SU585489A1 - Dc stabilizer - Google Patents

Description

(54)

DC STABILIZER

Claims (2)

This invention relates to electrical engineering and can be used in high-speed digital circuits on current switches. A DC regulator is used, which is used in current switches and consists of a transistor whose collector output serves as an output of the stabilizer, and a resistive current divider with diodes for temperature compensation of current variations setting the required mixing voltage to the base of transistor l. A DC stabilizer is also known, which contains two transistors with integrated bases, the emitters of which are connected to one of the supply lines, the collector of one of the transistors is connected to the output, and the collector of the other is connected to the other resistor through the other supply line, and the connection point of the first resistor with the collector of the second transistor 2). The disadvantage of known stabilizers is the strong dependence of the output current on the change in the supply voltage and temperature. To increase the stability of the output current when the supply voltage and ambient temperature change, the proposed DC regulator contains two transistors with common bases, the emitters of which are connected to one of the supply lines, the collector of one of the transistors is connected to the output A first resistor is connected to a different power line, which, than the bases of the transistors are connected to the connection point of the first resistor C, and the collector of the second transistor, is introduced into the compensating circuit, Additional transistor, diode and second, third and fourth resistors, with the base of the additional transistor connected via the second resistor to the first power supply bus and via a forward-coupled diode to the second power supply bus, the emitter of the third resistor to the first power supply bus, and the collector through the fourth resistor - with the second power bus and through the first resistor - with the collector of the second transistor. The drawing shows the principle scheme of the proposed DC regulator. It contains transistors 1 and 2, (the bases of which are combined, the emitters are connected to the supply line 3, the collector of transistor 1 serves as an output of the stabilizer, the collector of transistor 2 is connected to the base and to the resistor 4. The compensating circuit of the stabilizer has a diode 5 whose anode is connected to the supply bus 6, the cathode to the base of the transistor 7 and the resistor 8 connected to the power supply 3. The emitter of the transistor 7 is connected to the resistor 9, also connected to the power bus 3, and the collector is connected to the resistor 4 and the resistor 10 connected to the power bus 6. Art. DC biliser works as follows: When voltage is applied to the supply busbars 3 and 6 currents flow through resistors 4, 10 and transistor 2. On transistor 2, the voltage drops and the bases of transistors 1 and 2 have the same potentials, therefore through the transistor 1 flows into the input current of the stabilizer g proportional to the current flowing through the transistor 2 (the proportionality coefficient is the ratio of the emitters of transistors 1 and 2). The fall of the voltage across the resistor 10 is dependent on two currents: t.-epBoro current flowing through resistor 4, and the second current flowing through the compensating chain: transistor 7 and resistor 9. When the supply voltage changes, the potential difference between the supply buses 6 and 3) both currents vary, however, the second current determined by resistor 9 and the voltage drop at the emitter junction of transistor 7 and diode 5 vary more than the first current determined by resistors 4 and 10 and dropping the voltage across the emitter junction only 2. Excess-current change in the second (relative to the first) leads to ad ditional change in voltage across the resistor 10, which in turn leads to a decrease of the first current .izmeneni and accordingly, the output of the current stabilizer. Similarly, compensation occurs. Changes in the output current with a change in temperature. The current Dj through the transistor 2 is defined by the expression,,) where V., a, R,, are the resistances of the resistors 10, 4, 9; t is the supply voltage VQ is the voltage drop between the base and the emitter of the transistor at a current of 3j i, is the current transfer ratio of the transistor: i E. - currents through resistors 9, 8; temperature potential; 1 is a constant equal to silicon transistors. The relative change in the output current and current through the transistor 2d Dgj will not exceed the specified value when the supply voltage E changes and the value of uE, if non-equivalence holds: j j (E-Vo) -ue i {"E E-2Uo" 1 P n (.) - LE} This technical solution allows to significantly increase the stability of the output current, reduce the phenomenon of changes in the supply voltage and significantly reduce the effect of temperature and the change in the output current. Invention The DC stabilizer contains two transistors with integrated bases, the emitters of which are connected to one of the supply lines, a collection of transistors connected to the output terminal, and the collector of the other through the first resistor connected to the other power line, and the bases of the transistors connected to the connection point of the first resistor with the collector of the second transistor, characterized in that, in order to increase the stability of the output current when the supply voltage and the ambient temperature change, A compensating circuit consisting of an additional transistor, a diode and a second, third and fourth resistors, the base of the additional transistor being connected via a second resistor to the first supply bus and via a forward diode to the second supply bus; the emitter through the third resistor to the first power supply bus, and the collector through the fourth resistor - with the second power bus and through the first resistor - with the collector of the second transistor. Sources of information taken into account during the examination: 1. Nemudroe VG et al. Selection of a DC source in logic circuits on current switches. Microelectronics ed. Lukina V.F. M., Soviet radio, ip. 5, 1972, pp. 272-281. 2. The patent of Great Britain.1 W1410021, N 3 T, 1975. B about