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AC Servo Motor 1.3 KW, FLANGE 130mm, 5Nm 2500rpm

AC Servo Motor 1.3 KW, FLANGE 130mm, 5Nm 2500rpm
AC Servo Motor 1.3 KW, FLANGE 130mm, 5Nm 2500rpm
AC Servo Motor 1.3 KW, FLANGE 130mm, 5Nm 2500rpm
AC Servo Motor 1.3 KW, FLANGE 130mm, 5Nm 2500rpm
AC Servo Motor 1.3 KW, FLANGE 130mm, 5Nm 2500rpm
AC Servo Motor 1.3 KW, FLANGE 130mm, 5Nm 2500rpm
AC Servo Motor 1.3 KW, FLANGE 130mm, 5Nm 2500rpm
AC Servo Motor 1.3 KW, FLANGE 130mm, 5Nm 2500rpm
AC Servo Motor 1.3 KW, FLANGE 130mm, 5Nm 2500rpm
  • Stock: In Stock
  • Model: P-130ST-M05025
  • SKU: P-130ST-M05025
Ex Tax: $782.84

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1.3 KW power rating servo motor for sale, comes with 130*130mm motor frame size, 5.0 Nm holding torque, maximum output torque of 15N.m and rated speed of 2500rpm. Best servo motor for a variety of automation equipments, such as CNC, robotics. The matched 2500 PPR incremental encoder / 17bit absolute encoder, gearbox and electromagnetic brake are available to choose, high quality and reliable performance.

Features and Benefits

  • Reliable AC servo motor features high-speed response, high-precision positioning. It is outstanding to achieve accurate action and the response frequency up to 3.2 KHz. Meanwhile, AC servo control system can automatically remove common vibration, etc. to achieve high-precision positioning.
  • The AC servo control system provides longer service life, comes with overcurrent detection, overvoltage detection, over speed detection and protection function of deviation excess and can also detect insufficient power supply of main circuit.
  • The AC servo motor in control system is widely used in CNC machine tools, feeder, packing machine, printing machine, winding machine, terminal machine, cutting machine, etc.

1.3 kW Servo Motor Specification

Motor Model P-130ST-M05025 Line-line Resistance 1.84 Ω
Matched Servo Driver Model P-20B / P-20B2 Line-line Inductance 4.9mH
Frame Size130*130mm Machanical Time-constant 2.66ms
Rated Power1.3 KW Weight8.6kg
Rated Voltage 220V Certificate CE
Rated Current5.0A Warranty 12 months
Rated Speed 2500rpm Encoder Line Number (PPR) 2500
Holding Torque 5.0 N.m Insulation Class Class F (155℃)
Peak Torque15.0 N.m Safety Class IP 65
Voltage Constant68 V/1000r/m Operation Environment Temperature: 20℃~+40℃
Torque Coefficient 1.0 N.m/A Humidity: <90%RH (no dewing)
Rotor Inertia 1.06x10-3Kg.m2 Application Automation Equipment
Installation Dimension (unit=mm)

1.3 kW AC Servo Motor Dimension
LA=171mm (without brake), LA= 228mm (with electromagnetic brake)
Input voltage of electromagnetic brake: DC 24V, Rated torque of electromagnetic brake: 8 N.m (with 5 N.m motor)
1. Installation/disassembly components coupled to the motor shaft end, do not hit shaft hard to prevent the other side of motor shaft encoder from damage.
2. Try to prevent its shaft from vibration and bearing damage.
B Model Servo Drive Features
  • Control mode: position control.
  • Adaptive feedback unit: 2500 line incremental encoder.
  • Adopts the latest power device IPM, small size, strong overload capacity, high reliability.
  • Optimized braking unit is suitable for frequent starts and stops.
  • Simple operation, convenient for trial run, monitoring and parameter setting.
  • Adaptive power: 1.0kW-1.3kW.
B Model Servo Drive Data Sheet
Model P-20B
Output Power 1.0kW - 1.3kW
Motor Rated Torque 4-10 Nm
Input Power 2 phase L1, L2 or 3 Phase L1, L2, L3, AC 220V (-15%~+10%) 50Hz/60Hz
Temperature Working environment: 0℃~40℃, Storage: -0℃~+40℃
Humidity Working environment: 40%~80% (non condensing), Storage: Below 93% (non condensing)
Protection Grade IP20
Control Mode PMW sine wave vector control
Regenerative Breaking We have built-in braking resistance for motor under 1kW, used external terminal B1 B2 when inertia gets bigger.
Feedback System 2500 PPR incremental encoder
Control Model Position control
Digital Input Servo ready, alarm clear, CCWL, CWL, TCCW, TCW, EMG, electric gear 1, electric gear 2, position deviation clear, pulse input prohibited.
Digital Output Servo ready, alarm, location complete, speed arrival, magnetic brake, torque limitation.
Encoder Signal Output Signal type: Driver A, B, Z differential output, signal Z open-collector output
Position Input Frequency Differential input: ≤500 kHz(kpps), signal-ended input: ≤200 kHz(kpps)
Command Mode Pulse and direction, forward or reverse pulse, orthogonal pulse
Electric gear Ratio 1~32767 / 1~32767
Monitor Function Speed, present location, location deviation, motor torque, motor current, command pulse, etc.
Protected function Over speed, over voltage, over current, oer load, brake abnormal, encoder abnormal, location out-of-tolerance.
Speed Futures Speed response frequency > 400Hz
Speed fluctuation ratio < ± 0.03% (electrical load: 0 ~100%), < ± 0.02% (power: -15 ~ + 10%)
Speed regulation ratio 1:5000
B2 Model Servo Drive Features
  • Control mode: position control mode, speed control mode, torque control mode, inner speed control mode.
  • Feedback system: 2500 PPR incremental encoder or 17 bit absolute value encoder.
  • RS484 Modbus communication is available.
  • Encoder frequency divider can be set arbitrarily.
  • The servo motor encoder has functions of speed and torque signal output (0 ~ 5V analog output).
  • The new industrial IPM intelligent power module is adopted, small in size, strong overload capacity, high reliability.
  • With excellent response and system rigidity, strong resistance to load disturbance and strong starting.
  • Optimized braking unit is suitable for frequent start and stop.
  • Easy and simple to operate, monitor and set parameters.
  • Adaptive power: 1.5kW - 3.8kW.

