CS218758B1 - Connection of the electronic circuit particularly for adjusting the initial position of the logical network - Google Patents

Description

The invention relates to the connection of an electronic circuit, in particular for setting the initial state of a logical network.

Logic networks containing sequential circuits require a reset to the default state after the supply voltage is applied or after a brief interruption in the power supply.

At present the setting of the initial states of said logical networks is done either manually or by means of RC timers, which delay the arrival of logical levels L and H respectively to the setting inputs so that after switching on the logical circuit is in a defined initial state supply voltage.

The disadvantage of manually setting the initial states of a logical network is that it requires the presence of an operator who manually adjusts the default state of the logical network whenever even an accidental power failure or voltage drop occurs.

The disadvantage of setting the initial states of the logical network by means of RC timing circuits is that they do not fully solve the cases of short-term power interruption, in which the capacitance of the delay RC cells is insufficient to discharge below L, thus creating conditions for setting the initial state of the logical network.

These disadvantages are largely eliminated by the wiring of the electronic circuit, in particular for setting the initial state of the logical network, which is based on the fact that the positive output conductor is connected via a first resistor Zener diode, the second terminal is connected to the negative output conductor. an emitter of a first PNP transistor is connected between the first resistor and the Genus diode, a diode rectifier is connected to the positive output conductor by one terminal, the other terminal is connected via a second resistor to the negative output conductor, the diode rectifier is forward-oriented; between the diode rectifier and the second resistor, the base of the first transistor is connected, the collector of the first transistor is connected to the base of the second transistor of the NPN type, wherein the base of the second transistor is connected via a third resistor to the negative output and the emitter of the second transistor is connected to the negative output conductor, the collector of the second transistor being connected via a load resistor to the positive output conductor and to the input of the logic sieve setting.

The advantage of connecting the electronic circuitry according to the invention is that it reliably responds to short-term power outages and does not exhibit its own time constant.

An exemplary circuit of an electronic circuit according to the invention is shown schematically in the drawing. The wiring cooperates with a logic network 1 provided with at least one setting input 2 for adjusting the initial state of the logical network 1 and powered by a DC power supply 3 provided with positive and negative output wires 4, 3. The power supply 3 may be of known design and includes a transformer 6, a rectifier 7, a filter capacitor 8 and a voltage stabilizer 9, the parameters of which determine the time constant of the power supply 3. A Zener diode 11 is connected to the positive output wire 4 of the power supply 3 via a first resistor 10. the output conductor 5 of the power supply 3, wherein the Zener diode 11 is oriented in the reverse direction. Between the first resistor 10 and the Zener diode 11 is connected the emitter of the first transistor 12, which is of the PNP type, and to the positive output conductor 4 of the power supply 3 is connected one diode rectifier 13, preferably two diodes 13 ‘, 13 jedním. The second outlet of said diode rectifier 13 is connected via a second resistor 14 to the negative output conductor 5 of the power supply 3, wherein the rectifier 13 is oriented in the forward direction. Between the diode rectifier 13 and the second resistor 14, the base of the first transistor 12 is connected, the collector of which is connected to the base of the second transistor 15 of the NPN type, the base of the second transistor 13 connected to the negative output conductor 5 of the power supply 3. through the capacitor 17 to the collector of the second transistor 13. The emitter of the second transistor 13 is connected to the negative output conductor 3 of the power supply 3 and its collector is connected via a load resistor 18 to the positive output conductor 4 of the power supply 3 and logical network setup 1.

When the power supply 3 is turned on,

Claims (1)

A circuitry, in particular for adjusting the initial state of a logic network provided with at least one setting input and powered by a DC voltage source having a time constant, provided with a positive and negative output conductor for connecting the logical network, characterized in that the positive output conductor (4) is connected via a first resistor (10) to a Zener diode (11), the second terminal of which is connected to a negative output conductor (5), the Zener diode (11) being oriented in the reverse direction, between the first resistor (10) to grow at its positive and negative the output conductor 4, 5 is a direct supply voltage according to the time constant of the power supply 3, which is determined mainly by the impedance of the mains transformer 6 and the capacitance of the filter capacitor 8. When the supply voltage increases, the diode rectifier 13 is connected. The first transistor 12 operates as a constant current source, the magnitude of which is given by the value of the first resistor 10 included in the emitter of the first transistor 12. The constant current flowing through the first transistor 12 and the base transition second tran emitter. detector 15 causes the opening of the second transistor 15 at a voltage of the power supply 3 less than the maximum permissible level L for the logical network 1. Opening the second transistor 15 causes the L level to appear on the collector of the second transistor 15 This level L sets the initial state of the logic network 1 while remaining on the collector of the second transistor 15 until the voltage of the power supply 3 on its output wires 4, 5 exceeds the Zener voltage of the Zener diode 11. After the voltage is exceeded, the Zener diode 11 opens. thereby changing the polarity of the base transition - the emitter of the first transistor 12 also closes the second transistor 15, which is guaranteed by a third resistor 16 connected in parallel between its base and the emitter, and at its collector and thus at input 2 of logic network 1 the H level appears this shipment level transitions at the collector of transistor 15 from L to H, and from H to L. In the case of a short-term power interruption, the supply voltage at the output wires 4, 5 of the power supply 3 drops. If the voltage drops to the Zener voltage of the Zener diode 11, the transistors 12, 15 immediately open and thereby generate L level for setting the default state of the logical network 1. and the Zener diode (11) is connected to the emitter of the first PNP transistor (12), to the positive output conductor (4) is connected through one outlet diode rectifier (13), the second output of which is connected via a second resistor (14) to the negative output conductor (5), wherein the diode rectifier (13) is oriented in the forward direction and a base of the first transistor (12) is connected between said diode rectifier (13) and the second resistor (14), the collector of the first transistor (12) is connected to the base a second NPN transistor (15), wherein the base of the second transistor (15) is connected via a third resistor (16) to the negative output conductor (5), via a capacitor (17) to the collector of the second transistor (15) and emitter of the second transistor ( 15) is connected to the negative output conductor (5), the collector of the second transistor (15) being connected via a load resistor (18) to the positive output conductor (4) and to the input (2) logical network settings (1).