0.75kw Servo Driver Servo Motor Automation Control Servo System for Industrial Robot Arm

Customization: Available
Task: Program
Structure: Closed-Loop

Products Details

  • Overview
  • Product Description
  • Product Parameters
  • Installation Instructions
  • Company Profile
Overview

Basic Info.

Model NO.
EA180
Condition
New
Customized
Customized
Material
Aluminum Alloy
Control Type
IGBT PWM Control Sine Wave Current Driving
Protection Degree
I P 1 0
Class of Pollution
2
Type of Cooling
Fan Cooling
Communication Protocol
M O D B U S R T U
Communication Mode
RS232, RS485
Transport Package
Wooding
Trademark
SINEE
Origin
China
Production Capacity
400000sets/Year

Product Description

0.75KW Servo Driver Servo Motor Automation Control Servo System For Industrial Robot Arm
0.75kw Servo Driver Servo Motor Automation Control Servo System for Industrial Robot Arm0.75kw Servo Driver Servo Motor Automation Control Servo System for Industrial Robot Arm
Product Description

High-speed response performance

•Up to 1.0KHz speed frequency response.
•Shortened positioning time.
•High-speed and high-accuracy real-time synchronous
communication on basis of parallelized system design.

High-accuracy positioning
•Encoder of 17 bit incremental and 23 bit absolute value,
with the powerful control performance, can make the
positioning accuracy less than 5 encoder pulses.

Abandant product series
•Analog & pulse standard type and network type with
EtherCATor CANopen or RS485 protocol supported;
•2500 ppr or serial type with17 bit incremental or 23 bit absolute values encoder available

Small Size
•Size similar to Panasonic A6 series drive, matched with SINEE SES servo motor, can help to minimize the system volume.


Intelligent controls
•Intelligentized resonance suppression
The system has four (4) high-frequency resonance suppression
notch filters, two (2) of them are the FFT-based ones; the others
are manual ones.
Synchronously the vibration suppression filters are provided
to minimize the vibration of long arm machine.
•Control gain switchover functions
The control loop structure on the basis of PDFF may reduce
overshooting efficiently.
The parameter self-adjustment on the basis of inertia
may enhance the site adaptability.

High reliability
•Complete protection function and EMC design
Protection function design on the basis of overall reliability of motor and driver;
EMC design on the basis of graded optimization and system adaptability.
•High-performance motor material and technology ensure the system to run reliably
Containing dysprosium-neodymium-ferroboron magnetic steel, high-strength shaft,
Tamagawa encoder, large-size bearing, encapsulated by resin.
0.75kw Servo Driver Servo Motor Automation Control Servo System for Industrial Robot Arm0.75kw Servo Driver Servo Motor Automation Control Servo System for Industrial Robot Arm

 

Product Parameters
Item Specification
Basic specification Control type IGBT PWM control sine wave current driving
Feedback Supporting incremental 2500 ppr encoder, 17 bit incremental encoder, 23 bit absolute encoder
Six (6) control modes Speed control, position control, torque control, speed/position control, torque/speed control, position/torque control
Front panel 5 buttons, 5 LED places
Regenerative brake (note 1) Built in braking unit and resistor, allowing to connect with the external braking resistor.
Use condition Ambient temperature Operating temperature 0~40°, storage temperature: -20°~ 85°
Ambient humidity Operating/storage: ≤90%RH (without condensation)
Altitude ≤1,000m
Vibration-resisting impact strength Oscillation: ≤4.9m/s2 (no work is allowed at the point of resonance); impact: ≤19.6m/s2
Protection degree I P 1 0
Class of pollution 2
Type of cooling (note2) Fan cooling
Performance Speed torque
control mode
Speed
fluctuation
ratio
Load variance 0~100% load: 0.3% maximally On the basis of 23 bit encoder and at the rated speed
Power voltage variance Rated voltage ±10%: 0.3% maximally
Ambient temperature 0~50°: 0.3% maximally
Speed ratio 1:3000 (2500ppr encoder)
1:5000 (17 bit and 23 bit encoder)
Continuous and stable operating at rated load: minimum
speed/rated speed
Frequency bandwidth 800Hz (17 bit encoder)
Torque control accuracy ±3% (current repeated accuracy )
Soft start time setting 0~30s (setting acceleration and deceleration respectively)
Position
control mode
Feed-forward compensation 0~100% (setting the resolution 1%)
Positioning completion width 1~65535 command unit (setting the resolution 1 command unit)
Minimum setting time 5ms (no-load, when the positioning completes at the rated speed)
Speed torque control mode Input signal Speed command input Command voltage +/10v resolution 12 bits (the motor rotates positively when there is positive command note3)
Input impedance 5.1 ohm approximately
Circuit constant 200μs
Torque command
input
Command voltage ±10V resolution 12 bits
Input impedance 5.1 ohm approximately
Circuit constant 200μs
Multi-stage speed command The default use of DI5 (CMD0), DI6 (CMD1), D17 (CMD2), D18 (CMD3) signal mix is used to realize 16-section
speed selection
Position control mode Input signal Command pulse Input form Differential drive: open-collector circuit
Pulse form Pulse + direction: orthogonal pulse ; CW/CCW
Input pulse frequency Differential drive: max. 500Kpps; open-collector circuit: max. 200Kpps
Command pulse wave filtration Allowing to setting the pulse filtering parameters
Multi-stage position command Allowing to set the DI5 (CMD0), DI6 (CMD1), D17 (CMD2), D18 (CMD3) signal mix to realize 16-section position
selection (the one with the terminal capable of making CTRG trigger signal is provided separately).
16-section position progressive mode, using CTRG terminal single triggering
Command sliding mode Lowpass filtering, moving-average filters
Internal open-collector power + 2 4 V
Internal current-limiting resistance Open-collector circuit: 2.2KΩ
Differential drive: 200Ω
Input/output signal Position output Output form Phase A, B and Z: differential output
Phase Z: OC output
The pulse width of the Phase Z can be adjusted, max.3ms
Frequency dividing ratio Random frequency dividing; the number of frequency dividing can be the one of 4 times before frequency or after
frequency.
Input/output signal Digital input Modifiable signal distribution 8-way DI
Servo enabled, fault resetting, position pulse error counter clearing, speed command direction selection, position/speed
multi-stage switch, zero-position fixing enabled, internal command triggering, control mode switch, pulse Inhibited,
positive drive Inhibited, Negative drive Inhibited, second torque limit, positive inching, negative inching, others
Digital input Modifiable signal distribution 4-way D0
Servo ready, brake output, motor rotary output , zero-speed signal, speed proximity, speed arrival, position proximity,
position arrival, torque limit, speed limit, warning output, fault output, others
Internal functions Overrun prevention function P-OT, N-OT take effect, deceleration stop
Origin return Optional 35 origin return modes
Electronic gear ratio N/M time N: 1~65535 M: 1~65535
Allowing to switch the molecule of 4 types of electronic gear ratios via terminal
LED display 5-bit LED display: main circuit CHARGE
Protection function Overvoltage, undervotage , overcurrent, overspeed, IGBT overheat, overload, encoder abnormality, large position error,
EEPROM fault, others
Analog quantity output for observation 2-way AO: DC0~10V, maximum output current: 1mA
Allowing to set the observation object
Communication function Communication mode RS232, RS485
Communication protocol M o d b u s R T U ,
Others Two-stage gain switch, automatic gain adjustment, 4 groups of alarm records, JOG operation
Installation Instructions
Item Description
Antirust treatment Before installation, please wipe off the "rust inhibitor" on the extension of the servo motor shaft before relevant antirust treatment.
Notes for encoders •The shaft extension shall not be impact during installation, otherwise the encoder inside will be cracked.
 
