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<1> Remove the jumper when installing a DC link choke. Models 2A0110 to 2A0415 and 4A0058 to 4A1200 come with a

built-in DC link choke.
<2> Set L8-55 to 0 to disable the protection function of the built-in braking transistor of the drive when using an optional

regenerative converter or dynamic braking option. Leaving L8-55 enabled may cause a braking resistor fault (rF). Additionally,

disable Stall Prevention (L3-04 = 0) when using an optional regenerative converter, regenerative or braking units, or dynamic

braking option. Leaving If L3-04 enabled may prevent the drive from stopping within the specified deceleration time.
<3> Supplying power to the control circuit separately from the main circuit requires 24 V power supply (option).
<4> This figure illustrates an example of a sequence input to S1 through S8 using a non-powered relay or an NPN transistor.

Install the wire link between terminals SC-SP for Sink mode, between SC-SN for Source mode, or leave the link out for

external power supply. Never short terminals SP and SN, as it will damage the drive.
<5> This voltage source supplies a maximum current of 150 mA.
<6> The maximum output current capacity for the +V terminal on the control circuit is 20 mA. Never short terV and

AC, as it can cause erroneous operation or damage the drive.
<7> Set jumper S1 to select between a voltage or current input signal to terminal A2. The default setting is for current input.
<8> Set jumper S1 to select between a voltage or current input signal to terminal A1 and A3. The default setting is for voltage

input.
<9> Set DIP switch S2 to the ON position to enable the termination resistor in the last drive in a MEMOBUS/Modbus network.
<10> H2-02 Default = F (Through Mode) in drive software versions PRG: 8551 and earlier.
<11> Use jumper S5 to select between voltage or current output signals at terminals AM and FM. Set parameters H4-07 and

H4-08 accordingly.
<12> Monitor outputs work with devices such as analog frequency meters, ammeters, voltmeters, and wattmeters. They are

not intended for use as a feedback-type signal.

WARNING! Sudden Movement Hazard. Do not close the wiring for the control circuit unless the multifunction input terminal parameters are

properly set. Improper sequencing of run/stop circuitry could result in death or serious injury from moving equipment.

WARNING! Sudden Movement Hazard. Ensure start/stop and safety circuits are wired properly and in the correct state before energizing

the drive. Failure to comply could result in death or serious injury from moving equipment. When programmed for 3-Wire control, a momentary

closure on terminal S1 may cause the drive to start.

WARNING! Sudden Movement Hazard. Confirm the drive I/O signals and external sequence before executing the application preset

function. Executing the application preset function or setting A1-03 ≠ 0 will change the drive I/O terminal functions and may cause unexpected

equipment operation. Failure to comply may cause death or serious injury.

NOTICE: When using the automatic fault restart function with wiring designed to shut off the power supply upon drive fault, make sure the

drive does not trigger a fault output during fault restart (L5-02 = 0, default). Failure to comply will prevent the automatic fault restart function

from working properly.

i.4 Electrical Installation

YASKAWA TOEP YAIP1W 02E YASKAWA AC Drive - iQpump1000 Installation & Start-up Guide

21

Summary of Contents for iQpump1000

Page 1: ...his manual thoroughly and retain for easy reference inspection and maintenance Ensure the end user receives this manual Type CIMR PW A Models 200 V Class 3 4 to 175 HP ND 400 V Class 3 4 to 1000 HP ND...

Page 2: ...nt liability is assumed with respect to the use of the information contained herein Moreover because Yaskawa is constantly striving to improve its high quality products the information contained in th...

Page 3: ...ICAL INSTALLATION 14 i 4 ELECTRICAL INSTALLATION 19 i 5 START UP PROGRAMMING AND OPERATION 44 i 6 TROUBLESHOOTING 74 i 7 DRIVE SPECIFICATIONS 85 i 8 PARAMETER TABLE 87 i 9 STANDARDS COMPLIANCE 98 i YA...

Page 4: ...ownload on our documentation website www yaskawa com iQpump1000 AC Drive User Manual TOEPYAIP1W01 This manual contains information required to install and wire the drive and gives an overview of fault...

Page 5: ...guish when the DC bus voltage is below 50 Vdc To prevent electric shock wait for at least the time specified on the warning label once all indicators are OFF measure for unsafe voltages to confirm the...

