AC Power EtherCAT Closed Loop Servo System Ethercat High Torque
Product Details:
Place of Origin: | China |
Brand Name: | Vector |
Certification: | CE |
Model Number: | VEC-VC-03833H-M-EA/350MC-018A33-MF2Y |
Payment & Shipping Terms:
Minimum Order Quantity: | 1 kit |
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Price: | To Be Discussed |
Packaging Details: | 375*290*155mm, 280*208*112mm |
Delivery Time: | 5-8 work days |
Payment Terms: | L/C, T/T, Western Union |
Supply Ability: | 500-1000 kits /Month |
Detail Information |
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Phase: | Three Phase | Voltage: | 380V |
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Model: | VEC-VC-03833H-M-EA/350MC-018A33-MF2Y | Usage: | Printing Machine |
Certifictaes: | CE | Encoder: | 2500 Pulse Incremental + Hall Encoder; |
Communication Protocols: | Modbus/CANopen/EtherCAT | Power: | 18.5KW |
High Light: | AC Ethercat Closed Loop Servo System,EtherCAT 18.5KW Closed Loop Servo System,High Torque 18.5KW Ethercat Servo System |
Product Description
18.5KW Ethercat Closed Loop High Torque Stepper Servo Motor Driver For Printers
High Torque Stepper Servo Motor Driver
AC Power 18.5KW
Three Phase 380V
Modbus / CanOpen / EtherCAT
Location / Speed / Torque Control Mode
24bit Tamagawa absolute encoder;
Products Features
Product Name | High Torque Stepper Servo Motor Driver |
Brand | Vector |
Model No. | VEC-VC-03833H-M-EA/350MC-018A33-MF2Y |
Power4 | 18.5KW |
Voltage | 380V |
Phase | Three Phase |
Rated Current | 38A |
Communication Protocols | Modbus/CANopen/EtherCAT |
Encoder | 2500 pulse incremental + Hall encoder; |
Voltage | Control Mode | Single-phase / three-phase full-controlled rectification SVPWM modulation |
Encoder | Encoder Feedback | 2500 pulse incremental + Hall encoder; 2500 pulse incremental; 17bit Tamagawa absolute encoder; 23bit Tamagawa absolute encoder; 24bit Nikon absolute encoder; |
Pulse Command Input | Pulse Type | Differential input,Open collector |
Frequency Range | Differential input:0-500kHz,pulse width greater than 1us Open collector: 0-300kHz,pulse width greater than 2.5us |
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Pulse Mode | pulse + direction; AB pluses; CW+CCW; | |
Analog Input | Voltage Range | -10V to 10V |
Input Impedance | 10kΩ | |
Maximum Frequency | 1.5kHz | |
DI/DO Interface Type | NPN/PNP | |
Communication | Modbus/CANopen/EtherCAT | |
Location Mode | Command Input Method | Pulse Command Internal Planning Position Plan by target position, speed, acceleration and deceleration time Trapezoidal speed curve Cubic speed curve Absolute / relative command mode |
Instruction Smoothing Mode | Low Pass Filtering / Median Filtering | |
Electronic Gear Ratio | N/M;(M=1~2147483647,N=1~2147483647) | |
Torque Limit | Internal Torque Limit / Analog Torque Limit | |
Feedforward Compensation | Speed Feedforward / Torque Feedforward | |
Torque Compensation | Fixed Torque Compensation / Analog Torque Compensation / Automatic Torque Compensation; |
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Speed Contol Mode | Command Input Type | Pulse Frequency / Analog / Internal Planning Speed |
Speed Control Range | 1~max speed | |
Bandwidth | 1kHz | |
Torque Limit | Internal Torque Limit / Analog Torque Limit | |
Instruction Smoothing Mode | Low Pass Filtering / Median Filtering | |
Feedforward Compensation | Torque feedforward | |
Torque Compensation | Fixed Torque Compensation / Analog Torque Compensation / Automatic Torque Compensation; |
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Torque Control Mode | Command Input Type | Internal Torque Reference / Analog Control Torque |
Torque Compensation | Fixed Torque Compensation / Analog Torque Compensation / Automatic Torque Compensation; |
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Speed Limit | Internal Speed Limit / Analog Speed Limit |
Servo Drive model slecting:
Servo motor model slecting:
Operating precautions:
● in the test operation, in order to prevent accidents, please test the servo motor with no load
(not connected to the driver shaft), otherwise it may cause injury.
