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Dirty Electricity Filters


Parallel Plug-In Styles and Line Filter Styles



Table of Contents - Click A Link Below


Dirty Electricity Filters Introduction
DNA Product Line Description
DNA Parallel Filter Product Lineup
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RxDNA Family
Parallel Filter Comparison Versus Frequency
How To Select A DNA Model - An Analogy
The Big Problem With Utility Wide Solar or Wind Infrastructure
Introduction To RxDNA-V2X
Attenuation Vs. Frequency Data For Various RxDNA Models
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PxDNA: Personal Dissipative Noise Attenuation
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MxDNA: Maximum Dissipative Noise Attenuation
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DNA Line Filters: Dissipative Noise Attenuation Line Filter
M30 Model DNA Line Filter Specifications
M30LF Model DNA Line Filter Specifications
Utility Wide Solar/Wind Infrastructure Produces Low Freq. Dirty Electricity
M100 (100a/b) Model DNA Line Filter Specifications
M100LF Model DNA Line Filter Specifications
M200 (200a/b) Model DNA Line Filter Specifications
M200LF Model DNA Line Filter Specifications
M15/20 Model DNA Line Filter Specifications
M20LF Model DNA Line Filter Specifications
Endorsements
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Contact and Dealers
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Prices - How To Buy
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Downloads
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Dirty Electricity Filters Introduction

Dissipative Noise Attenuation

== A unique system to reduce dirty electricity by turning it into heat.
== This product connects directly to the 50/60 Hz. power lines.
== Mx (max) model is for industrial applications where it is likely that there will be a great deal of noise on the power lines.
== Rx (residential) model addresses less severe environments.
== Px (personal) model for less severe environments and smaller usage areas. NEW
== DNA Line Filters for the highest level of Dirty Electricity Removal
== Warranty Information further down this page



DNA Product Line Description

The DNA product line is designed for the 50/60 Hz. power lines, 120 VAC or 240 VAC. It accomplishes the reduction of high frequency noise, most commonly known as Dirty Electricity. The frequency range over which this product is designed to be effective is approximately 5 kHz to 500 kHz. It does though, provide reduction (attenuation) of dirty electricity above and below the above-mentioned range.
NOTE: if you are outside the U.S. be sure to check with your Dealer to get the correct line cord for your area.

Dirty Electricity Sources

Dirty Electricity in this frequency range can come from a wide variety of sources. They include the following.
Dirty Electricity from switch mode power supplies that power various electronics that are connected to the A.C. line, including computers, off-the-grid power inverters, office machines, uninterruptible power supplies (UPS), entertainment electronics, etc.
Harmonics from traditional power supplies (not switch mode supplies) that power various electronics, noted above.

== Harmonics from electrical motors.
== Broadband Dirty Electricity from electric arc welders. This is severe, intense noise.
== Broadband Dirty Electricity from induction heaters. This is severe, intense noise.
== Broadband Dirty Electricity and harmonics from motor speed controls, light dimmers and solid state switches. The latter includes SCRs and Triacs.
== Dirty Electricity from certain Radio Frequency (RF) transmitters.
== Dirty Electricity from Solar/Wind inverters
== Dirty Electricity from the switching power supplies of smart meters (utility monitoring) and non-radiatinf Digital meters

Filter Products

Power Conditioning is the broad umbrella of a wide variety of techniques, circuits and systems that filter, smooth, regulate, limit, compensate and adjust AC and DC power to accomplish optimum system performance. In the arena of removing noise(Dirty Electricity), most such products filter noise (Dirty Electricity). This means that they stop or arrest the noise(Dirty Electricity). It is somewhat akin to damming a river. The problem with the filter approach (and the dam for that matter) is that the pressure is always there. There is something that is always trying to get through. There are various things that can change, that will alter the effectiveness of the filter, most notably the load impedance. Simply turning loads off or on, by definition, changes the load impedance, so the effectiveness of a filter typically varies.

Filters require that they carry the power that they are filtering. So all of the power that needs to be filtered passes through the filter. If a filter is added to a major utility power feed after the fact, it will require quite a bit of effort to reroute the power through the filter.

The DNA Line Filter is one of our products, that does indeed carry all of the load current. It was designed to reduce the Dirty Electricity caused by the inverters that are typically used in alternative power systems such as photo-voltaic solar arrays and wind mills (wind turbines).

DNA Product Line Approach To Conditioning Power Reducing Dirty Electricity

Most of the he DNA (Dissipative Noise Attenuation) product line is fundamentally
different from a filter type of product. The basic architecture of these parallel DNA products is to provide a low impedance path for the high frequency Dirty Electricity. The DNA provides a path of least resistance for the Dirty Electricity.

Once the DNA has captured the Dirty Electricity power, it dissipates it. Dissipate means turning the Dirty Electricity power into heat. This heat is radiated from the product. It is important to note that once the Dirty Electricity power has been turned into heat, it cannot get back to electrical Dirty Electricity . It is gone forever.

The Parallel DNA Products Do Not Carry The AC Power That They Are Cleaning

Another important and fundamental difference in these specific parallel products (MxDNA, RxDNA-V2, PxDNA) of DNA product architecture, is that they do not carry the power that they are conditioning. These DNA products operate in parallel with the loads (equipment) that they is protecting from Dirty Electricity. These DNAs simply plug into a standard AC outlet and draw the Dirty Electricity on that AC line into themselves then dissipate it. This makes it especially easy and convenient to install a unit in a particular application. It also makes it very easy to test the effectiveness of the DNA products in a particular setting.