Page 6: ...ion according to applicable local codes and this Installation Manual Failure to comply could result in fire and damage to the drive or injury to personnel The device is suitable for use on a circuit c...

Page 7: ...use Contact your supplier before restarting the drive or the peripheral devices if the cause cannot be identified Do not expose the drive to halogen group disinfectants Failure to comply may cause dam...

Page 8: ...perform a final check of all sequence wiring and other connections before turning on the power and also check for short circuits on the control terminals which may damage the drive Selecting a Circui...

Page 9: ...t of a submersible motor is greater than that of a standard motor so select the drive accordingly Use a motor cable large enough to avoid decreasing the maximum torque level from voltage drop caused b...

Page 10: ...or manufactured for use in devices or systems that may directly affect or threaten human lives or health Customers who intend to use the product described in this manual for devices or systems relati...

Page 11: ...e information on the nameplate If you have received the wrong model or the drive does not function properly contact your supplier u Nameplate B C A IND CONT EQ 7J48 B H G F E D A Normal Duty Amps B So...

Page 12: ...unting drive with backside heatsink external to enclosure with NEMA 12 integrity 3 Please contact Yaskawa for details regarding Environmental Specifications n Three Phase 200 V Class Drive Model Max M...

Page 13: ...160 250 296 4A0362 185 300 362 4A0414 220 350 414 4A0515 250 400 450 515 4A0675 355 500 550 675 4A0930 500 750 930 4A1200 630 1000 1200 n Three Phase 600 V Class Drive Model Max Motor Capacity kW HP R...

Page 14: ...9 8 m s2 32 15 ft s2 1 20 to 55 Hz at 5 9 m s2 19 36 ft s2 Models 2A0004 to 2A0211 4A0002 to 4A0165 and 5A0003 to 5A0099 or 2 0 m s2 6 56 ft s2 Models 2A0250 to 2A0415 4A0208 to 4A1200 and 5A0125 to...

Page 15: ...ake advantage of Side by Side installation When installing multiple drives into the same enclosure panel mount the drives according to Figure i 5 and set L8 35 Installation Method Selection to 1 Side...

Page 16: ...front cover terminal blocks and other drive components prior to vertical suspension Do not subject the drive to vibration or impact greater than 1 96 m s2 0 2 G while it is suspended by the wires Do...

Page 17: ...ove the four eye bolts from the drive side panels and fix them securely on the top panel Eye bolt Figure i 10 Eye Bolt Repositioning 2 Pass wire through the holes of all four eye bolts A B C A Eye bol...

Page 18: ...TOEP YAIP1W 01 for IP20 NEMA 1 UL Type 1 and IP00 Open Chassis dimensions The iQpump1000 Drive User Manual is posted on the Yaskawa website www yaskawa com i 3 Mechanical Installation 18 YASKAWA TOEP...

Page 19: ...capable of delivering not more than 100 000 RMS symmetrical amperes 240 Vac maximum 200 V class 480 Vac maximum 400 V class 600 Vac maximum 600 V class NOTICE When the input voltage is 440 V or higher...

Page 20: ...2mA or 4 to 20 mA Main Circuit Control Circuit shielded line twisted pair shielded line main circuit terminal control circuit terminal R L1 S L2 T L3 R S T Main Switch Fuse M3 M4 Multi function relay...

Page 21: ...enable the termination resistor in the last drive in a MEMOBUS Modbus network 10 H2 02 Default F Through Mode in drive software versions PRG 8551 and earlier 11 Use jumper S5 to select between voltag...

Page 22: ...may result in abnormal operation of drive and nearby equipment n Three Phase 200 V Class Models 2A0004 to 2A0081 Three Phase 400 V Class Models 4A0002 to 4A0044 Three Phase 600 V Class Models 5A0003...

Page 23: ...5 Connecting Main Circuit Terminals n Three Phase 200 V Class Models 2A0250 to 2A0415 Three Phase 400 V Class Models 4A0165 to 4A0675 Three Phase 600 V Class Models 5A0125 to 5A0242 1 R L1 S L2 T L3 U...

Page 24: ...cuit Protection for UL Compliance on page 107 for details on fuse selection u Factory Recommended Branch Circuit Protection WARNING Fire Hazard Install adequate branch circuit protection according to...

