DE19817336C2 - Device and a method for detecting a short circuit in an inverter bridge - Google Patents

Description

The invention relates to an apparatus and a method for the detection of a short circuit in one of the Switching elements provided bridge branches of one Inverter bridge with a passive load in its transverse branch is arranged and the one of the one AC power source supplied rectifying current Rectifier circuit is supplied with constant current.

Inverter bridges that are used to power a passive load are used in their shunt arm known from practice. It has been shown that Short circuits in the bridge branches of such Inverter bridges are often discovered late and be localized. Accordingly, such Short circuits are also reacted late, causing damage in the load-side technological process by the Inverter bridge is supplied with energy may have. In particular, such errors can result cause the power supplied to the load decreases without this being recognized. In addition, the Switching elements of the Weselrichterbrücke in one Bridge branch that connects to the same cross branch end like the bridge branch in which the short circuit occurs, one exposed to significantly increased voltage and thereby can be destroyed.  

DE 42 31 351 A1 describes one method and one Device for the detection of an earth fault Inverter unit. The generated and a consumer supplied phase current is detected and the Zero phase current calculated. Exceeds the zero phase current the grounding level, the value of a counter is increased, if a value smaller than the grounding level is reached, the counter value is decimated. Exceeds the counter value a certain threshold, an earth fault is assumed.

DE 41 32 745 C2 describes a method for determining of a short-circuited controllable semiconductor component proposed in network-cleared bridge circuits. On any of the controllable semiconductor devices Bridge circuit should initially by a Single current pulse ignited with such an ignition angle be that the fault current occurring in the event of a short circuit remains below a permissible value that is not at Backup case leads. Results in the subsequent measurement no fault current, a semiconductor device in the ignited next phase branch. Otherwise the Leakage current stored and the semiconductor device with of the other polarity ignited in the same phase branch. For The short-circuited component is localized then a comparison of the current fault current with that stored fault current.

The invention has for its object a device and to provide a method by which a in a branch of an inverter bridge occurring short circuit quickly and reliably detected can be.

This object is achieved on the one hand by a device of the type mentioned at the outset

• - A device for detecting the effective value of the Current in the transverse branch of the inverter bridge,
• - A device for detecting the effective value of the the AC power source, and
• - Includes an evaluation device from the detected RMS value of the current through the shunt arm and the RMS value detected by the AC voltage source delivered electricity forms a ratio and the The ratio falls below a reference value RMS value of the current through the shunt arm RMS value of that from the AC voltage source delivered current, or if a Reference value by the reciprocal of this ratio, emits a signal.

On the other hand, the object is achieved by a method for detecting a short circuit in one of the bridge branches of an inverter bridge provided with switching elements, in the transverse branch of which a load is arranged and which is supplied with constant current via a rectifier which rectifies the current supplied by an AC voltage source, a Such a method according to the invention comprises the following steps:

• - Detection of the effective value of the current in the shunt arm the inverter bridge,
• - Capture the effective value of the from AC voltage source of supplied electricity,  
• - Evaluate the relationship between the detected RMS value of the current through the shunt arm and the RMS value detected by the AC voltage source delivered current by the ratio with a Reference value is compared, and
• - Output a signal if after the result of the Evaluation of the ratio rms value of the current through the cross branch to the RMS value of the AC voltage supplied current below the Reference value or the reciprocal of this ratio is above the reference value.

The invention takes advantage of the fact that when error-free Operation of the RMS value of a passive load from one Inverter bridge provided electricity is proportional to the effective value of the AC voltage source via the rectifier circuit withdrawn electricity. Based on this, according to the invention two places of the converter circuit continuously the RMS value of the current being detected; namely for one in the cross branch of the inverter bridges, in which the passive load is arranged, and the other in at least one phase of the AC voltage source. However, three phases are preferably evaluated. On this can also cause uneven phase loads be grasped safely.

Then the ratio 'RMS value of the current in the cross branch of the inverter bridge 'to' RMS value of  current supplied by the AC voltage source ' educated. From the relationship thus formed, otherwise the converter will only function correctly deviated significantly if a short circuit in one of the Bridge branches occur. In such a case To be able to detect deviations is, according to the invention Reference value with which the continuously certain ratio of the effective values is compared. The reference value corresponds to the regular ratio in normal operation or it will increase stability the reliability of the evaluation a reference value chosen, which is below the regular ratio. The relationship can of course also be analog 'RMS value of that from the AC voltage source delivered current 'to' RMS value of the current in the Cross branch of the inverter bridge 'formed and with a corresponding reference value can be compared. In this In this case, a reference value is set that is above the regular relationship.

