INVT GD300-16 Operation Manual Download Page 96

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Goodrive300-16 special inverter for HVAC

Appendix A

Function

code

Name

Detailed instruction of parameters

Default

value

Modify

P11.09

Overload

pre-alarm

detection

P11.11~200%

150%

○

P11.10

Overload

pre-alarm

detection

time

0.01~360.00s

1.00s

○

P11.11

Underload

pre-alarm

detection

0%~ P11.09

25%

○

P11.12

Underload

pre-alarm

detection

time

0.01~360.0s

0.05s

○

P11.13

Output

terminal

action

during fault

0x00~0x11

LED ones:

0: Action under fault undervoltage

1: No action under fault undervoltage

LED tens:

0: Action during the automatic reset

1: No action during the automatic reset

0x00

○

P11.14

Speed

deviation

detection

0.0~50.0%

10.0%

○

P11.15

Speed

deviation

detection

time

0.0~10.0s

0.5s

○

P11.16

Automatic

frequency-

decreasing

0: Invalid

1: Valid

○

Summary of Contents for GD300-16

Page 1: ...Goodrive300 16 Special Inverter for HVAC GD300 16 011G 015P 4...

Page 2: ...groups of PID adjusters and multi motor combined system and available BACnet communication etc With EMC design Goodrive300 16 inverters can meet the demand of environmental protection which focuses on...

Page 3: ...ncy motors 15 3 4 Wiring and commissioning of multiple circulation variable frequency motors multiple power frequency motors 21 3 5 Commissioning instruction of extension functions 27 3 6 Maintenance...

Page 4: ...to the devices may occur if not follow relevant requirements Note Physical hurt may occur if not follow relevant requirements Qualified electricians People working on the device should take part in p...

Page 5: ...ed on the inverter or until the DC bus voltage is less than 36V Below is the table of the waiting time Inverter module Minimum waiting time 380V 4kW 110kW 5 minutes 380V 132 kW 15 minutes Do not refit...

Page 6: ...akage current of the inverter may be above 3 5mA during operation High leakage current earth connection essential before connecting supply Ground with proper techniques and ensure the grounding resist...

Page 7: ...verter before the terminal wiring Wait for at least the time designated on the inverter after disconnection Take measures to avoid screws cables and other conductive matters to fall into the inverter...

Page 8: ...relay extension board available multi motor power and variable frequency switching start or power frequency start 2 1 Product specification Function Specification Power input Input voltage V 3PH 380V...

Page 9: ...lectable PNP NPN 1 high speed input the Max frequency 50kHz Digital output 2 programmable relay outputs NO and NC 1 high speed pulse output Communication Standard 485 interface available RTU protocol...

Page 10: ...of actual certification 2 3 Type designation key The type designation contains information on the inverter The user can find the type designation on the type designation label attached to the inverte...

Page 11: ...11G 015P 4 11 15 32 40 25 32 GD300 16 015G 018P 4 15 18 5 40 47 32 38 GD300 16 018G 022P 4 18 5 22 47 56 38 45 GD300 16 022G 030P 4 22 30 56 70 45 60 GD300 16 030G 037P 4 30 37 70 80 60 75 GD300 16 03...

Page 12: ...se A1 A2 DC Braking resistor DC Braking unit Single phase 220V optional Input reactor Input filter Output reactor Output filter Fig 3 1 Wiring of main circuit Terminal Terminal name Function 75kW 90kW...

Page 13: ...proper techniques 3 2 Terminals of control circuit Fig 3 2 Terminals of control circuit R03A R03C R04A R04C R05A R05C R06A R06C R07A R07C R08A R08C Fig 3 3 Relay extension board Type Code Terminal na...

Page 14: ...V when 10V corresponds to 50Hz AI2 Analog input 2 AI3 Analog input 3 AO1 Analog output 1 1 Output range 0 10V or 0 20mA 2 The voltage or the current output is set by the jumper 3 Resolution 10bit AO2...

Page 15: ...tact capacity 3A AC250V 1A DC30V RO1B Relay 1 NC contact RO1C Relay 1 common contact RO2A Relay 2 NO contact RO2B Relay 2 NC contact RO2C Relay 2 common contact Relay output relay extension board RO3A...

