background image

User Manual   
EM303B General Purpose Inverter

 

 

Preface 

Thank you for purchasing EM303B series inverter. 

 

Document No.: 31010032 
Version No.:104 
Issue Date: 11/2015 
 

EM303B is a general purpose vector control inverter. An induction motor with  the  help  of 
EM303B  canpossess  fast  speed  response  and  torque  control  ability  as a DC motor  which 
makes the motion control system stable, precise,and quick.   
 
Main Features: 
1.

 

SVC  (Sensorless  vector  control):Torque  control  accuracy:  5%  rated  torque.  Speed 
control accuracy: ±0.2% rated synchronous speed.   

2.

 

VVF  (Vector  decoupling based VF  control):  The steady performanceis the same as that 
in SVC. 

3.

 

Wide  speed  regulation  range,  load  capacity  at  low  frequency:  SVC/0.5Hz/150%  rated 
load, VVF/1.0Hz/150% rated load. 

4.

 

Optimized  current  and  voltage  protection  algorithm  ensures  that  motor  can 
accelerate/deceleratein 0.1S. 

5.

 

AVR function makes output voltage stable at grid voltage fluctuation. 

6.

 

Load disturbance compensation ensures failure-free operation of motor. 

7.

 

Auto-searching  motor  speed  at  restart  smoothes  thestart  of  motor  without  current 
over-shoot. 

8.

 

2 acceleration/deceleration modes: linear and S curve. 

9.

 

The performance and stability are improved significantly with dual- CPU. 

 
It is the duty of any user to perform the appropriate, correct installation or configuration of 
the optional parameters of the devices. Neither SINEE nor its distributors shall be responsible 
or liable for misuse of the information contained herein or mismatching the inverter with the 
motor. 

 

In  the  interests  of  commitment  to  a  policy  of  continuous  development  and  improvement, 
SINEE reserves the right to update the specification of the product or its performance, or the 
content herein without notice. 
 

 

 

www.eleris.ru

www.eleris.ru

Summary of Contents for EM303B

Page 1: ...age protection algorithm ensures that motor can accelerate deceleratein 0 1S 5 AVR function makes output voltage stable at grid voltage fluctuation 6 Load disturbance compensation ensures failure free operation of motor 7 Auto searching motor speed at restart smoothes thestart of motor without current over shoot 8 2 acceleration deceleration modes linear and S curve 9 The performance and stability...

Page 2: ...TROL CIRCUIT TERMINALS 31 3 4 EXTENDING KEYPAD WIRE 39 3 5 WIRING CHECK 40 4KEYPAD OPERATION 41 4 1 TYPE AND FUNCTION OF KEYPAD 41 4 2 LED KEYPAD OPERATION MODE 42 5TRIAL OPERATION 49 5 1 TRIAL OPERATION PROCEDURES 49 5 2 TRIAL OPERATION PRECAUTIONS 50 6PARAMETER TABLE 52 6 1 FORMAT OF PARAMETER TABLES 52 6 2 PARAMETER TABLE 52 SECTION 1 GENERAL PARAMETERS 52 SECTION 2 ADVANCED PARAMETERS 66 7PARA...

Page 3: ... 9 1 FAULTS 164 REFERENCE OF LED CHARACTERS 166 9 2 FAULT ANALYSIS 167 10MAINTENANCE AND INSPECTION 170 10 1 MAINTENANCE AND INSPECTION 170 10 2 DAILY INSPECTION 170 10 3 PERIODIC MAINTENANCE 170 10 4 PERIODIC MAINTENANCE AND REPLACEMENT OF PARTS 171 10 5 OUTLINE OF WARRANTY 171 11ACCESSORIES 172 11 1 KEYPAD EXTENSION WIRE 172 11 2 REMOTE CONTROL CASE 172 11 3 BRAKING RESISTOR 173 11 4 BRAKING UNI...

Page 4: ...nt is missing or broken 2 Do not install the product if the label on the package is not identical to that on the inverter Danger 1 Be careful of carrying or transportation Risk of devices damage 2 Do not use damaged product or the inverters missing component Risk of injury 3 Do not touch the parts of control system with bare hands Risk of ESD hazard Installation Danger 1 Installation base shall be...

Page 5: ...sistor to DC bus terminal Risk of fire 4 Tighten terminals with screw drivers of specified torque Risk of fire 5 Do not connect phase shifting capacitor and LC RC noise filter to output circuits 6 Do not connect the solenoid switch and electromagnetic contactor to output circuits Otherwise it will trigger overcurrent protection or damage inverter 7 Do not disconnect internal wires of inverter Risk...

Page 6: ...is installed power can be turned on Never take off the front cover when power is on An electric shock may occur 2 Do not come close to the machine at power failure if fault reset function is active The inverter will restart automatically when power is on An injury may occur 3 Install an emergency switch for a quick brake in case of abnormal conditions STOP RESET is only enabled in keypad control m...

Page 7: ...mage 2 Do not control start stop of inverter by ON OFF of contactor Risk of device damage Maintenance Danger 1 Maintain and inspect devices after power is off Risk of electric hazard 2 Maintain and inspect inverter only after the voltage is lower than DC 36V between DC bus terminals and power is off for 5 minutes The residual charge on capacitor may cause personal injury 3 Maintenance and inspecti...

Page 8: ...3B 015G 018P 3B 15 18 5 34 41 EM303B 018G 022P 3 18 5 22 41 48 EM303B 022G 030P 3 22 30 48 60 EM303B 030G 037P 3 30 37 60 75 EM303B 037G 045P 3 37 45 75 90 EM303B 045G 055P 3 45 55 90 115 EM303B 055G 075P 3 55 75 115 150 EM303B 075G 090P 3 75 90 150 180 EM303B 090G 110P 3 90 110 180 220 EM303B 110G 132P 3 110 132 220 265 EM303B 132G 160P 3 132 160 265 310 EM303B 160G 185P 3 160 185 310 360 EM303B ...

Page 9: ...e frequency 0 1 60Hz brake time 0 30S brake current 0 150 rated current Signal Input Source Communication analog voltage analog current preset speed simple PLC and their combinations Special Function Control Textile Wobbulation Achieve textile wobbulation functions like wobbulation range time and jump Function of Input and Output Reference Power Supply 10V 20mA Terminal Control Power Supply 24V 15...

Page 10: ...modes of inverter refer to that the inverter controls motor rotation as per required speed and torque with open loop or close loop control mode The control modes include General open loop space vector control V F control Applicable to the applications of low speed changes and low speed stability accuracy demand and meet needs of most of AC motor drives SVC 0 Open loop vector control without PG fee...

Page 11: ...lation Running 2 Stepping mode0 3 Stepping mode1 4 Stepping mode2 5 Stepping mode3 6 Stepping mode4 0 Present Setting Value 1 VS Present Setting Value 2 VF Present Setting Value 3 IS Present Setting Value 4 IF Present Setting Value 0 Present Active Setting Value 1 VS Present Active Setting Value 2 VF Present Active Setting Value 3 IS Present Active Setting Value 4 IF Present Active Setting Value 0...

Page 12: ... control mode of inverter refers to the modes to start stop control of inverter There are 3 control modes keypad control mode terminal control mode and RS485 communication control mode Terminal control mode is categorized as 2 wire sequence and 3 wire sequence See Figure 1 3 for the control logic of terminal control mode 24V PLC RUN Xi COM F R K1 K2 Run Command K2 K1 0 0 0 1 1 0 1 1 Reverse Forwar...

Page 13: ...ase Mounting Hole Housing Middle Mounting Hole Figure1 4 EM303B Outlook The housing upper can be disassembled by following the arrow shown in Figure1 4 See Figure 1 5 for control circuit terminals and main circuit terminals Control Circuit Terminal Block Main Circuit Terminal Block Figure 1 5 Control Circuit Terminal Block and Main Circuit Terminal Block S V U W PB R T ...

Page 14: ...tributor or SINEE directly for quality issue Nameplate Model No EM303B 4R0G 5R5P 3B Rated Power 4 0kW 5 5kW Input Voltage 380VAC Rated Current 10 0A 13 0A Serial No Shenzhen Sine Electric Co Ltd Model Numbering Scheme Product Category EM Inverter Product Series 303B Open Loop Vector Control System 3 phase 380V 303B is an integrated model with G P in one G General purpose P Blower water pump Omitte...

Page 15: ... and Table 2 2 for installation dimensions The keypad can be installed on the metal panel separately with a hole size of 116 5 0 1 L 71 5 0 1 W mm and applicable metal panel thickness 1 2 2 0mm R 2 M3 71 74 118 26 34 116 8 58 77 16 W1 W H H1 D1 D2 D 2 d a b D1 W1 H H1 H2 2 d D W D H2 H1 H W1 W D1 D2 3 d c d Figure 2 1 Overall and Keypad Dimensions of EM303B ...

Page 16: ...EM303B 075G 090P 3 EM303B 090G 110P 3 386 300 753 724 700 287 231 295 13 d EM303B 110G 132P 3 416 300 855 825 793 302 246 310 13 d EM303B 132G 160P 3 EM303B 160G 185P 3 497 397 1107 1076 1036 335 285 343 13 d EM303B 185G 200P 3 EM303B 200G 220P 3 EM303B 220G 250P 3 656 450 1348 1314 1261 383 232 390 13 d EM303B 250G 280P 3 EM303B 280G 315P 3 EM303B 315G 355P 3 801 680 1417 1383 1330 383 190 390 13...

Page 17: ...n a place with good ventilation to improve the reliability of inverter operation When inverter is mounted inside a cabinet cooling fan or air conditioner is a must Keep the ambient temperature below 40 C 2 3 3 Precautions Please take protective measures during installation to prevent foreign matters like metal particles or dust from entering the inverter when drilling After installation please tak...

Page 18: ...1025 56 30 5 EM303B 045G 055P 3 1158 EM303B 055G 075P 3 Size 6 247 420 1525 56 51 3 EM303B 075G 090P 3 1800 EM303B 090G 110P 3 Size 7 335 570 2120 62 80 2 EM303B 110G 132P 3 Size 8 403 684 2636 62 93 8 EM303B 132G 160P 3 3216 EM303B 160G 185P 3 Size 9 424 720 3881 62 154 8 EM303B 185G 200P 3 4272 EM303B 200G 220P 3 4568 EM303B 220G 250P 3 Size 10 706 1200 4915 73 240 EM303B 250G 280P 3 5442 EM303B...

