前 言 - Solar Pump Inverter, AC Drives, Solar Pump Systems
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1. D la a Oa a Atad gm 5 aaa agoe 0 5 0 gt wi y 7 w Figure 1 5 18 5 30kW dimension Table 1 4 SPI200 outline and installation dimension list Dimensions and installation size mm Weight Model No Installation w1 H H1 D Kg Aperture SPI200 4T 0 7B SPI200 4T 1 5B 116 6 106 6 186 6 176 6 168 4 5 22 SPI200 4T 2 2B SPI200 4T 4 0B SPI200 4T 5 5B 146 131 249 236 177 5 5 3 2 SPI200 4T 7 5B SPI200 4T 011B 198 183 300 287 185 5 5 5 4 SPI200 4T 015B SPI200 4T 018B SPI200 4T 022B 255 176 451 436 220 7 15 5 SPI200 4T 030B SPI series Solar Pump Inverter Chapter Two Commissioning Guide 2 1 PV Power Supply Commissioning 1 Wiring according to Figure 2 1 system wiring diagram and check to wiring to confirm correct and then Q1 closed Solar panel array Q1 a gt EMEN 31 Q wQ SPI series Solar Pump Inverter 24V Start Stop AO1 9 2 0 GND 012 013 24V Water tank GND RIA R1B 10V RIC AI 485 Al2 485 Figure 2 1 PV Cell Power Supply Wiring Diagram PV Panels Three phase short films Run Stop Tank Water Level Sensor PV Pump Inverter 2 Setting the Motor Parameters Setting the parameter of name plate on motor F08 01 F08 05 3 Testing th2. 30 inverter active and display the fault code on inverter operation panel Before asking support users can self check according to this chapter tips and analyze the fault reasons get the solutions If fault still can t be solved please ask for service contact with agents or directly to ADA Operator Panel Fault Name Fault Reasons Troubleshooting Displays 1 Inverter output circuit 1 Peripheral troubleshooting grounding or shorted 2 Prolong the acceleration time 2 Acceleration time is too 3 Adjust the V F curve short Or manually torque boost 3 Manually boost the torque 4 The voltage adjusted to a Acceleration or V F curve unsuitable normal range rri Overcurrent 4 Voltage is too low 5 Select start on 5 Start the rotating motor rotational speed tracking 6 Shock load on waiting for motor stopped acceleration 6 Cancel shock load 7 Inverter selection is too 7 Select inverter with a larger small power 1 Inverter output circuit grounding or shorted 1 Peripheral troubleshooting 2 Deceleration time is too y TN 2 Prolong the deceleration time sho Deceleration 3 The voltage adjusted to a Err02 3 Voltage is too low Overcurrent normal range 4 Shock load on 4 Cancel shock load deceleration 5 Install braking resistor 5 No installation of braking resistor 1 Inverter output circuit 1 Peripheral troubleshooting grounding or shorted 2 The voltage a
3. PI lower oN do oos limit T Running status Dormancy status jua 0 Null anos Feedback channel selection of 1 0 reservoir water level 2 Al2 3 0 Null Control of water level is invalid 1 for analog signal source of water level control 2 Al2 AI2 for analog signal source of water level control 3 Al3 for analog signal source of water level control 08 2 SPI series Solar Pump Inverter Clean up the delay time of H00 16 7 0 10000s 600s A full water pre warning H00 17 Reservoir full of water control 0 0 100 0 25 0 A Dormancy delay time of H00 18 reservoir full of water 0 10000s 60s pre warning When the detected water level control analog signal less than water level threshold H00 17 and continue this status over the delay time of H00 18 reporting the pre warning of water full Arn34 and dormancy In water full pre warning when the detected water level control analog signal larger than H00 17 delay timer begins and continue this status over the delay time of H00 16 clear the full water pre warning recover the normal operation Detection of reservoir H00 19 0 0 100 0 100 096 hydraulic probe 0 0 means Null When not 0 0 when the detected water level control analog signal larger than H00 19 hydraulic probe damaged point hydraulic probe fault Err32 will be reported directly and stopped Current lev
4. Supply power supply of external potentiometer resistance range of potentiometer 1 5kO Output 24V power supply generally use 24V Power for power supply of digital input output Power 24V COM PY P Supply terminal and external sensor maximum Supply output current 200mA Factory default in connection with 24 when using an external signal to drive External Power PLC 1 017 PLC need to be connected to Input Terminal external power and disconnected with 24V power terminal Analog Input Input Range DC 0 10V 0 20mA Al1 GND Terminal 1 selected by AI2 toggle switches on Analog AI2 GND Analog Input control board Input Impedance 250kQ for Input Terminal 2 voltage input 2500 for current input Analo Input Input voltage range DC 10 10V AI3 GND is Terminal 3 Input Impedance 250kQ Digital Input DI1 COM d 1 Digital Input DI2 COM d p Terminal 2 Digital Input DI3 Maximum input frequency 200Hz Terminal 3 E Input Impedance 2 4kQ Digital Input Mt DI4 COM Voltage Range of level input 9 V 30V Digital Terminal 4 Input Digital Input 015 d Terminal 5 Digital Input DI6 COM d j Terminal 6 Digital Input Besides the features of 011 016 017 also Terminal 7 or DI7 HI COM can be the channel of high speed pulse high speed pulse input Maximum input frequency 100kHz inpu 13 SPI
