Users Manual SM5 INVERTER. Subject to changes without notice December, 2001

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1 Users Manual SM5 INVERTER Subject to changes without notice December, 2001

2 1 SM5 Contents 1. SAFETY Warnings Safety Instructions Earthing Running The motor RECEIVING Type designation code Storing Warranty TECHNICAL DATA General Power rating Specification Brake Resistor INSTALLATION Ambient condition Cooling Mounting Mounting Wiring Power connections Installation instructions Cable and motor insulation checks Cable and motor insulation checks Control Connection Control cable Galvanic isolation barriers Keypad Instruction Keypad operation Keypad detach and install Detach VVVF Control General Control connection Parameter Group 1 : Basic parameter Group 2 : Multi-Step Parameter Group 3 : Control Parameter Group 4 : Initializing parameter Description of parameters Fault and Monitoring Fault tracing Fault Scan Monitoring Vector Control Mode(Closed Loop) Wiring Parameter...42

3 SM Group 1 : General parameter Group 2 : Level parameter Group 3 : Gain parameter Group 4 : Multi-Step parameter Group 5 : Select set parameter Group 6 : Initializing parameter Description of parameter Others Fault Fault Scan Monitoring... 58

4 3 SM5 1. SAFETY ONLY A COMPETENT ELECTRICIAN SHOULD CARRY OUT THE ELECTRICAL INSTALLATION 1.1 Warnings 1 Internal 2 When 3 The 4 SM5 5 If 6 Only components and circuit boards (except the isolated I/O terminals) are at mains potential when the SM5 is connected to the mains. This voltage is extremely dangerous and may cause death or sever injury if you come in contact with it. the SM5 is connected to the mains, the motor connections U, V, W and DC-link/Brake resistor connections -,+ are live even if the motor is not running. control I/O terminals are isolated from the mains potential but the relay outputs and other I/Os may have dangerous voltage connected even if the power is disconnected from the SM5. has a large capacitive leakage current. an Inverter is used as a part of the machine, the machine manufacture is obliged to take care that the inverter has a main switch in the machine. spare parts delivered by SM5 can be used. 1.2 Safety Instructions 1 Do not make any connections or measurements when the SM5 is connected to the mains. 2 After disconnecting the mains, wait until the unit cooling fan stops and the indicators of the keypad are extinguished. Wait a further 5 minutes before doing any work on SM5 connections. Do not open even the cover before this time has run out. 3 Do not make any voltage withstand tests on any part of the device. 4 Disconnect 5 Do motor cables before making any measurements on the motor cable. not touch the IC-circuits on the circuit boards. Static voltage discharge may destroy the components.

5 SM5 4 6 Before connecting the mains make sure that the cover of the SM5 is closed. 1.3 Earthing The inverter must always be earthed with an earthing conductor connected to the earthing terminal. 1.4 Running The motor For your own safety, please pay attention to the instructions marked with this warning symbol. = Dangerous voltage = General warning 1 Before 2 Maximum 3 Before running the motor, make sure that the motor is mounted properly. motor speed(frequency)should always be set according to the motor and machine connected to the motor. reversing the rotation of the motor shaft, make sure that this can be done safely.

6 5 SM5 2. RECEIVING This SM5 inverter has been subjected to demanding factory tests before shipment. After unpacking, check that the device does not show any signs of damage and that the delivery is complete (refer to the type designation code in figure 2-1). In the event of damage, please contact the insurance company involved or the supplier. If the delivery is not in compliance with the order, please contact the supplier immediately. Note! Do not destroy the export packing. 2.1 Type designation code 90 SM4 4 Y Nominal power of the unit Product range Nominal mains voltage 2 = 220V - 230V 4 = 380V - 460V Figure 2-1 Type designation code Internal brake chopper option Y : built-in brake chopper N : no brake chopper 2.2 Storing If the device must be stored before commissioning, check that the ambient conditions in the storage room are acceptable (temperature 40 ~ +60 degrees; relative humidity < 95%, no condensation allowed). 2.3 Warranty The warranty covers defects in manufacture. The manufacturer carries no responsibility for damage occurred during transport or unpacking. In no event and under no circumstances shall the manufacture be liable for damages and failures due to misuse, abuse, improper installation or abnormal conditions of temperature dust or corrosives or failures due to operation or storage outside the rated specifications. The manufacture shall never be liable for consequential damages. If any queries concerning the warranty arise, please contact your distributor.

7 SM TECHNICAL DATA 3.1 General Figure 3-1 show a block diagram of the SM5 inverter. Diode Bridge produces the DC voltage for the IGBT inverter Bridge block. The IGBT bridge produces a symmetrical three-phase PWM modulated AC voltage to the motor. The power drawn from the supply is almost entirely active power. The Motor Control block is based on microprocessor software. The microprocessor controls the motor according to measured signals, parameter value settings and commands from the Control I/O block and the Keypad. And it calculates the IGBT switching positions. Gate Drivers amplify these signals to drive the IGBT inverter bridge. The Keypad is a link between the user and the inverter. With the Keypad the user can set parameter values, read status data and give control commands. The Keypad is removable and can be mounted externally and connected via a cable to the inverter. The Control I/O block is isolated from the mains potential and is connected to earth via a 1MΩ resistor and 4.7nF capacitor. Brake Resistor Optional Brake Chopper L1 L2 L3 Rectifier 3~ Charging Resistor IGBT inverter 3~ Current sensors u v w Fan Power supply Measurements Gate Drivers + IGBT protection PE Keypad RS-232 Motor and Application Control Programable ROM (U4) (VT/ST/PF) Control I/O Figure 3-1 SM5 block diagram

8 7 SM5 3.2 Power rating Main Voltage 380V ~ 460V, 50/60Hz VVVF/VECTOR Series Inverter Type Motor shaft power and current Constant torque Dimension W H D P(kW) I CT I CTmax Size (mm) SM M SM5 11 SM5 15 SM SM M SM5 30 SM5 37 SM M SM5 55 SM5 75 SM M SM5 110 SM5 132 SM M SM5 200 SM5 250 SM M SM M Table V-460V Power ratings and dimension of SM5 VVVF/VECTOR series Main Voltage 380V ~ 460V, 50/60Hz Pump & Fan Series Inverter Type Motor shaft power and current Variable torque Dimension W H D P(kW) I VT Size (mm) SM M SM5 11 SM5 15 SM SM5 22 SM5 30 SM5 37 SM5 45 SM5 55 SM5 75 SM5 90 SM5 110 SM5 132 SM5 160 SM5 200 SM5 250 SM M5 M6 M7 M8 M SM M Table V-460V Power ratings and dimension of SM5 Pump & Fan series

