KR101191938B1 - IGBT control device - Google Patents

Abstract

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a power device current sharing control device of a power converter, and in particular, an A / D conversion unit receiving current information flowing through each IGBT from a current sensing unit for sensing current flowing in a plurality of IGBTs and converting the digital signal into a digital signal. On the basis of the current value flowing in each IGBT provided by the A / D converter, it is determined whether the current is uniformly distributed in each IGBT, and if it is determined that the current is biased in any one IGBT, By adjusting the width of the IGBT driving signal supplied to each IGBT so that the current value flowing through the IGBT is uniform, the CPU is configured to control the current sharing flowing through each IGBT to be uniform. IGBT of each arm is sensed instantaneously through the A / D converter and reflected in the width of the gate signal. The uniform current sharing flows through the device to prevent faults caused by biasing the current in a particular IGBT, and thus prevents the fault of the entire system, thereby ensuring stable operation of critical loads. The present invention relates to a power device current sharing control device of a device.

Power converter, IGBT, CPU, current sensor, A / D converter, current sharing,

Description

Power device current sharing control device of power conversion device {IGBT control device}

1 is a block circuit diagram showing a conventional power converter.

Figure 2 is a block circuit diagram showing a power device current sharing control device of the power converter of the present invention.

3 is a diagram illustrating an IGBT driving signal when an IGBT applied to a power converter is normally operated.

4 is a diagram illustrating an IGBT driving signal when an IGBT applied to a power converter is in an abnormal state.

* Description of the symbols for the main parts of the drawings *

2 ~ 5: driving part, 6 ~ 9: current sensing part,

10: A / D converter, 11: CPU,

Q1 ~ Q4: IGBT, D1 ~ D4: Diode,

OP1 ~ OP4: Op amp,

The present invention relates to a power device current sharing control device of a power conversion device, and in particular, in the stack structure of one arm, the magnitude of the current flowing through each device of the IGBT is instantaneously sensed through the A / D converter, Reflecting current flows through each IGBT element of one arm to be uniform to prevent faults caused by biasing current in a specific IGBT, and to suppress the failure of the entire system resulting from stable operation of critical loads. The present invention relates to a power device current sharing control device of a power converter so as to ensure it.

1 shows a conventional power converter,

CPU 1 for outputting an IGBT drive signal,

A driving unit 2 to 5 for driving switching of each IGBT Q1 to Q4 according to the IGBT driving signal of the CPU 1;

A plurality of IGBTs Q1 to Q4 for converting power for switching operation according to driving signals supplied from the driving units 2 to 5;

The current flows through the IGBTs Q1 to Q4 to sense whether the reference current is exceeded, and the current detection units 6 to 9 supply the detection information to the CPU 1.

The current sensing units 6 to 9 may include diodes D1 to D4 for sensing current values flowing through the respective IGBTs Q1 to Q4.

Comparing the current sensed by the diodes (D1 ~ D4) and the reference current (FAULT_REF), and when the detection current is larger consists of op amps (OP1 ~ OP4) for outputting the fault signal (FT1 ~ FT4) to the CPU (1) do.

When the fault signals FT1 to FT4 are applied from the op amps OP1 to OP4, the CPU 1 stops all IGBTs to stop the system.

The operation of the conventional power converter configured as described above is as follows.

By the IGBT driving signal output from the CPU 1, each of the driving units 2 to 5 drives the IGBTs Q1 to Q4 to perform power conversion.

At this time, the diodes D1 to D4 constituting the current sensing units 6 to 9 monitor the voltage V _CE between the collector and the emitter of the IGBTs Q1 to Q4 and the IGBTs Q1 to Q4. Senses a current flowing in the op amp, and the op amps OP1 to OP4 supply the CPU 1 when the current sensed by the diodes D1 to D4 is greater than the reference current, and the CPU 1 supplies the current sensing unit 6. If a fault signal is inputted at ~ 9), the whole system is stopped.