Page 19: ...ecial occasions disassemble the keypad by following steps Remove the front cover For EM303B 0R7 7R5 push the cover vertically from the bottom with two hands and then lift up outwards See Figure 2 3 R R Figure2 3 Remove the Front Cover Disassemble the keypad Put your figures in the insert on the top of keypad press down slightly and pull outwards then the keypad can be removed See Figure 2 4 ...

Page 20: ...al Purpose Inverter 20 Figure 2 4 Disassemble the Keypad Assemble the keypad Place the bottom of keypad in the slot and then press the top to push until it clicks into right place See Figure 2 5 Figure 2 5 Assemble the Keypad ...

Page 21: ... boltsof flanges and assemble at the right places See Figure 2 8 for the installation dimensions Unscrew the Bolts Tighten the Screws Figure 2 6 Disassembling the FlangesFigure 2 7 Assembling the Flanges Figure 2 8 Installation Dimensions for Flush Mounting Model No W W1 H H1 H2 D D1 D2 D3 d EM303B 090G 110P 3 386 300 753 724 700 287 231 295 136 13 EM303B 110G 132P 3 416 300 855 825 793 302 246 31...

Page 22: ...303B and its peripherals are shown in Figure 3 1 Mains Circuit Breaker or Leakage Switch Contactor Input AC Reactor Input Noise Filter Inverter 3 phase Induction Motor Braking Resistor Braking Resistor BR100 Braking Unit Grounding Output Noise Filter Output AC Reactor Figure 3 1 EM303B Peripherals Connections ...

Page 23: ...phase AC input terminals R S T Grounding terminal DC bus terminal Wiring terminal for braking resistor PB Output terminals of inverter For connecting to motor U V W See Figure 3 2 for main circuit terminal block PB R S T U V W a Main Circuit Terminal Block of EM303B 015 or below T S R W V U b Main Circuit Terminal Block of EM303B 018 075 c Main Circuit Terminal Block of EM303B 090 200 ...

Page 24: ... for each terminal 3 2 2 Main Circuit Terminal Functions The main circuit terminal functions of EM303B are listed in Table 3 1 Please wire the terminals correctly as per corresponding function Table 3 1 Main Circuit Terminal Functions Terminal Function R S T AC power input terminals for connecting to 3 phase AC power Terminal L1 L2 for AC220V 1 phase input inverter U V W Inverter AC output termina...

Page 25: ...l Main Circuit EM303B 0R7 015 Control Circuit Mains Cooling Fan U V W T S R EM303B 018 30 R S T W V U Cooling Fan Mains Control Circuit EM303B 37 200 R S T W V U Cooling Fan Mains for Fan Control Circuit Mains EM303B 220 400 R S T W V U Cooling Fan Mains Control Circuit 3 2 4 Standard Wiring of Main Circuit See Figure 3 4 for standard wiring of main circuit ...

Page 26: ... 1 minute If single MCCB is shared by two or more inverters or other devices the contact of fault output relay shall be connected to power contactor coil so that the power supply will be turned off by the fault signals as shown in Figure 3 5 Fault Relay Contact EC EB MC OFF MC ON MCCB T S R EM303B Figure 3 5 Connecting to Input Circuit Breaker Installing a Leakage Circuit Breaker High frequency le...

Page 27: ...stall an optional 3 phase AC reactor on input side of inverter to suppress peak current and voltage and improve power factor of the system Installing a Surge Absorber Install a surge absorber for inductive loads electromagnetic contactors solenoid valves solenoid coils or electromagnetic circuit breakers nearby the inverter Installing a Noise Filter on Power Supply Side To filter noise transmitted...

Page 28: ...e shifting electrolytic capacitor or LC RC filter to the output circuit Otherwise inverter will be damaged Never Using an Electromagnetic Switch Never connect electromagnetic switch or electromagnetic contactor to the output circuit Otherwise failure to comply will cause overcurrent or overvoltage protection Even worse inverter will be damaged Please make sure that the inverter stops before instal...

Page 29: ... noise filters on both input and output sides and shield inverter with an iron case to reduce RFI As shown in Figure 3 10 MCCB Noise Filter EM303B Inverter IM Iron Case Metal Pipe Noise Filter Figure 3 10 Countermeasures Against RFI Cable Length Between Inverter and Motor The longer cable between the inverter and motor is the higher carrier frequency is and the greater high frequency harmonic leak...

Page 30: ...10 17 0 22 0 60 EM303B 090G 110P 3 M10 17 0 22 0 60 EM303B 110G 132P 3 M10 17 0 22 0 90 EM303B 132G 160P 3 M10 17 0 22 0 90 EM303B 160G 185P 3 M12 31 0 39 0 120 EM303B 185G 200P 3 M12 31 0 39 0 180 EM303B 200G 220P 3 M12 31 0 39 0 180 EM303B 220G 250P 3 2 M10 17 0 22 0 2 120 EM303B 250G 280P 3 2 M10 17 0 22 0 2 120 EM303B 280G 315P 3 2 M10 17 0 22 0 2 150 EM303B 315G 355P 3 2 M12 31 0 39 0 2 150 E...

Page 31: ...3 2 9 Wiring Braking Resistor and Braking Unit See Chapter 11 for details of the selection and wiring of braking resistor and braking unit 3 3 Wiring Control Circuit Terminals 3 3 1 Control Circuit Terminals The control circuit terminals of EM303B are located on the control PCBA Analog input terminals Voltage input signals VS and VF Current input signals IS and IF Numeric input terminals X1 X2 X3 ...

Page 32: ...round of 24V power supply PLC Multi function input common terminal Common terminal for external connection with 24V The default is to connect with 24V supply Relay Output EA Relay output terminal EA EC NO EB EC NC EB EC Multi functi on Output Y1 OC output terminal 1 Programmable multi function output terminals as shown in F2 12 F2 13 Y2 OC output terminal 2 Analog Output M0 Analog output terminal ...

Page 33: ...igure 3 14 Wiring of Terminals IS and IF 3 3 4 Wiring Multi function Input Terminal The multi function input terminals of EM303B adopt full bridge rectifier circuit Terminal PLC is the common terminal of X1 X7 The current passed through the PLC terminal can be forward NPN Mode or reverse PNP mode so that it is flexible to connect terminals X1 X7 to external devices The typical wirings are as shown...

Page 34: ...24V EM303B 3 3V COM X7 X1 PE External Controller Grounding Shield Cable COM 1 7 Figure 3 16 a NPN Mode with 24 Internal Power Supply B See Figure 3 16 b for PNP mode with 24 internal power supply Please disconnect terminal PLC from terminal 24V 24V 3 3V PLC 24V EM303B 3 3V COM X7 X1 PE External Controller Grounding Shield Cable COM 1 7 Figure 3 16 b PNP Mode with 24 Internal Power Supply 24V 3 3V ...

Page 35: ...r Supply 3 3 5 Wiring Relay Output Terminal The surge voltage absorbing circuit should be installed for inductive load like relay or contactor For instance RC absorbing circuit please note that the leakage current the working current of contactor or relay being controlled VDR or fly wheel diode and etc For DC electromagnetic circuit please pay attention to the polarity at installation The componen...

Page 36: ...20mA output current or 0 10V output voltage Here M0 and M1 correspond to JP1 and JP2 respectively See Figure 3 18 for details GND EM303B M1 M0 Analog Meter J1 M0 Analog voltage output M0 Analog current output J2 M1 Analog voltage output M1 Analog current output Figure 3 18 Wiring Analog Output Terminal 3 3 8 Wiring Communication Terminal Terminals A and A are the RS485 communication terminals of t...

Page 37: ...ntrol circuit wiring terminals for EM303B clamp terminal and barrier terminal please install them with a PH0 cross head screwdriver with a tightening torque of 0 5N m Please pay attention to followings based on different features of these two terminals Clamp terminal Take pin terminal or cable strip length by 5 7mm for connection Only after the terminal screw is fully loosened anticlockwise first ...

Page 38: ... COM 24V PLC Communicational Terminals Ground A A PE PE MO M1 GND VF IF GN D Analog Feedback Voltage Current Optional output V I V I M EM303B U V W 90kW With Built in DC Reactor Ground EB EC Relay Output EA 2 Multi function Outputs COM Y2 Y1 0 2 10V 0 4 20mA PB External Braking Unit External Braking Resistor MCCB MC R S T 3 phase Power Supply RUN F R D1 D2 D3 FRS RST Analog Input 0 4 20mA Ground F...

Page 39: ...ceeds 10m a remote control keypad is required If the keypad wire is also a control circuit wire wiring precautions as stated in 3 3 4 R Figure 3 22 Disassemble the Keypad and Connect Extension Keypad Wire To prevent foreign bodies to entering the inverter please assemble a keypad window cover as shown in Figure 3 23 at the front cover of inverter after the keypad has been taken out Assembling meth...

Page 40: ... to Lock the Cover Figure 3 24Assemble Keypad Window Cover 3 5 Wiring Check Perform the following checks after wiring has been completed If wiring is correct If anything is left in inverter like screw or wire clippings If the screw is loose If the bare wire on one terminal connects to other terminals ...

Page 41: ...arameters Select the row of monitoring parameter in operation Reset Escape Reset previous status Escape from editing the present parameter Return previous menu Button for Multi functional programming For programmable JOG or forward reverse selection ENTER Save edited parameter of present function code For entering sub menu RUN In keypad control mode press the button to start inverter STOP RESET In...

Page 42: ...Keypad Operation Mode Key Function Function Setting 1 Display edit save reset and lock the function code and its parameters 2 Reset default of the parameters 3 Select relevant parameter when the inverter is running Function Parameter Copy 1 Upload parameter Upload the parameters saved in the inverter to keypad 2 Download parameter Download the parameters saved in the keypad to inverter Combine abo...

Page 43: ...code in sub menu selection For instance in sub menu of F1 select any code from F1 00 F1 31 See Figure 4 3 for selecting code DATA ENTER RES ESC RES ESC Figure 4 3 Sub menu Selection 4 2 3 Function Setting Inverter can display edit save and reset parameter in function setting status Set parameter correctly before operation starts Viewing Parameters Select corresponding function code and view its pa...

Page 44: ...ashing BIt Flashing Bit Flashing Bit Flashing Bit Flashing BIt Flashing Bit Flashing Bit Flashing Bit Click Click Press Press Press Press Press Click Click Click Click DATA ENTER RES ESC SHIFT SHIFT RES ESC RES ESC RES ESC RES ESC RES ESC RES ESC RES ESC RES ESC RES ESC RES ESC RES ESC RES ESC Figure 4 5 Procedures of Editing Parameter Remarks CLICK in Figure 4 5 refers to press the button once an...

