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Contents
1. Sort Function Name Setting range Min unit Factory Modification Reference code setting _ limit P00 00 Selection of 0 Panel control RUN STOP 1 U x 26 operation control 1 Operation control of Imode external terminal 2 Host control Basic P00 01 Setting mode 0 Keyboard POT 1 U x function selection of jl Number setting parameter operation 2 Terminal VF frequency 3 Terminal IF 4 Number keyboard analog terminal 5 VF HF 6 UP DOWN Control mode 1 of increase decrease terminal 7 UP DOWN Control mode 2 of increase decrease terminal 8 Control mode 1 of external pulse 9 Control mode 2 of external pulse P00 02 Keyboard 0 00 maximum frequency 0 01Hz 50 00Hz o 29 frequency setting P00 03 Running direction 0 Corotation 1 U lo controlled via l Reversion anel P00 04 Maximum 50 00 400 0Hz 0 01Hz 50 00Hz x frequency P00 05 Rated motor 25 00 maximum frequency 0 01Hz 50 00Hz x frequency P00 06 Rated motor 200 450V 1V 220V x voltage P00 07 V F curve mode 0 Linear 1 U x l Square 1 2 Square 2 B Double broken line P00 08 Torque offset 0 30 1 B x 30 voltage P00 09 Middle voltage U 100 1 50 x 31 P00 10 Middle frequency 0 Rated motor frequency 0 01Hz 25Hz x P00 11 Acceleration time 0 1 3600S 0 1S Type 1 jo 1 P00 12 Deceleration time 0 1 3600S 0 1S Type 1 jo 1 P00 13 Upper frequency Lower frequency limit 0 01Hz 50 00Hz o 32 limit maximum frequency P002. Section Five Functional parameter sheet Function Name Setting range Min Factory Modifica Refere code unit setting ftion limit nce P02 32 Running frequency in stage Lower frequency limit 0 01 B0 00Hz G 46 5 Upper frequency limit Hz P02 33 Running direction in stage 0 Corotation 1 U lo 5 1 Reversion P02 34 Running time of stage 5 0 0 3600S 0 1S 10 0S lo P02 35 Acceleration and 4 1 1 lo deceleration time in stage 5 P02 36 Running frequency in stage Lower frequency limit 0 01 40 00Hz o 6 Upper frequency limit Hz P02 37 Running direction in stage 0 Corotation 1 U lo 6 1 Reversion P02 38 Running time of stage 6 0 0 3600S 0 1S 10 0S o P02 39 Acceleration and 4 1 1 lo deceleration time in stage 6 P02 40 Running frequency in stage Lower frequency limit 0 01 60 00Hz jo U Upper frequency limit Hz P02 41 Running direction in stage 0 Corotation 1 U lo H 1 Reversion P02 42 Running time of stage 7 10 0 3600S 0 1S 10 0S lo P02 43 Acceleration and 4 1 1 lo deceleration time in stage 7 5 4 Sort P03 other function parameter Sort IFunctionINName Setting range Min Factory ModificationReference code unit petting limit Advanced P03 00 ICF 1 12KHz IKHz ype x 46 application adjustment 2 P03 01 Reversion D No action 1 U x protection 1 Act P03 02 Display 0 1 200 0 0 1 1 0 lo factor setting P03 03 Monitor 0 Out
3. Section Two Product information 2 1 Nameplate data and naming rule Nameplate data Take Type CDI9100 S GOR7T2 as an example DELIXI Type _CDI9100 S GOR7T2 0 75KW Input ACIPH 220V 15 50 60Hz Output AC 3PH 0 220V 0 400Hz 4A No 2700 Wh i SFE AIRS DELIX HANGZHOU INVERTER CO LTD Nameplate data Type description CDI 9100 S G OR7 T2 Delixi TE Design number Series number G General type P Pump type ZS Injection Moulding type Voltage class rated GS Isobaric water supply system voltage GY Intelligent machine T2 200V 230V T4 380 415V Power of equipped electromotor KW T6 660 690V T11 1140V OR4 0 4KW OR7 0 75KW 1R5 1 5KW Page 2 Section Two Product information 2 2 Technical specification of CDI9100 S series Control mode Control of space voltage vector Frequency Resolution Digital 0 01 Hz Analog 0 05 Hz 50 Hz Output frequency range 0 400Hz Control Digital 0 01 of peak output frequency eHe DEUG Analog 0 1 of peak output frequency V F rate Linear square root random V F Torque compensation Manual torque compensation 0 30 Operating Key board terminal mode Frequency Analog VF terminal IF terminal setting Digital Key board S arting Corotation reversion signal Multiple x 2 2 i stage speed Up to eight speed is allowable by using multiple function terminal Tag
4. Set middle voltage and middle frequency in any V F curve required by user And enter into broken line mode if parameter P00 07 is 3 Middle voltage is percent of rated voltage of motor namely Vm in Figure 6 1 6 Middle frequency is a frequency value between lower frequency limit and rated frequency of motor namely Fm in Figure 6 1 6 R Name Setting range Unit Factory Modification P00 11 Acceleration time 1 0 1 3600S 0 1S Type 1 O P00 12 Deceleration time 1 0 1 3600S 0 1S Type 1 O Acceleration time 1 denotes time required for raise to upper frequency limit from forbid state namely T1 in Figure 6 1 7 Deceleration time 1 denotes time required for decreasing maximal output frequency to forbid state namely T2 in Figure 6 1 7 Tl T2 Figure 6 1 7 Definition of acceleration time and deceleration time Following figure is switch process of acceleration time and deceleration time Output Acceleration Acceleration time2 Deceleration time 2 P01 24 N Deceleration time 1 P00 13 Time Running command ON Figure 6 1 8 Switch of acceleration time and deceleration time Page 31 Section Six Description of function parameter Ree Name Setting range Unit Factory Modification P00 13 Upper frequency Lower frequency limit 0 01Hz 50 00Hz o limit maximal frequency POG Lower frequency 0 00 Upper frequency 0 01Hz 0 00Hz 0
5. external c 2 Three wire control mode terminal 0 Dual wire control mode 1 pry CDI9100 S Converter Figure 6 3 1 Dual wire control mode 1 1 Dual wire control mode 2 CDI9100 Converter Figure 6 3 2 Dual wire control mode 2 2 Three wire control mode selfhold function FWD Pi CDI9100 FEV Converter Figure 6 3 3 Three wire control mode Page 37 Section Six Description of function parameter In figure 6 3 3 SB1 is NC stop button SB2 is NO running button SB1 and SB2 is pulse edge effect K is running direction button Di is the terminal in D1 D4 defined as terminal of three wire control mode 6 ae Name Setting range Unit Factory Modification 0 Unused l 1 Multi speed terminal 1 po2 9 Di terminal 2 Multi speed terminal 2 1 1 x function 3 Multi speed terminal 3 4 Inch control of corotation 5 Inch control of reversion 6 Three wire control mode i 7 Acceleration time deceleration po2 0o2 P2 terminal time terminal 1 1 2 x function 8 Acceleration time deceleration time terminal 2 9 Free stop input 10 External reset input 11 Progressive increase of po2 03 P3 terminal frequency up 1 3 x function 12Decrease of frequency down 13 DC brake control 14 NO input of external fault P02 04 D4 terminal 15 NC input of external fault 1 6 x function 16 PLC pause D1 D4 control terminal is programmable switching val
6. powerdown state or in process of powerdown 7 Control mode 2 of up down terminal The basic operation is same as Control mode 1 of up down terminal but differ from Current setting frequency of converter is saved automatically during execution of powerdown command after received STOP which is used as initial setting value of next operation 8 Control mode 1 of terminal pulse Function of external terminal is defined as Control mode 1 of up down terminal but differ from Connection diagram is shown as following if 8 9 frequency setting mode is selection UP terminal CDISINBS ancy of converter Figure 6 1 2 Connection diagram of 8 9 frequency setting mode Under the setting mode setting frequency increases decreases for one time each time after received a pulse signal of which P01 23 setting value apart from time Current frequency is set as zero automatically every time after powerup And converter sets current frequency as zero after received STOP and executed powerdown process These two external terminals should be invalid in powerdown state or in process of powerdown Page 28 Section Six Description of function parameter 9 Control mode 2 of terminal pulse Setting frequency increases decreases for one time each time after received a pulse signal of which P01 23 setting value apart from time The basic operation is same as Control mode 1 of up down terminal but differ from Current setting frequency of converter
7. 14 Lower frequency 0 00 upper frequency limit 0 01Hz 0 00Hz o limit P00 15 Stop mode of 0 Stop 1 U x lower frequency 1 Run limit Page 20 5 2 Sort P01 secondary function parameter Section Five Functional parameter sheet Sort Function Name Setting range Min Factory Modification Reference code unit setting limit Secondary P01 00 Startup frequency 0 00 10 00Hz 0 01H 0 00Hz function Z parameter P01 01 Startup frequency 0 0 10 0S 0 1S 0 0S o Holding time P01 02 Stop mode 0 Decelerating 1 0 x stop 1 Unforced stop 33 P01 03 Original frequency 0 00 10 00Hz 0 01H 0 00Hz x of DC powerdown Z P01 04 DC brake voltage 0 15 1 0 x of powerdown P01 05 DC brake time of 0 0 20 0S 0 1S 0 0S x powerdown P01 06 Dead zone time 0 0 20 0S 0 1S 0 0S P01 07 Stopping mode 0 Unforced stop 1 1 selection of 1 Powerdown ambient fault mode 34 P01 08 Function of power 0 No action 1 0 x on l Act P01 09 Waiting time of 0 1 20 0S 0 1S 2 0S x power on P01 10 Waiting time of 1 60S 1S 5S x fault recovery P01 11 Fault recovery 0 3 1 3 x frequency 35 P01 12 Offset frequency 50 0 50 0Hz 0 1Hz 0 0Hz P01 13 Frequency setting 1 200 1 100 gain P01 14 Inch frequency 0 1 50 00Hz 0 01H 2 00Hz o setting Z P01 15 Acceleration time 0 1 60 0S 0 1S 1 08 o of inch frequency P01 16 Deceleration time 0 1 6
8. 2 05 x switching function During waiting time for power switching function motor should start up once running command is output The time setting principle is mainly based on operation recovery time of devices relating to converter Page 34 Section Six Description of function parameter Se Name Setting range Unit Factory Modification P01 10 Waiting time for test recovery 1 60S is 58 x of fault P01 11 Time for test recovery of fault 0 3 1 3 x Converter stop outputting if fault occurs during operation converter should reset fault automatically and go on running by setting reset interval via P01 10 Time of automatic reset is set via P01 11 which denotes allowable time of automatic reset before manual reset or electrifying operation of next time namely system should perform automatic reset before time parameter decreases to Zero except manual reset or reset via reset signal of external terminal is executed The parameter should recover to original setting value after manual reset or external terminal reset is executed Bo Name Setting range Unit Factory Modification P01 12 Bias frequency 50 0 50 0Hz 0 1Hz 0 0Hz x It is possible to set output frequency via adjusting bias frequency P01 12 and frequency setting gain P01 13 under frequency setting of analog signal Output frequency analog Signal frequency setting gain bias frequency ut voltag
