EQ7 Quick Setting Guide - TECO
Contents
1.2. Appendix EQ7 Parameter Overview Fundamental Functions For full parameter list refer to the EQ7 Instruction Manual Chapter 4 F codes Fundamental Functions Parameters in QUICK SET menu are shaded in this table Code Name Data setting range g g Vit Control Setting w o Y 00 Data Protection Disable both data protection and digital reference protection Enable data protection and disable digital reference protection Disable data protection and enable digital reference protection Enable both data protection and digital reference protection F F01 Frequency Command 1 SA MC N Y Y Y MR POZ keys on keypad Voltage input to terminal 12 10 to 10 VDC Current input to terminal C1 4 to 20 mA DC Sum of voltage and current inputs to terminals 12 and C1 Voltage input to terminal V2 10 to 10 VDC Terminal command UP DOWN control ai P ie al keys on keypad balanceless bumpless switching available 11 Digital input interface card option 12 Pulse train input 2 Keypad Forward direction F02 Operation Method 0 Keypad Y Y Y 3 Keypad Reverse direction w v oo e w v o e Rated Voltage at Base 0 Output a voltage in proportion to input voltage N Y Y 230 460 Frequency 1 80 to 240 V Output an AVR controlled voltage for 230 V series F06 Maximum Output Voltage 1 Y2 6230 ey N 460 Change when Data copying Default setting 1 Terminal command FWD or REV 1 Ol 160
3. EQ7 Drive Frequency Reference Register 1797 Decimal Bit O Bit 15 0 00 120 00 Hz Examples Frequency Reference Command 10 00 Hz EQ7 Drive Address 01 Command String hexadecimal 01 06 07 05 03 E8 98 01 To set the frequency reference to 10 00 a value of 1000 O3E8h has to be send to the EQ7 Drive Frequency Reference Command 30 00 Hz EQ7 Drive Address 01 Command String hexadecimal 01 06 07 05 OB B8 9F FD To set the frequency reference to 30 00 a value of 3000 OBB8h has to be send to the EQ7 Drive Frequency Reference Command 60 00 Hz EQ7 Drive Address 01 Command String hexadecimal 01 06 07 05 17 70 96 AB To set the frequency reference to 60 00 a value of 6000 1770h has to be send to the EQ7 Drive Note The last 2 bytes of the command strings consist of a CRC16 checksum please refer to the Refer to the EQ7 Communications Manual for additional information 8 Operation Method Configuration Run Stop The EQ7 Drive offers users several choices to run and stop the drive from different sources The most commonly used methods are described in the next sections Operation Method This function sets the operation method Run Stop source Setting Range 0 3 To set parameter F02 Press PRG key next select QUICK SET or DATA SET with UP DOWN and keys and press the FUNC DATA key Inthe parameter list move cursor to F02 with UP DOWN keys and press FUNC DATA key to select
4. To retain an alarm output signal ALM issued on inverter s programmable output terminals by the protective function or to keep the keypad alive even if the main power has shut down connect these terminals to the power supply lines Without power supply to these terminals the inverter can run Normally no need to be connected Use these terminals when the inverter is equipped with a high power factor regenerative PWM converter RHC series When connecting an optional DC reactor DCR remove the jumper bar from the terminals P1 and P EQ7 2100 C EQ7 4100 C and larger HP models require a DCR packed with the EQ7 to be connected Use a DCR when the capacity of the power supply transformer exceeds 500 kVA and is 10 times or more the inverter rated capacity or when there are thyristor driven loads in the same power supply line EQ7 2015 C EQ7 4015 C and smaller HP models have a built in braking resistor DBR between the terminals P and DB When connecting an external braking resistor DBR be sure to disconnect the built in one A grounding terminal for a motor Use this terminal if needed For control signal wires use twisted or shielded twisted wires When using shielded twisted wires connect the shield of them to the common terminals of the control circuit To prevent malfunction due to noise keep the control circuit wiring away from the main circuit wiring as far as possible recommended 10 cm 3 9 inches or more Never install t