Page 45: ...rter s operation F0 16 Maximum frequency When editing and saving the maximum frequency if the other relevant frequencies the maximum frequency inverter will limit the relevant frequency as the maximum frequency If they are less than the maximum frequency the relevant frequencies remain unchanged The function codes are correlative with each other F0 07 Primary numeric setting frequency setting F0 1...

Page 46: ... and monitor its parameter For instance see Figure 4 7 for procedures of viewing code C0 08 Estimated feedback frequency when inverter is running RES ESC RES ESC DATA ENTER DATA ENTER Figure 4 7 Procedures for Viewing and Editing Operation Monitoring Parameters 4 2 5 Keypad Potentiometer If the speed setting mode of inverter is in VP keypad potentiometer setting mode when F0 06 1 the setting frequ...

Page 47: ...ailure EEU Keypad EEPROM failure StP Autotuning cancelled SFE Autotuning coast to stop E0 00 SrE Stator resistance error SIE Idling current error E0 01 XXX Output Frequency at Fault E0 02 Output Current at Fault E0 03 DC Bus Voltage at Fault E0 04 Running Direction at Fault E0 05 Running Status at Fault E0 06 Stall Status at Fault E0 07 Working Time at Fault E0 08 E0 15 The same Function as E0 01 ...

Page 48: ... stop of inverter is selected as keypad control mode When pressing RUN and released inverter starts to run In operation status inverter will stop immediately when pressing STOP RESET 4 2 10 SwitchingMonitoring Display Code If inverter is running or in ramp to stop status and the present selected function code varies with the status of inverter F4 18 1 press SHIFT for 1 5 seconds the monitoring dis...

Page 49: ...the parameters listed on motor nameplate Otherwise serious damage may occur in operation Setting Protection Parameter of Motor and Inverter Set correct limit parameters protection parameters and protection modes of inverter and motor mainly as maximum frequency upper limit frequency lower limit frequency lower limit frequency running time fault retry control relay fault output Autotuning Motor Par...

Page 50: ...ly used for the drive system with big inertia and the application which is sensitive to acceleration to reduce mechanical shock and avoid system vibration DC Brake Input DC current to the running motor to generate brake torque before start up or at stop it makes the motor stop quickly Special Terminal Control EM303B provides multiple programmable input output terminals which can connect external c...

Page 51: ... input frequency or rotation direction and monitor if there is vibration or unexpected noise with the motor or not 2 Check if inverter runs stably 5 2 4 On Load Operation After idling operation of motor is succeeded please connect motor to the mechanical load for a trial operation Connecting Motor to Mechanical Load 1 After motor stops turn off the power of inverter and connect the motor to mechan...

Page 52: ...eter default varies with the power ratings of inverter Column 6 the type of parameter whether the parameter is editable or not Details shown as followings Parameter editing is permitted when the inverter is running 〇 Parameter editing is prohibited when the inverter is running X The parameter is read only Unit and Its Abbreviation HOUR Hour m Meter Percentage SQRT Square Root min Minute mm Millime...

Page 53: ...lar Speed Setting Mode 0 Primary Numeric Frequency 1 VP 2 VS 3 IS 4 Not Used 5 K3 VS K4 IS 6 K3 VS K5 VF 7 K4 IS K6 IF 8 MAX K3 VS K5 VF 9 MAX K4 IS K6 IF 10 K1 VP K2 K3 VS K4 IS K5 VF K6 IF K8 5V 1 〇 6 F0 07 Primary Numeric Frequency Setting 0 00 Fmax Hz 0 00 7 F0 08 Motor Running Direction 0 Forward 1 Reverse 0 8 F0 09 Acceleration Time 1 0 00 600 00 S min 15 00 9 F0 10 Deceleration Time 1 0 00 ...

Page 54: ... stop 0 〇 20 F0 21 JOG Function Setting 0 Jog running 1 Positive Negative input switching 2 Disabled 0 〇 21 F0 22 Speed Monitoring Options 0 Frequency Hz 1 Speed rpm 0 22 F0 23 Customer Defined Scaling 0 01 600 00 30 00 23 F0 24 Forward Reverse Control Mode 0 Reverse Permitted 1 Reverse Prohibited 0 〇 24 F0 25 F R Deadband Time 0 00 600 00 S 0 00 〇 25 F0 26 Primary Speed Setting Mode 0 Regular spe...

Page 55: ...akage Inductance Ls 0 1 3000 0 mH XXXX 〇 44 F1 13 Stator Rotor Mutual Inductance Lm 0 1 3000 0 mH XXXX 〇 45 F1 14 Motor Efficiency 30 0 99 0 XXX 〇 46 F1 15 Autotuning Parameters 0 No autotuning 1 Stationary autotuning 2 Rotational autotuning 0 〇 47 F1 16 Inverter Address 1 247 0 Broadcasting Address 1 〇 48 F1 17 Communication Bit Rate 0 4800 1 9600 2 19200 3 38400 bps 1 〇 49 F1 18 Communication Pa...

Page 56: ...F R 2 〇 65 F2 02 Multi function Input Terminal X3 D1 3 〇 66 F2 03 Multi function Input Terminal X4 D2 4 〇 67 F2 04 Multi function Input Terminal X5 D3 5 〇 68 F2 05 Multi function Input Terminal X6 FRS 9 〇 69 F2 06 Multi function Input Terminal X7 RST 10 〇 70 F2 07 Not used 71 F2 08 VS Input Function Defining 0 〇 72 F2 09 IS Input Function Defining 0 〇 73 F2 10 VF Input Function Defining 0 〇 74 F2 ...

Page 57: ...33 Not Used 8 Acceleration Deceleration Time Terminal 2 34 Not Used 9 Coast to Stop 35 Switching Regular Torque Input Setting to Numeric Torque Input Setting 10 Inverter Fault Reset 36 Not Used 11 Forward Jog FJOG 37 PID Positive Negative Setting Switch 12 Reverse Jog RJOG 38 Not Used 13 Terminal UP 39 Not Used 14 Terminal DOWN 40 Not Used 15 UP DOWN Clearing 41 Not Used 16 Acceleration Decelerati...

Page 58: ...cy Reach 27 Not Used 11 Lower Limit Frequency Reach 28 FDT1LowerBounds Pulse 12 Not Used 29 FDT2LowerBounds Pulse 13 Not Used 30 FDT1 LowerBounds voidwhen JOG Pulse 14 Analog Detection Range ADT1 31 FDT2LowerBounds voidwhen JOG Pulse 15 Analog Detection Range ADT2 32 ILP Fault 16 Analog Detection Range ADT3 Table 6 3 F2 16 F2 17 Analog Outputs Full Scales No Signal Full Scale 100 0 No Signal Full ...

Page 59: ... Fmax 0 0 Fmax Hz 50 00 110 F3 15 Acceleration Time 2 0 00 600 00 S min 15 00 111 F3 16 Deceleration Time 2 0 00 600 00 S min 15 00 112 F3 17 Acceleration Time 3 0 00 600 00 S min 15 00 113 F3 18 Deceleration Time 3 0 00 600 00 S min 15 00 114 F3 19 Acceleration Time 4 0 00 600 00 S min 15 00 115 F3 20 Deceleration Time 4 0 00 600 00 S min 15 00 116 F3 21 Acceleration Deceleration Time Unit 0 S 1 ...

Page 60: ...tive 1 Negative 10 132 F4 05 PID Regulation Setting 0 Positive Setting 1 Negative Setting 0 〇 133 F4 06 PID Output Gain 0 00 100 00 100 00 134 F4 07 Proportional Gain GP 0 00 100 00 0 40 135 F4 08 Integral Time GTi 0 00 300 00 0 00 No integration S 10 00 136 F4 09 Differential Time GTd 0 00 100 00 mS 0 00 137 F4 10 Integration Function Scale 0 00 100 00 100 00 138 F4 11 PID Upper Limit 0 00 100 00...

Page 61: ...F4 20 Parameters displayed in the 1st row in operation 0 575 512 148 F4 21 Parameters displayed in the 2nd row in operation 0 575 514 149 F4 22 Parameters displayed in the 3rd row in operation 0 575 524 150 F4 23 Parameters displayed in the 4th row in operation 0 575 525 151 F4 24 Parameters displayed in the 1st row at stop 0 575 512 152 F4 25 Parameters displayed in the 2nd row at stop 0 575 514 ...

Page 62: ... 08 Torque Current Deceleration Time 0 000 30 000 S 0 040 178 F5 09 Power Torque Current Limit 80 00 250 00 165 00 169 F5 10 Brake Torque Current Limit 80 00 250 00 165 00 170 F5 11 Regular Torque Setting 0 Primary Numeric Torque Setting 1 VP 2 VS 3 IS 4 VF 5 IF 6 Not used 7 K1 VP K2 K3 VS K4 IS K5 VF K6 IF K8 5V 0 〇 171 F5 12 Primary Numeric Torque Current 0 00 Maximum torque 0 00 172 F5 13 Torqu...

Page 63: ... 2 No output F5 28 Low Frequency Excitation Gain 50 00 150 00 100 00 〇 188 F5 29 Excitation Gain Kd 100 00 600 00 0 9kW 100 00 189 9 30kW 150 00 30 55kW 200 00 55 75kW 300 00 75 110kW 400 00 110 400kW 500 00 F5 30 Set up Time of Excitation Gain 0 00 10 00 0 9kW S 0 10 〇 190 9 55kW 0 15 55 400kW 0 20 F5 31 Maximum Torque 50 00 250 00 100 00 〇 191 6 2 7 C0 Group Parameters of Monitoring Function No ...

Page 64: ...n Feedback 0 00 PID Maximum Scale 535 C0 24 Torque CurrentInput Iq 0 00 200 00 536 C0 25 Torque CurrentFeedback Iq 0 00 200 00 537 C0 26 Input Terminal Status X7 X6 X5 X4 X3 X2 X1 538 0 0 0 0 0 0 0 C0 27 Output Terminal Status R1 Y2 Y1 539 0 0 0 0 0 0 0 C0 28 VS Input Monitoring 0 10000 540 C0 29 IS Input Monitoring 0 10000 541 C0 30 VF Input Monitoring 0 10000 542 C0 31 IF Input Monitoring 0 1000...

