A06B-0205-B300 Genuine New A06B0205B300 Fanuc Servo Motor
PRODUCT DETAILS
Fanuc A06B-0205-B300 — βiS Series 200W AC Servo Motor | 3000RPM | Pulse Coder | Genuine New
In the world of CNC machine tool maintenance, few decisions carry more weight than choosing the right servo motor replacement. Install the wrong one — wrong encoder type, wrong shaft configuration, wrong amplifier compatibility — and the machine either refuses to run or runs with degraded accuracy. The A06B-0205-B300 removes that uncertainty for the specific machines it was designed for: it's a genuine Fanuc βiS2/3000 AC servo motor, part of the beta-i Smart series that Fanuc developed as the standard axis drive motor for light-to-medium CNC machine tools, Robodrill machining centers, and CNC lathes.
At 200W with a rated torque of 0.64 N·m and a 3000 RPM base speed, this motor covers the small-axis and auxiliary-axis applications that make up a significant portion of CNC machine tool configurations — think the third or fourth axis on a turning center, the B-axis on a multi-axis machine, or the standard axis configuration on a compact machining center where power density matters more than raw output.
✅ Genuine Fanuc. New factory sealed. Full serial number traceability.
Part Number Decoded — A06B-0205-B300
Fanuc's servo motor part numbers encode the complete motor specification. Here's what A06B-0205-B300 actually means:
A06B — Fanuc servo motor category identifier. "A06B" designates AC servo motors across multiple Fanuc families — it's the consistent prefix for servo motor part numbers in the alpha, beta, and related series.
0205 — Motor model code. Within Fanuc's βiS (beta-i Smart) series, "02" indicates the motor frame size group and "05" identifies the specific winding configuration for 200W output at 3000 RPM rated speed. This maps to the βiS2/3000 model designation in Fanuc's catalog naming convention — the "2" indicating approximate rated torque class (0.64 N·m), "3000" indicating rated speed in RPM.
B — Mounting and shaft configuration prefix. In Fanuc's A06B servo motor numbering, the "B" position indicates a standard flange-mount configuration with a specific shaft end treatment.
300 — Encoder type and specification. This is the most critical suffix for compatibility. "300" designates the standard βi pulse coder — Fanuc's incremental encoder with 1,000,000 pulse/rev resolution (after interpolation). This encoder type is compatible with Fanuc β series amplifiers (βi SVU, βiSV) and the αi series amplifiers when used with the appropriate parameter settings.
The distinction between B300, B400, and B100 matters enormously:
- B300 = Standard βi pulse coder (this motor) — compatible with βiSV amplifiers and standard αiSV amplifiers
- B400 = High-resolution αi pulse coder — higher encoder count, for αi series amplifiers in precision applications
- B100 = Older style A860-0365 pulse coder — for older Fanuc Series 0 / Series 16 era amplifier systems
Ordering B400 when the machine expects B300 will result in encoder mismatch alarms (SV0449, SV0447, or equivalent) that prevent axis initialization.
