User manual EATON SVX9000 AF DRIVES

[. . . ] SVX9000 AF Drives User Manual Application Manual Supersedes October 2003 April 2004 Volume Contents SVX9000 AF Drive User Manual SVX9000 AF Drive Application Manual MN04003002E For more information visit: www. eatonelectrical. com SVX9000 AF Drive User & Application Manual April 2004 Volume Table of Contents SVX9000 AF Drives User Manaul SAFETY . v 1-1 2-1 3-1 4-1 5-1 6-1 A-1 B-1 SVX9000 AF Drives Application Manual SAFETY . vii 1-1 2-1 3-1 4-1 5-1 6-1 7-1 8-1 A-1 For more information visit: www. eatonelectrical. com MN04003002E SVX9000 AF Drives User Manual Supersedes October 2003 April 2004 MN04003002E For more information visit: www. eatonelectrical. com SVX9000 AF Drive User Manual April 2004 Important Notice ­ Please Read The product discussed in this literature is subject to terms and conditions outlined in Eaton Electrical Inc. The sole source governing the rights and remedies of any purchaser of this equipment is the relevant Eaton Electrical Inc. [. . . ] However, if you want to use the values of a digital input signal for e. g. testing purposes only, you can set the board slot value to 0 and the terminal number to any number between 2 and 10 to place the input to a TRUE state. In other words, the value 1 corresponds to an "open contact" and values 2 to 10 to a closed contact. In the case of analog inputs, setting the value 1 for the terminal number corresponds to 0%, value 2 corresponds to 20%, and any value between 3 and 10 corresponds to 100%. Parameter Lists On the next pages you will find the lists of parameters within the respective parameter groups. Unit Default Cust ID = = = = = = = = = = Location indication on the keypad; Shows the operator the present parameter number Name of parameter Minimum value of parameter Maximum value of parameter Unit of parameter value; Given if available Value preset by factory User's customized setting ID number of the parameter for reference to Chapter 8 Parameter value can only be changed when the SVX9000 is stopped Programmed using terminal to function (TTF) method. See Page 6-3 MN04003002E For more information visit: www. eatonelectrical. com 6-5 SVX9000 AF Drive Application Manual April 2004 Basic Parameters -- M1 G1. 1 Table 6-2: Basic Parameters -- M1 G1. 1 Code P1. 1. 1 P1. 1. 2 Parameter Min frequency Max frequency Min. P1. 1. 2 Unit Default Hz 0. 00 60. 00 Cust ID 101 102 NOTE: If fMax > the motor synchronous speed, check suitability for motor and drive system Note 320. 00 Hz P1. 1. 3 P1. 1. 4 P1. 1. 5 P1. 1. 6 Acceleration time 1 0. 1 Deceleration time 1 0. 1 Current limit 3000. 0 s 3000. 0 s A V 3. 0 3. 0 IL SVX-2: 230V SVX-4: 460V 60. 00 1775 103 104 107 110 IH is the nominal current rating of the SVX9000 Motor nameplate value 0. 4 x IH 2 x IH 690 Nominal voltage of 180 the motor P1. 1. 7 P1. 1. 8 Nominal frequency 30. 00 of the motor Nominal speed of the motor Nominal current of the motor Power Factor Local control place 300 320. 00 Hz 20 000 rpm 111 112 Motor nameplate value Motor nameplate value -- The default applies for a 4-pole motor and a nominal size SVX9000. Motor nameplate value Motor nameplate value 1 = I/O Terminal 2 = Keypad 3 = Fieldbus 1 = I/O Terminal 2 = Keypad 3 = Fieldbus 0 = AI1 1 = AI2 2 = AI1+AI2 3 = AI1-AI2 4 = AI2-AI1 5 = AI1xAI2 6 = AI1 Joystick 7 = AI2 Joystick 8 = Keypad 9 = Fieldbus 10 = Motor potentiometer 11 = AI1, AI2 minimum 12 = AI1, AI2 maximum 13 = Max frequency 14 = AI1/AI2 selection P1. 1. 9 P1. 1. 10 P1. 1. 11 0. 4 x IH 2 x IH 0. 30 1 1. 00 3 A IH 0. 85 2 113 120 171 P1. 1. 