Page 65: ...E0 07 Working Time at Fault HOUR 0 551 E0 08 The 1st Most Recent Fault Fault trips 0 552 E0 09 Output Frequency at Fault XX XX XX X Hz 0 00 553 E0 10 Output Current at Fault XXX X A 0 0 554 E0 11 DC Bus Voltage at Fault XXXX V 0 0 555 E0 12 Running Direction at Fault For Forward rEu Reverse 0 556 E0 13 Running Status at Fault ACC Acceleration COn Constant Speed dEC Deceleration 0 557 E0 14 Stall S...

Page 66: ...ion 2 Advanced Parameters 7 1 2 F6 Group Simple PLC Function No Function Range Unit Default Type S N F6 00 Program Operation Mode Ones place Options of programmable speed operation mode 0 Monocycle 1 Run as per Preset Speed 7 after monocycle 2 Limited times of continuous cycle 3 Continuous cycle Tens place Not used Hundreds place Not used Thousands place Options of restart after operation paused 0...

Page 67: ... 30 0 205 F6 14 Operation Time T7 0 0 6000 0 S min 30 0 206 F6 15 Speed Cycling Times 1 10000 1 207 F6 16 Skip Frequency Point 1 0 00 600 00 0 0 6000 0 Hz 600 00 208 F6 17 Skip Frequency Range 1 0 00 20 00 0 0 20 0 0 00 0 0 Disabled Hz 0 00 209 F6 18 Skip Frequency Point 2 F6 16 600 00 F6 16 6000 0 Hz 600 00 210 F6 19 Skip Frequency Range 2 0 00 20 00 0 0 20 0 0 00 0 0 Disabled Hz 0 00 211 F6 20 S...

Page 68: ...constant speed Tens place inverter status after pre alarming 0 Alarm on run continuously 1 Delayed stop after alarm 00 〇 224 F7 01 Overload Pre Alarm Detection Time 0 00 60 00 S 5 00 〇 225 F7 02 Overload Pre Alarm Detection Scale 0 00 600d 00 200 00 〇 226 F7 03 Overload Pre Alarm Stop Delay Time 0 00 600 00 S 5 00 〇 227 F7 04 Analog ADT Options 0 VS 0 00 100 00 1 IS 0 00 100 00 2 VF 0 00 100 00 3 ...

Page 69: ...200 00 100 00 249 F7 26 Deadband Compensation Gain 0 00 200 00 100 00 250 F7 27 Deadband Compensation Mode 0 No Compensation 1 〇 251 1 Mode 0 1 Mode 1 F7 28 Minimum base blackout period 0 40 10 00 S 0 50 〇 252 F7 29 MIN Effective Output Frequency 0 00 Fmax 0 0 Fmax Hz 0 00 〇 253 F7 30 MIN Acceleration Deceleration Time 0 05 30 00 S min 0 05 〇 254 F7 31 Zero Frequency Brake Current 100 00 500 00 10...

Page 70: ...0 00 0 00 264 F8 09 Output Bias 0_1 0 00 100 00 25 00 265 F8 10 Output Bias 0_2 0 00 100 00 75 00 266 F8 11 Output Bias 0_3 0 00 100 00 100 00 Fmax 100 00 267 F8 12 Input Bias 0_0 0 00 Input Bias 0_1 0 00 268 F8 13 Input Bias 0_1 Input Bias 0_0 Input Bias 0_2 25 00 269 F8 14 Input Bias 0_2 Input Bias 0_1 Input Bias 0_3 75 00 270 F8 15 Input Bias 0_3 Input Bias0_2 100 00 100 00 271 Input output Bia...

Page 71: ...ge in EEPROM Memory function at power failure Tens place Not used Hundreds place Not used Thousands place Terminal UP DOWN rate control 0 Automatic rate control 1 Correspond to the setting UP DOWN rate Ten thousands place Not Used 1000 〇 290 F9 03 Speed Setting Mode Ones place Integrated speed input mode 0 Primary speed setting mode 1 Auxiliary speed setting mode 2 Primary speed setting mode auxil...

Page 72: ...de Auxiliary Speed Setting Mode Process PID Output Ones place Regular speed setting mode options 0 Regular frequency input 1 VS Regular frequency input 2 VF Regular frequency input 3 IS Regular frequency input 4 IF Regular frequency input Tens place Special speed setting mode options 0 Special frequency input 1 VS Special frequency input 2 VF Special frequency input 3 IS Special frequency input 4 ...

Page 73: ...Stop Control Options at Instantaneous Power Failure 0 Disabled 1 Enabled 0 〇 305 F9 18 Speed Search Current 0 30 1 50 0 60 〇 306 F9 19 Speed Search Coefficient 1 00 1 30 1 05 〇 307 F9 20 Control Voltage of Non Stop at Instantaneous Power Failure 0 800 V 537 308 F9 21 Proportion Gain of Non Stop at Instantaneous Power Failure 0 00 300 00 0 50 309 F9 22 Integral Time of Non Stop at Instantaneous Pow...

Page 74: ...327 FA 08 Preset Current Limit 2 0 00 180 00 150 00 〇 328 FA 09 Preset Current Limit 3 0 00 180 00 150 00 〇 329 FA 10 Preset Current Limit 4 0 00 180 00 150 00 〇 330 FA 11 Preset Current Limit 5 0 00 180 00 150 00 〇 331 FA 12 Preset Current Limit 6 0 00 180 00 150 00 〇 332 FA 13 Preset Current Limit 7 0 00 180 00 150 00 〇 334 FA 14 Motor 2 Rated Power 0 40 480 00 kW XXXX 〇 335 FA 15 Motor 2 Rated ...

Page 75: ...mode 1 S curve mode 0 〇 384 FC 01 Proportion of Acceleration S Curve 0 0 50 0 30 0 〇 385 FC 02 Proportion of Deceleration S Curve 0 0 50 0 30 0 〇 386 FC 03 Fan Control 0 Run at power on 1 Run at start up 1 〇 387 FC 04 Fan Delay Time 0 00 600 00 S 30 00 388 FC 05 Not Used 389 FC 06 Resume previous working status at power on 0 Not Resume 1 Resume 0 〇 390 FC 07 Current Stall Control 0 Disabled 1 Not ...

Page 76: ...is enabled in operation 2 Braking resistor is enabledat power on Hundreds place Not Used Thousands place Voltage stall protection mode 0 Void 1 Under voltage stall effective 2 Over voltage stall effective 3 Both under voltage stall and over voltage stall effective 2000 〇 403 FC 20 Voltage at Overvoltage Stall 120 00 140 00 130 00 〇 404 FC 21 Overcurrent Stall Proportion Gain IKp 0 00 100 00 0 10 〇...

Page 77: ... 9 Fd Group Auxiliary Parameters No Function Range Unit Default Type S N Fd 00 Not Used 461 Fd 01 Voltage 1 0 00 100 00 1 00 417 Fd 02 Voltage 2 0 00 100 00 4 00 418 Fd 03 Voltage 3 0 00 100 00 10 00 419 Fd 04 Voltage 4 0 00 100 00 Ue 100 0 16 00 420 Fd 05 Frequency 1 0 00 Frequency 2 0 0 Frequency 2 Fbase 100 0 1 00 421 Fd 06 Frequency 2 Frequency 1 Frequency 3 4 00 422 Fd 07 Frequency 3 Frequenc...

Page 78: ...N FE 00 Numeric Input Filter Times 0 100 1 0 50mS 10 〇 448 FE 01 Terminal Input Positive Negative Logic X7 X6 X5 X4 X3 X2 X1 0000000 0 〇 449 0 0 0 0 0 0 0 0 Positive Logic On at 0V Off at 24V 1 Negative Logic Off at 0V On at 24V FE 02 X1 Input Delay Time 0 00 300 00 S 0 00 〇 450 FE 03 X2 Input Delay Time 0 00 300 00 S 0 00 〇 451 FE 04 Analog Input Signal Options Ones place VS input signal options ...

Page 79: ...ic 1 Negative logic 000 〇 455 FE 08 Virtual Terminal Options Ones place Terminals Y1 Y2 R1 0 Actual output terminal 1 Virtual output terminal Tens place Multi function Input Terminal Xi 0 Actual output terminal 1 Virtual output terminal Hundreds place Numeric terminal VS IS VF IF 0 Actual output terminal 1 Virtual output terminal 000 〇 456 FE 09 Terminal Y1 Delay Time 0 0 600 0 S 0 0 〇 457 FE 10 T...

Page 80: ...User Manual EM303B General Purpose Inverter 80 1 SOFT Soft start fault FE 22 SCI SPI PID Faults Display 0 SCI Fault 1 SPI Fault 2 PID Feedback loss fault 0 X 470 FE 23 FE 31 Not Used 471 479 ...

Page 81: ...If the objective value is negative torque then symbol shall be displayed The setting mode of torque reference input is active only in SVC1 No Function Range Unit Default Type F0 02 Drive Control Mode 0 V F open loop control 1 Not used 2 SVC0 3 SVC1 2 〇 F0 02 0 V F Open Loop Control Applicable to the occasions when one inverter drives multi motor and speed regulation is with low requirements for ra...

Page 82: ...rive mode No Function Range Unit Default Type F0 03 Reference Input Control Mode 0 Speed input 1 Torque input F0 02 3 0 〇 F0 03 0 Input control mode is speed input the input is frequency F0 03 1Input control mode is torque input The input is percentage of motor rated torque current It is active only when the control mode is SVC1 i e F0 02 3 In SVC1 mode squirrel cage induction motor can achieve to...

Page 83: ...F0 05 F0 04 2 RS485 Control Mode Start Stop of inverter is under PC or PLC control through RS485 communication interface 1 No matter in what drive control mode when pressing JOG the inverter always runs in jog speed input control mode Terminal control modes can be classified as 2 wire sequence and 3 wire sequence 2 wire sequence F0 05 0 Start stop of inverter is under control of ON OFF of terminal...

Page 84: ...verter reenters running status only when terminal RUN is ON again after OFF once 3 wire sequence F0 05 2 RUN is NO forward running button F R is NO reverse running button Xi is NC stop button all of them will be on at pulse edge In running status the inverter stops if pressing Xi button When stop mode is selected as ramp to stop F0 20 0 see Figure 7 3 b for the sequence diagram Xi is the terminal ...

Page 85: ... Time c F0 05 3 3 wire sequence d F0 20 0 F0 05 3 Forward Reverse running sequence Figure 7 3 3 Wire Sequence Please use the buttons and switches correctly by following the mode illustrated in the above diagrams of EM303B 3 wire sequences otherwise malfunctions may occur No Function Range Unit Default Type F0 06 Regular Speed Setting Mode 0 Primary Numeric Frequency 1 VP 2 VS 3 IS 4 Not Used 5 K3 ...

