Preface Thank you for choosing DELTA’s high-performance VFD-M Series. The VFD-M Series is manufactured with high-quality components and materials and incorporate the latest microprocessor technology available. This manual is to be used for the installation, parameter setting, troubleshooting, and daily maintenance of the AC motor drive. To guarantee safe operation of the equipment, read the following safety guidelines before connecting power to the AC motor drive.
WARNING! 1. DO NOT use Hi-pot test for internal components. The semi-conductor used in AC motor drive easily damage by high-voltage. 2. There are highly sensitive MOS components on the printed circuit boards. These components are especially sensitive to static electricity. To prevent damage to these components, do not touch these components or the circuit boards with metal objects or your bare hands. 3. Only qualified persons are allowed to install, wire and maintain AC motor drives. CAUTION! 1.
Table of Contents Preface ............................................................................................................. i Table of Contents .......................................................................................... iii Chapter 1 Introduction ................................................................................ 1-1 1.1 Receiving and Inspection....................................................................1-2 1.1.1 Nameplate Information.........................
2.3.2 Main Circuit Terminals................................................................. 2-8 2.4 Control Terminal Wiring (Factory Settings) ........................................ 2-9 Chapter 3 Keypad and Start Up ..................................................................3-1 3.1 Keypad............................................................................................... 3-1 3.1.1 Description of the Digital Keypad ................................................ 3-1 3.1.
5.12 The Motor does not Run as Expected ..............................................5-8 5.13 Electromagnetic/Induction Noise ......................................................5-9 5.14 Environmental Condition...................................................................5-9 5.15 Affecting Other Machines ...............................................................5-10 Chapter 6 Fault Code Information and Maintenance................................ 6-1 6.1 Fault Code Information ..................
B.7.3 Operation Flow Chart................................................................B-13 B.8 AMD - EMI Filter Cross Reference .................................................. B-14 B.8.1 Dimensions ...............................................................................B-17 B.9 Din Rail ............................................................................................ B-19 B.9.1 Din Rail-DR01 Adapter .............................................................B-19 B.9.
Chapter 1 Introduction The AC motor drive should be kept in the shipping carton or crate before installation. In order to retain the warranty coverage, the AC motor drive should be stored properly when it is not to be used for an extended period of time. Storage conditions are: CAUTION! 1. Store in a clean and dry location free from direct sunlight or corrosive fumes. 2. Store within an ambient temperature range of -20 °C to +60 °C. 3.
Chapter 1 Introduction| 1.1 Receiving and Inspection This VFD-M AC motor drive has gone through rigorous quality control tests at the factory before shipment. After receiving the AC motor drive, please check for the following: Check to make sure that the package includes an AC motor drive, the User Manual/Quick Start Inspect the unit to assure it was not damaged during shipment.
Chapter 1 Introduction| 1.1.4 External Parts and Labels Revision May 2008, ME14, SW V3.
Chapter 1 Introduction| 1.1.5 Remove Instructions Remove Keypad Remove Front Cover RST Side 1-4 UVW Side Revision May 2008, ME14, SW V3.
Chapter 1 Introduction| 1.2 Preparation for Installation and Wiring 1.2.1 Ambient Conditions Install the AC motor drive in an environment with the following conditions: -10 ~ +50°C (14 ~ 122°F) for UL & cUL Air Temperature: -10 ~ +40°C (14 ~ 104°F) for 5.5kw models and above Relative Humidity: Operation Atmosphere pressure: Installation Site Altitude: 86 ~ 106 kPa <1000m Vibration: <20Hz: 9.80 m/s2 (1G) max 20 ~ 50Hz: 5.88 m/s2 (0.
Chapter 1 Introduction| CAUTION! 1. Operating, storing or transporting the AC motor drive outside these conditions may cause damage to the AC motor drive. 2. Failure to observe these precautions may void the warranty! 3. Mount the AC motor drive vertically on a flat vertical surface object by screws. Other directions are not allowed. 4. The AC motor drive will generate heat during operation. Allow sufficient space around the unit for heat dissipation. 5.
Chapter 1 Introduction| 1.3 Dimensions D H2 H D1 H1 W W1 Unit: mm [inch] Model Name VFD004M21A/23A, VFD007M21A/23A, VFD015M21A/23A VFD002M11A, VFD004M11A/21B, VFD007M11A/21B/43B/53A, VFD015M21B/43B/53A, VFD022M23B/43B/53A W W1 H H1 H2 D D1 85.0 [3.35] 74.0 [2.91] 141.5 [5.57] 130.5 [5.14] 10.0 [0.39] 113.0 [4.45] 10.0 [0.39] 100.0 [3.94] 89.0 [3.50] 151.0 [5.94] 140.0 [5.51] 10.0 [0.39] 116.5 [4.59] 10.5 [0.
Chapter 1 Introduction| This page intentionally left blank 1-8 Revision May 2008, ME14, SW V3.
Chapter 2 Installation and Wiring After removing the front cover, check if the power and control terminals are clear. Be sure to observe the following precautions when wiring. General Wiring Information Applicable Codes All VFD-M series are Underwriters Laboratories, Inc. (UL) and Canadian Underwriters Laboratories (cUL) listed, and therefore comply with the requirements of the National Electrical Code (NEC) and the Canadian Electrical Code (CEC).
Chapter 2 Installation and Wiring| DANGER! 1. A charge may still remain in the DC bus capacitors with hazardous voltages even if the power has been turned off. To prevent personal injury, please ensure that the power is turned off and wait ten minutes for the capacitors to discharge to safe voltage levels before opening the AC motor drive. 2. Only qualified personnel familiar with AC motor drives is allowed to perform installation, wiring and commissioning. 3.
Chapter 2 Installation and Wiring| CAUTION! 1. 2. The wiring of main circuit and control circuit should be separated to prevent erroneous actions. Please use shield wire for the control wiring and not to expose the peeled-off net in front of the terminal. 3. Please use the shield wire or tube for the power wiring and ground the two ends of the shield wire or tube. 4. Damaged insulation of wiring may cause personal injury or damage to circuits/equipment if it comes in contact with high voltage. 5.
Chapter 2 Installation and Wiring| Good Not allowed 2-4 Revision May 2008, ME14, SW V3.
Chapter 2 Installation and Wiring| 2.
Chapter 2 Installation and Wiring| 2.3 Main Circuit 2.3.
Chapter 2 Installation and Wiring| Please use voltage and current within the regulation shown in Appendix A. When using a GFCI (Ground Fault Circuit Interrupter), select a current sensor with sensitivity of Do NOT run/stop AC motor drives by turning the power ON/OFF. Run/stop AC motor drives by 200mA, and not less than 0.1-second detection time to avoid nuisance tripping. RUN/STOP command via control terminals or keypad.
Chapter 2 Installation and Wiring| 2.3.2 Main Circuit Terminals Wire Type: 75 oC Copper Only Model Name VFD002M11A VFD004M11A VFD007M11A VFD004M21A/21B VFD004M23A VFD007M21A/21B VFD007M23A VFD015M21A/21B VFD015M23A VFD022M21A VFD022M23B VFD037M23A VFD055M23A VFD007M43B VFD007M53A VFD015M43B VFD015M53A VFD022M43B VFD022M53A VFD037M43A VFD037M53A VFD055M43A VFD055M53A VFD075M43A VFD075M53A Max. Current (input / output) 6A/1.6A 9A/2.5A 16A/4.2A 6.3A/2.5A 3.2A/2.5A 11.5A/5.0A 6.3A/5.0A 15.7A/7.
Chapter 2 Installation and Wiring| 2.4 Control Terminal Wiring (Factory Settings) Wire Type: Copper Only Wire Gauge: 22-16 AWG Torque: 2kgf-cm (1.73 in-lbf) Wire Type: 75 C, Copper Only Wire Gauge: 24-12 AWG Torque: 4kgf-cm (3.
Chapter 2 Installation and Wiring| Terminal Symbol Terminal Function RC Multi-function Relay Common M0 Multi-function auxiliary input M1 Multi-function input 1 M2 Multi-function input 2 M3 Multi-function input 3 M4 Multi-function input 4 M5 Factory Settings (NPN mode) 5A(N.O.)/3A(N.C.) 277Vac; 5A(N.O.)/3A(N.C.) 30Vdc M0~M5-GND Refer to P38~P42 for programming the multifunction inputs. ON: the activation current is 10 mA. OFF: leakage current tolerance is 10μA.
Chapter 2 Installation and Wiring| Terminal Symbol Terminal Function Factory Settings (NPN mode) Maximum: 48Vdc, 50mA Refer to P45 for programming. Max: 48Vdc/50mA MO1-DCM MO1 Multi-function Output Terminal (Photocoupler) MO1 Internal Circuit MCM Multi-function Output Common (Photocoupler) MCM Common for Multi-function Outputs Note: Use twisted-shielded, twisted-pair or shielded-lead wires for the control signal wiring. It is recommended to run all signal wiring in a separate steel conduit.