The evaluation device outputs a signal that the The result of the comparison carried out corresponds. This Signal gives a clear indication of the presence or no short circuit in any of the Inverter bridge branches.

The advantage of the device according to the invention and the The inventive method is that a quick, reliable and easy determination of an in one of the inverter bridge branches Short circuit is enabled, then immediately can be reacted manually or automatically.  

The output depending on the result of the evaluation Signal can, for example, when falling below Trigger an alarm. In one particularly preferred embodiment, however, carries a signal that indicates that the value falls below the reference value an immediate interruption in the power supply to the Inverter bridge. In this way, the Short circuit reacts automatically without delay, so that a destruction of switching elements of the Inverter bridge and errors in the process on the load side can be avoided.

The constant ratio of the in the trouble-free operation RMS values, based on which the to be monitored Reference value is determined by a one-time Measurement determined. It is also possible to use the reference value to be determined mathematically.

The calculation is based on the relationship that applies to the relationship between the current I _DC supplied by the rectifier circuit and the phase current of the AC voltage source I _PH :

The following also applies to the output current of the inverter bridge I _HF :

Thus for the ratio of inverter bridge current to phase current:

Preferred embodiments of the invention result from the from device claim 1 or method claim 7 dependent claims.

The invention will be explained in more detail below with the aid of a drawing explained. The only figure shows one Parallel resonant circuit converter.

The parallel resonant circuit converter comprises a rectifier circuit GR consisting of six thyristors S1-S6, which is connected to a three-phase AC power source, not shown. The input and the output of the rectifier circuit GR are each _connected to an inverter bridge WR via an inductance L _ZK1 , L _ZK2 .

The inverter bridge WR has a transistor T ₁ -T ₄ in each of its bridge branches. In the transverse branch Q of the inverter WR, a parallel resonant circuit P is arranged, which is formed from a capacitor C, an ohmic resistor R and an inductor L _k .

The current I _HF flowing through the transverse branch Q is detected by means of a device E ₁ connected in one of the feed lines to the parallel resonant circuit P. Likewise, a device E ₂ for detecting the phase current I _PH through the line of this phase is provided in one of the phases of the AC voltage source connected to the rectifier circuit GR.

Both detection devices E ₁ , E ₂ are connected to an evaluation device A, which has a control output. In addition, the evaluation device A comprises a comparison stage, in which the ratio of the currents detected by the detecting means E _1, E ₂ I _PH, I _RF with a reference value R is compared.

The control output of the evaluation device A is connected to a control device S, which in turn controls the transistors T ₁ -T ₄ via corresponding control outputs.

The rectifier circuit GR rectifies the current coming from the AC voltage source and supplies the rectified current to the inverter _bridge WR via the inductances L _ZK1 , L _ZK2 smoothing the current I _DC . The inverter bridge WR therefore has an approximately constant direct current I _DC at its input.

In error-free operation, the control device S controls the transistors T ₁ -T ₄ in a conventional manner. By alternately deleting the transistors T ₃ , T ₄ and igniting the transistors T ₁ , T ₂ and deleting the transistors T ₁ , T ₂ and igniting the transistors T ₃ , T ₄ , the parallel resonant circuit P from the inverter bridge WR is a current I _HF alternating Polarity imprinted.

The detection devices E ₁ , E ₂ detect the current through the parallel resonant circuit or the phase current I _PH . The effective value for both currents is determined in the evaluation device A and the ratio between the two effective values is formed. The ratio formed in this way is compared with the reference value R.

If the value falls below the reference value R, the evaluation device A outputs a signal to the control device S. The control device S then interrupts the ignition of the transistors T ₁ -T ₄ . As a result, energy from the network can no longer flow into the rectifier circuit GR and into the parallel resonant circuit P.

The ratio of the effective value of the current I _HF through the shunt arm Q of the inverter bridge WR to the effective value of the phase current I _PH is a constant value which does not change during the correct commutation.

