DE3444655A1 - Circuit for a single-phase apparatus power supply from a three-phase mains - Google Patents

Abstract

Electrical energy and power measurement apparatuses are currently being discussed which require a dedicated single-phase power supply for their evaluation electronics. In order to increase the operating reliability, it is alternately intended to make it possible for the power supply to be derived from the phases of the three external mains conductors L1, L2 and L3. The proposed solution is based on an "OR circuit", which represents assessment logic, the external conductor L1 in each case having priority over the external conductors L2 and/or L3. The same also applies to the external conductor L2, which has priority over the external conductor L3 in the absence of the external conductor L1. A relay A, which produces the priority by means of its contacts a1 and a2, is used for this purpose. The priority for the external conductor L2 over the external conductor L3 is ensured by a relay B. <IMAGE>

Description

Circuit for a single-phase device power supply from one

Three-phase network The invention relates to a circuit for a single-phase device power supply from a three-phase network according to the generic term of claim 1.

Novel electrical energy and power meters have in usually an evaluation electronics that have their own single-phase ge power supply needed. Here it seems to be useful if the power supply to Increasing the operational safety from the phases of the outer conductors L1, 12 and 13 of a Three-phase network takes place.

The invention is therefore based on the object of providing a circuit for to develop a power supply of the type described above, which alternatively consists of the three phases can be taken from a three-phase network, the phase of the External conductor L1 has priority over the phases of external conductors L2 and L3 and those of the phase of the outer conductor L2 should be before the phase of the outer conductor L3.

This object is achieved according to the invention by the features in the characterizing part of the claim 1 specified circuitry measures solved.

The advantages achieved by the invention are low in det Expenditure on switching means and components, as well as the small space requirement.

Advantageous embodiments of the invention are the Unte @@ nproaches refer to. Thus, claim 2 describes the use of a relay that for the Priority of the outer conductor L1 over the outer conductors L1 and L2 is responsible Claim 3 describes a relay that takes precedence over the outer conductor L2 with respect to the outer conductor L3 in the event of failure of the outer conductor L1.

An embodiment is shown in the drawing and will explained in more detail below. The figure shows a circuit for a single-phase Device power supply from a three-phase network.

According to the figure, the outer conductors L1, L2 are of a three-phase network and as well as a neutral conductor N shown in the same order the input terminals 1 to 4 of the circuit are connected. Between the outer conductor L and the neutral conductor N is a relay A, which is a changeover contact a1 and a normally closed contact a2. When the phase conductor L1 is live, @ das pulls Relay A on and connects live outside via the switchover contact a1 cten conductor 1 with input 5 of transformer T. With the changeover of the changeover contact a1, the outer conductor L2 is cut off, it does not matter whether the outer conductor L2 is energized or de-energized. The normally closed contact a2 disconnects at the same time the outer conductor L3, it is also irrelevant whether this outer conductor energized which is de-energized.

A relay is located between the outer conductor L2 and the neutral conductor N. B switched, which is b @ piecest with a working and a normally closed contact. At the When relay B closes, normally open contact b closes and thus sets the current-carrying one External conductor L2 to input 5 of the transformer T, soferii the external lead door. L1 is de-energized. The normally closed contact b2 is located in the line run of the outer conductor L3 and disconnects this cable run when relay B is pulled out.

This circuit is an "OR circuit" in which the external conductor L1 has priority, irrespective of if the outer conductor L2 and / or the outer conductor L3 are live. The relay A its contacts a1 and a2 ensure that the outer conductors L2 and L3 are ineffective will. If the outer conductor L1 fails, the outer conductor L2 has priority the outer conductor L3. This is done by the relay T3 with its contacts bl and b2 accomplished. During the normally open contact bl the live outer conductor L2 puts on the input 5 of the transformer T, the break contact b2 separates the outer conductor L3 from.

If the outer conductors L1 and L2 fail, it is guaranteed in any case, that the outer conductor 1.3 is connected directly to the input 5 of the transformer T. is. This state is shown in the Figtir. Unless the failed outer conductor L1 and L2 become energized again, the circuit automatically selects the outer conductor with the highest priority level, i.e. L1 before L2 and L2 before L3 and L1 before L3.

The input and output terminals of the transformer T are niit the Reference numerals 5 to 8 are provided.

In the individual cable runs, the outer conductor L1, L2 and L3 is located a protective resistor R1, R2 and R3.

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Claims (4)

Claims: 1. Circuit for a single-phase device power supply from a three-phase network, with three outer conductors and one neutral conductor, and with an input transformer for the device to be supplied, d a d u r c h It is not indicated that between the outer conductor r.l and the neutral conductor N a relay A is used, the Koiitakte the current-carrying outer conductor L1 to the input (5) of the transformer T and the live or dead Separate outer conductor L2 and L3, and that between the outer conductor L2 and the neutral Conductor N a relay B is connected, the contacts of which the outer conductor L2 when de-energized Connect the outer conductor L1 to the input (5) of the transformer and the outer conductor L3 interrupt, and that the current-carrying outer conductor L3 with currentless outer conductors L1 and L2 are connected directly to the input (5) of the transformer. 2. A circuit according to claim l, d a d u r c h g e k e n n z e i c hn e t that the relay A has a changeover contact a1 and a break contact a2, whereby the changeover contact separates the outer conductor L2 and the current-carrying outer conductor L1 to the input (5! ClesTransformators T puts and the normally closed contact the outer conductor L3 interrupts. 7. Circuit according to one of claims 1 to 2, d a d u r c h g e it is not indicated that the relay B has a normally open contact b and a normally closed contact b2, the normally open contact the live outer conductor When the external conductor L1 is de-energized, L2 connects to input (5) of transformer T and the normally closed contact disconnects the outer conductor L3. 4. Circuit according to one of claims 1 to 3, d a d u r c h g e k It is noted that in the cable runs of the outer conductors L1, T2 and L3 to the Input (5) of the transformer protective resistors R1, R2 and R3 are used.