SU790276A1 - Multiphase measuring pulse shaper - Google Patents

Description

The invention relates to measuring equipment and can be used in electronic equipment.

A device is known for generating measuring pulses for monitoring 5 the uniformity of physical parameters of the medium, containing sensors, each of which is connected to a common multiphase power supply via a single output through a variable resistor, and the other sensor leads are combined and connected through a common measuring device to the zero output of a multiphase power supply £ 1].

During measurements in this device, it is possible to bypass the supply signal circuits of the sensors, which leads to the redistribution of current in the circuits of sensors + sensors and, therefore, limits the load capacity and efficiency of the device.

The closest in technical essence to the proposed one is a device for generating measuring pulses with separate sensor power supply, containing a reference voltage source, a number of sensors whose outputs are connected to the inputs of an OR element, and a number of keys whose 30 controlled inputs are connected to the output , home of switch C2].

Active resistance shunting of the sensor supply and signal leads leads to a redistribution of the reference voltage on the sensor key, as well as a significant increase in current, especially when the sensor leads are short-circuited, which leads to measurement distortion, overload of the reference voltage source and, therefore, also reduces the load capacity and device efficiency.

The purpose of the invention is to increase the load capacity and efficiency of the device.

This goal is achieved by the fact that in a multiphase shaper of measuring pulses containing a number of sensors, the outputs of which are connected to the inputs of the OR element, a number of keys, the controlled inputs of which are connected to the outputs of the multiphase switch, resistors through which the power inputs of the keys are connected to the bus power circuit, diodes through which the power output of each key is connected to the input of the corresponding sensor, a zener diode and a resistor shunting it.

a number of switching protection elements: each of which is connected between the connection point of the key output with the corresponding diode and the zener diode, the keys and the associated switching protection elements are made on transistors of different types of conductivity, connected according to the circuit of a composite transistor, the emitter of one of the transistors through the corresponding resistor connected to the power supply bus, the base with the output of the switch and the collector of the second transistor, and the collector with the corresponding diode and base of the second transistor emitter It is connected to a zener diode.

The drawing shows a circuit diagram of the proposed device.

Multiphase shaper measuring. pulses contains a power source. 1, sensors 2, OR element 3, switch 4, resistors 5, diodes b, zener diode 7 for generating this ⁴ voltage on sensors 2, resistor 8, transistors 9 of the same type of conductivity, acting as keys, and transistors 10 other types of conductivity, performing the function of switching protection elements. Tran! resistors of different types of conductivity are connected according to a composite transistor circuit.

The device operates as follows.

The formation of measuring pulses occurs during the time at which the polling pulse from the switch 4 arrives at the base of the transistors 9. During the considered period of time, a through current flows through the transistor 9, which is the input current of the transistor 10, the latter opens, · ensuring the restoration of positive feedback and saturation of the transistor 9. The resistor 8 contributes to the restoration of positive feedback at low through currents of the transistor 9. During the formation of the measuring pulse, the base current tr nzistora 9 remains constant, while the collector current can be varied within wide limits ,, the voltage at the input of the sensor 2 does not depend on the magnitude of its resistance remains constant and different voltage stabilizing zener 7.

This state of the circuit is ensured with a wide diazias: e changes, the sensor resistance.

At the considered moment in time, the emitter - base transistors 9 and 10 of the remaining channels are shifted in the opposite direction and locked. In this case, the emitter-base of transistors 10 is shifted by the voltage at the zener diode 7. When the next polling pulse arrives at the next channel, the positive feedback is restored in it after it returns to the initial state of the circuit of the previous channel and the voltage at the zener diode drops to the unlock voltage of the transistor

10.

In the proposed device, an increase in its load capacity and efficiency is ensured by the redistribution of currents in the sensor and zener diode circuits.