9 SM5 8 Table V Power ratings and dimension of SM5 VVVF/VECTOR series Main Voltage 220V, 50/60Hz VVVF/VECTOR Series Inverter Type SM5 4 SM5 5.5 SM5 7.5 Motor shaft power and current Constant torque Size P(kW) I CT I CTmax M5 Dimension W H D (mm) SM5 11 SM5 15 SM SM M SM5 30 SM5 37 SM M SM M Main Voltage 220V, 50/60Hz Pump & Fan Series Inverter Type Motor shaft power and current Variable torque Size P(kW) I VT Dimension W H D (mm) SM5 5.5 SM5 7.5 SM M SM5 15 SM SM5 22 SM M SM5 37 SM5 45 SM M SM M Table V Power ratings and dimension of SM5 Pump & Fan series I CT I CTmax I VT = rated input and output current (constant torque load, max. 40 degree ambient) = short term overload current 1min/10min (constant torque load, max. 40 ambient) = rated input and output current (variable torque load, max. 40 degrees ambient) * = Ask factory for details

10 9 SM5 3.3 Specification Mains connection Input voltage V in 3Phase, 220V AC, V AC ;±10% Input frequency 45Hz ~ 66Hz Connection to the mains Once per minute or less (normally) Output voltage 0 ~ V in Motor connection Control characteristics Continuous output current Starting torque 180% Output frequency / speed Frequency / speed resolution Control method Switching frequency I CT : ambient max + 40~, overload 1.5 I CT (1min/10min) I VT : ambient max + 40 degrees, no overloading VVVF : Hz / CL Vector : 07200[rpm] VVVF : 0.1Hz / CL Vector : 1[rpm] VVVF / CL Vector kHz (depending on capacity) Frequency Analog I/P Resolution 10bit, accuracy ±1% reference Keypad reference Resolution 0.1Hz Field weakening point Acceleration time Deceleration time Braking torque VVVF : 40 ~ 120Hz / Vector : 200 ~ 7200[rpm] VVVF : 0.5 ~ 3600s / CL Vector : 0.2 ~ 3600s VVVF : 0.5 ~ 3600s / CL Vector : 0.2 ~ 3600s 150% * T n (with brake resistor option) Environmental Storage temperature -40 degrees ~ +40 degrees limits Relative humidity < 95%, no condensation allowed Control connections Analog voltage Analog current Digital input Auxiliary voltage Analog output Digital output 0 ~ +10V, R i = 200kΩ (-10 ~ +10V, joystick control), resolution 10bit 0(4) ~ 20mA, R i = 250Ω, differential Negative logic +24V±20%, max. 100mA 0(4) ~ 20mA, R L < 500Ω, resolution 8bit Open collector, 50mA/48V Relay outputs BR FO Max switch voltage : 250V AC, 30V DC Max switch current : 8A Max switch voltage : 250V AC, 30V DC Max switch current : 5A Table 3-5 Specifications (continues on the next page...)

11 SM5 10 Protective functions IGBT protection Overcurrent protection Overvoltage protection Undervoltage protection This special feature provides full protection of the IGBTs in the SM5 inverter unit from malfunction of the unit due to abnormal harsh operation environment. Trip limit : max 3.0 I CT (Programmable) Trip limit : max 1.35 normal V DC Normal V DC : Set supply voltage 2 Trip limit : min 0.6 normal V DC (Programmable) Normal V DC : Set supply voltage 2 Unit over temperature Yes Motor overload protection Yes Stall protection Yes Table 3-5 Specifications 3.4 Brake Resistor See table 3-6 for the standard brake resistor of SM5. Glass wool wire should be used for brake resistor cables. VVVF/VECTOR V Pump & Fan Resistance Power SM SM Ω 3kW SM SM Ω 6kW SM SM Ω 12kW SM SM * * SM SM * * SM SM * * Recommended power rate of brake resistor in %ED=20% VVVF/VECTOR 220V Pump & Fan Resistance Power SM SM Ω 2kW SM SM Ω 4kW SM SM Ω 8kW SM5 55 SM5 75 1Ω 12kW Table 3-6 Standard brake resistor (*=ask factory for detail)

12 11 SM5 4. INSTALLATION 4.1 Ambient condition The environmental limits mentioned in the table 4-1 must not be exceeded. 4.2 Cooling The specified space around the inverter unit ensures proper cooling air circulation. See table 4-1 for dimensions. If multiple units are to be installed above each other, the distance between the units must be b+c and air from the outlet of the lower unit must be directed away from the inlet of the upper unit. SIZE Dimension(mm) a a2 b c M M M (35 * ) (60 * ) M8 250 ** 75 M9 200 ** (95 * ) M10 *** *** *** - Figure 4-1 Installation space Table 4-1 Installation space dimensions a2 = distance from the inverter unit to other the inverter unit * = no space for fan change ** = space for fan change, the space has to be on either side of the inverter *** = ask factory for details

13 SM Mounting The inverter should be mounted in a vertical position on the wall or on the back plane of a cubicle. Follow the requirement for the cooling, see table 4-1 and figure 4-1 for dimensions. To ensure a safe installation, make sure that the mounting surface is relatively flat. Fixing is done with four screws or bolts depending on the size of the unit, see figure 4-2 and table 4-2. A Type B Type C Type Figure 4-2 Mounting dimensions (A, B, C Type) SIZE M4 M5 M6 M7 M8 M9 M10 Dimension(mm) W1 W2 H1 H2 H3 H4 D1 R1 R2 Mounting Type * * * * * * * A A A A A B C Table 4-2 Dimension for SM5 * = Ask factory for details

