DE2039551A1 - Rectifier device - Google Patents

Description

AF '+ 7ο August 6, 197ο

FRAKO, KONDENSATOREN- UND APPARATEBAU GMBH. 7835 Teningen / Baden

RECTIFIER

The patent application P 2o o5 20o.6 relates to a rectifier device for Supply of a counter voltage source, preferably for charging accumulator batteries, using controllable rectifier elements, in particular thyristors, with one of the rectifier elements controlling control unit that this one of the voltage at the main connection terminals of the rectifier device and assigned protective circuit arrangement influenced by the voltage on the sensor line of the control device which the control unit only makes effective if the voltage at the main connection terminals and the voltage at the sensor line are correct are polarized and exceed a certain minimum value.

Such a rectifier device prevents the batteries to be charged from causing a fuse failure if the connection is incorrectly connected, so that the system could temporarily no longer work. The device is secured against an incorrectly connected battery both when it is switched on and when the polarity is reversed. If such a polarity reversal protecting circuit is connected to a three-phase bridge circuit, as in separation of the battery, the voltage at the rectifier, that the switching element (H 2) can no longer be de-energized continually shows such a large% voltage value.

The invention aims to develop the subject matter of the main patent. It is based on the task of creating a rectifier device of the type mentioned at the beginning, which can be used with three-phase current connection and when switched on as well as with subsequent reverse polarity of the counter voltage source connected on the output side is reverse polarity protected.

According to the invention, this object is achieved in that the connected Counter voltage source and an auxiliary voltage source with switching medium connected together are that when the opposing paanuri ^ i; source by means of

of a SoJ I actual value comparator emits a signal: a :, Jx:.: eil · .: An ¹ : ι ■ timing

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With a rectifier device constructed in this way and a correspondingly adapted one Bridge circuit, it is possible to use both a single-phase network on the input side as well as a three-phase network.

An embodiment of the invention is shown in the drawing and is described in more detail below. Show it

FIG. 1 a battery charger with a three-phase bridge rectifier circuit using controllable rectifier elements that are controlled by a control unit, which in turn is a Protection circuitry is assigned.

FIG. 2 shows a circuit diagram of the protective circuit arrangement assigned to the control unit.

In FIG. 1 with R, S and T are the input terminals of a three-phase transformer Tr 11 denotes, which feeds a three-phase bridge, which is made up of rectifier elements Gr 41 - Gr 46. From these rectifier elements the elements Gr 41, Gr 42 and Gr 43 are controllable. "rzugvreise Thyristors are used as controllable rectifier elements. The three-phase bridge Gr 41 to Gr 46 is connected to the terminals on the output side Io2 and Io3 connected, which are connected to a counter voltage source are. The rectifier device is preferably used to charge an accumulator battery.

A control device StD is assigned to the three-phase rectifier device Provides impulses for the control of the elements Gr 41 to Gr 43. The control unit is also connected to terminals R, S and T, so that a phase control with targeted impulses and a power supply are possible. A protective circuit arrangement SgD is assigned to the control unit, which is fed via the winding 2ol of the transformer Tr 22. The protective circuit arrangement SgD is with its terminals Io and 13 to the Output terminals Io2 and Io3 of the three-phase bridge circuit connected. The counter voltage source is also connected to terminals Io2 and Io3, Furthermore, the terminals 9 and 14 of the protective circuit arrangement SgD are directly connected to the counter voltage source, for example, via sensor lines Io4 and Io5 a rechargeable battery to be charged, connected, if a Charging operation with sensor lines is provided. The clarifications IR of the protection circuit is with the secondary winding 2o2 de :; Transformer Tr 22 connected. At the terminals 1 and 4 iüt the '., ■ ti-uer ^ oi "Ht: StD ..rrtinch Lossen,

/ / J ί) L 3 _BA D ORIGINAL

Depending on the signals on these two lines, the Control unit StD the pulses for the rectifier elements Gr Ul bis Gr 43 released. This ensures that when things go wrong Connection of a counter voltage source to terminals Io2 and Io3 none Short circuit can occur.

