DE10253980B4 - Device for limiting the inrush current - Google Patents

Abstract

contraption to limit the inrush current when switching on a capacitive or ohmic load (1) through a circuit breaker (2) in MOSFET technology, whereby the circuit breaker (2) has two load current terminals (3,4) and a control terminal (5) and having a load current terminal (3) connected to the consumer (1), so that the circuit breaker (2) and the consumer (1) in series with each other and between power supply lines (6, 7) are arranged, characterized in that a capacitor (9) with its first terminal (10) between the load (1) and circuit breaker (2) and with its second terminal (11) directly or via a electrical component (14) on the control terminal (5) of the circuit breaker (2) is coupled and that parallel to the consumer (1) a resistor (8) is arranged over the capacitor (9) when switching on the load (1) is charged becomes.

Description

The The invention relates to a device for limiting the inrush current when switching on a capacitive or ohmic consumer a circuit breaker in MOSFET technology, the circuit breaker has two load current terminals and a control terminal and connected to the consumer with a load current clamp is, so the circuit breaker and the consumer in series are arranged to each other and between power supply lines.

When switching on a capacitive or ohmic load, in particular when switching on such a consumer with a positive temperature coefficient, a large inrush current occurs whose peak value can take several times the permitted rated current in the consumer. In order to limit the inrush current, a resistor connected in series with the load may be provided, wherein during the switch-on process the resistor absorbs part of the energy and the resistance is bridged during continuous operation. In the EP 0 948 123 A1 is an electromechanical switch, from the DE 22 47 816 A1 is a power thyristor and out of the DE 39 03 789 A1 discloses a MOSFET power switch, wherein these power switches may each be provided in connection with circuit arrangements for current limiting.

From the DE 40 13 731 A1 discloses a device for limiting the inrush current upon connection of a capacitive load to a power source. In series with the consumer, a MOSFET power switch is connected to its source-drain path. This acts as a current limiting resistor until the capacitive load is charged to a predetermined value. Thereafter, the source-drain path of the circuit breaker is switched through low impedance and causes no significant losses. In this case, the control circuit contains a bipolar transistor to which the voltage dropping across a MOSFET power switch is supplied as a control voltage. The load has a load resistance R _L and a capacitive load resistance component C _L. In the disclosed circuit, an additional bipolar transistor is required in addition to the MOSFET transistor, which requires a higher cost in the implementation as a semiconductor chip because of the different semiconductor transistor techniques.

From the DE 39 34 577 A1 is a power supply device with inrush current limiting having four semiconductor switches. The control electrode of the second semiconductor switch is connected to a voltage divider comprising a capacitor. Because of the four semiconductor switches, the power supply device is complex and thus expensive.

Another current limiting circuit with two albleitertransistoren and four diodes is from the JP 05022853 A known. In this case too, a plurality of semiconductor components are required which, in addition to the complexity of the circuit, also lead to an increased probability of failure of the current-limiting circuit.

It Object of the present invention is a device for limiting of the inrush current such that in a MOSFET power switch to turn on the load in the drive circuit no additional bipolar transistor must be used.

These The object is achieved by the Characteristics of the independent Claim 1 solved. After that is a capacitor with its first terminal between consumers and circuit breaker and with its second terminal directly or via a electrical component, in particular a resistor, at the control terminal of Circuit breaker is coupled and parallel to the consumer a resistor arranged over the capacitor is charged when switching on the load.

The device reliably limits the current peaks when switching on the load, without requiring a great deal of effort for the control of the control terminal (gate) of the MOSFET circuit breaker. The device is provided so that a first power supply line with a supply voltage U _{batt is coupled} to the consumer, while on the other side of the load and in series the MOSFET power _switch and then a power supply line to the ground of a battery is connected. Between the load and the MOSFET power _switch , a capacitor is arranged with its first terminal, which lies across a resistor parallel to the load on the power supply line to U _bat , wherein the capacitor is additionally connected via a further branch current to the control terminal of the MOSFET circuit breaker. The drive circuit of the MOSFET circuit breaker in this case consists of at least one resistor and one capacitor, which are arranged parallel to the load.