12 Remote control place Local control reference 1 3 1 172 P1. 1. 13 0 14 8 173 6-6 For more information visit: www. eatonelectrical. com MN04003002E SVX9000 AF Drive Application Manual April 2004 Table 6-2: Basic Parameters -- M1 G1. 1, continued Code P1. 1. 14 Parameter Remote control reference Min. 14 Unit Default 0 Cust ID 174 Note 0 = AI1 1 = AI2 2 = AI1+AI2 3 = AI1-AI2 4 = AI2-AI1 5 = AI1xAI2 6 = AI1 Joystick 7 = AI2 Joystick 8 = Keypad 9 = Fieldbus 10 = Motor potentiometer 11 = AI1, AI2 minimum 12 = AI1, AI2 maximum 13 = Max frequency 14 = AI1/AI2 selection P1. 1. 15 P1. 1. 16 P1. 1. 17 P1. 1. 18 P1. 1. 19 P1. 1. 20 P1. 1. 21 P1. 1. 22 Jog speed reference Preset speed 1 Preset speed 2 Preset speed 3 Preset speed 4 Preset speed 5 Preset speed 6 Preset speed 7 0. 00 0. 00 0. 00 0. 00 0. 00 0. 00 0. 00 0. 00 P1. 1. 2 P1. 1. 2 P1. 1. 2 P1. 1. 2 P1. 1. 2 P1. 1. 2 P1. 1. 2 P1. 1. 2 Hz Hz Hz Hz Hz Hz Hz Hz 5. 00 10. 00 15. 00 20. 00 25. 00 30. 00 40. 00 60. 00 124 105 106 126 127 128 129 130 Multi-step speed 1 Multi-step speed 2 Multi-step speed 3 Multi-step speed 4 Multi-step speed 5 Multi-step speed 6 Multi-step speed 7 MN04003002E For more information visit: www. eatonelectrical. com 6-7 SVX9000 AF Drive Application Manual April 2004 Input Signals -- M1 G1. 2 Table 6-3: Basic Input Signals -- M1 G1. 2. 1 Code Parameter Min. 7 Unit Default 0 Cust ID 300 0 1 2 3 4 5 6 7 P1. 2. 1. 2 Motor potentiometer ramp time P1. 2. 1. 3 Motor potentiometer frequency reference memory reset P1. 2. 1. 4 Adjust input 0. 1 2000. 0 Hz/s 10. 0 331 Note Start Signal 1 Start Signal 2 (Default: DIN1) (Default: DIN2) Start forw. Start/Stop Start/Stop Start pulse Start Fwd pulse Start pulse Start pulse Start rev. Reverse Run enable Stop pulse Mot. pot. UP Rev pulse Rev pulse Enabl pulse P1. 2. 1. 1 Start/Stop logic 0 2 1 367 0 = No reset 1 = Reset if stopped or powered down 2 = Reset if powered down 0 = Not used 1 = AI1 2 = AI2 3 = AI3 4 = AI4 5 = Fieldbus 0 5 0 493 P1. 2. 1. 5 P1. 2. 1. 6 Adjust minimum 0. 0 Adjust maximum 0. 0 100. 0 100. 0 % % 0. 0 0. 0 494 495 Table 6-4: Analog Input 1 -- M1 G1. 2. 2 Code P1. 2. 2. 1 P1. 2. 2. 2 P1. 2. 2. 3 Parameter Min. Unit Default AnIN:A. 1 s 0. 10 0 Cust ID 377 324 320 0 = No filtering 0 = 0 ­ 100% 1 = 20 ­ 100% 2 = -10V ­ +10V 3 = Custom range Note AI1 signal selection AnIN:0. 1 AnIN:E. 10 AI1 filter time AI1 signal range 0. 00 0 10. 00 3 P1. 2. 2. 4 P1. 2. 2. 5 P1. 2. 2. 6 AI1 custom minimum setting AI1 custom maximum setting AI1 reference scaling, minimum value AI1 reference scaling, maximum value -100. 00 -100. 00 0. 00 100. 00 100. 00 320. 00 % % Hz 0. 00 100. 00 0. 00 321 322 303 Selects the frequency that corresponds to the min. reference signal P1. 2. 2. 7 0. 00 320. 00 Hz 0. 00 304 Place jumpers of block X2 appropriately. 6-8 For more information visit: www. eatonelectrical. com MN04003002E SVX9000 AF Drive Application Manual April 2004 Table 6-4: Analog Input 1 Signals -- M1 G1. 2. 2, continued Code P1. 2. 2. 8 P1. 2. 2. 9 P1. 2. 2. 10 P1. 2. 2. 11 Parameter AI1 joystick hysteresis AI1 sleep limit AI1 sleep delay AI1 joystick offset Min. 20. 00 100. 00 320. 00 50. 00 Unit Default % % s % 0. 00 0. 00 0. 00 0. 00 Cust ID 384 385 386 165 Note Table 6-5: Analog Input 2 -- M1 G1. 2. 3 Code P1. 2. 3. 1 P1. 2. 3. 2 P1. 2. 3. 3 Parameter Min. Unit Default AnIN:A. 2 s 0. 10 0 Cust ID 388 329 325 0 = No filtering 0 = 0 ­ 100% 1 = 20 ­ 100% 2 = -10V ­ +10V 3 = Custom range Note AI2 signal selection AnIN:0. 1 AnIN:E. 10 AI2 filter time AI2 signal range 0. 00 0 10. 00 3 P1. 2. 3. 4 P1. 2. 3. 5 P1. 2. 3. 