If you worry about EMF

Transcription

1 If you worry about EMF from your warm floor......then put your baby on SunTouch Know your exposure An emerging issue in the electric radiant heat industry is EMF (electromagnetic field) radiation. Many companies sell only single-wire systems that release very high levels of EMF. SunTouch only sells dual wire systems, a patented EMF-canceling technology. Electromagnetic fields (EMF) come from all electrical appliances, but studies show an average American's daily exposure is less than 1 unit (mg) of EMF. When you sit on an unshielded electric radiant floor, you may be exposed to more than 40 times the average daily exposure. Shockingly, some electric floor products expose homeowners to about the same electromagnetic field radiation as if you put your face directly against the door of a microwave oven. Today, there is only one scientific and independent third party test to measure electromagnetic fields produced by electric radiant floor heating systems, known as "" or Radiant Electric Emissions Test. Watts Radiant and the ETL Semko division of Intertek, the global leader in the testing, inspection, and certification of products for manufacturers, developed. Unlike unverifiable claims made by some companies, the test measures each company s products according to standard procedures Sun-Touch.com/EMF

2 Test Procedures The test procedures specify twenty standard points of measurement across a four foot by four foot area of warm tile. Unlike some companies that measure EMF 2 or 3 above the floor, ETL makes each measurement at an exact height of 1/2" above the electric heating wire. Those point measurements are calculated to yield an average radiation value for each product for both electric and magnetic field radiation. Calibrated, laboratory grade test equipment is defined in the procedures and used by ETL Semco technicians to conduct these tests. Health care concerns have focused on the magnetic, or H-field, measured in milligaus or mg. The first series of test results for Watts Radiant products and for other manufacturers showed a startling variation in H-field exposure. In one notable head-to-head comparison of electric mats of similar size and amp rating, a competitive product emitted over 700 times the H-field radiation as the Watts Radiant mat. The difference is in the wire Watts SunTouch: 0.13x Product A: 42.38x Product B: 45.74x Product C: 71.34x Product D: 92.54x 1x 10x 20x 30x 40x 50x 60x 70x 80x 90x 100x average U.S. exposure If you are concerned about EMF exposure, insist that any electrical floor warming products be tested by ETL Semko, and that the true EMF output, according to the test, be published and made available to you. Copyright 2009 Watts Radiant, Inc. SunTouch EMF Pamphlet STEMFPAM1009 Effective 10/07/2009 SunTouch products are patented under foreign and U.S. patents including numbers 6,303,905, 6,300,598, and 5,908,573. Trademarks and U.S. Registered Trademarks and copyrighted material herein are the property of Watts Radiant, Inc. SunTouch is a division of Watts Radiant Inc. Watts Radiant, Inc. is a subsidiary of Watts Water Technologies, Inc.

3 TEST AND REPORT PROCEDURE FOR MEASURING MAGNETIC AND ELECTRIC FIELD EMISSIONS LEVELS FROM ELECTRIC HEATING CABLES OR PANELS: EMFs (Magnetic and Electric Fields) are produced by the presence of electrical current (Magnetic Fields) and electrical voltage (Electric Fields). This document is concerned with measuring both the magnetic and electric field levels as emitted by an electric heating cable or panel. The following test and report procedure serves to document the testing requirements to be used to investigate the magnetic and electric field levels as emitted by an electric heating cable or panel. This protocol in no way determines or attempts to determine the meaning of the resulting data, but rather serves only to provide a comprehensive test procedure to enable a consistent means of measuring and documenting the emissions of the product. 1 TEST SPECIMENS 1.1 Sample(s) must be provided which have the highest level of emission to be representative of a specific product design. The sample may not represent a product design which is significantly different and which may affect the resulting emissions. 1.2 Other samples may be provided for testing and documentation. 1.3 Sample(s) must be in good operational order and in final production form. 2 TEST EQUIPMENT 2.1 The test equipment used to measure the magnetic field emitted must be a certified calibrated Holaday model HI-3627 Magnetic Field Meter. The meter must have a separate wand sensor (Holaday 3-axis part 3627) for remotely measuring the magnetic field. Documentation must detail the model information of this equipment used and the calibration date. The sensor must be placed over the sample (see Figure 1). The distance during test is the distance perpendicular to the sample, with the distance specified between the top surface of the sample and the bottom surface of the sensor. This distance is to be maintained by placing a 1/2" thick piece of plywood or similar non-metallic material between the sensor and the product. 3-axis Magnetic Field Sensor 1/2" material Sample (Figure 1, Sensor orientation) Page 1 of 3

