A major fence energizer mis-truth

Those who have researched energizers have more than likely (almost certainly to be exact) encountered the Miles or Acres claims on energizers.

That's too bad, as this often causes folks to purchase an energizer that is too small for their fencing needs. How so? The number of miles or acres advertised roughly energizes a single strand conductor, above the ground (no grass contact) with moist soils for that distance—essentially lab conditions.

In comparison—an in use energizer's field conditions involve moist or dry soils, one or many conductors of varying conductivity and grass contact—much more resistance to and drainage of the energizer's pulse.

Points to consider regarding overall fence resistance and pulse strength:

• Poor conductors (high ohms = high resistance) inefficiently carry an energizer's pulse throughout the fence line. 
• Multiple conductors increase a fence's overall resistance. 
• Grass contact (weed-load) drains energy from a fence. 
• Dry soils lack the conductivity to adequately carry an energizer's pulse back to the negative terminal of the energizer. 

An accurate way to gauge an energizer's performance is its joules of output rating. A joule is the volume of electrical energy in a pulse. The higher the joules, the more energy available (after loss to weed and poor conductivity) to be sent down the fence—the larger the pulse, the higher its strength at the end of the fence.

But how many joules are needed for a specific fence?

The answer is it depends. A rule of thumb some go by is .25 joules per roll of net. Gordon (a Premier Consultant) goes by .5 joules per 3-5 nets (ElectroNet) if you maintain weed-load. That means if you keep the grass short enough (not totally eliminated) you should be able to get 3-5 rolls of 164' net energized (depending on soil conditions).

For more tips on choosing a fence energizer, read this blog-post. It goes over how to use our Energizer Comparison charts.

The miles rating is certainly an effective way to sell energizers but it doesn't say what the voltage will be at the end of that wire—there may be some, but possibly not enough to deter animals.

What you need to know about ground rods

Make sure ground wires are firmly connected to the ground rod. 

Ground rods may seem to be just a trivial item. After all, they're just a metal rod you pound into the ground. They seem more of an anchor for the energizer than anything else. Don't be deceived by their unassuming demeanor, ground rods are vital.

How so? Try using an electric fence without the recommended amount of ground rod (3 ft per joule of output). For example, if using a PRS 100, an energizer with 1 joule of output, pull the ground rod out of the ground by a foot or two. Check the voltage of your fence (with a fence tester). Pound the rod back into the ground. Check the voltage again. See a difference?

We've established that it's important. Next, let's look into how an electric fence works. 

1. The energizer fence terminal sends an electric pulse through the fence's conductor(s). 
2. An animal touches the conductor. 
3. The pulse travels from the fence through the animal and into the ground. 
4. The pulse moves through the soil (via moisture) and to the ground rod. 
5. The pulse goes up through the ground rod and back to the energizer (via the ground rod). Completing the circuit (and the animal receives a shock, learning to stay away from the fence). 

Note: all of above happens in 1/10,000 of a second. 

So what does the ground rod do? It picks up the pulse from the ground and brings it back to the energizer. 

However, if the energizer has a stronger pulse than the rod can pick up, an electrical charge can build up around the rod. Since the full power of the pulse cannot travel through the ground rod, an animal will not receive a full powered shock. The remedy? Pour water around the ground rod to increase the conductivity around the ground rod(s), or add additional rods. 

Why is this ground rod so far out of the ground? It's likely because we are using a 1 joule energizer and a 6' ft ground. At 3' of rod needed per joule output, the full 6' is unnecessary. 

It is possible to test to see if your ground rod is not adequate. Ground out the fence—with the fence off, place a metal rod on the ground and lean it against the fence's conductors. This will cause a 'dead-short' to the ground. Using a digital voltmeter, stick the ground probe into the ground and touch the fence probe to the rod. If a reading of more than 300v appears, you need more ground rod. Under 300v, you have adequate grounding.

Connecting an energizer to its grounding system.