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Salicru CV50-008-4F User Manual Download Page 108

 

 

     

108 - 144 

Communication Protocol

 

9 Communication Protocol 
 

9.1 What this chapter contains 

This chapter describes the communication protocol of CV50 inverters.   
The CV50 inverters provide RS485 communication interface. It adopts international standard MODBUS 
communication protocol to perform master-slave communication. The user can realize centralized control 
through PC/PLC, upper control PC, etc. (set the control command, running frequency of the inverter, modify 
relevant function codes, monitor and control the operating state and fault information of the inverter and so on) 
to adapt specific application requirements. 

9.2 Brief instroduction to MODBUS protocol 

Modbus protocol is a software protocol and common language which is applied in the electrical controller. With 
this protocol, the controller can communicate with other devices via network (the channel of signal 
transmission or the physical layer, such as RS485). And with this industrial standard, the controlling devices of 
different manufacturers can be connected to an industrial network for the convenient of being monitored.   
There are two transmission modes for Modbus protocol: ASCII mode and RTU (Remote Terminal Units) mode. 
On one Modbus network, all devices should select same transmission mode and their basic parameters, such 
as baud rate, digital bit, check bit, and stopping bit should have no difference.   
Modbus network is a controlling network with single-master and multiple slaves, which means that there is 
only one device performs as the master and the others are the slaves on one Modbus network. The master 
means the device which has active talking right to send message to Modbus network for the controlling and 
inquiring to other devices. The slave means the passive device which sends data message to the Modbus 
network only after receiving the controlling or inquiring message (command) from the master (response). After 
the master sends message, there is a period of time left for the controlled or inquired slaves to response, 
which ensure there is only one slave that sends message to the master at a time for the avoidance of single 
impacts. 
Generally, the user can set PC, PLC, IPC and HMI as the masters to realize central control. Setting certain 
device as the master is a promise other than setting by a bottom or a switch or the device has a special 
message format. For example, when the upper monitor is running, if the operator clicks sending command 
bottom, the upper monitor can send command message actively even it can not receive the message from 
other devices. In this case, the upper monitor is the master. And if the designer makes the inverter send the 
data only after receiving the command, then the inverter is the slave.   
The master can communicate with any single slave or with all slaves. For the single-visiting command, the 
slave should feedback a response message; for the broadcasting message from the master, the slave does 
not need to feedback the response message.       

9.3 Application of the inverter 

The MODBUS protocol of the inverter is RTU mode and the physical layer is 2-wire RS485. 

9.3.1 2-wire RS485 

The interface of 2-wire RS485 works on semiduplex and its data signal applies differential transmission which 
is called balance transmission, too. It uses twisted pairs, one of which is defined as A (+) and the other is 
defined as B (-). Generally, if the positive electrical level between sending drive A and B is among +2~+6V, it is 
logic“1”, if the electrical level is among -2V~-6V; it is logic“0”. 
485+ on the terminal board corresponds to A and 485- to B. 
Communication baud rate means the binary bit number in one second. The unit is bit/s (bps). The higher the 
baud rate is, the quicker the transmission speed is and the weaker the anti-interference is. If the twisted pairs 
of 0.56mm² (24AWG) is applied as the communication cables, the Max. Transmission distance is as below:   

Summary of Contents for CV50-008-4F

Page 1: ...USER MANUAL INVERTER CONTROLVIT CV50 ...

Page 2: ......

Page 3: ...rs as well as the demand of the whole industry flexibly and follow the trend of industrial application to the inverters on the premise of meeting general need of the market Powerful speed control torque control simple PLC flexible input output terminals pulse frequency reference and traverse control can realize various complicate high accuracy drives and provide integrative solution for the manufa...

Page 4: ...ons 14 3 7 Structure diagram 14 4 Installation Guidelines 16 4 1 What this chapter contains 16 4 2 Mechanical installation 16 4 3 Standard wiring 19 4 4 Layout protection 26 5 Keypad Operation Procedure 28 5 1 What this chapter contains 28 5 2 Keypad 28 5 3 Keypad displaying 30 5 4 Keypad operation 30 6 Function Parameters 32 6 1 What this chapter contains 32 6 2 CV50 general series function param...

Page 5: ...f data address 116 9 6 Example of writing and reading 121 Technical Data Appendix A 125 A 1 What this chapter contains 125 A 2 Ratings 125 A 3 Electric power network specification 126 A 4 Motor connection data 126 A 5 Applicable standards 126 A 6 EMC regulations 127 Dimension Drawings Appendix B 128 B 1 What this chapter contains 128 B 2 Keypad structure 128 B 3 Inverter chart 129 Peripheral Optio...

Page 6: ...ing symbols Warnings caution you about conditions which can result in serious injury or death and or damage to the equipment and advice on how to avoid the danger Following warning symbols are used in this manual Symbols Name Instruction Abbreviation Danger Electrical Danger Serious physical injury or even death may occur if not follow the relative requirements Warning General danger Physical inju...

Page 7: ...ation site is above 2000m Please use the inverter on appropriate condition See chapter Installation Environment Don t allow screws cables and other conductive items to fall inside the inverter The leakage current of the inverter may be above 3 5mA during operation Ground with proper techniques and ensure the grounding resistor is less than 10Ω The conductivity of PE grounding conductor is the same...

Page 8: ... fall into the inverter during maintenance and component replacement Note Please select proper torque to tighten screws Keep the inverter parts and components away from combustible materials during maintenance and component replacement Do not carry out any isolation and pressure test on the inverter and do not measure the control circuit of the inverter by megameter Carry out a sound anti electros...

Page 9: ... there is no overload of the inverter during work and check that whether the drive needs to modify the power degree 2 Check that the actual current of the motor is less than the rated current of the inverter 3 Check that the control accuracy of the load is the same of the inverter 4 Check that the incoming supply voltage is correspondent to the rated voltage of the inverter 2 4 Environment Check a...

Page 10: ...nstallation is sufficient according to the instructions in user s manual 7 Check that the installation conforms to the instructions in user s manual The drive must be installed in an upright position 8 Check that the external connection terminals are tightly fastened and the torque is appropriate 9 Check that there are no screws cables and other conductive items left in the inverter If not get the...

Page 11: ...The brake pipe connects the external braking resistor to the intermediate DC circuit to consume the feedback energy when the voltage in the circuit exceeds its maximum limit Diagram 3 1 The main circuit diagram 30kW Diagram 3 2 The main circuit diagram 37kW Note 1 The inverter above 37kW including 37kW supports external DC reactor Before connecting it is necessary to remove the copper row between ...

Page 12: ...nning setting simple PLC setting PID setting MODBUS communication setting Shift between the set combination and set channel Auto voltage adjustment Keep a stable voltage automatically when the grid voltage transients Fault protection Provide over 30 fault protection functions overcurrent overvoltage undervoltage overheating phase loss and overload etc Speed tracking Restart the rotating motor smoo...

