VFD-S Variable Speed AC Motor Drive 230V/460V 0.25 HP – 3.0HP 0.2KW–2.2KW High-performance / Low Noise / Mini-Type AC Drive User Manual April 24, 1999 DELTA ELECTRONICS, INC.
Delta Electronics, Inc. NORTH / SOUTH AMERICA EUROPE DELTA PRODUCTS CORPORATION DELTA ELECTRONICS GmbH Sales Office Sales Office P.O.BOX 12173 HANNS-MARTIN-SCHLEYER-STRASSE 9D 5101 DAVIS DRIVE GEWERBEPARK MUENCHHIEDE II RESEARCH TRIANGLE PARK, 47877 WILLICH, GERMANY NORTH CAROLINA, 27709 U. S. A. PHONE: 49-2154-489-8888 PHONE: 1-919-767-3800 FAX: 49-2154-489-8889 FAX: 1-919-767-3969 http://www.deltadrives.com ASIA DELTA ELECTRONICS, INC.
Table of Contents Preface Thank you for choosing DELTA’s high-performance VFD-S Series. VFD-S Series are manufactured by adopting high-quality components, material and incorporating the latest microprocessor technology available. & Getting Started This manual will be helpful in the installation, parameter setting, troubleshooting, and daily maintenance of the AC motor drives. To guarantee safe operation of the equipment, read the following safety guidelines before connecting power to the AC motor drives.
Table of Contents CHAPTER 1: RECEIVING AND INSPECTIONS 1-1 Nameplate Information ………….…………………….………………………………...…….1 1-2 Model Explanation ………………………………….………………………………………….1 1-3 Serial Number Explanation …….………………………………….………………………….1 CHAPTER 2: STORAGE AND INSTALLATION 2-1 Storage ………………………………………….………………………………………………2 2-2 Ambient Conditions …………...……….………………..……………………………………..2 2-3 Installation ……………………….…….………………………………………………………..3 2-4 Connection …………………………….………………………………………………………..3 2-5 Environment ……………………….….
Table of Contents 5-4 Group 3: Output Function Parameters ……………..…………………………..………....38 5-5 Group 4: Input Function Parameters ……………...……………...…….…………….…...43 5-6 Group 5: Multi-Step Speed and PLC (Process Logic Control) Parameters……….….59 5-7 Group 6: Protection Parameters …………………………………………………...…..…67 5-8 Group 7: Motor Parameters …………………………………………………………….....72 5-9 Group 8: Special Parameters ………………………..……………....…………………….74 5-10 Group 9: Communication Parameters …………………..…..……………………..…...
Chapter 1 Receiving and Inspection Chapter 1 Receiving and Inspection This VFD-S AC drive has gone through rigorous quality control tests at the factory before shipment. After receiving the AC motor drive, please check for the following: Receiving ü Check to make sure that the package includes an AC drive, the User Manual, and rubber bushings. ü Inspect the unit to insure it was not damaged during shipment.
Chapter 1 Receiving and Inspection T 9 01 001 Production number Production week Production year 1999 Production factory (Taoyuan) T 9 01 001 Production number Production week Production year 1999 Production factory (Taoyuan) © 1999 DELTA ELECTRONICS, INC.
Chapter 2 Storage and Installation Chapter 2 Storage and Installations CH 2-1 Storage The AC motor drive should be kept in the shipping carton before installation. In order to retain the warranty coverage, the AC motor drives should be stored properly when it is not to be used for an extended period of time. CH 2-2 Ambient Conditions: w Operation w Storage Air Temperature: -10o C to +40o C (14o F to 122o F) Atmosphere pressure: 86 to 106 kPa Installation Site Altitude: below 1000m Vibration: Maximum 9.
Chapter 2 Storage and Installation CH 2-3 Installation: CAUTION The control, power supply and motor leads must be laid separately. They must not be fed through the same cable conduit / trunking. High voltage insulation test equipment must not be used on cables connected to the drive. Improper installation of the AC drive will greatly reduce its life. Be sure to observe the following precautions when selecting a mounting location.
Chapter 2 Storage and Installation Air Flow 150mm (6 inches) or more 50mm (2 inches) or more 50mm (2 inches) or more VFD-S 150mm (6 inches) or more Minimum Clearances and Air Flow © 1999 DELTA ELECTRONICS, INC.
Chapter 2 Storage and Installation CH 2-4 Connections: DANGER Hazardous Voltage Before servicing the electrical system: w Disconnect all power. w Wait one minute until DC bus capacitors discharge. Failure to observe this instruction will result in death or serious injury. & General Wiring Information Applicable Codes All VFD-S AC drives are Underwriters Laboratories, Inc.
Chapter 2 Storage and Installation CH 2-5 Environment Avoid rain and moisture; Avoid direct sunlight; Avoid corrosive gases or liquids; Free from airborne dust or metallic particles; Free from vibration Free from magnetic interference Environment temperature : -10 to 50 Environment humidity: below 90% RH Environment air pressure: 86 kpa to 106 kpa CH 2-6 Installation Steps KNOB Component Explanation 1 Plastic Cover 2 Knob 3 Case 4 Aluminum Heat Sink COVER CASE HEAT SINK SCREW DIVISION PLATE Installati
Chapter 2 Storage and Installation SCREW SCREW For Optional Conduit Bracket: Make sure to fasten both screws on Install Conduit Plateinasthe shown. conduit bracketBracket as shown drawing for safety grounding purpose. Bring all the wires out through the conduit bracket. Screw Torque: 5 to 6 kgf.cm CONDUIT BRACKET SCREW DIVISION PLATE Reinstall Division Plate. Screw Torque: 5 to 6 kgf.cm CONDIUT BRACKET SCREW SCREW Install Conduit Bracket cover and tighten screws. © 1999 DELTA ELECTRONICS, INC.
Chapter 2 Storage and Installation UL ENCLOSED TYPE SCREW Close the cover and tighten screw as shown. Screw torque: 5 to 6 kgf-cm RS485 RJ11 JACK RJ11 PLUG © 1999 DELTA ELECTRONICS, INC. ALL RIGHTS RESERVED 8 For additional communication: Plug the communication device into the RJ11 jack for serial communication.
Chapter 3 Wiring Chapter 3 Wiring CH 3-1 Basic Wiring Diagram Users must connect wiring according to the following circuit diagram shown below. Jumper Protective Device R 200-230VAC 50/ 60Hz S Select any of the T two terminals for single phase models P2/B1 P 1 Power Terminals R V IM W +18V Factory default ¡¹ CPU 2.4K£[ 47K£[ AFM M0 +18V CPU 11V M1 4.