14 13 SM5 5. Wiring Reference (voltage) Reference (current) 10V ref V in GND ref IIN+ IIN- X3 5V 0V A- A+ B- B+ I OUT + PG It is used to Vector Control. 0/20mA R L <500ohm DI1 I OUT - DI2 JOG FI RI TR V < 48Vdc I < 50mA DO1 EN* GND MS1 RELAY < 8A/250Vac < 5A/ 30Vdc BRA BRC FOA for brake control MS2 FOC MS3 BC RELAY < 5A/250Vac < 5A/ 30Vdc FOB Fault output 24V L1 L2 L3 PE - + U V W L1 L2 L3 Brake Resistor M ( * : Note! Remember to close digital input EN for start of the motor.) Figure 5-1 General wiring diagram of SM5 (M4 M5)

15 SM5 14 L1 L2 L3 PE L1 L2 L3 Reference (voltage) Reference (current) 10V ref V in GND ref I IN + I IN - X3 5V 0V A- A+ B- B+ I OUT + PG It is used to Vector Control. 0/20mA R L <500ohm DI1 I OUT - DI2 JOG FI RI TR V < 48Vdc I < 50mA DO1 EN* BRA GND MS1 MS2 RELAY < 8A/250Vac < 5A/ 30Vdc BRC FOA FOC for brake control MS3 GND RELAY < 5A/250Vac < 5A/ 30Vdc FOB Fault output 24V - + U V W Brake Resistor M ( * : Note! Remember to close digital input EN for start of the motor.) Figure 5-2 General wiring diagram of SM5 (M6 - M7)

16 15 SM5 Reference (voltage) Reference (current) 10V ref V in GND ref I IN + I IN - X3 5V 0V A- A+ B- B+ I OUT + PG It is used to Vector Control. 0/20mA R L <500ohm DI1 I OUT - DI2 JOG FI RI TR V < 48Vdc I < 50mA DO1 EN* GND MS1 RELAY < 8A/250Vac < 5A/ 30Vdc BRA BRC FOA for brake control MS2 FOC MS3 BC RELAY < 5A/250Vac < 5A/ 30Vdc FOB Fault output 24V L1 L2 L3 PE U V W + - L1 L2 L3 M Brake Resistor ( * : Note! Remember to close digital input EN for start of the motor.) Figure 5-3 General wiring diagram of SM5 (M8)

17 SM5 16 Brake Resistor L1 L2 L3 + - Reference (voltage) Reference (current) 10V ref V in GND ref I in + I in - X3 5V 0V A- A+ B- B+ I out + PG It is used to Vector Control. 0/20mA R L <500ohm DI1 I out - DI2 JOG FI RI TR V < 48V dc I < 50mA DO1 EN* GND MS1 RELAY < 8A/250V ac < 5A/ 30V dc BRA BRC FOA for brake control MS2 FOC MS3 GND RELAY < 5A/250V ac < 5A/ 30V dc FOB Fault output 24V U V W M ( * : Note! Remember to close digital input EN for start of the motor.) Figure 5-4 General wiring diagram of SM5 (M9 M10) 5.1 Power connections Use heat-resistance cables, +60 degrees or higher. The cable (and the fuses) has to be

18 17 SM5 dimensioned in accordance with the rated output current of the unit. The minimum dimensions for the Cu-cables and corresponding fuses are given in the table 5-1. The fuses have been selected so that they will also function as an onverload protection for the cables. These instructions illustrate how to install and operate an inverter unit connected a motor. In other cases, ask the factory for more information. Always pay attention to the local authority regulations and installation conditions. Power (kw) I CT [A] FUSE [A] Cu-cable [mm 2 ] I VT [A] FUSE [A] Cu-cable [mm 2 ] * * * * * * * * * * * * * * * * * * * * * * * * * * (3 * ) * (3 * ) * (3 * ) *(3*185+95) *(3* ) *(3* ) *(3* ) 315 * * * * * * 400 * * * * * * * = ask factory for detail Table 5-1 Mains, motor cables and fuse recommendations according to output current I CT and I VT

19 SM Installation instructions 1) Please the motor cable always from the other cables. ; - Avoid long parallel runs with other cables. - If the motor cable runs in parallel with the other cables, the minimum distances given in table 5-2 between the motor cable and control cables should be followed. - This minimum distances apply also between the motor cable and signal cables of other systems. - The maximum length of a motor cable is 200m. - The power cables should cross other cables at an angle of 90. Distance between cable [m] ) See chapter for cable insulation check. Screened Cable length [m] Table 5-2 Minimum cable distance 3) Connecting cable - Open the cover of SM5 as shown in figure Connect the main, motor and control cable to the correct terminals. - Check that control cable wires do not make contact with electrical components in the device. - Connect the optional brake resistor cable. - Ensure that the earth cable is connected to the terminal of the inverter and motor. - Connect the separate shield for the power cables to the protective earth of the inverter, motor and supply panel. - Mounted the unit cover. - Ensure that the control cables and internal wiring are not trapped between the cover and 1 Loosen scerws (2 pcs). 2 Pull cover bottom outwards. 3 Push cover upwards Figure 5-5 Opening the cover for

20 19 SM Cable and motor insulation checks 1 Motor cable insulation checks Disconnect the motor cable from the terminals U, V and W of the SM5 unit and from motor. Measure the insulation resistance of the motor cable between each phase conductor and between each phase conductor and the protective ground conductor. The insulation resistance must be > 1MΩ. 2 Main cable insulation checks Disconnect the mains cable from the terminals L1, L2 and L3 of the SM5 unit and from mains. Measure the insulation resistance of the mains cable between each phase conductor and the protective ground conductor. The insulation resistance must be > 1MΩ. 3 Motor insulation check Disconnect the motor cable from the motor and open the bridging connections in the motor connection box. Measure the insulation resistance of each motor wiring. The measuring voltage has to be at least equal to the mains voltage but not exceed 1000V. The insulation resistance must be > 1MΩ. 5.2 Control Connection Basic connection diagram is shown in table Control cable The control cables should be at least 0.5 mm 2 screened multi-core cables. The maximum wire size fitting in the terminals is 2.5 mm Galvanic isolation barriers The control connections are isolated from the mains potential and the I/O ground is connected to the frame of the device via a 1MΩ resistor and 4.7nF capacitor.