Page 13: ...ate 3 5 Type designation key The type designation contains information on the inverter The user can find the type designation on the type designation label attached to the inverter or the simple name plate CV50 150 4F Fig 3 4 Product type Key No Detailed description Detailed content Product Model of the inverter CV50 Inverter Rated power Power range 150 15 kW constant torque load 18 5 kW variable ...

Page 14: ...305 CV50 1600 4F 160 310 305 185 345 340 CV50 1850 4F 185 345 340 200 385 380 CV50 2000 4F 200 385 380 220 430 425 CV50 2200 4F 220 430 425 250 485 480 CV50 2500 4F 250 485 480 280 545 530 CV50 2800 4F 280 545 530 315 610 600 CV50 3150 4F 315 610 600 350 625 650 CV50 3500 4F 350 625 650 400 715 720 CV50 4000 4F 400 715 720 CV50 5000 4F 500 890 860 Note 1 The input current of 1 5 315kW inverters is...

Page 15: ...ct Overview for detailed information 7 Side cover Optional part The side cover will increase the protective degree of the inverter The internal temperature of the inverter will increase too so it is necessary to derate the inverter at the same time 10 8 Control terminals See Electric Installation for detailed information 9 Main circuit terminals See Electric Installation for detailed information 1...

Page 16: ...ble functions of the inverter Check the installation environment as followings Environment Conditions Installation site Indoor Environment temperature 10 50ºC If the ambient temperature of the inverter is above 40ºC derate 3 for every additional 1ºC It is not recommended to use the inverter if the ambient temperature is above 50ºC In order to improve the reliability of the device do not use the in...

Page 17: ...nverter may be installed on the wall or in a cabinet The inverter must be installed in an upright position Check the installation site according to the requirements below Refer to chapter Dimension Drawings in the appendix for frame details Fig 4 1 Installation direction of the inverter 4 2 3 Installation manner The inverter can be installed in two different ways depending on the frame size a Wall...

Page 18: ...erters does not need the installation bracket 2 220 315kW inverters need optional base in the floor installation 4 2 4 Multiple installations Parallel installation Fig 4 3 Parallel installation Note Before installing the different sizes inverters please align their top position for the convenience of later maintenance The minimum space of B D and C is 100mm 4 2 5 Vertical installation Fig 4 4 Vert...

Page 19: ...hannels in tilt installation for avoiding mutual impact 4 3 Standard wiring 4 3 1 Wiring diagram of main circuit Fig 4 6 Wring diagram of main circuit Note The circuit breaker DC reactor braking unit braking resistor input reactor input filter and output filters are optional parts Please refer to Peripheral Optional Parts for detailed information P1 and are short circuited in factory if need to co...

Page 20: ... PB and from the terminal blocks Otherwise poor connection may occur 4 3 2 Terminals figure of main circuit Fig 4 7 0 75 5 5 kW terminals of main circuit Fig 4 8 7 5 15kW terminals of main circuit Fig 4 9 18 5kW terminals of main circuit Fig 4 10 22 30kW terminals of main circuit Fig 4 11 37 55 kW terminals of main circuit ...

Page 21: ...Installation Guidelines 21 144 Fig 4 12 75 110kW terminals of main circuit Fig 4 13 132 200kW terminals of main circuit Fig 4 14 220 315kW terminals of main circuit ...

Page 22: ... use an asymmetrically constructed motor cable If there is a symmetrically constructed grounding conductor in the motor cable in addition to the conductive shield connect the grounding conductor to the grounding terminal at the inverter and motor ends Braking resistor and braking unit are optional parts Route the motor cable input power cable and control cables separately If the terminal is not ap...

Page 23: ...Installation Guidelines 23 144 Fig 4 17 360 degree grounding technique 4 3 4 Wiring diagram of control circuit Fig 4 18 Wiring diagram of the control circuit ...

Page 24: ...AI2 can be shifted by J4 AI3 10V 10V 2 Input impedance Voltage input 20kΩ Current input 500Ω 3 Resolution the minimum one is 5mV when 10V corresponds to 50Hz 4 Deviation 1 25ºC AI3 GND 10V reference null potential AO1 1 Output range 0 10V or 0 20mA AO1 can be shifted by J1 AO2 can be shifted by J2 2 Deviation 1 25ºC AO2 RO1A RO1 relay output RO1A NO RO1B NC RO1C common terminal Contactor capabilit...

Page 25: ...6 S7 Switch input 7 S8 Switch input 8 HDI This terminal can be used as high frequency input channel Max input frequency 50kHz HDO 1 Switch output 200mA 30V 2 Output frequency range 0 50kHz COM 24V common terminal CME Common terminal of HDO and Y1 short connected with COM in factory Y1 1 Switch capability 200mA 30V 2 Output frequency range 0 1kHz 485 RS485 communication interface and RS485 differen...

Page 26: ... in short circuit situations Protect the inverter and input power cable in short circuit situations and against thermal overload Arrange the protection according to the following guidelines Fig 4 24 Fuse configuration Note Select the circuit breaker as the manual indicates The circuit breaker will protect the input power cable from damage in short circuit situations It will protect the surrounding...

Page 27: ...tected The inverter includes a motor thermal protection function that protects the motor and closes the output to switch off the current when necessary 4 4 4 Implementing a bypass connection It is necessary to set power frequency and variable frequency conversion circuits for the assurance of continuous normal work of the inverter if faults occur in some significant situations In some special situ...

Page 28: ...f 18 5 500kW include a LED keypad and can choose an optional LCD advanced keypad The LCD keypad supports several languages parameters copy high definition display and its installation dimension is compatible with the LED Use strew or installation bracket to fix the external keypad The inverters of 0 75 30kW have standard bracket as optional while the inverters of 37 500kW have an embedded bracket ...

Page 29: ...2 Unit LED Mean the unit displayed currently Hz Frequency unit RPM Rotating speed unit A Current unit Percentage V Voltage unit 3 Code displaying zone 5 figure LED display displays various monitoring data and alarm code such as set frequency and output frequency 4 Digital potentiometer Tuning frequency Please refer to P08 42 5 Buttons Programming key Enter or escape from the first level menu and r...

Page 30: ...verter The inverter has three levels menu which are 1 Group number of function code first level menu 2 Tab of function code second level menu 3 Set value of function code third level menu Remarks Press both the PRG ESC and the DATA ENT can return to the second level menu from the third level menu The difference is pressing DATA ENT will save the set parameters into the control panel and then retur...

Page 31: ...tly after quitting from the function code editing state Press PRG ESC again to the function code editing state 0 0 0 0 0 will be displayed Unless using the correct password the operators cannot enter it Set P7 00 to 0 to cancel password protection function Fig 5 4 Sketch map of password setting 5 4 3 How to watch the inverter state through function codes CV50 inverters provide group P17 as the sta...

Page 32: ...unction P24 Water Supply 1 Below is the instruction of the function lists The first column Function code codes of function parameter group and parameters The second column Name full name of function parameters The third column Detailed instruction of parameters detailed instruction of the function parameters The fourth column Default value the original factory set value of the function parameter T...

