DE2335372A1 - Control and regulation circuit - has a circuit for additional connection of an adjustable reference element - Google Patents

Abstract

The reference element has a circuit connected to the supply D.C. voltage and contains at least one resistor. A reference element branch line affects the nominal value of the control and regulation circuit. Sections of the reference element circuit on both sides of the branch line have an electronic switch each, for blocking and opening the current flow through the respective section. They are simultaneously electrically set in the same switching states. The electronic switches are pref. n-p-m or p-n-p unipolar transistors. Their emitters and collectors are connected to their respective circuit sections, and their bases are controlled by at least one flip flop connected to the same voltage source.

Description

ί *. Dr-ing-DipL-Phyi ·. OSKAR JC6NIG Patent Attorney

ZwvOO It.

Deutsche Bank AG Stuttgart

Telephone: (O? H) 628561 account number 89/00300

Telegram: Koenigpat 7000 STUTTGART-I, Klüpfeletraße 6 Postscheck St. 84919

P.O. Box 51

3476

ZENTRA Albert Bürkle KG Schönaich

Circuit arrangement for the connection of setpoint adjusters

The invention relates to a circuit arrangement for connecting at least one, preferably adjustable, circuit

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Setpoint divider to at least one control or regulation circuit, wherein the setpoint adjuster has a DC supply voltage circuit in which at least a resistor is arranged, a branch line branches off from this setpoint adjuster circuit, which influences the setpoint of the control or regulation circuit.

Such circuit arrangements to which the invention relates are used to connect at least one Setpoint adjuster to a control circuit or regulating circuit in order to adjust its setpoint. The setpoint adjuster may have a single constant setting in some cases, but is generally a adjustable setpoint adjuster required, for example allows a continuous adjustment of the setpoint by means of a potentiometer or the like. In general at least two such setpoint adjuster can be provided, which alternatively or in special cases the control or regulating circuit can also be switched on at the same time. Two such continuously adjustable Setpoint adjusters are z. B. expedient and usual when the control circuit or control circuit to the rules or control of the temperature in building rooms is used, with one setpoint adjuster setting the setpoint during the day and the other setpoint adjuster

y setting the setpoint

/ serves during the night. One speaks here of day increase and night reduction by means of appropriate setpoint adjuster, where the daytime temperature and the nighttime

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can set the temperature to the desired values independently of each other.

Such circuit arrangements naturally also have still other areas of application than that of temperature regulation or control, for example they can serve to regulate or control chemical or other manufacturing processes or the like,

The control or regulating circuit can be of any conventional design. Preferably she can a circuit having a measuring bridge or some other electrical circuit for control or regulation of processes whose setpoint should be adjustable.

It is known to use setpoint adjuster circuits if necessary by means of mechanical switches in the control or regulating circuit to switch on. Such mechanical switches must, however, in terms of the normally relative small setpoint voltages have very high-quality and therefore expensive contacts in order to ensure sufficiently reliable contact at the low voltages. The contact surfaces of such switches are also not allowed pollute and it is usually necessary to switch bulkhead gas to be provided, which are, however, expensive. The switches must also have very good long-term behavior have, which also requires relatively expensive switches. If such switches are not operated manually

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should be, but automatic actuation is provided, for example by means of timers, if their automatic actuation still requires relays or other rapidly switching actuating devices, whereby the structural and cost-related effort is increased even further.

To avoid these disadvantages of the mechanical switch, it is known to use the setpoint adjuster circuit to connect an electronic switch to the branch line leading to the control or regulating circuit. However, this electronic switch must be bipolar because the current direction is in this branch line can change depending on the setpoint set. Bipolar electronic switches, d. H. those by electricity in can be flown through in both directions, but are expensive and require separate control for their control Voltage sources, d. This means that their control voltage does not depend on the DC supply voltage of the setpoint adjuster circuit can be removed. It is also disadvantageous here that the setpoint adjuster current circuit is constantly supplied with current is flowing through, even if the branch line is blocked. In such circuit arrangements, however, one must often pay attention to extremely low power consumption. The cost of such electronic Circuit arrangements in the branch lines and their control no less than that for mechanical ones Switch, so that such electronic switches have only been used sporadically and are used in practice

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usually with the mechanical switches despite the mentioned disadvantages remained.

It is therefore an object of the invention to provide an improved circuit arrangement of the type mentioned at the beginning Art to create the structurally multiple, inexpensive and is operationally reliable, has a low power requirement and especially when there are several setpoint adjuster circuits are provided, brings a relatively significant power saving, no separate voltage source for the Control of the switch that switches the setpoint adjuster circuits on and off is required, as well as others Has advantages.

According to the invention it is provided in a circuit device of the type mentioned that in the to sections of the setpoint adjuster circuit located on both sides of the branch line, one electronic each Switches are arranged to shut off and open the current passage through the section concerned, the can be electrically switched into the same switching states at the same time.

