Delta VFD-S - Manual

Chapter 1 Introduction | VFD-S Series 1-2 Revision August 2008, SE09, SW V2.61 1.1.3 Series Number Explanation 0 1 6 0 T 0 07 S2 3A Pr od u ct i on n umb e r Pr od u ct i on y ea r 20 06Pr od u ct i on f ac tor y Pr od u ct i on w e ek (Tao y ua n ) Mod el 23 0V 3- pha se 1H P(0 .7 5k W ) If the nam...

Chapter 1 Introduction | VFD-S Series Revision August 2008, SE09, SW V2.61 1-3 1.3 Installation Steps CASE HEAT SINK COVER KNOB SCREW DIVISION PLATE Installation Steps 1. Remove front cover screw and open. 2. Remove Division Plate. If using optional conduit bracket, please refer to next page. 3. Con...

Chapter 1 Introduction | VFD-S Series 1-4 Revision August 2008, SE09, SW V2.61 D IVIS IO N P LA TE SC R EW Reinstall Division Plate. Screw Torque: 5 to 6 kgf-cm (4.3 to 5.2 in-lbf) SCREW SCREW CONDUIT BRACKET Install Conduit Bracket cover and tighten screws. 1.4 Storage The AC motor drive should be ...

Chapter 1 Introduction | VFD-S Series Revision August 2008, SE09, SW V2.61 1-5 3. If the AC motor drive is stored for more than 3 months, the temperature should not be higher than 30 °C. Storage longer than one year is not recommended, it could result in the degradation of the electrolytic capacitor...

Chapter 1 Introduction | VFD-S Series 1-6 Revision August 2008, SE09, SW V2.61 This page intentionally left blank.

Revision August 2008, SE09, SW V2.61 2-1 Chapter 2 Installation and Wiring 2.1 Ambient Conditions Install the AC motor drive in an environment with the following conditions: Operation Air Temperature: -10 ~ +40°C (14 ~ 104°F), Non-condensing and not frozen Relative Humidity: <90%, no condensation...

Chapter 2 Installation and Wiring | VFD-S Series 2-2 Revision August 2008, SE09, SW V2.61 5. When installing multiple AC motor drives in the same cabinet, they should be adjacent in a row with enough space. When installing one AC motor drive below another one, use a metal separation barrier between ...

Chapter 2 Installation and Wiring | VFD-S Series Revision August 2008, SE09, SW V2.61 2-17 2.4.1 Basic Wiring „ Make sure that power is only applied to the R/L1, S/L2, T/L3 terminals. Failure to comply may result in damage to the equipment. The voltage and current should lie within the range as indi...

Chapter 2 Installation and Wiring | VFD-S Series Revision August 2008, SE09, SW V2.61 2-19 For VFDXXXSXXE NPN (sink mode) B2 U/T1 V/T2 W/T3 IM 3~ NOTE: Do not plug in a Modem or tel epho ne l ine to the RS-4 85 communication port, permanent damage may resul t. Pins 1 & 2 are the power sources fo...

Chapter 2 Installation and Wiring | VFD-S Series 2-20 Revision August 2008, SE09, SW V2.61 Two/Three wire control M0 M1M2 M3 M5 M4 E G N D T h e w i ri n g f or P r. 4 - 0 4 = d1 F o r w a rd / S t o p R e v e r s e / S to p R e s e t M u l t i -s t ep 1 C o m m o n S i gn a l M u l ti -f u n c t io...

Chapter 2 Installation and Wiring | VFD-S Series Revision August 2008, SE09, SW V2.61 2-21 For VFDXXXSXXE NPN mode wi thout external power NOT E M0 M1 M2 M3 M5 M4 E GND +17V N P N Mo d e N P N J 2 PNP For ward/ Stop Reverse/ Stop Reset Mul ti -st ep 1 Mul ti -st ep 2 Mul ti -st ep 3 Common Si gnal F...