Page 33: ...chronous motors No need to install encoders It is suitable in cases with high speed control accuracy for accurate speed and torque control at all power ratings 2 SVPWM control V F control No need to install encoders It can improve the control accuracy with the advantages of stable operation valid low frequency torque boost and current vibration suppression and the functions of slip compensation an...

Page 34: ...the same frequency setting mode The frequency source can be set by P00 09 0 Keypad data setting Modify the value of P00 10 set the frequency by keypad to modify the frequency by the keypad 1 Analog AI1 setting Inverters 15kW can be set by the digital potentiometer on the keypad and AI1 setting is not available for the device which is 18 5kW kW 2 Analog AI2 setting 3 Analog AI3 setting Set the freq...

Page 35: ...6 7 PID control setting The running mode of the inverter is process PID control when P00 06 7 or P00 07 7 It is necessary to set P09 The running frequency of the inverter is the value after PID effect See P09 for the detailed information of the preset source preset value and feedback source of PID 8 MODBUS communication setting The frequency is set by MODBUS communication See P14 for detailed info...

Page 36: ... REV indicator is off 1 Runs at the opposite direction the inverter runs in the reverse direction FWD REV indicator is on Modify the function code to shift the rotation direction of the motor This effect equals to the shifting the rotation direction by adjusting either two of the motor lines U V and W In keypad control the motor rotation direction can be changed by QUICK JOG on the keypad Refer to...

Page 37: ...trol accuracy is needed 2 Static autotuning 1 It is suitable in the cases when the motor can not de couple from the load 3 Static autotuning 2 It is suitable in the cases when the motor can not de couple form the load But only for parts of parameters 0 P00 16 AVR function selection 0 Invalid 1 Valid during the whole procedure The auto adjusting function of the inverter can cancel the impact on the...

Page 38: ...formation Setting range 0 00 50 00Hz 0 50 Hz P01 02 Retention time of the starting frequency Set a proper starting frequency to increase the torque of the inverter during starting During the retention time of the starting frequency the output frequency of the inverter is the starting frequency And then the inverter will run from the starting frequency to the set frequency If the set frequency is l...

Page 39: ... inverter stops 1 Coast to stop After the stop command becomes valid the inverter ceases the output immediately And the load coasts to stop at the mechanical inertia 0 P01 09 Starting frequency of DC braking Starting frequency of DC braking start the DC braking when running frequency reaches starting frequency determined by P1 09 Waiting time before DC braking Inverters block the output before sta...

Page 40: ...rotation Set the threshold point of the inverter 0 Switch after 0 frequency 1 Switch after the starting frequency 2 Switch after the speed reach P01 15 and delay for P01 24 0 P01 15 Stopping speed 0 00 100 00Hz 0 50 Hz P01 16 Detection of stopping speed 0 Detect according to speed setting no stopping delay 1 Detect according to speed feedback only valid for vector control 1 P01 17 Detection time o...

Page 41: ...tion code determines the running state of the inverter when the set frequency is lower than the lower limit one 0 Run at the lower limit frequency 1 Stop 2 Hibernation The inverter will coast to stop when the set frequency is lower than the lower limit one If the set frequency is above the lower limit one again and it lasts for the time set by P01 20 the inverter will come back to the running stat...

Page 42: ...e 0 0 60 0s 0 0 s P01 24 Delay time of the stop speed Setting range 0 0 100 0 s 0 0 s P01 25 0 Hz output selection 0 Output without voltage 1 Output with voltage 2 Output at the DC braking current 0 P02 Group Motor 1 P02 01 Rated power of motor 1 0 1 500 0kW Depends on model P02 02 Rated frequency of motor 1 0 01Hz P00 03 the Max frequency 50 00 Hz P02 03 Rated speed of motor 1 1 36000rpm Depends ...

Page 43: ...ue during low speed running 2 P02 27 Motor 1 over load protection coefficient Times of motor overload M Iout In K In is the rated current of the motor Iout is the output current of the inverter and K is the motor protection coefficient So the bigger the value of K is the smaller the value of M is When M 116 the fault will be reported after 1 hour when M 200 the fault will be reported after 1 minut...

Page 44: ...00Hz P03 05 The setting range of P03 03 0 200 0 The setting range of P03 04 0 000 10 000s The setting range of P03 05 P03 02 P00 03 the Max output frequency 5 00Hz P03 03 Speed loop proportional gain 2 20 0 P03 04 Speed loop integral time 2 0 200s P03 05 High switching frequency 10 00Hz P03 06 Speed loop output filter 0 8 corresponds to 0 28 10ms 0 P03 07 Compensation coefficient of vector control...

Page 45: ...ference filter time 0 000 10 000s 0 010 s P03 14 Setting source of forward rotation upper limit frequency in torque control 0 Keypad P03 16 sets P03 14 P03 17 sets P03 15 1 AI1 Inverters 15kW can be set by the digital potentiometer on the keypad and AI1 setting is not available for the devices 18 5kW 2 AI2 3 AI3 4 Pulse frequency HDI setting upper limit frequency 5 Multi step setting upper limit f...

Page 46: ...g torque upper limit keypad setting 180 0 P03 22 Weakening coefficient in constant power zone The usage of motor in weakening control Function code P03 22 and P03 23 are effective at constant power The motor will enter into the weakening state when the motor runs at rated speed Change the weakening curve by modifying the weakening control coefficient The bigger the weakening control coefficient is...

Page 47: ...fine the V F curve of CV50 motor 1 and meet the need of different loads 0 Straight line V F curve applying to the constant torque load 1 Multi dots V F curve 2 1 3th power low torque V F curve 3 1 7th power low torque V F curve 4 2 0th power low torque V F curve Curves 2 4 apply to the torque loads such as fans and water pumps Users can adjust according to the features of the loads to achieve a be...

Page 48: ...cy point the torque boost is invalid The setting range of P04 01 0 0 automatic 0 1 10 0 The setting range of P04 02 0 0 50 0 0 0 P04 02 Motor 1 torque boost close 20 0 P04 03 V F frequency 1 of motor 1 When P04 00 1 the user can set V F curve through P04 03 P04 08 V F is generally set according to the load of the motor Note V1 V2 V3 f1 f2 f3 Too high low frequency voltage will heat the motor exces...

Page 49: ...tion control factor 10 P04 12 Motor 1 vibration control threshold 30 00 Hz P04 26 Energy saving operation selection 0 No action 1 Automatic energy saving operation Motor on the light load conditions automatically adjusts the output voltage to save energy 0 P04 27 Voltage setting channel Select the output setting channel at V F curve separation 0 Keypad setting voltage The output voltage is determi...

Page 50: ...input selection 0 HDI is high pulse input See P05 49 P05 54 1 HDI is switch input 0 P05 01 S1 terminal function selection 0 No function 1 Forward rotation 2 Reverse rotation 3 3 wire control 4 Forward jogging 5 Reverse jogging 6 Coast to stop 7 Fault reset 8 Operation pause 9 External fault input 10 Increasing frequency setting UP 11 Decreasing frequency setting DOWN 12 Cancel the frequency change...