● when starting to operate on the supporting machine, set the user parameters that match the machine
in advance. If you start operation without parameter setting, it may cause mechanical loss or malfunction.
● to avoid accidents, install a limit switch or a stopper at the end of the movable part of the machine,
otherwise it will cause mechanical damage or injury.
● do not make extreme changes to the parameter settings, as this may result in
unstable operation, mechanical damage or injury.
●when the power is turned on or the power supply is cut off, the heat sink of the servo driver, external
braking resistor, motor, etc. may be in a high temperature state. Do not touch it, otherwise it may cause burns.
● when using a servo motor on the vertical axis, set a safety device to prevent the work piece from falling
under alarm, over travel, etc. In addition, please perform the servo lock stop setting when an over travel occurs,
otherwise the work piece may fall in the over travel condition.
● do not enter the operating range of the machine during operation, otherwise it will cause injury.
● do not touch the servo motor or the movable part of the machine during
operation, otherwise it will cause injury.
● please set up the safety system to ensure safety even in the event of a signal
line breakage. For example, when the positive over travel switch (P-OT) and negative over travel switch
(N-OT) signals are disconnected at the factory setting, they operate safely.
● be sure to set the servo OFF state when turning off the power.
● do not turn the power on/off frequently. After the actual operation starts, the power ON/OFF interval
should be more than 1 hour, otherwise the components inside the servo unit will be prematurely aged.
●when an alarm occurs, reset the alarm after the cause is removed and ensure
safety, and restart the operation, otherwise it may cause injury.
● do not use the brake of the brake motor for normal braking, otherwise it may
cause a malfunction.
Maintenance and inspection Precautions
● do not change the wiring while the power is on, otherwise it may cause electric shock or injury.
● please perform wiring or inspection by professional technicians, otherwise it
may cause electric shock or product failure.
● please check the power after the power is off for at least 5 minutes. Even if the power is turned off,
high voltage may remain inside the servo drive. Therefore, do not touch the power terminal within 5
minutes after the power is turned off, otherwise it may cause electric shock.
●when replacing the servo drive, please back up the servo driver user parameters to be replaced
before the replacement, and transfer the backup to the new servo drive, and then restart the operation,
otherwise the machine may be damaged.
Packing and Shipping
Packing details of Servo Drive | |||||
Products | E1(3-6A) | E2(7-12A) | E3(16-27A) | C015(32-38A) | C022(45-60A) |
Ctn. Size | 280*208*78 | 280*208*112 | 375*290*155 | 440*296*288 | 510*305*325 |
Packing details of Motion Controller | |||||
Products | VA Motion | VA Expansion | VE Motion | VE Expansion(32) | VE Expansion(76) |
Ctn. Size | 176*165*78 | 127*75*70 | 144*128*69 | 176*164*78 |
316*164*78 |
Delivery Time
Quantity | 1-5 kits | 50-100 kits | 200-500 kits |
Delivery time | Within 3 days | 5-10 days | 15-25 days |
1. For small order we always can delivery out within 1 week.
2. Our products can be shippied via Air, Land or Sea.
Accessories
Accessory name | Image | ||
Satandard Spare Parts | Power terminal | Adapt to E1,E2 structure drive | |
Cn3 encoder plug | Encoder plug on the driver side | ||
Cn4 control terminal plug | Input/output signal terminals,user wiring | ||
Encoder connection line | The standard cable length is 3, 5, 8, 10, 13, 15 meters, according to customer needs Provide independent connector |
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Power line | The standard cable length is 3, 5, 8, 10, 13, 15 meters, according to customer needs Provide independent connector |
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Drive monitoring line | Connect and adjust the software for remote monitoring and firmware update | ||
Purchasing Spare Parts | USB to RS232 Adapter cable | If necessary, self purchase | |
Ethernet communication line | If necessary, self purchase |
CE Certificates
1. CE (EU Safety Standard);
2. IEC/EN61800-5-1:2007 (Safety requirements for electrical, thermal and energy in Section 5-1 of the
variable speed electric driver system), corresponding to the national standard GB12668.501-2013;
3, IEC / EN61800-3: 2004 + A1 (speed control electric driver system part 3 electromagnetic compatibility
standards and its specific test methods), corresponding to the national standard GB12668.3-2012.
Our Team