NOTE: there is a DNA-Line-Filter product which does indeed carry the load current. This architecture results in exceptionally effective filtering, even at relatively low frequencies (15 to 40 kHz) where switching regulators and inverters are notorious for generating dirty electricity. This type of filter will be very effective in reducing the dirty electricity experienced by off-the-grid sites (homes and businesses) that are suffering from dirty electricity generated by switching inverters that are converting the DC power from solar cell arrays and windmills into 60 Hz AC power.

Modular Product, Modular Deployment

Another important aspect of this parallel architecture of the DNA is that it can be deployed in a modular fashion. If a single DNA does not provide sufficient reduction of Dirty Electricity power, more units can be plugged into the same circuit.

This PxDNA, which is the personal version of the DNA product line is portable. It allows you to change your installation easily, throughout the day, if you like. You can have a PxDNA in the office during the work day, bring it home and plug it in the living room in the early evening, and plug it into an outlet in the bedroom at night.

Finally, the intent of the DNA approach is to capture and remove utility and other Dirty Electricity power as early as possible, to capture the Dirty Electricity while it is on the AC line before it can radiate into the living space.


DNA Parallel Filter Product Lineup

Please read the paragraphs that follow the chart (below) to help you pick the DNA model that works for you.





The Effect of Connecting Multiple DNAs On Same Power Circuit

The following chart is for a specific test case. This means that the distributed resistance and inductance in the power wiring of the facility are specific values, and there is a specific test frequency.





DNA Product Specifications On The AC Line

The MxDNA, RxDNA-V2 and PxDNA all operate in the same manner. They provide a path of least resistance for dirty electricity and turn that dirty electricity into heat.

All 3 models will present a reactive load at low frequencies, such as 50 or 60 Hz. They will therefore draw reactive current, called an idle current, at a lagging phase angle.

In the regime of 50/60 Hz, this reactive idle current is approximately:

MxDNA: 350 ma AC

RxDNA-V2: 450 ma AC

RxDNA-V2X: 950 ma AC

RxDNA-V3LF: 450 ma AC

PxDNA: 450 ma AC

The RxDNA-V2, RxDNA-V2X and PxDNA are a bit more aggressive in filtering dirty electricity than the MxDNA and this is reflected in the higher idle current.

NOTE: At frequencies higher than the power line frequencies (50/60 Hz) the DNA products will present a resistive load to the line.

All three models have protection against over-heating. The MxDNA and RxDNA-V2 have a thermal (electro-mechanical) circuit breaker which trips at a specific current and the PxDNA has an electronic over-current protector.

If the circuit breaker opens (from too much current), it can be reset manually by pressing the reset button on the DNA chassis (MxDNA and RxDNA).

If the PxDNA electronic current protector opens (from too much current) it is reset by simply unplugging the PxDNA, waiting 5 minutes, and plugging it back in.

In the chart above that compares the DNA products, you will note that the Dirty Electricity Power Max is different for the 3 models. If the dirty electricity on the AC line is more than these respective maximum powers than the respective current protection (as just described) will open the circuit and that DNA will be OFF.

How To Select A DNA Model - An Analogy

Imagine that we have two water filters. One is designed for the home and one is designed for a major hotel. Both of these filters are designed to remove 90% of the contaminants.

The difference is that the hotel filter can handle a much larger volume of water as it is removing 90% of the contaminants.

In a similar way, all the DNA products remove approximately the same percent of dirty electricity, but the total volume of dirty electricity that any unit can handle is different.

The MxDNA handles the largest amount of dirty electricity and would probably be used mostly for industrial settings.

Two MxDNA Models: Note that there are 2 models, MxDNA2500 and MxDNA1250. The model 2500 does not remove as much dirty electricity (as the model 1250), but (the model 2500) will function to remove dirty electricity in an environment where there is a high dirty electricity voltage on the power lines. If a model 1250 were used in an environment with high dirty electricity voltage, it would eventually become too hot and it would shut itself off.

In reality, there will be few environments where the dirty electricity voltage will be high enough to cause a model 1250 to shut itself off, and as a result, most industrial applications will use the MxDNA1250.

The RxDNA-V2 handles a medium amount of dirty electricity and would probably find its application in a commercial setting or a residential setting that might be in an industrial area of a city.

The RxDNA-V2X handles a medium amount of dirty electricity and would probably find its application in a commercial setting or a residential setting that might be in an industrial area of a city. This V2X model has a higher removal of Dirty Electricity, than the V2, MxDNA and PxdNA.

The RxDNA-V3LF handles a medium amount of dirty electricity and would probably find its application in a commercial setting or a residential setting that might be in an industrial area of a city. This model is optimized to remove Dirty Electricity well below the usual 16 kHz that is found in the AC outputs of solar/wind inverters.

The PxDNA handles the smallest amount of dirty electricity and was designed for the residential market.

All DNA models have a self-protection mechanism, if it happens that you are subjecting that DNA model to an amount of dirty electricity that is too much (for that model).

The MxDNA and RxDNA-V2 have a mechanical circuit breaker that will disconnect that model from the AC line if there is too much dirty electricity applied to it. That circuit breaker is reset by pressing the reset button on the circuit breaker (on the DNA chassis).

The PxDNA has an electronic breaker. It is reset by unplugging the DNA unit from the AC line (the AC outlet) for 5 minutes then plugging it back in.

Please follow the links at the top of this page to see the various DNA products.


