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CT2000FG English manual

1. P47 Motor autotuning P49 Frequency setting P51 Frequency command selection P52 Operation command selection P52 Acceleraion deceleration time P53 Stop method P54 Jump frequency P54 Start frequency P55 DC break P56 Multi functional analog input P57 Analog output setting P58 Multi functional terminal setting DI terminal P59 Jog frequency P60 Multi speed frequency command P62 Multi functional relay setting P64 V F curve selecting P67 Frequency command limit P68 Torque boost torque boost gain P69 Motor rated current P70 PID control P74 The physical link P79 Data structure in communication P86 Preventing motor stalling function P90 Motor search speed function P92 Instantaneous current handling P93 Overheating protection P94 Dynamic brake P95 Carrier wave frequency P97 Data lock P99 Setting LCD keypad functions P101 Recovering factory settings 32 Gade Function Description reune Bae No value setting 6 Constant tables Ij Change during operation Modbus Dise Address 8 128 P49 Cd 00 Setting Input master speed frequency by keyboard 0 00 10 00 Yes frequency frequency command 1 400 00 HZ 0 Digital input by key board 1 Analog input 2 Analog input lag Selecting 3 Multi step function Cd 01 frequency 4 DIUP DOM
2. Code 5 bie Setting Factory Modbus operation Multi step function mode e CE 47 I Select liner or gradually operation method 0 6 0 No 275 P76 continuous operation selecting Multi step CE 48 function Reset procedure and time to Zero 0 1 0 Yes 276 P76 mode reset CE 49 53 Reserved 0 invalid 1 PID output is inverter output D control error 2 PID output is inverter output D control E feedback 0 4 0 No 282 P71 control e d 3 PID output is adjustment of inverter output D control error 4 PID output is adjustment of inverter output D control feedback CE 55 Proportional set ratio gain of P control 0 25 1 0 Yes 283 P72 control P CE 56 a time Set integral time of I control 0 360 1 0 Yes 284 P72 Maximum CE 57 value of Set maximum value of integral time set 0 100 100 Yes 285 P72 Integral maximum frequency as 100 control I cE sg Derivative set derivative time of D control 0 10 0 Yes 286 P72 time D Maximum ie EE value of Pe Peele oT E ouput SS 0 100 100 Yes 287 P72 maximum frequency as 100 output CE 60 S dju SB Adjust offset of PID output 100 0 Yes 288 P72 PID output CE 61 Set low pass filter time of PID output 0 10 0 Yes 289 P72 delay time PID output PID output forward reverse characteristics CE 62 characteristics 0 Normal 0 1 0 No 290 P72 selecting 1 Inverting CE 63 output Set amplify magnification of PID output _0 0 25 0
3. Code Paian Setting Factory Change during No value setting operation Cd51 Motor rated voltage 50 0 500 0 By specification X Cd52 Motor rated frequency FA 10 0 0 400 00 60 0HZ X casa eN 10 00 400 00 60 0HZ xX FMAX i Cd54 Maximum output voltage VMAX 10 0 500 0 By specification X Cd55 Middle output frequency FB 0 0 400 0 3 0HZ X Cd56 Middle output voltage VC 0 0 500 0 By specification X Cd57 Minimum output frequency FMIN 0 0 400 0 0 5HZ X Cd58 Minimum output voltage VMIN 0 0 500 0 By specification X Frequency command Code REASON Setting Factory Change during No value setting operation Cd17 Maximum frequency 10 00 400 00 60 00 X Cd18 Minimum frequency 0 00 100 00 0 00 X Description Set frequency command limit to restrict working frequency when motor is running Output Frequency Frequency maximum Frequency minimum FH Operation Frequency 67 10 V F control Torque mode Code Euan Setting Factory Change during No value setting operation Cd03 Torque mode 0 1 1 X Description Set initial torque automatical compensation function Cd03 0 Automatic torque compensation de active set boost by Cd07 Cd03 1 Initial torque boost active set maximum boost by Cd07 Torque compensation gain Code BEE Setting Factory Change during No value setting operation Cd07 Torque compensation gain 0 0 2 5 0 3 X Cd50 Torque co
4. Set CE64 to select PID output whether inverting when inverted is set to 1 72 11 PID control PID command acceleration deceleration time Code Function Setting Factory Change during No value setting operation PID target value acceleration CE65 deceleration time 0 0 25 5 0 0sec X Description Set PID target value acceleration deceleration time set time to accelerate from 0 to 100 When needed PID target value is the smooth curve not P W M wave when used Notice Due to PID output will pass by acceleration deceleration of Cd8 9 If mechanical quassation was caused by setting CE65 and acceleration deceleration User can reduce constant to avoid quassation Select position of P controller Code ERO Setting Factory Change during No value setting operation CE66 Position of P 0 1 0 x controller selecting PID delay position CE67 selecting 0 1 0 X Description Use CE66 to select position of P controller P I D controllers were divided to indivdual controller when set setting value to 0 P controller is located in front of I D controllers when set setting value to 1 enter I gt D controller after error passed by P controller Use CE67 to select PID delay position PID output delay when setting value is 0 D controls output dealy when setting value is 1 Selet step of I controller reset Code EERE Setting Factory Ch
5. C Use W gt A key to input data Cd01 6 7 D Use Multi Step function to setting Refer to function CEO5 to CE55 E Set external voltage IN2 IN3 F Set external current IN1 Notice Set value should be in accordance with V F slope Cd05 and upper limit frequency Cd17 Set by function key A At display function press READ and setting Cd01 0 PROG C d O 0 4 READ 1 0 0 0 EE 3 0 0 0 SET l 3 I 0 0 o Poe oe a oe mee eae 1 C d 0 0 1 La mn mn e EN le m m rm ell Pee e ee dein a Cedom S eel PROG be E I 0 0 Lu PROG 49 8 Constant setting by function B Use PROG key to input data Cd01 0 F 1 0 0 0 mn ml Numeric 3 0 0 0 key SET 3 0 0 0 F 3 0 0 0 Note H I Indicate 7 Segment LED twinkle Monitor display Code RER Setting Factory Change during No value setting operation Cd02 Monitor display 0 8 0 0 Description Monitoring setting when set operation 0 Output freguency contain slip boost 1 Output current 2 RPM 3 DC BUS voltage 4 Output voltage 5 Module temperature 6 Power factor 7 Transient power KW 8 KWH Operation display Code EE Setting Factory Change during No value setting operation CE03 Electrical adjustable speed 0 1 0 x Stop restart attempts Description set Cd01 4 or 7 to select stop
6. Displa LCD display 7 segment LED display frequency current pray voltage setting value function indicators fault status Out of phase low voltage over voltage overload over current over heating subthreshold current Overload capacity 150 for 1 min anti time limit function Indoor altitude 1 000m or lower 10 C 50 C below 7 5KW 10 C 45 C Forced air cooling IP20 12 2 Installation and storage Ij E2 200V series Motor rating KW 037 075 1 5 2 2 3 7 Model CT 2000E2 2 A37 A75 1A5 2A2 3A7 reku 2 4 4 2 7 4 11 1 18 Rated capacity KVA 0 96 1 8 2 9 44 7 1 Rated input voltage 3 200 230V 10 gt 50 60HZ 5 Rated output voltage 3 p 200 230V 10 Cooling system Forced air cooling Outline dimension B1 B1 B1 B2 B2 Weight kg 1 6 1 6 1 6 25 2 5 E2 400V series Motor rating KW 075 15 2 2 3 7 5 5 Model CT 2000E2 4 A75 1A5 2A2 3A7 SA5 Rated current A 5 9 13 A 22 D 6 Rated capacity KVA 1 7 3 2 4 9 7 1 10 4 Rated input voltage 3 p 380 460 10 gt 50 60HZ 5 Rated output voltage 3 um 380 460 10 Cooling system Forced air cooling Outline dimension B1 B1 B2 B2 B2 Weight kg 1 6 1 6 2 5 2 5 2 5 If the specification change not seperately informs 13 3 Wiring diagram Wiring diagram Wiring the master circuit and control circu
7. 150 load CT 2000FG 4 315 800 00 200 P 120 load CT 2000FG 4 370 900 300 14 3 Wiring daran AC Reactor ACL The main purpose for fitting A C L at the R S T input side is to curb instantaneous current and to improve ratio it should be fitted the A C L to R S T input side under the following circumstance A Where power system capacity is over SOOKVA B Using thyrister phase advance capacity etc for the same power supply Inductance of Power side from R S T of Inverter A C L Voltage Model Inductance Voltage Model V V Current value Ar m s Current value Ar m s 6 6 CT 2000FG 2 5A5 30A CT 2000FG 2 7A5 0 26mH CT 2000F 2011 CT 2000F 2015 CT 2000F 2018 CT 2000F 202 CT 2000F 2030 CT 2000F 2037 2 045 205 2075 2 093 21 EE CT 2000FP 2 150 600A CT 2000FG 2 160 CT 2000FP 2 187 10A 15A 20 20A 220 600A 750A CT2000F Specification G 150 load P 120 load 380 460 15 4 011 4015 4 018 4 022 4 030 4 037 055 055 075 409 CT 2000F _ 4 112 CT 2000F _ 4 131 CT 2000FP 4 150 CT 2000FG 4 160 CT 2000FL 4 187 CT 2000FP 4 220 CT 2000FP 4 250 CT 2000FG 4 262 CT 2000FP 4 300 CT 2000FG 4 315 3 W
8. 60 Multi step speeds contactor Offer 8 step speeds operation function set by Cd92 Cd97 Set multi step speeds must accommodate with external terminal S1 S6 to switch each step speed 9 Output input terminals III External terminals Step speed selecting 4 5 6 8 En ol fol o o o o ru ololole Signal means put external terminal 61 9 Output input terminals Ij Multi functions relay setting Code Banen Setting Factory Change during No value setting operation Cd29 TIME 060000 5 X Cd45 Frequency detect level 0 00 400 00 0 50 X Multi functions relay 1 Cd47 MA MB MC 0 10 1 X Multi functions relay 2 Cd48 M1 M2 M3 0 10 1 X Cd49 Multi functions relay DO 0 10 8 X Description Set multi functions output contactor function Cd29 TIME This function must accommodate Cd47 48 0 setting When motor starts operation the time counter is active Cd45 Frequency detect level accommodate Cd47 48 6 Cd45 will appoint the action level 1 HZ OUTPUT CD45 Pas SC gA lt RSC Time MA MC OPEN CLOSE Time Cd47 48 could be set the function by Multi functions ouput contactor please refer to the list Setting Function 0 Time counter accommodate Cd29 1 Fault 2 Stop 3 Acceleration 4 Speed reached 9 Deceleration 6 Frequency reached operation frequenc
9. 788 892 Rated input voltage 3 p 380 460 10 gt 50 60HZ 5 Rated output voltage 3 p 380 460 10 Cooling system Forced air cooling Outline dimension A7 A7 A8 A8 A10 A10 A10 A10 All G11 Weight kg 93 95 123 123 200 200 200 200 350 s x means under development If the specification change not seperately informs 2 Installation and storage W FP standard specification Control method V F vector PWM control Frequency accuracy Digital setting 0 01 Analog setting 0 5 35 C 177 lbi setting 0 01 HZ Analog setting Max frequency 1024 HZ 120 overload jogging speed upper lower frequency limit setting 8 step speed setting Standard feature multi step function RS485 RS422 communication jump frequency PID control multi function DI amp analog input interface Option card features Analog deal IO card under development OT Digital setting by keypad analog setting by keypad DC 0 10V analog setting DC 0 10V 4 20mA Displa LCD display 7 segment LED display frequency current play voltage setting value function indicators fault status Out of phase low voltage over voltage overload over current over heating subthreshold current Overload capacity 120 for 1 min anti time limit function Altitude indoor altitude 1 000m or lower Temperature Relative between 45 to 90 No condensing Forced air cool
10. 96 15 Enviroment setting Motor specification SE TE CES Motor slip 0 00 20 00 2 00HZ X CE83 Motor Noload current 10 0 100 0 30 0 X CE84 Motor pole 2 8 4 pole X CE85 Motor leakage inductance 0 0 40 0 0 X CE86 Motor resistance RS 0 000 65 000 By specification X CE87 Select load 0 1 1 X Description CE82 86 The motor values are shown after execute autotuning CE82 85for FG Type only CE87 Inverter load specification of inverter FG Type only 1 150 overload heavy load model 2 120 overload light load moodel Data lock SE ee Cd98 Data lock 0 2 2 X CE98 User password 0 9999 0 X CE04 Password input 0 9999 0 X Information Data lock to prevent unperfesional operator to input unsuitable data Cd98 0 Read only mode Data lock but operation frequency could be input by numeric keys or incresement decresment keys Cd98 1 Simple mode Some constants could be read and modified Cd98 2 Macrocosm mode All constants could be read and modified Password input Description Some environment setting constants can be changed by input password correctly I Read only mode Constants only could be read and not modified after set Cd98 0 The rest of constants are locked beside Cd98 Cd00 frequency command and Cd15 jog frequency could be modified Select sequence of constants like simple mode at read mode If must change othe
11. Multi functions terminal S5 function p Cd97 Multi functions terminal S6 function 0221 19 Setting value Function 0 3 wire operation control Multi steps speed command 1 Multi steps speed command 2 Multi steps speed command 3 Reserved Jog freguency selection JOG Forward jog FJOG Reverse jog RJOG Auto restart attempts ola ny AJIN Multi steps acceleration deceleration time 1 Multi steps acceleration deceleration time 2 11 PID control disable PID integration control reset PID integration control maintain PIDsoft start Switch PID error input characteristics Not used PLC reset Emergency stop by time of Cd11 Coast stop Electrical adjustable speed UP Electrical adjustable speed Down 58 Only Cd04 1 Jog frequency 9 Output input terminals III Code EUGEN Setting Factory Change during No value setting operation Cd15 Jog frequency 0 0 60 00 5 00 O Cd19 Jog NU deceleration 0 0 6000 0 1 0sec o Description To control jog must comply external operation Cd04 1 and use external terminal FR or RR and COM shorted or use FORWARD JOG FJOG REVERSE JOG RJOG 1 Jog operation is valid only when operation command selects the external operation single mode eg Cd04 1 and set Cd92 Cd97 5 jog operation proc
