VFD-S Series 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.
VFD-S Series TABLE OF CONTENTS CHAPTER 1 RECEIVING AND INSPECTION 1.1 Nameplate Information .............................................................................................1 - 1 1.2 Model Explanation ....................................................................................................1 - 1 1.3 Serial Number Explanation.......................................................................................1 - 1 CHAPTER 2 STORAGE AND INSTALLATION 2.1 Storage ...................
VFD-S Series CHAPTER 5 DESCRIPTION OF PARAMETER SETTINGS 5.1 Group 0: User Parameters .......................................................................................5 - 1 5.2 Group 1: Basic Parameters ......................................................................................5 - 5 5.3 Group 2: Operating Method Parameters ..................................................................5-12 5.4 Group 3: Output Function Parameters ........................................................
VFD-S Series B.5 Remote Controller RC-01........................................................................................B-10 B.6 Conduit Bracket ...................................................................................................... B-11 B.7 Zero Phase Reactor ................................................................................................ B-12 APPENDIX C DIMENSIONS.............................................................................................
VFD-S Series CHAPTER 1 RECEIVING AND INSPECTION 1 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 ! Check to make sure that the package includes an AC drive, the User Manual, and rubber bushings. ! Inspect the unit to insure it was not damaged during shipment. ! Make sure that the part number indicated on the nameplate corresponds with the part number of your order. 1.
VFD-S Series CHAPTER 2 STORAGE AND INSTALLATION 2.1 Storage The AC drive should be kept in the shipping carton before installation. In order to retain the warranty coverage, the AC drive should be stored properly when it is not to be used over for an extended period of time. Some storage suggestions are: Store in a clean and dry location free from direct sunlight or corrosive fumes. Store within an ambient temperature range of -20°C to +65°C.
VFD-S Series 2.3 Installation Improper installation of the AC drive will greatly reduce its life. Be sure to observe the following precautions when selecting a mounting location. Failure to observe these precautions may void the warranty! Do not mount the AC drive near heat-radiating elements or in direct sunlight. Do not install the AC drive in a place subjected to high temperature, high humidity, excessive vibration, corrosive gases or liquids, or airborne dust or metallic particles.
VFD-S Series 2.4 Connections DANGER Hazardous Voltage Before accessing the AC drive: Disconnect all power to the AC drive. Wait ten minutes for DC bus capacitors discharge. Any Electrical or mechanical modification to this equipment without prior written consent of Delta Electronics, Inc. will void all warranties and may result in a safety hazard in addition to voiding the UL listing.
VFD-S Series 2.5 Environments Avoid rain and moisture, Avoid direct sunlight, Avoid corrosive gases or liquids, Avoid airborne dust or metallic particles, Avoid vibration, Avoid magnetic interference, Environment temperature: -10 ~ 50°C, Environment humidity: below 90% RH, Environment air pressure: 86 kpa ~ 106 kpa. 2.6 Installation Steps KNOB COVER CASE HEAT SINK Installation Steps DIVISION PLATE SCREW 1. Remove front cover screw and open. 2. Remove Division Plate.
VFD-S Series SCREW SCREW For Optional Conduit Bracket: Make sure to fasten both screws on conduit bracket as shown in the drawing for safety grounding purpose. Bring all the wires out through the conduit bracket. Screw Torque: 5 to 6 kgf-cm (4.3 to 5.2 in-lbf) CONDUIT BRACKET SCREW DIVISION PLATE Reinstall Division Plate. Screw Torque: 5 to 6 kgf-cm (4.3 to 5.2 in-lbf) CONDUIT BRACKET SCREW SCREW Install Conduit Bracket cover and tighten screws. DELTA ELECTRONICS, INC.
VFD-S Series UL Enclosed Type SCREW Close the cover and tighten screw as shown. Screw torque: 5 to 6 kgf-cm (4.3 to 5.2 in-lbf) RS485 RJ11 JACK RJ11 PLUG For additional communication: Plug the communication keypad into the RJ11 jack for serial communication. 2-6 DELTA ELECTRONICS, INC.
VFD-S Series CHAPTER 3 WIRING 3.1 Basic Wiring Diagram Users must connect wiring according to the following circuit diagram shown below. For VFDXXXSXXA/B/D 3 Main Circuit Power R/L1 S/L2 T/L3 E R/L1 S/L2 T/L3 NFB Recommended Circuit when power supply is turned OFF by a fault output SA MC OFF ON MC 17V RB RC Grounding resistance less than 100 17V 4.7k 17V 4.7k 17V 4.7k 17V 4.7k 4.7k 17V 17V 4.7k 47K DELTA ELECTRONICS, INC.
VFD-S Series For VFDXXXSXXE NPN (sink mode) Braking resistor (optional) select 80Ω 120W, 200Ω 120W 400Ω 120W Jumper Main Circuit Power R/L1 S/L2 T/L3 +1 E R/L1 S/L2 T/L3 NFB Recommended Circuit when power supply is turned OFF by a fault output SA MC OFF ON MC Factory default Forward/Stop Reverse/Stop Reset Multi-step 1 Multi-step 2 Multi-step 3 Comm. signal (sink) Analog voltage 3 0~10VDC Potentiometer Pot. 2 3K~5KΩ Analog current 1 RB RC B2 U/T1 +2/B1 V/T2 +17V W/T3 CPU 2.
VFD-S Series For VFDXXXSXXE PNP (source mode) Braking resistor (optional) select 80Ω 120W, 200Ω 120W 400Ω 120W Jumper Main Circuit Power NFB R/L1 S/L2 T/L3 Recommended Circuit when power supply is turned OFF by a fault output SA MC OFF +2/B1 +1 E R/L1 S/L2 T/L3 ON MC RB RC B2 U/T1 +17V CPU V/T2 W/T3 47Ω AFM Common signal (source) Forward/Stop Reverse/Stop Reset Multi-step 1 Multi-step 2 Multi-step 3 Analog voltage 3 0~10VDC Potentiometer Pot.
VFD-S Series 3.2 External Wiring Items Explanations Please follow the specific power Power supply requirement shown in supply APPENDIX-A. There may be inrush current during Fuse/NFB power up. Please check the chart of APPENDIX B and select the correct (Optional) fuse with rated current. NFB is optional.