Page 86: ...cy is set by all input signals K1 VP K2 K3 VS K4 IS K5 VF K6 IF K8 5V The combination of analog voltage signal and analog current signal can be considered as that the current signal linearly switched to voltage signal of 0 10V first and then calculate 1 The default of analog voltage inputs VS and VF 0 10V 2 The default of analog current input 4 20mA 3 K1 K8 are analog signal gains which can be set...

Page 87: ...ency to drop from Fmax down to 0Hz In jog running mode keep pressing JOG or terminal JOG is on Otherwise it will be considered as the jog command cancelled Please note that the unit of acceleration deceleration time is second or minute defined by F3 21 No Function Range Unit Default Type F0 14 Carrier Frequency 0kW 9kW 1 000 16 000 9kW 37kW 1 000 8 000 37kW 110kW 1 000 4 000 110kW 400kW 1 000 3 00...

Page 88: ... Fmax Hz 50 00 〇 F0 18 Lower Limit Frequency Fdown 0 00 Fup Hz 0 00 〇 F0 16 Fmax indicates the maximum setting frequency permitted by inverter Range of Fmax 20 00 600 00 F0 17 Fup indicates the maximum frequency permitted to run after inverter start up Range of Fup Fdown Fmax F0 18 Fdown indicates the minimum frequency permitted to run after inverter start up Range of Fdown 0 00Hz Fup 1 Upper limi...

Page 89: ... dryer will rotate freely for a long time Speed search start can ensure that the industrial dryer returns normal work as short as possible Before inverter starts the motor may run at low speed or in opposite rotation status If inverter starts immediately at mean time overcurrent may occur In order to avoid such fault before inverter starts please start DC brake to stop motor and then the inverter ...

Page 90: ...is rpm adjusting the parameter of F0 23 will make the displayed value of motor speed match the actual value No Function Range Unit Default Type F0 08 Motor Running Direction 0 Forward 1 Reverse 0 F0 24 Forward Reverse Control Mode 0 Reverse Permitted 1 Reverse Prohibited 0 〇 F0 25 F R Deadband Time 0 00 600 00 S 0 00 〇 F0 08 Motor running direction F0 08 0 is forward When F0 24 0 reverse permitted...

Page 91: ...26 2 Primary speed setting mode is process PID input mode Numeric PID setting mode or analog signal setting mode can be selected via F4 00 No Function Range Unit Default Type F0 27 Menu Mode Options 0 Basic menu mode 1 Advanced menu mode 0 〇 F0 27 0 Keypad only displays the basic setting parameters of F0 F5 6 group parameters could meet the needs of most of applications F0 27 1 Keypad displays 17 ...

Page 92: ...ection and prevent unqualified personnel from editing the inverter parameters incorrectly When password is 0 the password function is disabled 8 2 F1 Group Motor Parameters No Function Range Unit Default Type F1 00 Motor Type 0 AC induction motor 1 Not used 0 〇 F1 01 Motor Rated Power 0 40 480 00 kW XXXX 〇 F1 02 Motor Rated Voltage 60 660 V XXX 〇 F1 03 Motor Rated Current 0 1 1500 0 A XXXX 〇 F1 04...

Page 93: ...istance rotor inductance stator and rotor mutual inductance and idling excitation current respectively No Function Range Unit Default Type F1 15 Autotuning Parameters 0 No autotuning 1 Stationary autotuning R1 R2 Ls Lm I0 2 Rotational autotuning R1 R2 Ls Lm I0 0 〇 F1 15 0 No autotuning F1 15 1 Motor remains motionless in the process of autotuning parameters F1 07 and F1 10 F1 14 F1 15 2 Motor is r...

Page 94: ...8 1 1 for RTU 0 〇 F1 18 0 No parity F1 18 1 Even parity F1 18 2 Odd parity No Function Range Unit Default Type F1 19 Master slave Communication Mode 0 The inverter is the slave 1 The inverter is the master 0 〇 F1 20 Receiving Address of Slave Inverter 0 Primary Numeric Frequency F0 07 1 Auxiliary Numeric Frequency F9 06 0 〇 F1 21 Inverter Receiving Proportion Coefficient 0 00 600 00 100 00 F1 19 S...

Page 95: ...ication command from PC PLC Keypad displays fault EST It can be defined as the multi function output terminal action of inverter fault No Function Range Unit Default Type F1 31 Master Communication Transmitting Data 0 Input frequency 1 Output frequency 2 Primary Numeric Frequency 3 Auxiliary Numeric Frequency 4 VP 5 VS 6 VF 7 IS 8 IF 0 If the inverter is set as the master the source of slave frequ...

Page 96: ...e function terminal is on the inverter will forward reverse as per the setting value of F0 05 Xi 3 Preset Speed Terminal 1 Xi 4 Preset Speed Terminal 2 Xi 5 Preset Speed Terminal 3 Xi 6 Preset Speed Terminal 4 In preset speed control mode 4 function input terminals can be defined as the preset speed terminals A preset speed set in F3 00 F3 14 is selected as the present setting frequency of inverte...

Page 97: ...terminal is on the drive control mode will be switched to V F control mode and its function is equivalent to F0 02 0 When the terminal is off it returns the previous control mode automatically Xi 21Switch run command to terminal control When the terminal is on no matter what run command mode F0 04 is in and what status of the run command input 0 or input 1is it is always in terminal control mode w...

Page 98: ...ntrol mode if the terminal is on then the primary speed setting mode is switched to regular speed setting mode Its function is equivalent to setting F0 26 0 After the terminal is off inverter returns the previous setting mode automatically Xi 30Switch regular speed input setting mode to numeric speed input setting mode In regular speed control mode if the terminal is on then the present regular sp...

Page 99: ... ON OFF Preset Current Limit 2 FA 08 OFF ON ON Preset Current Limit 3 FA 09 ON OFF OFF Preset Current Limit 4 FA 10 ON OFF ON Preset Current Limit 5 FA 11 ON ON OFF Preset Current Limit 6 FA 12 ON ON ON Preset Current Limit 7 FA 13 Xi 47 Start wobbulation operation Wobbulation operation mode starts Xi 48 Not used Xi 49Program operation reset When program operation PLC is enabled if the input signa...

Page 100: ...internal relay is power on EB EC is off and EA EC is on as shown in Figure 7 9 Function of Y1 Y2 and R1 can be defined by setting the value of F2 12 F2 14 See Table 7 3 for the functions of numeric multi function output terminals Table 7 3 Functions of Numeric Multi function Output Terminals No Function Description 0 Inverter Runs Enabled at Running When inverter is running the output terminal is ...

Page 101: ... on 9 Inverter Fault When inverter trips fault the output terminal is on 10 Upper Limit Frequency Reach Enabled at Running When the output frequency of inverter reaches the setting upper limit frequency of F0 17 the output terminal is on 11 Lower Limit Frequency Reach Enabled at Running When the output frequency reached the lower limit frequency set by F0 18 the output terminal is on The output te...

Page 102: ...arameters set up in FE group 29 FDT2 lower bounds pulse When output frequency falls below the setting value of FDT2 lower bounds the corresponding terminal will output a pulse whose width is determined by the parameters set up in FE group 30 FDT1 lower bounds void when JOG pulse When output frequency falls below the setting value of FDT1 lower bounds the corresponding terminal will output a pulse ...

Page 103: ... output 7 Output Voltage 1 5 times inverter rated voltage Calculate the percentage output voltage 1 5 times of rated current of inverter 100 A as the analog output 8 VP 5 00V Calculate the percentage VP input voltage 10 00V Voltage 100 A as the analog output 9 VS 10 00V Calculate the percentage VS input voltage 10 00V Voltage 100 A as the analog output 10 VF 10 00V Calculate the percentage VF inpu...

Page 104: ... rated torque Feedback frequency output in speed mode take the percentage of output frequency over the maximum frequency Fmax and then convert it to analogoutput Torque output in torque mode takes the percentage of output torque over motor rated torque and then converts it to analog output 1 In order to meet different needs of meters and external devices the actual full scale voltage of M0 M1 is 1...

Page 105: ... 00 Fmax 0 0 Fmax Hz 10 00 F3 03 Preset Speed 4 0 00 Fmax 0 0 Fmax Hz 15 00 F3 04 Preset Speed 5 0 00 Fmax 0 0 Fmax Hz 20 00 F3 05 Preset Speed 6 0 00 Fmax 0 0 Fmax Hz 25 00 F3 06 Preset Speed 7 0 00 Fmax 0 0 Fmax Hz 30 00 F3 07 Preset Speed 8 0 00 Fmax 0 0 Fmax Hz 35 00 F3 08 Preset Speed 9 0 00 Fmax 0 0 Fmax Hz 40 00 F3 09 Preset Speed 10 0 00 Fmax 0 0 Fmax Hz 45 00 F3 10 Preset Speed 11 0 00 Fm...

Page 106: ...leration time can be controlled by the external terminals set as the acc dec time function in preset speed operation mode Terminals F R and RUN determines the running direction of motor in preset speed operation mode No Function Range Unit Default Type F3 15 Acceleration Time 2 0 00 600 00 S min 15 00 F3 16 Deceleration Time 2 0 00 600 00 S min 15 00 F3 17 Acceleration Time 3 0 00 600 00 S min 15 ...

Page 107: ...0 00 minutes No Function Range Unit Default Type F3 22 DC Brake Proportion at Start 0 00 30 00 30 01 250 00 100 00 〇 F3 23 DC Brake Time at Start 0 00 30 00 S 0 00 〇 Before inverter starts the motor may run in low speed or reverse If inverter starts immediately at the moment overcurrent may occur In order to avoid such faults please start DC brake to stop motor before inverter starts and then the ...

Page 108: ...s If F3 25 30 01 the percentage base is the rated output current of inverter Model G While the DC brake controls the DC current generated by motor windings F3 26 when DC brake command given by the terminal is active at stop or the output frequency reaches the setting value of F3 24 in the process of ramp to stop DC brake enabled after the time set by F3 26 is up F3 27 Set DC brake time at stop If ...

Page 109: ...y Running Time 0 00 600 00 S 60 00 〇 F3 28 0 If output frequency lower limit frequency the inverter will always run as per lower limit frequency The lower limit frequency is set by F0 18 F3 28 1 If output frequency lower limit frequency the inverter runs per lower limit frequency first and then runs at zero speed after the lower limit frequency running time reaches the setting value of F3 29 The f...

