What are GS units? GS units (dirty electricity) presented as a function of voltage & frequency Magda Havas Ralph Frederick Trent University, Peterborough, Ontario, Canada December 2009. 1 Martin Graham Dave Stetzer The Graham Stetzer filter (GS filter) and the microsurge meter (see next slide) were designed by Dr. Martin Graham, Professor Emeritus at UC Berkeley, based on discussions and joint research with Dave Stetzer, a power quality expert and President of Stetzer Electric in Blair Wisconsin. 2 2
Graham Stetzer Filter & Microsurge Meter The microsurge meter is an inexpensive tool designed to measure poor power quality commonly referred to as dirty electricity on electrical wires. It works optimally for frequencies between 4 and 150 khz. The microsurge meter on the left shows a reading of 488 GS units. The Graham Stetzer filter (GS filter) reduces high frequency transients and harmonics on electrical wires and thus improves power quality. It works for frequencies between 4 and 100 khz. With one GS filter plugged into the same circuit, the dirty electricity drops from 488 to 39 GS units. 3 3 Waves 1 cycle 1 second Microwave (MHz & GHz) Frequency: cycles/second = Hertz IONIZING NON-IONIZING 10 13 10 11 Cell Phones 10 9 10 22 GAMMA RAYS 10 21 10 20 10 19 10 18 X-RAYS 10 17 ULTRAVIOLET 10 16 10 15 10 14 VISIBLE LIGHT INFRARED 10 12 MICROWAVES 10 10 RADAR Effects Guidelines Ionization! (subatomic)! Thermal! (molecular)! Intermediate Frequencies 300 Hz - 10 MHz Power Quality (khz) Electricity (50/60 Hz) Television Radio Power Lines FM [93.6 MHz] AM [680 khz] 10 7 10 5 10 3 10 10-1 60 10 8 10 6 10 4 10 2 1 Hz RADIO ELF (Extremely Low Frequency) ELECTROMAGNETIC SPECTRUM Bio-effects! (sub-cellular to organism)! 4 4
What is a GS unit? Dave Stetzer: A GS unit is a measure of the energy on electrical wires generated by high frequency transients and harmonics and is influenced by voltage amplitude and frequency. 5 5 What we did. Frequency generator: 1. dialed in a frequency: from 2 to 120 khz 2. altered voltage 3. measured power quality (microsurge meter) 4. graphed the results (see Figures 1 to 3) 6 6
Fig 1. GS units as as a a function of of voltage at and different frequency frequencies 2000 120 khz 100 khz Power Quality (GS units) 1500 500 80 khz 50 khz 20 khz 10 khz 4 khz 2 khz 0 0 100 200 300 400 500 600 700 800 900 Voltage (mv rms) We used a frequency generator. The values are the actual values we obtained. The microsurge meter (that measures the GS units) was linear up to approximately 1750 GS units. This meter is designed for 4 to 150 khz. It was still linear at 2 khz. The equations for the linear part of these functions and the R2 values are provided on slide 10. 7 7 Fig Fig 2. 2. GS GS units units as as a function a Function of frequency of Frequency at different and Voltage voltages. 2000 800 600 mv 400 mv 200 mv 100 mv Power Quality (GS units) 1500 500 0 50 mv 10 mv 5 mv 0 10 20 30 40 50 60 70 80 90 Frequency (khz) We used a frequency generator and graphed the results in Figure 1. The values in Figure 2 are taken from the equations generated by Figure 1 for the linear portion of the functions. The microsurge meter (that measures the GS units) was linear up to approximately 1750 GS units. The equation for the linear part of this function and the R2 values are provided on slide 10. 8
Fig 3. 3. GS units as as a function a function of Voltage of voltage and and Frequency frequency. Frequency (khz) 100 10 2000 GS units: y=3396.6x-0.8342 R 2 = 0.918 GS units: y=1667.9x-0.8155 R 2 = 0.9929 500 GS units: y=711.1x-0.7965 R 2 = 0.9916 40 GS units: y=100.6x-0.7776 R 2 = 0.9766 2000 GS units: y = 3396.6x(exp-0.8342) R2 = 0.9180 GS units: y = 1667.9x(exp-0.8155) R2 = 0.9929 500 GS units: y = 711.1x(exp-0.7965) R2 = 0.9916 40 GS units: y = 100.6x(exp-0.7776) R2 = 0.9766 1 0 2000 4000 6000 8000 0 Voltage (mv rms) We used a frequency generator and measured dirty electricity using a microsurge meter. The functions were generated by best fit using excel software. 9 9 GS units as a function of voltage and frequency 2000 120 khz 100 khz Fig 1. Power Quality (GS units) 1500 500 80 khz 50 khz 20 khz 10 khz 4 khz 2 khz 0 0 100 200 300 400 500 600 700 800 900 Voltage (mv rms) Power Quality (GS units) GS units as a Function of Frequency and Voltage 2000 800 600 mv 400 mv 200 mv 1500 500 100 mv 50 mv 10 mv 5 mv Fig 2. 0 0 10 20 30 40 50 60 70 80 90 Frequency (khz) GS units as a function of Voltage and Frequency Frequency (khz) 100 10 2000 GS units: y=3396.6x-0.8342 R 2 = 0.918 GS units: y=1667.9x-0.8155 R 2 = 0.9929 500 GS units: y=711.1x-0.7965 R 2 = 0.9916 40 GS units: y=100.6x-0.7776 R 2 = 0.9766 Fig 3. 10 1 0 2000 4000 6000 8000 0 Voltage (mv rms) 10
But the energy is on the wire and doesn t radiate through the air into the room. It that were the case, how do you explain the following results? 11 11 Fluke 196 Scope Meter (measurements by Dave Stetzer and Magda Havas) air 0.5 m wire 12 12
Incandescent vs CFL Bulb wire air ON or OFF Dirty electricity: 65 GS units SYLVANIA: Incandescent - 60 watts! wire air ON Dirty electricity: 298 GS units GE: Compact Fluorescent - 15 watts! 13 13 GS filter Dirty electricity: 298 GS units Dirty electricity: 26 GS units 14 14
GS filter 15 15 What this clearly shows is that the energy radiates through the air and can be reduced with a GS filter. 16 16
For more information about Dirty Electricity visit the following websites: www.electricalpollution.com www.stetzerelectric.com 17 17