Home

GVX9000 AF Drives

1. e 3 12 79 2 gt s 2 87 73 0 gt q RUN STOP FWD REV LOC 4 33 110 0 6 e Y A MA P 03 7 x 19 4 8 Deep for Mounting Screw e Typ 3 Places J5 36 9 1 19 0 Remote Keypad z 06 Water Resistant Gasket E 5 Remove Adhesive Adhesive Paper Backing en po Paper u 1 57 a F 40 0 gt a P D i 20 5 0 Dia Tm eee Typ 3 Places wu t c 04 to 12 Thick Cut Out for the 67 1 0 to 3 0 ESS Extension Cable 17 0 3 27 Rubber Gasket 241 83 0 38 48 61 1 9 6 12 3 ue pe e 33 36 1m m LL e 65 16 4 26 52 Hole Dimension for Mountin 66 23 i Phone Cable Figure C 11 Approximate Kit Dimensions in Inches mm GVX9000 User Manual C 19 Accessories E T N C 20 This page intentionally left blank GVX9000 User Manual E T N Appendix D Dimensions Inside this chapter Digital Keypad Rr cee Ie bee she D 2 uq TIT D 3 GVX9000 User Manual D 1 E TN Digital Keypad Digital Keypad 3 12 79 2 a 2 87 1 57 Bi 73 0 gt 40 0 gt tHe o Li RUN STOP FWD REV LOC 4 33 110 0 ac Y M4 P 03 7 x 19 4 8 Deep S K
2. E TN GVX9000 Parameter Listings Table B 4 50 AC Drive Control Continued Parameter User Modbus Groups Page Description Range Default Settings 030DH 50 14 5 33 Maximum Output 50 to 400 0 Hz 60 00 Frequency 030EH 50 15 5 33 Motor Nameplate 10 00 to 400 00 Hz 60 00 Frequency 030FH 50 16 5 34 Motor Nameplate 230V Series 0 1 to 255 0V 230 0 Voltage 460V Series 0 1 to 510 0V 460 0 575V Series 0 1 to 637 0V 575 0 0310H 50 17 5 34 Mid Point Output 0 00 to 400 00 Hz 1 50 Frequency 0311H 50 18 5 34 Mid Point Output 230V Series 0 1 to 255V 1 7 Voltage 460V Series 0 1 to 510V 34 575V Series 0 1 to 637V 48 0312H 50 19 5 34 Minimum Output 0 00 to 20 00 Hz 1 50 Frequency 0313H 50 20 5 35 Minimum Output 230V Series 0 1 to 50V 1 7 Voltage 460V Series 0 1 to 100V 34 575V Series 0 1 to 637V 4 8 0314H 50 21 5 36 Control Mode 00 VF 00 01 V F Closed Loop 02 Sensorless Vector SV 03 Vector Closed Loop CLV 0315H 50 22 5 36 CT VT Mode 00 Constant Torque 00 01 Variable Torque 0316H 50 23 5 36 Variable Torque Curve 00 V F curve determined by 00 Selection 50 15 50 20 01 1 5 Power curve 02 1 7 Power curve 03 Square curve 04 Cube curve 0317H 50 24 5 36 Acceleration Time 1 0 01 to 600 00 seconds Depends on drive hp 0318H 50 25 5 36 Deceleration Time 1 0 01 to 600 00 seconds Depends on drive hp 0319H 50 26 5 36 Acceleration Time 2 0 01 to 600 00 seconds Depend
3. c O EC e O O o o 2 o ERU 52 e Dan e ae o 22 Bel le POWERS ele le E o pesema 2 une ZNN POWER pc pcC MoToR 9 S Model GVX020A1 2 Gvxo25a1 2 GVX030A1 2 GVX020A1 4 O O n ESS Soemes Figure 3 11 Main Circuit 20 to 30 hp GVX9000 User Manual 3 13 ZS cS os D E 2 7 E TN Main Circuit Wiring g Ol o OO 0101010 ojo Ere us oz ris mz nns 9 iG 5 power amp woroR o o O ol o J o Model GVX040A1 4 NS DA GVX050A1 4 Figure 3 12 Main Circuit 40 to 50 hp 460V GVX9000 User Manual Main Circuit Wiring E TN O c gt O Lo o E eA yn 8 TL TT NN ir E H A a D 9 e mo os 5a
4. F 2 Electromagnetic Compatibility F 3 EC Declaration of Conformity F 3 GVX9000 User Manual v E TN Table of Contents List of Figures Figure 2 1 Example of 5 hp 230V AC drive 2 2 Figure 2 2 Parts and Label 2302 04 Rede Dee IE EA RE EE POS 2 4 Figure 2 3 Description of Digital Keypad 2 5 Figure 3 1 Mounting in an Enclosure in Inches mm 3 3 Figure 3 2 Wiring Diagram 1 5hp 3 5 Figure 3 3 Wiring Diagram 7 1 2 100 hp 3 6 Figure 3 4 Wiring Diagram Sink and Source Modes 3 7 Figure 3 5 External Wiring 1 15 hp 3 8 Figure 3 6 External Wiring 20 100 hp 3 8 Figure 3 7 Control Terminal Wiring Sink Mode 3 10 Figure 3 8 Control Terminal Wiring Source Mode 3 10 Figure 3 9 Main Circuit 1 to 5 hp 3 11 Figure 3 10 Main Circuit 7 1 2 to 15 hp 3 12 Figure 3 11 Main Circuit 20 to 30 hp 3 13 Figure 3 12 Main Circuit 40 to 50 hp 460V 3 14 Figure 3 13 Main Circuit 40 to 50 hp 230V 60 to 100 hp 460V 3 15 Fi
5. output Voltage Class 460V Class Model No 001 002 003 005 007 010 015 020 025 030 040 050 060 075 100 GVX XXXA1 4 Watt Loss at 70 102 132 176 250 345 445 620 788 1290 1420 1680 2020 2910 3840 rated current output Note Contact Eaton for 575V information Start Up a o T o LE 4 8 GVX9000 User Manual Fuses and Circuit Breakers E T N Wiring the Inverter to Incoming Power Step 6 In this step connect the wiring to the input of the inverter First determine whether the inverter model requires three phase power only or if it can accept either singe phase or three phase power All models have the same power connector terminals labeled L1 L2 L3 and Ground Refer to the specifications label on the side of the inverter for the acceptable power source types For inverters which can accept single phase power use terminals L1 and L2 CAUTION A Be sure that the input voltage matches the inverter specifications Single Three phase 200 to 240V 50 60 Hz up to 2 2 kW Three phase 200 to 230V 50 60 Hz above 2 2 kW Three phase 380 to 460V 50 60 Hz Three phase 500 to 600V 50 60 Hz CAUTION A Be sure not to connect an AC power supply to the output terminals Otherwise there is Power Input Power Output the danger of injury and or fire LA 12 ja T1 T2 T3 Note
6. e e e e e e e e o R L1 S L2 TIL3 1 2 U T1 V T2 W T3 o D L POWER ook em iran wortor o o Model O O GVX060A1 4 GVX075A1 4 9 1 E 2 GVX100A1 4 GVX040A1 2 N gt fl GvxosoA1 2 Figure 3 13 Main Circuit 40 to 50 hp 230V 60 to 100 hp 460V GVX9000 User Manual 3 15 cs Lo o D i i E 77 E s a E TN Main Circuit Wiring Table 3 3 Wire Gauge and Torque Tightening Wire Type 75 C Copper Only Max Current Wire Gauge Torque Rating Catalog Voltage in Amps in AWG in kgf cm Number Horsepower Input Output mm in Ib GVX001A1 2 240V 1 hp 11 9 5 14 2 1 18 15 6 GVX002A1 2 240V 2 hp 15 3 7 12 3 3 18 15 6 GVX003A1 2 240V 3 hp 22 0 11 10 5 3 18 15 6 GVX005A1 2 240V 5 hp 20 6 17 10 5 3 18 15 6 GVX007A1 2 240V 7 1 2 hp 26 25 8 8 4 30 26 0 GVX010A1 2 240V 10 hp 34 33 8 8 4 30 26 0 GVX015A1 2 240V 15 hp 50 49 6 13 3 30 26 0 Use Terminal GVX020A1 2 240V 20 hp 60 65 4 21 2 30 26 0 Use Terminal GVX025A1 2 240V 25 hp 75 75 3 26 7 30 26 0 Use Terminal GVX030A1 2 240V 30 hp 90 90 2 33 6 30 26 0 Use Terminal GVX040A1 2 240V 40 hp 110 120 1 0 53 5 200 173 6 GVX050A1 2 240V 50 hp 142 145 3 0 85 200 173 6 GVX001A1 4 480V 1 hp 3 2 2 7 18 0 8 18 15 6 GVX002A1 4 480V 2 hp 4 3 4 2 18 0 8 18 15 6
7. 0115H 30 22 5 10 Digital Input Terminal See Parameter 30 21 06 D4 0116H 30 23 5 10 Digital Input Terminal See Parameter 30 21 07 D5 0117H 30 24 5 10 Digital Input Terminal See Parameter 30 21 08 D6 0118H 30 25 5 11 Digital Input Terminal See Parameter 30 21 03 D7 0119H 30 26 5 11 Digital Input Terminal See Parameter 30 21 01 D8 011AH 30 27 5 11 Digital Input Terminal See Parameter 30 21 00 D9 011BH 30 28 5 11 Digital Input Terminal See Parameter 30 21 00 D10 011CH 30 29 5 21 Final Count Value 00 to 65000 00 011DH 30 30 5 21 Intermediate Count 00 to 65000 00 Value 011EH 30 31 5 21 Preset Speed 1 0 00 to 400 00 Hz 0 00 Hz 011FH 30 32 5 21 Preset Speed 2 0 00 to 400 00 Hz 0 00 Hz 0120H 30 33 5 21 Preset Speed 3 0 00 to 400 00 Hz 0 00 Hz B 4 GVX9000 User Manual GVX9000 Parameter Listings E T N Table B 2 30 Inputs Continued Parameter User Modbus Groups Page Description Range Default Settings 0121H 30 34 5 21 Preset Speed 4 0 00 to 400 00 Hz 0 00 Hz 0122H 30 35 5 21 Preset Speed 5 0 00 to 400 00 Hz 0 00 Hz 0123H 30 36 5 21 Preset Speed 6 0 00 to 400 00 Hz 0 00 Hz 0124H 30 37 5 22 Preset Speed 7 0 00 to 400 00 Hz 0 00 Hz 0125H 30 38 5 22 Preset Speed 8 0 00 to 400 00 Hz 0 00 Hz 0126H 30 39 5 22 Preset Speed 9 0 00 to 400 00 Hz 0 00 Hz 0127H 30 40 5 22 Pre
8. Parameter User Modbus Groups Page Description Range Default Settings 0346H 50 71 5 46 Wake Frequency 0 00 to 400 00 Hz 0 00 0347H 50 72 5 47 Sleep Time Delay 0 0 to 600 sec 0 0348H 50 73 5 47 Frequency Point to 0 00 to 400 00 Hz 0 00 Start Motor 2 0349H 50 74 5 47 Frequency Point to 0 00 to 400 00 Hz 0 00 Stop Motor 2 034AH 50 75 5 47 Delay Time Before 0 0 to 3600 0 sec 0 0 Starting Motor 2 034BH 50 76 5 48 Delay Time Before 0 0 to 3600 0 sec 0 0 Stopping Motor 2 Table B 5 60 Motor Control Parameter User Modbus Groups Page Description Range Default Settings 2 0400H 60 01 5 49 Motor Rated Current Real Current 10 to 120 FLA D 0401H 60 02 5 49 Motor No Load Real Current 01 to 99 0 4 FLA E Current o 0402H 60 03 5 49 Dynamic Tune with 00 Disable 00 Unloaded Motor 01 DC test static test zZ e 02 DCtest and no load test a 0403H 60 04 5 49 Stator Resistance 00 to 65535 Ohms Calculated Via Auto Tune or Entered Manually 0404H 60 05 5 49 DC Brake Current 00 to 100 Level 0405H 60 06 5 50 DC Brake Time Upona 0 0 to 60 0 sec Start 0406H 60 07 5 50 DC Brake Time Upona 0 0 to 60 0 sec Stop 0407H 60 08 5 50 DC Brake Frequency 0 00 to 60 00 Hz Point 0408H 60 09 5 51 Torque Compensation 00 to 10 0409H 60 10 5 51 Slip Compensation 0 00 to 10 00 040AH 60 11 5 52 PWM Carrier 1 to 15 KHz Frequency 040BH 60 12 5 52 Motor Poles 2to 10 040CH 60 13 5 52 Motor Rated Slip 0 00 to 20 00 Hz 040DH 60 14
9. 5 44 Figure 5 37 Sleep Time Delay 5 47 Figure 5 38 Auxiliary Motor Flowchart 5 48 Figure 5 39 DC Braking ederet eRDE PS ELS eee d sacra derer pce uis 5 51 Figure 5 40 Over Voltage Stall Prevention 5 55 Figure 5 41 Over Current Stall Prevention 5 56 Figure 5 42 l t Curves 222 aes sce pide us cred ued Aisne bend aedes 5 58 Figure 5 43 Output Voltage Adjustment 5 59 Figure C 1 GBM2022 GBM4045 GBM5055 Braking Unit C 6 Figure C 2 Approximate Dimensions in Inches mm RF022B21BA RE0SZBASBA etna i exe a esee ERE RE ERO AS C 10 Figure C 3 Approximate Dimensions in Inches mm RF110B43CA C 11 Figure C 4 Approximate Dimensions in Inches mm 26TDT1WAC C 12 Figure C 5 Approximate Dimensions in Inches mm 50TDS4W4C C 13 Figure C 6 Approximate Dimensions in Inches mm 100TDS84C C 14 Figure C 7 Approximate Dimensions in Inches mm 150TDS84C C 15 Figure C 8 Approximate Dimensions in Inches mm 180TDS84C C 16 Figure C 9 Approximate Dimensions in Inches mm 20TDT1WAC C 17 Figure C 10 Approximate Dimensions in Inches mm 200TDDS84C C 18 Figure C 11 Approximate Kit Dimensions in Inches mm C 19 Figure D 1 Digital Keypad Approximate Dimensions i
10. gt 2 Places 14 29 363 0 Max gt 2 36 04 60 0 1 0 11 814 39 1 97 M6 x 1 0 300 0 10 0 n 50 0 Typ 4 Places 1015 AWG 79 79 20 0 20 0 1015 AWG 10 Blue saliossa20y Figure C 5 Approximate Dimensions in Inches mm 50TDS4W4C GVX9000 User Manual C 13 E T N EMI Filter Cross Reference Catalog Number 100TDS84C 16 93 430 0 Max A B___ 14 49 368 0 Ref 4 80 122 0 Max oO tt IN l Otto oo H 30 x 49 5 91 04 7 5 x 12 5 150 0 1 0 Typ 4 Places M8 x 1 25 Typ 6 Places x i8 CE cH a 2 2 ca E Y 8 lt Y js IK 33 86 352 0 Max gt 5 o0 j D 14 57 08 370 0 2 0 262 021 0 lt 15 35 390 0 Max Figure C 6 Approximate Dimensions in Inches mm 100TDS84C C 14 GVX9000 User Manual EMI Filter Cross Reference E T N Catalog Number 150TDS84C i A 18 90 480 0 Max gt D 16 46 418 0 Ref gt l C 480 Ac j 122 0 ong M Hbc 75 0 0 x 49 5 ate 04 d x 12 5 150 0 1 0 We
11. E 6 Table E 6 05 Hand Off Auto HOA E 7 Table E 7 06 Variable Torque Pump Fan E 8 Table E 8 07 Spindle Motor dense repe api niei pi edm es E 9 Table E 9 08 Analog Speed Command E 10 Table E 10 09 Closed Loop Vector Control E 11 viii GVX9000 User Manual Safety Messages E TN Safety Messages Definitions and Symbols A safety instruction message includes a hazard alert symbol and a signal word WARNING or CAUTION Each signal word has the following meaning attention to items or operations that could be dangerous to you and other persons operating this equipment Read the message and follow the instructions carefully HIGH VOLTAGE This symbol indicates high voltage It calls your This symbol is the Safety Alert Symbol It occurs with either of two signal words CAUTION or WARNING as described below WARNING Indicates a potentially hazardous situation which if not avoided can result in serious injury or death CAUTION Indicates a potentially hazardous situation which if not avoided can result in minor to moderate injury or serious damage to the product The situation described in the CAUTION may if not avoided lead to serious results Important safety measures are described in CAUTION as well as WARNING E gt E gt E gt Hazardous High Volt
12. o Receiving and Inspection 2 2 H Nameplate Information 2 2 EE Catalog Number el eiiladkec ks beer eds 2 3 ds Style N mber iub REGI ewan ge needed 2 4 So External Parts and Label Locations 2 4 Digital Keypad Operation 2 5 GVX9000 User Manual 2 1 E T N Receiving and Inspection Receiving and Inspection This GVX9000 AC drive has gone through quality control tests at the factory before shipment After receiving the AC motor drive please check for the following Check to make sure that the package includes an AC drive and User Manual Inspect the unit to insure it was not damaged during shipment Make sure that the part number indicated on the nameplate corresponds with the part number of your order Nameplate Information 7 2 SE on ze 2e Z os E T N Catalog Number gt Cat No Style Number 7 Style No GVX005A1 2 Input Spec gt Input 200 240Vac 50 60Hz 3ph 20 6A Output CT 0 240Vac 3PH 17A 5HP VT 0 240Vac 3PH 17A 5HP Output Frequency Range Frequency Range 0 1 400Hz Output 5 Uus 7 82116 97861 8 Ind Cont Eq UE G005A120T6160001 C Output Spec _ gt MADE IN 700000 Figure 2 1 Example of 5 hp 230V AC drive 2 2 GVX9000 User Manual Receiving and Inspection E TN Catalog Numbe
13. CT VT Max Applicable Motor Output kW 0 75 15 22 3 7 5 5 7 5 11 15 18 5 22 30 37 CT VT Max Applicable Motor Output hp 5 7 1 2 10 15 20 25 30 40 50 Output Rating CT VT Rated Output Capacity kVA 1 9 25 42 6 5 9 5 12 5 18 3 247 28 6 343 45 7 55 0 CT VT Rated Output Current A 5 0 7 0 11 7 25 33 49 65 75 90 120 145 Maximum Output Voltage V 3 Phase Proportional to Input Voltage Output Frequency Hz 0 1 400 Hz Carrier Frequency kHz 1 15 Input Rating Rated Input Current A Single 3 phase 3 phase 11 9 15 3 22 7 0 9 4 14 0 20 6 26 34 50 60 75 90 110 142 Rated Voltage Frequency Single 3 phase 200 240 V 50 60 Hz 3 phase 200 240V 50 60Hz Voltage Tolerance 10 180 264V Frequency Tolerance 5 47 63 Hz Cooling Method Natural Fan Cooled Weight in Lbs kg A 2 10 8 4 9 11 5 5 2 11 5 5 2 17 07 7 75 17 07 7 75 17 07 31 9 7 75 14 5 31 9 14 5 31 9 14 5 106 8 48 5 106 8 48 5 GVX9000 User Manual Technical Data E T N Table A 2 GVX9000 460V Specifications Voltage Class 460V Class Model Number GVX XXXA1 4 001 002 003 005 007 010 015 020 025 030 040 050 060 075 1
14. 10 8 4 9 11 5 5 2 11 5 5 2 17 0 7 7 17 0 7 7 17 0 34 1 7 7 15 5 34 1 15 5 34 1 15 5 104 47 104 47 121 55 121 55 121 55 GVX9000 User Manual A 3 E p rj gt O 2 i 2 2 E T N Technical Data Table A 3 GVX9000 575V Specifications Voltage Class 575V Class Model Number GVX XXXA1 4 001 002 003 005 007 010 015 020 025 030 040 050 060 075 100 Max 075 15 22 37 55 75 11 15 18 5 22 30 37 45 55 75 Applicable Motor Output kW Max 1 2 3 5 7 1 2 10 15 20 25 30 40 50 60 75 100 Applicable Motor Output hp Output Rating Rated Output 1 7 35 45 7 5 10 13 4 18 9 21 9 26 9 33 9 40 8 51 8 61 7 79 7 99 6 Capacity kVA Rated Output 1 7 35 45 7 5 10 13 5 19 22 27 34 41 52 62 80 100 Current A Maximum 3 phase Proportional to Input Voltage Output Voltage V Output 0 1 400 Hz Frequency Hz Carrier 1 10 1 8 1 6 Frequency kHz Input Rating Rated Input 3 phase Current A 12 31 40 83 103 138 182 22 277 32 41 52 62 74 91 Rated Voltage 3 phase 500 to 600 V Voltage 15 10 425 660V Tolerance Frequency 5 47 63 Hz Tolerance 2 z E
15. A 2 GVX9000 460V Specifications A 3 GVX9000 575V Specifications A 4 General Specifications A 5 20 Easy Mode Settings B 2 30 SINUS oireissa iure ee es Deo a odo tenes B 2 AO O tputs uus sehr RE m RR Rn UAE De ERR og emen gue B 5 50 AC Drive Control ent RR ey sus amen sms B 7 60 Motor Control 434448 dod c hoe ep rx So ecw ceca B 13 70 Protective Functions B 14 80 Keypad Display B 16 90 COMMUNICATION 5 oss esc addin de oem SR SERERE RUE A Rees s B 20 Fuse Specifications 230V C 2 Fuse Specifications 460V C 2 Wiring Items 5 RR Ire RREERREE RR rhe C 3 Braking Specifications ie cer raraga dead Spas C 4 Braking Unit Specifications C 7 Approximate Dimensions for Braking Resistors C 8 EMI Filter Cross Reference C 9 00 Factory Settings E 2 01 Basic V F Cue 2 1 Abe 26 bleed dad P eu x eked od E 2 Table E 3 02 PID Control presia iiae weds et Ta gaa SN bw e ERE EY E 3 Table E 4 03 Preset Speeds E 4 Table E 5 04 Local Remote
16. Magnetic Contactor Input AC 3 3 Line Reactor EMI Filter bod a R L1 S L2 TAS3 Qa 3 DC Choke 2077 Braking Unit Fore um VT2 wre Qoa Output AC Line Reactor NCAUTION Do Not Connect Resistor Directly to Drive Figure 3 5 External Wiring 1 15 hp 3 8 Figure 3 6 External Wiring 20 100 hp GVX9000 User Manual External Wiring E TN Table 3 1 Wiring Items Items Explanations Input Power Please follow the specific power supply requirement shown in Appendix A Fuse Please check the Fuse Specification table in Appendix C for proper fuse selection Magnetic Contactor Please do not use a Magnetic Contactor as the ON OFF Optional switch of the AC drive this will reduce the operating life of the AC drive The contactor should only be used as a safety device for disconnecting power to the drive Line Load Reactor To improve the power factor An AC Reactor may be necessary Optional when capacity is above 1000 kVA and the wiring distance is within 10m EMI Filter Optional Used to reduce the electromagnetic interference Braking Resistor Used to reduce stopping time of the motor Please refer to Optional the Braking Resistor table in Appendix C for specific Braking Resistors Note Please refer to Appendix C for more details on the Circuit Breaker and Fuse Specification tables FTA un 43 v mo oS sca GVX900
17. Protective Functions B 14 80 Keypad Display B 16 90 Communication a 2 2 ci E 2 E Ey 51 a GVX9000 User Manual B 1 a E S o o E c 2 E T N GVX9000 Parameter Listings GVX9000 Parameter Listings Table B 1 20 Easy Mode Settings Modbus Groups Page Parameter Description User Range Default Settings 20 01 5 5 Easy Mode Selection 00 09 00 00 Factory Settings 01 Basic V F Curve 02 PID Control 03 Preset Speeds 04 Local Remote 05 Hand Off Auto HOA 06 Variable Torque Pump Fan 07 Spindle Motor 08 Analog Speed Command 09 Closed Loop Vector Control Table B 2 30 Inputs Modbus Groups Page Parameter Description User Range Default Settings 0100H 30 01 5 6 A1 Maximum Input Voltage 0 10V A1 Minimum Input Voltage 0 10V 0 00 to 10 00V 10 00 0 00 to 10 00V A1 Maximum Output Frequency 400 0 to 400 0 Hz A1 Minimum Output Frequency 400 0 to 400 0 Hz A1 Reverse Option 00 Negative input 30 04 01 Negative input Reverse direction 02 Negative input Frequency command only no Direction A2 Maximum Input Current 0 20 mA 0 00 to 20 00 mA 20 00 mA A2 Minimum Input Current 0 20 mA 0 00 to 20 0
18. Wiring Notes as a minimum standard Follow all local codes that exceed UL and cUL requirements Refer to the technical data label affixed to the AC drive and the motor nameplate for electrical data The Line Fuse Specification in Appendix C lists the recommended fuse part number for each GVX9000 part number These fuses or equivalent must be used on all installations where compliance with UL standards is required According to the Low Voltage Directive 73 23 EEC and the Amendment Directive 93 68 EEC Digital Keypad the following AC Motor Drives GVX001A1 2 GVX002A1 2 GVX003A1 2 GVX005A1 2 GVX007A1 2 GVX010A1 2 GVX015A1 2 GVX020A1 2 GVX025A1 2 GVX030A1 2 GVX040A1 2 GVX050A1 2 GVX001A1 4 GVX002A1 4 GVX003A1 4 GVX005A1 4 GVX007A1 4 GVX010A1 4 GVX015A1 4 GVX020A1 4 GVX025A1 4 GVX030A1 4 GVX040A1 4 GVX050A1 4 GVX060A1 4 GVX075A1 4 GVX100A1 4 are herewith confirmed to comply with the requirements set out in the Council Directive 73 23 EEC for electrical equipment used within certain voltage limits and the Amendment Directive 93 68 EEC For the evaluation of the compliance with this Directive the following standard was applied EN 50178 According to the Electromagnetic Compatibility 89 336 EEC and the Amendment Directive 93 68 EEC the following equipment AC Motor Drive GVX001A1 2 GVX002A1 2 GVX003A1 2 GVX005A1 2 GVX007A1 2 GVX010A1 2 GVX015A1 2 GVX020A1 2 GVX025A1 2 GVX030A1 2 GVX040A1 2 GVX050A1 2 G
19. a Range 0 00 to 400 00 Hz Default 0 00 Hz Unit 0 01 Hz 5 21 E TN Group 30 Inputs 30 37 Preset Speed 7 Range 0 00 to 400 00 Hz Default 0 00 Hz Unit 0 01 Hz 30 38 Preset Speed 8 Range 0 00 to 400 00 Hz Default 0 00 Hz Unit 0 01 Hz 30 39 Preset Speed 9 Range 0 00 to 400 00 Hz Default 0 00 Hz Unit 0 01 Hz 30 40 Preset Speed 10 Range 0 00 to 400 00 Hz Default 0 00 Hz Unit 0 01 Hz 30 41 Preset Speed 11 Range 0 00 to 400 00 Hz Default 0 00 Hz Unit 0 01 Hz 30 42 Preset Speed 12 Range 0 00 to 400 00 Hz Default 0 00 Hz Unit 0 01 Hz 30 43 Preset Speed 13 Range 0 00 to 400 00 Hz Default 0 00 Hz Unit 0 01 Hz 30 44 Preset Speed 14 Range 0 00 to 400 00 Hz Default 0 00 Hz 9 Unit 0 01 Hz os aE o 20 30 45 zt Preset Speed 15 Range 0 00 to 400 00 Hz Default 0 00 Hz o HE Os 2 5 22 Unit 0 01 Hz These parameters may be set during operation The Digital Input Terminals refer to 30 21 to 30 28 are used to select one of the GVX9000 Preset Speeds The speeds frequencies are determined by 30 31 to 30 45 GVX9000 User Manual Group 30 Inputs E T N 30 46 Display Frequency Hz or Percent 96 30 47 User Definition for 30 46 Option 2 30 48 Gear Ratio for Simple Index Function 30 49 Index Angle for Simple Index Function 30 50 Deceleration Time for Simple Index Function GVX9000 User Manual Range 00 to 02 Default 00 00 Frequency Hz
20. m 2 S E a D z 5 a E TN Group 50 AC Drive Control Frequency Max Output Frequency 50 14 Time gt l be gt Acceleration Deceleration Time Time 50 24 50 26 50 25 50 27 50 28 50 30 50 29 50 31 Figure 5 32 Acceleration and Deceleration Times 50 32 Accel Decel Time Unit 50 33 Automatic Acceleration Deceleration N SE 50 34 ae Acceleration 1 to 2 Acceleration 2 mE Transition Se Frequency oc Os a 5 38 Range Default 1 0 1 sec 1 0 1 sec 2 0 01 sec Range Default 0 00 Linear Accel Decel 01 Auto Accel Linear Decel 02 Linear Accel Auto Decel 03 Auto Accel Decel 04 Auto Accel Decel Stall Prevention Limited by 50 24 to 50 31 Range Default 0 0 0 0 Disable Above min freq Enable 0 0 to 400 0 Hz Parameter 50 34 allows the user to program a frequency point where the drive will automatically change from Accel Time 1 to Accel Time 2 This saves Input Points from being used to do the same process GVX9000 User Manual Group 50 AC Drive Control E T N 50 35 Deceleration 1 to Deceleration 2 Transition Frequency 50 36 Acceleration S Curve 50 37 Deceleration S Curve Range Default 0 0 0 0 Disable Above min freq Enable 0 0 to 400 0 Hz Parameter 50 35 allows the user to program a frequency point where the drive will automatically change from Decel Time 1 to Decel Time 2 This saves
21. 03 Vector Closed Loop CLV This parameter selects the Control Mode for the GVX9000 For the best results please conduct the following 1 Set the correct Motor Nameplate Voltage and Base Frequency Set the correct Motor Rated slip 60 13 Conduct an Auto tune See parameter 60 03 Set the Minimum Output Frequency 50 19 to 0 1 Hz Enter the correct encoder count in parameter 60 18 and encoder type 60 19 ao PB N Range Default 00 00 Constant Torque 01 Variable Torque This parameter selects the Torque Mode for the GVX9000 Range 00 04 Default 00 00 V F curve determined by 50 15 50 20 01 1 5 Power curve 02 1 7 Power curve 03 Square curve 04 Cube curve This parameter selects the Variable Torque curve of the GVX9000 Range 0 01 to 600 00 seconds Default Unit 0 01 sec Depends on drive hp Range 0 01 to 600 00 seconds Default Unit 0 01 sec Depends on drive hp Range 0 01 to 600 00 seconds Default Unit 0 01 sec Depends on drive hp GVX9000 User Manual Group 50 AC Drive Control E TN 50 27 Deceleration Time 2 50 28 Acceleration Time 3 50 29 Deceleration Time 3 50 30 Acceleration Time 4 50 31 Deceleration Time 4 GVX9000 User Manual 5 37 Range 0 01 to 600 00 seconds Default Unit 0 01 sec Depends on drive hp Range 0 01 to d 36000 sec Default Unit 0 01 sec Depends on drive hp Range 0 01 to d 36000 sec Default Unit 0 01 sec Depends on drive
22. 125 25 18 5 10 281 4800W 89 K13 000034 0865 125 30 22 12 338 4800W 6 8 Q GBM2022 1 K13 000034 0866 125 40 30 16 497 6000W 52 GBM2022 2 K13 000034 0867 ol 12596 50 37 20 6 9600W 42 GBM2022 2 K13 000034 0868 125 460 Voltage 1 0 75 0 427 80W 750 Q K13 000034 0841 1 125 2 1 5 0 849 300W 400 Q K13 000034 0843 125 3 2 2 1 262 300W 250 Q K13 000034 0843 1 125 5 3 7 2 080 400W 150 Q K13 000034 0844 1 125 7 1 2 5 5 3 111 500W 100 Q K13 000034 0845 20 125 10 7 5 4 148 1000W 75 Q K13 000034 0846 30 125 15 11 6 186 1000W 50 Q GBM4045 1 K13 000034 0869 125 20 15 8 248 1500W 40 Q GBM4045 1 K13 000034 0870 125 25 18 5 10 281 4800W 32 Q GBM4045 1 K13 000034 0871 125 30 22 12 338 4800W 27 2 Q GBM4045 1 K13 000034 0872 125 40 30 16 497 6000W 20 Q GBM4045 1 K13 000034 0873 125 50 37 20 6 9600W 16 Q GBM4045 1 K13 000034 0874 125 60 45 24 745 9600W 13 6 Q GBM4045 1 K13 000034 0875 125 79 55 31 11 12000W 109 GBM4045 2 K13 000034 0876 ol 12596 100 75 42 7 19200W 6 82 GBM4045 2 K13 000034 0877 125 In parallel Contact Eaton C 4 GVX9000 User Manual Braking E T N Table C 4 Braking Specifications Continued Applicable Total Motor Full Load Resistance Braking Torque of and Wattage Braking Unit Braking Resistor Kit Torque System Applied to No of Units P N and No of Units 10 ED kW Nm Drive Used Used with Kit 300W 400 2
23. An increasing load on an asynchronous motor will cause an increase in motor slip This Slip Compensation parameter may be used to compensate for the nominal slip within a range of 0 to 10 When the output current of the AC drive is greater than the motor no load current 60 02 the AC drive will adjust its output frequency to help keep rotor speed constant The maximum increase in output frequency is determined by the setting of this parameter A setting of 5 will increase output frequency from 60 Hz to 63 Hz percentage This parameter may be set during operation jo suondiiosaq TU 2 E E a D E3 5 a GVX9000 User Manual 5 51 E TN Group 60 Motor Control 60 11 PWM Carrier Frequency 60 12 Motor Poles 60 13 Motor Rated Slip 60 14 Slip Compensation Limit 60 15 Time Constant for Torque Compensation 60 16 Time Constant for Slip Compensation E Tae as E Su T doc o9 aE Ss Os 60 17 Hunting Coefficient 5 52 Range 1 to 15 KHz Default 9 The parameter selects the carrier frequency for the PWM Pulse Width Modulated function Table 5 1 Carrier Frequency Electromagnetic Carrier Acoustic Noise Leakage Heat Frequency Noise Current Dissipation 1 KHz Significant Minimal Minimal 15 KHz Minimal Significant Significant From Table 5 1 we see that the carrier frequency for the PWM function has a significa
24. Cooling Natural Fan Cooled Method Weight 5 9 7 0 99 15 18 22 29 29 29 29 79 79 79 110 110 in Lbs kg 2 7 3 2 4 5 6 8 8 10 13 13 13 13 36 36 36 50 50 A 4 GVX9000 User Manual Technical Data E T N Table A 4 General Specifications Item Description Operating Frequency Keypad Set by UP DOWN keys Characteristics Setting External Potentiometer 5 kW 0 5W 0 to 10V DC Input impedance Signal 47 kW serial communication 4 to 20 mA Input impedance 250Q 10V to 10V Input impedance 270k 1 to 15 step speeds PID feedback Operation Keypad Set by START STOP RIGHT LEFT and FWD REV keys Setting Signa External FWD STOP REV STOP RUN STOP FWD REV 3 wire control e Signal serial communication EE Digital Input Signal Multi step selections 1 to 15 Jog acceleration deceleration E inhibit first to forth acceleration deceleration switch counter External BB Pause auxiliary motor control is disabled driver reset UP DOWN key settings HOA LOC REM switch sink source a selection Digital Output Operating Up to frequency Desired frequency Abnormal Indication indication Local Remote indication auxiliary motor output overheat alarm emergency stop under current low voltage Analog Output Output frequency current voltage frequency command speed Signa Power
