Quote Originally Posted by Aloha_Shooter View Post
People need to be clear when they talk about lower or higher power. The CNET article lost me when it said, "Bigger wavelengths with lower frequency are less powerful, while smaller wavelengths at higher frequencies are more powerful." WRONG. Frequency does not imply power. A LOT of the transmitters we use today are high frequency at lower power which is why they can ccommunicate a lot of data very fast but can't go very far without being lost in the RF noise unless you use a focused receiver and amplify the signal. In fact, Bluetooth works at 2.4 GHz but at 100 mW (0.1 W or about 1/12000 of the power of most microwave ovens).

Microwave ovens are anything BUT relatively low power unless you're comparing that microwave to a high power radar like we use for missile warning. Your 2.4 GHz wifi should NOT be affected by the microwave oven except in very close proximity due to the shielding. If it is, you have a problem with your microwave oven. The other thing that happens with microwave ovens is that the power is pulsed for greater effect whereas this RF energy is more continuous like sunshine.

I haven't looked up the specifications for 5G towers but the 500 ft specification leads me to believe they are very low power. At these low powers, the RF can't penetrate your skin and is lower in energy density than a sunny day (and maybe even an overcast day) in Colorado. At 60 GHz, the RF is reflected by water -- or anything with a significant amount of water in it. UV is ionizing radiation and you get more of it by mowing your lawn than you get from 4G and probably 5G continuous broadcast. Stand next to a cell tower -- do you even feel warm?

If you're worried about brain cancer, you can probably help yourself by wearing earbuds so your ear canal doesn't channel the energy (sort of like a feed horn in reverse). Of course if you use Bluetooth earbuds, you're actually putting a 2.4 GHz transmitter directly in your ear canal ...
I'm well aware that power is different than frequency.

Your 1200w microwave does NOT radiate 1200w at 2.4GHZ... Even if they did, which they don't, outside the shielding, and outside of the focal point of microwave, the levels are exceptionally low. This shielding and directional transmission are both things that are specifically missing with 5G AP's on towers...

Yes, Bluetooth is 100mW which is why it cuts out at ~20' and really doesn't like obstructions...

58dBm EIRP is a hell of a lot more than 100mW... That's the power levels that have been used to achieve satisfactory results in 5G testing up to 200m in non-line of sight applications.

The major points for tower proximity are:
- Non-line of sight signal at high frequency to allow for fast data transfer. Once you add stuff in the way (buildings, trees, cars, people, etc) signal levels drop off pretty dramatically.

- Number of subscribers/tower in order to provide the speeds they are planning to offer. Each tower will only be able to provide Xgbps and that gets cut by the overhead required for the mesh network architecture, and then the remaining bandwidth gets divided by the number of users connected (with dynamic load balancing based on usage - ie dude looking at texts takes less bandwidth than the dude streaming netflix).

As for standing next to a cell tower??? LOL... I've climbed them. Repeatedly.

There is a reason that you have to turn the transmitters off before you can safely climb them. And now the 5G transmitters will be at ~30' instead of 50-100' (normally)...