5. ng and adjusting the 2 HO00 12 H00 02 Vmpp selection of power 0 CVT Constant Voltage appr 1 x 26 SPI series Solar Pump Inverter given mode Given 1 Max Power Point Tracking MPPT 0 CVT Constant Voltage appr Given Adopt voltage given mode reference voltage is a fixed value given by H00 03 1 Max power point tracking MPPT Using max power point tracking the given reference voltage the reference voltage will not stop changing until the system stable No matter which reference voltage mode adopted when bus voltage higher than reference voltage the target frequency will change to upper limit of PI output frequency when bus voltage lower than reference voltage target frequency will change to lower limit of PI output frequency H00 03 Vmpp voltage CVT setting 0 750V 540V When H00 02 is zero reference voltage will be given by this function code MPPT mini voltage H00 04 0 Max Voltage 500V x reference MPPT max voltage H00 05 Max Voltage 750 600V When H00 03 is 1 MPPT voltage will track within H00 04 H00 05 H00 05 must be larger than H00 04 the smaller the difference between them the narrower the tracking range tracking will be faster But the voltage point of max power must fall in this range H00 06 PID Given Filter Time 0 000 10 000s 0 000s H
6. 0 0 100 0 0 0 000 16 Al2 Input 0 0 100 0 0 0 000 17 Al3 Input 100 0 100 0 0 0 Keyboard Potentiometer U00 18 0 0 100 0 0 0 Input U00 19 HI Pulse Input Frequency 0 00 100 00kHz 0 00kHz 000 20 A01 Output 0 0 100 096 0 096 000 21 A02 Output 0 0 100 096 0 096 HO Pulse Output U00 22 0 00 100 00kHz 0 00kHz Frequency Temperature of Inverter U00 23 40 0 C 120 0 C 0 0 C Module SPI series Solar Pump Inverter Err12 Inverter Overload Err13 Fault protection of external input Err 4 Overheat Err15 Memory Failure Err16 Cancel Auto tuning Err17 Auto tuning Failure Em18 Timeout 485 Communication Em19 PID feedback disconnection on runtime Err20 running time arrives Err21 Parameter Upload Error Err22 Parameter Download U00 24 The Power on Time 0 65535min Omin U00 25 The Running Time 0 6553 5min 0 0min 000 26 Cumulative Power on Time 0 65535h Oh 000 27 Cumulative Running Time 0 65535h Oh 000 28 Actual Count Value 0 65535 0 000 29 Actual Length Value 0 65535m 000 30 Line Speed 0 65535m min Om Min U00 31 Output Torque 0 0 300 0 0 0 U01 Group Failure Record Err00 No Fault Err01 Accelerated Overcurrent Err02 Decelerated Overcurrent Err03 Constant Speed Overcurrent Err04 Accelerated Ove
7. Ask for technical support 3 Hardware failure of Inverter Hydraulic Probe Err32 Hydraulic Probe Failure Hydraulic Probe Changed Failure Output frequency lower than or equal with lower limit of PI 2 Check the lower limit of PI Pre warning of output frequency and Arn33 output frequency and Weak Light continues this status until weak light delay the set value arrives at delay time of weak light Water lever feedback lower Pre warning of Check the pre warning point of Arn34 than the set threshold and Full water water level continue to the delay time 34 SPI series Solar Pump Inverter Appendix Recommended Solar Array Configuration Open Circuit Voltage Level of Solar Cell Components 20 3V 3043V PV Pump Special Inverter Model Numbers of Numbers of Power of component per Power of component per Components string Numbers of Components 5Wp string Numbers of 5Wp string string SPI200 4T 0 7B 30 29 1 SPI200 4T 1 5B 60 30 1 SP1200 4T 2 2B 90 3071 SPI200 4T 4 0B 85 28 2 220 22 1 SP1200 4T 5 5B SP1200 4T 7 5B x 215 21 2 SPI200 4T 011B 200 22 3 SPI200 4T 015B 205 22 4 SPI200 4T 018B SPI200 4T 022B SPI200 4T 030B 35 SPI series Solar Pump Inverter Open Circuit Voltage Level of Solar Cell Components 3623V 42 3V PV Pump Special In
8. SPI200 4T 1 5B 800 450 600 42 0 600 3PH380V 1 5 SPI200 4T 2 2B 800 450 600 5 5 0 600 3PH380V 2 2 SPI200 4T 4 0B 800 450 600 9 5 0 600 3PH380V 3 7 4 SPI200 4T 5 5B 800 450 600 13 0 600 3PH380V 5 5 SP1200 4T 7 5B 800 450 600 17 0 600 3PH380V 75 SPI200 4T 011B 800 450 600 25 0 600 3PH380V 11 SPI200 4T 015B 800 450 600 32 0 600 3PH380V 15 SP1200 4T 018B 800 450 600 37 0 600 3PH380V 18 5 SP1200 4T 022B 800 450 600 45 0 600 3PH380V 22 SP1200 4T 030B 800 450 600 60 0 600 3PH380V 30 SPI series Solar Pump Inverter 1 3 Dimension Drawing 1 3 1 SPI100 Figure 1 3 SPI100 dimension Table 1 3 SPI100 outline and installation dimension list Dimensions and installation size mm Model No kG H D wi W2 H1 H2 H3 H4 di d2 SPI100 2T 0 2B SPI100 2T 0 4B 95 162 120 85 11 151 5 152 110 8 130 4 5 4 5 11 SPI100 2T 0 7B SPI100 2T 1 5B 110 173 135 100 11 163 163 121 8 140 5 4 5 5 1 5 SPI100 2T 2 2B 1 3 2 SPI200 a 0 75 15kW Dimensions and wall mounting dimensions m I y i a b 1 md p Figure 1 4 0 75 15kW Wall dimension wiQis SPI series Solar Pump Inverter b 18 5 30kW Dimensions and installation dimensions
9. between Self output terminals are not inverter and motor Err17 identification connected 2 Motor breaks away from load failure 2 Motor connects to load 3 Check motor 3 Motor Failure 1 Upper computer works 1 Check the wirings of upper abnormally computer NT 2 Communication cable is 2 Check the communication Err18 Communication abnormal cable Timeout M Ll n 3 F15 communication 3 Set the communication parameters set incorrectly parameters correctly PID feedback 1 Check the PID feedback 1 PID feedback lower than Err19 disconnection signal or set F13 24 to be a the value set by F13 24 on running suitable value The running 1 Setting the function of m Err20 uM 1 Refer to description of F05 14 time arrives running time arrives 1 Copy card uninstalled or 1 Parameter copy card installed plugged unsuitable Parameter correctly Err21 2 Parameters copy card Upload Error 2 Ask for technical support abnormal 3 Ask for technical support 3 Control board abnormal 1 Copy card uninstalled or 1 Parameter copy card installed plugged unsuitable Parameter correctly Err22 2 Parameters copy card Download Error 2 Ask for technical support abnormal 3 Ask for technical support 3 Control board abnormal 1 Braking wirings fault or 1 Check the brake unit and Eros Braking Unit braking tube damaged replace the new brake tube rr failure 2 Value of external braking 2 Increasing th
