DE2407468A1 - CIRCUIT ARRANGEMENT TO ACHIEVE A SWITCH-ON OR SWITCH-OFF DELAY, PREFERABLY FOR ELECTRONIC DELAY CIRCUITS WITH THRESHOLD SWITCH - Google Patents

Description

Applicant: '* Weida, February 12, 1973.

Straehe, Uwe

Unger, Helmut. ■ ■ '2407468

Representative: .

Fast, serious

description

Circuit arrangement for achieving a switch-on or switch-off delay, preferably for electronic ones Delay circuits with threshold switches

KLe invention relates to a circuit arrangement for achieving this a switch-on or switch-off delay, preferably for electronic delay circuits with an RC element for both types of delay and a transistors threshold switch » ■ '■'.

It is known that when using a Rö-link for Both types of delay the switch-off delay is achieved by charging the time capacitor. It is also known that the capacitor discharge after completed and unfinished Timing can be realized by parallel-connected diodes to the charging resistor and to the time capacitor can"

Circuit arrangements have already been proposed with which switch-on or switch-off delay is achieved. In a proposed circuit arrangement, the maximum charging resistance is smaller than the input resistance of the threshold switch, Another circuit arrangement contains a feedback circuit for self-holding and Capacitor discharge,

■ The first-mentioned circuit arrangement has the disadvantages that because of the relatively small maximum 'allowable charging resistance For long delay times, time capacitors with large capacitance values and thus high prices are used must be and that the required switching

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pause for the capacitor discharge is relatively large or must be worked with contact discharge. The disadvantages of contact discharge are well known.

The other circuit arrangement closes because of the self-retaining and discharge circuit, the above-mentioned disadvantages, but still has the disadvantage that the line delay cannot be achieved by contact control.

The purpose of the invention is to wand'zu said disadvantage parts by a circuit arrangement with anna e shirt avoid.

The invention is based on the object of a circuit arrangement to achieve a switch-on or switch-off delay, preferably for electronic delay circuits with an RCGIied for both types of delay and a transistor threshold switch as well as a self-holding and to create discharge circuit in which both voltage and contact control is possible.

The task is solved by a circuit arrangement in which, according to the invention a non-linear voltage divider between threshold switch output 'and ground and between the Voltage divider tap and the threshold switch input the time capacitor arranged in series with a resistor and that the charging resistor and time capacitor are each bridged by diodes.

The non-linear voltage divider consists of a Zener diode and a Qhmian resistor, so that it is in the off state of the threshold switch and consequently the voltage divider tap during the charging process ITull potential is located. In the on-state, on the other hand, am Voltage divider tap a positive potential opposite the threshold switch input and thus a return current generated for self-holding, at the same time the time capacitor is discharged. The one with the time capacitor in series switched resistance guaranteed in connection with the Charging branch the cancellation of the self-holding with contact control.

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Since the minimum charging resistance is largely determined by the resistance connected in series with the time capacitor the latter resistor is bridged by a diode. To correct the charging process, especially for. small charging resistance, and to suppress Interference voltage peaks are the resistor connected in series with the time capacitor and the ohmic resistance of the non-linear one Voltage divider bridged with a capacitor. A switching stage can be connected downstream of the threshold value switch will. The voltage divider tap is responsible for control logical signal available. The charging circuit and switching stage are decoupled by a diode during the charging process.

QLe invention will be based on an exemplary embodiment be explained in more detail, the accompanying drawing shows an electronic delay circuit with transistor, χ .. threshold value switch and downstream transistor switching stage. The delay element consists of the adjustable charging resistor R and the time capacitor C, due to different control, with one and the same RG member, switch-on or Switch-off delay achieved, with the switch-off ■ delay also being implemented by a charging process. The passage of time; for the switch-on delay begins with Closing switch S1 ,. for the switch-off delay with the opening of switch 82.,. -.

Since the maximum charging resistance R is greater than. the input resistance of the threshold switch 1. is selected, self-retention is required, but with the condition that that when the switch S1 is opened or the switch S2 is closed, this must be canceled. The charging voltage Uo is made from the supply voltage Uv with a voltage divider generated, which consists of two resistors R1 and R2. Usually this is a variable voltage divider executed. The non-linear voltage divider between the threshold switch output A and ground "M consists of a Zener diode Dz and an ohmic resistor R5, the Zener diode Dz is like this dimensioned that only when the threshold switch is on a voltage divider current flows.

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As a result, the voltage divider tap A 'is in the off state of the threshold switch 1 and consequently also approximately at bull potential during the charging process. The time capacitor C is arranged in series with a resistor R4 between the threshold switch input E and the voltage divider tap A ^f .

While the time capacitor C is being charged via the charging resistor R, the charging current flows via the resistors ΙΪ4 and. R5 according to mass H. The lower limit value of the charging resistance R is determined by the resistances R4 and. R5 determined. Since the resistor R4 in connection with the charging branch causes the self-holding to be canceled, it is rendered ineffective for the charging process by connecting a diode Ώ3 in parallel.

To correct the charging process, especially when the charging resistance R is low, the parallel connection of resistor R4 and diode D3 and. the resistor R5 by one. Capacitor C1 bridged. The capacitor C1 also serves to suppress interference voltage peaks. The time capacitor G is bridged by a diode D2 in series with a resistor R3. In the on state of the threshold ^{switch 1, a positive potential is generated at the voltage divider tap A r with} respect to the threshold switch input E and thus a feedback current for self-holding. The return current flows from the voltage divider tap A ^f via the resistors R4 and R3 and the diode Ό2 to the threshold switch input E; At the same time, the time capacitor C can discharge through the resistor R3 and the diode Ό2 . The resistor R3 is used to limit the discharge current to a value permissible for the diode D2 and can be neglected when considering the other processes. The latch can only be canceled when switch 81 is opened if the potential at the threshold switch input Έ drops to a value below the switch-off threshold. This condition is met when the charging resistor R bridges by a diode D1 and the ratio

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-S-

the resistors 114 and R2 are chosen accordingly. The return stream. then flows through the resistors R4, R3 ~ and R2 and the egg or D1 to mass M. If the timing is not completed, the time capacitor G can discharge through the diode D1 and the resistor R2. The threshold value switch 1 can be followed by a switching stage 2. Behind the Zener diode Dz there is a logic signal for control via a resistor R6. 2v / ischen Zener diode Dz and voltage divider tap A ^! a diode D4 is to be arranged to prevent a current flow to switching stage 2 during the charging process, especially at the moment of switching on.

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Claims (4)

Patent claim 1. Circuit arrangement to achieve a line switching or switch-off delay, preferably for electronic delay circuits with threshold value switch, characterized in that between the threshold switch output (A) and ground (M) non-linear voltage divider, consisting of a Zener diode (Dz) and an ohmic resistor (115), and between the voltage divider tap (A ') and the threshold switch Singang (13) the time capacitor (C) are arranged in series with a resistor (R4) and that time capacitor (C) and charging resistor (R) are bridged by diodes (D1; D2). 2. Circuit arrangement according to claim 1, characterized in that the time capacitor (C) in series switched resistor (R4) is bridged by a diode (D3). 3. Circuit arrangement according to claim 1 and 2, characterized characterized in that the resistor (R4) connected in series with the time capacitor (C) and the ohm see Resistance of the non-linear voltage divider (R5) are bridged by a capacitor (C1). 4. Circuit arrangement according to claim 1 to 3, characterized in that ^{a diode (D4) is arranged between the voltage divider tap (A 1} ) and Z-diode (Dz) when a switching stage (2) is controlled via a resistor (R6). 509821/0 610 Report on the publications on the status of the technique m patent specifications considered:
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