Warranty

Noble Electronic, Inc. warrants the DNA Filter products for 1 year. This includes replacement parts and repair labor. It is the Customers responsibility to cover shipping cost to Noble Electronics, Inc. Products returned for repair must not show evidence of abuse to be eligible for warranty repair. Abuse includes mechanical abuse or water-or-other-liquid exposure.

Certain DNA Line Filter products are rated for outdoor use and are housed in NEMA 3R enclosures. NEMA 3R means "drip proof", "rain proof", "sleet proof" and "snow proof". NEMA 3R enclosures are not fully water-or-other-liquid proof. They will not maintain prevention of water-or-other-liquid intrusion if they are exposed to a stream of water-or-other-liquid from a hose or water-or-other-liquid that splashes from underneath. These later 2 instances will void the warranty.



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RxDNA Family

Residential Dissipative Noise Attenuation: V2 and NEW V2X



The RxDNA-V2 model is designed for the commercial market or for the residential market where a residence may be in an area of town that is, or is close to, an industrial area of town. The DNA models reduce the dirty electricity by approximately the same amount - as a percent. They differ in the total amount of dirty electricity power that they can handle.

The DNA PARALLEL Products

Please read the paragraphs that follow the chart (below) to help you pick the DNA model that works for you.

The following data are taken from Field Tests. They are in that sense, typical.
NOTE: the data below for the RxDNA-V2X gives ranges, since this product has been field tested the most.





Parallel Filter Comparison Versus Frequency










How To Select A DNA Model - An Analogy


Imagine that we have two water filters. One is designed for the home and one is designed for a major hotel. Both of these filters are designed to remove 90% of the contaminants.

The difference is that the hotel filter can handle a much larger volume of water as it is removing 90% of the contaminants.

In a similar way, all the DNA products remove approximately the same percent of dirty electricity, but the total volume of dirty electricity that any unit can handle is different.

The MxDNA handles the largest amount of dirty electricity and would probably be used mostly for industrial settings.

The RxDNA-V2 handles a medium amount of dirty electricity and would probably find its application in a commercial setting or a residential setting that might be in an industrial area of a city.

The RxDNA-V3LF is focused on reducing Dirty Electricity (DE) in a frequency range that is considerably lower than has been achieved before.

As always, this product has come about because of demands by our Dealers and Customers.

There is a increasing presence of Dirty Electricity (DE) energy below the usually-encountered frequency range.

Most residential, commercial and industrial solar and wind generation infrastructure use switching regulators, aka, Inverters, to change the DC (direct current) from the device (solar array or wind turbine) to AC that is used by our vast array of appliances, and they operate at a fundamental switch frequency in the range of 16 kHz to 25 kHz).

This produces DE at the fundamental switch frequency and harmonics of that frequency. In the case of a switching regulator (Inverter) that operates at 16 kHz, this will produce DE at:
16 kHz
32 kHz
48 kHz
64 kHz
etc.

The manufacturers of these switching converters are blind to this DE. They apparently do not measure it, specify it, or care about it.



The Big Problem With Utility Wide Solar or Wind Infrastructure

Utility companies are increasingly deploying massive wind and solar infrastructure that serves an entire segment of a grid. This means that there is DE on the incoming power FROM the utility company.

Because of the massive nature of these alternative energy infrastructure, the frequencies used as the fundamental switch frequencies are substantially lower.
Examples: 3 kHz to 4 kHz

This means that the existing DNA Filters do not offer significant attenuation (reduction in DE) - at 3 to 4 kHz.

The new LF (low frequency) version of the DNA Line Filters, do indeed provide significant attenuation (reduction in DE) in the 3 to 4 kHz frequency range.

Other Sources of Low Frequency (LF) Dirty Electricity (DE)

As the senseless drive to save energy continues, there is an increasing use of switching circuit architectures for a variety of applications.

As an example, is the notorious pool pump regulator/controller. These systems chop the AC signal to control power and thereby control pump (motor) speed (volume of water flow). The DE that they produce is below the aforementioned 16 kHz to 25 kHz range.

Again, the existing line of DNA Filters will not provide significant attenuation (reduction in DE) at these frequency ranges. The new LF version of the DNA Filters does indeed provide significant attenuation at these Low Frequency ranges.

The PxDNA handles the smallest amount of dirty electricity and was designed for the residential market.

All DNA models have a self-protection mechanism, if it happens that you are subjecting that DNA model to an amount of dirty electricity that is too much (for that model).

The MxDNA and RxDNA-V2 have a mechanical circuit breaker that will disconnect that model from the AC line if there is too much dirty electricity applied to it. That circuit breaker is reset by pressing the reset button on the circuit breaker (on the DNA chassis).

The PxDNA has an electronic breaker. It is reset by unplugging the DNA unit from the AC line (the AC outlet) for 5 minutes then plugging it back in.

Please follow the links at the top of this page to see the various DNA products.

DownLoads

The RxDNA-V2 Brochure can be downloaded. Please visit our Downloads Page. Just click the DownLoads link in the link bar at the top of this page.







Introduction To RxDNA-V2X




The RxDNA-V2X parallel filter, is the latest and by far, the most effective parallel filtering device to reduce Dirty Electricity (DE), in the so-called "standard" frequency range (16 kHz and above). It is a significant variation (improved attenuation) on the existing RxDNA-V2 parallel filter (the latter of which is still available).

NOTE: In the Low frequency region, i.e. below 16 kHz, our RxDNA-V3LF is the most effective parallel filter model.


Specific Attenuation (DE reduction) Data For RxDNA-V2X, and RxDNA-V3LF
See graph below.