10. normally When the water yield is normal and system run steadily the commissioning will be finished And then setting F02 00 1 change to terminal operation mode setting failure auto reset times F11 27 5 _2 2 Grid or Generator power supply wirings _ 1 Wirings according to Figure 2 2 system wiring diagram check and confirm to be correct Solar panel array ai pl lt e Q2 Se lll lt a 20 9 ower D 1 w SPI series i T Solar Pump Inverter Start Stop AO1 m 0 0 GND 012 013 24 Y1 Water tank GND RIA Water level BiB sensor 10V L oa 485 Al2 485 LA GND GND PE Figure 2 2 Grid or Generator Power Supply Wiring Diagram 2 Disconnect the switch Q1 and then close Q2 keep consistent with the figure above 3 When grid or generator power supply setting H00 0120 power supplied by grid 211 SPI series Solar Pump Inverter 4 For water pump s frequency please refer to F01 group code H00 02 H00 12 function code does not work 5 When change to PV power supply just disconnect Q2 close Q1 setting F04 1 38 and close the terminal 012 or setting H00 01 1 Note When the bus input terminal does not install the diode protection PV panel switch Q1 will be prohibited to close together with grid power input switch Q2 or the panel will be damaged 2 3 Product Terminal Configuration 2 3 1 Main Circuit Termina
11. series Solar Pump Inverter Analog Output AO1 GND Output range DC 0 10V 0 20mA Analog Terminal 1 selected by A01 A02 toggle switches on Output Analog Output AO2 GND control board Impedance gt 10 Terminal 2 Open Oollector Voltage Range 0 24V Y1 COM Output 1 Current Range 0 50mA Digital Open Oollector m Apart from Y1 characteristics Y2 also can Output Output 2or Y2 HO COM be the channel of high speed pulse input high speed pulse Maximum output frequency 100kHz output normal open R1A R1C terminal normal close R1B R1C Contact driving ability AC250V 3A Relay terminal COSO 0 4 Output normal open R2A R2C DC 30V 1A terminal normal close R2B R2C terminal 485 dos 485 485 Communication Speed Terminals 4800 9600 19200 38400 57600 115200bps Communi ti 485 RS485 toggle switch on control board cation GND Communication setting the terminal matching resister Shield Ground It s use for grounding the shield of Shielded PE Shield Grounding terminal wire When connected to operation board the External P longest communication distance is up to 50m adopt the standard network cable Interface Interface RJ45 UP DOWNL Parameter Copy OAD Card Interface 14 SPI series Solar Pump Inverter Chapter Three Function Parameters 3 1 The Basic Function Param
12. 0 30 0 0 0 Auto Type F09 01 Motor 1 Torque Boost Torque Boost Fixed Motor 1 Cut off frequency F09 02 0 00 Maximum Frequency 50 00Hz of Torque Boost Motor 1Multipoint V F F09 03 0 00 F09 05 0 00Hz frequency points 1 Motor 1 Multipoint VF F09 04 0 0 100 0 0 096 Voltage Points 1 Motor 1 Multipoint V F F09 05 F09 03 F09 05 0 00Hz frequency points 2 Motor 1 Multipoint VF F09 06 0 0 100 0 0 096 Voltage Points 2 Motor 1 Multipoint V F F09 07 F09 05 F09 09 0 00Hz frequency points 3 Motor 1 Multipoint VF F09 08 0 0 100 0 0 096 Voltage Points 3 Motor 1 Multipoint V F F09 07 Rated Frequency of F09 09 i 50 00Hz frequency points 4 Motor Motor 1 Multipoint VF F09 10 0 0 100 0 Ue 100 0 100 0 Voltage Points 4 VF Slip Compensation F09 11 0 0 300 095 0 096 Gain F09 12 VF Stator Voltage drop 0 0 200 0956 100 0 18 SPI series Solar Pump Inverter Compensation Gain VF Excitation F09 13 0 0 200 096 100 096 Compensation Gain VF Oscillation F09 14 0 0 300 096 0 096 Suppression Gain F11 Group Fault and Protection 0 Null F11 00 Control of Overcurrent Stall 1 Overcurrent Stall Mode 1 1 2 Overcurrent Stall Mode 2 Protection current of F11 01 100 0 200 096 150 096 Overcurrent Stall Frequency Fall Time of F11 02 Constant Speed 0 0 6000 0s Mode 1 is Active 5 0s Overcurrent Stall Overcurrent Stal
13. 00 07 PID Response Filter Time 0 000 10 000s 0 000s H00 08 PID Output Filter Time 0 000 10 000s 0 000s H00 09 Ratio Gain Kp1 0 00 100 00 0 10 H00 10 Points Time 0 00 100 00 0 10 PID Lower limit of output PID Upper limit of output frequency 100 096 100 096 H00 11 100 096 x frequency corresponds to the max frequency PID Lower limit of output 0 096 PID Upper limit of output H00 12 20 0 x frequency frequency Refer to F13 group of PID function description in AD200 user manual Delay time of weak light H00 13 i 0 0 6000 0s 600 0s A pre warning sleep Delay time of weak light H00 14 0 0 6000 0s 100 0s wake up Tc SPI series Solar Pump Inverter When the output frequency less than or equal with the lower limit of output frequency H00 12 delaying timing begins continuing this state until delay time of weak light pre warning H00 13 arrives weak light pre warning reported Arn33 and start dormant In weak light pre warning when output frequency larger than lower limit of PI output frequency delaying timing begins and continue this status until arrival delay time H00 14 of wake up at weak light clean the weak light pre warning re enter the running status PI outpu PI lower limit gt Dormancy Wake up delay time delay time ofweak of weak FrequencyA light light output
