SU664109A1 - Measuring device with automatic switching-over of measuring ranges - Google Patents

Description

(54) MEASURING DEVICE WITH AUTOMATIC SWITCHING OF THE LIMITS OF MEASURING cadres are open, and the key of the other stage is not closed yet. The purpose of the invention is to eliminate the loss of information when switching measurement limits. The goal is achieved by the fact that in a measuring device with automatic switching of the measuring limits containing the amplifier. sequentially connected to the Tt pOM register, the logic circuit and stages, the number of which is equal to the number of measurement limits, while the cascade corresponding to the coarsest measurement limit contains a converter, for example, an amplifier, and all other stages — said converter, key and level lock, the output of which is connected to the logic circuit, and the input to the output of the inverter, and the control circuit of the cascade key corresponding to the sensor itself; The measurement limit is connected to the output of the latch; according to the invention, the control circuit of the other switches is connected to the output of the latch of its own cascade; the keys are switched on via the resistors entered in the circuit between the outputs of the converters and 1; 1 ; through one of the said resistors to the output of the cascade converter, corresponding to the most severe measurement limit. The drawing shows a block diagram of a measuring device with automatic switching, made according to the present invention for five measurement limits. ., The device contains sequentially connected amplifier 1 - recorder 2, logic circuit 3 and five ka. cad 4, the number of which is equal to the number of limits of measurement. The circuit cus kadu 4 from the first to the fourth are the same. They have a converter 5, which uses an operational amplifier, a switch 6 and a level clamp 7. The output of the converter 5 is connected to the input of a clamp of level 7 and via a resistor 8 to a key b. The output of the latch level 7 is connected to the logic circuit 3 and the control circuit of the key b. All keys 6 of the above four cascades 4, i are connected in series / with each other. the cascade corresponding to the roughest measurement limit has. also converter 5 and level latch 7. Converter 5 output from dinen with input of level latch-1 7, through resistor 8 with key 6 of previous previous cascade 4 and with input of amplifier 1 Level latch output 7 is connected to logic circuit 3. Transducers inputs 5 all cascades are connected to each other and are the input of the device. The device is designed to measure voltages in the range from 1 mV to 100 V. The entire range of voltage measurements is divided into five measuring ranges. The high-speed recorder 2 has a scale from 10 mV (the first reading point of the scale) to 100 mV (the last reading point of the scale). In the initial state, when the input signal is missing or its knowledge does not exceed the limits of the first measurement limit, all keys 6 are closed. The signals from the outputs of the converters 5 through the resistors 8 and the keys 6 are output from the output of the amplifier 1 and from its output to the recorder 2. Logic 3 signals the measurement of the first most sensitive measurement circuit. . The correlation of signals from the outputs of the transducers 5 is equal to the multiplicity of measurement measurers. Conversion factors for converters 5 are related to each other by the following ratios: K ;, HO-K2-lo K3-10-k4-tO-K where K. (, K, Kj ... Kg are the conversion coefficients; 10 is the multiplicity of the measurement limits Resistors 8 from the first to the penultimate stage are equal between each other, and the resistor 8 followed by its stage (corresponding to the roughest measurement limit) are selected from the following expression: .W tn-1 S 10 where m is the number of stages; Rm is the last stage resistor ; R is the resistor of the first stage; i is the number corresponding to the number of the measurement limit. When the input si is reached the first measurement limit (the last reference point of the recorder scale), the latch 7 of the first stage 4 generates a signal that opens key 6 and enters logic 3 to signal the second measurement limit. Increasing the input signal beyond the second measurement limit to the opening of the key 6 of the second cascade 4 and to the signaling of the logic circuit 3 of the third limit, measured and. Transition to other, rougher limits of measurement is similar. Switching the measurement limits from coarser to more sensitive occurs by closing the keys of 6 stages 4, due to the return of the latch level 7 to the initial state. With