Budget Vevor 6kW Inverter + Allpond 100 Ah Battery vs 6.2kW Antminers

Today I pushed a budget 240 V L-N inverter with real loads. One Allpond 48 V 100 Ah LiFePO4 battery, a Vevor “6 kW” inverter, and two S19J miners. SmartShunt is logging DC Wh and amps. A TOPCON TC002C Duo thermal camera watches temps. PLEASE KEEP IN MIND, THIS IS A 220 VOLT ONLY INVERTER, IF YOU WANTED TO USE IT IN A US HOUSE HOLD APPLICATION A TRANSFORMER IS REQUIRED TO STEP THE VOLTAGE DOWN TO 110V! Disclosure Allpond supplied the 48 V 100 Ah battery for this video at no cost. They did not pay for this video and they do not control the content. Test setup • Battery: Allpond 48 V 100 Ah, ~5.12 kWh • Inverter: Vevor 6.2 kW 48 V input, 240 V L-N output • Loads: 2 × Antminer S19J running VNish presets, stepped from ~2.34 kW each up to ~3.20 kW each • Logging: Victron SmartShunt 500 A for DC V, A, Wh. Inverter display for AC V, A, W. • Safety: Kilovac contactor with manual pre-charge using a 25 W 20 Ω resistor. ABC extinguisher on hand. Headline results • Reached about 6.2 kW AC before thermal shutdown. Fault code 07 = over temperature. • SmartShunt logged ~5.2 kWh DC delivered before I stopped the run. • Battery started near 56.4 V, ran mostly in the 50–51 V range at load, then recovered after events. • IGBT temps peaked ~95 °C on IR during the highest load step. • Lugs, fuse, and cables stayed within reasonable temps with 2 AWG on short runs. • The inverter auto-restarted after over-temp events and kept running. What I was looking for • Can a single 48 V 100 Ah pack sustain two S19Js at stepped power without nuisance trips • Where the inverter actually caps out under real loads • Thermal behavior at the power stage and at DC terminations • Real DC energy delivered vs the 5.12 kWh nameplate Planned follow ups • Repeat with a fixed 3.0 kW load for clean runtime data • Scope the output waveform Safety High energy DC is dangerous. Use correct fusing, pre-charge, PPE, and torque specs. Keep neutral isolated from ground inside the DIN box unless your inverter manual calls for a bond at the source. Do not copy anything here without understanding the risks and local codes. If you are not qualified, hire a licensed pro. Chapters 00:00 Intro and gear overview 00:43 Pre-charge and power on 01:45 Miners online at ~4.7–5.0 kW 06:50 SmartShunt numbers and first thermal check 10:10 Stepping to ~5.2–5.8 kW 14:40 Crossing ~6.0 kW 17:20 Peak temps ~95 C on IGBTs 19:20 Over-temp shutdown 07, auto restart 21:30 Graph and discussion 23:40 Final temps and wrap Gear shown • Vevor 6 kW 48 V inverter: https://www.vevor.com/pure-sine-wave-... • Allpond 48 V 100 Ah LiFePO4 battery: https://amzn.to/3LpfT3v • Kilovac EV200 contactor: https://amzn.to/4oYl3lv • Victron SmartShunt 500 A: https://signaturesolar.com/victron-en... and use our coupon below • 25 W 20 Ω pre-charge resistor: https://amzn.to/43kbipj • DIN RCD Type A 30 mA and 1P+N breakers: https://amzn.to/4osSf4R • 200 A main fuse: https://amzn.to/3Ls8a4H • Victron Fuse holder for MEGA-fuse: https://signaturesolar.com/victron-fu... Thermal: TOPDON TC002C Duo: https://www.amazon.com/promocode/A2B8... Get a 5% discount directly by clicking the link. The discount is valid from November 12th to November 18th ==================================================================== Support the channel Help support the channel by using our Signature Solar link, you can save $50 on any purchase over $500 when you use our exclusive coupon code, {{COUPON_CODE}} EDSDIY50 https://signaturesolar.com/?ref=piqshkgv ==================================================================== Channel Disclosure and Safety Notice Some videos on Ed’s DIY Solar Farming include paid partnerships, product samples, or affiliate links. When you click those links or make a purchase, I may earn a small commission - it helps support the channel and future projects. All content here is for educational and entertainment purposes only. Information can change at any time, so always double-check current specs, codes, and safety standards before working on electrical systems. Electricity is dangerous - it can cause injury or death. Use caution, follow local regulations, and never attempt projects beyond your skill level. Ed’s DIY Solar Farming participates in various affiliate programs, including the Amazon Services LLC Associates Program, which allows creators to earn fees by linking to Amazon.com and related sites.