Page 16: ...of single variable frequency motor without connecting power frequency motors Goodrive300 16 inverter can form the system of the fixed variable frequency motor 8 power frequency motors 3 3 2 Commissio...

Page 17: ...ccording to the actual situations P00 12 DEC time 1 4 0s Adjustable according to the actual situations P05 01 S1 terminals function 1 Forward running P05 02 S2 terminals function 7 Fault reset P06 03...

Page 18: ...y P22 02 Hibernation starting frequency 40 00Hz Allow hibernation only when the running frequency is smaller than the value and the hold time is larger than P22 04 P22 03 Hibernation starting deviatio...

Page 19: ...he absolute value of the actual deviation is larger than the value and the hold time is larger than P22 09 Allow waking up only when the output feature is negative feedback is larger than reference th...

Page 20: ...situations P22 27 Action of variable frequency motor when reducing motor 0 Adjustable according to the actual situations P22 28 ACC time of variable frequency motor when reducing motor 10 0s Adjustabl...

Page 21: ...P22 29 1 to boost PID1 reference 3 Generally set P00 05 to non zero and need to adjust the value according to the actual situations In the ACC DEC stage when the inverter has no fault suggest setting...

Page 22: ...3 KM1 FR1 M4 KM6 FR4 M5 KM7 FR5 M2 KM3 FR2 M3 FR3 RO8 RO7 KM0 KM2 KM4 KM5 KM0 KM0 KM1 R01 R02 KM1 KM2 KM4 KM2 KM2 KM3 R03 R04 KM3 KM0 KM4 KM4 KM4 KM5 R05 R06 KM5 KM0 KM2 KM6 KM7 R07 R08 FR1 FR2 FR3 FR...

Page 23: ...st of relevant function parameters take 3 circulation variable frequency motors 2 power frequency motors for example Function code Name Set value Remark P00 00 Speed control mode 2 V F control P00 01...

Page 24: ...f PID1 reference 0 100 Adjustable according to the actual situations P09 05 PID1 reference source 1 2 Adjustable according to the actual situations P09 09 ACC DEC time of PID1 reference 0 000 Adjustab...

Page 25: ...60 0s P22 05 PID1 reference boost 10 0 Relative to PID1 reference P22 06 Max boost time 10 000s Used to avoid the case where the inverter runs continuously when the running frequency reaches the uppe...

Page 26: ...e when adding motor 4 0 Adjustable according to the actual situations P22 20 Running frequency when adding motor 50 00Hz Adjustable according to the actual situations P22 21 Delay time when adding mot...

Page 27: ...boost value of 3 auxiliary motors 15 0 Adjustable according to the actual situations P22 33 Circulation cycle of power frequency motor 0 0h Adjustable according to the actual situations P22 34 Circul...

Page 28: ...n the system reduces all power frequency motors and the single variable frequency motor runs 3 5 Commissioning instruction of extension functions 1 Realtime clock and timing function Goodrive300 16 ha...

Page 29: ...D1 feedback is normal return to stop or run displaying interface automatically 6 Multi motor manual start test function The manual start test function consists of manual soft start and manual circulat...

Page 30: ...Visual examination and instrument test Conforming to the manual Ensure there are no tools or other foreign or dangerous objects Visual examination There are no tools or dangerous objects Voltage Ensu...

Page 31: ...Visual examination NA Filter capacitors Ensure that there is no weeping color changing crackles and casing expansion Visual examination NA Ensure the safety valve is in the right place Estimate the us...

Page 32: ...e are no loose screws and connectors Fasten up NA Ensure there is no smelling and color changing Smelling and visual examination NA Ensure there are no crackles damage distortion and rust Visual exami...

Page 33: ...olution and check the corresponding abnormal state 4 Eliminate the fault and ask for relative help 5 Check to eliminate the fault and carry out fault reset to run the inverter Code Fault Cause Solutio...

Page 34: ...overvoltage UV Bus undervoltage fault The voltage of the power supply is too low Check the input power of the supply line OL1 Motor overload The voltage of the power supply is too low The motor setti...

Page 35: ...ice input CE 485 communication fault The baud rate setting is incorrect Fault occurs to the communication wiring The communication address is wrong There is strong interference to the communication Se...

Page 36: ...ning time arrival The actual running time of the inverter is above the internal setting running time Ask for the supplier and adjust the setting running time OL3 Electrical overload The inverter will...