25. GVX015A1 4 GVX020A1 4 GVX025A1 4 GVX030A1 4 GVX040A1 4 GVX050A1 4 GVX060A1 4 GVX075A1 4 GVX100A1 4 Model Name is herewith confirmed to comply with the requirements set out in the Council Directive 73 23 EEC for electrical equipment used within certain voltage limits and the Amendment Directive 93 68 EEC For the evaluation of the compliance with this Directive the following standard was applied EN 50178 The following manufacturer importer is responsible for this declaration Eaton Electrical Company Name 31 1 Shien Pan Road Kuei San Industrial Zone Taoyuan Shien Taiwan R O C Company Address F200 GVX9000 User Manual Electromagnetic Compatibility E T N Electromagnetic Compatibility EC Declaration of Conformity According to the Electromagnetic Compatibility 89 336 EEC and the Amendment Directive 93 68 EEC For the following equipment ywojuo9 2 2 2 o o AC Motor Drive Product Name GVX001A1 2 GVX002A1 2 GVX003A1 2 GVX005A1 2 GVX007A1 2 GVX010A1 2 GVX015A1 2 GVX020A1 2 GVX025A1 2 GVX030A1 2 GVX040A1 2 GVX050A1 2 GVX001A1 4 GVX002A1 4 GVX003A1 4 GVX005A1 4 GVX007A1 4 GVX010A1 4 GVX015A1 4 GVX020A1 4 GVX025A1 4 GVX030A1 4 GVX040A1 4 GVX050A1 4 GVX060A1 4 GVX075A1 4 GVX100A1 4 Model Name is herewith confirmed to comply with the requirements set out in the Council Directive 89 336 EEC for electromagnetic compatibi
26. Groups Descripti Range Default 0105H 30 06 A2 Maximum Input Current 0 00 to 20 00 mA 20 00 mA 0 20 mA A2 Minimum Input Current 0 20 mA 0 00 to 20 00 mA A2 Maximum Output Frequency 400 0 to 400 0 Hz A2 Minimum Output Frequency A2 Reverse Option 400 0 to 400 0 Hz Negative input 30 09 Digital Input Terminals D1 D2 2 wire Operation Mode 2 D1 RUN STOP D2 REV FWD Digital Input Terminal D3 Digital Input Terminal D4 External Reset NO External Fault NO EF Digital Input Terminal D5 PID Disable Digital Input Terminal D6 Digital Input Terminal D7 Jog Preset Speed Switch 1 Digital Input Terminal D8 Preset Speed Switch 2 Digital Input Terminal D9 Digital Input Terminal D10 Run Enable Parameter Disable Digital Output Terminal Relay A RA1 RA2 RA3 Inverter Fault Digital Output Terminal Relay B RB1 RB2 Digital Output Terminal DO1 PID supervision Ready Digital Output Terminal DO2 Low Voltage indication User Defined Source of LOCAL HAND Frequency Master Frequency determined by 0 10V on terminal AIT Source of LOCAL HAND Operation Command Operating commands determined by the External Control Terminals Keypad STOP key is enabled STOP Ramp EF Coast Decel to 0 Hz 0 1 to 120 00 sec Stop Method 4 20 mA Input Signal Loss 4 20 mA Input Loss Detection Time Ma
27. I 2 E 2 E TN Common Problems and Solutions Table 7 1 Common Problems and Solutions Continued Fault Name Fault Descriptions Corrective Actions CPU Failure 1 Internal memory 1 Switch off power supply cannot be 2 Check whether the input voltage falls programmed within the rated AC drive input voltage Switch the AC drive back on CPU Failure 2 Internal memory 1 Check the connections between the cannot be read main control board and the power board 2 Reset the drive to factory defaults Hardware Hardware protection Return the drive to the factory Protection failure Failure Software Software protection Return the drive to the factory Protection failure Code CPU Failure3 Drive s internal circuitry Switch off power supply is abnormal NA Check whether the input voltage falls within the rated AC drive input voltage Switch on the AC drive External Fault The external terminal DI1 COM goes from OFF to ON When external terminal DI1 COM is closed the drive s output will be turned off and will display EF Auto Accel Decel Failure Auto acceleration deceleration failure Don t use the auto acceleration deceleration function Ground Fault or Fuse Failure Ground fault The AC drive output is abnormal When the output terminal is grounded short circuit current is 5096 more than the AC drive rated current the AC drive power module
28. O Main Circuit Power Terminals Control Circuit Terminals i Shielded Leads amp Cable Analog Signal Common 10v Power Supply 10V 20mA Master Frequency 0 to 10V 47KQ AI2 Factory Setting Drive Running zS no 9 9 Z2 mo os 5a Fault Indication O 48V50mA Factory Setting Warning Factory Setting Freq Setting Indication 48V50mA 9 _ Analog Multi Function O Output Terminal Factory Default Analog Freq Current Meter 0 10VDC 2mA B Analog Signal Common Digital Frequency Output Terminal Factory Setting 1 1 L Duty 50 COM T Digital Signal Common OE 6 1 Rs 485 P Serial Interface 3 SG 4 SG Three phase input power may apply to single phase drives For the single phase drives connected to any two of the the AC input line can be three input terminals R S T Figure 3 2 Wiring Diagram 1 5 hp GVX9000 User Manual 3 5 T ES Cs os D e EE JE N E TN Basic Wiring Diagram For Models of GVX9000 Series 7 1 2 to 100 horsepower Fuse NFB None Fuse Breaker DC Chock ATi Braking Resistor Unit Optional GBM BR Optional d Jumper H FA Refer to Appendix for the use of Special Braking Resistor Unit R L1 ox t0 D S L2 L2 OO T L3 O O Factory Setting SINK Mode Sink Refer to Figure 3 4 for
29. Settings 21 22 Setting 21 allows an input terminal to generate an External Pause When the External Pause signal is received the AC drive will stop all output and the motor will coast to a stop When the External Pause control is removed the AC drive will start its speed search function synchronize with the motor speed and then accelerate to Master frequency 24V D1 D2 D3 D4 D5 D6 D7 D8 D9 D10 COM 22 Pause NC 21 Pause NO Pause OFF ON OFF Signal Speed Synchronization Output Speed Search Detection Fianueriiy Starts with the Reference Value Output 50 43 Voltage Min Pause Capacitor gt Time Discharge lt _ gt Speed Search Operation Figure 5 19 Digital Input Terminal Settings 21 22 Setting 23 Allows an input terminal to disable PID operation as shown in Figure 5 20 jo suondn2saq 24V D1 D2 D3 D4 D5 D6 D7 D8 D9 pio con TU 2 S a D E3 5 a 00 23 PID Disable Figure 5 20 Digital Input Terminal Setting 23 GVX9000 User Manual 5 17 E TN Group 30 Inputs Setting 24 A digital input terminal may be used to increase the AC drive s internal counter When an input is received the counter is increased by 1 The counter input may be connected to
30. 0 00 to Stop Motor 2 Unit 0 01 When the output frequency reaches the parameter value the v 2 auxiliary motor will be stopped There must be a minimum of5 2 F Hz difference between the start frequency and stop frequency of PEJ auxiliary motor 50 73 50 74 gt 5 Hz SE 2s 50 75 M Delay Time Before Range 0 0 to 3600 0 sec Default 0 0 a Starting Motor2 Unit 0 1 GVX9000 User Manual 5 47 E TN Group 50 AC Drive Control 50 76 Delay Time Before Stopping Motor 2 Range 0 0 to 3600 0 sec Default 0 0 Unit 0 1 The number of Multi function Output terminals set to 16 17 18 decides the number of auxiliary motors The maximum is three The start stop frequency of the auxiliary motor must have a minimum of 5 Hz difference The start stop delay time can prevent the AC motor drive from overloading during starting stopping These parameters determine the starting sequence of auxiliary motors The auxiliary motor started first will be stopped first Example Start sequence motor 1 motor 2 motor 3 Stop sequence motor 1 motor 2 motor 3 The flowchart of the auxiliary motor start stop sequence 50 73 Start up frequency 50 Hz 50 74 Stop frequency 20 Hz 50 75 Time delay before start up 10 sec 50 76 Time delay before stopping 5 sec Output Frequency of Master Motor E ec aos cO 2 T d o9 aE es Os 50 76 Stop Delay Timer of Auxiliary Mot
31. 0010 01010 L1 L2 L3 Three phase 200 to 230V 50 60 Hz Three phase 380 to 460V 50 60 Hz Three phase 500 to 600V 50 60 Hz Any two inputs Single phase 200 to 240V 50 60 Hz ay a os et EI N GVX9000 User Manual 4 9 LS 55 T to s ae a E TN Fuses and Circuit Breakers Wiring the Motor to the Inverter Output Step 7 Connect the three phase AC induction motor to the output of the inverter The motor must be a three phase induction motor It should also come with a chassis ground lug If the motor does not have three power input leads stop the installation and verify the motor type Other guidelines for wiring the motor include Usean inverter grade motor for maximum motor life 1600V insulation For standard motors use the AC reactor accessory if the wiring between the inverter and motor exceeds 30 feet 10 meters in length Connect the motor to the terminals indicated on the inverter The terminals are labeled T1 T2 and T3 Connect the chassis ground lug on the inverter The motor chassis ground must also connect to the same point Use a star ground single point arrangement and never daisy chain the grounds point to point Use the same wire gauge on the motor and chassis ground wiring as you used on the power input wiring in the previous step After completing the wiring Check all wire connections both at the inverter and motor to
32. 40 hp CT GVX050A1 2 240V AC 50 hp CT Reserved Reserved GVX001A1 4 480V AC 1 hp CT GVX002A1 4 480V AC 2 hp CT GVX003A1 4 480V AC 3 hp CT GVX005A1 4 480V AC 5 hp CT GVX007A1 4 480V AC 7 1 2 hp CT GVX010A1 4 480V AC 10 hp CT GVX015A1 4 480V AC 15 hp CT GVX020A1 4 480V AC 20 hp CT 22 GVX025A1 4 480V AC 25 hp CT 23 GVX030A1 4 480V AC 30 hp CT 24 GVX040A1 4 480V AC 40 hp CT 25 GVX050A1 4 480V AC 50 hp CT na 2 2 ci E 2 Ey 51 a GVX9000 User Manual E T N GVX9000 Parameter Listings Table B 7 80 Keypad Display Continued Parameter Modbus Groups Page Description Range Default User Settings 0602H 80 03 5 62 Manufacturer Model Information a S o o E c 2 26 GVX060A1 4 480V AC 60 hp CT 27 GVX075A1 4 480V AC 75 hp CT 28 GVX100A1 4 480V AC 100 hp CT 29 GVX125A1 4 480V AC 125 hp VT 30 GVX150A 1 4 480V AC 150 hp VT 31 GVX175A1 4 480V AC 175 hp VT 32 GVX215A1 4 480V AC 215 hp VT 33 GVX250A1 4 480V AC 250 hp VT 34 Reserved 35 Reserved GVX001A1 5 575V AC 1 hp CT GVX002A1 5 575V AC 2 hp CT GVX003A1 5 575V AC 3 hp CT GVX005A1
33. Basic V F Curve PID Control Preset Speeds Local Remote Hand Off Auto HOA Variable Torque Pump Fan Spindle Motor Analog Speed Command Closed Loop Vector Control Changed Parameters Table E 2 01 Basic V F Curve Parameter Modbus Groups Description Range Default 0300H 50 01 Source of LOCAL HAND 00 Master Frequency determined by Frequency digital keypad on the drive 00 Source of LOCAL HAND Operating commands determined by 00 Operation Command the Digital Keypad Stop Method 00 STOP Ramp EF Coast 00 Maximum Output Frequency 50 to 400 0 Hz 50 00 Motor Nameplate Frequency 10 00 to 400 00 Hz 50 00 Motor Nameplate Voltage 230V Series 0 1 to 255 0V 220 460V Series 0 1 to 510 0V 440 575V Series 0 1 to 637 0V 575 Mid Point Output Frequency 0 00 to 400 00 Hz 0 50 Mid Point Output Voltage 230V Series 0 1 to 255V 1 7 3 4 A60V Series 0 1 to 510V 575V Series 0 1 to 637V 48 Minimum Output Frequency 0 00 to 20 00 Hz 0 50 Minimum Output Voltage 230V Series 0 1 to 50V 13 a 460V Series 0 1 to 100V 3 4 5 575V Series 0 1 to 637V 4 8 z a 032FH 50 48 Upper Frequency Limit 0 01 to 400 00 Hz 55 00 S Safety E 0330H 50 49 Lower Frequency Limit 0 0 to 400 00 Hz 0 Safety a wi E 2 GVX9000 User Manual Changed Parameters E T N Table E 3 02 PID Control Parameter Modbus
34. D3 STOP 0114H 30 21 5 9 Digital Input Terminal Parameter Disable 05 D3 External Fault NO EF External Fault NC EF External Reset NO External Reset NC Preset Speed Switch 1 Preset Speed Switch 2 Preset Speed Switch 3 08 Preset Speed Switch 4 09 Jog 10 2nd Acceleration Deceleration time selection 11 3rd Acceleration Deceleration time selection 12 Control Location Hand HOA 13 Control Location Auto HOA GVX9000 User Manual B 3 E TN GVX9000 Parameter Listings Table B 2 30 Inputs Continued Parameter User Modbus Groups Page Description Range Default Settings 0114H 30 21 5 9 Digital Input Terminal 14 Control Location Remote 05 D3 Local Remote close for remote 15 Increase Master Frequency 16 Decrease Master Frequency 17 Forward Reverse 18 Parameter Lock 19 Acceleration Deceleration Inhibit 20 Run Enable 21 PAUSE NO 22 PAUSE NC 23 PID Disable 24 Counter input 25 Counter reset 26 Auxiliary Motor 1 Output Failure 27 Auxiliary Motor 2 Output Failure 28 Auxiliary Motor 3 Output Failure a S o o E c 2 29 Output Shut Off NO 30 Output Shut Off NC 31 Auto Linear Acceleration Deceleration 32 Proximity sensor input index function 33 Forced Stop NO 34 Forced Stop NC
35. Digital Input Terminal Setting 20 5 16 Figure 5 19 Digital Input Terminal Settings 21 22 5 17 Figure 5 20 Digital Input Terminal Setting 23 5 17 Figure 5 21 Digital Input Terminal Setting 24 5 18 Figure 5 22 Digital Input Terminal Setting 25 5 19 vi GVX9000 User Manual Table of Contents E TN Figure 5 23 Digital Input Terminal Settings 26 27 28 5 19 Figure 5 24 Digital Input Terminal Settings 29 30 5 19 Figure 5 25 Digital Input Terminal Setting 31 5 20 Figure 5 26 Digital Input Terminal Setting 32 5 20 Figure 5 27 Digital Input Terminal Settings 33 34 5 20 Figure 5 28 Desired Freq Attained amp Preset Freq Attained 5 28 Figure 5 29 GVX Digital Output Option 33 5 29 Figure 5 30 Stop Methods 5 32 Figure 5 31 V F Curve Changes 5 35 Figure 5 32 Acceleration and Deceleration Times 5 38 Figure 5 33 S Curve Effects 5 40 Figure 5 34 Jog Frequency sus e rrr are eer wenn 5 41 Figure 5 35 Power Loss Parameters 5 42 Figure 5 36 Skip Frequency Parameters
36. GVX003A1 4 480V 3 hp 5 9 5 5 18 0 8 18 15 6 GVX005A1 4 480V 5 hp 11 2 8 5 18 0 8 18 15 6 GVX007A1 4 480V 7 1 2 hp 19 18 10 5 3 30 26 0 GVX010A1 4 480V 10 hp 25 24 8 8 4 30 26 0 GVX015A1 4 480V 15 hp 33 32 8 8 4 30 26 0 GVX020A1 4 480V 20 hp 46 38 6 13 3 30 26 0 Use Terminal GVX025A1 4 480V 25 hp 56 45 4 21 2 30 26 0 Use Terminal GVX0304A1 4 480V 30 hp 70 60 3 26 7 30 26 0 Use Terminal GVX040A1 4 480V 40 hp 75 73 3 26 7 57 49 5 GVX050A1 4 480V 50 hp 95 91 2 33 6 57 49 5 GVX060A1 4 480V 60 hp 110 110 1 0 53 5 200 173 6 GVX075A1 4 480V 75 hp 150 150 3 0 85 200 173 6 GVX100A1 4 480V 100 hp 180 180 4 0 107 2 200 173 6 GVX9000 User Manual Wiring Notes E TN Wiring Notes Please read prior to Installation CAUTION Do not connect the AC power to the T1 T2 T3 terminals it will damage the AC drive WARNING Make sure that all screws are tightened to the proper torque rating shown in Table 3 3 During installation follow all local electrical construction and safety codes for the country in which the drive is installed Make sure that the appropriate protective devices circuit breaker or fuses are connected between the power supply and AC drive Make sure that the leads are connected correctly and the AC drive is properly grounded Use ground leads that comply with AWG MCM standards and keep them as short as
37. GVX9000 User Manual E T N This page intentionally left blank ii GVX9000 User Manual E TN Table of Contents LIST OF FIGURES il aia aR Ep EEEa EE GUNE ERE EENE E Gua vi LIST OF TABLES cronos cinerea eu bue bi e ed etes d to R viii SAFETY MESSAGES ix Definitions and Symbols ix Hazardous High Voltage 22 5 or RR en ix High Voltage Warnings and Cautions x CHAPTER 1 INTRODUCTION 1 1 Howto Use This Manual exhi RR a Rx RR remm RR 1 2 Int rided Audience 4o rue ia RIPE qe DIS 1 3 Conventions Used in This Manual 1 3 Warranty and Liability Information 1 4 Related Publications 4n lr Rem Rete RE ERRAT p FERRE 1 4 CHAPTER 2 OVERVIEW OF THE GVX9000 DRIVE 2 1 Receiving and Inspection 22er rr en 2 2 Nameplate Information 2 2 Catalog Number 206 sr sev Evi dedos ed tegat eene 2 3 Style Number esse peor x Rec ean ded ERU ete EUR UR inde 2 4 External Parts and Label Locations 2 4 Digital Keypad Operation 2 5 CHAPTER 3 STORAGE AND INSTALLATION 3 1 Storage ipse E Rem piene hona decken WES AE Feu EBD quic 3 2 Environment 24 22e messa gukd ue Ree
38. Os LE E TN Group 80 Keypad Display 80 15 Power On Time Timer Minutes 80 16 Display Scroll 80 17 Content of Multifunction Display 80 18 Password Input 80 19 Password Decode 5 66 Range 0 to 65535 Default 0 Range Default 00 00 Disable 01 Scroll every 5 seconds after 1 minute delay 02 Scroll every 15 seconds after 1 minute delay This parameter selects the automatic display scroll mode If parameter 80 16 is set to 01 or 02 the display will scroll through all available views and repeat Range Default 00 00 Display output current 01 Display counter value 02 Display DC BUS voltage 03 Display output voltage 04 Output power factor angle 05 Display output power kW 06 Display actual motor speed rpm 07 Display the estimative value of the ratio of torque 08 Display PG numbers 10 ms 09 Display analog feedback signal value 10 Display Al1 11 Display AI2 96 12 Display AI3 96 13 Unit Temperature Range 1 65535 Default 0 Enter your password for the first time in this parameter Range 0 65535 Default 0 If a password has been entered this parameter will display a 1 To unlock the drive enter your password into this parameter GVX9000 User Manual Group 90 Communication E TN Group 90 Communication 90 01 Communication Protocol 90 02 RS 485 Communication 90 03 Transmission Speed 90 04 Transmission Fault Treatment
39. o 24 COM 24V Power Supply Used for Source mode Sa Main Circuit Wiring of EH fo Lo m e o o e L dins ob J 5 LL 4 000000000000009 o0000000000000 CELGIEEE IO 7 F7 8 B2 umilvr2lwrs o BAAD eem 19 9 RU sr2 ms Iu 1 JI WIE oT ru Model GVX001A1 2 GVX002A1 2 GVX003A1 2 GVX005A1 2 GVX001A1 4 GVX002A1 4 GVX003A1 4 GVX005A1 4 Figure 3 9 Main Circuit 1 to 5 hp GVX9000 User Manual E TN Main Circuit Wiring f AN fof te o o CE e 9 o 1 6 a 7 3e o o j M D R D S E a E E E E y Se zs lelele elele o A o o o D ES R L1 S L2 T L3 VIT2 wrra LE POWER MOTOR Model GVX007A1 2 GVX010A1 2 D Gvxot5A1 2 a GVX007A1 4 Oo Oo n GVX010A1 4 M 1 I 1 I j a GVX015A1 4 Figure 3 10 Main Circuit 7 1 2 to 15 hp 3 12 GVX9000 User Manual Main Circuit Wiring E TN
40. slip frequency Range 0 115 Default 110 This parameter determines the maximum encoder feedback signal allowed before a encoder feedback fault will occur Pr 60 18 x Pr 50 14 Max feedback frequency Range Default 0 0 Standby 1 Zero Speed Control This parameter determines the type of control the drive will use when a 0 0 Hz speed command is given in a RUN state Range 0 0 to 30 0 Default 0 This parameter determines the amount of voltage applied to the motor during RUN command when the frequency is less than or equal to 50 19 and 60 29 1 Be careful adjusting this value to avoid over current or over heat of the GVX9000 GVX9000 User Manual Group 70 Protective Functions E TN Group 70 Protective Functions 70 01 Over voltage Stall Range See below Default See below Prevention 00 Disable 230V Series 330 410V 390 460V Series 660 820V 780 575V Series 825 1025V 950 During deceleration the AC drive s DC bus voltage may exceed its maximum allowable value due to motor regeneration When this function is enabled the AC drive will stop decelerating and maintain a constant output frequency The drive will resume deceleration when the voltage drops below the factory preset value Note With moderate inertia loads over voltage during deceleration will not occur For application with high inertia loads the AC drive will automatically extend the deceleration time If deceleration time is critical fo
41. tlHlsw1 wiring of SINK Mode and SOURCE Mode Source 1 2 R L1 S L2 T L3 OEO directly to above terminals 5KQ O Main Circuit Power Terminals OQ Control Circuit Terminals i Shielded Leads amp Cable RUN STOP REV FWD Multi Step 1 5 6 Multi Step 2 5 5 Multi Step3 o Oo Multi Step4 Factory f o Setting Reset ER 5 5 o 5 o Digital Signal Common Don t apply the mains voltage Analog Signal Common 10V Power Supply 10V 20mA Master Frequency 0 to 10V 47KQ AI2 Factory Setting Drive Running Fault Indication O 48V50mA Factory Setting Warning Factory Setting Freq O Setting Indication 48V50mA C Digital Output Common Analog Multi Function 3 Output Terminal Factory Default Analog Freq Current Meter 0 10VDC 2mA Analog Signal Common Digital Frequency Output Terminal Factory Setting 1 1 L Duty 50 COM T Digital Signal Common OE 6 1 Rs 485 P Serial Interface 3 SG 4 SG Three phase input power may apply to single phase drives For the single phase drives the AC input line can be connected to any two of the three input terminals R S T Figure 3 3 Wiring Diagram 7 1 2 100 hp 3 6 GVX9000 User Manual Basic Wiring Diagram
42. 11 18 04 50 052 122 051 0 284 0 1 0 18 4 5 Rad 31 8 0 Dia s BM 4 Places e Coo Y l l 11 18 04 H 284 0 1 0 984 04 25 0 1 0 Figure C 9 Approximate Dimensions in Inches mm 20TDT1W4C GVX9000 User Manual C 17 Sa110SS899y E T N EMI Filter Cross Reference Catalog Number 200TDDS84C M8 x 05 1 2 2 Places 42 52 1080 0 Ref 38 39 975 0 el A ilil A 00000000000000000000000000000000000000000000000000000000000000000000000 2 76 t 00000000000000000000000000000000000000000000000000000000000000000000000 70 0 Pos gt 3 33 1 278 242 0 70 0 Max bor 2 76 EN 70 0 00000000000000000000000000000000000000000000000000000000000000000000000 Y Y 2 4 00000000000000000000000000000000000000000000000000000000000000000000000 4 37 40 950 0 Ref 26 x 31 6 5 x 8 0 24 6 0 4 Places 35 43 900 0 Ref 4 Places o o o 5 1 00000000000000000000000000000000000000000000000000000000000000000000000 t 5 59 a 142 0 Max 59 15 0 q p SS 12 Places Figure C 10 Approximate Dimensions in Inches mm 200TDDS84C C 18 GVX9000 User Manual Keypad Remote Mounting Kit P N GVXRM E T N Keypad Remote Mounting Kit P N GVXRM The keypad remote mounting kit consists of a NEMA 12 rubber gasket for the back of the keypad 3 screws and a 1 meter cable
43. 15 04 382 0 El 79 a 1 02 20 26 7 87 200 0 gt 4 72 120 0 K q celle O Q9 15 04 15 67 382 0 398 0 f lala PD 009 NN oo Figure C 3 Approximate Dimensions in Inches mm RF110B43CA GVX9000 User Manual C 11 Sa110SS899y E T N EMI Filter Cross Reference Catalog Number 26TDT1W4C F 9 84 39 A __ 250 0270 0 ads os 8 66 08 2 183 0 2 0 909 959 d M5 x 0 8 39 4 De a 10 0 e LI zi 4015 AWG 1015 AWG ED c 14 Blue 14 Black p R L1 2 S L2 T L3 Da k g 1015 AWG 14 G Y Y ES d e 14 Brown 0 D L z 12 3 0 Rad 1 97 08 4 80 04 mere 50 02 122 051 0 284 04 1 0 18 4 5 Rad 31 8 0 Dia 9 o o 4 Places Fl L E d k 11 18 04 982 04 CER OEO D 25 0 1 0 lt x Figure C 4 Approximate Dimensions in Inches mm 26TDT1W4C C 12 GVX9000 User Manual EMI Filter Cross Reference E T N Catalog Number 50TDS4W4C 3 54 08 1 18 1 57 1 57 1 57 90 0 2 0 30 0 40 0 40 0 40 0 28 x 39 7 0 x 10 0 9 a i 2 Places j y a x 0 7 1 Power In e Typ 4 Places 28 7 0 4 amp 12 60 08 320 0 2 0 Typ 13 39 04 340 0 1 0
44. 2 D1 RUN STOP D2 REV FWD 03 3 wire Operation Mode D1 RUN D2 REV FWD D3 STOP Note When 30 20 3 30 21 D3 will be set to 0 and used for the third terminal Please see Figure 5 7 E SE aos E 2 T doc o9 aE Ss Os a 5 8 GVX9000 User Manual Group 30 Inputs E T N 30 21 Digital Input Terminal D3 Ra 00 01 02 03 04 05 06 07 08 09 Setting 01 SUE 24v D1 D2 D3 D4 05 De D7 ps D9 D10 COM REV STOP FWD STOP 29 Setting 02 24v D1 D2 D3 D4 Ds D6 D7 D8 Do D10 COM 60 REV FWD RUN STOP uis Setting 03 6 REV FWD que LI D1 D2 D3 D4 ps D6 D7 e D9 D10 COM Figure 5 7 D1 and D2 Settings nge 00 to 33 Default 05 Parameter Disable External Fault NO EF External Fault NC EF External Reset NO External Reset NC Preset Speed Switch 1 Preset Speed Switch 2 Preset Speed Switch 3 Preset Speed Switch 4 Jog jo suondn2saq TU 2 S E E a D E 5 a GVX9000 User Manual 5 9 E SE aos E Su T do o9 aE es Os A E TN Group 30 Inputs 30 21 continued Digital Input Terminal D3 continued 30 22 Digital Input Terminal D4 30 23 Digital Input Terminal D5 30 24 Digital Input Terminal D6 5 10 10 2nd Acceleration Deceleration ti
45. 300W 400 Q 600W 200 Q 600W 200 2 600W 200 2 2000W 100 Q 1000W 50 Q 1500W 40 Q 4800W 32 Q 4800W 27 2 Q 6000W 20 Q 9600W 16 Q 100 45 24 75 9600W 13 6 Q 55 31 11 12000W 11 Q 75 42 7 19200W 6 8 Q a 125 2 125 Q 125 eee eee eee In parallel Contact Eaton Notes 1 GVX9000 User Manual C 5 Please select the factory setting resistance value Watt and the duty cycle value ED If damage to the drive or other equipment are due to the fact that the braking resistors and the braking modules in use are not provided by Eaton the warranty will be void Take into consideration the safety of the environment when installing the braking resistors If the minimum resistance value is to be utilized consult local dealers for the calculation of the Watt figures Please select thermal relay trip contact to prevent resistor over load Use the contact to switch power off to the AC motor drive When using more than 2 braking units equivalent resistor value of parallel braking unit can t be less than the value in the column Minimum Equivalent Resistor Value for Each AC Drive the right most column in the table Please read the wiring information in the user manual of braking unit thoroughly prior to taking into operation Sa110SS899y Accessories E T N Braking External Brake Unit 4 76 121 0 3 15 5 12 Pd Qu300 7 A A 13 3 3 Ra
46. 4 Places M8 x 1 25 Typ 6 Places A I i 18 e tH c H3 2 36 60 0 Ct l 2 36 60 0 a ct Ip g L 8 Y le c E Y H p I F 15 83 402 0 Max 3 ud os m 5 16 4 08 420 05 2020210 17 32 440 0 gt Max Figure C 7 Approximate Dimensions in Inches mm 150TDS84C GVX9000 User Manual C 15 E T N EMI Filter Cross Reference Catalog Number 180TDS84C A 18 90 480 0 Max gt e 16 46 418 0 Ref gt e C A 4 80 a 122 0 pi di 75 0 H 30 x 49 5 91504 7 5x 12 5 150 0 1 0 Typ 4 Places M8 x 1 25 Typ 6 Places A rel ES HE an a J H3 2 36 60 0 E Ro A 2 36 al 60 0 3 i H gt E I E Y cr I ___ 15 83 402 0 Max gt ge m p 654 08 420 0 2 0 202 021 0 lt 17 32 440 0 gt Max Figure C 8 Approximate Dimensions in Inches mm 180TDS84C C 16 GVX9000 User Manual EMI Filter Cross Reference E T N Catalog Number 20TDT1W4C F 7 87 39 A 200 0 10 0 E Le 8 66 08 6 02 08 306 0 2 0 153 0 2 0 M5 x 0 8 4 NI 39 Im 1015 AWG 16 Blue 1015 AWG 9 16 G Y 1015 AWG 16 Brown C B 12 3 0 Rad fe D 1 975 08 4 80 04
47. 444 ee cee nm 4 4 Wire SIZES 33 0852 hk coe Rb oe genie 4 5 Fuses and Circuit Breakers 4 6 FUSING ss see Sa eine Sachs ERR ree e eed ee 4 6 Manual Motor Starters UL489 Circuit Breakers esseri decadi A RU ur 4 6 Wiring the Inverter to Incoming Power 4 9 Wiring the Motor to the Inverter Output 4 10 Power Up Test 4 11 Powering the Inverter 4 12 am 77 os 2 et EI N GVX9000 User Manual 4 1 E T N Step by Step Installation This chapter will explain the installation of the GVX9000 general purpose drive Be sure to read and follow all instructions for a successful installation WARNING A This equipment should be installed adjusted and serviced by qualified electrical maintenance personnel familiar with the construction and operation of the equipment and the hazards involved Failure to observe this precaution could result in bodily injury Step by Step Installation 1 Read all instructions and warnings associated with mounting the GVX9000 2 Select a suitable mounting location 3 Check the inverter mounting dimensions for footprint and mounting hole locations Connect the wiring for the inverter input Connect the wiring to the motor Perform a power up test 2509 28h sis Make observations and re check the installation Mounting Location Step 1 Study the following caution messages associated with mo
48. 5 575V AC 5 hp CT GVX007A1 5 575V AC 7 1 2 hp CT GVX010A1 5 575V AC 10 hp CT GVX015A1 5 575V AC 15 hp CT GVX020A1 5 575V AC 20 hp CT GVX025A1 5 575V AC 25 hp CT GVX030A1 6 575V AC 30 hp CT GVX040A1 5 575V AC 40 hp CT GVX050A1 5 575V AC 50 hp CT GVX060A1 5 575V AC 60 hp CT GVX075A1 6 575V AC 75 hp CT 50 GVX100A1 5 575V AC 100 hp CT 0 0603H 80 04 5 63 Fault Record 1 00 26 0604H 80 05 5 63 Fault Record 2 00 26 0605H 80 06 5 64 Fault Record 3 00 26 B 18 GVX9000 User Manual GVX9000 Parameter Listings E T N Table B 7 80 Keypad Display Continued Parameter User Modbus Groups Page Description Range Default Settings 0606H 80 07 5 64 Fault Record 4 00 No fault occurred 0 01 Over Current 02 Over Voltage 03 Overheat 04 Overload 05 Overload 1 06 Over Torque 07 External Fault 08 CPU failure 1 09 CPU failure 2 CPU failure 3 Hardware Protection Failure Over current during accel Over current during decel Over current during steady state Ground fault or fuse failure Reserved 3 phase Input Power Loss Reserved Auto Adjust accel decel failure Software protection code IGBT Short circuit Loss of 4 20 mA Under Current Detected Encoder F