Chapter 2 Installation and Wiring | VFD-S Series 2-22 Revision August 2008, SE09, SW V2.61 2.4.2 External Wiring M o tor O utp ut AC L in e R ea c to r P o w e r S u pp l y Mag net icc on tac tor I np ut A C L in e R ea c to r E M I F i l te r R/ L1 S/L2 T/ L 3 U /T1 V /T2 W/ T3 +2 /B 1 B 2 B r ak e...

Chapter 2 Installation and Wiring | VFD-S Series Revision August 2008, SE09, SW V2.61 2-23 2.4.3 Main Terminals Connections Terminal Symbol Explanation of Terminal Function R/L1, S/L2, T/L3 AC line input terminals (3-phase) L/L1, N/L2 AC line input terminals (1-phase) U/T1, V/T2, W/T3 AC drive outpu...

Chapter 2 Installation and Wiring | VFD-S Series 2-24 Revision August 2008, SE09, SW V2.61 „ DO NOT connect phase-compensation capacitors or surge absorbers at the output terminals of AC motor drives. „ With long motor cables, high capacitive switching current peaks can cause over-current, high leak...

Chapter 2 Installation and Wiring | VFD-S Series Revision August 2008, SE09, SW V2.61 2-25 2.4.4 Control Terminals Control Terminal Wiring (Factory Setting) A. XXXSXXA/B/D/U RA M1 AVI 10V + AFM M0 M4 M2 M3 M5 GND RBRC MO1 MCM RJ11 Multi-step speed 3 Multi-step speed 2 Multi-step speed 1 Reset Revers...

Chapter 2 Installation and Wiring | VFD-S Series Revision August 2008, SE09, SW V2.61 2-27 Analog input terminals (AVI, GND) „ Analog input signals are easily affected by external noise. Use shielded wiring and keep it as short as possible (<20m) with proper grounding. If the noise is inductive, ...

Chapter 2 Installation and Wiring | VFD-S Series 2-28 Revision August 2008, SE09, SW V2.61 2.4.5 Main Circuit Terminals VFD002S11A/11B, VFD004S11A/11B Mo t o r C o n n e ct io n G ro u n d Br a k e R e s is t o r Po we r ter mi na l AC I n p u t L in e Te r min a l Power Terminal: Torque: 12 kgf-cm ...

Chapter 2 Installation and Wiring | VFD-S Series 2-30 Revision August 2008, SE09, SW V2.61 VFD002S21A/E, VFD004S21A/E, VFD007S21A/E D C R eact or Br a k eR e s ist or G ro un d Po we r t er mi nal AC I np ut L ine Ter mina l Mot o r C on ne ct ion Power Terminal: Torque: 12 kgf-cm (10 lbf-in) Wire G...

Chapter 2 Installation and Wiring | VFD-S Series Revision August 2008, SE09, SW V2.61 2-33 VFD015S21D/E, VFD022S21D/E Br a k e R e s ist or D C R e act o r G ro un d Po we r t er mi na l AC I n pu t Line Ter min al Mot o r C on ne ct io n Power Terminal: Torque: 20 kgf-cm (17.4 lbf-in) Wire Gauge: 1...

Chapter 2 Installation and Wiring | VFD-S Series 2-34 Revision August 2008, SE09, SW V2.61 This page intentionally left blank

Revision August 2008, SE09, SW V2.61 3-1 Chapter 3 Start Up 3.1 Preparations before Start-up Carefully check the following items before proceeding. „ Make sure that the wiring is correct. In particular, check that the output terminals U/T1, V/T2, W/T3 are NOT connected to power and that the drive is...

Chapter 3 Start Up | VFD-S Series 3-2 Revision August 2008, SE09, SW V2.61 3.2 Operation Method Refer to 4.2 How to operate the digital keypad and chapter 5 parameters for setting. Please choose a suitable method depending on application and operation rule. The operation is usually done as shown in ...

