Job Description
Job Description
We kindly ask that only candidates who have thoroughly read the entire job posting submit an application. This project is highly specialized and may not be suitable for every electrical engineer. To ensure a strong alignment with the project requirements, applicants will be asked specific questions related to the job description.
All key details regarding the timeline, budget, and project scope are clearly outlined in the job posting.
Kindly refer to the attached image for additional reference
We are IVEYAH Corp., a U.S.-based firm that specializes in medical and biomedical electronics such as pacemakers, ECG monitors, and advanced diagnostic tools.
We are seeking a highly creative and capable freelance electrical engineer to help us build a groundbreaking experimental prototype. This is not a repetitive task — this is an opportunity to pioneer in a highly experimental frontier of bioelectromagnetics.
The goal is to design, assemble, test, and ship a high-voltage, low-current, high-frequency generator built within a form factor inspired by a Van de Graaff generator, but with very different internal workings.
We’re building a device that takes inspiration from the outer design of a Van de Graaff generator — but it’s very important to understand: this is not a Van de Graaff generator.
The goal is to construct a custom-built machine that has the physical shape of a Van de Graaff — meaning, a box-based base housing with a metallic dome at the top — but instead of using belts or friction to generate static electricity like the original, this device will contain modern electronics and transformer-based components inside the box to manipulate household electricity into something very different.
What we want this device to do:
It should take standard U.S. wall outlet power — 120 volts at 60 Hz — and internally transform it into an output of 30,000 volts, at 200 MHz frequency, and 20 microamps (0.000020 amps). That energy must then be routed to the metallic dome at the top of the device, so that when a user touches the dome, this high-frequency, high-voltage but ultra-low-current charge flows continuously through their body.
This isn’t a static zap. It’s a steady stream of energy at frequency (200 MHz). The amperage is very low — just 20 microamps — which is within the range of what is generally considered safe for human exposure, and far below any threshold for electrocution. That said, we will still be testing everything thoroughly to ensure it operates exactly as intended, without surges.
We want to make it very clear that this project is for experimental and medical study purposes. Our work is in the field of biomedical engineering. We are interested in evaluating whether or not energizing the body with this specific kind of charge — high frequency, low current — can support the body’s natural healing mechanisms. There are studies and practices in complementary medicine that use forms of electromagnetic stimulation to improve cell activity or regeneration (e.g., PEMF therapy, frequency therapy, and ionized water technologies like Kangen).
But no one has tried it quite like this, especially not with a 200 MHz continuous charge at this safe, low amperage.
What we’re looking for is someone who can bring this concept into reality.
We’re not prescribing specific internal components or circuitry. You are free to choose the method that you believe can best achieve this transformation of power — whether that means using high-voltage step-up circuits, RF oscillator circuits, shielding, frequency generators, etc. — as long as the result meets these three precise output characteristics:
Voltage: 30,000 volts (or slightly more, if needed)
Frequency: 200 MHz or higher (continuous, not pulsed)
Current: Capped at 20 microamps (for safety)
We are funding the development with a budget of $5000, which covers parts and labor. We will separately pay for shipping once the device is complete. The build and testing must be completed within 30 days of hire.
The final product should be:
A sealed unit that plugs into a U.S. wall outlet (120V 60Hz)
Contains a simple ON/OFF switch
Routes the transformed electricity to the metallic dome on top
Emits continuous 30kV at 200MHz and 20µA to the dome
Allows a person to touch the dome and experience the charge flow through their body safely
We’ll need proof of output levels (e.g., multimeter, oscilloscope, or RF spectrum analyzer readings) to confirm that the voltage, current, and frequency are accurate and stable. The safety cap on the current is crucial.
In summary, this isn’t a toy or a static shock device — it’s a new type of experimental medical tool based on unconventional thinking. The shape is inspired by what already works (the Van de Graaff form factor), but the inside will be entirely modern electronics designed to deliver energy in a very specific, controlled way.
We believe it has the potential to open new doors in regenerative medicine and energy-based healing. We’re looking for someone capable of thinking outside the box to help make it real.
About the Project
This device is designed to simulate a "static-like" electrical charge similar to that of a Van de Graaff generator but operating at high RF frequencies (~200 MHz or above) rather than 0 Hz (true static). Van de Graaff generators are known to create a safe sensation of a static field throughout the human body, but their field is non-oscillating (DC/static).
We want to know what happens when that same high-voltage/low-current experience is recreated at RF frequencies, specifically 200 MHz or more. The aim is to explore its interaction with human tissue, bioelectric signaling, and potentially cell regeneration. This is a frontier experimental study, not yet widely studied in clinical environments.