Chapter 2 Installation and Wiring| General Keep control wiring as far away as possible from the power wiring and in separate conduits to The AC motor drive control wiring should be properly installed and not touch any live power avoid interference. If necessary let them cross only at 90º angle. wiring or terminals. NOTE If a filter is required for reducing EMI (Electro Magnetic Interference), install it as close as possible to AC drive. EMI can also be reduced by lowering the Carrier Frequency.
Chapter 3 Keypad and Start Up 3.1 Keypad 3.1.1 Description of the Digital Keypad The digital keypad includes two parts: Display panel and keypad. The display panel provides the parameter display and shows the operation status of the AC drive and the keypad provides programming and control interface. DIGITAL KEYPAD Program/Function mode key Selects normal mode/ program mode. Displays the AC drive status, such as output freq., selects the parameters.
Chapter 3 Keypad and Start Up| Displayed Message Descriptions The actual value stored within the specified parameter. The AC drive forward run status. The AC drive reverse run status. “End” displays for approximately 1 second if input has been accepted. After a parameter value has been set, the new value is automatically stored in memory. To modify an entry, use the and keys. “Err” displays, if the input is invalid. 3.1.
Chapter 3 Keypad and Start Up| 3.1.3 LC-M02E Unit: mm [inch] Reference Table for the 7-segment LED Display of the Digital Keypad Digit 0 1 2 3 4 5 6 7 8 9 A b Cc d E F G Hh I Jj K L n Oo P q r S Tt U v Y Z LED Display English alphabet LED Display English alphabet LED Display English alphabet LED Display Revision May 2008, ME14, SW V3.
Chapter 3 Keypad and Start Up| Digital Keypad – Mounting Panel A Unit: mm [inch] Digital Keypad – Mounting Panel B Unit: mm [inch] 3-4 Revision May 2008, ME14, SW V3.
Chapter 3 Keypad and Start Up| 3.2 Operation Method The operation method can be set via control terminals and LC-M02E keypad. Please choose a suitable method depending on application and operation rule.
Chapter 3 Keypad and Start Up| 4. Check following items: Check if the motor direction of rotation is correct. Check if the motor runs steadily without abnormal noise and vibration. Check if acceleration and deceleration are smooth. If the results of trial run are normal, please start the formal run. NOTE 1、 Stop running immediately if any fault occurs and refer to the troubleshooting guide for solving the problem.
Chapter 4 Parameters This VFD-M AC motor drive has 157 parameters for easy setting. In most applications, the user can finish all parameter settings before start-up without the need for re-adjustment during operation. Revision May 2008, ME14, SW V3.
Chapter 4 Parameters| 4.1 Summary of Parameter Settings : The parameter can be set during operation. Parameter Pr.
Chapter 4 Parameters| Parameter Pr.08 Pr.09 Explanation Settings Minimum Output Freq 0.10 to 20.00Hz Minimum Output Voltage Factory Customer Setting 1.50 115V/230V: 0.1 to 255.0V 10.0 460V: 0.1 to 510.0V 20.0 575V: 0.1 to 637.0V 26.1 Pr.10 Acceleration Time 1 0.1 to 600.0 sec or 0.01 to 600.0 sec 10.0 Pr.11 Deceleration Time 1 0.1 to 600.0 sec or 0.01 to 600.0 sec 10.0 Pr.12 Acceleration Time 2 0.1 to 600.0 sec or 0.01 to 600.0 sec 10.0 Pr.13 Deceleration Time 2 0.1 to 600.
Chapter 4 Parameters| Parameter Pr.30 Pr.31 Explanation DC Braking during Stopping Start-point for DC Braking Factory Customer Setting Settings 0.0 to 25.0 sec 0.0 0.00 to 60.00 Hz 0.00 00: Stop operation after momentary power loss Pr.32 Pr.33 Pr.34 Pr.35 Pr.36 Pr.
Chapter 4 Parameters| Parameter Explanation Settings Factory Customer Setting 13: Base-block (B.B.) (N.C) 14: Increase Master Frequency 15: Decrease Master Frequency 16: Run PLC Program 17: Pause PLC 18: Counter Trigger Signal 19: Counter Reset 20: No function 21: RESET command (N.C) 22: Control source: External Terminal 23: Control source: Keypad 24: Control source: Communication 25: Parameter Lock (Write disable, Read is always 0) 26: PID Disable (N.O.) 27: PID Disable (N.C.
Chapter 4 Parameters| Parameter Explanation Factory Customer Setting Settings 09: PLC Program Running 10: PLC Program Step Completed 11: PLC Program Completed 12: PLC Operation Paused 13: Top Count Value Attained 14: Preliminary Counter Value Attained 15: Warning (PID feedback loss, communication error) 16: Below the Desired Frequency 17: PID supervision 18: Over Voltage supervision 19: Over Heat supervision 20: Over Current stall supervision 21: Over Voltage stall supervision 22: Forward command 23: Re
Chapter 4 Parameters| Parameter Pr.59 Explanation Electronic Thermal Motor Overload Settings 30 to 300 sec Factory Customer Setting 60 00: Over-Torque Detection Disable 01: Enabled during constant speed operation until the allowable time for detection (Pr.62) elapses. Pr.60 Over-Torque Detection Mode 02: Enabled during constant speed operation and halted after detection. 00 03: Enabled during acceleration until the allowable time for detection (Pr.62) elapses.
Chapter 4 Parameters| Parameter Explanation Factory Customer Setting Settings 115V/230V/460V series: 01 to 15 (The factory setting of VFD075M43A is 10) 15 575V series: 01 to 10 6 Pr.71 PWM Carrier Frequency Pr.72 Auto Restart Attempts 00 to 10 after Fault 00 00: No fault occurred 01: Over-current (oc) Pr.73 Present Fault Record 02: Over-voltage (ov) 00 03: Overheat (oH) 04: Overload (oL) 05: Overload 1 (oL1) 06: External Fault (EF) 07: CPU failure 1 (CF1) 08: CPU failure 3 (CF3) Pr.
Chapter 4 Parameters| Parameter Explanation Settings Factory Customer Setting 00: Disable PLC operation 01: Execute one program cycle Pr.78 PLC Operation Mode 02: Continuously execute program cycles 03: Execute one program cycle step by step 00 04: Continuously execute one program cycle step by step Pr.79 Pr.80 Pr.81 Pr.82 Pr.83 Pr.84 Pr.85 Pr.86 Pr.87 Pr.
Chapter 4 Parameters| Parameter Explanation Pr.93 Accel 1 to Accel 2 Frequency Transition 0.01 to 400.0 Pr.94 Decel 1 to Decel 2 Frequency Transition 0.01 to 400.0 Pr.95 Auto Energy Saving Pr.96 Pr.97 Counter Countdown Complete Preset counter countdown Factory Customer Setting Settings 0.00 0.00: Disable 0.00 0.00: Disable 00: Disable auto energy saving 00 01: Enable auto energy saving 00 to 9999 00 00 to 9999 00 Pr.
Chapter 4 Parameters| Parameter Explanation Settings Factory Customer Setting Pr.110 Voltage of Zero Speed 0.0 to 20.0 % of Max. output voltage (Pr.05) Control 5.0 Pr.111 Decel S-curve 00 to 07 00 Pr.112 External Terminal Scanning Time 01 to 20 01 00: None speed search Pr.
Chapter 4 Parameters| Parameter Pr.125 Pr.126 Pr.127 Pr.128 Pr.129 Pr.130 Pr.131 Pr.132 Pr.133 Explanation Factory Customer Setting Settings Source of PID Set Point 0.00 to 400.0Hz 0.00 PID Offset Level 1.0 to 50.0 % 10.0 Detection Time of PID 0.1 to 300.0 sec Offset Minimum Reference 0.0 to 10.0 V Value Maximum Reference 0.0 to 10.0 V Value 00: Not inverted Invert Reference 5.0 0.0 10.0 00 Signal AVI (0-10V) 01: Inverted Minimum Reference Value (4-20mA) Maximum Reference Value (4-20mA) 0.
Chapter 4 Parameters| Parameter Explanation Pr.145 Total operation time (Minutes) Pr.146 Line start Lockout Pr.147 Decimal Number of Accel / Decel Time Pr.148 Pr.149 Pr.150 Pr.151 Number of Motor Poles Gear Ratio for Simple Index Function Index Angle for Simple Index Function Deceleration Time for Simple Index Function Settings Factory Customer Setting Read Only 00: Disable 01: Enable 00: One decimal 01: Two decimals 00 00 02 to 20 04 4 to 1000 200 00.0 to 360.0 180.0 0.00 to 100.
