SU822365A1 - Switching device - Google Patents

Description

(54) COMMUNICATING DEVICE

Claims (2)

The invention relates to electronic engineering, in particular to electronic switching technology, and can be used, for example, in the construction of digital-to-analog converters and accurate amplitude generators for systems for stabilizing spectrometric paths. A coludating device containing two transistors of the opposite conductivity type is known, the Toptuc coops are connected to control buses, and the emitters are combined and connected to the output bus of the device 1.. The disadvantage of such a device is the low accuracy of the transfer of the switched signal; the reason for this is that the temperature and time drifts of the residual voltages of transistors with the opposite conductivity type are incomplete. The closest to the present invention is a switching device comprising first and second transistors and a control unit, the bases of the first and second transistors, the collectors of which are connected and connected to the output bus of the device, are connected via resistors to the first and second buses of the control unit, respectively, the second transistor emitter to the first power supply bus 2. A disadvantage of this device is also the low accuracy of the transfer of the switched signal. The purpose of the invention is to increase the accuracy of the transfer of the switched signal. To achieve this goal, the switching device containing the first and second transistors and the control unit, the bases of the first and second transistors, the collectors of which are combined and connected to the output bus of the device, through resistors are connected to the first and second buses of the control unit, respectively, the emitter of the second transistor a connected to the first power supply bus, an additional transistor, a zener diode and a key current generator, an additional transistor, the base of which is connected via a resistor to the second bus b eye control, and a zener diode connected in parallel and are connected between the emitters of the transistors, the emitter of the first through the key -tranzistora current generator, a control input coupled to the additional bus control unit, connected to the second power supply bus. The drawing shows a circuit diagram of a switching device. The device comprises the first 1 and second 2 transistors, the emitters of which are combined and connected to the output bus 3 of the device; unit 4 controls laziness; additional transistor 5; zener diode, 6; current generator 7; Resistors 8-10. The first 11, second 12, and additional 13 buses of the control unit are connected to the bases of the first and second transistors and to the control input of the current generator, respectively. The first power supply bus 14 is connected to the emitters of transistors 2 and 5, and the second power supply bus 15 is connected to the emitter of transistor 1 through a current generator 7. The device operates as follows. In the initial state, the voltages on the buses of block 4 are such that transistors 2.5 are locked, and transistor 1 and transistor of current generator 7 are open. The reference voltage maintained by the zener diode 6 is fed to the output 3 of the device. . . When the voltage on busbars 4 is changed, transistor 1 and transistor of current generator 7 are locked, and transistors 2.5 are unlocked. The potential of the tire 3 becomes equal to the potential of the first power supply bus. The introduction of the transistor 5 makes it possible to increase the accuracy of transmission of the switched signal. Actually, to ensure the closed state of transistor 1 and the open state of transistor 2, the base potential of transistor 1 must exceed the potentials of the emitter and collector of this transistor. In the absence of an additional transistor 5, the voltage between the emitter and the collector of the closed transistor 1 is equal to the switching voltage. Therefore, the reverse bias at the base-emitter junction of this transistor exceeds the switched voltage, which is thus limited by the maximum allowable voltage on the base-jitter junction of the bipolar transistor Nidka, the admissible value of the switching voltage leads to a low relative stability of the voltage on the output bus 3 of the device due to the saturation voltage of the switching transistors. In the described device, when the transistor 1 is locked, transistor 5 is opened, the emitter of transistor 1 is connected to the power source bus 14, and therefore the value of the switched voltage is not. limited by the maximum allowable reverse bias at the base-emitter junction of the bipolar transistor. An increase in the switching voltage leads to an increase in the relative stability of the voltage on the output bus 3, i.e. to increase the accuracy of the transfer of the switched signal. Introduction to the device of the current generator 7 provides, along with the accuracy of the transfer of the switched signal, high efficiency and reliability of the switching device. The invention The switching device containing the first and second transistors and the control unit, the bases of the first and second transistors, the collectors of which are combined and connected to the output bus of the device, are connected to the first and second buses of the control unit, respectively, through resistors, and the second transistor emitter power, characterized in that, in order to increase the accuracy of the transfer of the switched signal, an additional transistor, a zener diode and a key current generator, are added to it A capacitive transistor, the base of which through a resistor is connected to the second bus of the control unit, and a zener diode connected in parallel and connected between the emitters of the transistors, the emitter of the first transistor through a key current generator, the control input of which is connected to the additional bus of the power supply. Sources of information taken into account in the examination 1.Patent of Switzerland 553393, cl. H 03 K 17/66, 07/13/75 2, USSR Copyright Certificate 299028, cl. H 03 K 17 / 60,18.11.71.