Inspiration
The creation of the RxDNA-V2X was driven by:

--- the ever present "desire" by Dealers and Customers to have a simple "plug it in a wall socket" filter as opposed to a much more complicated and costly install of a DNA Line Filter by an Electrician.
--- the usefulness of a Dealer being able to directly demonstrate what the filter product will do, i.e. for a specific parallel filter, prior to the Customer's decision to acquire the filters, (the M7 Universal Test set notwithstanding).
--- the ever present "desire" by Dealers and Customers to have the lowest cost filter that actually accomplishes useful attenuation (reduction) of DE, particularly from solar/wind inverters.

Background
Many years ago, Dealers of our parallel products found that the attenuation that the parallel devices provided was not sufficient for solar/wind inverter applications when there were Electro-Sensitive people involved. This brought about the birth of the DNA Line Filter product line, which has proved to be very effective.

Recently, we at Palma Engineering have been contacted by many individuals who installed solar/wind systems, not knowing about DE, and are now in something of a panic, wanting to "do something" to reduce the DE fields that they are living within. And yes, they exhibited "sticker shock" at the cost and complication of a DNA Line Filter installation.

Birth of The RxDNA-V2X
Every known design principle, circuit architecture, and "trick in the book" was poured into the RxDNA-V2X. This new parallel filter (RxDNA-V2X) has significantly more attenuation of DE, than the existing Rx-DNA-V2. The RxDNA-V2X is specifically targeted at solar and wind applications, where 2 each RxDNA-V2X's are installed at the Main circuit breaker panel, one on each of the incoming phases (aka Legs).

Field Testing

Field Testing has been done for use of the RxDNA-V2X with solar installations. As the reports are completed they will be posted here.

Site001
RfReduce101_Report.pdf
Click Here For Report RfReduce101


Site002
RfReduce102_Report-b.pdf
Click Here For Report RfReduce102-b


Site003
RfReduce103_Report.pdf
Click Here For Report RfReduce103


Site004
RfReduce104_Report.pdf
Click Here For Report RfReduce104




Attenuation Vs. Frequency Data For Various RxDNA Models




Installation
We envision that 2 standard outlets will be installed at the Main circuit breaker panel with one outlet on one phase, and the other outlet on the other phase. Then, a RxDNA-V2X will be plugged into each outlet. NOTE: total of 2 RxDNA-V2X's.

Install Document and Brochure Download as PDF
Click Link on top of page for Downloads

Prices
Click Link on top of page for Prices - How To Buy


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PxDNA: Personal Dissipative Noise Attenuation



Modular Product The architecture of the PxDNA is that it can be deployed in a modular fashion. If a single PxDNA does not provide sufficient reduction of noise power, more units can be plugged into the same circuit.

Portable This PxDNA architecture is also portable. It allows you to change your “installation” easily, throughout the day, if you like. You can have a PxDNA in the office during the work day, bring it home and plug it in the living room in the early evening, and plug it into an outlet in the bedroom at night.


The DNA Products
Please read the paragraphs that follow the chart (below) to help you pick the DNA model that works for you.





How To Select A DNA Model - An Analogy

Imagine that we have two water filters. One is designed for the home and one is designed for a major hotel. Both of these filters are designed to remove 90% of the contaminants.

The difference is that the hotel filter can handle a much larger volume of water as it is removing 90% of the contaminants.

In a similar way, all the DNA products remove approximately the same percent of dirty electricity, but the total volume of dirty electricity that any unit can handle is different.

The MxDNA handles the largest amount of dirty electricity and would probably be used mostly for industrial settings.

The RxDNA handles a medium amount of dirty electricity and would probably find its application in a commercial setting or a residential setting that might be in an industrial area of a city.

The PxDNA handles the smallest amount of dirty electricity and was designed for the residential market.

All DNA models have a self-protection mechanism, if it happens that you are subjecting that DNA model to an amount of dirty electricity that is too much (for that model).

The MxDNA and RxDNA have a mechanical circuit breaker that will disconnect that model from the AC line if there is too much dirty electricity applied to it. That circuit breaker is reset by pressing the reset button on the circuit breaker (on the DNA chassis).

The PxDNA has an electronic breaker. It is reset by unplugging the DNA unit from the AC line (the AC outlet) for 5 minutes then plugging it back in.

Please follow the links at the top of this page to see the various DNA products.

DownLoads

The PxDNA Brochure and the PxDNA Installation and Usage Manual can be downloaded. Please visit our Downloads Page. Just click the DownLoads link in the link bar at the top of this page.



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MxDNA: Maximum Dissipative Noise Attenuation




The DNA Products
Please read the paragraphs that follow the chart (below) to help you pick the DNA model that works for you.



How To Select A DNA Model - An Analogy

Imagine that we have two water filters. One is designed for the home and one is designed for a major hotel. Both of these filters are designed to remove 90% of the contaminants.

The difference is that the hotel filter can handle a much larger volume of water as it is removing 90% of the contaminants.

In a similar way, all the DNA products remove approximately the same percent of dirty electricity, but the total volume of dirty electricity that any unit can handle is different.

The MxDNA handles the largest amount of dirty electricity and would probably be used mostly for industrial settings.

The RxDNA handles a medium amount of dirty electricity and would probably find its application in a commercial setting or a residential setting that might be in an industrial area of a city.

The PxDNA handles the smallest amount of dirty electricity and was designed for the residential market.

All DNA models have a self-protection mechanism, if it happens that you are subjecting that DNA model to an amount of dirty electricity that is too much (for that model).

