{"id":3150,"date":"2026-03-31T02:57:16","date_gmt":"2026-03-31T02:57:16","guid":{"rendered":"https:\/\/acgearmotor.top\/?post_type=product&p=3150"},"modified":"2026-03-31T02:57:25","modified_gmt":"2026-03-31T02:57:25","slug":"ye4-ie4-super-premium-efficiency-three-phase-ac-gear-motor","status":"publish","type":"product","link":"https:\/\/acgearmotor.top\/de\/product\/ye4-ie4-super-premium-efficiency-three-phase-ac-gear-motor\/","title":{"rendered":"YE4\/IE4 Super Premium Efficiency Three Phase AC Gear Motor"},"content":{"rendered":"
Every generation of IEC efficiency standards pushes induction motors closer to their theoretical performance limit. The YE4 series sits at that frontier. Classified under IEC 60034-30-1 as IE4 (Super Premium Efficiency), this motor extracts gains from every available engineering lever \u2014 thinner laminations, purer silicon steel, heavier copper windings, tighter air-gap tolerances, and aerodynamically profiled cooling fans \u2014 to deliver rated-load efficiency figures that were, until a few years ago, the exclusive territory of permanent-magnet synchronous machines.<\/p>\n
The critical distinction between the YE4 and a permanent-magnet (PM) motor is operational simplicity. A PM motor mandates a variable frequency drive for every start \u2014 it cannot run direct-on-line. The YE4 starts on a standard contactor, runs on a standard thermal overload relay, and integrates into existing motor control centers without any panel redesign. When you do pair it with a VFD for variable-speed applications, it performs as well as any inverter-duty motor with the added benefit of IE4 efficiency at the base-frequency operating point. The power range spans 0.75 kW to 315 kW across 2-pole and 4-pole configurations, all built on IEC 60072 frame dimensions for bolt-in replacement of any existing IEC-standard motor.<\/p>\n
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For Korean manufacturers evaluating motor upgrades under the tightening requirements of the K-ETS (Korea Emissions Trading Scheme) and the Energy Efficiency Resource Standard, the YE4 represents the most straightforward hardware change that delivers verifiable, auditable energy savings without process disruption. A typical 45 kW pump motor upgraded from IE2 to IE4 saves approximately 9 000 kWh per year at 7 000 operating hours \u2014 enough to pay back the entire price premium within 14 months at current industrial electricity rates. Facilities running hundreds of motors can multiply that figure and present a capital expenditure case that any CFO will approve. The motor itself connects to the same planetary gearbox<\/b><\/a> or direct-drive coupling as its predecessor, and the output shaft, foot bolt pattern, and terminal box position remain unchanged.<\/p>\n <\/p>\n The performance table below covers 2-pole and 4-pole models with efficiency measured at three load points (100 %, 75 %, 50 %) and rated current listed at three common supply voltages (380 V, 400 V, 415 V). The 75 % and 50 % load efficiency columns are particularly important for variable-load applications \u2014 pumps, fans, and compressors rarely operate at exactly 100 % of nameplate rating, so the part-load numbers give a more realistic picture of actual energy consumption. Scroll horizontally on mobile devices to see all 16 columns.<\/p>\n\ud83d\udcca Technical Specifications<\/h2>\n
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