Chapter 3 Wiring CH 3-2 External Wiring Item Power supply FUSE or NFB Magnetic contactor (Optional) AC Reactor (Optional) EMI filter (Optional) DC Link Reactor (Optional) Braking Resistor (Optional) © 1999 DELTA ELECTRONICS, INC. ALL RIGHTS RESERVED 10 Explanation Please follow the specific power supply requirement shown in APPENDIX-A. There may be inrush current during power up. Please select the correct fuse with rated current from the chart on next page.
Chapter 3 Wiring Fuse and No Fuse Breaker (NFB) Specifications Models VFD002S21A VFD004S21A VFD007S43A VFD015S21A VFD015S43A VFD022S23A VFD022S43A VFD004S21A VFD004S23A VFD007S21A VFD007S23A VFD015S21A VFD015M23A Fuse for Branch circuit and short circuit protection No Fuse Voltage Ampere Breaker Manufacturer P/N rating rating Class Specifications (VAC) (A) 10A Bussmann JJN-10 300 10 T 20A Bussmann JJN-20 300 20 T 5A Bussmann JJS-10 600 10 T 30A Bussmann JJN-25 300 25 T 10A Bussmann JJS-15 600 15 T 20A Bu
Chapter 3 Wiring CH 3-3 Main Circuit Wiring 1. Wire Gauge: 12-18 AWG Wire Type: Copper Only Torque: 12 kg-cm Main Circuit Terminals Power Terminal AC Input Line Terminal Power Terminals 115V Model Motor Connection AC Input Line Terminal RS T U V W L NU V W B2 B P P1 1 Ground Braking Resistor Motor Connection 2 B2 B1 DC Reactor Ground Braking Resistor 2.
Chapter 3 Wiring CH 3-4 Control Terminal Wiring (Factory Setting) 1. Terminal Explanations: RA RB RC MO1 MCM Control Terminals +10V AVI AFM M0 M1 M2 M3 M4 M5 GND RJ11 Operation freq. set by potentiometer 3K~5K Mulit-step speed 3 Mulit-step speed 2 Mulit-step speed 1 Reset Freq.
Chapter 3 Wiring 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. The shield wire should only be connected at the drive. Do not connect shield wire on both ends. CH 3-5 Wiring Notes: 1. 2. ! CAUTION: Do not connect the AC input to any of the U, V, W terminals, as it will damage the AC drive. ! WARNING: Ensure all screws are tightened to the proper torque rating. 3.
Chapter 3 Wiring 10. Do not attach or remove wiring when power is applied to the AC drive. 11. Do not monitor the signals on the circuit board while the AC drive is in operation. 12. For the single-phase applications, the AC input line can be connected to any two of the three input terminals R, S, T. Note: This drive is not intended for the use with singlephase motors. 13. Route the wires of Power Terminals and Control Terminals separately, or 90°angle to each other. 14.
Chapter 4 Digital Keypad Operation Chapter 4 Digital Keypad Operation CH 4-1 Description of Digital Keypad This digital keypad includes two parts: Display panel and keypad. Display panel provides the parameter display and shows operation status of the AC drive. Keypad provides programming interface between users and AC drives. LED Indication Light during RUN, STOP, FWD, and REV operation RUN FWD REV Potentiometer for Frequency Setting. Could be the Master Frequency input by setting Pr.2-00. MIN.
Chapter 4 Digital Keypad Operation STOP/RESET Stop / Reset Stop AC drive operation. If the drive stops due to a fault, correct the fault first, then press this key to reset the drive. Up / Down Press the “Up” or “Down” keys momentarily to change parameter settings. These keys may also be used to scroll through different operating values or parameters. Pressing the “Up” or “Down” key momentarily, will change the parameter settings in single-unit increments.
Chapter 4 Digital Keypad Operation Displays the specified parameter. Displays the actual value stored within the specified parameter. Displays AC drive forward run status. Displays AC drive reverse run status. Displays “End” for approximately 0.5 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. Displays “Err”, if the input is invalid.
Chapter 4 Digital Keypad Operation 1. Description of LED functions of RUN and STOP Output frequency of the AC motor drive STOP /RESET KEY RUN STOP/ RESET KEY KEY Frequency command RUN Indication STOP Indication Light Dark Flash 2. Description of LED functions of FWD and REV. Output frequency of the AC drive FWD REV RUN FWD REV FWD Indication REV Indication Light Flash © 1999 DELTA ELECTRONICS, INC.
Chapter 4 Digital Keypad Operation CH 4-4 Keypad Operation change display mode MODE set freq. set freq. set freq. MODE F60.0 change display mode H60.0 A 4.2 change display mode display freq. command CEXX communication error, only appears when communication error happens. FWD MODE U60.0 change display mode PROG DATA MODE MODE set freq.
Chapter 5 Description of Parameter Settings Chapter 5 Description of Parameter Settings This chapter will explain all parameters in detail. They are divided into ten parameter groups to categorize parameter settings more clearly and effectively.
Chapter 5 Description of Parameter Settings CH 5-1 Group 0: User Parameters 0 - 00 Identity Code of AC Motor Drive Settings None V \ HP 115V/230V 460V 1/4 d0 -- -- -- 1/2 d2 d3 Factory setting: d # 1 d4 d5 2 d6 d7 3 d8 d9 & This parameter shows the capacity of the AC drive. Users can read Pr.0-01 to check if it is the rated current of the AC drive corresponds to the identity code shown above and the current shown below. V \ HP 115V/230V 460V 0 - 01 1/4 1.6A -- -- -- 1/2 2.5A 1.5 A 1 4.2A 2.
Chapter 5 Description of Parameter Settings 0 - 03 Start-up Display Selection Settings d0 Factory Setting: d 0 Display the Master Frequency (F) d1 d2 Display the actual operation frequency (H) Display the content of users-defined unit d 3 Display the output current (A This parameter can be set during operation.
Chapter 5 Description of Parameter Settings Display 999 0 - 06 Number Represented The absence of a decimal point indicates a three –digit integer. 99.9 A signal decimal point between the middle and the right-most numbers is a true decimal point; it separates ones and tenths as in “30.5” (thirty and one-half). 999. A single decimal point after the fight-most numbers is not a true decimal point; instead it indicates that a zero follows the rightmost number.
Chapter 5 Description of Parameter Settings & Display states: d 0: no password / correct password has been input. d 1: parameters are locked. 0 - 08 Password Configuration Settings Factory Setting: d 0 d 0 to d 999 Unit: 1 & For a password to be configured, the non-zero value assigned to Pr.0-08 must be entered twice. In other words, set the value of Pr.0-08 to the desired value and press the Prog/Data key. Then, press the Prog/Data key again to display the value of Pr.0-08.