14. 5 0 100 0 20 0 load loss Detectable Time of F11 23 0 1 60 0s 5 0s load loss Operation selection of 0 Null F11 24 1 instantaneous power failure 1 Valid Frequency deceleration F11 25 time of instantaneous 0 0 6000 0s 5 0s power failure Selection control of fast 0 Prohibit F11 26 x 0 current limit 1 Permit saie SPI series Solar Pump Inverter F11 27 Auto Reset Times of failure 0 20 0 x Auto Reset Interval of F11 28 0 1 100 0s 1 0s x failure During the fault 0 No action auto resetting program F11 29 Of switch output terminal 0 x f 1 Action is action selection of output fault U00 Group Status Monitoring U00 00 Output Frequency 0 00 Fup 0 00Hz U00 01 Setting Frequency 0 00 Fmax 0 00Hz Actual value of output 000 02 0 660V 0 0V voltage Actual value of output 000 03 0 0 3000 0A 0 0A current U00 04 Output Power 3000 0 3000 0kW 0 0kW U00 05 Output Rotation rate 0 60000rpm Orpm U00 06 DC Bus Voltage 0 1200V OV U00 07 Synchronization Frequency 0 00 Fup 0 00Hz 000 08 PLC Stage 17 15 1 000 09 Program Running Time 0 0 6000 0s h 0 0s h O U00 10 PID Given 0 60000 0 U00 11 PID Arithmetic Feedback 0 60000 0 O U00 12 DI1 DI5 Input Status DI5 014 DI2 Dit 00000 000 13 016 017 Input Status DI7 016 00 U00 14 Digital Output Status R2 R1 Y2 Y1 0000 U00 15 Input
15. Rated Frequency 20 00 Fmax fixed Motor 1 Rated Rotational Type F08 05 1 30000 Speed fixed 0 Y Type F08 06 Motor 1 Wirings 1 A fixed Motor 1 Rated Power Type F08 07 0 50 0 99 Factor fixed Asynchronous Motor 1 Type F08 08 0 001 65 5350 Stator Resistance fixed Asynchronous Motor 1 Type F08 09 0 001 65 5350 Rotor Resistance Re fixed Asynchronous Motor 1 Type F08 10 0 001 65 535mH Leakage Inductance fixed Asynchronous Motor 1 Type F08 11 0 1 6553 5mH Mutual Inductance fixed Asynchronous Motor 1 Type F08 12 0 1 1500 0A No load Field Current fixed Asynchronous Motor 1 F08 13 field weakening 0 0 100 0 87 coefficient 1 Asynchronous Motor 1 F08 14 field weakening 0 0 100 0 7596 coefficient 2 Asynchronous Motor 1 F08 15 field weakening 0 0 100 0 7096 coefficient 3 F08 30 Parameters 0 Null 0 17 SPI series Solar Pump Inverter Self identification 1 Asynchronous Motor Static Self identification 2 Asynchronous Motor Rotation Self identification F09 Group Motor 1VF Curve 0 Straight Line V F 1 Multipoint V F 1 2th power of the V F curve 1 4th power of the V F curve 1 6th power of the V F curve 2 3 4 5 1 8th power of the V F curve 6 7 F09 00 Motor 1VF Curve Setting 3 2 0th power of the V F curve VF Completed Separation Mode 8 VF Semi separation Mode 0
16. SPI series Solar Pump Inverter Preface SPI series inverters are developed specially for solar pumping system based on the core control arithmetic of vector control inverters combined with the control requirements of PV water pump application The function of maximum power point tracking MPPT dormant at weak light wake up at strong light high water level dormant under load pre warning and other control protection functions can ensure normal operation of water pumps according to the customers requirements to switch to the grid power supply Please refer to this manual to commission the inverter product maintenance refer to AD100 AD200 user manual IMPORTANT NOTES To illustrate the details of the products pictures in this manual based on products with outer casing or safety cover being removed When using this product please be sure to well install outer casing or covering by the rules and operating in accordance with the manual contents The illustrations in this manual are for illustration only and may vary with different products you have ordered The company is committed to continuous improvement of products product features will continue to upgrade the information provided is subject to change without notice If there is any questions when using please contact our regional agents or our customer Service center 0086 13923777654 For other products please visit our website http www variable fr
17. djusted to a Constant 2 Voltage is too low normal range Err03 speed 3 If there is shock load 3 Cancel shock load Overcurrent during running 4 Select inverter with a larger 4 Inverter selection is too power small SPI series Solar Pump Inverter 1 Input voltage is high 2 There is an external force 1 The voltage adjusted to a during acceleration dragging normal range Acceleration the motor to work 2 Cancel the external power or Overvoltage 3 Acceleration time is too install braking resistor short 3 Prolong the acceleration time 4 No installation of braking 4 Install braking resistor resistor 1 Input voltage is high 2 There is an external force 1 The voltage adjusted to a during deceleration dragging normal range Deceleration the motor to work 2 Cancel the external power or Overvoltage 3 Deceleration time is too install braking resistor short 3 Prolong the deceleration time 4 No installation of braking 4 Install braking resistor resistor 1 Input voltage is too high 1 The voltage adjusted to a Constant 2 There is an external force normal range Err06 speed j during running dragging the A Cancel tha external power or motor to work install braking resistor 1 Momentary power failure 1 Reset Failure 2 The inverter input voltage 2 Adjust voltage to normal Bus Under 3 Bus voltage abnormal range Err07 voltage 4 Rectifier br
