EP-FADS Series Adapting-Flange High-Speed Planetary Gearbox | Direct Motor Mount

EP-FADR 시리즈 직각 고속 유성 기어박스
The EP-FADS series adapting-flange high-speed planetary gearbox is Korea Ever-Power’s adapting-flange variant of the high-speed EP-FAD platform. Instead of a clamp-ring adapter plate, the motor shaft inserts directly into the gearbox input bore — eliminating the adapter plate entirely and reducing axial stack length by up to 30 mm. Available in 7 frame sizes (047–255 mm), ratios from 4:1 to 91:1, and with a round output flange, 10,000 rpm max input, and 30,000-hour design life, the EP-FADS is the choice for ultra-compact high-speed round-flange servo axes.
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ADAPTING FLANGE
DIRECT SHAFT INSERT
ROUND OUTPUT FLANGE

EP-FADS Series — Adapting-Flange High-Speed Planetary Gearbox

Motor shaft inserts directly into the gearbox input bore — no adapter plate, no clamp ring, minimum axial length. Round output flange, 10,000 rpm, 30,000 hr design life.

7 Frame Sizes
Up to 2,000 Nm
i = 4 – 91
30,000 hr Life
IP65

The Adapting-Flange Difference — Why No Adapter Plate?

🔩

EP-FAD / EP-FADR — Clamp-Ring Adapter

Motor shaft is clamped via a separate adapter plate and clamp ring. Universal — fits any servo motor flange. Adds 15–30 mm to the axial stack length.

Choose when: motor model changes frequently, or motor flange is non-standard.

EP-FADS — Adapting Flange (Direct Insert)

Motor shaft inserts directly into a precision-bored input flange machined to the motor's exact shaft diameter. No separate adapter plate. Shortest possible axial dimension.

Choose when: motor model is fixed, minimum axial length is critical, or maximum input-shaft rigidity is needed.

The EP-FADS uses the same proven high-speed planetary gearset as the EP-FAD — DIN 5 profile-ground helical gears, 30,000-hour bearing life, NYOGEL 792D lifetime lubrication, IP65 sealing, and a circular round output flange. The single change is at the input: instead of a clamp-ring adapter plate, the gearbox input housing is machined with a precision-bored adapting flange that receives the motor shaft directly.

This direct-insert design eliminates the adapter plate thickness (typically 15–30 mm), stiffens the input shaft support, and removes a bolted joint from the torque path. The trade-off is that the input bore is sized for a specific motor shaft diameter — so the motor model is effectively committed at the time of order.

  • Shortest axial length in the EP-FAD family — up to 30 mm shorter than EP-FAD with adapter
  • Eliminates the adapter plate bolted joint — one fewer potential misalignment source
  • Stiffer input shaft support — higher permissible input-side axial and radial force
  • Same round output flange, 30,000 hr life, and 10,000 rpm capability as EP-FAD
  • Special ratios i=16, 21, 31, 61, 91 available in selected frame sizes

EP-FADS adapting-flange input — direct motor shaft insertion, no adapter plate

EP-FADS: direct-insert adapting flange input, round output flange

Frame Size Range — EP-FADS047 to EP-FADS255

047
19–22 Nm
064
40–60 Nm
090
100–160 Nm
110
230–330 Nm
140
450–650 Nm
200
900–1,200 Nm
255
Up to 2,000 Nm
Ratio range note: The EP-FADS covers ratios i=4–91 — slightly narrower than the EP-FAD (i=4–100). This is because the adapting-flange input housing geometry limits the maximum 2-stage ratio to i=91. For i=100, specify the EP-FAD with a standard clamp-ring adapter. Special ratios i=16, 21, 31, 61, and 91 are available in EP-FADS064 through EP-FADS255.

