Basic features

• Original Dr Clarkdesign, i.e. with separation of the test plates from the main circuit, improving isolation of the test substances from the circuit.
• More powerful transformer.
• Powered by 4 ordinary AA batteries.
• Manual battery check function to ensure optimum results before testing.
• An optional foot pedal is provided for the switch on the circuit used to switch the plate on and off during tests.
• There is an ideal distance between the two test plates.
• The device features a permanently active built-in loudspeaker.
• The Synchrometer consists of an electronic circuit (resonant circuit), attached to a box with two test plates. The person to be tested holds a copper handle in one hand.
• The Synchrometer has a built-in loudspeaker and a battery-controlled on/off switch.
• The test plate housing features a foot pedal.
• Presence of a cable connector to connect the test plate housing to the Synchrometer.
• Cable connector with alligator clip to connect the Synchrometer to the copper handle.
• Copper handle.
• Paper towels (3 pcs.).
• AA batteries (4 pcs.).
• Self-adhesive plastic pads to prevent slipping of Synchrometer housing or test plate (8 pcs.).

Before using the Synchrometer, place the 4 AA batteries in the battery compartment on the underside of the Synchrometer. The compartment lid opens and closes. Inside the compartment, you'll see a diagram showing how to place each battery. It's important to place them correctly! If you install them the wrong way round, you could damage the Synchrometer and void the warranty.

Although the Synchrometer does not need to be touched during operation, it may occasionally move due to occasional pulling on the probe and handle cables. To prevent or reduce slippage, there are eight small self-adhesive plastic pads, four of which can be stuck to the underside of the Synchrometer's corners. This can also be done with the test plate housing.

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Synchrometer configuration

Place the test plate box about a foot (about 30.5 cms) away and use the short wire to connect the Synchrometer to the test plate box. There is only one connection on the test plate box and one corresponding connection on the Synchrometer. Put the foot switch bellows {on the floor} down near your feet if you're about to use it, otherwise it can be rolled up and set aside.

Wrap a single layer of water-soaked paper towel around the handle (copper tube). Three square paper towels are included to get you started. Next, find the cable with a banana plug on one end and an alligator clip on the other. Attach the alligator clip to the handle and insert the banana plug into the center hole on the side of the Synchrometer.

The last cable has a kind of "pen" (the probe) at one end and a banana plug at the other. Insert the banana plug into the remaining hole on the side of the Synchrometer.

Your Synchrometer is now ready for use. You may have noticed that the probe and the handle have identical banana plugs, and you may be worried about confusing them. Well, you can stop worrying. In fact, whatever the plug, the circuit works in the same way; however, there are images (logos) on the Synchrometer to guide you, so that, if you wish, you can be consistent across the board.

Pressing the Synchrometer's ON/OFF/BATTERY CHECK switch checks the battery status. Four AA batteries are expected to supply at least 6 volts. If this is the case, the green LED lights up. Once your batteries have dropped below about 5.8 volts, the green LED will no longer light up, which means you need to replace your batteries.

Note that, even at lower voltages, the Synchrometer will still work, but, for reasons of consistency, you'll probably want to run all your tests at the same voltage. Batteries run down so slowly that, if you check them once at the start of each test session, you won't need to check them again during the same session.

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Test plate housing configuration

The front of the test plate housing is where the cable is attached. The left test plate is always connected. The right-hand test plate is only connected when the switch is ON. The hand or foot switch (or both) connects the right-hand test plate.

Only when both the hand switch and the foot switch are OFF, is the right test plate also OFF. So if you're using the foot switch, make sure the hand switch is OFF, and if you're using the foot switch, make sure the foot switch is OFF. The foot switch is OFF when there is no pressure on the bellows (and you'll learn to double-check this). The hand switch is OFF when you're in the up position, which is the opposite of most switches you're used to using. The reason OFF is up is that, when using the Synchrometer, you have a small window of time in which to turn the switch ON, and pressing down quickly with your finger is easier than pressing up, and much less likely to disturb the samples on the test plates.