Page 37: ...e is fault in the current detection circuit The actual motor power sharply differs from the inverter power Check if the connection of the motor is normal or not Change the hoare Change the main contro...

Page 38: ...source Check PID1 feedback source signal connection TI E Clock chip fault The slot terminal board is loose EEPROM is broken Check the slot terminal board Press STOP RST to reset Change the main contro...

Page 39: ...k the environment and avoid the interference E CAN Devicenet communication fault The connection is not sound The communication baud rate is uneven The ambient interference is too strong Check the conn...

Page 40: ...nditions below is the instruction means the set value of the parameter can be modified on stop and running state means the set value of the parameter can not be modified on the running state means the...

Page 41: ...it of running frequency 0 00Hz P00 04 Upper limit of running frequency 0 00Hz P00 06 A frequency command 0 Keypad 1 AI1 2 AI2 3 AI3 4 High speed pulse HDI setting 5 Simple PLC program setting 6 Multi...

Page 42: ...tting 1 0 15 0kHz Depend on model P00 15 Motor parameter autotuning 0 No operation 1 Rotation autotuning 2 Static autotuning 1 autotune totally 3 Static autotuning 2 autotune part parameters 0 P00 16...

Page 43: ...aking time before starting 0 00 50 00s 0 00s P01 05 ACC DEC selection 0 Linear type 0 P01 08 Stop mode 0 Decelerate to stop 1 Coast to stop 0 P01 09 Starting frequency of DC braking 0 00Hz P00 03 Max...

Page 44: ...to speed feedback only valid for vector control 0 P01 17 Detection time of feedback speed 0 00 100 00s only valid when P01 16 1 0 50s P01 18 Terminal running protection when powering on 0 The termina...

Page 45: ...ltage 2 Output at DC braking current at stopping 1 P02 Group Motor 1 P02 01 Rated power of asynchrono us motor 1 0 1 3000 0kW Depend on model P02 02 Rated frequency of asynchrono us motor 1 0 01Hz P00...

Page 46: ...el P02 08 Leakage inductance of asynchrono us motor 1 0 1 6553 5mH Depend on model P02 09 Mutual inductance of asynchrono us motor 1 0 1 6553 5mH Depend on model P02 10 Non load current of asynchrono...

Page 47: ...40 0 P02 26 Motor 1 overload protection 0 No protection 1 Common motor with low speed compensation 2 Variable frequency motor without low speed compensation 2 P02 27 Motor 1 overload protection coeffi...

Page 48: ...000s 0 200s P03 05 High switching frequency P03 02 P00 03 Max output frequency 10 00Hz P03 06 Speed loop output filter 0 8 corresponds to 0 28 10ms 0 P03 07 Compensat ion coefficient of electromoti on...

Page 49: ...cation setting torque 10 Reserved P03 12 Keypad setting torque 300 0 300 0 rated current of the motor 50 0 P03 13 Torque reference filter time 0 000 10 000s 0 010s P03 14 Upper frequency of forward ro...

Page 50: ...03 50 00Hz P03 18 Upper electromoti on torque source 0 Keypad setting upper limit frequency 1 AI1 2 AI2 3 AI3 4 HDI 5 MODBUS communication 6 Profibus CANopen BACnet Devicenet communication 7 Ethernet...

Page 51: ...3 26 Weak magnetic proportiona l gain 0 8000 1000 P03 27 Vector control speed 0 Display the actual value 1 Display the setting value 1 P04 Group V F control P04 00 Motor 1 V F curve setting 0 Straight...

Page 52: ...0 P04 05 V F frequency 2 of motor 1 P04 03 P04 07 0 00Hz P04 06 V F voltage 2 of motor 1 0 0 110 0 the rated voltage of motor 1 0 0 P04 07 V F frequency 3 of motor 1 P04 05 P02 02 the rated frequency...

Page 53: ...2 0th power low torque V F curve 5 Customized V F V F separation 0 P04 14 Torque boost of motor 2 0 0 automatic 0 1 10 0 0 0 P04 15 Torque boost close of motor 2 0 0 50 0 relative to the rated frequen...

Page 54: ...otor 2 0 0 200 0 100 0 P04 23 Vibration control factor at low frequency of motor 2 0 100 10 P04 24 Vibration control factor at high frequency of motor 2 0 100 10 P04 25 Vibration control threshold of...