Chapter 3 Start Up | VFD-S Series Revision August 2008, SE09, SW V2.61 3-3 N OT E 1. Stop running immediately if any fault occurs and refer to the troubleshooting guide for solving the problem. 2. Do NOT touch output terminals U/T1, V/T2, W/T3 when power is still applied to R/L1, S/L2, T/L3 even whe...

Revision August 2008, SE09, SW V2.61 4-1 Chapter 4 Digital Keypad Operation 4.1 Description of the Digital Keypad RUN FWD REV STOP MIN. MAX. RUN STOP/RESET MODE PROG DATA LE D in dicati onLi ght du ring RUN, STOP, FWD an dREV ope rati on. Po tent iomete r fo rfreq ue nc y se tting .Cou ld be th e Ma...

Chapter 4 Digital Keypad Operation | VFD-S Series Revision August 2008, SE09, SW V2.61 4-3 4.4 How to Operate the Digital Keypad STAR T To s h if t d a ta Set t in g d irec t io n or GO START STAR T Set t in g Mo d e N ote ： I n t he se le ct io n mod e, press t o se t t h e p ara met er s. Set t in...

Revision August 2008, SE09, SW V2.61 5-1 Chapter 5 Parameters The VFD-S parameters are divided into 11 groups by property for easy setting. In most applications, the user can finish all parameter settings before start-up without the need for re-adjustment during operation. The 11 groups are as follo...

Chapter 5 Parameters | VFD-S Series 5-2 Revision August 2008, SE09, SW V2.61 5.1 Summary of Parameter Settings : The parameter can be set during operation. Group 0 User Parameters Pr. Explanation Settings Factory Setting NOTE 0-00 Identity Code of the AC Motor Drive Read-only d # 0-01 Rated Current ...

Chapter 5 Parameters | VFD-S Series 5-4 Revision August 2008, SE09, SW V2.61 Pr. Explanation Settings Factory Setting NOTE 2-00 Source of Master Frequency Command d3: Master Frequency determined by Potentiometer on the digital keypad. (won’t record the frequency of power loss and it can do analog ov...

Chapter 5 Parameters | VFD-S Series Revision August 2008, SE09, SW V2.61 5-11 Pr. Explanation Settings Factory Setting NOTE A-09 Treatment of the Erroneous Feedback Signals d0: warn and RAMP to stop d1: warn and COAST to stop d0 A-10 Sleep Frequency d0.0 to d400Hz d0.0 A-11 Wakeup Frequency d0.0 to ...

Chapter 5 Parameters | VFD-S Series 5-12 Revision August 2008, SE09, SW V2.61 5.2 Parameter Settings for Applications „ Speed Search Applications Purpose Functions Related Parameters Windmill, winding machine, fan and all inertia loads Restart free-running motor Before the free-running motor is comp...

Chapter 5 Parameters | VFD-S Series Revision August 2008, SE09, SW V2.61 5-13 „ Two-wire/three-wire Applications Purpose Functions Related Parameters General application To run, stop, forward and reverse by external terminals F W D/ S TO P R E V / S TO P M0 "Open": Stop, "Close": FWD...

Chapter 5 Parameters | VFD-S Series 5-14 Revision August 2008, SE09, SW V2.61 „ Over-torque Setting Applications Purpose Functions Related Parameters Pumps, fans and extruders To protect machines and to have continuous/ reliable operation The over-torque detection level can be set. Once OC stall, OV...

Chapter 5 Parameters | VFD-S Series Revision August 2008, SE09, SW V2.61 5-17 5.3 Description of Parameter Settings Group 0: User Parameters This parameter can be set during operation. 0-00 Identity Code of the AC Motor Drive Settings Read Only Factory setting: d# 0-01 Rated Current Display of the A...

Chapter 5 Parameters | VFD-S Series 5-22 Revision August 2008, SE09, SW V2.61 Group 1: Basic Parameters 1-00 Maximum Output Frequency (Fmax) Unit: 0.1 Settings d50.0 to d400 Hz Factory Setting: d60.0 This parameter determines the AC motor drive’s Maximum Output Frequency. All the AC motor drive freq...