EP-FADS Series Technical Specifications

EP-FADS Series Adapting-Flange High-Speed Planetary Gearbox Dimension

Parameter EP-FADS047 EP-FADS064 EP-FADS090 EP-FADS110 EP-FADS140 EP-FADS200 EP-FADS255
Rated Output Torque T₂ₙ (Nm) — 1-stage (i=4–10)
i=4 19 48 130 270 560 1,100 1,700
i=5 22 60 160 330 650 1,200 2,000
i=7 19 50 140 300 550 1,100 1,800
i=10 14 40 100 230 450 900 1,500
Rated Output Torque T₂ₙ (Nm) — 2-stage + special ratios (i=16–91)
i=16 / 21 19 48 / 60 130 / 160 270 / 330 560 / 650 1,100 / 1,200 1,700 / 2,000
i=31 / 61 19 50 140 300 550 1,100 1,800
i=91 14 40 100 230 450 900 1,500
Performance Parameters
Max Output Torque T₂ₘₐₓ 3× rated torque (all sizes)
Rated Input Speed nᵢₙ (rpm) 5,000 4,000 4,000 3,000 3,000
Max Input Speed nᵢₙₘₐₓ (rpm) 10,000 8,000 7,500 4,500 4,500 / 3,800
Backlash P0 — Ultra-Precision (arc-min) — (N/A, 1-stage) ≤1 (1-stage) / ≤3 (2-stage)
Backlash P1 — Precision (arc-min) ≤3 (1-stage) / ≤5 (2-stage)
Backlash P2 — Standard (arc-min) ≤5 (1-stage) / ≤7 (2-stage)
Torsional Rigidity (Nm/arc-min) 3 7 14 25 50 145 225
Max Bending Moment Mₘₐₓ (Nm) 42.5 125 235 430 1,300 3,064 5,900
Permissible Output Axial Force F_ax_out (N) — 1-stage 580 1,000 1,100 980 2,700 4,700 8,000
Permissible Output Axial Force F_ax_out (N) — 2-stage 580 580 1,000 1,100 980 2,700 4,700
Permissible Input Axial Force F_ax_in (N) — 1-stage 165 395 1,300 1,525 2,800 4,500 12,500
Permissible Input Axial Force F_ax_in (N) — 2-stage 165 395 395 1,300 1,525 2,800 4,500
Service Life (hr) ≥30,000
Efficiency η — 1-stage / 2-stage ≥97% / ≥94%
Weight — 1-stage (kg) 0.8 1.4 3.4 6.7 13.5 35.0 63.8
Weight — 2-stage (kg) 1.1 1.6 4.0 7.3 16.6 36.4 74.7
Operating Temperature -10°C to +90°C
Lubricant NYOGEL 792D (synthetic, lifetime)
Protection Class IP65
Mounting Direction Any direction
Noise (nᵢₙ=3,000 rpm, dB) ≤56 ≤58 ≤60 ≤63 ≤65 ≤67 ≤70

Note: P0 grade (≤1 arc-min, 1-stage) not available for EP-FADS047 and EP-FADS064 — minimum P0 starts at EP-FADS090. Max input speed varies by frame; EP-FADS255 is limited to 3,800 rpm max. * Continuous-duty life assumes mean load at 50% of rated torque.

EP-FADS Series Planetary Gearbox Output Shaft Size

Engineering Features

Direct-Insert Adapting Flange

Motor shaft inserts directly into a precision-bored input flange — no clamp ring, no adapter plate. Eliminates one bolted joint from the torque path and reduces axial stack length by up to 30 mm.

🔘

Round Output Flange

Identical circular bolt-circle output flange to the EP-FAD. Bolt-circle diameter D1 from 12 mm (EP-FADS047) to 100 mm (EP-FADS255), matching mainstream rotary table and actuator body interfaces.

30,000-Hour Design Life

Same upgraded bearing selection and lubrication geometry as the EP-FAD platform. 30,000-hour L10 calculated bearing life under rated conditions — equivalent to roughly 15 years of two-shift operation.

🔢

Special Ratios i=16/21/31/61/91

Five non-standard ratios for semiconductor pitch-matching and FPD transport speed applications — available in EP-FADS064 through EP-FADS255. Same special-ratio availability as the EP-FAD, up to i=91.