Page 55: ...g time 0 0 3600 0s 5 0s P04 30 Voltage decreasing time 0 0 3600 0s 5 0s P04 31 Maximum output voltage P04 32 100 0 the rated voltage of the motor 100 0 P04 32 Minimum output voltage 0 0 P04 31 the rat...

Page 56: ...speed terminal 3 19 Multi step speed terminal 4 20 Multi step speed pause 21 ACC DEC time 1 22 ACC DEC time 2 23 Simple PLC stop reset 24 Simple PLC pause 25 PID1 control pause 26 Traverse pause stop...

Page 57: ...o stop 47 PID2 start 48 PID2 stop 49 HVAC invalid valid in stop state 50 PID2 integral pause 51 PID2 control pause 52 PID2 pole switching 53 Fire signal trigging 54 Hibernation mode trigging 55 Waking...

Page 58: ...terminals 0x000 0x1FF 0x000 P05 11 ON OFF filter time 0 000 1 000s 0 010s P05 12 Virtual terminals setting 0x000 0x1FF 0 Disabled 1 Enabled BIT0 S1 virtual terminal BIT1 S2 virtual terminal BIT2 S3 vi...

Page 59: ...minal 0 000 50 000s 0 000s P05 19 Switch off delay of S3 terminal 0 000 50 000s 0 000s P05 20 Switch on delay of S4 terminal 0 000 50 000s 0 000s P05 21 Switch off delay of S4 terminal 0 000 50 000s 0...

Page 60: ...8 terminal 0 000 50 000s 0 000s P05 29 Switch off delay of S8 terminal 0 000 50 000s 0 000s P05 30 Switch on delay of HDI terminal 0 000 50 000s 0 000s P05 31 Switch off delay of HDI terminal 0 000 50...

Page 61: ...d ing setting of the lower limit of AI2 100 0 100 0 0 0 P05 39 Upper limit of AI2 P05 37 10 00V 10 00V P05 40 Correspond ing setting of the upper limit of AI2 100 0 100 0 100 0 P05 41 AI2 input filter...

Page 62: ...00 0 100 0 P05 48 AI3 input filter time 0 000s 10 000s 0 100s P05 49 HDI high speed pulse input function selection 0 Frequency setting input 1 Counter input 0 P05 50 Lower limit frequency of HDI 0 000...

Page 63: ...quency degree test FDT2 8 Frequency arrival 9 Zero speed running 10 Upper limit frequency arrival 11 Lower limit frequency arrival 12 Ready for operation 13 Pre magnetizing 14 Overload pre alarm 15 Un...

Page 64: ...or A variable frequency 35 Connect motor A power frequency 36 Connect motor B variable frequency 37 Connect motor B power frequency 38 Connect motor C variable frequency 39 Connect motor C power frequ...

Page 65: ...switch off delay time 0 000 50 000s 0 000s P06 14 Y1 switch on delay time 0 000 50 000s 0 000s P06 15 Y1 switch off delay time 0 000 50 000s 0 000s P06 16 RO1 switch on delay time 0 000 50 000s 0 000s...

Page 66: ...0 000 50 000s 0 000s P06 24 RO5 switch on delay time 0 000 50 000s 0 000s P06 25 RO5 switch off delay time 0 000 50 000s 0 000s P06 26 RO6 switch on delay time 0 000 50 000s 0 000s P06 27 RO6 switch o...

Page 67: ...Output torque 10 Analog AI1 input value 11 Analog AI2 input value 12 Analog AI3 input value 13 High speed pulse HDI input value 14 MODBUS communication set value 1 15 MODBUS communication set value 2...

Page 68: ...00 0 P06 37 0 0 P06 36 Correspond ing AO1 output of lower limit 0 00V 10 00V 0 00V P06 37 Upper output limit of AO1 P06 35 100 0 100 0 P06 38 The correspondi ng AO1 output of upper limit 0 00V 10 00V...

Page 69: ...00 P06 46 Correspond ing HDO output of lower limit 0 000 50 000kHz 0 000 kHz P06 47 Upper output limit of HDO P06 45 100 0 100 0 P06 48 Correspond ing HDO output of upper limit 0 00 50 00kHz 50 00 kH...

