DE2039710C3 - - Google Patents

Description

The invention relates to a circuit arrangement according to the preamble of the patent claim.

It is known, conventional, digital signal processing relay circuits, especially public ones Telephone switching systems to be set up that their parts consume little power loss even in the standby state.

Also for circuit arrangements for power supply, in which a source for power supply of a A large number of circuits each containing semiconductors is provided, various measures are already in place to reduce the often very high power dissipation has become known:

In Frequency Band 19, 1965, pp. 386 to 392 are circuit arrangements for power supply of Circuits described. Some of the circuits provided are in themselves with a voltage supply or conductive, so that they would then consume a certain power loss. To reduce Two types of switch-on states are provided for the power loss, namely the standby state and the operating state, the duration of the standby state being significantly longer than the duration the operating state can be. Both states differ in that they are in the standby state the power dissipation-consuming circuits are not connected to the source, while im Operating state these power dissipation consuming circuits are connected to the source. As a result, a consumption of power loss can largely be avoided in these circuit arrangements will.

It is also known from DE-AS 13 00 969, column 1, lines 43 to 62 that to reduce the power loss consumption in electronic circuit arrangements with a source for power supply from here Circuits formed by electric circuits provided the measure to keep the source in the standby state can be switched off completely, but can be connected to all circuits when in operation. Here it is too possible that the standby state lasts much longer than the operating state. This However, the measure often leads to undesirably long periods of time to restore the operating state, in which the useful signals can be applied are required. It is obvious particularly troublesome in the case of circuit arrangements containing a large number of electronic components, which logic elements contain.

In the cited DE-AS 13 00 969 it is indicated that to reduce the power loss consumption of circuits processing digital signals can also be provided with complementary transistors, namely with flip-flops, i.e. with certain electrical storage devices. However, this generally requires one relatively high circuit complexity, and

Moreover, S is particularly evident in very many Systems containing components that this measure cannot always be easily selected, especially if conventional semiconductor chips available on the market are used for their construction should be; In general, these chips do not contain such power losses complementary transistors.

Miniaturization is also a frequently used one that processes power loss into digital signals Circuit-reducing measure, which is generally applied in addition to the above-mentioned measures can be. However, it is known that the power loss due to miniaturization is often only can be reduced in an unsatisfactory manner. The individual miniaturized components consume Despite the skillful dimensioning and construction, only little power loss. The often very high number of however, the total number of components contained in such an electronic circuit corresponds to a very high level Power loss consumption.

In the cited DE-AS 13 00 969 is in particular from Column 3, line 20 · indicated the power loss in circuits processing digital signals, in particular in electrical storage such as flip-flops, by means of an electronic circuit arrangement with a Source for supplying power to a plurality of each containing semiconductors, formed by circuits To reduce circuits, with a significant part of the circuits load circuits or load current circuits are and have been consumed power loss when supplied with electricity and where the Standby states during which only a part of these circuits are connected to the source, last much longer than the operating states.

There the measure is specified that the load current circuits consuming the power loss, as far as they are conductively controlled in the standby state, only to be connected to the source in the operating state and to connect the other circuits permanently, i.e. also in the standby state, to the source.

The invention was developed for a public electronically controlled telephone exchange, the parts of which should consume little power loss in standby mode. Research showed that the measure specified in DE-AS 13 00 969, column 3, line 20ff to reduce the power loss z. B. in such switching systems is often not sufficient because of serious disruptions of the Operation, namely z. B. incorrect connections can occur. It is precisely with such an extensive System that has a large number of heat-sensitive semiconductor circuits containing the Power dissipation usually not only

particularly unpleasant because of their height but also because of their influence on the reliability of the system. The disturbances that occur also consist in the fact that in many places in the system pulses and Pulse trains with incorrect information content occur, which is what happens when processing digital signals Switching is not permitted

In the aforementioned switching system, there is also the other known measure for reducing losses It is not permitted to switch the source on completely during the standby time and to connect it to the electrical circuits during the operating time; it kicked namely initially also disturbances. It therefore had to be a new technical teaching to reduce the Power dissipation developed for a telephone switching system without compromising the reliability that processes digital signals. This was a comparatively surprisingly low effort Ei demanding new teaching set up, which is also generally suitable for other circuit arrangements ^.