However, the conventional technology detects a current flowing through each IGBT (Q1 to Q4) and outputs a fault signal to stop the system when the current is greater than the reference value. Therefore, the effect of protecting the power device due to the transient current can be expected. However, due to frequent system stoppages, there was a problem that the power was not supplied to the load side stably.

In other words, if an excessive current is distributed to a specific IGBT among a plurality of IGBTs (Q1 to Q4), a large spike voltage is induced at both ends of the corresponding IGBT, and in the worst case, the power device is damaged. In order to solve the problem, when the transient current is detected, the whole system is stopped to protect the power device.

Therefore, the present invention for solving the above problems is an A / D conversion unit for receiving the current information flowing through each IGBT from the current sensing unit for sensing the current flowing in a plurality of IGBTs and converting it into a digital signal, and the A / D conversion On the basis of the current value flowed through each IGBT provided by the unit, it is determined whether the current is uniformly distributed in each IGBT, and if it is determined that the current is concentrated in one IGBT, the current value in each IGBT is uniform. By controlling the width of the IGBT driving signal supplied to each IGBT so as to control the current sharing flowing to each IGBT so as to be uniform, by the CPU structure of the arm stack structure of the current flowing through each element of the IGBT Instantly detects the magnitude through the A / D converter and reflects it on the width of the gate signal. Power element current sharing control of a power converter that ensures stable operation of critical loads by preventing uniform failure caused by biasing current in a specific IGBT by making it uniform. It is an object to provide a device.

Hereinafter, preferred embodiments of the present invention will be described with reference to the accompanying drawings, FIGS. 2 to 4.

In the description of the present invention, the same components as in the prior art will be denoted by the same reference numerals to avoid redundant description.

According to an aspect of the present invention,

A driver 2 to 5 for driving switching of each IGBT Q1 to Q4 according to the IGBT drive signal of the CPU 11,

A plurality of IGBTs Q1 to Q4 for converting power for switching operation according to driving signals supplied from the driving units 2 to 5;

In the power conversion device comprising a current sensing unit (6-9) for sensing the current flowing through the IGBT (Q1 ~ Q4) to exceed the reference current, and supplying the detection information to the CPU (11),

An A / D converter 10 which receives current information flowing through each IGBT from current sensing units 6 through 9 which sense currents flowing through the plurality of IGBTs Q1 through Q4 and converts the current information into digital signals;

A CPU 11 adjusting the IGBT driving signal so that the current value flowing through each IGBT is made uniform based on the current value flowing through each IGBT provided by the A / D converter 10;

And a control unit.

The CPU 11 adjusts the pulse width of the IGBT driving signal supplied to the IGBTs Q1 to Q4 to make the current sharing uniform.

Referring to the operation of the present invention configured as described above is as follows.

First, when the plurality of IGBTs Q1 to Q4 constituting the power converter are in normal operation, the CPU 11 drives the IGBT driving signals having the overall uniform pulse width as shown in FIG. 3. The driving units 2 to 5 switch the respective IGBTs Q1 to Q4 according to the IGBT driving signals provided from the CPU 11 so as to share the current uniformly as a whole.

As described above, when each of the IGBTs Q1 to Q4 operates, the diodes D1 to D4 of the current sensing units 6 to 9 sense the current flowing through the IGBTs Q1 to Q4 and operate the op amps OP1 to OP4. ) And the A / D conversion unit 10, and the op amps OP1 to OP4 output a fault signal to the CPU 11 when the sense current exceeds the reference value by comparing the sense current with a reference value as in the related art. The A / D converter 10 converts current information flowing through the IGBTs Q1 to Q4 sensed by the diodes D1 to D4 into digital information and provides the same to the CPU 11.

Referring to the operation of the diode (D1 ~ D4) as follows.

The diodes D1 to D4 detect a saturated V _CE voltage of the IGBTs Q1 to Q4. The saturation voltage V _CE is a state in which the IGBT is on, and the state in which the IGBT is off is a collector and emitter. The voltage between both ends.