5. Enables the 9 and keys to run the motor in Keypad the forward and reverse directions and stop the motor Enables input terminal commands FWD and REV to 1 oa command FWD or run the motor in the forward and reverse directions and stop the motor Keypad Enables the 6 and e keys to run the motor in the 2 Forward rotation forward direction and stop it Running the motor in the reverse direction is not possible Keypad Enables the and amp keys to run the motor in the 3 Reverse rotation reverse direction and stop it Running the motor in the forward direction is not possible 8 1 Run Stop from Keypad Default Setting F02 0 Run from digital operator Keypad is the default setting Use the 9 key to run the drive in forward direction and the key to run the EQ7 drive in reverse direction Note to disable reverse direction set parameter H08 to 1 Press amp key to stop the EQ7 drive Note Stop method can be set with parameter H07 default is ramp to stop 8 2 Run Stop from External Switch Contact or Pushbutton F02 1 Use an external contact or switch to Run and Stop the EQ7 drive Permanent Switch Contact Control Terminals User Terminals Connect shield to ground terminal 20 Momentary Contacts Push Buttons Use push button momentary switch to Run and Stop the EQ7 drive F02 Operation Method 1 E07 Terminal X7 Function 6 Y4 V2 FM Y2 Control Term
6. REV and other commands for digital input 4 Write function data 22 Communications Link Function odo 1 Fnabled RS485 Pot PR _ _ ee Fo ce___ __ Enabled RS485 Pot _ C s Fnebled RS485 Pont Enabled RS485 Pot 1 C a Fnabled RS485 Porta OR 5 Enabled RS485 Pon 2 Enablod RS485 Port 6 rouca EnaweorRS4e5 Pon 8 Fnablea RS485 Pon 2 Enabled RS485 Pon 3 See Parameter y11 y20 forRS485 communication setup Command Register EQ7 Drive Command Register 1798 Decimal Bit 0 Run Forward Bit 1 Run Reverse Bit 2 Bit 15 Refer to the EQ7 Drive AC Drive Instruction Manual Examples Run Forward Command EQ7 Drive Address 01 Command String hexadecimal 01 06 07 06 00 01 A9 7F Run Reverse Command EQ7 Drive Address 01 Command String hexadecimal 01 06 07 06 00 02 E9 7E Stop Command EQ7 Drive Address 01 Command String hexadecimal 01 06 07 06 00 00 68 BF Note The last 2 bytes of the command strings consist of a CRC16 checksum please refer to the Refer to the EQ7 Communications Manual for additional information 23 9 Motor and Application Specific Settings lt is essential that before running the motor the motor nameplate data matches the motor data in the EQ7 drive 9 1 Set Motor Name Plate Data P02 P03 F11 The nominal motor rated capacity is set at the factory Please verify that the motor name plate data matches the motor rated capacity
7. next page Switches the operation modes of the inverter Shifts the cursor to the right for entry of a numerical value Pressing this key after removing the cause of an alarm switches the inverter to Run mode This key is used to reset settings or screen transition A and UP and DOWN keys which are used to select the setting items or change the function code data Programming Function Data key which switches the operation mode as follows eys E In Run mode Pressing this key switches the information to be displayed concerning the status of the inverter output frequency Hz output current A output voltage V etc E In Programming mode Pressing this key displays the function code and establishes the newly entered data E In Alarm mode Pressing this key displays the details of the problem indicated by the alarm code that has come up on the LED monitor Starts running the motor in the forward rotation Starts running the motor in the reverse rotation Operation keys Stops the motor Holding down this key for more than 1 second toggles between local and remote modes Lights while a run command is supplied to the inverter Details of Indicator Indexes Hz A V r min m min kW X10 min sec PID v v v v v v v v v v v lt ndicators for the unit of number on the LED monitor lt _ Indicators for the running status a a a a a a a a and run command source FWD REV STOP REM LOC COMM JOG HAND a R
8. E 07 Drive Series QUICK SETTING GUIDE Available Documentation 1 EQ7 Quick Setting Guide Print Copy 2 07 Instruction Manual Print Copy 3 EQ7 User Manual PDF Visit our website at www tecowestinghouse com Variable Torque 0 5 1000HP Constant Torque 0 5 900 HP JE Read all operating instructions before installing connecting wiring operating servicing or inspecting the inverter B Ensure that the quick setting guide is made available to the end user of the inverter NE This guide is subject to change without prior notice DOCUMENT TWMC EQ7QSG REV 11 02 12 Preface The EQ7 product is designed to drive a three phase induction motor Read through this Quick Setting Guide document to become familiar with proper handling and correct use Improper handling might result in incorrect operation shorter life cycle or failure of this product as well as the motor Have this Quick Setting Guide delivered to the end user of this product Keep this Quick Setting Guide in a safe place accessible by only people in connection with the VFD until this product is no longer being used Read this Quick Setting Guide in conjunction with EQ7 Instruction Manual and User Manual All EQ7 documentation is subject to change without notice Be sure to obtain the latest editions for use or visit our website at www tecowestinghouse com Available Documentation 1 EQ7 Quick Setting Guide 2 EQ7 Instruction Manual 3 EQ7 User Man
