DD145801A1 - RECORDING MODULE FOR DETECTING CERTAIN ELECTRICAL AND VOLTAGE VALUES - Google Patents

Abstract

The invention relates to a universally applicable detection module for detecting a specific current or voltage value in galvanically separated from the information processing system circuits. The technical effort is low despite high response speed, the circuit to be monitored little energy is withdrawn. According to the invention, the detection module contains an electrically controllable attenuator and a suspend oscillator with a downstream oscillation indicator, which supplies a yes-no statement. By modifying the attenuator threshold can be detected polarity dependent or polarity independent. -Fig. 1-

Description

applicants

Dipl.-Ing. Norbert Heymann

Pat.-Ing. Ernst Wünschig

Delivery Agent Pat.-Ing. Serious 7 / unwanted

Berlin, Aug. 22, 1979 P 1123

Acquisition module for the detection of specific current or voltage

G 01 B ₁ 19/16

Field of application of the invention

The invention relates to a Lrfassungsbaustein for the detection of certain current baw. Voltage values in systems with galvanic isolation from the information processing system. Power unit having a vibration generator with a downstream vibration indicator.

The Jirfassungsbaustein is because of the low input power requirements versatile, preferably in the power converter technology for monitoring the Statecs of the fuses and the blocking voltage as well as in hochohniigen circuits, eg. B. in safety circuits in the test and Hachweis of switching states. Furthermore, the invention can be used to signal the exceeding or undershooting of a predetermined threshold value, also depending on the direction.

Characteristic of the known technical solutions

In heavy current engineering, in particular in power electronics, state signals are required to realize fast control systems and regulations, which should reach the information processing system with as little delay as possible. These signals must be detected simultaneously in many places with sometimes very different potential. In addition, it is important in such systems, for the detection of certain current or voltage values, in particular for thermal reasons ,, the Lei

In many cases, such as, for example, in blocking voltage and fuse monitoring of power converters, only a yes-Hein statement is needed, are detection circuits that a high circuit complexity on the detection side or even an auxiliary energy input. This also applies, in particular, to optoelectronic variants, since reliable optocouplers in the current state of the art have a relatively high power requirement.

There is known a circuit arrangement which does not have the described disadvantages and monitors several voltages at the same time. There, an adapter is provided for each voltage to be monitored. The outputs of the adapters are each connected to switching elements, each switching element in the circuit of a short-circuit winding of a coupling transformer associated with it. When the switching element is closed, the associated short-circuit winding is also closed, with an open switching element, the Eurzschlußwicklung is separated. The coupling transformer has in addition to the short-circuit windings on an input and an output winding. At the input winding is an AC auxiliary source, at the output winding an evaluation, the Auswerteglied can determine whether the voltage at the output winding below a predetermined value, which corresponds to the short-circuiting of at least one short-circuit winding. This technical solution adheres to the significant disadvantage that the coupling transformer contained therein as. Mehrwicklungstransformator is formed., To whose manufacture known a very high technical and technological effort must be driven. In particular, if the voltages to be detected, as in the case of application, have very different potential, elaborate insulations between the individual windings must be considered. Even if only one voltage is to be monitored, a coupling transformer with 3 windings is still required. A vue ererer drawback is to be seen in that on the Erfassungsseite- a üchaltglied is required, which in the closed state, a very low-impedance path must represent to the flow of energy from the input -

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winding to the output winding also safely prevent, so that false readings are avoided. For certain applications, the provided in the known circuit arrangement Signalalknüpfung is disadvantageous because the output signal contains no statement which of the components to be monitored is live and which is not energized.

Object of the invention

The aim of the invention is to provide a detection module for the detection of certain current or voltage values in installations with a power unit which is galvanically isolated from the information processing system. produce much lower technical complexity, in particular, for the inductive coupling member no wound components are to be used.

Explanation of the essence of the invention

The invention has for its object to develop using a printed transformer, a fast-response detection module that extracts the power unit only very slightly energy.

This is achieved according to the invention in that an attenuator controlled by the input variable supplied by the power unit is inductively coupled to a single coil of a vibration generator designed as a drop-out oscillator, which is in turn connected to a vibration indicator in a DC manner.

Bine particularly advantageous training results when the • attenuator has at its control terminals a voltage divider, at the tap a two-pole with non-linear Stroin-Spanaungs characteristic is connected and placed in series with the coil arranged at the output. A further advantageous measure is to apply the circuit of the detection module in a known manner to a printed circuit board on which the coils of the attenuator and the Aussetzoszillators are provided in printed technology.

Aussetzosiiillatoren are vibrators, in which the positive feedback is set slightly supercritical, so that in unge-

Damping oscillations are used in conjunction with vibration indicators in slot initiators and inductive proximity switches do not need any further inductances.

embodiment

The invention will be explained in more detail using an exemplary embodiment. They show:. ·

Fig. 1: Block diagram of the detection block

5'ig. 2: block diagram of the acquisition block with the formation of the attenuator.

The circuit arrangement of the detection module is shown in FIG. The electrical variable to be monitored is applied to the control terminals 1, 2 of an electrically controllable attenuator 3. The attenuator 3 is located with its output terminals 4, 5 a-'t a coil 6, which is inductively coupled to a resonant circuit formed from a coil 7 and a capacitor 8. This resonant circuit, together with a coupled amplifier 9 the Aussetzoszillator 10. The amplifier is Gleichstromiaäßig or capacitive connected to a vibration indicator 11, at the output 12, the state signal can be removed. ,

Offsetsoszillator 10 and Schwingungsindikator'11 be supplied from the Inf ormationsverarbeitungssystera with operating voltage. The electrically controlled attenuator 3 must have the property that the output resistance measurable between the output terminals 4, 5 has an ohmic component which is in a clear relation to the controlling variable at the control terminals 1, 2. It is not necessary that the ohmic component of the AC resistor can assume the values zero or infinity, as would be possible, for example, when using a transistor as a controlled resistor.