Page 51: ... to the communication 39 Pre exciting command 40 Clear the power 41 Keep the power 61 PID pole switching 0 P05 08 S8 terminal function selection 0 P05 09 HDI terminal function selection 0 P05 10 Polarity selection of the input terminals The function code is used to set the polarity of the input terminals Set the bit to 0 the input terminal is anode Set the bit to 1 the input terminal is cathode BI...

Page 52: ...K1 K2 Running command FWD REV OFF OFF OFF OFF ON ON ON ON Stopping Hold on Forward running Reverse running 1 2 wire control 2 Separate the enable from the direction FWD defined by this mode is the enabling ones The direction depends on the state of the defined REV 2 3 wire control 1 SIn is the enabling terminal on this mode and the running command is caused by FWD and the direction is controlled b...

Page 53: ...es even the control terminal FWD REV keeps valid the inverter won t work when the stopping command is canceled Only when FWD REV is relaunched the inverter can start again For example the valid STOP RST stop when PLC signal cycles stop fixed length stop and terminal control see P07 04 P05 14 S1 terminal switching on delay time The function code defines the corresponding delay time of electrical le...

Page 54: ...al switching on delay time 0 000 s P05 27 S7 terminal switching off delay time 0 000 s P05 28 S8 terminal switching on delay time 0 000 s P05 29 S8 terminal switching off delay time 0 000 s P05 30 HDI terminal switching on delay time 0 000 s P05 31 HDI terminal switching off delay time 0 000 s P05 32 Lower limit of AI1 Inverters 15kW can be set by the digital potentiometer on the keypad andAI1 set...

Page 55: ...he setting range of P05 39 P05 37 10 00V The setting range of P05 40 100 0 100 0 The setting range of P05 41 0 000s 10 000s The setting range of P05 42 10 00V P05 44 The setting range of P05 43 100 0 100 0 The setting range of P05 44 P05 42 P05 46 The setting range of P05 45 100 0 100 0 The setting range of P05 46 P05 44 10 00V The setting range of P05 47 100 0 100 0 The setting range of P05 48 0 ...

Page 56: ...s 50 0kHz See P06 27 P06 31 for detailed information of the related functions 1 Open collector pole output See P06 02 for detailed information of the related functions 0 P06 01 Digital output selection Y1 0 Invalid 1 In operation 2 Forward rotation 3 Reverse rotation 4 Jogging 5 Inverter fault 6 Frequency degree test FDT1 7 Frequency degree test FDT2 8 Frequency arrival 9 Zero speed running 10 Upp...

Page 57: ... off The setting range 0 000 50 000s Note P06 08 and P06 09 are valid only when P06 00 1 0 000 s P06 07 Y1 switching off delay time 0 000 s P06 08 HDO switching on delay time 0 000 s P06 09 HDO switching off delay time 0 000 s P06 10 RO1 switching on delay time 0 000 s P06 11 RO1 switching off delay time 0 000 s P06 12 RO2 switching on delay time 0 000 s P06 13 RO2 switching off delay time 0 000 s...

Page 58: ...etting range of P06 19 P06 17 100 0 Setting range of P06 20 0 00V 10 00V Setting range of P06 21 0 000s 10 000s Setting range of P06 22 0 0 P06 24 Setting range of P06 23 0 00V 10 00V Setting range of P06 24 P06 22 100 0 Setting range of P06 25 0 00V 10 00V Setting range of P06 26 0 000s 10 000s Setting range of P06 27 0 000s 10 000s Setting range of P06 28 0 00 50 00kHz Setting range of P06 29 P0...

Page 59: ...eration 1 Upload the local function parameter to the keypad 2 Download the keypad function parameter to the inverter including all the motor parameters 3 Download the keypad function parameter to the inverter excluding the motor parameter of P02 group 4 Download the keypad function parameters to the inverter only for the motor parameter of P02 group Note After completing the 1 4 operation the para...

Page 60: ...alid for keypad and communication control 3 Valid for all control modes 0 P07 05 Displayed parameters 1 of running state 0x0000 0xFFFF BIT0 running frequency Hz on BIT1 set frequency Hz flickering BIT2 bus voltage Hz on BIT3 output voltage V on BIT4 output current A on BIT5 running rotation speed rpm on BIT6 output power on BIT7 output torque on BIT8 PID reference flickering BIT9 PID feedback valu...

Page 61: ...4 upper limit frequency Hz on 0x00FF P07 08 Frequency display coefficient 0 01 10 00 Displayed frequency running frequency P07 08 1 00 P07 09 Rotation speed display coefficient 0 1 999 9 Mechanical rotation speed 120 displayed running frequency P07 09 motor pole pairs 100 0 P07 10 Linear speed display coefficient 0 1 999 9 Linear speed Mechanical rotation speed P07 10 1 0 P07 11 Rectifier bridge m...

Page 62: ...on 6 OC3 Over current when constant speed running 7 OV1 Over voltage when acceleration 8 OV2 Over voltage when deceleration 9 OV3 Over voltage when constant speed running 10 UV DC bus under voltage 11 OL1 Motor overload 12 OL2 Inverter overload 13 SPI Input side phase loss 14 SPO Output side phase loss 15 OH1 Overheat of the rectifier module 16 OH2 Overheat fault of the inverter module 17 EF Exter...

Page 63: ...e at the current fault 0 V P07 36 Output current at current fault 0 0 A P07 37 Bus voltage at current fault 0 0 V P07 38 Max temperature at current fault 0 0 ºC P07 39 Input terminals state at current fault 0 P07 40 Output terminals state at current fault 0 P07 41 Running frequency at previous fault 0 00 Hz P07 42 Ramp reference frequency at previous fault 0 00 Hz P07 43 Output voltage at previous...

Page 64: ...definition CV50 inverters define four groups of ACC DEC time which can be selected by P5 group The first group of ACC DEC time is the factory default one Setting range 0 0 3600 0s Depends on model P08 01 DEC time 2 Depends on model P08 02 ACC time 3 Depends on model P08 03 DEC time 3 Depends on model P08 04 ACC time 4 Depends on model P08 05 DEC time 4 Depends on model P08 06 Jogging running frequ...

Page 65: ...chemical fiber The traverse function means that the output frequency of the inverter is fluctuated with the set frequency as its center The route of the running frequency is illustrated as below of which the traverse is set by P08 15 and when P08 15 is set as 0 the traverse is 0 with no function Traverse range The traverse running is limited by upper and low frequency The traverse range relative t...

Page 66: ...running time achieves the set time the multi function digital output terminals will output the signal of running time arrival Setting range 0 65535 min 0 m P08 28 Fault Auto reset attempts Number of fault auto reset attempts set the fault reset attempts by selecting this function If the reset attempts exceed this set value the inverter will stop for the fault and wait to be repaired The interval t...