9. It is needless to take down front cover and manipulater for general installation Please disassemble manipulater carefully because it connects with internal circuit via cables Pull out cable before assemble manipulater and panel or plug should be damaged 2 Installation of number keyboard Please disassemble and reassemble number keyboard according to following method A Disassemble number keyboard Press lock clasp of number keyboard and take out it from front cover B Reassemble number keyboard Press number keyboard into keyboard frame of panel the lock clasp should lock number keyboard automatically 3 2 Selection of installing position Selection of installing position 1 Prevent from sunniness Don t use in the open air directly Don t use in the corrosive gas and liquid environment Don t use in the oil fog and splash environment Warning Don t use in the moist and rain environment 2 3 4 Don t use in the salt spray environment 5 6 Please equip the unit with filters device if metal dust or fiber wadding existing in air A Do not use the unit in mechanical shock or vibration condition 8 It is necessary to adopt cooling measure if ambient temperature is higher than 40 C 9 It is recommended to use the unit in temperature range of 10 C 40 C because fault maybe occur in overcool or overheat condition 10 Keep the unit away from power supply noise hig
10. VF input voltage range and setting frequency via modifying parameter of P02 09 function code Under this frequency setting mode VF is used for individual frequency setting 3 IF terminal control IFis voltage current signal input channel of which seven kinds of signal input range are optional User could confirm corresponding relation between IF input voltage range and setting frequency via modifying parameter of P02 10 function code Under this frequency setting mode IF is used for individual frequency setting 4 Number keyboard analog terminal control Under the mode digital setting value of P00 02 function code is used as primary setting while setting value of one analog signal input of these two analog signal channel is used as secondary setting and summation of these two values is used as current setting frequency of converter These two setting values should be summarized only if the setting mode is selected Under the setting mode user could modify the part set via P00 02 function code digital setting value of current setting frequency by using A V confirm the setting value and save it into P00 02 by pressing key of ENTER Under running or powerdown state digital setting value should be renovated if value of P00 02 is changed Under the setting mode user needs to set this part set by analog signal via adjusting value of P02 09 P02 12 according to actual condition For analog signal used as secondary setting user co
11. Zero via which mode user could set stage number easily After set switching volume input terminal as programmable multi speed pause function 16 user could achieve pause function of programmable multi speed pause via the terminal Programmable multi speed running should pause and converter runs in speed of zero if the terminal is in state of ON and converter recovers the stage prior to pause of programmable multi speed pause and go on running if the terminal is in stage of OFF If function code P03 01 1 Reversion is forbidden programmable multi speed running is forbidden if running direction of stage 1 is set as Reversion and converter stops running if running direction of middle stage is set as Reversion 6 4 Sort P03 other function parameter Function code Name Setting range Unit Factory Modification P03 00 CF adjustment 1 12 kHz 1kHz Type 2 x The function sets CF of PWM output which has 12 kinds of switches 1 12 are optional ne Name Setting range Unit Factory Modification P03 01 Reversion prevention 0 No action 1 Act 1 0 x P03 02 Display factor setting 0 1 200 0 0 1 1 0 O The function effects output frequency display only display value output frequencyxdisplay factor setting Function code Name Setting range Unit Factory Modification 0 Output frequency 1 Setting frequency 2 Output voltage P03 03 LED running 3 Bus volta
12. in max signal TA Fault indicator Close during P02 06 10 Contact capability TB NO NC contact operation 250VAC 1A or below TC Analog FM Frequency meter 0 10V frequency Output 0 10V output output Fmax Load 2mA or below signal Page 12 Section Three Installation and connection of converter 3 5 Grounding 1 Grounding resistance value 200V level 100Q or value below it 2 Do not ground CDI9100 S series converter with common grounding of heavy current devices such as electric welder electric motor etc Depart grounding wire in guide pipe from lead of other heavy current devices 3 Please use approved grounding wire of which length should be as shorter as possible 4 Please ground devices according to figure a if several CDI9100 S converters are used in series do not loop grounding wire in mode shown in figure c 5 Please connect grounding wire of CDI9100 S converter and the motor as shown as figure a Correct b Incorrect c Non recommended d Correct e Non recommended 6 Connection inspection Please perform following items if installation and connection are completed A Ifconnection is correct B_Ifstub or screw remains in device C Ifscrews are fastened firmly D Ifbare conductor on terminal contacts with other terminals Page 13 Section Four Keyboard operation and running Section Four Keyboard operation and running 4 1 Selection of operating mode CDI9100 S series converter p
13. limit limit Upper frequency limit denotes maximal setting frequency allowed by user namely UF in figure 6 1 9 Lower frequency limit denotes minimal setting frequency allowed by user namely LF in figure 6 1 9 Figure 6 1 9 Schematic diagram for definition of limit frequency parameter Explanation 1 Please set maximal frequency upper frequency limit lower frequency limit carefully according to nameplate parameter and operating condition of controller motor 2 Limited range of lower frequency limit and upper frequency limit are noneffective for operation of JOG 3 Besides upper frequency limit lower frequency limit output frequency of converter is also limited by setting value of starting frequency starting frequency of DC brake and jump frequency 4 Output frequency of converter should run with lower frequency limit if setting frequency is lower than lower frequency limit Output frequency of converter should run with upper frequency limit if setting frequency is higher than upper frequency limit Function code Name Setting range Unit Factory Modification P00 15 Lower frequency limit 0 Stop 1 0 y Running mode 1 Run Page 32 Section Six Description of function parameter 6 2 Secondary function parameter Sort P01 R Name Setting range Unit Factory Modification po1 o0 Starting 9 00 10 00Hz 0 01Hz 0 00Hz o frequency Frequency function switch conver
14. maximal frequency as 50 Hz set input range of analog signal as 0 10 V Set secondary adjusting value as 10 refer to function code of P02 16 oltage setting signal secondary adjusting value secondary adjusting frequency value input via secondary setting channel Secondary adjusting 0 Hz 2 5 Hz 5 Hz frequency value Secondary adjusting frequency value Page 27 Section Six Description of function parameter 6 Control mode 1 of up down terminal Under the mode user could set current frequency of converter via setting function of external control terminal The connection diagram is shown as following if setting 6 7 via frequency setting mode UP tenninal CDIS100 DOWN frequency teminal of converter COM tcominal Figure 6 1 1 Connection diagram of 6 7 frequency setting mode Relation between state setting of two external switches and current frequency of converter is shown as following sheet Open Close state of UP terminal Open Close Open Close state of DOWN Open Close Open Close terminal Current frequency Hold Decrease continuously Increase continuously Hold To lower frequency limit To upper frequency limit Under the setting mode Current setting frequency of converter is set to zero automatically every time after powerup And converter sets current frequency as zero after received STOP and executed powerdown process These two external terminals should be invalid in
15. 0 0S 0 1S 1 08 o of inch frequency P01 17 Acceleration time 2 0 1 3600S 0 18 1 08 o P01 18 Deceleration time 2 0 1 3600S 0 18 1 08 o P01 19 Acceleration time 3 0 1 3600S 0 18 1 0S o P01 20 Deceleration time 3 0 1 3600S 0 18 1 0S o P01 21 Acceleration time 4 0 1 3600S 0 18 1 08 o P01 22 Deceleration time 4 0 1 3600S 0 18 1 08 o P01 23 UP DOWN setting 0 01 2 50 Hz S 0 01H 1 0Hz S x frequency z S Page 21 Section Five Functional parameter sheet 5 3 Sort P02 input output terminal and multiple speed running parameter Sort Function Name Setting range Min Factory Modificatio Refere code unit setting n limit nce input output P02 00 Running control 0 Dual wire control mode 1 1 U x 37 terminal mode selectionof l Dual wire control mode 2 And External terminal 2 _Three wire control self hold multiple P02 01 D1 0 Unused 1 1 x 38 speed terminal function l Multiplex frequency terminal 1 running 2 Multiplex frequency terminal 2 parameter 3 Multiplex frequency terminal 3 4 Inch control of corotation 6 Inch control of reversion 6 Three wire running control P02 02 D2 _ _ M Acceleration time 2 x terminal function deceleration time terminal 1 8 Acceleration deceleration time terminal 2 9 Free parking input 10 External reset input P02 03 D3 11 Frequency up UP 1 B x terminal function 12 Frequency down Down 13 DC brake control 1