Chapter 4 Parameters| 4.2 Parameter Settings for Applications Speed Search Applications Windmill, winding machine, fan and all inertia loads Purpose Restart freerunning motor Functions Before the free-running motor is completely stopped, it can be restarted without detection of motor speed. The AC motor drive will auto search motor speed and will accelerate when its speed is the same as the motor speed. Related Parameters Pr.32~Pr.35 DC Braking before Running Applications Purpose When e.g.
Chapter 4 Parameters| Switching acceleration and deceleration time Applications Auto turntable for conveying machinery Purpose Switching acceleration and deceleration time by external signal Functions When an AC motor drive drives two or more motors, it can reach high-speed but still start and stop smoothly. Related Parameters Pr.10~Pr.13 Pr.39~Pr.
Chapter 4 Parameters| Frequency Hold Applications General application Purpose Functions Acceleration/ Hold output frequency during deceleration pause Acceleration/deceleration Related Parameters Pr.39~Pr.42 Auto Restart after Fault Applications Air conditioners, remote pumps Purpose Functions For continuous and The AC motor drive can be reliable operation restarted/reset automatically up to 10 without operator times after a fault occurs. intervention Related Parameters Pr.72 Pr.
Chapter 4 Parameters| Skip Frequency Setting Applications Pumps and fans Purpose To prevent machine vibrations Functions The AC motor drive cannot run at constant speed in the skip frequency range. Three skip frequency ranges can be set. Related Parameters Pr.67~Pr.70 Carrier Frequency Setting Applications General application Purpose Low noise Functions The carrier frequency can be increased when required to reduce motor noise. Related Parameters Pr.
Chapter 4 Parameters| Output signal for Over-torque Applications Pumps, fans and extruders Purpose To protect machines and to have continuous/ reliable operation Functions When over-torque is detected, a signal is given to prevent machines from damage. Related Parameters Pr.45 Pr.46 Pr.61 Pr.62 Output Signal for Low Voltage Applications General application Purpose Functions When low voltage is detected, a signal Provide a signal for is given for external system or control running status wiring.
Chapter 4 Parameters| Multi-function Analog Output Applications General application Purpose Display running status Revision May 2008, ME14, SW V3.04 Functions The value of frequency, output current/voltage can be read by connecting a frequency meter or voltage/current meter. Related Parameters Pr.43 Pr.
Chapter 4 Parameters| 4.3 Description of Parameter Settings This parameter can be set during operation. Pr.00 Source of Frequency Command Factory Setting: 00 Settings 00 01 Pr.01 Master Frequency determined by digital keypad. (LC-M02E) Master frequency determined by 0 to +10 V input 02 Master frequency determined by 4 to 20mA input 03 Master frequency determined by RS-485 Communication port 04 Master frequency determined by potentiometer on digital keypad.
Hz Hz Freq. Freq. Motor Speed Motor Speed Operation command Stops according to deceleration time ON Chapter 4 Parameters| Time Time Free running to stop ON OFF OFF Coast Ramp Note: The motor stop method is usually determined by the application or system requirements. Pr.03 Unit: 0.1Hz Maximum Output Frequency Settings 50.00 to 400.0 Hz Factory Setting: 60.00 This parameter determines the AC drive’s Maximum Output Frequency.
Chapter 4 Parameters| Pr.06 Unit: 0.1Hz Mid-Point Frequency Settings 0.10 to 400.0Hz Factory Setting: 1.50 The parameter sets the Mid-Point Frequency of V/F curve. With this setting, the V/F ratio between Minimum Frequency and Mid-Point frequency can be determined. Setting of this parameter must be equal to or greater than Minimum Output Frequency (Pr.08) and equal to or less than Maximum Voltage Frequency (Pr.04). Pr.07 Mid-Point Voltage Settings 115V/230V series 0.1 to 255.0V Factory Setting: 10.
Chapter 4 Parameters| Voltage Pr.05 Pr.07 Pr.09 Pr.08 Pr.06 Frequency Pr.03 Pr.04 Custom V/F Curve Voltage Pr.05 Pr.07 Pr.09 Pr.06 Pr.08 Pr.04 Frequency Pr.03 Fan/Pump V/F Curve Commonly used V/F Setting (1) General Purpose Factory Settings Motor Spec. 60Hz V 220 10 1.5 60.0 f Revision May 2008, ME14, SW V3.04 No. Set value Motor Spec. 50Hz No. Pr.03 60.0 Pr.04 60.0 Pr.05 Pr.06 220.0 1.5 Pr.07 10.0 Pr.07 Pr.08 Pr.09 1.5 10.0 Pr.08 Pr.03 V Pr.04 220 Pr.05 Pr.06 10 1.
Chapter 4 Parameters| (2) Fans and Pumps Motor Spec. 60Hz Factory Settings V No. Set value 60.0 220 Pr.03 Pr.04 Pr.05 Pr.06 Pr.07 Pr.08 Pr.09 50 10 1.5 30 60.0 220.0 30 50.0 1.5 10.0 50 10 1.3 25 60.0f (3) High Starting Torque Motor Spec. 60Hz Factory Settings V No. Set value 220 Pr.03 Pr.04 Pr.05 Pr.06 Pr.07 Pr.08 Pr.09 23 18 1.5 3 Motor Spec. 50Hz V 220 60.0 60.0 220.0 3 23.0 1.5 18.0 23 14 1.3 2.2 Set value 50.0 50.0 220.0 25 50.0 1.3 10.0 50.0f Motor Spec. 50Hz V 220 60.0f No. Pr.03 Pr.
Chapter 4 Parameters| Frequency Max. Output Freq. Actual Acceleration/Deceleration Time= Acceleration/Deceleration Time x(Master Freq.-Min.Output Freq.) Max. Output Freq. Pr.10 or Pr. 12 Acceleration Time Pr.14 Time Pr.11 or Pr. 13 Deceleration Time Acceleration S-Curve Settings 00 to 07 Factory Setting: 00 This parameter is used whenever the motor load needs to be accelerated or decelerated smoothly.
Chapter 4 Parameters| When the JOG function is activated, the AC drive will accelerate from Minimum Output Frequency (Pr.08) to Jog Frequency (Pr.16). Drive must be in “stop” status for the operator to activate the JOG function. Likewise, during Jog operation, other commands cannot be accepted through the keypad but FORWARD, REVERSE and STOP. The JOG function can be remotely activated when the Jog terminal is closed, and if the Jog terminal opens, the AC drive will decelerate from Jog Frequency to zero.
Chapter 4 Parameters| Pr.24 Reverse Operation Inhibition Factory Setting: 00 Settings 00 Enable REV operation 01 Disable REV operation This parameter is used to disable motor rotation in reverse. Pr.25 Over–Voltage Stall Prevention Settings 115V/230V series 330-450Vdc Factory Setting: 390 460V series 660-900Vdc Factory Setting: 780 575V series 825-1025Vdc Factory Setting: 975 00 disable During deceleration, the DC bus voltage may exceed its maximum allowable value due to motor regeneration.
Chapter 4 Parameters| Under certain conditions, the AC drive output current may increase abruptly, and exceed the value specified by Pr.26. This is commonly caused by rapid acceleration or excessive load on the motor. When this function is enabled, the AC drive will stop accelerating and maintain a constant output frequency. Drive will resume accelerating only after the current drops below the setting for Pr.26. Pr.
Chapter 4 Parameters| Pr.29 Unit: 0.1sec DC Braking Time during Start-up Settings 0.0 to 5.0 sec Factory Setting: 0.0 This parameter determines the duration for the DC Braking Current applied during starting. DC Braking is applied until the Minimum Frequency is reached. Pr.30 Unit: 0.1sec DC Braking Time during Stopping Settings 0.0 to 25.0 sec Factory Setting: 0.0 This parameter determines the duration for the DC Braking voltage to be applied during stopping.
Chapter 4 Parameters| Pr.32 Momentary Power Loss Operation Selection Factory Setting: 00 Settings 00 Pr.33 Operation stops after momentary power loss 01 Operation continues after momentary power loss Speed search starts with the Master Frequency reference value 02 Operation continues after momentary power loss Speed search starts with the min frequency Maximum Allowable Power Loss Time Settings 0.3 to 5.0 sec Unit: 0.1sec Factory Setting: 2.
Chapter 4 Parameters| Allowable Max. Power Loss Time Input Power Allowable Max. power loss time Pr.33 Pr.33 speed synchronization detection Pr.32=1 Output Power Pr.32=2 Speed search starts with minimum output frequency Speed search starts with the Master Frequency Output Voltage Baseblock Time Baseblock Time Pr.34 Pr.34 speed search Pr.36 Unit: 0.1Hz Upper Bound of Output Frequency Settings 0.10 Hz to 400.
Chapter 4 Parameters| Pr.38 Multi-function Input Terminal (M0, M1) Factory Setting: 00 Settings 00 M0: FWD/STOP, M1: REV/STOP 01 M0: RUN/STOP, M1: REV/FWD 02 M0, M1, M2: 3-wire operation control mode Explanations: 00: Two wire operation: Only Pr.38 can be set to “0”. M0 "Open": Stop, "Close": FWD Run FWD/STOP REV/STOP M1 "Open": Stop, "Close":REV Run GND 01: Two wire operation: Only Pr.38 can be set to “1”.