Page 67: ...FDT2 electrical level 50 00 Hz P08 35 FDT2 retention detection value 5 0 P08 36 Frequency arrival detection value When the output frequency is among the below or above range of the set frequency the multi function digital output terminal will output the signal of frequency arrival see the diagram below for detailed information The setting range 0 00Hz P00 03 the Max frequency 0 00 Hz P08 37 Energy...

Page 68: ...8 40 PWM selection 0x00 0x21 LED ones PWM mode selection 0 PWM mode 1 three phase modulation and two phase modulation 1 PWM mode 2 three phase modulation LED tens low speed carrier frequency limit mode 0 Low speed carrier frequency limit mode 1 the carrier frequency will limit to 2kHz if it exceeds 2kHz at low speed 1 Low speed carrier frequency limit mode 2 the carrier frequency will limit to 4kH...

Page 69: ...op 0 Setting valid 1 Valid in the running clear after stop 2 Valid in the running clear after receiving the stop commands 0x000 P08 45 UP terminal frequency changing ratio 0 01 50 00 Hz s 0 50 Hz s P08 46 DOWN terminal frequency changing ratio 0 01 50 00 Hz s 0 50 Hz s P08 47 Action selection for frequency settings on power off 0x000 0x111 LED ones Action for digital adjustable frequency on power ...

Page 70: ...selection P04 27 is 6 the running mode of the inverter is procedure PID control The parameter determines the channel used as the reference during the PID procedure 0 Keypad digital reference P09 01 1 Analog channel AI1 reference Inverters 15 kW can be set by the digital potentiometer on the keypad and AI1 setting is not available for the devices 18 5 kW 2 Analog channel AI2 reference 3 Analog chan...

Page 71: ... 00 1 00 P09 05 Integral time Ti This parameter determines the speed of PID adjustor to carry out integral adjustment on the deviation of PID feedback and reference When the deviation of PID feedback and reference is 100 the integral adjustor works continuously after the time ignoring the proportional effect and differential effect to achieve the Max Frequency P00 03 or the Max Voltage P04 31 Shor...

Page 72: ...tting range of P09 12 0 0 3600 0s 0 0 P09 12 Feedback offline detection time 1 0 s P09 13 PID adjustment selection 0x0000 0x1111 LED ones 0 Keep on integral adjustment when the frequency achieves the upper and low limit the integration shows the change between the reference and the feedback unless it reaches the internal integral limit When the trend between the reference and the feedback changes ...

Page 73: ...nverter will keep on running until receiving a stop command and then the system will stop 0 P10 01 Simple PLC memory selection 0 Power loss without memory 1 Power loss memory PLC record the running stage and frequency when power loss 0 P10 02 Multi step speed 0 100 0 of the frequency setting corresponds to the Max frequency P00 03 When selecting simple PLC running set P10 02 P10 33 to define the r...

Page 74: ...N OFF ON OFF ON S2 OFF OFF ON ON OFF OFF ON ON S3 OFF OFF OFF OFF ON ON ON ON S4 ON ON ON ON ON ON ON ON Step 8 9 10 11 12 13 14 15 Setting range of P10 2n 1 n 17 100 0 100 0 Setting range of P10 2n 1 1 n 17 0 0 6553 5 s min P10 12 Multi step speed 5 0 0 P10 13 Running time of stage 5 0 0 s P10 14 Multi step speed 6 0 0 P10 15 Running time of stage 6 0 0 s P10 16 Multi step speed 7 0 0 P10 17 Runn...

Page 75: ...Setting range 0x0000 0xFFFF 0x0000 P10 35 Simple PLC 8 15 stage ACC DEC time selection 0x0000 P10 36 PLC restart mode 0 Restart from the first stage Stop during running cause by the stop command fault or power loss run from the first stage after restart 1 Continue to run from the stop frequency stop during running cause by stop command or fault the inverter will record the running time automatical...

Page 76: ...to enable this function 10 00 Hz s P11 03 Overvoltage stall protection 0 Disable 1 Enable 1 P11 04 Protection voltage at overvoltage stall 120 150 of the standard bus voltage 136 P11 05 Current limit action selection The actual increasing ratio is less than the ratio of output frequency because of the big load during ACC running It is necessary to take measures to avoid overcurrent fault and the i...

Page 77: ...motor Setting range 0x000 0x131 LED ones 0 Overload pre alarm of the motor comply with the rated current of the motor 1 Overload pre alarm of the inverter comply with the rated current of the inverter LED tens 0 The inverter continues to work after underload pre alarm 1 The inverter continues to work after underload pre alarm and the inverter stops running after overload fault 2 The inverter conti...

Page 78: ... disabled 1 Step 2 ACC DEC time option enable when running frequency more than P08 36 ACC DEC time switch to step 2 ACC DEC time 00 P13 Group Control parameters of Short circuit braking P13 13 Braking current of short circuit When P01 00 0 during the starting of the inverter set P13 14 to a non zero value to enter the short circuit braking When the running frequency is lower than P01 09 during the...

Page 79: ... RTU 1 Even check E 8 1 for RTU 2 Odd check O 8 1 for RTU 3 No check N 8 2 for RTU 4 Even check E 8 2 for RTU 5 Odd check O 8 2 for RTU 6 No check N 7 1 for ASCII 7 Even check E 7 1 for ASCII 8 Odd check O 7 1 for ASCII 9 No check N 7 2 for ASCII 10 Even check E 7 2 for ASCII 11 Odd check O 7 2 for ASCII 12 No check N 8 1 for ASCII 13 Even check E 8 1 for ASCII 14 Odd check O 8 1 for ASCII 15 No c...

Page 80: ... only responds to the reading command other than the writing command of the drive The communication efficiency can be increased by this method LED tens 0 Communication encrypting valid 1 Communication encrypting invalid 0x00 P17 Group Monitoring function P17 00 Sett frequency Display current set frequency of the inverter Range 0 00Hz P00 03 0 00 Hz P17 01 Output frequency Display current output fr...

Page 81: ...play the current length of the inverter Range 0 65535 0 P17 18 Counting value Display the current counting number of the inverter Range 0 65535 0 P17 19 AI1 input voltage Inverters 15 kW can be set by the digital potentiometer on the keypad and AI1 setting is not available for the device which is 18 5 kW Display analog AI1 input signal Range 0 00 10 00 V 0 00 V P17 20 AI2 input voltage Display ana...

Page 82: ... source 0 AI1 setting value Inverters 15 kW can be set by the digital potentiometer on the keypad and AI1 setting is not available for the devices 18 5 kW 1 AI2 setting value 2 AI3 setting value 3 HDI setting value 0 P24 02 Hibernation check 0 Hibernate as the setting frequency P24 03 1 Hibernate as the feedback pressure P24 04 0 P24 03 Starting frequency of the hibernation 0 00 P0 03 the Max freq...