18. e braking resister is too small resistor Disconnection Fault of 1 Temperature sensor Err24 1 Ask for technical support temperature failure or cable break sensor 1 Confirm whether the load loss En25 Inverter 1 Running current of or parameters of F11 22 F11 23 rr loss load inverter is less than F11 22 conform to the actual running conditions Err26 With wave 1 Load is too large or motor 1 Reduce the load or check the 233 SPI series Solar Pump Inverter current limit rocked rotor conditions of motor or fault 2 Inverter selection is too mechanical small 2 Select the inverter with larger power E Soft start relay 1 Grid voltage is too low 1 Check the grid voltage rr unclosed 2 Rectifier module failure 2 Ask for technical support 1 Parameter version of EEPROM up download module is 1 Re upload parameters to Err28 Version inconsistent with the one of up download modules Incompatible control panel 1 Acceleration Deceleration aa 1 Prolong the time is too short j DM Hardware acceleration deceleration time 2 Motor Parameters is Err29 detect 2 Setting the correct motor Inaccurate Overcurrent parameter 3 Hardware failure of 3 Ask for technical support Inverter 1 Deceleration time is too short M Hardware 1 Prolong the deceleration time 2 No installation of braking Err30 detect 2 Install the braking resistor resistors j overvoltage 3
19. e of H00 14 i 0 0 6000 0s 100 0s A Weak Light H00 15 Feedback Channel 0 Null 0 x 25 SPI series Solar Pump Inverter Selection of Reservoir 1 AH Water Level 2 AI2 3 AI3 Clean up the delay time of H00 16 0 10000s 600s A full water pre warning Threshold of reservoir H00 17 0 0 100 0 25 096 water level Dormant Delay Time of H00 18 Tank Water full 0 10000s 60s A Pre warning Detection of reservoir H00 19 0 0 100 0 100 096 hydraulic probe Pre warning delay time of H00 20 0 0 1000 0s 60 0s A pump under load Pre warning current level H00 21 0 0 100 096 0 0 Null 0 096 of pump under load Reset delay time of pump H00 22 0 0 1000 0s 60 0s A under load Threshold of H00 23 0 00 200 00Hz 0 30Hz A lag frequency 3 2 HOO Group Detailed Explanation of Function Code H00 00 Control of PV Pump Inverter 0 Null 1 Valid 0 Null For standard model 1 Valid For PV pumps special inverter Group Invalid Selection of inverter power 0 Mains H00 01 1 x supply 1 PV Panels 0 Mains Inverter power supply through the grid frequency given refer to group of F01 HOO 02 H00 12 invalid 1 PV Panels Inverter power supply through solar panels frequency given mainly through tracki max power point of solar panels to get For more details please refer to H00 0
20. e water yield of pump Press the operation key RUN under normal circumstance of light strength if the operation frequency low or water yield less which means the motor wiring may be reversed please exchange two wirings of motor 4 System Effluent Speed PI Regulating If the user has a high requirements for the effluent speed PI parameters can be regulated appropriately H00 09 H00 10 the larger PI parameter the stronger affection the faster effluent but the larger fluctuation of motor frequency Otherwise the slower water effluent the more steady frequency of motor operation 5 MPPT Tracing Speed Commissioning 10 SPI series Solar Pump Inverter H00 04 and H00 05 are respectively the lowest voltage and highest voltage under the MPPT mode the smaller the range between them two the faster tracing the maximum power but the premise if that the bus voltage during normal operation must fall within this range or the maximum power point may not be tracked Generally speaking the factory default value is OK 6 Setting of fault point and fault delay reset time If clients need to use the pre warning of weak light water logged under load failure monitoring point delay time and reset time water logged controlled function can be set as H00 15 H00 19 on demand under load function set as H00 20 H00 22 weak light function set as H00 13 H00 14 Users also can adopt the default value 7 Parameter setting after the system operation
21. el of pump 0 0 100 0 H00 20 0 0 A under load pre warning 0 0 Null Delay time of pump H00 21 0 0 1000 0s 60 0s A under load pre warning Delay time of pump H00 22 0 0 1000 0s 60 0s A under load resetting 0 0 Automatically detection of under load decided by under load detection of inverter When it is not 0 0 decided by H00 20 parameter setting 100 correspondence to ratted current of motor When absolute value of the difference between target frequency and slop frequency continues less than or equal with H00 23 lag frequency threshold if the current value continues less than H00 20 set value over the 0 21 pump under load delay time reporting under load pre warning Arn25 In under load pre warning delay H00 22 under load reset time under load pre warning restoration H00 23 Lag frequency threshold 0 00 200 00Hz 0 30Hz A Use for adjusting the condition of under load operation When absolute value of the difference between target frequency and slop frequency continues less than or equal with lag frequency threshold current comparison will be required 29 SPI series Solar Pump Inverter Chapter Four Troubleshooting and Countermeasures SPI series solar pump inverters supply many kinds of warning information and protection functions when failure occurred function of protection actives inverters will stop output fault relay contact of