As soon as a short circuit occurs due to a defect in one of the transistors T ₁ -T ₄ , the ratio changes abruptly to significantly lower values. If, for example, a short circuit occurs in the transistor T ₃ , a considerable proportion of the direct current I _{DC flows} through the transistor T ₃ even after the transistors T ₃ , T _{4 have been} extinguished and the transistors T ₁ , T _{2 have been} ignited is now constantly conductive. The current flowing through the transistor T ₃ flows back through the transistor T ₂ to the rectifier circuit GR, so that this portion of the current is not impressed on the parallel connection in the desired manner.

The change is directly reflected in the relationship between the RMS current through the Parallel resonant circuit and the effective value of the phase current noticeable, which is now much lower and below of the specified reference value R.

Monitoring the falling below the reference value R does not have to be done in the evaluation device. Is considered Switch used a toggle switch that is adjustable Switching threshold, it is sufficient if the Evaluation device the toggle switch continuously a Ratio of the rms values corresponding signal transmitted. If the switching threshold to one of the If the corresponding reference value R is set, the Toggle switches then automatically off as soon as the reference value R is undershot.

Claims (8)

1. A device for detecting a short circuit in one of the bridge branches of an inverter bridge (WR) provided with switching elements (T ₁ -T ₄ ), in the transverse branch (Q) of which a passive load (P) is arranged and which is supplied by an AC voltage source Current rectifying rectifier circuit (GR) is supplied with constant current, characterized by

• a device (E ₁ ) for detecting the effective value of the current (I _HF ) in the shunt arm (Q) of the inverter bridge (WR),
• - A device (E ₂ ) for detecting the effective value of the current supplied by the AC voltage source (I _PH ), and
• - An evaluation device (A) which forms a ratio from the detected effective value of the current (I _HF ) through the shunt arm (Q) and the detected effective value of the current (I _PH ) supplied by the AC voltage source and which falls below a reference value (R) emits a signal by the ratio of the effective value of the current (I _HF ) through the shunt arm (Q) to the effective value of the current (I _PH ) supplied by the AC voltage source, or if a reference value is exceeded by the reciprocal of this ratio.

2. Device according to claim 1, characterized characterized that the reference value (R) corresponds to 1.1 ± 5%. 3. Device according to one of the preceding claims, characterized by means (S) for interrupting the operation of the inverter (WR) when the ratio between the detected effective value of the current (I _HF ) through the shunt arm (Q) and the detected effective value of the current (I _PH ) supplied by the AC voltage source (WR) from the reference value (R). 4. The device according to claim 3, characterized characterized that the means (S) to interrupt the operation of the inverter (WR) one equipped with an adjustable switching threshold Include flip-flop that is capable of connecting between the rectifier circuit (GR) and the Interrupt inverter bridge (WR). 5. Device according to one of the preceding claims, characterized in that the switching elements arranged in the bridge branches of the inverter bridge (WR) are transistors (T ₁ -T ₄ ). 6. Device according to one of the preceding claims, characterized in that in the shunt arm (Q) of the AC bridge (WR) arranged load is a parallel resonant circuit (P).   7. Method for the detection of a short circuit in one of the bridge branches of an inverter bridge (WR) provided with switching elements (T ₁ -T ₄ ), in the transverse branch (Q) of which a load (P) is arranged and which is supplied by an AC voltage source Current (I _PH ) rectifying rectifier is supplied with constant current, which comprises the following steps:

• Detection of the effective value of the current (I _HF ) in the shunt arm (Q) of the inverter bridge (WR),
• Detection of the effective value of the current (I _PH ) supplied by the AC voltage source,
• - evaluating the ratio between the detected effective value of the current (I _HF ) through the shunt arm (Q) and the detected effective value of the current supplied by the AC voltage source (I _PH ) by comparing the ratio with a reference value (R), and
• - Outputting a signal if, according to the result of the evaluation, the ratio of the effective value of the current (I _HF ) through the shunt arm (Q) to the effective value of the current (I _PH ) supplied by the AC voltage source is below the reference value (R) or the reciprocal of this ratio is above of the reference value.

8. The method according to claim 7, characterized by the further step:

• - Interruption of the operation of the inverter if the result of the evaluation of the ratio between the detected effective value of the current (I _HF ) through the shunt arm (Q) and the detected effective value of the current supplied by the AC voltage source (I _PH ) of this ratio from the reference value ( R) deviates.