The invention is based on the object of the time periods required to restore the operating state the circuit arrangement mentioned in the preamble of claim are required, if possible To make it short, without unpleasant the power consumption of the system parts that do not require constant power This brevity in particular avoids system malfunctions that by reaching the full voltages or currents required to operate the system too slowly be evoked.

This problem was solved by the measure mentioned in the characterizing part of the patent claim.

In the invention, in fact, interference is avoided in circuit arrangements according to the The preamble of the claim occurs when, in accordance with the teaching of DE-AS 13 00 969, the for the storage of entered information serving load circuits of electrical storage all without exception during the standby state, during which only some of the circuits are connected connected to the source are not connected to the source. One constructed according to the invention The circuit no longer shows such malfunctions, although only during the standby state comparatively little power loss is consumed.

The system parts that are constantly supplied with power are in particular electrical storage devices, z. B. to ring counters, flip-flops and shift registers. Such memories often contain additional components, such as an input amplifier or input pulse shaper, which are used to input information. This Additional parts of the memory are considered in the following as parts of this memory and therefore no longer specifically mentioned. - Electric spoke. · Generally have to be used to store entered Information is constantly supplied with power, otherwise the information would be lost, which is why such storage units are then connected to a power supply source. Those associated with a source electrical storage devices are widely used, not only in circuits that have only a few components are also included in circuits that contain a large number of components, such as digital computers and public Telephone switching systems. The circuits contained in electrical storage systems do have various well-known advantages such as their miniaturizability, but they often contain many load circuits.

which consume power loss in the conductive state.

The invention is particularly suitable for maniaturized circuits in large systems in which the high consumption of power dissipation is often particularly troublesome

The drawing shows an exemplary embodiment of the invention. The circuits to be supplied with electricity are essentially divided into two groups, namely the relatively large group K and the relatively small group K '.

The latter contains each - generally comparatively few - circuits that use the electrical memory Sp- e.g. flip-flops, shift registers and ring counters - the information entered outside and / or during standby time and consume electricity to enter and store this information . In addition, the group K ' contains those circuits St which, when acted upon by a control signal generated within the circuit arrangement and supplied from outside the circuit arrangement, trigger the switchover from the standby state to the operating state only when a current is supplied.

Group K includes circuits containing semiconductors which do not contain the above-mentioned electrical storage devices 5p and switching circuits Sr. In a public telephone exchange, the group K z. B. all or a substantial part of the route finding devices, setting devices, monitoring devices and signaling devices. The source Q is used here to supply power to the plurality of circuits, each containing semiconductors, which belong to both group K 'and group K.

According to the technical teaching of the invention, the group K ′ is connected to a source Q via the lines 1 not only during the operating state of the circuit arrangement but also during the standby state of the same. When the circuit is switched on, the source Q is therefore connected via the lines 1 only to the circuits contained in the group ^ 'even during the standby state. The circuits that belong to group K are separated from the source Q via switches 5 I and S2 during the standby state. During the operating state, the switch 52 is conductive. In addition, the switch Si can be conductive. Then the circuits contained in group K are connected to a source Q serving for the power supply, namely at least the circuits to be supplied with smoothed direct voltage to the output R of the device C. This switch 52 - here also the switch 51 - is through a - Or if several are provided, controlled directly by one of the several - switchover circuits Si, which, when a control signal is applied to them, trigger the switchover from the standby state to the operating state, as indicated in the drawing.

In the embodiment shown in the drawing it is achieved by appropriate control of the switches 51 and 52 that during the standby state, by controlling these switches in the non-conductive state, only the circuits of group K 'are connected to a source and that during the operating state, By controlling this switch in the conductive state, also the circuits

of group K are connected to a source. If in a system containing a large number of semiconductor circuits, in particular in a telephone switching system, part of the system is in the operating state and the rest in the standby state, all the advantages of the invention act by applying the invention to the part that is in the standby state fully within this part.

Particularly small losses can often be achieved in that during the standby time only those circuits which contain electrical storage for the storage of information entered outside and / or during the standby time and consume electricity for the input and storage of this information, as well as, if such exist, also Circuits which, when a control signal is applied, trigger the switchover from the standby state to the operating state, are connected to a source. In this case, the remaining circuits are assigned to group K and are only connected to a source during the operating time. This measure is particularly suitable for systems which are relatively insensitive to voltage fluctuations of the source Q. The low losses are based on the fact that group K includes all circuits that do not necessarily have to be continuously supplied with current, but would contribute to a consumption of power loss if connected to a source.