Page 83: ...f auxiliary motor 1 system of water supply P24 10 is used to select the valid auxiliary motor 0 No auxiliary motor 1 Auxiliary motor 1 valid 2 Auxiliary motor 2 valid 3 Auxiliary motor 1 and 2 valid Setting range of P24 10 0 0 3600 0 s Setting range of P24 11 0 0 3600 0 s 5 0 s P24 12 Start stop delay time of auxiliary motor 2 5 0 s ...

Page 84: ...84 144 Function Parameters ...

Page 85: ... check according to the installation list in chapter two Original powering operation Check to ensure there is no mistake in wiring and power supply Switch on the circuit breaker of the AC power supply on the input side of the inverter to power on the inverter 8 8 8 8 8 will be displayed on the keypad Check also if the contactor closes normally When the characters on the display change to the set f...

Page 86: ...mand to keypad Multi function terminal 37 Shifting the command to terminal Multi function terminal 38 Shifting the command to communication Keypad running command channel Terminal running command channel Communication running command channel Terminal running command channel Keypad running command channel Communication running command channel Commun running command channel Keypad running command ch...

Page 87: ...ving asynchronous motors Because the core calculation of vector control is based on exact motor parameter models the accuracy of motor parameter will impact on the performance of vector control It is recommended to input the motor parameters and carry out autotune before vector running Because the vector control calculation is very complicated high technical theory is needed for the user during in...

Page 88: ...hock Do not carry out the rotation autotune if the motor is coupled with the load please do not operate on the rotation autotune Otherwise misaction or damage may occur to the inverter or the mechanical devices When carry out autotune on the motor which is coupled with load the motor parameter won t be counted correctly and misaction may occur It is proper to de couple the motor from the load duri...

Page 89: ...utotune 2 CV50 inverters can calculate the parameters from P02 06 to P02 08 It is suitable in the cases which SVPWM control is applied 7 6 Start up and stop control The start up and stop control of the inverter includes three states start after the running command during normal powering on start after the restarting function becomes valid during normal powering on and start after the automatic fau...

Page 90: ...rry out mutual simple math calculation between each other And the reference channels can be shifted dynamically through set multi function terminals There are three assistant reference channels keypad UP DOWN input terminals UP DOWN switch input and digital potentiometer input The three ways equal to the effect of input UP DOWN reference in internal assistant reference of the inverter The user can...

Page 91: ...ulti function terminal 14 Shifting from combination setting to A channel Multi function terminal 15 Shifting from combination setting to B channel A B B A A B A B A B A B Max A B A B Min A B A B Note means the multi function terminal is invalid under the current reference channel When select multi function terminal UP 10 and DOWN 11 to set the internal assistant frequency P08 45 and P08 46 can be ...

Page 92: ...erter can realize this function by itself CV50 inverters can control 16 step speed with 4 groups of ACC DEC time The multi function digital output terminals or multi function relay outputs provoques an ON signal when the set PLC finishes a circle or a step 7 9 Multi step speed running Set the parameters when the inverter carries out multi step speed running CV50 inverters can set 16 speed stages w...

Page 93: ... 02 ACC time 3 P08 03 DEC time 3 P08 04 ACC time 4 P08 15 DEC time 4 00 01 10 11 BIT0 BIT1 BIT2 BIT3 BIT4 BIT5 BIT6 BIT7 BIT8 BIT9 BIT10 BIT11 BIT12 BIT13 BIT14 BIT15 P00 10 ACC time 1 P00 12 DEC time 1 P08 00 ACC time 2 P08 01 DEC time 2 P08 02 ACC time 3 P08 03 DEC time 3 P08 04 ACC time 4 P08 15 DEC time 4 00 01 10 11 The ACC DEC time selection of Stage 8 15 of PLC Multi stage speed output Runn...

Page 94: ...set the integration time to 150 180 of the current value Then integration time commission is finished c Ensure the derivation time Generally it is not necessary to set Td Usually the value is 0 If it needs to be set set it to 30 of the value without vibration via the same method than with P and Ti d Commission the system with and without load and then adjust the PID parameters until it is availabl...

Page 95: ... 0 00 it means no derivation control is useless to control the vibration so the solution is to decrease the gain 7 11 Pulse counter CV50 inverters support pulse counter which can input counting pulse through HDI terminal Usually this pulse counter is used to count length When the actual length is longer than or equal to the set length the digital output terminal can output length arrival pulse sig...

Page 96: ...ata when the latest 3 faults occur 8 5 Fault instruction and solution Do as the following after the inverter fault 1 Check to ensure there is nothing wrong with the keypad If not please contact with SALICRU 2 If there is nothing wrong please check P07 and ensure the corresponding recorded fault parameters to confirm the real state when the current fault occurs by all parameters 3 See the following...

Page 97: ...t power of the supply line Check the setting of relative function codes OL1 Motor overload The voltage of the power supply is too low The motor setting rated current is incorrect The motor stall or load transients are too strong Check the power of the supply line Reset the rated current of the motor Check the load and adjust the torque lift OL2 Inverter overload The acceleration is too fast Reset ...

Page 98: ...he write and read of the parameters Damage to EEPROM Press STOP RST to reset Change the main control panel PIDE PID feedback fault PID feedback offline PID feedback source disappear Check the PID feedback signal Check the PID feedback source bCE Braking unit fault Braking circuit fault or damage to the braking unit The external braking resistor is not enough Check the braking unit Select proper br...

Page 99: ...ng fault The connection of the keypad wire is not good or broken The keypad wire is too long and affected by strong interference There is a mistake on the data storage of the keypad Check the keypad wire and ensure whether there is mistake Change the hardware Repack up the data in the keypad LL Electronic underload fault The inverter will report the underload pre alarm according to the set value C...

Page 100: ...eed Check If UVW is short circuited to to the earth and the configuration of the output side is right or not Settle the short circuit and confabulate rightly Shorten the ACC DEC time Check the load and adjust If the it is the inverter fault please contact with the company Check if the ACC DEC time can be shortened Check if it needs to use the options Add braking optionds Adjust the braking options...

Page 101: ...Fault Tracking 101 144 8 6 4 Undervoltage fault 8 6 5 Abnormal motor heat ...

Page 102: ...102 144 Fault Tracking 8 6 6 Inverter overheating 8 6 7 Stall during the acceleration of the motor ...

Page 103: ...equipment go down the same trough If they do the signal or communication cables must be separed from the power wiring 3 If the sensitive equipment and the inverter take the power from the same grid it is recommended to install isolation transformer and filter in the power input of the sensitive equipment 4 Proceed as following with the ground connection of the shielded cable of the sensitive equip...

Page 104: ...ination Conforming to the manual Main circuit For public use Ensure the screws are tightened up Tighten up NA Ensure there is no distortion cracking damage or color changing caused by overheating and aging to the machine and insulator Visual examination NA Ensure there is no dust and dirtiness Visual examination NA Note if the color of the copper blocks change it does not mean that there is someth...