9. Fuse a cau e Contactor LL L Eo L1 L2 L3 OO Use L1 L2 L3 for mu 30 Input Power 30 Induction ground Use L1 amp L3 for_ motor L 5 34 19 Input Power Ig 3 1 Refer to page 12 amp 13 for connecting a DC reactor from the terminals P1 and P 2 Make sure the drive is properly sized for single phase input consult factory Refer to Table 2 6 Recommended Wire Sizes in the EQ7 Instruction Manual ZA WARNING e Never connect power supply wires to the EQ7 drive output terminals U V and W Doing so and turning the power ON damages the inverter e Be sure to connect the grounding wires of the EQ7 drive and the motor to the ground electrodes Otherwise an electric shock could occur Check the following before powering on the EQ7 drive 1 Check that the wiring is correct In particular check the wiring to the EQ7 drive input terminals L1 R L2 S and L3 T and output terminals U V and W Also check that the grounding wires are connected to the grounding terminals G correctly See Figure 3 1 2 Check the control circuit terminals and main circuit terminals for short circuits or ground faults 3 Check for loose terminals connectors and screws 4 Check that the motor is separated from mechanical equipment 5 Make sure that all switches of devices connected to the inverter are turned OFF Powering on the inverter with any of those switches being ON may cause an unexpected motor operation 6 Check th
10. Motor Nameplate Dala ss ex aoe ear A aie aes 24 Appendix EG7 Parameter Overview Fundamental Functions sssss00 25 1 Drive Models Constant Torque CT Variable Torque VT HP Ratings Frame Variable Torque HP Constant Torque HP TEPATE Voltage EQ7 DRIVE EQ7 20P5 C Plastic EQ7 2001 C lastic EQ7 2002 C lastic EQ7 2003 C lastic EQ7 2005 C lastic EQ7 2007 C lastic EQ7 2010 C lastic EQ7 2015 C lastic soy EO7 2020 C asti EQ7 2025 C lastic EQ7 2030 C lastic EQ7 2040 C Plastic EQ7 2050 C Sheet Metal EQ7 2060 C Sheet Metal EQ7 2075 C 60 Sheet Metal EQ7 2100 C Sheet Metal EQ7 2125 C Sheet Metal EQ7 2150 C Sheet Metal EQ7 40P5 C Plastic EQ7 4001 C lastic EQ7 4002 C lastic EQ7 4003 C lastic EQ7 4005 C lastic EQ7 4007 C lastic EQ7 4010 C lastic EQ7 4015 C lastic EQ7 4020 C lastic EQ7 4025 C lastic EQ7 4030 C lastic EQ7 4040 C EQ7 4050 C EQ7 4060 C EQ7 4075 C EQ7 4100 C EQ7 4125 C EQ7 4150 C EQ7 4200 C EQ7 4250 C EQ7 4300 C EQ7 4350 C EQ7 4450 C EQ7 4500 C EQ7 4600 C EQ7 4700 C EQ7 4800 C CD O wooo i Pei MM Sheet Metal soo Sheet Metal 60 Sheet Metal I5 Sheet Metal Sheet Metal Sheet Meta 00 Sheet Meta Sheet Metal Sheet Metal Sheet Metal 00 450 Sheet Metal Sheet Metal Sheet Metai Sheet Metal Sheet Meta EQ7 4900 C Sheet Metal EQ7 41000 C 1000 900 _ Sheet Metal This table shows the Variable Torque and Constant Torque ratings for all EQ7 drive models The HP ratings marked
11. VV TING scissa erasan Ee Ea aE Aradi 4 2 1 MIO LINING NO lOS avissesccussnusasestenvoinedauentontanseinouaneieniauietnunameiestauielusdaneuleeteueieaeieeds 4 22 NING sa ze sita ok htt stat tot aet da Seats heath E ETE TTE EE Beat aaa att D 3 Input Power and Motor Connection ccccccccsssecssseecessesceseeseeseesenseesenseesenseesensees 6 4 LED Monitor LCD Monitor and KeyYS cccceesccesseceeseceeseeeesesenseeenseseaseneasesensenes 8 5 Check Motor Rotation and Direction ccccscsesseceeseeeseeeeseeenseeeeeeeenseeeesesensesones 11 6 USER Wiring Didra Misra a a A A 12 7 Speed Reference Command Configuration ccssssccseseecseseeseeneeseeneesenseeseaes 14 7 1 Reference from the Keypad cccccccsceceecccseeceeeceucecececeeeseuseneeeseeesuseneeesseesees 15 7 2 Reference from an Analog Signal 0 10V 0 20mA 4 20mA Speed Pot 16 7 3 Reference from Serial Communication RS485 ccccccsseccseeeeseeeeeeeeeseeeeeees 17 8 Operation Method Configuration Run StOp ccceseeeeseeceneeceneeeeneeseneesenees 19 BRUM STOD Irom The K CY OA isrnisg n a e a n NAJ 19 8 2 Run Stop from External Switch Contact or PUSNbuttONn cccccceeeeeeeeee eee 20 8 3 Run Stop from Serial Communication R8485 ccc ccecceeeeeeeeeeeeeeeeeeeeeeees 22 9 Motor and Application Specific SettingS cccscccccsssecseseeceeseeseeseeeeeseesenneeseaes 24 9 1 Set