Chapter 5 Parameters | VFD-S Series Revision August 2008, SE09, SW V2.61 5-23 This parameter sets the Mid-Point Voltage of any V/f curve. With this setting, the V/f ratio between Minimum Frequency and Mid-Point Frequency can be determined. This parameter must be equal to or greater than Minimum Outp...

Chapter 5 Parameters | VFD-S Series Revision August 2008, SE09, SW V2.61 5-25 The JOG function can be selected using Multi-function Input terminals (Pr.4-04 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...

Chapter 5 Parameters | VFD-S Series 5-26 Revision August 2008, SE09, SW V2.61 1-16 Acceleration S-Curve 1-17 Deceleration S-Curve Settings d0 to d7 Factory Setting: d0 These two parameters allow you to configure whether the acceleration and/or deceleration ramps are linear or S-shaped. The S-curve i...

Chapter 5 Parameters | VFD-S Series Revision August 2008, SE09, SW V2.61 5-27 Group 2: Operation Method Parameters 2-00 Source of Master Frequency Command Factory Setting: d0 Settings d0 Master Frequency input determined by digital keypad. (record the frequency of power loss and it can do analog ove...

Chapter 5 Parameters | VFD-S Series Revision August 2008, SE09, SW V2.61 5-29 RU N STO P RU N STO P Frequenc y Freque nc y Ti me Time outputfrequency outputfrequency motor sp eed motor speed o perati on comman d ope rati oncommand stops according to decel eration ti me free r un to s top r amp t o s...

Chapter 5 Parameters | VFD-S Series Revision August 2008, SE09, SW V2.61 5-31 Group 3: Output Function Parameters 3-00 Analog Output Signal (AFM) Factory Setting: d0 Settings d0 Analog Frequency Meter (0 to Maximum Output Frequency) d1 Analog Current Meter (0 to 250% of rated AC motor drive current)...

Chapter 5 Parameters | VFD-S Series Revision August 2008, SE09, SW V2.61 5-33 Preliminary Counter Value Attained Output (Pr. 3-04=d3) (Pr. 3-05 to Pr. 3-06=d15) Terminal Count Value Attained Output (Pr.3-03=d5) (Pr.3-05 to Pr.3-06=d14) Display(Pr.0-04=d1) TRG Counter Tri gger Si gnalMulti -function ...

Chapter 5 Parameters | VFD-S Series Revision August 2008, SE09, SW V2.61 5-35 Group 4: Input Function Parameters 4-00 Potentiometer Bias Frequency Unit: 0. 1 Settings d0.0 to d100.0% Factory Setting: d0.0 4-01 Potentiometer Bias Polarity Factory Setting: d0 Settings d0 Positive Bias d1 Negative Bias...

Chapter 5 Parameters | VFD-S Series 5-36 Revision August 2008, SE09, SW V2.61 Example 3: The example also shows the popular method. The whole scale of the potentiometer can be used as desired. In addition to signals of 0 to 10V and4 to 20mA, the popular voltage signals also include signals of 0 to 5...

Chapter 5 Parameters | VFD-S Series Revision August 2008, SE09, SW V2.61 5-37 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. Hz 0V 10 V 27 0 54 Potenti ometer Scale Max.Ou...

Chapter 5 Parameters | VFD-S Series 5-38 Revision August 2008, SE09, SW V2.61 Hz 0V 4mA 10 V20 mA 30 0 60 Potentiometer Scale Max.OutputFreq. 60Hz Pr.1- 00 0Hz 0V 4mA 10V20mA Fa cto ry Setti ngs Pr.1 -00= 60 Hz--Max . ou tpu t F re q.Pr.4 -00= 60 Hz--Pot ent iomete r bi as fre q. Pr.4 -01= 1 -- bi a...

Chapter 5 Parameters | VFD-S Series Revision August 2008, SE09, SW V2.61 5-39 Explanations: d0 Parameter Disable: Enter value (d0) to disable any 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). NOT E The purpose of this function is to provide i...

