DE2010395B2 - CIRCUIT ARRANGEMENT FOR CURRENT TRANSDUCER //// WITH EQUAL RECTIFIER CURRENT CONVERTING AN INPUT ACCURRENT INTO A PROPORTIONAL OUTPUT DIRECT CURRENT / - Google Patents

Description

J 2

The invention relates to a circuit. new two-pole, hereinafter referred to as a terminator for current transducers is to be designated with the rectifier ■ level of the transducer, circuit, which an input alternating current in The structure described above from the »Archive an impressed output direct current, which is the telemetry input alternating current known for technical measurement is proportional, transformed. 5 tion is on the basis of FIG. 1 shown. To the

For the metrological detection of alternating current terminals 1 and 2, the remote measuring device is supplied with a supply and voltage, in addition to moving iron and measuring alternating current 3 ~. The measuring dynamometer instruments also moving coil instruments converter 3 consists of the current transformer 4 and the rectifier unit connected upstream. For rectifier unit 5. The terminating resistor 6 for this purpose is the moving-coil transducer contains the circuit arrangement 7 for instruments calibrated for sinusoidal alternating quantities. Current impression and the load resistance 8, should with the last-mentioned measuring devices, which in turn consists of the long-distance line 9 and the moving-coil measured values over greater distances in a measuring instrument 10. This representation is used to transfer the waiting time, so it is customary to indicate the spatial allocation of the individual components of the judge unit from the rotary flushing instrument to the remote measuring device,
separate. With the current and voltage converters, for larger output signals, to which the standard signal 20 mA belongs, in particular, which are used, among other things, for potential separation, the rectifier unit is spatially combined to form a circuit arrangement known to measure only one approximately uniform, which the alternating current wise current impression can be implemented, which is not sufficient for many application or alternating voltage at the measuring location in one application. Another direct current is transformed. This transducer is a disadvantage of this circuit arrangement is four-pole, the input terminals of which have to be measured that the additional adjustable resistor is supplied with the size and whose output terminals must first be adjusted to the existing with the input terminals of a further four-pole line resistance.
the pipeline, are connected. The long-distance line 25 The invention is based on the object of leading into the control room, where it is to be provided with a two-pole circuit arrangement which, e.g. closed. AC input current into an impressed proportional output current that is converted with the two-pole (moving-coil instrument) is avoided. The closed four-pole (long-distance line) forms a new solution to this problem, according to the invention, two-pole, which in the following is called load resistance in that the output circuit is to be referred to as a controllable one. When the loading resistance contains and a branch of a load resistance z. B. forms on the basis of temperature level bridge circuit, the feed diagonals fluctuations in the feed diagonals that act on the long-distance line, the rectified input current is supplied and, as is known, the measurement accuracy changes. In order to avoid this disadvantage, the voltage applied to the measuring diagonal was actuated, which developed the controllable resistance in the arrangements, which adjusted an approximate output circuit so that the output current impressed on the measuring mode emitted, ie, diagonal voltage applied becomes zero. A change in the load resistance has only a small additional supply voltage for operation within a certain range. The actuator can be omitted if the controllable influence on the level of the output current. Resistance across the collector-emitter path of a

From the archive for technical measurement (V 3831-1 transistor is formed and the transistor at the same time

from October 1963) such a circuit serves as a zero detector.

Arrangement for approximate current impressions A bat is known from the USA patent specification 3 413 537, which ■ - ■ is only known for small output chargers, that a battery flows independently - the dependence of the output on the level of the battery voltage with a konggangstromes reduced by the load resistance. should charge a constant current. In this battery charger, in this circuit arrangement, the series connection of a corresponding circuit arrangement is part of a device type other than the invention load resistor, there is only the largest possible series resistor and an adjustable resistor connected in series. The output current, the level of which can be set at a manually large series resistor, provides an approximately adjustable resistance. A Zener diode is located as a constant range so that the impressed current is a few milliamperes as long as the output current is independent of changes in the load resistance. Provided by the adjustable 55 voltage source. This Zener diode resistance can be a one-time setting that ensures a resistance bridge circuit with a load resistance to the favorable standard constant supply voltage. Reach the value of the battery to be charged for which the series resistor is designed. is in the collector circuit and a series resistor in the emitter circuit of the large series resistor is used as a controllable resistor and the adjustable resistor is connected as a quadrupole 60 the transistor. The voltage dropping between one of the two input terminals is compared with a constant input terminal and one of the two output terminals voltage and the transistor is switched off and the series resistor is connected until the voltage drop is arranged across the emitter of the adjustable resistor and the resistance equal to the constant reference voltage other - both, terminals _{v are} directly connected. 65 is. Since the emitter resistance is constant, the emitter current and thus also the long-distance line is inserted between the measuring transducer. If this quadrupole is terminated in the usual way with the collector current of the transistor, it forms a constant load resistance. The reference voltage required