12. at safety measures are taken against runaway of the equipment Also ensure that all safety guards are in place to prevent human injury 4 LED Monitor LCD Monitor and Keys The keypad allows you to start and stop the motor view various data including maintenance information and alarm information configure function codes monitor I O signal status copy data and calculate the load factor 7 segment LED Monitor r min m min kW X10 r min sec PID LCD monitor E ee gt Indication units ND REV STOP REM LOC COMM JOG HAJ RUN key forward LED light UP key Function Data key DOWN key Remote Local key Table 4 1 Overview of Keypad Functions Five digit 7 segment LED monitor which displays the following according to the operation modes E In Run mode Running status information e g output frequency current and voltage E In Programming mode Same as above E In Alarm mode Alarm code which identifies the alarm when the protective function is activated LCD monitor which displays the following according to the operation modes Monitors pay g g p E In Run mode Running status information E In Programming mode Menus function codes and their settings E In Alarm mode Alarm code which identifies the alarm when the protective function is activated E a In Run mode these show the unit for the number displayed on the 7 segment LED monitor and E a the running status information on the LCD monitor For details see the
13. de selection Output in current 4 to 20 mA DC Output in current 0 to 20 mA DC Voltage adjustment 0 to 300 lt copying Select a function to be monitored from the followings Output frequency 1 before slip compensation Output frequency 2 after slip compensation Output current Output voltage Output torque Load factor Input power PID feedback amount PV PG feedback value DC link bus voltage Universal AO Motor output Calibration PID command SV PID output MV Col OP OT Oe Ne I Positional deviation in synchronous run mode F32 Analog Output FM2 0 Output in voltage 0 to 10 VDC 1 Output in current 4 to 20 mA DC 2 Output in current O to 20 mA DC i a ennon ev fo F35 Analog Output FM2 See F31 for selection 0 16 Mode selection 17 Positional deviation in synchronous run mode N N F37 5 Load Selection Variable torque load N Y 1 Y N Auto Torque Boost Constant torque load Auto Energy Saving Auto torque boost Operation 1 Auto energy saving Variable torque load during ACC DEC Auto energy saving Constant torque load during ACC DEC Auto energy saving Auto torque boost during ACC DEC F38 Stop Frequency 0 Detected speed N Y N N Detection mode 1 Reference speed Y Applicable N Not Applicable 5 Refer to EQ7 Instruction Manual F37 parameter description for detailed Load and V F Pattern Selection 27 Vector co C
14. e wiring change repeat Step 5 and recheck motor direction 6 User Wiring Diagram MCCBor ag 13 Power supply RCD JELCB MC FUSE 200 V class series Pa 200t0240V PLIR Mor 50 60 Hz 400 V class series SOLS Q M 380 to 480 V aa 50 60 Hz fo i pE OLJ T Ree eee as _ 7 ORO ME Auxiliary control power input 3 OTO Power switching connector CN UX 10 Auxiliary fan power input 4 x R1 Fan power supply switching connector PTI CN RCN W 10 Grounding terminal OO G G ee Grounding terminal 7 L Se ee ee o ee o ee s ee we ee ee oo ee ee o u s ee oe oe nr ete ere 8 Analog input Control circuit Potentiometer power supply 3 j A13 10 VDC 30C Contact outputs 9 Voltageinputfor o 2 o 2084 Alarm output frequency setting i a EE 12 30 30A for any alarm 0 to 10 VDC Hc ai 0 to 10 VDC Pt Voltage input for emd IV AX terminal frequency setting MEL i function Oto 10vDoC TOD BE ont T 7 Transistor outputs 9 Current input for a i C1 a frequency setting m at Motor overload early warning 4to20mADC i PTCINTC Freguency speed detected SWS 11 Frequency speed arrival 0 to 20 mA DC Safety relay module complying with more than EN954 1 EN ISO13849 1 Cat 3 Digital input i Run forward command Run reverse command Digital input common t
15. erminal Select multi frequency 0 to 1 step 1S Select multi frequency 0 to 3 step Eee RS 485 COM port 2 Select multi frequency 0 to 7 step eS TB Select multi frequency 0 to 15 step pa tS Select ACC DEC time 2 steps pe Select ACC DEC time 4 steps tH Fi ee Reset alarm 7 UT Digital input common terminal i RS 485 COM port 1 RJ 45 prec An for keypad DBR Dynamic Braking Resistor DCR DC Reactor RCD Residual current operated s protective device ELCB Earth Leakage Circuit Breaker SW3 MC Magnetic Contactor 11 MCCB Molded Case Circuit Breaker 12 Inverter running Common terminal fa s e ie 7 I Analog frequency n meter a E E a i z A asccsses lye Analog frequency 11 meter i Data transmission 2 3 4 D 6 7 8 9 RCD earth leakage circuit breaker ELCB with overcurrent protection function in the primary circuit of the inverter to protect wiring Ensure that the circuit breaker capacity is equivalent to or lower than the recommended capacity Install a magnetic contactor MC for each inverter to separate the inverter from the power supply apart from the MCCB or RCD ELCB when necessary Connect a surge absorber in parallel when installing a coil such as the MC or solenoid near the inverter The RO and TO terminals are provided for inverters with a capacity of 2HP or above