The MxDNA and RxDNA have a mechanical circuit breaker that will disconnect that model from the AC line if there is too much dirty electricity applied to it. That circuit breaker is reset by pressing the reset button on the circuit breaker (on the DNA chassis).

The PxDNA has an electronic breaker. It is reset by unplugging the DNA unit from the AC line (the AC outlet) for 5 minutes then plugging it back in.

Please follow the links at the top of this page to see the various DNA products.



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DNA Line Filters: Dissipative Noise Attenuation Line Filter




The DNA product line is designed to reduce the Dirty Electricity (DE) that is commonly found on AC power lines. This DE is sometimes referred-to by engineers as, "noise".

DE is energy (voltages and currents) flowing on the AC power lines that is of a higher frequency than the 50 or 60 Hz power frequency. DE is found, from, 100's of Hz to the Mhz range.

These DE voltages and currents (flowing on the AC power lines) generate electric and magnetic fields that radiate into the spaces around the power wiring. It is these fields that people have reported sensitivity-to. Therefore by using devices like the DNA products, the voltages and currents of the DE, that are riding on the AC power lines, are reduced. This, then, brings about a reduction the the DE fields that the DE voltages and currents produce.

DNA Products

Many of the DNA products as simple to install and use. They plug into a standard AC outlet. These are "parallel" devices that provide a path-of-least resistance to the DE. They capture the DE and turn it into a small amount of heat. These parallel devices work to reduce DE in the frequency range, from roughly 5 khz to 500 khz. In the lower end of this range (near 5 khz) these parallel devices are not performing as well as they perform at higher frequencies – just by the nature of their design. Examples of these parallel products are: MxDNA, RxDNA-V2, PxDNA.

Alternative Power, A Source Of Dirty Electricity

With the growing installation of alternative energy sources in recent years, there has been a significant increase in the DE in residential, commercial and industrial settings.

The most common alternative energy sources are photo-voltaic solar arrays and wind mills, aka wind turbines. These devices usually produce direct current (DC). Most, or all, of the appliances that the users have, will be alternating current (AC) appliances, at 50 or 60 Hz (cycles per second).

To accommodate this disparity between the DC available from the alternative source (solar and wind) and the AC required by the user's appliances, a device known as an Inverter is used. It is an electronic system that switches the DC on-and-off very quickly and thereby generates AC (for use by the appliances).

These Inverters are typically switch-mode-power-supplies and as a by-product they generate DE.
These Inverters generate 60 Hz AC (in the US), but they do so by switching the DC on-and-off at a fundamental switch frequency, such as 16 Khz. As a result, the 60 Hz AC coming from this Inverter, will be "polluted" with the 16 Khz (in this example) switch frequency. In addition there will be numerous harmonics of the 16KHz present. For example:
2 x 16 KHz = 32 Khz
3 x 16 KHz = 48 Khz
4 x 16 KHz = 64 KHz
etc.

These frequencies (16, 32, 48, 64 Khz), are not really intended to be a part of the 60 Hz (in this example) AC that is provided by the Inverter. They are a a side effect. They represent DE.

Reducing The Dirty Electricity From Inverters


The aforementioned parallel DNA products can be used to reduce the DE from alternative energy systems, specifically the Inverter(s) that are an integral part of the system. In this approach, laboratory test have typically shown a reduction of 10-to-1 of the DE.

In the case of alternative power, there can be Inverters that are supplying 1000's of watts of power from the solar or wind devices. The DE from an Inverter can be considerable, and the reduction of a parallel device (such as a MxDNA, RxDNA-V2, PxDNA) may not reduce the DE to a value that is acceptable to the User (in the residential, commercial or industrial setting).

The product that we offer to accomplish a large reduction of the DE from alternative energy systems is a "line filter" device, aka "inline filter". It is the DNA Line Filter.

While the aforementioned parallel products have the considerable convenience of the user simply "plugging them in", the DNA Line Filter requires a professional electrician to install them.

The DNA-Line Filter will be connected between the Inverter and the users power wiring. The DNA Line Filter will very effectively reduce the DE from the Inverter.

As a point of comparison, the parallel devices (MxDNA, RxDNA-V2, PxDNA) have been tested and typically reduce the DE, 10-to-1.

The DNA Line Filter testing shows typical reduction of 500-to-1 at 16 Khz and greater reductions at higher frequencies. NOTE: the graph below shows attenuation's in excess of the 500:1 cited performance.



Side Benefit of DNA Line Filter: Reducing DE From Grid and Internal Sources

Within the the DNA Line Filter, there is a series loss element and a parallel element. This parallel element is directly across the output of the DNA Line Filter.

This parallel element IS a RxDNA-V2.

Since this parallel element is across the output of the DNA Line Filter, and this output of the DNA Line Filter is directly connected-to one of the phases of the utility power, then that parallel element (a RxDNA-V2) is acting to reduce the magnitude of any DE that is on that phase. The DE that is being reduced can be DE coming in from the Grid as well as DE that is internally generated in the facility. Internally generated DE can be from the usual suspects: motor speed controls, lamp dimmers, compact fluorescent lighting, LED lighting, etc.

Keep in mind that this level of reduction that is being discussed here will be the usual 10:1 reduction of a parallel device (RxDNA-V2 etc).

The extreme ( 500:1 ) reduction of the DNA Line Filter is only for DE that comes in the DNA Line Filter input and is delivered to the DNA Line Filter output.




M30 Model DNA Line Filter Specifications

Note 1: Both the M30 and the M100a and M100b (M100 PLUS) models are housed in the same sized enclosure.