is tapped at a voltage divider, which is also more powerful 22, in its output circuit a servomotor

how the series connection of the 23 lying in the emitter circuit is arranged, the shaft of which is mechanically connected to the

constant resistance of the transistor and its axis of the wiper of the controllable resistor 19

Collector circuit lying variable resistance is coupled. The direction of rotation and speed

is connected to the constant voltage source. 5 of the shaft of the servomotor 23 is the voltage between

This is one proportional to the generation of the nodes 20 and 21, i. H.,

of an impressed constant current, the usual switching of the wiper of the controllable resistor 19 comes

tion. only to rest when the switching points 20

To improve the zero balance, one and 21 are at the same potential. About the

Further development of the circuit terminals 24 and 25 according to the invention will be the amplifier 22

arrangement supplied to the supply voltage serving as a controllable resistor.

Transistor at least one further transistor in To explain the mode of operation of the invention

Upstream Darlington pair. In a further circuit arrangement according to this, it is assumed

Embodiment of the invention consists both of the fact that the circuit points 20 and 21 are on

Bridge arm that is at the same potential as the output circuit, i.e. the bridge is disconnected

superior, as well as the one who is with the original match. Now increases the resistance 8, z. B.

Circuit is in series, from each one ohmic by heating the long-distance line, then comes the

Resistance. The fourth branch of the bridge is out of balance, and between the bridge

Series connection of an ohmic resistor and circuit points 20 and 21, a voltage occurs,

formed at least one diode. The threshold voltage 20 via the amplifier 22, the servomotor 23 the

the diode compensates for the voltage drop between the slider of the controllable resistor 19 so adjusted

Base and emitter of the transistor. By this measure- that the sum of the resistors 8 and 19 their old

the output current follows linearly the input value assumes, i. i.e., the controllable resistor 19

size. To eliminate the residual ripple of the measuring is reduced by the amount by which the

Current is in a further embodiment of the invention has 25 resistance 8 increased. Since in the balanced approach

connection parallel to the fourth bridge branch a constant the circuit points 20 and 21 the same potential

capacitor switched. tial, the current / divides into the partial current Ia,

With reference to the drawings, there are two versions: the one that flows through the resistors 8, 19 and 18, and the one

Examples of the invention described. It shows partial current I-Ia flowing through resistors 16 and 17

F i g. 1 shows the basic structure of a known 30 flows on. On the basis of this premise can

Remote measuring device, the dependence of the output current I _A on the input

F i g. 2 Calculate the basic circuit diagram of a telemetry input current / as follows:
device with the circuit arrangement according to the invention

for current injection, and _(/ _ ^ _{R = I a. R (1)}

F i g. 3 shows the circuit diagram of the 35 according to the invention

Circuit arrangement in which two tr — t (r ^ -R \ o \

Darlington pair transistors are used. '^ ¹⁷ ~ ^{lA ΚΚΐΊ +} ^ ¹⁸ ' ^{Z)

F i g. 2 shows the basic circuit diagram of a telemetry "

device with the circuit according to the invention Ia = I - (3)

arrangement for current injection. Components with 40 R17 + ^ is
those of F i g. 1 match are with the

provided with the same reference numerals. The measured value from equation (3) shows that the alternating current 3 ~ is fed to the input current / proportional current converter 4 via the terminals 1 and 2 of the direct input current Ia. Which is to the secondary. The proportionality factor depends only on the winding of the current transformer 4 connected DC 45 the choice of resistors 17 and 18. Since the sum judge unit consists of a rectifier bridge of the resistors 8 and 19, as already described above, circuit 11, a smoothing capacitor 12 and is kept constant by the bridge balancing, a Zener diode 13 to limit the between the remains also the total resistance of the bridge scarf terminals 14 and 15 constant voltage on a device between terminals 14 and 15, maximum permissible value. 50 This means that the transmitter is independent of the