49. 5 52 Slip Compensation 0 to 250 Limit 040EH 60 15 5 52 Time Constant for 0 01 10 00 sec 0 05 Torque Compensation 040FH 60 16 5 52 Time Constant for Slip 0 01 10 00 sec 0 10 Compensation 0410H 60 17 5 52 Hunting Coefficient 0 1000 0 0411H 60 18 5 53 CLV Encoder Pulses 00 40000 2 poles 00 20000 600 GVX9000 User Manual B 13 E TN GVX9000 Parameter Listings Table B 5 60 Motor Control Continued Parameter User Modbus Groups Page Description Range Default Settings 0412H 60 19 5 53 CLV Encoder Mode 00 PG disable 0 01 Single phase 02 Forward Counterclockwise rotation 03 Reverse Clockwise rotation 0413H 60 20 5 53 CLV P Gain 0 0 10 0 1 0 0414H 60 21 5 53 CLV I Gain 0 0 100 00 1 00 0415H 60 22 5 53 CLV Frequency 0 0 100 00 Hz 10 00 Limit 0416H 60 23 5 53 CLV Encoder 0 01 1 00 sec 0 10 Detection Update Time 0417H 60 24 5 53 CLV Encoder Fault 00 Warning and Keep 00 Treatment operating E 01 Warning and Ramp to stop 02 Warning and Coast to stop S 0418H 60 25 5 53 CLV Encoder 0 01 10 00 sec 1 00 Feedback Fault g Detection Time o E 0419H 60 26 5 54 CLV Encoder 00 Disable 00 r E Feedback Filter 0 002 1 00 a 041AH 60 27 5 54 CLV Encoder Slip 0 0 50 0 10 0 Range Deviation Range 041BH 60 28 5 54 CLV Encoder Stall 0 115 110 Level Over Speed 041C
50. 70 XTPRO32BC1 XTCE032C10_ GVX015A1 4 33 32 100 JJS 100 XTPRO40BC1 XTCE040D10_ GVX020A1 4 46 38 150 JJS 150 XTPRO50BC1 XTCE050D10 GVX025A1 4 56 45 150 JJS 150 XTPRO63BC1 XTCE065D10 GVX030A1 4 70 60 200 JJS 200 Consult Consult factory GVX040A1 4 75 73 225 JJS 225 factory GVX050A1 4 95 91 300 JJS 300 GVX060A1 4 110 110 350 JJS 350 Consult Consult factory GVX075A1 4 150 150 450 JJS 450 factory GVX100A1 4 180 180 500 JJS 500 Note Smaller fuses than those shown in the table are permitted Note Contact Eaton for 575V information C 2 GVX9000 User Manual Wiring E T N Wiring Table C 3 Wiring Items Items Explanations Input Power Please follow the specific power supply requirement shown in Appendix A Fuse Please check the Fuse Specification tables on Page C 2 for proper fuse selection Magnetic Contactor Optional Please do not use a Magnetic Contactor as the ON OFF switch of the AC drive this will reduce the operating life of the AC drive The contactor should only be used as a safety device for disconnecting power to the drive Line Load Reactor Optional To improve the power factor An AC Reactor may be necessary when capacity is above 1000 kVA and the wiring distance is within 10m EMI Filter Optional Used to reduce the electromagnetic interference Braking Resistor Optional Used to reduce stopping time of the motor Please refer to the Bra
51. 90 05 Over Time Detection 90 06 Communication Frequency Reference Range Default 00 00 01 02 03 04 05 Modbus ASCII Mode lt 7 data bits no parity 2 stop bits gt Modbus ASCII Mode lt 7 data bits even parity 1 stop bit gt Modbus ASCII Mode lt 7 data bits odd parity 1 stop bit gt Modbus RTU Mode lt 8 data bits no parity 2 stop bits gt Modbus RTU Mode 8 data bits even parity 1 stop bit gt Modbus RTU Mode lt 8 data bits odd parity 1 stop bit gt Range 01 to d 254 Default 01 Range Default 01 00 4800 baud 01 9600 baud 02 19200 baud 03 38400 baud Range Default 03 00 01 02 Display fault and Continue operating Display fault and Ramp to stop Display fault and Coast to stop 03 No fault displayed and continue operating Range 0 0 to 120 0 sec Default 0 So 0 0 Disable 3 E Lan sz ano os Er So Range 0 0 to 400 0 Hz Default 0 00 Hz bo GVX9000 User Manual 5 67 E TN Group 90 Communication 90 07 Communication Range Default N A Command Bito 1 00 No function 01 Stop 10 Run 11 JOG Run Bit 2 3 Reserved Bit 4 5 00 No function 01 Forward 10 Reverse 11 Change direction Bit 6 15 Reserved 90 08 Communication Range Default N A of EF and Reset pito 1EF On Bit 1 1 Reset Bit 2 15 Reserved 90 09 Status Monitor Range Default N A for Error Code 00 No Fault occurred 01 Over current 02 Over voltage 03 Overheat 04 Overload 05 Overload 1 06 Over Tor
52. D5 D6 D7 D8 D9 D10 COM 0 0 08 Preset Speed Switch 4 OO 07 Preset Speed Switch 3 OO 06 Preset Speed Switch 2 OO 05 Preset Speed Switch 1 Frequency 30 38 Jog Freq 50 40 30 31 Master Speed 30 45 51 2 83 4 15 6 7 8 9 10 11 12 13 14 15 ON Run Signal OFF ON T z Switch 1 s D cs 83 OFF os Switch 2 7 2i b oa mo EX OFF s59 Switch 3 eo OR ow el die ae se ON Switch 4 OFF ON Jog Freq Multi Step Speed via External Terminals Figure 5 10 Digital Input Terminal Settings 05 06 07 08 GVX9000 User Manual 5 13 E TN Group 30 Inputs Setting 09 Jog operation may only be initiated while the motor is stopped Refer to 50 38 to 50 40 24V D1 D2 D3 D4 D5 D6 D7 D8 D9 p1o con 09 Jog Figure 5 11 Digital Input Terminal Setting 09 Settings 10 11 Digital input terminals D3 D10 may be used to change from the first to the Second Third or Fourth Acceleration Deceleration times 24V D1 D2 D3 D4 D5 D6 D7 D8 D9 D10 COM OO 10 2nd Acceleration Deceleration time selection OO 11 3rd Acceleration Deceleration tim
53. Default 0105H 30 06 A2 Maximum Input Current 0 00 to 20 00 mA 20 00 mA 0 20 mA A2 Minimum Input Current 0 20 mA 0 00 to 20 00 mA A2 Maximum Output Frequency 400 0 to 400 0 Hz A2 Minimum Output Frequency Digital D2 nput Terminals D1 400 0 to 400 0 Hz 2 wire Operation Mode 2 D1 RUN STOP D2 REV FWD Digital Input Terminal D3 Control Location Remote Local Remote close for remote Digital Digital nput Terminal D4 nput Terminal D5 Run Enable External Fault NO EF Digital Input Terminal D6 External Reset NO Digital Digital nput Terminal D7 nput Terminal D8 Jog Preset Speed Switch 1 Digital Input Terminal D9 Preset Speed Switch 2 Digital Digital Output Terminal Relay A RA1 RA2 RA3 nput Terminal D10 Preset Speed Switch 3 Inverter Fault Digital Output Terminal Relay B RB1 RB2 Ready Digital Output Terminal DO1 Digital Output Terminal DO2 At speed Over torque detection Source of LOCAL HAND Frequency Master Frequency determined by 4 20 mA on terminal Al2 Source of REMOTE AUTO Frequency Source of LOCAL HAND Operation Command Master Frequency determined by 0 10V on terminal Al1 Operating commands determined by the Digital Keypad Source of REMOTE AUTO Operation Command Operating commands determined by the External Control Terminals Keypad STOP key is enabl
54. Descriptions of Parameter Settings Inside this chapter Viewing and Changing Parameter Settings 5 2 Parameter Groups 5 4 Group 20 Easy Mode Settings 5 5 Group 30 Inputs renc sos mens etats 5 6 Explanations Digital Input Terminal 5 11 Group 40 Outputs sso eden 5 24 Function Explanations 22224248 5 26 Group 50 AC Drive Control 5 30 Group 60 Motor Control 5 49 Group 70 Protective Functions 5 55 Group 80 Keypad Display 5 62 Group 90 Communication 5 67 jo suondn2saq TU 2 S E a o 5 a GVX9000 User Manual 5 1 E TN Viewing and Changing Parameter Settings This chapter contains the descriptions of the GVX9000 parameters Parameters are addressed and changed via the keypad for the GVX9000 For more information on keypad operation see Keypad Operation located in Chapter 2 Viewing and Changing Parameter Settings Parameters are grouped in a page arrangement Each page will contain a list of the parameters associated with that group Move into the page groups from the display menu by using the right arrow key 40 30 Display Hz 20 e A w D Figure 5 1 Page Groups Select the desired parameter group by using the up and down keys On
55. Feedback Deviation Err 26 Count Attained B 22 GVX9000 User Manual GVX9000 Parameter Listings E T N Table B 8 90 Communication Continued Parameter User Modbus Groups Page Description Range Default Settings 0709H 90 10 5 69 Status Monitor for AC Bit0 1 00 Stop N A Drive 01 Decelerate during the drive stopping 10 The drive standby 11Run Bit 2 1 JOG active Bit3 4 00 FWD 01 REV to FWD 10 FWD to REV 11 REV Bit 5 7 Reserved Bit 8 1 Source of frequency by communication Bit 9 1 Source of frequency v by AI 2 Bit10 1 Source of operation 5 by communication o Bit11 1Parameters have been E locked E Bit 12 15 Reserved gt 070AH 90 11 5 69 Status Monitor for 0 0 to 400 0 Hz N A E Communication Frequency 070BH 90 12 5 69 Status Monitor for 0 0 to 400 0 Hz N A Output Frequency 070CH 90 13 5 70 Status Monitor for 0 0 to Max Amps N A Output Current 070DH 90 14 5 70 Status Monitor for 00 to 65535 N A User Defined High Word 070EH 90 15 5 70 Status Monitor for 0 00 to 655 35 N A User Defined Low Word 070FH 90 16 5 70 Status Monitor for 0 0 to Max VAC N A Output Voltage 0710H 90 17 5 70 Status Monitor for 0 0 to Max degree C N A Unit Temperature 0711H 90 18 5 70 Status Monitor for DC 0 0 to Max VDC N A Bus Voltage 0712H 90 19 5 70 Status Monitor for 0 to Max step N A Multi Step 0713H 90 20 5 70 Status Mo
56. Gain Adjustment 50 63 PID Upper Limit for Integral Control 50 64 PID Output Delay Filter Time GVX9000 User Manual Range Default 0 00 Disable 01 Keypad store in 50 66 02 AIT external 0 10V 03 Al2 external 4 20 mA 04 AIS external 10 10V 05 PID set point 50 66 This parameter determines the location of PID setpoint Range Default 0 00 Positive Al1 0 10V 01 Negative Al1 0 10V 02 Positive Al2 4 20 mA 03 Negative AI2 4 20 mA 04 Positive AI3 10 10V This parameter determines the analog PID feedback source and type Range 0 0 to 10 0 Default 1 0 Range 0 00 to 100 0 sec Default 1 00 When this parameter is set to 0 0 this function is disabled Range 0 00 to 1 0 sec Default 0 00 When this parameter is set to 0 0 the function is disabled El g ES sz Range 00 to 100 Default 100 po ao 59 a Range 0 0 to 2 5 sec Default 0 0 This parameter generates a delay before the PID will respond to a change 5 45 E TN Group 50 AC Drive Control 50 65 PID Output Freq Limit 50 66 PID Fixed Set Point 50 67 PID Feedback Deviation Level 50 68 PID Feedback Deviation Detection Time 50 69 PID Treatment of the Feedback Deviation Error 50 70 Sleep Frequency 50 71 Wake Frequency E SE aos E Su T doc o9 aE Ss Os a 5 46 Range 0 to 110 Default 100 This parameter limits the output
57. Operation Command Operating commands determined by the External Control Terminals Keypad STOP key is enabled Keypad Frequency Setting 50 00 to 400 00 Hz Maximum Output Frequency Motor Nameplate Frequency 50 to 400 0 Hz 10 00 to 400 00 Hz Motor Nameplate Voltage 230V Series 0 1 to 255 0V 460V Series 0 1 to 510 0V 575V Series 0 1 to 637 0V Mid Point Output Frequency 0 00 to 400 00 Hz Mid Point Output Voltage 230V Series 0 1 to 255V 460V Series 0 1 to 510V 575V Series 0 1 to 637V Minimum Output Frequency Minimum Output Voltage Acceleration Time 1 0 00 to 20 00 Hz 230V Series 0 1 to 50V 460V Series 0 1 to 100V 575V Series 0 1 to 637V 0 01 to 600 00 seconds Deceleration Time 1 0 01 to 600 00 seconds Upper Frequency Limit Safety 0 01 to 400 00 Hz 0330H 50 49 Lower Frequency Limit 0 0 to 400 00 Hz 0 Safety Table E 10 09 Closed Loop Vector Control Parameter Modbus Groups Description Range Default Digital Input Terminal D3 Run Enable Digital Input Terminal D4 Preset Speed Switch 1 Digital Input Terminal D5 Digital Input Terminal D6 Preset Speed Switch 2 Preset Speed Switch 3 Digital Input Terminal D7 Preset Speed Switch 4 Digital Input Terminal D8 Digital Input Terminal D9 External Fault NO EF External Reset NO Digital Input Terminal D10 Jog Digita
58. Range Default 00 00 STOP Ramp EF Coast 01 STOP Coast EF Coast 02 STOP Ramp EF Ramp 03 STOP Coast EF Ramp This parameter determines how the motor is stopped when the AC drive receives a valid stop command Ramp The AC drive decelerates the motor to the Minimum Output Frequency based on the time set in 50 25 50 27 50 29 and 50 31 Coast The AC drive stops the output instantly upon command and the motor free spins until it comes to a complete stop Hz Freq L 3 Motor Speed Stops According Free Running to Deceleration Time to Stop Operation ON OFF ON OFF Command Ramp Coast Figure 5 30 Stop Methods 50 09 HOA Stop Range 00 to 01 Default 01 Method 00 Ramp 01 Coast This parameter determines how the drive will STOP when you switch from HAND to OFF or AUTO to OFF 50 10 4 20 mA Input 5 32 Signal Loss Range 00 to 02 Default 00 00 Decel to 0 Hz 01 Stop immediately and display EF 02 Continue operation at last known frequency This parameter determines how the drive will react to a loss of analog input signal 4 20 mA GVX9000 User Manual Group 50 AC Drive Control E T N 50 11 4 20 mA Input Loss Detection Time 50 12 UP DOWN Key Speed 50 13 Increment Decrement Rate of Frequency 50 14 Maximum Output Frequency 50 15 Motor Nameplate Frequency GVX9000 User Manual Range 0 1 to 120 00 sec 00 Disable
59. an external Pulse Signal Generator to count a process or unit of material See the diagram below 24V D1 D2 D3 D4 D5 D6 D7 D8 D9 D10 COM o 24 Counter Input co 2 ms gt rn co C1 C2 C3 C4 C5 C1 C2 Indication value trigger enable Counter trigger signal Multi function input terminal 7 m Do gt e eo 2 ms r The trigger timing Signal output with 30 30 30 30 3 can t be less than F r 2 ms lt 250 Hz counter value is attained L 40 03 40 06 Intermediate Count Value Attained counter value is attained Signal output with 30 29 30 29 5 M 40 03 40 06 Final Count Value Attained Figure 5 21 Digital Input Terminal Setting 24 E SE as E 2 T doc o9 aE Ss Os a 5 18 GVX9000 User Manual Group 30 Inputs E T N Setting 25 A digital input terminal may be used to reset the counter as shown in Figure 5 22 24V D1 D2 D3 D4 D5 D6 D7 D8 D9 pio con 25 Counter Reset Figure 5 22 Digital Input Terminal Setting 25 Settings 26 27 28 A digital input may be used to disable an Auxiliary Motor as shown in Figure 5 23 Refer to 50 73 to 50 76 24V D1 D2 D3 D4 D5 D6 D7 D8 g 9 D10 COM 00 26 Auxiliary Motor
60. can be easily changed from low speed to high speed Be sure to check the capability and limitations of the motor and machine before operating the inverter Otherwise there is the danger of injury ay a os et oc N CAUTION A If you operate a motor at a frequency higher than the inverter standard default setting 50 Hz 60 Hz be sure to check the motor and machine specifications with the respective manufacturer Only operate the motor at elevated frequencies after getting their approval Otherwise there is the danger of equipment damage GVX9000 User Manual 4M Start Up a o cs o LE E TN Fuses and Circuit Breakers Powering the Inverter If you have followed all the steps cautions and warnings up to this point you re ready to apply power After doing so the following events should occur The LCD display will illuminate The Hz STOP LOC FWD LEDs will illuminate If the motor starts running unexpectedly or any other problem occurs press the STOP button Only if necessary should you remove power to the inverter as a remedy Note If the inverter has been previously powered and programmed the LEDs other than the POWER LED may illuminate differently than as indicated above If necessary you can initialize all parameters to the factory default settings See the initialization instructions in the Programming section 4 12 GVX9000 User Manual E T N Chapter 5
61. check the input voltage of the AC drive with a Voltmeter Periodic Maintenance WARNING A Disconnect AC power before proceeding 1 Tighten the AC drive input and output power screws if necessary These screws might loosen due to vibration or temperature changes 2 Check if the conductors or insulators are corroded and damaged 3 Check the insulation resistance with Mega ohm meters 4 If the AC drive is not to be used for a long periods of time turn the power on at least once every two years and confirm that it still functions properly To confirm functionality disconnect the motor and energize the AC drive for at least 5 hours before attempting to run a motor with it 5 Clean off any dust and dirt with a vacuum cleaner Place special emphasis on cleaning the ventilation ports and PCBs Always keep these areas clean as accumulation of dust and dirt can cause unforeseen failures Ss eo aS 5 So o gt a cs 6 2 GVX9000 User Manual E T N Chapter 7 Troubleshooting and Fault Information na se ES 2R a 32 9 za i 55 a Inside this chapter Common Problems and Solutions 7 2 Warning Codes spi xor Erde ame mae oe 7 5 GVX9000 User Manual 7 1 E TN Common Problems and Solutions 5 E 2 3 c a T D a E 2 E 2 Common Problems and Solutions The AC drive has a comprehensive
62. continue operating 0704H 90 05 5 67 Over Time Detection 0 0 to 120 0 sec 0 0 0 Disable 0705H 90 06 5 67 Communication 0 0 to 400 0 Hz 0 00 Hz Frequency Reference 0706H 90 07 5 68 Communication Bit 0 1 00 No function N A Command 01 Stop 10 Run 11 JOG Run Bit2 3 00 No function Bit4 5 00 No function 01 Forward 10 Reverse 11 Change direction Bit 6 15 00 No function 0707H 90 08 5 68 Communication of EF Bit 0 1EF On N A andiReset Bit 1 1 Reset Bit 2 15 Reserved GVX9000 User Manual B 21 E T N GVX9000 Parameter Listings Table B 8 90 Communication Continued Parameter User Modbus Groups Page Description Range Default Settings 0708H 90 09 5 68 Status Monitor for 00 NoFault occurred N A Error Code 01 Over current 02 Over voltage 03 Overheat 04 Overload 05 Overload 1 06 Over Torque 07 External Fault 08 CPU Failure 1 09 CPU Failure 2 a S o o E c 2 CPU Failure 3 Hardware Protection Failure Over current during accel Over current during decel Over current during steady state Ground fault or fuse failure Under Voltage 3 Phase Input Power Loss Pause Auto Adjust accel decel failure Software protection code IGBT Short circuit 22 Lossof4 20 mA 23 Under Current Detected 24 Encoder Fault 25
63. determined by the RS 485 communication interface Keypad STOP key is not enabled GVX9000 User Manual Group 50 AC Drive Control E T N 50 04 Source of REMOTE AUTO Operation Command 50 05 Dual Frequency Input Mode 50 06 Trim Reference 50 07 Keypad Frequency Setting GVX9000 User Manual Range 00 to 04 Default 01 00 Operating commands determined by the Digital Keypad 01 Operating commands determined by the External Control Terminals Keypad STOP key is enabled 02 Operating commands determined by the External Control Terminals Keypad STOP key is not enabled 03 Operating commands determined by the RS 485 communication interface Keypad STOP key is enabled 04 Operating commands determined by the RS 485 communication interface Keypad STOP key is not enabled Range 00 to 03 Default 00 00 Disable 01 50 01 50 02 02 50 01 50 02 03 50 02 trims 50 01 Reference This parameter determines how the drive will react to the two independent input commands Range 0 00 to 100 00 Default 0 00 Unit 0 01 This parameter sets the percentage of trim applied when 50 05 is set to 03 Range 50 00 to 400 00 Hz Default 60 00 Unit 0 01 Hz This parameter sets the start up frequency of the keypad jo suondn2saq TU 2 S E a o E3 5 a 5 31 E SE aos E Su T do o0 aE es Os a E TN Group 50 AC Drive Control 50 08 Stop Method
64. drive z 0301H 50 02 Source of REMOTE AUTO 02 Master Frequency determined by 4 02 gt Frequency 20 mA on terminal Al2 wi E 8 GVX9000 User Manual Changed Parameters E T N Table E 7 06 Variable Torque Pump Fan Continued Parameter Modbus Groups Descripti Range Default 0302H 50 03 Source of LOCAL HAND 00 Operating commands determined by 00 Operation Command the Digital Keypad Source of REMOTE AUTO Operation Command Operating commands determined by the External Control Terminals Keypad STOP key is enabled Stop Method STOP Ramp EF Coast 4 20 mA Input Signal Loss Maximum Output Frequency Decel to 0 Hz 50 to 400 0 Hz Motor Nameplate Frequency 10 00 to 400 00 Hz Motor Nameplate Voltage 230V Series 0 1 to 255 0V 460V Series 0 1 to 510 0V 575V Series 0 1 to 637 0V Mid Point Output Frequency Mid Point Output Voltage Minimum Output Frequency 0 00 to 400 00 Hz 230V Series 0 1 to 255V 460V Series 0 1 to 510V 575V Series 0 1 to 637V 0 00 to 20 00 Hz Minimum Output Voltage 230V Series 0 1 to 50V 460V Series 0 1 to 100V 575V Series 0 1 to 637V CTNT Mode 01 Variable Torque Variable Torque Curve Selection 01 1 5 Power curve 032FH 50 48 Upper Frequency Limit 0 01 to 400 00 Hz 65 00 Safety 0330H 50 49 Lower Frequency Limit 0 0 to 400 00 Hz 0 Safety Table E 8 07 Spindle M
65. factor Other Functions AVR S Curve Over Voltage Over Current stall prevention Fault records checking Carrier Frequency adjustable DC injection braking Momentary power loss restart Frequency limit setting Parameter lock reset Frequency input operation method selection Reverse run inhibit vector control counter PG feedback control PID control fan and pump control etc Protection Self testing Over voltage Over current Under voltage Overload Overheating External Fault Ground Fault It under current external fault IGBT short circuit Cooling Systems Forced air cooling Environment Installation Location Altitude 1 000m or lower keep from corrosive gasses liquid and dust Pollution Degree 2 Ambient 10 to 50 C Non condensing and not frozen 10 to 40 C for the Temperature models of 5 5 kW and higher Storage Temperature 20 to 60 C Ambient Humidity Below 90 RH non condensing Vibration 9 80665 m s2 1G less than 20 Hz 5 88 m s2 0 6G at 20 to 50 Hz GVX9000 User Manual A 5 E T N This page intentionally left blank 2 T EB E A 6 GVX9000 User Manual E T N Appendix B Parameter Tables Inside this chapter GVX9000 Parameter Listings 20 Easy Mode Settings B 2 30 JinpUuts 2d eevee bue ee ape aree B 2 40 Outputs sse Pre VR ERES B 5 50 AC Drive Control B 7 60 Motor Control Je s x EE B 13 70
66. frequency the PID system will generate Used as a safety limit Range 0 0 to 400 0 Hz 100 0 Default 0 This parameter is used to set a SETPOINT that can not be changed without entering into the program Range 0 to 100 Default 100 Range 0 00 to 3600 0 sec Default 1 0 Range Default 01 00 Warning and Inverter Stop 01 Warning and Continue Operation This parameter determines the GVX9000 operation when the PID feedback signal is lost Range Default 0 00 0 0 Disabled 0 00 to 400 Hz Enabled The Master Frequency point where the AC drive begins to Sleep and stop its output Note The sleep frequency must be smaller than or equal to the wake frequency Range 0 00 to 400 00 Hz Default 0 00 The Master frequency point where the drive begins to generate an output again GVX9000 User Manual Group 50 AC Drive Control E T N 50 72 Sleep Time Delay Range 0 0 to 600 sec Default 0 Time delay before going into a sleep mode Frequency Actual Running Command Output Frequency Wake Frequency 50 70 di Sleep Frequency i i i 0 Hz Sleep Time Delay Figure 5 37 Sleep Time Delay 50 73 Frequency Point Range 0 00 to 400 00 Hz Default 0 00 to Start Motor 2 Unit 0 01 This parameter serves as a reference for the start up value of the auxiliary motor If the setting is 0 the auxiliary motor cannot be attached 50 74 Frequency Point Range 0 00 to 400 00 Hz Default
67. hp Range 0 01 to d 36000 sec Default Unit 0 01 sec Depends on drive hp Range 0 01 to d 36000 sec Default Unit 0 01 sec Depends on drive hp These parameters may be set during operation 50 24 This parameter sets the time required for the AC drive to ramp from 0 Hz to its Maximum Output Frequency 50 14 The rate is linear unless S Curve is Enabled 50 25 This parameter sets the time required for the AC drive to decelerate from the Maximum Output Frequency 50 14 down to 0 Hz The rate is linear unless S Curve is Enabled The second third and fourth acceleration and deceleration times 50 26 to 50 31 function the same as the standard acceleration and deceleration times 50 24 and 50 25 The 4 sets of acceleration deceleration times could be selected by a digital input terminal programmed to option 10 and 11 refer to 30 21 to 30 28 User may also use parameters 50 34 and 50 35 to automatically change from Accel Decel time 1 to Accel Decel time 2 In Figure 5 32 the acceleration and deceleration times of the AC drive are between 0 Hz and Maximum Output Frequency 50 14 If the Maximum Output Frequency is 60 Hz Minimum Output Frequency 50 19 is 1 0 Hz and acceleration and deceleration times are set to 10 seconds The actual time for the AC drive to accelerate from start up to 60 Hz is 9 83 seconds and the deceleration time is also 9 83 seconds Remember the drive always starts timing from 0 Hz jo suondiiosaq
68. may be damaged The short circuit protection is provided for AC drive protection not user protection Ground fault 1 Check whether the IGBT power module is damaged 2 Check for possible poor insulation on the output wires or on the motor Pause External Pause AC drive output is turned off 1 When the external input terminal pause is active the AC drive output will be turned off 2 Disable this pause and the AC drive will begin to work again 7 4 GVX9000 User Manual Warning Codes E T N Warning Codes Table 7 2 Warning Codes Warning Name Warning Descriptions Corrective Actions Command Error 1 Illegal command code The command code received in the command message is not available for the AC drive Command Error 2 Command Error 3 Illegal data address The data address received in the command message is not available for the AC drive Illegal data value The data value received in the command message is not available for the AC drive Command Error 4 Slave device failure The AC drive is unable to perform the requested action Communication Time Out Communication time out E Se ES Zg EE E F 25 ac 38 a The corrective action can be set with the Transmission Fault Treatment parameter 90 04 Over Torque Feedback Error Motor overload Check the parameter settings 70 04 70 06 PID feedback loss 1 R
69. may cause injury to personnel CAUTION Be sure to install the inverter in a well ventilated room which does not have direct exposure to sunlight a tendency for high temperature high humidity or dew condensation high levels of dust corrosive gas explosive gas inflammable gas grinding fluid mist salt damage etc Otherwise there is the danger of fire gt BB BBD D D CAUTION Be sure that the input voltage matches the inverter specifications Single Three phase 200 to 240V 50 60 Hz up to 2 2 kW Three phase 200 to 230V 50 60 Hz above 2 2 kW Three phase 380 to 460V 50 60 Hz Three phase 500 to 600V 50 60 Hz GVX9000 User Manual xi E T N Safety Messages CAUTION Be sure not to connect an AC power supply to the output terminals Otherwise there is Power Input Power Output ini i 1 1 the danger of injury and or fire L1 L2 L3 T1 T2 73 Note 010 D 010 L1 L2 L3 Three phase 200 to 230V 50 60 Hz Three phase 380 to 460V 50 60 Hz Three phase 500 to 600V 50 60 Hz Any two inputs Single phase 200 to 240V 50 60 Hz CAUTION The operation of the inverter can be easily changed from low speed to high speed Be sure to check the capability and limitations of the motor and machine before operating the inverter Otherwise there is the danger of injury xii CAUTION If you operate a motor at a frequency higher than the
70. protection code 21 IGBT Short circuit 22 Loss of4 20mA 23 Under Current Detected 24 Encoder Fault 25 Feedback Deviation Err 26 Count Attained Read only 5 64 GVX9000 User Manual Group 80 Keypad Display E T N 80 08 Power Up Display Selection Also Order of Appearance When Scrolling through Display Modes 80 09 User Defined Multiplier 80 10 External Terminal Scanning Time 80 11 Parameter Lock and Configuration 80 12 Run Time Timer Day 80 13 Run Time Timer Minutes 80 14 Power On Time Timer Day GVX9000 User Manual Range Default 00 00 Command Frequency 01 Output Frequency 02 Output Current 03 User Defined 04 Output Voltage 05 Unit Temperature 06 Forward Reverse Direction This parameter determines what will be displayed upon power being applied to the drive Range 0 01 to 160 00 Default 1 This parameter determines the multiplier used for the User Defined display Range 01 to 20 Default 1 Unit 2 msec This function scans the I O terminals to help eliminate false signals due to noise Actual Scan Time 80 10 x 2 msec Range Default 00 00 All parameters can be set and read 01 All parameters are read only 10 Reset all parameters to the factory defaults So Range 0 to 65535 Default 0 E b 2s Et no os EC Range 0 to 65535 Default 0 a a Range 0 to 65535 Default 0 5 65 E SE aos E Su T m do o0 aE es