Chapter 4 Parameters| Pr.39 Multi-function Input Terminal (M2) Factory Setting: 05 Pr.40 Multi-function Input Terminal (M3) Pr.41 Multi-function Input Terminal (M4) Factory Setting: 06 Factory Setting: 07 Pr.42 Multi-function Input Terminal (M5) Factory Setting: 08 Settings 00 to 32 Settings 00 01 Function Description No Function Output OFF (N.O.) (enabled when running) When it is set to 01 or 02, AC drive output will stop immediately.
Chapter 4 Parameters| Settings Function Description Parameter value 5 programs Multi-Function Input Terminals: M1 (Pr.38), M2 (Pr.39), M3 (Pr.40), M4 (Pr.41) or M5 (Pr.42) to be an External Reset. RESET Mx "Close": Operation avalilable setting by 5 05 External Reset GND Note: The External Reset has the same function as the Reset key on the Digital keypad. It will reset the drive after a fault.
Chapter 4 Parameters| Settings Function Description Parameter value 09 programs Multi-Function Input Terminal: M1 (Pr.38), M2 (Pr.39), M3 (Pr.40), M4 (Pr.41) or M5 (Pr.42) for Jog control. 09 Jog Operation Mx "Close": Operation available 9 jog operation command GND Note: Jog operation programmed by 9 can only be initiated while the motor is stop. (Refer to Pr.15, Pr.16.) Parameter value 10 programs Multi-Function Input Terminal: M1 (Pr.38), M2 (Pr.39), M3 (Pr.40), M4 (Pr.41) or M5 (Pr.
Chapter 4 Parameters| Settings Function Description Parameter value 11 programs a Multi-Function Input Terminal: M1 (Pr.38), M2 (Pr.39), M3 (Pr.40), M4 (Pr.41) or M5 (Pr.42) for selecting the First or Second Accel/Decel time. (Refer to Pr.10 to Pr.13.) Mx "Close": 2nd Accel/Decel "Open": 1st Accel/Decel Mx set 11 First or Second 11 GND Accel/Decel Time Selection Frequency Master Frequency Pr.10 Pr.11 Pr.12 1st Accel 2nd Accel/ Decel 1st Accel/ Decel Pr.13 Pr.13 Pr.
Chapter 4 Parameters| Settings 14 Function Description Increase Master Parameter values 14, 15 program the Multi-Function Input Frequency Terminals: M1 (Pr.38), M2 (Pr.39), M3 (Pr.40), M4 (Pr.41) or M5 (Pr.42) to incrementally increase/ decrease the Master Frequency each time an input is received. 15 Decrease Master Frequency UP setting by 14 DOWN setting by 15 Mx "Close": Freq. will increase by one unit. Mx "Open":Freq. will decrease by one unit.
Chapter 4 Parameters| Settings Function Description Parameter value 18 programs Multi-Function Input Terminal: M1 (Pr.38), M2 (Pr.39), M3 (Pr.40), M4 (Pr.41) or M5 (Pr.42) to increase the AC drive’s internal counter. When an input is received, the counter is increased by 1. Trigger Mx counter value increase by 1 when closed. 18 counter trigger signal input.
Chapter 4 Parameters| Settings Function 21 RESET Command (N.C) 22 23 24 Control source: External Enter values 22, 23, or 24 to set the control source to be the Terminal external terminals, keypad or communication respectively. Control source: Keypad used at the same time, the priority is 22-I/O > 23-Keypad > 24-Communication. disable, Read is always 26 PID Disable (N.O.) 27 PID Disable (N.C.) 29 remote/near-end control.
Chapter 4 Parameters| Pr.43 Analog Output Signal Factory Setting: 00 Settings 00 Analog Frequency Meter (0 to Maximum Output Frequency) 01 Analog Current Meter (0 to 250% of the rated AC drive current) 02 Feedback Signal (0 - 100%) 03 Output Power (0 - 100%) This parameter selects if the Output Frequency, Current, PID feedback or Output Power will be the output signal on the AFM terminal (0 to 10V). Pr.
Chapter 4 Parameters| Pr.45 Multi-function Output Terminal 1 (Photocoupler output) Factory Setting: 00 Pr.46 Multi-function Output Terminal 2 (Relay output) Factory Setting: 07 Settings 00 to 24 Settings 00 01 Function AC Drive Operational Description Terminal output is activated when there is power output from drive. Maximum Output Terminal output is activated when the AC drive attains Frequency Attained Maximum Output Frequency.
Chapter 4 Parameters| Settings 14 15 16 Function Preliminary Counter Value Attained Warning (PID feedback Description Terminal output is activated when counter reaches the Preliminary Count Value. See diagram for Pr.38 to Pr.42=18. The contact will be “close” when PID feedback loss or loss, communication error) communication is error. Below the Desired Frequency The contact will be “close” when output frequency is less than desired frequency.
Chapter 4 Parameters| Pr.47 Unit: 0.1Hz Desired Frequency Attained Settings 0.00 to 400.0 Hz Factory Setting: 0.00 This parameter allows monitoring a certain frequency and then activates one of the Multifunction output terminals (Pr.45 or Pr.46 set to 8) when that frequency is achieved. Freq. Detection range Max. Output + Freq. - 2Hz Detection range -2Hz Time Desired Freq. Pr.47 Preset Freq. Attained Indication OFF Pr.45 to Pr.46 Desired Freq. Attained Indication OFF Pr.45 & Pr.
Chapter 4 Parameters| Pr.48 to Pr.51 are used when the source of frequency command is the analog signal (0 to +10V DC or 4 to 20mA DC). Refer to the following examples. Example 1: Set Pr.00=1 to command frequency with the potentiometer on keypad or Pr.00=2 (4 to 20mA current signal) potentiometer/current signal of external terminal. Max. Output Pr.03 Freq. 60Hz 0Hz 0V 4mA 30 Factory Settings 5V 12mA Pr.03=60Hz--Max. output Freq. Pr.48=0%--bias adjustment Pr.49=0 -- bias polarity Pr.50=100% -- pot.
Chapter 4 Parameters| Example 3: The whole scale of the potentiometer may be used as desired. In addition to the signals 0 to 10V and 4 to 20mA, other popular voltage signals include 0 to 5V, 20 to 4mA or that under 10V. Max. Output Pr.03 Freq. 60Hz 35 0 10Hz Bias Adjustment -2V 0Hz 0V 4mA XV 10V 20mA Pr. 50 = 10V X 100% = 83.3% 12V Negative bias: 0V Hz 60 10V Potentiometer Scale 60-10Hz 10-0Hz = 10V XV XV = 100 = 2V 50 Pr.
Chapter 4 Parameters| Example 5: In this example, a 6 Hz (10% of 60 Hz) negative bias is used. This setting is used to provide a noise margin (1V in this example) in noisy environments. Note that the top frequency is reduced to 54 Hz. Max. Output Pr.03 Freq. 60Hz 54Hz 0Hz Negative 0V 1V bias 6Hz Factory Settings Pr.03=60Hz--Max. output Freq. Pr.48=10.0% -- bias adjustment Pr.49=1 -- bias polarity Pr.50=100% -- pot. freq. gain Pr.51=0 -- Rev.
Chapter 4 Parameters| Example 8: This example shows how to set up the “anti-slope”, which is an inversely proportional variation of frequency to the input analog signal, required for some applications in process control. A sensor will generate a large signal (such as 20mA or 10V) and the AC Drive will slow or stop. Max. Output Pr.03 Freq. 30 60Hz Factory Settings anti-slope 0Hz 0V 4mA Pr.52 Pr.03=60Hz--Max. output Freq. Pr.48=100%--bias adjustment Pr.49=1 -- bias polarity Pr.50=100% -- pot. freq.
Chapter 4 Parameters| This parameter can be used to compensate motor slip. Although no linear, it typically adds 6Hz for a setting of 10 if Pr.03=60 Hz. When the output current of the AC drive is greater than the motor no-load current (Pr.53), the AC drive will adjust its output frequency according to this parameter. Pr.56 Pr.57 Reserved Rated Current Display of the AC motor drive Settings Read Only Factory Setting: ##.# Pr.57 displays the rated current of the AC motor drive.
Chapter 4 Parameters| Pr.60 Over-Torque Detection Mode Factory Setting: 00 Settings 00 01 Pr.61 Over-Torque detection disabled. Enabled during constant speed operation until the allowable time for detection (Pr.62) elapses. 02 Enabled during constant speed operation and halted after detection. 03 Enabled during acceleration until the allowable time for detection (Pr.62) elapses. 04 Enabled during acceleration and halted after detection.