16. 01 denotes 01 function code of sort P00 3 Content explanation of function sheet List 1 Sort name and SN of function parameter team List 2 function code SN of function code parameter List 3 Name complete name of function parameter List 4 setting range effective setting value range of function parameter List 5 Minimal unit minimal unit of setting value of function parameter List 6 Factory setting factory setting value of function parameter List 7 modification limit modification property of function parameter if modification is allowable and the condition List 8 reference page reference page number of function parameter Modification limit of parameter is explained as following o denotes setting value of the parameter is modifiable in state of stop or running x denotes setting value of the parameter is nonmodifiable set in factory in running state Explanation 1 Please read the manual carefully while modifying parameter of converter And contact our Company for any problem occurs during operation No data submits to customer modification violation of it maybe causes serious fault or significant property loss of which consequences should be born by User 2 It denotes user s operation is error if d Err displayed on LED Page 19 Section Five Functional parameter sheet 5 1 Sort P00 Basic function parameter
17. 01Hz 10 00Hz 0 signal detection frequency Output indicator signal if output frequency exceeds a certain value During dropping process of output frequency should go on outputting indicator signal until output frequency drop to certain value shown as figure 6 3 7 Time Figure 6 3 7 Schematic diagram of frequency level detecting signal Page 42 Section Six Description of function parameter ga Name Setting range Unit Factory Modification VF selection of 0 0 10V 1 10 0V analog 2 0 5V 3 5 0V P02 09 volume 4 2 10 5 102v i input 6 10V 10V terminal IF selection 0 10V 0 20mA F ERN 1 10 0V 20 0mA 2 0 5V 0 10mA P02 10 S 3 5 0V 10 20mA l T l Rein 4 2 L0V 4 20mA ermina S 0 2V 20 4mA Analog signal channel 1 VF is input terminal of voltage signal into which input ambipolar voltage signal is allowable Analog signal channel 2 IF is input terminal of voltage current signal of which position is selected via JP1 jumper on control panel Short circuit block of jumper locate at side I while inputting current signal Input output characteristic of analog input signal and setting frequency for application of frequency setting channel is shown as sheet 2 Sheet2 Input output characteristic of analog input signal and setting frequency P02 09 P02 10 Relation between input Setting Setting Input range of setting analog signal and setting VF and IF frequency f range f
18. 4 NORM OPEN input of external fault 15 NORM CLOSR input of P02 04 DA external fault 1 6 x Terminal 16 PLC rumning pause instruction function P02 05 Not set set aside 0 Running signal of converter 41 1 Frequency arriving signal Frequency level inspection signal B Overload alarm signal 4 Stoppage caused in external fault P02 06 Functional 5 Stoppage caused Y 0 x selection undervoltage of relay 6 Output frequency achieves joutput to upper limit terminal 7 Output frequency achieves to lower limit 8 Programmable multi speed running is finished 9 Running in Zero speed 10 Fault display P02 07 Frequency 0 00 10 00HZ 0 01 2 50Hz jo achieves Hz inspection width P02 08 Frequency level 0 00 maximum frequency 0 01 10 00H jo 42 signal inspection Hz Z Page 22 Section Five Functional parameter sheet Function Name Setting range Min Factory ModificalRefer code unit setting tion limitlence P02 09 Analog quantity input 0 0 10V 0 20mA_ l U x 43 terminal 1 10 0V 20 0mA IVF selection 2 0 5V 0 10mA P02 10 Analog quantity input B 5 0OV 10 20mA_ l 0 x terminal 4 2 10V 4 20mA IF selection 5 10 2V 20 4mA P02 11 Secondary adjustment 1 0 20 0 0 1 1 0 x 44 volume setting P02 12 Feed channel selectionof 0 VF 1 IF 1 U x secondary volume P02 13 Analog output setting 0 Output frequency 1 0 lo 1 Output
19. Foreword Foreword Thanks for purchasing frequency converter of CDI9100 S series manufactured by Delixi Hangzhou Inverter Co Ltd For ensuring correct application of the device please read the manual carefully before operates it Incorrect application should cause abnormal operation fault decrease service life even cause body injures The manual belongs to standard accessory please keep it carefully for further reference Besides operating instruction the manual also provide user with connection diagram in purpose of reference Please contact agent or Customer Center of our Company for any difficulty or special requirement The manual includes operating instruction relating to CDI9100 S series converter with power level of 0 4KW 1 5KW While the Company could modify content in it without any early information Please confirm following content during unpackaging 1 If the product is damaged during process of transportation if parts are damaged and dropped or if main body is bruised 2 Ifrated value marked on nameplate is consistent with your order requirement or if there are ordered unit acceptance certificate operation manual and guarantee shed in package The Company strictly complies with quality system during production and packaging for any inspection miss please contact our Company or supplier for settlement Warning People should not reprint transmit and use the manual or content relating to it without writ
20. NC are optional for fault signal of external device User could define D4 as NC or NO 16 Programmable multi speed pause command After defined the function the converter should achieve pause control with programmable multi speed running if the terminal is in state of ON and recover running of it if the terminal is in state of OFF under state of programmable multi speed running Page 40 Section Six Description of function parameter eis Name Setting range Unit Factory Modification DO function 0 Running signal selection of 1 Frequency achievement P02 05 opencircuited signal 1 0 x collector 2 Frequency level detecting output terminal signal 3 Overload alarm signal 4 External fault stop 5 Undervoltage stop Function 6 Output frequency reaches to c upper limit P02 06 selection OF 7 Output frequency reaches to 1 10 x relay output l limi terminal Oer mnit 8 Programmable multi speed running is finished 9 Null speed running 10 Fault indicator 0 Running signal Terminal outputs indicator signal under running state of converter 1 Frequency reaches to detecting signal Please refer to function explanation of P02 12 2 Frequency level detecting signal Please refer to function explanation of P02 13 3 Overload alarm signal Terminal outputs indicator signal under overload of converter 4 External fault stop Terminal outputs indicator signal and LED displays EF if these two output
21. P00 Function Name Setting range Unit Factory Modified code P00 00 Selection of 0 Panel control RUN STOP l operation 1 Operation control of external terminal 1 0 x control mode 2 Host control For connecting mode of operation command control of external terminal please refer to Chapter 3 5 and description relating to P02 00 P02 06 of Sort P02 Function Name Setting range Unit Factory Modified code P00 01 Setting mode 0 Keyboard POT 1 0 x selection of 1 Number setting running 2 Terminal VF frequency 3 Terminal IF 4 Number keyboard analog terminal 5 VF IF 6 Control mode 1 of raising down going terminal 7 Control mode 2 of raising down going terminal 8 Control mode 1 of terminal pulse 9 Control mode 2 of terminal pulse 0 It is possible to set running frequency via potentiometer on operating panel in state of running or power down 1 Under running state of converter user could modify setting frequency via V on panel directly and save modified value into P00 02 automatically to renovate current frequency of converter noneffective during power down Under running or powerdown state current frequency should be modified accompanying with modification of value of P00 02 2 Control of Terminal VF VF N is voltage signal input channel of which seven kinds of analog signal input range are optional User could confirm corresponding relation between
22. age of converter is same as the AC power supply voltage 3 Do not make supply power of AC loop connect with outputting terminal U V and W The connection will damage converser thus guarantee card sho8uld be nonserviceable 4 Please connect to input power supply only after assembled panel and don t disassemble l external converter after electrified Warning 5 Do not touch high voltage terminal in converter 6 Do not connect or disconnect lead and connector if the circuit is electrified 7 Do not touch CMOS element because the vulnerability of it 8 Do not perform voltage test with the device 1 Do not modify factory parameter of converter without authorization or damage might be caused 2 For converter of which storage period exceeds half year please increase the input voltage gradually by using regulator to prevent from electric shock and explosion 3 To prevent from electric shock please perform maintenance ten minutes after powerdown and check if charging indicator crushed out completely or voltage at positive and negative bus is lower than 36V Note 4 All parts should be replaced by professional only It is strictly prohibitive to remain stub or metal object in machine to prevent from fire 5 After replaced control board please perform relevant parameter setting before operation to prevent from damage of materials Page 1 Section Two Product information
23. ameter valuc for cxampk modify to L and press MODE css ENTE fication and return to state o arameter display state POU 12 arameter code should adds l hutomatically after confirmation nd value of Pm IL is 1 Press MODE for onc time to retum to monitor modc Display setting frequency 50 00 HZ and press MODE to enter into parameter sctting modc P Display parameter POU modifying via Vis allowable press ENTER to display P00 00 ess to modify display valuc to POO 11 then press ENTER to onfirm it Check factory parameter value is 010 0 while indicators bit to the final data 0 Modify display valuc to 010 1 by pressing A V gt gt and press ENTER to confirm modification After wrote in data 016 1 the displayed acceleration time of rrr P00 11 should change 10 0 to 016 1 retum to parameter and display P00 12 Press MODE again to return to monitor mode and display sctting frequency Note It is possible to increase or decrease value step by step by press A V while modifying function code of parameter P and move it in cooperation of gt gt after enter into parameter setting And it is impossible to modify data under following conditions 1 It is impossible to adjust parameter during operation of converter Refer to function sheet 2 Start protective function in P03 04 write protection Page 17 Section Four Keyboard operation and running 4 3 4 Frequency setting of k