Page 105: ...Ensure there is no weeping and distortion to the capacitors Visual examination or estimate the usage time according to the maintenance information NA Cooling system Cooling fan Estimate whether there is abnormal noise and vibration Hearing and Visual examination or rotate with hand Stable rotation Estimate there is no losses screw Tighten up NA Ensure there is no color changing caused by overheati...

Page 106: ... if the inverter has been stored for a long time The storing time is counted from the producing date other than the delivery data which has been marked in the serial number of the inverter Time Operational principle Storing time less than 1 year Operation without charging Storing time 1 2 years Connect with the power for 1 hour before first ON command Storing time 2 3 years Use power surge to char...

Page 107: ...ring charging 400V charging illustration of the driven device 8 8 3 2 Change electrolytic capacitors Read and follow the instructions in chapter Safety Precautions Ignoring the instructions may cause physical injury or death or damage to the equipment Change electrolytic capacitors if the working hours of electrolytic capacitors in the inverter are above 35000 Please contact with SALICRU for detai...

Page 108: ...rolling or inquiring message command from the master response After the master sends message there is a period of time left for the controlled or inquired slaves to response which ensure there is only one slave that sends message to the master at a time for the avoidance of single impacts Generally the user can set PC PLC IPC and HMI as the masters to realize central control Setting certain device...

Page 109: ... BIT5 BIT6 BIT7 Check bit End bit In one character frame the digital bit takes effect The start bit check bit and end bit is used to send the digital bit right to the other device The digital bit even odd checkout and end bit should be set as the same in real application The MODBUS minimum idle time between frames should be no less than 3 5 bytes The network device is detecting even during the int...

Page 110: ...his method is used to stabilize the parity of the data For example when transmitting 11001110 there are five 1 in the data If the even checkout is applied the even check bit is 1 if the odd checkout is applied the odd check bit is 0 The even and odd check bit is calculated on the check bit position of the frame And the receiving devices also carry out even and odd checkout If the parity of the rec...

Page 111: ...ta number 02H CRC low bit 85H CRC high bit CAH END T1 T2 T3 T4 transmission time of 3 5 bytes T1 T2 T3 T4 between START and END is to provide at least the time of 3 5 bytes as the leisure time and distinguish two messages for the avoidance of taking two messages as one message ADDR 01H means the command message is sent to the inverter with the address of 01H and ADDR occupies one byte CMD 03H mean...

Page 112: ...he master write data to the inverter and one command can write one data other than multiple dates The effect is to change the working mode of the inverter For example write 5000 1388H to 0004H from the inverter with the address of 02H the frame structure is as below RTU master command message from the master to the inverter START T1 T2 T3 T4 transmission time of 3 5 bytes ADDR 02H CMD 06H High bit...

Page 113: ...1 T2 T3 T4 transmission time of 3 5 bytes 9 4 1 4 Command code 10H continuous writing Command code 10H means that if the master writes data to the inverter the data number depends on the data number in the command code The Max continuous reading number is 16 For example write 5000 1388H to 0004H of the inverter whose slave address is 02H and 50 0032H to 0005H the frame structure is as below The RT...

Page 114: ...rter ASCII slave response message the message sent from the inverter to the master START START ADDR 0 ADDR 0 1 1 CMD 0 CMD 0 3 3 High bit of starting address 0 Byte number 0 0 4 Low bit of starting address 0 High bit of data address 0004H 1 4 3 High bit of data number 0 Low bit of data address 0004H 8 0 8 Low bit of data number 0 High bit of data address 0005H 0 2 0 LRC CHK Hi F Low bit of data ad...

Page 115: ...at is listed as below ASCII master command message the command sent by the master to the inverter ASCII slave response message the message sent by the inverter to the master START START ADDR 0 ADDR 0 1 1 CMD 0 CMD 0 8 8 High bit of write data address 0 High bit of write data address 0 0 0 Low bit of write data address 0 Low bit of write data address 0 0 0 High bit of data content 1 High bit of dat...

Page 116: ...n of data address The address definition of the communication data in this part is to control the running of the inverter and get the state information and relative function parameters of the inverter 9 5 1 The rules of parameter address of the function codes The parameter address occupies 2 bytes with the fact that the high bit is in the front and the low bit is in the behind The range of high an...

Page 117: ...BUS The master can operate on the parameters of the inverter as well as control the inverter such as running or stopping and monitoring the working state of the inverter Below is the parameter list of other functions Function instruction Address definition Data meaning instruction R W characteristics Communication control command 2000H 0001H forward running W R 0002H reverse running 0003H forward ...

Page 118: ...to the 100 0 of the rated voltage of the motor W R 200DH AO output setting 1 1000 1000 1000 corresponds to 100 0 W R 200EH AO output setting 2 1000 1000 1000 corresponds to 100 0 W R SW 1 of the inverter 2100H 0001H forward running R 0002H forward running 0003H stop 0004H fault 0005H POFF state SW 2 of the inverter 2101H Bit0 0 bus voltage is not established 1 bus voltage is established Bi1 2 00 m...

Page 119: ...haracteristics For example communication control command is writing characteristic and control the inverter with writing command 06H R characteristic can only read other than write and W characteristic can only write other than read Note when operate on the inverter with the table above it is necessary to enable some parameters For example the operation of running and stopping it is necessary to s...

Page 120: ...meter data is 0032H 50 and 50 divided by 10 is 5 then the hibernation restore delay time is 5s 9 5 4 Fault message response There may be fault in the communication control For example some parameter can only be read If a writing message is sent the inverter will return a fault response message The fault message is from the inverter to the master its code and meaning is as below Code Name Meaning 0...

Page 121: ... will be following function codes 0 0 0 0 0 0 1 1 Hex 03H For normal responses the slave responds the same codes while for objection responses it will return 1 0 0 0 0 0 1 1 Hex 83H Besides the function codes modification for the objection fault the slave will respond a byte of abnormal code which defines the error reason When the master receives the response for the objection in a typical process...

Page 122: ...e 1 the inverter stops 9 6 2 Example of writing command 06H Example 1 make the inverter with the address of 03H to run forward See table 1 the address of communication control command is 2000H and forward running is 0001 See the table below RTU mode The command sent by the master If the operation is successful the response may be as below the same with the command sent by the master ASCII mode The...

Page 123: ...sage is as below 9 6 3 Example of continous writing command 10H Example 1 make the inverter whose address is 01H run forward at 10Hz Refer to the instruction of 2000H and 0001 Set the address of communication setting frequency is 2001H and 10Hz corresponds to 03E8H See the table below Function instruction Address definition Data meaning instruction R W characteristics Communication control command...

Page 124: ... 0 3600 0s Depends on model P00 12 DEC time 1 Depends on model The corresponding address of P00 11 is 000B the ACC time of 10s corresponds to 0064H and the DEC time of 20s corresponds to 00C8H RTU mode The command sent to the inverter If the response message is as below ASCII mode The command sent to the inverter If the response message is as below Note the blank in the above command is for illust...