VFD-S Series 3.3 Main Circuit Wiring 1.
VFD-S Series 2. Terminal Explanations Terminal Symbol Explanation of Terminal Function R/L1, S/L2, T/L3 AC line input terminals (three phase) L/L1, N/L2 AC line input terminals (single phase) U/T1, V/T2, W/T3 Motor connections +2/B2 – B1 Connections for Braking Resistor (optional) +2/+1 – B1 Connections for DC Link Reactor (optional) Earth Ground 3.
VFD-S Series B. XXXSXXE * * Multi-step speed 3 1. Terminal Explanations: Terminal Terminal name symbols Multi-Function Indication RA-RC Output Contact Multi-Function Indication RB-RC Output Contact MO1-MCM Multi-function PHC output RJ-11 Serial communication port +10V-GND Power for speed setting Analog voltage/current freq.
VFD-S Series 3. During installation, follow all local electrical, construction, and safety codes for the country the drive is to be installed in. 4. Ensure that the appropriate protective devices (circuit breaker or fuses) are connected between the power supply and AC drive. 5. Make sure that the leads are connected correctly and the AC drive is properly grounded. (Ground resistance should not exceed 100 Ω . For 460V-class AC drive, the ground resistance should not exceed 10Ω.) 6.
VFD-S Series 14. 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. 15. If the AC drive is installed in the place where a load reactor is needed, install the filter close to U/T1, V/T2, W/T3 side of AC drive. Do not use a Capacitor or L-C Filter (Inductance-Capacitance) or R-C Filter (Resistance-Capacitance). 16.
VFD-S Series CHAPTER 4 DIGITAL KEYPAD OPERATION 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 Display Indicate frequency, motor parameter setting value and alarm contents. LED indication Light during RUN, STOP, FWD and REV operation. RUN FWD REV Potentiometer for frequency setting.
VFD-S Series 4.2 Explanations of Display Messages Display Message Descriptions The AC drive Master Frequency The Actual Operation Frequency present at terminals U/T1, V/T2, and W/T3. The output current present at terminals U/T1, V/T2, and W/T3 The custom unit (u), where u = H x Pr 0-05. The counter value (C) The internal PLC process step currently being performed.
VFD-S Series 4.3 Explanation of LED Indicators Stop AC drive when STOP button has been pressed. RUN FWD REV STOP REV LED lights during reverse operation. FWD LED lights during forward operation. RUN LED lights during RUN operation. 1. Description of LED functions of RUN and STOP Output frequency of the AC motor drive STOP/ RESET 4 STOP/ RESET KEY RUN KEY Frequency command RUN Indication STOP Indication Light Flash Dark 2. Description of LED functions of FWD and REV.
VFD-S Series 4.4 Keypad Operation MODE Change display mode Set frequency Set frequency Set frequency Change operation direction MODE MODE MODE Change display item Set Freq. MODE Change display Change display Change display mode mode mode REV state can't attain if reverse is inhibited. MODE Display freq. Command Communication error, only appears when communication error happens.
VFD-S Series CHAPTER 5 DESCRIPTION OF PARAMETER SETTINGS 5.1 Group 0: User Parameters 0 - 00 Identity Code of AC Drive Settings Factory setting: d# None HP 1/4 1/2 1 2 3 115V/230V d0 d2 d4 d6 d8 460V -- -- -- d3 d5 d7 d9 V 5 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. 0 - 01 HP V 115V/230V 1/4 1/2 1 2 3 1.6A 2.5A 4.2A 7.
VFD-S Series 0 - 03 Start-up Display Selection Settings Factory Setting: d 0 d0 Display the Master Frequency (F) d1 Display the actual output frequency (H) d2 Display the content of users-defined unit d3 Display the output current (A) This parameter can be set during operation.
VFD-S Series Display Number Represented 999 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 right-most numbers is not a true decimal point, instead it indicates that a zero follows the right-most number. For example, the number 1230 would be displayed as “123.” 99.9.
VFD-S Series 0 - 08 Password Decode 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. Finally, press the Prog/Data key again to store the displayed value, which then becomes the password. For example, say that Pr.0-08 is set to 111.
VFD-S Series 5.2 Group 1: Basic Parameters 1 - 00 Maximum Output Frequency Settings (Fo. max) d 50.0 to d 400 Hz Factory Setting: d 60.0 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 Factory Setting: d 60.0 d 10.0 to d 400 Hz Unit: 0.
VFD-S Series 1 - 03 Mid-Point Frequency (Fmid) Settings Factory Setting: d 1.0 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) Settings Factory Setting: d12.0* d 2.
VFD-S Series 1 - 06 Minimum Output Voltage (Vmin) Factory Setting: d12.0* Settings d 2.0 to d 255V* *Twice value for 460V class Unit: 0.1V* 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). Voltage Pr.1-02 Pr.1-04 Pr.1-06 0 5 Freq. Pr.1-03 Pr.1-05 Pr.1-00 Pr.
VFD-S Series 1 - 09 Acceleration Time 1 (Taccel 1) Factory Setting : d10.0 1 - 10 Deceleration Time 1 (Tdecel 1) Factory Setting : d10.0 1 - 11 Acceleration Time 2 (Taccel 2) Factory Setting : d10.0 1 - 12 Deceleration Time 2 (Tdecel 2) Factory Setting : d10.0 Settings d 0.1 to d 600Sec Unit: 0.1sec These parameters can be set during operation. Pr.1-09. This parameter is used to determine the time required for the AC drive to ramp from 0 Hz to its Maximum Output Frequency (Pr.1-00).
VFD-S Series 1 - 13 Jog Acceleration/Deceleration Time Factory Setting: d 10.0 Settings d 0.1 to d 600Sec This parameter can be set during operation. 1 - 14 Jog Frequency Settings Unit: 0.1Sec 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.4-04 to Pr.4-08) if programmed for Jog (d10).