71. 0 0 CLV I Gain CLV Frequency Limit 0 0 100 00 0 0 100 00 Hz CLV Encoder Detection Update Time 0 01 1 00 sec CLV Encoder Fault Treatment CLV Encoder Feedback Fault Detection Time 01 Warning and Ramp to stop 0 01 10 00 sec CLV Encoder Feedback Filter CLV Encoder Slip Range Deviation Range 00 Disable 0 002 1 00 0 0 50 0 CLV Encoder Stall Level Over Speed 0 115 Easy Mode Settings Auto Voltage Regulation AVR 01 AVR disabled GVX9000 User Manual E T N Appendix F Declaration of Conformity Aywojuo9 e o 2 2 o e Inside this chapter Low Voltage Directive F 2 EC Declaration of Conformity F 2 Electromagnetic Compatibility F 3 EC Declaration of Conformity F 3 GVX9000 User Manual F 1 e na m 7 Conformity E TN Low Voltage Directive Low Voltage Directive EC Declaration of Conformity According to the Low Voltage Directive 73 23 EEC and the Amendment Directive 93 68 EEC For the following equipment AC Motor Drive Product Name GVX001A1 2 GVX002A1 2 GVX003A1 2 GVX005A1 2 GVX007A1 2 GVX010A1 2 GVX015A1 2 GVX020A1 2 GVX025A1 2 GVX030A1 2 GVX040A1 2 GVX050A1 2 GVX001A1 4 GVX002A1 4 GVX003A1 4 GVX005A1 4 GVX007A1 4 GVX010A1 4
72. 0 00 Hz Default 0 Unit 0 01 Hz This parameter determines the Frequency Point for DC Braking to begin upon a stop command Note DC Braking during Start Up is used for loads that may move before the AC drive starts such as fans and pumps These loads may also be moving in the wrong direction Under such circumstances DC Braking can be executed to hold the load in position before applying a forward motion DC Braking during stopping is used to decrease stopping time and also to hold a stopped load in position For high inertia loads a dynamic braking resistor may be needed for quick decelerations GVX9000 User Manual Group 60 Motor Control E T N Master Frequency z Start Point for Min Output 4 DC Braking Frequency 60 08 Time s l lt gt lt gt 60 06 60 07 Operation j Command ON OFF DC Braking Current 60 05 Figure 5 39 DC Braking 60 09 Torque Range 00 to 10 Default 0 Compensation 60 10 Slip Compensation Units This parameter selects the of increased voltage upon acceleration of the AC drive This is helpful during start up to obtain a higher initial starting torque Increased voltage to the motor also increases current and heat Always start with a low Torque Compensation value and slowly increase until sufficient starting torque is achieved This parameter may be set during operation Range 0 00 to 10 00 Default 0
73. 0 01 This parameter sets the maximum input voltage on terminal A3 Range 10 00 to 10 00V Default 10 00V Unit 0 01 This parameter sets the minimum input voltage on terminal A3 Range 400 0 to 400 0 Hz Default 60 00 Unit 0 1 This parameter sets the command frequency related to 30 11 Range 400 0 to 400 0 Hz Default 0 0 Unit 0 1 This parameter sets the command frequency related to 30 12 jo suondiiosaq TU 2 S E E a D 5 a Range 00 to 02 Default 01 00 Negative input 30 14 01 Negative input Reverse direction 02 Negative input Frequency command only no Direction 5 7 E TN Group 30 Inputs 30 16 A1 Response Range 0 00 to 10 00 sec Default 0 05 sec Time Unit 0 01 sec This parameter sets the analog input filter time for terminal A1 30 17 A2 Response Range 0 00 to 10 00 sec Default 0 05 sec Time Unit 0 01 sec This parameter sets the analog input filter time for terminal A2 30 18 A3 Response Range 0 00 to 10 00 sec Default 0 05 sec Time Unit 0 01 sec This parameter sets the analog input filter time for terminal A3 30 19 Analog Input Range 00 to 01 Default 01 Frequency 00 0 01 Hz Resolution 01 0 1 Hz This parameter sets the resolution of the command frequency based on analog input command 30 20 Digital Input Range 01 to 03 Default 02 Terminals D1 D2 91 wire Operation Mode 1 D1 FWD STOP D2 REV STOP 02 2 wire Operation Mode
74. 0 User Manual 3 9 ES Cs os D EE BE na E TN Control Terminal Wiring Factory Settings Control Terminal Wiring Factory Settings 24V 10V RUN STOP FWD REV D1 D2 Multi Step 1 D3 Multi Step 2 D4 Multi Step 3 Multi Step 4 D5 D6 External Reset External Fault D7 D8 Parameter Disable D9 11191111 Parameter Disable Hs D10 Digital Frequency Output lt DPO Digital Signal Common lt lt COM QH gt 4 20mA 10V 10V Full Scale Voltmeter 0 to 10V DC Factory Setting Analog Frequency COACHES Digital Output Factory Setting Warning Digital Output Factory Setting Frequency Setting Indication Digital Output Common Factory Setting Fault Indication gt gt NO Relay Output gt PAHAD NC Relay Output gt Factory Setting Drive Running Ko gt NO Relay Output Figure 3 7 Control Terminal Wiring Sink Mode RUN STOP REV FWD Multi Step 1 Multi Step 2 Multi Step 3 Multi Step 4 External Reset See External Fault Parameter Disable Parameter Disable Digital Frequency Output lt _ COKDI To Digital Signal Common 4 2
75. 0 mA 4 00 mA A2 Maximum Output Frequency 400 0 to 400 0 Hz 60 00 A2 Minimum Output Frequency 400 0 to 400 0 Hz 0 0 A2 Reverse Option 00 Negative input 30 09 00 01 Negative input Reverse direction 02 Negative input Frequency command only no Direction A3 Maximum Input Voltage 10 10V 10 00 to 10 00V B 2 GVX9000 User Manual GVX9000 Parameter Listings E TN Table B 2 30 Inputs Continued Parameter User Modbus Groups Page Description Range Default Settings 010BH 30 12 5 7 A3 Minimum Input 10 00 to 10 00V 10 00V Voltage 10 10V 010CH 30 13 5 7 A3 Maximum Output 400 0 to 400 0 Hz 60 00 Frequency 010DH 30 14 5 7 A3 Minimum Output 400 0 to 400 0 Hz 0 0 Frequency 010EH 30 15 5 7 A3 Reverse Option 00 Negative input 30 14 01 01 Negative input Reverse direction 02 Negative input Frequency command only no Direction 010FH 30 16 5 8 A1 Response Time 0 00 to 10 00 sec 0 05 sec 0110H 30 17 5 8 A2 Response Time 0 00 to 10 00 sec 0 05 sec 0111H 30 18 5 8 A3 Response Time 0 00 to 10 00 sec 0 05 sec 0112H 30 19 5 8 Analog Input 00 0 01 Hz 01 ay Frequency Resolution 0 1 Hz E 0113H 30 20 5 8 Digital Input 2 wire Operation Mode 1 02 o Terminals D1 D2 D1 FWD STOP E D2 REV STOP D 2 wire Operation Mode 2 z D1 RUN STOP D2 REV FWD c 3 wire Operation Mode D1 RUN D2 REV FWD
76. 00 CT Max Applicable Motor Output KW 0 75 1 5 22 37 55 75 11 15 185 22 30 37 45 55 75 VT Max Applicable Motor Output kW 0 75 1 5 22 3 7 za T 15 18 5 22 30 37 45 55 75 90 CT Max 1 2 Applicable Motor Output hp 7 1 2 10 15 20 25 30 40 50 60 75 100 VT Max 1 2 Applicable Motor Output hp 10 15 20 25 30 40 50 60 75 100 125 Output Rating CT Rated 23 22 Output Capacity kVA 42 165 9 9 13 7 18 3 244 28 9 343 45 7 55 6 69 3 84 114 VT Rated 23 3 2 Output Capacity kVA 42 165 14 18 25 29 34 46 56 69 84 114 137 CT Rated 27 4 2 Output Current A 55 8 5 13 18 24 32 38 45 60 73 91 110 150 VT Rated 2 7 4 2 Output Current A 5 5 85 18 24 32 38 45 60 73 91 110 150 180 Maximum Output Voltage V 3 phase Proportional to Input Voltage Output Frequency 0 1 400 Hz Carrier Frequency kHz 1 15 Input Rating Rated Input 3 phase Current A 32 143 5 9 11 2 19 25 33 46 56 70 75 95 110 150 180 Rated Voltage Frequency 3 phase 380 to 480 V Voltage Tolerance 10 342 528V Frequency Tolerance 5 47 63 Hz Cooling Natural Method Fan Cooled Weight in Lbs kg 10 8 4 9
77. 00 00 Hz Default 0 Range 0 0 to 400 00 Hz Default 0 c E Range 0 0 to 400 00 Hz Default 0 3o ES sz no os Er Range 0 0 to 400 00 Hz Default 0 ES a GVX9000 User Manual 5 43 E TN Group 50 AC Drive Control Output Freq suse ses es deste 50 50 sssrrceouvosses es 50 51 50 52 4 Adjustable Range 50 53 p 0 Speed Command i Frequency Decelerating 50 54 to 50 57 t Es Frequency to be Skipped Accelerating Figure 5 36 Skip Frequency Parameters 50 54 Skip Frequency 1 Range 0 0 to 20 00 Hz Default 0 Bandwidth 50 55 Skip Frequency 2 Range 0 0 to 20 00 Hz Default 0 Bandwidth 50 56 Skip Frequency 3 Range 0 0 to 20 00 Hz Default 0 Bandwidth 50 57 Skip Frequency 4 Range 0 0 to 20 00 Hz Default 0 Bandwidth The above eight parameters determine the Skip Frequencies and Bandwidth for the drive to avoid 50 54 to 50 57 determine the frequency band for a given Skip Frequency Half of the Skip Frequency Band is above the Skip Frequency and the other half is below Programming this parameter to 0 0 disables all skip frequencies E Tae aos cO 2 T em o9 aE Ss Os a 5 44 GVX9000 User Manual Group 50 AC Drive Control E T N 50 58 PID Setpoint Source 50 59 PID Feedback Source and Type 50 60 PID P Gain Adjustment 50 61 PID I Gain Adjustment 50 62 PID D
78. 00 Parameter Listings Table B 3 40 Outputs Continued Parameter User Modbus Groups Page Description Range Default Settings 0204H 40 05 5 25 Digital Output 00 to 33 04 Terminal DO1 0205H 40 06 5 25 Digital Output 00 Not Used 05 Terminal DO2 01 Ready 02 Inverter output is active 03 Inverter Fault 04 Warning See warning codes in Chapter 7 05 Atspeed 06 Zero Speed Fout Fmin during Run 07 Desired Frequency Attained 1 40 07 08 Below Frequency Attained 1 a S o o E c 2 40 07 PID supervision Over voltage supervision Over heat supervision Over current stall supervision Over voltage stall supervision Final Count value attained Midpoint Count value attained Reverse direction notification command Under current detection Over torque detection Pause enabled External control 21 Auxiliary Motor 1 22 Auxiliary Motor 2 23 Auxiliary Motor 3 24 Fout 0 0 Hz any state STOP or RUN 25 E Stop 26 Above Frequency Attained 2 40 09 27 Soft Braking Signal 28 Fout 0 0 Hz during a RUN command 29 Fout gt Fmin 30 PGError 31 Low Voltage indication User Defined B 6 GVX9000 User Manual GVX9000 Parameter Listings E T N Table B 3 40 Outputs Continued Param
79. 01 Percent 02 User Definition 0 001 max unit Unit set by 30 47 This parameter allows the display to reference Frequency or Percentage Range 0 001 to 10 000 Default 1 000 Range 4 to 1000 Default 200 Units 1 This parameter sets the Motor s gear box ratio Example If your gear box is a 4 1 then enter 4 The function only works with whole ratios Range 0 0 to 360 0 Deg Default 180 Units 0 1 degrees This parameter sets the number of degrees of rotation from the index input command point where the motor will stop Example When the drive receives an Index input command on one of the digital inputs and 30 49 is set to 300 Then the motor will stop within 300 degrees of rotation after it receives the Index command Range 0 0 to 100 0 Default 0 0 Units 0 1 sec This parameter sets the deceleration time for the simple Index function jo suondiiosaq TU 2 S E a D z 5 a 5 23 E SE as co 2 T m o9 aE Ss Os a E TN Group 40 Outputs Group 40 Outputs 40 01 Analog Output Reference 40 02 Analog Output Gain 40 03 Digital Output Terminal Relay A RA1 RA2 RA3 40 04 Digital Output Terminal Relay B RB1 RB2 5 24 Range 00 to 05 Default 00 00 Output Frequency 0 to Maximum Output Frequency 01 Output Current 0 to 250 of the rated AC drive current 02 Output Voltage 0 to 50 16 03 Command Frequency 0 to 50 14 0
80. 0336H 50 55 5 44 Skip Frequency 2 0 0 to 20 00 Hz 0 Bandwidth 0337H 50 56 5 44 Skip Frequency 3 0 0 to 20 00 Hz 0 Bandwidth 0338H 50 57 5 44 Skip Frequency 4 0 0 to 20 00 Hz 0 Bandwidth PID Setpoint Source 00 Disable 01 Keypad store in 50 66 02 Ali external 0 10V 03 AI2 external 4 20 mA 04 AIS3 external 10 10V 05 PID set point 50 66 PID Feedback Source 00 Positive AI1 0 10V and Type 01 Negative Alt 0 10V 02 Positive Al2 4 20 mA 03 Negative AI2 4 20 mA 04 Positive AI3 10 10V D P Gain 0 0 to 10 0 djustment P A PID Gain Adjustment 0 00 to 100 0 sec P A a E S o o E 2 D D Gain 0 00 to 1 0 sec djustment PID Upper Limit for 00 to 100 Integral Control D Output Delay Filter 0 0 to 2 5 sec Time D Output Freq Limit 0 to 110 D Fixed Set Point 0 0 to 400 0 Hz 100 0 D Feedback 0 to 100 eviation Level D Feedback 0 00 to 3600 0 sec eviation Detection ime x m oc oz c aj D Treatment ofthe 00 Warning and Inverter Stop eedback Deviation rror 01 Warning and Continue Operation ITI m Sleep Frequency 0 0 Disabled 0 00 to 400 Hz Enabled B 12 GVX9000 User Manual GVX9000 Parameter Listings E T N Table B 4 50 AC Drive Control Continued
81. 1 18 to 20 AWG 1 5 2 GVX002A1 2 12 3 3 0 14 to 0 75 mm 2 2 3 GVX003A1 2 10 5 3 shielded wire 3 7 5 GVX005A1 2 10 5 3 5 5 7 1 2 GVX007A1 2 8 8 4 7 5 10 GVX010A1 2 8 8 4 11 15 GVX015A1 2 6 13 3 15 20 GVX020A1 2 4 21 2 18 5 25 GVX025A1 2 3 26 7 22 30 GVX030A1 2 2 33 6 30 40 GVX040A1 2 1 0 53 5 37 50 GVX050A1 2 3 0 85 0 75 1 GVX001A1 4 18 0 8 1 5 2 GVX002A1 4 18 0 8 2 2 3 GVX003A1 4 18 0 8 To 3 7 5 GVX005A1 4 18 0 8 9 E 5 5 7 1 2 GVX007A1 4 10 5 3 2e 7 5 10 GVX010A1 4 8 8 4 g7 11 15 GVX015A1 4 8 8 4 15 20 GVX020A1 4 6 13 3 18 5 25 GVX025A1 4 4 21 2 22 30 GVX030A1 4 3 26 7 30 40 GVX040A1 4 3 26 7 37 50 GVX050A1 4 2 33 6 45 60 GVX060A1 4 1 0 53 5 55 75 GVX075A1 4 3 0 85 75 100 GVX100A1 4 4 0 107 2 Note 1 Field wiring must be made by a UL listed and CSA certified closed loop terminal connector sized for the wire gauge involved Note 2 Be sure to consider the capacity of the circuit breaker to be used Note 3 Be sure to use larger wires for the power lines in the distance exceeds 20 meters GVX9000 User Manual 4 5 LS 3 3 csc to s ae a E TN Fuses and Circuit Breakers Fuses and Circuit Breakers The GVX9000 does not provide branch short circuit protection This product should be installed with either input fuses or an input circuit breaker National and local industrial safety regulations and or electrical codes may determine additional requir
82. 1 Output Failure O 27 Auxiliary Motor 2 Output Failure OO 28 Auxiliary Motor 3 Output Failure Figure 5 23 Digital Input Terminal Settings 26 27 28 Settings 29 30 A digital input may be used to shut the output off pause and not display a fault 24V D1 D2 D3 D4 D5 D6 D7 D8 D9 D10 COM LOE 30 Output Shut Off NC OO 29 Output Shut Off NO jo suondn2saq TU 2 S E a D E3 5 a Figure 5 24 Digital Input Terminal Settings 29 30 GVX9000 User Manual 5 19 E TN Group 30 Inputs Setting 31 A digital input may be used to select between Auto or Linear Acceleration Deceleration 24V D1 D2 D3 D4 D5 D6 D7 D8 D9 D10 COM O 31 Auto Linear Acceleration Deceleration Figure 5 25 Digital Input Terminal Setting 31 Setting 32 A digital input may be used with a Proximity Sensor for the Index Function Refer to 30 48 to 30 50 24V D1 D2 D3 D4 D5 D6 D7 D8 D9 D10 COM 00 32 Proximity Sensor Input index function Figure 5 26 Digital Input Terminal Setting 32 Settings 33 34 A digital input may be used as an External Emergency Stop Forced Stop This is not a fault condition rather the highest priority STOP condition o0 34 Forced Stop NC E e
83. 30V Series 0 1 to 255V 460V Series 0 1 to 510V 575V Series 0 1 to 637V Minimum Output Frequency 0 00 to 20 00 Hz Minimum Output Voltage 230V Series 0 1 to 50V 460V Series 0 1 to 100V 575V Series 0 1 to 637V Acceleration Time 1 0 01 to 600 00 seconds Deceleration Time 1 0 01 to 600 00 seconds 032FH 50 48 Upper Frequency Limit 0 01 to 400 00 Hz 400 00 Safety 0330H 50 49 Lower Frequency Limit 0 0 to 400 00 Hz 0 Safety Table E 9 08 Analog Speed Command Parameter Modbus Groups Description Range Default 0100H 30 01 A1 Maximum Input Voltage 0 00 to 10 00V 10 00 0 10V 0101H 30 02 A1 Minimum Input Voltage 0 00 to 10 00V 0 00 0 10V A1 Maximum Output 400 0 to 400 0 Hz Frequency A1 Minimum Output 400 0 to 400 0 Hz Frequency A1 Reverse Option 00 Negative input 30 04 Negative input Reverse direction Negative input Frequency command only no Direction Analog Output Reference Output Frequency 0 to Maximum Output Frequency 0201H 40 02 Analog Output Gain 0 to 20096 100 a a z o a o T E gt A LL E 10 GVX9000 User Manual E T N Changed Parameters Table E 9 08 Analog Speed Command Continued Parameter Modbus Groups Descripti Range Default 0300H 50 01 Source of LOCAL HAND 01 Master Frequency determined by 01 Frequency 0 10V on terminal AIT Source of LOCAL HAND
84. 327H 50 40 5 40 Jog Frequency 0 1 to 400 00 Hz 0328H 50 41 5 41 Reverse Operation 00 Enable Reverse Operation 01 Disable Reverse Operation 02 Disable Forward Operation 0329H 50 42 5 41 Momentary Power 00 Stop operation after Loss momentary power loss 01 Continue operation after momentary power loss speed search from Speed Reference 02 Continue operation after momentary power loss speed search from Minimum Speed 032AH 50 43 5 42 Speed Search Delay 0 1 to 10 0 sec 0 5 Time 032BH 50 44 5 42 Speed Search 30 to 200 150 Maximum Current 032CH 50 45 5 42 Speed Search Start 0 Start at last known freq 0 Point command 1 Start at minimum speed 032DH 50 46 5 42 Flying Start Mode 0 Disable 0 1 Enable 032EH 50 47 5 43 Flying Start Point 0 From command frequency 0 1 From maximum freq GVX9000 User Manual 9 qe Jajauieieg E TN GVX9000 Parameter Listings Table B 4 50 AC Drive Control Continued Parameter User Modbus Groups Page Description Range Default Settings 032FH 50 48 5 43 Upper Frequency 0 01 to 400 00 Hz 400 00 Limit Safety 0330H 50 49 5 43 Lower Frequency 0 0 to 400 00 Hz 0 Limit Safety 0331H 50 50 5 43 Skip Frequency 1 0 0 to 400 00 Hz 0 0332H 50 51 5 43 Skip Frequency 2 0 0 to 400 00 Hz 0 0333H 50 52 5 43 Skip Frequency 3 0 0 to 400 00 Hz 0 0334H 50 53 5 43 Skip Frequency 4 0 0 to 400 00 Hz 0 0335H 50 54 5 44 Skip Frequency 1 0 0 to 20 00 Hz 0 Bandwidth
85. 4 Output Motor Speed vector mode 05 Load Power Factor cos90 to 0 This parameter selects the reference for the 0 10V analog output AO to A Range 0 to 200 Default 100 Unit 1 This parameter may be set during operation The parameter sets the voltage range for analog output terminals AO to A The analog output voltage is directly proportional to the selection made in 40 01 If setting 00 is chosen the analog output voltage on AO to A is directly proportional to the output frequency of the AC drive With 40 02 set at 100 the Maximum Output Frequency of the AC drive corresponds to 10V DC on AO If setting 01 is chosen the analog output voltage is directly proportional to the output current of the AC drive With 40 02 set to 100 10V DC corresponds to 250 of AC drive rated current Note Any type of voltmeter may be used If the meter reads full scale at a voltage less than 10 volts then 40 02 should be set by the following formula 40 02 meters full scale voltage 10 x 100 For Example When using the meter with full scale of 5 volts adjust 40 02 to 50 Range 00 to 33 Default 02 Range 00 to 33 Default 03 GVX9000 User Manual Group 40 Outputs E T N 40 05 Digital Output Range 00 to 33 Terminal DO1 40 06 Digital Output Range 00 to 33 Terminal DO2 99 Not Used 01 Ready 02 Inverter output is active 03 Inverter Fault 04 Warning See warning codes in Chapter 7 05 Atspeed 0
86. 4V 10V D1 D2 D3 D4 D5 D6 D7 D8 D9 D10 DPO COM Ores gt 4 20mA I 10v 10V e Full Scale Voltmeter 0 to 10V DC Factory Setting Analog Frequency Y Digital Output Factory Setting Warning Digital Output Factory Setting Peele Y Frequency Setting Indication Digital Output Common Y Factory Setting Fault Indication NO Relay Output NC Relay Output COO Yy Factory Setting Drive Running NO Relay Output Figure 3 8 Control Terminal Wiring Source Mode Note For Wire Gauge and Torque tightening specifications please refer to Table 3 3 3 10 GVX9000 User Manual Main Circuit Wiring E T N Table 3 2 Terminal Symbols Terminal Symbols Terminal Name Remarks RA1 RA3 Digital Output Relay 1 FORM C Refer to 40 03 40 04 RB1 RB2 Digital Output Relay 2 FORM A D01 DOC Digital Photocouple Outputs Refer to 40 05 40 06 D02 DOC RJ12 Port Serial Communication port RS 485 serial communication interface 4 10V A 10V power supply All A Analog voltage input 1 0 10V input Al2 A Analog voltage input 2 4 20 mA input Al3 A Analog voltage input 3 10 to 10V input A0 A Analog voltage output 0 to 10V output D1 COM Digital Inputs 1 10 Refer to 30 20 30 28 to 5 D10 COM B DPO COM Digital Pulse Output Refer to 40 08 5
87. 5 28 Range 01 to 20 Default 00 This parameter changes the number of output pulses on DOP relative to the output frequency DOP to DOC Range 0 00 to 400 00 Hz Default 0 00 Unit 0 01 Hz If a Digital Relay output terminal is set to function as Frequency Attained then the output will be activated when the programmed frequency is attained GVX9000 User Manual Group 40 Outputs E T N 40 10 Brake Release Frequency Brake OFF 40 11 Brake Engage Frequency Brake ON 40 12 EF Displayed at Midpoint Count Range 0 0 to 400 0 Hz Default 0 0 This parameter selects the frequency when the digital output DO1 DO4 will turn ON if one of the digital outputs DO1 DO4 is programmed to 33 Range 0 0 to 400 0 Hz Default 0 0 This parameter selects the frequency when the digital output DO1 DO4 will turn OFF if one of the digital outputs DO1 DO4 is programmed to 33 Range 00 to 01 Default 00 00 Disabled 01 Display EF when midpoint count is reached Frequency Output Case 1 40 11 40 10 Case 2 40 11 Run Stop Case 1 DOx 33 Case 2 DOx 33 Note Case 1 40 11240 10 Case 2 40 11 40 10 Time jo suondiiosaq GVX9000 User Manual ar 2 S E a D E3 5 a Figure 5 29 GVX Digital Output Option 33 5 29 E TN Group 50 AC Drive Control Group 50 AC Drive Control 50 01
88. 5C10_ XTCE032C10_ XTCE050D10_ GVX015A1 2 GVX020A1 2 GVX025A1 2 GVX030A1 2 GVX040A1 2 GVX050A1 2 JJN 150 JJN 200 JJN 225 JJN 300 JJN 350 JJN 450 Consult factory Consult factory Consult factory Consult factory GVX001A1 4 GVX002A1 4 GVX003A1 4 XTPROO4BC1 XTPR6P3BC1 XTPRO10BC1 XTCE007B10_ XTCE007B10_ XTCE009B10_ GVX005A1 4 GVX007A1 4 GVX010A1 4 GVX015A1 4 GVX020A1 4 GVX025A1 4 JJS 100 JJS 150 JJS 150 XTPRO16BC1 XTPRO25BC1 XTPRO32BC1 XTPRO40BC1 XTPRO5S0BC1 XTPRO63BC1 XTCE018C10_ XTCE025C10_ XTCE032C10_ XTCE040D10_ XTCE050D10_ XTCE065D10_ GVX030A1 4 GVX040A1 4 GVX050A1 4 JJS 200 JJS 225 JJS 300 Consult factory Consult factory GVX060A1 4 GVX075A1 4 GVX100A1 4 Note Contact Eaton for 575V information GVX9000 User Manual JJS 350 JJS 450 JJS 500 Consult factory Consult factory 4 7 TT E rJ Li D N METTY E T N Fuses and Circuit Breakers Table 4 3 Heat Loss Data When mounting the GVX9000 in an enclosure the following inverter heat loss should be considered Failure to provide adequate cooling may cause premature failure of the inverter and or overtemperature faults Voltage Class 230V Class Model No 001 002 003 005 007 010 015 020 025 030 040 050 GVX XXXA1 2 Watt Loss at 60 82 130 194 301 380 660 750 920 1300 1340 1430 rated current
89. 6 Zero Speed Fout lt Fmin during Run 07 Desired Frequency Attained 1 40 07 08 Below Frequency Attained 1 40 07 09 PID supervision 10 Over voltage supervision 11 Over heat supervision 12 Overcurrent stall supervision 13 Over voltage stall supervision 14 Final Count value attained 15 Midpoint Count value attained 16 Reverse direction notification command 17 Under current detection 18 Over torque detection 19 Pause enabled 20 External control 21 Auxiliary Motor 1 22 Auxiliary Motor 2 23 Auxiliary Motor 3 24 Four 0 0 Hz any state STOP or RUN 25 E Stop 26 Above Frequency Attained 2 40 09 27 Soft Braking Signal 28 Fout 0 0 Hz during a RUN command 29 Fout gt Fmin 30 PG Error 31 Low Voltage indication User Defined 32 Inverter RUN command state 33 Brake ON Brake OFF 40 10 40 11 GVX9000 User Manual Default 04 Default 05 jo suondn2saq TU 2 S E E a D z 5 a 5 25 E TN Group 40 Outputs Function Explanations 00 Not Used All unused output terminals of the AC drive should be set to 00 01 Drive Ready The output terminal will be active when the drive has no faults and is ready to run 02 Drive Running The output terminal will be active when the drive is generating an output from the T1 T2 T3 terminals 03 Fault Indication The output terminal will be activated when faults occur 04 Warning The output terminal will be active when there is a fault with commu
90. 7 0 Two units required connected in parallel Three units required connected in parallel C 8 GVX9000 User Manual EMI Filter Cross Reference E T N EMI Filter Cross Reference Table C 7 EMI Filter Cross Reference AC Drives EMI Filter with Choke EMI Filter Filter Output choke OTY Turn without Choke GVX001A1 2 RF022B21BA GVX002A1 2 GVX003A1 2 single phase GVX001A1 2 20TDT1W4C CTC513113B 2 9 26TDT1WAC GVX002A1 2 GVX003A1 2 three phase GVX005A1 2 20TDT1W4C CTC513113B 26TDT1W4C GVX001A1 4 RF037B43BA GVX002A1 4 GVX003A1 4 GVX005A1 4 GVX007A1 4 RF110B43CA GVX010A1 4 GVX007A1 2 50TDS4W4C GVX010A1 2 GVX015A1 4 GVX020A1 4 GVX015A1 2 100TDS84C GVX020A1 2 GVX025A1 4 GVX030A1 4 GVX040A1 4 GVX025A1 2 150TDS84C GVX030A1 2 GVX040A1 2 GVX050A1 4 GVX050A1 2 180TDS84C GVX060A1 4 GVX075A1 4 200TDDS84C 150TCSS84C GVX9000 User Manual C 9 Sa110SS899 E T N EMI Filter Cross Reference Catalog Number RF022B21BA RF037B43BA 11 9 12 4 302 0 315 0 Accessories 9 FEN it i gel ag WE c8 Figure C 2 Approximate Dimensions in Inches mm RF022B21BA RF037B43BA C 10 GVX9000 User Manual EMI Filter Cross Reference E T N Catalog Number RF110B43CA
91. 70 Protective Functions E T N 70 19 Brake Chopper ON Voltage 70 20 Auto Restart After Fault 70 21 Reset Time for Auto Restart after Fault 70 22 OV Fault of Stop Auto Reset Range See below Default See below 0 Disabled 230V Series 370 430V DC 380 460V Series 740 860V DC 760 575V Series 660 1070V DC 950 This parameter determines when the on board braking transistor will begin to dump voltage to an externally mounted resistor This function is only for 1 15 hp drives Larger drives will use an external braking transistor module shown in Appendix C Range 00 to 10 Default 00 This parameter determines the wait time to reset 70 20 after a fault upon restart Range 0 to 60000 sec Default 600 This parameter determines the wait time to reset 70 20 after a fault upon restart Range Default 00 00 Disabled 01 Enable This parameter determines if the drive will reset itself after an Over Voltage has occurred during a STOP state This could help with nuisance Over Voltage faults that occur at night when the power grid rises beyond our threshold Caution If the input voltage rises beyond the drives input rating the drive will be permanently damaged jo suondiiosaq TU 2 S E a D E 5 a GVX9000 User Manual 5 61 E SE aos E 2 T doc o9 aE Ss Os a E TN Group 80 Keypad Display Group 80 Keypad Display 80 01 So
92. A1 5 575V AC 3 hp CT 39 GVX005A1 5 575V AC 5 hp CT 40 GVX007A1 5 575V AC 7 1 2 hp CT 41 GVX010A1 5 575V AC 10 hp CT 42 GVX015A1 5 575V AC 15 hp CT 43 GVX020A1 5 575V AC 20 hp CT 480V AC 150 hp VT 480V AC 175 hp VT 480V AC 215 hp VT 480V AC 250 hp VT 44 GVX025A1 5 575V AC 25 hp CT 45 GVX030A1 6 575V AC 30 hp CT 46 GVX040A1 5 575V AC 40 hp CT 47 GVXO050A1 5 575V AC 50 hp CT 48 GVX060A1 5 575V AC 60 hp CT 49 GVX075A1 6 575V AC 75 hp CT 50 GVX100A1 5 575V AC 100 hp CT Read only 80 04 Fault Record 1 Range 00 26 Default 0 Read only 80 05 Fault Record 2 Range 00 26 Default 0 Read only TU 2 S E a D E3 5 a jo suondiiosaq GVX9000 User Manual 5 63 E SE aos E Su T nu doc o9 aE Ss Os a E TN Group 80 Keypad Display 80 06 Fault Record 3 Range 00 26 Default 0 Read only 80 07 Fault Record 4 Range Default 0 00 No fault occurred 01 Over Current 02 Over Voltage 03 Overheat 04 Overload 05 Overload 1 06 Over Torque 07 External Fault 08 CPU failure 1 09 CPU failure 2 10 CPU failure 3 11 Hardware Protection Failure 12 Over current during accel 13 Over current during decel 14 Over current during steady state 15 Ground fault or fuse failure 16 Reserved 17 3 phase Input Power Loss 18 Reserved 19 Auto Adjust accel decel failure 20 Software
93. E T N GVX9000 AF Drives User Manual New Information June 2006 ETN RUN STOP FWD REV LOC GVX9000 Sensorless Vector A MN04000001E For more information visit www EatonElectrical com E TN Important Notice Please Read The product discussed in this literature is subject to terms and conditions outlined in Eaton Electrical Inc selling policies The sole source governing the rights and remedies of any purchaser of this equipment is the relevant Eaton Electrical Inc selling policy NO WARRANTIES EXPRESS OR IMPLIED INCLUDING WARRANTIES OF FITNESS FOR A PARTICULAR PURPOSE OR MERCHANTABILITY OR WARRANTIES ARISING FROM COURSE OF DEALING OR USAGE OF TRADE ARE MADE REGARDING THE INFORMATION RECOMMENDATIONS AND DESCRIPTIONS CONTAINED HEREIN In no event will Eaton Electrical Inc be responsible to the purchaser or user in contract in tort including negligence strict liability or otherwise for any special indirect incidental or consequential damage or loss whatsoever including but not limited to damage or loss of use of equipment plant or power system cost of capital loss of power additional expenses in the use of existing power facilities or claims against the purchaser or user by its customers resulting from the use of the information recommendations and descriptions contained herein The information contained in this manual is subject to change without notice Cover Photo Eaton GVX9000 Drives