Maximum Line Voltage: 250 VAC, RMS, 50/60 Hz.
Maximum Current M30 model: 30 amperes AC, RMS, 50/60 Hz.
Max wire gauge on internal terminal strip M30: 8 AWG
Weight M30 model: 27 lbs.



Installation Manual
Please click the link at the top of this page for DownLoads.

Price
Please click the link at the top of this page for Prices - How To Buy.

DNA Line Filter Mechanical Information


The DNA Line Filter requires the installation to be accomplished by a professional electrician.


M30LF Model DNA Line Filter Specifications


DNA Line Filter Specifications:
Model M30LF
Model M30LF NEMA 3R
Model M30LF NEMA 3R DUAL


It has been discussed that a DNA Line Filter is a series loss (lossy inductor) with an RxDNA included. The combination of these two is the heart of the DNA Line Filter.

In the LF versions of this particular DNA Line Filter, the RxDNA component is the new RxDNA-V3LF. The RxDNA-V3LF presents loss at much lower frequencies that the V2 RxDNA.

As always, this product has come about because of demands by our Dealers and Customers.

There is a increasing presence of Dirty Electricity (DE) energy below the usually-encountered frequency range.

Most residential, commercial and industrial solar and wind generation infrastructure use switching regulators, aka, Inverters, to change the DC (direct current) from the device (solar array or wind turbine) to AC that is used by our vast array of appliances, and they operate at a fundamental switch frequency in the range of 16 kHz to 25 kHz).

This produces DE at the fundamental switch frequency and harmonics of that frequency. In the case of a switching regulator (Inverter) that operates at 16 kHz, this will produce DE at:
16 kHz
32 kHz
48 kHz
64 kHz
etc.

The manufacturers of these switching converters are "blind" to this DE. They apparently do not measure it, specify it, or care about it.



Utility Wide Solar/Wind Infrastructure Produces Low Freq. Dirty Electricity

Utility companies are increasingly deploying massive wind and solar infrastructure that serves an entire segment of a grid. This means that there is DE on the incoming power FROM the utility company.

Because of the massive nature of these alternative energy infrastructure, the frequencies used as the fundamental switch frequencies are substantially lower.
Examples: 3 kHz to 4 kHz

This means that the existing DNA Line Filters do not offer significant attenuation (reduction in DE) - at 3 to 4 kHz.

As you can see from the graph below, the new LF (low frequency) version of the DNA Line Filters, do indeed provide significant attenuation (reduction in DE) in the 3 to 4 kHz frequency range.

Other Sources of Low Frequency (LF) Dirty Electricity (DE)

As the senseless drive to "save energy" continues, there is an increasing use of switching circuit architectures for a variety of applications.

As an example, is the notorious "pool pump regulator/controller". These systems chop the AC signal to control power and thereby control pump (motor) speed (volume of water flow). The DE that they produce is below the aforementioned 16 kHz to 25 kHz range.

Again, the existing line of DNA Line Filters will not provide significant attenuation (reduction in DE) at these frequency ranges. The new LF versions of the DNA Line Filters do indeed provide significant attenuation at these Low Frequency ranges.

Maximum Line Voltage: 250 VAC, RMS, 50/60 Hz.
Maximum Current all M30LF models: 30 amperes AC, RMS, 50/60 Hz.
Max wire gauge on internal terminal strip M30: 8 AWG
Weight M30LF Indoor model: 27 lbs.
Weight M30LF NEMA 3R model: 33 lbs.
Weight M30LF NEMA 3R Dual model: 62 lbs.
Dimensions of M30LF Indoor product: ( see regular M30 model above)
Dimensions of NEMA 3R, Single and DuaL: 17 X 17 X 7 inches

NOTE: All M30 LF models have the same attenuation response.




To highlight the Low Frequency attenuation enhancement, a comparison graph is below that compares the Old M30 and the New M30LF.





M100 (100a/b) Model DNA Line Filter Specifications

Note 1: Both the M30 and the M100a and M100b (M100 PLUS) models are housed in the same sized enclosure.

Maximum Line Voltage: 250 VAC, RMS, 50/60 Hz.
Maximum Current M100 models: 100 amperes AC, RMS, 50/60 Hz.
Max wire gauge on internal terminal strip M100a, M100b (M100 PLUS): 00 AWG
Weight M100 model: 90 lbs.






Installation Manual
Please click the link at the top of this page for DownLoads.

Price
Please click the link at the top of this page for Prices - How To Buy.

DNA Line Filter Mechanical Information



The DNA Line Filter requires the installation to be accomplished by a professional electrician.



M100LF Model DNA Line Filter Specifications


DNA Line Filter Specifications:
Model M100LF
Model M100LF NEMA 3R


It has been discussed that a DNA Line Filter is a series loss (lossy inductor) with an RxDNA included. The combination of these two is the heart of the DNA Line Filter.

In the LF versions of this particular DNA Line Filter, the RxDNA component is the new RxDNA-V3LF. The RxDNA-V3LF presents loss at much lower frequencies that the V2 RxDNA.

There is a increasing presence of Dirty Electricity (DE) energy below the usually-encountered frequency range.

Most residential, commercial and industrial solar and wind generation infrastructure use switching regulators, aka, Inverters, to change the DC (direct current) from the device (solar array or wind turbine) to AC that is used by our vast array of appliances, and they operate at a fundamental switch frequency in the range of 16 kHz to 25 kHz).