24. arize function of control circuit terminal which is connected according to function respectively Sort Terminal Signal function Description Signal level MF FWD Run stop in positive Run in positive MF contact input Photoelectric input direction direction while set via coupler insulation signal closing and stop P02 01 P02 04 Input ON OFF while opening Internal REV Run stop in reversal Run in reversal 24VDC 8mA direction direction while closing and stop while opening D1 Multi speed Become effective command 1 after closed D2 Multi speed Become effective command 2 after closed D3 Multi speed Become effective command 3 after closed D4 Three wire running Become effective control after closed COM MF common input terminal Analog 10V 10V power output 10V power supply of analog command 10V input Maximum allowed signal current 20mA VF Analog output 0 10V 100 P02 09 and P02 10 0 10V 20KQ voltage seeting IF Analog output 0 4 20mA 100 0 4 20mA 2509 current GND Common ground of analog signal P24 Power supply of External power Output between digital signal supply is provided COM DC24V 200mA in max TA Fault indicator Close during P02 06 10 Contact capability NO NC contact operation 250VAC 1A or TB below TC P24 Power supply of External power Output between MF digital signal supply is provided COM DC24V output 200mA
25. channels is used as primary setting and the other is used as secondary setting Hereinto one channel with no analog signal input is allowable and setting another channel to setting frequency value according to value of P02 12 is allowable set as secondary setting or primary setting 4 In case that secondary setting channel is selected user could achieve setting frequency of secondary setting by summarizing secondary adjusting frequency value with frequency value of primary setting But the setting frequency is limited to upper frequency limit and lower frequency limit 5 Under VF IF frequency setting mode is input after input secondary setting signal by selected secondary setting channel VF system creates ambipolar secondary adjusting value define as percent of maximal frequency setting value which should create corresponding secondary adjusting frequency value to perform fine adjustment with setting frequency of primary setting Relation among secondary setting secondary adjusting volume secondary adjusting frequency value created by input signal of secondary setting channel is shown as following sheet Input signal of secondary Lower input signal value offMiddle input signal value offUpper input signal value o setting channel secondary setting channel secondary setting channel secondary setting channel Secondary adjusting value Min secondary adjusting Middle secondary adjusting value Max secondary adjusting alue alue IEX set
26. eceleration deceleration time time terminal 1 time terminal 2 OFF OFF Acceleration time 1 Deceleration time 1 ON OFF Acceleration time 2 Deceleration time 2 OFF ON Acceleration time 3 Deceleration time 3 ON ON Acceleration time 4 Deceleration time 4 9 Free stop input Converter stops outputting immediately and enters into stop stage motor stop freely if terminal for defining the function is in stage of ON 10 External reset input User could reset the unit via external terminal is fault alarm occurs The function is level effect of input signal 11 12 Increase decrease frequency command Please refer to explanation relating to frequency setting mode 6 7 8 and 9 in parameter P00 01 13 DC brake control Converter should decrease output frequency according to deceleration stop mode after received stop command if terminal for defining the function is in state of ON and function parameter P01 03 0 converter should jump output frequency to zero if output frequency is lower than starting frequency of DC brake and perform DC brake control via parameter P01 04 P01 06 14 15 NO input and NC input of external fault User could input fault signal of external device to execute fault monitor and interlock via the terminal After received fault signal of external device converter should execute fault stop and display fault code EF the signal is noneffective during normal stop process These two input modes of NO
27. ell service contract concluded between the Company and agents C Request for compensated after sell service from agent of the Company without reference to guaranteed repair Our Company should take responsibility of guaranteed repair guaranteed exchange and guaranteed return for quality and accident responsibility relating to the product but user could affect insurance for further responsibility compensation guarantee from insurance agent Guarantee term of the product should be effective in 15 months after delivery For fault caused in following reason user could obtain compensated maintenance only even guarantee term is effective A Problem caused in incorrect operation based on user s manual or repair modification without authorization Problem caused in violation of critical requirement Damage caused in undeserved transportation after purchased Aging or fault caused in bad environment Damage caused in earthquake fire disaster lightning strike abnormal voltage or other natural disaster and incidental disaster Damage occurs in transportation Note transportation mode should be appointed by user of themselves the Company should assist agent to conduct transfer of goods G Brand trade mark SN nameplate marked by manufacturer is damaged or unjustifiable H Failure to pay off fund according to purchase contract Failure to describe actual conditions relating to installation distribution operation maintenance or other co
28. eo w sv on baigaa lov Input voltage ov 20m Figure 6 2 2 Bias frequency G Name Setting range Unit Factory Modification P01 13 Frequency setting gain 1 200 1 100 x It denotes compensation while analog signal is lower than 5V 10 20mA EX it is possible to achieve 0 HF adjustment if frequency setting gain is 200 no matter whether input signal achieve 2 5V 5V 12mA Output Input voltage ov 2 5 54 Input voltage ov sv lov Input current tma lam4 2 Ce Figure 6 2 3 Frequency setting gain Page 35 Section Six Description of function parameter Pee Name Setting range Unit Factory Modification P01 14 Inch frequency 0 1 50 00Hz 0 01Hz 2 00Hz O P01 15 Inch acceleration time 0 1 60 0S 0 1S 1 08 O P01 16 Inch deceleration time 0 1 60 0S 0 1S 1 08 O P01 14 P01 16 denotes parameter of inch running shown as figure 6 2 4 In figure ft is inch running frequency tl is inch acceleration time t3 is inch deceleration time t2 is inch running time which is obtained via subtracting inch acceleration time from the time interval between effective and noneffective inch running command executed by panel or external terminal User could perform inch running command via operating panel and control terminal Running frequency a Sues Running time E T E tl t2 8 Figure 6 2 4 Inch running parameter Function code Name Setting range Unit Factory Mod
29. eyboard It is possible to set frequency via mode of number keyboard and keyboard POT which should be selected by modifying parameter P00 01 1 Set frequency via number keyboard directly A Set value of parameter P00 01 as 1 B Enter into frequency setting by pressing A V during operation of converter C Adjust frequency to required value by pressing A V for example 48 00Hz D After adjustment the set frequency should be saved into parameter P00 02 automatically E Press MODE to return to parameter setting and press MODE again to return running monitor mode It is possible to modify frequency setting value during operation only esl 2 Set frequency via keyboard POT Firstly set value of P00 01las 0 and adjust frequency to required value by rotating POT knob on keyboard rightwards or leftwards of which setting value should not be saved to P00 02 automatically Page 18 Section Five Functional parameter sheet Section Five Functional parameter sheet Description 1 According to the function functional parameter of CDI9100 S common converter could be divided into four sorts which includes several function code of different value In keyboard operation parameter sort corresponds to Level 1 menu function code corresponds to Level 2 menu and setting value of function code corresponds to Level 3 menu 2 Pxx xx in function sheet or other section of the manual denotes xx function code of sort xx For example P00
30. ge 1 0 O monitor content 4 Input signal 5 Feedback value 6 Module temperature The function denotes selection of monitor content of LED on keyboard under running stage Page 46 Section Six Description of function parameter eed Name Setting range Unit Factory Modification Paranieter 0 All data is modifiable P03 04 rite 1 Only P00 02 and the function 1 0 o rotection ae modifiable l 2 Only the function is modifiable The function code is modifiable at any time modification other functions code could be displayed as d Err only in stage of RO ae Name Setting range Unit Factory Modification 0 No action 1 Clear memory information Initialization 2 Factory reset Q of parameter Remark It is possible to display G function 2 only after press it continuously for five seconds 0 No action Parameter modification is based on setting state of parameter write protection and current operating state of converter 1 Clear memory information After set it to 1 and confirm the setting converter should clear fault memory information The operation should clear all parameter memory between P04 08 P04 11 in the process LED should display while reading function code value of P04 08 P04 11 LED should display NON 2 Factory reset After set it to 2 and confirm the setting press A for five seconds converter