4 2.2 The test equipment used to measure the electric field emitted must be a certified calibrated sensor Holaday model HI-4422 with a readout meter for measurements. Documentation must detail the model information of this equipment used and the calibration date. The sensor must be held at 1/2" above the sample (see Figure 1). The distance during test is the distance perpendicular to the sample, with the distance specified between the top surface of the sample and the bottom surface of the sensor. This distance is to be maintained by placing a 1/2" thick piece of plywood or similar non-metallic material between the sensor and the product. 3 TEST FACILITY 3.1 For best results it is recommended that the test facility for conducting these tests be shielded against outside emissions interfering with or adding to the emissions generated by the sample during testing. 3.2 Documentation must record the ambient magnetic and electric field levels at the time of test, even if it is zero. All other data reported from testing should then be absolute field values as emitted by the product only. 4 SAMPLE INSTALLATION 4.1 The sample shall be installed in accordance with the manufacturer's instructions to closely simulate a normal installation except that it shall be uncovered for the tests. 4.2 If any installation condition is specified by the manufacturer that may affect the total field emissions of the product, the condition(s) that produce the greatest level of emissions should be imposed for these tests. 4.3 Test under normal ambient temperature and humidity. 5 EMISSIONS TESTING 5.1 Install the sample in accordance with Section Take a photograph showing the full installation setup of the product for these tests. This photograph shall be shown in the final report issued. 5.3 With the sample not energized, record the ambient magnetic field in milligauss, measured at the center of the sample, 1/2" above the sample. 5.4 With the sample not energized, record the ambient electric field in volts per meter, measured at the center of the sample, 1/2" above the sample. 5.5 Apply rated power to the sample. Allow the sample to heat for 5 minutes prior to beginning measurements. 5.6 Measure and record the magnetic field in milligauss and the electric field in volts per meter emitted by the sample at 1/2" above the sample. Measurement shall be taken as follows: locations over the entire area of the sample (not including the non-heating leads or the connection(s) to the non-heating leads) These locations shall be patterned in a 6" grid over the mat as in Figure 2, where any point is located minimum 12" from a non-heating lead or non-heating lead connection. Locations 1 through 5 shall be directly over the longer edge of the sample panel or cable area. If the grid extends beyond the edges of the sample because it is small, then the grid may be reduced to a 5" grid, or a 4" grid as needed NOTE: The distance of 1/2" must be used as the measurement distance above the sample because this most closely represents a typical distance from the top surface of the heating product to the top surface of floor coverings installed over the top of the product. Page 2 of 3

5 (Figure 2, Example test grid) Sample Grid is min. 12" from connection Make a drawing showing the locations recorded, referencing the table of measured values at those locations. 6 RESULTS 6.1 A report shall be produced which includes, but is not limited to: - The full test procedure used, including the particular requirements of test sample setup, positioning, cable spacings, and other factors which each tested sample was subjected to in order to meet the test procedure. - The scope and samples tested, including a statement whether the samples tested represent a complete product group and the specific model or series represented. - Photos of the samples tested in testing position - Drawings showing measurement locations, referencing the data - Data collected - Any final comments, conclusions, requirements as necessary by the reporting group concerning usage of the report and its contents. Example data table: Sample model: Sample serial number: Sample manufacture date: Representative of series: Test date: Ambient magnetic field (mg): Ambient electric field (V/m): Test Location Sample Magnetic Field (mg) Sample Electric Field (V/m) (1) n1 m1 (2) n2 m2 (3) n3 m (20) n20 m20 Average: (n1+n2+...n20) / 20 (m1+m2+...m20) / 20 Page 3 of 3