We are not asking you to build an electrolysis machine or a Kangen-style device. Nor are we requesting traditional RF therapy machines. Instead, this is a hybrid between a Van de Graaff-style layout and a high-frequency voltage generator.
Why This Matters
You will be helping to lay the foundation for a new category of experimental biomedical equipment. Current healing technologies using frequency (like PEMF and TENS) mostly operate below 150 Hz. Meanwhile, other fields claim healing responses at MHz frequencies, but they are rarely explored with HV delivery.
This project exists to test that theory with a safe, measurable, and repeatable experimental tool. You will be the first to help us build it.
Over the years, several researchers and practitioners in the field of alternative medicine have claimed that the frequency of the human body directly affects health — suggesting that disease itself may be connected to a drop in cellular or bodily frequency.
According to some of these studies, a healthy human body resonates at a frequency around 62 to 78 MHz, while certain illnesses — like the flu, cancer, or even emotional stress — are associated with much lower frequencies, sometimes as low as 20 MHz or below.
The theory is simple: as your body’s vibrational frequency drops, you become more susceptible to illness. In contrast, raising or restoring the body’s frequency could potentially help the body return to health.
This concept may sound unconventional, but it’s no more strange than modern therapies like electromagnetic field therapy (PEMF), light-based healing, or frequency-specific microcurrent treatments — all of which are gaining momentum in the biomedical field .That brings us to the device we are building.We want to test — in real, measurable, experimental ways — whether applying a high-frequency, low-amperage electric charge to the human body can raise the body's internal frequency and support healing.
The machine we're building is designed to do exactly that: to emit 30,000 volts of electricity at 200 MHz, but at a very low and safe current of 20 microamps, so that it can pass through the human body without causing harm.
The idea is to allow this energy to flow into the body through a metallic dome (that the person touches while the device is active) and observe what kind of biological response — if any — it produces. Can it help restore healthy function?
Can it recharge cell activity or tissue regeneration by increasing frequency? These are the questions we seek to answer.While the scientific world may not have fully confirmed these frequency-based healing claims yet, we believe that progress starts with bold exploration.
This machine is not just an invention — it's a tool for verifying or disproving whether there is truth behind these theories. We're not just speculating — we’re building the means to test these ideas empirically.Your work on this project could help uncover a new pathway in the future of energy-based medicine.
Objective
Design and build a self-contained device that:
Draws standard U.S. wall outlet power: 120V AC, 60Hz, up to 2.0A
Outputs: ~30,000 volts at 20 microamps (0.000020 A) at a frequency of 200 MHz or higher
Delivers this output via a metallic dome mounted at the top of the device (similar in form to a Van de Graaff generator)
Is safe for human touch (non-lethal and properly isolated)
This device will be used exclusively for non-clinical experimental research in the study of high-frequency electrical fields and their interaction with human biology.
Core Requirements1. Electrical Output Requirements
Voltage: Target of 30,000 volts (acceptable range: 30kV–40kV)
Current: Strictly limited to ~20 microamps (non-lethal)
Frequency: Minimum of 200 MHz (higher preferred)
Power Source: 120V AC wall outlet (U.S. standard)
Continuous operation with ON/OFF switch
2. Form Factor Requirements
Outer shape should resemble a Van de Graaff generator:
Boxed base unit housing internal electronics
Metallic dome mounted at the top for touch-based discharge
Wall plug with power cord
Total height of approximately 1 to 3 feet (manageable desktop size)
3. Testing and Validation
You must test the final device and provide video evidence showing:
Output voltage is ~30kV
Current remains at or below 20 µA
Frequency output is at least 200 MHz
Must use appropriate measurement tools (oscilloscope, HV probe, etc.)
4. Shipping and Delivery
You will assemble and test the device at your location
Once approved via remote testing, you will package and ship the device to our U.S. office
Shipping cost will be paid separately
Ideal Candidate
Electrical engineer or advanced technician with experience in:
High-voltage transformers or flyback converters
RF signal generation (200 MHz and up)
Capacitive discharge systems and insulation safety
Capable of safely building and testing HV devices
Resourceful and creative thinker who can work independently
Can communicate findings clearly and deliver results
What We Provide
$5,000 total budget for parts and labor (paid in stages)
Reimbursement for shipping once device is approved
Prompt communication and technical support as needed
How to Apply
Please submit:
A short message confirming you've read the full spec
A brief technical plan or your intended approach
Estimated breakdown of parts/labor costs (ballpark is fine)
If selected, you’ll be expected to begin within 1 day. This is a remote contract position. We welcome candidates from The U.S.A, Canada, and Most European regions
We understand this is unusual, ambitious, and even unproven — but every innovation starts somewhere.
Help us build something that could change lives.
Job Types: Contract, Temporary
Pay: $5,000.00
Work Location: Remote