Chapter 4 Parameters| 05 Displays the value of the internal counter (c) 06 Displays the setting Frequency (F) 07 Displays the parameter setting (P) 08 Reserved 09 Output Current (A) 10 Display program operation (0. xxx), Fwd, or Rev The parameter can be set to display the user-defined value. (where v = H x Pr.65 ) Pr.65 Unit: 0.01 Coefficient K Settings 0.01 to 160.0 Factory Setting: 1.00 The coefficient K determines the multiplying factor for the user-defined unit.
Chapter 4 Parameters| Pr.67 Skip Frequency 1 Unit: 0.1 Hz Pr.68 Skip Frequency 2 Unit: 0.1 Hz Pr.69 Unit: 0.1 Hz Skip Frequency 3 Settings 0.00 to 400.0 Hz Factory Setting: 0.00 These three parameters determine the three Skip Frequencies that in conjunction with Pr.70, Skip Frequency Band, will cause the AC drive to skip operating in each frequency band. Note: Pr.67 > Pr.68 > Pr.69. Pr.70 Unit: 0.1 Hz Skip Frequency Band Settings 0.00 to 20.00 Hz Factory Setting: 0.
Chapter 4 Parameters| Electromagnetic Noise, Carrier Frequency Acoustic Noise 1KHz Significant Minimal Minimal 15KHz Minimal Significant Significant Leakage Current Heat Dissipation From the above table, we see that the carrier frequency of PWM output has a significant influence on the electromagnetic noise, heat dissipation of the AC drive, and the acoustic noise to the motor. Pr.
Chapter 4 Parameters| Pr.
Chapter 4 Parameters| Example 1 (Pr.78 =01): Execute one cycle of the PLC program. Its relative parameter settings are: 1 2 Pr.17 to Pr.23: 1st to 7th step speed (sets the frequency for each step speed) Pr.38 to Pr.42: Multi-Function Input Terminals (program one multi-function terminal for PLC auto-operation (16)). 3 Pr.45 to Pr.
Chapter 4 Parameters| Example 2 (Pr.78 = 02) Continuously executes program cycles: The diagram below shows the PLC program stepping through each speed and then automatically starting again. To stop the PLC program, either pause or stop the program. (Refer to Pr.38 to Pr.42 value 17 and 18) Frequency Master freq.=10Hz Pr.17=10 Hz Pr.42=16 Pr.18=20 Hz Pr.45=09 Pr.19=40 Hz Pr.46=10 Pr.20=60 Hz * Pr.78=01 Pr.21=50 Hz Pr.79=00 Pr.22=30 Hz Pr.23=15 Hz Pr.22 Pr.20 60Hz Pr.21 50Hz Pr.19 40Hz 30Hz Pr.81=1.
Chapter 4 Parameters| Example 4 (Pr.78 = 04) Continuously executes program cycles step by step: In this explanation, the PLC program runs continuously step by step. Also shown are examples of steps in the reserve direction. Note: operating time for each step is 10 times the settings of Pr.81 to Pr.87. Pr.17=10 Hz Pr.42=16 Pr.81=1.0 Pr.18=20 Hz Pr.45=09 Pr.82=1.2 Pr.19=40 Hz Pr.46=10 Pr.83=1.5 Pr.21 Pr.20=60 Hz * Pr.78=04 Pr.84=1.5 Pr.21=50 Hz * Pr.79=34 Pr.85=0.8 Pr.86=1.7 Pr.22=30 Hz Pr.87=1.7 Pr.
Chapter 4 Parameters| Application Note: PLC program execution will be interrupted when values for JOG parameters 15 and 16 are changed. Pr.79 PLC Forward/Reverse Motion Settings 00 to 127 Factory Setting: 00 This parameter determines the direction of motion for the multi-speed Pr.17 to Pr.23 and Master Frequency. The original direction of Master Frequency will become invalid.
Chapter 4 Parameters| Pr.80 Identity Code of the AC Motor Drive Settings Read Only Factory Setting: ## This parameter displays the identity code of the AC motor drive. The capacity, rated current, rated voltage and the max. carrier frequency relate to the identity code. Users can use the following table to check how the rated current, rated voltage and max. carrier frequency of the AC motor drive correspond to the identity code. 115V series 230V series kW 0.2 0.4 0.75 0.4 0.75 1.5 2.2 3.7 5.
Chapter 4 Parameters| This parameter sets the Ac drive address identification when using the RS-485 serial port for communication. Pr.89 Transmission Speed (Baud rate) Factory Setting: 01 Settings 00 4800 bps 01 9600 bps 02 19200 bps 03 38400 bps This parameter sets the transmission speed for communication on the RS-485 serial port Pr.90 Transmission Fault Treatment Factory Setting: 03 Settings 00 Pr.
Chapter 4 Parameters| Each drive has a built-in RS-485 serial interface, marked (RJ-11 Jack) on the control terminal block, whose pins are defined as shown: 1 6 1: +15V 2: GND 3: SG4: SG+ 5: NC 6: for communication Either ASCII or RTU Modbus protocols are used for communication. Users can select the desired mode along through parameters Pr.92 and Pr.113. Each VFD-M AC drive has a pre-assigned communication address specified by Pr.88.
Chapter 4 Parameters| 2.2 11-bit character frame (For 8-bit character): ( 8.N.2:Pr.92=3) Start bit 0 1 2 3 5 4 6 7 Stop Stop bit bit 6 7 Even Stop parity bit 6 7 Odd Stop parity bit 8-data bits 11-bits character frame ( 8.E.1:Pr.92=4) Start bit 0 1 2 3 5 4 8-data bits 11-bits character frame ( 8.O.1:Pr.92=5) Start bit 0 1 2 3 4 5 8-data bits 11-bits character frame 3. Communication Protocol 3.1 Communication Data Frame: STX 02H ADR1 ADR0 CMD1 CMD0 Address 0 CMD 1 ......
Chapter 4 Parameters| RTU mode: START A silent interval of more than 10 ms ADR Communication address: 8-bit address CMD Command code: 8-bit command DATA (n-1) ……. Contents of data: n×8-bit data, n<=25 DATA 0 CRC CHK Low CRC check sum: CRC CHK High 16-bit check sum consists of 2 8-bit characters END A silent interval of more than 10 ms 3.3 ADR (Communication Address) Valid communication addresses are in the range of 0 to 254.
Chapter 4 Parameters| Command code: 03H, read N words. The maximum value of N is 12. For example, reading continuous 2 words from starting address 2102H of AMD with address 01H.
Chapter 4 Parameters| Command code: 06H, write 1 word For example, writing 6000(1770H) to address 0100H of AMD with address 01H.
Chapter 4 Parameters| Command code: 10H, write multiple data to registers For example, set the multi-step speed, Pr.17=50.00 (1388H), Pr.18=40.00 (0FA0H). AC drive address is 01H.
Chapter 4 Parameters| RTU Mode: Command message: Response message: ADR 01H ADR CMD 10H CMD 01H 10H Starting data 00H Starting data 00H 11H address 11H address Number of data 00H Number of data 00H (count by word) Number of data (count by byte) The first data 02H (count by word) 02H 04H CRC Check Low 11H 13H CRC Check High CDH content 88H The second data 0FH content A0H CRC Check Low B2H CRC Check High 49H 3.
Chapter 4 Parameters| RTU mode: ADR 01H CMD 03H Starting address 21H 02H Number of data (count by word) 00H CRC CHK Low 6FH CRC CHK High F7H 02H CRC (Cyclical Redundancy Check) is calculated by the following steps: Step 1: Load a 16-bit register (called CRC register) with FFFFH. Step 2: Exclusive OR the first 8-bit byte of the command message with the low order byte of the 16bit CRC register, putting the result in the CRC register.
Chapter 4 Parameters| while(length--){ reg_crc ^= *data++; for(j=0;j<8;j++){ if(reg_crc & 0x01){ /* LSB(b0)=1 */ reg_crc=(reg_crc>>1) ^ 0xA001; }else{ reg_crc=reg_crc >>1; } } } return reg_crc; } 3.6 Address list: The contents of available addresses are shown as below: Content Address Functions AC drive Parameters 00nnH 00 means parameter group, nn means parameter number, for example, the address of Pr.100 is 0064H. Referencing to chapter 5 for the function of each parameter.
Chapter 4 Parameters| Content Status monitor Read only Address Functions 2100H Error code: 00: No errors occurred 01: Over-current (oc) 03: Overheat (oH) 04: Drive overload (oL) 05: Motor overload1 (oL1) 06: External fault (EF) 07: CPU failure (cF1) 08: CPU or analog circuit failure (cF3) 09: Hardware protection failure (HPF) 10: Current exceeds 2 times rated current during accel (ocA) 11: Current exceeds 2 times rated current during decel (ocd) 12: Current exceeds 2 times rated current during steady
Chapter 4 Parameters| Content Address Functions 2106H Output Voltage E (XXX.X) 2107H 2108H Step number of Multi-Step Speed Operation (step) Time of PLC Operation (sec) 2109H Value of External Trigger (count) 210AH The Correspondent Value of Power Factor (XXX.X) 210BH Pr.65 X Low word of H (XXX.XX) 210CH Pr.65 X High word of H (XXX.XX) 210DH 210EH AC Drive Temperature (XXX.X) PID Feedback Signal (XXX.XX) 210FH PID Target Value (XXX.XX) 2110H AC Drive Mode Type Information 3.
