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emf [2019/12/22 14:15] bpaddock Added beamforming info. | emf [2020/03/03 03:34] bpaddock Changed note about Vehicle Occupation detection. |
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{{:emf:77ghzzapping.jpg?400|}} What happens when a complex modulation of 5G at 28.375 GHz, 77 GHz from vehicle RADAR, and 5.9 GHz from Vehicle Infrastructure mix biologically? I doubt anyone knows. Is anyone other than me even asking that question? | {{:emf:77ghzzapping.jpg?400|}} What happens when a complex modulation of 5G at 28.375 GHz, 77 GHz from vehicle RADAR, and 5.9 GHz from Vehicle Infrastructure mix biologically? I doubt anyone knows. Is anyone other than me even asking that question? |
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| <WRAP important>Due to may Day Job as an Embedded System Designer I get to see a lot of technical information that most people don't. |
| While I use components from the manufactures listed below in the performance of my job, the mention of any specific company doesn't not imply an endorsement by that company of any information found on this page. I also have no known financial interests in any of the companies that I mention here. |
| </WRAP> |
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====== Electromagnetic Pollution ====== | ====== Electromagnetic Pollution ====== |
* [[http://www.ti.com/lit/pdf/SPRY328|Leveraging the 60-GHz RF band to enable accurate mmWave sensing. | * [[http://www.ti.com/lit/pdf/SPRY328|Leveraging the 60-GHz RF band to enable accurate mmWave sensing. |
Read the white paper to learn more about leveraging the 60-GHz RF band to enable accurate mmWave sensing.]] | Read the white paper to learn more about leveraging the 60-GHz RF band to enable accurate mmWave sensing.]] |
* [[https://www.ti.com/solution/vehicle_occupant_detection_sensor|Vehicle occupant detection sensor. {Or how to radiate your child as you drive.}]] | * [[https://www.ti.com/solution/vehicle_occupant_detection_sensor|Vehicle occupant detection sensor. {How to you ethical test this for health safety?}]] |
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mmWave AWR - applications Automotive mmWave sensors applications: | mmWave AWR - applications Automotive mmWave sensors applications: |
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As mmWaves do not travel great distances a technique known as 'Beamforming' is used to enhance the signal by targeting your cell phone with the antenna energy. | As mmWaves do not travel great distances a technique known as 'Beamforming' is used to enhance the signal by targeting your cell phone with the antenna energy. |
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| {{:emf:beanforming_analog_devices_138621_fig_01.png?400|}} |
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"Massive MIMO and Beamforming: The Signal Processing Behind the 5G Buzzwords" | "Massive MIMO and Beamforming: The Signal Processing Behind the 5G Buzzwords" |
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{{https://www.electronicdesign.com/power/5g-four-times-more-power-dense-or-even-more|5G at least four Time More Power Dense}} | {{https://www.electronicdesign.com/power/5g-four-times-more-power-dense-or-even-more|5G at least four Time More Power Dense}} |
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====== Radiation effects topics for space, industrial and terrestrial applications ====== | |
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//{{ :emf:radiation_handbook_for_electronics_sgzy002.pdf |Texas Interments compendium of radiation effects topics for space, | |
industrial and terrestrial applications}}//, explains Solar and Terrestrial Radiation and effects on technology. | |
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