12. Multi funtion analog input IN1 ao Cd32 7 Multi funtion analog input IN2 Cd38 7 Multi funtion analog input IN3 Cd35 7 i PID Freeback O PIDcontrol block 1 P control Dl 14 Dl 15 CE55 A 4 Target O CE56 p CE65 Accel Decel time Freeback Lpo o D control D control 106 I control CE61 LI Delay Time e PID output OO O N CE54 17 Control procedures chart B PID control block 2 Sen Output CE67 Output gain 12 Estgen Delay time 1 TS CE63 PID output ov R ou pn CE61 dd aH CE60 CE59 offset PID limit Main speed frequency Relay input terminal 1 Multifunction relay 1 0 Time output function selectin Cd29 O S Fault O i a EE E i i 2 Stop Cd47 U 3 Acceleration d U 4 Speed reached y 5 Deceleration OO cere wee cas O Current arrive Cd85 LO 8 Overheat Cd84 O 9 OL malfunction action 10 X O Multifunction relay 1 107 17 Control procedures chart Ij Relay input terminal 2 0 Time 1 Fault Cd29 O 2 Stop 3 Acceleration 4 Speed reached 5 Deceleration O 6 Freguency arrive s caas_ at 7 Current arrive ass O 8 Overheat 9 OL malfunction action 10 X O DO input terminal 0 Time Cd29 1 Fault Ca29_ O 2 Stop 3 Acce
13. step time Multi step function control 4 step time 0 255 0 No 252 P75 setting setting j CE 25 5 step time Multi step function control 5 step time 0 255 0 No 253 P75 setting setting ii CE 26 6 step time Multi step function control 6 step time 0 255 0 No 254 P75 setting setting i CE 27 7 step time Multi step function control 7 step time 0 255 0 No 255 P75 setting setting j CE 28 SI step time Multi step function control 8 step time 0 255 0 No 256 P75 setting setting CE 29 9 step time Multi step function control 9 step time 0 255 0 No 257 P75 setting setting g th th s CE 30 10 Step time Multi step function control 10 step time 0 255 0 No 258 P75 setting setting CE 31 11 step time Multi step function control 11 step time 0 255 0 No 259 P75 setting setting i tl th CE 32 12 step Multi step function control 12 step time 0 255 0 No 260 P75 time setting setting tl H th CE 33 13 step Multi step function control 13 step time 0 255 0 No 261 P75 time setting setting tl H th CE 34 14 step Multi step function control 14 step time 0 255 0 No 262 P75 time setting setting tl H th CE 35 15 step Multi step function control 15 step time 0 255 0 No 263 P75 time setting setting tl H th CE 36 16 step Multi step function control 16 step time 0 255 0 No 264 P75 time setting setting e 6 Reserved 41 6 Constant tables Ij Change
14. 006CH low byte CRC error check low byte CRC error check high byte Starting address low byte SH Number of register low byte CRC error check low byte CRC error check high byte 02H C7H E5H Number of regist umi er of register on high byte 83 13 MODBUS communication Function 06H write single register Write a data as 1000 03E8H to the register which is at address 1FH in an inverter at slave address 0280H the RTU MODE data frame are listed as below RTU Mode Data address 02H high byte Data add ata address 80H low byte Pan address 02H high byte Data add ata address 80H low byte D ata content 03H high byte D ata content ESH low byte CRC error check BAH low byte CREE check OAH high byte Data content high byte Data content low byte CRC error check low byte CRC error check high byte CRC Generation 1 Load 16 bit register with FFFF hex all 1 s Call this the CRC register 2 Exclusive OR thr first eight bit byte of the message with the low order byte of the 16 bit CRC register putting the result in the CRC register 3 Shift the CRC register one bit to the right toward the LSB zero filling the MSB Extract and examine the LSB 4 Ifthe LSB is 0 repeat Step 3 another shift If the LSB is 1 Exclusive OR the CRC register with the polynomial value A001 hex 1010 0000 0000 0001 5 Repeat Step 3 and Step 4 until ei
15. 2 8 combinations CE 76 LCD group selecting Set LCD display contents function 0 3 0 No X P99 SE 0 maintains the LU B demonstration CE 80 A 1 Not maintains the LU B 0 1 1 FH xX P89 demonstration demonstration CE 81 MI EEN Screen indicates kg value Ge 10 0 No X P100 magnification value 50 0 Set motor rated slip CE 82 GE This constant is automatically set Ge 0 as No X P97 y during autotuning Set inverter rated current as 100 Motor Noload current and motor Noloadcurrent 10 0 30 0 CE 83 FG only This constant is automatically set 100 0 Ki No 8 P97 during autotuning Set motor pole 4 CE 84 Motor polg This constant is automatically set 2 8 No X P97 FG only doe A pole uring autotuning Set motor rated as 100 and the Motor leakage voltage drop due to motor leakage 0 0 0 CE 85 inductance L S inductance A 00 No X P97 FG only This constant is automatically set 4 during autotuning Set motor resistance 0 000 B CE 86 Motor resistance RS This constant is automatically set y No X P97 spec during autotuning 65 000 0 150 overload heavy duty CE 87 Loading selecting model 0 1 1 No X P97 1 120 overload light duty model 43 6 Constant tables Ij Code EE Setting Factory Modbus A No P value setting Address 5 0 Rotational mode CE 88 SE 1 UnRotational mode 1 0 2 2 No X P47 VE 2 UnRotational mode 2 CE 89 V F boost Set percentage
16. 5 523 330 246 315 7 07 A6 699 679 668 408 270 323 10 PO A7 928 908 872 530 350 323 10 PO A8 1162 1142 1106 530 350 335 10 PO A9 x x x A10 1480 1460 1415 710 350 415 10 PO If the specification change not seperately informs x means under development 2 Installation and storage Ij B E2 exterior dimension Inverter dimensions unit mm B1 Frame 125 0 10 0 LD Lako oz GG unitimm 220V series CT2000E2 2 A37 CT2000E2 2 A75 CT2000E2 2 1A5 380V series CT2000E2 4 A75 CT2000E2 4 1A5 B2 Frame 170 0 10 0 LES lee O HUNTON DSS unitimm 220V series CT2000E2 2 2A2 CT2000E2 2 3A7 380V series CT2000E2 4 2A2 CT2000E2 4 3A7 CT2000E2 4 5A5 2 Installation and storage Ij FG standard specification Control method V F vector PWM control Frequency accuracy Digital setting 0 01 Analog setting 0 5 35 C 3177 pia setting 0 01 HZ Analog setting Max frequency 1024 HZ 150 overload jogging speed upper lower frequency limit setting 8 step speed setting Standard feature multi step function RS485 RS422 communication jump frequency PID control multi function DI amp analog input interface Option card features Analog digital IO card under development OT Digital setting by keypad anal
17. 83 d1 21 PID command value 84 d1 22 PID feedback value 85 d1 23 PID output value 86 d1 24 PID frequency command modulus 87 d1 25 DSP firmware version 88 d1 26 Interface chip firmward version 89 d1 27 Option card firmware version 90 45 6 Constant tables Ij 6 Constant tables I Monitoring status Code anchon Modbus No Address d1 28 Inverter rated current 91 d1 29 Malfunction record 1 92 d1 30 Malfunction record 2 93 d1 31 Malfunction record 3 94 d1 32 Malfunction record 4 95 d1 33 MCK 96 d1 34 RPM co operate Cd46 97 d1 35 Pressure value Kg INI input 98 d1 36 Reserved 99 d1 37 Days of operation 97 d1 38 Hours and minutes of operation 101 d1 39 Micro seconds of operation 102 d1 40 Record breakdown number of times 103 Malfunction record Description Record malfunction causes to eliminate malfunction situation 1 Malfunction of Err Ero Erc etc will not be recorded P102 103 2 Memorize the latest four records 3 Low voltage malfunction will not be recorded when inverter stand by 4 d1 29 32 only can be read or deleted all by Cd99 useer is unable input malfunction record 46 7 Motor autotuning W Autotuning constant u SES EN CE 88 AUTOTUNE mode 0 2 2 X CE 89 V F boost setting 0 100 45 X CE 90 Motor rated voltage 0 0 500 0 By specification X CE 91 Motor rate
18. The function is setting input voltage Cd 75 220 220 0 85 187 Vac 380 0 85 323 Vac The set not be lower than 310Vac 415 0 85 352 Vac The set not be lower than 340 Vac 440 0 85 374 Vac The set not be lower than 360Vac 460 0 85 391 Vac The set not be lower than 376Vac The inverter is working voltage Cd 75 380 The inverter is working voltage Cd 75 415 The inverter is working voltage Cd 75 440 The inverter is working voltage Cd 75 460 The inverter is working voltage Motor rated voltage frequency restore initialize Code Pancho Setting Factory Change during No value setting operation CE96 Restore initialize value of 0 3 0 x motor voltage CE97 Restore initialize value of 0 1 0 x motor frequency Description CE96 0 380V 1 415V 2 440V 3 460V except 220V series CE97 0 50HZ 1 60HZ 220V series is fixed 60HZ X Description CE96 97 accommodate to CD99 is the function of recovering factory value partly or all of constants can be recovered factory value Low voltage demonstration Code ECHO Setting Factory Change during No value setting operation CE80 Low voltage demonstration 0 1 1 X Description If input voltage be lower keypad show LU b CE80 0 maintains the LU B demonstration CE80 1 Not maintains the LU B demonstration 89 14 Protective function III Speed search function a Funen ED o Cd28 Speed search selectio
19. during No value setting operation Inverter overheating forecast detection level 50 100 90 x Cd82 Motion when Inverter ee overheating forecast detection ce S x Cd84 Temperature protection level 50 130 85 C X Description Set action when inverter detects action point and overheating Set Cd84 to Inverter overheating detection level OH1 is displayed and inverter will stop free run when it is detected Cd82 set Inverter overheating forecast level set Cd84 to 100 Select operation by Cd83 when overheating forecast occurred Cd83 setting value Description 0 Deceleration stop Inverter is stopped by set deceleration time 1 Coast stop 2 Emergency stop Inverter is stopped by Cd11 3 Continuous operation OH b displays overheating forecast Motor overload protection When motor operation exceeds motor rated current is overload operation It is overload operation If motor is under overload operation it might lead to burn the motor 1 CT2000FG E2 Set protection point of motor to be 150 of motor rated current overload time is 60 sec OLA is displayed when overload occurred motor stops free run 2 CT2000FP Set protection point of motor to be 120 of motor rated current overload time is 60 sec OLA is displayed when overload occurred motor stops free run 93 15 Enviroment setting Speed multiplier gear ratio ratio Code EE Setti
20. times the capacity of motor Inspection upon receiving A Check that the model the capacity and power voltage specifications are as ordered B Check that no damage has occurred during transportation C Check that none of the internal parts have been damaged or have fallen off D Check that none of the connectors have been damaged or have fallen off E Check that there is no loosening of the terminals or screws of each of the parts If said problems occurred when negligence of manual Please contact our distributors or sales representatives Nameplate information Example for SHP 3A7 220V Inverter model Input spec gt Output spec P Motor capacity 3 Lot No I Inverter model information CT2000 series No Specification FG 150 load FP 120 load E2 150 load MODEL CT2000FG 2 3A7 Al INPUT 3D 220V 50 60HZ 21A OUTPUT 3D 220V 18A7 1KVA Motor 3 7KW S5HP Mass 8 0Kg LOT NO CT2000 FG 2 3A7 Al weight No Outline dimension 1 10 A1 A10 1 2 B1 B2 No Max Motor capacity 3A7 300 3 7KW 300KW No Input voltage class 2 AC 200 240V 4 AC380 460V 2 Installation and storage Ij Installation and storage 1 Storage If the equipment is not to be installed immediately it should be stored in a clean and dry location at ambient temperatures from 20 C to 55 C The su
21. 00 ms X FG only Restriction of Slip CE02 0 250 200 X compensation FG only Description When motor load is larger the motor slip is higher in the meantime the rotate speed of motor axle will be reduced and frequency command inconsistent Slip compensation is slip were brought by motor capacity and use increase output frequency to make actuality rotate frequency of motor to close to frequency command The compensation method is motor rated slip CE82 multiply frequency CEOO and add to output frequency Due to compensation demand motor rated slip CE82 that detected by autotuning or input by the specification on nameplate Slip HZ rated frequency HZ rated rpm rpm xpole 120 Setting precaution 1 Slip compensation is invalid when set gain of CE00 to 0 2 In the status of loading to measure motor speed and gradually adjust gain Increase gain when speed is too low on the contrary to decrease gain 3 Shrink delay time CEOO when the reaction of slip compensation is too low Increase delay time CEO1 when speed is unstable Motor rated current Code Elen Setting F actory Change durin g No value setting operation Cd06 Motor rated current 10 0 100 0 100 X Description Set motor overload protective current in order to avoid motor failure because of overload Set value 100 please calculate the following formula Set Value Motor rated current Inverter rated current x100 Ex Use inverter with 3 7
22. 1 0 No 291 P72 PID output 0 ee is 0 when PID output is CE 64 reverse g n 0 1 0 No 292 P72 selecting 1 PID output is negative when reverse output is O when set Cd27 1 PID command Set PID command acceleration CE 65 acceleration deceleration time setting value is the time 0 0 25 5 0 0 No 293 P73 deceleration that accelerates from 0 to 100 time 42 6 Constant tables Ij Rede Function Description penile Sore eae Meden No p value setting Ge Address operation 0 P control independence CE 66 Position of P 1 Enter I D controller after error 0 1 0 No 294 P73 controller selecting passed by P controller CE 67 PID output delay 0 PID output delay 0 1 0 No 295 P73 position selecting 1 D control output delay 0 Clear I control integral value when CE 68 Select I control reset stop operation O l 0 No 296 P73 1 Use terminal to eliminate integral Serial CE 70 communication Set address of inverter 0 240 1 Yes 209 P80 position Serial 0 1200 bps 1 2400 bps GET communicationspeed 2 4800 bps 3 9600 bps gen 9 Na 240 PO Serial communication Set the time of inverter from received gla feedback time data to start replying data oke Ne Zli ES 0 Invalid CE 74 Parity bit Check 1 Odd Parity bit 0 2 0 No 213 P81 2 Even Parity bit Select LCD display method CE 75 LCD permutation 0 2 combinations 0 2 0 No x P99 selecting 1 4 combinations