This produces DE at the fundamental switch frequency and harmonics of that frequency. In the case of a switching regulator (Inverter) that operates at 16 kHz, this will produce DE at:
16 kHz
32 kHz
48 kHz
64 kHz
etc.

The manufacturers of these switching converters are "blind" to this DE. They apparently do not measure it, specify it, or care about it.

Utility Wide Solar or Wind Infrastructure

Utility companies are increasingly deploying massive wind and solar infrastructure that serves an entire segment of a grid. This means that there is DE on the incoming power FROM the utility company.

Because of the massive nature of these alternative energy infrastructure, the frequencies used as the fundamental switch frequencies are substantially lower.
Examples: 3 kHz to 4 kHz

This means that the existing DNA Line Filters do not offer significant attenuation (reduction in DE) - at 3 to 4 kHz.

As you can see from the graph below, the new LF (low frequency) version of the DNA Line Filters, do indeed provide significant attenuation (reduction in DE) in the 3 to 4 kHz frequency range.

Other Sources of Low Frequency (LF) Dirty Electricity (DE)

As the senseless drive to "save energy" continues, there is an increasing use of switching circuit architectures for a variety of applications.

As an example, is the notorious "pool pump regulator/controller". These systems chop the AC signal to control power and thereby control pump (motor) speed (volume of water flow). The DE that they produce is below the aforementioned 16 kHz to 25 kHz range.

Again, the existing line of DNA Line Filters will not provide significant attenuation (reduction in DE) at these frequency ranges. The new LF versions of the DNA Line Filters do indeed provide significant attenuation at these Low Frequency ranges.

Maximum Line Voltage: 250 VAC, RMS, 50/60 Hz.
Maximum Current M100 models: 100 amperes AC, RMS, 50/60 Hz.
Max wire gauge on internal terminal strip M100:F: 00 AWG
Weight M100 model: 90 lbs.
Models:
M100LF, 12 x 12 x 8 inches
M100LF NEMA 3R 17 x 17 x 7 inches





M200 (200a/b) Model DNA Line Filter Specifications

Maximum Line Voltage: 250 VAC, RMS, 50/60 Hz.
Maximum Current M200 model: 200 amperes AC, RMS, 50/60 Hz.
Wire gauge on internal terminal strip M200: 350 kcmil max, 8 AWG min.
Weight M200 model: 110 lbs.
NEMA 3R rated for outdoor use: rainproof, snow proof, sleet proof.







Installation Manual
Please click the link at the top of this page for DownLoads.

Price
Please click the link at the top of this page for Prices - How To Buy.

DNA Line Filter Mechanical Information





The DNA Line Filter requires the installation to be accomplished by a professional electrician.



M200LF Model DNA Line Filter Specifications

DNA Line Filter Specifications:
Model M200LF NEMA 3R


It has been discussed that a DNA Line Filter is a series loss (lossy inductor) with an RxDNA included. The combination of these two is the heart of the DNA Line Filter.

In the LF versions of this particular DNA Line Filter, the RxDNA component is the new RxDNA-V3LF. The RxDNA-V3LF presents loss at much lower frequencies that the V2 RxDNA.

There is a increasing presence of Dirty Electricity (DE) energy below the usually-encountered frequency range.

Most residential, commercial and industrial solar and wind generation infrastructure use switching regulators, aka, Inverters, to change the DC (direct current) from the device (solar array or wind turbine) to AC that is used by our vast array of appliances, and they operate at a fundamental switch frequency in the range of 16 kHz to 25 kHz).

This produces DE at the fundamental switch frequency and harmonics of that frequency. In the case of a switching regulator (Inverter) that operates at 16 kHz, this will produce DE at:
16 kHz
32 kHz
48 kHz
64 kHz
etc.

The manufacturers of these switching converters are "blind" to this DE. They apparently do not measure it, specify it, or care about it.

Utility Wide Solar or Wind Infrastructure

Utility companies are increasingly deploying massive wind and solar infrastructure that serves an entire segment of a grid. This means that there is DE on the incoming power FROM the utility company.

Because of the massive nature of these alternative energy infrastructure, the frequencies used as the fundamental switch frequencies are substantially lower.
Examples: 3 kHz to 4 kHz

This means that the existing DNA Line Filters do not offer significant attenuation (reduction in DE) - at 3 to 4 kHz.

As you can see from the graph below, the new LF (low frequency) version of the DNA Line Filters, do indeed provide significant attenuation (reduction in DE) in the 3 to 4 kHz frequency range.

Other Sources of Low Frequency (LF) Dirty Electricity (DE)

As the senseless drive to "save energy" continues, there is an increasing use of switching circuit architectures for a variety of applications.

As an example, is the notorious "pool pump regulator/controller". These systems chop the AC signal to control power and thereby control pump (motor) speed (volume of water flow). The DE that they produce is below the aforementioned 16 kHz to 25 kHz range.

Again, the existing line of DNA Line Filters will not provide significant attenuation (reduction in DE) at these frequency ranges. The new LF versions of the DNA Line Filters do indeed provide significant attenuation at these Low Frequency ranges.

Maximum Line Voltage: 250 VAC, RMS, 50/60 Hz.
Maximum Current M200 models: 200 amperes AC, RMS, 50/60 Hz.
Max wire gauge on internal terminal strip: 00 AWG
Weight M200 model: 90 lbs.
Models:
M200LF NEMA 3R, 18 x 18 x 10 inches








M15/20 Model DNA Line Filter Specifications


The Models M15/M20 have a unique dual function capability.
- Protect Sensitive Loads From Dirty Electricity On AC Line (Mode 1) or
- Protect AC Line From Dirty Electricity Produced by Certain Loads (Mode 2)

Download the Product Brochure from the Downloads Page (see Downloads link at top of this page), to read about the uses for this DNA Line Filter product.