Page 110: ... save the initial parameters defined by user When the parameters are edited by mistake the inverter cannot work normally please download the parameter to resetuser parameters 8 5 F4 Group General Parameters of PID PID control is a close loop control mode which feedbacks the output signal of control object in the system to PID controller and then form one or more close loops by regulating the outpu...

Page 111: ...s stable See Figure 7 13 for the function of three computing factors in PID control mode Error I Control PID Control Time Time D Control Output Variables P Control Figure 7 13 Function of PID Control EM303B PID Control Logic Control logic of internal process PID of EM303B is as shown in Figure 7 14 Through PID close loop control an inverse feedback control system is formed between EM303B and contr...

Page 112: ...s PID setting value F4 00 3 Take input voltage of analog input terminal VF as PID setting value F4 00 4 Convert the input current of analog input terminal IF into the voltage and then take the voltage as PID setting value F4 00 5 Take VP input voltage set by keypad potentiometer as PID setting value PID Numeric Setting The data of F4 01 can be directly input by keypad as PID setting value No Funct...

Page 113: ...k of pressure increases The output frequency of inverter needs to drop for reducing pressure and keeping pressure constant While PID should be in positive setting If feedback signal the setting value of PID the output frequency of inverter is required to rise in order to make PID reach balance Take temperature control as an example PID regulator should be under negative setting control No Function...

Page 114: ...ps Output overshoot suppression Shorten the differentiation time GTd and prolong the integration time GTi as shown in Figure 7 15 Output periodic oscillation suppression Shorten the differentiation time GTd or set it as zero and reduce proportion gain GP as shown in Figure 7 16 Output After Adjustment Before Adjustment Time Output Before Adjustment After Adjustment Time Figure 7 15 Output overshoo...

Page 115: ...xample set F0 07 50Hz and F0 11 5 00Hz press JOG key the setting value F0 07 displays as 50Hz then it would not show JOG monitoring parameter F4 18 1 When setting parameters press RUN and JOG on keypad the present display changes as the monitoring parameter F4 19 Forsetting the parameter displayed on keypad when inverter returns parameter setting status For example when inverter stops the paramete...

Page 116: ...z 5 00 〇 F5 06 Switching Frequency 1 Switching Frequency 0 Fmax Hz 10 00 〇 In SVC1 inverter adjusts the speed dynamic response of vector control through regulating speed proportional gain speed integral time and speed differential time of speed PID regulator The dynamic response of speed loop can be accelerated by increasing speed proportion gain shortening speed integration time or prolonging spe...

Page 117: ...etting torque of inverter is bigger than the load torque the output frequency rises When the output frequency reaches the upper limit frequency of torque control inverter always runs as per upper limit frequency and when the setting torque of inverter is less than the load torque the output frequency drops No Function Range Unit Default Type F5 07 Torque Current Acceleration Time 0 000 30 000 S 0 ...

Page 118: ...g value of torque current F5 11 2 Input voltage of analog input terminal VS is the setting value of torque current F5 11 3 Input current of analog input terminal IS is the setting value of torque current F5 11 4 Input voltage of analog input terminal VF is the setting value of torque current F5 11 5 Input current of analog input terminal IF is the setting value of torque current F5 11 7 Combine al...

Page 119: ...oefficient 0 00 150 00 0 F5 17 Static friction acting cut off frequency 0 00 50 00 Hz 2 00 〇 In torque mode the system with large inertia or static friction coefficient generally requires sufficient torque to get a start The torque compensation against static friction can be acquired by F5 15 and F5 17 together Static friction coefficient refers to the additional torque value in normal torque sett...

Page 120: ...0 10 00 0 40 F5 25 Current Loop Integration ACR_Ti 0 00 300 00 mS 10 00 F5 24 and F5 25 are PID regulator parameters of torque current and will affect system performance and stability directly User does not need to change the defaults on general conditions No Function Range Unit Default Type F5 27 Control Mode at Zero Frequency 0 Brake 2 〇 1 Normal 2 No output F5 27 is for the control mode of inve...

Page 121: ...requency of inverter Hz C0 01 C0 02 Input Frequency Torque Upper Limit Frequency Present setting frequency of inverter Hz C0 03 C0 04 Synchronous Frequency Actual output frequency of inverter Hz C0 05 C0 06 Not Used C0 07 Not Used C0 08 Estimated Feedback Frequency Motor running frequency estimated by inverter Hz C0 09 C0 10 Estimated Slip Frequency Slip frequency estimated by inverter Hz C0 11 C0...

Page 122: ... C0 28 VS Input Monitoring 0 10000 C0 29 IS Input Monitoring 0 10000 C0 30 VF Input Monitoring 0 10000 C0 31 IF Input Monitoring 0 10000 Section 2 Advanced Parameters 8 8 F6 Group Simple PLC Function 8 8 1 Options of Program Operation Mode and Time Unit No Function Range Unit Default Type F6 00 Program Operation Mode Ones place Options of programmable speed operation mode 0 Monocycle 1 Run as per ...

Page 123: ...place 0 Options of restart after operation paused In the process of program operation if the external pause input is enabled power fails or fault occurs inverter will re enter operation status and run as per the preset speed at pause F6 00 thousands place 1 Restart from Preset Speed 1 In the process of program operation if the external pause input is enabled power fails or fault occurs inverter wi...

Page 124: ...dec time 2 F6 01 tens place 2 Set as acc dec time 3 F3 17 sets acc time 3 and F3 18 sets dec time 3 F6 01 tens place 3 Set as acc dec time 4 F3 19 sets acc time 4 and F3 20 sets dec time 4 See 7 1 description of acceleration deceleration for the setting method of acc dec time The unit acc dec time is determined by F3 21 and not relative to program operation time unit 1 Definition of acc dec is rel...

Page 125: ...ere acceleration deceleration time refers to the time for the speed adjusted when the operation started or at the end of last section See 7 8 1 for the time unit which is defined by the ten thousands place of F6 00 8 8 4 Skip Frequency To Avoid Mechanical Resonation Setting jump frequency is for avoiding mechanical resonation It is prohibited for inverter running at constant speed in skip frequenc...

Page 126: ...uto operation 1 Terminal Control Tens place Wobbulation input mode 0 Wobbulation operation started after reached the mid point 1 Start wobbulation operation when its preset time is up 00 〇 F6 25 Preset Frequency of Wobbulation 0 00 Fmax 0 0 Fmax Hz 0 00 F6 26 Preset Wobbulation Time 0 00 600 00 S 15 00 F6 27 Upper Limit Frequency of Wobbulation Lower Limit Frequency of Wobbulation Fmax Hz 40 00 F6...

Page 127: ...bbulation F6 25 to the mid point of wobbulation Upper Limit Frequency of Wobbulation Lower Limit Frequency of Wobbulation 2 and then start wobbulation operation F6 24 Tens place 1 After START command wobbulation operation starts directly Setting Preset Wobbulation F6 25 Preset frequency of wobbulation Only when running to the preset frequency of wobbulation inverter starts to judge whether wobbula...

Page 128: ...on Rising Time of Wobbulation Preset Frequency of Wobbulation Mid frequency of Wobbulation Upper Limit Frequency of Wobbulation RUN Wobbulation Operation Wobbulation Operation Lower Limit Frequency of Wobbulation Jump Frequency of Wobbulation Figure 7 21 Wobbulation operation starts when operation frequency reached mid frequency Time t Acc Time Waiting Time of Wobbulation Dropping Time of Wobbulat...

Page 129: ...inverter will run continuously F7 00 tens place 1 When reaching the overload pre alarming scale inverter will pre alarm first and stop automatically after delayed for a while The delay time is set by F7 03 Please use this function with the overload pre alarm function of multi function output terminal in order to obtain output display before inverter stopped No Function Range Unit Default Type F7 0...

Page 130: ...0 50 00 F7 08 Analog ADT2 Hysteresis 0 00 100 00 Monotonic decreasing is active 5 00 F7 09 Analog ADT3 0 00 100 00 80 00 F7 10 Analog ADT3 Hysteresis 0 00 100 00 Monotonic decreasing is active 5 00 Analog ADT function can monitor present analog value of analog input terminal and output alarming signal Analog ADT Options F7 04Analog ADT Options Options of analog ADT input terminals F7 05Analog ADT1...

Page 131: ...0 100 00 F7 13 Jog M0 Output Gain 0 00 300 00 95 00 F7 14 Jog M1 Output Lower Limit 0 00 100 00 0 00 F7 15 Jog M1 Output Upper Limit 0 00 100 00 100 00 F7 16 Jog M1 Output Gain 0 00 300 00 95 00 In jog running mode M0 M1 output can be switched as different meanings from normal running Analog output gain and the upper and lower limit are only for M0 M1 and not related to present running status F7 1...

Page 132: ...e 0 01 20 00 S 1 00 F7 24 sets the filter time of slip signal if slip compensation is enabled If the filter time is too little it will result in system running unstably and if the filter time is too much it will cause compensation responding slowly 8 9 6 Stator Voltagedrop Compensation Gain No Function Range Unit Default Type F7 25 Stator Voltagedrop Compensation Gain 0 00 200 00 100 00 F7 25 is f...

Page 133: ...s F8 00 ones place 0 the linear range of terminal VS voltage input 0 10V 0 100 See Figure 7 25 F8 00 ones place 1 the linear range of terminal VS voltage input 2 10V 0 100 See Figure 7 26 Tens place VF voltage options F8 00 tens place 0 the linear range of terminal VF voltage input 0 10V 0 100 See Figure 7 25 F8 00 tens place 1 the linear range of terminal VF voltage input 2 10V 0 100 See Figure 7...

Page 134: ...Input 4 20mA Figure 7 28 Analog Current Input 0 20mA 8 10 2 Filtering Analog Signal No Function Range Unit Default Type F8 03 VP Filter Time 0 00 60 00 S 0 10 F8 04 VS Filter Time 0 00 60 00 S 0 10 F8 05 IS Filter Time 0 00 60 00 S 0 10 F8 06 VF Filter Time 0 00 60 00 S 0 10 F8 07 IF Filter Time 0 00 60 00 S 0 10 Filter the analog signal to clearsignal interference If the filtering time is too lon...