In FIG. 2 shows the circuit diagram of a protective circuit arrangement SgD. The slightly drawn out part in the drawing corresponds to the arrangement in patent application P 2o o5 28o.6. A description serves Part of it should not be repeated here, as this has been done sufficiently in the above-mentioned scripture. According to the invention is at the base of the Transistor T 5 is connected to the collector of transistor T 31 via resistor Wi 38. A Zener diode is attached to the emitter of this transistor ZD 31 in series with the rectifier diode Gr 34 and a resistor Wi 35 connected in such a way that there is a reference voltage. The rectifier diode Gr 33 is used as a protective diode. Between Connector point 13o and the negative supply voltage are the resistor Wi 31, the rectifier diode Gr 32 and the resistors Wi 32, Wi 33 connected in series. In parallel with the resistors Wi 32, Wi 33 is the capacitor C 31. The base resistance Wi 34 of the transistor T 31 is connected between the resistors Wi 32, Wi 33. The series connection of the resistor Wi 36 and the rectifier diode Gr 31 is thus between the resistor Wi 31 and the rectifier diode Gr 32 connected that the cathode of Gr 31 is connected to the anode of Gr 32. As shown in FIG. 1 can be seen, the secondary winding 2o2 of the transformer Tr 22 connected. The resistance. Wi 31 is small compared to Wi 36. The circuit arrangement described is dimensioned so that with a properly connected counter voltage source and sense line of transistor T 31 is not conductive. The connection point D is, since the resistor Wi 31 is low, almost to Sense line voltage and therefore battery voltage maintained. The current supplied by the winding 2o2 of the transformer Tr 22 has a corresponding current Voltage drop across resistor Wi 36 results. Now, by some circumstance, becomes the counter-voltage source B from the charging lines separated, while the sensor lines remain connected, the circuit of the main application would not block the control pulses, because the transistor T 1, due to the voltage supplied by the three-phase bridge, cannot be switched to the blocked state.

_u 109887/1049 * '

" ^μ " BAD ORIGINAL

According to the invention, by disconnecting the battery, the capacitor voltage, which until then, neglecting the low resistance Wi 31, is equal to the data voltage minus the voltage at the ' Rectifier diode Gr 32 was increased over the secondary winding 2o2 of the transformer Tr 22. Due to the increase in voltage on the capacitor C 31, the base voltage of the transistor T 31 ^ is raised so far that the collector-emitter path of T 31 becomes conductive. This makes the transistors T 5 and T 3 conductive. The conductive collector-emitter path of the transistor T 3 leads to the blocking of the transistor T 8 and thus to the de-excitation of the relay H 2. The open contact h 2, the one via the connector points 1 and 4 is connected to the control pulse circuit StD, prevent

det the control of the rectifier elements Gr Hl, Gr 12 and Gr t3. ™ This ensures that the polarity is reversed in the case of a subsequent Connection of a counter voltage source, the three-phase rectifier bridge cannot be short-circuited.

The device according to the invention with a three-phase connection is therefore in any case Protected against polarity reversal, both when switching on and in the event of subsequent polarity reversal if the device was already switched on.

5 claims
2 sheets of drawings

109887 / 10-49

Claims (5)

PATENT CLAIMS 1.) Rectifier device for feeding a counter-voltage source, preferably for charging accumulator batteries, using controllable rectifier elements, in particular thyristors, with a control device controlling the rectifier elements in such a way that this one depends on the voltage at the main connection terminals of the rectifier device and the voltage on the sensor line of the control device is assigned protective circuit arrangement, which makes the control device effective only when the voltage at the main connection terminals and the voltage at the sensor line are correctly polarized and exceed a certain minimum value, according to patent application P 2o o5 28o.6, characterized in that the connected counter voltage source (B) and an auxiliary voltage source (Tr 22 / 2o2) zusammenge- with switching means are i on, which emit a signal upon separation of the counter voltage source by means of a desired-actual value comparator, that the control of the Steue The controllable rectifier connected to the device is prevented. , · ' 2. Rectifier device according to claim 1, characterized in that in part of the circuit (C 31, Wi 32, Wi 33) when the counter voltage source is disconnected a change in potential occurs, which is passed on as a signal to de-energize a switching means (H 2). 3. Rectifier device according to claim 1 and 2, characterized in that the Setpoint / actual value comparator (Gr 34, ZD 31, Wi 35, C 31, Wi 32, Wi 33, Wi 34) a switching device (H 2) affects the control unit a potential-free Signal provides. 4. Rectifier device according to claims 1 to 3, characterized in that that the auxiliary voltage source (2o2) via at least one rectifier (Gr 31) and a resistor (Wi 36) with a capacitor (C 31) and a voltage divider (Wi 32, Wi 33) lying parallel to it and wherein the capacitor voltage determines the switching state of the setpoint / actual value comparator. 5. Rectifier device according to claims 1 to 4, characterized in that that the transformer supplying the auxiliary voltage and the supply voltage (Tr 2) is connected to the input terminals of the rectifier. 10 9887/1049 '' BATH ORIGINAL