💪

Higher Input Axial Force Rating

The direct-insert input bore provides stiffer shaft support than a clamp-ring adapter, raising the permissible input axial force (F_ax_in) — up to 12,500 N at EP-FADS255 1-stage. Valuable for vertical-axis direct-mount configurations.

⚙️

DIN 5 Profile-Ground Gears

Same 5-axis CNC profile-ground helical planetary gearset as the EP-FAD. Efficiency ≥97% (1-stage), ≥94% (2-stage) — identical to the EP-FAD, superior to the bevel-output EP-FADR.

Motor Assembly — Direct-Insert Process

EP-FADS Series direct-insert adapting flange assembly — motor shaft insertion diagram

EP-FADS direct-insert input flange and round-output-flange dimensions

Because the EP-FADS uses a direct-insert input bore instead of a clamp-ring adapter plate, the assembly process differs from the EP-FAD at the input end. The output end (round flange) mounts identically to the EP-FAD.

📐 Motor Shaft Specification — Critical Step

The input bore diameter is machined to match your specified motor shaft diameter. Before ordering, confirm the motor shaft diameter, shaft length, and key/keyway dimensions (if applicable). Korea Ever-Power machines the input bore to the specified tolerance class (typically h6/H7 interference-to-transition fit) at time of manufacture — this cannot be changed in the field.

🔩 Input Shaft Retention

The motor shaft is retained in the adapting flange bore by a clamping collar and retaining screws. Torque all retaining screws to the specification in the installation manual in a cross pattern. Do not use adhesive bonding — thermal cycling will loosen bonded joints and make disassembly difficult.

🔘 Output Flange Assembly

The round output flange assembly is identical to the EP-FAD: use dowel pins for initial centring, verify bolt-circle match (D8/D9), and tighten bolts in a cross pattern. Verify minimum 2 mm axial clearance at the output shaft tip after final assembly.

Manufacturing & Quality Assurance

Korea Ever-Power test center — EP-FADS adapting-flange gearbox quality verification

🔬 Input Bore Precision Machining

The adapting-flange input bore is precision-ground to the specified motor shaft diameter and tolerance class on a CNC cylindrical grinder. Concentricity of the bore relative to the planetary stage centreline is verified by CMM after machining.

🏎️ High-Speed Run-In Test

Every EP-FADS unit runs at rated input speed (up to 10,000 rpm for small frames) to confirm bearing pre-load, thermal stability, and oil film formation before backlash measurement.

✅ Individual Backlash & Grade Stamping

Backlash measured on every unit with a calibrated torque arm. P0/P1/P2 grade stamped on the nameplate. EP-FADS047 and EP-FADS064 are rated from P1; P0 starts at EP-FADS090.

💧 IP65 Seal Pressure Test

Pneumatic pressure applied to all dynamic seal interfaces — including the input flange bore seal where the motor shaft enters. Any pressure decay over the 60-second test window triggers rejection and resealing.

Primary Application Areas

🖥️

Ultra-Compact Semiconductor Axes

Wafer stage theta-axis and die bonder rotary axes where every millimetre of axial length matters. Removing the adapter plate frees space for encoder cables and sensor routing inside the stage housing.

📺

FPD Glass Transport

Glass panel transfer robot joints where special ratios i=21/31 match substrate pitch exactly and the direct-insert input eliminates one potential run-out contributor in the drive chain.

🔧

Space-Constrained CNC Axes

4th/5th axis rotary tables where the overall package depth is limited by the machine column clearance. The FADS's shorter axial length can make the difference between fitting inside or outside the column envelope.

🤖

Slim-Profile Robot Joints

Collaborative robot (cobot) joints where the link profile must remain within a narrow cross-section for human-robot workspace sharing. Direct-insert input reduces joint axial length and arm reach-to-payload ratio.

🏗️

Vertical Load-Holding Axes

The higher input axial force rating (F_ax_in up to 12,500 N) suits vertical servo axes where the motor weight rests on the gearbox input shaft — a configuration that can overload the input bearing of a clamp-ring adapter gearbox.

🔬

Medical & Lab Automation

Sample handling robot joints and diagnostic instrument axes where the direct-insert design reduces the part count in the drive chain and eliminates the adapter plate as a potential particulate shedding surface near clean areas.