Chapter 5 Parameters | VFD-S Series 5-40 Revision August 2008, SE09, SW V2.61 NOT E 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 Mul...

Chapter 5 Parameters | VFD-S Series Revision August 2008, SE09, SW V2.61 5-41 GND D7 Multi-step 1 D8 Multi -step 2 D9 Multi -step 3 Mx " Close": Operati on available Mx " Close": Operati on available Mx " Close": Operati on available These three inputs select the multi-step s...

Chapter 5 Parameters | VFD-S Series Revision August 2008, SE09, SW V2.61 5-43 GND B.B.(N.O.) setti ng by d13 B.B.(N.C.) setti ng by d14 Mx " Cl ose": Operati on avai l able. Mx " Open":Operati on avai labl e. NOT E When a Base-Block signal is received, the AC drive will stop all outp...

Chapter 5 Parameters | VFD-S Series 5-44 Revision August 2008, SE09, SW V2.61 GND setti ng by d17 setti ng by d18 Mx " Cl ose": Run PLC. Mx " Cl ose":Pause PLC. PLC operati on NOT E Pr.5-00 to Pr.5-16 define the PLC program. d19 Counter Trigger: Parameter value d19 programs Multi-Fun...

Chapter 5 Parameters | VFD-S Series Revision August 2008, SE09, SW V2.61 5-45 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. GND d20 res et the c ountervalue. Mx " close...

Chapter 5 Parameters | VFD-S Series Revision August 2008, SE09, SW V2.61 5-49 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 acceleration/deceleration times in Pr.1-09 to Pr.1-12...

Chapter 5 Parameters | VFD-S Series 5-50 Revision August 2008, SE09, SW V2.61 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 acceleration/...

Chapter 5 Parameters | VFD-S Series 5-52 Revision August 2008, SE09, SW V2.61 Group 6: Protection Parameters 6-00 Over-Voltage Stall Prevention Factory Setting: d1 Settings d0 Disable d1 Enable During deceleration, the motor DC bus voltage may exceed its Maximum Allowable Value due to motor regenera...

Chapter 5 Parameters | VFD-S Series Revision August 2008, SE09, SW V2.61 5-53 DC bus voltage time Over -vol tagedetecti on level Pr.6-01 OutputFreq. time Over -voltage Stal l Prevention Band=20V 6-02 Over-Current Stall Prevention Level Unit: 1 Settings d20 to d150% Factory Setting: d130 A setting of...

Chapter 5 Parameters | VFD-S Series Revision August 2008, SE09, SW V2.61 5-57 Group 7: Motor Parameters 7-00 Motor Rated Current Unit: 1 Settings d30 to d120% Factory Setting: d85 This parameter will limit the AC drive output current in order to prevent the motor from overheating. 7-01 Motor No-load...

Chapter 5 Parameters | VFD-S Series 5-58 Revision August 2008, SE09, SW V2.61 Group 8: Special Parameters 8-00 DC Brake Current Level Unit: 1 Settings d0 to d30% Factory Setting: d0 This parameter determines the level of DC Brake Voltage Level output to the motor during start-up and stopping. When s...

Chapter 5 Parameters | VFD-S Series 5-62 Revision August 2008, SE09, SW V2.61 Group 9: Communication Parameters 9-00 Communication Address Settings d1 to d254 Factory Setting: d1 If the AC drive is controlled by RS-485 serial communication, the communication address must be set via this parameter. S...

Chapter 5 Parameters | VFD-S Series 5-64 Revision August 2008, SE09, SW V2.61  Code Description: ASCII mode: Each 8-bit data is the combination of two ASCII characters. For example, a 1-byte data: 64 Hex, shown as ‘64’ in ASCII, consists of ‘6’ (36Hex) and ‘4’ (34Hex). Character ‘0’ ‘1’ ‘2’ ‘3’ ‘4’...