B2 Servo Drive Data Sheet

Driver model P-20B2
Output power 1.0kW-1.3kW
Motor rated torque 4N.m-10N.m
Feedback signal* 2500 P/R incremental encoder or 17 bit absolute value encoder
Control mode Position control, speed control, torque control, inner speed control, JOG control, trial run
Reborn break Internal mount, External mount
Reborn break way resistive load
Control Model Speed frequency response 250Hz or higher
Speed fluctuation rate <±3% (Negative load 0%~100%), <±2% (Power-10%~+10%)
Speed ratio 1: 5000
Pulse in frequency ≤ 500 kHz
Position control Control mode 1. Pulse+Diretion 2. CW +CCW Pluse 3. Two phase AB Orthogonal
Electrical gear wheel 1-9999 / 1-9999
Feedback pluse Differential output can be set freely.
Speed control Speed range Speed range -3000~+3000rpm
Speed signal DC -10V~+10V
Speed range frequency ±1% (Negative load change 0%~100%)
Torque control Torque range ±3 times rated torque
Torque signal DC -10V~+10V
Torque range frequency ±1% (Negative load change 0%~100%)
Communication RS484 Modbus communication
Earthing model The shell of Servo drive to earth, earth resistance ≤ 0.1Ω
Monitor Keyboard display Speed. present position, order pulse accumulation, position deviation, torque, current, velocity, rotator absolute position, command pulse frequency, running sate, signal Input and output, mainboard temperature and alarm, etc.
Analog value display Speed. Torque, Current, Peak Torque, Rotator absolute Position
Protection Over speed, over current, over load, under voltage, abnormal error, encoder error, abnormal power control, position error, over temperature, etc.
Working condition Temperature Working: 0℃~55℃, Storage: -20℃~80℃
humidity <90%, no condensation
vibration <0.5G (4.9m/s2), 10Hz-60Hz (No continuouse working)
Notes : 17 bit absolute value encoder comes with a battery for convenient use and is well suitable with 20B2 AC drive.
Winding and Encoder Connection Table

Encoder line number 2500PPR
Insulation class Class F ( 155℃)
Safety class IP65
Using environment Temperature: 0℃~+40℃ Humidity: below 90% RH (No dewing )
Motor winding plug Winding Lead Wire U (red) V (yellow) W (blue) PE (yellow, green/black)
Plug serial number 2
3 4 1
Encoder plug Winding Lead Wire 5V 0V A+ B+ Z+ A- B- Z- U+ V+ W+ U- V- W- PE
Plug serial number 2 3 4 5 6 7 8 9 10 11 12 13 14 15 1
AC Servo Motor FAQ
How to Choose a Servo Motor?
1. Determine some basic parameters of the servo motor.
2. Select the appropriate motor size according to the load inertia and motor inertia.
3. Combine the selected motor inertia and load inertia to calculate the acceleration torque and deceleration torque.
4. Calculate the load torque according to the load weight, configuration, friction coefficient, and operating efficiency.
5. According to the requirements of the operating conditions, select the appropriate load inertia calculation formula to calculate the load inertia of the mechanism.
6. Calculate the continuous instantaneous torque from the load torque, acceleration torque, deceleration torque and holding torque.
7. Be clear about the requirements of the load mechanism for motion conditions, such as, acceleration/deceleration speed, mechanism weight, mechanism movement method, etc.
8. The maximum output torque of the primary motor must be greater than the acceleration torque and load torque. If it does not meet the requirements, other models must be selected for calculation verification until the requirements are met.
9. The rated torque of the primary motor must be greater than the continuous instantaneous torque. If it does not meet the requirements, the calculation of other models must be selected to verify until the requirements are reached.

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