EP-FADS adapting-flange gearbox applications — semiconductor, FPD, CNC, compact robot joints

How to Order — EP-FADS Order Code

The EP-FADS order code follows the same structure as the EP-FAD, with one additional required field: motor shaft diameter. This is used to machine the adapting-flange input bore to the correct dimension at the factory.

EP-FADS090

021

S1

P1

Ø14
/
YASKAWA SGMJV-04ADE6S
Code Field Options Notes
Model EP-FADS047 / EP-FADS064 / EP-FADS090 / EP-FADS110 / EP-FADS140 / EP-FADS200 / EP-FADS255 Select by output torque and round-flange bolt-circle requirements
Ratio 1-stage: 4, 5, 7, 10 | Special/2-stage: 16, 21, 31, 61, 91 3-digit code: "021" = i=21, "091" = i=91. Max ratio is 91 (vs 100 on EP-FAD)
Output Shaft S1 = smooth round shaft  |  S2 = splined / clamp shaft S1 for flexible couplings; S2 for rigid direct connection
Precision Grade P0 = ≤1 arc-min (EP-FADS090+)  |  P1 = ≤3 arc-min  |  P2 = ≤5 arc-min P0 not available for EP-FADS047 and EP-FADS064
Motor Shaft Diameter ★ Specify motor shaft diameter in mm (e.g. Ø14, Ø19, Ø22) Required for FADS — input bore is machined to this dimension at the factory. Cannot be changed after manufacture.
Motor Motor manufacturer name + model number Used to verify shaft diameter and key dimensions

Complementary Products

Korea Ever-Power related products — EP-FAD clamp-ring, EP-FADR right-angle, worm gearbox

Clamp-ring adapter input, round flange output. Choose when motor model is not fixed or may change during the machine's lifecycle. Ratios up to i=100.

Round flange + 90° right-angle output. When a right-angle drive is needed alongside the round-flange interface, choose the FADR over the FADS.

Square-flange inline gearbox with clamp-ring adapter. For applications where a square-flange interface is standard and the lowest P0 backlash (≤1 arc-min from EP-FAB042) is the priority.

Constant-velocity couplings for connecting EP-FADS round-flange output to articulating or misaligned load shafts in robot joints and AGV drivetrains.

Ready to Specify Your EP-FADS Gearbox?

Provide your motor model and shaft diameter, required output torque, gear ratio, and round-flange bolt-circle requirements. The motor shaft diameter is required to machine the adapting-flange input bore — confirm it before ordering.

Request Technical Consultation →

Frequently Asked Questions

Q: What happens if I need to change the motor after I've ordered the EP-FADS?
If the new motor has the same shaft diameter, the EP-FADS can be reused directly. If the shaft diameter is different, the adapting-flange input housing must be remachined or replaced — this is the primary constraint of the direct-insert design. For applications where motor model changes are expected (for example, during prototyping or in machines with frequent motor upgrades), the EP-FAD with a clamp-ring adapter is the more flexible choice. For high-volume production with a fixed BOM, the EP-FADS's shorter axial length and simpler assembly process typically outweigh this limitation.
Q: Why is the maximum ratio 91 instead of 100 like the EP-FAD?
The adapting-flange input housing is slightly longer axially than the standard EP-FAD input end, which constrains the 2-stage planetary arrangement inside the housing to a maximum ratio of i=91. The standard EP-FAD uses a thinner adapter plate at the input, leaving more room for the 2-stage gear arrangement to achieve i=100. If i=100 is required alongside a round-flange output, specify the EP-FAD with a standard clamp-ring adapter ring for your motor model.
Q: How much shorter is the EP-FADS compared to the EP-FAD with a clamp-ring adapter?
The axial length reduction depends on frame size and which motor adapter is being compared. For EP-FADS090, the direct-insert input housing is approximately 15–25 mm shorter than the EP-FAD090 with a standard clamp-ring adapter plate. For larger frames (EP-FADS200/EP-FADS255), the saving can reach 25–35 mm. The full dimension tables (L1–L18, H1) are available in the Korea Ever-Power catalog drawing for each frame size — request the FADS drawing package when placing your enquiry.
Q: Why is the input axial force rating higher on the EP-FADS than the EP-FAD?
In the EP-FAD, the motor shaft connects to the gearbox through an adapter plate and clamp ring. The adapter plate introduces a small radial overhang and a bolted joint that limits how much axial force the input bearing can sustain before deflection occurs. In the EP-FADS, the motor shaft is supported directly inside the precision-bored adapting flange, which is much stiffer — essentially a close-fitting sleeve bearing at the input. This stiffer support raises the permissible input axial force, which is particularly useful in vertical-axis configurations where the motor's own weight (plus any belt tension if applicable) acts as an axial load on the input bearing.
Q: Can I specify a key or keyway in the input bore?
Yes. The adapting-flange input bore can be machined with a standard key slot (DIN 6885) to match a keyed motor shaft. Specify the key dimensions when ordering. For smooth (keyless) motor shafts, a friction-fit or locking-collar retention is used instead. Note that for high-cycle, high-torque reversing applications, the keyed connection is preferred — keyless friction retention can experience micro-slip over time under repeated torque reversal. Confirm the connection type with your application requirements when placing the order.