Page 25: ...10 or less Grounding terminal 35 Note Use terminals B1 and when installing a CDBR type braking unit on drives with built in braking transistors Models 2A0004 to 2A0138 4A0002 to 4A0072 and 5A0003 to...

Page 26: ...uge is suitable for the terminal block Use the following formula to calculate the amount of voltage drop Line drop voltage V 3 wire resistance km wire length m current A 10 3 Refer to instruction manu...

Page 27: ...10 M4 1 2 to 1 5 10 6 to 13 3 U T1 V T2 W T3 10 12 to 10 1 2 12 to 10 B1 B2 14 to 10 10 1 12 to 10 2A0030 R L1 S L2 T L3 8 10 to 6 M4 2 1 to 2 3 18 6 to 20 4 U T1 V T2 W T3 8 10 to 6 1 2 10 to 6 B1 B...

Page 28: ...0 1 1 to 4 0 3 1 0 to 4 0 4 4 to 2 2A0211 R L1 S L2 T L3 1 0 2P 1 0 to 2 0 M10 18 to 23 159 to 204 U T1 V T2 W T3 1 0 2P 1 0 to 2 0 1 1 to 4 0 3 1 0 to 4 0 4 4 to 1 0 2A0250 R L1 S L2 T L3 3 0 2P 3 0...

Page 29: ...Screw Size Tightening Torque N m lb in 4A0002 4A0004 R L1 S L2 T L3 14 14 to 10 M4 1 2 to 1 5 10 6 to 13 3 U T1 V T2 W T3 14 14 to 10 1 2 14 to 10 B1 B2 14 to 10 12 1 14 to 12 4A0005 4A0007 4A0009 R L...

Page 30: ...M8 9 to 11 79 7 to 97 4 U T1 V T2 W T3 3 4 to 3 1 4 to 1 B1 B2 6 to 3 6 6 4A0088 R L1 S L2 T L3 2 3 to 1 0 M8 9 to 11 79 7 to 97 4 U T1 V T2 W T3 2 3 to 1 0 1 3 to 1 0 3 6 to 1 0 4 6 to 4 4A0103 R L1...

Page 31: ...00 1 1 0 to 300 3 1 0 to 300 1 0 1 0 to 300 4A0675 R L1 S L2 T L3 300 4P 4 0 to 300 M12 32 to 40 283 to 354 U T1 V T2 W T3 300 4P 4 0 to 300 1 1 0 to 300 3 1 0 to 300 2 0 2 0 to 300 4A0930 R L1 S L2 T...

Page 32: ...0 12 to 10 5A0011 R L1 S L2 T L3 6 0 10 2 5 to 16 14 to 6 M4 2 1 to 2 3 18 6 to 20 4 U T1 V T2 W T3 2 5 14 2 5 to 16 14 to 6 1 2 2 5 to 16 14 to 6 B1 B2 2 5 to 6 0 14 to 10 10 8 4 0 to 6 0 12 to 8 M5...

Page 33: ...0 to 25 10 to 3 M8 9 0 to 11 79 7 to 97 4 U T1 V T2 W T3 16 6 6 0 to 25 10 to 3 1 16 to 35 6 to 1 B1 B2 10 to 25 8 to 3 16 6 10 to 16 6 5A0062 R L1 S L2 T L3 25 4 6 0 to 95 10 to 4 0 M10 18 to 23 159...

Page 34: ...nformation contact Yaskawa or your nearest sales representative u Main Circuit Terminal and Motor Wiring This section outlines the various steps precautions and checkpoints for wiring the main circuit...

Page 35: ...TICE Do not share the ground wire with other devices such as welding machines or large current electrical equipment Improper equipment grounding could result in drive or equipment malfunction due to e...

Page 36: ...w level 0 0 to 0 8 Vdc Input impedance 3 k V Power supply for analog inputs 10 5 Vdc max allowable current 20 mA 24 V 24 Vdc transducer power supply for customer use 150 mA maximum capacity A1 Multi f...

Page 37: ...Communications Type No Signal Name Function Signal Level MEMOBUS Modbus Communication 1 R Communications input MEMOBUS Modbus communication Use an RS 422 or RS 485 cable to connect the drive RS 422 RS...

Page 38: ...tion or nuisance trips NOTICE Use a class 2 power supply when connecting to the control terminals Improper application of peripheral devices could result in drive performance degradation due to improp...

