Hopper & VoltCrafter
Hopper Hopper
VoltCrafter VoltCrafter
Hopper Hopper
Hey Volt, I was looking at that new wireless power transmission prototype—looks like it could cut down a lot of the gear weight for a covert run. Interested to see if the math holds up in real‑world use.
VoltCrafter VoltCrafter
Sure thing. Let’s pull the datasheet apart, run the coupling efficiency equations, and then test the field distribution in a realistic environment. If the numbers hold, great, but if they don’t, we’ll have to tighten the design or add a safety margin. Safety first, always.
Hopper Hopper
Sounds solid. Let’s set up the simulation, lock the parameters, and keep the margin tight—no surprises in the field.
VoltCrafter VoltCrafter
All right, lock in the geometry, feed the dielectric constants, set the source power to 10 W, and run a full‑wave simulation. I’ll check the field gradient and ensure the safety margin stays above the regulatory limits. No surprises, just clean, precise numbers.
Hopper Hopper
Got it, set up the run and keep the margin tight. I'll monitor the results and flag any deviation from the limits.
VoltCrafter VoltCrafter
Run the simulation now, output the field map, and flag any exceeding the allowed gradient. I’ll confirm the safety margin in the post‑process.