MFJ 66 Grid Meter Adapter

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MFJ-66 Dip Meter Adapter

Instruction Manual

MFJ-66 Dip Meter Adapter

Thank you for purchasing the MFJ-66 Dip Meter Adapter. The MFJ-66 Dip Meter Adapter works with
your MFJ-209/249/259 SWR Analyzer.
The MFJ-66 Dip Meter Adapter is a kit consisting of 2 coupling coils and a UHF to RCA female
adapter. The larger probe coil covers 1.8 through 50 MHz, and offers maximum sensitivity in the 10 to
20 MHz range. The smaller probe coil covers 20 through 175 MHz, and offers maximum sensitivity in
the 100 to 150 MHz range.

Dip Meter Theory of Operation
The MFJ-66 Dip Meter adapter is very versatile. When properly used, it can make accurate
measurements of many different RF circuits. The following description will help you get maximum
accuracy and versatility from the MFJ-66.
The MFJ-66 is designed to adapt a SWR Analyzer to work as a dip meter. Your SWR analyzer
contains an internal bandswitched oscillator circuit. The oscillator is buffered to increase the signal
level and prevent the load from affecting the oscillators frequency. The high level RF output covers all
Ham bands below 170 MHz and is available on the ANTENNA jack.
The SWR Analyzer also contains a meter used to measure the unbalance in an impedence bridge
circuit. As the load on the ANTENNA connector approaches 50 ohms resistive, the meter reads a
lower amount (toward 1:1).
By connecting a small coil through the adapter to the ANTENNA connector, an SWR Analyzer can be
used to test external circuits for resonance. The magnetic field surrounding the coupling coil provides
the required connection or coupling to the circuit under test. The meter on the SWR Analyzer is then
used to measure the amount of RF signal absorbed by the circuit under test. The meter reads lower as
resonance is approached.
Any resonant circuit will absorb RF from the coupling coil as long as the circuit is tuned to the same
frequency as the oscillator in the SWR Analyzer. As the "Q" of the circuit under test increases, the dip
will become sharper and deeper. High "Q" circuits absorb more RF energy in a narrow range of
frequencies. If the "Q" of the circuit under test is low or coupling between the coupling coil and the
inductor in the circuit under test is inadequate, the dip shown on the meter will be small or perhaps not
even visible.
Unlike the tuning coils of a conventional grid dip meter, the MFJ-66 coupling coil is not a part of a
resonant tank circuit. This adapter depends on the "Q" of the external circuit to improve the

MFJ-66 Dip Meter Adapter

Instruction Manual

circuit coupling. If the external circuit has a very low "Q", the coupling will have to be increased
by placing the inductor of the external circuit very close and in line with the axis of coupling
coil. This has the advantage that stray coupling is reduced and frequency pulling of the oscillator
is eliminated. Frequency readings can thus be made with more precision.
To insure accurate readings always keep the coupling as loose as possible while still getting a
readable dip.
Maximum coupling is obtained when the coupling coil is either placed inside a larger coil under
test, placed against a coil of equal size or placed over a coil of small size. When using the
smaller coil to couple with a very small coil, such as a molded inductor, the outer plastic sleeve
must be removed or cut to allow the molded inductor to be inserted into the small coupling coil.
Otherwise coupling may be insufficient to create a dip.

Once a dip is found the coupling coil and the inductor of the circuit under test should be
separated until the dip is barely evident. The frequency should be read at this point for
maximum accuracy.
The coupling coil can be removed and the coupling coil jack can be used to directly feed a one
or two turn link coil on a toroidal inductor. The coupling can be easily varied when testing
resonant circuits containing toroids by adding or removing turns from the coupling link. Never
try to couple with the standard method of using a double link. The air wound external link acts
like a shorted turn on the toroid and lowers the inductance. This "shorted turn affect" will cause
inaccurate measurments for many types of toroids.

MFJ-66 Dip Meter Adapter

Instruction Manual

Using The MFJ-66 Dip Meter

Caution If you have an MFJ-209 the frequency tolerance of the front panel markings and the accuracy of
all measurements can vary up to 20% unless an external frequency measurement device is used
to calibrate frequency readings. Refer to your MFJ-209 manual to find how to accurately
measure frequency readings. If you have an MFJ249 or MFJ-259 read the frequency from the
counter display.

Finding the resonant frequency of a tuned circuit.
1. To check the resonant frequency of a tuned circuit, remove all power from the circuit under test.
2. Turn the Band switch to the band you want to test.
3.

Place the coupling coil near the circuit to be tuned (see theory of operation). Turn the Tune knob
until the needle fluctuates.

4. Slowly turn the Tune knob back and forth very slowly until the needle is at it's minimum deflection.
5. Read the exact frequency from the counter (MFJ-249/259) or read the approximate frequency from
the Tune scale (MFJ-209).