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Testing the left-hand plate

If there's something wrong with the Synchrometer, it's usually obvious because the sound is affected. But if something goes wrong with the test plate housing, it's impossible to tell, in normal use. Fortunately, it's easy to make sure they're working properly. Detach the handle from the alligator clip. Make sure the other end of this cable is plugged into the jack in the middle of the Synchrometer. When the Synchrometer is switched on, simply touch the left test plate with the alligator clip, and {then} the loudspeaker emits sounds.

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Testing the straight plate

Touch the right test plate with the alligator clip and the speaker will only sound when the switch (hand, foot or both) is ON. Check the right test plate both when the switch (foot or hand) is ON (which makes a sound) and OFF (which makes no sound) to confirm that the switch is working correctly. Again, failure is so rare that you'll probably only want to perform this test once before each test session. As mentioned elsewhere, the foot pedal makes a click in the case when you press the bellows and thus switch it on. Practice pressing the bellows hard enough to hear the click. Obviously, your test will be flawed if you don't learn to do it reliably.

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Tests on individuals

1. Switch on the Synchrometer.

2. Now let's carry out a functional check: Checking the test plates (see relevant page).

3. Now you can start testing. Place the substances you wish to test on the right-hand plate: viruses, bacteria, parasites, fungi, heavy metals, etc. When testing a person or substance, the foot pedal or circuit switch on the unit is used to place the plate (and its contents) in the circuit.

4. You can also place an organ sample on the Synchrometer's left-hand plate to determine in which body organ the substance under test is located (which is on the right-hand plate).

Ask the test person to hold the copper handle, which is wrapped in a damp paper towel.

5. Follow the test protocol described by Dr. Hulda Clark, using the test probe and the other hand. (For more details, see the chapter on "Testing with the Synchrometer" chapter in Dr. Clark's book "The Cure for All Illnesses and other publications by Dr. Hulda Clark). The test sequence is as follows:

Place the probe against the fingertip using constant pressure, but DO NOT press the pedal or circuit switch.

Remove the probe from contact with the fingertip for just half a second.

Quickly press the probe again at the same point with your fingertip, using constant pressure, WHILE PRESSING THE FOOT PEDAL OR THE DEVICE CIRCUIT SWITCH.

Continue to press the foot pedal or circuit switch while listening to the sound. If the sound you hear when activating the foot pedal or device circuit switch is higher than the previous sound signal (without pressing the foot pedal or device circuit switch), then a resonance "match" has just occurred. This means that the substance being tested is present in the body or in the specific organ of the person being tested.

Be sure to use the SAME PRESSURE INTENSITY when pressing the fingertip with the probe. Differences in pressure will affect the sounds produced.

6. When you have finished your test session, switch off the unit.

7. After each test session, please clean the probe tip and test plates with purified water (see "Cleaning" section).

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Saliva sample testing

1. Please ensure that you use a neutral vial (with no residues from previous experiments), so as not to falsify the test results.

2. Switch on the Synchrometer.

3. Now let's carry out a functional check: Checking the test plates (see relevant page).

4. Place the copper handle, wrapped in a damp paper towel, in your left hand (left-handers use the right hand). Similarly, take the probe in your left hand (left-handers vice-versa). The test sequence is as follows:

Place the probe against your fingertip with steady pressure, but DO NOT press the unit's foot pedal or circuit switch.

Remove the probe from the {existing} contact with your fingertip for just half a second.

Quickly press the probe again at the same point with the tip of your finger, using constant pressure, WHILE PRESSING THE FOOT PEDAL OR THE CIRCUIT SWITCH.

Continue to press the foot pedal or the unit's circuit switch, while listening to the sound produced. If the sound that was heard while the foot pedal or unit circuit switch was pressed is higher than the one that preceded it (without the foot pedal or unit circuit switch being pressed), then a resonance "match" has just occurred. This means that the substance being tested is {well} present in the saliva sample.

Be sure to use the SAME PRESSURE INTENSITY when pressing the fingertip with the probe. Differences in pressure will affect the sounds produced.

5. When you have finished your test session, switch the Synchrometer and Test Plate Housing to "OFF".

6. After each test session, clean the probe tip and test plates with purified water (see "Cleaning" section). "Cleaning).

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Availability availability: Early April 2018.

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Old Dr Clark Synchrometer