Maximum Line Voltage: 250 VAC, RMS, 50/60 Hz.
Maximum Current M15/M20 model: 15/20 amperes AC, RMS, 50/60 Hz.
Standard Duplex male plug and standard female receptacle for DeskTop version only.
Weight M15/M20 model: 15 lbs.





M20LF Model DNA Line Filter Specifications





Product Brochure
Please click the link at the top of this page for DownLoads.

Price
Please click the link at the top of this page for Prices - How To Buy.

DNA Line Filter Mechanical Information




Endorsements







---------

Contact and Dealers

Dealers (alphabetical by state)

==========

Paul Harding, Warren Woodward
Total EMF Solutions
Arizona
602-757-8624
480-828-4529
contact@totalemfsolutions.com

==========

Eric Windheim BBEC, EMRS
WindheimEMFsolutions.com
Sacramento CA
916-395-7336
e.windheim@comcast.net

==========

Michael Schwaebe
San Diego CA
760-753-7752
mjschwaebe@gmail.com

==========

Roy Denis
627 Country Trail Pvt
Carlsbad Springs Ontario
613-862-2525
info@emfrefuge.com
215 Andrews Ave.
Encinitas CA 92024
760-753-7752

==========

Dr. Kevin Narramore
125 Sequoia Dr.
Pasadena CA 91105
949-874-8000
kevinnarramore@aol.com

==========

John Hitchmough Travus
Vancouver CA

==========

Alex Stadtner
Healthy Building Science
76 Martens Blvd
San Raphael CA 74901

==========

Sue Long
1 Monroe #135
Irvine
CA 92620
946-690-0017

==========

Liz Menkes
emfhealthy.com
Walnut Creek CA
925-937-1754
liz@emfhealthy.com

==========

John Black, EMF Consultant
EMFSafetySolutions.com
Based in Orange County, Calif.
Serving greater So. Calif., including San Diego and
all points north to Santa Barbara, east to Palm Desert.
949-486-6363
John@EMFSafetySolutions.com

==========

Ashlie Riun
Neural Vitality Networks
Colorado
720-557-3369
riun@neuralvitalitynetworks.com

==========

Matt Waletzke
HealthyDwellings.com
32 Woodlawn Ave
Norwalk CT 06854
612-242*4558
347-871-6860
Matt@HealthyDwellings.com

Also Minnesota
Charlene Stott
Linden UT
charlie8@sisna.com

==========

EMF Safe
Neil Cohen
North San Juan CA
530-327-9999 / 530-918-8443
emfsafe@spgo.org
www.emfsafe.org

==========

Shawn Kranish
ElectraHealth.com
1643 N Alpine R
Ste 104-221
Rockford IL: 51107
815-986-7974
shaun@electrahealth.com

==========

Phyllis Traver
Safe & Sound home
204 Surplus St.
Duxbury MA 02332
781-934-5659
phyllistraver@comcast.net

==========

Lee Sagula
Healthy Homes
Coatesville PA
610-453-3736
leesagula@gmail.com

==========

William S. Bathgate
DE Filters LLC
10909 Monticello Road
Pinckney, MI 48169
256-570-5434
www.defiltersllc.com

==========

Roy Ozanne MD
12321 Sandy Bay Rd
Two Rivers
WI 54241
920-755-2448
royoozanne@whidbey.net

==========

Brian Adams
North Salt Lake, UT 84054
brian.adams.ba@gmail.com
Office: 801-980-0700

==========

Raymond L Pealer,
EMR Safety Consulting, LLC
Valleyhead, WV 26294
raypealer@gmail.com
www.emrsafety.net
802-497-6264

==========

Starling John D.
UK

==========



---------

Prices - How To Buy

The DNA models are manufactured and sold by NobleElectronics, Inc.
NobleElectronics, Inc. uses dealer/distributors for retail sales.

Dealer/distributors do not have a territory and may sell globally.

If you will be using the PxDNA product outside of the US, be sure to discuss with your dealer the matter of obtaining a correct power cord (line cord) for your PxDNA.


Prices (U.S. dollars)



















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Downloads

To view the documents: Left Click below.
To download the documents: Right Click below.

DNA Compliance Testing. Click Here

The RxDNA V2 Brochure. Click Here

The RxDNA-V2 Installation and Usage Manual. Click Here

The NEW RxDNA-V2X Installation Manual and Brochure. Click Here

The PxDNA Brochure. Click Here

The PxDNA Installation and Usage Manual. Click Here

The DNA Line Filter M7 Universal Test Set Usage Manual. Click Here

The DNA Line Filter M30 Installation and Usage Manual. Click Here

The DNA Line Filter M20 and M30 Dual NEMA 3R Installation and Usage Manual. Click Here

The DNA Line Filter M100 Installation and Usage Manual. Click Here

The DNA Line Filter M200 Model Installation and Usage Manual. Click Here

The DNA Line Filter M15 Desktop Model Product Brochure. Click Here

The MxDNA Products In Audiophile Applications. Click Here



Whitepapers Available For Download


Dirty Electricity In Off-Grid Applications Final.
Click Here

Dirty Electricity With Regard To Utility Metering Devices.
Click Here

Understanding Difference Between Surge-Protectors and Dirty-Electricity-Filters.
Click Here

EMF Brief Summary For The Non-Scientist Executive. Click Here



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