21 SM5 20 Terminal Function Specification 1 10V ref Reference voltage output Burden max 10mA 2 V in Analog signal input Signal range : 0V+10V or -10V+10V DC 3 GND ref I/O ground 4 I IN + Analog signal(+) 5 I IN - Analog signal(-) Signal range 0(4) 20mA 6 DI1 Digital input 1 Start/FWD Start/FWD 7 DI2 Digital input 2 Start/REV REV 8 JOG Digital input 3 Jog operation 9 FI Digital input 4 External fault 10 RI Digital input 5 Fault reset 11 EN Digital input 6 Inverter enable 12 GND Common for DI1 - DI6 Ground for control 13 MS1 Digital input 7 14 MS2 Digital input 8 Multi-step 15 MS3 Digital input 9 16 GND Common for DI7 - DI9 Ground for control 17 I OUT + Analog output (+) 18 I OUT - Analog output (-) Signal range 0(4) 20mA 19 24V 24V supply voltage 20 DO1 Open collector output Transistor output 21 BRA 22 BRC 23 FOA 24 FOC 25 FOB Relay for Brake signal Relay for Fault signal Max switch voltage: 8A 250V AC, 5A 30V DC Max switch current : 8A Max switch voltage: 5A 250V AC, 5A 30V DC Max switch current : 5A * X3 is termainals for encoder input with Vector control Table 5-3 Control I/O-terminal signals

22 21 SM5 6. Keypad 6.1 Instruction MOD ESC SET MENU MENU FWD REV RUN STOP Figure 6-1 Keypad KEY Description MOD ESC RUN FWD REV STOP SET MENU MENU Change mode. Starts the motor with frequency established in operating speed parameter if the keypad is the active control source. (Note! Remember to close digital input EN for start of the motor.) Changes the direction of motor rotation if the keypad is the active control source. Stop the motor if the keypad is the active control source. - Choose the parameter and acknowledgement of changed value. - Fault Reset. - Increase the value of parameter. - Increase of frequency command when the motor is running by keypad. - Decrease the value of parameter. - Decrease of frequency command when the motor is running by keypad. - Increase of monitoring item. - Increase of parameter code. - Increase of item in the parameter. - Move of position which the value of parameter to the right. - Decrease of monitoring item. - Decrease of parameter code. - Decrease of item in the parameter. - Move of position which the value of parameter to the left. Table 6-1 Explanation of key for SM5 inverter

23 SM Keypad operation 9 push buttons and LCD display are on the standard SM5. The keypad is detachable and isolated from the input line potential. A keypad can be used to any SM5. The operate mode of keypad consists of monitor mode, menu mode of parameter setting. Please refer to the operating keypad using push button is as below chart. MENU Stop(FWD) current Ready 0 A MENU Stop(FWD) fout Ready 0.0Hz MOD ESC MENU * Select mode * P2 Gain Par * P1 Basic Par * 2 Decel. time MENU MENU * Select mode * P1 Basic Par SET MOD ESC * P1 Basic Par * 1 Accel. time MENU SET * 1 Accel. time * 3.0sec MENU MENU SET 6.3 Keypad detach and install Detach Pull the keypad on the inverter with holding the both side. Figure 6-2 Keypad operation Install First, please the keypad on the keypad-plate and push the center of keypad until it is fixed properly. See figure pin connector Keypad-plate 7. VVVF Control 7.1 General When you change the frequency and the output Keypad Figure 6-3 Keypad installation

24 23 SM5 voltage of inverter simultaneously at the VVVF control, so keep constant the magnetizing current of motor. In order to apply the VVVF control to SM5 inverter, you should use ROM which VVVF control program is loaded. 7.2 Control connection Terminal Signal Description 10V ref Reference output Voltage for a potentiometer, etc Reference potentiometer V in Analog input(voltage) Signal range : 0V ~ 10V -10V ~ 10V GND ref I in + I in - DI1 DI2 JOG FI RI EN* GND MS1 10V ref ground Analog input(current) Digital input 1 Digital input 2 Digital input 3 Digital input 4 Digital input 5 Digital input 6 I/O ground MS1 MS2 MS3 ON OFF OFF Ground for reference Signal range : 0mA ~ 20mA 4mA ~ 20mA Contact closed = Start forward Contact closed = Start reverse Contact closed = Jog Contact closed = External fault Contact closed = Fault reset Contact closed = Inverter enable Ground for controls Description Speed Reference 1 (Par.2.1) OFF ON OFF Speed Reference 2 (Par.2.2) MS2 ON OFF ON OFF OFF ON Speed Reference 3 (Par.2.3) Speed Reference 4 (Par.2.4) ON OFF ON Speed Reference 5 (Par.2.5) MS3 GND I out + I out - OFF ON ON ON I/O ground Analog output ON ON Speed Reference 6 (Par.2.6) Speed Reference 7 (Par.2.7) Ground for controls Signal range : 0mA ~ 20mA 4mA ~ 20mA RUN 24V DO1 Control voltage output Digital output Voltage for switches Programmable(Par.3.1) Contactor BRA BRC Relay for Brake (Relay 2) Relay close Relay open (Par.3.12) : Brake release : Brake open 220V AC FOA Contactor FOC Relay for Fault Relay close : Fault trip has occurred FOB ( * : Note! Remember to close digital input EN for start of the motor.) Figure 7-1 General connection example(vvvf) 7.3 Parameter Group 1 : Basic parameter Code Parameter Range Default Note 1.1 Minimum frequency [Hz]