Chapter 4 Parameters| void main(){ int i; outportb(PORT+MCR,0x08); outportb(PORT+IER,0x01); /* interrupt enable */ /* interrupt as data in */ outportb(PORT+LCR,(inportb(PORT+LCR) | 0x80)); /* the BRDL/BRDH can be access as LCR.
Chapter 4 Parameters| Pr.93 Pr.94 Accel 1 to Accel 2 Frequency Transition Unit: 0.10 Hz Decel 1 to Decel 2 Frequency Transition Unit: 0.10 Hz Factory Setting: 0.00 Settings 0.01 to 400.0 Hz 0.00 disable These functions are used to change acceleration or deceleration depending on attained frequency and not by closing contacts on the external terminals. The priority of this parameter is higher than the time of Accel/Decel 1 and Accel/Decel 2. Pr.
Chapter 4 Parameters| Pr.97 Preset Count Down Completion Settings 00 to 9999 Factory Setting: 00 This parameter sets a preliminary count value for the internal counter. Counter is incremented by a low-to-high transition on one of the programmed Multi-Function Input Terminals: M1 or M2 (see Pr.44 or Pr.45, setting 14). Count starts at 01. Upon completion the selected MultiFunction Output Terminal will close.
Chapter 4 Parameters| 02 Linear acceleration and automatic deceleration (Operation by automatic deceleration time, Pr.10 or Pr.12 acceleration time). 03 Automatic acceleration, deceleration (Operation by AC drive auto adjustable control) 04 If this parameter is set to 04, Accel/Decel time will be equal to or more than parameter Pr.10 ~Pr.13. This parameter should not be used when a brake unit is installed. Pr.
Chapter 4 Parameters| Pr.105 Control Mode Factory Setting: 00 Settings 00 01 Pr.106 V/F Control Sensor-less Control Unit: 0.01Hz Rated Slip Settings 0.00 to 10.00 Hz Factory Setting: 3.0 Example of Slip calculation: The rated speed of 4 poles/3 φ/ 60Hz/ 220V on the nameplate is 1710RPM. The rated slip is then: 60-(1710/(120/P))=3Hz. (being P the number of poles) Pr.107 Vector Voltage Filter Settings 5 to 9999 Pr.
Chapter 4 Parameters| Note: From the diagram shown below, the original setting accel/decel time will be for reference when the function of the S-curve is enabled. The actual accel/decel time will be determined based on the S-curve selected (1 to 7). Pr.112 Unit: 2msec External Terminal Scanning Time Settings 01 to 20 Factory Setting: 01 This function screens the signal on I/O terminals for CPU malfunctions due to external transients. A setting of 02, makes the scanning time to be 2 x 2 = 4 msec.
Chapter 4 Parameters| Targeted value + P - I Pr.117 Pr.118 + Upper Bound + of Integral Value Pr.120 + Limit of PID Output Frequency Pr.122 One Time Delay Pr.121 Frequency Command D Pr.119 LPF Pr.135 Pr. 116 Definition of Detection Value AVI( Pr.128~Pr.130) ACI( Pr.131~Pr.133 ) Selection of Detection value Pr.
Chapter 4 Parameters| Pr. 119 Unit: 0.01sec Differential Time (D) Settings 0.00 to 1.00 sec Factory Setting: 0.00 This parameter determines the damping effect for the PID feedback loop. If the differential time is long, any oscillation will quickly subside. If the differential time is short, the oscillation will subside slowly. Pr.
Chapter 4 Parameters| Pr. 122 PID Frequency Output Command limit Settings 00 to 110 % Factory Setting: 100 This parameter sets a limit of the PID Command frequency. If this parameter is set to 20%, then the maximum output frequency for the PID operation will be (20% x Pr.03). Pr. 123 Unit: 0.1sec Feedback Signal Detection Time Factory Setting: 60.0 Settings 0.1 to 3600 sec 0.0 disable This parameter defines the detection time for the loss of a feedback analog signal.
Chapter 4 Parameters| Pr. 129 Maximum Reference Value Settings 0.0 to 10.0 V Factory Setting: 10.0 This parameter is used to set the AVI input voltage that corresponds to maximum frequency. Pr. 130 Invert Reference Signal AVI (0-10V) Factory Setting: 00 Settings 00 01 Not Inverted Inverted If this parameter is set to 01, the reference signal is inverted: 0V corresponds to 60Hz in Pr.128 and 10V corresponds to 0Hz in Pr.129. Pr. 131 Unit: 0.1mA Minimum Reference Value (0-20mA) Settings 0.0 to 20.
Chapter 4 Parameters| These two parameters are used to set the analog input delay filter in set point or feedback signal. Pr. 136 Unit: 0.1sec Sleep Period Settings 0.0 to 6550.0 sec Pr. 137 Factory Setting: 0.0 Unit: 0.10Hz Sleep Frequency Settings 0.00 to 400.0 Hz Pr. 138 Factory Setting: 0.0 Unit: 0.10Hz Wake Up Frequency Settings 0.00 to 400.0 Hz Factory Setting: 0.0 These parameters determine the sleep functions of the AC drive.
Chapter 4 Parameters| Pr. 141 Save Frequency Set Point Factory Setting: 01 Settings 00 01 Not Save Save This parameter is used to save the frequency setting before powering off. Pr. 142 Second Source of Frequency Command Factory Setting: 00 Settings 00 01 Keypad Up/Down AVI (0-10V) 02 ACI (4-20mA) 03 RS485 04 Keypad Potentiometer This parameter changes the source for frequency command by using any Multifunction Input (Pr.39-Pr.42, setting= 28). Pr. 143 Unit: 0.
Chapter 4 Parameters| When Line Start Lockout is disabled (also known as Auto-Start), the drive will start when powered-up with run commands applied. To start in Line Start Lockout mode, the AC drive must see the run command go from stop to run after power up. When enabled, the AC drive will not start when powered up if run commands were applied. Pr.
Chapter 4 Parameters| Pr. 152 Skip Frequency Width Settings 0.00 to 400.00Hz Pr. 153 Factory Setting: 0.00 Bias Frequency Width Settings 0.00 to 400.00Hz Factory Setting: 0.00 Frequency of Δ top point Fup= master frequency F + Pr.152 + Pr.153. Frequency of Δ down point Fdown= master frequency F – Pr.152 – Pr.153. Fup Pr.152 Double Pr. 153 Master Pr.10, 12 Frequency (F) Pr.11, 13 Fdown Pr. 154 Pr.155 Reserved Compensation Coefficient for Motor Instability Factory Setting: 0.0 Settings 0.
Chapter 4 Parameters| This parameter is to select the communication mode, 0 is the existed Delta ASCII communication mode, whereas 1 is to select MODBUS mode. Revision May 2008, ME14, SW V3.
Chapter 4 Parameters| This page intentionally left blank 4-86 Revision May 2008, ME14, SW V3.
Chapter 5 Troubleshooting 5.
Chapter 5 Troubleshooting| 5.2 Ground Fault Is output circuit(cable or motor) of AC motor drive grounded? GFF Ground fault Maybe AC motor drive has malfunction or misoperation due to noise. Please contact DELTA. No Yes Remove ground fault 5.3 Over Voltage (OV) Over voltage No Reduce voltage to be within spec. Is voltage within specification Yes Has over-voltage occurred without load Maybe AC motor drive has malfunction or misoperation due to noise. Please contact with DELTA.
Chapter 5 Troubleshooting| 5.
Chapter 5 Troubleshooting| 5.5 Over Heat (OH1) AC motor drive overheats Heat sink overheats No Check if temperature of heat sink O is greater than 90 C Temperature detection malfunctions. Please contact DELTA. Yes Is load too large Yes Reduce load No If cooling fan functions normally No Change cooling fan Yes Check if cooling fan is jammed Yes Remove obstruction No Check if surrounding temperature is within specification Maybe AC motor drive has malfunction or misoperation due to noise.
Chapter 5 Troubleshooting| 5.7 Keypad Display is Abnormal Abnormal display or no display Yes Cycle power to AC motor drive Fix connector and eliminate noise No No Display normal? Check if all connectors are connect correctly and no noise is present Yes Yes AC motor drive works normally AC motor drive has malfunction. Please contact DELTA. 5.