23. 2 04 A3 00 A1 99 A2 99 A3 99 CE A4 04 A4 99 Constant information Memory allocation diagram Code Function Detail of Data Initial Factory Setting CC 00 Copy mode RD OE PE Standard mode Reserved Modify Cd and CE on Keypad Copy Cd from Control PCB to Memory 1 of Keypad Copy CE from Control PCB to Memory 2 of Keypad Copy Cd amp CE from Control PCB to Memory 3 of Keypad Write Cd Memory 1 to Control PCB Write CE Memory 2 to Control PCB Write Cd amp CE Memory 3 to Control PCB LCD keypad Copy under development 30 LCD keypad copy operation information CC 00 0 Standard Mode CC 00 2 Modify Cd amp CE on keypad Press SET to save CC 00 gt See CC 00 only Press PROG A1 003A1 00 A1 99 function code Cd Press el Memory 1 Press PROG A2 00 gt A2 00 A2 99 function code CE Press el Memory 2 Press PROG A3 00 gt A3 00 A3 99 function code Cd of Cd amp CE Press Memory 3 Press PROG En A4 99 function code CE of Cd amp CE Press el Memory 3 Press PROG Press PROG No function CC 00 0 or press STOP return to standard Mode 31 4 Digital Operator 5 User constants Index Motor autotuning Function setting Output input terminals V F control PID control Multi step function MODBUS Protections Environment setting
24. 6 DC brake current 7 PID feedback value O 8 PIDcommand value Analog input terminal IN2 0 De activ 1 Analog master speed IN2 input bias IN2 function selecting 2 Analog speed analog master speed auxiliary 3 master speed gain 4 Auxiliary frequency 2 5 Auxiliary frequency 3 0 10V IN2 input gain 6 DC brake current 7 PID feedback value O 8 PIDcommand value 104 17 Control procedures chart B Analog input terminal Analog input terminal IN3 IN3 input bias 0 De activ 1 Analog master speed IN3 function selecting 2 Analog speed analog master speed auxiliary command 3 master speed gain 4 Auxiliary frequency 2 5 Auxiliary frequency 3 O 0 10V IN3 input gain 6 DC brake current 7 PID feedback value PD 8 PIDcommand value PID control D5 Cd00 o Main speed frequency E Analog eer Option card P WM input o Is A Multi step function RH Under development O Pulse input Ho Option card analog input 1 a A Under development Option card analog input 2 o Under development A a Multi funtion analog input IN1 o Ce Cd32 8 Multi funtion analog input IN2 a be Cd38 8 LO E Cd35 8 PID Target Multi funtion analog input IN3 105 17 Control procedures chart W PID control Option card 1 eo Under development Option card 2 eo Under development
25. AS A6 A6 A7 A7 A7 AB Weight kg 10 14 14 20 20 22 40 46 50 55 65 70 93 123 Motor rating Kw 220 250 315 400 450 560 710 800 Model CT 2000FP 4 220 250 315 400 450 560 710 800 Rated current A 415 506 600 700 800 990 1260 1460 Rated capacity KVA 330 402 478 557 637 788 1003 1163 Rated input voltage 3 p 380 460 10 gt 50 60HZ 5 Rated output voltage 3 p 380 460 10 Cooling system Forced air cooling Outline dimension A8 A8 A10 A10 A10 All All All Weight kg 123 123 200 200 200 350 350 x means under development If the specification change not seperately informs 11 2 Installation and storage Ij E2 standard specification Control method V F vector PWM control Frequency accuracy Digital setting 0 01 Analog setting 0 5 35 C 177 gia setting 0 01 HZ Analog setting Max frequency 1024 HZ 150 overload jogging speed upper lower frequency limit setting 8 step speed setting Standard feature multi step function RS485 RS422 communication jump frequency PID control multi function DI amp analog input interface Option card features Analog digital IO card OT Digital setting by keypad analog setting by keypad DC 0 10V analog setting DC 0 10V 4 20mA
26. KW 5HP to drive motor with 2 2KW 3HP Inverter rated current 17 4A Motor rated current 8A Set Value 8 17 4 x100 46 69 11 PID control Ili PID control PID control is a method of making the feedback value match the set target value By combinating proportional control P integral control I and derivative control D you can even control targets that you want to reach status The characteristics of the PID control operations as below Proportional control P output of operation proportional to the error Feedback value cannot equal to target when only use Proportional control Integral control I output of operation integral to the error Used for matching feedback value to target value however intense change might cause intergral control to disperse Derivative control D output of operation derivative to the error respond rapid variations Output Time PID control motion IH PID control application The following table shows example of PID control application usinginverter Application Control details Example of sensor used Feeds back machinery speed information and Speed oontiol matches speed to the target value Tachometer generator Feeds back pressure information and performs Pressure sensor constant pressure control Pressure control Feeds back flow rate control information and controls the flow rate highly accurately POE Seer Flow rate control Tempe
27. N 2 0 8 0 No 129 P51 command 5 Pulse input 6 Keypad UP DOMN 1 7 Keypad UP DOMN 2 8 Set frequency by terminal VR E2 only 0 Output frequency contain slip boost 1 Output current 2 RPM o 3 DC BUS voltage P eranon 4 Output voltage 0 8 0 Yes 130 P50 Cd 02 display 5 Module temperature 6 Power factor 7 Transient power KW 8 KWH Kam Torque mode 0 No auto boost 1 auto boost 0 1 1 No 131 P68 6 I 0 Keyboard operation peratron 1 External terminal Keyboard yboard stoppable Cd 04 En 2 MODBUS Keyboard stoppable Dee NS GR Se We 3 External terminal Keyboard unstoppable Set V F 1 14 Select from fixed 15 V F mode Cd 05 pattern 15 Set by from Cd51to Cd58 V F mode rae 2 No e Wi Motor rated Set motor rated current as inverter current is 10 0 100 0 No 134 P69 Cd 06 current 100 Set torque boost gain as ratio 100 0 Please adjust well when folling situation Torque boost Occurred Cd 07 gain 1 Increase this value when cable is too long 0 2 50 0 3 Yes 135 P68 2 Decrease this value when motor is vibrating Acceleration The time needed for set frequency 0 10 0 No 136 P52 Cd 08 time 1 from 0 HZ to 50 HZ 6000 0 sec g Deceleration The time needed for set frequency 0 10 0 No 137 P52 Cd 09 time 1 from 50 HZ to 0 HZ 6000 0 sec Acceleration The time needed for set frequency 0 10 0 No 138 P52 Cd 10 time 2 from 0 HZ to 50 HZ 6000 0 sec Deceleration The time needed for
28. NEEN ENEE EEN EE Ee P53 G DC brake nenne ENEE ENEE ENNEN EE ENEE ENEE ENEE EEN ENEE ENEE ENEE EE P55 9 Output input IT HIEN P56 A Multi functional analog input d Steeseler gedet ed aie re die be wan ded re P56 B Analog output setting lg tala enen ege ee Se deed See E Seed ATP PER RE EJ P57 C Multi functional terminal setting wizards senen deren Ee ANE d EEN P58 D Jog frequency deerne nnee wieia e sltis sia me dede sleten EEN dele aie datde NEEN e E dee de Se EAR P59 E Multi speed frequency command ssssssessssssseessssssessssesssssssssssssssssssssesssssssessssesoesssssssesssseseesaee P60 E Multi functional relay setting EECH P62 LOW IF Control E P64 A V F curve selecting Ge E lee Ge eer Sean ee Ee EA P64 B Frequency command limit vereren evens verenseeneenesserenenerenenevenenvensvevensverenvensnerenenerensnersnverens P67 C Torque boost torque boost gain EN P68 D Motor rated current seess ere verenevenensvereneenenevensnevensneeenenvensverensvevenseerenvensnerenenevenenevevervenseerene P69 DAD Control ea saie e eects ber cade cls she Da 09 ad ste i Stela EE te Dan toj cea ores areasanetecussts Boa soi Sb ei P70 12 Multi step function EEN P74 13 Series communication user manual ENEE ENEE P79 A The physical link EEN P79 B Data structure in COMMUNICATION Eeselen P83 C Error check generation eessen P84 iA PROTEC TG nr ERE P86 A Preventing motor stalling function eneen P86 B Motor search speed function seenen P90 C Instan
29. S4 S5 Sp RR FR COM SHEEP Master circuit terminals A5 A10 9 C16D230 Control board 2 Under development applies to new structure Option card AI AO card Under development 18 3 Wiring diagram Standard external wiring diagram Analog output 0 10V Max 5mA Multi function Output terminals AC 240V Max 1A DC 28V Max 2A Open collector DC 48V Option card Max 50mA C16D244 Multi function Output terminals AC 240V Max 1A DC 28V Max 2A Extemal frequency references DI terminal IN1 4 20mA IN2 0 10V MODBUS IN3 0 10V RS422 485 CC a j 4 Shield wirse Twisted shield wirse 19 3 Wiring diagram Terminals arrangement C16D248 eege JI J2 ee E Option card connector m etc COM Sl S2 S3 S4 RR FR COM MB MA MC 10V INI IN2 IN3 CC FM AM CC 10V INI IN2 IN3 CC FM AM CC COM Sl S2 S3 S4 RR FR COM MB MA MC Analog input terminals Multi function terminals Multi function Output terminals 220V series CT2000E2 2 A37 CT2000E2 2 A75 CT2000E2 2 1A5 380V series CT2000E2 4 A75 gt CT2000E2 4 1A5 20 3 Wiring daran Terminals arrangement C16D243 JPI SEET Option card connector B ul 10V INI IN2 IN3 CC FM AM CC COM Sl Si S3 S4 RR FR COM MB MA MC 10V INI IN2 IN3 CC FM AM CC COM Sl Si 3 S4 RR FR COM MB MA MC Analog input terminals Multi function terminal
30. Table of Contents 1 Inspection upon receiving e P3 2 Installation and storage EEN P4 A FG FP exterior dimension es P5 Bo E2 e terot RE EE P6 C Standard specifications EEN P7 3 Wiring diagram EEN P14 A Wiring of main and control circuit ttt t exrettttrrrrrrreerer terre terete tete tree rete tete tete rete eter tetra P14 B Signal circuit ENEE P14 C Connecting the power supply and the AC motor ue P14 D R S T for Power source reacto r EE P15 E FG FP standard external connection diagram SNE dE EEN ENEE d sie kds E Ko a de edes ee P16 F E2 standard external connection diagram eene P19 G Terminal functions ssssssceseececeesesesesese nese seeenees eens eee eens NENNEN NEE REENEN ease es ENEE ENEE P22 4 Digital Operator ee P23 A Keys functions ENEE P23 B Keypad operation ee P26 C LCD Keypad Copy functions een P30 E BE Constants n a R EA AE A A EA R A E reused teas P32 6 Constans EE P33 7 Motor autotuning eee eeeeeteteeeetetettetetetttteretseteteteetereteteeteteesererstreretetnenereetereteenenensenereteenenereenenetee P47 8 Constant setting by function e rrsrernrenvenvenvenrenvenvensrenvenvenvenvenrenseenensvenvenvenveneenvenrenseerenneenveneenveneenne P49 A Setting frequency SE P49 B Selecting frequency command TTT P51 ek Operation command TTT ET P52 D Setting acceleration deceleration eene P52 E Stopping NEE ERT P53 E Jump brake eessen eneen ee ee E SEENEN ENEE ENEE ENEE EE REENEN EEN EE sees EE ENEE NEEN
31. acity KVA 187 231 Rated input voltage 3 p 200 230V 10 gt 50 60HZ 5 Rated output voltage 3 p200 230V 10 Cooling system Forced air cooling Outline dimension A8 A8 Weight kg 123 125 x means under development If the specification change not seperately informs 2 Installation and storage Ij FG 400V series Motor rating KW 37 5 5 7 5 11 15 18 22 30 37 45 55 75 93 112 Model CT 2000FG 4 3A7 5A5 7A5 011 015 018 022 030 037 045 055 075 093 112 Rated current A 9 13 17 3 24 31 39 52 65 78 93 110 156 180 225 Rated capacity 7 1 10 4 13 8 19 1 24 7 31 41 4 51 8 62 1 74 87 6 124 143 180 KVA Rated input voltage 3 p 380 460 10 gt 50 60HZ 5 Rated output voltage 3 p 380 460 10 Cooling system Forced air cooling Outline dimension Al Al Al Al A2 A3 A4 A4 AS AS A6 AG A6 A7 Weight kg 9 9 9 9 14 14 23 23 40 46 50 55 60 70 Motor rating 131 160 187 225 262 315 400 450 560 635 KW Model CT 2000FG 4 131 160 187 225 262 315 400 450 560 635 Rated current A 260 305 370 460 530 610 700 800 990 1120 Rated capacity KVA 207 243 295 366 422 485 557 637
32. ange during No value setting operation CE68 Select I control reset 0 1 0 X Description Setting value is 0 clear I control Integral value when place stop command or place reset command Setting value is 1 clear I control Integral value when only place reset command Reset command must be controlled by multi functions input terminal set multifunctions input Cd92 97 to 12 73 12 Multi step function mode W Multi step function control frequency setting Code Panchen Setting Factory Change during No value setting operation CEOS 1 step speed setting CE06 2 step speed setting CEO 3 step speed setting CE08 CEO9 step speed setting step speed setting 4 5 CE10 6 step speed setting 7 8 9 CE11 step speed setting CE12 step speed setting CE13 step speed setting 0 0 400 0 0 0HZ O CE14 10 step speed setting CE15 11 step speed setting CE16 12 step speed setting CE17 13 step speed setting CE18 14 step speed setting CE19 15 step speed setting CE20 16 step speed setting Description Set multi step function control speed freguency 74 12 Multi step function mode Multi step function time setting Ge zen ae TAME CE21 1 step time setting CE22 2 step time setting CE23 3 step time setting CE24 4 step tim
33. art attempts Multifunction 9 Multi steps acceleration time Cd 95 terminal S4 10 Multi steps deceleration time 0 21 8 No 561 P58 function 11 PID control disable Multifunction 12 PID integration control reset Cd 96 terminal S5 13 PID integration control maintain 0 21 1 No 562 P58 function 14 PIDsoft start 15 Switch PID error input characteristics 16 Not used Multifunction 17 PLC reset Cd 97 terminal S6 _ 18 Emergency stop 0 21 19 No 563 P58 function 19 Coast stop 20 Electrical adjustable speed UP 21 Electrical adjustable speed Down 0 Lock data read only Cd 98 Lock data 1 Data is variable simple 0 2 2 Yes 564 P97 2 Data is variable 0 invalid 1 Only recover PLC constant 2 Recovering Factory value uncontain PLC Cd 99 Initialize data OTT 0 5 0 No 565 P101 3 Recovering Factory value uncontain motor and PLC constant 4 All constants recover factory value 5 Eliminate malfunction record 39 6 Constant tables III Rode Function Description Sonepar ory SE PO No P value setting Ge Address operation To upgrade the speed accuracy when drive to load Slip boost Adjust this constant at the following times CE 00 gain FG 1 Increase setting value when speed is lower 0 2 50 0 Yes X P69 only than target value 2 Decrease setting value when speed is higher than target value Slip boost primary del