31. h power application such as electric welder should impact application of the unit 11 Emissive material should impact application of the unit 12 Keep the unit away from combustible material attenuant and solvent For ensuring perfect performance and long term service life please comply abovementioned advices while installing CDI9100 S series converter to prevent the unit from damage Page 8 Section Three Installation and connection of converter 3 3 Connection of main loop and the precautions The Chapter describes connection of main loop of CDI9100 S series converter 1 Do not make power supply of AC main loop connect with output terminal U V and W 2 Please connect unit only after shut down the power supply Verify if the crating voltage of converter is same as the input voltage of it 4 Do not perform withstand test with converter Dangerous 5 Fasten terminal screw with appointed fasten torque 1 Please check if grounding terminal is grounded before connect main loop Refer to 3 5 2 Terminal sequence should base on actual object Rated input voltage AC single phase220V Frequency 50 60Hz Note 4 Allowable fluctuation voltage 10 15 fluctuation 20 Frequency 2 Connection of 0 4 1 5KW main loop of CDI9100 S series 3 PHASE OUTPUT 1 PHASE NPUT Connect motor Connect power AC 3PH 220V AC 1PH 220V Note Terminal seq
32. ification P01 17 Acceleration time 2 0 1 3600S 0 15 1 0S O P01 18 Deceleration time 2 0 1 3600S 0 15 1 0S O P01 19 Acceleration time 3 0 1 3600S 0 1S 1 0S O P01 20 Deceleration time 3 0 1 3600S 0 15 1 0S O P01 21 Acceleration time 4 0 1 3600S 0 1S 1 0S O P01 22 Deceleration time 4 0 1 3600S 0 1S 1 0S O User could select acceleration time deceleration time 1 2 3 4 define acceleration time deceleration time in P00 11 P00 12 as acceleration time deceleration time in running process of converter via control terminal As well as define them as acceleration time deceleration time for frequency switching in each stage of simple PLC operation please refer to function code P02 19 P02 23 P02 27 P02 31 P02 35 P02 39 P02 43 in P02 arameter sort RE Name Setting range Unit Factory Modification P01 23 DEDOWN 0 01 2 50 Hz S 0 01Hz S 1 0Hz S x Setting speed Increase decrease volume of setting frequency while setting frequency via UP DOWN terminal Increase decrease volume of setting frequency while setting frequency via external pulse control which is foreign to time Page 36 Section Six Description of function parameter 6 3 Sort P02 Input output terminal and multi speed running function Function code Name Setting range Unit Factory Modification Runni trol unning contol 0 Dual wire control mode 1 selection of P02 00 1 Dual wire control mode 2 1 0 x
33. in stage 1 of programmable multi speed running while not used as it in stage 1 of external terminal control mode e Namie Setting range Unit Factory Modification P02 18 Running time in 0 0 3600S 0 18 ine 4 stage The function code sets total running time of stage 1 that is used as running time in stagel of programmable multi speed running which includes acceleration time deceleration time in stage 1 Page 45 Section Six Description of function parameter pa Name Setting range Unit Factory Modification P02 19 Acceleration time deceleration 1 4 1 i time in stage 1 The function code is used for selecting time parameter P00 12 P00 13 P01 23 P01 280f acceleration time deceleration time in the stage 1 Acceleration time deceleration time 1 set by function code P00 11 P00 12 2 Acceleration time deceleration time 2 set by function code P01 17 P01 18 3 Acceleration time deceleration time 3 set by function code P01 19 P01 20 4 Acceleration time deceleration time 4 set by function code P01 21 P01 22 Note P02 20 P02 43 is function parameter of stage2 stage 7 the explanation is same as it of stage 1 Explanation l 2 3 Starting and stopping command of programmable multi speed running is determined by control mode of current running command set via function code P00 00 User could jump over a certain stage if set the running time of the stage as
34. inear mode Figure 6 1 3 Constant torque V F curve Page 29 Section Six Description of function parameter 1 Square 1 mode Figure 6 1 4 Degressive torque mode 1 2 Square 2 mode Output voltage Figure 6 1 5 Degressive torque mode 2 3 Double broken line mode User could custom V F curve mode via setting parameter P00 09 P00 10 according to actual requirement Output voltage Fm Figure 6 1 6 Broken line V F curve Explanation For general load curve 0 is optional for square torque equipment such as pump the curve 1 is optional Function code Name Setting range Unit Factory Modification P00 08 Torque offset voltage 0 30 1 3 x For offsetting low frequency torque characteristic system should raise output voltage in low frequency operating zone shown as Vb in figure 6 1 3 Page 30 Section Six Description of function parameter Figure 6 1 4 Figure 6 1 5 and Figure 6 1 6 Explanation In general condition 3 of default value could meet requirement For overcurrent fault occurs during starting up please increase the parameter value from zero step by step until starting requirement is achieved Do not raise parameter value at one moment to prevent from damage of equipment eee Name Setting range Unit Factory Modification P00 09 Middle voltage 0 100 1 50 x P00 10 Middle frequency O rated frequency of motor 0 01Hz 25 00Hz x
35. ion Five Functional parameter sheet sees Section Six Description of function parameter sees eee ee ee ee eee 6 1 Sort POO Basic function parameter zs 6 2 Sort POL Secondary function parameter 6 3 Sort P02 Input output terminal and multi speed running function 6 4 Sort P03 Other function parameter see ee eee eee eee 6 5 Sort P04 Display functional parameter 0 0 cece eeecseeeeeceseseesetecaeeeceeesecnevseeeesaeeeenees 6 6 Sort P05 Factory parameter S Section Seven Fault e 1 GL 7 1 Trouble shooting Of motor sese 7 2 Fault diagnosis and recovery Of Converter sese sese 49 Page II Section One Safe operation and precautions Section One Safe operation and precautions Please read the manual carefully before install operate maintain or check CDI9000 S series converter For ensuring personal safety device safety and property safety please read the manual carefully before usage of the device The precautions about safe operation can sort to warning or be careful Potentially dangerous condition which maybe cause severe body injuries or dead if relevant requirement is ignored Warning Potentially dangerous condition which maybe cause middle light injuries or device damage if relevant requirement is ignored it also applies to unsafe operation Note Precautions for safe operation 1 Installation and maintenance should be performed by professional only 2 Verify if the rated volt
36. is saved automatically during execution of powerdown command after received STOP which is used as initial setting value of next operation Explanation 1 Under following operating mode running frequency of converter apart from these ten frequency setting modes and frequency setting value abovementioned Inch running frequency multi speed running frequency and programmable multi speed running pya Name Setting range Unit Factory Modification P00 02 Keyboard 0 00 upper frequency 0 01Hz 50 00Hz o frequency setting limit Panel control 0 Corotation P09 93 Running direction 1 Reversion i 9 P00 04 G 50 00 400 0Hz 0 01Hz 50 00Hz x P00 05 Rated frequency 25 00 upper frequency 0 01Hz 50 00Hz x of motor limit poo o6 Rated voltage of 100 450V IY 220V x motor Upper frequency limit denotes upper allowable frequency output by converter shown as Fmax in figure 6 1 7 Rated input voltage of motor is corresponding to voltage of motor running in rated frequency Function c de Name Setting range Unit Factory Modification V Fcurve 0 linear 2 square 2 P00 07 mode 1 square 1 3 double broken line mode 1 0 x In figure 6 1 3 figure 6 1 4 figure 6 1 5 and figure 6 1 6 curve 1 denotes V F curve after plused torque offset voltage under respective V F curve mode and curve 2 denotes V F curve without addition of offset voltage under respective V F curve mode 0 L
37. lume output of 0 10V Page 44 Section Six Description of function parameter G Name Setting range Unit Factory Modification Setting of 0 No action P02 15 programmable 1 Single cycle 1 0 sd multi speed operation 2 Continuous cycle simple PLC 3 Keep final value 0 No action 1 Single cycle stop after ran one cycle 2 Continuous cycle perform cycle operation continuously according set stage parameter 3 Keep final value run with setting frequency of final stage after ran for one cycle Except inch running programmable multi speed running has precedence over setting frequency set via P00 01 frequency setting mode and multi speed running of external terminal f6 2 f7 f5 fl fA B f4 l IT R B MT T T Figure 6 3 8 Schematic diagram of programmable multi speed running pee Name Setting range Unit Factory a Running P02 16 frequency in stage 1 The function code sets running frequency in stage 1 which is used as setting frequency in stage 1 of programmable multi speed running or stage 1 of external terminal control mode Lower frequency limit upper roe 0 01Hz 5 00Hz O frequency limit S Name Setting range Unit Factory Modification Running P02 17 directionin 0 Corotation 1 Reversion 1 0 O stage 1 The function code sets running direction in stage 1 which is used as setting direction
38. me of converter in process of decreasing output frequency to zero during direction switch after received reverse running command shown as TO in figure 6 2 1 m iat TO Figure 6 2 1 Dead time of corotation and reversion eee Name Setting range Unit Factory Modification Stop mode selection of 0 Unforced stop BIEU external fault 1 Powerdown mode i l G Explanation 1 Stop in stopping mode denotes stop according to setting of P01 02 2 Free stop denotes converter stop output after received stop command and motor stop freely with inertia sess Name Setting range Unit Factory Modification Power switch 0 No action a function 1 Act i 0 S 0 No action forbid converter restarting motor after instant power failure or recovery of powerdown 1 Act allow converter automatically execute power switching function after instant power failure or recovery of powerdown Explanation In case that P01 08 1 under keyboard control mode converter automatically executes power switching function to recover power supply after powerdown and instant poweroff Under control mode of external terminal power switching function should be noneffective if current combination state of FWD REV is noneffective during power recovery after powerdown and instant poweroff ee Name Setting range Unit Factory Modification po1 09 Waiting time for power 1 20 09 0 15