VFD-S Series 1 - 15 Auto Acceleration / Deceleration Factory Setting: d 0 Settings d0 Linear acceleration / deceleration. d1 Auto acceleration, linear Deceleration. d2 Linear acceleration, auto Deceleration. d3 Auto acceleration / deceleration d4 Linear acceleration, auto deceleration, and stall prevention during deceleration.
VFD-S Series 1 - 18 Jog Decelerating Time Factory Setting: d0.0 Settings d0.0 to d600 When Pr.1-18 is set to d0.0 Jog decelerating time determined by the setting of Pr.1-13 0.1 to 600 sec, Jog decelerating time can be set independently, separates from Pr.1-13 When Pr.1-18 is set to 0.0, Pr.1-13 determines both Jog acceleration and deceleration time. When Pr.1-18 is set between 0.1 to 600 seconds, which will determine Jog Decelerating Time and Pr.1-13 will only determine Jog Accelerating Time.
VFD-S Series 5.3 Group 2: 2 – 00 Operation Method Parameters Source of Frequency Command Settings Factory Setting: d 0 d0 Master Frequency input determined by digital keypad. (record the frequency of power loss and it can do analog overlap plus) d1 Master Frequency determined by analog signal DC 0V-10V (external terminal AVI). (won’t record the frequency of power loss and it can’t do analog overlap plus) d2 Master Frequency determined by analog signal DC 4mA 20mA (external terminal AVI).
VFD-S Series J1 Voltage signal input(0-10V) Current signal input(4-20mA) When setting analog overlap plus, it needs to set Pr. 2-06 to select AVI or ACI. 2 - 01 Source of Operation Command Settings d0 d1 d2 d3 d4 Factory Setting: d 0 Controlled by the keypad 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.
VFD-S Series Hz Hz Freq. Freq. Motor Speed Motor Speed Operation command Stops according to deceleration time ON Time Time Free running to stop ON OFF Coast Ramp Note: OFF 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 Factory Setting: d 10 d 03 fc= 3KHz d 04 fc= 4KHz d 05 fc= 5KHz to d 10 fc= 10KHz Unit: 1KHz This parameter can set the carrier frequency of PWM output.
VFD-S Series 2 - 04 Reverse Operation Settings Factory Setting: d 0 d0 Enable REV operation d1 Disable REV operation The parameter determines whether the AC drive can operate in the reverse direction. 2 - 05 Loss of ACI Signal Settings Factory Setting: d 0 Upon the loss of ACI, the drive will default to an output frequency of 0 Hz. d1 Upon the loss of ACI, the drive will stop and display error message “EF”. d2 Upon the loss of ACI, the drive will continue to run at the last known ACI input.
VFD-S Series 5.4 Group 3: Output Function Parameters 3 - 00 Analog Output Signal Settings Factory Setting: d 0 d0 Analog frequency meter (0 to Maximum Output Frequency). d1 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 Settings Factory Setting: d100 d 1 to d 200% Unit: 1% The parameter can be set during operation.
VFD-S Series 3 - 02 Desired Frequency Attained Settings Factory Setting: d 1.0 d 1.0 to d 400 Hz Unit: 0.1Hz If a Multi-function output terminal is set to function as Desired Frequency Attained (Pr.3-05 or 3-06=d9), then the output will be activated when the programmed frequency is attained. Freq. Max. Output Detection range Freq. + - 2Hz Desired Freq. Pr.3-02 Preset Freq. Attained indication Pr.3-05 to 3-06 Desired Freq. Attained Indication Pr.
VFD-S Series The timing diagram is shown below: Display (Pr.0-04=d1) 2ms TRG Counter Trigger Signal Multi-function Input Terminal 2ms The width of trigger signal should not be less than 2ms(<250 Hz) 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.
VFD-S Series Function Explanations: d0 Not Used. d1 AC drive operational: the output terminal will be activated when the drive is running. d2 Maximum Output Frequency Attained: the output will be activated when the AC drive attains Maximum Output Frequency. d3 Zero speed: the output will be activated when Command Frequency is lower than the Minimum Output Frequency. d4 Over-Torque Detection: the output will be activated as long as the over-torque is detected. Pr.
VFD-S Series 5.5 Group 4: 4 - 00 Input Function Parameters Potentiometer Bias Frequency Settings Factory Setting: d0.0 d 0.0 to d 100.0% Unit: 0.1% This parameter can be set during the operation. 4 - 01 Potentiometer Bias Polarity Settings d0 Positive bias d1 Negative bias Factory Setting: d 0 This parameter can be set during the operation. 4 - 02 Potentiometer Frequency Gain Settings Factory Setting: d 100 d 1 to d 200% Unit: 1% This parameter can be set during the operation.
VFD-S Series 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.
VFD-S Series 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). 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.
VFD-S Series 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. With anti-slope enable, the large signal will slow or stop the AC drive Max. Output Pr.1-00 Freq. 60Hz 30 Factory Settings anti-slope 0Hz 0V 4mA 4 - 04 Pr.1-00=60Hz--Max. output Freq. Pr.4-00=60Hz--Potentiometer bias freq. Pr.
VFD-S Series 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). Note: The purpose of this function is to provide isolation for unused Multi-Function Input Terminals. Any unused terminals should be programmed to d0 to insure they have no effect on drive operation. d1 Two wire operation: Restricted to Pr.4-04 and external terminals M0, M1.
VFD-S Series d4, d5 External Faults: Parameter values d4, d5 programs 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 be External Fault (E.F.) inputs. E.F.(N.O.) setting by d4 E.F(N.C.) Mx "Close": Operation available. Mx "Open":Operation available. setting by d5 GND When an External Fault input signal is received, the AC drive will stop all output and display “ E.F.” on Digital Keypad, the motor will free run.
VFD-S Series Freq. Pr.5-00 Pr.5-04 Step 1 Step 5 Pr.5-05 Pr.5-01 Step 6 Pr.5-03 Step 2 Step 4 Pr.5-02 Pr.5-06 Step 3 Step 7 Time Master Freq. Mx1-GND Mx2-GND ON ON ON ON ON ON ON ON ON ON ON ON Mx3-GND Operation Command OFF ON d10 Jog Operation Control: Parameter value d10 programs Multi-Function Input Terminal: M1 (Pr.4-04), M2 (Pr.405), M3 (Pr.4-06), M4 (Pr.4-07) or M5 (Pr.4-08) for Jog control.