Chapter 5 Description of Parameter Settings CH 5-2 Group 1: Basic Parameters 1 – 00 Maximum Output Frequency (Fo. max) Settings & Unit: 0.1Hz This parameter determines the AC drive’s Maximum Output Frequency. All the AC drive analog inputs (0 to +10V, 4 to 20mA) are scaled to correspond to the output frequency range. 1 - 01 Maximum Voltage Frequency Settings & d 50.0 to d 400 Hz Factory Setting: d 60.0 d 10.0 to d 400Hz Unit: 0.
Chapter 5 Description of Parameter Settings 1 - 03 Mid-Point Frequency (Fmid) Factory Setting: d 1.0 Settings d 1.0 to d 400Hz & Unit: 0.1Hz This 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. This parameter must be greater than or equal to Minimum Output Frequency (Pr.1-05) and equal to or less than Maximum Voltage Frequency (Pr.1-01). 1 - 04 Mid-Point Voltage (Vmid) Factory Setting: d12.
Chapter 5 Description of Parameter Settings 1 - 06 Minimum Output Voltage (Vmin) Settings d 2.0 to d 255V* *Twice value for 460V class & This parameter sets Minimum Output Voltage of the AC drive. This parameter must be equal to or less than Mid-Point Voltage (Pr.1-04). 1 - 07 Upper Bound of Output Frequency Settings & Factory Setting: d12.0* Unit: 0.1V* d 1 to d110% Factory Setting: d 100 Unit: 1% This parameter must be equal to or greater than the Lower Bound of Output Frequency (Pr.1-08).
Chapter 5 Description of Parameter Settings 1 - 08 Lower Bound of Output Frequency Settings d 0 to d100% Factory Setting: d 0 Unit: 1% & The Upper/Lower Bound is to prevent operation error and machine damage. & If the Upper Bound of Output Frequency is 50Hz and the Maximum Output Frequency is 60Hz, the Maximum Output Frequency will be limited to 50Hz. & If the Lower Bound of Output Frequency is 10Hz, and the Minimum Output Frequency Pr.1-05 is set at 1.
Chapter 5 Description of Parameter Settings & The accel/decel time 2 determines the time for the AC drive to accel/decel from 0Hz to Maximum Output Frequency (Pr.1-00) (accel/decel time 1 is the default). A Multi-Function Input terminals must be programmed to select accel/decel time 2 and the terminals must be closed to select accel/decel time 2. See Pr.4-04 to Pr.4-08. & In the diagram shown below, the accel/decel time of the AC drive is the time between 0 Hz to Maximum Output Frequency (Pr.1-00).
Chapter 5 Description of Parameter Settings 1 - 14 Jog Frequency Settings Factory Setting : d 6.0 d 1.0 to d 400Hz Unit: 0.1Hz This parameter can be set during operation. & The JOG function can be selected using Multi-function Input terminals (Pr.404 to Pr.4-08) if programmed for Jog (d10). When the Jog terminal is “closed”, the AC drive will accelerate from Minimum Output Frequency Pr.1-05 to Jog Frequency Pr.1-14 .
Chapter 5 Description of Parameter Settings 1 - 15 Auto-Acceleration / Deceleration Factory Setting : d 0 Settings d 0 Linear acceleration / deceleration. d1 d2 Auto acceleration, linear Deceleration. Linear acceleration, auto Deceleration. d3 d4 Auto acceleration / deceleration Linear acceleration/deceleration, and stall prevention during deceleration.
Chapter 5 Description of Parameter Settings © 1999 DELTA ELECTRONICS, INC.
Current signal input (4-20mA) Chapter 5 Description of Parameter Settings CH 5-3 Group 2: Operation Method Parameters 2 – 00 Source of Frequency Command Settings Factory Setting: d 0 d 0 Master Frequency input determined by digital keypad. d1 d2 d3 d4 Master Frequency determined by analog signal DC 0V-10V (external terminal AVI). Master Frequency determined by analog signal DC 4mA - 20mA (external terminal AVI). Master Frequency determined by Potentiometer on the digital keypad.
Chapter 5 Description of Parameter Settings 2 - 01 Source of Operation Command Settings d0 Controlled by the keypad d1 d2 d3 d4 & Factory Setting: d 0 Controlled by the external terminals, keypad STOP enabled. Controlled by the external terminals, keypad STOP disabled. Controlled by the RS-485 communication interface, keypad STOP enabled. Controlled by the RS-485 communication interface, keypad STOP disabled.
Chapter 5 Description of Parameter Settings Note: The motor stop method is usually determined by the characteristics of the motor load and frequency of stops. 2 - 03 PWM Carrier Frequency Selections Settings d 03 fc= 3KHz d 04 fc= 4KHz d 05 fc= 5KHz Factory Setting: d 10 Unit: 1KHz to d 10 fc= 10KHz This parameter can set the carrier frequency of PWM output.
Chapter 5 Description of Parameter Settings & 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. 2 - 04 Reverse Operation Inhibit Settings d 0 Factory Setting: d 0 enable REV operation d1 disable REV operation & The parameter determines whether the AC drive can operate in the reverse direction.
Chapter 5 Description of Parameter Settings CH 5-4 Group 3: Output Function Parameters 3 - 00 Analog Output Signal Settings d0 d1 Factory Setting: d 0 Analog frequency meter (0 to Maximum Output Frequency). Analog current meter (0 to 250% of the rated AC drive current). & This parameter selects either Output Frequency or current to be displayed using the 0 to10V AFM output. 3 - 01 Analog Output Gain Factory Setting: d100 Settings d 1 to d 200% Unit: 1% The parameter can be set during operation.
Chapter 5 Description of Parameter Settings The analog output voltage is directly proportional to the output current of the AC drive. With the factory setting of 100%, the 2.5 times rated current of the AC drive corresponds to +10VDC analog voltage output. (The actual voltage is about +10VDC, and can be adjusted by Pr. 3-01) Note: Any type of voltmeter can be used. If the meter reads full scale at a voltage less than 10 volts, then Pr.3-01 should be set by the following formula: Pr.
Chapter 5 Description of Parameter Settings 3 - 03 Terminal Count Value Settings d 0 to d 999 Factory Setting: d 0 & The parameter determines the value of the internal counter. The internal counter can be triggered by the external terminal (Pr.4-4 to Pr.4-8, d19). Upon completion of counting, the specified output terminal will be activated. (Pr.305, Pr.3-06, d14).
Chapter 5 Description of Parameter Settings 3 - 05 Multi-function Output Terminal 1 (Photocoupler output) Factory Setting: d 1 3 - 06 Multi-function Output Terminal 2 (relay output) Factory Setting: d 8 Settings d 0 to d 15 Function Table List: Setting Function Setting Function d 0 Not used d 9 Desired Frequency Attained d 1 AC Drive Operational d 10 PLC Program Running Maximum Output Frequency d 11 PLC Program Step Completed d2 Attained d 12 PLC Program Completed d 3 Zero speed d 13 PLC Operation
Chapter 5 Description of Parameter Settings & Function Explanations d 0 Not Used. d 1 AC drive operational: the output of output terminal will be activated when there is an output from the drive. d 2 Maximum Output Frequency Attained: the output will be activated when the AC drive attains Maximum Output Frequency. d 3 Zero speed: the output will be activated when Command Frequency is lower than the Minimum Output Frequency.