34. ate when disconnection or power voltage is too low This function is able to automatic search speed and restore setting frequency to operate normal when power reconnection 91 14 Protective function III Power is restored then restart automatically after momentary power loss Code En Setting Factory Change during No value setting operation Cd79 Momentary power loss 0 2 0 x direction casa eo power Tost 0 2 0 0 1sec x compensation time Cd81 Voltage recovery time 0 0 20 0 0 3sec X Description If a temporary power loss occurs user can restart the inverter automatically after power restored to continue motor operation To restart the inverter after power restored set Cd79 1 or 2 If Cd79 1 when power is restored within the time set in Cd80 the inverter will restart If the time is over UV under voltage will be detected If Cd79 2 when power is restored while the control power supply is kept CPU to work the inverter will resart UV under voltage will be cleared automatically Speed search setting is collocated when use momentary stop and restart Momentary power AC power i i Time H i Power restored in cd80 Inverter d output Pod l Time KO ee ZE Loss compensation pao i Voltage time Cd80 j i Recover time Speed search Speed search Cd81 waiting time when reset 92 14 Protective function Ij Overheating protection Code HERO Setting Factory Change
35. ay time is set in ms unit Slip boost Adjust this constant at the following times i i O 500 CE 01 delay time 1 Reduce the setting when slip boost No x P69 FG only responsive is slow 10000 ms 2 When speed is not stabilized increase the setting Slip boost Set maximum limit value of slip boost 200 CE 02 limit FG Se 0 250 No X P69 Set motor rated slip is 100 only Electrical adjustable 0 Self protection setting value CE 03 speed 1 Cd18 frequency minimum limit value is 0 1 0 No X P50 Stop restart recovered under stop status attempts Password 0 CE 04 input Set user password 9999 0 No X P97 1 step Multi step function control 1 step speed 0 CE 05 speed I 0 HZ Yes 233 P74 S setting 400 00 setting 2 step I nd CE 06 speed Multi step function control 2 step speed 0 0 HZ Yes 234 P74 setting 400 00 setting 3 step F rd CE 07 speed Multi step function control 3 step speed 0 0 HZ Yes 235 P74 I setting 400 00 setting 4 step th CE 08 speed Multi step function control 4 step speed 0 0 HZ Yes 236 P74 setting 400 00 setting 5 step th CE 09 speed Multi step function control 5 step speed 0 0 HZ Yes 237 P74 i setting 400 00 setting 6 step th CE 10 speed Multi step function control 6 step speed 0 0 HZ Yes 238 PJA setting 400 00 setting 7 step th CE 11 speed Multi step function control 7 step speed 0 0 HZ Yes 239 PJA setting 400 00 setting SI step i th CE 12 speed Multi
36. d current 10 0 200 0 100 0 X CE 92 Motor rated frequency 0 0 400 0 By specification X CE 93 The pole of motor 2 8 4pole X CE 94 Motor rated RPM 0 7200 1750rpm X CE 95 Motor unload current 10 100 45 X Description Please input CE88 CE95 constants to proceed motor constant autotuning according to specification of nameplate The low speed compensation of V f curve were set by CE89 to apply to Rotational autotuning CE88 0 V f curve will be modified after autotuning Constant setting is the percentage of low speed star torque Select adjustment mode 1 Rotational mode autotuning CE88 0 Input specification of nameplate after set CE88 0 When the page of CE 88 constants were operated The function of autotuning will be processed by pressing FWD this moment TunE is shown on screen Motor data is needed by autotuning when motor run 2 Stationary mode autotuning CE 88 1 Input specification of nameplate after set CE 88 1 When the page of CE 88 constants were operated The function of autotuning will be processed by pressing FWD this moment TunE is shown on screen Motor data is needed by autotuning when motor run Collocate with CE 95 motor unload current setting 3 Stationary autotuning for line to line resistance only CE 88 2 Autotuuning can beused to prevent controle errors when the motor cable is long or the cable length has changed or when the motor and inverter have different capacities When keypad is operated throu
37. d10 Please refer to page P58 HZ Pulse input option card is underdevelopment Use pulse input terminal of option card to input pulse as frequency after set Cd01 5 Hi Keypad UP DOMN Set frequency by A W UP DOMN of keypad after set Cd01 6 Set acceleration deceleration by Cd10 E Keypad UP DOMN Set frequency by A W UP DOMN of keypad and DI terminal after set Cd01 7 Set acceleration deceleration by Cd10 I Set frequency by terminal VR Set frequency by terminal VR after set Cd01 8 E2 only 51 8 Constant setting by function Ij Operation command selecting Code Banceon Setting Factory Change during No value setting operation Cd04 Operation command setting 0 3 0 X Cd27 Prohibited reverse selecting 0 1 0 X Description Cd04 0 keypad control Use FWD gt REV gt STOP key of keypad to execute inverter operation Cd04 1 External terminal control stoppable by keypad Use operation control terminal to execute inverter operation Stoppable by keypad STOP Cd04 2 MODBUS communication Use MODBUS communication to execute operation page 74 Cd04 3 External termonal control No keypad stop Use operation control terminal to execute operation No keypad stop STOP s Cd27 0 Cd27 1 to execute reverse by keypad REV unable to execute reverse by keypad REV Notice CD27 prohibits reverse selecting only restricts keypad control Acceleration decelera
38. diza current value is 0 00S and the DC break is invalid when 100 30 Ne ate P53 start DC break time The setting value is 0 00S and the DC break is O 0 00 Ge when start invalid when start 10 00 S Ne aa EE DC break time The setting value is 0 00S and the DC break is O 0 00 Et when stop invalid when stop 10 00 S No ae Pag Prohibited 0 Reverse eat reverse selectin 1 Prohibited reverse Od 1f 0 00 No es P52 Speed h 0 Invalid VC 1 MCK feedback C28 ea 2 Detected current MCK feedback Gre NO 156 P30 3 MCK disconnection start coast start Cd 29 TIME For replay DOfunction selecting when operation 0 ss Yes 157 P62 in timing 60000 Ale SADE Set filtered of analog input terminal time noise 1 Cd 30 8 1mp will be filtered but input reaction will become 5 Yes 517 P56 filter time 1000 slow Set percentage 100 when input 40mA to 0 0 100 0 Cd 31 IN1 mput gain correspond selecting function 100 1000 0 a ate Foe 4 20mA input mode set IN1 function 0 De active 1 Analog master speed 1 speed frequency command 1 2 Adding master speed Cd 32 INI function l analog master speed auxiliary command 0 8 0 No 519 P56 selecting 3 Master speed gain 4 Auxiliary frequency 2 5 Auxiliary frequency 3 6 DC brake current 7 PID feedback value 8 PID command value 34 6 Constant tables Ij Change during operation Modbus Address Setting Factory Function value setting Desc
39. e ae ea ice READ Read Read quit constant A Up Increment Vv Down Decrement gt Shift Switch location of cursor HZ Frequency HZ LED means of recent revolution frequency A Current ALED means of recent revolution current DISP keypad status RDY LED means keypad working normally ALARM Malfunction display ALM LED means malfunction occurred VR a Set VR on faceplate A TUNE Antamina constant U PIM means of recent revolution 23 4 Digital Operator Keyboard information Numeric KEYBOARD Operator panel parts names and functions 7 segement READY monitor 1 Displays frequency Cd02 0 Displays current Cd02 1 Displays RPM NO2 2 Displays various readings see Cd02 2 After indicates alarm ignore Cd02 directly displays failure status Operation monitor Displays that the panel is ready to accept key input display Monitor mode Displays monitor status Ten key pad Data input key display Displays forward reverse stop status Operation instruction keys Control from keyboard External control operation stop mode by set Cd04 1 STOP key 1 Stops inverter operation 2 Resets function 3 Resets alarm indication Step keys 1 To change frequency 2 Select function items Funct
40. e setting CE25 5 step time setting CE26 6 step time setting CE27 7 step time setting CE28 SI step time setting CE29 9 step time setting 0 255 0 min X CE30 10 step time setting CE31 11 step time setting CE32 12 step time setting CE33 13 step time setting CE34 14 step time setting CE35 15 step time setting CE36 16 step time setting Description Set multi step function control time 75 12 Multi step function mode Ij Multi step function mode reset Code ERE Setting Factory Change during No value setting operation CE48 Multi step function mode 0 1 0 x reset Description Memorized of current operation step and time in sec while shut down or power failure Step and time reset to O when set CE48 1 Notice External terminal 6 set to RST function when RST connect with COM it will reset the records and steps time to 0 Multi step function mode selecting Code en Setting Factory Change during No value setting operation Multi step function mode CE47 i selecting 0 6 0 X Description Select operation modes on speed variation when process control switch from previous stepto next step 0 Liner operation stop after operated one circle 1 Liner operation automatical restart fro first circle after operated one circle 2 Liner operation stay at last step after operated one circle and wait for input signal of reset restart from fi
41. edures 1 First put external terminal in then FR or RR 2 Put external terminal and FR or RR simultaneously be sure always to put in external terminal before FR or RR External terminal FR RR Running mode Jogging 2 When set Cd92 Cd97 6 7 FJOG RJOG jog without putting FR or RR in External terminal FJOG RJOG Running mode Jogging Jog acceleration deceleration time set the climbing time of frequency from OHZ to 50HZ 50 0 Setting value T A F x T1 T1 Time needed for accelerate decelerate AF Frequency changed 59 9 Output input terminals Ij Multi step speeds frequency command Code ENE Setting Factory Change during No value setting operation Cd12 Frequency command 2 0 00 400 00 20 00 O Cd13 Freguency command 3 0 00 400 00 30 00 O Cd14 Freguency command 4 0 00 400 00 40 00 O Cd40 Frequency command 5 0 00 400 00 45 00 O Cd41 Freguency command 6 0 00 400 00 50 00 O Cd42 Freguency command 7 0 00 400 00 55 00 O Cd43 Freguency command 8 0 00 400 00 60 00 O Description Set by external terminals S1 S6 and switch every step speed Each step speed will not be interference the value never exceeds the maximum range Cd12 2 step frequency setting Cd13 3 step frequency setting Cd14 4 step frequency setting Cd40 5 step frequency setting Cd41 6 step frequency setting Cd42 7 step frequency setting Cd43 8 step frequency setting
42. ent temperature too 2 Lower the ambient detected hot temperature 3 Motor being overload 3 Check the load conditions Overload detected for more Increase the capacity of the OL Is the motor being overloaded Ge than one minute inverter and motor Over load alarm for more than Increase the capacity of the OLb Is the motor being overloaded pee one minute inverter and motor Improve power supply PLU Power voltage too low Is power voltage too low condition Fb Fuse blown Is the fuse blown Change a fuse KOLA OL b FG Over load 150 1 Minute FP Over load 120 1 Minute 102 16 Troubleshooting table III Error s TEA Description of fault operation Item for inspection Processing Reduce GD of load or bUOH DBR overheat detected Is the braking ratio appropriate lengthenteceleration time Free Emergency switch operation Check S6 or COM short or not Open S6 and COM Switch off the power and then SEr Double chips abnormal apply again Replace the unit Keypad communication Check the wiring of keypad Replace the cable Er3 lost or not abnormal 103 17 Control procedures chart Ij Analog input terminal Analog input terminal IN1 0 De activ 1 Analog master speed IN1 input bias IN1 function selecting 2 Analog speed analog master speed auxiliary command 3 master speed gain 4 Auxiliary frequency 2 e 5 Auxiliary freguency 3 OO 4 20mA INI input gain
43. frequency Time X Notice The most appropriate for start frequency is from 0 5HZ to 10HZ DC break Code Enne Setting Factory Change during No value setting operation Cd23 DC break frequency 0 0 20 0 1 0HZ X Cd24 DC break current 0 100 50 X Cd25 DC break time when start 0 0 10 0 0 0sec X Cd26 DC break time when stop 0 0 10 0 0 0sec X Description Set DC injection brake when start to the motor while it is coasting to stop to stop the motor and then restart it Cd23 Set DC break function when stop Stop method setting is deceleration stop or all range DC stop output frequency is smaller than Cd23 and start DC break after input stop operation command Cd24 Set DC break current as inverter rated current Cd25 Set to 0 to disable the DC injection brake at start Cd26 Set to 0 to disable the DC injection brake at stop If setting value of Cd23 less then minimum input frequency to proceed DC injection brake as minimum output frequency Cd57 X Set multi step analog input Cd32 Cd35 Cd38 6 use analog input as DC break current command 100 inverter rated current when input 10V 20mA 55 9 Output input terminals Multi functions analog input Code UNE Setting Factory Change during No value setting operation Cd30 Analog input filter time 1 1000 5 O Cd31 INI input gain NG 100 0 O ie 1000 0 KR Cd32 INI functions selec
44. gh starting torque torque A large torque is required at start up 13 A reactor is connected to the inverter s input or output GOHZ middle starting torque 14 side 60HZ high starting torque 15 Arbitrary V F Free pattern Each setting value of V F pattern is shown below Use 220V as standard in the list if 380V Cd51 the voltage in the table which multiplies 380 220 1 727 Related constants are Cd51 Cd58 when use V F pattern Setting valuel Setting value 2 y DOO pn 64 10 V F control Setting value 3 Setting value 4 Setting value 5 01525 50 9 9 warsones 0 1 53 60 220 beierieriertien ete Seu Hz 0153 50 60 Setting value 6 Setting value 7 Setting value 8 220 9 9 0 15 3 i iL Hz 60 72 220 38 5 8 8 0 1 3 25 50 V 220 55 9 9 0 13 25 50 Setting value 9 Setting value 10 Setting value 11 0 15 30 60 220 55 9 9 0 1 5 60 30 65 10 V F control Hi Setting value 12 Setting value 13 Setting value 14 26 4 01 325 50 26 4 0 153 V F free pattern setting Setting value 15 Cd54 Cd51 Cd56 Cd58 V Cd52 66 HZ Cd53 V F free pattern setting 10 V F control
