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Prof. T. L. Wu

Microstrip Filters for RF

Microwave Application

Instructor: Prof. Tzong-Lin Wu

 National Taiwan University

Institute of Communications Engineering

EMC Lab

Microstrip Filters for RF Microwave Application Prof. T. L. Wu

Filter networks are used to select/reject or separate/combine signals at different

frequencies in a host of RF/microwave systems and equipment. Although the

physical realization of filters at RF/microwave frequencies may vary, the circuit

network topology is common to all.

it is useful to be able to describe the operation of a microwave network such as

a filter in terms of voltages, currents, and impedances in order to make optimum

use of low-frequency network concepts.

It is the purpose of this chapter to describe various network concepts and

provide equations that are useful for the analysis of filter networks.

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Microstrip Filters for RF Microwave Application Prof. T. L. Wu

Network Variables

Scattering Parameters

Impedance and Admittance Parameters

 ABCD Parameters

Transmission Line Networks

Network Connections

Symmetrical Network Analysis

Equivalent and Dual Networks

Microstrip Filters for RF Microwave Application Prof. T. L. Wu

Network Variables

)(1

)(1

)(

)(

)(

nn

on

nn

on

n

nnonnnn

on

nn

on

nn

ba Z 

V V  Z 

 I 

ba Z V V V 

wavereflected  Z 

V b

waveincident  Z 

V a

−=−=

+=+=

=

=

−+

−+

−

+

[ ] [ ]***

21Re

21

)(2

1

)(2

1

nnnnnnn

non

on

nn

non

on

nn

bbaa I V  P 

 I  Z  Z 

V b

 I  Z  Z 

V a

−=⋅=

−=

+=

Note that the voltage and current variables are complex

amplitudes when we consider sinusoidal quantities.

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Microstrip Filters for RF Microwave Application Prof. T. L. Wu

Scattering Parameters

n

n

on

on

a

b

 Z V 

 Z V 

V 

V S    ===

+

−

+

−

Microstrip Filters for RF Microwave Application Prof. T. L. Wu

Scattering ParametersFor filter characterization, we may define two parameters:

whereLA

denotes the insertion loss between portsn

andm

andLR

represents thereturn loss at port n.

The definition of VSWR is

phase delay, defined by

group delay, defined by

express the reflection parameter 

S 11 in terms of the terminal impedanceZ 01 and the so-called input impedance

power conservation condition

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Microstrip Filters for RF Microwave Application Prof. T. L. Wu

Scattering Parameters

Microstrip Filters for RF Microwave Application Prof. T. L. Wu

Example

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Microstrip Filters for RF Microwave Application Prof. T. L. Wu

Impedance & Admittance

Parameters

 j

iij

 I 

V  Z    =

 j

iij

V 

 I Y   =

Microstrip Filters for RF Microwave Application Prof. T. L. Wu

Impedance & Admittance

Parameters

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Microstrip Filters for RF Microwave Application Prof. T. L. Wu

Example

Microstrip Filters for RF Microwave Application Prof. T. L. Wu

Impedance & Admittance

Parameters

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Microstrip Filters for RF Microwave Application Prof. T. L. Wu

Example

Microstrip Filters for RF Microwave Application Prof. T. L. Wu

 ABCD Parameters

22

22

 DC 

 B A

11

11

 DC 

 B A

×

=

×

×

=

×

=

3

3

3

3

22

22

11

11

2

2

11

11

1

1

 I V 

 DC  B A

 I V 

 DC  B A

 DC  B A

 I V 

 DC  B A

 I V 

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Microstrip Filters for RF Microwave Application Prof. T. L. Wu

Some useful two-port networks

and their ABCD parameters

Microstrip Filters for RF Microwave Application Prof. T. L. Wu

TRANSMISSION LINE

NETWORKS

Z02

lossless

an open circuit or a short circuit at one terminal of a two-port transmission line network

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Microstrip Filters for RF Microwave Application Prof. T. L. Wu

Network Connections

Parallel

Series

Microstrip Filters for RF Microwave Application Prof. T. L. Wu

Network Connections

Cascade

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Microstrip Filters for RF Microwave Application Prof. T. L. Wu

Network Parameter Conversion

Microstrip Filters for RF Microwave Application Prof. T. L. Wu

Symmetrical Network Analysis

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Microstrip Filters for RF Microwave Application Prof. T. L. Wu

Symmetrical Network Analysis

Microstrip Filters for RF Microwave Application Prof. T. L. Wu

Symmetrical Network Analysis

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Microstrip Filters for RF Microwave Application Prof. T. L. Wu

Example

Microstrip Filters for RF Microwave Application Prof. T. L. Wu

Even and Odd Mode

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Microstrip Filters for RF Microwave Application Prof. T. L. Wu

4-port S-parameters

Microstrip Filters for RF Microwave Application Prof. T. L. Wu

Multiport Networks

Networks that have more than two ports may be referred to as the multiport networks.

For a reciprocal network,

For lossless passive network

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Microstrip Filters for RF Microwave Application Prof. T. L. Wu

Multiport Networks

 Assume that anM 1-port network N’ and an M 2-port network N’’ connect each other at c

pairs of ports.

where

all the connections satisfy the relations

Microstrip Filters for RF Microwave Application Prof. T. L. Wu

Multiport Networks

using

where

using

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Microstrip Filters for RF Microwave Application Prof. T. L. Wu

Equivalent and Dual NetworksTwo networks are said to be equivalent if the matrices of their corresponding network parameters are equal,

irrespective of the fact that the networks may differ greatly in their configurations and in the number of

elements possessed by each.

Microstrip Filters for RF Microwave Application Prof. T. L. Wu

Equivalent and Dual Networks

In accordance with this definition, an inductance of x henries is dual to a capacitance of x

farads, a resistance of x ohms is dual to a conductance of x mhos, a short circuit is the

dual of an open circuit, a series connection is the dual of parallel connection, and so on.

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Microstrip Filters for RF Microwave Application Prof. T. L. Wu

T parameter 

−

−

=

−

−

=

⋅

=

11

12

11

11

122122

11

21

2221

1211

21

221112

21

11

21

22

21

2221

1211

2

2

2221

1211

1

1

1,

1

T 

T 

T 

T 

T T T 

T 

T 

S S 

S S 

S 

S S S 

S 

S 

S 

S 

S 

T T 

T T 

a

b

T T 

T T 

b

a

Microstrip Filters for RF Microwave Application Prof. T. L. Wu

T parameter 

⋅

⋅

=

⋅

=

⋅

=

 y

 y

 y y

 y y

 x x

 x x

 x

 x

 y

 y

 y y

 y y

 y

 y

 x

 x

 x x

 x x

 x

 x

a

b

T T 

T T 

T T 

T T 

b

a

a

b

T T 

T T 

b

a

a

b

T T 

T T 

b

a

2

2

2221

1211

2221

1211

1

1

2

2

2221

1211

1

1

2

2

2221

1211

1

1,