INDUSTRIAL AUTOMATION PARTS | Superior Performance Series
Detailed Product Review
The 400W Servo Motor Set, offered with the assurance of Mermak CNC, is designed to meet the highest expectations for precision, speed, and reliability in industrial automation applications. This set combines the high-performance AC servo motor with code 60AST-A1C01330 and the advanced T3D-L15A-RABN servo drive, providing a superior solution for closed-loop control systems. Especially in areas such as production lines, robotic systems, and CNC machines where position, speed, and torque control are critical, maximum efficiency and repeatability are achieved through the motor’s dynamic response capability and the drive’s intelligent control algorithms.
Thanks to its 17-bit absolute encoder, this servo motor set detects the shaft position with high resolution and maintains position information even during power outages, reducing system startup times and increasing safety. With its IP65 protection class, it demonstrates resistance to harsh industrial environmental conditions (dust and water splashes), while its integrated protection features (overvoltage, undervoltage, overload, overcurrent) guarantee the long-lasting and uninterrupted operation of both the motor and the connected system. This set is an ideal choice for establishing the flexible and reliable automation infrastructure required by modern industry.
Why Choose This Product?
- Superior Precision and Repeatability: The 17-bit absolute encoder detects the shaft position at 131,072 different points, providing micron-level precise motion control and improving production quality.
- High Dynamic Performance: With a rated speed of 3000 RPM and a maximum speed capacity of 6000 RPM, it offers fast response times, thus shortening production cycles and maximizing efficiency.
- Industrial Durability (IP65): Its dust-proof and water-jet resistant structure ensures reliable and uninterrupted operation even under harsh working conditions.
- Wide Control Modes: Supports position, speed, and torque control modes, offering flexible adaptation to various application scenarios and simplifying system integration.
Project and Technical Support: If you are unsure about the compatibility of this product with your system or its correct selection, you can get free support from our technical engineers. Contact us via the Quick Technical Question button.
For more detailed information, you can get instant answers by clicking the Quick Technical Question button within the product. Mermak is always with you on technical matters.
Technical Specifications
The performance data and physical properties of the product are detailed below:
Industrial Application Areas
Industrial Robotics and Automation Systems
This servo motor set is used as a critical component in high-precision robot arms, automated guided vehicles (AGVs), and assembly lines. Its fast and repeatable motion capability increases the efficiency of production processes and minimizes error rates.
CNC Machines and Precision Machining Systems
It is ideal for axis control in CNC routers, laser cutting machines, engraving machines, and precision machining centers. The accuracy provided by the 17-bit absolute encoder allows for high-quality machining of complex geometries and fine details, thereby enhancing the quality of the final product.
Operational Advantages
High Efficiency
With advanced control algorithms and low energy consumption, it reduces operating costs while increasing production capacity and efficiency through fast response times.
Long Service Life
Durable industrial materials, IP65 protection class, and integrated safety mechanisms ensure years of trouble-free operation even under harsh conditions, reducing maintenance requirements.
Easy Integration
Standard flange sizes and wide drive compatibility allow for easy integration into your existing automation systems, optimizing installation time and cost.
At Mermak CNC, we aim to provide the highest performance and reliability in your industrial automation projects. The 400W Servo Motor Set 60AST-A1C01330 T3D-L15A-RABN is a reflection of this commitment. While optimizing your production processes with its superior technical specifications, you can bring your projects to life smoothly with the technical support you will receive from Mermak CNC’s experienced engineering team. Order now for the automation solutions of the future and make a difference in your production.
Compatible Products
Servo Motor Gearboxes
60PLF5 Planetary Gearbox 1/5 Ratio
60PLF10 Planetary Gearbox 1/10 Ratio
60 Frame Backlash-Free 1/5 Planetary Gearboxes
CNC Control Units and Mach3 Boards
3 Axis AKZ 250-USB3-NPN Mach3 Control Board
3 Axis USB Mach3 Control Board 2000 KHz
4 Axis CNC USB Mach3 Control Board 100 KHz
4 Axis USB Mach3 CNC Board 2000 KHz
5 Axis CNC USB Control Board Mach3 Board Green
5 Axis Mach3 Control Board LPT
4 Axis Control Unit M002-16A-16B (Professional Handwheel)
5 Axis CNC Control Unit SMC5-5-N-N
Adt-Cnc4640 4 Axis Milling Control Unit + Handwheel + Keyboard
Ddcs V4.1 CNC Control Unit 3 Axis + Handwheel
Ddcs V4.1 CNC Control Unit 4 Axis + Handwheel
TC55H 4-axis USB CNC Control Panel
The “400W Servo Motor Set 60AST-A1C01330 T3D-L15A-RABN” is a high-precision motion control system designed for industrial automation applications. This set consists of a 400 Watt servo motor (60AST-A1C01330) and a servo drive (T3D-L15A-RABN) that controls this motor. Its primary function is to control the motor’s angular position, speed, and acceleration with extreme accuracy and repeatability. Through integrated encoder feedback, the drive continuously monitors the motor’s current status and dynamically adjusts the necessary current and voltage to reach the set target values, providing closed-loop control. This enables high-performance and stable motion control in applications requiring precise positioning, such as CNC machines, robotic systems, packaging machines, and other equipment.