Chapter 5 Description of Parameter Settings CH 5-5 Group 4: Input Function Parameters 4 - 00 Potentiometer Bias Frequency Settings Factory Setting: d0.0 Unit: 0.1Hz d 0.0 to d 350Hz This parameter can be set during the operation. 4 - 01 Potentiometer Bias Polarity Settings Factory Setting: d 0 d 0 Positive bias d 1 Negative bias This parameter can be set during the operation.
Pr.4-02=100%-- Pot. Freq. Gain Chapter 5 Description of Parameter Settings Example 1: The following is the most common method. Set parameter 2-00 to d1 (0 to +10V signal), d2 (4 to 20mA current signal), or d3 (keypad potentiometer). © 1999 DELTA ELECTRONICS, INC.
Pr.4-02=100%--Pot. Pr.4-02=83%-Pot.Freq. Freq.Gain Gain Chapter 5 Description of Parameter Settings Example 2: In this example with the potentiometer set to 0V the Output Frequency is 10 Hz. The mid-point of the potentiometer becomes 40 Hz. Once the Maximum Output Frequency is reached any further increase of the potentiometer will not increase output frequency. Example 3: The example also shows the popular method. The whole scale of the potentiometer can be used as desired.
Pr.4-02=200%-Pr.4-01=1 Pr.4-02=100%---- Bias Pot. Polarity Freq. Gain Chapter 5 Description of Parameter Settings Example 4: This example shows a potentiometer range of 0 to 5 Volts. Example 5: In this example a 1 volt negative bias is used. In a noise environment, it is advantageous to use negative bias to provide a noise margin (1V in this example). © 1999 DELTA ELECTRONICS, INC.
Pr.4-00=6Hz--Potentiometer Pr.4-01=1 --- Bias Polarity Bias Freq. Chapter 5 Description of Parameter Settings Example 6: In this example, a negative bias is used to provide a noise margin. Also a potentiometer frequency gain is used to allow the Maximum Output Frequency to be reached. Example 7: In this example, the potentiometer is programmed to run a motor is both forward and reverse direction. A motor will be idle when the potentiometer position is at mid-point of its scale. Using Pr.
Pr.4-01=1 --- Bias Pr.4-02=100%-Pot. Polarity Freq. Gain Chapter 5 Description of Parameter Settings Example 8: In this example, the option of anti-slope is shown. Anti-slope is used in an application where control of pressure, temperature, or flow is needed. Under a high pressure or flow situation, a sensor will generate a large signal such as 20 mA or 10V.
Chapter 5 Description of Parameter Settings Parameters & Functions table: Value Function d 0 Parameter Disable Value Function d11 Accel/Decel Speed Inhibit d1 M0: FWD / STOP M1: REV / STOP d12 d2 M0: RUN / STOP M1: FWD / REV d13 d3 3-Wire Operation Control mode (M0,M1,M2) d14 d4 First or Second Accel/Decel Time Selection External Base Block (N.O.) (Normally Open Contact Input) External Base Block (N.C.
"Open" M1 "Open" :Stop; :FWD; "Close" "Close" :REV:REV Run Chapter 5 Description of Parameter Settings d1: Two wire operation: Restricted to Pr.4-04 and external terminals M0, M1. d2: Two wire operation: Restrict to Pr. 4-04 and external terminals M0, M1. Note: Multi-function Input Terminal M0 does not have its own parameter designation. M0 must be used in conjunction with M1 to operate two and three wire control. © 1999 DELTA ELECTRONICS, INC.
M1REV/FWDRunselect Chapter 5 Description of Parameter Settings d3: Three Wire Control: Restricted to Pr.4-04 control terminals M0, M1, M2. Note: When value d3 is selected for Pr. 4-04, this will over ride any value entered in Pr.4-05, since Pr.4-05 must be used for three wire control as shown above. d4, d5 External Faults: Parameter values d4, d5 programs Multi-Function Input Terminals: M1 (Pr. 404), M2 (Pr. 4-05), M3 (Pr. 4-06), M4 (Pr. 4-07) or M5 (Pr. 4-08) to be External Fault (E.F.) inputs.
Mx "Close": Operation available Chapter 5 Description of Parameter Settings d6 External Reset: Parameter value d6 programs a Multi-Function Input Terminal: M1 (Pr.4-04), M2 (Pr.4-05), M3 (Pr.4-06), M4 (Pr.4-07) or M5 (Pr.4-08) to be an External Reset. Note: the External Reset has the same function as the Reset key on the Digital keypad. After external fault such as O.H., O.C. and O.V. are clear, this input can be used to reset the drive.
Chapter 5 Description of Parameter Settings d10 Jog Operation Control: Parameter value d10 programs Multi-Function Input Terminal: M1 (Pr.4-04), M2 (Pr.4- 05), M3 (Pr.4-06), M4 (Pr.4-07) or M5 (Pr.4-08) for Jog control. Note: Jog operation programmed by d10 can only be initiated while the motor is stopped. (Refer to Pr.1-13, Pr.1-14.) © 1999 DELTA ELECTRONICS, INC.
"Close": 2nd "Open": 1st Accel/Decel Accel/Decel Chapter 5 Description of Parameter Settings d11 Accel/Decel Speed Inhibit: Parameter value d11 programs Multi-Function Input Terminal: M1 (Pr.4-04), M2 (Pr.4-05), M3 (Pr.4-06), M4 (Pr.4-07) or M5 (Pr.4-08) for Accel/Decel Inhibit. When the command is received, acceleration and deceleration is stopped and the AC drive maintains a constant speed. d12 First or Second Accel./Decel.
Accel/ 2nd Chapter 5 Description of Parameter Settings d13, d14 External Base Block: Parameter values d13, d14 program Multi-Function Input Terminals: M1 (Pr.404), M2 (Pr.4-05), M3 (Pr.4-06), M4 (Pr.4-07) or M5 (Pr.4-08) for external Base Block control. Value d13 is for normally open (N.O.) input, and value d14 is for a normally closed (N.C.) input. Note: When a Base-Block signal is received, the AC drive will stop all output and the motor will free run.