Claims (2)

The invention relates to a measuring technique and can be used in radio engineering equipment. A device for forming measuring pulses for monitoring the homogeneity of the physical parameters of the medium is known, which contains sensors, each of which is connected to a common multi-phase power source through a variable resistor, and the other sensor leads are combined and connected to a zero output of a multi-phase power source through a common measuring device. In this device, when measuring, it is possible to shunt the supply signal circuits of the sensors, which leads to the redistribution of current in the sensor circuits and, therefore, limits the load capacity and efficiency of the device. The device closest to the technical essence of the present invention is a device for generating measuring pulses sensors, containing a source of reference voltage, a series of sensors whose outputs are connected to the inputs of the OR element, and a number of keys, whose controlled inputs are connected to the output of a switch Utator L2J. Bypassing the resistance of the supply and signal outputs of the sensor leads to a redistribution of the reference voltage on the sensor key, as well as a significant increase in current, especially when the sensor outputs short-circuit, ITO leads to distortion of measurements, overloading the source of reference voltage and, therefore, also reduces the load capacity and efficiency of the device. The purpose of the invention is to increase the load capacity and efficiency of the device. This goal is achieved by the fact that in a multiphase driver of measuring pulses, containing a series of sensors, the outputs of which are connected to the inputs of the OR element, a series of keys, controlled inputs of which are connected to the outputs of the multiphase switch, resistors through which the power inputs of the keys are connected to the circuit bus power, diodes, through which the power output of each key is connected to the input of the corresponding sensor, a zener diode and a shunt resistor. a series of switching protection elements, each of which is connected between the point of connection of the output of the key with the corresponding diode and the zener diode keys and the associated switching elements of protection are made on transistors of different conductivity types connected according to a composite transistor, and the emitter of one of the transistors through the corresponding resistor is connected to the power supply busbar, the base is connected to the output of the co-switch and the collector of the second transistor, and the collector is connected to the corresponding diode and base of the second transistor ,. whose emitter is connected to a zener diode. The drawing shows the principal electrical circuit of the proposed device. Multiphase measuring driver, pulses contains a power source .1, sensors 2, element OR 3, switch 4, resistors 5, diodes b, zener diode 7 for generating a reference voltage on sensors 2, resistor Bf transistors. 9 of one type of conductivity, performing the function of the keys, and: transistors 10 of a different type of conductivity, which fulfill the function of the switching protection elements. The transistors of different types of conductivity are connected according to the composite transistor circuit. The device operates as follows. The formation of measuring pulses occurs during the time that a polling pulse from switch 4 arrives at the base of transistors 9. During the considered period of time, a current passes through the transistor 9, which is the input current of transistor 10, the latter opens, ensuring the positive feedback and the saturation of the transistor 9. Resistor 8 contributes to the restoration of positive feedback at low through currents of the transistor 9. During the formation of the measuring pulse, the base current is trans The transmitter 9 remains constant, and the collector current; ..: .. can vary within wide limits, while the coupling at the input of the 2 ke sensor depends on the value of its resistance; 15 and remains constant and different stabilization voltages of the Zener diode 7. Such a state of the circuit is about to be affected by a wide liaisosm of the sensor resistance. at the considered moment of time, the emitter-to-base transitions of transistors 9 and 10 of the other channels are shifted in the opposite direction and locked. At the same time, the transition emitter is the base transi 10 is biased by the voltage on the Zener diode 7. When the next Poll Pulse arrives on the subsequent channel, the positive feedback is restored in it after returning to the initial state of the previous channel circuit and decreasing the voltage on the Zener diode to the voltage of the transistor 10. The proposed device increases its load capacity and efficiency due to the redistribution of currents in the sensor and zener diode circuits. Invention Multiphase shaper measuring pulses, containing a number of sensors, the outputs of which are connected to the inputs of the OR element, a series of keys, controlled inputs of which are connected to the outputs of the multiphase switch, resistors, through which the power inputs of the keys are connected to the power supply bus bar, diodes, through which are connected to the input of the corresponding sensor, a zener diode and a shunt resistor, a series of switching protection elements, each of which is connected to a connection point A key with a corresponding diode and a zener diode, characterized in that, in order to increase the load capacity and efficiency, the keys and the associated switching protection elements are made on transistors of different conductivity types, from: e-type according to the composite circuit: , the emitter of one of Tp. iH3i-iCTOpoB is connected via an appropriate resistor to the shimg-H power circuit, the base is connected to the switch output and the collector of the second transistor, and the collector is connected to the corresponding diode and base of the second transistor, the emitter of which is connected to one hundred ilitronom ,. Sources of information taken into account in the examination 1. The author's certificate of the USSR 443335, cl. G 01 R 27/00, 1972. 2. USSR author's certificate number 355581, cl. G 01 R 29/00, 1971.