SU379883A1 - 1SECONDLY 8ASHTNO-T?;? Sh '^? G | {H1 - Google Patents

Description

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The invention relates to the field of electrical measuring equipment and is intended for use in systems of automatic tolerance control of parameters of resistive circuits.

A device is known for tolerance testing of capacitors on an insulation resistance, which contains a source of reference voltage to which a chain of reference and measured resistance is connected, an amplifier connected by an input through a switch with a capacitor of the upper limit of measurement.

However, such a device does not allow to measure the lower limit of resistance, which reduces the productivity of work during the control of products.

In the proposed device, in order to improve the performance of the control of products, a switch with a capacitor of the lower limit of measurement and power sources of the upper and lower limits of measurement are additionally introduced, which through the switches charge these capacitors, then connected via the same switches alternately to the common point of resistance and connected to the input of the amplifier.

Thus, the device determines that the resistance value of any active circuit is within specified limits.

FIG. 1 shows a diagram of the proposed device; in fig. Figure 2 shows the signals at the measured resistance and at the input of the amplifier at different values of the measured resistance.

The device (Fig. 1) consists of a reference resistor 1, having a resistance, measured by resistance 2, which is connected in series with the reference

a resistor 1 and a source of reference test DC voltage / ". The common point A of the divider formed by resistors (Rx and Ra, is connected to the poles of the 3 n 4 switches, as well as via the coupling capacitor 5, to the input of the amplifier 6 pulses, the output of which is connected to the control result logic block 7. The 3 n 4 switches are connected also with capacitors S and 9 top and bottom

measurement limits of resistance 2 and: with constant-voltage power supplies of the lower and upper (and ' and Ua) measurement limits. Block 7 of the logical processing of the control result contains an inverter 10 pulses, circuits //, J2 and 13 matches, and triggers 14 and 15. Triggers are triggered by separate inputs from pulses of one (positive) polarity. E and Rn are the upper and lower tolerances of the measured resistance 2.

When supplying the supply voltage, the capacitors 8 and 9 are charged from the sources / 7c and through the switches 5 and 4 to the voltage t / B and f / H (Fig. 2), respectively. At point A, a voltage is established that lies in one of the three intervals, depending on the magnitude of the resistance 2.

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Us UA2pri

, 3 R.Rx.

Consider the case of the time ti switch 4 is triggered and the capacitor 9 is connected to point A. A voltage pulse is generated at the resistance 2. Since before connecting the capacitor 9 the potential of point A was higher than UH, the pulse has a negative sign. A pulse from point L is applied through capacitor 5. n, and amplifier 6, which boosts the pulse to the level required for reliable trigger flashing and changes its sign. The relays | 14 and 15. After connecting the next measured resistance 2, are set on the bus "O to the initial state, when the outputs Si and S2 have a high potential, and the outputs 5i and 52 have a zero potential.

At the time ti from the output of the amplifier 6 to the input “1 of the trigger 14 and the input“ About the trigger 15 receives a positive impulse. The trigger 14 overturns, and the trigger 15 does not change its state. Inverter 10 changes the pulse sign, so at the moment from the inverter output, a negative pulse appears that does not affect the trigger 15.

At time 2 after the end of the transient recharge of the capacitor 9, the latter is turned off by the switch 4, and to the point A, the capacitor 8 with the voltage f / V is connected through the switch 3. The potential of point A before connecting the capacitor 8 was less than the voltage t / b, so a positive sign impulse is formed on the resistance 2. This pulse at the output of the amplifier 6 has a negative sign, and at the output of the inverter 10 has a positive sign. This pulse throws the trigger 15 at the input "1, and at the moment ta, when the control result is analyzed, high potentials from the Si and S2 outputs of the flip-flops are supplied to both inputs of the matching circuit 12, which corresponds to the appearance of the signal at the output of the circuit 12, which means that controlled resistance 2 is in the range of acceptable values.

In the case when, at the input of the amplifier 6, two positive pulses arrive at the moments ti and / 2, they have a negative sign at the output of the amplifier and trigger 14

and 15 do not affect. From the output of the inverter 10, these pulses are fed to the input of "1 flip-flop 15, and a flip-flop is thrown. In this case, at the time fs, high voltage levels arrive at both inputs of only the circuit 13, and a signal appears at output b, which means that.

When Rs.Rx, the pulses formed at times of / 1 and t2 at the input of amplifier 6, are negative, at its output - positive, and at the output of the inverter are again negative. I act on the input "1 on the trigger 14, the pulses overturn the trigger 14, the trigger 15 does not change its position. At time 3, high potentials are observed at both inputs only of circuit 11, and at its output a signal appears, which means that Rx has gone upwards beyond the tolerance limit.

Thus, the proposed device unambiguously fixes the measured resistance relative to the predetermined deviation limits.

The device is not critical to the possible bounce of the switches 5 and 4. Since information on the measured resistance is taken at the moment the switches are triggered and fed to the amplifier in the form of pulses through a decoupling capacitor, the input resistance of the amplifier can be arbitrarily small; drift zero does not affect device performance and stability

The amplifier gain is also not particularly demanding, it is enough that it is not less than the critical value, which ensures reliable flip-flop of triggers with a given accuracy of fixing the boundary values.

P ip e d eme and z obrete and u

The tolerance control unit of the resistance value, containing the source of the reference voltage to which the chain of the reference and measured resistance is connected, is an amplifier connected via an input to a capacitor of the upper limit of measurement, characterized in that him extra

introduced a switch with a capacitor of the lower limit of measurement and power sources of the upper and lower limits of measurement, which through the switches are connected to the above-mentioned capacitors, which are connected alternately in the discharge mode to the common resistance point and the amplifier input connected to it.