Page 70: ...ast to stop 6 Shift the given manner of running commands 7 Quick commission mode committee according to the non factory parameter 1 P07 03 Shifting sequence selection of QUICK JO G commands 0 Keypad c...

Page 71: ...d the current stage in multi step speed P07 06 Parameters state 2 0x0000 0xFFFF BIT0 AI1 V on BIT1 AI2 V on BIT2 AI3 V on BIT3 HDI frequency BIT4 motor overload percentage on BIT5 the inverter overloa...

Page 72: ...nt stage in multi step speed BIT12 pulse counters BIT13 reserved BIT14 upper limit frequency Hz on BIT15 reserved P07 08 Frequency coefficient 0 01 10 00 1 00 P07 09 Rotation speed coefficient 0 1 999...

Page 73: ...ion 0 0 999 9kWh P07 18 The rated power of the inverter 0 4 3000 0kW P07 19 The rated voltage of the inverter 50 1200V P07 20 The rated current of the inverter 0 1 6000 0A P07 21 Factory bar code 1 0x...

Page 74: ...eat fault of the inverter module OH2 17 External fault EF 18 485 communication fault CE 19 Current detection fault ItE 20 Motor antotune fault tE 21 EEPROM operation fault EEP 22 PID1 response offline...

Page 75: ...t 2 ETH2 34 Speed deviation fault dEu 35 Maladjustment STo 36 Undervoltage fault LL 37 Clock chip fault TI E P07 33 Running frequency at current fault 0 00Hz P07 34 Ramp reference frequency at current...

Page 76: ...rrent fault P07 40 Output terminals state at current fault 0 P07 41 Running frequency at previous fault 0 00Hz P07 42 Ramp reference frequency at previous fault 0 00Hz P07 43 Output voltage at previou...

Page 77: ...als state at previous fault 0 P07 48 Output terminals state at previous fault 0 P07 49 Running frequency at previous 2 fault 0 00Hz P07 50 Output voltage at previous 2 faults 0 00Hz P07 51 Output curr...

Page 78: ...at previous 2 fault 0 P07 56 Output terminals state at previous 2 fault 0 P08 Group Enhanced function P08 00 ACC time 2 0 0 3600 0s Depend on model P08 01 DEC time 2 0 0 3600 0s Depend on model P08 0...

Page 79: ...0 00Hz P08 10 Jumping frequency range 1 0 00Hz P00 03 Max output frequency 0 00Hz P08 11 Jumping frequency 2 0 00Hz P00 03 Max output frequency 0 00Hz P08 12 Jumping frequency range 2 0 00Hz P00 03 M...

Page 80: ...P08 27 Set running time 0 65535min 0min P08 28 Fault reset times 0 10 0 P08 29 Interval time of automatic fault reset 0 1 3600 0s 1 0s P08 30 Frequency decreasing ratio of the dropping control 0 00 50...

Page 81: ...etention detection value 100 0 100 0 FDT1 electrical level 5 0 P08 34 FDT2 electrical level detection value 0 00Hz P00 03 Max output frequency 50 00Hz P08 35 FDT2 retention detection value 100 0 100 0...

Page 82: ...2 2 No limit 01 P08 41 Over commission selection 0x00 0x11 LED ones 0 Invalid 1 Valid LED tens 0 Light overcommission 1 Heavy overcommission 01 P08 42 Keypad data control 0x000 0x1223 LED ones frequen...

Page 83: ...ometer 0 01 10 00s 0 10s P08 44 UP DOWN terminals control 0x000 0x221 LED ones frequency control selection 0 UP DOWN terminals setting valid 1 UP DOWN terminals setting valid LED tens frequency contro...

Page 84: ...frequency off 0 Save when power off 1 Clear when power off LED hundreds The action selection when other frequency set frequency off 0 Save when power off 1 Clear when power off 0x000 P08 48 High bit...

Page 85: ...1 Reserved P09 01 Displayed decimal places 0 4 3 P09 02 Max PID1 reference 0 001 65 535 3 decimal places the decimal place changes along with P09 01 1 000 P09 03 Upper limit of PID1 reference P09 04 P...

Page 86: ...HDI 6 Multi step speed 7 MODBUS 8 Profibus DP CANopen BACnet 9 Ethernet 10 Reserved 0 P09 07 PID1 keypad reference 1 P09 04 P09 03 0 100 P09 08 PID1 keypad reference 2 P09 04 P09 03 0 100 P09 09 PID1...