VFD-S Series d11 Acceleration/Deceleration 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 Acceleration/deceleration Inhibit. When the command is received, acceleration and deceleration is stopped and the AC drive maintains a constant speed.
VFD-S Series d13, d14 External Base Block: Parameter values d13, d14 program 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) 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. B.B.(N.O.) setting by d13 Mx "Close": Operation available. B.B.(N.C.) Mx "Open":Operation available.
VFD-S Series 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. PLC operation Mx "Close": Run PLC. setting by d17 Mx "Close":Pause PLC. setting by d18 GND Note: Pr.5-00 to Pr.5-16 define the PLC program.
VFD-S Series 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. Reset counter Mx "close": reset counter. d20 reset the counter value. GND d21 Select ACI / Deselect AVI: 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.
VFD-S Series 5.6 Group 5: Multi-step Speed and PLC (Process Logic Control) Parameters 5 - 00 1st Step Speed Frequency Factory Setting: d 0.0 5 - 01 2nd Step Speed Frequency Factory Setting: d 0.0 5 - 02 3rd Step Speed Frequency Factory Setting: d 0.0 5 - 03 4th Step Speed Frequency Factory Setting: d 0.0 5 - 04 5th Step Speed Frequency Factory Setting: d 0.0 5 - 05 6th Step Speed Frequency Factory Setting: d 0.0 5 - 06 7th Step Speed Frequency Factory Setting: d 0.0 Settings d 0.
VFD-S Series 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 d17PLC auto-operation). 3. Pr.3-05 to 3-06: Multi-Function Output Terminals (set a Multi-Function Terminal as d10-PLC operation indication, d11-one cycle in PLC auto mode or d12-PLC operation fulfillment attainment). 4. Pr.
VFD-S Series 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). Frequency Master freq.
VFD-S Series 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. Frequency Master freq.
VFD-S Series 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.5-00 to Pr.5-06 and the Master Frequency. The original direction of Master Frequency will become invalid. Note: The equivalent 8-bit number is used to program the forward/reverse motion for each of the 8 speed steps (including Master Frequency).
VFD-S Series 5 - 09 Time Duration of Master Frequency Factory Setting: d 0 5 - 10 Time Duration of 1st Step Speed Factory Setting: d 0 5 - 11 Time Duration of 2nd Step Speed Factory Setting: d 0 5 - 12 Time Duration of 3rd Step Speed Factory Setting: d 0 5 - 13 Time Duration of 4th Step Speed Factory Setting: d 0 5 - 14 Time Duration of 5th Step Speed Factory Setting: d 0 5 - 15 Time Duration of 6th Step Speed Factory Setting: d 0 5 - 16 Time Duration of 7th Step Speed Factory Settin
VFD-S Series 5.7 Group 6: 6 - 00 Protection Parameters Over-Voltage Stall Prevention Settings d0 d1 Factory Setting: d 1 Disable Over-Voltage Stall Prevention 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.
VFD-S Series 6-02 Over-Current Stall Prevention Level Factory Setting: d130 Unit: 1% Settings d20 to d150% A setting of 100% is equal to the Rated Output Current of the drive. During acceleration and steady-state operation, the AC drive output current may increase abruptly to exceed the value specified by Pr.6-02 due to rapid acceleration or excessive load on the motor. When this function is enabled, the AC drive will decrease.
VFD-S Series 6 - 04 Over-Torque Detection Level Settings Factory Setting: d 150 d 30 to d 200% Unit: 1% A setting of proportional to the Rated Output Current of the drive. 6 - 05 Time setting for Over-torque Detection Settings Factory Setting: d 0.1 d 0.1 to d 10.0 sec Unit: 0.1sec If a Multi-Function Output Terminal is set as Over-Torque Detection Indication and the output current exceeds the Over-Torque Detection Level (Pr.6-04, Factory Setting: 150%), the Over-Torque Detection Time (Pr.
VFD-S Series 6 - 08 Present Fault Record Factory Setting: d 0 6 - 09 Second Most Recent Fault Record Factory Setting: d 0 6 - 10 Third Most Recent Fault Record Factory Setting: d 0 Settings d0 d1 d2 d3 d4 d5 d6 d7 No fault occurred Over-current (oc) Over-voltage (ov) Overheat (oH) Overload (oL) Overload1 (oL1) External fault (EF) Not used d8 d9 d 10 d 11 Not used Current exceeds 2 times rated current during acce. (ocA) Current exceeds 2 times rated current during dece.
VFD-S Series 5.8 Group 7: 7 - 00 Motor Parameters Motor Rated Current Factory Setting: d 85 Settings d 30 to d 120% This parameter can be set during operation. Unit: 1% This parameter will limit the AC drive output current in order to prevent the motor from overheating. 7 - 01 Motor No-load Current Factory Setting: d 50 Settings d 0 to d 90% This parameter can be set during operation. Unit: 1% 5 The rated current of the AC drive is regarded as 100%.
VFD-S Series 5.9 Group 8: Special Parameters 8 - 00 DC Braking Voltage Level Settings Factory Setting: d 0 d 0 to 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.
VFD-S Series 2. 8 - 04 DC Braking during stopping is used to decrease stopping time and also to hold a stopped load in position. For high inertial loads, a dynamic braking resistor may be needed for quick decelerations.
VFD-S Series Following a power failure, the AC drive will start its speed search operation, only if the output current is greater than the value determined by Pr.8-07. When the output current is less than that of Pr.8-07, the AC drive output frequency is at a “speed synchronization point”. The drive will start to accelerate or decelerate back to the operating frequency at which it was running prior to the power failure.
VFD-S Series reset/restart operation after any fault has occurred. When enabled, the AC drive will restart with speed search, which starts at the Master Frequency. 8 - 15 Automatic Voltage Regulation (AVR) Settings d0 AVR function enabled d1 AVR function disabled Factory Setting: d 2 d 2 AVR function disabled when deceleration AVR function automatically regulates the AC drive output voltage to the Maximum Output Voltage (Pr.1-02). For instance, if Pr.