An advantage of the inventive arrangement of the capacitor is that this between a load current terminal (drain) and the control terminal (gate) of the MOS FET circuit breaker is connected. The arrangement of the capacitor amplifies the so-called Miller effect of the circuit breaker when switching. The Miller effect increases the capacity of the circuit breaker on the load current terminals, allowing the switching behavior of the circuit to be dynamically adjusted. Consequently, the capacitor in this arrangement has a great influence on the turn-on of the circuit breaker. The capacitance of the capacitor may be chosen to be small in order to achieve a long turn-on of the circuit breaker.

at A first development of the invention is between the consumer power terminal and the control terminal of the circuit breaker connected a diode, the control voltage at the control terminal of the circuit breaker limited. For this purpose, for example, a zener diode between the power supply line be arranged with the ground potential and the control terminal so that the zener diode is the voltage at the gate to your breakdown voltage in the stationary Condition limited. Preferably, the Zener diode with the parallel to the consumer resistance as a voltage divider for the gate drive serve the MOSFET circuit breaker.

at Another preferred embodiment of the invention is parallel to the consumer arranged a resistance, over which the capacitor at Switching on the load is loaded. Will the device by connecting both power supply lines to a transport battery energized, charging the capacitor C through the parallel to the consumer Resistance to, the current through the open MOSFET circuit breaker flows. The gate-source voltage, i.e. the voltage between the control terminal and the load current terminal of the MOSFET circuit breaker rises slowly from zero to one Final value at which the breakdown voltage of the Zener diode, the parallel is arranged to the MOSFET circuit breaker, is permeable. The slow increase of the gate-source voltage at the MOSFET circuit breaker at the same time causes a slow turn on the consumer, wherein the channel resistance between the two load current terminals at the circuit breaker from a maximum slowly against the on-resistance decreases. The inrush current of the consumer is inventively first limits the slowly decreasing channel resistance. After the MOSFET circuit breaker slowly turned on, it turns a low channel resistance between the two load current terminals (drain, source). The losses on the MOSFET circuit breaker are component conditional very low and the efficiency of the overall system is characterized maximized.

at another embodiment of the invention is parallel to the diode a switch arranged to short-circuit the terminals of the diodes can. By The switch arranged parallel to the Zener diode can and switching off the load, the current limit is maintained, because the zener diode is shorted to its terminals and so on the control connection of the circuit breaker is grounded. Of the Switch can be a discrete switch. It can work out though also be a semiconductor circuit upstream of the final stage, which outputs the on and off signal. Must be the consumer be turned on, which is arranged parallel to the zener diode Switch open. When switching off the consumer then the switch is closed. The gate-source voltage is then at zero potential. The MOSFET circuit breaker locks and the consumer is thereby turned off. The capacitor is then reloaded by the consumer and the switch. When the charging current of the capacitor does not exceed an allowable limit may, may, in addition another resistor between the capacitor and the parallel circuit be arranged from Zener diode and switch. This will change the charge reduced when switching off the consumer. The drive circuit The MOSFET circuit breaker consists of an antiparallel between a load current terminal of the circuit breaker and the control terminal the circuit breaker arranged diode, also with the Control terminal of the circuit breaker connected capacitor whose another terminal between the load and circuit breaker arranged is. Between the positive battery potential and a terminal of the Capacitor is a parallel to the load arranged resistor intended.

The Device for limiting the inrush current, for example in system components in motor vehicles with a 42 volt electrical system be used. The device may be part of a DC / DC converter be. This rectifier is suitable, for example, from a higher one Battery voltage DC voltage with lower positive battery potential to create.

It are now different ways to design the teaching of the present invention in an advantageous manner and further education. This is on the one hand to the subordinate claims and on the other hand to the following explanation of an embodiment to refer. In the drawing is an embodiment of the device according to the invention shown. Each show in a schematic representation,

1 a circuit diagram of the device for Be limitation of the inrush current according to a first embodiment of the present invention,

2 a circuit diagram of the device for limiting the inrush current according to a second embodiment of the present invention and

3 a circuit diagram of the device according to a third embodiment of the present invention.

