MFJ MFJ-249 - Page 11

20 pages

Save Page as PDF

To Next Page

To Next Page

To Previous Page

To Previous Page

Loading...

MFJ-249

SWR

Analyzer

Instruction

Manual

Connect

the

PL-259

to

the

"ANTENNA"

connector

of

the

MFJ-249

and

adjust

the

line

or

stub

by

the

following

method.

For

critical

stubs

you

may

want

to

gradually

trim

the

stub

to

frequency.

1

Determine

the

desired

frequency

and

theoretical

length

of

the

line

or

stub.

2

Cut

the

stub

slightly

longer

than

necessary.

3

Measure

the

frequency

of

the

lowest

SWR.

It

should

be

just

below

the

desired

frequency.

4

Divide

the

measured

frequency

by

the

desired

frequency.

5

Multiply

the

result

by

the

length

of

the

stub.

This

is

the

necess<

-y

stub

length.

6

Cut

the

stub

to

the

calculated

length

and

confirm

that

it

has

the

lowest

SWR

near

the

desired

frequency.

ad

Velocity

Factor

of

Transmission

Lines

The

MFJ-249

can

accurately

determine

the

velocity

factor

of

any

impedance

transmission

line.

Measure

the

velocity

factor

with

the

following

procedure:

1.

Free

space

1/4

wavelength

=

Velocity

Factor

=

Disconnect

both

ends

of

the

transmission

line

and

measure

the

»hysical

length

of

the

line

in

feet.

Set

up

the

line

to

measure

1/4

stubs

as

in

the

section

on

Testing

and

Tuning

Stubs,

page

8.

Find

the

lowest

frequency

across

all

the

bands

at

which

the

lowest

SWR

occurs.

The

dip

should

occur

slightly

below

the

1/4

wavelength

frequency.

Read

the

frequency

from

the

frequency

counter

display.

This

is

the

1/4

resonant

wavelength

frequency

of

your

transmission

line.

Note

that

you

will

get

low

SWR

reading

at

all

odd

multiples

of

1/4

wavelength.

Example:

On

a

27

foot

line

the

measured

frequency

was

7.3MHz.

Divide

246

by

the

measured

frequency.

This

gives

you

the

:

ee

space

|/4

wavelength

in

feet.

Example:

246

divided

by

a

dip

frequency

of

7.3

MHz

is

33.7

feet,

the

free

space

1/4

wavelength

Divide

the

physical

measured

length

of

the

feedline

in

feet

by

!!ie

free

space

1/4

wavelength

calculated

in

number

5.

Example:

27

feet

(physical

length)

divided

by

33.7

feet

(calculated

length)

equals

.80

.

The

velocity

factor

1s

.80

or

80%.

246

é

Low

SWR

frequency

Free

space

|/4

wavelength

Actual

feedline

length

Table of Contents

Related product manuals

Preview: MFJ MFJ-259

Preview: MFJ MFJ-269

Preview: MFJ MFJ-207

Preview: MFJ MFJ-259D

Preview: MFJ MFJ-266B

Preview: MFJ MFJ-259C

Preview: MFJ MFJ-269C

Preview: MFJ MFJ-269D

Preview: MFJ MFJ-868B

Preview: MFJ MFJ-935C