Chapter 5 Parameters | VFD-S Series 5-70 Revision August 2008, SE09, SW V2.61 Step 5: Repeat step 3 and 4 until eight shifts have been performed. When this is done, a complete 8-bit byte will have been processed. Step 6: Repeat step 2 to 5 for the next 8-bit byte of the command message. Continue doi...

Chapter 5 Parameters | VFD-S Series 5-74 Revision August 2008, SE09, SW V2.61 3.7 Communication program of PC: The following is a simple example of how to write a communication program for Modbus ASCII mode on a PC in C language. #include<stdio.h> #include<dos.h> #include<conio.h> ...

Chapter 5 Parameters | VFD-S Series Revision August 2008, SE09, SW V2.61 5-75 Group A: PID Control A-00 Input Terminal for PID Feedback Factory Setting: d0 Settings d0 Disable d1 Negative PID feedback from external terminal (AVI) 0 to +10V d2 Negative PID feedback from external terminal (ACI) 4 to 2...

Chapter 5 Parameters | VFD-S Series Revision August 2008, SE09, SW V2.61 5-77 This parameter selects the operation of the drive upon a loss of PID feedback signal. A-10 Sleep Frequency Unit: 0.1 Settings d0.0 to d400Hz Factory Setting: d0.0 A-11 Wakeup Frequency Unit: 0.1 Settings d0.0 to d400Hz Fac...

Chapter 5 Parameters | VFD-S Series 5-78 Revision August 2008, SE09, SW V2.61 the setting frequency of parameters, such as Max. operation frequency, 1 st speed and etc., they are still needed to set with actual value. P A-02 I A-03 A-01 + + + + TargetValue Detecti on Value Gai n D A-04 A-05 A-07 Int...

Chapter 6 Fault Code Information | VFD-S Series 6-2 Revision August 2008, SE09, SW V2.61 Fault Name Fault Descriptions Corrective Actions Overheating Heat sink temperature too high 1. Ensure that the ambient temperature falls within the specified temperature range. 2. Make sure that the ventilation ...

Revision August 2008, SE09, SW V2.61 7-1 Chapter 7 Troubleshooting 7.1 Over Current (OC) o cA o cd O C Over -current duri ng accel erati on Over -current duri ng decelerati on Over current Chec k i f there is any between the U, V, W and motor short circ ui ts and grounding Yes No No No No No No Yes ...

Chapter 7 Troubleshooting | VFD-S Series 7-2 Revision August 2008, SE09, SW V2.61 7.2 Ground Fault G FF Ground fault No Yes Is output circuit( cable or motor) of AC motor drive gr ounded? Remov e ground fault Maybe AC motor drive has malfuncti on or misoperation due to noi se. Pleas e contact DELTA....

Chapter 7 Troubleshooting | VFD-S Series Revision August 2008, SE09, SW V2.61 7-5 7.7 Keypad Display is Abnormal Abnormal display or no di splay Cy cle power to AC motor dr ive No Yes Yes Yes No Display normal? AC motor driv e work s normall y Fix connect or and eli minate nois e Chec k if all conne...

Chapter 7 Troubleshooting | VFD-S Series 7-6 Revision August 2008, SE09, SW V2.61 7.9 Motor cannot Run Motor c annot run Check PU01 for normal di splay No No No No No No No No No No No No No No No Chec k i f non-fuse breaker and magnetic contactor are ON Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes S...

Chapter 7 Troubleshooting | VFD-S Series Revision August 2008, SE09, SW V2.61 7-7 7.10 Motor Speed cannot be Changed Motor c an run butcannot change speed Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes No No No No No No No No No No Chec k if the sett ing of the max. frequenc y is too l ow Chec k to see i f...

Chapter 7 Troubleshooting | VFD-S Series 7-8 Revision August 2008, SE09, SW V2.61 7.11 Motor Stalls during Acceleration Motor s tal ls during accel er ati on Chec k i f acc el erationtime i s too s hort Yes Yes Yes Yes No No No No No No Inc rease setti ng ti me Yes Us e s pecial motor? Reduce load o...