94. E TN Sink and Source Modes SINK Mode Sink RUN STOP tls REV FWD Source T Multi step1 E p 5 o Multi Step2 o Multi Step 3 o o Multi Step 4 Factory E oo Setting 4 Reset 5 6 EF s o Oo 5 o 2 Digital Signal Common Don t apply the mains voltage t directly to above terminals SOURCE Mode zS a o 9 Z2 mo SS LE O 24V Sink RUN STOP Ils REVEWD 2 5 6 D2 ource i l Mutu Step 1 o D3 l MultiStep 2 5 5 DA I Multi Step 3 yo D5 Multi Step4 Factory o D6 Setting 167 ER so i D8 3 3 D9 so O D10 Digital Signal Common com Don t apply the mains voltage oe directly to above terminals O Main Circuit Power Terminals Control Circuit Terminals att Shielded Leads amp Cable Figure 3 4 Wiring Diagram Sink and Source Modes GVX9000 User Manual 3 7 S cS os D E 2 na E T N External Wiring External Wiring Power Supply O Q Q FUSE NFB Magnetic Contactor Input AC 3 Line Reactor EMI Filter lg R L1 S L2 T L3 Qa DC Choke 2 81 Braking Unit B2 Braking L x Resistor um vr wos Qo pa Output AC Line Reactor Power Supply O O O FUSE NFB
95. GVX9000 Sensorless Vector 5 9 150 or More Figure 3 1 Mounting in an Enclosure in Inches mm CAUTION A When mounting in an enclosure allow for the recommended free space Failure to allow adequate air flow may result in drive over temperature GVX9000 User Manual 3 3 o D i i E 77 a E s a E TN Wiring Wiring HIGH VOLTAGE A Before opening the AC drive covers Disconnect all power to the AC drive Wait five minutes for DC bus capacitors discharge Any electrical or mechanical modification to this equipment without prior written consent of Eaton will void all warranties and may result in a safety hazard in addition to voiding the UL listing Short Circuit Withstand The rated voltage for AC motor drive must be equal or less than 240V equal or less than 480V for 460V models equal or less than 600V for 575V models and the mains supply current capacity must be equal or less than 5000A RMS equal or less than 10000A RMS for the 40 hp 30 kW models Applicable Codes All Eaton GVX9000 AC drives are Underwriters Laboratories Inc UL and Canadian Underwriters Laboratories cUL listed and therefore comply with the requirements of the National Electrical Code NEC and the Canadian Electrical Code CEC Installation intended to meet the UL and cUL requirements must follow the instructions provided in
96. H 60 29 5 54 SV Zero Speed Mode 0 Standby 0 1 Zero Speed Control 041DH 60 30 5 54 SV Zero Speed DC 0 0 to 30 0 0 Voltage Level Table B 6 70 Protective Functions Parameter User Modbus Groups Page Description Range Default Settings 0500H 70 01 5 55 Over voltage Stall 230V Series 330 410V 390 Prevention 460V Series 660 820V 780 575V Series 825 1025V 950 0501H 70 02 5 56 Over Current Stall 20 to 200 170 Prevention during Acceleration 0502H 70 03 5 56 Over Current Stall 20 to 200 170 Prevention during Operation B 14 GVX9000 User Manual GVX9000 Parameter Listings E T N Table B 6 70 Protective Functions Continued Parameter User Modbus Groups Page Description Range Default Settings 0503H 70 04 5 57 Over Torque 00 Disabled 00 Dergction Mode 01 Enabled during constant speed operation drive halted after fault 02 Enabled during constant speed operation operation continues after fault 03 Enabled during operation drive halted after fault 04 Enabled during operation operation continues after fault 0504H 70 05 5 57 Over Torque 10 to 200 150 Detection Level 0505H 70 06 5 57 Over Torque 0 1 to 10 0 sec 0 1 Detection Time 0506H 70 07 5 57 Electronic Thermal 00 Constant Torque 01 Overload Relay Electronic Thermal Characteristic 01 Variable Torque 02 Inactive 30 to 300 sec Auto Voltage Regulation AVR 00 AVR enabled 01 AVR
97. I Electro Magnetic Interference install it as close as possible to the AC drive EMI can also be reduced by lowering the Carrier Frequency e f the AC drive is installed in the place where a load reactor is needed install the filter close to U T1 V T2 W T3 side of AC drive Do not use a Capacitor or L C Filter Inductance Capacitance or R C Filter Resistance Capacitance unless approved by Eaton When using a GFCI Ground Fault Circuit Interrupt select a current sensor with sensitivity of 200 mA and not less than 0 1 second detection to avoid nuisance tripping Motor Operation Precautions When using the AC drive to operate a standard 3 phase induction motor notice that the energy loss is greater than for an inverter duty motor ogc zo os oc a CC cs E na Avoid running a standard induction motor at low speed Under these conditions the motor temperature may rise above the motor rating due to limited airflow produced by the motor s fan When the standard motor operates at low speed the output load must be decreased If 100 output torque is desired at low speed it may be necessary to use a special inverter duty rated motor 3 18 GVX9000 User Manual E T N Chapter 4 Start Up Procedures Inside this chapter Step by Step Installation 4 2 Mounting Location 4 2 Inverter Mounting 4 4 Wiring Preparation 2 24
98. Input Points from being used to do the same process Range 00 to 07 Default 0 00 Disabled 01 07 Enabled Range 00 to 07 Default 0 00 Disabled 01 07 Enabled The above two parameters are used to smooth out the transition between the acceleration deceleration and steady state speed The S Curve is enabled with settings of 1 to 7 with the highest number generating the smoothest transition jo suondiiosaq TU 2 S E a D E3 5 a GVX9000 User Manual 5 39 E T N Group 50 AC Drive Control 50 38 Jog Accel Time 50 39 Jog Decel Time e os as zo 2a T zo dy o9 aE 95 Os Ca 50 40 Jog Frequency 5 40 Frequency S Curve Enabled Time S Curve S Curve Characteristics Characteristics S Curve i Disabled Time lt gt lt Normal Normal Acceleration Deceleration Time Time 10r2 10r2 Figure 5 33 S Curve Effects Range 0 01 to d 3600 0 sec Default 10 00 Unit Acceleration for Jog operation Range 0 01 to d 3600 0 sec Default 10 00 Unit Deceleration for Jog operation Range 0 1 to 400 00 Hz Default 6 00 Unit Frequency for Jog operation GVX9000 User Manual Group 50 AC Drive Control E T N g Frequency Frequency Jo 50 40 Time be I Acceleration Deceleration Time Time 50 38 50 39 Jog Operation ON OFF Command c Figure 5 34 Jog Fre
99. It is very important to perform the wiring steps carefully and correctly Before proceeding please study the caution and warning messages below WARNING Use 75 C Cu wire only or equivalent LS D 3 csc to s ae a AN AN A A WARNING The rated voltage for AC motor drive must be equal or less than 240V equal or less than 480V for 460V models equal or less than 600V for 575V models and the mains supply current capacity must be equal or less than 5000A RMS equal or less than 10000A RMS for the 40 hp 30 kW models HIGH VOLTAGE Be sure to ground the unit Otherwise there is danger of electric shock and or fire HIGH VOLTAGE Wiring work shall be carried out only by qualified personnel Otherwise there is a danger of electric shock or fire 4 4 GVX9000 User Manual Step by Step Installation E T N Wire Sizes The maximum motor currents in the application determine the recommended wire size The following table gives the wire size in AWG The Power Motor column applies to the inverter input power output wires to the motor the ground connection and any other component shown in the system wiring diagram The Signal Lines column applies to any wire connecting to the External I O Connection inside the bottom front panel half door Table 4 1 Wire Size Motor Output kW hp kW hp Inverter Model Power Lines Signal Lines 0 75 1 GVX001A1 2 14 2
100. Source of LOCAL HAND Frequency 50 02 Source of REMOTE AUTO Frequency 50 03 Source of LOCAL HAND Operation Command E 52 aos E Su T nu doc o9 aE Ss Os a 5 30 Range 00 to 05 Default 00 00 01 02 03 04 05 Master Frequency determined by digital keypad on the drive Master Frequency determined by 0 10V on terminal Al1 Master Frequency determined by 4 20 mA on terminal AI2 Master Frequency determined by 10 10V on terminal Al3 Master Frequency determined by RS 485 Frequency retained Master Frequency determined by RS 485 Frequency not retained Range 00 to 05 Default 01 00 01 02 03 04 05 Master Frequency determined by digital keypad on the drive Master Frequency determined by 0 10V on terminal AIT Master Frequency determined by 4 20 mA on terminal AI2 Master Frequency determined by 10 10V on terminal AI3 Master Frequency determined by RS 485 Frequency retained Master Frequency determined by RS 485 Frequency not retained Range 00 to 04 Default 00 00 01 02 03 04 Operating commands determined by the Digital Keypad Operating commands determined by the External Control Terminals Keypad STOP key is enabled Operating commands determined by the External Control Terminals Keypad STOP key is not enabled Operating commands determined by the RS 485 communication interface Keypad STOP key is enabled Operating commands
101. Under Current Detection Restart Time 70 15 Low Voltage Detection Level 70 16 Low Voltage Detection Time 70 17 Cooling Fan Mode 70 18 Line Start Lock Out D SE aos co 2 T doc o9 aE Ss Os a 5 60 Range 1 to 3600 sec Default 60 This parameter determines the time delay before we restart the drive after an under current detection has occurred Range See below Default 0 0 Disabled 240V Series 240 300V DC 480V Series 480 600V DC 575V Series 520 780V DC The voltage level when the drive will shutdown Range 0 to 3600 0 sec Default 0 5 Range Default 0 0 Always on 1 Fan is off one minute after stop command 2 Fan on with run fan off with stop 3 Fan on when temp limit reached Range Default 00 00 Start lockout disabled keep previous status when operation command source changed 01 Start lockout enabled keep previous status when operation command source changed Start lockout disabled change according to the new operation command source Start lockout enabled change according to the new operation command source This parameter determines how the drive will respond to a contact closure RUN command on the digital input terminals when the drive powers up or is changed from one command location to another command location using HOA or LOC REM Note This parameter also functions when changing parameters 50 03 or 50 04 02 03 GVX9000 User Manual Group
102. VX001A1 4 GVX002A1 4 GVX003A1 4 GVX005A1 4 GVX007A1 4 GVX010A1 4 GVX015A1 4 GVX020A1 4 GVX025A1 4 GVX030A1 4 GVX040A1 4 GVX050A1 4 GVX060A1 4 GVX075A1 4 GVX100A1 4 is herewith confirmed to comply with the requirements set out in the Council Directive 89 336 EEC for electromagnetic compatibility and the Amendment Directive 93 68 EEC For the evaluation of the compliance with this Directive the following standards were applied EN61800 3 EN55011 EN50081 2 EN50082 2 EN61000 4 2 EN61000 4 3 EN61000 4 4 EN61000 4 5 EN61000 4 6 EN61000 4 8 3 4 GVX9000 User Manual Basic Wiring Diagram E T N Basic Wiring Diagram For Models of GVX9000 Series 1 to 5 horsepower DC Chock Optional Jumper j Braking Resistor Unit Optional GBM fX Lee iuwun ee Refer to Appendix for the use of Special Braking Resistor Unit Fuse NFB None Fuse Breaker C CON R L1 O Oo S L2 O O T L3 O O Factory Setting SINK Mode Sink Refer to Figure 3 4 for thsw1 wiring of SINK Mode and SOURCE Mode Source RUN STOP REV FWD mE Multi Step 1 5 6 Multi Step 2 5 5 Multi Step 3 _ _ O Multi Step 4 __ Factory ff o Setting Reset EF o 5 o Digital Signal Common Dont apply the mai ns voltage directly to above terminals 5KQ
103. able C 6 Approximate Dimensions for Braking Resistors Approximate Dimensions Cutler Hammer in Inches mm Enclosure P N PowerohmP N Ohms Watts W D H Type 230 Voltage K13 000034 821 CR100 200 200 100 6 00 1 50 0 75 CR100 K13 000034 861 152 4 38 1 19 1 K13 000034 861 K13 000034 825 CR400 40 40 400 12 00 3 00 1 50 CR400 304 8 76 2 38 1 K13 000034 826 2 CR250 60 P 30 500 7 50 3 00 0 75 CR250 K13 000034 862 190 5 76 2 19 1 K13 000034 863 K13 000034 864 K13 000034 865 K13 000034 866 K13 000034 867 K13 000034 868 460 Voltage K13 000034 841 CR100 750 K13 000034 843 CR300 250 K13 000034 843 CR300 250 K13 000034 844 K13 000034 845 CR400 150 2 CR250 200 P K13 000034 846 K13 000034 869 K13 000034 870 K13 000034 871 K13 000034 872 K13 000034 873 K13 000034 874 K13 000034 875 K13 000034 876 K13 000034 877 3 CR400 225 3P 575 Voltage K13 000034 0851 CR300 250 250 300 9 00 3 00 1 50 CR300 228 6 76 2 38 1 K13 000034 0851 CR300 250 250 300 9 00 3 00 1 50 CR300 228 6 76 2 38 1 K13 000034 0852 0 2 CR300 400 P 200 600 9 00 3 00 1 50 CR300 228 6 76 2 38 1 K13 000034 0852 2 CR300 400 P 200 600 9 00 3 00 1 50 CR300 228 6 76 2 38 1 K13 000034 0852 2 CR300 400 P 200 600 9 00 3 00 1 50 CR300 228 6 76 2 38 1 5WR2000 GCE5 NC 100 2000 12 00 16 00 5 00 GCE5 304 8 406 4 12
104. age HIGH VOLTAGE A Motor control equipment and electronic controllers are connected to hazardous line voltages When servicing drives and electronic controllers there may be exposed components with housings or protrusions at or above line potential Extreme care should be taken to protect against shock Stand on an insulating pad and make it a habit to use only one hand when checking components Always work with another person in case an emergency occurs Disconnect power before checking controllers or performing maintenance Be sure equipment is properly grounded Wear safety glasses whenever working on electronic controllers or rotating machinery GVX9000 User Manual ix E TN Safety Messages High Voltage Warnings and Cautions High Voltage HIGH VOLTAGE A Before opening the AC drive covers Disconnect all power to the AC drive Wait five minutes for DC bus capacitors discharge HIGH VOLTAGE Be sure to ground the unit Otherwise there is danger of electric shock A and or fire HIGH VOLTAGE Wiring work shall be carried out only by qualified personnel Otherwise there is a danger of electric shock or fire Warnings WARNING Make sure that all screws are tightened to the proper torque rating shown in Table 3 3 WARNING This equipment should be installed adjusted and serviced by qualified electrical maintenance personnel familiar with the construction and operation of the equi
105. ault Feedback Deviation Err Count Attained 0607H 80 08 5 65 Power Up Display Selection Also Order of Appearance When Scrolling through Display Modes 0608H 80 09 5 65 User Defined Multiplier Command Frequency Output Frequency Output Current User Defined Output Voltage Unit Temperature Forward Reverse Direction 0 01 to 160 00 0609H 80 10 5 65 External Terminal 01 to 20 1 Scanning Time 060AH 80 11 5 65 Parameter Lock and 00 All parameters can be set 00 Configuration and read 01 All parameters are read only 10 Reset all parameters to the factory defaults GVX9000 User Manual IDEO ETAT E TN GVX9000 Parameter Listings Table B 7 80 Keypad Display Continued Parameter User Modbus Groups Page Description Range Default Settings 060BH 80 12 5 65 Run Time Timer 0 to 65535 0 Day 060CH 80 13 5 65 Run Time Timer 0 to 65535 0 Minutes 060DH 80 14 5 65 Power On Time 0 to 65535 0 Timer Day 060EH 80 15 5 66 Power On Time 0 to 65535 0 Timer Minutes 060FH 80 16 5 66 Display Scroll 00 Disable 00 01 Scroll every 5 seconds after 1 minute delay 02 Scroll every 15 seconds after 1 minute delay 0610H 80 17 5 66 Content of 00 Display output current 00 Multifunction Display 01 Display counter value 3 02 Display DC BUS voltage 03 Display output voltage 5 04 Output po
106. c as E en T d o9 aE es Os a 33 Forced Stop NO Figure 5 27 Digital Input Terminal Settings 33 34 5 20 GVX9000 User Manual Group 30 Inputs E T N 30 29 Final Count Value 30 30 Intermediate Count Value 30 31 Preset Speed 1 30 32 Preset Speed 2 30 33 Preset Speed 3 30 34 Preset Speed 4 30 35 Preset Speed 5 30 36 Preset Speed 6 GVX9000 User Manual Range 00 to 65000 Default 00 This parameter defines the final count value for the GVX9000 internal counter The counter is incremented by a low to high transition on a Digital Input Terminal D3 to D10 A selected Digital Relay Output Terminal may be programmed to activate upon completion of the final count Range 00 to 65000 Default 00 This parameter sets the intermediate count value for the GVX9000 internal counter The counter is incremented by a low to high transition on a Digital Input Terminal D3 to D10 The count will start at C01 A selected Digital Relay Output Terminal may be programmed to activate upon completion of the intermediate count Range 0 00 to 400 00 Hz Default 0 00 Hz Unit 0 01 Hz Range 0 00 to 400 00 Hz Default 0 00 Hz Unit 0 01 Hz Range 0 00 to 400 00 Hz Default 0 00 Hz Unit 0 01 Hz Range 0 00 to 400 00 Hz Default 0 00 Hz Unit 0 01 Hz Range 0 00 to 400 00 Hz Default 0 00 Hz Unit 0 01 Hz jo suondiiosaq TU 2 S E a D z 5
107. ce the parameter group is located use the right arrow key to enter the group Use the up and down keys to scroll the parameters on that page 40 30 40 01 20 40 02 40 03 40 04 40 05 Figure 5 2 Parameter Groups 90 E ec as E en T du o9 aE cis Os a 5 2 GVX9000 User Manual Viewing and Changing Parameter Settings E T N Once the parameter has been located use the right arrow key to view the parameter setting A1 Max Volt In 30 01 10 00Vdc RUN STOP FWD REV LOC RUN STOP FWD REV LOC Figure 5 3 Parameter Setting Once in the parameter setting use the up and down keys to scroll through the parameters A1 Max Volt In 30 01 10 00Vdc A1 Min Volt In 30 02 0 00Vdc RUN STOP FWD REV LOC RUN STOP FWD REV LOC Figure 5 4 Scrolling Parameters Use the ENTER key to enter the programming mode The displayed parameter will flash indicating the parameter can be changed A A1 Max Voltin M 30 01 10 00Vdc This digit flashes The right arrow key changes the flashing digit location RUN STOP FWD REV LOC Figure 5 5 Programming Mode GVX9000 User Manual 5 3 jo suondn2saq TU 2 S E a D E3 5 a E SE as Su T do o9 aE Ss Os LE E TN Parameter Groups Use the up and down keys to change the parameter
108. ceiving and inspection procedures and provides an introduction to digital keypad operation Chapter 3 Storage and Installation describes planning for drive installation and drive mounting This chapter also includes requirements and connections for wiring Chapter 4 Start Up Procedures provides a detailed explanation of digital keypad operation Chapter 5 Descriptions of Parameter Settings provides detailed explanations for all parameter settings Chapter 6 Maintenance and Inspection describes maintenance procedures Chapter 7 Troubleshooting and Fault Information lists the fault displays descriptions and corrective actions Appendix A Technical Data lists standard specifications Appendix B Parameter Tables provides listing of all parameters with descriptions ranges and defaults Appendix C Accessories provides information about circuit breakers fuses braking resistors and other accessories for the Eaton GVX9000 Drives Appendix D Dimensions displays keypad and drive dimensions Appendix E is a Declaration of Conformity m2 GVX9000 User Manual Intended Audience E T N Intended Audience The audience for this manual has Knowledge of standard electrical wiring practices electronic components and electrical schematic symbols The audience for this manual will install start up and service the Eaton GVX9000 Drives Conventions Used in This Manual Listed below are te
109. changing the parameters 24V D1 D2 D3 D4 D5 D6 D7 D8 D9 p10 con jo suondn2saq m 2 S E a D E3 5 a 00 18 Parameter Lock Figure 5 16 Digital Input Terminal Setting 18 GVX9000 User Manual 5 15 E TN Group 30 Inputs Setting 19 A digital input terminal may be used for acceleration deceleration inhibit When the command is received acceleration and deceleration is stopped and the AC drive maintains a constant speed See Figure 5 17 24V D1 D2 D3 D4 D5 D6 D7 D8 D9 D10 COM 00 19 Acceleration Deceleration Inhibit Frequenc 3 i Master Frequency Acceleration Inhibit Deceleration Inhibit Acceleration Inhibit Deceleration Inhibit Actual Operation Frequency Time Accel Decel on on on on Inhibit Start ON OFF Command Figure 5 17 Digital Input Terminal Setting 19 Setting 20 A digital input may be used to Enable or Disable the RUN command Used as a Safety device 24V D1 D2 D3 D4 D5 D6 D7 D8 D9 D10 COM E ec aos E 2 T du o9 aE es Os a 20 Run Enable Figure 5 18 Digital Input Terminal Setting 20 5 16 GVX9000 User Manual Group 30 Inputs E T N
110. commonly used GVX9000 User Manual Group 70 Protective Functions E T N 70 10 Auto Energy Saving Operation Range Default 00 00 Disable 01 Enable Output 100 70 Voltage E With energy saving enabled the drive automatically adjusts the output voltage based on the output power level The maximum output voltage reduction is 30 Frequency Output Voltage Base 70 11 Under Current Detection Value 70 12 Under Current Detection Mode 70 13 Under Current Detection Time GVX9000 User Manual Figure 5 43 Output Voltage Adjustment Range Default 0 0 0 0 Disable 0 1 To No Load Amps The under current detection level of the AC drive The value must be smaller than or equal to Motor No Load Current 60 02 Range Default 01 00 Output fault and coast stop 01 Output fault amp ramp to Stop 02 Coast stop and restart after delay 70 14 setting time Setting 0 or 1 If the output current falls below 70 11 then the drive will generate an output fault via one of the digital outputs Setting 2 If the output current falls below 70 11 then the drive will standby and restart after delay time in 70 14 Range 0 0 to 20 0 sec Default 1 0 The parameter determines the delay time before an under current output fault will occur 5 59 jo suondiiosaq TU 2 S E a D z 5 a E TN Group 70 Protective Functions 70 14
111. cy 01 REMOTE AUTO determined by digital Frequency keypad on the drive 01 Master Frequency determined by 0 10V on terminal Al 02 Master Frequency determined by 4 20 mA on terminal Al2 03 Master Frequency determined by 10 10V on terminal Al3 04 Master Frequency determined by RS 485 Frequency retained 05 Master Frequency determined by RS 485 Frequency not retained 0302H 50 03 5 30 Source of LOCAL HAND Operation Command a E S o o E c 2 00 Operating commands 00 determined by the Digital Keypad 01 Operating commands determined by the External Control Terminals Keypad STOP key is enabled 02 Operating commands determined by the External Control Terminals Keypad STOP key is not enabled 03 04 Operating commands determined by the RS 485 communication interface Keypad STOP key is enabled Operating commands determined by the RS 485 communication interface Keypad STOP key is not enabled B 8 GVX9000 User Manual GVX9000 Parameter Listings E T N Table B 4 50 AC Drive Control Continued Parameter User Modbus Groups Page Description Range Default Settings 0303H 50 04 5 31 Source of 00 Operating commands 01 REMOTE AUTO determined by the Digital Operation Command Keypad 01 Operating commands determine
112. d 7 87 7 46 200 0 189 5 Y ER fA C 6 Figure C 1 GBM2022 GBM4045 GBM5055 Braking Unit GVX9000 User Manual Braking E T N Table C 5 Braking Unit Specifications Model 230V Series 460V Series 575V Series GBMXXXX 2022 4045 5055 Max Motor 22 Capacity kW 45 55 Output Rating Max Peak Discharge Current A 10 ED 60 60 60 Continuous 20 Discharge Current A 18 20 Braking Start Up Voltage DC 330 345 360 380 400 415 3V 660 690 720 760 800 830 6V 950 8V Input Rating DC Voltage 200 400V DC 400 800V DC 607 1000V DC Protection Heat Sink Overheat Temperature over 95 C Alarm Output Relay contact 5A 120V AC 28V DC RA RB RC Power Charge Display Blackout until bus voltage below 50V DC Usage Environment Installation Location Indoor no corrosive gases metallic dust Operating Temperature 10 50 C Storage Temperature 20 60 C Humidity 0 R H Non condensing Vibration 9 8 m s2 1G under 20 Hz 2 m s 0 2G at 20 50 Hz Mechanical Wall mounted enclosed type IP50 Configuration GVX9000 User Manual C 7 saliossa20y Accessories E T N Braking Dimensions for Braking Resistors Dimensions are in Inches mm T
113. d This parameter sets the 4 20 mA analog signal AI2 loss detection time Default 0 1 Range 00 to 02 Default 00 00 Based on Accel Decel time RUN state only 01 Constant Speed based on 50 13 02 Based on Accel Decel time frequency setpoint set to 0 Hz upon a STOP command RUN state only This parameter determines how the drive s UP DOWN frequency keys respond to request for speed change Range 0 01 to 1 00 Hz msec Default 0 01 This parameter determines the speed the command frequency will change when holding down the UP DOWN key Range 50 to 400 0 Hz Default 60 00 This parameter determines the Maximum Output Frequency of the drive It should be programmed to the Maximum Frequency of the application Range 10 00 to 400 00 Hz Default 60 00 Unit 0 01 Hz This value should be set according to the rated frequency of the motor as indicated on the Motor Nameplate Motor Nameplate Frequency determines the volts hertz ratio For example If the drive is rated for 460V AC output and the Maximum Voltage Frequency is set to 60 Hz the drive will maintain a constant ratio of 7 66 v Hz The setting value must be equal to or greater than the Mid Point Frequency 50 17 jo suondiiosaq TU 2 S E a o z 5 a 5 33 E SE os E 2 T doc o9 aE Ss Os a E TN Group 50 AC Drive Control 50 16 Motor Nameplate Voltage 50 17 Mid Point Output Frequenc
114. d by the External Control Terminals Keypad STOP key is enabled 02 Operating commands determined by the External Control Terminals Keypad STOP key is not enabled 03 Operating commands determined by the RS 485 communication interface Keypad STOP key is enabled 04 Operating commands determined by the RS 485 communication interface ay Keypad STOP key is not a enabled 3 0304H 50 05 5 31 Dual Frequency Input 00 Disable 00 E Mode 01 50 01 50 02 02 50 01 50 02 03 50 02 trims 50 01 8 Reference 0305H 50 06 5 31 Trim Reference 0 00 to 100 00 0 00 0306H 50 07 5 31 Keypad Frequency 50 00 to 400 00 Hz 60 00 Setting 0307H 50 08 5 32 Stop Method 00 STOP Ramp EF Coast 00 01 STOP Coast EF Coast 02 STOP Ramp EF Ramp 03 STOP Coast EF Ramp 0308H 50 09 5 32 HOA Stop Method 00 Ramp 01 01 Coast 0309H 50 10 5 32 4 20 mA Input Signal 00 Decel to 0 Hz 00 Loss 01 Stop immediately and display EF 02 Continue operation at last known frequency 030AH 50 11 5 33 4 20 mA Input Loss 0 1 to 120 00 sec 0 1 Detection Time 030BH 50 12 5 33 UP DOWN Key Speed 00 Based on Accel Deceltime 00 RUN state only 01 Constant Speed based on 50 13 02 Based on Accel Decel time frequency setpoint set to 0 Hz upon a STOP command RUN state only 030CH 50 13 5 33 Increment Decrement 0 01 to 1 00 Hz msec 0 01 Rate of Frequency GVX9000 User Manual B 9 a E S o o E c a
115. d shown in the display GVX9000 User Manual 2 5 CAT NN V3 E E E o o gt E T N Digital Keypad Operation Table 2 2 Keypad Operators Continued This button switches the Control Location from the Local Source to the Remote Source This button changes the direction of the motor connected to the GVX9000 drive LEFT Arrow navigation button movement to left in display mode enter parameter group mode in parameter edit mode exits mode backs up one step cancels edited parameter exit from a parameter edit mode o gt a 3 x gt G E D Cy e o z o 5 o gt RIGHT Arrow navigation button movement to right enter parameter group mode enter parameter mode from group mode Changes the cursor location when entering data into a parameter UP and DOWN Arrows move either up or down the group list in order to select the desired group menu move either up or down the parameter list in order to select the desired parameter in the group increasing decreasing of reference value on the keyboard when selected 2 6 GVX9000 User Manual E T N Chapter 3 Storage and Installation Inside this chapter Ir ape PE 3 2 Environment koe RR E p wee eae weds 3 2 ODEFTATION s nat de here don EH ER 3 2 Storage sx Listen eaat Res 3 2 Transporation x 5 das dre dcn eet o