45. gh the page of CE 88 constants press FWD to process autotuning decetion motor line to line resistor Cd 78 Notice 1 The motor have to be disconnected from machine and a danger never occurs when Rotational mode autotuning is implemented 2 Amachine does not allow motor spontaneously Rotational please implement Stationary mode autotuning CE 88 1 3 Power will be supplied to the motor when Stationary mode autotuning and stationary for line to line resistance are performed even though the motor will not turn Do not touch the motor until autotuning has been completed 47 7 Motor autotuning iii SC Function Cd 55 Middle output voltage Cd 58 Minimum output vlotage CE 82 Motor slip CE 83 Motor unload current CE 84 The pole of motor CE 85 Motor leakage inductance CE 86 Motor resistance Description Constants Cd55 Cd58 CE82 CE83 CE84 CE85 CE86 will be changed automatically after process motor autotuning X Proccess motor constant autotuning under CE 88 AUTOTUNE mode 48 8 Constant setting by function W Frequency setting Code Een Setting Factory Change during No value setting operation Cd00 Frequency setting 0 400 00HZ 10 00 0 Description There are 5 methods to change set frequency Items A C are methods of panel key operation items D E are methods of external terminal input A Keypad VR Cd01 08 Only E2 B Use PROG key to input data Cd01 0
46. ght shifts have been performed When this is done a complete eight bit byte will have been processed 6 Repeat 2 5 for next eight bit byte of the message Continue doing this untill all bytes hace been processed 7 The final contents of the CRC register is the CRC value 84 13 MODBUS communication If CRC Generation continued Pseudo code for generating a CRC 16 CONST ARRAY BUFFER daa ex 11h 03h 00h 6bh 00h 02h CONST WORD POLYNOMIAL 0a001h X16 X15 X2 X1 SUBROTINUE OF CRC CACULATE START CRC_CAL LENGTH VAR INTEGER LENGTH VAR WORD CRC16 OFFFFH CRC16 initialize VAR INTEGER Ij LOOP COUNTER VAR BYTE DATA DATA BUFFER FOR I 1 I LENGTH I BYTE LOOP DATA BUFFER I CRC16 CRC16 XOR DATA FOR J 1 J 8 J BIT LOOP IF DATA XOR CRC16 AND 0001H 1 THEN CRC16 CRC16 SHR 1 XOR POLYNOMIAL ELSE CRC16 CRC16 SHR 1 DATA DATA SHR 1 85 14 Protective function III Stall protective function Code Banckon Setting Factory Change during No value setting operation Cd68 Stall prevention selection 0 1 1 x during acceleration Cd69 Stall prevention level 30 200 125 x during acceleration Description When a heavy load is placed on the motor or acceleration timeistoo short during acceleration Due to current output too much to lead inverter to over current it can prevent from motot stall The inverter
47. if reset or not CE03 0 No reset electrical adjustable speed when stop to keep setting speed CE03 1 Reset electrical adjustable speed to 0 when stop 50 Frequency command selecting 8 Constant setting by function Code Een Setting Factory Change during No value setting operation Can Selecting frequency 0 8 0 x command Description Constant Cd01 is input way selecting of frequency selectable items as following IM Use keypad to input frequency command Digital input by key board Analog input Analog input lag Multi step function 1 DI UP DOMN 2 Pulse input option Keypad UP DOMN 1 Keypad UP DOMN 2 GO A Ch E L H ra Set frequency by terminal VR E2 only Input frequency command by keypad after set Cd01 0 Use constant Cd00 to input frequency commad when ordinary operation HZ Use voltage current to input frequency command analog input IN1 IN3 option cardAI1 2 Input frequency command by analog input after set Cd01 1 Input frequency command contained lag by analog input after set Cd01 2 MB Input frequency command by multi step function to set multi step function Set Cd01 3 to execute multi step function 16 steps are settable and set each step command by CE05 CE36 Please refer to page P74 I DI UP DOMN Set DI terminal to execute frequency UP DOMN by Cd92 Cd97 after set Cd01 4 Set acceleration deceleration by C
48. ing IP00 10 2 Installation and storage Ij FP 200V series Motor rating KW 11 15 18 22 30 37 45 55 75 93 112 130 150 187 Model CT 2000FP 2 011 015 018 022 030 037 045 055 075 093 112 130 150 187 Rated current A 48 61 75 86 125 150 170 210 278 330 390 470 530 700 Rated capacity KVA 19 1 24 3 29 9 34 3 49 60 68 84 111 131 156 187 211 279 Rated input voltage 3 p 200 230V 10 gt 50 60HZ 5 Rated output voltage 3 um 200 230V 10 Cooling system Forced air cooling Outline dimension A2 A2 A4 A4 A4 A5 A5 A6 A6 A7 A7 A8 A8 JA10 Weight kg 14 14 20 22 22 45 46 48 50 70 70 123 123 FP 400V series Motor rating 11 15 18 22 30 37 45 55 75 93 112 130 150 187 KW Model CT 2000FP 4 011 015 018 022 030 037 045 055 075 093 112 130 150 187 Rated current A 24 31 38 47 65 74 93 110 156 180 225 246 290 370 Rated capacity KVA 19 1 24 7 30 2 37 4 51 8 59 74 87 6 124 143 180 196 231 295 Rated input voltage 3 p 380 460 10 gt 50 60HZ 5 Rated output voltage 3 p 380 460 10 Cooling system Forced air cooling Outline dimension Al A2 A2 A3 A4 A4 A5
49. ion active point and when over current occurred Cd72 Over voltage protection active point 220V series 20V 355 20 375 Vdc 380V series 20V 570 20 590 Vdc 87 14 Protective function III Output frequency we i H Stop deceleration when DC Bus in the high side Time Stall prevention limit during constant speed Code Balkon Setting Factory Change during No value setting operation Cd73 Stall prevention selection during 0 1 1 x constant speed operation Cd74 Stall prevention level during constant 30 200 125 x speed operation Description A heavy load is placed on the motor when constant operation and makes inverter output current exceed Cd74 setting value The inverter will automatical reduce output frequency to prevent the motor from stall OC OL When a load disappeared or lightened and makes inverter output current be samller than Cd74 setting value The inverter will automatical accelerate to work frequency Cd73 0 invalid 1 valid decelerated by Cd11 deceleration time Cd74 setting method Set 100 as inverter rated current Output current Cd74 Time Output frequency To avoid stalling to proceed deceleration Time 88 14 Protective function Ij Speed search function Code EE Setting Factory Change during No value setting operation Cd75 Input voltage active point 155 500 By spec X Description
50. ion setting keys These three keys offer selecting read or setting value of function 24 Keyboard information LCD keypad 4 Digital Operator LCD Monitor 7 segment Monitor Indicators om E a Ja Keys READ v gt A Zeil Digital operator key function information Key Name Function FWD Motor run Motor run forward REV Motor run Motor run reverse STOP Stop Stop the revolution reset PROG Select function Switch input mode set constants READ Read Read quit constant SET Set and save Input mode switch constant setting A Up Increment Vv Down Decrement gt Shift Switch location of cursor HZ Frequency HZ LED means of recent revolution frequency A Current ALED means of recent revolution current RDY keypad status RDY LED means keypad working normally ALM Malfunction display ALM LED means malfunction occurred 25 4 Digital Operator All mode operation The operation mode of inverter equip monitoring and input modes this section describes mode and switch between modes A Setting mode selection X READY Es HZ ZE READY HZ A ALAR X READY SEHZ ZE READY Hz A ALARM 26 Frequency is shown on the monitor after inputpower READY and HZ indicator lit Monitoring item is Cd 00 Press AW keys to select user s setting Monitoring item is CE 00 Pre
51. ion time is reached If the stop command is input when Cd44 2 the inverter output is interrupted to coast the motor to stop the motor coasts to stop at inertia the load Run commands are ignored until the time has elapsed Set timer time by Cd10 acceleration time 2 Run command on ON ON Decelerates to stop at deceleration time According to select frequency when decelerated time and stop to proceed time 53 8 Constant setting by function Ij Jump frequency Fin EE eee Cd20 Jump frequency 1 0 00 400 0 0 X Cd21 Jump frequency 2 0 00 400 0 0 X Cd22 Jump frequency width 0 0 20 0 1 X Description The objective of this function in order to avoid resonance occurred between subsistent vibration of machine and motor operation Set machine vibration frequencythat you would like to avoid Motor operation will be prohibited by jump frequency setting when constant speed operation but jump will not occur during accleration deceleration procedure Output frequency When frequency command declines Jump frequency 1 Jump frequency 2 Start frequency Jump frequency Code Function Setting Factory Change during No value setting operation Cd16 Start frequency 0 5 60 00 1 5HZ X Description Set motor start frequency settable range of frequency from 0 5HZ to 30HZ accuracy is 0 01HZ 54 8 Constant setting by function W frequency Start
52. iring diagram Standard external wiring diagram Analog output 0 10V Max 5mA Multi step speed set 2 Fault reset 3 wire operation MA Multi function MB Output terminals 1 Free run stop AC 240V Max 1A M1 DC 28V Max 2A M2 Multi function M3 Output terminals 2 Extemal frequency references DC 48V P1 Open collector Max 50mA 10V IN1 4 20mA MODBUS IN2 O 10V RS422 485 IN3 0 10V Ge Shield wirse Twisted shield wirse 16 3 Wiring diagram Terminals arrangement C16D230 Control board 1 Option card connector RS 4851422 Multi function Communication Analog input Open collector Output terminals KEYPAD terminals terminals Multi function terminals M2 MI M3 MB MA MC 10V INI IN2 IN3 CC FM AM 2 a com Sl 2 o S4 S5 2 a aie COM Master circuit Terminals A1 A2 Eli eieiei sep S T E U V W terminals Gageeacelel _ 9 C16D230 Control board 2 Under development applies to new structure 17 3 Wiring diagram Terminals arrangement C16D225 Control board 1 Option card connector RS 485 422 we Multi function Communication Analog mput Open collector l Output terminals PAD terminals terminals Multi function terminals j j j j j olalalel2 a ol2 l l l l j j j l l l j M2 MI M3 MB MA MC TA TB RA RB IG EG 10V INI IN2 IN3 CCFM AM CC Pl PC COM Sl an an
53. it Wire according to the standard connection diagram On using the external sequence control please use small signal relay or double terminal relay to avoid relay terminal malfunction Signal wire The signal circuit uses either shielded pairs or twisted pairs should be wired either using a wiring duct separated from that for the power circuit or with the wiring conduit isolated as much as possible Wiring between main circuit and motor Connect the main circuit by wiring according to the main circuit terminal connection diagram Care is required not to make a mistake when connecting the input and output terminals lest it will cause inverter damage Specifications of main circuit path and NFB are as following Voltage Model NEB Standard wiring Voltage Model NFB Standard wiring 2 fe ai CT2000E2 4 A75 10 CT 2000FG 2 5A5 CT 2000FC 2011 60 22 380 CT2000F 1 4 011 al 8 14 craoor sos 40 H 460 402 0 2 4 030 80 22 4037 045 4055 4075 093 amaf 300 60 100 4130 CT 2000FP 4 150 CT 2000FG 4 160 CT 2000FL 4 187 Cr 2000rP 4 220 600 100 20 CT 2000PG 4 225 600 100 200 _ 220 CE2000R 2 131 600 100 200 CT 2000FP 4 250 CT2000F CT 2000FG 4 262 800 gt No Specification CT 2000FP 4 300 200 300 G
54. leration 4 Speed reached 5 Deceleration ZO 6 Frequency arrive DIE Cays 0O 7 Current arrive O cass O 8 Overheat 9 OL malfunction action 10 X O Multifunction relay 2 output function selecting Multifunction relay 2 DO output function selecting DO Output 108 17 Control procedures chart Application of compressor Machine Pressure vessel B Pressure sencer Pressure control valve Machine bleed off Malfunctjon detect Atmospheric pressure Constant seeting Cd01 0 gt Cd04 1 gt Cd08 15 gt Cd09 15 gt Cd18 20 gt Cd47 1 gt CE54 3 CE55 5 CE56 1 gt Cd35 8 gt Cd38 7 Application of extruder machine aca e Plastic Lead screw 1 Heater Lead Grind screw 2 Lead vesse Cooling Extruder screw 3 Constant setting Master inverter setting Cd01 1 Cd04 1 Cd08 30 Cd09 30 Feeder setting Cd47 7 Cd85 5 Cd86 110 109 17 Control procedures chart W Application of winding machine Costant setting Master inverter setting Cd01 1 Cd04 1 POTENTIO METER Winding machine setting Please set CE88 95 to autotuning Cd01 1 Cd04 1 Cd35 8 Cd36 50 Cd38 7 Cd44 1 CE54 1 CE55 0 4 CE56 6 6 110
55. mpensation delay time 010000 50 msec X Noload current adjust Cd59 FG only 30 150 60 X Cd60 Torque compensation frequency 1 5 10 2 50 HZ x FG only Description Torque compensation is automatic function of increasing torque when the load of motor is detected too high To measure the resistant of motor is demanded to use this function Please use the automatic measure of motor or input known the resistant of motor CE86 Setting precaution 1 Frequency torque compensation will run when operation freauency exceeds Cd60 which be set 2 Increase the value of Cd59 when unload current is too large opposite when too small to collocate Cd60 3 Increase gain of C4 01 when motor start and the torgue is not enough 4 Over current occurred when start please decrease gain of Cd07 5 Current exceed rated current when motor idled and decrease gain of Cd07 6 Vibration occurred when motor rotated and decrease gain Cd07 or increase delay time Cd50 7 Please collocate with slip compensation when operated rated speed under 3HZ is demanded 8 Torque compensation is invalid when the resistant of motor is CE86 0 or torque compensation gain Cd07 0 operated by set V f curve 68 10 V F control Slip compensation setting Code Bac Setting Factory Change during No value setting operation Slip compensation gain CE00 0 2 50 0 O FG only Slip compensation delay CEO time 0 10000 5