Chapter 5 Description of Parameter Settings d15, d16 Increase/Decrease Master Frequency: Parameter values d15, d16 program the Multi-Function Input Terminals: M1 (Pr.4-04), M2 (Pr.4-05), M3 (Pr.4-06), M4 (Pr.4-07) or M5 (Pr.4-08) to incrementally increase/ decrease the Master Frequency each time an input is received. © 1999 DELTA ELECTRONICS, INC.
d 19 signal Mx by 1 Counter when input. Counter closed. value trigger increase Chapter 5 Description of Parameter Settings d17, d18 PLC Function Control: Parameter value d17 programs Multi-Function Input Terminal: M1 (Pr.4-04), M2 (Pr.4-05), M3 (Pr.4-06), M4 (Pr.4-07) or M5 (Pr.4-08) to enable the AC drive internal PLC program. Parameter value d18 programs an input terminal to pause the PLC program. Note: Pr.5-00 to Pr.5-16 define the PLC program.
Chapter 5 Description of Parameter Settings d20 Counter Reset: Parameter value d20 programs Multi-Function Input Terminal: M1 (Pr.4-04), M2 (Pr. 4-05), M3 (Pr.4-06), M4 (Pr.4-07) or M5 (Pr.4-08) to reset the counter. d21 ACI / AVI Selection: Parameter value d21 allows the user to select the input type ACI or AVI via an external switch. AVI is selected when the contact is open and ACI is selected when the contact is closed. Please note: The use of this feature will override Pr.
Chapter 5 Description of Parameter Settings CH 5-6 Group 5: Multi-step Speed and PLC (Process Logic Control) Parameters 5 - 00 1st Step Speed Frequency 5 - 01 2nd Step Speed Frequency 5 - 02 3rd Step Speed Frequency 5 - 03 4th Step Speed Frequency 5 - 04 5th Step Speed Frequency 5 - 05 6th Step Speed Frequency 5 - 06 7th Step Speed Frequency Settings Factory Setting: d 0.0 Factory Setting: d 0.0 Factory Setting: d 0.0 Factory Setting: d 0.0 Factory Setting: d 0.0 Factory Setting: d 0.
Chapter 5 Description of Parameter Settings AC drive will change speeds and directions according to the user’s desired programming. © 1999 DELTA ELECTRONICS, INC.
Chapter 5 Description of Parameter Settings Example 1 (Pr.5-07 = d1): Execute one cycle of the PLC program. Its relative parameter settings are: 1. Pr.5-00 to 5-06: 1st to 7th step speed (sets the frequency of each step speed 2. Pr.4-04 to 4-08: Multi-Function Input Terminals (set one multi-function terminal as d17- PLC auto-operation . 3. Pr.
Chapter 5 Description of Parameter Settings Example 2 (Pr.5-07 = d2): Continuously executes program cycles The diagram below shows the PLC program stepping through each speed and the automatically starting again. To stop the PLC program, one must either pause the program or turn it off (Refer to Pr.4-05 to 4-08 value d17 and d18). © 1999 DELTA ELECTRONICS, INC.
Chapter 5 Description of Parameter Settings Example 3 (Pr. 5-07 = d3) Execute one cycle step by step: The example shows how the PLC can perform one cycle at a time, within a complete cycle. Each step will use the accel/decel times in Pr.1-09 to Pr.1-12. It should be noticed that the time each step spends at its intended frequency is diminished, due to the time spent during accel/decel. © 1999 DELTA ELECTRONICS, INC.
Chapter 5 Description of Parameter Settings Example 4 (Pr. 5-07 =d 4) Continuously execute PLC cycles step by step: In this explanation, the PLC program runs continuously step by step. Also shown are examples of steps in the Reverse direction. © 1999 DELTA ELECTRONICS, INC.
Chapter 5 Description of Parameter Settings Example 5 (Pr. 5-07 = d1 Execute one cycle of the PLC program): In this example, the PLC program runs continuously. It should be noted that the times of reserve motion may be shorter than expected, due to the accel/decel times. 5 - 08 PLC Forward/Reverse Motion Settings Factory Setting: d 0 d 0 to d 255 & This parameter controls the direction of motion for the Multi-Step Speed Pr.500 to Pr.5-06 and the Master Frequency.
Direction of Direction of 1st 2ndstep stepspeed speed =forFWD Pr. 5-01 Chapter 5 Description of Parameter Settings Note: The equivalent 8-bit number is used to program the forward/reverse motion for each of the 8 speed steps (including Master Frequency). The binary notation for the 8-bit number must be translated into decimal notation and then be entered.
Chapter 5 Description of Parameter Settings 5 - 09 5 - 10 5 - 11 5 - 12 5 - 13 5 - 14 5 - 15 5 - 16 Time Duration of Master Frequency Time Duration of 1st Step Speed Time Duration of 2nd Step Speed Time Duration of 3rd Step Speed Time Duration of 4th Step Speed Time Duration of 5th Step Speed Time Duration of 6th Step Speed Time Duration of 7th Step Speed Settings & d 0 to d 65500 Factory Setting: d 0 Factory Setting: d 0 Factory Setting: d 0 Factory Setting: d 0 Factory Setting: d 0 Factory Setting: d
Chapter 5 Description of Parameter Settings CH 5-7 Group 6: Protection Parameters 6 - 00 Over-Voltage Stall Prevention Factory Setting: d 1 Settings d 0 Disable Over-Voltage Stall Prevention d 1 Enable Over-Voltage Stall Prevention & During deceleration, the motor DC bus voltage may exceed its Maximum Allowable Value due to motor regeneration. When this function is enabled, the AC drive will stop decelerating. Maintaining a constant output frequency when it happens.
Chapter 5 Description of Parameter Settings 6 - 01 Over-Current Stall Prevention during Acceleration Factory Setting: d170 Settings d 20 to d 250% Unit: 1% & A setting of 100% is equal to the Rated Output Current of the drive. & During acceleration, the AC drive output current may increase abruptly to exceed the value specified by Pr.6-01 due to rapid acceleration or excessive load on the motor.
Chapter 5 Description of Parameter Settings 6 - 03 Over-Torque Detection Mode Settings d0 Factory Setting: d 0 Over-Torque detection disabled. d1 d2 d3 d4 Over-Torque detection enabled during constant speed operation (OL2), and operation continues until the continuous operation limit (Pr.6-05) is reached. Over-Torque detection enabled during constant speed operation, and operation halted after overtorque detection.
Chapter 5 Description of Parameter Settings 6 - 04 Over-Torque Detection Level Settings & d 30 to d 200% Unit: 1% A setting of proportional to the Rated Output Current of the drive. 6 - 05 Continuous Output Time Limit Settings & Factory Setting: d 150 Factory Setting: d 0.1 d 0.1 to d 10.0Sec Unit: 0.1Sec This parameter determines the time that AC drive will run after over-torque is detected.