VFD-S Series 5.10 Group 9: 9 - 00 Communication Parameters Communication Address Factory Setting: d 1 Settings d 1 to d254 This parameter can be set during operation. ` If the AC drive is controlled by RS-485 serial communication, the communication address must be set via this parameter.
VFD-S Series 9 - 03 Modbus Communication Watchdog Timer Settings d0 Disable Factory Setting: d 0 Unit: 1 sec d1 1 sec to d20 20 sec This parameter can be set during operation. If the Watchdog timer function is enabled, the timer will start counting once the first valid Modbus communication signal is received after power-up or reset. The timer will reset to 0 after each valid Modbus communication message is received. If the watchdog timer reaches the value set in Pr.
VFD-S Series Code Meaning: 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 ASCII code ‘0’ ‘1’ ‘2’ ‘3’ ‘4’ ‘5’ ‘6’ ‘7’ 30H 31H 32H 33H 34H 35H 36H 37H ‘8’ ‘9’ ‘A’ ‘B’ ‘C’ ‘D’ ‘E’ ‘F’ 38H 39H 41H 42H 43H 44H 45H 46H Character ASCII code RTU mode: Each 8-bit data is the combination of two 4-bit hexadecimal characters. For example, 64 Hex. 2.
VFD-S Series 2.2 11-bit character frame (For 8-bit character): ( 8.N.2:Pr.9-04=3 or 6 ) Start bit 0 1 2 3 4 5 6 7 Stop Stop bit bit 6 7 Even Stop parity bit 6 7 Odd Stop parity bit 8-bit character 11-bit character frame ( 8.E.1:Pr.9-04=4 or 7) Start bit 0 1 2 3 4 5 8-bit character 11-bit character frame ( 8.O.1:Pr.9-04=5 or 8) Start bit 0 1 2 3 4 5 8-bit character 11-bit character frame 3.Communication Protocol 3.
VFD-S Series 3.2 ADR (Communication Address) Valid communication addresses are in the range of 0 to 254. Communication address equals to 0 means broadcast to all AC drives (AMD), in this case, the AMD will not reply any message to the master device. For example, communication to AMD with address 16 decimal: ASCII mode: (ADR 1, ADR 0) =’1’,’0’ ≥ ‘1’=31H, ‘0’=30H RTU mode: (ADR) = 10H 3.3 CMD (Command code) and DATA (data characters) The format of data characters depends on the command code.
VFD-S Series Command code: 06H, write 1 word For example, writing 6000(1770H) to address 0100H of AMD with address 01H.
VFD-S Series Command code: 10H, write n word, n<=12 For example, writing 6000(1770H) to Pr 5-00 (address 0500H) and 1000(03E8H) to Pr 5-01 (address 0501H) with slave address 01H.
VFD-S Series RTU mode: Command message: Response message: ADR 01H ADR 01H CMD 10H CMD 10H Starting Data address Number of data (count by word) Number of data (count by Byte) 05H 00H 00H 02H 04H Starting Data address Number of data (count by word) CRC CHK Low 05H 00H 00H 02H 41H CRC CHK High 04H Data content of address 0500H Data content of address 0501H CRC CHK Low CRC CHK High 17H 70H 03H E8H C8H 2EH 5 3.
VFD-S Series 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 16-bit CRC register, putting the result in the CRC register. Step 3: Examine the LSB of CRC register.
VFD-S Series Unsigned int crc_chk(unsigned char* data, unsigned char length){ int j; unsigned int reg_crc=0xFFFF; 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; } DELTA ELECTRONICS, INC.
VFD-S Series 3.5 Address list: The contents of available addresses are shown as below: Address Content Functions AC drive ggnnH gg means parameter group, nn means parameter number, for Parameters example, the address of Pr 4-01 is 0401H. Referencing to chapter 5 for the function of each parameter. When reading parameter by command code 03H, only one parameter can be read at one time.
VFD-S Series Content Status monitor Read only Address Functions 2100H 21: Reserved 22: CPU failure (cF3.1) 23: CPU failure (cF3.2) 24: CPU failure (cF3.3) 25: CPU failure (cF3.4) 26: CPU failure (cF3.5) 27: CPU failure (cF3.6) 28: CPU failure (cF3.7) 29: Hardware protection failure (HPF.1) 30: Hardware protection failure (HPF.2) 31: Hardware protection failure (HPF.
VFD-S Series 3.6 Exception response: Except for broadcast messages, the AC drive is been expected to return a normal response after receiving command messages from the master device. The following depicts the conditions that no normal response is replied to the master device. The AC drive does not receive the messages due to a communication error; thus, the AC drive has no response. The master device will eventually process a timeout condition.
VFD-S Series The AC drive receives the messages, but detects a communication error, thus, no response is returned, but there will be error message “CExx” displayed on the keypad of AC drive. The master device will eventually process a timeout condition. The xx of “CExx” is a decimal code, the meaning of the error message is below: Error Meaning message 5 Reserved AC drive busy: The time interval between commands is too short. Please keep an interval of 10ms 6 at least after the return of a command.
VFD-S Series #define MCR 0x0004 #define LSR 0x0005 #define MSR 0x0006 unsigned char rdat[60]; /* read 2 data from address 2102H of AC drive with address 1 */ unsigned char tdat[60]={':','0','1','0','3','2','1','0',’2', '0','0','0','2','D','7','\r','\n'}; void main(){ int i; outportb(PORT+MCR,0x08); /* interrupt enable */ outportb(PORT+IER,0x01); /* interrupt as data in */ outportb(PORT+LCR,(inportb(PORT+LCR) | 0x80)); /* the BRDL/BRDH can be access as LCR.
VFD-S Series 5.11 Group A: PID Parameters A - 00 PID Feedback Terminal Selection Settings Factory Setting: d 0 d0 Disable PID function d1 Negative feedback 0~10V AVI d2 Negative feedback 4~20mA ACI d3 Positive feedback 0~10V AVI d4 Positive feedback 4~20mA ACI Select an input terminal to serve as the PID feedback location. Please verify the feedback location is different from the Frequency Set Point location and J1 for selecting ACI or AVI must be in the correct position. (Refer to Pr.
