DE2539617B1 - CIRCUIT ARRANGEMENT MADE OF INTEGRATED DIGITAL COMPONENTS FOR STORING DIGITAL INFORMATION VALUES - Google Patents

Description

The invention relates to a circuit arrangement consisting of several integrated digital components, for the recording and temporary storage of irregularly occurring digi

tal information values.

Despite many of the advantages of today's integrated circuits, there are arguments against speak of the use of proven circuit families in certain applications. So speaks z. B. against the use of integrated circuits in communication sets within telephony technology the high power consumption of the integrated circuits. The problem of high power consumption arises especially when there are a lot of information values and these are integrated with the help of Circuit technology built up memory devices have to be stored in the short term.

The invention is based on the object of providing a circuit arrangement of the type mentioned at the beginning train that it is characterized by the lowest possible power consumption.

This object is achieved according to the invention for the above-mentioned circuit arrangement in that the Supply voltage of the storage units receiving the individual information values and of these assigned logic circuits only for the time of recording and storage of the information values is applied.

With the circuit arrangement according to the invention, a power-saving use of integrated Circuits achievable, since the supply voltage of the individual storage units and these assigned logic circuits is only switched on for the duration of a processing operation. This advantage of the circuit arrangement according to the invention is made possible by the fact that in practice the Most engineering codes do not use an all zeros information value.

The supply voltage is advantageously switched by the information values to be processed themselves. This is done according to a further embodiment according to de ^r invention in that the incoming information values actuate a switch which switches on the supply voltage of the memory units and logic circuits, and that keep opened after the storage the stored information values for the duration of its storage this switch. In this way, the individual connection of the supply voltage to individual memory units and the logic circuits assigned to them takes place automatically and without great effort through the information values that arise.
If the individual circuit arrangements of the type mentioned are each controlled by means of an address signal, such as. B. in switching records through the marking, then the address signal can be used to switch the supply voltage. A corresponding development of the invention is characterized in that the address signal actuates a switch which turns on the supply voltage of the memory units and the logic circuits, and that after the address signal has ended, the stored information values keep this switch open for the duration of their storage.

Further advantageous refinements of the circuit arrangement according to the invention emerge from the The following description of two exemplary embodiments with reference to the drawings. It shows

F i g. 1 a circuit arrangement made of integrated digital components for storing digital information values, at which the supply voltage through

the information values themselves are switched on,

F i g. 2 a circuit arrangement made of integrated digital components for storing digital information values, in which the supply voltage is switched on by means of an address signal.

F i g. 1 shows the basic circuit diagram of a circuit arrangement constructed according to the invention. In the illustrated As an example, this circuit arrangement contains four memory units FF1 to FF3, which are designed as bistable Flip-flops are formed. The information to be saved arrives via the lines L1 to L 4 in parallel coded digital form to the storage units.

The illustration shows that when information arrives on lines Ll to L 4, gates G 6 and G 7 have L potential at their outputs, so that the two transistors Ti and T2 switch through and the memory units and the associated logic circuits connect to the supply voltage. With regard to the supply voltage, FIG. 1 denotes the individual memory units and the logic circuits with / Cl to / C 3, the illustrated bistable flip-flops FFl to FF4 and the gate G 5 being part of these integrated circuits denoted by ICi to / C3. In the example shown, gates G 6 and G 7 must not be part of these integrated circuits, since they are used to connect the supply voltage. These two gates must be part of an integrated circuit that is always connected to the supply voltage regardless of the presence of information. Such an integrated circuit is denoted by / CO in the present exemplary embodiment.

If there is no more information at the input of the circuit arrangement, which means that the information values are stored in the memory units FF1 to FF4, the power supply from the stored information is maintained via the gate G 5 and the gate G 6 by keeping the transistor Ti on . Once the stored information has been processed, ie, the memory units FF1 to FF4 can be erased, a reset command is fed to these memory units via the reset lines R. Thereupon none of the outputs of the memory units has L potential, so that the transistor Ti and the transistor T2 are blocked again and the power supply is switched off.

In Fig. 2 is the same circuit arrangement as in FIG. 1, only that in this case the circuit arrangement is controlled by an address signal which is supplied via a marking line ML. This address signal controls the information inputs of the circuit arrangement on the one hand via the gates G 1 to G 4 and, on the other hand, simultaneously on the two transistors Ti and T2 via the gate G6 , so that the supply voltage is switched on. After the address signal has ceased to exist and the information has been stored, in this circuit arrangement too, the stored information takes over the switching of the supply voltage via gates G 5 and G 6. In the illustrated embodiment, the gate G 6 must be part of an integrated circuit / CO permanently connected to the supply voltage.

If the in FIG. 2 shown circuit arrangement during the address signal or during the marking does not result in any recording of information values, the outputs of the storage units remain FF1 to FF4 to 0 potential and at the end of the address signal or the marking, the supply voltage is switched off again.

The in F i g. 1 and F i g. 2 shown principle circuit diagrams are only intended for understanding the Invention show necessary logical functions of the circuit arrangements. On a representation a certain integrated circuit technology was dispensed with, since everyone with knowledge of the invention It is known to those skilled in the art how a circuit arrangement constructed according to the invention is used in a specific integrated circuit technology is to be realized.

For this purpose 2 sheets of drawings

Claims (5)

Patent claims: 1. Circuit arrangement, consisting of several integrated digital components, for recording and temporary storage of further processed, irregularly occurring digital information values, characterized in that the supply voltage of the storage units receiving the individual information values and the logic circuits associated with them only for the time of recording and Storage of the information values is pending. 2. Circuit arrangement according to claim 1, characterized in that the incoming information values operate a switch that turns on the supply voltage of the memory units and the logic circuits, and that after the storage of the stored information values for the duration of their storage Hold the switch open. 3. Circuit arrangement according to claim 1, wherein the circuit arrangement by means of an address signal is controlled, characterized in that the address signal actuates a switch which switches on the supply voltage of the memory units and the logic circuits, and that after termination of the address signal, the stored information values for the duration of their Storage keep this switch open. 4. Circuit arrangement according to claim 2, characterized in that the memory units bistable multivibrators (flip-flops FFl to FF4) exist that the set lines (L 1 to L 4) of the individual storage units (FF1 to FF4), via which the information values to be recorded are supplied are connected to the inputs of an OR gate (G 7) that the output of this OR gate (G 7) with an electronic that switches the supply voltage on or off Switching device (7 * 1, 7 * 2) is connected, and that the output lines of the memory units (FFl to FF4) via another OR gate (G 5) also with this switching device (Tl, 7 "2) are connected. 5. Circuit arrangement according to claim 3, characterized in that the memory units consist of bistable multivibrators (Fiip-Flops FFl to FF4), that the set lines (Ll to L 4) of the individual memory units (FFl to FF4), via which the information values to be recorded are supplied are each led via AND gates (Gl to G 4), the other inputs of which are connected to a marking line (ML) carrying the address signal, so that the marking line (ML) continues to be connected to an electronic switching device that switches the supply voltage on and off ( 7 * 1, 7 * 2) is connected, and that the output lines of the memory units (FF1 to FF4) are also connected to this switching device (7 * 1, T2) via an OR gate (G 5).