The electronic switches can be of any suitable type, preferably transistors, in particular, commercially available unipolar npn or pnp transistors of the cheapest type, even if they are available individually, are available for a few pfennigs, or when built into an integrated circuit

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cause only minimal costs. However, instead of such simple and inexpensive transistors, other transistors or also other electronic switches, such as operational amplifiers, thyristors, triacs, etc., can be used, although this is generally not necessary and is usually not desired because of the higher costs.

By arranging the electronic switches in the sections on both sides of the branch line of the relevant setpoint control circuit is also achieved that these electronic switches by means of which the supply voltage that is also used to supply this setpoint adjuster circuit can be controlled, so that no separate voltage source is required for this. Also need the electronic switches Not to be bipolar, as through this circuit the current always flows in the same direction, in contrast to the branch line leading to the regulating or control circuit. Furthermore, the electronic is in the locked state Switches the passage of current through the relevant setpoint adjuster circuit, so that electricity is saved is achieved, which is particularly large if several setpoint adjuster circuits are available, as these at least in most cases only be switched on as an alternative.

The DC supply voltage for the circuit shown can expediently a battery voltage or non-pulsating DC voltage obtained in some other way be. In many cases, however, a pulsating DC voltage can also be used.

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Exemplary embodiments of the invention are shown in the drawing. Show it:

Fig. 1 is a circuit diagram of a measuring bridge with two associated setpoint adjuster circuits,

Fig. 2 shows a second embodiment of a circuit according to the invention, in which the control the circuit details used to switch the setpoint adjuster circuits on and off are shown.

The circuit shown in Fig. 1 has a measuring bridge 9, the bridge branches 10, 11, 12, 13 and a measuring diagonal 14 has. In each of the branches 10 to 13 a resistor 15, 16, 17 and 18 is connected in between. The resistors 15 to 17 are constant resistances and the resistor 18 is a measuring resistor, e.g. B. a temperature sensitive Resistance that forms a temperature sensor. In the measuring diagonal 14 is a differential amplifier 19 interposed, its output possibly after further amplification or conversion or directly any one suitable actuator for influencing the temperature sensor 18 perceived temperature. In this case the measuring bridge is part of a controller for regulation a room temperature. However, the measuring bridge 9 can also be part of other regulating or control circuits.

The measuring bridge 9 in this embodiment are two setpoint values for setting and switching the setpoint

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actuator circuits 21 and 22 assigned, preferably alternatively the measuring bridge can be switched on, if necessary can also be switched on at the same time. In each setpoint adjuster circuit 21, 22 is a setpoint adjuster 23, 24 are interposed, each of which is designed here as a potentiometer, whose taps 25 or 26 via the branch line 30 or 31, which has a resistor 27 or 28, to which the resistors 15 and 16 of the measuring bridge 9 connecting line are connected. Instead of these branch lines 30 and 31 to the same To connect the connecting line between two resistors of the bridge, you can also use other types of connection have, for example, the branch line 31 to the connecting line connecting the resistors 17 and 18 be connected.

The circuit arrangement shown is fed by a single DC voltage source, for example can be a battery. The feed lines are marked 33 and 34.

As shown, in the sections of the setpoint adjuster circuit located on both sides of the branch line 30 21, on both sides of the potentiometer 23, the emitter-collector path of a transistor T1 and T2 interposed. Correspondingly, on both sides of the branch line 31 are in the setpoint adjuster circuit 22 the emitter-collector paths of a transistor T3 and T4 are interposed. These

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Transistors T1 to T4 form electronic switches. The transistors Tl and T3 are pnp transistors and the transistors T2 and T4 are npn transistors. All transistors can be unipolar transistors.

By means of the in series with the setpoint adjuster 23 or 24 lying transistors T1 and T2 or T3 and T4 can the setpoint adjuster circuits 21 and 22 of the measuring bridge 9 can optionally be switched on or off contactlessly. It is not in any closer detail The manner shown provided that the bases of the transistors Tl and T2 via the control inputs El and E2 are each controllable at the same time, the control voltage being supplied by the feed lines 33 and 34 can be, as is shown in an exemplary embodiment in FIG. The bases are accordingly of the transistors T3 and T4 via the inputs E3 and E4 from a voltage derived from the supply voltage controllable at the same time.

If there is no control voltage at the bases E1 and E2 of the transistors T1 and T2, these are transistors locked and the setpoint adjuster circuit 21 is switched off. When at bases E3 and E4 of the transistors T3 and T4 there is no control voltage, these transistors are blocked and the setpoint adjuster circuit is accordingly 22 switched off. By applying a control voltage to the bases E1 and E2, the Unlocked transistors T1 and T2, d. H. switched through, so that the setpoint adjuster circuit 21 the the setpoint value of the measuring bridge 9 set by means of the tap 25 is applied.

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If, on the other hand, a control voltage unlocking these transistors is applied to the bases E3 ″ and E4 of the transistors T3 and T4 is applied, the setpoint adjuster circuit 22 is switched on and by means of the tap adjustable setpoint is pressed onto the measuring bridge.

Since the transistors T1 and T4 in the unlocked state always flowed through them in the same direction they do not need to be bipolar, so that unipolar transistors of the cheapest type are used can be.

