MFJ 16010 Random Wire Antenna Tuner

User Manual: Pdf MFJ--16010 Random Wire Antenna Tuner

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MFJ-16010 Random Wire Antenna Tuner
Thank you for purchasing the MFJ-16010 Random Wire Antenna Tuner.
GENERAL INFORMATION
The MFJ-16010 is a variable L-network designed to match the low output
impedance of your transmitter to the high impedance of a random wire (or vice
versa). It will match almost any random length of wire to any transmitter from 160
thru 10 meters. The transmitter may have an output RF power up to 200 watts. For
best results, the random wire should be as long, high, and clear of surrounding
objects as possible. Do not ground the random wire antenna.
The connectors are labeled properly to match a transmitter to a higher
impedance. This is the normal connection.
To match impedances that are lower than your transmitter impedance (such as a
mobile whip), simply interchange the normal transmitter and antenna
connections to the MFJ-16010.
Remember the MFJ-16010 is designed to match a single random wire and not a
coaxial line, even though coaxial connectors are used for both antenna and
transmitter connections (these connectors make it easy to interchange antenna
and transmitter connections).
A standard banana plug will fit nicely into the center of the S0-239 coaxial
connector and can be used to connect the single random wire in lieu of a
coaxial plug (PL-239).
A standard coaxial cable having an impedance that matches your transmitter
output impedance, should be used to connect your transmitter to the
MFJ16010. Make sure the MFJ-16010 is well grounded to the transmitter.
If you are using the MFJ-16010 to match a vertical or mobile whip, the tuner needs
to be at the feed point of the antenna and not at the transmitter end of the
coaxial transmission line.
USING THE MFJ-16010
To match high impedances, the transmitter connector of the MFJ-16010 should
be connected to your transmitter or receiver and the random wire connected to
the antenna connector. The Inductance switch of the MFJ16010 presents a
minimum inductance when pointed straight up. Low inductance is for high
frequency operation and high inductance is for low frequency operation. The
capacitor is completely closed (maximum capacitance) when the control is
pointed straight to the left. When tuning up

your transmitter, it is best to use a SWR meter. Connect the MFJ-16010 as in
figure A.
Tune your transmitter for minimum SWR using the following procedure:
1. For each position of the Inductance switch, rotate the Capacitance control
for maximum noise.
2. Apply enough transmitter power to give adequate indication on your
SWR meter. Do not apply full power while tuning for minimum SWR.
3. Turn the Inductance control for a drop in SWR.
4. Adjust the Capacitance control for minimum SWR.
5. If minimum SWR is not achieved, increase or decrease the Inductance
control one position then adjust Capacitance until minimum SWR is
achieved. If arcing between capacitor plates occurs, increase or
decrease the Inductance control one position then adjust Capacitance
control for minimum SWR.
6. After minimum SWR is obtained, full power up to 200 watts output may be
applied to the MFJ-16010.
For receiving, repeat step 1 then adjust Capacitance control for maximum
nose or signal strength.



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