56. n 0 3 0 Cd76 Speed search operating current 0 200 120 X Cd77 Speed search deceleration time 0 1 10 0 2 0S X Cd78 Speed search waiting time 0 0 20 0 0 2S X Description The speed search function finds the actual speed of motor that is Rotational using inertia and then starts smoothly from that speed When restoring power after a temporary power loss or Rotational using inertia fan is enable There are two ways of speed search by set Cd28 Cd28 0 invalid 1 valid MCK feedback above 3HP 2 valid current detection 3 valid MCK disconnection start inertia start Mm Cd28 1 MCK feedback speed search search motor rotoring speed by MCK feedback signal then start operation by the speed Operation command Frequency command pik Ee Beh he tees Dee ed Output v Hedijency eae pie by frequency detection Output voltage lt gt anes Cd81 Voltage recovered time 90 14 Protective function Ij Mm Cd28 2 Current detect MCK feedback speed search Start searching motor speed by frequency command or maximum output frequency when output current is over 120 rated current in searching and start by decreasing output frequency after current is lower than 120 rated current then proceed regular operation Operation command Frequency command Output frequency Output current Mm cd28 3 MCK disconnection start inertial start PCB control circuit is unable to oper
57. nction analog input terminal terminal 4 Multi function analog input S5 terminal 5 Multi function analog input S6 terminal 6 Concurrent of multi function input Contact and operation control terminal COM A terminal COM common RR reverse stop terminal ON reverse OFF stop Operation FR forward stop terminal ON forward OFF stop control trminal ion COM Opetaltofi contol eminal Multi function input and Operation control trminal common MA MI Multi function output contact A Multi function analog output MB M2 Multi function output contact B 240VAC Max 1A f 28VDC Max 10A contact MC M3 Multi function output contact concurrent TA RS422 T RS422 T or RS485 terminal MODBUS TB RS422 T RS422 T or RS485 terminal Communication RA RS422 R RS422 R terminal RB RS422 R RS422 R IG Shield grounding terminal Provide shield grounding system OV o j P1 Multifunction output connector en collector sn Sammon PC Multifunction output connector Below DC 48V 50mA common Grounding EG Shield grounding terminal Offer shield grounding applied for analog terminal and inputterminal 22 Keyboard information DISP KSE a FWD REV STOP Digital operator key function information 4 Digital Operator Key Name Function FWD Motor run Motor run forward REV Motor run Motor run reverse STOP Stop Stop the revolution reset PROG SET Select function Set and sav
58. ng Factory Change during No value setting operation Cd46 Speed multiplier gear 0 150 00 1 o Description The function shows revolution speed multiplied by a scaling factor on the Display Comply with d1 34 Notice 1 HZand ALED de active 2 RPM Frequency xCd46 3 Ifthe value overflow it will show 9999 DC Bus fine tune Code BE Setting Factory Change during No value setting operation Cd67 DC Bus fine tune 15 0V 0 0V X Description This function is to adjust the calibration of voltage positioning on DC BUS between detected and actual position The display value is higher when set at bigger figure Cd67 220V series when setting value gt 15V equal to 15V s 400V series can set up to 30V Dynnnamic break Code Beo Setting Factory Change during No value setting operation Cd64 Dynamic braking mode 0 1 1 X Cd65 Dynamic braking voltage level 0 40 20 X Description Set action level and mode when set dynamic break Cd64 0 De active when operation Cd64 1 Dynamic braking can be active during acceleration and deceleration but not active during constant speed operation Cd65 Dynamic braking voltage level This function adjusts action point of inverter dynamic break For example of 220V series Set 20V equal to 350 20 370Vdc 94 15 Enviroment setting PWM frequency Code CAA Setting Factory Change during No value setting operati
59. of automatic adjust V F 0 100 45 No x P47 setting curve low speed boost Motor rated 0 0 By CE 90 voltage 500 0 spec No X P47 Motor rated 10 0 CE 91 irent 200 0 100 No X P47 CE 92 Motor rated Proccess autotunning by motor nameplate to 0 0 By No x P47 frequency set all constants of motor 400 0 spec CE 93 Motor pole 2 8 4 No X P47 Motor rated 0 CE 94 RPM 7200 1750 No X P47 Motor 10 CE 95 Noload Collocate unrotational mode adjustsetting 100 45 No X P47 current Restore initialize 0 380V 1 415V 2 440V 3 460V chee value of except 220V series 053 U NG u POJ motor voltage Restore initialize 0 SOHZ GE value of 1 60HZ 220V series is fixed 60HZ el 0 Ne x BS motor frequency User pass 0 CE 98 For Cd 98 Lock data 0 ATT X P97 word 9999 CE 99 HP setting Set by specification of inverter 0 63 Se No X X 44 Monitoring status Code EE Modbus No Address d1 01 Output frequency contain slip boost 64 d1 02 Output current 65 d1 03 Frequency command 66 d1 04 DC BUS voltage 67 d1 05 Output voltage 68 d1 06 DI terminal status 69 d1 07 Module temperature 70 d1 08 RUN status 71 d1 09 RUN command 72 d1 10 Malfunction status 73 dl 14 Power factor 74 dl 15 Transient power KW 75 dl 16 KWH 76 d1 14 17 Reserved 77 80 d1 18 IN1 0 20mA 81 d1 19 IN2 0 10V 82 d1 20 IN3 0 10V
60. og setting by keypad DC 0 10V analog setting DC 0 10V 4 20mA Displa LCD display 7 segment LED display frequency current pray voltage setting value function indicators fault status Out of phase low voltage over voltage overload over current over heating subthreshold current Overload capacity 150 for 1 min anti time limit function Indoor altitude 1 000m or lower Amin Ier 500 below 75KW C10 450 Temperature Relative between 45 to 90 No condensing Protection structre Forced air cooling IPOO below 7 5KW IP20 2 Installation and storage Ij FG 200V series Motor rating KW 3 7 55 7 5 11 15 18 22 30 37 45 55 75 93 112 Model CT 2000FG 2 3A7 5A5 7A5 011 O15 O18 022 030 037 045 055 075 093 112 Rated current A 18 23 33 48 61 75 86 125 150 170 210 278 330 390 Rated capacity KVA 7 1 9 2 13 1 19 1 243 29 9 34 3 49 60 68 84 111 131 156 Rated input voltage 3 p 200 230V 10 gt 50 60HZ 5 Rated output voltage 3 p200 230V 10 Cooling system Forced air cooling Outline dimension Al Al Al A2 A3 A4 A4 A5 A5 A6 A6 A7 A7 A7 Weight kg 8 9 10 14 20 22 22 45 45 65 65 70 70 70 Motor rating KW 131 160 Model CT 2000FG 2 131 160 Rated current e A 470 580 Rated cap
61. on Cd61 Select PWM frequency 0 15 2 X Cd62 PWM frequency upper limit 2 0 8 0 6 KHZ X Cd63 PWM frequency lower limit 2 0 8 0 3KHZ X Description Constant CD61 can set PWM frequency the list as below Setting value PWM frequency Setting value PWM frequency 0 2K HZ 5 6K HZ 1 3K HZ 6 7K HZ 2 3 5K HZ 7 8K HZ 3 4K HZ 8 14 4K HZ 4 5K HZ 15 Setting by Cd62 Cd63 PWM frequency will become the variable one when Cd61 setting value is 15 Set maximum value by Cd62 Set minimum value by Cd63 Set Cd62 as fixed PWM frequency when Cd62 lt Cd63 PWM frequency Cd62 PWM frequency upper limit Cd63 PWM fi frequency Base lower limit EERS 12 5 87 5 oan TD 95 15 Enviroment setting Instant initial field time Code Be Setting Factory Change during No value setting operation Cd66 Instant initial field time 0 00 20 00 0 2 X This function is to adjust instant initial field current of motor Shorter of the time higher of the field current Output frequency A DC braking frequency Set frequency In stopping Ca24 Start frequency il cas et e Ge DC branking frequency oat DS time _ DC braking frequency a enn ue 65 2 ine in sion Cd23 Cd26 ee Output voltage 4 Output voltage of set frequency Output voltage of start frequency DC braking voltage il Cd25 Time
62. on is Screen indicates kg value IN1 CE81 100 Initialize data 15 Enviroment setting Fein Se Cd99 Initialize data 0 5 0 X Setting value Content 0 Invalid 1 Recover auto procedure operation constant Cd08 Cd11 gt CEO5 CE20 gt CE21 CE36 2 Recovering factory value Uncontain auto procedure operation constant Cd08 Cd11 gt CE05 CE20 CE21 CE36 Recovering factory value 3 Uncontain auto procedure operation constant Cd08 Cd11 gt CE05 CE20 CE21 CE36 and motor constant Cd05 gt Cd06 gt Cd17 Cd18 Cd50 Cd58 gt Cd75 Cd78 4 All Initialize data recover Eliminate error record 101 16 Troubleshooting table Ij Description of alarm display indications Error tes 7 d GE Description of fault operation Item for inspection Processing indication Was the unit operated as Err Operation error oe ai m Op Use the correct procedure indicated in the manual Operation error of internal Switch off the power and then Ero P 3 p Replace the unit ROM RAM apply again Is there a large amount of Check the contact absorber ErC Error of internal CPU rg Ore external noise Install a noise filter In acceleration instantaneous 8 d Lengthen the acceleration OCPA Was there rapid acceleration 8 over current time In deceleration instantaneous i Lengthen the deceleration OCPd Was there
63. onitoring item is d1 00 Press A V P key to modify figure Monitoring item is malfunction record is d1 29 Please refer to the monitoring chart Malfunction record is nOFr means no record OC means over current Monitoring item is HZ Freguency command is shown when stop run Press FWD REV key and enter monitoring mode monitoring mode is set by Cd 02 FWD REV indicator lit Press PROG key ZE READY Hz OM ALARM X READY bog HZ A ALARM 4 Digital Operator Enter input mode Press A W key or numeric keys to select constant press key to shift the cursor Select it to modify operation frequency Enter input mode Press A W key or numeric keys to select constant Please use A V gt P or numeric keys to change figures 3E READY EE OM ALARM READY Hz OM ALARM Y READY Hz OM ALARM READY Hz A ALARM 3E READY SEHZ A ALARM 29 Enter input mode Press A W key or numeric keys to select constant Modify the frequency is 20 00HZ Set constant indicate PASS Twinkle twice Indicate Err if set wrong Back to Cd 00 Monitoring item is CE 00 The inverter output frequency is modified to be 20 00HZ 4 Digital Operator LCD keypad Copy Press PROG P Turn on Copy function then press once again to conceal Memory 1 Memory 2 Memory 3 All Cd All CE All Cd amp CE A1 00 A
64. r parameters In function CE04 setting User password CE98 and setting Cd 98 2 97 15 Enviroment setting I Macrocosm mode All constants could be read and modified after set Cd98 2 Hi Simple mode The constant setting were modified to be simple mode after set C98 1 Simple mode provides 20 common use constants for operators to use and modify the sequence as below Sequence Constant NO Constant name Page 1 Cd00 Frequency setting P49 2 Cd01 Frequency command selecting P51 3 Cd02 Operation display content P50 4 Cd04 Operation command selecting P52 5 Cd05 V F curve selecting P64 6 Cd06 Motor rated current P69 7 Cd08 Acceleration time 1 P52 8 Cd09 Deceleration time 1 P52 9 Cd12 Frequency command 2 P60 10 Cd13 Frequency command 3 P60 11 Cd14 Frequency command 4 P60 12 Cd15 Jog frequency P59 13 Cd44 Stop method selecting P53 14 Cd51 Motor rated voltage P67 15 Cd53 Maximum output frequency P67 16 Cd54 Maximum output voltage P67 17 Cd56 Middle output voltage P67 18 Cd58 Minimum output voltage P67 19 Cd61 PWM frequency selecting P95 20 Cd98 Data lock P97 98 LCD key function LCD Monitor 7 segment Monitor Description SS 15 Enviroment setting 1 Use A V to switch the content of 7 segment after input power 2 When monitor LCD display press k IN twinkle is viewing press A V LCD display is s
65. rapid deceleration 8 over current time OCPn In constant speed instantaneous Was there any variation in the Lengthen the time for the over current load load variations Was there rapid acceleration Lengthen the acceleration Over current 200 rated one GON 8 OC deceleration and variation in and deceleration time and current the load reduce the load Ewe Is there a short circuit for the OCS Output short circuit or ground aay eta Satine forthe Perform a megger check detected P er g for the motor motor Lengthen the deceleration Was there fast deceleration or 8 OU DC link over voltage time Investigate the use of fast voltage S the optional DBR Insufficient voltage detected Is there a low voltage at Improve the voltage LU dueto power failure or power or internal inverter condition and confirm instantaneous power loss wiring error inverter model Insufficient voltage detected due to power failure or Is there a low voltage at Improve the voltage LUA instantaneous power loss And power or internal inverter condition and confirm the auto save function is wiring error inverter model working Insufficient voltage detected due to power failure or Is there a low voltage at Improve the voltage LUb instantaneous power loss And power or internal inverter condition and confirm the auto save function is wiring error inverter model working 1 Exchange the cooling 1 Cooling fan stops fan OH Overheating of the cooling fan 2 Ambi
66. rature Feeds back temperature information and performs Thermocouple thermistor control temperature adjustment control 70 11 PID control PID control method selecting Code Pane Setting Factory Change during No value setting operation CE54 Select PID 0 4 0 x control Description CE54 is PID control method selecting select as following 0 invalid 1 PID output is inverter output D control error 2 PID output is inverter output D control feedback 3 PID output is adjustment of inverter output D control error 4 PID output is adjustment of inverter output D control feedback PID target value setting methods Target value setting methods as following Setting method Description Priority Main speed Set analog input as feedback value 10V is100 use gain and bias 1 freguency setting to adjust Set Cd32 35 38 8 Analog input Set analog terminal input of encoder card as target value 2 P W M input Set pulse input as target value GES Set main frequency as target value maximum frequency is 100 4 PID feedback value setting value Feedback value setting methods as following Setting method Description Priority Pence Set analog input as feedback value 10V is100 use gain and bias 1 gmp setting to adjust Set Cd32 35 38 7 Set analog terminal input of encoder card as target value 2 Pulse input Set pulse input as target val