16. gh EQ7 2040 C EQ7 4040 C should be mounted with four screws or bolts using screw holes A or B shown below Note that at each of the top and bottom of the inverter the two screws or bolts should be located in a bilaterally symmetrical position 2 2 Wiring Follow the procedure below In the following description the inverter has already been installed Removing and mounting the front cover and the wiring guide 1 For inverters of 40 HP or below D First loosen the front cover fixing screw slide the cover downward holding both sides tilt it forward and then pull it upward as shown below While pressing the wiring guide upward pull it out and forward After carrying out wiring see Section 2 3 of the EQ7 Instruction Manual put the wiring guide and the front cover back into place in the reverse order of removal OP E a While pressing the wiring guide upward pull it out toward you Front cover fixing screw Front cover Wiring guide Figure 2 2 Removing the Front Cover and the Wiring Guide e g EQ7 4020 C 2 For inverters of 50 to 1000 HP D Loosen the four front cover fixing screws hold the cover with both hands slide it upward slightly and pull it forward as shown below After carrying out wiring see Section 2 3 of the EQ7 Instruction Manual align the screw holes provided in the front cover with the screws on the inverter case and then put the front cover back into place in the reverse
17. hange when Default setting F39 Stop Frequency 0 00 to 10 00 s Holding Time F40 Torque Limiter 1 1 300 to 300 999 Disable 12 a ose php F42 Drive Control Selection 1 0 V f control with compensation inactive 1 Dynamic torgue control 5 Vector control without speed sensor PG 6 Vector control with speed sensor PG F43 Current Limiter 0 Disable No current limiter works Mode selection 1 Enable at constant speed Disable during ACC DEC 2 Enable during ACC constant speed operation Current Limiter Level 20 2007 Arne T a MU as the rated output Le KEN F50 Electronic Thermal Overload 0 Braking resistor built in type 1 to 9000 kW Y Y1Y2 7 Y Protection for Braking OFF Disable Resistor Discharging capability CM al A A IED Poe rotenone F80 Switching between LD MD 1 LD Variable Torque mode and HD drive modes 2 MD Constant Torque mode 0 HD CT Vector mode Y Applicable N Not Applicable 6 160 for inverters of 7 5 HP or below 130 for those of 10 HP or above 7 0 for inverters of 15 HP or below OFF for those of 20 HP or above IMPORTANT For full parameter list refer to the EQ7 Instruction Manual Chapter 4 28 AC Drive Series IV G L BO or Company PE pP fu RA ZA EC 17 A Ern eS 4 gt 7 u o N l mY N Je i i r 7 N j a lt 4 ww JEA A g N a d N y s al
18. hem in the same wire duct When crossing the control circuit wiring with the main circuit wiring set them at right angles The connection diagram shows factory default functions assigned to digital input terminals X1 to X7 FWD and REV transistor output terminals Y1 to Y4 and relay contact output terminals Y5A C and 30A B C 10 Switching connectors in the main circuits For details refer to Instruction manual section 2 3 4 Switching connectors later in this section 11 Slide switches on the control printed circuit board control PCB Use these switches to customize the inverter operations For details refer to Section 2 3 6 of the instruction manual Setting up the slide switches 12 When the Enable input function is not to be used keep terminals EN1 PLC and terminals EN2 PLC short circuited using jumper wires For opening and closing the hardware circuit between terminals EN1 and PLC and between EN2 and PLC use safety components such as safety relays and safety switches that comply with EN954 1 or EN 1S013849 1 Category 3 or higher 13 To bring the inverter into compliance with the European Standard Low Voltage Directive EN61800 5 1 be sure to insert the specified fuse in the primary circuit of the inverter 7 Speed Reference Command Configuration The EQ7 Drive offers users several choices to set the speed reference source The most commonly used methods are described in the next secti
