator auxiliary frequency introduced spot negative feedback from the amplifier output to the input of the phase detector negative feedback through serially connected by data inputs of an adder, a threshold element, integro-differentiating element with a transfer function

(where T ₁ <T ₂ , time constants) and one of the inputs of the adder is connected to the output of the integro-differentiating link through the delay link with the transfer function

(where K and T are the transmission coefficient and the time constant of the delay unit) and the output of the phase detector of negative feedback is connected to the input of the comparator through a differentiating element with a transfer function

(where T ₁ > T ₂ , delay time constants), and the output of the reversible binary counter is the digital output of the compensation accelerometer.

The disadvantage of a compensation accelerometer is the small bandwidth and low measurement accuracy.

An object of the present invention is to expand the bandwidth and increase the accuracy of the measurement.

This is achieved by the fact that in the compensation accelerometer containing a sensitive element, the deviation of which is recorded by an angle sensor, one of the inputs of which is connected to the output of the reference voltage generator, and the output is connected to the amplifier, an integrator connected to the output of the amplifier, integrating negative feedback, the output of the comparator connected to the input of the comparison circuit through a level converter, two standby synchronous generators, a reversible binary counter, electronically connected through information inputs a throne key, the input of which is connected to the output of the current generator, and the output with one of the inputs of the torque sensor, a summing binary counter, the output of which is connected to one of the inputs of the comparison circuit, and the input, with the output of the auxiliary frequency generator, additional inputs of the comparator, waiting for synchronous generators , a reversible binary counter connected to the auxiliary frequency generator, introduced local negative feedback from the output of the amplifier, through a high-pass filter, to one of the inputs of the torque sensor and two-position The relay element with a hysteresis characteristic from the integrator output to the comparator input, and the trigger from the output of the comparison circuit to the electronic key input, and the output of the reversible binary counter are the digital output of the accelerometer.

The introduction of an integrator, low-pass filters, an adder and a two-position relay element with a hysteretic characteristic allows you to create a compensation accelerometer with deviation astatism, increase accuracy and expand the passband.

The drawing shows a functional diagram of the accelerometer.

The accelerometer contains a sensor element 1, the angular deviation of which is detected by the angle sensor 2. One of the inputs of the angle sensor 2 is connected to the output of the reference voltage generator 3. The output of the angle sensor 2 is connected to the amplifier 4. The output of the amplifier 4 is connected to the input of the integrator 5. Another output of the amplifier 4 connected to the input of the high-pass filter 6. The output of the integrator 5 is connected to the input of the on-off relay element with a hysteresis characteristic 7. The output of the on-off relay element with a hysteresis characteristic 7 with the input of the comparator 8, the output of which is connected to the input of the level 9 converter, the outputs of which are connected to the inputs of two standby synchronous generators 10 and 11. The outputs of the standby synchronous generators 10 and 11 are connected to the inputs of the binary counter 12. The output of the binary counter 12 is connected to the input comparison circuit 13. Another input of the comparison circuit 13 is connected to the output of the summing binary counter 14. The output of the comparison circuit 13 is connected to the input of the trigger 15. The output of the trigger 15 is connected to the input of the electronic key 16, the other input to which is connected to the output of the current generator 17. The output of the electronic key 16 is connected to one of the inputs of the torque sensor 18. Another input of the torque sensor 18 is connected to the output of the high-pass filter 6. The torque sensor 18 is connected to the sensor 1. Additional inputs of the comparator 8, waiting for synchronous generators 10 and 11, a reversible binary counter 12 and a summing binary counter 14 are connected to the outputs of the auxiliary frequency generator 19.

The internal contents of the comparator, waiting for synchronous generators, a reversible binary counter, a comparison circuit, a summing binary counter, a level converter, an adder and low-pass filters, an integrator are described in the books: P. Horowitz, W. Hill. The art of circuitry. M .: World, t. 1-3, 1993, N.T. Kuzovkov Dynamics of automatic control systems. M.: Mechanical Engineering, 19686 S. 428.