A very high dV _CE / dt voltage appears across the IGBT's collector and emitter during the short-circuit period when the IGBT is switching, which is the charge current that is charged to the capacitors (C1 to C4). It is desirable to use very fast diodes to minimize this charging current and to avoid diode malfunction. In other words, it is appropriate to use a Fast Recovery diode.

At this time, the voltage SAT sensed by the diodes D1 to D4 is "SAT = V _F + V _CE " (where V _F is the forward on voltage of the diode and V _CE is the voltage between the collector and emitter of the IGBT).

Accordingly, when the IGBTs Q1 to Q4 are turned on, the VCE voltage level increases as the current increases, so that the state signals (S1) detected by the diodes D1 to D4 are supplied to the A / D converter 10. SAT1 to SAT4 represent currents flowing through the IGBTs Q1 to Q4.

Meanwhile, current information flowing through the IGBTs Q1 to Q4 converted into digital information by the A / D converter 10 is supplied to the CPU 11, and the CPU 11 is connected to the A / D converter 10. It is determined whether or not current flows uniformly to each IGBT (Q1 to Q4) as the information supplied from.

If it is determined that the current flows in any one of the IGBTs, the pulse width of the IGBT driving signal is varied so that the current is uniformly distributed to the IGBTs.

For example, if it is determined that excessive current flows in the third IGBT Q3, the CPU 11 reduces the pulse width of the IGBT driving signal supplied to the third IGBT Q3 as shown in FIG. The pulse width of the IGBT driving signal supplied to the IGBTs (Q1, Q2, and Q4) is widened to control the current to be shared evenly.

FIG. 3 is a gate driving signal supplied to the IGBT in a steady state, and FIG. 4 illustrates an IGBT gate driving signal for increasing the current of the IGBT3.

That is, when the current supplied to each gate flows in a predetermined range, the driving pulses supplied to the first to fourth IGBTs as shown in FIG. 4 are supplied with pulses of the same cycle as shown in FIG. 4,

When the current is biased at any IGBT gate, it reduces the pulse width of the driving pulse supplied to the IGBT to prevent the flow of current and increases the pulse width of the remaining IGBTs so that four more IGBTs can flow. By sharing the current, it is possible to solve the current unbalance.

As described above, the present invention provides an A / D conversion unit for receiving current information flowing through each IGBT from a current sensing unit for sensing current flowing through a plurality of IGBTs, and converting it into a digital signal, and provided by the A / D conversion unit. It consists of a CPU that controls the IGBT driving signal so that the current flowing through each IGBT is made uniform based on the current flowing through each IGBT. Instant detection through the / D converter and reflected in the width of the gate signal to make the current sharing flowing to each device of the IGBT of one arm to be uniform, thereby preventing the failure caused by the current biased in the specific IGBT, Power device current sharing control device of power converter that can suppress the failure of the entire system to ensure stable operation of critical loads It can be expected to provide effects.

Claims (2)

A driving unit for switching each IGBT according to the IGBT driving signal of the CPU, a plurality of IGBTs for converting switching operation according to a driving signal supplied from the driving unit, and a current flowing through the IGBT to sense and exceed a reference current In the power conversion device consisting of a current sensing unit for detecting whether the supplying the sensing information to the CPU, An A / D conversion unit receiving current information flowing through each IGBT from a current sensing unit sensing current flowing through the plurality of IGBTs, and converting the digital signal into a digital signal; On the basis of the current value flowing through each IGBT provided by the A / D converter, it is determined whether the current is uniformly distributed in each IGBT. If the determination result indicates that the current is biased in one of the IGBTs, the current flows in each IGBT. A CPU for controlling a current sharing flowing through each IGBT to be uniform by adjusting a pulse width of an IGBT driving signal supplied to each of the IGBTs so that a flowing current value can be made uniform; Power device current sharing control device of a power converter characterized in that comprises a. delete

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