ASDA-B2 User-Manual(E)CURVE.cdr - Delta Electronics

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ASDA-B2 Chapter 2 Installation and Storage Servo Drive (kW) High Inertia Servo Motor Rotor Inertia J (× 10 -4 kg.m 2 ) Regenerative power from empty load 3000r/min to stop Eo (joule) Max. regenerative power of capacitance Ec(joule) 0.4 ECMA-G21303 8.17 40.40 8 0.75 ECMA-G21306 8.41 41.59 14 1.0 ECMA-G21309 11.18 55.29 18 Eo = J x wr 2 /182 (joule) , Wr : r/min If the load inertia is N × motor inertia, the regenerative power will be (N+1) x E0 when servo motor brakes from 3000r/min to 0. Then, the regenerative resistor can dissipate: (N+1) x E0 - Ec (joule). If the time of repeat operation cycle is T sec, then the regenerative power = 2 x ((N+1) x E0 - Ec) / T. The calculating procedure is as follows: Step Procedure Equation and Setting Method 1 Set the capacity of regenerative resistor to the maximum Change the value of P1-53 to maximum 2 Set the operation cycle T Input by the users 3 Set motor speed wr 4 Set load/motor inertia ratio N 5 6 7 Calculate the max. regenerative power Eo Set the regenerative power Ec that can be absorbed Calculate the required regenerative power capacity Input by the users or read via P0-02 Drive State Display Input by the users or read via P0-02 Drive State Display Eo = J x wr 2 /182 Refer to the table above 2 x (N+1) x Eo-Ec)/ T For example: If we use 400W servo drive, the time of repeat operation cycle is T = 0.4 sec, max. motor speed is 3000r/min, the load inertia = 7 × motor inertia, then the necessary the power of regenerative resistor = 2 x ( (7+1) × 1.68 - 8) / 0.4 = 27.2W. If the calculation result is smaller than regenerative power, we recommend the users to use the built-in 60W regenerative resistor. Usually the built-in regenerative resistor provided by ASDA-B2 series can meet the requirement of general application when the external load inertia is not excessive. The users can see when the capacity of regenerative resistor is too small, the accumulated power will be larger and the temperature will also increase. The fault, ALE05 may occur if the temperature is over high. The following figure shows the actual operation of regenerative resistor. Revision January 2012 2-11
Chapter 2 Installation and Storage ASDA-B2 (2) With Load When there is an external load torque, servo motor is in reverse rotation when external load greater than motor torque. Servo motor is usually in forward rotation and the motor torque output direction is the same as the rotation direction. However, there is still some special condition. If the motor output torque is in the reverse direction of rotation, the servo motor is also in the reverse direction of rotation. The external power is input into the servo drive through servo motor. The figure below is an example. The users can see the motor is in forward rotation at constant speed when a sudden external load torque change and great power is transmitted to regenerative resistor rapidly. Motor Rotation Speed External Load Torque Motor Output Torque Reverse Rotation Forward Rotation Reverse Rotation Forward Rotation External load torque in reverse direction: TL x Wr TL : External load torque For the safety, we strongly recommend the users should select the proper resistance value according to the load. For example: When external load torque is a +70% rated torque and rotation speed reaches 3000r/min, if using 400W servo drive (rated torque: 1.27Nt-m), then the users need to connect a external regenerative resistor which power is 2 x (0.7 x 1.27) x (3000 x 2 x π/ 60) = 560W, 40Ω. 2-12 Revision January 2012
Page 2 and 3: Preface Thank you very much for pur
Page 4 and 5: ASDA-B2 Preface Unpacking Check Ins
Page 6 and 7: Table of Contents Chapter 1 Unpacki
Page 8 and 9: Table of Contents 4.3.4 Polarity Se
Page 10 and 11: Table of Contents 6.5.1 Speed / Pos
Page 12 and 13: Table of Contents About this Manual
Page 14 and 15: Chapter 1 Unpacking Check and Model
Page 16 and 17: ASDA-B2 Chapter 1 Unpacking Check a
Page 22 and 23: Chapter 2 Installation and Storage
Page 24 and 25: ASDA-B2 Chapter 2 Installation and
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Chapter 4 Display and Operation Thi
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ASDA-B2 Chapter 4 Display and Opera
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Chapter 5 Trial Run and Tuning Proc
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Chapter 7 Servo Parameters 7.1 Defi
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ASDA-B2 Chapter 7 Servo Parameters
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Chapter 8 MODBUS Communications 8.1
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Chapter 9 Troubleshooting If a faul
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Chapter 10 Specifications 10.1 Spec
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ASDA-B2 Chapter 10 Specifications F
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ASDA-B2 Chapter 10 Specifications 1
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Appendix A Accessories • Power Co
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ASDA-B2 Appendix A Accessories •
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ASDA-B2 Appendix A Accessories 400W
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ASDA-B2 Appendix A Accessories 1kW
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ASDA-B2 Appendix A Accessories 3kW
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Appendix B Maintenance and Inspecti
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ASDA-B2 Appendix B Maintenance and
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