67. rcumstance 0 50 Cd 50 Orde 1 When the motor is oscillating increase the No X P68 delay time 10000 msec set values 2 When the responsiveess of the motor is low decrease the set values Cd 51 MOORE Each factory value of each model OVER No 527 P67 voltage 500 0 spec Motor rated 10 0 60 0 GE frequency 400 0 HZ Ne Ee ES Maximum 10 0 60 0 Cd 53 output 400 0 HZ No 529 P67 frequency Maximum 10 0 By Cd 54 voltage Set V F curve please adhere the following 500 0 spec No 530 P67 I rules 00 30 cg 55 Middle output C453 Cd52 gt Cd55 Cd57 E No 53 P67 frequency Cd54 Cd51 gt Cd56 Cd58 400 0 HZ cd 56 Middle output 0 0 By No 532 P67 current 500 0 spec Minimum 0 0 0 5 EE tput Seene 400 0 HZ No 533 P67 Minimum 0 0 By Cd 58 output voltage 500 0 spec No 534 P67 Unload current Increase the values when unload current is 30 60 Cd 59 adjusting bigger Decrease the values when it is lower 150 o No X P68 FG only Collocate Cd 60 to adjust u Torgue bosst 2 50 Cd 60 frequency Set torque boost operation frequency 1 5 10 No X P68 HZ FG only Select fixed PWM frequency Selecting PWN 0 2k 1 3k 2 3 5k 3 4k 4 5k 5 6k Cam freguency 6 7k 7 8k 8 15 4k Sch 2 Ne Ve Re 15 Set by Cd62 and Cd63 36 6 Constant tables Ij e GE Modbus Function Description Address Maximum Cd 62 PWM Settable PWM maximum frequency freely 20 8 6k No 190 P95 f
68. requency operation frequency will be higher setting Minimum Cd 63 PWM Settable PWM minimum frequency freely 20 8 3k No 191 P95 frequency operation frequency will be lower setting Dinamie Set brake mode Cd 64 y 0 operation wnen run 0 1 1 No 192 P94 braking mode d 1 no operation when speed is the same Dynamic braking Cd 65 voltage Set 20V equal to 350 20 370Vdc DB on 0 40 20V No 198 P94 positioning Instantinitial ENE 00 Cd 66 field time Instantinitial field time when start motor 20 00 0 28 No 193 P96 Fine tune Cd 67 DC Bus Adjust the standard score of DC Bus 15 0 OV No 195 P94 standard score Stall gg Preventive 0 Invalid SR function in 1 Valid oF No 22 ES accel atal Set rated current as 100 for stall preventive 30 x Cd 69 preventive R P No 536 P86 E leveling acceleration 200 level in accel Stall In accordance with Cd70 setting value when _4q Prevention inverter operation is over motor rated 30 50 SR limit during frequency to reduce stall prevention limit 100 No SEH SS accleration during accleration Stall _4 Prevention 0 Invalid u di limit during 1 Valid ES ne SE e deceleration Over current Cd 72 voltage active Over voltage protection function active point 0 50 20 No 199 P87 point Constant speed stall 5 0 Invalid eee revenuon 1 Decelerate by deceleration time 2 Cd11 021 l No 292 ES during operation Constant speed stall a Cd 74 preventive Set rated current as 100 for constan
69. rgency stop detection 3 Continuous operation Set C as unit for detecting level of inverter Temperatuto overheating 20 daa EC Software protection is invalid when set 100 C 100 go SR SS Ve OH is only hardare protection Current Set hysteresis range when relay Cd 85 hysteresis Cd47 Cd48 and DO Cd49 2 20 2 Yes 551 P63 range current detected Cd 86 URL Gote Set current detect level when current detected de 109 Yes 552 P63 level 150 Set filter time of analog output termainal to Ca 87 malos output ctiminate the noise in effect Oe Kcal Ne 553 P57 filter time 1000 ms Input reaction will become slow Analog output Cd 88 1 E te EEN e 554 P57 FM bias ae ees Analog output BEER Cd 89 1 u ke sr rama of operation Ee 1 00 Yes 555 P57 FM gain quency S oup i Analog output Cd 90 2 ee Ve 556 P57 AM bias analog output is o Analog output sich es i Cd 91 2 je voltage SC GES of operation oe 1 00 Yes 557 P57 FM gain equency analog outpu 38 Code e Description 6 Constant tables Ij Modbus Address Cd 9 Multifunction 0 3 wire operation control 2 terminal S1 1 Multi step speed 1 0 21 9 No 558 P58 function 2 Multi step speed 2 Multifunction 3 Multi step speed 3 Cd 93 terminal S2 4 Reserved 0 21 10 No 559 P58 function 5 JOG frequency Multifunction 6 Forward JOG Cd 94 terminal S3 7 Reverse JOG 0 21 2 No 560 P58 function 8 Auto rest
70. ription Cd 33 IN1 input bias Set percentage bias for 4mA when input 100 0 0 00 Yes 520 P56 Set percentage when 10V input 0 0 1100 0 Cd 34 IN3 input gain Set percentage 100 when set Cd35 correspond 1000 0 Ob Yes 521 P56 selecting function 100 i G 0 10V input mode setting set IN3 function 0 De active 1 Analog master speed 1 step speed frequency command 1 2 Adding master speed Cd 35 IN3 function l analog master speed auxiliary command 0 8 0 No 522 P56 selecting 3 Master speed gain 4 Auxiliary frequency 2 5 Auxiliary frequency 3 6 DC brake current 7 PID feedback value 8 PID command value Cd 36 IN3 input bias Set ercentage bias when OV input 100 0 0 00 Yes 523 P56 Set ercentage bias when OV input 0 0 1100 0 Cd 37 IN2 input gain Set percentage 100 when set Cd38 correspond 1 000 0 EN Yes 524 P56 selecting function 100 S 0 10V input mode setting set IN2 function 0 De active 1 Analog master speed first step speed freguency command 1 2 Adding master speed Cd 38 IN2 function i Analog master speed auxiliary command 0 8 1 No 525 P56 selecting 3 Master speed gain 4 Auxiliary freguency 2 5 Auxiliary freguency 3 6 DC brake current 7 PID feedback value 8 PID command value Cd 39 IN2 input bias Set ercentage bias when OV input 100 0 0 00 Yes 526 P56 Frequency th O 45 00 Cd 40 command 5 5 frequency command 400 00 HZ Yes 168 P60 Freq
71. rity bit check 0 2 0 X Description Setting value 0 disable 1 even parity bit 2 odd parity bit MODBUS communication command Function Data Setting MODBUS Address FR 1 Operation command RR 3 72 d1 09 STOP 4 MODBUS communication command Function Data Setting MODBUS Address Stand by 12 Forward 3 Reverse 15 Operation status Forward standing by 1 71 d1 08 Reverse standing by 13 Forward is modified to reverse 3 Reverse is modified to forward 7 81 13 MODBUS communication MODBUS communication malfunction status list Function Data Setting MODBUS Address NONE 0 OC 1 OU 2 OH A 6 OH b 7 OL A 8 73 Operation status OH 19 d1 10 Fb 21 OCPn 23 OCPd 24 OCPA 25 82 13 MODBUS communication If E Data structure This product support MODBUS RTU protocol Function 03H 06H code the data protocol of all function codes as below Function 03H Read holding registers Read 2 data from register in an inverter at slave address 1 FH data address are continuous and the beginning address is 280H gt the RTU MODE data frame are listed as below RTU Mode Slave address 1FH Function 03H Slave address 1FH Function 03H Starting address 2H high byte S Content of address 006BH high byte ma 006BH low byte Content of address 006CH high byte Content of address
72. rrounding air must be free of corrosive contaminants And please input power a time per half year 2 Installation place Places where the peripheral temperature is from 10 Cto 40 C and where the relative humidity is 90 or less Avoid installing at places where there is dust iron particles corrosive gas water spray direct sunlight or too much vibration And places where has good ventilation 3 Please fix the inverter under the cooling fan if it is installed in the panel The heating from inverter will be discharged out of the panel to reduce the temperature and get the better effect of ventilation Notice 10HP contained and above inverter are installed as following Discharge heating 10 20 cm Heating of inverter 10cm 10cm CT2000F 30 cm at least 2 Installation and storage W A FG FP exterior dimension Inverter dimensions unit mm 220 0 200 0 180 0 57 0 Fri f God S SECH S J N Al Frame Te Ges without LCD keypad i FO D F E ooo KI oP a eal INIUIUINUIONINI III III G tlg A B C D E F G H A2 430 414 401 244 190 225 7 07 A3 472 456 441 260 208 258 7 07 A4 492 477 466 283 200 289 7 07 A5 560 546
73. rst circle Reserved Gradually operation stop after operated one circle Gradually operation automatical restart fro first circle after operated one circle Gradually operation stay at last step after operated one circle and wait for input signal of reset restart from first circle NNW 76 12 Multi step function model Liner operation Frequency A CES CE24 CE26 CE28 CE3 CE21 CE23 CE25 CE27 CE29 Time Gradually operation Frequency CE22 CE24 CE26 CE28 CE21 CE23 CE25 CE27 CE29 E28 CE30 Time 77 12 Multi step function mode Ij Frequency Not continuous operation Last step Fast step gt Pomi sipped Frequency i P SP f Last step Continuous operation Fast step i Perform speed as the last speed in the step till the reset then change to first step s speed SG to continuous operation Continuous operation Last sten e perform speed as the last speed in the step till the reset Fast step Time 78 13 MODBUS communication If MODBUS communication This product built in with standard RS422 RS485 communicate port support international standard MODBUS protocol user can monitor single or many inverters by using PLC PC industrial computer or other equipment which support MODBUS protocol I The physical links The wiring of this product can use ei
74. s Multi function Output terminals 220V series CT2000E2 2 2A2 CT2000E2 2 3A7 380V series CT2000E2 4 2A2 CT2000E2 4 3A7 CT2000E2 4 5A5 Option card RS 485 422 Open collector TA TB RA RB IG EG TA TB RA RB IG EG Pl PC S5 S6COM Pl PC S5 S6COM KEYPAD Multi function Output Multi function Output Communication terminals 21 3 Wiring diagram Terminal Specification Classification Terminal Terminal name Specification symbol RST AC I naj 3 DAC 200 240V 50 60HZ EE 3D AC 380 460V 50 60HZ Main Circuit U V W Inverter output terminal 3 phase induction motor E Ground Terminal Ground Terminal of inverter P PR Breaking unit connecting terminal Connected with brake unit DBU PN Breaking resistor connecting termial Connected with brake unit DBU 10V 10V power outout Provide 10VDC 30mA power CC Common of analog input output Common of analog input output terminal Analog input INI Multi function analog input 1 4 20mA input output terminal IN2 Multi function analog input 2 0 10V input IN3 Main speed analog input 3 0 10V input FM AM Multi function analog output 0 10V 5mA output si Multi function analog input terminal 1 Multi function analog input S2 terminal 2 53 Multi function analog input i i terminal 3 Mult HES 7 co 7 DC 24V 8mA Photocoupler isolation analog input s4 Multi fu
75. set frequency 0 10 0 N 139 P52 Cd 11 time 2 from 50 HZ to 0 HZ 6000 0 sec e Frequency nd O 120 00 Cd 12 comand 2 2 step frequency command 400 00 HZ Yes 140 P60 Frequency rd O 30 00 Cd 13 command 3 3 step frequency command 400 00 HZ Yes 141 P60 Frequency th O 140 00 Cd 14 command 4 step frequency command 400 00 HZ Yes 142 P60 33 6 Constant tables Ij Modbus Address Setting Factory value setting O 5 00 Cd 15 Jog frequency Fenquency when jog run 60 00 ER 0 5 Cd 16 Start frequency Set motor start frequency 60 0 SE N Upper limiter Kod 10 00 160 00 Cd 17 of freguency Set upper limiter of freguency command 400 00 HZ No 145 P67 Lower limiter 0 0 Cd 18 of fregueney Set lower limiter of freguency command 100 00 OHZ No 146 P67 Acce dece of The time needed for set frequency 0 0 Cd 19 Josinj from 0 HZ to 50 HZ Booo deden ZNO al Es GE BEE SES No 148 P54 1 Set the middle value of jump frequency set 0 is 400 00 _51 Jump frequency invalid 0 Cd 21 2 400 00 OHZ No 149 P54 Jump 0 Cd 22 freguency width Set jump freguency width 20 0 1HZ No 150 P54 DC break Start the DC break freguency as HZ when 0 0 Cd 23 Ee decelerate to stop Start frequency Cd16 when 20 0 1HZ No 512 P55 quency Cd23 lt start the DC break frequency Cd16 Set the inverter rated current as a percentage DC break Set the DC break time when start The setting 0 E
76. ss AW keys to select user s setting Back to monitoring HZ DISP indicator lit means monitoring item Operation command is shown when stop operation HZ LED lit when display is frequency Monitoring item is Cd 00 Press AW keys to select user s setting 4 Digital Operator Please use A W P or numeric keys to change figures READY HZ Monitoring item is Cd 02 s GA Press AW keys to select monitoring ALARM item JE READY HZ TR Enter Cd 02 monitoring item ALARM Factory value is operation frequency Please use A W P or numeric keys to change figures 3E READY HZ aA Enter Cd 02 monitoring item ALARM Modify constant is load current Press SET key READY Hz Set constant indicate PASS a Twinkle twice ALARM Indicate Err if set wrong X READY HZ A Back to Cd 02 ALARM ZE READY HZ o DN 8 e SEH Monitoring item is CE 00 Y READY HZ ZEA Monitoring item isload current H H ALARM No load is A 0 0 27 4 Digital Operator C Inspect malfunction record and monitoring value Press READ key Y READY Hz A ALARM Please use A V P or numeric keys to change figures 3 READY HZ OM ALARM READY Hz A ZE ALARM READY 600 Hz 0 A ZE ALARM e So D Press FWD REV key under any status 3 READY SEHZ SA ALARM A READY EE A ALARM 28 M
77. step function control 8 step speed 0 0 HZ Yes 240 PJA I setting 400 00 setting 9 step l th CE 13 speed Multi step function control 9 step speed 0 0 HZ Yes 241 P74 setting 400 00 setting 10 step i i th CE 14 speed Multi step function control 10 step speed 0 0 HZ Yes 242 P74 setting 400 00 setting i step Multi step function control 11 step speed 0 CE 15 speed SEP P SP OHZ Yes 243 P74 sering setting 400 00 40 6 Constant tables Ij Modbus Address Code Setting Factory Corner Function Description during No value i operation 12 step Multi step function control 12 step speed Maje speed setting setting here one mm on pra 13 step Multi step function control 13 step speed 0 CEA speed setting setting 400 00 Ome ES ae MG 14 step Multi step function control 14 step speed 0 Ge speed setting setting 400 00 GHZ ue ae Ria 15 step Multi step function control 15 step speed 0 we speed setting setting 400 00 Ge u im 16 step Multi step function control 16 step speed 0 eee speed setting setting 400 00 One SE SE En CE 21 1 step time Multi step function control 1 step time 0 255 0 No 249 P75 setting setting CE 22 2 step time Multi step function control 2 step time 0 255 0 No 250 P75 setting setting CE 23 3 step time Multi step function control 3 step time 0 255 0 No 251 P75 setting setting i CE 24 4