Chapter 5 Troubleshooting| 5.9 Motor cannot Run Check No keypad for normal display Motor cannot run Yes Input "RUN" command by keypad No Check if input FWD No or REV command Yes Press UP to check if motor can run Check if the wiring of M0-GND and M1-GND is correct Yes Change switch or relay Yes No Set frequency or not No No Correct connection Yes Modify frequency setting No if upper bound freq. and setting freq. is lower than the min. output freq.
Chapter 5 Troubleshooting| 5.10 Motor Speed cannot be Changed Motor can run but cannot change speed Modify the setting Yes No Check if the setting of the max. frequency is too low No If the setting of frequency Yes is out of range(upper/lower) bound No Press UP/DOWN key Yes to see if speed has any change No Yes If there is any change of the signal that sets Yes frequency (0-10V and 4-20mA) If the setting of Pr.17 to Pr.
Chapter 5 Troubleshooting| 5.
Chapter 5 Troubleshooting| 5.13 Electromagnetic/Induction Noise Many sources of noise surround AC motor drives and penetrate it by radiation or conduction. It may cause malfunctioning of the control circuits and even damage the AC motor drive. Of course, there are solutions to increase the noise tolerance of an AC motor drive. But this has its limits. Therefore, solving it from the outside as follows will be the best. 1. 2. Add surge suppressor on the relays and contacts to suppress switching surges.
Chapter 5 Troubleshooting| 4. Store within a relative humidity range of 0% to 90% and non-condensing environment. Use an air conditioner and/or exsiccator. 5.15 Affecting Other Machines An AC motor drive may affect the operation of other machines due to many reasons. Some solutions are: High Harmonics at Power Side High harmonics at power side during running can be improved by: 1. Separate the power system: use a transformer for AC motor drive. 2.
Chapter 6 Fault Code Information and Maintenance 6.1 Fault Code Information The AC motor drive has a comprehensive fault diagnostic system that includes several different alarms and fault messages. Once a fault is detected, the corresponding protective functions will be activated. The following faults are displayed as shown on the AC motor drive digital keypad display. The three most recent faults can be read from the digital keypad by viewing Pr.73 to Pr.75.
Chapter 6 Fault Code Information and Maintenance| Fault Name Fault Descriptions The AC drive temperature sensor detects excessive heat. Ensure that the ambient temperature falls within the specified temperature range. 2. Make sure that the ventilation holes are not obstructed. 3. Remove any foreign objects on the heat sinks and check for possible dirty heat sink fins. 4. Provide enough spacing for adequate ventilation.
Chapter 6 Fault Code Information and Maintenance| Fault Name Fault Descriptions Over-current during steady state operation: 1. Short-circuit at motor output. 2. Sudden increase in motor loading. 3. AC drive output capacity is too small. Internal memory IC can not be programmed. Corrective Actions 1. Check for possible poor insulation at the output line. 2. Check for possible motor stall. 3. Replace with the AC drive with one that has a higher output capacity (next HP size). 1.
Chapter 6 Fault Code Information and Maintenance| Fault Name Fault Descriptions Corrective Actions OC hardware error CC (current clamp) OV hardware error Return to the factory. GFF hardware error OV or LV Current sensor error U-phase error Return to the factory. W-phase error Phase Loss Check input phase wiring for loose contacts. Software protection failure Return to the factory. PID feedback signal error 6-4 1. Check parameter settings (Pr.116) and AVI/ACI wiring. 2.
Chapter 6 Fault Code Information and Maintenance| 6.1.2 Reset There are three methods to reset the AC motor drive after solving the fault: STOP RESET key on keypad. 1. Press 2. Set external terminal to “RESET” (set one of Pr.39~Pr.42 to 05) and then set to be ON. 3. Send “RESET” command by communication. NOTE Make sure that RUN command or signal is OFF before executing RESET to prevent damage or personal injury due to immediate operation. 6.
Chapter 6 Fault Code Information and Maintenance| DANGER! 1. 2. Disconnect AC power before processing! Only qualified personnel can install, wire and maintain AC motor drives. Please take off any metal objects, such as watches and rings, before operation. And only insulated tools are allowed. 3. Never reassemble internal components or wiring. 4. Prevent static electricity.
Chapter 6 Fault Code Information and Maintenance| Keypad Check Items Methods and Criterion Maintenance Period Daily Is the display clear for reading? Visual inspection { Any missing characters? Visual inspection { Half One Year Year Mechanical parts Check Items Methods and Criterion Maintenance Period Daily Half One Year Year If there is any abnormal sound or vibration Visual and aural inspection { If there are any loose screws Tighten the screws { If any part is deformed or damaged
Chapter 6 Fault Code Information and Maintenance| Terminals and wiring of main circuit Check Items Methods and Criterion Maintenance Period Daily Half One Year Year If the wiring shows change of color change or deformation due to overheat Visual inspection { If the insulation of wiring is damaged or the color has changed Visual inspection { If there is any damage Visual inspection { DC capacity of main circuit Check Items Methods and Criterion Maintenance Period Daily If there is any leak
Chapter 6 Fault Code Information and Maintenance| Transformer and reactor of main circuit Maintenance Period Check Items Methods and Criterion Daily If there is any abnormal vibration or peculiar smell Visual, aural inspection and smell Half One Year Year { Magnetic contactor and relay of main circuit Maintenance Period Check Items Methods and Criterion Daily If there are any loose screws Visual and aural inspection. Tighten screw if necessary.
Chapter 6 Fault Code Information and Maintenance| Cooling fan of cooling system Maintenance Period Check Items Methods and Criterion Daily Half One Year Year If there is any abnormal sound or vibration Visual, aural inspection and turn the fan with hand (turn off the power before operation) to see if it rotates smoothly { If there is any loose screw Tighten the screw { If there is any change of color due to overheating Change fan { Ventilation channel of cooling system Maintenance Period Check
Appendix A Specifications There are 115V, 230V, 460V and 575V models in the VFD-M series. For 115V models, it is 1-phase models. For 0.5 to 3HP of the 230V models, there are 1-phase/3-phase models. Refer to following specifications for details. Input Rating Output Rating Voltage Class Model Number VFD-XXXM Max. Applicable Motor Output (kW) Max.
Appendix A Specifications| Input Rating Output Rating Voltage Class Model Number VFD-XXXM Max. Applicable Motor Output (kW) Max. Applicable Motor Output (hp) Rated Output Capacity (kVA) Rated Output Current (A) Maximum Output Voltage (V) Output Frequency (Hz) Carrier Frequency (kHz) Rated Input Current (A) Rated Voltage, Frequency Voltage Tolerance Frequency Tolerance Cooling Method Weight (kg) Input Rating Output Rating Voltage Class Model Number VFD-XXXM Max. Applicable Motor Output (kW) Max.
Appendix A Specifications| General Specifications Operating Characteristics Frequency Setting Operation Setting Signal Keypad Setting by External Signal Potentiometer-5KΩ/0.5W, 0 to +10VDC, 4 to 20mA RS-485 interface; Multi-Function Inputs 0 to 5 (7 steps, Jog, up/down) Keypad Set by RUN, STOP External Signal M0 to M5 can be combined to offer various modes of operation, RS-485 serial interface (MODBUS).
Appendix A Specifications| This page intentionally left blank A-4 Revision May 2008, ME14, SW V3.
Appendix B Accessories B.1 All Brake Resistors & Brake Units Used in AC Motor Drives Note: Please only use DELTA resistors and recommended values. Other resistors and values will void Delta’s warranty. Please contact your nearest Delta representative for use of special resistors. 575V Series 460V Series 230V Series 115V Series Voltage The brake unit should be at least 10 cm away from AC motor drive to avoid possible interference.
Appendix B Accessories| NOTE 1. Please select the brake unit and/or brake resistor according to the table. “-“ means no Delta product. Please use the brake unit according to the Equivalent Resistor Value. 2. If damage to the drive or other equipment is due to the fact that the brake resistors and the brake modules in use are not provided by Delta, the warranty will be void. 3. 4. Take into consideration the safety of the environment when installing the brake resistors.
Appendix B Accessories| NFB MC R/L1 R/L1 U/T1 S/L2 S/L2 V/T2 T/L3 T/L3 W/T3 VFD Series O.L. Thermal Overload Relay or temperature switch MC B1 SA Surge Absorber IM MOTOR Thermal Overload Relay O.L. Brake BR Resistor B2 Temperature Switch B.1.1 Dimensions and Weights for Brake Resistors& Brake Units (Dimensions are in millimeter) Revision May 2008, ME14, SW V3.
Appendix B Accessories| B-4 Revision May 2008, ME14, SW V3.
Appendix B Accessories| B.2 Non-fuse Circuit Breaker Chart The fuse should comply with UL248 and the breaker should comply with UL489. (Note: Please select enough current capacity of NFB.