MFJ-66 Dip Meter Adapter

Instruction Manual

Measure coefficient of coupling of two resonant circuits.
1. Measure the resonant frequency at one coil (refer to the MFJ-209/249/259 manual) and
record it as Fs . This is a measurement of the resonant frequency of both circuits in their
coupled state.
2. Make a open in the other tank circuit. Remeasure the resonant frequency and it record as
Fo. This is a measurement of the resonant frequency of just one uncoupled tank circuit.
3. Now solve the equation below for the coefficient of coupling, k. The coefficient of
coupling is a value between 0 and 100. If two coils are tightly coupled they will have a
high k, 100 being perfect. Loosely coupled coils have a low k.
k= sqrt(1-(Ls/Lo))

Measure coefficient of coupling of loosely coupled coils.
1. Measure the inductance of one coil (refer to the MFJ-209/249/259 manual) and record it
as L. This is a measurement of the inductance of one inductor coupled to the other coil.
2.

Make a short across the other inductor. Remeasure and record the inductance as Ls. This
is a measurement of the resonant frequency of just one uncoupled inductor.

3. Now solve the equation below for the coefficient of coupling, k. The coefficient of
coupling is a value between 0 and 100. If two coils are tightly coupled they will have a
high k, 100 being perfect. Loosely coupled coils have a low k.
k=.5 I- L

Measure mutual inductance for two loosely coupled coils.
1. Measure the inductance of both coils in series (refer to the MFJ-209/249/259 manual).
Record this value as L l.
2.

Reverse one coil and measure the inductance of both coils in series. Record this value as
L2. You have measured the resonance of the coils in and out of phase.

3.

Solve this equations with the values you have recorded.
M =.5 k Ll L2

MFJ-66 Dip Meter Adapter

Instruction

Measure the Q of a coil.
To measure the Q of a circuit you must add a detector circuit, see the figure below, and couple it the SWR
Analyser (this may slightly alter the Q of the circuit.) Relative Q can be observed by noting the stepness of
the dip as you change frequency. A sharp deep dip at resonance is an indication of high Q. A wide shallow
dip at resonance is an indication of a low Q.
1. Connect a high impedance digital voltmeter across the test circuit in the figure below. Use the
lowest range of the voltmeter.
2. Couple the SWR Analyzer to the tank circuit. Adjust the Tune control for a maximum voltage
reading on the voltmeter. Do not change the coupling during the rest of the test. Record this
frequency as F0.
3.

Find a point above and below F1 that the voltage is at 70 % of its max.
frequencies as F 1 and F2.

4. Divide the positive difference between F 1 and F2 by FO to get Q.

Record these

LIMITED 12 MONTH WARRANTY
MFJ Enterprises, Inc. warrants to the original owner of this product, if manufactured by MFJ
Enterprises, Inc. and purchased from an authorized dealer or directly from MFJ Enterprises, Inc. to be
free from defects in material and workmanship for a period of 12 months from date of purchase provided
the following terms of this warranty are satisfied.
1.
The purchaser must retain the dated proof-of-purchase (bill of sale, canceled check, credit card
or money order receipt, etc.) describing the product to establish the validity of the warranty claim and
submit the original or machine reproduction of such proof of purchase to MFJ Enterprises, Inc. at the
time of warranty service. MFJ Enterprises, Inc. shall have the discretion to deny warranty without dated
proof-of-purchase. Any evidence of alteration, erasure, or forgery shall be cause to void any and all
warranty terms immediately. .
2.
MFJ Enterprises, Inc. agrees to repair or replace at MFJ's option without charge to the original
owner any defective product under warrantee provided the product is returned postage prepaid to MFJ
Enterprises, Inc. with a personal check, cashiers check, or money order for $7.00 covering postage and
handling.
3.
This warranty is NOT void for owners who attempt to repair defective units. Technical
consultation is available by calling the Service Department at 662-323-0549 or the MFJ Factory at 662323-5869.
4.

This warranty does not apply to kits sold by or manufactured by MFJ Enterprises,

5.
Wired and tested PC board products are covered by this warranty provided only the wired and
tested PC board product is returned. Wired and tested PC boards installed in the owner's cabinet or
connected to switches, jacks, or cables, etc. sent to MFJ Enterprises, Inc. will be returned at the owner's
expense unrepaired.
6.

Under no circumstances is MFJ Enterprises, Inc. liable for consequential damages to person or
property by the use of any MFJ products.

7.
Out-of-Warranty Service: MFJ Enterprises, Inc. will repair any out-of-warranty product
provided the unit is shipped prepaid. All repaired units will be shipped COD to the owner. Repair
charges will be added to the COD fee unless other arrangements are made.
8.

This warranty is given in lieu of any other warranty expressed or

9.
MFJ Enterprises, Inc. reserves the right to make changes or improvements in design or manufacture
without incurring any obligation to install such changes upon any of the products previously manufactured.
10.

All MFJ products to be serviced in-warranty or out-of-warranty should be addressed
MFJ Enterprises, Inc., 300 Industrial
Park Road Starkville, Mississippi
39759 USA
and must be accompanied by a letter describing the problem in detail along with a copy of your
dated proof-of-purchase.

11.

This warranty gives you specific rights, and you may also have other rights which vary from state
to state.



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