Chapter 7 Troubleshooting | VFD-S Series Revision August 2008, SE09, SW V2.61 7-9 7.13 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. O...

Chapter 7 Troubleshooting | VFD-S Series 7-10 Revision August 2008, SE09, SW V2.61 4. Store within a relative humidity range of 0% to 90% and non-condensing environment. Use an air conditioner and/or exsiccator. 7.15 Affecting Other Machines An AC motor drive may affect the operation of other machin...

Revision August 2008, SE09, SW V2.61 8-1 Chapter 8 Maintenance and Inspections Modern AC motor drives are based on solid-state electronics technology. Preventive maintenance is required to keep the AC motor drive in its optimal condition, and to ensure a long life. It is recommended to have a qualif...

Revision August 2008, SE09, SW V2.61 A-1 Appendix A Specifications Voltage Class 115V Class Model Number VFD-_ _ _S 002 004 007 Max. Applicable Motor Output (kW) 0.2 0.4 0.75 Max. Applicable Motor Output (HP) 0.25 0.5 1.0 Rated Output Capacity (KVA) 0.6 1.0 1.6 Rated Output Current (A) 1.6 2.5 4.2 M...

Revision August 2008, SE09, SW V2.61 B-1 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 ...

Appendix B Accessories | VFD-S Series B-2 Revision August 2008, SE09, SW V2.61 7. Please read the wiring information in the user manual of the brake unit thoroughly prior to installation and operation. 8. In applications with brake resistor or brake unit, Pr.6-00 (Over-voltage stall prevention) must...

Appendix B Accessories | VFD-S Series Revision August 2008, SE09, SW V2.61 B-3 B.1.1 Dimensions and Weights for Brake resistors (Dimensions are in millimeter) Order P/N: BR080W200, BR080W750, BR300W70, BR300W100, BR300W250, BR300W400, BR400W150, BR400W040 Model no. L1 L2 H D W Max. Weight (g) BR080W...

Appendix B Accessories | VFD-S Series B-4 Revision August 2008, SE09, SW V2.61 B.2 EMI Filters The DELTA VFD-S Series 0.25-3HP, 115V, 230V, 460V AC drive uses DELTA EMI Filter. Use the table below to find the appropriate filter for your DELTA VFD-S drive. Model of AC Motor Drive EMI Filter VFD002S21...

Appendix B Accessories | VFD-S Series Revision August 2008, SE09, SW V2.61 B-5 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...

Appendix B Accessories | VFD-S Series B-6 Revision August 2008, SE09, SW V2.61 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 mot...

Appendix B Accessories | VFD-S Series Revision August 2008, SE09, SW V2.61 B-7 „ If the length is too long, the stray capacitance between cables will increase and may cause leakage current. It will activate the protection of over current, increase leakage current or not insure the correction of curr...

Appendix B Accessories | VFD-S Series Revision August 2008, SE09, SW V2.61 B-11 B.3 AC Reactor B.3.1 AC Input Reactor Recommended Value 230V, 50/60Hz, 1-Phase Inductance (mH) kW HP Fundamental Amps Max. continuous Amps 3~5% impedance 0.2 1/4 4 6 6.5 0.4 1/2 5 7.5 3 0.75 1 8 12 1.5 1.5 2 12 18 1.25 2...

Appendix B Accessories | VFD-S Series B-12 Revision August 2008, SE09, SW V2.61 B.3.3 Applications for AC Reactor 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. When applying power to o...

Appendix B Accessories | VFD-S Series Revision August 2008, SE09, SW V2.61 B-13 Application 3 Question Used to improve the input power factor, to reduce harmonics and provide protection from AC line disturbances (surges, switching spikes, short interruptions, etc.). The AC line reactor should be ins...