Compensation accelerometer works as follows. Under the action of the acceleration W / g, the deviation of the sensor 1 is detected by an angle sensor 2, the field windings of which are connected to the output of the reference voltage generator 3. The signal from the angle sensor 2, after amplification by amplifier 4, is fed to the inputs of the integrator 5 and high-pass filter 6. Local the negative feedback introduced from the output of the amplifier 4 through the high-pass filter 6 to the input of the torque sensor 18 provides stability and stabilization of the accelerometer parameters. The output signal from the output of the integrator 5 is fed to the input of the on-off relay element with a hysteresis characteristic 7, the output signal from which is fed to the input of the comparator 8. In the comparator 8, the signal from the output of the on-off relay element with a hysteresis characteristic 7 is compared with a signal isolated from a frequency-stable and the amplitude of the signal from the output of the auxiliary frequency generator 19. If the signal from the output of the on-off relay element with a hysteresis characteristic 7 is greater than nogo output voltage of the auxiliary frequency generator 19, the output of comparator 8 will be logic high, if less, then the output of comparator 8 - a low logic level. The signal level from the output of the comparator 8 depends on the phase of the deviation of the sensitive element 1. The signal from the output of the comparator 8, in the form of a level, is fed to the input of the level 9 converter, and then to the inputs of the waiting synchronous generators 10 and 11, which, using the auxiliary frequency generator 19 , give out signals in the form of a pulse, for each impact of the input signal (from the output of the level 9 converter) equal to "1". The reversible binary counter 12 counts the single pulses coming from the output of the standby synchronous generator 10 and subtracts the pulses coming from the output of the standby synchronous generator 11. The reverse binary counter 12 represents positive information in the direct code, and negative in the additional code, and the additional code is converted by the circuit comparison 13 and the summing binary counter 14. After a logical comparison of the signals in the comparison circuit 13, the signal from the output 12 is fed to the input of the trigger 15, and then, in the form of a level, to the input of the electronic key 16. The parameters of the electronic key 16 are stabilized by the current generator 17. At the output of the electronic key 16 there will be pulses, the number of which is proportional to the binary code supplied to the input of the comparison circuit 13. Signals are sent to the torque sensor 18 both from the output of the electronic key 16 with the sign of the sign of the reversible binary counter 12, and from the high-pass filter 6. The torque sensor 18 compensates for the angular deviation of the sensing element 1 caused by the action of acceleration. The output of the reversible binary counter 12 is the output of the digital code of the compensation accelerometer.

The introduction of a high-pass filter in the local negative feedback, an integrator, a two-position relay element with a hysteresis characteristic, a trigger in the integrating negative feedback allows one to stabilize the parameters of the compensation accelerometer, implement the self-oscillation mode, increase the measurement accuracy and expand the passband.

Claims (1)

Compensation accelerometer containing a sensing element, the deviation of which is detected by an angle sensor, one of the inputs of which is connected to the output of the reference voltage generator, and the output is connected to the amplifier, an integrator connected to the amplifier output integrating negative feedback, the comparator output is connected to the input of the comparison circuit through a level converter connected in series with the information inputs, two waiting synchronous generators, a reversible binary counter, an electronic key, the input of which o connected to the output of the current generator, and the output with one of the inputs of the torque sensor, the summing binary counter, the output of which is connected to one of the inputs of the comparison circuit, and the input with the output of the auxiliary frequency generator, additional inputs of the comparator, waiting for synchronous generators, the reversible binary counter are connected with an auxiliary frequency generator, characterized in that local negative feedback is introduced into it from the amplifier output, through a high-pass filter, to one of the inputs of the torque sensor and two-position th relay element hysteresis characteristic from the output of the integrator to the input of the comparator, and the trigger output from the comparison circuit of the electronic key input, reverse and output the binary counter is a digital output compensating accelerometer.

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