39. nals i Pes Check if voltage among motor terminals is Check V F characteristic value decreased excessively Rotate speed If the load is too bigger Decrease load circle min is Decrease load alteration unstable during f Joad alteration is too bigger Increase motor capability of operation of converter moro If power supply network is stable Check bus voltage Page 48 Section Seven Fault recovery 7 2 Fault diagnosis and recovery of converter Fault display Explanation Details Measure Inspect coil resistance of Automatic module motor E L E Module fault protection caused in Inspect insulation of motor external fault of converter Breakage of inverter module Inspect level 400VDC E about DC voltage of mait RG Extend deceleration time U Overvoltage ee setting valus If input voltage is too o during constantrate higher operation of converter If bus voltage is displayed correctly Inspect power connection Voltage of bus is Correct input voltage OSEE Under inadequate during If input voltage is too lower 0 voltage operation If voltage of bus is Inspect level 180AC displayed correctly Inspect blower and ambient Radiator temperature temperature inspection value 80 C Ventilation condition of o H Overheat about from temperature radiator switch Remove dirt from inlet of radiator Page 49
40. ndition to the Company moaw esl ra The Company should carry out responsibility of Three guarantee abovementioned only after received the returned goods and confirmed responsibility attribution Should it involve an unpaid or untimely settlement due to the buyer the ownership hereof still belongs to the supplier In addition the latter will assume no liability hereinabove and the buyer shall have no disagreement All relevant service fees shall be calculated in accordance with the identical standards of the factory In the event that an agreement or a contract exist its priority shall be performed Page 7 Section Three Installation and connection of converter Section Three Installation and connection of converter 3 1 Installation of front cover and number keyboard 1 Installation of front cover 1 Raise unit body by propping the seat do not hold front cover and raise the unit while moving it Otherwise main body maybe fall down and cause body injure 2 Please install converter onto nonflammable materials for example Metal Violation of the rule maybe causes fire Warning 3 Please install a fan or other cooling device if installed device in a cabinet of which inlet temperature should be lower than 40 C Overheat maybe causes fire or damages the device This Section describes the necessary construction setting condition and space required by installation of CDI9100 S series converter
41. on Display every function setting value or output monitor value Running state data and wut display Switch display method Cancel datas modification Select the inch running method at stop state 1 Show monitor mode is running the runing datas is displayed rolling 2 As parameter setting method read and save setting datas When select and set the parameter move the position of data modification Running key POT adjust frequency 1 Select function code 2 Set data increase or decrease 3 Keyboard frequency is given set frequency increase or decrease Stop ran fault reset key Installation dimension Indicator Function of operating keyboard 36mm 70mm 1 No Name Chinese Function Description Name 1 FOR Corotation Corotation Indicator When corotation it is Bun wo ie Av light reverse it is not MODE Jos light a m aa m 2 REV Reverse Reverse Indicator Enen Lv gt When Reverse it is z light corotation it is not tl light STOP 3 RUN Run When the converter is 1 running it is light 4 STOP Stop When the converter is stopping it is light Page 15 Section Four Keyboard operation and running 4 3 2 Display method of keyboard 1 Monitor mode of running information It is possible to check current state information of converter by press gt g
42. on of motor C If installing condition of converter is changed D Ifradiating fan of converter works normally E If converter is in state of overheat Daily cleanness A Keep cleanness of converter B Remove dust from surface of converter effectively to prevent converter from incursion of dust or metal dust C Remove oil sludge form radiating fan of converter effectively 2 Regular inspection Please inspect corner pockets of converter regularly Regular inspection item A Inspect air flue and clean it regularly B Inspect if screw is loosened C Inspect if converter is corrosive D Inspect if there is arc on surface connecting terminal E Insulated test of major loop Note Please disconnect major loop and converter while testing insulation resistance by using megohmmeter 500V DC megohmmeter Do not measure insulation of control loop with megohmmeter And high voltage test is needless finished in ex works 3 Replacement of wearing parts Wearing parts of converter includes cooling fan filter ELCC of which service life depend on operating environment and maintenance condition closely User could confirm replacement period according to the operating time A Cooling fan Potential damage reason Shaft abrasion and vane aging Critical standard If there is crack on vane of fan or if abnormal sound occurs during starting B Filter ELCC Potential damage reason Bad input power higher ambient temperature frequent load s
43. or monitoring instruction such as output frequency meter current meter etc while not be used for feeding back control system 5 COM and GND are common terminal of I O signal and analog signal please not connect or ground these common terminals mutually 6 For prevent from interfere please distributing control loop apart from main loop and heavy current loop relay contact 220V program loop 7 Input switch of external terminal except relay contact is passive input signal power input maybe damage the converter 8 For prevent from failure action caused in noise interfere please deleave lead of control circuit apart from lead of main loop and other power cable Connection of control circuit adopts twisted wire or double twisting wire via which connect external shielding case to grounding terminal of converter in distance of 50m below 9 Inthe block chart J1 is switch of which functions include Jlis used for selecting current voltage signal input for IF or VF channel J1 switch locate at side I while selecting current input while locate at side V while selecting voltage input 10 J2 is BI switch of which functions include J2 is used for selecting current voltage signal output for FM channel J2 locate at side I while selecting current output while locate at side V while selecting voltage output Page 11 Section Three Installation and connection of converter 3 4 2 Function of control circuit terminal Following sheet summ
44. others Cooling mode Air blast cooling Page 3 Section Two Product information 2 3 CDI9100 S series converter Type Rated voltage Rated power Rated output current Motor CDI9100 S GOR4T2 200 230v 0 4K W 2A 0 4K W CDI9100 S GOR7T2 200 230v 0 75kW 4A 0 75kW CDI9100 S G1R5T2 200 230v 1 5kW 7A 1 5kW Order explanation During order please enter type specification of the product and provide parameter load type or other information relating to the motor as much as possible For any special requirement please consult with technology department of the Company Page 4 Section Two Product information 2 4 Appearance and installation dimension CDI9100 S OR4T2 CDI9100 S OR7T2 100 91 150 142 116 72 5 CDI9100 S 1R5T2 3 PHASE OUTPUT 1 PHASE NPUT Connect motor Connect power AC 3PH 220V AC 1PH 220V Note Terminal sequence should base on actual object Page 5 Section Two Product information 2 5 Routine maintenance 1 Routine maintenance Under influence of temperature humidity dust and vibration internal elements of converter should be aged which should cause potential fault or decrease service life of converter Therefore it is significant to perform routine maintenance and regular inspection with the converter Routine maintenance item A Ifrunning sound of motor is abnormal B If vibration is created during operati
45. output frequency to zero along with deceleration curve during process of deceleration and stop namely Fd in Figure 6 2 1 During deceleration and stop process output frequency jump to zero while setting frequency is lower than starting frequency of DC brake and deactivate DC brake function set by converter Starting frequency of DC brake is effective in deceleration process while switching between corotation and reversion If DC brake function is selected the stopping frequency is starting frequency of DC brake If no running condition offers strict requirement on stopping brake please set starting frequency of DC brake as smaller as possible 0 00 10 00Hz 0 01Hz 0 00Hz x Function code Name Setting range Unit Factory Modification P01 04 DC brake voltage 0 15 1 0 x P01 05 DC brake time 0 0 20 0S 0 1S 0 0S x DC brake time time for output DC brake voltage during stopping process of converter Explanation Parameter of DC brake time is noneffective if DC brake with external terminal is selected DC brake is noneffective if DC brake time is set as 0 0S or DC brake voltage is set as 0 Page 33 Section Six Description of function parameter oe Name Setting range Unit Factory Modification po1 06 Dead Hie of corotation 0 0 20 08 0 18 0 09 o and reversion Dead time of corotation and reversion it denotes waiting time and holding ti
46. put frequency 1 Setting 1 0 lo contentof frequency ILED 2 Output voltage 3 Bus voltage 4 Input signal 5 Feedback value display 6 Module temperature P03 04 Parameter U All data are alterable 1 0 G 47 input 1 Only P00 02 and the function protection are alterable 2 Only the function is alterable P03 05 Parameter 0 No action 1 0 x initialization l Eliminate fault record 2 Reset Remark Function 2 should be displayed 5 seconds after ressed continuously Page 24 Section Five Functional parameter sheet 5 5 Sort P04 Display function parameter Sort Function Name Setting Min Factory Modification Reference code range unit setting limit P04 00 Output Hz 47 frequency P04 01 Setting Hz frequency P04 02 Output V S voltage P04 03 Bus voltage V P04 04 Input signal P04 05 Feedback Hz value display P04 06 Module N temperature P04 07 Cumulative Hour S operation time P04 08 1 fault record P04 09 20 fault record P04 10 3 fault S record P04 11 4 fault record 5 6 Sort P05 Factory parameter Sort Function Name Setting Minimm Factory Modification Refer code range unit setting limit ence P05 00 Factory password 47 input Page 25 Section Six Description of function parameter Section Six Description of function parameter 6 1 Basic function parameter Sort