25 SM Maximum frequency [Hz] 1.3 Acceleration time [sec] 1.4 Deceleration time [sec] 1.5 Jogging frequency [Hz] 1.6 Supply voltage [V] 1.7 Nominal voltage of the Motor 200 ~ [V] from the rating plate of the motor 1.8 Base frequency [Hz] 1.9 Slip Frequency 0.0 ~ [Hz] 1.10 Slip delay time 0 ~ [ms] 1.11 Slip frequency 10 ~ [%] 1.12 Forward Torque Boost 0.1 ~ [%] 1.13 Reverse Torque Boost 0.1 ~ [%] 1.14 Power of the Inverter 0 ~ 19 0 / 5.5 [kw] 0 = 5.5kW, 1 = 7.5kW, 2 = 11kW, 3 = 15kW, 4 = 18.5kW, 5 = 22kW, 6 = 30kW, 7 = 37kW, 8 = 45kW, 9 = 55kW, 10 = 75kW, 11 = 90kW, 12 = 110kW, 13 = 132kW, 14 = 160kW, 15 = 200kW, 16 = 250kW, 17 = 315kW, 18 = 400kW, 19 = 500kW 1.15 Nominal current of the motor [A] from the rating plate of the motor 1.16 Current limit [%] 1.17 Stall current limit [%] 100% = Par Stall time [sec] 1.19 Stall frequency 1.0 par [Hz] 1.20 Overcurrent protection [%] 1.21 Undervoltage protection 60 ~ [%] 100% = Par Output voltage scale [%] 1.23 Switching frequency [khz] 1.24 No load current [A] Table 7-1 Group 1 Basic parameters Group 2 : Multi-Step Parameter Code Parameter Range Default [Unit] Note 2.1 Multi-step speed 1 0 ~ [%] 100% = Par Multi-step speed 2 0 ~ [%] 2.3 Multi-step speed 3 0 ~ [%] 2.4 Multi-step speed 4 0 ~ [%] 2.5 Multi-step speed 5 0 ~ [%] 2.6 Multi-step speed 6 0 ~ [%] 2.7 Multi-step speed 7 0 ~ [%] Table 7-2 Group 2 Multi-step parameters Group 3 : Control Parameter Code Parameter Range Default [unit] Note

26 25 SM5 3.1 Operation mode 0 ~ Control mode 0 ~ Auto Torque Boost 0 ~ U/f Curve Selection 0 ~ Stop Mode 0 ~ FWD/REV Function 0 ~ V ref signal range 0 ~ I ref signal range 0 ~ Analog output function 0 ~ Analog output range 0 ~ Digital output function 0 ~ Relay 2 function 0 ~ Prohibit frequency function 0 ~ = Keypad 1 = Multi-step 2 = Voltage reference 3 = Current reference 0 = Frequency control 1 = Slip Frequency 0 = Not used 1 = Used 0 = Linear Curve 1 = Programmable 2 = Squared Curve 0 = Ramp stop 1 = Coast stop 0 = Forward_Reverse 1 = Start_Reverse 0 = 010V 1 = -10V10V 0 = 020mA 1 = 420mA 0 = Output frequency 1 = Output current 2 = DC-link voltage 3 = Motor voltage 0 = 020mA 1 = 420mA 0 = Run 1 = Ready 2 = Fault 0 = Current_Frequency supervision 1 = Frequency_Frequency supervision 2 = Time delay 0 = No 1 = Yes 3.14 Operating frequency 1.0 ~ [Hz] Initial speed reference at Par.3.1 = Incremental frequency 1.0 ~ [Hz] Incremental frequency reference at Par.3.1 = Analog output scale 50 ~ [%] 120% = Default 3.17 Current supervision 0 ~ [%] BR relay control at Par.3.12 = Brake open time 0.0 ~ [sec] 3.19 Zero frequency 0.1 ~ Par [Hz] 3.20 Relay 2 close frequency 0.2 ~ Par [Hz] Par.3.12 = Relay 2 open frequency 0.2 ~ Par [Hz] 3.22 Relay 2 close time 0.0 ~ [sec] Time delay at Par.3.12 = Relay 2 open time 0.0 ~ [sec] 3.24 Prohibit frequency (low limit) 0 ~ Par [%] Par.3.13 = Prohibit frequency (high limit) 0 ~ Par [%]

27 SM5 26 Table 7-3 Group 3 Control parameters (continues) 3.26 DC-braking voltage at start 0.0 ~ 10.0[%] 0.0[%] 3.27 DC-braking time at start 0 ~ [ms] 0 [ms] 3.28 Execute frequency of DC-braking during the ramp stop 0.0 ~ 30.0 [Hz] 0.0 [Hz] 3.29 DC-braking voltage at stop 0.0 ~ 10.0 [%] 0.0 [%] 3.30 DC-braking time at stop 0 ~ 1000 [ms] 0 [ms] 3.31 Auto Torque Boost Delay time 0 ~ 2000 [ms] 500 [ms] 3.32 Auto Torque Boost gain 10 ~ 150 [%] 100 [%] 3.33 Midpoint voltage (at Programmable Curve) 0.00 ~ 10.0 [%] 0.0 [%] 3.34 Midpoint frequency (at Programmable Curve) 0.0 ~ [Hz] 0.0 [Hz] 3.35 V ref low limit 0.0 ~ 10.0 [V] 10.0 [V] 3.36 V ref scale 0 ~ [%] [%] 3.37 I ref scale 0 ~ [%] [%] Table 7-3 Group 3 Control parameters Group 4 : Initializing parameter Code Parameter Note 4.1 Fault initialization Delete all the fault history 4.2 Parameter initialization Automatically reset parameters to default value 4.3 System reset System restart Table 7-4 Group 4 Initialization

28 27 SM Description of parameters 1.1 Minimum frequency Defines frequency minimum limits of the inverter. See figure Maximum frequency Defines frequency maximum limits of the inverter. See figure Acceleration time These limits correspond to the time required for the output frequency to accelerate from the set minimum frequency(par.1.1) to the set maximum frequency(par.1.2). See figure Deceleration time These limits correspond to the time required for the output frequency to decelerate from the set maximum frequency(par.1.2) to the set minimum frequency(par1.1). See figure 7-2. Hz Par.1.2 Par.1.1 Accel. time Par.1.3 Decel. time Par.1.4 t Figure 7-2 Parameters 1.1, 1.2, 1.3, Jogging frequency This parameter value defines the jogging frequency selected with the JOG digital input which can be programmed for Jogging frequency. 1.6 Supply voltage Set the parameter value according to the nominal voltage of the supply. 1.7 Nominal voltage of the Motor Find this value from the rating plate of the motor. 1.8 Base Frequency Find this value from the rating plate of the motor. This parameter sets the field weakening point. See figure Slip Frequency This parameter sets the slip frequency of the motor. Par.1.9 = Synchronizing RPM - Rated RPM Synchronizing RPM Rated frequency[] Rated RPM : RPM on the rating plate of the motor [rpm] Rated frequency : Frequency on the rating plate of the motor[rpm] Synchronizing RPM = 120 Rated frequency Motor poles