Page 39: ...wires preparing wire ends as shown in Figure i 23 and connect the shield to the ground terminal of the drive A E B C D A Drive side B Insulation C Control device side D Shield sheath insulate with ta...

Page 40: ...S7 24 Vdc SP SN External 24 Vdc 10 u Terminals A1 A2 and A3 Input Signal Selection Terminals A1 A2 and A3 can be used to input either a voltage or a current signal Select the signal type using jumper...

Page 41: ...ucer Example of retrofit application where an external power supply is used Set Jumper S1 to the I Position 4 20 mA for the iQpump drive default V I A1 A2 A3 Jumper S1 V 4 20 mA Transducer Output AC A...

Page 42: ...log Input A2 A2 used for water level or suction pressure transducer Set jumper S1 to the I position for the last iQpump drive on the network All other iQpump drives should have S1 set to the V positio...

Page 43: ...output for both terminals Table i 14 Jumper S5 Settings Terminal Voltage Output Current Output Terminal AM AM FM V I AM FM V I Terminal FM AM FM V I AM FM V I Table i 15 Parameter H4 07 and H4 08 Det...

Page 44: ...gits MM Set the month with two digits DD Set the day with two digits HH MM Set the hours and minutes with two digits for each Note Set in 24 hour clock time After initial setup the time will display i...

Page 45: ...possible in the Clock Adjustment Mode Set the current time Check the time set to the drive Real Time Clock Table i 17 illustrates how to set the Real Time Clock manually Table i 17 Manual Clock Adjus...

Page 46: ...display shown in step 5 and the alarm LED will be OFF ALM Entry accepted n o4 17 Real Time Clock Setting Resetting RTC to Factory Default No Addr Hex Name Description Values o4 17 3100 Set Reset Real...

Page 47: ...y reference input source depends on b1 01 5 Up Arrow Key Scrolls up to display the next item selects parameter numbers and increments setting values 6 Down Arrow Key Scrolls down to display the previo...

Page 48: ...mmunication Inputs of the drive OP Displayed when the frequency reference is assigned to option card connected to the drive AI Displayed when the function reference is assigned to an analog input OFF...

Page 49: ...ssing F1 switches Monitor mode 1 Displayed when in Frequency Reference Mode 2 Displayed when in Frequency Reference Mode and Monitor Mode u ALARM ALM LED Displays Table i 19 ALARM ALM LED Status and C...

Page 50: ...02 0 00Hz U1 91 0 0PSI DRV Monitor JOG Rdy LSEQ LREF Home FWD MONITR U1 02 0 00Hz U1 02 0 00Hz U1 91 0 0PSI DRV Output Freq Rdy LSEQ LREF Home FWD JOG Home F1 MODE U1 99 0 0sec U1 02 0 00Hz U1 91 0 0P...

Page 51: ...Default A1 01 Access Level Selection 0 to 3 2 Setting 0 Operation only Access to only parameters A1 01 A1 04 and all U monitor parameters Setting 1 User Parameters Access to only a specific list of pa...

Page 52: ...access by eliminating the need to scroll through multiple menus Setting 6008 Pressure Control Application Preset for Pressure Control applications Setting 6009 Pump Down Level Application Preset for...

Page 53: ...uency reference can be input by switching between the multi speed references in the d1 oo parameters entering the frequency reference on the operator keypad This selection will also switch PID setpoin...

Page 54: ...uires entering the frequency reference via the RS 485 422 serial communications port control terminals R R S S To setup the drive to receive the Auto Setpoint from serial communication set b1 01 to 2...

Page 55: ...Parameter Name Setting Range Default b1 02 Run Command Selection 1 0 to 3 6 to 8 0 Note 1 Settings 6 to 8 are available in drive software versions PRG 8552 and later 2 Settings 6 to 8 are not availab...

Page 56: ...op The stopping time is determined by the inertia and the friction in the driven system Setting 2 DC Injection Braking to Stop When the Run command is removed the drive will enter baseblock turn off i...

Page 57: ...already enabled by a digital input the drive will start operating with Speed Search Setting 1 Enabled This setting performs Speed Search when the Run command is entered The drive begins running the m...

Page 58: ...he PID controller output signal Normally a positive PID input feedback smaller than setpoint leads to positive PID output No Parameter Name Setting Range Default b5 09 PID Output Level Selection 0 1 0...