19. inals z211 222222 Command FWD User Terminals ie _ START G PUSH BUTTON M Connect shield to Homentary ground terminal lt j X7 STOP Programmed to PUSH BUTTON Hold Function Momentary Note Stop method can be set with parameter H07 default is ramp to stop 21 8 3 Run Stop from Serial Communication RS485 H30 6 or 8 EWDIREVI CM IDX 1 SD_ Ld ad fd dl bcd al cl al Aad ad 8 6 8 0 8 9 8 6 8 6 elelejejeleleeee ieg Control t User Terminals i lt SD Cable Me Shield RS485 PLC Computer Connection LI To Run Stop Operation Command the EQ7 drive via serial communication parameter H3O has be set to either a 6 for Run Stop via serial communication only or to 8 for Run Stop Operation Command and Freguency Reference Freguency Command Default Communication Setting is Address 1 9600 Bits sec 1 Start Bit 1 Stop Bit and No Parity This function sets the communication link function to select run stop and freguency reference control Setting range 0 to 8 To set parameter H30 Press PRG key next select QUICK SET or DATA SET with UP DOWN 4 and keys and press the FUNC DATA key Inthe parameter list move cursor to H30 with UP DOWN keys and press FUNC DATA key to select The serial communication link function uses RS485 Modbus RTU protocol and allows for 1 Monitoring data monitoring function data check 2 Frequency setting 3 Operation command FWD
20. input interface card option For details refer to the Digital Input Interface Card Instruction Manual 12 Enable the Pulse train input PIN command assigned to digital input terminal X7 E07 48 or a PG interface card option Enable the Nisi input to terminal V2 10 to 10 VDC maximum frequency obtained 7 1 Reference from Keypad Default Setting F01 0 Speed reference from digital operator Keypad is the default setting Use the N and V keys to change the speed reference 7 2 Reference from External Analog Signal 0 10V 0 20mA 4 20mA Analog Reference 0 10 V Setting F01 1 Control Terminals j User Terminals Connect shield to ground terminal 0 10 V Analog Reference Potentiometer Speed Pot Setting F01 1 Control Terminals a User Terminals 7 Connect shield to ground terminal Potentiometer 1 5K Ohm Analog Reference 0 20mA 4 20mA Setting F01 2 Ysalysc Ya Lyra 1 VI JEMTJEV2I X5 EN1 EN2 Common 0V T11 gt J L lt Analog Input C1 Control Terminals User Terminals o S Connect shield to ground terminal u 0 20mA 4 20mA Note When using a 0 20mA signal set parameter C40 to 1 7 3 Reference from Serial Communication RS485 H30 6 or 8 EWDIREVI CM IDX 1 SD_ Ld ad fd dl bcd al cl al Aad ad 8 6 8 0 8 9 8 6 8 6 elelejejeleleeee ieg Control t User Terminals i
21. lt SD Cable Me Shield RS485 PLC Computer Connection LI To set the speed reference for the EQ7 drive via serial communication parameter H3O has be set to either a 4 for freguency command via serial communication only or to 8 for Run Command and Freguency Reference Freguency Command Default Communication Setting is Address 1 9600 Bits sec 1 Start Bit 1 Stop Bit and No Parity Communications Link Function This function sets the communication link function to select run stop and freguency reference control Setting range 0 to 8 To set parameter H30 Press PRG key next select QUICK SET or DATA SET with UP DOWN and 7 keys and press the FUNC DATA key Inthe parameter list move cursor to H30 with UP DOWN keys and press FUNC DATA key to select The serial communication link function uses RS485 Modbus RTU protocol and allows for 1 Monitoring data monitoring function data check 2 Frequency setting 3 Operation command FWD REV and other commands for digital input 4 Write function data Communications Link Function o mw S E Pont PR _ 2 T E Pon _ C s Frablod RS485 Por Enabled RS485 Port 4 Enabled RS485 Port2 FOR 5 Enabled RS485 Port2 Enabled RS485 Port1 6 Focs Enabled RS485 Port 2 8 Enabled RS485 Port2 Enabled RS485 Pot 2 See Parameter y11 y20 forRS485 communication setup Frequency Reference Command Register
22. ons Frequency reference command is selected with parameter F01 This function sets the frequency command source Setting Range 0 to 12 To set parameter F01 Press PRG key next select QUICK SET or DATA SET with UP DOWN and keys and press the FUNC DATA key Inthe parameter list move cursor to F01 with UP DOWN keys and press FUNC DATA key to select Enable S 9 keys on the keypad Enable the voltage input to terminal 12 0 to 10 VDC maximum frequency obtained at 10 VDC Enable the current input to terminal C1 0 to 20mA 4 to 20 mA DC maximum frequency obtained at 20 mA DC SW5 on the control PCB should be turned to the C1 side factory default Enable the sum of voltage 0 to 10 VDC and current inputs 4 to 20 mA DC given to terminals 12 and C1 respectively See the two items listed above for the setting range and the value required for maximum frequencies SW5 on the control PCB should be turned to the C1 side factory default Note If the sum exceeds the maximum frequency F03 the maximum frequency will at 10 VDC Enable UP and DOWN commands assigned to the digital input terminals The UP command any of E01 to E07 17 and DOWN command any of E01 to E07 18 should be assigned to any of digital input terminals X1 to X7 For details refer to the descriptions of E01 through E07 Eu Enable A V keys on the keypad balanceless bumpless switching available 44 Enable a digital