The group K 'also includes the device C, C, which contains one or more smoothing capacitors and is already connected to a source in the standby state. In the drawing, a second device containing smoothing capacitors C is shown, which is also connected to the source ζ) in the standby state are charged to a bias. In this exemplary embodiment, a more rapid restoration of the operating state, which is advantageous for many purposes, can be achieved than if these smoothing capacitors were not charged to this bias voltage during the standby time. In this case, all essential parts of the device, in particular the smoothing capacitors, are already connected to the source in the standby state. Such a design is shown in the drawing.There is a circuit, which is supplied with current via the smoothing capacitors C in the operating state and contains the resistor R , which is connected to the source Q in the standby state, this source at least approximating the charging of the smoothing capacitors C. their required in the operating state operating voltage causes composed of this resistor R in this embodiment, thus, the smoothing capacitors are not only absolutely already charged to a bias voltage, but - namely by means of the resistor R - at least approximately straight to that operating voltage to which these smoothing capacitors C during the operating state the circuit arrangement should be charged. Since the smoothing capacitors C are at least approximately already charged to their operating voltage, this design is particularly advantageous for systems that are sensitive to fluctuations in the supply voltage. In addition, this design has the often very important advantage that the period of time for switching from the standby state to the operating state can be made extremely short. The last-mentioned advantage is of particular importance when the occurrence and duration of the standby states follow static laws, i.e. when the switchover to the operating state has to take place spontaneously without prior notice. In this case, a power supply current to the circuits belonging to group K flows immediately and reliably via the switch 52, which is switched to the conductive state at the beginning of the operating state, with an amplitude as provided for the function of the circuits belonging to group K. For this purpose, in the embodiment shown in the drawing, the switch 52 is provided which, during the standby time, disconnects from its source Q all those circuits which are supplied with power via the smoothing capacitors and which do not contribute significantly to the charging of the smoothing capacitors C to their operating voltage. By inserting the switch 52, those circuits which are supplied with power in the operating state via the smoothing capacitors C and which do not contribute significantly to the charging of the smoothing capacitors C to their operating voltage are assigned to the group K of circuits, so to speak, which are only supplied with power in their operating state , whereby particularly small losses are achieved with extremely short periods of time to switch from the standby state to the operating state.

In the invention it can be provided in each case that several or all sources are combined into a single source unit. Such a measure is shown in the drawing. This is because only a single source Q is specified there, which here supplies power to all the circuits of the circuit in the operating state. The source shown in the drawing thus represents a single source unit, which here supplies the entire system with electricity. Because only a single source unit is provided instead of many individual sources, in addition to reducing the number of sources, it is also advantageously possible to reduce the number of switches which cause the switchover from the standby state to the operating state. Thus, in the exemplary embodiment shown in the drawing, the fact that only a single source unit Q is provided ensures that the changeover can be effected by switches 51 and S 2 alone.

Instead of providing special switches for switching from the standby mode to the operating mode, i.e. instead of providing the switches 51 and 52 shown in the drawing, it is basically also possible to use switches that are already in the circuits in groups K and K ' for other purposes , for example for the implementation of logic functions, are intended to be used for the switchover. Such joint use can save switches provided specifically for switching, such as switches 51 and 52 shown in the drawing.

1 sheet of drawings

Claims (1)

Claim: Circuit arrangement for the power supply of a digital signal processing system, the individual parts of which must be constantly supplied with power in the operating state and are at least partially switched off in the standby state, in particular an electrical telephone switching system, characterized in that in addition to the parts (K '; memory 5p for the preparation of interconnections) of the system also the device containing at least one smoothing capacitor (C. C) , which is used to supply the parts (K) of the system that do not constantly require current with smoothed direct voltage, is constantly connected to the power source (Q) and that control switching means (St, S 1,52) responding to a control signal connect the parts (K) of the system that are switched off in the standby state to the output (R) of the device containing these smoothing capacitors (C, C) or to the current source fQJ.