Page 59: ...i function digital inputs The various functions and settings are listed in Table i 22 No Parameter Name Setting Range Default H1 01 Multi Function Digital Input Terminal S1 Function Selection 1 to 9F...

Page 60: ...1 8E Multi Setpoint 2 8F Low Water Level 90 High Water Level 92 Reset Accum 95 Remove Drive Disable A8 Secondary PI Disable N O A9 Secondary PI Disable N C AA Secondary PI Inverse Operation AB Second...

Page 61: ...Secondary PI Feedback Low 72 Secondary PI Feedback High 80 Pump 2 Control 81 Pump 3 Control 82 Pump 4 Control 83 Pump 5 Control 84 Pump 6 Control 89 Output 1 Limit 8B Lube Pump or Digital Output Dela...

Page 62: ...n the feedback rises above the setpoint hysteresis level for the time set in P4 39 n H3 01 Terminal A1 Signal Level Selection Selects the input signal level for analog input A1 No Name Setting Range D...

Page 63: ...No Name Setting Range Default H3 07 Terminal A3 Gain Setting 999 9 to 999 9 100 0 H3 08 Terminal A3 Bias Setting 999 9 to 999 9 0 0 n H3 09 Terminal A2 Signal Level Selection Selects the input signal...

Page 64: ...meters H4 02 and H4 05 set the terminal FM and AM output signal level when the value of the selected monitor is at 100 Parameters H4 03 and H4 06 set the terminal FM and AM output signal level when th...

Page 65: ...eight drives can be networked together to provide for system redundancy and precise control When P6 01 0 the Flow Rate can come from another drive on the MEMOBUS Network Setting P9 40 to 0 Analog wil...

Page 66: ...he device For example a pressure sensor scaling might be 145 0 PSI at 20 mA output and would require setting P1 03 to 145 0 PSI Note Set this parameter prior to changing other parameters related to th...

Page 67: ...Default P1 10 Low Feedback Selection 0 to 2 0 Low feedback detection is enabled when P1 08 0 0 Drive is running in AUTO Mode including sleep boost and feedback drop detection standard PID b5 09 0 Run...

Page 68: ...and coast to a stop The digital output programmed to High Feedback H2 0o 96 closes The drive will also display the High Feedback High FB Sensed alarm The digital output will remain closed until the fa...

Page 69: ...vel for the time set in P3 09 the pump will be de staged No Parameter Name Setting Range Default P3 50 Pump 2 Frequency Shutdown Level 0 0 to 400 0 40 0 Hz n P3 60 Pump 3 Frequency Shutdown Level Sets...

Page 70: ...P4 06 The system can exit Pre charge 2 when the PID Feedback goes above the Pre charge Level 2 P4 32 in normal PID operation or below the P4 32 level in inverse operation Refer to Figure i 31 and Fig...

Page 71: ...ed The factory setting of this parameter requires pressing the AUTO key to start the drive after power loss WARNING Sudden Movement Hazard If the drive is running at power loss it will automatically i...

Page 72: ...HAND Mode No Parameter Name Setting Range Default P5 04 HAND Key Function Selection 0 1 1 Setting 0 Disabled Setting 1 Enabled n Q1 01 PID Controller Setpoint 1 Sets the PID setpoint for the controlle...

Page 73: ...overcurrent during operation If the application permits running the load in the reverse direction change the motor direction and the frequency reference while watching for abnormal motor oscillation...

Page 74: ...on Error Control data was not received for the CE detection time set to H5 09 CPF11 to CPF14 CPF16 to CPF19 Control Circuit Error CPF02 A D Conversion Error An A D conversion error or control circuit...

Page 75: ...being limited due to the Flow Rate U1 83 GF Ground Fault A current short to ground exceeded 50 of rated current on the output side of the drive Setting L8 09 to 1 enables ground fault detection HFB Hi...

Page 76: ...Port CN5 B oFC00 Option Card Connection Error at Option Port CN5 C Option compatibility error oFC01 Option Card Fault at Option Port CN5 C Option not properly connected oFC02 Option Card Fault at Opti...

Page 77: ...e braking resistor is too low rH Braking Resistor Overheat Braking resistor protection was triggered Fault detection is enabled when L8 01 1 disabled as a default rr Dynamic Braking Transistor The bui...