Frequently Asked Questions and Technical Details about the 400W Servo Motor Set 60AST-A1C01330 T3D-L15A-RABN
Our 400W AC servo motor with code 60AST-A1C01330 has a rated voltage of 220V AC. It is typically powered by a single-phase mains supply, but this may vary depending on the drive model and the electrical infrastructure it is connected to. We recommend consulting the drive manual for detailed connection diagrams.
Operating the motor above its nominal load (above 1.27 N·m rated torque), prolonged high-torque applications, insufficient cooling, or incorrect drive settings can cause overheating. This motor has overload protection, but continuous high temperatures will shorten its lifespan. Checking your load, duty cycle, and ambient temperature would be beneficial.
The 17-bit absolute encoder in the motor retains the shaft’s current position even when the motor loses power and is re-energized. Incremental encoders, on the other hand, lose their reference position with every power interruption and require re-referencing. With an absolute encoder, your system knows the correct position every time it powers up, eliminating the need for referencing, which is a significant advantage for precision applications like industrial robots and engraving machines.
Our 60AST-A1C01330 model motor has a rated torque of 1.27 N·m. Peak torques for short durations can reach higher values (typically up to 3 times the rated torque), depending on the drive’s capacity and the load. However, for continuous operation, using 1.27 N·m as the basis is critical for the motor’s lifespan and performance.
Although the motor’s rated speed is 3000 RPM, its maximum speed can reach up to 6000 RPM. You can use this speed according to your drive settings and application requirements, but keep in mind that torque may slightly decrease at higher speeds, and the motor may generate more heat.
The IP65 protection class indicates that the motor is completely dust-tight and protected against low-pressure water jets from all directions. This allows it to be safely used in industrial environments that may be exposed to light moisture, dust, or liquid splashes. However, it is not suitable for submersion in water or high-pressure water jets.
This industrial AC servo motor is typically connected to CNC or PLC control cards via Pulse/Direction signals. The drive interprets these signals from the control card to move the motor. Depending on the drive model, it can also be controlled via analog signals or industrial communication protocols (Modbus, EtherCAT, Profinet, etc.). For detailed connection and programming, it is best to refer to your drive’s user manual.
For the motor’s power cable, you should choose a high-quality, shielded industrial cable with a cross-section suitable for 400W power. Shielding prevents electromagnetic interference (EMI). The encoder cable should also be twisted pair and shielded for data transmission quality, with low capacitance values. Standard or low-quality cables can disrupt signal integrity, leading to performance issues and errors.
The 60AST-A1C01330 motor set supports various operating modes such as position control, speed control, and torque control, offering high precision and reliability. This flexibility allows it to be used in a wide range of applications, including industrial robots, engraving machines, CNC machines, and automation equipment.
At Mermak CNC, we provide a standard 2-year warranty for our 400W Servo Motor Set product. The warranty period and conditions are detailed in the documents accompanying the product. In case of a malfunction, you can receive support and repair services from our technical service. Our expert team is ready to resolve the issue quickly and effectively.
At Mermak CNC, we strive to provide spare parts for the products we sell for many years. Spare parts support is available for main components such as the motor, drive, or encoder. If needed, you can contact our technical service for information on stock availability and delivery times.
Directly controlling this industrial AC servo motor with microcontrollers like Arduino is generally not possible. The motor requires a dedicated servo drive to operate. However, you can indirectly control the motor by programming an Arduino-like board to send Pulse/Direction signals or other appropriate communication protocols (if supported by the drive) to the drive. In this scenario, the Arduino acts solely as a controller sending commands to the drive.
Our 60AST-A1C01330 model motor has a flange size of 60 mm x 60 mm. The shaft diameter is 14 mm and comes with a 5 mm keyway. You can use these dimensions as a reference to check compatibility with your existing mechanical system and ensure correct mounting. If you encounter any compatibility issues, you can get support from our technical team.
Alan açıklamalarıDeğerler nereden bulunur?
Kullanım alanı
Neden girilir? Aynı güç, tork veya hız değeri CNC, konveyör, fan, pompa, pano veya genel otomasyon uygulamasında farklı emniyet payı ve farklı ürün sınıfı gerektirir.
Nereden bakılır? Makinenin gerçek kullanım amacından seçilir. Birden fazla kullanım varsa en ağır ve en sürekli çalışan senaryo esas alınır.
Sonuçta neyi etkiler? Sonuç yorumunda risk seviyesi, ürün sınıfı, emniyet payı ve destek notlarını yönlendirir.
