SU599356A1 - Switching circuit - Google Patents

Description

The invention is intended for use in electronic equipment, and automation, for example, in automatic control snotopes, in which the differential cascade is used as a device, becoming a subtractor of key elements.

A switch is known that contains a switched transistor whose base is through a capacitor with an input signal bus, a collector with an output signal bus and through a resistor with a power bus, and an emitter through a resistor with a collector of a transistor of one of the differential stage arms, the emitter of which through a resistor and the diode is connected to the supply lines of opposite polarities and to the emitter of the transistor of the second arm of the differential stage, the base KOTqporo through a resistive divider is connected to the control signal bus, and the collector is through a resistive divider with the base of the transistor of the first shoulder of the differential stage through a resistor - with a switching transistor collector and output signal bus

The known switch has insufficient attenuation in the closed state.

The purpose of the invention is to increase the attenuation of the signal in the closed state.

 . , To do this, a switch containing a differential cascade made on transistors and a switched transistor, the base of which is connected to the input bus through a condensate, and the emitter through the first resistor connected to the collector of the first transistors of the differential cascade connected to the collector of the transistor the transistor of the differential cascade, the base of which through the second resistor is connected to the control bus, and the emitters of the transistors of the differential cascade respectively through tr The third resistor and the first diode are connected to power supply cables of different polarities, diodes, stab-type chitrons and resistors are introduced, the collector of the switched transistor through the second diode and the zener diode connected to the common bus, and through the third diode to the output and black fourth resistor - with the Campus of the second Tpa.fjisHCTDpa differential (}) potential of the cascade. The drawing shows the principle 1a of the switchable 1 switchboard 1 | The switchboard contains the switching transistor Ij of the kotfago base through the capacitor 2 connected to bus 3 input signals, the collector through resistor 4 to the power bus (and the emitter through resistor 5 to the collector of the transistor 6 one of the pl & d differential cascade. The emitter of this transistor through pe3HCTqp 7 and the semiconductor diode 8 is connected with supply busbars of anti-shock polarity and with the emitter of transistor 9 of the second shoulder of the differential cascade base through {resis The active divider lOj 11 is connected to the bus 12 driving cs-o iUiJioBf and the collector through a resistive cable, 13 and 14 to the base of the transistor 6 and the casing of the transistor 6 and the reference diode 16 of the transducer e cathode and the semiconductor semiconductor semiconductor section 15 diode 17; axd sf.oToporo is connected to the switchgear switchboard of the transistor 1 transistor and the cathode of the semiconductor diode 18 of the anode which is connected to the cable 19 output cngmap and through resistas 20 and 21 works with the power bus and the transistor 9 of the diffraction of the switchgear-cascade device works and 20 as follows When entering on The control signal bus 12 of the negative polarity of the transistor 9. The differential stage is closed, which leads to the opening of the transistor and through it the current of the amplifying mode of the switched transistor 1 flows and the potential of the transistor 1 connected to the anode of the transistor 1 diode 17. The potential of the cathode of this diode of the Hg polarity coincides with the potential at the collector of the transistor is and its amplitude depends on the type of the reference diode 16 and must exceed The potential on the collector of transistor 1 by the value of i is sufficient to close the diode 17g. In turn, part of the collector current of transistor 1 flows through a circuit consisting of a semiconductor diode 18 and a resistor 20, and ensures reliable unlocking of the diode 18. to the output gate in the switched on state,. When the control signal of the zero potential arrives on the bus 12, the transistor 9 of the differential cascade opens. This leads to the closure of the transistors of the differential cascade, which breaks the power supply circuit of the switched transistor 1, as a result of which it closes. At the same time, on the rpat collector of zistor 1, a potential close to the voltage of the power source is established, exceeding the potential at the junction of the resistor 15 and the reference diode 16, This potential drop opens the conductor diode 17, and this adds additional attenuation due to input shunting penetrating the collector circuit of the transistor 1 to the earth bus through the open diode 17 and the reference diode 16. In turn, the potential drop across the collector of the transistor 1 closes the semiconductor diode 18, which is even more increases the attenuation of the input signal in the closed switch. However, both in the open and closed; On the bus 19 of the output signals, the same DC current is kept at the same time, due to the equality of the currents flowing through the circuits of the diode 18 and the resistor 21 in the corresponding switch states. An increase in the attenuation of a signal in a closed, state favorably distinguishes a forward switch from a known one and allows to expand its area of application. Formula switchboard containing a differential cascade executed on transistors and a switched transistor, the base of which is connected to the input bus through a capacitor, and the emitter through the first resistor. connected to the collector of the first transistor di4x |) of the potential cascade, the base of which is connected through a resistive divider to the collector of the second transistor of the differential cascade, the base of which is connected via a second resistor to the control bus, the emitters of the transistors of the differential cascade, respectively, through the third resistor and the first diode are connected to different feed tires, characterized in that, in order to increase the attenuation of the signal in a closed circuit, diodes, zener diodes and resistors are introduced, and the switching transistor torus connects the common diode through the opposite diode and the zener diode is connected by a common bus q, and the third diode is connected to the output bus and via the fourth resistor to the collector of the second transistor in the differential stage. Sources of information taken into account during the examination: 1. Paton of Great Britain, N9 1256621, cl. H 3 T, 07.11.71.

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