Page 78: ...ed off To remove an alarm trace and remove the cause and reset the drive by pushing the Reset key on the operator or cycle the power supply Refer to the drive User Manual for a complete list of causes...

Page 79: ...ack has gone above 21 mA or fallen below 3 mA Freq Ref Pump Min P1 06 Minimum Pump Frequency Reference Drive frequency reference is set lower than P1 06 Minimum Pump Frequency Freq Ref Thrust P4 12 Th...

Page 80: ...iting for Master NETSCAN Drive is waiting for a message from the master NMS Not Maintaining Setpoint The setpoint cannot be maintained and P1 17 is set to 1 oH Heatsink Overheat The temperature of the...

Page 81: ...with the voltage on the output side of the drive WLL Water Level Loss Water Level Loss WL SP PIAux Lost Switched to Net Analog Water Level Suction Pressure Aux PI Feedback Lost Network Water Level Su...

Page 82: ...stop Auto Tuning faults do not trigger a multi function digital output set for fault or alarm output An Endo error on the digital operator display indicates Auto Tuning has successfully completed wit...

Page 83: ...Check Displayed when the drive is determining whether the feedback will change abruptly when the drive enters Sleep Mode Drop Level is configured by P2 08 Delta Sleep Feedback Drop Level and P2 09 Fe...

Page 84: ...before the staging takes place Start Delay Adjust b1 11 Displayed when the drive start is being delayed by Coast to Stop with Timer Back Spin Timer This time is adjusted by parameter b1 11 Coast to S...

Page 85: ...g approx 40 Continuous regenerative torque approx 20 4 approx 125 with dynamic braking resistor option 2 10 ED 10s Braking Transistor Models 2A0004 to 2A0138 4A0002 to 4A0072 and 5A0003 to 5A0052 have...

Page 86: ...gs Specifications may vary with different motors and with changing motor temperature Contact Yaskawa for consultation 2 Disable Stall Prevention during deceleration L3 04 0 when using a regenerative c...

Page 87: ...rature input H3 0o 21 No Name Description b1 02 Run Command Selection 1 0 HOA keypad 1 Digital input terminals 2 MEMOBUS Modbus communications 3 Option PCB 6 AUTOKey Term 7 AUTOKey Serial 8 AUTOKey Op...

Page 88: ...ference upper limit as a percentage of the maximum output frequency No Name Description d2 02 Frequency Reference Lower Limit Sets the frequency reference lower limit as a percentage of the maximum ou...

Page 89: ...gnal Level Selection 0 0 to 10 V 1 10 to 10 V 2 4 to 20 mA 3 0 to 20 mA Note Use Jumper S1 to set input terminal A2 for a current or voltage input signal H3 10 Terminal A2 Function Selection Sets the...

Page 90: ...ock Time Sets the minimum wait time for residual motor voltage decay before the drive output reenergizes after performing Power Loss Ride Thru Increasing the time set to L2 03 may help if overcurrent...

Page 91: ...mperature Setting Enter the ambient temperature This value adjusts the oL2 detection level No Name Description L8 35 Installation Method Selection 0 IP00 Open Chassis enclosure 1 Side by Side mounting...

Page 92: ...P1 17 If P1 17 is set to 1 Fault and digital out the drive will coast to stop This function is active when the drive is running during AUTO Mode When P1 01 is set to 3 MEMOBUS network the function is...

Page 93: ...s the increased deceleration rate after Anti No Flow is detected No Name Description P2 25 Anti No Flow Release Level Sets the amount below the setpoint which the feedback must drop to disengage the A...

Page 94: ...r removing contactor pumps 0 Last in first out LIFO 1 First in first out FIFO No Name Description P3 40 Pre Charge Lag Pump Select Selects which of the lag pumps can come on during a pre charge 0 Disa...

Page 95: ...ump Active During Run 0 Disabled 1 Active During Run No Name Description P4 31 Lube Pump Digital Output Delay Timer Sets the amount of time to delay the drive output and to energize the digital output...

Page 96: ...time set in P9 15 before the lead drive will send a request to be removed from the system via the iQPump MEMOBUS network When P9 12 is set to 2 and the delta feedback feedback minus setpoint has exce...

Page 97: ...iption Q4 06 Wake Up Water Level Sets the level above which the water needs to rise for more than the time set in Q4 07 for the drive to wake up after being put to sleep via parameter Q4 04 Minimum Wa...

