WOW!
You guys (gals if any) really have me thinking. I have wanted to update my ground rods to current standards (2 rods instead of 1) but haven't gotten to it in 10 years of owning the house. The " list " is ever changing if you follow me....
My "list" seems to only get longer.
Is it worth while to have say, 3 ground rods newly installed to help with the direction of transients when they occur? What do you think.
I know that ground rod resistance testing, they say, takes 3 rods to measure the resistance so that's where my ground rod guess comes from.
Two additional rods to measure the resistance of a rod does not suggest 3 rods should be used to earth a system. (There is now a clamp-on meter that can measure resistance to earth.)
Code only requires 2 as of right now. Any reason why 3 would not help or hurt performance?
If using ground rods as an earthing electrode the current NEC actually only requires 1, but the resistance to earth has to be 25 ohms or less. If you use 2 rods you don't have to measure the resistance, which is what most people do. If you have a code compliant single rod with 20 ohms to earth resistance, and connect 120V to it, the current will only be 6 amps. Ground rods are among the worst earthing electrodes. As I wrote earlier, for most new construction the NEC requires a "concrete encased electrode" (commonly called a Ufer ground). It is a good electrode. The lowest resistance to earth is likely a municipal metal water distribution system. (I just have a water service pipe as an earthing electrode. It was code compliant when installed and not a code violation now.)
I believe the NEC stops at 2 rods because there is a strong law of diminishing returns - the effect of more rods decreases. Adding a 3rd rod lowers the resistance, but not as much as the 2nd rod. A 4th rod will lower the resistance, but not as much as the 3rd rod.
Martzloff, the author of the NIST surge guide, has written "the impedance of the grounding system to `true earth' is far less important than the integrity of the bonding of the various parts of the grounding system." Check that there is a short ground wire from the phone, cable, dish entry protectors to a common connection point on the earthing system. The distance from the power service N-G bond also needs to be short. Long ground wires (as in the IEEE surge guide example starting page 30) can result in damaging voltages between power and signal wires. Short wires mean that during an 'event' that raises the ground potential at the house all wires will rise together.
Best protection is a "layered approach" as in Teken's post.