Hulda Clark has created her zapper using a simple 555 timer circuit powered by a 9V battery. According to Hulda, it can kill bacteria, parasites, fungi and viruses found within the body.
Different variations of the zapper have been created with differing frequencies, voltages, and duty cycles. It is key that its frequency have a 1/4 volt positive offset as per the diagram above.
Parts List
Hulda Clark, an unconventional alternative health practitioner who claimed her device could cure many diseases by killing parasites and toxins in the body, developed the Zapper. It’s an electronic device which generates low-voltage square wave pulses applied via copper handle electrodes which users hold or place anywhere on their bodies; Clark’s claims have since been disproven by numerous independent studies.
The basic zapper circuit uses a 555 timer IC, some resistors and capacitors from Radio Shack’s parts list, to be assembled for less than $20. A CMOS version of the 555 chip should be preferred as it produces sharper square waves while drawing less current from your battery source. In addition, you will require a polarity-reversal protection light-emitting diode connected to its negative probe to prevent accidental arcing when turning on your circuit.
Other variations of the Zapper Circuit allow it to operate at different frequencies. For example, by removing a 4.7k (yellow-violet-red-gold) resistor from our Zapper Breadboard Kit at G9-J10 that connects pin 6-7 of the 555 CMOS Timer at pin G9-J10, a 1000Hz unit can be created. Frequencies can also be adjusted using potentiometer R2 value adjustment and switching C1 value selection via switch; multimeter should also be set on this setting in order to accurately display frequency output when switched on.
Add a passive output checker to the zapper by attaching two diodes: standard diode and zener diode on conductive board standoffs – this will check for output polarity as well as battery level.
As part of construction, it is crucial that the positive battery terminal be covered with tape or delayed until all connections have been made. A battery connector that snaps onto the battery and features two wires extending off is recommended (5 pack can be found for around a dollar at Radio Shack) since this will minimize shorted wires that could damage your circuit.
Frequency Range
Hulda Clark describes the zapper as producing low frequency square pulse current that emits low frequency square pulse current to kill parasites without damaging healthy tissues, stimulating both the bloodstream and immune system in turn. Her device utilizes an electronic chip with various resistors and capacitors connected by resistor wires in conjunction with 9V battery power to generate electrical current that penetrates skin layers killing parasites within them.
Hulda Clark used a fixed frequency of 30 kHz, which has proven successful against most parasites. Other people have had success using frequencies lower than 30 kHz as well.
This version of zapper boasts two 39K-ohm resistors to increase effectiveness by pushing positive offset square wave an additional 1/4 volt above zero, making it more effective than devices using only one resistor. Furthermore, they keep one electrode’s voltage above that of the other electrode for proper functioning – essential features in proper operation of any zapper! It also features an LED to demonstrate functioning as well as to show when batteries need replacing.
To verify the operation of your zapper, view its output with an oscilloscope and ensure its square wave has an offset of around 1/4V positive and no negative spikes on its output. Furthermore, ensure its amplitude always remains above 0V.
Some users may experience temporary nausea, dizziness or mild flu-like symptoms after first starting to use their zappers, caused by ex-parasites being eliminated from their bodies through natural processes. These reactions should subside over time.
For optimal results, the zapper should be applied directly against the skin at the location where there are most parasites present, and held there for approximately 20 minutes per session or more if desired daily.
An ordinary zapper can quickly and easily be converted to a food zapper by connecting its positive (+) output to the (+) terminal on a North Pole Speaker with no metal cap attached – for maximum success use wood or plastic for this step and place foods and water containers overtop of it for 10-20 minutes of zapping action.
Duty Cycle
Hulda Clark’s book, “The Cure for All Diseases,” describes an electronic circuit known as the zapper that emits low frequency square impulse current, according to Clark it can kill parasites in the body. A basic zapper includes a 9-volt battery, pulse generator circuit and two copper handle electrodes which users hold or place onto different parts of the body; its pulse generator circuit comprises a 555 timer IC, NPN transistor as well as resistors and capacitors.
The 555 timer is an 8-pin CMOS chip designed to act as a monostable, bistable or astable multivibrator and can be programmed into producing one-shot or delay timers; LED/lamp flashers; alarm/tone generators/tone tones/logic clocks and frequency division. When building a zapper it is critical that this particular configuration of chip be utilized.
Clark states that for an effective zapper to work properly, its pulse generator must produce a square wave with 50% duty cycle. To accomplish this goal, an additional 39k resistor (R5) must be added to the chip so as to maintain positive output by increasing threshold high enough to prevent negative spikes on negative portions of wave forms. Adding another resistor in series with the chip (R2) also achieves this result.
Zappers provide more than just changing frequency from 10 Hz to 500,000 Hz; they can also be programmed with specific Rife frequencies or bioresonant frequencies that target particular symptoms, using plug-in modules available on their system.
Building the basic zapper can be done for under $20 with components available from Radio Shack. A 555 CMOS chip should be chosen instead of its TTL counterpart as this produces more precise square waves while drawing less battery current. When complete, purchase or borrow an inexpensive digital multimeter to test the circuit; many electronic repair shops will test circuits free of charge as well. Once completed, powering can come either from 2 9-volt batteries or via an AC converter that provides up to 15V.
Positive Offset
The Hulda Clark Zapper Circuit was developed to produce low-level electrical energy that penetrates skin layers without harming the body, killing parasites while stimulating bloodstream and immune system activity. While many alternative health practitioners believe it to be a miraculous cure, no scientific community has validated such claims.
The Hulda Clark Zapper is a small electronic device powered by a 9-volt battery which utilizes a 555 timer chip and various resistors and capacitors connected by resistor wires to kill parasites and microbes in your body. It may also stimulate your bloodstream and immune system by helping the body flush out stored toxic materials from organs and tissues while relieving pain, inflammation and fatigue as well as speed healing processes.
There are various variations of Hulda Clark zapper circuit. This version differs from her original design in several ways. First, it does not use a stabilizing capacitor from pin 5 to ground as in her original schematic; and secondly, an extra 39k ohm resistor adds 1/4-volt positive offset that prevents negative output or spikes from occuring.
This zapper circuit also incorporates a light-emitting diode between pin-8/negative probe and ground, serving as polarity-reversal protection and safeguarding against improper battery connection – something which could cause serious injuries to users if connected backwards.
In order to construct this zapper, you will require purchasing a 555 timer IC and some additional components from either a local electronics store or online. A multimeter will help test it prior to use; for optimal results use a new or rechargeable 9-volt battery and use CMOS instead of TTL versions of the chip; use tight connections on all wires and switches and consider changing out batteries when the zapper doesn’t appear to work as intended. If anything goes amiss during testing of this device if any additional components should be added such as those needed or replaced