Kontrol: Değer pozitif ve gerçek saha/katalog bilgisiyle uyumlu olmalıdır. Varsayılan cnc_router yalnızca örnek başlangıç değeridir.
Servo motorun kullanılabilir torku Nm
Neden girilir? Dönen sistemdeki mekanik momenttir. Güç, redüktör, fren, pinyon veya mil seçimini doğrudan etkiler.
Nereden bakılır? Motor kataloğundan, torkmetreden, sürücü izleme ekranından veya yük hesabından alınır.
Sonuçta neyi etkiler? kW hesabı, fren torku, kaplin, redüktör ve mekanik dayanım seçimlerinde kullanılır.
Kontrol: Beklenen giriş aralığı: en az 0.001 Nm. Varsayılan 3.18 Nm yalnızca örnek başlangıç değeridir.
Servo motor çalışma devri rpm
Neden girilir? Dönen takım, motor, spindle, kasnak veya fan hızını belirler. Kesme, tork, güç ve çevresel hız sonuçlarını doğrudan değiştirir.
Nereden bakılır? Spindle/inverter ekranı, motor etiketi, kontrol yazılımı, takometre veya üretici katalog değerinden alınır.
Sonuçta neyi etkiler? Kesme hızı, talaş yükü, tork, güç, rulman ömrü ve maksimum hız yorumlarında kullanılır.
Kontrol: Beklenen giriş aralığı: en az 1 rpm. Varsayılan 3000 rpm yalnızca örnek başlangıç değeridir.
Çalışma zorluğu
Neden girilir? Bu alan hesap sonucunu doğrudan etkileyen temel girdilerden biridir. Değer yanlış girilirse çıkan kapasite, hız, kuvvet veya maliyet yorumu da yanlış olur.
Nereden bakılır? Değer; ürün etiketi, katalog, kontrol yazılımı, sürücü/inverter ekranı, ölçüm cihazı, teknik çizim veya gerçek saha ölçümünden alınmalıdır.
Sonuçta neyi etkiler? Sonuç kartındaki ana değer, risk seviyesi, ürün sınıfı ve teknik öneri bu girdiye göre şekillenir.
Kontrol: Değer pozitif ve gerçek saha/katalog bilgisiyle uyumlu olmalıdır. Varsayılan normal yalnızca örnek başlangıç değeridir.
Bakım ve mekanik durum
Neden girilir? Akım değeri kablo, sigorta, güç kaynağı, pano ısısı ve cihaz güvenliği için temel veridir.
Nereden bakılır? Pens ampermetre, cihaz etiketi, sürücü/inverter ekranı veya katalog nominal akımından alınır.
Sonuçta neyi etkiler? Kablo, sigorta, gerilim düşümü, güç ve pano ısı yükü hesaplarında kullanılır.
Kontrol: Değer pozitif ve gerçek saha/katalog bilgisiyle uyumlu olmalıdır. Varsayılan normal yalnızca örnek başlangıç değeridir.
Pano / ortam sıcaklığı °C
Neden girilir? Bu alan hesap sonucunu doğrudan etkileyen temel girdilerden biridir. Değer yanlış girilirse çıkan kapasite, hız, kuvvet veya maliyet yorumu da yanlış olur.
Nereden bakılır? Değer; ürün etiketi, katalog, kontrol yazılımı, sürücü/inverter ekranı, ölçüm cihazı, teknik çizim veya gerçek saha ölçümünden alınmalıdır.
Sonuçta neyi etkiler? Sonuç kartındaki ana değer, risk seviyesi, ürün sınıfı ve teknik öneri bu girdiye göre şekillenir.
Kontrol: Beklenen giriş aralığı: en az -20 °C, en fazla 80 °C. Varsayılan 35 °C yalnızca örnek başlangıç değeridir.
Eş zamanlı yük oranı %
Neden girilir? Oran değeri kayıp, emniyet, eş zamanlı çalışma, verim veya fireyi hesaba katmak için kullanılır.
Nereden bakılır? Saha tecrübesi, üretici verisi, ölçülen fire/kayıp oranı veya kullanım senaryosundan alınır.
Sonuçta neyi etkiler? Gerçekçi kapasite, maliyet, risk ve ürün sınıfı önerisinde kullanılır.
Kontrol: Beklenen giriş aralığı: en az 1 %, en fazla 100 %. Varsayılan 70 % yalnızca örnek başlangıç değeridir.































































































































































