116. disabled 02 AVR disabled during decel 03 AVR disabled during stop na D 2 ci E 2 Ey 51 a Auto Energy Saving Operation 00 Disable 01 Enable Under Current Detection Value 0 0 Disable 0 1 ToNoLoad Amps Under Current Detection Mode 00 Output fault and coast stop 01 Output fault amp ramp to Stop 02 Coast stop and restart after delay 70 14 setting time 050CH 70 13 5 59 Under Current 0 0 to 20 0 sec 1 0 Detection Time 050DH 70 14 5 60 Under Current 1 to 3600 sec 60 Detection Restart Time 050EH 70 15 5 60 Low Voltage Detection 240V Series 240 300V DC 0 Level 480V Series 480 600V DC 0 575V Series 520 780V DC 0 050FH 70 16 5 60 Low Voltage Detection 0 to 3600 0 sec 0 5 Time GVX9000 User Manual a E t x 2 E S Ca E TN GVX9000 Parameter Listings Table B 6 70 Protective Functions Continued Parameter User Modbus Groups Page Description Range Default Settings 0510H 70 17 5 60 Cooling Fan Mode 0 Always on 0 1 Fan is off one minute after stop command 2 Fan on with run fan off with stop 3 Fan on when temp limit reached 0511H 70 18 5 60 Line Start Lock Out 00 Start lockout disabled keep 00 previous status when operation command source changed 01 Start lockout enabled keep pre
117. e 230V Series 0 1 to 50V 460V Series 0 1 to 100V 575V Series 0 1 to 637V 032FH 50 48 Upper Frequency Limit 0 01 to 400 00 Hz 65 00 Safety 0330H 50 49 Lower Frequency Limit 0 0 to 400 00 Hz 0 Safety Table E 7 06 Variable Torque Pump Fan Parameter Modbus Groups Description Range Default 0105H 30 06 A2 Maximum Input Current 0 00 to 20 00 mA 20 00 mA 0 20 mA 0106H 30 07 A2 Minimum Input Current 0 00 to 20 00 mA 4 00 mA 0 20 mA A2 Maximum Output 400 0 to 400 0 Hz Frequency A2 Minimum Output 400 0 to 400 0 Hz Frequency Digital Input Terminals D1 02 2 wire Operation Mode 2 D2 D1 RUN STOP D2 REV FWD Digital Input Terminal D3 Control Location Remote Local Remote close for remote Digital Input Terminal D4 Run Enable Digital Input Terminal D5 External Fault NO EF Digital Input Terminal D6 External Reset NO Digital Input Terminal D7 Jog Digital Input Terminal D8 Preset Speed Switch 1 Digital Input Terminal D9 Preset Speed Switch 2 Digital Input Terminal D10 Preset Speed Switch 3 Digital Output Terminal Inverter Fault Relay A RA1 RA2 RA3 Digital Output Terminal Ready Relay B RB1 RB2 N Digital Output Terminal DO1 At speed Ei Digital Output Terminal DO2 Over torque detection R 0300H 50 01 Source of LOCAL HAND 00 Master Frequency determined by 00 3 Frequency digital keypad on the
118. e output frequency is equal to or greater than 50 19 PG Error The output terminal will be active when there is an error with the encoder feedback User Defined Low voltage Error The output terminal will be active when the DC bus voltage falls above the users setting Refer to 70 15 and 70 16 Inverter RUN state The output terminal will be active when the drive is in a RUN state Desired Freq Attained 3 Brake Freq The output terminal will be active when 40 10 is reached The output will be off when the Output Frequency falls below 40 11 after a Stop command See Figure 5 29 jo suondiiosaq TU 2 S EA E a D E3 5 a GVX9000 User Manual 5 27 E TN Group 40 Outputs 40 07 Frequency Range 0 00 to 400 00 Hz Default 0 00 Attained 1 Unit 0 01 Hz If a Digital Relay output terminal is set to function as Frequency Attained then the output will be activated when the programmed frequency is attained Freq Detection Detection Range Range Max Output 2 HZ 4 Hz Freq i 40 07 Freq Attained 1 40 09 Freq Attained 2 Detection Range 2 Hz Time Preset Freq Attained Indication 40 03 40 06 OFF Desired Freq Attained Indication ON 40 03 40 06 OFF OFE Figure 5 28 Desired Freq Attained amp Preset Freq Attained 40 08 Digital Output Multiplier 40 09 Frequency Attained 2 E SE aos E 2 T doc o9 aE Ss Os a
119. e selection Note Closing both D3 amp D5 to COM will select Accel Decel time 4 Figure 5 12 Digital Input Terminal Settings 10 11 Settings 12 13 14 Used to select the Operation Command location of the AC drive 24V D1 D2 D3 D4 D5 D6 D7 D8 D9 p10 con E orc aos E en T m o9 aE es Os A O O 12 Control Location Hand HOA O 13 Control Location Auto HOA O 14 Control Location Remote Local Remote close for remote Figure 5 13 Digital Input Terminal Settings 12 13 14 5 14 GVX9000 User Manual Group 30 Inputs E T N Settings 15 16 Settings 15 and 16 enable the digital input terminal to incrementally increase decrease the Master Frequency each time an input is received Refer to Pr 50 12 and 50 13 24V D1 D2 D3 D4 D5 D6 D7 D8 D9 D10 COM 00 16 Decrease Master Frequency 0 15 Increase Master Frequency Figure 5 14 Digital Input Terminal Settings 15 16 Setting 17 A digital input may be used to select direction 24V D1 D2 D3 D4 D5 D6 D7 D8 D9 D10 COM 00 17 Forward Reverse Figure 5 15 Digital Input Terminal Setting 17 Setting 18 A digital input terminal may be used to disable users from
120. ed Stop Method 4 20mA nput Signal Loss STOP Ramp EF Coast 00 Decelto 0 Hz Maximum Output Frequency 50 to 400 0 Hz Motor Nameplate Frequency Motor Nameplate Voltage Mid Point Output Frequency 10 00 to 400 00 Hz 230V Series 0 1 to 255 0V 460V Series 0 1 to 510 0V 575V Series 0 1 to 637 0V 0 00 to 400 00 Hz Mid Point Output Voltage 230V Series 0 1 to 255V 460V Series 0 1 to 510V 575V Series 0 1 to 637V 4 8 a a z o a T E gt A I E 6 GVX9000 User Manual Changed Parameters E TN Table E 5 04 Local Remote Continued Parameter Modbus Groups Description Range Default 0312H 50 19 Minimum Output Frequency 0 00 to 20 00 Hz 0 50 Minimum Output Voltage 230V Series 0 1 to 50V 460V Series 0 1 to 100V 575V Series 0 1 to 637V 032FH 50 48 Upper Frequency Limit 0 01 to 400 00 Hz 65 00 Safety 0330H 50 49 Lower Frequency Limit 0 0 to 400 00 Hz 0 Safety Table E 6 05 Hand Off Auto HOA Parameter Modbus Groups Description Range Default 0114H 30 21 Digital Input Terminal D3 12 Control Location Hand HOA 12 0115H 30 22 Digital Input Terminal D4 13 Control Location Auto HOA 13 Digital Input Terminal D5 Run Enable Digital Input Terminal D6 External Fault NO EF Digital Input Terminal D7 External Reset NO Digital Input Terminal D8 Jog Digi
121. ed by 50 43 before resuming operation This time interval should be set to a value where the residual output voltage due to regeneration is nearly zero before the drive resumes operation This parameter also determines the wait time after performing an external PAUSE and Fault Reset function Range 30 to 200 Default 150 Range Default 0 0 Start at last known freq command 1 Start at minimum speed Range Default 0 0 Disable 1 Enable GVX9000 User Manual Group 50 AC Drive Control E T N 50 47 Flying Start Point 50 48 Upper Frequency Limit Safety 50 49 Lower Frequency Limit Safety 50 50 Skip Frequency 1 50 51 Skip Frequency 2 50 52 Skip Frequency 3 50 53 Skip Frequency 4 Range Default 0 0 From command frequency 1 From maximum freq Range 0 01 to 400 00 Hz Default 400 00 Range 0 0 to 400 00 Hz Default 0 The Upper and Lower Limit parameters are to prevent operation at frequencies where machine damage may occur If the Upper Limit of Output Frequency is set at 50 Hz and the Maximum Output Frequency is set at 60 Hz the actual Maximum Output Frequency will be limited to 50 Hz If the Lower limit of Output Frequency is set at 10 Hz and the Minimum Output Frequency is set at 1 0 Hz then any Command Frequency between 1 10 Hz will generate a 10 Hz output from the drive This parameter must be equal to or less than the Upper Limit of Output Frequency 50 48 Range 0 0 to 4
122. educe the motor load 2 Adjust the over torque detection setting to an appropriate setting The corrective action can be set with treatment of the erroneous feedback signals parameter 50 69 Auto Adjust Error Auto Tune Error Check whether the AC drive s wiring is correct Copy Error Copy Keypad check error for saving the date of each parameter Check whether the communication wiring is correct and function is normal It allows copying when the voltage and horsepower is the same Save Error The Drive check error for saving to the drive Check whether the communication wiring is correct and function is normal It allows copying when the voltage and horsepower is the same Under Current Under current fault Check parameter 70 11 to 70 13 GVX9000 User Manual 7 b E T N This page intentionally left blank 5 z S 2 5 u T D n i 2 E 7 6 GVX9000 User Manual E T N Appendix A Technical Data Inside this chapter Technical Data 22e Lege 9k ek e cies A 2 E p rj gt x 2 2 2 GVX9000 User Manual A 1 2 E z E E T N Technical Data Technical Data Table A 1 GVX9000 230V Specifications Voltage Class 230V Class Model Number GVX XXXA1 2 001 002 003 oss 007 010 015 020 025 030 040 050
123. ements for these installations Note To guard against personal injury and or equipment damage caused by improper fusing or circuit breaker selection use only the recommended line fuses circuit breakers specified in this section Fusing The GVX9000 has been UL tested and approved for use with input fuses The ratings in Table 4 2 are the minimum recommended values for use with each drive rating The devices listed in this table are provided to serve as a guide Other devices which meet the requirements of UL508C and UL489 with similar trip characteristics may be used in order to meet local or national electrical codes Manual Motor Starters UL489 Circuit Breakers When using manual motor starters or UL489 rated circuit breakers follow manufacturer s recommended guidelines for installation 4 6 GVX9000 User Manual Fuses and Circuit Breakers E T N Table 4 2 Fuse Specification Chart Line Fuse l A 1 A Bussmann Model Input Output 1 A P N MMP Recommend 230V GVX001A1 2 1 phase 5 40 JJN 40 XTPRO16BC1 XTCE018C10 GVX001A1 2 3 phase 5 20 JJN 20 XTPRO12BC1 XTCE012B10 GVX002A1 2 1 phase 7 45 JJN 45 XTPRO20BC1 XTCE025C10 GVX002A1 2 3 phase p 30 JJN 30 XTPRO16BC1 XTCE018C10 GVX003A1 2 1 phase GVX003A1 2 3 phase JJN 70 JJN 45 XTPRO32BC1 XTPRO20BC1 XTCE032C10_ XTCE025C10_ GVX005A1 2 GVX007A1 2 GVX010A1 2 JJN 60 JJN 80 JJN 100 XTPRO25BC1 XTPRO32DC1 XTPRO50DC1 XTCE02
124. encoder feedback and determines the direction of A vs B phase Range 0 0 10 0 Default 1 0 Range 0 0 100 00 Default 1 00 Setting this parameter to 0 0 will disable this function Range 0 0 100 00 Hz Default 10 00 Setting this parameter to 0 0 will disable this function Range 0 01 1 00 sec Default 0 10 This parameter selects the scan time of the encoder feedback This parameter will set the update rate for 90 26 90 27 Range Default 00 00 Warning and Keep operating 01 Warning and Ramp to stop 02 Warning and Coast to stop This parameter selects how the drive will operate when the encoder signal is lost jo suondiiosaq TU 2 S E E a D 5 a Range 0 01 10 00 sec Default 1 00 This parameter determines the time between encoder pulses 5 53 E TN Group 60 Motor Control 60 26 CLV Encoder Feedback Filter 60 27 CLV Encoder Slip Range Deviation Range 60 28 CLV Encoder Stall Level Over Speed 60 29 SV Zero Speed Mode 60 30 SV Zero Speed DC Voltage Level E orc aos co 2 T doc o9 aE Ss Os a 5 54 Range 0 002 1 00 Default 00 00 Disable description Range 0 0 50 0 Default 10 0 This parameter determines the percentage error of the feedback compared to command If the error is greater than the number programmed in this parameter a Encoder fault will occur Calculated as Pr 60 27 x Pr 50 14
125. er Over Current Current Level Level 70 02 70 03 a Oo aE 2 Output Eo Freq Output 5 z Freq oc Os a Time Over Current Stall Prevention Over Current Stall Prevention during Acceleration during Operation Figure 5 41 Over Current Stall Prevention 5 56 GVX9000 User Manual Group 70 Protective Functions E T N 70 04 Over Torque Detection Mode 70 05 Over Torque Detection Level 70 06 Over Torque Detection Time 70 07 Electronic Thermal Overload Relay 70 08 Electronic Thermal Characteristic GVX9000 User Manual Range Default 00 00 Disabled 01 Enabled during constant speed operation drive halted after fault 02 Enabled during constant speed operation operation continues after fault Enabled during operation drive halted after fault Enabled during operation operation continues after fault 03 04 Range 10 to 200 Default 150 Unit 1 A setting of 100 is proportional to the Rated Output Current of the drive This parameter sets the Over Torque Detection level in 1 increments The AC drive rated current is equal to 100 Range 0 1 to 10 0 sec Default 0 1 Unit 0 1 sec This parameter sets the Over Torque Detection Time in units of 0 1 seconds Range Default 01 00 Constant Torque 01 Variable Torque 02 Inactive This function is used to limit the output power of the AC drive when powering a self cooled motor at low speed Range 30 t
126. eter User Modbus Groups Page Description Range Default Settings 0205H 40 06 5 25 Digital Output 32 Inverter RUN command 05 Terminal DO2 state 33 Brake ON Brake OFF 40 10 40 11 0206H 40 07 5 28 Frequency Attained 1 0 00 to 400 00 Hz 0 00 0207H 40 08 5 28 Digital Output 01to 20 00 Multiplier 0208H 40 09 5 28 Frequency Attained 2 0 00 to 400 00 Hz 0 00 0209H 40 10 5 29 Brake Release 0 0 to 400 0 Hz 0 0 Frequency Brake OFF 020AH 40 11 5 29 Brake Engage 0 0 to 400 0 Hz 0 0 Frequency Brake ON 020BH 40 12 5 29 EF Displayed at 00 Disabled 00 Midpoint Count 01 Display EF when midpoint count is reached y 2 s 3 Table B 4 50 AC Drive Control Li Parameter User s Modbus Groups Page Description Range Default Settings En 0300H 50 01 5 30 Source of 00 Master Frequency 00 x LOCAL HAND determined by digital Frequency keypad on the drive 01 Master Frequency determined by 0 10V on terminal Al1 02 Master Frequency determined by 4 20 mA on terminal Al2 03 Master Frequency determined by 10 10V on terminal Al3 04 Master Frequency determined by RS 485 Frequency retained 05 Master Frequency determined by RS 485 Frequency not retained GVX9000 User Manual B 7 E TN GVX9000 Parameter Listings Table B 4 50 AC Drive Control Continued Parameter User Modbus Groups Page Description Range Default Settings 0301H 50 02 5 30 Source of 00 Master Frequen
127. face EE ELLE LCD Display Indicates Motor and Drive Parameter Frs LED Indicators RUN STOP FWD REV Loc 1 Lamp Lights During Run Stop Fwd Rev Loc Operations LOC REM Key Switches the Control from Local Control Source to Remote Control Source FORWARD REVERSE Key START Key gt tart Comman J STOP RESET Key Stop Command and Reset Ribht Left Keys CO the Drive After a Fault Occurs Scrolls Display ENTER Key Used in Parameter Mode to Enter and Change Values Enter Exit Parameter Mode Change Parameter Settings Figure 2 3 Description of Digital Keypad Table 2 2 Keypad Operators START This button operates as Start button for normal operation Motor START from the panel active control place has to be selected at Panel ENTER This button in the parameter edit mode is used to enter the programming mode and enter the parameter selection used for parameter edit confirmation acceptance confirmation of the edited parameter value with exit from parameter edit mode STOP RESET This button has two integrated operations The button operates as Stop button for normal operation In the parameter edit mode it is used to cancel previous action and back up one step and in fault mode it is used to reset the fault STOP motor STOP from the panel active control place has to be selected at Panel RESET used to reset an Active Fault on the drive an
128. fault 00 Selection 99 Factory Settings 01 Basic V F Curve 02 PID Control 03 Preset Speeds 04 Local Remote 05 Hand Off Auto HOA 06 Variable Torque Pump Fan 07 Spindle Motor 08 Analog Speed Command 09 Closed Loop Vector Control This parameter will automatically set the GVX9000 parameters to the most common settings for each application listed options 1 9 The parameters that have been changed are shown in Appendix E The parameters may be further changed to tune the drive to your specific system This feature offers the user several advantages GVX9000 User Manual Easily change the drive from one application setup to another Learn what common parameters and settings are used for each application Saves time in drive programming jo suondiiosaq TU 2 S E a D E3 5 a 5 5 E TN Group 30 Inputs Group 30 Inputs 30 01 A1 Maximum Input Voltage 0 10V 30 02 A1 Minimum Input Voltage 0 10V 30 03 A1 Maximum Output Frequency 30 04 A1 Minimum Output Frequency 30 05 A1 Reverse Option 30 06 A2 Maximum Input Current 0 20 mA 30 07 A2 Minimum Input Current 0 20 mA E SE no E 2 T doc o9 aE Ss Os a 5 6 Range 0 00 to 10 00V Default 10 00 Unit 0 01 This parameter sets the maximum input voltage on terminal A1 Range 0 00 to 10 00V Default 0 00 Unit 0 01 This parameter sets the minimum input v
129. fault diagnostic system that includes several different alarms and fault messages Once a fault is detected the corresponding protective functions will be activated The following faults are displayed as shown on the AC drive digital keypad display The three most recent faults can be read on the digital keypad display by viewing 80 04 through 80 06 Note Faults can be cleared by resetting at the keypad or with the Input Terminal Table 7 1 Common Problems and Solutions Fault Name Fault Descriptions Corrective Actions Over Current The AC drive detects an abnormal increase in current Check that the motor horsepower corresponds to the AC drive output power Check the wiring connections between the AC drive and motor for possible short circuits Increase the acceleration time 50 24 50 26 50 28 50 30 Check for possible excessive loading conditions at the motor If there are any abnormal conditions when operating the AC drive after a short circuit is removed it should be sent back to manufacturer Over Voltage The AC drive detects that the DC bus voltage has exceeded its maximum allowable value wn Check that the input voltage falls within the rated AC drive input voltage Check for possible voltage transients Bus over voltage may also be caused by motor regeneration Either increase the deceleration time or add an optional braking resistor Check whether the required brakin
130. for Mounting Screw 1 75 19 0 Typ 3 Places Y 36 9 1 Figure D 1 Digital Keypad Approximate Dimensions in Inches mm D 2 GVX9000 User Manual Drives E T N Drives 5 91 26 6 5 150 0 Dia 5 32 6 84 135 0 173 7 A X E ETN 10 24 9 62 260 0 244 3 GVX9000 Sensorless Vector 0000000000000 g ii T Model GVX001A1 2 GVX001A1 4 GVX002A1 2 GVX002A1 4 GVX003A1 2 GVX003A1 4 GVX005A1 2 GVX005A1 4 Figure D 2 1 5 hp Approximate Dimensions in Inches mm GVX9000 User Manual E TN Drives 28 7 0 Dia 12 72 11 93 323 0 303 0 0000000 000000000000000000000 0000000000000000 L Model GVX007A1 2 GVX007A1 4 GVX010A1 2 GVX010A1 4 GVX015A1 2 GVX015A1 4 Figure D 3 7 1 2 15 hp Approximate Dimensions in Inches mm D 4 GVX9000 User Manual Drives E T N 9 84 35 yoo 8 90 it 226 0 7 VA TO 9 Ed 15 90 15 12 403 8 384 0 00000000000000 00009100000000 00000000000000 Model GVX020A1 2 GVX020A1 4 GVX025A1 2 GVX025A1 4 GVX030A1 2 GVX030A1 4 Figure D 4 20 30 h
131. ftware Version 80 02 AC Drive Rated Current Display 80 03 Manufacturer Model Information 5 62 Range Read only Range Read only GVX001A1 2 240V AC 1 hp CT GVX002A1 2 240V AC 2 hp CT GVX003A1 2 240V AC 3 hp CT GVX005A1 2 240V AC 5 hp CT GVX007A1 2 240V AC 7 1 2 hp CT GVX010A1 2 240V AC 10 hp CT GVX015A1 2 240V AC 15 hp CT GVX020A1 2 240V AC 20 hp CT GVX025A1 2 240V AC 25 hp CT GVX030A1 2 240V AC 30 hp CT GVX040A1 2 240V AC 40 hp CT GVX050A1 2 240V AC 50 hp CT Reserved Reserved GVX001A1 4 GVX002A1 4 GVX003A1 4 GVX005A1 4 GVX007A1 4 GVX010A1 4 GVX015A1 4 GVX020A1 4 GVX025A1 4 GVX030A1 4 GVX040A1 4 GVX050A1 4 GVX060A1 4 GVX075A1 4 GVX100A1 4 GVX125A1 4 480V AC 1 hp CT 480V AC 2 hp CT 480V AC 3 hp CT 480V AC 5 hp CT 480V AC 10 hp CT 480V AC 15 hp CT 480V AC 20 hp CT 480V AC 25 hp CT 480V AC 30 hp CT 480V AC 40 hp CT 480V AC 50 hp CT 480V AC 60 hp CT 480V AC 75 hp CT 480V AC 100 hp CT 480V AC 125 hp VT 480V AC 7 1 2 hp CT Default Default GVX9000 User Manual Group 80 Keypad Display E TN 80 03 continued Manufacturer 30 GVX150A1 4 Model Information 31 GVX175A1 4 continued 33 GUX215A1 4 33 GVX250A1 4 34 Reserved 35 Reserved 36 GVX001A1 5 575V AC 1 hp CT 37 GVX002A1 5 575V AC 2 hp CT 38 GVX003
132. g power is within the specified limits Over Heat The AC drive temperature sensor detects excessive heat 4 Make sure that the ambient temperature falls within the specified temperature range Make sure that the ventilation holes are not obstructed Remove any foreign objects from the heatsink and check for possible dirty heatsink fins Provide enough spacing for adequate ventilation Low Voltage The AC drive detects that the DC bus voltage has fallen below its minimum value Check that the input voltage falls within the rated AC drive s input voltage 7 2 GVX9000 User Manual Common Problems and Solutions E T N Table 7 1 Common Problems and Solutions Continued Fault Name Fault Descriptions Corrective Actions Over Load The AC drive detects 1 Check if the motor is overloaded excessive drive output 2 Reduce the torque compensation current setting in 60 09 Note The AC drive can 3 Replace the AC drive with one that has a withstand up to 15096 higher output capacity next hp size of the rated current for a maximum of 60 seconds Over Load 1 Internal electronic 1 Check for possible motor overload overload trip 2 Check electronic thermal overload Pw setting Increase motor capacity Reduce the current level so that the drive output current does not exceed the value set by the Motor Rated Current 60 01 Motor overload Check the parameter setti
133. gure 3 14 Parallel Grounding 3 17 Figure 4 1 Clearances and Air Flow in Inches mm 4 3 Figure 5 1 Page Groups sse reU I piruaren e S DRE Ra PR gH qr Ru Med ded 5 2 Figure 5 2 Parameter Groups 5 2 Figute 5 3 Paramet r Setting ss 202 sccecckes donee cee datas ages cd 5 3 Figure 5 4 Scrolling Parameters 5 3 Figure 5 5 Programming Mode 5 3 Figure 5 6 Parameter Changes 5 4 Figure 5 7 D1 and D2 Settings 5 9 Figure 5 8 Digital Input Terminal Settings 01 02 5 11 Figure 5 9 Digital Input Terminal Settings 03 04 5 12 Figure 5 10 Digital Input Terminal Settings 05 06 07 08 5 13 Figure 5 11 Digital Input Terminal Setting 09 5 14 Figure 5 12 Digital Input Terminal Settings 10 11 5 14 Figure 5 13 Digital Input Terminal Settings 12 13 14 5 14 Figure 5 14 Digital Input Terminal Settings 15 16 5 15 Figure 5 15 Digital Input Terminal Setting 17 5 15 Figure 5 16 Digital Input Terminal Setting 18 5 15 Figure 5 17 Digital Input Terminal Setting 19 5 16 Figure 5 18
134. imum Output Frequency of the AC drive V F curve This parameter must be equal to or less than the Mid Point Output Frequency 50 17 GVX9000 User Manual Group 50 AC Drive Control E T N 50 20 Minimum Output Range See below Default See below Voltage 230V Series 0 1 to 50V 1 7 460V Series 0 1 to 100V 3 4 575V Series 0 1 to 637V 4 8 This parameter sets the Minimum Output Voltage of the AC drive V F curve This parameter must be equal to or less than Mid Point Output Voltage 50 18 During Vector this parameter is disabled Figure 5 31 shows three examples of how a V F curve may change due to the setting of parameters 50 14 to 50 20 Voltage 50 16 50 18 50 20 Frequency 0 50 17 50 14 50 19 50 15 Standard V F Curve Figure 5 31 V F Curve Changes Voltage Voltage 50 16 50 16 TU 50 18 29 25 a8 50 18 mc a 50 20 ao tA 50 20 ES Frequency i i i Frequency 7j 50 19 50 17 50 15 50 14 50 19 50 17 50 15 50 14 Custom V F Curve Fan Pump V F Curve Figure 5 31 V F Curve Changes Continued GVX9000 User Manual 5 35 E SE aos E 2 T doc o9 aE Ss Os a E TN Group 50 AC Drive Control 50 21 Control Mode 50 22 CT VT Mode 50 23 Variable Torque Curve Selection 5 36 50 24 Acceleration Time 1 50 25 Deceleration Time 1 50 26 Acceleration Time 2 Range Default 00 00 V F 01 V F Closed Loop 02 Sensorless Vector SV
135. inverter standard default setting 50 Hz 60 Hz be sure to check the motor and machine specifications with the respective manufacturer Only operate the motor at elevated frequencies after getting their approval Otherwise there is the danger of equipment damage GVX9000 User Manual E T N Chapter 1 s 3 Introduction El H Inside this chapter How to Use This Manual 1 2 Intended Audience 1 3 Conventions Used in This Manual 1 3 Warranty and Liability Information 1 4 Related Publications 1 4 GVX9000 User Manual 1 1 Introduction E TN How to Use This Manual This chapter describes the purpose and contents of this manual and the intended audience This chapter also explains conventions used in this manual and lists related publications How to Use This Manual The purpose of this manual is to provide you with information necessary to install set parameters troubleshoot and maintain the Eaton GVX9000 Adjustable Frequency Drives from Eaton s electrical business To guarantee safe operation of the equipment read the safety guidelines at the beginning of this manual before connecting power to the AC motor drives Keep this operating manual handy and distribute to all users for reference Chapter 1 Introduction is the chapter you are reading now Chapter 2 Overview of the GVX9000 Drive describes re
136. is loaded it is recommended to select 01 Range 00 to 65535 Ohms Default 0 Units milli ohms This parameter determines the motor s line to line resistance a 2 The value may be entered manually or via the Auto Tune feature Fj F 60 03 This value should be entered when using Sensorless E o Vector control os no os Er E Range 00 to 10096 Default 0 Cm Unit 196 This parameter determines the amount of DC Braking Current applied to the motor during start up and stopping When setting DC Braking current please note that 100 is equal to the rated output current of the drive It is recommended to start with a low DC Braking Current Level and then increase until proper holding torque has been attained GVX9000 User Manual 5 49 E SE as E 2 T doc o9 aE Ss Os a E TN Group 60 Motor Control 60 06 DC Brake Time Upon a Start 60 07 DC Brake Time Upon a Stop 60 08 DC Brake Frequency Point 5 50 Range 0 0 to 60 0 sec Default 0 Unit 0 1 seconds This parameter determines the duration of time that the DC Braking Current will be applied to the motor upon a start command of the AC drive Range 0 0 to 60 0 sec Default 0 Unit 0 1 seconds This parameter determines the duration of time that the DC braking current will be applied to the motor upon a stop command of the AC drive Parameter 50 08 must be set to RAMP to stop for DC braking to be enabled Range 0 00 to 6
137. king Resistor tables on Pages C 4 and C 5 for specific Braking Resistors GVX9000 User Manual Sa110SS899y C 3 Accessories E TN Braking Braking All Braking Resistors and Braking Units Used in AC Motor Drives Note Please only use Eaton resistors and recommended values Other resistors and values will void Eaton s warranty Please contact your nearest Eaton representative for use of special resistors For instance in 460V Series 100 hp 75 kW the AC motor drive needs 2 braking units with total of 16 braking resistors so each braking unit uses 8 braking resistors The braking unit should be at least 10 cm away from AC motor drive to avoid possible interference Refer to the Braking Unit Module User Manual for further details Table C 4 Braking Specifications Applicable Total Motor Full Load Resistance Braking Torque of and Wattage Braking Unit Braking Resistor Kit Torque System Applied to No of Units P N and No of Units 10 ED hp kw Nm Drive Used Used with Kit 230 Voltage 1 0 75 0 427 80W 200 Q K13 000034 0821 1 125 2 1 5 0 849 300W 100 Q K13 000034 0861 125 3 2 2 1 262 300W 100 Q K13 000034 0861 1 12596 5 3 7 2 080 400W 409 K13 000034 0825 1 12596 7 1 2 5 5 3 111 500W 302 K13 000034 0826 20 125 10 7 5 4 148 1000W 209 K13 000034 0862 125 15 11 6 186 2400W 13 6 2 GBM2022 1 K13 000034 0863 125 20 15 8 248 3000W 10 Q GBM2022 1 K13 000034 0864
138. l Input Range 00 to 65535 Default N A State jo suondn2saq TU 2 S E a o 5 a GVX9000 User Manual 5 71 E T N This page intentionally left blank a 5E as on Se 2o m o aE Of Os a 5 72 GVX9000 User Manual E T N Chapter 6 Maintenance and Inspection Inside this chapter Periodic Inspection 6 2 Periodic Maintenance 6 2 E a T r o 5 pue JueuayueN GVX9000 User Manual 6 1 E TN Periodic Inspection Modern AC drives are based on solid state electronics technology Preventive maintenance is required to operate this AC drive in optimal condition and to ensure a long life A monthly check up of the AC drive by a qualified technician is recommended Before the check up always turn off the AC Input Power to the unit Wait at least 2 minutes after all display lamps have gone out and then confirm that the capacitors have fully discharged by measuring the voltage between B1 and Ground using a multi meter set to measure DC Periodic Inspection Check the following periodically to detect Whether the motors are operating as expected Whether the installation environment is abnormal Whether the cooling system is operating as expected Whether any irregular vibration or sound occurred during the operation Whether the motors are overheating during the operation Note Always