78. step spped Frequency command 3 6 DC braking current Inverter rated current 7 PID feedback value Feedback value source 8 PID command value PID input value Analog output setting Ss ER ME MA Cd87 Analog filter time 50 1000 100 O Cd88 Analog output 1 FM bias 10 0 0 0 O Cd89 Analog output I FM gain 0 00 2 50 1 00 O Cd90 Analog output 2 AM bias 10 0 0 0 O Cd91 Analog output 2 AM gain 0 00 2 50 1 00 O Description Multi function analog output can be selected monitoring d1 xx to transfer to analog voltage output when selected one is 100 output 10V Please refer to d1 constants page 38 The function of Cd87 could be set as the filter time of VOUT The filter time setting is longer the capability of reject fiter is stronger but the reaction of input become slow Please set the adaptable time by user reguest Cd88 Cd90 can be set analog output bias output is lower than OV output OV only Cd89 Cd91 can be set analog output enlarge magnification output exceed 10V output 10V only 57 9 Output input terminals W Multi functions terminals setting Code No Setting Function value Factory setting Change during operation Cd92 Multi functions terminal S1 function 02 9 X Cd93 Multi functions terminal S2 function 0 21 10 X Cd94 Multi functions terminal S3 function Cd95 Multi functions terminal S4 function 0221 Cd96
79. t speed 30 x No 540 P88 stall preventive level 200 level during operation Input voltage 155 By Cd 75 active point Set input voltage RST 500 spec No 541 P89 Speed search When Cd28 2 is valid please reduce setting 0 120 rote active current value when unable to restart 200 Ne SR ER x FG 160 FP 125 37 6 Constant tables III Change Function Description snime Feto during Modbus value setting Address operation Speed search 0 1 Cd 77 deceleration When Cd28 2 is valid 10 0 2 0S No 543 P90 time cq 7g Speed search When Cd28 2 is valid 0 0 028 No 544 P90 waiting time 20 0 0 Invalid 1 Valid restart when power recovered in time Momentary of Cd80 detect low voltage of master Cd 79 power loss power when exceeded 0 2 0 No 545 P92 direction 2 Movement of CPU is valid restart when power recovered Cd80 will not be considered Momentary ca gg Power loss Restart valid time limit when set Cd79 1 0 2 0 0 1S No 546 P92 boost time Cd 81 Output voltage From OV to recover is time of maximum output 0 1 38 No 547 P92 recover time voltage when set restart 20 0 Overheating Cd 82 forecast Set Cd84 as 100 for level of detecting 50 90 No 548 P93 4 overheating forecast for inverter 100 detection level Motion when 0 Deceleration stop Cd 83 overheating 1 Coast stop 0 3 3 No 549 P93 forecast 2 Eme
80. taneous current handling seenen P92 D Overheating protection en P93 15 Environment setting EEN P94 A Dynamic brake seenen P94 B Carrier Waye frequency i 1s seassesatesdssasovassnsavsdesseasvonaesaieseiasaveansatanddeadeapvesdesadesziatdeeenaeosoedenta P95 C Lock data eeeeeeeeeereseersseresseesseesseesseerseceseereeereeeresereseresserssersseesseessecssecrseereeerreerreereseeesseessee P97 D Setting LCD keypad functions een P99 E Recovering EE P101 16 Bikey ox ele 0 nc P102 17 Control procedures chart seen P104 Preface 1 Inspection upon receiving W Thank you for choosing the CT 2000FG FP E2 inverter unit this inverter unit is suitable for operating squirrel cage induction motors This manual is designed to ensure correct and suitable application Read this manual before attempting to install If any problem occurred when negligence of manual Please contact our distributors or sales representatives X Application notes EN Please do not touch the cercuit boards and components immediately after the poweris was shut down WB Wiring is prohibited when power on please do not check the components and signal on the circuit board when operation HB Do not fit capacitors to the output side of the inverter in order to improve the power ratio WW Run a motor that is within the capacity of the inverter unit I In case of fitting MC between inverter and motor to control motor operation then the capacity of inverter must be 6
81. ther RS422 4 wires or RS485 2 wires by JUMPER J5 422 485 setting RS422 RS485 FG FP FG FP IG TA TB RARB IG TA TB RARB Master Pres sehera pat a R 1 2W 150 Ohm Fig RS422 The physical links 79 13 MODBUS communication II I The physical links continued FG FP IG TA TB RA RB FG FP IG TA TB RA RB Fig RS485 The physical links I Related constants Code EES Setting Factory Change during No value setting operation CE70 Address ID 0 240 240 X Description each inverter should be set its own address in a communication net each address has to be the only one in this net u pen Se REE CE71 Baud rate 0 3 3 X Description available baud rate setting Setting value Buad rate Setting value Buad rate 0 1200 bps 2 4800 bps 1 2400 bps 3 9600 bps 80 13 MODBUS communication Code EEn Setting Factory Change during No value setting operation Communication CE72 respond wating 2 65 2ms X time Description When inverter receive a data it will send the response data after CE72 time it is used mainly when Master process speed slower or TE single delay time of two wires communication Code Pancien Setting Factory Change during No value setting operation CE74 Pa
82. ting 0 8 0 X Cd33 IN1 input bias 100 0 0 0 O Cd34 IN3 input gain Se 100 0 O GE 1000 0 Ke Cd35 IN3 functions selecting 0 8 0 Cd36 IN3 input bias 100 0 0 0 O Cd37 IN2 input gain Wu 100 0 O PAR 1000 0 Ca Cd38 IN2 functions selecting 0 8 1 Cd39 IN2 input bias 100 0 0 0 O Description Set filter time by Cd30 Set filter time longer The ability of reject noise is stronger But reactionof input will be corresponsive slower Please set suitable time by request Terminals of INI 4 20mA IN2 0 10V and IN3 0 10V are multi function analog input the input specification 10V 20mA indicates 100 use Cd31 Cd34 and Cd37 to set enlarge reduce magnification and Cd33 Cd36 Cd39 to set bias Cd32 Cd35 Cd38 All functions of multi function analog input please refer to multi function analog input functions list Notice Limits of authority level IN3 gt IN2 gt IN1 For example Set Cd32 IN1 and Cd35 IN3 1 at the same time and IN1 will not operate when input IN1 56 Multi functions analog input functions list 9 Output input terminals III rs Function Description 0 De active 1 Analog master speed 1 step spped Frequency command 1 2 Adding master speed Analog master speed auxiliarycommand 3 Master spped gain Analog master speed limit gain 4 Auxiliary frequency 2 2 step spped Frequency command 2 5 Auxiliary frequency 3 3
83. tion Code ESRO Setting Factory Change during No value setting operation Cd08 Acceleration 1 0 0 6000 0 10 0 O Cd09 Deceleration 1 0 0 6000 0 10 0 O Cd10 Acceleration 2 0 0 6000 0 10 0 O Cd11 Deceleration 2 0 0 6000 0 10 0 O Description Set frequency by the time is needed from 0 HZ to 50 HZ 50 0 Ui e T1 time for acceleration deceleration For example Frequency reduce from 50 HZ to 30 HZ time 1 sec Gj _____ amp 50 30 AF 50 1 2 5 52 Freguency change 8 Constant setting by function II Stop method selecting Code Panchos Setting Factory Change during No value setting operation Cd44 Stop method selecting 0 2 0 X Description Cd44 0 Deceleration stop Set the motor to decelerate to stop according to selecting time after set Cd44 0 factory setting Cd09 deceleration time 1 If DC braking were set when stop DC braking is proceed when output frequency is lower than Cd23 Run command oy OFF Output frguency DC injection brake A Decelerates to stop at deceleration time DC injection brake time when stopping CD26 Cd44 1 coast stop If the stop command is input when set Cd44 1 the inverter output voltage is interrupted the motor coasts to stop at inertia the load Run command Decelerates to stop at deceleration time Cd44 2 Coast stop but restart after the decelerat
84. ue 3 71 11 PID control PID adjustment methods Use PID control when target value is fixed observe feedback wave and proceed adjustment 1 Increase P value to within a range that does not vibrate 2 Reduce I value to within a range that does not vibrate 3 Increase D value to within a range that does not vibrate Code ESE Setting Factory Change during No value setting operation CE55 Proportional control P 0 00 25 00 1 00 O CE56 Integral time 1 0 0 360 0 1 0sec O CE58 Derivative time D 0 00 10 00 0 00sec O PID output limit Code EC Setting Factory Change during No value setting operation Maximum value of CE57 Integral control O I 0 0 100 0 100 0 Maximum value of CER PID output Q Description Set a unit as upper limit of PID control output and derivative control 100 indicates maximum frequency output PID output adjust Code Kulen Setting Factory Change during No value setting operation CE60 PID offset adjust 100 0 0 0 O CE61 PID output delay time 0 00 10 00 0 00sec O PID output CE62 characteristics 0 1 0 X selecting CE63 PID output gain 0 0 25 0 1 0 CE64 PID output reverse 0 1 0 selecting Description Set CE60 as to PID output offset Set CE61 to PID output delay time Set CE62 to PID output enlarge magnification Set CE63 to PID output polarity when polarity is set to 1
85. uency th 0 50 00 Cd 41 EEN 6 frequency command 400 00 HZ Yes 169 P60 Frequency th O 55 00 Cd 42 command 7 frequency command 400 00 HZ Yes 170 P60 Frequency th O 60 00 Cd 43 EE 8 frequency command 400 00 HZ Yes 171 P60 Set stop mode when send command 0 Deceleration stop Cd 44 Stop mode 1 Free run stop 0 2 0 No 172 P53 2 Free run stop but restart after the deceleration time is reached Freguency Set multifunction relay and DO freguency 0 0 50 Ci detect level active point 400 00 HZ SR E WE Speed 0 Cd 46 multiplier RPM is indicated on the screen 150 00 1 00 Yes 174 P94 gears ratio i 35 6 Constant tables Ij pace Function Description SR See WE Page No P value setting 8 Address 8 operation Multifunction 0 Timer Cd 47 relay 1 act when RUN time reach to Cd29 value 0 10 1 No 175 P62 output function 1 Malfunction selecting 2 Stopping Multifunction 3 Acceleration relay 2 4 Speed agree E output function 5 Deceleration Selz l No NG FS selecting 6 Frequency arrive operation frequency gt Cd45 value DO output 7 Current arrive compares to Cd85and Cd86 value Geet E 8 Overheat Cd82 predict action 0 10 8 No 177 Foz EES 9 OL malfunction action 10 x The torque boost delay time is set in ms units Set torque boost primary delay time constant Toraue boost Adjust in the following ci
86. will stop accelerating when output current exceeds Cd69 during acceleration Cd68 0 invalid 1 valid Cd69 setting method Set inverter rated current to 100 X CT2000FG Cd69 factory setting value is 160 CT2000FP Cd69 factory setting value is 125 Output current Cd69 Time Output frequency Pause acceleration to avoid stall occurred Time Stall prevention in acceleration 86 14 Protective function Ij Stall prevention limit during acceleration Code Pen Setting IN actory Change durin g No value setting operation Cd70 Stall prevention limit 30 100 50 x during accleration Description if using the motor in the constant output range and automatically lowered to prevent stalling Disable to prevent the stall prevention level in the constant output range from being reduced more than necessary Stall prevention level during acceleration Cd69 eee Cd70 x Cd69 Cd52 Output frequency Base Frequency Stall prevention limit during deceleration Code Rancher Setting Factory Change during No value setting operation Cd71 Stall prevention limit during 0 1 1 x deceleration Cd72 Over voltage prevention 0 50 20 x active point Description If DC Bus exceeds setting value and stop deceleration to avoid inverter OV over voltage when the motor decelerated Cd71 0 invalid 1 valid Description This is to adjust the over voltage protect
87. witchable 7 segment monitor keeps original constant will not twinkle after press Pr again then use A V to 7 segment monitor content LCD display permutation group Code Hunen Setting Factory Change during No value setting operation CE75 LCD permutation selecting 0 2 0 X CE76 LCD group selecting 0 3 0 X Description CE75 0 LCD can show 2 combinations constants CE75 1 LCD can show 4 combinations constants CE75 2 LCD can show 8 combinations constants CE76 Accommodate CE75 to select LCD display group content CE76 0 F output frequency U output voltage A output current H module temperature Frequency command M MCK Pn DC BUS voltage RPM 99 15 Enviroment setting CE76 1 F output frequency U output voltage A output current H module temperature Frequency command r RPM Pn DC BUS voltage Kg CE76 2 F output frequency H module temperature A output current T RPM Pn DC BUS voltage D day U output voltage hr hr min CE76 3 F output frequency H module temperature A output current CS cos Pn DC BUS voltage Pw power DI terminal status KW KW H DI terminal status S1 S2 KE S4 S5 S6 RR FR 1 2 4 8 16 32 64 128 IN1 transformer magnication value ee MM ME 100 x Description This functi
88. y gt Cd45 7 Current reached compare to Cd85 and Cd86 value 8 Over heating prediction action Cd82xCd84 9 OL fault action 10 No action 62 9 Output input terminals III Current detect setting Code SE Setting Factory Change during No value setting operation Cd85 Current arrearage range 2 20 2 X Cd86 Current detect level 30 150 100 X Description Set the action range of current detect Current arrearage range RELAY will jump when Cd47 48 49 7 current is lower than rated current Cd86 Cd85 value Current detect level RELAY will start when Cd47 48 49 7 current is over rated current x Cd86 value 63 10 V F control W VIE pattern selecting Code EE Setting Factory Change during No value setting operation Cd05 Set V F pattern 1 15 2 X Description oeng Feature Application Specification value PP P l 50HZ Standard torque General usage S 60HZ 3 50HZ 4 60HZ 5 Constant torque General usage 50HZ 60HZ voltage saturation 6 60HZ 72HZ voltage saturation 7 SOHZ 3 times decreasing 8 SOHZ 2 times decreasing Variable torgue The inertia load of fan or pump 9 60HZ 3 times decreasing 10 60HZ 2 times decreasing 11 The wiringdistance between the inverter and motor is SOHZ middle starting torgue 12 High starting relatively large greater than 150m 50HZ hi

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