VFD-S Series A - 05 Integration’s Upper Bound Frequency Settings Factory Setting: d100 d0 to d100% This parameter determines the integration’s upper frequency limit while operating in the PID feedback loop. (Limit = 1-00×A-05 %). During a fast Integration response, it is possible for the frequency to spike beyond a reasonable point. This parameter will limit this frequency spike.
VFD-S Series A - 11 Revival Frequency Settings A - 12 Factory Setting: d0.0 d0.0 to d400Hz Dwell (sleep) Period Settings Factory Setting: d0.0 d0.0 to d650 seconds These parameters determine Dwell (sleep) functions of the AC drive. If the command frequency falls below the Dwell frequency, for the specified time in Pr. A-12, then the drive will shut off the output and wait until the command frequency rises above Pr. A-11. Please see the below diagram.
VFD-S Series Target Value + P A-02 I A-03 Integration's Upper Bound Frequency A-05 + + + PID Frequency Output Command Limit A-07 D Frequency Command A-04 Detection Value Gain A-01 One-Time Delay A-06 Output Value A-00 If the input range of sensor is 0~SI_max, output range is SO_min~SO_max and then SI_max Input Per output is SO_max-SO_min , set drive input to sensor output Set input range of drive is D_range= 10V(0~10V) or 16mA (4~20mA) that correspond to Output 1-00 Per input 0~1-00Hz and the
VFD-S Series 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.
VFD-S Series CHAPTER 7 TROUBLESHOOTING AND FAULT INFORMATION The AC 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 drive digital keypad panel. The three most recent faults can be read on the digital keypad display by viewing Pr.6-08 to Pr.6-10.
VFD-S Series Fault Name Fault Descriptions The AC drive detects excessive drive output current. Note: The AC drive can withstand up to 150% of the rated current for a maximum of 60 seconds. Corrective Actions 1. Check whether the motor is overloaded. 2. Reduce torque compensation setting as set in Pr.7-02. 3. Increase the AC drive’s output capacity. 1. 2. Internal electronic overload 3. trip 4. Motor overload. Check the parameter settings ( Pr.6-03 to Pr.6-05) Over-current during acceleration: 1.
VFD-S Series Fault Name Fault Descriptions Internal memory IC can not be programmed. Internal memory IC can not be read. Drive’s internal circuitry abnormal. Corrective Actions 1. Switch off power supply. 2. Check whether the input voltage falls within the rated AC drive input voltage. 3. Switch the AC drive back on. 1. Check the connections between the main control board and the power board. 2. Reset drive to factory defaults. 1. Switch off power supply. 2.
VFD-S Series CHAPTER 8 SUMMARY OF PARAMETER SETTINGS !: The parameter can be set during operation, *: Twice the value for 460V class. Group 0 User Parameters Parameters Explanation Settings Factory Setting 0-00 Identity Code of AC Drive Read-only d# 0-01 Rated Current Display Read-only d##.
VFD-S Series 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 1-15 1-16 1-17 1-18 Explanation Settings Maximum Output Freq. d50.0 to d400 Hz Maximum Voltage d10.0 to d400 Hz Frequency (Base Freq) Maximum Output Voltage d2.0V to d255V* Mid-Point Frequency d1.0 to d400 Hz Mid-Point Voltage d2.0V to d255V* Minimum Output d1.0 to d60.0 Hz Frequency Minimum Output Voltage d2.0V to d255V* Upper Bound of freq. d1 to d110% Lower Bound of freq.
VFD-S Series Group 2 Operation Method Parameters Parameters Explanation Settings Factory Setting d0: Master Frequency input determined by digital keypad. (record the frequency of power loss and it can do analog overlap plus) d1: Master Frequency determined by analog signal DC 0V-10V (external terminal AVI). (won’t record the frequency of power loss and it can’t do analog overlap plus) 2-00 Source of Frequency Command DELTA ELECTRONICS, INC.
VFD-S Series Parameters Explanation Settings Factory Setting 2-01 Source of Operation Command d0: by Digital Keypad d1: by external terminals, keypad STOP enabled d2: by external terminals, keypad STOP disabled d3: by RS-485 communication interface, keypad STOP enabled d4: by RS-485 communication interface, keypad STOP disabled 2-02 Stop Method d0: Ramp Stop d1: Coast Stop d0 PWM Carrier Frequency d3: 3KHz d4: 4KHz d5: 5KHz d6: 6KHz d7: 7KHz d8: 8KHz d9: 9KHz d10: 10KHz d10 d0: Enable REV d1:
VFD-S Series Group 3 Output Function Parameters Parameters Explanation Settings d0: analog frequency Factory Setting 3-00 Analog Output Signal 3-01 Analog Output Gain 3-02 Desired Freq. Attained d1.0 to d400 Hz 3-03 Terminal Count Value d0 to d999 d0 3-04 Preliminary Count Value d0 to d999 d0 3-05 Multi-Function Output1 (Photocoupler Output) d0: Not Used d1 d1: analog current ! d1 to d200% d0 d100 d1.0 d1: AC Drive Operational d2: Max. Output Freq.
VFD-S Series Group 4 Input Function Parameters Parameters 4-00 4-01 4-02 4-03 4-04 4-05 4-06 4-07 4-08 Explanation Settings Potentiometer Bias d 0.0 to d 100.0% Frequency ! d0: Positive Bias Potentiometer Bias d1: Negative Bias Polarity ! d0.
VFD-S Series Parameters Explanation Settings d0: Disable d1: Enable d0: Up/down frequency by acceleration/deceleration time d1: Up frequency according to constant speed, down frequency according to deceleration time d2: Up frequency according to acceleration time, down frequenc according to constant speed d3: Up/down frequency by constant speed 4-09 Line Start Lockout 4-10 Up/down frequency command mode 4-11 Acceleration /Deceleration speed of d0 to d1000 Hz/sec constant up/down frequency Factory
VFD-S Series Group 5 Multi-Step Speed and PLC Parameters Parameters Explanation Settings Factory Setting 5-00 1st Step Speed Freq. d0.0 to d400 Hz d0.0 5-01 2nd Step Speed Freq. d0.0 to d400 Hz d0.0 5-02 3rd Step Speed Freq. d0.0 to d400 Hz d0.0 5-03 4th Step Speed Freq. d0.0 to d400 Hz d0.0 5-04 5th Step Speed Freq. d0.0 to d400 Hz d0.0 5-05 6th Step Speed Freq. d0.0 to d400 Hz d0.0 5-06 7th Step Speed Freq. d0.0 to d400 Hz d0.