What Engineers Say About the EP-FADS Series

Feedback from machine builders using the EP-FADS adapting-flange series in compact, high-precision servo axes.

"

We switched from EP-FAD090 with adapter to EP-FADS090 on our wafer stage theta axis. The 22 mm axial length saving let us route the encoder cable inside the housing without external cable management — a critical improvement for our ISO Class 4 cleanroom where hanging cable loops attract particles. Backlash at P1, running 8,500 rpm for 14 months without issue.

에스
송 Y., 무대 시스템 설계 엔지니어
Semiconductor Lithography Equipment OEM — Icheon
★★★★★

Korea Ever-Power workshop — EP-FADS adapting-flange gearbox precision machining
★★★★★

"Used EP-FADS200 at i=21 (special ratio) for a large FPD glass transfer robot. The adapting-flange input removed 28 mm from the joint stack and the i=21 special ratio matched our transport pitch exactly — no software correction factor needed. Motor is a fixed Yaskawa model across our entire machine range, so the committed bore is not a constraint."

Park J., 로봇 통합 리드
FPD Panel Transfer Equipment Manufacturer — Asan

★★★★★

"Our collaborative robot joint needed to fit inside a 95 mm diameter link cross-section. EP-FADS064 at i=16 was the only option in its torque class that fit — the direct-insert input saves 18 mm vs the clamp-ring equivalent. After 10 months of 24/7 operation, zero backlash growth."

Kim D., Cobot Mechanical Designer
Collaborative Robot Developer — Suwon
★★★★☆

"EP-FADS110 on a vertical servo axis with the motor mounted above the gearbox. The higher F_ax_in rating (1,525 N vs ~800 N on the clamp-ring equivalent) safely carries the motor weight as axial input load. One note: confirm shaft diameter carefully — we had to re-order one unit after a motor change. Factor lead time into your schedule for first orders."

Lee H., Mechatronics Engineer
Precision Automation Equipment — Daejeon

"We produce 2,000 units per year of the same 5-axis CNC table and the motor model has been fixed for 8 years. The EP-FADS's shorter axial stack let us reduce the table base casting by 25 mm, saving approximately 1.8 kg of iron per machine — that's 3,600 kg of cast iron per year off our bill of materials."

★★★★★
Choi W., Production Engineering Manager
CNC Rotary Table Manufacturer — Daegu

"We evaluated the EP-FADS047 at i=61 for a sample carousel drive in our diagnostic instrument. The 10,000 rpm capability, ≤56 dB(A) noise, and 22 mm shorter overall length compared to the EP-FAD047 with adapter were the three deciding factors. The adapting-flange bore was machined to our Maxon EC motor shaft in 2 weeks from order — faster than we expected."

★★★★★
Yoon S., Instrument Systems Engineer
In-Vitro Diagnostic Equipment OEM — Seoul

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