22. election Terminal DI3 Function F04 02 2 Reverse Operation REV 7 Selection 3 Three wire Operation Control Terminal 014 Function F04 03 13 Selection 37 Special Machine Enabled 38 Solar Panels Power Enabled F05 Group Digital Output Terminal Y1 Output Function F05 00 0 No Output 1 Selection Y2 Output Function F05 01 1 Inverter Operating 3 Selection 2 Inverter Fault Relay R1 Output Function F05 02 2 Selection 20 Under load warning F07 Group Analog and Pulse Output 1 Output Function F07 00 0 No Output 1 Selection AO Output Function F07 01 1 Output Frequency 2 Selection 2 Set Frequency 3 Output Current Inverter Rated Current 4 Output Voltage Inverter Rated Voltage Y2 HO Output Function Output Power F07 02 Selection 5 6 When used as HO 7 10V 8 9 Bus Voltage 1 Keyboard Potentiometer All 10 Al2 11 12 Input 100 0 corresponds 16 SPI series Solar Pump Inverter 100 00kHz 13 Output Torque Absolute Value of the Torque F08 Group Motor 1 Basic Parameters Type F08 01 Motor 1 Rated Power 0 10 600 00kW fixed Type F08 02 Motor 1 Rated Voltage 60 660V fixed Type F08 03 Motor 1 Rated Current 0 1 1500 0A fixed Type F08 04 Motor 1
23. equencydrives com SPI series Solar Pump Inverter Contents d izg ie N M 1 epi ge EE 2 CHAPTER ONE PRODUCT OVERVIEW ccccccsscsscssssssssssssssesssscssesssscesccssseeseess 3 MALTA PLATE set couches NS I TAE PEN 3 1 2 PRODUCT SPECIFICATIONS eese enne nnne inneren 4 1 3 SELECTION TABLE eee tier etnia eoe E 1 4 DIMENSION DRAWING eene nemen nnne nnne enne nn terne e nnne nnne 8 CHAPTER TWO COMMISSIONING GUIDE eere eren serere etta 10 2 1 PV POWER SUPPLY COMMISSIONING eere eene emen 10 2 2 GRID OR GENERATOR POWER SUPPLY WIRINGS ccccccccececeeeseeeseeeeeseseseeeeeeeeees 11 2 3 PRODUCT TERMINAL CONFIGURATION eere en ene men ennn nnn 12 CHAPTER THREE FUNCTION PARAMETERS 15 3 1 THE BASIC FUNCTION PARAMETERS nennen eene nnne enne nnne 15 CHAPTER FOUR TROUBLESHOOTING AND COUNTERMEASURES 30 SPI series Solar Pump Inverter Chapter One Product Overview 1 1 Name Plate ADA SHENZHEN ADA POWER ELECTRONICS CO LTD MODEL sPi200 4T 7 5B POWER 7 5kW INPUT AC 3PH 380V 480V 26A 50 60Hz OUTPUT AC 3PH 0 400V 17A 0 600Hz AMT TATA 2101000113629000001 MADE IN CHINA Figure 1 1 Name P
24. eters Table 3 1 Basic Function Parameters Function TN Default Attribut Name Descriptions Code Value e F00 Group System Parameters F00 00 User Password 0 65535 0 x 0 Null 1 Factory Reset Excluding motor parameters 2 Clear the record information of F00 04 Default Value Control fault 0 x 3 Backup user s current parameters 4 User s backup parameters were restored F01 Group Frequency Given Maximum Frequency F01 08 20 00 600 00Hz 50 00Hz x Fmax Upper Limit F01 09 Fdown Fmax 50 00Hz x Frequency Fup Lower Limit F01 10 0 00 Fup 0 00Hz x Frequency Fdown 0 Run by the lower frequency Given frequency lower o E 1 After running time of lower limit F01 11 than the frequency control Bm 0 x A frequency it will run on speed of of lower limit 0 Running time of lower F01 12 0 0 6000 0s 60 0s x limit frequency F02 Group Control of Run Stop 0 Operation Panel LED off Command Source 1 External Terminal LED on F02 00 0 Selection of Run Start 2 Computer Communications CLED flash F03 Group Acceleration Deceleration Time F03 00 Acceleration Time 1 0 0 6000 0s 15 0s A 15 SPI series Solar Pump Inverter F03 01 Deceleration Time 1 0 0 6000 0s 15 0s F04 Group Digital Input Terminals Terminal 011 Function F04 00 0 No Function 1 Selection Terminal DI2 Function F04 01 1 Forward Run FWD 2 S
25. fault record 0 categories U01 11 Output frequency of the 0 00 Fup 0 00Hz 204 SPI series Solar Pump Inverter former two faults Output current of the U01 12 0 0 3000 0A 0 0A former two faults Bus Voltage of the former U01 13 0 1200V oV two faults Cumulative runtime of the U01 14 0 65535h Oh former two faults HOO Group PV Pump Special Set 0 Null H00 00 Pump Machine Control 1 x 1 Valid Selection of Inverter 0 Mains H00 01 1 x Power 1 Solar Panel 0 CVT Constant Voltage appr Vmpp Selection of Given H00 02 _ 1 x Voltage Given Mode 1 Tracking of Max Power Point MPPT H00 03 Vmpp voltage CVT setting 0 750V 540V Mini voltage reference of H00 04 0 Max Voltage 500V x MPPT Max voltage reference of H00 05 Max Voltage 750V 600V x MPPT H00 06 PID Filter Time Given 0 000 10 000s 0 000s A H00 07 PID Filter Time Feedback 0 000 10 000s 0 000s H00 08 PID Filter Time Output 0 000 10 000s 0 000s H00 09 Ratio Gain Kp1 0 00 100 00 0 10 H00 10 Points Time KI 0 00 100 00 0 10 PID Lower Limit of Output PID Upper Limit of Output Frequency 100 096 100 096 H00 11 100 096 x Frequency corresponds to the max frequency PID Lower Limit of Output 0 0 PID Upper Limit of Output H00 12 20 096 x Frequency Frequency Dormant Delay Time of H00 13 0 0 6000 0s 600 0s A Weak light Pre warning Wake up Delay Tim
26. idge and buffer 3 Ask for technical support protection resistance are abnormal 4 Ask for technical support 5 Drive board abnormal 5 Ask for technical support 6 Control panel abnormal 6 Ask for technical support 1 Inverter output circuit 1 Peripheral troubleshooting shorted 2 Prolong the 2 Acceleration Deceleration acceleration deceleration time time is too short 3 Install the reactor or 3 Wirings between motor output filter Short circuit and inverter is too long 4 Check and confirm the protection 4 Module Overheating air channel unblocked fans 5 Internal wirings of inverter operation normal loosened 5 All cables plugged 6 Main Board Abnormal 6 Ask for technical support 7 Drive Board Abnormal 7 Ask for technical support 8 Inverter Module Abnormal 8 Ask for technical support 31 SPI series Solar Pump Inverter 1 Power of 1 Check and solve the three phase input is m problems in peripheral wirings Input abnormal Err09 2 Ask for technical support Open phase 2 Drive board abnormal 3 Ask for technical support 3 Lightning board abnormal 4 Ask for technical support 4 Main board abnormal 1 Lead wire from inverter 1 Peripheral troubleshooting to motor is abnormal 2 Check and confirm the motor 2 Three phase output of PNIS Output three phase winding to be Err10 inverter is unbalanced during Open phase normal motor run
