DE1189183B - Arrangement for generating a constant reference voltage - Google Patents

Description

Arrangement for generating a constant reference voltage The invention refers to an arrangement for generating constant reference voltages for measuring, Control and regulating circuits.

It is known to use a Zener diode to stabilize DC voltages to be used, which is connected in parallel to a resistor, which is connected via a series resistor is connected to a source of variable voltage. For the stabilizing The effect of such a Zener diode is its very low differential resistance decisive in a certain range of characteristics, with the prerequisite that the Diode is polarized so that it is claimed by the voltage at the consumer in the reverse direction and that the voltage at the consumer is a certain in all operating cases Limit value not fallen below.

The constancy of the voltage generated with such an arrangement is now insufficient for many areas of application, especially when the supply voltage changed greatly. On the one hand, this is due to the fact that the tension changes noticeably at the Zener diode with large current fluctuations and that these changes are also relatively strongly dependent on temperature.

The purpose of the invention is to minimize such changes To keep effort low. This is achieved according to the invention in that the Zener diode with a heating device and a temperature sensor to a highly thermally conductive Unit assembled and the temperature of the zener diode by means of one of the temperature sensor controlled electrical regulator is kept constant.

A contact thermometer is particularly suitable as a temperature sensor. This enables the temperature to be controlled with very little effort, if the Heating device is switched with the help of a transistor, the emitter-base path of which which is biased in the forward direction by the contacts of the contact thermometer is temporarily short-circuited. The stability achieved in this way can still be passed through improve one of the Zener diode upstream regulator that the Zener diode and the current fed in parallel to it to one of fluctuations the supply voltage has already largely stabilized the independent value. Suitable for this is preferably a known circuit with a transistor in which Emitter-base circuit is a resistor to which a current proportional Voltage drops that with a voltage obtained with the help of another Zener diode is compared, and its modulation from the difference between these two voltages depends. This auxiliary transistor can also be connected to the same supply voltage source how the consumer should be connected.

For a more detailed explanation of the invention on the basis of an exemplary Circuit is now referred to the drawing.

The DC supply voltage source of the arrangement, which is not specifically shown, is connected to terminals 1 and 2. The ohmic resistor 3 and the Zener diode 4 are connected in series to these terminals 1 and 2. 5 denotes a transistor which in this case is, for example, of the pnp type. The Zener diode 4 is connected to the emitter-base path 5a-5b via the adjustable resistor 6. 7 designates the consumer that is connected to terminals 8 and 9 of the circuit and at which the voltage is to be kept constant. As can be seen from the circuit, the load 7 is fed from terminal 2 via resistor 6, transistor 5, terminals 9 and 8 back to terminal 1. This circuit runs via the previously unmentioned adjustable resistor 10, whose function will be explained in more detail in the course of the description, but which does not need to be present in every circuit according to the invention.

The arrangement described so far ensures that if the voltage at the Zener diode 4 can be regarded as constant despite a change in the voltage at the terminals 1 and 2, the voltage at the consumer 7 remains constant. Now, however, the switch is also connected to terminals 8 and 9. the Zener diode 11 with regard to the fact that the tension on the. 25ener diode 4 dbab nodr. not can be assumed to be sufficiently constant, connected. This diode 11 is in the illustration enclosed in a special encapsulation 12. In this encapsulation are located. a contact thermo- meter 13 uqd ; eiq Iipizelemept 14. This heating element 14 is iq, RCihe with detp transistor 15 to the Supply voltage source r 2` connected. The taxable circuit for the transistor: 15 runs before the Terminal 2 of the circuit via the emitter-base Route 15 a-15 b of the transistor 15 and the series resistance 16 back to terminal 1 of the supply voltage power source The encapsulation 12 together with the thermostat th 13 and the heater 14 ensure that die Zealezdia & 11b nuZ .; one: practically constant Temperature, and thus.a: an: you: sqnst existing temperature drift that leads to an error in maintaining a constant tension on the Consumers' i-Could Eliminate: The Transistor 15 is, provided the contacts of the contact thermometers; l3, are served at its tax controlled in such a way that it is at its emitter Collector route is permeable: It is therefore done a feed ... dei, H $ iahlung 14: from the feed sp_a reference source 1-2. If the temperature rises half of the encapsulation 12 via a. predetermined This closes its value, contact thermometer Contacts and presses the Etnitter base route 15 a- 15 b of transistor 15. Because of this way taking place aMegfalls_of the control voltage -am..Tran- sistor 15 this is at its emitter-collector- The route is blocked and there is no power supply to the F ei ei jl4ng.l4.t, It .. results @ thus -im. work dpr, Heizeinrigbüung :. and, of the> Thermokontakis .ein: certain game-which. however:, by a -suitable Selection of the elements -. To a very narrow tolerance - ranzberich, bmchränkx .warn. can. Were. .d orcbezeits mentioned resistance 10 in. the Circuit not available - so. could with the scarf tqng only a carrion regulation between a minimum Spannupgswert, which is .determined .. by the sum of the, both, Zenordioden,. tion, and. , an upper limit - which is determined by the sum of the mentioned-both-diode voltages and from the Gream voltage value, which - at the emitter-collector- Route of the transistor 5 - taking into account one; operationally reliable. Working, the transistor is permissible.

Now, however, it may be desirable to adjust this control voltage range to higher voltage values. This mode of action can be achieved using the resistance 10 that has already been entered. It is overlooked that this resistance: 10 is able. is to take over a certain voltage value in the series circuit of the Zener diode 11, the transistor 5 and the resistor 6 . The voltage drop occurring during operation at this resistor 10 then determines the possible shift in the voltage regulation range of the. Arrangement.

Claims (4)

Claims: 1 .. arrangement for generating a constant reference voltage with the aid. one. Zener diode, marked thereby. that the Zener diode (11) is assembled with a heating device (14) und.einem .: temperature sensor (13) to ... a highly thermally conductive unit and the temperature of the Zener diode is kept constant by means of an electrical regulator controlled by the temperature sensor. 2. Arrangement according to claim 1, characterized in that as a temperature sensor a contact thermometer is used. 3. Arrangement according to claim 2, characterized in that the .. heating device, via a # in the forward direction. prestressed. The transistor (15) is connected to a voltage source and the emitter-base path of this transistor is connected to the contacts of the contact thermometer (13) . 4. Arrangement according to claim 3, characterized in that; that the Zener diode (11) is connected to a variable supply voltage source via the emitter-collector path of a further transistor (5) and that the base-emitter path of this transistor is connected to a Zener diode (4) which, together with a resistor (3) forms a voltage divider, which is also fed with the variable voltage. Publications considered: Ball. SEV (1958), p. 1083; Electronics (1958), p. 224.