23. order of removal Tip To expose the control printed circuit board control PCB open the keypad enclosure Front cover fixing screws Front cover Front cover fixing screws Tightening torque 15 9 Ib in 1 8 Nem M4 31 0 Ib in 3 5 Nem M5 Figure 2 3 Removing the Front Cover e g EQ7 4050 C 3 Input Power and Motor Connection Checking prior to applying power Fig 3 1 below shows the electrical connections for the input power and motor terminals for various EQ7 DRIVE models Verify the input power and motor terminals of the model you are installing WITH POWER OFF make the appropriate connections Make sure to follow good wiring practices and all applicable codes Ensure that the equipment Is grounded properly as shown DANGER LETHAL VOLTAGES ARE PRESENT Before applying power to the EQ7 drive ensure that the terminal cover is fastened and all wiring connections are secure After the power has been turned OFF wait at least ten minutes until the charge indicator extinguishes completely before touching any wiring circuit boards or components WARNING DO NOT CONNECT ANY OF THE FOLLOWING TERMINALS TO EARTH GROUND ajaisin DB P1 N 1 4 Li R L2 S L3 T ey GJ GEN kd AA kl R L1 S L2 T L3 To change direction of wee motor rotation swap any Ground two of the three motor Ground leads Input lt Protection
24. shown in parameter P02 The setting should only be changed when driving a motor with a different capacity Range 0 01 to 1000 HP To set parameter P02 Press PRG key next select QUICK SET or DATA SET with UP DOWN 4 and keys and press the FUNC DATA key Inthe parameter list move cursor to P02 with UP DOWN keys and press FUNC DATA key to select Note For kW rating motor set P99 to 4 Default values vary based on the EQ7 drive model The motor rated current is set at the factory based on the EQ7 drive model Enter the motor rated current from the motor nameplate if it does not match the value shown in parameter P3 This function sets the motor rated current value of motor 1 Setting range 0 00 to 2 000A To set parameter P03 Press PRG key next select QUICK SET or DATA SET with UP DOWN and keys and press the FUNC DATA key Inthe parameter list move cursor to P03 with UP DOWN keys and press FUNC DATA key to select Overload Detection Level This function sets the operation current level for the electronic thermal O L Verify that the motor FLA on the motor nameplate matches the overload level shown in parameter F11 Setting range 1 to 135 of the rated current of the inverter To set parameter F11 Press PRG key next select QUICK SET or DATA SET with UP DOWN 4 and amp A keys and press the FUNC DATA key Inthe parameter list move cursor to F11 with UP DOWN keys and press FUNC DATA key to select 24
25. to 500 V Output an AVR controlled voltage for 460 V series 80 to 240 V Output an AVR controlled voltage NO for 230 V series 160 to 500 V Output an AVR controlled voltage for 460 V series Note Entering 0 00 cancels the acceleration time reguiring F09 Torque Boost 1 0 0 to 20 0 percentage with respect to Rated Voltage at Y Y Y N Base Frequency 1 Y Applicable N Not Applicable The shaded function codes are applicable to the quick setup 25 Drive control control Vector Control ef F10 Electronic Thermal Overload 1 For a general purpose motor with shaft driven cooling fan Y Protection for Motor 1 2 For an inverter driven motor non ventilated motor or motor Select motor characteristics with separately powered cooling fan HE F11 Overload detection level 0 00 Disable Yy 22 Y Y 1 to 135 of the rated current allowable continuous drive current of the motor n E memameconsemwosorsom ooo er F14 Restart Mode after 0 Trip immediately Trip after a recovery from power failure Trip after decelerate to stop Continue to run for heavy inertia or general loads Restart at the frequency at which the power failure occurred for general loads Restart at the starting frequency Momentary Power Failure Mode selection Frequency Limiter High 0 0 to 500 0 Hz tf Frequency Limiter Low 0 0 to 500 0 Hz KOME PFI F18 Bias 100 00 to 100 00 many comana n Hi F20 DC Braking 1 0 0
26. to 60 0 Hz ee a en MU MEN ME 0 to 80 SELE mode 4 0 to 100 HD mode eae eae er F22 DC Braking 1 Braking time 0 00 Disable 001 1930005 v v borr Faa DO Braking 1 Holding time 0 00t0 10005 v CY o r F25 SlopFreguenoy ___0019600 2 vfr F26 Motor Sound Variable Torgue Models Y Y 2 KHz Y Y Carrier frequency 0 5 to 30HP 0 75 to 16 KHz 40 to 100HP 0 75 to 10 KHz 125 to 900HP 0 75 to 6 KHz 1000HP 0 75 to 4 KHz Constant Torque Models 0 5 to 75HP 0 75 to 16 KHz 100 to 125HP 0 75 to 10 KHz 150 to 700HP 0 75 to 2 KHz 800 to 900HP 0 75 to 6 KHz CT V Models 0 5 to 75HP 0 75 to 16 KHz 100 to 7OOHP 0 75 to 10 KHz 800 to 900HP 0 75 to 6 KHz Y Applicable N Not Applicable The shaded function codes are applicable to the quick setup Code Name Data setting range Data copying Default J Change when lt 1 6 00 s for inverters of 40 HP or below 20 00 s for those of 50 HP or above 2 The motor rated current is automatically set See Table B P03 A17 3 5 0 min for inverters of 40 HP or below 10 0 min for those of 50 HP or above 4 0 to 100 for inverters of 7 5 HP or below refer to F80 for LD MD HD mode definition 26 Drive control control Control Setting Change when Name Data setting range F27 Motor Sound Tone Level O Inactive Level 1 Level 2 Level 3 F29 Analog Output FM1 Output in voltage 0 to 10 VDC Mo