Page 87: ...eedback source 1 feedback source 2 3 Average average feedback source 1 and feedback source 2 4 Minimize minimize feedback source 1 and feedback source 2 5 Maximize maximize feedback source 1 and feedb...

Page 88: ...an the corresponding reference take the maximum positive deviation as PID reference and feedback If the feedback is larger than the corresponding reference take the minimum negative deviation as PID r...

Page 89: ...djustment when the frequency achieves the upper and low limit If the integration keeps stable and the trend between the reference and the feedback changes the integration will change with the trend qu...

Page 90: ...00 0 100 0 P09 32 Feedback lower limit detection value 100 0 100 0 Not detect over feedback lower limit When setting to 0 0 0 0 P09 33 Feedback over limit detection time 0 0 3600 0s 1 0s P09 34 PID1 c...

Page 91: ...ulti step speed 2 100 0 100 0 0 0 P10 07 Running time of step 2 0 0 6553 5s m 0 0s P10 08 Multi step speed 3 100 0 100 0 0 0 P10 09 Running time of step 3 0 0 6553 5s m 0 0s P10 10 Multi step speed 4...

Page 92: ...peed 8 100 0 100 0 0 0 P10 19 Running time of step 8 0 0 6553 5s m 0 0s P10 20 Multi step speed 9 100 0 100 0 0 0 P10 21 Running time of step 9 0 0 6553 5s m 0 0s P10 22 Multi step speed 10 100 0 100...

Page 93: ...Multi step speed 15 100 0 100 0 0 0 P10 33 Running time of step 15 0 0 6553 5s m 0 0s P10 34 Simple PLC 0 7 step ACC DEC time 0x0000 0xFFFF 0x0000 P10 35 Simple PLC 8 15 step ACC DEC time 0x0000 0xFF...

Page 94: ...P11 01 Frequency decreasing at sudden power loss 0 Disable 1 Enable 0 P11 02 Frequency decreasing ratio at sudden power loss 0 00Hz s P00 03 Max output frequency 10 00 Hz s P11 03 Overvoltage stall pr...

Page 95: ...r relative to the rated current of the motor 1 Overload pre alarm of the inverter relative to the rated current of the inverter LED tens 0 The inverter continues to work after underload pre alarm 1 Th...

Page 96: ...rm detection 0 P11 09 25 P11 12 Underload pre alarm detection time 0 01 360 0s 0 05s P11 13 Output terminal action during fault 0x00 0x11 LED ones 0 Action under fault undervoltage 1 No action under f...

Page 97: ...2 Rated frequency of asynchrono us motor 2 0 01Hz P00 03 Max output frequency 50 00Hz P12 03 Rated speed of asynchrono us motor 2 1 36000rpm Depend on model P12 04 Rated voltage of asynchrono us motor...

Page 98: ...5mH Depend on model P12 09 Mutual inductance of asynchrono us motor 2 0 1 6553 5mH Depend on model P12 10 Non load current of asynchrono us motor 2 0 1 6553 5A Depend on model P12 11 Magnetic saturati...

Page 99: ...mon motor with low speed compensation 2 Variable frequency motor without low speed compensation 2 P12 27 Motor 2 overload protection coefficient 20 0 120 0 100 0 P12 28 Correction coefficient of motor...

Page 100: ...tion overtime 0 0 invalid 0 1 60 0s 0 0s P14 05 Transmissi on fault processing 0 Alarm and stop freely 1 No alarm and continue to run 2 No alarm and stop according to the stop mode only under the comm...

Page 101: ...on torque upper limit 0 3000 1000 corresponds to 100 0 of the rated current of the motor 8 Braking torque upper limit 0 2000 1000 corresponds to 100 0 of the rated current of the motor 9 Virtual input...

Page 102: ...00 corresponds to 100 0 P15 13 PZD2 sending 0 Invalid 1 Running frequency 100 Hz 2 Setting frequency 100 Hz 3 Bus voltage 10 V 4 Output voltage 1 V 5 Output current 10 A 6 Output torque actual value 1...