Appendix B Accessories| B.3 Fuse Specification Chart Smaller fuses than those shown in the table are permitted. B-6 Model Input Current (A) Output Current (A) VFD002M11A 6 VFD004M11A Line Fuse I (A) Bussmann P/N 1.6 15 JJN-15 9 2.5 20 JJN-20 VFD007M11A 16 4.2 30 JJN-30 VFD004M21A 6.3 2.5 15 JJN-15 VFD004M21B 6.3 2.5 15 JJN-15 VFD007M21A 11.5 5.0 20 JJN-20 VFD007M21B 11.5 5.0 20 JJN-20 VFD015M21A 15.7 7.0 30 JJN-30 VFD015M21B 15.7 7.
Appendix B Accessories| B.4 AC Reactor B.4.1 AC Input Reactor Recommended Value 230V, 50/60Hz, single-phase Inductance (mh) kW HP Fundamental Amps 0.2 0.25 4 6 0.4 0.5 5 7.5 3 0.75 1 8 12 1.5 1.5 2 12 18 1.25 2.2 3 18 27 0.8 Max. continuous Amps 3~5% Impedance 6.5 460V, 50/60Hz, 3-phase Inductance (mh) Max. continuous Amps 3% Impedance 5% Impedance kW HP Fundamental Amps 0.75 1 4 6 9 1.5 2 4 6 6.5 9 2.2 3 8 12 5 7.5 12 3.7 5 8 12 3 5 5.5 7.
Appendix B Accessories| 460V, 50/60Hz, 3-phase Inductance (mh) kW HP Fundamental Amps Max. continuous Amps 0.75 1 4 6 9 1.5 2 4 6 6.5 9 2.2 3 8 12 5 7.5 3% Impedance 5% Impedance 12 3.7 5 12 18 2.5 4.2 5.5 7.5 18 27 1.5 2.5 7.5 10 18 27 1.5 2.5 B.4.3 Applications Connected in input circuit Application 1 Question When more than one AC motor drive is connected to the same mains power, and one of them is ON during operation.
Appendix B Accessories| Application 2 Silicon rectifier and AC motor drive are connected to the same power. Question Switching spikes will be generated when the silicon rectifier switches on/off. These spikes may damage the mains circuit.
Appendix B Accessories| B.5 Zero Phase Reactor (RF220X00A) Dimensions are in millimeter. Cable type (Note) Singlecore Threecore Recommended Wire Size AWG 2 mm ≦10 ≦5.3 Nominal (mm2) ≦5.5 Qty. Wiring Method 1 Diagram A ≦2 ≦33.6 ≦38 4 Diagram B ≦12 ≦3.3 ≦3.5 1 Diagram A ≦1 ≦42.4 ≦50 4 Diagram B Note: 600V Insulated Unshielded Cable. Diagram A Please wind each wire 4 times around the core. The reactor must be put at inverter side as close as possible.
Appendix B Accessories| B.6 Remote Controller RC-01 Dimensions are in millimeter. 8 6 5 4 16 15 14 13 11 RC-01 terminal block (wiring connections) AFM GND AVI +10V GND M2 M0 M1 M3 VFD-M I/O block VFD-M Programming Pr.00 set to 01 Pr.01 set to 01 (external controls) Pr.38 set to 01 (M0, M1 set as run/stop and fwd/rev) Pr.39 set to 05 (M2 set for reset) Pr.40 set to 09 (M3 set for jog select) Revision May 2008, ME14, SW V3.
Appendix B Accessories| B.7 PU06 B.7.1 Description of the Digital Keypad VFD-PU06 LED Display Indicates frequency, voltage, current, user defined units, read, and save, etc. Frequency Command Status indicator Output Frequency Status indicator F H U Model Number VFD-PU06 User Defined Units Status indicator EXT PU JOG By pressing JOG key, Jog frequency operation. UP and DOWN Key Set the parameter number and changes the numerical data, such as Master Frequency.
Appendix B Accessories| Display Message Descriptions The specified parameter setting. The actual value stored in the specified parameter. External Fault “End” displays for approximately 1 second if the entered input data have been accepted. After a parameter value has been set, the new value is automatically stored in memory. To modify an entry, use the or keys. “Err” displays if the input is invalid. Communication Error. Please check the AC motor drive user manual for more details. B.7.
Appendix B Accessories| B.
Appendix B Accessories| Choose suitable motor cable and precautions Improper installation and choice of motor cable will affect the performance of EMI filter. Be sure to observe the following precautions when selecting motor cable. 1. Use the cable with shielding (double shielding is the best). 2. The shielding on both ends of the motor cable should be grounded with the minimum length and maximum contact area. 3. Remove any paint on metal saddle for good ground contact with the plate and shielding.
Appendix B Accessories| The length of motor cable When motor is driven by an AC motor drive of PWM type, the motor terminals will experience surge voltages easily due to components conversion of AC motor drive and cable capacitance. When the motor cable is very long (especially for the 460V series), surge voltages may reduce insulation quality. To prevent this situation, please follow the rules below: Use a motor with enhanced insulation.
Appendix B Accessories| B.8.1 Dimensions EMI Filter (RF015M21AA / RF022M43AA) 50 (1.97) 28 (1.1) 100 (3.94) 70 (2.76) 212 226 (8.35) (8.9) 212 (8.35) 15 (0.59) 26 (1.02) 4.5 (0.18) EMI Filter (RF022M21BA / RF075M43BA) 60 (2.36) 30 (1.18) 125 (4.82) 80 (3.15) 295 282 (11.1) (11.61) 282 (11.1) 15 (0.59) Revision May 2008, ME14, SW V3.04 30 (1.18) 5.5 (0.
Appendix B Accessories| EMI Filter (16TDT1W4S) Used on 0.5-3 HP/230V Three Phase Models. EMI Filter (40TDS4W4B) Used on 5-7.5 HP/230V Three Phase Models. B-18 Revision May 2008, ME14, SW V3.
Appendix B Accessories| B.9 Din Rail B.9.1 Din Rail-DR01 Adapter Units: mm (inch) Models VFD004M21A/23A, VFD007M21A/23A, VFD015M21A/23A To mount the drive on a Din Rail adapter, place the drive and mounting plate on the rail and push the lever toward the rail. Revision May 2008, ME14, SW V3.
Appendix B Accessories| B.9.2 Din Rail-DR02 Adapter Units: mm (inch) Models VFD002M11A, VFD004M11A/21B, VFD007M11A/21B/43B/53A, VFD015M21B/43B/53A, VFD022M23B/43B/53A To mount the drive on a Din Rail adapter, place the drive and mounting plate on the rail and push the lever toward the rail. B-20 Revision May 2008, ME14, SW V3.
Appendix C How to Select the Right AC Motor Drive The choice of the right AC motor drive for the application is very important and has great influence on its lifetime. If the capacity of AC motor drive is too large, it cannot offer complete protection to the motor and motor maybe damaged. If the capacity of AC motor drive is too small, it cannot offer the required performance and the AC motor drive maybe damaged due to overloading.
Appendix CHow to Select the Right AC Motor Drive| C.1 Capacity Formulas 1. When one AC motor drive operates one motor The starting capacity should be less than 1.5x rated capacity of AC motor drive The starting capacity= ⎛ k×N GD 2 N ⎞ ⎜ TL + × ⎟ ≤ 1.5 × the _ capacity _ of _ AC _ motor _ drive ( kVA) 973 × η × cos ϕ ⎜⎝ 375 t A ⎟⎠ 2. When one AC motor drive operates more than one motor 2.
Appendix CHow to Select the Right AC Motor Drive| 2.
Appendix CHow to Select the Right AC Motor Drive| C.2 General Precaution Selection Note 1、 When the AC Motor Drive is connected directly to a large-capacity power transformer (600kVA or above) or when a phase lead capacitor is switched, excess peak currents may occur in the power input circuit and the converter section may be damaged. To avoid this, use an AC input reactor (optional) before AC Motor Drive mains input to reduce the current and improve the input power efficiency.
Appendix CHow to Select the Right AC Motor Drive| decelerate within a certain time with high load inertia that can’t be handled by the AC Motor Drive in the required time, either use an external brake resistor and/or brake unit, depending on the model, (to shorten deceleration time only) or increase the capacity for both the motor and the AC Motor Drive. C.
Appendix CHow to Select the Right AC Motor Drive| 7、 Motor torque characteristics vary when an AC Motor Drive instead of commercial power supply drives the motor. Check the load torque characteristics of the machine to be connected.
Appendix CHow to Select the Right AC Motor Drive| the AC motor drive operates more than one motor, please pay attention to starting and changing the motor. Power Transmission Mechanism Pay attention to reduced lubrication when operating gear reduction motors, gearboxes, belts and chains, etc. over longer periods at low speeds. At high speeds of 50/60Hz and above, lifetime reducing noises and vibrations may occur.
Appendix CHow to Select the Right AC Motor Drive| This page intentionally left blank. C-8 Revision May 2008, ME14, SW V3.