27. ual Safety Precautions Read this Quick Setting Guide in conjunction with EQ7 Instruction Manual thoroughly before proceeding with installation connections wiring operation or maintenance and inspection Ensure you have sound knowledge of the device and familiarize yourself with all safety information and precautions before proceeding to operate the inverter Read EQ7 User Manual for detailed description on parameters For Advanced Installation Wiring and Programming of the IMPORTANT EQ7 drive refer to the EQ7 Instruction Manual and User Manual Safety precautions are classified into the following two categories in this manual Failure to heed the information indicated by this symbol may lead to A WARNING dangerous conditions possibly resulting in death or serious bodily injuries Failure to heed the information indicated by this symbol may lead to CAUTION dangerous conditions possibly resulting in minor or light bodily injuries and or substantial property damage Failure to ignore the information contained under the CAUTION title can also result in serious consequences These safety precautions are of utmost importance and must be observed at all times For Advanced Installation Wiring and Programming of the IMPORTANT EQ7 drive refer to the EQ7 Instruction Manual and User Manual Table of Contents 1 Drive Models Constant Torque CT Variable Torque VT HP Ratings 3 2 WMOUNUING aNd
28. unning FWD Running in the forward rotation status P REV Running in the reverse rotation NA STOP No output freguency Run command REM Remote mode source pf S COMM Via communications link RS 485 standard optional fieldbus option P OG Joggngmode HAND _ Via keypad This item lights also in local mode 5 Check Motor Rotation and Direction This test is to be performed solely from the EQ7 drive keypad Apply power to the EQ7 drive after all the electrical connections have been made and protective covers have been re attached At this point DO NOT RUN THE MOTOR the keypad should display as shown below in Fig 5 1 and the speed reference 0 00 should be blinking Important Motor rotation and direction only applies to standard AC motors with a base frequency of 60Hz Fig 5 1 Keypad Stopped Fig 5 2 Keypad Running Next use the N and V keys to set a speed reference of 10 00 Hz then press the 9 key see Fig 5 2 The motor should now be operating at low speed running in forward clockwise direction Next press e key to stop the motor If the motor rotation is incorrect power down the EQ7 drive After the power has been turned OFF wait at least ten minutes until the charge indicator extinguishes completely before touching any wiring circuit boards or components Using Safety precautions and referring to Fig 3 1 exchange any two of the three output leads to the motor U T1 V T2 and W T3 After th
29. with are suitable for constant torque V F Control Refer to EQ7 Instruction Manual chapter 11 for constant torque vector control HP ratings Qj gt oO O 460V NU O1 NO iN O Ni OI U N j ej ejN Or RB MM gt I NIAIO OINJI O gt al N or BRB W MMH gt I NI Oy s rPmos oO Ojo O Ojojoo O11 O01 2 Mounting and Wiring 2 1 Mounting Notes Mounting the EQ7 in a control cabinet 1 Remove all base fixing screws and case fixing screws from the top of the inverter 2 Move the top mounting base to the center of the inverter and secure it to the case fixing screw holes with the base fixing screws After changing the position of the top mounting base some screws may be left unused 3 Remove all base fixing screws from the bottom of the inverter move the bottom mounting base to the center of the inverter and secure it with the base fixing screws just as in step 2 Inverters of 450 HP or below have no case fixing screws on the bottom Base fixing screws Case fixing screws Base fixing screws Figure 2 1 Changing the Positions of the Top and Bottom Mounting Bases ACAUTION When changing the positions of the top and bottom mounting bases use only the specified screws Otherwise a fire or accident could occur 4 Mounting notes Refer to the EQ7 Instruction Manual Chapter 2 for detailed mounting Information The EQ7 2007 C EQ7 4007 C throu
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