Page 103: ...eference 25 PID2 feedback 26 PID2 output 27 29 Reserved P15 24 Temporarily variable 1 for PZD sending 0 65535 0 P15 25 Fault time of DP communica tion overtime 0 0 invalid 0 1 60 0s 0 0s P15 26 Fault...

Page 104: ...and torque control output 24 INVT basic speed control output 25 INVT extension speed control output 26 INVT speed and torque control output 27 INVT extension speed and torque control output 19 P15 32...

Page 105: ...ol output 26 INVT speed and torque control output 27 INVT extension speed and torque control output 19 P15 35 Status changing C ycle enabling input instance 69 INVT inverter input 70 ODVA basic speed...

Page 106: ...uplex 0 P16 01 IP address 1 0 255 192 P16 02 IP address 2 0 255 168 P16 03 IP address 3 0 255 0 P16 04 IP address 4 0 255 1 P16 05 Subnet mask 1 0 255 255 P16 06 Subnet mask 2 0 255 255 P16 07 Subnet...

Page 107: ...7 05 Motor speed 0 65535RPM 0RPM P17 06 Torque current 3000 0 3000 0A 0 0A P17 07 Exciting current 3000 0 3000 0A 0 0A P17 08 Motor power 300 0 300 0 the rated current of the motor 0 0 P17 09 Output t...

Page 108: ...19 AI1 input voltage 0 00 10 00V 0 00V P17 20 AI2 input voltage 0 00 10 00V 0 00V P17 21 AI3 input voltage 10 00 10 00V 0 00V P17 22 HDI input frequency 0 00 50 00kHz 0 00 kHz P17 23 PID1 reference 1...

Page 109: ...reference 3000 0 3000 0A 0 0A P17 35 AC current 0 0 5000 0A 0 0A P17 36 Output torque 3000 0Nm 3000 0Nm 0 0Nm P17 37 Count value of motor overload 0 100 100 reports OL1 fault 0 P17 38 PID1 output 100...

Page 110: ...lable 0x00 P18 03 Running status of power frequency motors 0x00 0xFF Bit0 Bit7 stands for motor A H 0 The corresponding motor stops 1 The corresponding motor is running 0x00 P18 04 SN of power frequen...

Page 111: ...running 2 Dead area 3 Hibernation 0 P18 09 Current PID1 reference 100 0 100 0 0 0 P18 10 PID1 feedback 100 0 100 0 0 0 P18 11 PID1 bias input 100 0 100 0 0 0 P18 12 PID1 proportiona l output 1000 0 10...

Page 112: ...8 PID2 feedback 100 0 100 0 0 0 P18 19 PID2 bias input 100 0 100 0 0 0 P18 20 PID2 proportional output 1000 0 1000 0 0 0 P18 21 PID2 integral output 100 00 100 00 0 00 P18 22 PID2 differential output...

Page 113: ...001 65 535 3 decimal places the decimal place changes along with P19 01 1 000 P19 03 Upper limit of PID2 reference P19 04 P19 02 1 000 P19 04 Lower limit of PID2 reference 0 001 P19 03 0 100 P19 05 PI...

Page 114: ...dback filter time 0 000 60 000s 0 000s P19 10 PID output feature 0 1 0 P19 11 Proportiona l gain 0 00 100 00 1 00 P19 12 Integral time 0 00 30 00s 0 10s P19 13 Differential time 0 00 10 00s 0 00s P19...

Page 115: ...along with P19 01 P19 29 1 if the output feature is positive and the feedback is smaller than P19 25 PID2 will start automatically If the output feature is negative and the feedback is larger than P1...

Page 116: ...Set hour and minute 00 00 23 59HHMM 00 00 is the earliest hour and minute and 23 59 is the latest hour and minute every day 00 00H HMM P20 04 Set workday 0 13 0 No 1 Monday 2 Tuesday 3 Wednesday 4 Th...

Page 117: ...The inverter runs in normal mode and stops at fault When P21 00 is non zero and the fire signal is enabled the fire mode will be valid The inverter will run in the frequency P21 01 Fire mode 1 the in...

Page 118: ...low hibernation when the running frequency is smaller than the value and the hold time is larger than P22 04 40 00Hz P22 03 Hibernation starting deviation 0 0 30 0 relative to Max PID1 value when the...

Page 119: ...deviation is larger than the value and the hold time is larger than P22 09 Allow waking up only when the output feature is negative feedback is larger than reference the absolute value of the actual d...