Technical Specifications
| Parameter | Specification |
|---|---|
| Part Number | A06B-0205-B300 |
| Fanuc Catalog Name | βiS2/3000 |
| Motor Series | Fanuc β-i Smart (βiS) |
| Motor Type | 3-phase AC servo motor (permanent magnet synchronous) |
| Rated Power | 200W |
| Rated Voltage | 200V AC (3-phase) |
| Rated Speed | 3000 RPM |
| Maximum Speed | 5000 RPM |
| Rated Torque | 0.64 N·m |
| Peak Torque | 1.9 N·m (approximately 3× rated) |
| Rated Current | ~1.5A (approximate) |
| Peak Current | ~4.5A (approximate) |
| Rotor Inertia | 0.0138 kg·cm² |
| Encoder Type | βi Pulse Coder (A860-2020-T301 or equivalent) |
| Encoder Resolution | 1,000,000 pulses/rev (after 4× interpolation) |
| Shaft | Straight shaft (no keyway) — verify against machine spec |
| Flange Size | 60mm square mounting flange |
| Shaft Diameter | 14mm (verify against coupling or pulley bore) |
| Cooling | Natural convection (no fan required) |
| Protection Rating | IP65 (motor body) / IP67 shaft seal option on some variants |
| Insulation Class | F class |
| Operating Temperature | 0°C to +40°C (ambient) |
| Storage Temperature | –20°C to +60°C |
| Weight | Approx. 0.9 kg |
| Certifications | CE |
| Condition | Genuine New / Factory Sealed |
Compatible Fanuc Servo Amplifiers
One of the most common mistakes in Fanuc motor procurement is ordering a motor without confirming amplifier compatibility. The A06B-0205-B300 is designed to work with the Fanuc β-i series servo amplifiers — specifically:
Direct plug-and-play compatible:
- A06B-6130-Hxxx series — βiSV amplifier modules (the standard beta-i drive for this motor class)
- A06B-6160-Hxxx series — βiSVSP combination amplifier (servo + spindle in one unit)
Compatible with αi amplifiers (with parameter configuration):
- A06B-6117-Hxxx / A06B-6114-Hxxx — αiSV amplifiers can drive βiS motors, but the amplifier parameter for motor model selection must be set correctly
Not compatible:
- Older α series amplifiers (A06B-6089, A06B-6096 vintage) — these use different encoder protocols and cannot communicate with the βi pulse coder
- Any non-Fanuc servo amplifier — the βi pulse coder uses Fanuc's proprietary serial communication protocol and cannot interface with third-party drives without a protocol converter
If you're replacing a failed motor and the existing amplifier is in good condition, match the new motor's encoder type (B300) to what the amplifier expects. The amplifier's parameter P2011 or equivalent motor type parameter specifies which encoder it's configured for. If it's currently set for B300, the A06B-0205-B300 is the correct replacement.
βiS Series in Context — Where This Motor Fits
Fanuc's servo motor lineup has several tiers, and understanding where the βiS sits helps when making replacement decisions or planning retrofits.
| Series | Typical Part# Prefix | Power Range | Encoder | Best For |
|---|---|---|---|---|
| βiS (beta-i Smart) | A06B-0201 to A06B-0209 | 100W–3kW | βi Pulse Coder | Standard CNC axes, Robodrill, lathes |
| αiS (alpha-i Smart) | A06B-0211 to A06B-0260 | 400W–22kW | αi Pulse Coder | High-performance CNC, heavy machining |
| αiF (alpha-i Fast) | A06B-0227 to A06B-0262 | 500W–22kW | αi Pulse Coder | High-speed machining centers |
| βiF (beta-i Fast) | A06B-0202 to A06B-0208 | 200W–2kW | βi Pulse Coder | Compact high-speed applications |
The A06B-0205-B300 (βiS2/3000) sits in the entry tier of the βiS family — it's the workhorse motor for machines that don't require the torque density or speed capability of the αiS series. In terms of Fanuc's machine tool lineup, this motor commonly appears in:
- Fanuc Robodrill α-D series compact machining centers (X, Y, Z axes)
- Fanuc-controlled CNC lathes in the 200W axis range (auxiliary axes, turret indexing drives)
- Small machining centers with 30-taper or BT30 spindles
- Retrofit projects replacing older alpha-series motors where the βiS is an approved Fanuc replacement
βiS2 vs βiS4 vs βiS8 — Picking the Right Power Level
The βiS series scales from 100W (βiS0.5/3000) to 3kW (βiS22/2000). If you're evaluating whether the 200W A06B-0205-B300 is the right size for your application, here are the adjacent models:
| Model | Part Number | Rated Power | Rated Torque | Peak Torque | Rated Speed |
|---|---|---|---|---|---|
| βiS0.5/3000 | A06B-0201-B300 | 100W | 0.32 N·m | 1.0 N·m | 3000 RPM |
| βiS2/3000 | A06B-0205-B300 | 200W | 0.64 N·m | 1.9 N·m | 3000 RPM |
| βiS4/4000 | A06B-0210-B300 | 400W | 1.3 N·m | 3.8 N·m | 4000 RPM |
| βiS8/3000 | A06B-0220-B300 | 750W | 2.4 N·m | 7.2 N·m | 3000 RPM |
| βiS12/3000 | A06B-0227-B300 | 1.0kW | 3.18 N·m | 9.5 N·m | 3000 RPM |
For machine tool replacement, always match the part number exactly rather than selecting by power rating alone — the flange size, shaft diameter, and encoder type must all match the original installation.