27. l Mode 2 F11 03 D 0 1 100 096 3 096 Proportion Coefficient Overcurrent Stall Mode 2 0 000 1 000s 0 000 Integral F11 04 0 010s Integral Time Invalid 0 Null F11 05 Control of Overvoltage Stall 1 Overvoltage Stall Mode 1 1 2 Overvoltage Stall Mode 2 F11 06 Voltage of Overvoltage Stall 120 0 150 096 130 096 Overvoltage Stall Mode 2 F11 07 D 0 1 100 0 3 0 Proportion Coefficient Overvoltage Stall Mode 2 0 000 1 000s 0 000 Integral F11 08 i Integral Time Invalid Ones Bus Under voltage Protection Err07 0 Reporting faults and freely parking 1 Alarming and parking by deceleration mode F11 10 Selection of failsafe action 1 03000 2 Alarm and continue running on fault frequency 3 Protection Invalid Tens Input Phase protection Err09 like ones Hundreds Output 19 SPI series Solar Pump Inverter Phase protection Err10 like ones Thousands Motor Overload Protection Err10 like ones Myriabit Inverter Overload Protection Err12 like ones Ones External Input Failure protection Err13 0 Reporting faults and freely parking 1 Alarming and parking by deceleration mode 2 Alarm and continue running on fault frequency F11 11 Selection of failsafe action 2 Tens Memory Failure Err15 00000 like ones Hundreds 485 communication timeout Err18 like ones Thousands PID feedback disconnection when ru
28. late Model Instruction Model numbers on name plate consist of numbers symbols and letters to express its respective series suitable power type power level and other information SPI200 4T 2 2B Products series Number m SPI Solar Pump Inverter Braking Unit Built in Output voltage level 4T Three phase 380V 2T Three phase 220V Ouiput power 2 XN 25 Single phase 220V Figure 1 2 Product Model Naming Rules SPI series Solar Pump Inverter 1 2 Product Specifications Table 1 1 SPI100 series technical parameter table Recommend Maximum ed Solar Output Adaptive Motor Model No Input DC Array Current A kW Current A Power kWP SPI100 2T S 0 2B 0 35 2 5 1 6 0 18 0 2 0 25 SPI100 2T S 0 4B 0 6 4 5 2 5 0 37 0 4 SPI100 2T S 0 7B 1 1 7 8 4 2 0 75 SPI100 2T S 1 5B 2 25 10 7 5 1 5 SPI100 2T S 2 2B 3 3 18 9 5 2 2 Input specification PV Input Maximum Input DC Voltage 450VDC Recommended MPPT Voltage Range 250 350VDC Recommended Input Operation Voltage 310VDC Vmpp Grid or backup generator input Input voltage Single phase 220V 15 30 Output specification Rated output voltage 1PH amp 3PH 220V Output frequency 0 600 00Hz default 0 50 00Hz Protection Built in Protection Lighting Protection over current overvoltage
29. ls 0 75 30KW main circuit terminals s O Upload and i TO an Vr T Download 2 000000000000 000 Control Circuit Interface amp 0229900000000 000 Terminals 86 ees Main Circuit u 1 uU Ui Terminals 8 2 1 T3 PB vira wrra U woron H amp oma n ga999 6 Figure 2 3 0 75 30kW Main Circuit Terminal Diagram Table 2 1 Functions of Inverter Main Circuit Terminals Terminal Label Description AC Power Input Terminal connected to three phase 380V R L1 S L2 T L3 AC power Inverter AC output terminal connected to three phase AC U T1 V T2 W T3 motor Respectively to be positive and negative terminal of internal DC bus Braking resistor connection terminals one end connected to PB the other end of PB e Ground terminal connected to the earth DI2 DI3 DI4 Y1 Y2 GND AO1 AO2 4854 485 R2A R2B R2C amp 24V PLC COM DI5 DI6 10V AM AIZ AI3 GND IRTA IRIB RIC Figure 2 4 Control Terminals Diagram eq SPI series Solar Pump Inverter Table 2 2 SPI200 Inverter Control Circuit Terminal Functions Terminal um Type Terminal Name Description Symbol Output 10V Power Supply Maximum 10V Power Output Current 10mA Generally use for 10V GND
30. ning 3 Ask for technical support 3 Drive board abnormal 4 Ask for technical support 4 Inverter Module Abnormal 1 Motor protection 1 Setting the parameters parameters F11 17 set correctly incorrectly 2 Lowering the load and check Err11 Motor Overload 2 Load is too large or motor the conditions of motor and rocked rotor mechanical 3 Inverter selection is too 3 Select inverter with a larger small power 1 Reduce load and check the 1 Load is too large or motor conditions of motor Inverter rocked rotor Err12 T mechanical Overload 2 Inverter selection is too 2 Select inverter with a larger small power 1 Input the external fault Fault protection Err13 signal by multi function 1 Reset to run of external input terminal 1 Ambient temperature is 1 Lowering the ambient too high temperature 2 Air channel blocked 2 Clean up the air channel Err14 Overheat 3 Fans damaged 3 Replace the fans 4 Module X thermistors 4 Replace the thermistors damaged 5 Replace the inverter module 5 Inverter module damaged Err15 Memory Failure 1 EEPROM Chips damage 1 Replace the Main Board 1 Press the button of Cancel the self 1 Press STOP RST for Err16 HMM STOP RST during identification ET restoration self identification 32 SPI series Solar Pump Inverter 1 Motor and the inverter 2 1 Check the wirings