Page 98: ...oltage Directive To comply with the Low Voltage Directive be sure to meet the following conditions when combining this drive with other devices n Area of Use Do not use drives in areas with pollution...

Page 99: ...044 FWH 250A 250 4A0058 FWH 250A 250 4A0072 FWH 250A 250 4A0088 FWH 250A 250 4A0103 FWH 250A 250 4A0139 FWH 350A 350 4A0165 FWH 400A 400 4A0208 FWH 500A 500 4A0250 FWH 600A 600 4A0296 FWH 700A 700 4A0...

Page 100: ...ng conditions must be met to ensure continued compliance with guidelines Installation Method Verify the following installation conditions to ensure that other devices and machinery used in combination...

Page 101: ...rthing conductor or a protective earthing conductor with a cross section of at least 10 mm2 Cu or 16 mm2 Al must be used Failure to comply may result in death or serious injury C B A A Braided shield...

Page 102: ...panel E Drive F Motor cable braided shield cable max 10 m G Motor H Cable shield ground I Cable clamp J Ground plate scrape off any visible paint K EMC noise filter Figure i 36 EMC Filter and Drive In...

Page 103: ...l UL Listed closed loop crimp terminals are specifically required when wiring the drive main circuit terminals on models 2A0110 to 2A0415 4A0058 to 4A1200 and 5A0041 to 5A0242 Use only the tools recom...

Page 104: ...311 TP 060 100 051 266 2 0 2P 70 10 TD 323 TD 312 TP 080 100 054 036 2A0250 3 0 2P M12 80 L12 YF 1 YET 300 1 TD 323 TD 312 TP 080 100 051 558 4 0 2P 100 L12 TD 324 TD 312 TP 100 100 051 560 250 2P 15...

Page 105: ...952 TP 014 100 051 261 4 R22 6 AD 953 TP 022 100 051 262 4A0058 6 M8 R14 8 YA 5 AD 952 TP 014 100 054 035 4 R22 8 AD 953 TP 022 100 051 263 4A0072 4 M8 R22 8 YA 5 AD 953 TP 022 100 051 263 3 R38 8 AD...

Page 106: ...1 277 600 4A0362 3 0 2P M12 80 L12 YF 1 YET 300 1 TD 323 TD 312 TP 080 100 051 558 4 0 2P 100 L12 TD 324 TD 312 TP 100 100 051 560 250 2P 150 L12 TD 325 TD 313 TP 150 100 051 562 300 2P 350 2P 180 L12...

Page 107: ...ause cannot be identified Yaskawa recommends installing one of the following types of branch circuit protection to maintain compliance with UL508C Semiconductor protective type fuses are preferred Alt...

Page 108: ...0A 1600 600 V Class 5A0003 2 3 6 15 6 25 10 FWP 50B 50 5A0004 3 5 1 15 8 15 FWP 50B 50 5A0006 5 8 3 15 12 20 FWP 60B 60 5A0009 7 5 12 20 20 35 FWP 60B 60 5A0011 10 16 30 25 45 FWP 70B 70 5A0017 15 23...

Page 109: ...ly shall be a UL listed Class 2 power supply source or equivalent only Table i 29 Control Circuit Terminal Power Supply Input Output Terminal Signal Power Supply Specifications Digital inputs S1 to S8...

Page 110: ...speed including zero speed externally cooled motor The motor overload detection level oL1 is constant over the entire speed range 6 Standard fan cooled motor 50 Hz Selects protection characteristics f...

Page 111: ...i 9 Standards Compliance This Page Intentionally Blank YASKAWA TOEP YAIP1W 02E YASKAWA AC Drive iQpump1000 Installation Start up Guide 111...

Page 112: ...on August 2016 4 All Updated documentation to support drive software version PRG 8554 April 2016 3 All Updated documentation to support drive software version PRG 8553 October 2015 2 All Revision Docu...

Page 113: ......

Page 114: ...nd Phone 66 2693 2200 Fax 66 2693 4200 http www yaskawa co th YASKAWA ELECTRIC CHINA CO LTD 22F One Corporate Avenue No 222 Hubin Road Shanghai 200021 China Phone 86 21 5385 2200 Fax 86 21 5385 3299 h...

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