29 SM Slip Compensation Delay time If the motor inertia is big, the stable operation can be done by increasing the filtering time of slip compensation at the starting moment. Increase this parameter value in accordance with the motor capacity, but too big value comparing motor capacity can be a reason of delayed response Slip Frequency Gain It is to restrain the motor hunting and the abnormal rising of output current that are created by an over slip-compensation Forward Torque Boost 1.13 Reverse Torque Boost It is a function to compensate the torque that is decreased by stator resistance of the motor in low speed at forward or reverse operation. And it compensates the constant value based on rated voltage. See figure 7-3. V (100% = Par ) Motor voltage Motor Torque Motor crrent Torque Boost Par.1.12 or Par.1.13 Par.1. 8 Figure 7-3 Voltage - frequency Hz 1.14 Power of the Inverter 1.15 Nominal current of the Motor Find the value from the rating plate of the motor Current limit This parameter determines the maximum motor current that the inverter can give momentarily. If the motor current is higher than Current limit(par.1.16) at the acceleration, then the acceleration stop until the motor current is down Stall current limit The motor stall protection protects the motor from short time overload situation like a stalled shaft. In the stall state, the current has to be above this limit Stall time This is the maximum allowed time for the stall state Stall frequency In the stall state, the output frequency has to be lower than this limit Overcurrent protection It protects inverter from the overcurrent.

30 29 SM Undervoltage protection It stops inverter when a DC link voltage is smaller than this parameter. (100% = Par ) 1.22 Output Voltage scale This parameter adjusts the output voltage of the inverter at the base frequency(par.1.8). V[V] Do not use the region Par.1.22=120% Par.1.22=100% Par.1.22=80% Par.1. 8 Figure 7-4 Output voltage scale f[hz] 1.23 Switching frequency The motor noise can be minimized using a high switching frequency. Increasing the switching frequency reduce the capacity of the inverter No Load Current This parameter sets the no load current for using the function of slip control and auto torque boost. The current should be measured under no-load FWD Torque Boost 1.0[%] 1.13 REV Torque Boost 1.0[%] 3.2 Control Mode Frequency Control 3.3 Auto Torque Boost Not Used 3.4 U/f Curve Linear 3.14 Operating frequency 10.0[Hz] Multi-step speed 1-7 Parameter value defines the Multi-step speed with the MS1, MS2 and MS3 digital inputs. Code MS1 MS2 MS3 Par.2.1 ON OFF OFF Par.2.2 OFF ON OFF Par.2.3 ON ON OFF Par.2.4 OFF OFF ON Par.2.5 ON OFF ON Par.2.6 OFF ON ON Par.2.7 ON ON ON

31 0 The SM Operation mode The kind of supply signal for the frequency reference is selected. 0 Control from the keypad(initial frequency reference = Par.3.12). 1 Control from the I/O terminals(terminal MS1, MS2, MS3). 2 The frequency reference is changed by analog voltage input (terminal V IN, GND ref ). 3 The frequency reference is changed by analog current input (terminal I IN +, I IN -). 3.2 Control Mode 0 Frequency Control Mode inverter controls the output frequency. 1 Slip Control Mode The inverter compensates slip to be occurred during operation and it makes to maintain the motor speed under the status of the increasing load. When the slip control mode is applied, the related parameters are as follows. Par.1.9 Slip Frequency Par.1.10 Slip Compensation Delay time Par.1.11 Slip Frequency Gain Par.1.24 No Load Current 3.3 Auto Torque Boost The voltage of the motor is changed automatically to make the needed torque over the full range of the speed. The overheat of the motor could be occurred by a big torque at low speed. If auto torque boost is selected, Par.1.12(FWD Torque), Par.1.13(REV Torque) are changed automatically. If starting torque is insufficient, Par.1.12 and Par.1.13 should be increased by 0.1[%] unit, but too big value of this parameter could be the reasons of overcurrent and the hunting of the motor. 3.4 U/f Curve selection 0 Linear Curve (A) The voltage of the motor changes linearly with the frequency in the constant flux area from 0Hz to the base frequency(par.1.8). 1 Programmable Curve (B) The Programmable Curve can be used if the Linear Curve and Squared Curve do not satisfy the needs of the application. 2 Squared Curve (C) The voltage of the motor changes following a squared curve form with the frequency in the area from 0Hz to the base frequency(par.1.8). V Par.1.22[%] Par.1.7[V] B Par.3.33[%] A Par.1.12[%] C Par.1.13[%] Par.3.34[Hz] Par.1.8[Hz] f Figure 7-5 U/f Curve

32 31 SM5 3.5 Stop mode 0 Ramp stop After the Stop command, the speed of motor is decelerated according to the set deceleration time parameter. If the regenerated energy is high it may be necessary to use an external braking resistor for faster deceleration. See figure Coast stop When the stop command, at the same time the speed reference is decreased to zero without any control from inverter. Output of inverter is turn off. At this time, the motor stops free wheeling by inertia. See figure 7-6. Free stop Deceleration stop Run/stop Run Stop Run Stop Speed setting deceleration time Motor speed 3.6 Start/Stop logic function 0 DI1 : Closed contact = start forward DI2 : Closed contact = start reverse See figure 7-7. Figure 7-6 Stop mode The first selected direction has always the highest priority. When DI1 contact opens, the direction of rotation starts to change. If start forward(di1) and start reverse(di2) become closed at same time, the start forward signal(di1) has priority. FWD Stop funtion = Free stop REV DI1 DI Figure 7-7 Start forward / Start reverse

33 SM DI1 : Closed contact = start, Open contact = stop DI2 : Closed contact = reverse, Open contact = forward See figure 7-8. FWD Stop funtion = Free stop REV DI1 DI2 Figure 7-8 Start, Stop, Reverse 3.7 V ref signal range When Par.3.1 = 2 is set, the range of the analog voltage reference is selected. 0 Signal range : 0 +10V 1 Signal range : -10V +10V Signal range Max. reverse speed Direction change Max. forward speed 0 +10V 10V DI1 or DI2 +10V -10V +10V -10V 0V +10V 3.8 I ref signal range When Par.3.1 = 3 is set, the range of the analog current reference is selected. 0 Signal range : 0 20mA 1 Signal range : 4 20mA 3. 9 Analog output function The kind of the analog output of the terminals I out +, I out - is selected Analog output scale 0 Signal range : 0 20mA 1 Signal range : 4 20mA 3.11 Digital output function The kind of the digital output of the terminal DO1 is selected. 0 Run : The inverter operated (Motor is running). 1 Ready : The inverter is ready to operate. 2 Fault : A fault trip has occurred Relay 2 Function The contents of Relay output from terminal BR is selected. 0 Current_Frequency supervision ( Par Par.3.17 ) The brake controls with current supervision, Brake open time, and Zero Frequency. 1 Frequency_Frequency supervision ( Par Par.3.19 ) The output frequency goes outside of the set supervision. 2 Time delay ( Par Par.3.21 ) The Run signal controls with programmable delay.