47. requency 0 10V or Positive 0 20mA interaction v i 10V 20mA 10 0V or 0 Fmax Retroaction 20 0mA 10V 20mA 0 5V or Positive 0 10mA interaction Page 43 Section Six Description of function parameter 0 Fmax Retroaction 10V 10mA 2 10V or 0 Fmax Positive 4 20mA interaction fae cee 1 m 2 10V 20mA 10 2V or 0 Fmax Retroaction 20 4mA Ld 2 10V 20mA IF 10V 10V Fmax Positive UNDEF Fmax interaction isin Name Setting range Unit Factory Modification po2 11 Setting ofsecondary 1 94 59 0 0 1 1 0 x adjusting value Selection of secondary 0 VF ie setting channel 1 IF E These two function code are effective if P00 01 4 5 under mode of number keyboard analog terminal and VF IF user could perform minitrim with secondary setting based on primary setting Setting frequency primary setting frequency valuetinput signal of analog terminal setting value of secondary adjusting volume Function code Name Setting range Unit Factory Modification P02 13 Analog output 0 Output frequency 1 0 o setting 1 Output voltage P01 14 Analog output gain 0 50 2 00 0 01 1 00 O CDI9100 S general converter adopts a analog volume output terminal FM to output voltage signal of 0 10V Output frequency 0 maximal frequency correspond to analog volume output of 0 10V Output voltage 0 rated voltage correspond to analog vo
48. rovides two control modes of keyboard operation and terminal operation via which user could select and use relevant control mode according to local environment and operating requirement For details please refer to description of parameter P00 00 4 2 Test run and inspection 1 Precautions and inspection before test run For ensuring operation safety please relieve mechanical connector before first operation to separate motor from mechanical equipment and prevent from dangerous Please perform following inspection before test run A If connection between lead and terminal is correct B If lead thrum cause short circuit C If screw terminal is fastened firmly D If motor is installed firmly 2 Test run After preparation connect to power supply and inspect if frequency converter works normally After connected to power supply indicator of number keyboard is luminous Please cut off power supply immediately if any problem abovementioned occurs 3 Operating inspection Please verify following items during operation A Ifmotor rotates smoothly B If rotation direction of motor is correct C If abnormal vibration or noise occurs accompanying with operation of motor D If acceleration and deceleration are smooth E If current match with load value F If LED state indicator and number keyboard displays correctly Page 14 Section Four Keyboard operation and running 4 3 Operating method of keyboard 4 3 1 Keystroke and functi
49. should reset all parameter value of POO P03 to default value and LCD should display a 6 5 Sort P04 Display functional parameter P04 00 P04 11 display current parameter of converter of which display functions include Function code Name Function code Name P04 00 Output frequency P04 06 Module temperature P04 01 Setting frequency P04 07 Cumulative operating time P04 02 Output voltage P04 08 1 fault record P04 03 Bus voltage P04 09 2 fault record P04 04 Input signal P04 10 3 fault record P04 05 Feedback value P04 11 4 fault record 6 6 Sort P05 Factory parameter Function Minimum Factory Modification Name Setting range 3 ae code unit setting limit P05 00 Factory V password input Factory password input display special function sort of factory Page 47 Section Seven Fault recovery Section Seven Fault recovery 7 1 Trouble shooting of motor Please check out reason and adopt relevant measure if following problems occurs during operation of motor Please contact agent of Delixi if these problems have not been solved via inspection and measure Fault Inspection signal Measure Connect to power supply Electrify again after shutdown If power voltage is input onto power power supply terminal of R S T Inspect voltage Check if terminal screw is fastened firmly Measure if voltage at output terminals of U Elec
50. t if monitor mode is run Press gt gt Press gt gt Press gt gt Jutput Setting Output ae frequency frequency voltage Bus voltage Press gt gt gt gt Press Press gt gt Press gt gt Module 2 Fault alarm monitor mode A Ihn state of running monitor the unit should display information relating to fault and warning if fault and alarm occurs B Reset fault by press STOP RESET if fault disappears C Please cut off power supply and reset the unit if serious fault occurs D Keyboard should display fault code continuously until fault is eliminated refer to Section Seven eedback value Input signal 3 Parameter setting method Converter parameter and inspection on running state of converter are settable Please adjust parameter value properly to obtain perfect running state Press MODE Press MODE Running monitor mode Parameter setting mode Page 16 Section Four Keyboard operation and running 4 3 3 Method of check set parameter via number keyboard monitor mode EX Modify value of acceleration time parameter from 010 0 to 016 1 Press MODE to enter mto parameter setting mode and display parameter code on keyboard such as P00 and press ENTER to confirm POO 00 is dis played at this time Press A Vto modify parameter code EX modify to P00 01 ss ENTER to call out current value and display it n keyboard for example 0 Press V gt gt to modify par
51. ten permission of the Company who will assume legal responsibility for damage caused in violation of the item Page I Contents Contents Section One Safe operation and precauiOnR sees eee eee 1 Section Two Product informati n ssnin aiiirrnieie irer ni eri aaan in Orr 2 2 1 Nameplate data and naming rule ser 2 2 Technical specification of CDI9100 S series Converter sese eee eee 3 2 3 CD19 100 S Series converter iii node cutee edna neha TTS Dea denn s 4 2 4 Appearance and installation dimension sss S 2 5 Routine maintenance esn eani aaieade eerie neh niet erie E aR steiner 6 Section Three Installation and connection of converter 8 3 1 Installation of front cover and number Keyboard sss sees eee eee 8 3 2 Selection of installing position sss sese 8 3 3 Connection of main loop and the precautions sad 3 4 Connection of control circuit sese eee 10 3 4 1 Terminal arrangement and connection diagram of control circuit 3 4 2 Function of control circuit termina see ee ee ee ee esse eee eee ee eee 3 5 Grounding sese Section Four Keyboard operation and running 4 1 Selection of operating mode 4 2 Test run and inspection A 4 3 Operating method of Keyboard sss sese 4 3 1 Keystroke and function TT 4 3 2 Display method of keyboard ce sees 4 3 3 Method of check set parameter via number keyboard 4 3 4 Frequency setting of Keyboard sss esse eee eee d Sect
52. ter into operating state from state of powerdown running frequency in case of 1 powerup power recovery after instantaneous power down reset after fault free stop and normal stop etc ps Name Setting range Unit Factory Modification P01 01 Starting frequency 0 0 10 0S 0 18 6 719 5 Holding time P01 02 Stop mode 0 Decelerative stop 1 0 x 1 Free stop 0 Decelerative stop Converter should perform decelerative stop according to preset deceleration time and mode via decreasing output frequency after received command of STOP During decelerative stop output frequency of converter should jump to zero if set frequency is lower than starting DC brake frequency refer to P01 03 at this time converter should perform DC brake and stop working after implement if function of DC brake is selected or stop working directly The mode is mainly used for general deceleration stop or condition that rapid brake is required external brake resistance or brake unit is required 1 Free stop mode free running stop Converter stop output immediately after received stop command and motor stop freely with inertia It is general to adopt external mechanical band brake to achieve rapid stop Function code P01 03 Name Setting range Unit Factory Modification Starting frequency of DC brake Starting frequency of DC brake it denotes the transition point frequency of converter while abruptly drop
53. terminals of switch received fault signal of external device during operation of converter 5 Undervoltage stop Terminal outputs indicator signal and LED displays P oFF if DC bus voltage occurs is in state of undervoltage 6 Output frequency reaches to upper limit Terminal outputs indicator signal if output frequency of converter reaches to lower frequency limit 7 Output frequency reaches to lower limit Terminal outputs indicator signal if output frequency of converter reaches to upper frequency limit 8 Programmable multi speed running is finished Terminal outputs indicator signal for one second if a running stage of programmable multi speed running is finished 9 Null speed running Start up motor from null speed while starting converter 10 Fault indicator Send out indication during fault of converter S Name Setting range Unit Factory Modification po2 o7 Frequency reaches 9 99 19 00Hz 0 01Hz 2 50Hz 0 to detecting width Page 41 Section Six Description of function parameter Output frequency Setting frequency Direct l 1 Signal l l Time Figure 6 3 6 Frequency reaches to signal or detecting width Shown as figure 6 3 6 output indicator signal if output frequency is in positive negative detecting width of setting frequency pra Name Setting range Unit Factory Modification po2 o8 Frequency level 0 00 maximal 0
54. ti speed operation Sheet1 Multi speed operation sheet Frequency setting No multi frequency operation ON ON 4 5 Inch control of corotation and reversion Under terminal control mode P00 00 1 user could perform inch running control after defined external terminal JOGF is corotation inch running set one of function parameters P02 01 P02 04 as 4 JOGR is reversion inch running set one of function parameter P02 01 P02 04 as5 setting Page 39 Section Six Description of function parameter frequency of inch running and acceleration time deceleration time is defined in parameter P01 14 P01 16 6 Three wire running control The function is used for defining input terminal for input of corotation reversion running command under control mode of external terminal P00 00 1 and three wire running mode is selected Please refer to P02 00 function introduction of three wire running control 7 8 Acceleration time deceleration time terminal 1 2 It is possible to achieve selection of 1 4 acceleration time deceleration time via ON OFF combination of multi speed Acceleration time deceleration time terminal Besides programmable multi speed running and inch running converter should select acceleration time deceleration time 1 automatically if the function is undefined For the state combination please refer to following sheet Acceleration Acceleration Selection of acceleration time time deceleration time d
