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讨论了三相逆变器及其功能操作。为了实现采用直流作为输入电压的电路的三相输出,必须使用三相逆变器。逆变器是由开关器件构成的,因此逆变器中进行开关的方式提供了所需的输出。在本章中,解释了切换函数和相关的切换矩阵的概念。最后,提出了逆变器拓扑结构的替代方案。 4.2开关功能众所周知,电源和负载之间存在一些开关设备,其数量取决于电路或负载的类型。在任何情况下,交换设备的数量都受到复杂性的限制。即使是最密集的电路也在输入线和输出线之间有一个开关。如果转换器有“n”个输入和“m”个输出,则能量转换所需的开关设备数量等于“m×n”。电路中的这些“m×n”开关器件可以根据它们的连接进行排列。该模式显示了一个矩阵,如图4.1所示。
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CHAPTER4
MODEL OF THREE-PHASE INVERTER
4.1 Introduction
In this chapter the three-phase inverter and its functional operation are
discussed. In order to realize the three-phase output from a circuit employing dc as
the input voltage a three-phase inverter has to be used. The inverter is build of
switching devices, thus the way in which the switching takes place in the inverter
gives the required output. In this chapter the concept of switching function and the
associated switching matrix is explained. Lastly the alternatives as to how the inverter
topologies can be formed is presented.
4.2 Switching Functions
It is well-known that some switching devices exist between the source and
the load, the number of which depends on the circuit or the type of the load. In any
case the number of switching devices are limited by the complexity. Even the densest
circuit has one switch between an input line and the output line. If a converter has ‘n’
inputs and ‘m’ outputs the number of switching devices needed for energy conversion
is equal to ‘m
× n’. These ‘m
×
n’ switching devices in the circuit can be arranged
according to their connections. The pattern suggests a matrix as shown in Figure 4.1.
58
linesoutputn''
linesinputm''
S
witc he snm '' ×
Figure 4.1: The general switch matrix
For example in realizing single phase to dc conversion the single phase has two
terminals and the dc has two terminals thus a total of ‘2×2 = 4’ switches are required.
Most power electronic circuits are classified into two types [15]:
1. Direct switch matrix circuits: In these circuits any energy storage elements are
connected to the matrix only at the input and output terminals. The storage elements
effectively become a part of the source or the load. A full wave rectifier with an
output filter is an example of a direct switch matrix circuit.
2. Indirect switch matrix converters also termed as embedded converters: In these
circuits, the energy storage elements are connected within the matrix structure. There
are usually very few energy storage elements in such case and the indirect switch
59
matrix circuits are often analyzed as cascade of two direct switch matrix circuits with
storage elements in between.
A switch matrix provides a clear way to organize devices for a given
application. It also helps to focus the effort in to three major problems areas. Each of
these areas must be addressed effectively in order to produce a useful power
electronic system.
1.The hardware problem → To build a switch matrix.
2. The software problem → Operate the matrix to achieve the desired conversion.
3.The interface problem → Add energy storage elements to provide the filters or
intermediate storage necessary to meet the application requirements.
These problems can more effectively be understood by considering an example of
converting ac to dc, in which the hardware problem is as to how many switches have
to be used which depends on whether we are performing single phase to dc
conversion or three phase to dc conversion.
The software problem lies in the fact that while operating these switches we
need to obey the fundamentals laws of energy conversion like the Kirchhoff’s voltage
and the current laws and take care that these are not violated. Finally as this energy
conversion process is not ideal we may not get exact dc voltage at the output
terminals, which require the addition of some elements before the final dc voltage is
obtained.
60
4.2.1 Reality Of Kirchhoff’s Voltage Law
In determining how the switches operate in the switch matrix, care
should be taken to avoid any danger in the operation of the circuit. Consider the
circuit in Figure 4.2. This circuit can be operated with the switch ‘s’ closed owing to
the fact that when the switch is closed the sum of the voltages around the loop is not
equal to zero In reality a very large current will flow and this drop appears across the
wires which may result in the burning of the wires that cannot take this huge voltage.
Thus this circuit is not correct when the switch is closed as it violates Kirchhoff’s
Voltage law (KVL). Thus the KVL serves as a warning that never should two unequal
voltage sources be connected with out any element in between which can account for
the inequality in the two voltages.
AC
'
'
s
ac
V
dc
V
Figure 4.2: Demonstration of KVL.
61
4.2.2 Reality Of Kirchhoff’s Current Law
AC
AC
1
I
2
I
'' s
Figure 4.3: Demonstration of Kirchhoff’s Current Law.
As is with voltages proper care is to be taken with currents too. According to
Kirchhoff’s Current Law (KCL) the sum of the currents at a node should be equal to
zero at all times. Thus any circuit in which KCL is not proven is dangerous to be
operated as short circuit may occur. Consider the circuit in Figure 4.3, which can be
operated if the switch ‘s’ is opened. If it is open, that particular path is open so the
current is zero and the other two current sources are unequal which violates KCL, the
sum of the currents entering the node are not equal to zero.
4.2.3 The Switch State Matrix And Switching Functions
Each switch in a switch matrix is either turned ‘on’ or turned ‘off’. This
can be represented with a mathematical matrix called the switch state matrix, which
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