VFD-S Series 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 Settings d0: Disable d1: Enable Over-Voltage Prevention 230V series: d350 to d410V Level 460V series: d700 to d820V Over-Current Stall d20 to d150% Prevention Level d0: Disabled d1: Enabled during constant speed operation and continue to run to OL1 or OL.
VFD-S Series Group 7 Motor Parameters Parameters 7-00 7-01 7-02 7-03 Explanation Settings Motor Rated Current ! d30 to d120% Motor No-Load Current ! d0 to d90% Torque Compensation ! d0 to d10 Slip Compensation ! d0.0 to d10.0 Factory Setting d85 d50 d01 d0.
VFD-S Series Group 9: Communication Parameters Parameters 9-00 Explanation Communication Address Settings ! d1 to d254 Factory Setting d1 d0: Baud Rate 4800 bps 9-01 Transmission Speed ! d1: Baud Rate 9600 bps d2: Baud Rate 19200 bps d1 d3: Baud Rate 38400 bps d0: Warn and Keep Operating 9-02 Transmission Fault Treatment d1: Warn and Ramp to Stop ! d2: Warn and Coast to Stop d0 d3: Keep Operating without Warning 9-03 Modbus Communication d0: Disable Watchdog Timer ! d1 to d20: time setting (1
VFD-S Series Group A: Communication Parameters Parameters Explanation Settings Factory Setting A-00 d0: Disable PID function d1: Negative feedback 0~10V AVI PID Feedback Terminal d2: Negative feedback 4~20mA ACI Selection d3: Positive feedback 0~10V AVI d4: Positive feedback 4~20mA ACI A-01 Feedback Signal Gain d0 to d999 d100 A-02 Proportional Gain (P) d0 to d999 d100 A-03 Integral Time (I) d0 to d999 d100 A-04 Differential Time (D) d0 to d100 d0 A-05 Integration’s Upper Bound Frequ
VFD-S Series STANDARD SPECIFICATIONS Output Rating Voltage Class Model Number VFDS Max. Applicable Motor Output (kW) Rated Output Capacity (KVA) Rated Output Current (A) Maximum Output Voltage (V) Rated Frequency (Hz) Input Rating Rated Input Current (A) 230V Class 002 004 007 015 022 0.2 0.4 0.75 1.5 2.2 0.6 1.0 1.6 2.9 4.2 1.6 2.5 4.2 7.5 11.0 Proportional to Input Voltage 1.0 to 400 Hz Single/3-phase model drive 4.9/2.4 6.5/3.0 9.7/5.1 15.7/9.0 24/15 -- -- 1.9 2.7 5.1 8.4 -- 004 0.4 1.2 1.
VFD-S Series ACCESSORIES B.1 Non-fuse Circuit Breaker Chart Per UL 508C, paragraph 44.8.6, part a, 1. For 1-phase drives, the current rating of the breaker shall be four times maximum of input current rating. 2. For 3-phase drives, the current rating of the breaker shall be four times maximum of output current rating. (Note: Please select enough current capacity of NFB.) 1-phase 3-phase Input Current (A) Output Current (A) Model Model 1.6 VFD002S11A/B 6.0 VFD002S23A/B VFD002S21A/B/E 4.9 VFD004S23A/B 2.
VFD-S Series 460V Series 115V / 230V Series Voltage B.2 Braking Resistor and Unit chart for use with all Delta AC Drives Applicable Full Motor Load Resistors HP kW Torque Specification Kgf-M Braking Braking Minimum Resistors Model Torque Resistance No of Units 10%ED rates Used 1/4 0.2 0.110 80W 200Ω BR080W200 1 400 --- 1/2 0.4 0.216 80W 200Ω BR080W200 1 220 --- 1 0.75 0.427 80W 200Ω BR080W200 1 125 80Ω 2 1.5 0.849 300W 100Ω BR300W100 1 125 55Ω 3 2.2 1.
VFD-S Series Braking Resistor Dimensions Unit: mm (inch) TYPE L1 L2 H D W MVR200W120 MVR400W120 BR080W200 BR080W750 BR300W070 BR300W100 BR300W250 BR300W400 165 165 140 140 215 215 215 215 150 150 125 125 200 200 200 200 20 20 20 20 30 30 30 30 5.3 5.3 5.3 5.3 5.3 5.3 5.3 5.3 40 40 60 60 60 60 60 60 MAX. WEIGHT (g) 240 240 160 160 750 750 750 750 B DELTA ELECTRONICS, INC.
VFD-S Series B.3 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.
VFD-S Series EMI Filter (RF022S21BA / RF022S43BA) 50 (1.97) 27 (1.06) 100 (3.94) 74 (2.91) 228 241 (8.98) (9.49) 228 (8.98) 15 (0.59) 24 (0.94) 5.5 (0.22) B DELTA ELECTRONICS, INC.
VFD-S Series POWER-IN EMI Filter (12DKT1W3S) EMI Filter (08TDT1W4S) B-6 DELTA ELECTRONICS, INC.
VFD-S Series POWER-IN EMI Filter (22DRT1W3S) EMI Filter (20TDT1W4S) B DELTA ELECTRONICS, INC.
VFD-S Series POWER-IN EMI Filter (35DRT1W3C) B-8 DELTA ELECTRONICS, INC.
VFD-S Series B.4 Din Rail-DR01 Units: mm 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 M4*12 VFD007S23A/B M4*12 VFD007S43A/B/E M4*12 VFD015S23D M4*12 DELTA ELECTRONICS, INC. ALL RIGHTS RESERVED To install the Din Rail Adapter use the specified screws for different models. Refer to the above chart.