Terminals 14 and 15 form the diagonal size of the load resistance 8, at the ends of a resistance bridge circuit, which equates to dimensions 14 and 15 with a constant terminating resistance of the transducer (circuit terminated between terminals 1, 2, 14 and 15) and their resistor 8 in the output circuit has no individual branches from the ohmic resistors 16, 17 55 influence on the input current /.
and 18 as well as the series connection of a controllable F i g. 3 shows another embodiment of the inventive resistor 19 and the variable load-related circuit arrangement, which consists of an additional resistor 8. The series connection of the loaned supply voltage for the actuator not controllable resistor 19 and the variable required. Components similar to those of FIG. 1 and 2 load resistor 8 forms the output current 60 correspond, are circled with the same reference numerals of the telemetry device. See the changeable. The task of the controllable resistor 19, the load resistor 8, includes, as already mentioned above, the amplifier 22 and the servomotor 23 in FIG. 2 out, the resistance of the long-distance line 9 and take over the internal resistance of the indicating instrument 10, which is arranged in a Darlington circuit, e.g. B. Transistors 26 and 27. Due to the high equality of a moving coil instrument. The circuit points 20 65 current amplification of the Darlington stage is the base and 21 form the measuring diagonal of the resistance current Ib of the transistor 26 negligibly small bridge circuit. The voltage present between these circuit points compared to the points flowing through the resistor 16 controls a current / - Ia. The threshold voltages of the diodes28

and 29 compensate for the base-emitter voltages of transistors 26 and 27. This ensures that the bridge is balanced when the voltage drop across resistor 17 is equal to the voltage drop across resistor 18. This measure ensures that the output current Ia follows the input current / linearly from zero to the maximum value. If necessary, the measuring current is further smoothed via the capacitor 30. Since the base circuit of the transistors 26 and 27 has a high resistance, good smoothing can be achieved with a small capacitance in parallel with the resistor 17.

A particular advantage of the circuit arrangement according to FIG. 3 is that the output current Ia follows the input current / linearly from zero to the maximum value, although no additional supply voltage is required for the active components (transistors 26 and 27). In contrast to the so-called two-wire measuring transducers, which likewise do not require a supply voltage for the active components, the telemetry device according to the invention therefore does not need to be operated like this with a suppressed zero point.
The circuit arrangement according to the invention can also be used advantageously for impressing the output current of a voltage / current measuring transducer.

Claims (5)

Patent claims: 1. Circuit arrangement for current transducers with rectifier circuit, which converts an input alternating current into an impressed output direct current which is proportional to the input alternating current, characterized in that the output circuit (8, 19) contains a controllable resistor (19) and a branch of a resistance bridge circuit (8, 16, 17, 18, 19), the feed diagonals (14, 15) of which the rectified input current (I) is fed and the voltage present at the measuring diagonal (20, 21) actuates an actuator (23, 19) which controls the controllable resistor (19) in the output circuit (8, 19) adjusted so that the voltage on the measuring diagonal (20, 21) becomes zero. 2. Circuit arrangement according to claim 1, characterized in that the controllable resistor is formed by the collector-emitter path of a transistor (27) and the transistor (27) also serves as a zero detector. 3. Circuit arrangement according to claim 2, characterized in that the as controllable Resistor serving transistor (27) at least one further transistor (26) in Darlington connection is upstream. 4. Circuit arrangement according to claim 3, characterized in that both the bridge branch, opposite to the output circuit as well as the one with the output circuit is in series, each consists of an ohmic resistor (16,18) and the fourth bridge branch from the series connection of an ohmic resistor (17) and at least one diode (28) is formed. 5. Circuit arrangement according to one of claims 1 to 4, characterized in that A capacitor (30) is connected in parallel to the fourth bridge branch. 1 sheet of drawings