55. trify again after shutdown Motor V W is correct by using rectifier voltmeter power supply is irrotational If motor is locked because overload Reduce load and eliminate lock If fault displayed on manipulater screen Inspect fault according to fault sheet If corotation or reversion command is input Inspect connection If frequency setting signal is input Correct connect Inspect frequency setting voltage If setting of running mode is correct Input setting correctly Motor rotates in If connections of terminal of U V W are correct Connect according to phase order of U V W of motor reversed f f c If corotation or reversion command is input direction Correct connect correctly Motor is If connection of frequency setting circuit is S Correct connect rotational while correct 9 heck selection of running m speed E If setting of running mode is correct E E AIE E transmission is by using manipulater incapable If load is too bigger Decrease load Rotate speed of If rated value of motor number of poles voltage is correct Check technical nameplate of motor parameter on motor circle Z Imin is too If transmission ratio is correct Check variable unit gear etc higher or too If setting value of maximal output Check setting value of maximal lower frequency is correct output frequency i tor t i
56. ue Acceleration rae and 0 1 3600 second acceleration and deceleration time is switchable 8 deceleration Type linear time Operation G Interrupt output of converter Inching Idle operation motion Automatic E S operation Operate automatically according to parameter set 7 stage speed Fault reset Reset fault state automatically if protective function is effective Running Frequency inspection class overload alarm over voltage under voltage Output LState overheat running stop constant speed automatic program running E Eault output_ Contact output AC250V 1A DC 30V 1A Analog FM output 0 10V output Running function DC brake frequency limit slip compensation reversion protection etc Over voltage module fault protection under voltage overheat fault Converter protection protection Protective Instantaneous Lower than 15 msec Continuous operation function powerdown Bigger than 15 msec Automatic restart is allowable Running Set frequency output frequency output voltage bus voltage input signal Key information feedback value module temperature Displa board epee Pier lt Running state of fault protection four fault information are saved information Ambient temperature 10 C 40 C Storage temperature 20 C 65 C Environment Ambient humidity 90 RH in max no dewing Height vibration Below 1 000 m below 5 9m sec 0 6g Application position No corrosive gas inflammable gas oil mist dust and
57. ue input terminal User could define function of D1 D4 respectively via setting value of P02 01 P02 04 refer to sheet 1 EX Function of terminal D1 is defined as Free stop input command if P02 01 9 it is possible to achieve function of free stop during operation if D2 is in state of ON Explanation A function is nonselectable after selected by a terminal and programmable switching value input terminal could select Nonfunction only set to 0 synchronously 1 3 Multi speed running terminal User needs to define three switch value input terminals as multi speed running control terminal if Multi speed running is selected select a multi frequency set in P02 16 P02 20 P02 24 P02 28 P02 32 P02 36 P02 40 via combination state of ON OFF of these three terminal which has precedence over frequency set via frequency setting mode of P00 01 stage frequency selected by multi speed running terminal is used as setting frequency of converter Please refer to explanation relating to this It is possible to achieve multi speed control via external switch if P02 01 1 P02 02 2 P02 03 3 shown as figure 6 3 2 Page 38 Section Six Description of function parameter CDI9100 S Converter Figure 6 3 4 Connection diagram of multi speed operation User could select multi speed running frequency via combination of K1 K2 and K3 according to sheet 1 shown as figure 6 3 5 Time K 1 Figure 6 3 5 Schematic diagram of mul
58. uence should base on actual object Page 9 Section Three Installation and connection of converter 3 4 Connection of control circuit 3 4 1 Terminal arrangement and connection diagram of control circuit Control plate of CDI9100 Sseries converter ON SB F Ce 10V VF IF GND FM FWD REV COM D1 D2 D3 D4 TA TB TC Following figure is connection diagram of main loop and control loop It is possible to run the motor only after connected main loop if number keyboard is used QF three phase asynchronous motor AC 1PH L1 220V CDI9100 2 Series Converter Dl D4 DC 0 lWV Multiple fimection input canbe set Multiple function TA ouput reay EESE Tp Less thm AC 250V LA L Less thm AC 30VLA TC Factory setting fault indication External POT HE 120D py Speed sign power V gee YF Simulation voltage input oloy IF Simulation electrical current input WA ORA 12500 G GND Sinmlation sign Common terminal Page 10 Section Three Installation and connection of converter Note 1 For control terminal frequency setting and monitor instrument shielding wire or twisted pair wire required wiring in ellipse 2 It is possible to select voltage or current input of main support frequency via parameter of P02 09 or P02 10 and select terminal control via parameter of P02 00 P02 06 3 Maximal output current of 10V 10V control loop terminal is 50mA 4 Multi function analog output is used f
59. uld achieve secondary setting value by multiplying frequency value of P02 09or P02 10 with value of P02 11 5 VF IF control Page 26 Section Six Description of function parameter Under the setting mode user could set frequency of current converter via input of these two analog signal channels confirm one of these two analog channel as primary setting value via value of parameter P02 12 confirm another analog channel as secondary setting value and achieve current setting frequency by summarizing these two values These two setting values should be summarized only if the setting mode is selected Frequency value between analog signal of primary setting and corresponding parameter P02 09 or P02 10 For analog signal used as secondary setting user could achieve secondary setting value by multiplying frequency value of corresponding parameter P02 09 or P02 10 with value of parameter P02 11 Explanation Under frequency setting mode of number keyboard analog terminal and VF IF 1 In case that analog input signal of VF channel is ambipolar input user could dispose it in mode of absolute value which should not include diversion information 2 IF selects voltage current signal input according to position of JP2jumper on control board If current input is selected short circuit block of JP2 jumper locate at side of I and input resistance of the channel is 500Q 3 Under VF IF frequency setting mode one of these two analog
60. voltage P02 14 Analog output gain 0 50 2 00 0 01 1 00 Jo Progra P02 15 Programmable 0 No action 1 U x 45 Immable Imultiple speed running 1 Single cycle multipl setting simple PLC 2 Continuous cycle le speed running 3 Hold final value running P02 16 Running frequency in stage Lower frequency 10 01 5 00Hz o 1 limit upper Hz frequency limit P02 17 Running direction in stage U Corotation 1 0 lo 1 1 Reversion P02 18 Running time of stage 0 0 3600S 0 1S 10 0S o P02 19 Acceleration and 1 4 1 1 lo 46 deceleration time in stage 1 P02 20 Running frequency in stage Lower frequency 0 01 10 00H o limit Upper Hz iz frequency limit P02 21 Running direction in stage U Corotation 1 0 lo 2 1 Reversion P02 22 Running time of stage 2 0 0 3600S 0 1S 10 05 jo P02 23 Acceleration and 1 4 1 1 lo deceleration time in stage 2 P02 24 Running frequency in stage Lower frequency 10 01 15 00H Jo 4 limit Upper Hz iz frequency limit P02 25 Running direction in stage U Corotation 1 0 lo B 1 Reversion P02 26 Running time of stage 3 0 0 3600S 0 1S 10 0S jo P02 27 Acceleration and 1 4 1 1 lo deceleration time in stage 3 P02 28 Running frequency in stage Lower frequency 0 01 20 00H o limit Upper Hz gZ frequency limit P02 29 Running direction in stage U Corotation 1 0 lo 4 1 Reversion P02 30 Running time of stage 4 0 0 3600S 0 1S 10 05 G P02 31 Acceleration and 1 4 1 1 lo deceleration time in stage 4 Page 23
61. witch or aging of electrolyte Critical standard If liquid leaks if safety valve bulged out measure of static capacitance and measure of insulated resistance 4 Storage of converter After purchased the device please pay attention to following points while storing it A Please store it in original package as much as possible B Long term storage should cause aging of ELCC please electrify it for 5 hours above twice a year during storing in mode of raising voltage to rated voltage slowly via transformer 5 Guarantee of converter Maintenance free is limited to the converter only For fault or damage occurs during normal application of device sold in home delivery date A Perform guaranteed repair guaranteed exchange guaranteed return in one month after delivery Page 6 Section Two Product information B Perform guaranteed repair guaranteed exchange in three months after delivery C And perform guaranteed repair in 15 months after delivery For exported device not included China the Company should provide guaranteed repair in six months after delivery at purchase site For products manufactured by the Company we will provide paid service for life anytime or anywhere applied it All sale product and agent units of the Company should provide products with after sale service of which service terms include A Provide Class III inspection service at site of the unit Include fault elimination B Reter to after s
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