31. nity etc Altitude 0 2000 m Derated use above 1000m per 100m the rated output current decrease 1 Environment 10 C 40 C Environment Temperature be 40 C 50 C please keep Temperature derated use Humidity 5 95 non condensation Vibration less than 5 9 m s 0 6g Storage Temperature 20 C 70 C Efficiency Rated Power Run293 Installation Wall or rail mounting Protection Grade IP20 Cooling Forced Air Cooling SPI series Solar Pump Inverter 1 3 Selection Table Table 1 2 Selection Table Maximum Recomme Rated Output Rated KERE Modal No DC Input nded Output Frequency Output ME Voltage Voltage Current Hz Voltage kN V Range V A V SPI100 2S 0 2B 450 250 350 1 6 0 600 1 220 018 02 SPI100 2S 0 4B 450 250 350 2 5 0 600 1PH220V 037 04 SPI100 2S 0 7B 450 250 350 4 2 0 600 1 220 0 75 SP1100 2S 1 5B 450 250 350 7 5 0 600 1PH 220V 1 5 SPI100 28 2 2B 450 250 350 9 5 0 600 1PH220V 2 2 SPI100 2T 0 2B 450 250 350 1 6 0 e00 sPH220v 91907 SPI100 2T 0 4B 450 250 350 2 5 0 600 3PH220V 037 04 SPI100 2T 0 7B 450 250 350 4 2 0 600 220 0 75 SPI100 2T 1 5B 450 250 350 75 0 600 3PH220V 1 5 SPI100 2T 2 2B 450 250 350 9 5 0 600 220 2 2 SPI200 4T 0 7B 800 450 600 2 5 0 600 3PH380V 0 75
32. nning Err19 like ones Myriabit running time arrives Err20 like ones Ones Disconnection Fault of Temperature Sensor Err24 0 Reporting faults and freely parking 1 Alarming and parking by deceleration mode F11 12 Selection of failsafe action 3 2 Alarm and continue running 00000 on fault frequency Tens Inverter load lost Err25 0 3 Hundreds Reserved Thousands Reserved Myriabit Reserved When failure frequency 0 Running on current setting selection of continue frequency 20 SPI series Solar Pump Inverter running 1 Running on setting frequency 2 Running on upper limit frequency 3 Running on lower limit frequency 4 Running on abnormal spare frequency Abnormal Alternate Fl toils 0 00 Fmax 0 00Hz Frequency Protection time of Motor F11 17 30 0 300 0s 60 0s Overload Ones selection of detection 0 always detection 1 detection only when constant speed Selection of Overload Tens condition selection of F11 18 00 Pre warning detection 0 responds to rated current of motor 1 responds to rated current of inverter Detectable Level of F11 19 20 0 200 096 130 096 Overload Pre alarm Detectable Time of F11 20 0 1 60 0s 5 0s Overload Pre alarm Pre alarm Temperature of F11 21 50 0 100 0 C 70 0 C Inverter Overheat Detectable Level of F11 22
33. output phase lose under load under voltage short circuit overheating water pump run dry etc SPI series Solar Pump Inverter Table 1 2 SPI200 series technical parameter table Recommen ded Solar Output Current Adaptive Motor Model No Input DC Array A kW Current A Power kWP SP1200 4T 0 7B 1 1 4 5 2 5 0 75 SPI200 4T 1 5B 2 25 7 5 4 2 1 5 SPI200 4T 2 2B 3 3 10 5 5 2 2 SPI200 4T 4 0B 6 18 9 5 3 7 4 SPI200 4T 5 5B 8 3 20 13 5 5 SPI200 4T 7 5B 11 30 17 7 5 SPI200 4T 011B 16 40 25 11 SPI200 41 015B 22 50 32 15 SPI200 4T 018B 25 9 60 37 18 5 SPI200 4T1 022B 33 80 45 22 SPI200 4T 030B 45 100 60 30 Input specification Voltage Range PV Input Maximum Input DC P 800VDC Voltage Recommended MPPT 450 600VDC Recommended Input Operation Voltage 540VDC Vmpp Grid or backup generator input Input Voltage Three phase 380V 15 30 Output specification Rated output voltage 3PH 380V Output frequency 0 600 00Hz Default 0 50 00Hz 5 SPI series Solar Pump Inverter Protection Built in Protection Lighting Protection over current overvoltage output phase lose under load under voltage short circuit overheating water pump run dry etc General Parameters Application Site No direct sunshine no dust corrosive gas combustible gas oil mist steam dripping or sali
34. rvoltage Err05 Decelerated Overvoltage Err06 Constant Speed Overvoltage 07 Bus Under voltage Protection Err08 Short Circuit Protection Err09 Input Open Phase Err10 Output Open Phase U01 00 Current Fault Category Err11 Motor Overload 0 23 SPI series Solar Pump Inverter Error Err23 Braking Unit Failure Err24 Disconnection fault of temperature sensor Err25 Lose load failure alarm of Inverter Err26 with wave current limit fault Err27 Soft start relay unclosed 28 EEPROM Version Incompatible Err29 Overcurrent tested by hardware Err30 Overvoltage tested by hardware Err31 Err32 Hydraulic Probe Failure Arn33 Pre warning of weak light Arn34 Pre warning of full water Output frequency of the U01 01 0 00 Fup 0 00Hz current fault Output current of the U01 02 0 0 3000 0A 0 0A current fault U01 03 c of the current fault 0 1200V OV Cumulative runtime of the U01 04 0 65535h Oh current fault U01 05 Former one fault category Like the latest one fault record 0 Output frequency of the U01 06 0 00 Fup 0 00Hz former one fault Output current of the U01 07 0 0 3000 0A 0 0A former one fault Bus Voltage of the former U01 08 0 1200V OV one fault Cumulative runtime of the U01 09 0 65535h Oh former one fault Former two fault U01 10 Like the latest one
35. verter Model Numbers of Numbers of Numbers of Power of Power of Power of component per component per component per Components Components Components string Numbers string Numbers string Numbers 5Wp 5Wp 5Wp of string of string of string SPI200 4T 0 7B SPI200 4T 1 5B SPI200 4T 2 2B 145 18 1 175 15 1 E SPI200 4T 4 0B 140 172 160 15 2 A SPI200 4T 5 5B 195 172 220 15 2 SPI200 4T 7 5B 175 17 8 200 15 3 300 15 2 SPI200 4T 011B 195 17 4 220 15 4 SPI200 4T 015B 200 18 5 240 15 5 300 15 4 SPI200 4T 018B 250 18 5 250 15 6 300 15 5 SPI200 4T 022B 250 18 6 300 15 6 SPI200 4T 030B z 300 15 8 36
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