Installation — What to Check Before and After
Before removing the old motor: Confirm the part number on the failed motor's nameplate matches A06B-0205-B300. Note the shaft end configuration — whether the existing coupling, pulley, or gear is keyed or a plain friction fit, and the coupling bore diameter. The A06B-0205-B300 has a 14mm diameter straight shaft; if your machine uses a keyed coupling, you'll need the keyed shaft variant (different part number suffix).
During installation: Do not strike the motor shaft to drive couplings on. Fanuc servo motors have ceramic bearing raceways that are damaged by axial shock loads. Use a proper press or screw-type puller to install couplings. Apply the specified torque to the mounting bolts — typically M4 or M5 depending on the flange bracket, to the torque specified in the machine tool builder's maintenance documentation.
Connector orientation: The motor's power connector (3-phase + brake if applicable) and encoder connector must be routed away from heat sources and sharp edges. Fanuc encoder cables use a proprietary high-flex design — don't substitute standard instrumentation cable for encoder wiring repairs.
After installation: On first power-up, the CNC will typically require a reference point return (zero return / G28) to re-establish the machine coordinate system. If the machine uses absolute encoders (B400 series or later), the absolute position may be retained; for incremental encoders (B300 series, this motor), reference return is required after any motor replacement.
Alarm Codes Related to This Motor
When a βiS2/3000 motor or its associated drive circuit fails, specific Fanuc servo alarms appear. Knowing these helps confirm whether the motor is the root cause before ordering:
SV0401 (Servo alarm: V-READY off) — power-off condition, the servo system hasn't initialized. Could be amplifier, motor, or wiring.
SV0447 (Soft phase sync error) — encoder communication problem. Most often a failed encoder inside the motor, a damaged encoder cable, or a motor-amplifier parameter mismatch. If SV0447 appears immediately after motor replacement, check the amplifier's motor type parameter setting.
SV0449 (Pulse coder A/B signal alarm) — encoder signal quality issue. Failed pulse coder inside the motor, or cable contamination.
SV0462 (Servo current alarm) — the amplifier detected overcurrent. Could indicate a shorted motor winding, a mechanical jam, or an amplifier fault — requires isolation testing to determine which.
SV0430 (Servo motor overheat) — motor temperature exceeded threshold. On a new motor this almost always indicates a mechanical problem (tight bearing, excessive load, or inadequate motor sizing) rather than a defective motor.
❓ FAQ — Fanuc A06B-0205-B300
Q1: What does "B300" mean — can I use this motor with my existing amplifier?
The "B300" suffix specifies the βi pulse coder encoder — Fanuc's incremental serial encoder providing 1,000,000 pulses/rev resolution. This encoder communicates with Fanuc βiSV amplifiers (A06B-6130 series) and αiSV amplifiers via Fanuc's proprietary serial encoder protocol. To confirm compatibility with your amplifier: check the servo amplifier parameter for motor type (typically parameter 2020 or 2011 depending on Fanuc CNC generation). If it's currently set to a value corresponding to βiS2/3000 with B300 encoder, this motor is a direct replacement. If the parameter is set for a B400 (αi pulse coder) motor, you need a different motor or the amplifier parameters need reconfiguration by a Fanuc-qualified technician.