34 33 SM Prohibit frequency function This parameter decides whether the range of the prohibit frequency Par is used or not. 0 No : not used 1 YES : used Hz 100% (Par.1.2) Par.3.25 Par.3.24 t Figure 7-9 Prohibit frequency 3.14 Operating frequency When the inverter is operated by keypad, the speed reference is set by this parameter Incremental frequency When the inverter is operated by keypad, the incremental frequency of the speed reference is set by this parameter Analog output scale This parameter defines the analog output scale. See figure Analog output current 20mA par.3.16 =200% par.3.14 =100% Fig. Signal Max. value of the signal Output frequency Output current V DC Voltage Motor voltage Max. frequency (Par.1.2) 2 I CT 600V DC Par mA par.3.14 =50% Max value of signal selected by par mA Figure 7-10 Analog output scale 3.17 Current supervision After the inverter is put in "Start signal", if the output current of inverter increases over the set limit of Par.3.17 and the starting time goes over the set limit of Par.3.18, BR relay(terminals BRA, BRC) is energized. See figure 7-11.

35 SM Brake open time After the inverter is put in "Start signal", if the starting time goes over the set limit of Par.3.18 and the output current of inverter increases over the set limit of Par.3.17, BR relay(terminals BRA, BRC) is energized. See figure Zero frequency After the inverter is put in "Stop signal", if the output frequency of inverter deceases under the set limit of Par.3.19, BR relay(terminal BRA, BRC) is opened. See figure f[hz] Output Frequency < Par.3.19 Run Time Stop RO2 Motor Current > Par.3.17 & Delay_time > Par.3.18 Figure 7-11 RO2 function RO2 Close Frequency, RO2 Relay Open Frequency If the output frequency exceeds the set limit Par.3.20 during acceleration, BR relay output is ON. If the output frequency falls below the set limit Par.3.21 during deceleration, BR relay output is OFF. See figure f[hz] Output Frequency> Par.3.20 Output Frequency < Par.3.21 Time RO2 Figure 7-12 RO2 function RO2 Close Time, RO2 Open Time After Run command, if the time exceeds the set time Par.3.22 during acceleration, BR relay output is ON. After Stop command, if the time exceeds the set time Par.3.23 during deceleration, BR relay output is OFF. See figure 7-13.

36 35 SM5 f[hz] Run Stop Time RO2 Delay_time > Par.3.22 Delay_time > Par.3.23 Figure 7-13 RO2 function Prohibit frequency(low limit and high limit) The range of prohibit frequency is set. The frequency reference in inverter jumps over region between low and high limit of frequency. This function can be operated at Par.3.13 = 1. See figure DC-braking voltage at Start After the Start command, this parameter gives for the maximum allowed DC-braking voltage during set time Par See figure DC-braking time at Start 0 DC-braking is not used. >0 DC-braking is acted when the start command is given and this parameter defines the time before the brake is released. After the brake is released, the output frequency increases according to the set acceleration parameter Par.1.3. See figure Execute frequency of DC-braking during the ramp stop If the output frequency falls below the set limit Par.3.28 during deceleration, the torque at stop is generated. See figure DC-braking voltage at stop After the Stop command, if the output frequency falls below the set limit Par.3.28, this parameter gives for the maximum allowed DC braking voltage during set time Par See figure DC-braking time at Stop Defines if the braking is On or Off and the braking time of the DC-braking when the motor is stopping. The function of the DC-braking depends on the stop function, Par.3.5. See figure DC-braking is not used. >0 DC-braking is in use and its function depends on the Stop function(par.3.5), and the braking time depends on the value of the Par.3.30.

37 SM5 36 Motor speed Par.3.28 Par.3.26 Par.3.29 DI1 or DI2 ON OFF Par.3.27 Figure 7-14 DC-braking function Par Auto Torque Boost Delay Time It is for smooth starting even though the status of load is changed quickly at the starting moment. Increase this parameter value in accordance with the motor capacity, but too big value comparing motor capacity could be a reason of decreasing the starting torque Auto Torque Boost Gain It is to restrain the motor hunting and abnormal rising of the output current that is created by an over torque-compensation Midpoint Voltage(at Programmable Curve) When the Programmable Curve is selected, this parameter sets the output voltage at the Midpoint frequency(par3.34) Midpoint Frequency(at Programmable Curve) When the Programmable Curve is selected, this parameter sets the Midpoint frequency V ref low limit Set the minimum value for analog input V ref.. See figure Hz Par.1.2 Par V (Par.3.29) 10.0 V Figure 7-15 V ref low limit Analog Voltage input[v] 3.36 V ref scale This parameter sets the range of the input reference voltage when voltage is used at speed reference.

38 37 SM5 f max V ref Scale = 100% V ref Scale = 50% 3.37 I ref scale This parameter sets the range of the input reference current when current is used at speed reference V ref f max I ref Scale = 100% I ref Scale = 50% I ref 4.1 Fault History Initialization The fault history is cleared by the pushing the SET button. 4.2 Parameter Initialization The parameter is changed the default value by the pushing the SET button. 4.3 System reset Pushing the SET button returns the inverter to the initial state.