Page 135: ...e 0 1 2 corresponding to input output bias 0 1 2 Thousands place IF current bias options F8 01 thousands place 0 1 2 corresponding to input output bias 0 1 2 VP Bias Options F8 02 ones place 0 1 2 corresponding to input output bias 0 1 2 8 10 4 Setting Bias Curve of Analog Setting Signal No Function Range Unit Default Type F8 08 Output Bias 0_0 0 00 100 00 0 00 F8 09 Output Bias 0_1 0 00 100 00 25...

Page 136: ... IS IF 4 20mA see Figure 7 29 b for the input output bias 2 See Table 7 7 for setting parameter Table 7 7 No Setting Value No Setting Value F8 08 100 00 F8 12 0 00 F8 09 70 00 F8 13 40 00 F8 10 40 00 F8 14 75 00 F8 11 0 00 F8 15 100 00 If analog input is VS VF 0 10V or IS IF 0 20mA see Figure 7 29 C for the input output bias If analog input is VS VF 2 10V or IS IF 4 20mA see Figure 7 29 d for the ...

Page 137: ...ameter Editing Mode No Function Range Unit Default Type F9 01 Parameter Editing Mode 0 Editable through keypad and RS485 1 Editable through keypad 0 〇 F9 01 0 Inverter parameters can be set via keypad or RS485 communication F9 01 1 Inverter parameters can be edited and set via keypad 8 11 2 Data Input Control Mode No Function Range Unit Default Type F9 02 Numeric Input Control Mode Ones place Nume...

Page 138: ...for F0 07 Speed Setting 8 11 3 Speed Setting Mode No Function Range Unit Default Type F9 03 Speed Setting Mode Ones place Integrated speed input mode 0 Primary speed setting mode 1 Auxiliary speed setting mode 2 Primary speed setting auxiliary speed setting Tens place Speed setting mode under jog control 0 Jog numeric speed setting mode 1 Jog numeric speed setting mode primary speed setting mode 2...

Page 139: ...Primary speed auxiliary speed F9 03 hundreds place 1 Primary speed auxiliary speed 1 Please confirm the integrated speed setting mode first and then confirm the primary speed setting mode and the setting method in jog control mode 2 Primary speed setting auxiliary speed setting can be considered as converting those 2 signals into 0 10V voltage signal and then take the sum of them as the integrated...

Page 140: ... In stopping state the setting frequency is changed as F0 07 F9 04 5 Stepping Mode 3 Starting frequency is 0Hz When terminal UP DOWN is on the starting frequency will rise drop as per F9 07 UP DOWN frequency rate When terminal UP DOWN is off the starting frequency will remain present output frequency unchanged F9 04 6 Stepping Mode 4 Starting frequency is F0 07 primary numeric frequency setting Wh...

Page 141: ... current signals IS and IF F9 05 8 Setting frequency is set by the greater value between K3 VS and K5 VF Inputs of 2 terminals F9 05 9 Setting frequency is set by the greater value between K4 IS and K6 IF Inputs of 2 terminals F9 05 10Setting frequency is set by K1 VP K2 K3 VS K4 IS K5 VF K6 IF K8 5V All input signals 8 11 6 Multi function Output Related to Frequency Detection No Function Range Un...

Page 142: ... F9 13 FDT1 Decreasing Threshold 0 00 Fmax 0 0 Fmax Hz 30 00 〇 F9 14 FDT2 Increasing Threshold 0 00 Fmax 0 0 Fmax Hz 30 00 〇 F9 15 FDT2 Decreasing Threshold 0 00 Fmax 0 0 Fmax Hz 30 00 〇 If multi function output or relay output 2 Output Frequency Detection Range FDT1 and if the output frequency of inverter rises to the setting value of FDT1 increasing threshold F9 12 the corresponding terminal wil...

Page 143: ...ng continuously by calculating ramp to stop time automatically based on load When power resumed in ramp to stop inverter runs normally F9 20 The DC bus voltage of non stop at instantaneouspower failure is taken the setting value of F9 20 as the target value for adjusting deceleration time F9 21 F9 23 are for calculating and adjusting the deceleration time of non stop at instantaneouspower failure ...

Page 144: ... inverter starts speed search it will start from the maximum frequency F9 28 1 Stop frequency When inverter starts speed search it will start from the frequency when inverter stops F9 28 2 Setting frequency When inverter starts speed search it will start from50Hz No Function Range Unit Default Type F9 26 Voltage Resume Time of Speed Search 0 00 5 00 S 0 30 When F9 28 2 inverter will start speed se...

Page 145: ...t 0 〇 FA 06 When torque setting mode is regular torque input FA 06 is defined by setting of F5 11 FA 06 is for selecting corresponding torque input mode 8 12 2 Preset Current Limit No Function Range Unit Default Type FA 07 Preset Current Limit 1 0 00 180 00 150 00 〇 FA 08 Preset Current Limit 2 0 00 180 00 150 00 〇 FA 09 Preset Current Limit 3 0 00 180 00 150 00 〇 FA 10 Preset Current Limit 4 0 00...

Page 146: ... mH XXXX 〇 FA 27 Motor 2 Efficiency 30 0 99 0 XXXX 〇 FA 21 FA 27 are motor parameters Users cannot know these parameters on general conditions please obtain the parameters by motor parameter autotuning Before motor parameter autotuning inverter will set the motor nameplate parameters which are set by FA 14 FA 20 as the standard motor parameters automatically 8 13 FC Group Parameters of Operation C...

Page 147: ... 03 1 Fan runs while inverter is running FC 04 selects the delay time for fan turned on In default status the fan will stop after the inverter is stopped for 30 seconds 8 13 3 Reset Previous Working Status No Function Range Unit Default Type FC 06 Reset previous working status at power on 0 Not Reset 1 Reset 0 〇 FC 06 0 Inverter will not reset previous working status FC 06 1 Inverter remains the p...

Page 148: ...Enabling Process Overcurrent stall is only enabled in V F control mode It is recommended for the applications with big inertia fans or multi motor driven by single inverter 8 13 5 Overcurrent Stall Current FC 08 is for setting overcurrent stall current If the output current of inverter the setting value of FC 08 the overcurrent stall control is enabled for controlling the output current the settin...

Page 149: ...st load current automatically and make a record of time If the setting time of FC 13 can meet energy saving needs the output voltage shall be dropped to energy saving permitted range Set by FC 14 to start energy saving operation When output frequency the starting frequency of energy saving or load is increasing inverter will withdraw from energy saving operation status Output voltage will reset co...

Page 150: ... setting value of FC 16 is the stronger the brake capability is When setting brake duty ratio please take the resistance and capacity of braking resistor The function is only for the built in braking unit 8 13 12 Over modulation Coefficient No Function Range Unit Default Type FC 17 Over modulation Coefficient 1 00 1 10 1 05 If input voltage of inverter output voltage the utility of DC bus will be ...

Page 151: ...lace Not Used Tens Place Dynamic brake options 0 Braking resistor disabled 1 Braking resistor is enabled in operation 2 Braking resistor is enabledat power on Hundreds place Not Used Thousands place Voltage stall protection mode 0 Void 1 Under voltage stall effective 2 Over voltage stall effective 3 Both under voltage stall and over voltage stall effective 2000 〇 Generally DC bus overvoltage is ca...

Page 152: ...oltage stall protection is void When brake resistance is connected for quicker acceleration or deceleration set this value FC 19 Thousands place 1Under voltage stall protection is effective When power supply fails or bus voltage drops abruptly to keep running normally the inverter automatically decelerates as per proper deceleration time and bus voltage gets normal FC 19 Thousands place 2Over volt...

Page 153: ...ocess output will stop It will reset fault after the fault is cleared and it will restart and run for 1 2 3 times The time for inverter running without fault exceeds no fault timelag F1 26 Fault retry times reset the setting value of F1 24 ones place If fault retry times exceeds 1 2 3 times fault still occurs then there is no auto reset FC 24 ones place 4 If inverter trips fault in running process...

Page 154: ...used Fault retry control is bit operation Only the corresponding bit has to be set as 0 or 1 As shown in the table below Fault Code Ol IlP SlU SOU SOC HOU HOC Bit 6 5 4 3 2 1 0 Value 0 1 0 1 0 1 0 1 0 1 0 1 0 1 For instance SOU and OL fault retry is permitted and the other faults retries are prohibited Only the Bit 3 corresponding to SOU and Bit 6 corresponding to OL have to be set as 0 the other ...

Page 155: ...6 corresponding to EST as 1 i e FC 29 01000010 1 Unless special needs please do not disable any protection function in order to avoid that inverter is damaged if there is not fault protection when the faults occurs 2 OL1 is motor overload Fault display is also as OL Generally motor overload is longer than inverter overload so that the relative settings do not need to be changed 8 14 Fd Group Auxil...

Page 156: ...e motor frequency and voltage setting are correct 8 14 2 Auto Torque Boost No Function Range Unit Default Type Fd 09 Torque Boost Voltage 0 00 10 00 0 00 Fd 10 Cut off Frequency of Torque Boost 0 00 100 00 20 00 Fd 09 and Fd 10 are to boost the low frequency torque of inverter and to output high torque at low frequency The parameters cannot be set too big otherwise it will cause overcurrent If ove...

Page 157: ... 60 660 V XXX X Fd 23 Inverter Rated Current 0 1 1500 0 A XXXX X Parameters of Fd 21 Fd 23are read only for the users Please check if the parameters are in accordance with the nameplate before inverter start up 8 14 5 Review and Setting Running Time of Inverter No Function Range Unit Default Type Fd 24 Inverter Running Time User monitoring HOUR XXXX X Fd 25 Inverter Running Time User monitoring mi...

Page 158: ...too many filter times 8 15 2 Options of Input Terminal Logic No Function Range Unit Default Type FE 01 Terminal Input Positive Negative Logic X7 X6 X5 X4 X3 X2 X1 00000000 〇 0 0 0 0 0 0 0 0 Positive Logic On at 0V Off at 24V 1 Negative Logic Off at 0V On at 24V FE 01 0 Positive logic multi function terminal is on at 0V and off at 24V FE 01 1 Negative logic multi function terminal is off at 0V and ...

Page 159: ...VS 0 VS is on at high level input 1 VS is off at low level input Tens place Input terminal IS 0 IS is on at high level input 1 IS is off at low level input Hundreds place Input terminal VF 0 VF is on at high level input 1 VF is off at low level input Thousands place Input terminal IF 0 IF is on at high level input 1 IF is off at low level input 0000 〇 When FE 04 selects numeric input mode FE 05 se...