Chapter 5 Description of Parameter Settings 6 - 08 6 - 09 6 - 10 Present Fault Record Second Most Recent Fault Record Third Most Recent Fault Record Factory Setting: d 0 Factory Setting: d 0 Factory Setting: d 0 Settings d 0 d1 d2 d3 d4 d5 d6 d7 d8 d9 No fault occurred Over-current (oc) Over-voltage (ov) Overheat (oH) Overload (oL) Overload1 (oL1) External fault (EF) CPU failure (cF3) Hardware protection failure (HPF) Current exceeds 2 times rated current during acce.
Pr.7-00 AC drive=Rated ( Output Current )*100 Chapter 5 Description of Parameter Settings CH 5-8 Group 7: Motor Parameters 7 - 00 Motor Rated Current Factory Setting: d 85 Settings d 30 to d 120 Unit: 1% This parameter can be set during operation. & This parameter will limit the AC drive output current in order to prevent the motor from overheating. Use the following method to calculate the percentage entered in this parameter.
Chapter 5 Description of Parameter Settings 7 - 03 Slip Compensation Factory Setting: d 0.0 Settings d 0.0 to d 10.0 Unit: 0.1 This parameter can be set during operation. & While driving an asynchronous motor, load on the AC drive will increase, causing an increase in slip. This parameter may be used to compensate the nominal slip within a range of 0 to 10. When the output current of the AC drive is greater than the motor no-load current (Pr.
Chapter 5 Description of Parameter Settings CH 5-9 Group 8: Special Parameters 8 - 00 DC Braking Voltage Level Settings Factory Setting: d 0 d 0 ⇔ d30% Unit: 1% & This parameter determines the level of DC Braking Voltage Level output to the motor during start-up and stopping. When setting DC Braking Voltage, the Maximum Output Voltage (Pr.1-02) is regarded as 100%. It is recommended to start with a low DC Braking Voltage Level and then increase until proper holding torque has been attained.
Chapter 5 Description of Parameter Settings NOTE: 1. DC Braking during Start-up is used for loads that may move before AC drive starts, such as fans and pumps. These loads may also be moving in the wrong direction. Under such circumstances, DC Braking can be executed to hold the load in position before applying a forward motion. 2. DC Braking during stopping is used to decrease stopping time and also to hold a stopped load in position.
Chapter 5 Description of Parameter Settings 8 - 05 Maximum Allowable Power Loss Time Settings & d 0.3 to d 5.0Sec Factory Setting: d 2.0 Unit: 0.1Sec During a power loss, if the power loss time is less than the time defined by this parameter, the AC drive will resume operation. If the Maximum Allowable Power Loss Time is exceeded, the AC drive output is then turned off. 8 - 06 Base-Block Time for Speed Search Settings d 0.3 to d 5.0Sec Factory Setting: d 0.5 Unit: 0.
Chapter 5 Description of Parameter Settings © 1999 DELTA ELECTRONICS, INC.
Chapter 5 Description of Parameter Settings 8 - 08 8 - 09 8 - 10 8 - 11 8 - 12 8 - 13 Skip Frequency 1 Upper Bound Skip Frequency 1 Lower Bound Skip Frequency 2 Upper Bound Skip Frequency 2 Lower Bound Skip Frequency 3 Upper Bound Skip Frequency 3 Lower Bound Settings d 0.0 ⇔ d 400Hz Factory Setting: d 0.0 Factory Setting: d 0.0 Factory Setting: d 0.0 Factory Setting: d 0.0 Factory Setting: d 0.0 Factory Setting: d 0.0 Unit: 0.1Hz & These parameters determine Skip frequency.
Chapter 5 Description of Parameter Settings & AVR function automatically regulates the AC drive output voltage to the Maximum Output Voltage (Pr.1-02). For instance, if Pr.1-02 is set at 200 VAC and the input voltage is at 200V to 264VAC, then the Maximum Output Voltage will automatically be regarded to 200 VAC. & Without AVR function, the Maximum Output Voltage may vary between 180V to 264VAC, due to the input voltage varying between 180V to 264 VAC.
Chapter 6 Maintenance and Inspections Chapter 6 Maintenance and Inspections Modern AC drives are based on solid state electronics technology, preventive maintenance is required to operate this AC drive in its optimal condition, and to ensure a long life. It is recommended to perform a monthly check up of the AC drive by a qualified technician. Before the check up, always turn off the AC Input Power to the unit.
Chapter 6 Maintenance And Inspections 3. Check the resistance of the insulation with Megaohmeter. 4. If use of the AC drive is discontinued for a long period of time, turn the power on at least once every two years and confirm that it still functions properly. To confirm functionality, disconnect the motor and energize the AC drive for 5 hours or more before attempting to run a motor with it. 5. Clean off any dust and dirt with a vacuum cleaner.
Chapter 7 Troubleshooting and Fault Information Chapter 7 Troubleshooting and Fault 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 to shut down the AC drive output. Below are the fault descriptions, for a fault shown on the AC drive digital keypad display.
Chapter 7 Troubleshooting and Fault Information Fault Name Fault Descriptions Corrective Actions The AC drive detects that 1. Check whether the input voltage falls within the rated AC the DC bus voltage has drive’s input voltage. fallen below its minimum value. 1. The AC drive detects excessive drive output 1. Check whether the motor is overloaded. current. 2. Reduce torque compensation setting as set in Pr.7-02. Note: The AC drive can withstand up to 150% of 3. Increase the AC drive’s output capacity.
Chapter 7 Troubleshooting and Fault Information Fault Name Fault Descriptions Corrective Actions Over-current during deceleration: 1. Short-circuit at motor output. 1. Check for possible poor insulation at the output line. 2. Deceleration time too short. 3. Replace with the AC drive with one that has a higher output capacity (next HP size). 2. Increase the deceleration time. 3. AC drive output capacity is too small. Over-current during steady state operation: 1. Short-circuit at motor output. 1.
Chapter 7 Troubleshooting and Fault Information Fault Name Fault Descriptions Auto accel/decel failure Corrective Actions 1. Don’t use the function of auto acceleration /deceleration. Ground fault : The AC drive output is abnormal. When the output terminal is grounded (short circuit current is 50% more than Ground fault : the AC drive rated 1. Check whether the IGBT power module is damaged. current), the AC drive 2. Check for possible poor insulation at the output line. power module may be damaged.
Chapter 8 Summary of Parameter Settings Chapter 8 Summary of Parameter Settings H: The parameter can be set during operation.
Chapter 8 Summary of Parameter Settings Group 1 Basic Parameters Parameters 1-00 1-01 1-02 1-03 1-04 1-05 1-06 1-07 1-08 1-09 1-10 1-11 1-12 1-13 1-14 Explanation Maximum Output Freq. (Fo,max) Maximum Voltage Frequency (Base Freq) (Fmax) Maximum Output Voltage (Vmax) Mid-Point Frequency (Fmid) Mid-Point Voltage (Vmid) Minimum Output Frequency (Fmin) Minimum Output Voltage (Vmin) Upper bound of freq. Lower bound of freq.