39 SM Fault and Monitoring Fault tracing Code Fault Possible cause Checking F1 No fault F2 IGBT short The SM5 inverter has detected faulty operation in the gate driver or IGBT bridge. - Interference fault. - Component failure. Reset the fault and restart again. If the fault occurs again, contact nearest SM5 distributor. F3 Overvoltage The voltage of the internal DC-link of the SM5 inverter has exceeded 135% of the nominal voltage. - Deceleration time is too fast. - High overvoltage spikes at mains. - Trouble in the brake chopper or its wiring. - DBR value too large(especially at down-hoisting motion). - Adjust the deceleration time. - Check the brake chopper or its wiring. - Check the DBR value. F4 Overheat Temperature of the heat sink over 80~. - Check the cooling fan. - Check that heat sink is not dirty. - Check ambient temperature. - Check that switching frequency is not too high compared with ambient temperature and motor load. F5 Overcurrent The SM5 inverter has measured too high current(>2*i CT ) in the motor output: - Sudden heavy load increase. - Short circuit in the motor cable. - Unsuitable motor. - Programmable (Par.1.20). - Check loading. - Check motor size. - Check cables. F6 Overload The SM5 inverter has detected overload output current is more than overload(150% per 1min). - Check loading. - Check motor size. - Check cables. F7 External fault Fault is detected from external fault digital input. Check the external fault circuit or device. F8 Undervoltage DC-link voltage has gone below set value(par1.21) of the nominal voltage. - Most common reason is failure of the mains supply. In case of temporary supply voltage break, reset the fault and start again. Check mains input. If mains supply is correct, an internal failure has occurred. F9 Stall Motor stall protection has tripped. - Check the motor. Table 7-6 Fault codes

40 39 SM Fault Scan When a fault occurs, the fault history mode becomes active. SM5 inverter stores maximum 9 faults in the order of occurrence. The latest fault is always designated 0 and the fault occurred right before the latest is designated 1. When 9 undeleted faults are stored in the memory, the newly occurred fault removes the oldest fault out of the memory Monitoring Number Data name Unit Description 1 F out Hz Frequency to the motor. 2 Current A Measured motor current. 3 DC vtg V Measured DC_link voltage. 4 V MOTOR V Calculated motor voltage. 5 DI status 6 DO status 7 V ref V Status of digital inputs as follow ; (0 = open input, 1= closed input ) status MS1 MS2 MS3 DI2 DI1 OFF ON Status of digital output and Relay 2 as follow ; status BR DO OFF 0 0 ON 1 1 Voltage of terminals V in and GND ref. This item can be shown at Par.4.1 = 3. Current of terminals I 8 I ref ma IN + and I IN -. This item can be shown at Par.4.1 = 4. Table 7-7 Monitoring codes

41 SM Vector Control Mode(Closed Loop) SM5 inverter can provide far more precise speed and torque control characteristics with the vector control mode than the inverter with the VVVF control mode since the magnetizing current and the torque current of the induction motor can be controlled independently to each other by the vector control mode. SM5 inverter has to be, for the application of the vector control mode, equipped with ; a ROM loaded with the vector control software and, an encoder of 5V DC line drive type for feed back of the motor speed to the inverter control. An encoder of 12V DC or 24V DC can also be applied with a separate power supply.

42 41 SM5 8.1 Wiring PG Terminal Signal Description P5V Voltage for encoder PG Ground for encoder source A* Pulse input A- Type : 5V, Line drive A Pulse input A+ Range: 500 ~ 3000[ppr] B* Pulse input B- B Pulse input B+ Reference 10V ref V in Reference output Analog input(voltage) Voltage for potentiometer, etc Signal range : 0V ~ 10V -10V ~ 10V GND ref I in + I in - DI1 DI2 JOG FI RI EN GND MS1 10V ref ground Analog input(current) Digital input 1 Digital input 2 Digital input 3 Digital input 4 Digital input 5 Digital input 6 I/O ground MS1 MS2 MS3 ON OFF OFF Ground for reference Signal range : 0mA ~ 20mA 4mA ~ 20mA Contact closed = Start forward Contact closed = Start reverse Contact closed = Jog Contact closed = External fault Contact closed = Fault reset Contact closed = Inverter enable Ground for control Description Speed Reference 1 (Par.4.1) OFF ON OFF Speed Reference 2 (Par.4.2) MS2 ON OFF ON OFF OFF ON Speed Reference 3 (Par.4.3) Speed Reference 4 (Par.4.4) ON OFF ON Speed Reference 5 (Par.4.5) MS3 GND I out + I out - OFF ON ON ON I/O ground Analog output ON ON Speed Reference 6 (Par.4.6) Speed Reference 7 (Par.4.7) Ground for control Signal range : 0mA ~ 20mA Programmable(Par.5.10) RUN 24V DO1 24V supply voltage Digital output Voltage for switch Programmable(Par.5.11) Contactor BRA BRC Relay for Brake Relay close Relay open (Par.5.12) : Brake release : Brake open 220V AC FOA Contactor FOC Relay for Fault Relay close : Fault trip has occurred FOB Figure 8-1 General wiring example(vector control)

43 SM Parameter Group 1 : General parameter Code Parameter Range Default [unit] Note 1.1 Maximum speed 500 ~ [rpm] 1.2 Acceleration time 200 ~ [msec] 1.3 Deceleration time 200 ~ [msec] 1.4 Base speed 40 ~ [%] 100% = Par Number of poles 2 ~ 12 4[poles] from the rating plate of motor 1.6 Encoder PPR 500 ~ [ppr] Encoder pulse 1.7 Encoder Filter time 0 ~ 20 0[ms] 1.8 Power of the Inverter 0 ~ 19 0 / 5.5[kW] 1.9 Nominal current of the motor 0 = 5.5kW, 1 = 7.5kW, 2 = 11kW, 3 = 15kW, 4 = 18.5kW, 5 = 22kW, 6 = 30kW, 7 = 37kW, 8 = 45kW, 9 = 55 kw, 10 = 75kW, 11 = 90kW, 12 = 110kW, 13 = 132kW, 14 = 160kW, 15 = 200kW, 16 = 250kW, 17 = 315kW, 1.0 ~ [A] from the rating plate of motor, I CT 1.10 Upper Torque limit 0 ~ [%] 100% = I CT 1.11 Lower Torque limit 0 ~ [%] 100% = I CT 1.12 Overcurrent protection 150 ~ [%] 100% = Par Stall current 20 ~ [%] 100% = Par Stall time 100 ~ [msec] 1.15 Stall rpm 0 ~ [rpm] 1.16 Undervoltage protection 60 ~ 80 70[%] 100% = 600V DC 1.17 Braking voltage 100 ~ [%] 1.18 Magnetizing current 1 ~ [%] 1.19 Rotor time constant 50 ~ [msec] the rotor time constant of motor 1.20 Switching frequency 1.0 ~ [kHz] Table 8-1 Group 1 General parameter

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