Page 125: ...gs apply at ambient temperature of 40 C 3 It is important to check that in Common DC systems the power flowing through the common DC connection does not exceed PN A 2 2 Derating The load capacity decreases if the installation site ambient temperature exceeds 40 C the altitude exceeds 1000 meters or the switching frequency is changed from 4 kHz to 8 12 or 15 kHz A 2 2 1 Temperature derating In the ...

Page 126: ...tor cable length is determined by the drive s operational factors A 5 Applicable standards The inverter complies with the following standards EN ISO 13849 1 2008 Safety of machinery safety related parts of control systems Part 1 general principles for design IEC EN 60204 1 2006 Safety of machinery Electrical equipment of machines Part 1 General requirements IEC EN 62061 2005 Safety of machinery Fu...

Page 127: ... 400A and used in the complicated system in second environment A 6 1 Category C2 The emission limits are complied with the following provisions 1 The optional EMC filter is selected according to the options and installed as specified in the EMC filter manual 2 The motor and control cables are selected as specified in this manual 3 The drive is installed according to the instructions reference in t...

Page 128: ...y M3 screws directly or can be mounted with the installation bracket The installation bracket for inverters of 0 75 30kW is optional and for inverters of 37 500kW is already inside it can be removed or is possible to mount an optional type too The maximum length of the cable is 200 meters and it must be cross type Ethernet cable with RJ 45 terminals the more usual net cable Optional Installation b...

Page 129: ...Dimension Drawings Appendix B 129 144 B 3 Inverter chart B 3 1 Wall mounting 0 75 15kW wall mounting 18 5 30kW wall mounting 37 110kW wall mounting 132 200kW wall mounting ...

Page 130: ...kW 126 115 186 175 174 5 5 4kW 5 5kW 146 131 256 243 5 181 6 7 5kW 15kW 170 151 320 303 5 216 6 18 5kW 230 210 342 311 216 6 22kW 30kW 255 237 407 384 245 7 37kW 55kW 270 130 555 540 325 7 75kW 110kW 325 200 680 661 365 9 5 132kW 200kW 500 180 870 850 360 11 220kW 315kW 680 230 960 926 379 5 13 B 3 2 Flange mounting 0 75 15kW flange mounting ...

Page 131: ...Dimension Drawings Appendix B 131 144 18 5 30kW flange mounting 37 110kW flange mounting 132 200kW flange mounting ...

Page 132: ...3 113 6 18 5kW 250 210 234 12 375 356 334 10 216 108 6 22kW 30kW 275 237 259 11 445 426 404 10 245 119 7 37kW 55kW 270 130 261 65 5 555 540 516 17 325 167 7 75kW 110kW 325 200 317 58 5 680 661 626 23 363 182 9 5 132kW 200kW 500 180 480 60 870 850 796 37 358 178 5 11 B 3 3 Floor mounting 220 315kW floor mounting 350 500kW floor mounting Model W1 W2 W3 W4 H1 H2 D1 D2 Installation hole 220kW 315kW 75...

Page 133: ...er Earth leakage protection Prevent from electric shock and protect the power supply and the cables system from overcurrent when short circuits occur Please select an additional earth leakage protection with the function of reducing high order harmonic and with the rated sensitive current above 30mA Input reactor These devices are used to improve the power factor of the input side of the inverter ...

Page 134: ...east 70 C maximum permissible temperature of the conductor in continuous use The conductivity of the PE conductor must be equal to that of the phase conductor same cross sectional area Refer to chapter Technical Data for the EMC requirements A symmetrical shielded motor cable see the figure below must be used to meet the EMC requirements of the CE A four conductor system is allowed for input cabli...

Page 135: ...ut down the testing voltage automatically Note Check the insulation of the input power cables according to local regulations before connecting the cables The inverter Recommended cable size mm2 Screw R S T U V W PE P1 PB Terminal screw size Tightening torque Nm CV50 008 4F 2 5 2 5 2 5 2 5 M4 1 2 1 5 CV50 015 4F 2 5 2 5 2 5 2 5 M4 1 2 1 5 CV50 022 4F 2 5 2 5 2 5 2 5 M4 1 2 1 5 CV50 040 4F 2 5 2 5 2...

Page 136: ...etween each phase conductor and the Protective Earth conductor using a measuring voltage of 500 Vdc For the insulation resistance of other motors please consult the manufacturer s instructions Note Moisture inside the motor casing will reduce the insulation resistance If moisture is suspected dry the motor and repeat the measurement C 5 Breaker electromagnetic contactor and leakage protection swit...

Page 137: ...0 4F 400 400 CV50 1850 4F 500 500 CV50 2000 4F 500 500 CV50 2200 4F 630 500 CV50 2500 4F 630 630 CV50 2800 4F 700 630 CV50 3150 4F 800 780 CV50 3500 4F 800 780 CV50 4000 4F 1000 780 CV50 5000 4F 1200 980 C 6 Input Reactors Transient high current in the input power circuit may cause damage to the rectifying components It is appropriate to use AC reactor in the input side for the avoidance of high v...

Page 138: ...lowed to wire Damage to the inverter or braking options and part may occur Read carefully the instructions of braking resistors or units before connecting them with the inverter Do not connect the braking resistor with other terminals except for PB and Do not connect the braking unit with other terminals except for and Damage to the inverter or braking circuit or fire may occur Connect the braking...

Page 139: ... 2 8 28 139 222 CV50 2000 4F 2 5 30 150 240 CV50 2200 4F BRAKE U CV50 2500 4 2 2 33 165 264 1 8 CV50 2500 4F 2 0 38 188 300 CV50 2800 4F Two BRAKE U CV50 2000 4 3 6 2 21 2 105 2 168 2 2 2 2 CV50 3150 4F 3 2 2 24 2 118 2 189 2 CV50 3500 4F 2 8 2 27 2 132 2 210 2 CV50 4000 4F 2 4 2 30 2 150 2 240 2 CV50 5000 4F Two BRAKE U CV50 2500 4 2 2 38 2 186 2 300 2 1 8 2 Never use a brake resistor with a resi...

Page 140: ... the terminals of the braking units should be no more than 5m and the distributing length among the braking resistor terminals and DBU terminals should be no more than 10m Signal installation is as below C 10 Other optional parts No Optional part Instruction Picture 1 Flange installation bracket Needed for the flange installation of 1 5 30kW inverters Not needed for the flange installation of 37 2...

Page 141: ...1 5 30kW inverters and as standard for 37 500kW inverters 4 Side cover Protect the internal circuit in serious environment Derate when selecting the cover Please contact SALICRU for detailed information 5 LCD Keypad Support several languages parameters copy high definition display and the installation dimension is compatible with the LED keypad 6 LED keypad 0 75 15kW inverter optional ...

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Page 144: ...rvices salicru com SALICRU COM The Technical Service and Support T S S network Commercial network and warranty information are available in website www salicru com Product Range Uninterruptible Power Supplies UPS Lighting Flow Dimmer Stabilisers DC Power Systems Static Inverters Photovoltaic Inverters Voltage stabilisers ...

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