   
0.75kw Servo Driver Servo Motor Automation Control Servo System for Industrial Robot Arm
 
Pulley installation When installing pulleys on a servo motor shaft with a keyway, use screw holes at the shaft end. In order to install the pulley, first insert the double-headed nail into the screw hole of the shaft, use a washer on the surface of the coupling end, and gradually fasten the pulley with a nut.
•For servo motor shaft with a keyway, install it with the screw hole at shaft end. For a shaft without keyway, wear coupling or similar methods can be adopted.
•When the pulley is removed, a pulley remover should be used to prevent impact on the bearing.
•In order to ensure safety, a protective cover or similar device shall be installed in the rotating area.
0.75kw Servo Driver Servo Motor Automation Control Servo System for Industrial Robot Arm
Centering •Please use a coupling to connect the device with the machine and keep the axis of the servo motor in a straight line with that of the machinery. The radial runout of the coupling should not be greater than 0.03 mm. If centering is not sufficient, vibration will occur, which may damage bearings, encoders, etc.
Installation direction •Servo motor can be installed in a horizontal or vertical direction. Please do not install the device obliquely, otherwise it may cause wearing of motor bearing.
Countermeasures for oil and water For use in places with water dripping, please confirm the protection rating of the servo motor before use (except the shaft penetration part). For use in places where oil drips to the shaft penetration part, please be sure to use servo motors with oil seals.
Service conditions for servo motors with oil seals:
•Please make sure that the oil level is lower than the lip of the oil seal during use.
•Please use the oil seal in a state where the oil spatter can be kept in a good degree.
•When the servo motor is installed vertically upward, please be careful to prevent oil accumulation on the oil seal lip.
0.75kw Servo Driver Servo Motor Automation Control Servo System for Industrial Robot Arm
Cable stress condition Do not bend the cables excessively or apply tension to them, especially for the 0.14 mm2 or 0.2 mm2 core wires of the encoder signal cables, which is very thin. So please do not stretch them too tightly during wiring and use.When installing in the tow chain, high-flexibility tow chain cables must be selected.
Connector handling For the connector part, please pay attention to the following:
•When connecting a connector, please make sure that there is no foreign matter such as garbage or metal debris in the connector.
•When connecting the connector to the servo motor, be sure to connect from the side of the main circuit cable of the servo motor first, and the main cable must be reliably grounded. Otherwise, the encoder may fail due to the potential difference with PE.
•When wiring, please make sure the pins are arranged correctly.
•The connector is made of resin. Do not apply impact to the connector, otherwise it may be damaged.
•Always hold the main body of the servo motor during handling while the cables remain connected. Otherwise, the connector may be damaged or the cables may be broken.
•If a cable needs to be bent, due care should be taken during wiring so as not to cause pressure or tension on the connector, otherwise damage or poor contact of the connector may be caused.

 

Company Profile
0.75kw Servo Driver Servo Motor Automation Control Servo System for Industrial Robot Arm

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