Page 120: ...or type selection 0 Invalid 1 Variable frequency motor 2 Power frequency motor 0 P22 15 E motor type selection 0 Invalid 1 Variable frequency motor 2 Power frequency motor 0 P22 16 F motor type select...

Page 121: ...0s P22 22 Switch frequency when adding variable frequency motor P00 05 P00 03 50 00Hz P22 23 DEC time of variable frequency motor when adding power frequency motor 0 0 300 0s 10 0s P22 24 Pressure all...

Page 122: ...ency motor when reducing motor 0 0 300 0s 10 0s P22 29 Multi motor pressure loss compensatio n 0 No compensation 1 Compensate 0 P22 30 Pressure reference boost value of 1 auxiliary motor 0 0 100 0 rel...

Page 123: ...tting to 0 0 0h P22 35 Circulation frequency threshold P00 05 P00 03 When the running frequency is larger than the value there will be no circulation for variable frequency motors to protect water sup...

Page 124: ...el of inlet sump 0 0 P22 41 20 0 P22 43 Abnormal standby pressure 0 0 100 0 relative to Max PID1 0 0 P22 44 Low PID1 feedback protection 0 0 100 0 relative to Max PID1 10 0 P22 45 Low PID1 feedback de...

Page 125: ...reference 1 range 0 1000 1000 corresponds to 100 0 W R 2003H PID1 feedback 1 range 0 1000 1000 corresponds to 100 0 W R 2009H Special control command word Bit6 1 fire mode enabling 0 fire mode disabli...

Page 126: ...alarm Bit10 PID1 hibernation state Bit11 realtime clock fault Bit12 PID2 running state Bit13 water shortage of inlet sump Bit14 pre alarm output R Close loop PID1 reference 3008H R Close loop PID1 fe...

Page 127: ...sion drawings B 1 Keypad structure and dimension B 1 1 Keypad structure Note The LED keypad is standard and the LCD keypad which can support various languages parameters copy and 10 line displaying is...

Page 128: ...x15 riveting screw Note It is necessary to use M3 screw or installation bracket to fix the external keypad The installation bracket for inverters of 380V 1 5 30kW and 500V 4 18 5kW is optional but it...

Page 129: ...H1 H2 D1 Installation hole 4kW 5 5kW 146 131 263 243 5 181 6 7 5kW 15kW 170 151 331 5 303 5 216 6 18 5kW 230 210 342 311 216 6 22kW 30kW 255 237 407 384 245 7 37kW 55kW 270 130 555 540 325 7 75kW 110...

Page 130: ...H1 H2 H3 H4 D1 D2 Installation hole 4kW 5 5kW 170 131 150 9 5 292 276 260 10 181 79 5 6 7 5kW 15kW 191 151 174 11 5 370 351 324 15 216 2 113 6 18 5kW 250 210 234 12 375 356 334 10 216 108 6 22kW 30kW...

Page 131: ...e rated current Due to the inherent operating principle and construction of circuit breakers independent of the manufacturer hot ionized gases may escape from the breaker enclosure in case of a short...

Page 132: ...provement of the power factors If the distance between the inverter and the motor is longer than 50m frequent overcurrent protection may occur to the inverter because of high leakage current caused by...

Page 133: ...055P 4 ACL2 045 4 DCL2 045 4 OCL2 045 4 GD300 16 055G 075P 4 ACL2 055 4 DCL2 055 4 OCL2 055 4 GD300 16 075G 090P 4 ACL2 075 4 DCL2 075 4 OCL2 075 4 GD300 16 090G 110P 4 ACL2 090 4 DCL2 090 4 OCL2 090...

Page 134: ...Detailed instruction A FLT inverter filter series B Filter type P power supply filter L output filter C Voltage degree 04 AC 3PH 380V 15 440V 10 06 AC 3PH 520V 15 690V 10 D 3 bit rated current code 01...

Page 135: ...65L B FLT L04065L B GD300 16 030G 037P 4 GD300 16 037G 045P 4 FLT P04100L B FLT L04100L B GD300 16 045G 055P 4 GD300 16 055G 075P 4 FLT P04150L B FLT L04150L B GD300 16 075G 090P 4 GD300 16 090G 110P...

Page 136: ...201610 V2 0 66001 00347 I I...

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