This circuit arrangement can optionally also have only one setpoint adjuster circuit or any number Setpoint adjuster circuits, depending on how many setpoints are optionally to be pressed onto the measuring bridge. If, as shown, two setpoint adjuster circuits 21, 22 are present, this is, for. B. for day raising and night-time lowering of the room temperature in heated rooms is expedient, preferably one Time switch can be provided which switches these setpoint adjuster circuits 21,22 alternately on and off in Time dependency.

Besides the advantage of being able to use it cheaply- ^ ster, unipolar electronic components with switching - 'properties in the setpoint adjuster circuits and the possibility of their control not from an additional, but from the existing supply voltage source make from, is another advantage that the setpoint adjuster circuits 21, 22 the supply voltage

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always do not burden, d. H. are de-energized when they are switched off. This circuit arrangement is also distinguished through safe switching, low space requirements and high operational reliability.

In FIG. 2, a circuit arrangement is shown which, starting from the circuit arrangement according to FIG. 1, is advantageous Possibility of controlling the transistors T1 T4 shows. All parts that parts of the circuit according to 1 are provided with the same reference numerals.

It is assumed that in the embodiment according to 2 shows the connection and disconnection of the two setpoint control circuits 21 and 22 by means of a mechanical-electrical switch that can be operated, for example, by a timer 40 takes place.

The circuit shown for driving the transistors T1 to T4 has the two transistors T5 and T6 as well as the associated resistors having bistable flip-flops 39, here as RS flip-flop is trained. This flip-flop 39 ensures that the switch 40 does not have to have a flip-over behavior, d. This means that a simple and inexpensive switch can be used, the ζ. Β a creeping one Has contact. Instead of the switch 40 shown in the drawing, slide switches, tip switches, Sliding switch or the cheapest type of construction is used will. If z. B. the switching commands from a

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The timer can be removed here appropriately provide a sliding contact.

Furthermore, as a result of the bistable flip-flop 39 for switching on a setpoint adjuster circuit and switching off the other setpoint adjuster circuit is only required for each switch the flip-flop 39 from its one stable state to the other stable state by only brief actuation of the switch 40 to tilt.

If z. B. starting from the unlocked state of the transistor T6 and locked state of the transistor T5 of the switch 40 the base of this transistor T6 for a short time Time short-circuits, so this blocks, via the resistors 41, 43 and 44 then a current flows into the base of transistor T5, so that it becomes conductive. Through this the transistor Tl is also due to the control of its base via the resistors 45 and 47 conductive. Since the transistor T6 blocks, the transistor T2 as a result of the resistors 44, 4 3 and subsequent control of its base conducting. The setpoint adjuster is due to the conductive state of T1 and T2 23 is switched on and the corresponding setpoint is pressed on the measuring bridge 9. At the same time, the transistors T3 and T4 blocked and thus the circuit 22 switched off. By appropriately dimensioning the toggle switch In the event of a power failure, a preferred tilt position can be achieved when the mains voltage returns.

If the base of the transistor T5 is briefly short-circuited by the switch 40, for which a brief one

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Contact is enough, then this locks so that the
Transistors T1 and T2 block and transistors T6, T3 and T4 become conductive. As a result, the setpoint adjuster 23 is switched off and the setpoint adjuster 24 of the measuring bridge 9 is switched on. During this switchover, the resistors 42, 45, 46, among others, act; 43, 50 and 46, 45, 51 in the same way as for the other switching described above with.

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Claims (5)

- 14 - Claims j l. \ Circuit arrangement for connecting at least one - 'preferably adjustable setpoint adjuster at least a control or regulating circuit, the setpoint adjuster having a DC supply voltage Has circuit in which at least one resistor is arranged, from this setpoint adjuster circuit a branch line branches off which influences the setpoint value of the control or regulating circuit, characterized in that in the sections of the setpoint adjuster circuit located on both sides of the branch line (30; 31) (21; 22) each have an electronic switch (Tl, T2; T3, T4) to shut off and open the current passage are arranged by the section concerned, each of which is electrically in the same at the same time Switching states are switchable. 2. Arrangement according to claim 1, characterized in that the electronic switch transistors (Tl - TA) _{t are} preferably unipolar npn or pnp transistors. 3. Arrangement according to claim 2, characterized in that the emitters and collectors of the transistors (Tl - T4) into the relevant sections of the setpoint adjuster circuit (s) (21, 22) between- * - 15 - 409885/0661 J476 - 15 - are connected and the bases of the transistors
are controlled by means of at least one bistable multivibrator (39), preferably an RS flip-floo, and that the multivibrator (39) is connected to the same supply voltage as the setpoint adjuster circuit (s) (21, 22). 4. Arrangement according to claim 3, characterized in that the flip-flop (39) is two connected in push-pull Has transistors (T5, T6), the bases of which are connected to the two connections of a preferably mechanical-electrical, if necessary, electronic switch (40) are also connected. 5. Arrangement according to claim 4, characterized in that the mechanical-electrical switch (40) has a creeping contact allows. 409885/0661 Blank page