RU2012156732A - THERMOINVARIANT METER OF LINEAR ACCELERATION - Google Patents

Abstract

A thermo-invariant linear acceleration meter containing a quartz compensation pendulum accelerometer, a voltage to frequency converter connected to the output of the accelerometer, a thermal system containing the first bridge resistor circuit, one of the arms of which includes a first temperature sensor, a power amplifier, the input of which is connected to the output of the first bridge circuit and the output is connected to a heating coil covering the accelerometer housing, the first temperature sensor being installed between the coil and the accelerometer housing, and the input The first diagonal of the first bridge circuit is connected to a secondary power source, while the converter contains a load resistor that is connected to the output of a feedback amplifier, a clock generator, an integrator, a charge resistor R, two symmetric chains for converting positive and negative information, each circuit contains connected sequentially in each conversion circuit, a reference voltage source, a comparator, a discharge resistor R, a switching device containing an electronic key, a trigger, a counter a clock pulse generator and the pulse output information; wherein R is connected through a load resistor R with the output of the feedback amplifier and with the input of the integrator, the output of the integrator is connected to the first input of each of the comparators, the second input of each comparator is connected to the first output of the corresponding reference voltage source, the second output of the reference voltage source through the corresponding resistors R is connected to the first the input of the corresponding key, the output of the key is connected to the input of the integrator, the output is comparate

Claims (1)

A thermo-invariant linear acceleration meter containing a quartz compensation pendulum accelerometer, a voltage to frequency converter connected to the output of the accelerometer, a thermal system containing the first bridge resistor circuit, one of the arms of which includes a first temperature sensor, a power amplifier, the input of which is connected to the output of the first bridge circuit and the output is connected to a heating coil covering the accelerometer housing, the first temperature sensor being installed between the coil and the accelerometer housing, and the input th diagonal of the first bridge circuit is connected to the secondary power supply, wherein the inverter comprises a pull-up resistor which is connected to the output of the feedback amplifier sinhrochastoty generator, an integrator, a resistor charge R _{of charge,} two symmetrical circuit converting positive and negative information, each of the circuits comprises connected in series in each converting circuit reference voltage source, a comparator, a resistor R _discharging a discharge, the switching device comprising an electronic key trig ep, counter clock pulses and the pulse shaper output information; wherein R _{zar is} connected through the load resistor R _oc to the output of the feedback amplifier and to the input of the integrator, the output of the integrator is connected to the first input of each of the comparators, the second input of each comparator is connected to the first output of the corresponding reference voltage source, the second output of the reference voltage source through the corresponding _discharge resistors R connected to a first input of a respective key, the key output is connected to the input of the integrator, comparator output is connected to the first input flip-flop, a second flip-flop input the first input of the counter is connected to the output of the clock generator, the third input of the trigger is connected to the output of the corresponding counter, the first output of the trigger is connected to the second input of the corresponding key, the second output of the trigger is connected to the second input of the counter, the output of the counter is connected to the input of the corresponding driver and to the third input of the corresponding trigger , characterized in that a system of hardware compensation of temperature errors is introduced, containing a second bridge circuit of resistors, the input diagonal of which Knit with a source of secondary power, a second sensor mounted within the housing and an accelerometer included in one arm of the second bridge circuit, the measuring amplifier, inverter and four resistors R _1-4, output of the second bridge circuit connected to the input of the measuring amplifier, with a resistor R ₁ a first terminal connected to the first output of the measuring amplifier, a resistor R ₂ is connected to a first terminal of the first inverter through the channel to the second output of the measuring amplifier, R ₁ and R ₂ are connected to the second terminals of resistors with the information key input, respectively, the positive and negative converter circuits; the resistor R _{3 is} connected to the third output of the measuring amplifier by the first output, the resistor R _{4 is} connected to the fourth output of the measuring amplifier by the first output through the second channel of the inverter, and the second conclusions of the resistors R ₃ and R _{4 are} connected to the input of the converter integrator.