SU373859A1 - GENERATOR OF STAGE AND PYLOBLE VOLTAGE - Google Patents

Description

one

The invention relates to the field of pulsed technology, in particular to devices that convert a digit into an analog signal.

Known stepwise sawtooth voltage generators are known, containing L series-connected identical stages, each of which consists of a trigger on transistors, a resistive decoding matrix, and input circuits.

However, the known devices do not have the required reliability.

In order to increase reliability in the proposed generator, an additional transistor is included in each of the cascades, the collector of which is connected to the bases of the trigger transistors through resistors, while the base is connected to the trigger transistor emitter junction point, to which the decoding matrix resistor is connected.

The drawing shows a schematic diagram of the proposed device.

The proposed generator contains transistors / -3, resistors 4-14, capacitors 15-17, diodes 18 and 19 n the electrical connection point 20. The HBSS is connected to the power supply EJ and to the bias sources Ea and E3.

The input circuit of the cascade contains two differentiating chains (resistor 5, capacitor 15 and resistor 6, capacitor 16), to the inputs of which (input I and input II) pulses are in the opposite phase, and two series-connected diodes 18 and 19. One end of the resistor 5 connected to + Er, and the other to the cathode of diode 18. Resistor 6 is connected to - E3 and to the anode of diode 19. The common connection point of diodes 18 and 19 is connected to resistor 8, the second end of which

connected to point 20 and through a capacitor 17 - to the base of the transistor 3.

The trigger of the cascade is composed of two series-connected transistors / u2 types pnp and npn of different conductivity,

included in inverse mode. The collectors of transistors 1 and 2 are directly connected to the positive and negative side of the power source EI, respectively. To the point 20 are connected resistor 7 elements of the decoding matrix, the resistor 8 and through the resistor 12 - the base of the transistor 3.

When the supply voltage is applied to the divider current (resistors 9, 11, and 14), transistor 1 is open, and transistors 2 and 3 are closed along the base circuits. Point 20 is connected to the positive power supply bus through conductive transistor 1. Ei. By this, diode 18 is prepared to pass a negative pulse.

polarities with differentiating circuit 1 (capacitor 15, resistor 5); i.e., the chain consisting of resistors 5 and 5 and diode 18 is turned on between the positive buses of the sources EI and Ea. At the same time, a chain consisting of resistors and S and diode 19 is connected between the buses + EI - E3, as a result, diode 19 does not transmit a pulse of any polarity from the output of the differentiating chain (capacitor 16, resistor 6). Since the differentiated pulses arrive at the cathode of diode 18 relative to the source potential -fBg and their amplitude is much greater than the bias voltage of the source + E2, for a time during which the potential of the cathode diode 1815 at the source potential + Eb diode 18 is discharged. Next, a negative polarity pulse from resistor 8 through capacitor 17 enters the base of transistor 3. As a result of this pulse, a regenerative process occurs, at the end of which transistors .2 and 3 are opened and the transistor / closes. Point 20 is now through conductive transistor 2 connected to the negative 25 power supply line E |. By this, diode 19 is prepared to pass a positive polarity pulse from the differentiating chain (capacitor 16, resistor 6); i.e., a string consisting of resistors 8 and 6 and 30 of diode 19 turns out to be included by negative sources of sources EI and E3. At the same time, a chain consisting of resistors 8 and 5 and a diode 18 is connected between the source voltages EI and -f Eg, which prevents the transmission of a pulse of any polarity from the output of the differentiating chain (capacitor 15 and resistor 5). Since the differentiated pulses arrive at the anode of the diode 19 relative to the source potential — E3 and their amplitude is much greater than the bias voltage of the source EZ, the time during which the potential of the anode of the diode 19 is higher than the potential of the source, the diode 19 opens. Next, the 45 pulse of positive polarity from the resistor 8 through the capacitor 17 enters the base of the transistor 3, closing it. Consequently, transistor 2 is also closed, and transistor 1 opens. The cascade trigger goes back to its original state, with point 20 being reconnected to the positive bus source EI. The pulses of opposite phases, taken from the common connection point of transistors 1 and 2 (point 20) and from the collector load of transistor 3, the frequency of which is twice lower than the frequency of the pulses at the input of the cascade, are the input pulses for the next stage of the GSPN. Thus, in accordance with the operation of the trigger (transistors / and 2) in each stage of the GSPN, the decoding matrix nodes through the resistor 7 and the "key (transistor / or transistor 2) are connected alternately to the polar or negative power supply bus E); A declining matrix of SPFGs is used to add voltages that differ according to the binary law, as a result of which, from the HFSR output (output I), a stepwise sawtooth voltage is removed, and from outputs I and III, the square impulses in the opposite phase, whose frequency is lower than 2 times the frequency of the pulses at the input of the generator. The subject of the invention is a step-saw voltage generator containing L series-connected identical cascades, each of which consists of a transistor trigger, a resistive decoding matrix and input circuits, characterized in that, in order to increase the reliability of the generator, an additional the transistor, the collector of which is connected through resistors to the bases of the transistors of the trigger, the base through the resistor is connected to the point of connection of the emitters of the transistors of the trigger to which resistor also for prison decoding matrix. 1st Cascade N-Yaskid