Chapter 8 Summary of Parameter Settings Group 2 Operation Method Parameters Parameters 2-00 Explanation Source of Frequency Command 2-01 Source of Operation Command 2-02 Stop Method 2-03 PWM Carrier Frequency 2-04 Reverse Operation Inhibition 2-05 ACI Input Loss Detection Settings d0: Digital Keypad d1: 0 to 10V from AVI d2: 4 to 20mA from ACI d3: Potentiometer Control d4: RS-485 communication Interface d0: by Digital Keypad d1: by external terminals, keypad STOP enabled d2: by external termi
Chapter 8 Summary of Parameter Settings Group 3 Output Function Parameters Parameters Explanation 3-00 Analog Output Signal 3-01 3-02 3-03 3-04 Analog Output Gain H Desired Freq. Attained Terminal Count Value Preliminary Count Value Multi-Function Output1 (Photocoupler Output) 3-05 3-06 Multi-Function Output2 (Relay Output) Settings d0: analog frequency d1: analog current 1 to 200% 1.0 to 400 Hz 0 to 999 0 to 999 Factor y Setting 0 100 1.0 0 0 d0: Not Used 1 d1: AC Drive Operational d2: Max.
Chapter 8 Summary of Parameter Settings Group 4 Input Function Parameters Parameters Explanation 4-00 Potentiometer Bias Frequency H 4-01 Potentiometer Bias Polarity H 4-02 4-03 4-04 4-05 4-06 4-07 4-08 Potentiometer Frequency Gain H Potentiometer Reverse Motion Enable Multi-Function Input Terminal 1 (M0, M1) Multi-Function Input Terminal 2 (M2) Multi-Function Input Terminal 3 (M3) Multi-Function Input Terminal 4 (M4) Multi-Function Input Terminal 5 (M5) Settings 0.
Chapter 8 Summary of Parameter Settings Group 4 Input Function Parameters Parameters 4-09 Explanation Line Start Lockout Settings d0: Disable d1: Enable Factory Setting 0 Group 5 Multi-Step Speed and PLC Parameters Parameters Explanation 5-00 5-01 5-02 5-03 5-04 5-05 5-06 st 1 Step Speed Freq. 2nd Step Speed Freq. 3rd Step Speed Freq. 4th Step Speed Freq. 5th Step Speed Freq. 6th Step Speed Freq. 7th Step Speed Freq.
Chapter 8 Summary of Parameter Settings Group 6 Protection Parameters Parameters 6-00 6-01 6-02 6-03 6-04 6-05 6-06 6-07 6-08 6-09 6-10 Explanation Over-Voltage Stall Prevention Over-Current Stall Prevention during Accel Over-Current Stall Prevention during Operation Over-Torque Detection Mode Over-Torque Detection Level Continuous Output Time Limit Electronic Thermal Overload Relay Electronic Thermal characteristic H Present Fault Record Second Most Recent Fault Record Third Most Recent Fault Rec
Chapter 8 Summary of Parameter Settings Group 6 Protection Parameters Parameters 6-10 Settings Factory Setting d7: CPU Fault (cF3) d8: Hardware Protection failure (HPF) d9: Current exceed during Acceleration (ocA) d10: Current exceed during Deceleration (ocd) d11: Current exceed during Steady State (ocn) d12: Ground Fault (GF) 0 Explanation Third Most Recent Fault Record Group 7 Motor Parameters Parameters Explanation 7-00 Motor Rated Current H Motor No-Load Current H Torque Compensation H Slip
Chapter 8 Summary of Parameter Settings Group 8 Special Parameters Parameters 8-04 8-05 8-06 8-07 8-08 8-09 8-10 8-11 8-12 8-13 8-14 8-15 8-16 8-17 Settings Factory Setting d1: Continues after Momentary Power Loss, speed search starts with Master Frequency d2: Continues after Momentary Power Loss, speed search starts with Minimum Output Frequency 0 Explanation Momentary Power Loss Maximum Allowable Power Loss Time B.B.
Chapter 8 Summary of Parameter Settings Group 9 Communication Parameters Parameters 9-00 Explanation Communication Address H 9-01 Transmission Speed H 9-02 Transmission Fault Treatment H 9-03 Modbus Communication Watchdog Timer H 9-04 Communication Protocol H Settings 1 to 254 d0: Baud Rate 4800 bps d1: Baud Rate 9600 bps d2: Baud Rate 19200 bps d3: Baud Rate 38400 bps d0: Warn and Continue Running d1: Warn and Ramp to Stop d2: Warn and Coasting Stop d0: Disable d1 to d20: time setting (1 sec inc
APPENDIX A Standard Specifications Voltage Class Model Number VFDS Max. Applicable Motor Output ( kW ) Rated Output Capacity(KVA) Output Rated Output Current(A) Rating Maximum Output Voltage (V) Rated Frequency (Hz) Operating Characteristics Control Characteristics Input Rating 230V Class 460V Class 004 007 015* 022* 004* 007* 015* 022* 0.4 0.75 1.5 2.2 0.4 0.75 1.5 2.2 1.0 1.6 2.9 4.4 1.1 1.9 3.2 4.1 2.5 4.2 7.5 11.0 1.5 2.5 4.2 5.5 Proportional to Input Voltage Note 1 1.
APPENDIX B Accessories List Name Conduit Bracket Braking Resistor Model Remarks DR01 & DR02 Refer to B-1 on next page Use twisted shielded or twisted-pair shielded RC-01 wire.
APPENDIX B B-1 Din Rail-DR01 Units: mm Models: VFD002S11A VFD002S21A VFD002S23A VFD004S11A VFD004S21A VFD004S23A VFD004S43A VFD007S21A VFD007S23A VFD007S43A VFD007S43B Screw Size: M4*22 M4*22 M4*22 M4*12 M4*12 M4*12 M4*12 M4*12 M4*12 M4*12 M4*12 & To install the Din Rail Adapter use the specified screws for different models. Refer to the above chart. & To mount the drive on a Din Rail, place the drive on the rail and push the lever toward the rail. © 1999 DELTA ELECTRONICS, INC.
APPENDIX B B-1 Din Rail-DR02 100.0 94.5 Units: mm 8.0 34.0 4.0 5.5 35.5 151.5 146.0 25.0 125.0 2.4 18.0 7.0 5.5 50.0 88.5 Unit : mm Models: VFD007S11A VFD015S21A VFD015S21B VFD015S23A VFD015S23A VFD015S43A VFD015S43B VFD022S23A VFD022S43A Screw Size: M4*12 M4*12 M4*12 M4*12 M4*12 M4*12 M4*12 M4*12 M4*12 & To install the Din Rail Adapter use the specified screws for different models. Refer to the above chart.