Appendix B Accessories | VFD-S Series B-14 Revision August 2008, SE09, SW V2.61 B.4 DC Choke Recommended Values 230V DC Choke Input voltage kW HP DC Amps Inductance (mh) MTE CAT. NO 0.2 1/4 2 20.00 2RB003 0.4 1/2 4 15.00 4RB003 0.75 1 9 7.50 9RB003 1.5 2 12 4.00 12RB003 230Vac 50/60Hz 3-Phase 2.2 3 ...

Appendix B Accessories | VFD-S Series Revision August 2008, SE09, SW V2.61 B-15 B.5 Zero Phase Reactor (RF220X00A) Dimensions are in millimeter and (inch) Motor HP kW Qty. Recommended Wire Size (mm 2 ) 1/4 0.2 1/2 0.4 1 0.75 2 1.5 0.5 - 5.5 115V/230 V Series 3 2.2 1 3.5 - 5.5 1/4 0.2 1/2 0.4 1 0.75 ...

Appendix B Accessories | VFD-S Series B-16 Revision August 2008, SE09, SW V2.61 B.6 Din Rail-DR01 (Dimensions are in millimeter) Models Screw Size VFD002S11A/B M4*22 VFD002S21A/B/E M4*22 VFD002S23A/B M4*22 VFD004S11A/B M4*12 VFD004S21A/B/E M4*12 VFD004S23A/B M4*12 VFD004S43A/B/E M4*12 VFD007S21A/B/E...

Appendix B Accessories | VFD-S Series Revision August 2008, SE09, SW V2.61 B-19 B.9 Non-fuse Circuit Breaker Chart The fuse should comply with UL248 and the breaker should comply with UL489. The current rating of the breaker shall be within 2~4 times maximum input current rating. (Refer to Appendix ...

Revision August 2008, SE09, SW V2.61 C-1 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 and the performance. If the capacity of AC motor drive is too large, it cannot offer complet...

Chapter 8Appendix C How to Select the Right AC Motor Drive | VFD-S Series C-2 Revision August 2008, SE09, SW V2.61 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 is ) ( _ _ _ _ ...

Chapter 8Appendix C How to Select the Right AC Motor Drive | VFD-S Series Revision August 2008, SE09, SW V2.61 C-3 2.3 When it is running continuously „ The requirement of load capacity should be less than the capacity of the AC motor drive(kVA) The requirement of load capacity is ) ( _ _ _ _ _ cos ...

Chapter 8Appendix C How to Select the Right AC Motor Drive | VFD-S Series C-4 Revision August 2008, SE09, SW V2.61 C.2 General Precautions Selection Note A. When the AC Motor Drive is connected directly to a large-capacity power transformer (600kVA or above) or when phase lead capacitors are switche...

Chapter 8Appendix C How to Select the Right AC Motor Drive | VFD-S Series Revision August 2008, SE09, SW V2.61 C-5 D. If the stall prevention function is activated, the accel./decel. time is automatically extended to a length that the AC Motor Drive can handle. If the motor needs to decelerate withi...

Chapter 8Appendix C How to Select the Right AC Motor Drive | VFD-S Series C-6 Revision August 2008, SE09, SW V2.61 F. Motor dynamic balance and rotor endurance should be considered if the operating speed exceeds the rated speed (60Hz) of a standard motor. G. Motor torque characteristics vary when an...

Chapter 8Appendix C How to Select the Right AC Motor Drive | VFD-S Series Revision August 2008, SE09, SW V2.61 C-7 D. Gear reduction motor: The lubricating method of reduction gearbox and speed range for continuous operation will be different and depending on brand. The lubricating function for oper...

Chapter 8Appendix C How to Select the Right AC Motor Drive | VFD-S Series C-8 Revision August 2008, SE09, SW V2.61 AC motor drive Motor 1 801 55 1 40 1 00 8 0 5 53 8 03 20 60 1 20 6 0 se c on ds Ba s e f re q .: 6 0H z V/ F f o r 2 20 V/ 60 H z 1 801 55 1 00 5 53 8 03 20 60 1 20 to rq ue ( % ) Fr eq...