Page 160: ...Voltage V Pulse Wideband Terminal Output Pulse Terminal Output Voltage Control Program Input Figure7 36 Output Waveform Selection Figure7 37 Output Waveform Selection 8 15 6 Virtual Terminal Function No Function Range Unit Default Type FE 08 Virtual Terminal Options Ones place Terminals Y1 Y2 R1 0 Actual output terminal 1 Virtual output terminal Tens place Multi function Input Terminal Xi 0 Actual...

Page 161: ... in Figure 7 38 Time T Voltage V Terminal Output Voltage Terminal Output Pulse Pulse Wideband Control Program Input Delay Time Figure 7 38 Terminal Output Delay Time 8 15 8 Distinguish Similar Faults No Function Range Unit Default Type FE 20 SC and EMC Faults Display 0 SCDrive failure 1 EMCEnvironment failure 0 X FE 21 SlU andSOFT Faults Display 0 SlU Stable undervoltage fault 1 SOFT Soft start fa...

Page 162: ...f 3 phase AC Induction Motor R1 L1 R2 L2 Lm and I0 in Figure 8 1 refers to stator resistance stator inductance rotor resistance rotor inductance stator and rotor mutual inductance and idling excitation current respectively Leakage inductance Ls L Lm 9 2 Precautions Before Autotuning Autotuning is a process of autotuning motor parameters EM303B can autotune motor parameters in 2 modes stationary au...

Page 163: ... rated voltage F1 03 Motor rated current F1 04 Motor rated frequency F1 05 Motor rated speed F1 06 Motor wiring method F1 07 Motor rated power factor Set F1 15 1 inverter performs stationary autotuning Set F1 15 2 inverter performs rotational autotuning It takes about 2 minutes to finish autotuning motor parameters and the keypad displays returns the initial power on status Pressing STOP RESET to ...

Page 164: ... inverter output phases or between the output phases and ground 2 The acceleration deceleration time is too short 3 In V F control mode the setting value of torque boost is too big 4 The motor is rotating when inverter starts 5 The capacity of motor exceeds that of inverter or the load the too heavy 1 Check take corrective actions and then reset 2 Prolong acceleration deceleration time 3 Reduce se...

Page 165: ...tion time Reduce setting value of torque boost Replace with the inverter which is applicable to the load Check if the motor cannot stop by other load OH Heat Sink Overheating 1 Ambient temperature is too high 2 Poor ventilation 3 Cooling fans are broken down The service environment of inverter should meet the requirements Improve environmental ventilation and check if the vent of inverter is block...

Page 166: ... not connected to the output terminal of inverter 2 Motor vibrates severely and 3 phase current is in serious imbalance 1 Check connection between inverter and motor 2 Check if the motor is damaged When inverter trips faults as stated above press STOP RESET or use reset terminal to clear fault If the fault is cleared inverter will return the function setting status Otherwise the trip code will be ...

Page 167: ...rol mode Setting reference input frequency 0 Increase reference input frequency Power supply is abnormal or control circuit fails Control terminals RUN F R ON the motor does not run The external terminal start stop setting is disabled Check the setting of F0 04 Coast to stop terminal FRS ON Switch FRS OFF Control switch is disabled Check control switch Setting reference input frequency 0 Increase ...

Page 168: ...g time The power of inverter shall match that of motor The motor rotor is blocked due to the failure of motor or load fault Excessively high ambient temperature When the ambient temperature of inverter exceeds the permitted value the temperature might exceed the permitted highest value of inverter when it works in the rated status 10 2 6 Electromagnetic Interference EMI and Radio frequency Interfe...

Page 169: ...27 or install the shake proof rubber on the chassis of motor or any other shake proof measures PID Control Oscillation Improper setting of PID controller s regulation parameters P Ti and Td please reset PID parameters 10 2 9 Inverter Stops Output While Motor Runs Insufficient DC brake at stop DC brake torque at stop is too small Please increase setting value of DC brake current at stop F3 25 DC br...

Page 170: ... should not be overheating The ambient temperature should not be too high The output current value shown on the monitoring displays should not be higher than normal value The cooling fan at the bottom of the inverter should be in normal operation 11 3 Periodic Maintenance Periodic maintenance ensures that the inverter receives the proper care to maintain overall performance Always turn the power s...

Page 171: ...ic Capacitor 4 5 Years PCBA 5 8 Years The standard replacement period is based on the following application conditions Ambient temperature Yearly average of 30 Load factor 80 maximum Operation rate 12 hours maximum per day 11 5 Outline of Warranty SINEE will provide warranty service under following circumstances 1 Warranty is only for inverter 2 Authorized distributors of SINEE will take responsib...

Page 172: ...n keypad extension wire exceeds 10 meters it is required to use the special remote operation keypad in case of signal disorder caused by line loss When keypad extension wire exceeds 10 meters please take anti interference measures to maintain inverter in normal work status The external terminal control is suggested if the inverter needs to be operated beyond 20 meters 12 2 Remote Control Case The ...

Page 173: ...e Size mm2 EM303B 0R7G 1R1P 3B 0 75 360 112 5 1 EM303B 1R1G 1R5P 3B 1 1 360 165 1 EM303B 1R5G 2R2P 3B 1 5 180 225 1 5 EM303B 2R2G 3R0P 3B 2 2 180 330 1 5 EM303B 3R0G 4R0P 3B 3 0 180 450 1 5 EM303B 4R0G 5R5P 3B 4 0 90 600 2 5 EM303B 5R5G 7R5P 3B 5 5 60 825 4 EM303B 7R5G 9R0P 3B 7 5 60 1125 4 EM303B 9R0G 011P 3B 9 0 60 1350 4 EM303B 011G 015P 3B 11 30 1650 6 EM303B 015G 018P 3B 15 30 2250 6 Remarks ...

Page 174: ...cable and take the cable which meets the insulation and cross section requirements Table 11 2 Cable for Braking Unit and Braking Resistor Model No Average Brake Current Iav A Peak Brake Current Imax A Cross section of Copper Cable mm2 BR100 045 45 75 6 BR100 160 75 150 10 BR100 315 120 300 16 Soft cable possesses a better flexibility so copper cable soft heat proof cable or flame proof cable is su...

Page 175: ...370 213 8 EM303B 090 253mm 300 243 13 EM303B 110 132 253mm 300 258 13 EM303B 160 200 308mm 416 293 13 EM303B 220 280 300mm 500 340 13 EM303B 315 400 355mm 720 339 13 Tighten the screws on the back and 2 sides of the inverter housing Figure 11 3 Chassis for Floor Mounting Figure 11 4 Installation Dimensions of Chassis D Figure 11 4Installation Dimensions of Foundation Bolts ...

Page 176: ...g can be done externally Please order the copper bars if needed and users take all responsibilities of the assembly of the copper bar See Figure 11 5 for details Copper Bars for Connecting Input Cables Insulation Pin Mounting Bolts Copper bar for connecting output cables Figure 11 5 Assembling the Copper Bar Inverter Model No Accessories EM303B 220 280 Copper bars mounting bolts insulation pins EM...

Page 177: ... 1 1 8 O 1 1 8 E 1 optional bits rates 4800bps 9600bps 19200bps and 38400bps Shielded twisted pair cable is recommended Communication cable to lower external interference 13 3 Protocol Format CRC Parity Initial Block of Frame Idle Periods of 4 Bits Address of Slave Command Code Data Stop Block of Frame Idle Periods of 4 Bits ADU Figure 12 1 Protocol Format The parity in ADU Application Data Unit i...

Page 178: ...2 0x0000 0xFFFF CRC parity 2 Slave responds Address of slave 1 Inverter address Command code 1 0x06 Register address 2 0x0000 0xFFFF Register data 2 0x0000 0xFFFF CRC parity 2 Command code 0x10 Write several function codes or control parameters of inverter ADU Item Byte No Range Master requests Address of slave 1 0 127 Command code 1 0x10 Register start address 2 0x0000 0xFFFF Register number 2 0x...

Page 179: ...tion codes or control parameters of inverter 08H Circuit diagnosis and setting 13 5 3 Allocation of Register Addresses Name Address Description Function Code 0000H 1F1FH Saving Address High byte is the function code group number F0 FF C0 and E0 are corresponding to high bytes 00H 0FH 10H and 11H respectively Low byte is serial number of function code group 0 31 corresponding to low bytes 00H 1FH F...

Page 180: ...will not be calculated 3 Collect and check LSB the least significant bit of CRC parity register 4 If LSB is 1 shift each bit of CRC parity register rightwards by 1 bit the highest bit filled with 0 Conduct XOR calculation between the value of CRC register and A001H and then upload the result to CRC parity register 5 If LSB is 0 shift each bit of CRC parity register rightwards by 1 bit the highest ...

Page 181: ...nd code Error code 1 0x01 0x13 CRC parity Low bytes go first 2 Responding command code at normal Communication and error Communication Responding Command Code at Normal Communication Responding Command Code at Error Communication 03H 83H 06H 86H 10H 90H 08H 88H Description of Error Code Error Code Description Error Code Description 01H Exceptional command code 06H Slave is busy 02H Exceptional dat...

Page 182: ...ted Circuit Diagnosis 13 6 Description of Control Command Control Command 1 Register Address 4000H or 7000H Data Meaning Data Meaning 0000H Disabled Command 0006H Ramp to Stop 0001H Forward Running 0007H Coast to Stop 0002H Reverse Running 0008H Fault Reset 0003H JOG Forward 0009H Input Switch 0004H JOG Reverse 000AH Not Used 0005H Slave inverter Stops 000BH Not Used Control Command 2 Register Add...

Page 183: ...5H 88H Receiving Sequence 0 1 2 3 4 5 6 7 8 9 Data 01H 06H 70H 01H 0BH B8H C5H 88H Write F0 09 5 00 seconds the acceleration time 1 of Inverter No 01 Transmitting Sequence 0 1 2 3 4 5 6 7 8 9 Data 01H 06H 00H 09H 01H F4H 59H DFH Receiving Sequence 0 1 2 3 4 5 6 7 8 9 Data 01H 06H 00H 09H 01H F4H 59H DFH Remarks For frequent modified function codes the function code address 2000H is to prevent the ...

Page 184: ...ing of common communication Set frequency by communication the inverter trips EED fault Cause Frequency is changed by communication address 0007H of F0 07 as EEPROM is frequently stored for more than the erasure times allowed it gets damaged Solution For the code frequently modified please change address 2000H of this code For example address 2000H of F0 07 is changed as 2007H ...

Reviews: