DE3027391C2 - Monostable multivibrator with modified function - Google Patents

Description

20th

The invention relates to a circuit arrangement according to the preamble of the two patent claims. A retriggerable monostable multivibrator is z. B. from the brochure "the european cmos selection" MOTOROLA Semiconductors, 1979, known from Motorola Inc. under the designation MC 14 528B.

Based on the F i g. 1 of the drawing explains the basic mode of operation of the known multivibrators: The voltage U _{c of} a capacitor C is applied to one input of a comparator K , while a reference voltage Ur «is applied to the other input. The capacitor C can be charged from a constant voltage + U via an ohmic resistor R. A first switch 51 (trigger switch) is connected to the capacitor C , and a second switch 52 (reset switch) is connected in parallel to the ohmic resistor R. In the idle state, the capacitor C is charged to the voltage + U. The output signal Q of the comparator K is "0". The switch 51 briefly switches on with a trigger signal. The capacitor C is thereby discharged and the output signal Q becomes "1". The capacitor C then charges slowly via the ohmic resistor R until the voltage Uc is equal to LW. At this moment the output signal ζ) becomes »0« again. The charging process of the capacitor and thereby also the running time of the monostable multivibrator can be ended with a reset signal with which the switch 52 switches on for a short time.

In Fig. 2 is the usual circuit symbol for a monostable Tilting stage, which after the o. G. Operating mode is shown.

If the reset signal C is "1", the output signal Q appears either with the rising edge of signal A, if signal B is "1", or with the falling edge of signal B, if signal A is "0". If the reset signal is "0" (or becomes "0"), no output signal Q appears (or the output signal Q becomes "0").

The time for the occurrence of the output signal Q (or the complementary signal Q) is always determined by the resistor ('fl-C combination) connected to the constant voltage -I- U.

In a housing for integrated components there are usually two identical monostable multivibrators. Particularly In small electronic devices it often happens that only one monostable multivibrator is required and the second flip-flop remains unused. The invention also aims at possible exploitation the second flip-flop as a result of a modified mode of operation.

The invention is therefore based on the object of providing a circuit for a monostable multivibrator of the above specified type, through which their function to a mode of operation often found in electronics blocks used is modified.

This object is achieved by the features characterized in the patent claim.

Because the time-determining resistor is no longer connected to a constant voltage, becomes an R / S flip-flop with dynamic input when connected to a signal output of the multivibrator created. When connected to a z. B. with the falling edge triggered signal input of the Flip-flop, you get a delay element. Because R / S flip-flops or delay elements are often used in electronic circuits, is in use a module with two integrated monostable multivibrators, only one of which is used as such, the second can be used in the desired modified function.

The invention is to be explained with reference to the exemplary embodiments shown in the drawing.

In the monostable multivibrator shown in FIG. 3a, the time-determining resistor R is connected to the output ~ Q of the monostable multivibrator. The capacitor C can be omitted.

The monostable multivibrator becomes an R / S flip-flop (R / S bistable multivibrator) with two dynamic set inputs A, B and a reset input C.

The truth table for this R / S flip-flop is in FIG. 3b listed.

In the monostable multivibrator shown in FIG. 4a, the time-determining resistor R / C is connected to input B of the multivibrator that is triggered with the falling edge. This turns the monostable multivibrator into a delay element.

If the signal A is “0” and C is “1”, the output signal 1 Q represents a switch-on delay of the input signal B. The delay time can be set with the time-determining R / C-GY \ ed .

In FIG. 4b, the signal curve of the output signals Q and Q of the flip-flop stage for a given curve of the input signal B is shown. One recognizes the time shift t = K ₁ · R · C infoige of the circuit according to the invention of the Λ / C element, where K \ denotes a constant inherent in the circuit.

1 sheet of drawings

Claims (2)

Patent claims: 1. Circuit arrangement of a retriggerable monostable multivibrator with a resistor determining the switch-on time, characterized by the use of a! S delay element by means of a connection of the resistor (R, C) to one of the signal inputs (B) of the multivibrator (Fig. 4a). ίο 2. Circuit arrangement of a retriggerable monostable multivibrator with a resistor determining the switch-on time, characterized by its use as a bistable multivibrator by means of a connection of the resistor (R, C) to one of the signal outputs (Q) of the multivibrator (FIG. 3a).