Q2: Is there a brake option for this motor, and does A06B-0205-B300 include one?
The "B300" suffix in Fanuc's nomenclature indicates no holding brake. A Fanuc servo motor part number ending in "B400" includes a 24VDC holding brake, while "B300" is the brake-free version. For vertical axes (Z-axis on machining centers, or any axis where the load would fall under gravity when the servo is de-energized), a brake is essential for safety. If your machine's original motor had a brake, you need the A06B-0205-B400 — not the B300. Check the machine's existing motor nameplate or the machine tool builder's parts manual before ordering.
Q3: What Fanuc CNC machines commonly use this motor?
The A06B-0205-B300 appears most frequently in Fanuc Robodrill α-D21/α-D14 compact machining centers on X, Y, or Z axes, and in various CNC lathes built by Japanese machine tool manufacturers (Mazak, Okuma, Nakamura, DMG) using Fanuc Series 0i or 30i/31i/32i controls. It's also found in Fanuc-controlled grinding machines and EDM equipment for smaller-axis applications. The safest confirmation is to read the part number from the motor currently installed on your specific machine axis.
Q4: My machine shows alarm SV0447 after I installed a new motor — what's wrong?
SV0447 (soft phase sync error / pulse coder communication alarm) after a new motor installation almost always indicates one of three things: (1) The encoder cable connector is not fully seated at either the motor end or the amplifier end — reseat both connectors firmly; (2) The amplifier's motor type parameter doesn't match the installed motor encoder type — if the parameter is set for B400 but you installed a B300 motor, this alarm will appear; (3) A damaged encoder cable. Check the encoder cable for physical damage or contamination, particularly at the connector bodies. If the cable checks out and the parameter is confirmed correct, the encoder inside the new motor may have been damaged during shipping — examine the motor shaft end for signs of impact.
Q5: Can I replace A06B-0205-B300 with a third-party servo motor of the same power rating?
Technically possible but not recommended for production machines. Fanuc servo amplifiers use proprietary encoder protocols — a third-party motor with a standard sine/cosine or TTL encoder cannot communicate with Fanuc βiSV or αiSV amplifiers without an encoder protocol converter in the signal path. Some aftermarket suppliers offer "Fanuc-compatible" motors with cloned pulse coders, but these come with risks: varying encoder quality, potential pulse coder communication failures, and compatibility issues with specific Fanuc CNC firmware versions. For a machine in production service, a genuine Fanuc motor eliminates these variables and ensures the CNC parameter settings remain valid.
Q6: How do I verify the motor is genuine Fanuc and not a counterfeit?
Genuine Fanuc servo motors have a factory nameplate with the part number (A06B-0205-B300), serial number, manufacturing date code, and Fanuc quality mark laser-engraved or printed on a tamper-evident label. The encoder cable connector uses Fanuc's specific connector housing with the Fanuc logo molded in. The motor housing quality, surface finish, and connector assembly should be consistent with Fanuc's manufacturing standards. If the nameplate label appears to be an adhesive label that could be peeled off and repositioned, or if the serial number format doesn't match Fanuc's standard 8-digit serial format, treat the unit with suspicion. Sourcing from established industrial automation suppliers with documented procurement chains is the most reliable protection against counterfeit components.
Q7: What should I do with the old motor — is it repairable?
Fanuc servo motors are repairable in many cases. The most common failure modes are encoder failure (the pulse coder unit can be replaced as a separate component — Fanuc sells encoder replacement kits) and bearing failure (standard motor bearings that can be replaced by a qualified motor repair shop). A motor with a failed winding is generally not economically repairable. Before disposing of a failed A06B-0205-B300, have a specialist check the encoder (the most expensive sub-component) and the bearings. If the windings are intact and only the encoder or bearings have failed, repair may cost 40–60% of a new motor price and return the motor to original specification — a reasonable option for machines where the motor will be needed as a future spare.