139. l Output Terminal Relay A RA1 RA2 RA3 Digital Output Terminal Relay B RB1 RB2 Brake ON Brake OFF 40 10 40 11 Inverter Fault Digital Output Terminal DO1 Low Voltage indication User Defined Digital Output Terminal DO2 GVX9000 User Manual Ready sfunjasg apo Aseq E T N Changed Parameters Table E 10 09 Closed Loop Vector Control Continued Parameter Modbus Groups Descripti Range Default 0209H 40 10 Brake Release Frequency 0 0 to 400 0 Hz 1 50 Brake OFF Brake Engage Frequency Brake ON 0 0 to 400 0 Hz Source of LOCAL HAND Frequency 00 Master Frequency determined by digital keypad on the drive Source of LOCAL HAND Operation Command Stop Method 00 Operating commands determined by the Digital Keypad 00 STOP Ramp EF Coast Maximum Output Frequency 50 to 400 0 Hz Motor Nameplate Frequency Motor Nameplate Voltage Acceleration Time 1 10 00 to 400 00 Hz 230V Series 0 1 to 255 0V 460V Series 0 1 to 510 0V 575V Series 0 1 to 637 0V 0 01 to 600 00 seconds Deceleration Time 1 0 01 to 600 00 seconds Upper Frequency Limit Safety Lower Frequency Limit Safety 0 01 to 400 00 Hz 0 0 to 400 00 Hz Hunting Coefficient 0 1000 CLV Encoder Pulses CLV Encoder Mode 00 40000 2 poles 00 20000 02 Forward Counterclockwise rotation CLV P Gain 0 0 1
140. l be active when the output current is under 70 11 and the time has exceeded 70 13 5 26 GVX9000 User Manual Group 40 Outputs E TN Function Explanations Continued 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 Over torque detection The output terminal will be active when the output current reaches the value set in 70 05 and the time of 70 06 has expired Pause Enable The output terminal will be active when the drive receives a PAUSE command External Control The output terminal will be active when the drive is programmed for External Start Stop control 50 03 50 04 Auxiliary Motor 1 Enables Auxiliary Motor 1 Refer to 50 73 to 50 76 Auxiliary Motor 2 Enables Auxiliary Motor 2 Refer to 50 73 to 50 76 Auxiliary Motor 3 Enables Auxiliary Motor 3 Refer to 50 73 to 50 76 Fout 0 0 Hz Stop state The output terminal will be active when the output frequency is equal to 0 0 Hz during a STOP state E Stop indication The output terminal will be active when an E Stop is received Desired Frequency Attained 2 The output terminal will be active when 40 09 is reached Soft braking signal The output terminal will be active when the drive begins to dump voltage to the brake resistor Fout 0 0 Hz during Run state The output terminal will be active when the output frequency is equal to 0 0 Hz during a RUN state Fout gt Fmin The output terminal will be active when th
141. lity and the Amendment Directive 93 68 EEC For the evaluation of the compliance with this Directive the following standard was applied EN61800 3 EN55011 EN61000 6 4 EN61000 6 2 EN61000 4 2 EN61000 4 3 EN61000 4 4 EN61000 4 5 EN61000 4 6 EN61000 4 8 The following manufacturer importer is responsible for this declaration Eaton Electrical Company Name 31 1 Shien Pan Road Kuei San Industrial Zone Taoyuan Shien Taiwan R O C Company Address GVX9000 User Manual F 3 E T N This page intentionally left blank Conformity e na a F4 GVX9000 User Manual Company Information Eaton s electrical business is a global leader in electrical control power distribution and industrial automation products and services Through advanced product development world class manufacturing methods and global engineering services and support Eaton s electrical business provides customer driven solutions under brand names such as Cutler Hammer Powerware Durant Heinemann Holec and MEME which globally serve the changing needs of the industrial utility light commercial residential and OEM markets For more information visit www EatonElectrical com Eaton Corporation is a diversified industrial manufacturer with 2005 sales of 11 1 billion Eaton is a global leader in electrical systems and components for power quality distribution and control fluid power systems and ser
142. make sure they are secure Close all access doors Remove any covering placed on the inverter ventilation openings 4 10 GVX9000 User Manual Fuses and Circuit Breakers E T N Power Up Test Step 8 After wiring the inverter and motor perform a power up test The procedure that follows is designed for the first time use of the drive Verify the following conditions before conducting the power up test The previous steps in this chapter have been followed The inverter is new and securely mounted to a non flammable vertical surface The inverter is connected to a power source and motor No additional wiring of the inverter connectors or terminals has been done The power supply is reliable and the motor is a known working unit The motor is mounted and is not connected to any load The following instructions apply to the power up test or to any time the inverter is powered and operating Please study the following instructions and messages before proceeding with the power up test T The power supply must have fusing suitable for the load Check the fuse size chart presented in Table 4 1 if necessary Be sure you have access to a disconnect switch for the drive input power if necessary However do not turn off power to the inverter during its operation unless it is an emergency Turn the inverter s front panel potentiometer to the MIN position fully counterclockwise CAUTION A The operation of the inverter
143. me selection 11 3rd Acceleration Deceleration time selection 12 Control Location Hand HOA 13 Control Location Auto HOA 14 Control Location Remote Local Remote close for remote 15 Increase Master Frequency 16 Decrease Master Frequency 17 Forward Reverse 18 Parameter Lock 19 Acceleration Deceleration Inhibit 20 Run Enable 21 PAUSE NO 22 PAUSE NC 23 PID Disable 24 Counter input 25 Counter reset 26 Auxiliary Motor 1 Output Failure 27 Auxiliary Motor 2 Output Failure 28 Auxiliary Motor 3 Output Failure 29 Output Shut Off NO 30 Output Shut Off NC 31 Auto Linear Acceleration Deceleration 32 Proximity sensor input index function 33 Forced Stop NO 34 Forced Stop NC Range See Parameter 30 21 Default 06 Range See Parameter 30 21 Default 07 Range See Parameter 30 21 Default 08 GVX9000 User Manual Group 30 Inputs E T N 30 25 Digital Input Terminal D7 30 26 Digital Input Terminal D8 30 27 Digital Input Terminal D9 30 28 Digital Input Terminal D10 Range See Parameter 30 21 Range See Parameter 30 21 Range See Parameter 30 21 Range See Parameter 30 21 Explanations Digital Input Terminal Settings 01 02 Default 03 Default 01 Default 00 Default 00 When an External Fault input signal is received the AC drive output will turn off the drive will display E F on digital keypad and the motor will coast to a sto
144. n Inches mm D 2 Figure D 2 1 5 hp Approximate Dimensions in Inches mm D 3 Figure D 3 7 1 2 15 hp Approximate Dimensions in Inches mm D 4 Figure D 4 20 30 hp Approximate Dimensions in Inches mm D 5 Figure D 5 40 100 hp Approximate Dimensions in Inches mm D 6 GVX9000 User Manual vii E TN Table of Contents List of Tables Table 2 1 Table 2 2 Table 3 1 Table 3 2 Table 3 3 Table 4 1 Table 4 2 Table 4 3 Table 5 1 Table 7 1 Table 7 2 Table A 1 Table A 2 Table A 3 Table A 4 Table B 1 Table B 2 Table B 3 Table B 4 Table B 5 Table B 6 Table B 7 Table B 8 Table C 1 Table C 2 Table C 3 Table C 4 Table C 5 Table C 6 Table C 7 Table E 1 Table E 2 GVX9000 Catalog Numbering System 2 3 Keypad Operators Sees ates oe me saw dum gor ess 2 5 MWiring Iterms uxo et hr eR eR ae hee oe IR D 3 9 Terminal Symbols aduer ERR RR RUE So gor Ra ee RU ROS OR 3 11 Wire Gauge and Torque Tightening 3 16 WiEe SIZe aus prevent E ve ERR eO Er MEA EE POE 4 5 Fuse Specification Chart otoc cs sind ped eden tthe edie 4 7 Heatikoss Data nac semis ear Eee base eels Sees 4 8 Carrier Frequency lits gera bee Gok erae qd 5 52 Common Problems and Solutions 7 2 Warning Codes i222 eb pee Een stress e 7 5 GVX9000 230V Specifications
145. na Ris a DA eee de 3 2 Opera 110 10 RSR EE ea D aE aE a A D e E a S 3 2 Ip EETRETIM 3 2 Transportation iu se ahaa cay e dow dba Ne Ghd es mee ode Nee xe 3 2 Pollution Degree ses du eem se ues en Banda sms Ne Me ln S 3 2 Mounting Area uerum meet oer e ee e et ae ato E ane Slee 3 3 WING 2 22 sen poacher dankEed goood Bee es taeda werk BUD du i 3 4 Applicable CodeS 2225488 near ds neon pp entm atin nae 3 4 Basic Wiring Diagram osse kh Rm ERR NR aug eae eae eee 3 5 Extertial Miro Se ets en Rae en annee M EOS 3 8 Control Terminal Wiring Factory Settings 3 10 Main Circuit Wiring 522833 ee tad ed lei etes 3 11 Wiring NOTES e rir er reU sea RIED AER m mE Y RR nee 3 17 Motor Operation Precautions 3 18 GVX9000 User Manual iii E TN Table of Contents CHAPTER 4 START UP PROCEDURES 4 1 Step by Step Installation 4 2 Mounting Location sema RELAIS Eee ER ati eee 4 2 Inverter MOURENQ rers vix uote re Re be Sh RR wee Mus rA taie a RON 4 4 Wiring Preparation e eor 2e eR noh mn Eao e RU Ue S RET i 4 4 Wite SIZ68 sicca ua ua me soeteschentaoteue EME eam RE wake 4 5 Fuses and Circuit Breakers 4 6 FUSIHQ uere grece RR e OR ie Here i a Eon ede date a Simao 4 6 Manual Motor Starters UL489 Circuit Breakers 4 6 Wiring the Inverter to Incoming Po
146. ngs 70 04 through 70 06 Over Torque Reduce the motor load Adjust the over torque detection setting to an appropriate setting Over Current Over current during Check for possible poor insulation at the During Accel acceleration output line 1 Short circuit at 2 Decrease the torque boost setting in motor output 60 09 2 Torque boost too 3 Increase the acceleration time high 4 Replace the AC drive with one that has a 3 Acceleration time higher output capacity next hp size too short 4 AC drive output capacity is too small Over Current Over current during 1 Checkfor possible poor insulation at the During Decel deceleration output line 1 Short circuit at 2 Increase the deceleration time motor output 3 Replace the AC drive with one that has a 2 Deceleration time higher output capacity next hp size too short 3 AC drive output capacity is too small Over Current Over current during 1 Check for possible poor insulation at the During Steady steady state operation output line State 1 Short circuit at 2 Check for possible motor stall motor output 3 Replace the AC drive with one that has a 2 Sudden increase in motor loading 3 AC drive output capacity is too small higher output capacity next hp size GVX9000 User Manual 7 3 E Se ES Zg ERE E F D5 ac i 53 5 E E S c a T D n
147. nication or PID feedback 05 At Speed The output terminal will be active when the drive output frequency reaches the value set by your command source 06 Fout Fmin during run The output terminal will be active when the drive s U V W terminals are generating no output 07 Desired Frequency Attained 40 07 The output terminal will be active when the output frequency is above the desired frequency 08 Below Desired Frequency 40 07 The output terminal will be active when the output frequency is below the desired frequency 09 PID Supervision 10 Over Voltage Warning The output terminal will be active when output voltage of the drive exceeds 90 of the maximum voltage limit 11 Over Heat Warning The output terminal will be active when temperature of the drive exceeds 90 of the maximum heat limit 12 Over Current Stall Warning The output terminal is active when the over current stall function is enabled 13 Over Voltage Stall Warning The output terminal will be active when the over voltage stall function is enabled 14 Final Count Value The output terminal will be active when the count reaches the setting in 30 29 15 Midpoint Count Value The output terminal will be active when the count reaches the setting in 30 30 E SE as E 2 T m o9 aE es Os 16 Reverse direction command The output terminal will be active when the drive is in reverse 17 Under Current detection The output terminal wil
148. nitor for 00 to 65535 N A Counter 0714H 90 21 5 70 Feedback Signa 0 0 to 400 0 Hz N A GVX9000 User Manual B 23 E TN GVX9000 Parameter Listings Table B 8 90 Communication Continued Parameter User Modbus Groups Page Description Range Default Settings 0715H 90 22 5 70 PID Setpoint 0 0 to 400 0 Hz N A 0716H 90 23 5 71 Al Signal 0 00 100 00 N A 0717H 90 24 5 71 Al2 Signal 0 00 100 00 N A 0718H 90 25 5 71 Al3 Signal 0 00 100 00 N A 0719H 90 26 5 71 PG Pulses Low 00 to 65535 N A Word Unit Time 071AH 90 27 5 71 PG Pulses High 00 to 65535 N A Word Unit Time 071BH 90 28 5 71 Motor Speed rpm 00 to 65535 N A 071CH 90 29 5 71 Torque THHHLE N A 071DH 90 30 5 71 Output Power HHH AH KW N A 071Eh 90 31 5 71 Digital Input State 00 to 65535 N A a i S o o E c 2 B 24 GVX9000 User Manual E T N Appendix C Accessories Inside this chapter Fuse Specification C 2 WING sais ane teak ches due e weet haw Rees C 3 Braking ivre died Sad eee P pense C 4 All Braking Resistors and Braking Units Used in AC Motor Drives C 4 External Brake Unit C 6 Dimensions for Braking Resistors C 8 EMI Filter Cross Reference C 9 Keypad Remote Mounting Kit P N GVXRM C 19 GVX9000 User Manual C 1 Sa110SS899y Accessories E TN F
149. nt influence on the electromagnetic noise heat dissipation of the AC drive and the acoustic noise of the motor Range 2 to 10 Default 4 Range 0 00 to 20 00 Hz Default 3 00 The parameter determines the motor s rated slip Standard 1800 rpm induction motors have 3 slip If the motor connected to the drive has a different rated slip enter it here Range 0 to 250 Default 200 This parameter will limit the output frequency when Slip Compensation is enabled Range 0 01 10 00 sec Default 0 05 This parameter selects the time delay for Torque Compensation Range 0 01 10 00 sec Default 0 10 This parameter selects the time delay for Slip Compensation Range 0 1000 Default 0 This parameter helps eliminate the drive from hunting for speed Suggested value is about 500 1000 GVX9000 User Manual Group 60 Motor Control E T N 60 18 CLV Encoder Pulses 60 19 CLV Encoder Mode 60 20 CLV P Gain 60 21 CLV I Gain 60 22 CLV Frequency Limit 60 23 CLV Encoder Detection Update Time 60 24 CLV Encoder Fault Treatment 60 25 CLV Encoder Feedback Fault Detection Time GVX9000 User Manual Range 00 40000 2 poles 00 20000 Default 600 Enter the encoder s pulses per revolution PPR Range Default 0 00 PGdisable 01 Single phase 02 Forward Counterclockwise rotation 03 Reverse Clockwise rotation This parameter enables the
150. o 300 sec Default 60 The parameter determines the time required to activate the It electronic thermal motor overload function Figure 5 42 shows l t curves for 150 output power for 1 minute jo suondiiosaq TU 2 S E a o z 5 a 5 57 E SE aos E 2 T doc o9 aE Ss Os a E TN Group 70 Protective Functions Operation Time Time Min Min 5 30 28 60 Hz 26 4 24 or More 22 20 3 50 Hz 18 J 2 10 Hz 12 5 Hz 10 8 1 6 4 2 0 0 20 40 60 80 100130140160 180200 100 120 140 160 180 200 Load Factor Overload Overload Endurance Curve 70 09 Auto Voltage Regulation AVR 5 58 Figure 5 42 Pt Curves Range Default 00 00 AVR enabled 01 AVR disabled 02 AVR disabled during decel 03 AVR disabled during stop The AVR function automatically regulates the AC drive s output voltage to meet the value set in 50 16 Motor Nameplate Voltage Example If 50 16 is set at 200V AC and the input voltage is varying between 200V to 264V AC the drive s output voltage will automatically be limited to 200V AC Without AVR function the Motor Nameplate Voltage may vary between 180V to 264V AC due to the input voltage varying between 180V to 264V AC Selecting value 2 enables the AVR function and also disables the AVR function during deceleration This offers a quicker deceleration and is most
151. o 400 00 Hz Preset Speed 13 0 00 to 400 00 Hz Preset Speed 14 0 00 to 400 00 Hz Preset Speed 15 0 00 to 400 00 Hz Digital Output Terminal Inverter Fault Relay A RA1 RA2 RA3 Digital Output Terminal Ready Relay B RB1 RB2 Digital Output Terminal DO1 At speed Digital Output Terminal DO2 Over torque detection Source of LOCAL HAND Master Frequency determined by Frequency digital keypad on the drive Source of LOCAL HAND Operating commands determined by Operation Command the External Control Terminals Keypad STOP key is enabled Stop Method 00 STOP Ramp EF Coast Maximum Output Frequency 50 to 400 0 Hz Motor Nameplate Frequency 10 00 to 400 00 Hz Motor Nameplate Voltage 230V Series 0 1 to 255 0V 460V Series 0 1 to 510 0V 575V Series 0 1 to 637 0V Mid Point Output Frequency 0 00 to 400 00 Hz Mid Point Output Voltage 230V Series 0 1 to 255V 460V Series 0 1 to 510V 575V Series 0 1 to 637V Minimum Output Frequency 0 00 to 20 00 Hz Minimum Output Voltage 230V Series 0 1 to 50V 460V Series 0 1 to 100V 575V Series 0 1 to 637V Upper Frequency Limit 0 01 to 400 00 Hz Safety 0330H 50 49 Lower Frequency Limit 0 0 to 400 00 Hz 0 Safety m E a lt a o n 2 e a GVX9000 User Manual E 5 E T N Changed Parameters Table E 5 04 Local Remote Parameter Modbus Groups Descripti Range
152. oltage on terminal A1 Range 400 0 to 400 0 Hz Default 60 00 Unit 0 1 This parameter sets the command frequency related to 30 01 Range 400 0 to 400 0 Hz Default 0 0 Unit 0 1 This parameter sets the command frequency related to 30 02 Range 00 to 02 Default 00 00 Negative input 30 04 01 Negative input Reverse direction 02 Negative input Frequency command only no Direction Range 0 00 to 20 00 mA Default 20 00 mA Unit 0 01 This parameter sets the maximum input voltage on terminal A2 Range 0 00 to 20 00 mA Default 4 00 mA Unit 0 01 This parameter sets the minimum input voltage on terminal A2 GVX9000 User Manual Group 30 Inputs E T N 30 08 A2 Maximum Output Frequency 30 09 A2 Minimum Output Frequency 30 10 A2 Reverse Option 30 11 A3 Maximum Input Voltage 10 10V 30 12 A3 Minimum Input Voltage 10 10V 30 13 A3 Maximum Output Frequency 30 14 A3 Minimum Output Frequency 30 15 A3 Reverse Option GVX9000 User Manual Range 400 0 to 400 0 Hz Default 60 00 Unit 0 1 This parameter sets the command frequency related to 30 06 Range 400 0 to 400 0 Hz Default 0 0 Unit 0 1 This parameter sets the command frequency related to 30 07 Range 00 to 02 Default 00 00 Negative input 30 09 01 Negative input Reverse direction 02 Negative input Frequency command only no Direction Range 10 00 to 10 00V Default 10 00V Unit
153. or Begins 50 75 Start Delay Timer of Auxiliary Motor Begins Auxiliary Motor Auxiliary Motor Start the Stop the n Order n Order 5 48 Figure 5 38 Auxiliary Motor Flowchart GVX9000 User Manual Group 60 Motor Control E TN Group 60 Motor Control 60 01 Motor Rated Current 60 02 Motor No Load Current 60 03 Dynamic Tune with Unloaded Motor 60 04 Stator Resistance Calculated Via Auto Tune or Entered Manually 60 05 DC Brake Current Level Range Real Current 10 to 120 Default FLA Enter the motor s nameplate rated amps The value must be between 30 to 120 of the drive s rated output current This parameter sets the drive s output current limit This parameter may be set during operation Range Real Current 01 to 9996 Default 0 4 FLA Enter the motor s no load current in amps If the motor no load amps are not known leave this parameter at factory default The value must be between 0 to 9996 of the drive s rated output current and also less than parameter 60 01 60 02 has a great effect on how accurate the slip compensation function works An incorrect setting will cause poor slip compensation This parameter may be set during operation Range Default 00 00 Disable 01 DC test static test 02 DC test and no load test To conduct the auto tuning feature select 01 or 02 and then press START If the motor
154. ore Air Flow ou Aen AME n IM D am a of et EI N 4 3 GVX9000 Sensorless Vector 5 9 150 or More Figure 4 1 Clearances and Air Flow in Inches mm GVX9000 User Manual 4 3 E TN Step by Step Installation Please observe this checklist while mounting the inverter The ambient temperature must be in the range of 10 to 50 C 1 to 100 hp Keep any other heat producing equipment as far away from the inverter as possible When installing the inverter in an enclosure maintain the clearance around the inverter and verify that its ambient temperature is within specification when the enclosure door is closed Do not open the main front panel door at any time during operation Step 3 Before proceeding to the wiring section temporarily cover the inverter s ventilation openings Paper and masking tape is all that is needed to do this This will prevent harmful debris such as wire clippings and metal shavings from entering the inverter during installation Inverter Mounting Step 4 Locate the applicable drawing in the Appendix for the inverter unit Dimensions are given in inches millimeters format Note Some inverter housings require two mounting screws while others require four Be sure to use lockwashers or other means to ensure screws do not loosen due to vibration Wiring Preparation Step 5
155. otor Parameter Modbus Groups Description Range Default 0114H 30 21 Digital Input Terminal D3 20 RunEnable 20 0115H 30 22 Digital Input Terminal D4 05 Preset Speed Switch 1 05 Digital Input Terminal D5 Preset Speed Switch 2 Digital Input Terminal D6 Preset Speed Switch 3 Digital Input Terminal D7 Digital Input Terminal D8 Preset Speed Switch 4 External Fault NO EF Digital Input Terminal D9 External Reset NO Digital Input Terminal D10 Digital Output Terminal Relay A RA1 RA2 RA3 Jog Inverter Fault Digital Output Terminal Relay B RB1 RB2 Ready Digital Output Terminal DO1 GVX9000 User Manual At speed E 9 m E a lt a LI a a e a E TN Changed Parameters Table E 8 07 Spindle Motor Continued Parameter Modbus Groups Descripti Range Default 0205H 40 06 Digital Output Terminal DO2 18 Over torque detection 18 Source of LOCAL HAND Master Frequency determined by Frequency digital keypad on the drive Source of LOCAL HAND Operating commands determined by Operation Command the Digital Keypad Stop Method STOP Ramp EF Coast Maximum Output Frequency 50 to 400 0 Hz Motor Nameplate Frequency 10 00 to 400 00 Hz Motor Nameplate Voltage 230V Series 0 1 to 255 0V 460V Series 0 1 to 510 0V 575V Series 0 1 to 637 0V Mid Point Output Frequency 0 00 to 400 00 Hz Mid Point Output Voltage 2
156. p Approximate Dimensions in Inches mm GVX9000 User Manual D 5 E T N Drives 14 57 51 13 0 D 370 0 Be 13 19 10 24 335 0 j y 260 0 gt X re a 22 05 2 VX5000 SS 560 0 23 19 589 0 71 18 0 71 18 0 re Dia 5 22 132 5 Model GVX040A1 2 GVX040A1 4 GVX050A1 2 GVX050A1 4 GVX075A1 4 GVX060A1 4 GVX100A1 4 Figure D 5 40 100 hp Approximate Dimensions in Inches mm D 6 GVX9000 User Manual E T N Appendix E Easy Mode Settings Inside this chapter Choosing Easy Mode 00 Factory Settings E 2 Changed Parameters 01 Basic V F Curve E 2 02 PID Control 4 ese RIPE cae een E 3 03 Preset Speeds E 4 04 Local Remote E 6 05 Hand Off Auto HOA E 7 06 Variable Torque Pump Fan E 8 07 Spindle Motor E 9 08 Analog Speed Command E 10 09 Closed Loop Vector Control E 11 m D a lt a LI a 2 e a GVX9000 User Manual E 1 E TN Choosing Easy Mode Choosing Easy Mode Table E 1 00 Factory Settings Parameter Modbus Groups Description Range Default 20 01 Easy Mode Selection 00 09 00 00 Factory Settings
157. p Normal operation will resume after the External Fault is cleared and the AC drive is reset 24V D1 D2 D3 D4 D5 D6 D7 D8 D9 D10 COM OOo 02 External Fault NC 01 External Fault NO Figure 5 8 Digital Input Terminal Settings 01 02 GVX9000 User Manual jo suondn2saq TU 2 S E a D E3 5 a E TN Group 30 Inputs Settings 03 04 The External Reset has the same function as the Reset key on the Digital keypad It is used to reset the drive after a fault 24V D1 D2 D3 D4 D5 D6 D7 D8 D9 D10 COM O 04 External Re He et NC TO o 03 External Reset NO Figure 5 9 Digital Input Terminal Settings 03 04 Settings 05 06 07 08 These four inputs select the preset speeds defined by 30 31 to 30 45 Switch 1 Switch 2 Switch 3 Switch 4 30 31 ON OFF OFF OFF 30 32 OFF ON OFF OFF 30 33 ON ON OFF OFF 30 34 OFF OFF ON OFF 30 35 ON OFF ON OFF 30 36 OFF ON ON OFF 30 37 ON ON ON OFF 30 38 OFF OFF OFF ON 30 39 ON OFF OFF ON 30 40 OFF ON OFF ON 2E 3041 ON ON OFF ON PE 30 42 OFF OFF ON ON ERA 30 43 ON OFF ON ON EE 3044 OFF ON ON ON as 30 45 ON ON ON ON 5 12 GVX9000 User Manual Group 30 Inputs E T N 24V D1 D2 D3 D4
158. pment and the hazards involved Failure to observe this precaution could result in bodily injury WARNING A Use 75 C Cu wire only or equivalent WARNING The rated voltage for AC motor drive must be equal or less than 240V equal or less than 480V for 460V models equal or less than 600V for 575V models and the mains supply current capacity must be equal or less than 5000A RMS equal or less than 10000A RMS for the 40 hp 30 kW models WARNING Disconnect AC power before proceeding x GVX9000 User Manual Safety Messages E TN Cautions CAUTION When mounting in an enclosure allow for the recommended free space Failure to allow adequate air flow may result in drive over temperature CAUTION Do not connect the AC power to the T1 T2 T3 terminals it will damage the AC drive CAUTION Be sure to install the unit on flame resistant material such as a steel plate Otherwise there is the danger of fire CAUTION Be sure to install the unit on a perpendicular wall which is not subject to vibration Otherwise it may fall and cause injury to personnel CAUTION Be sure not to let the foreign matter enter vent openings in the inverter housing such as wire clippings spatter from welding metal shavings dust etc Otherwise there is the danger of fire CAUTION Be sure not to install or operate an inverter which is damaged or has missing parts Otherwise it
159. possible Multiple GVX9000 units can be installed in one location All the units should be grounded directly to a common ground terminal The GVX9000 ground terminals may also be connected in parallel as shown in the Figure 3 14 Make sure there are no ground loops A a o o Z2 go S S LEE No MUI TTE ss inus Figure 3 14 Parallel Grounding When the AC drive output terminals U T1 V T2 and W T3 are connected to the motor terminals T1 T2 and T3 respectively the motor will rotate counterclockwise as viewed from the shaft ends of the motor when a forward operation command is received To reverse the direction of motor rotation switch over any of the two motor leads Make sure that the power source is capable of supplying the correct voltage and required current to the AC drive Do not attach or remove wiring when power is applied to the AC drive GVX9000 User Manual 3 17 E TN Motor Operation Precautions Do not inspect components unless the inside POWER lamp has turned off Do not monitor the signals on the circuit board while the AC drive is in operation Forthe single phase rated AC drives the AC power can be connected to any two of the three input terminals R L1 S L2 T L3 Note This drive is not intended for use with single phase motors Route the power and control wires separately or at a 90 degree angle to each other Ifa filter is required for reducing EM