APPENDIX B B-2 Remote Controller RC-01 Unit: mm (inch) © 1999 DELTA ELECTRONICS, INC.
APPENDIX B B-3 Conduit Bracket (BK-S) 15.5(0.61) 29.7(1.17) 25.2(1.0) Unit: mm (inch) 73.0(2.87) ) 1.1 .0( 28 22. 0(0 .87 ) 67.8(2.67) 22.0(0 .87) © 1999 DELTA ELECTRONICS, INC.
APPENDIX B 460V Series 230V Series Voltage All Braking Resistors & Braking Units Use in AC Drives Applicable Motor HP kW 4P 1/4 0.2 1/2 0.4 1 0.75 2 1.5 3 2.2 5 3.7 7.5 5.5 10 7.5 15 11 20 15 25 18.5 30 22 40 30 50 37 60 45 75 55 100 75 1/4 0.2 1/2 0.4 1 0.75 2 1.5 3 2.2 5 3.7 7.5 5.5 10 7.5 15 11 20 15 25 18.5 30 22 40 30 50 37 60 45 75 55 100 75 Full Load Torque KG-M 0.110 0.216 0.427 0.849 1.262 2.080 3.111 4.148 6.186 8.248 10.281 12.338 16.497 20.6 24.745 31.11 42.7 0.110 0.216 0.427 0.849 1.
APPENDIX B resistors, so each braking unit uses 4 braking resistors. © 1999 DELTA ELECTRONICS, INC.
APPENDIX B B-4 Braking Resistors Type H Unit: mm (inch) A B MAX. WEIGHT (g) MVR080W120 40 (1.57) 8 (0.31) 12 (0.47) 240 MVR200W120 40(1.57) 8 (0.31) 12 (0.47) 240 MVR080W200 60 (2.36) 15 (0.59) 15 (0.59) 460 MVR200W200 60 (2.36) 15 (0.59) 15 (0.59) 460 © 1999 DELTA ELECTRONICS, INC.
APPENDIX B B-4 Braking Resistors Unit: mm (inch) © 1999 DELTA ELECTRONICS, INC.
APPENDIX B B-5 EMI Filters The DELTA VFD-S Series 0.25-3HP, 115V / 230V, 1 /3 AC drive uses DELTA EMI Filter. Use the table below to find the appropriate filter for your DELTA VFD-S drive.
APPENDIX B EMI Filter (06TDT1W4S) Use on 0.25-1 HP, 230V, Three Phase Models © 1999 DELTA ELECTRONICS, INC.
APPENDIX B EMI Filter (16TDT1W3S): for VFD015S23A, VFD022S23A EMI Filter (20DKT1W3S): for VFD007S11A, VFD015S21A © 1999 DELTA ELECTRONICS, INC.
APPENDIX C VFD-S Dimensions (Use DR-01) Unit: mm (inch) Model HP Voltage Phase Depth: mm (inch) Weight (Kg) Fan VFD002S11A 0.2 HP 115 V 1 Phase 88 (3.49) 0.71 No VFD002S21A 0.2 HP 230 V 1 Phase 88 (3.49) 0.67 No VFD002S23A 0.2 HP 230 V 3 Phase 88 (3.49) 0.64 No VFD004S11A 0.5 HP 115 V 1 Phase 102 (4.01) 0.81 No VFD004S21A 0.5 HP 230 V 1 Phase 102 (4.01) 0.76 No VFD004S23A 0.5 HP 230 V 3 Phase 102 (4.01) 0.71 No VFD004S43A 0.5 HP 430 V 3 Phase 102 (4.
APPENDIX C VFD-S DIMENSIONS (Use DR-02) Unit: mm (inch) Model HP Voltage Phase Depth: mm (inch) Weight (Kg) Fan VFD007S11A 1 HP 115 V 1 Phase 129 (5.08) 1.35 NO VFD015S21A 1 HP 230 V 1 Phase 143 (5.63) 1.52 NO VFD015S21B 1 HP 230 V 1 Phase 129 (5.08) 1.42 YES VFD015S23A 2 HP 230 V 3 Phase 143 (5.63) 1.43 NO VFD015S23B 2 HP 115 V 3 Phase 129 (5.08) 1.33 YES VFD015S43A 2 HP 430 V 3 Phase 143 (5.63) NO VFD015S43B 2 HP 430 V 3 Phase 129 (5.
APPENDIX D EC Declaration of Conformity DELTA ELECTRONICS, INC.
APPENDIX D DELTA ELECTRONICS,INC. EC Declaration of Conformity According to the Electromagnetic Compatibility 89/336/EEC and the Amendment Directive 93/68/EEC For the following equipment: AC Motor Drive (Product Name) VFD002S11A, VFD004S11A, VFD002S21A, VFD002S23A, VFD004S21A, VFD004S23A, VFD007S21A, VFD007S23A (Model Designation) is herewith confirmed to comply with the requirements set out in the Council Directive 89/336/EEC for electromagnetic compatibility and the Amendment Directive 93/68/EEC.
APPENDIX E Warranty DELTA warrants the product delivered in the DELTA ship package to be free from defects in material and workmanship, under normal use and service, for twenty four (24) months from date of manufacturing. Products that fail during this period will be repaired or replaced at DELTA’s discretion, with the same or a functionally equivalent product, provided the original purchaser (A) returns the failed product, and (B) provides proof of original date of purchase.
INDEX 1st Step Speed Frequency, 59 AC Drive Operation Mode, 41, 42 AC Drive Operational, 41 Accel./Decel. Speed Inhibit, 49, 54 Acceleration S-Curve, 32 Acceleration Time 1 (Tacc1), 29 Acceleration Time 2 (Tacc2), 29 ACI/AVI Selection, 49, 58 ACI Input Loss Detection, 37 Analog Output Gain, 38 Analog Output Signal, 38 Auto Restart after Fault, 78 Auto-Acceleration/Deceleration, 32 Automatic Voltage Regulation (AVR), 78 Base-Block (B.B.
INDEX Slip Compensation, 73 Software Version, 24 Source of Frequency Command, 34 Source of Operation Command, 35 Start-Point for Dynamic Braking, 74 Start-up Display Selection, 23 Stop Method, 35 Terminal Count Value Attained, 41, 42 Terminal Count Value, 40 Time Duration of 1st Step Speed, 66 Time Duration of Master Frequency, 66 Torque Compensation, 72 Upper Bound of Output Frequency, 28 User Defined Coefficient K, 23 Zero Speed, 41, 42 © 1999 DELTA ELECTRONICS, INC.
