Your energizer and ground rod system are the foundation of a properly functioning electric fence. If either one is undersized, your fence will struggle — especially when vegetation grows, faults occur, or weather conditions get wet. In this video, we walk through practical guidelines for choosing the right energizer, installing the correct number of ground rods, and testing your system to make sure it’s truly working. Choosing the Right Energizer The first decision is power source: Plug-in energizers (110V) – Most economical and highest output per dollar Battery-powered (12V) – Portable and flexible Solar units – Integrated remote solutions In most cases, even if your power source is far from the field, running insulated hookup wire is more economical than purchasing a large battery or solar energizer. We break down: Cost per joule comparisons Why larger plug-in energizers often provide better value Why “acres” and “miles of fence” claims can be misleading Why joules (stored energy) are the most important comparison metric Understanding Joules and Fence Load A common rule of thumb: 1 joule per mile (1,600 m) of fence line But remember — you must calculate the total linear distance of hot wire, not just the farm perimeter. If you have: Multiple hot wires → multiply total fence length by number of wires Poultry netting → account for 11 horizontal conductors Vegetation load → size up Netting, sheep, goats, and heavy vegetation all require more energizer output. When in doubt, go up a size. You will never regret having too large of an energizer. Real-World Testing: Undersized vs Adequate We demonstrate: A 0.1 joule solar energizer on 1,800 m of multi-wire high-tensile fence → Only 2.3 kV on a clean fence (undersized) A 1 joule plug-in energizer on the same fence → 5.4 kV (adequate in good conditions) Then we add poultry netting: → Voltage drops further This shows why sizing just to the margin is risky. You want buffer capacity for faults, vegetation growth, and unexpected load. For good fence performance, aim for: 5,000 volts minimum Ideally 7,000–8,000 volts in clean conditions Ground Rod Guidelines The energizer is only half the system. Your ground rods complete the circuit. General recommendations: Use galvanized steel rods, not rebar Minimum of 3 feet of ground rod per joule For permanent installations, start with three 6-foot rods Add one additional 6-foot rod for every 2 additional joules Ground rods should: Be spaced apart (about 10 ft / 3 m) Be connected with continuous wire back to the energizer Be installed in moist soil when possible How to Test Your Grounding System We demonstrate how to perform a proper ground test: Create a heavy artificial short at least 100 m away. Drive voltage down below 1,000 volts if possible. Measure voltage on the last ground rod. Ideal results: Under 300 volts is excellent Under 500 volts is acceptable Above 500 volts → add more ground rods If the grounding system cannot collect returning electrons efficiently, livestock will not receive a strong shock — even if fence voltage looks adequate. The Big Picture Energizer size and grounding capacity determine whether your fence: Performs well in clean conditions Maintains power during faults Handles vegetation load Controls livestock reliably Manufacturer acreage claims are marketing tools. Run your own numbers and test your own system. With proper sizing, installation, and testing, your energizer and grounding system will provide a reliable foundation for both permanent and temporary electric fencing.