In 1 is the device for limiting the inrush current when switching on a capacitive or ohmic load 1 through a circuit breaker 2 shown in MOSFET technology. The circuit breaker 2 has two load current terminals 3 . 4 and a control terminal 5 on. A positive voltage potential U is across a power supply line 6 at the consumer 1 in turn, in series with the circuit breaker 2 is arranged. The consumer power terminal 4 of the circuit breaker 2 is via the power supply line 7 connected to the ground potential. Parallel to the consumer 1 and between the power supply line 6 is a resistance 8th and the capacitor 9 arranged such that a clamp 10 of the capacitor between the consumer 1 and the consumer power terminal 3 of the circuit breaker 2 is coupled. The second clamp 11 of the capacitor is direct, without coupling to one of the power supply lines 6 . 7 , with the control terminal 5 of the circuit breaker 2 connected. Also with the control terminal 5 of the circuit breaker 2 is an antiparallel Zener diode 12 connected to the other terminal on the power supply line 7 connected.

When switching on the consumer 1 by applying the voltage U to the power supply lines 6 . 7 or by driving the MOSFET circuit breaker 2 the current through the circuit breaker begins via its control terminal 2 to flow.

At the same time the current flows in parallel through the consumer 1 and by the resistance 8th , causing the capacitor 9 is charged. By charging the capacitor 9 the voltage drop across the capacitor increases 9 which also reduces the voltage between the control terminal 5 and consumer power terminal 3 of the circuit breaker 2 increases until the breakdown voltage of the Zener diode 12 is reached. During the described process, the current through the consumer decreases 1 and the circuit breaker 2 slowly too. Is the breakdown voltage of the diode 12 reached, the control potential at the control terminal 5 of the circuit breaker 2 to ground potential or forward potential of the diode 12 placed so that the rated current of the consumer 1 can flow.

In the in 2 shown embodiment of the device is parallel to the diode 12 another electrical switch 13 arranged. The desk 13 is when the consumer turns off 1 closed. The voltage between the control terminal 5 and the consumer power terminal 4 (Source) then drops to zero volts, leaving the circuit breaker 2 locks and the consumer 1 is switched off. The capacitor 9 is by the consumer 1 and the switch 13 transhipped. When the charge current of the capacitor 9 for the switch 13 may be limited, as shown in 3 another resistance 14 between capacitor 9 and the control terminal 5 of the circuit breaker 2 be arranged so that the current through the closed switch 13 is limited.

By the device according to the invention is the inrush current limited. The device provides a simple Circuit with high reliability to disposal. The invention is suitable, for example, for use with power modules, Power modules or lamps for use in transport. To belong Aircraft, ships and motor vehicles of all kinds.

Claims (3)

Device for limiting the inrush current when switching on a capacitive or ohmic consumer ( 1 ) by a circuit breaker ( 2 ) in MOSFET technology, wherein the circuit breaker ( 2 ) two load current terminals ( 3 . 4 ) as well as a control terminal ( 5 ) and connected to a load current terminal ( 3 ) to the consumer ( 1 ) is connected, so that the circuit breaker ( 2 ) and the consumer ( 1 ) in series with one another and between power supply lines ( 6 . 7 ), characterized in that a capacitor ( 9 ) with its first terminal ( 10 ) between consumers ( 1 ) and circuit breakers ( 2 ) and with its second terminal ( 11 ) directly or via an electrical component ( 14 ) at the control terminal ( 5 ) of the circuit breaker ( 2 ) and that parallel to the consumer ( 1 ) a resistor ( 8th ) is arranged, over which the capacitor ( 9 ) when the consumer is switched on ( 1 ) is loaded. Apparatus according to claim 1, characterized in that between the load current terminal ( 4 ) and the control terminal ( 5 ) of the circuit breaker ( 2 ) a diode ( 12 ) or Zener diode is connected to the control voltage at the control terminal ( 5 ) of the circuit breaker ( 2 ) limited. Device according to claim 1 or 2, characterized in that parallel to the diode ( 12 ) a switch ( 13 ) is arranged around the terminals of the diode ( 12 ) short circuit.