6 AI2 custom minimum setting AI2 custom maximum setting AI2 reference scaling, minimum value AI2 reference scaling, maximum value AI2 joystick hysteresis AI2 sleep limit AI2 sleep delay AI2 joystick offset -100. 00 -100. 00 0. 00 100. 00 100. 00 320. 00 % % Hz 0. 00 100. 00 0. 00 326 327 393 Selects the frequency that corresponds to the min. reference signal P1. 2. 3. 7 0. 00 320. 00 Hz 0. 00 394 P1. 2. 3. 8 P1. 2. 3. 9 P1. 2. 3. 10 P1. 2. 3. 11 0. 00 0. 00 0. 00 -50. 00 20. 00 100. 00 320. 00 50. 00 % % s % 0. 00 0. 00 0. 00 0. 00 395 396 397 166 Place jumpers of block X2 appropriately. Table 6-6: Analog Input 3 -- M1 G1. 2. 4 Code P1. 2. 4. 1 P1. 2. 4. 2 P1. 2. 4. 3 Parameter Min. Unit Default AnIN:0. 1 s 0. 10 0 Cust ID 141 142 143 0 = No filtering 0 = 0 ­ 100% 1 = 20 ­ 100% 2 = -10V ­ +10V 3 = Custom range Note AI3 signal selection AnIN:0. 1 AnIN:E. 10 AI3 filter time AI3 signal range 0. 00 0 10. 00 3 P1. 2. 4. 4 P1. 2. 4. 5 P1. 2. 4. 6 AI3 custom minimum setting AI3 custom maximum setting -100. 00 -100. 00 100. 00 100. 00 1 % % 0. 00 100. 00 0 144 145 151 0 = Not inverted 1 = Inverted AI3 signal inversion 0 Place jumpers of block X2 appropriately. MN04003002E For more information visit: www. eatonelectrical. com 6-9 SVX9000 AF Drive Application Manual April 2004 Table 6-7: Analog Input 4 -- M1 G1. 2. 5 Code P1. 2. 5. 1 P1. 2. 5. 2 P1. 2. 5. 3 Parameter Min. Unit Default AnIN:A. 1 s 0. 10 0 Cust ID 152 153 154 0 = No filtering 0 = 0 ­ 100% 1 = 20 ­ 100% 2 = -10V ­ +10V 3 = Custom range Note AI4 signal selection AnIN:0. 1 AnIN:E. 10 AI4 filter time AI4 signal range 0. 00 0 10. 00 3 P1. 2. 5. 4 P1. 2. 5. 5 P1. 2. 5. 6 AI4 custom minimum setting AI4 custom maximum setting -100. 00 -100. 00 100. 00 100. 00 1 % % 0. 00 100. 00 0 155 156 162 0 = Not inverted 1 = Inverted AI4 signal inversion 0 Place jumpers of block X2 appropriately. Table 6-8: Free Analog Input -- M1 G1. 2. 6 Code P1. 2. 6. 1 Parameter Scaling of current limit Min. 5 Unit Default 0 Cust ID 399 Note 0 = Not used 1 = AI1 2 = AI2 3 = AI3 4 = AI4 5 = Fieldbus See P1. 2. 6. 1 See P1. 2. 6. 1 See P1. 2. 6. 1 See P1. 2. 6. 1 P1. 2. 6. 2 P1. 2. 6. 3 P1. 2. 6. 4 P1. 2. 6. 5 Scaling of DCbraking current Reducing of acc. / dec. times 0 0 5 5 5 5 0 0 0 0 400 401 402 485 Reducing of torque 0 supervision limit Torque limit 0 6-10 For more information visit: www. eatonelectrical. com MN04003002E SVX9000 AF Drive Application Manual April 2004 Table 6-9: Digital Inputs -- M1 G1. 2. 7 Code P1. 2. 7. 1 P1. 2. 7. 2 P1. 2. 7. 3 P1. 2. 7. 4 P1. 2. 7. 5 P1. 2. 7. 6 P1. 2. 7. 7 P1. 2. 7. 8 Parameter Start signal 1 Start signal 2 Run enable Reverse Preset speed 1 Preset speed 2 Preset speed 3 Motor potentiometer reference DOWN Motor potentiometer reference UP Fault reset External fault (close) External fault (open) Acc/Dec time selection Acc/Dec prohibit DC braking Jog speed AI1/AI2 selection Force to Local control Force to Remote control Min. Unit Default DigIN:A. 1 DigIN:A. 2 DigIN:0. 2 DigIN:0. 1 DigIN:0. 1 DigIN:0. 1 DigIN:0. 1 DigIN:0. 1 Cust ID 403 404 407 412 419 420 421 417 Motor potentiometer reference decreases (cc) Motor potentiometer. [. . . ] If the load requires this high current there is a risk that the motor will be thermally overloaded. At low frequencies the cooling effect of the integral motor fan is reduced as well as its capacity. If the motor is equipped with an external fan the load reduction at low speeds is small. The motor thermal protection is based on a calculated model and it uses the output current of the SVX9000 to determine the load on the motor. [. . . ]