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The respective Jtfiderstandswert lying between the terminals 4 and 5 is transmitted in accordance with the ratio of the coil inductively in the resonant circuit formed from coil 7 and capacitor 8 and is superimposed there with the. already naturally existing damping resistance. This transformation causes a high Bedäiüpfung of the resonant circuit 7, 8, when between the terminals 5, 4, a low resistance occurs and a small Bedäapfung when the resistance between 4 and 5 is very large .. To explain the operation of the detection module is assumed that the output resistance of the attenuator 3 is high if a too small input quantity is applied between the control terminals 1, 2 and that it is low if, between the control terminals 1, 2, an input is present which exceeds a predetermined limit value ,

As already mentioned, the oscillation oscillator 10 oscillates when the resonant circuit is little steamed. This occurs when there is too small an input between the control terminals 1, 2. The oscillation indicator 11 detects the presence of oscillations and outputs a DC signal signal at its output 12. When the input between the control terminals 1, 2 becomes larger than the predetermined threshold value, a lower value appears between the terminals 4, 5, and the oscillation circuit is attenuated so much that the oscillation circuit 11 is stopped no vibrations and outputs no DC signal at its output 12. ^v

The response characteristic of the detection module is essentially determined by the structure of the attenuator 3.

The ELg. 2 shows a variant of the solution according to the invention for the detection of a specific value of a; Voltage at which the attenuator 3 is particularly simple. Between the control terminals 1 and. 2 is a voltage divider formed from the 7 / iderständen 13 and 14. At the tap 16 of the voltage divider a two-terminal 15 is connected to non-linear Strora voltage Kenniinie. The Beihenschaltung this Zweipols 15 Eiit the coil 6 is parallel to the resistor 14, ie to the output of .Spannungsteilers. The rest of the structure corresponds to that of Fig .. tv

To explain the mode of action, let it be assumed that the two-terminal 15 with a nonlinear StroBi voltage characteristic is a silicon diode whose anode is connected to the tap 16 and whose cathode is connected to the output 4 of the attenuator.

If the control terminal 1 is applied to a negative voltage with respect to the control terminal 2, according to the voltage divider rule, the voltage at. Tap 1.6 compared to output 5 is negative. The two-pole 15, in this case the diode, is blocked. The oscillations of the intermittent oscillator 10, which are induced by coil 7 in coil 6, can cause no current flow in the circuit formed by coil 6, resistor 14 and two-terminal 15. The resonant circuit '' of the Aussetzoszillators 10 is thus 'not' damped. , ,

If the polarity is changed on the input side, then a current flows through the dipole 15, in this case through the diode. Thus, the two-terminal 15 is conductive, and it can also in the circuit of the coil 6, 'resistance 14 and two-terminal 15 is formed, a current flow. The resonant circuit is now damped so much that the vibrations are very small or suspend. The evaluation of the signal is carried out as described in Example 1. ·

It follows from these statements that when forming the attenuator 3 of FIG. 2 when using a silicon diode as a dipole 15, a detection module is formed, with which the polarity of a voltage can be detected, unless high demands are placed on the accuracy of the zero crossing detection.

As two-pole 15, two identical Z-diodes with a small junction capacitance connected in Heine can also be used. Then you get a detection module with which you can determine the exceeding of a predetermined maximum value of a low-frequency AC voltage.

By using other two-pole 15 with non-linear current-voltage characteristic, for example, four-layer diodes, a hysteresis behavior of the detection member can be achieved.

The solution according to the invention can be realized particularly advantageously with the shaking of the integrated circuit technology and printed circuit board

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In particular, when the intermittent oscillator is operated with a frequency that is as high as possible, except for the coil 7 of the oscillating circuit, intermittent oscillator 10 and oscillator 11 can be accommodated on a semiconductor chip.

At a sufficiently high oscillation frequency of the intermittent oscillator 10, the coils 6 and 7 can be realized by a printed circuit board type transformer without an iron core, the circuit board material ensuring the withstand voltage between the power section and the information processing system. This results in significant advantages over the known state of the art. Due to the complete elimination of winding components manufacturing technology is much easier.

The use of the Aussetzoszillators 10 requires only a minimum power requirement at the control terminals 1, 2 of the attenuator 3 ·

In addition, there is still a high insensitivity with respect to occurring interference voltages, because the filter effect of the resonant circuit 7, 8 together with the switching behavior of the vibration indicator 11 causes sufficient interference suppression.

Claims (3)

Claim of invention. 1. detection module for the detection of certain current or voltage values in systems with galvanic vom Informationsverarbeitung s system, separate power unit having a vibration generator with a downstream vibration indicator, characterized in that a delivered by the power unit input variable-controlled attenuator (3) via a to its output terminals (4, 5) connected to the coil (6) is inductively coupled to the single coil (7) designed as a Aussetzoszillator (10) Schwingimgszeugers. 2. detection module according to item 1, characterized in that the attenuator of eiaem Olimschen voltage divider (13, 14) with the output side lying in Seiheem two-pole (15) is formed with non-linear current-voltage characteristic. 3. detection module according to item 1 and 2, characterized in that its circuit is applied to a printed circuit board on which also the coil (6) of the attenuator (3) and the coil (7) of the Aussetzöszillators (10) arranged in printed technique are. For this 1 page drawings 2OK iq / η * k ^: j ra;,: >