160. provides proof of original date of purchase This warranty does not apply in the judgment of Eaton to damage caused during shipment handling storage or accidental misuse The original purchaser of the product must obtain a Cutler Hammer Return Material Authorization RMA number prior to returning any defective product When purchased through an Authorized Distributor the Distributor should supply an RMA number to their customer The maximum liability of this warranty is limited to the purchase price of the product In no event regardless of cause shall Eaton Electrical Inc be liable a for penalties or penalty clauses of any description or b for certification not otherwise specifically provided herein and or indemnification of purchaser or others for costs damages or expenses each arising out of or related to the product or services of any order or c for any damages resulting from loss of profits use of products or for any incidental indirect or consequential damages even if advised of the possibility of such damages Related Publications Brochure Publication Numbers BR04002001E Technical Document Publication Numbers TD04002001E Manual Publication Number TD04002003E Contact Name Number Eaton Electrical Inc 1000 Cherrington Parkway Moon Township PA 15108 4312 Tel 1 800 525 2000 www EatonElectrical com 1 4 GVX9000 User Manual E T N Chapter 2 Overview of the GVX9000 Drive Inside this chapter
161. que 07 External Fault 08 CPU Failure 1 09 CPU Failure 2 10 CPU Failure 3 11 Hardware Protection Failure 12 Over current during accel 13 Over current during decel 14 Over current during steady state 15 Ground fault or fuse failure 16 Under Voltage E SE aos co 2 T doc o9 aE Ss Os a 5 68 GVX9000 User Manual Group 90 Communication E T N 90 09 continued Status Monitor 17 3 Phase Input Power Loss for Error Code 18 Pause continued 19 Auto Adjust accel decel failure 20 Software protection code 21 IGBT Short circuit 22 Lossof4 20 mA 23 Under Current Detected 24 Encoder Fault 25 Feedback Deviation Err 26 Count Attained 90 10 Status Monitor Range for AC Drive pit 0 1 Bit 2 Bit 3 4 Bit 5 7 Bit 8 Bit 9 Bit 10 Bit 11 Default N A 00 Stop 01 Decelerate during the drive stopping 10 The drive standby 11 Run 1 JOG active 00 FWD 01 REV to FWD 10 FWD to REV 11 REV Reserved 1 Source of frequency by communication 1 Source of frequency by AI 1 Source of operation by communication 1 Parameters have been locked Bit 12 15 Reserved 90 11 Status Monitor Range 0 0 to 400 0 Hz 96 Default N A for Communication Frequency 90 12 Status Monitor Range 0 0 to 400 0 Hz 96 Default N A for Output Frequency GVX9000 User Manual jo suondn2saq TU 2 S E a D a 5 69 E TN Group 90 Communication 90 13 Status Moni
162. quency 50 41 Reverse Range Default 0 Operation 00 Enable Reverse Operation 01 Disable Reverse Operation 02 Disable Forward Operation This parameter enables the AC Motor drive s ability to operate in the reverse direction 50 42 Momentary Range Default 0 Power Loss 00 Stop operation after momentary power loss 01 Continue operation after momentary power loss speed search from Speed Reference 02 Continue operation after momentary power loss speed GVX9000 User Manual search from Minimum Speed jo suondn2saq TU 2 S E a D a E TN Group 50 AC Drive Control 50 43 Speed Search Delay Time 50 44 Speed Search Maximum Current 50 45 Speed Search Start Point D ec aos E Su T doc o9 aE Ss Os a 50 46 Flying Start Mode 5 42 Max Allowable Max Allowable Power Loss Time Power Loss Time 2 0 Seconds 2 0 Seconds lt I lt Input Power Speed Synchronization 50 42 01 Detection 50 42 02 Output Speed Search Speed Search Power Starts with the z Starts with Minimum Master Frequency NA Output Frequency gt i i Output _ 50 43 50 43 Voltage Speed Search Speed Search i Delay Time v Delay Time 7 Speed Search Figure 5 35 Power Loss Parameters Range 0 1 to 10 0 sec Default 0 5 When a momentary power loss is detected the AC drive waits for a specified time interval determin
163. r Table 2 1 GVX9000 Catalog Numbering System GVX 001 A 1 2 Model Number E Voltage 2 230V AC Motor Horsepower 4 460V AC 2 5 575V AC oS 001 1 hp 0 7 kW 025 25 hp 18 5 kW RI 002 2 hp 1 5 kW 030 30 hp 22 kW s 003 3 hp 2 2 kW 040 40 hp 30 kW Enclosure Ss 005 5 hp 3 7 kW 050 50 hp 37 kW EIS 007 7 1 2 hp 5 5 KW 060 60 hp 45 kW lt gt 010 10 hp 7 5 kW 075 75 hp 55 kW Version Type 015 15 hp 11 kW 100 100 hp 75 kW 020 20 hp 15 kW GVX9000 User Manual 2 3 E TN External Parts and Label Locations Style Number The style number contains the same information as the Catalog Number and is used internally for ordering purposes External Parts and Label Locations Overview of the GVX9000 Drive 12 B2 uri vrwrs 7 9 le R L1 S L2 r L3 Ile Figure 2 2 Parts and Label 2 4 GVX9000 User Manual Digital Keypad Operation E TN Digital Keypad Operation The digital keypad includes the display panel and the keypad The display panel provides the parameter display and shows the operation status of the AC drive The keypad provides programming and control inter
164. r the application then a dynamic braking resistor should be used DC Bus Voltage Over Voltage Level 70 01 Output Freq Time Figure 5 40 Over Voltage Stall Prevention jo suondiiosaq TU 2 E E a D E 5 a GVX9000 User Manual 5 55 E TN Group 70 Protective Functions 70 02 Over Current Stall Range 20 to 200 Default 170 Prevention during gg Disable Acceleration 20 to 200 enable Unit 1 A setting of 100 is equal to the Rated Output Current of the drive Under certain conditions the AC drive output current may increase abruptly and exceed the value specified by 70 02 This is commonly caused by a rapid acceleration or excessive loading on the motor When 70 02 is enabled the AC drive will stop accelerating and maintain a constant output frequency The AC drive will only resume acceleration when the current drops below the value set in 70 02 70 03 Over Current Stall Range 20 to 200 Default 170 Prevention during gg Disable O ti Doc 20 to 200 enable Unit 1 During steady state operation with the motor load rapidly increasing the AC drive output current may exceed the limit specified in 70 03 When this occurs the output frequency will decrease to prevent an Over Current Fault The drive will accelerate back to the command frequency only when the output current drops below the level specified by 70 03 Output Current Output Current Ov
165. rms and language conventions used in this manual These terms and conventions are defined here to help you understand their meanings and applications throughout this manual Digital Keypad Display The Digital Keypad display is an LCD readout of drive parameter selections and drive operation status Letters or numbers appear in the display according to which keys you press Digital Keypad Keys Digital Keypad keys are flat labeled pushbutton type devices that allow you to select drive parameters and monitor drive operation Parameter A parameter is selected through the Digital Keypad Parameters in this manual are expressed as Parameter Group Number a decimal and a Parameter number Press Press a key on the Digital Keypad Control Panel to select a parameter Refer to Chapter 2 Overview of the GVX9000 Drive Digital Keypad Operation GVX9000 User Manual 1 3 ET E o 2 o o E Introduction E TN Warranty and Liability Information Warranty and Liability Information Eaton Electrical Inc warrants the product delivered in the Cutler Hammer shipping package to be free from defects in material and workmanship under normal use and service for twenty four 24 months from date of manufacturing Products that fail during this period will be repaired or replaced at Eaton s discretion with the same or a functionally equivalent product provided the original purchaser A returns the failed product and B
166. s on drive hp 031AH 50 27 5 37 Deceleration Time 2 0 01 to 600 00 seconds Depends on drive hp 031BH 50 28 5 37 Acceleration Time 3 0 01 to d 36000 sec Depends on drive hp 031CH 50 29 5 37 Deceleration Time 3 0 01 to d 36000 sec Depends on drive hp 031DH 50 30 5 37 Acceleration Time 4 0 01 to d 36000 sec Depends on drive hp B 10 GVX9000 User Manual GVX9000 Parameter Listings E T N Table B 4 50 AC Drive Control Continued Parameter User Modbus Groups Page Description Range Default Settings 031EH 50 31 5 37 Deceleration Time 4 0 01 to d 36000 sec Depends on drive hp 031FH 50 32 5 38 Accel Decel Time Unit 0 1 sec 1 1 0 1 sec 2 0 01 sec 0320H 50 33 5 38 Automatic 00 Linear Accel Decel 0 meceleration Decelerst 01 Auto Accel Linear Decel 02 Linear Accel Auto Decel 03 Auto Accel Decel 04 Auto Accel Decel Stall Prevention Limited by 50 24 to 50 31 0321H 50 34 5 38 Acceleration 1 to 0 0 Disable Acceleration 2 Pe Above min freq Enable 0 0 to Transition Frequency 400 0 Hz 0322H 50 35 5 39 Deceleration 1 to 0 0 Disable Deceleration 2 7 hn Above min freq Enable 0 0 to Transition Frequency 400 0 Hz 0323H 50 36 5 39 Acceleration S Curve 00to 07 0324H 50 37 5 39 Deceleration S Curve 00 to 07 0325H 50 38 5 40 Jog Accel Time 0 01 to d 3600 0 sec 0326H 50 39 5 40 Jog Decel Time 0 01 to d 3600 0 sec 0
167. s eee 3 2 Pollution Degre amp s s ies 3 2 Mounting Area iios recur meneur 3 3 Witing sevg gehctuekenbups task ese sie dise 3 4 55 Applicable Codes 3 4 s Basic Wiring Diagram 3 5 Fe External Wiring sas acm ame eie tee 3 8 Control Terminal Wiring Factory Settings 3 10 Main Circuit Wirlng Deremate eR un ete 3 11 Wiring Notes 222 nde Rd muse ERR ne 3 17 Motor Operation Precautions 3 18 GVX9000 User Manual 3 1 Lo o D i E 77 E s a E TN Storage Storage The AC drive should be stored in the shipping carton before installation In order to retain the warranty coverage the AC drive should be stored properly when it is not to be used for an extended period of time Some storage suggestions are Store in a clean and dry location free from direct sunlight or corrosive fumes Store within an ambient temperature range of 20 to 60 C Store within a relative humidity range of 0 to 9096 and non condensing environment Store within an air pressure range of 86 to 106 kPA Environment Operation Air Temperature Relative Humidity Atmosphere Pressure Installation Site Altitude Vibration Storage Temperature Relative Humidity Atmosphere Pressure Transportation Temperature Relative Humidity Atmosphere Pressure Vibration Pollution Degree UL Type 0 Poll
168. set Speed 10 0 00 to 400 00 Hz 0 00 Hz 0128H 30 41 5 22 Preset Speed 11 0 00 to 400 00 Hz 0 00 Hz 0129H 30 42 5 22 Preset Speed 12 0 00 to 400 00 Hz 0 00 Hz 012AH 30 43 5 22 Preset Speed 13 0 00 to 400 00 Hz 0 00 Hz 012BH 30 44 5 22 Preset Speed 14 0 00 to 400 00 Hz 0 00 Hz 012CH 30 45 5 22 Preset Speed 15 0 00 to 400 00 Hz 0 00 Hz 012DH 30 46 5 23 Display Frequency 00 Frequency Hz 00 9 Hz or Percent 01 Percent gt 02 User Definition 0 001 5 max unit Unit set by 30 47 Pa 012EH 30 47 5 23 User Definition for 0 001 to 10 000 1 000 z 30 46 Option 2 zl 012FH 30 48 5 23 Gear Ratio for Simple 4to 1000 200 E Index Function 2 0130H 30 49 5 23 Index Angle for 0 0 to 360 0 Deg 180 Simple Index Function 0131H 30 50 5 23 Deceleration Time for 0 0 to 100 0 0 0 Simple Index Function Table B 3 40 Outputs Parameter User Modbus Groups Page Description Range Default Settings 0200H 40 01 5 24 Analog Output 00 Output Frequency 0 to 00 Reference Maximum Output Frequency 01 Output Current 0 to 250 ofthe rated AC drive current 02 Output Voltage 0 to 50 16 03 Command Frequency 0 to 50 14 04 Output Motor Speed vector mode 05 Load Power Factor cos90 to 0 0201H 40 02 5 24 Analog Output Gain 0 to 200 100 0202H 40 03 5 24 Digital Output 00 to 33 02 Terminal Relay A RA1 RA2 RA3 0203H 40 04 5 24 Digital Output 00 to 33 03 Terminal Relay B RB1 RB2 GVX9000 User Manual B 5 E T N GVX90
169. setting Press ENTER to enter the new parameter setting If the parameter change is successful the keypad will display the Value Accepted message and return to the parameter number display If the parameter change is unsuccessful the keypad will display an Invalid Data message the parameter will not be changed and the parameter number will again be displayed Note Some parameters cannot be changed while in the RUN START mode Value Accepted Invalid Data RUN STOP FWD REV LOC RUN STOP FWD REV LOC Successful Parameter Change Unsuccessful Parameter Change Figure 5 6 Parameter Changes To exit the programming mode press the left arrow key to return to the display mode Parameter Groups The parameters are grouped according to the following descriptions 10 Reserved and not displayed 20 Easy Mode Settings ness Rr uere Rn us 5 5 30 d4riputs 2 acte deve d Gurdibados oS Uae edo de md E A aes 5 6 40 Outputs rss een one ed Ses done 5 24 50 AC Drive Control 24244 EE cep E up RACER ER din E 5 30 60 Motor Control sas rede nere ees ondes mt dane n penes 5 49 70 Protective FUNCTIONS e oen Re eae eee YR 5 55 80 Keypad Display 5 62 90 Communication een iRbeLRReRPER RR NOR perdu pie marges 5 67 5 4 GVX9000 User Manual Group 20 Easy Mode Settings E T N Group 20 Easy Mode Settings 20 01 Easy Mode Range 00 09 De
170. sus bg ean een tiga suk gray ee ne ea a earths 7 5 APPENDIX A TECHNICAL DATA A 1 Technical Data 2x22 sssinmrermeidendenner Rud s Reik Bob eked ae A 2 APPENDIX B PARAMETER TABLES B 1 GVX9000 Parameter Listings orci de ook tae ipani yea eee ee es B 2 iv GVX9000 User Manual Table of Contents E TN APPENDIX C ACCESSORIES C 1 Fuse SpecifiCatioli osi see ni Oa AIR RRCAERTOROG UNE deu E Ras C 2 Wig oc dere ome ooa prece erate arte son abest due X nis gi eva FOE UIS pedis C 3 s l ERR T C 4 All Braking Resistors and Braking Units Used in AC Motor Drives C 4 External Brake Unit 24e ios Sri ies toS pP oC RNC TER ES C 6 Dimensions for Braking Resistors C 8 EMI Filter Cross Reference C 9 Keypad Remote Mounting Kit P N GVXRM C 19 APPENDIX D DIMENSIONS D 1 Digital Keypad 5 ime ced ead eae eae regata eee oe D 2 DIV S qp D 3 APPENDIX E EASY MODE SETTINGS E 1 Choosing Easy Mod 252 22cenbiee 39 ev ILES Nee E 2 Changed Parameters 324 yaw cag wcciaridia ate nS e p A bse ient E 2 APPENDIX F DECLARATION OF CONFORMITY F 1 Low Voltage Directive ies us canette ur ee F 2 EC Declaration of Conformity
171. tal Input Terminal D9 Preset Speed Switch 1 Digital Input Terminal D10 Preset Speed Switch 2 Digital Output Terminal Inverter Fault Relay A RA1 RA2 RA3 Digital Output Terminal Ready Relay B RB1 RB2 Digital Output Terminal DO1 At speed Digital Output Terminal DO2 Over torque detection Source of LOCAL HAND Master Frequency determined by Frequency digital keypad on the drive Source of REMOTE AUTO Master Frequency determined by Frequency RS 485 Frequency retained Source of LOCAL HAND Operating commands determined by Operation Command the Digital Keypad Source of REMOTE AUTO Operating commands determined by Operation Command the RS 485 communication interface Keypad STOP key is enabled Stop Method STOP Ramp EF Coast Maximum Output Frequency 50 to 400 0 Hz Motor Nameplate Frequency 10 00 to 400 00 Hz Motor Nameplate Voltage 230V Series 0 1 to 255 0V 460V Series 0 1 to 510 0V 575V Series 0 1 to 637 0V Mid Point Output Frequency 0 00 to 400 00 Hz m D a lt a LI a e a GVX9000 User Manual E 7 E TN Changed Parameters Table E 6 05 Hand Off Auto HOA Continued Parameter Modbus Groups Description Range Default 0311H 50 18 Mid Point Output Voltage 230V Series 0 1 to 255V 17 460V Series 0 1 to 510V 575V Series 0 1 to 637V Minimum Output Frequency 0 00 to 20 00 Hz Minimum Output Voltag
172. tment of the Feedback Deviation Error 100 0 0 to 400 0 Hz 100 0 0 0 to 100 20 0 00 to 3600 0 sec 1 0 00 00 Warning and Inverter Stop 01 Warning and Continue Operation Table E 4 03 Preset Speeds Parameter Modbus Groups Descripti Range Default 0113H 30 20 Digital Input Terminals D1 02 2 wire Operation Mode 2 02 D2 D1 RUN STOP D2 REV FWD 0114H 30 21 Digital Input Terminal D3 05 Preset Speed Switch 1 05 Digital Input Terminal D4 Preset Speed Switch 2 Digital Input Terminal D5 Preset Speed Switch 3 Digital Input Terminal D6 Digital Input Terminal D7 Preset Speed Switch 4 External Reset NO Digital Input Terminal D8 External Fault NO EF Digital Input Terminal D9 Digital Input Terminal D10 Run Enable 00 Parameter Disable Preset Speed 1 0 00 to 400 00 Hz Preset Speed 2 Preset Speed 3 0 00 to 400 00 Hz 0 00 to 400 00 Hz Preset Speed 4 0 00 to 400 00 Hz E 4 Preset Speed 5 0 00 to 400 00 Hz GVX9000 User Manual Changed Parameters E TN Table E 4 03 Preset Speeds Continued Parameter Modbus Groups Descripti Range Default 0123H 30 36 Preset Speed 6 0 00 to 400 00 Hz 10 00 Preset Speed 7 0 00 to 400 00 Hz Preset Speed 8 0 00 to 400 00 Hz Preset Speed 9 0 00 to 400 00 Hz Preset Speed 10 0 00 to 400 00 Hz Preset Speed 11 0 00 to 400 00 Hz Preset Speed 12 0 00 t
173. tor for Output Current 90 14 Status Monitor for User Defined High Word 90 15 Status Monitor for User Defined Low Word 90 16 Status Monitor for Output Voltage 90 17 Status Monitor for Unit Temperature 90 18 Status Monitor for DC Bus Voltage 90 19 Status Monitor for Multi Step 90 20 Status Monitor for Counter E SE aos E Su T do o9 aE es Os a 90 21 Feedback Signal 90 22 PID Setpoint 5 70 Range Range Range Range Range Range Range Range Range Range 0 0 to Max Amps 00 to 65535 0 00 to 655 35 0 0 to Max VAC 0 0 to Max degree C 0 0 to Max VDC 0to Max step 00 to 65535 0 0 to 400 0 Hz 96 0 0 to 400 0 Hz 96 Default N A Default N A Default N A Default N A Default N A Default N A Default N A Default N A Default N A Default N A GVX9000 User Manual Group 90 Communication E T N 90 23 Al1 Signal Range 0 00 100 00 Default N A 90 24 Al2 Signal Range 0 00 100 00 Default N A 90 25 AI3 Signal Range 0 00 100 0096 Default N A 90 26 PG Pulses Low Range 00 to 65535 Default N A Word Unit Time 90 27 PG Pulses High Range 00 to 65535 Default N A Word Unit Time 90 28 Motor Speed Range 00 to 65535 Default N A rpm 90 29 Torque Range Default N A 90 30 Output Power Range kW Default N A 90 31 Digita
174. unting the inverter CAUTION Be sure to install the unit on flame resistant material such as a steel plate Otherwise there is the danger of fire CAUTION Be sure to install the unit on a perpendicular wall which is not subject to vibration Otherwise it may fall and cause injury to personnel CAUTION Be sure not to let the foreign matter enter vent openings in the inverter housing such as wire clippings spatter from welding metal shavings dust etc Otherwise there is the danger of fire Start Up o o T o o LE A AN A 4 2 GVX9000 User Manual Step by Step Installation E T N CAUTION Be sure not to install or operate an inverter which is damaged or has A missing parts Otherwise it may cause injury to personnel CAUTION Be sure to install the inverter in a well ventilated room which does not have direct exposure to sunlight a tendency for high temperature high humidity or dew condensation high levels of dust corrosive gas explosive gas inflammable gas grinding fluid mist salt damage etc Otherwise there is the danger of fire Step 2 The installation should be made on a solid non flammable vertical surface that is a relatively clean and dry environment In order to ensure enough room for air circulation around the inverter to aid in cooling maintain the specified clearance around the inverter specified in Figure 4 1 5 9 150 or M
175. use Specification Fuse Specification Table C 1 Fuse Specifications 230V Line Fuse l A 1 A Bussmann Model Input Output 1 A P N MMP Recommend GVX001A1 2 1 phase 11 9 5 40 JJN 40 XTPRO16BC1 XTCE018C10 GVX001A1 2 3 phase 7 0 5 20 JJN 20 XTPRO12BC1 XTCE012B10_ GVX002A1 2 1 phase 15 3 A 45 JJN 45 XTPRO20BC1 XTCE025C10 GVX002A1 2 3 phase 9 4 7 30 JJN 30 XTPRO16BC1 XTCE018C10 GVX003A1 2 1 phase 22 0 11 70 JJN 70 XTPRO32BC1 XTCE032C10 GVX003A1 2 3 phase 14 0 11 45 JJN 45 XTPRO20BC1 XTCE025C10 GVX005A1 2 20 6 17 60 JJN 60 XTPRO25BC1 XTCE025C10 GVX007A1 2 26 25 80 JJN 80 XTPRO32DC1 XTCE032C10 GVX010A1 2 34 33 100 JJN 100 XTPRO50DC1 XTCE050D10 GVX015A1 2 50 49 150 JJN 150 Consult Consult factory GVX020A1 2 60 65 200 JJN 200 factory GVX025A1 2 75 75 225 JJN 225 GVX030A1 2 90 90 300 JJN 300 Consult Consult factory GVX040A1 2 110 120 350 JJN 350 factory GVX050A1 2 142 145 450 JJN 450 Note Smaller fuses than those shown in the table are permitted Table C 2 Fuse Specifications 460V Line Fuse l A 1 A Bussmann Model Input Output 1 A P N MMP Recommend GVX001A1 4 3 2 2 7 10 JJS 10 XTPROO4BC1 XTCE007B10 GVX002A1 4 4 3 4 2 15 JJS 15 XTPR6P3BC1 XTCE007B10 GVX003A1 4 5 9 5 5 20 JJS 20 XTPRO10BC1 XTCE009B10 GVX005A1 4 14 2 8 5 30 JJS 30 XTPRO16BC1 XTCE018C10 GVX007A1 4 19 18 50 JJS 50 XTPRO25BC1 XTCE025C10 GVX010A1 4 25 24 70 JJS
176. ution Degree 2 Relative Humidity Atmosphere Pressure 3 2 1 hp 100 hp 10 to 50 C 14 to 122 F 0 to 90 no condensation allowed 86 to 106 kPa below 1000m Maximum 9 80 m s 1G at less than 20 Hz Maximum 5 88 m s 0 6G at 20 to 50 Hz 20 to 60 C 4 to 140 F Less than 90 no condensation allowed 86 to 106 kPa 20 to 60 C 4 to 140 F Less than 90 no condensation allowed 86 to 106 kPa Maximum 9 80 m s 1G at less than 20 Hz Maximum 5 88 m s 0 6G at 20 to 50 Hz good for a factory type environment Less than 90 no condensation allowed 86 to 106 kPa GVX9000 User Manual Mounting Area E TN Mounting Area Improper installation of the AC drive will greatly reduce its life Be sure to observe the following precautions when selecting a mounting location Failure to observe these precautions may void the warranty Do not mount the AC drive near heat radiating elements or in direct sunlight Do not install the AC drive in a place subjected to high temperature high humidity excessive vibration corrosive gases or liquids or airborne dust or metallic particles Mount the AC drive vertically and do not restrict the air flow to the heatsink fins The AC drive generates heat Allow sufficient space around the unit for heat dissipation as shown in Figure 3 1 5 9 150 or More Air Flow un 43 v 2 go oS sa i 2 2m T i i lt __ _ gt
177. vices for industrial mobile and aircraft equipment intelligent truck drivetrain systems for safety and fuel economy and automotive engine air management systems powertrain solutions and specialty controls for performance fuel economy and safety Eaton has 59 000 employees and sells products to customers in more than 125 countries For more information visit WWW eaton com Eaton Electrical Inc 1000 Cherrington Parkway Moon Township PA 15108 4312 USA tel 1 800 525 2000 www EatonElectrical com 2006 Eaton Corporation All Rights Reserved E T N Publication No MN04000001E CPG al June 2006
178. vious status when operation command source changed 02 Start lockout disabled change according to the new operation command source 03 Start lockout enabled change according to the new operation command source 0512H 70 19 5 61 Brake Chopper ON 230V Series 370 430V DC 380 Voltage 460V Series 740 860V DC 760 575V Series 660 1070V DC 950 0513H 70 20 5 61 Auto Restart After 00 to 10 00 Fault 0514H 70 21 5 61 Reset Time for Auto 0 to 60000 sec 600 Restart after Fault 0515H 70 22 5 61 OV Fault of Stop Auto 00 Disabled 00 Reset 01 Enable Table B 7 80 Keypad Display Parameter User Modbus Groups Page Description Range Default Settings 0600H 80 01 5 62 Software Version THE THE 0601H 80 02 5 62 AC Drive Rated HHA HHH Current Display B 16 GVX9000 User Manual GVX9000 Parameter Listings E T N Table B 7 80 Keypad Display Continued Parameter User Modbus Groups Page Description Range Default Settings 0602H 80 03 5 62 Manufacturer Model 00 GVX001A1 2 240V AC 0 Information 1 hp CT 01 GVX002A1 2 240V AC 2 hp CT 02 GVX003A1 2 240V AC 3hp CT 03 GVX005A1 2 240V AC 5 hp CT 04 GVX007A1 2 240V AC 7 1 2 hp CT 05 GVX010A1 2 240V AC 10 hp CT 06 GVX015A1 2 240V AC 15 hp CT 07 GVX020A1 2 240V AC 20 hp CT 08 GVX025A1 2 240V AC 25 hp CT 09 GVX030A1 2 240V AC 30 hp CT GVX040A1 2 240V AC
179. wer 4 9 Wiring the Motor to the Inverter Output 4 10 PowerUp Test os otis rri teh deus Uses deus 4 11 Powering the Inverter i042 cci esa ia e E ERRARE E ee 4 12 CHAPTER 5 DESCRIPTIONS OF PARAMETER SETTINGS 5 1 Viewing and Changing Parameter Settings 5 2 Parameter Groups i etuer e eian ie qup oa ape v ane ur dete va 5 4 Group 20 Easy Mode Settings 5 5 Group 30 Inputs 2 52 Ioh ERO n metre ad EA deta 5 6 Explanations Digital Input Terminal 5 11 Group 40 Outputs 24 ieaie nsee de pr RE dames dee xxu 5 24 Function Explanations eus sme Hens este a G a 5 26 Group 50 AC Drive Control 5 30 Group 60 Motor Control siseneriilokeiecke Ar rnintin Mee ER 5 49 Group 70 Protective Functions 5 55 Group 80 Keypad Display 5 62 Group 90 Communication 5 67 CHAPTER 6 MAINTENANCE AND INSPECTION 6 1 Periodic Inspection uso ego droites sten a ng vedios banda tes 6 2 Periodic Maintenance 22 2602 00 04 A cnr aux ue emo e dure Rec NER 6 2 CHAPTER 7 TROUBLESHOOTING AND FAULT INFORMATION 7 1 Common Problems and Solutions 7 2 Warning Codes 23 c ccdigcation tse
180. wer factor angle D 05 Display output power kW E 06 Display actual motor speed E rpm ch 07 Display the estimative value ofthe ratio of torque 08 Display PG numbers 10 ms 09 Display analog feedback signal value 96 10 Display Al1 96 11 Display AI2 96 12 Display AI3 96 13 Unit Temperature 0611H 80 18 5 66 Password Input 1 65535 0612H 80 19 5 66 Password Decode 0 65535 0 B 20 GVX9000 User Manual GVX9000 Parameter Listings E TN Table B 8 90 Communication Parameter User Modbus Groups Page Description Range Default Settings 0700H 90 01 5 67 Communication 00 Modbus ASCII Mode lt 7 00 Protocol data bits no parity 2 stop bits gt 01 Modbus ASCII Mode lt 7 data bits even parity 1 stop bit gt 02 Modbus ASCII Mode lt 7 data bits odd parity 1 stop bit gt 03 Modbus RTU Mode lt 8 data bits no parity 2 stop bits gt 04 Modbus RTU Mode lt 8 data bits even parity 1 stop bit gt 05 Modbus RTU Mode lt 8 data bits odd parity 1 stop bit gt 0701H 90 02 5 67 RS 485 01to d 254 01 Communication 0702H 90 03 5 67 Transmission Speed 00 4800 baud 01 01 9600 baud 02 19200 baud 03 38400 baud 0703H 90 04 5 67 Transmission Fault 00 Display fault and Continue 03 Treatment operating a D 2 ci E 2 E Ey 51 a 01 Display fault and Ramp to stop 02 Display fault and Coast to stop 03 No fault displayed and
181. ximum Output Frequency 50 to 400 0 Hz Motor Nameplate Frequency 10 00 to 400 00 Hz Motor Nameplate Voltage 230V Series 0 1 to 255 0V 460V Series 0 1 to 510 0V 575V Series 0 1 to 637 0V m Mid Point Output Frequency 0 00 to 400 00 Hz Mid Point Output Voltage 230V Series 0 1 to 255V A60V Series 0 1 to 510V a 575V Series 0 1 to 637V 4 8 ro 0312H 50 19 Minimum Output Frequency 0 00 to 20 00 Hz 0 50 E 1 a GVX9000 User Manual E 3 a a z o N o T E gt A Ii E T N Changed Parameters Table E 3 02 PID Control Continued Modbus Groups Parameter Descripti Range Default 0313H 50 20 Minimum Output Voltage 230V Series 0 1 to 50V 1 7 460V Series 0 1 to 100V 575V Series 0 1 to 637V Upper Frequency Limit Safety Lower Frequency Limit Safety 0 01 to 400 00 Hz 0 0 to 400 00 Hz PID Setpoint Source 02 Al external 0 10V PID Feedback Source and Type D P Gain Adjustment 03 Negative AI2 4 20 mA 0 0 to 10 0 D Gain Adjustment 0 00 to 100 0 sec D D Gain Adjustment PID Upper Limit for Integral Control 0 00 to 1 0 sec 00 to 10096 100 PID Output Delay Filter Time 0 0 to 2 5 sec 0 0 PID Output Freq Limit PID Fixed Set Point Oto 110 PID Feedback Deviation Level 0344H 50 69 PID Feedback Deviation Detection Time PID Trea
182. y 50 18 Mid Point Output Voltage 50 19 Minimum Output Frequency 5 34 Range See below Default See below 230V Series 0 1 to 255 0V 230 0 460V Series 0 1 to 510 0V 460 0 575V Series 0 1 to 637 0V 575 0 This parameter determines the motor nameplate voltage of the AC drive The Motor Nameplate Voltage setting must be smaller than or equal to the rated voltage of the motor as indicated on the motor nameplate The setting value must be equal to or greater than the Mid Point Voltage 50 18 Range 0 00 to 400 00 Hz Default 1 50 Unit 0 01 Hz The parameter sets the Mid Point Frequency of V F curve With this setting the V F ratio between Minimum Frequency and Mid Point Frequency can be determined This parameter must be equal to or greater than Minimum Output Frequency 50 19 and equal to or less than Motor Nameplate Frequency 50 15 During Vector this parameter is disabled Range See below Default See below 230V Series 0 1 to 255V 1 7 460V Series 0 1 to 510V 3 4 575V Series 0 1 to 637V 4 8 The parameter sets the Mid Point Voltage of any V F curve With this setting the V F ratio between Minimum Frequency and Mid Point Frequency can be determined This parameter must be equal to or greater than Minimum Output Voltage 50 20 and equal to or less than Motor Nameplate Voltage 50 16 During Vector this parameter is disabled Range 0 00 to 20 00 Hz Default 1 50 Unit 0 01 Hz This parameter sets the Min

GVX9000 AF Drives

Contents

Download Pdf Manuals

Related Search

Related Contents