VFD-S Series B.5 Remote Controller RC-01 Unit: mm (inch) 8 6 5 4 16 15 14 13 AFM GND AVI +10V GND M2 M0 11 M1 M3 RC-01 Terminal block (Wiring connections) VFD-S I/O Block VFD-S Programming Pr. 2-00 and Pr. 2-01 set to d01 Pr. 4-04 set to d02 (M0, M1 set at RUN/STOP and FWD/REV) Pr. 4-05 set to d06 (M2 set for reset) Pr. 4-06 set to d10 (M3 set for jog operation) B-10 DELTA ELECTRONICS, INC.
VFD-S Series B.6 Conduit Bracket (BK-S) 15.5(0.61) 29.7(1.17) 25.2(1.0) Unit: mm (inch) 73.0(2.87) .0( 28 1.1 ) 22. 0(0 .87 ) 67.8(2.67) 22.0(0 .87) B DELTA ELECTRONICS, INC.
VFD-S Series B.7 Zero Phase Reactor (RF220X00A) UNIT: mm(inch) Recommended Wire Size Nominal AWG mm2 (mm2) ≦10 ≦5.3 ≦5.5 Single-core ≦2 ≦33.6 ≦38 ≦12 ≦3.3 ≦3.5 Three-core ≦1 ≦42.4 ≦50 Note: 600V Insulated Unshielded Cable. Cable type (Note) Qty. Wiring Method 1 4 1 4 Diagram A Diagram B Diagram A Diagram B Diagram A Please wind each wire 4 times around the core. The reactor must be put at inverter side as close as possible.
VFD-S Series Dimensions VFD002S11A 0.25HP 115V / 1 Phase VFD002S21A 0.25HP 230V / 1 Phase VFD002S23A 0.25HP 230V / 3 Phase Unit: mm [inches] C-1 8.1 [0.32] 5.0 [0.20] 11.1 [0.44] 3.0 [0.12] 5.0 [0.20] DELTA ELECTRONICS, INC. ALL RIGHTS RESERVED 88.0 [3.47] 13.0 [0.51] 148.0 [5.83] 5.8 [0.23] 132.2 [5.21] 85.0 [3.35] 74.0 [2.
VFD-S Series VFD002S11B 0.25HP 115V / 1 Phase VFD002S21B 0.25HP 230V / 1 Phase VFD002S23B 0.25HP 230V / 3 Phase Unit: mm [inches] C-2 11.1 [0.44] 5.0 [0.20] 5.0 [0.20] 13.0 [0.51] 8.1 [0.32] 67.8 [2.67] 3.0 [0.12] 16.0 [0.63] 73.0 [2.88] 88.0 [3.47] 13.0 [0.51] 148.0 [5.83] 5.8 [0.23] 132.2 [5.21] 85.0 [3.35] 74.0 [2.92] DELTA ELECTRONICS, INC.
VFD-S Series VFD002S21E 0.25HP 230V / 1 Phase VFD004S21E 0.5HP 230V / 1 Phase VFD007S21E 1HP 230V / 1 Phase VFD015S23D 2HP 230V / 3 Phase Unit: mm [inches] 5.8 [0.23] 85.0 [3.35] 74.0 [2.92] 127.0 [5.00] 5.0 [0.20] 8.3 [0.33] 148.0 [5.83] 133.7 [5.27] 8.5 [0.33] C Unit: mm [inch] DELTA ELECTRONICS, INC.
VFD-S Series VFD004S11A 0.5HP 115V / 1 Phase VFD004S21A 0.5HP 230V / 1 Phase VFD004S23A 0.5HP 230V / 3 Phase Unit: mm [inches] 102.0 [4.02] 2.8 [0.11] 5.0 [0.20] C-4 8.1 [0.32] 5.0 [0.20] 11.1 [0.44] 3.0 [0.12] 148.0 [5.83] 5.8 [0.23] 132.2 [5.21] 85.0 [3.35] 74.0 [2.92] DELTA ELECTRONICS, INC.
VFD-S Series VFD004S11B 0.5HP 115V / 1 Phase VFD004S21B 0.5HP 230V / 1 Phase VFD004S23B 0.5HP 230V / 3 Phase Unit: mm [inches] DELTA ELECTRONICS, INC. ALL RIGHTS RESERVED C-5 11.1 [0.44] 5.0 [0.20] 5.0 [0.20] 27.0 [1.06] 8.1 [0.32] 67.8 [2.67] 3.0 [0.12] 16.0 [0.63] 73.0 [2.88] 102.0 [4.02] 2.8 [0.11] 148.0 [5.83] 5.8 [0.23] 132.2 [5.21] 85.0 [3.35] 74.0 [2.
VFD-S Series VFD004S43A/E 0.5HP 460V / 3 Phase VFD007S21A 1 HP 230V / 1 Phase VFD007S23A 1 HP 230V / 3 Phase Unit: mm [inches] 5.8 [0.23] 124.0 [4.89] 5.0 [0.20] C-6 8.1 [0.32] 5.0 [0.20] 11.1 [0.44] 3.0 [0.12] 148.0 [5.83] 2.8 [0.11] 132.2 [5.21] 85.0 [3.35] 74.0 [2.92] DELTA ELECTRONICS, INC.
VFD-S Series VFD004S43B 0.5HP 460V / 3 Phase VFD007S21B 1 HP 230V / 1 Phase VFD007S23B 1 HP 230V / 3 Phase Unit: mm [inches] DELTA ELECTRONICS, INC. ALL RIGHTS RESERVED C-7 11.1 [0.44] 3.0 [0.12] 5.0 [0.20] 5.0 [0.20] 50.0 [1.97] 8.1 [0.32] 67.8 [2.67] 16.0 [0.63] 73.0 [2.88] 124.0 [4.89] 2.8 [0.11] 148.0 [5.83] 5.8 [0.23] 132.2 [5.21] 85.0 [3.35] 74.0 [2.
VFD-S Series VFD007S43A/E 1 HP 460V / 3 Phase Unit: mm [inches] 126.0 [4.96] 3.0 [0.12] 5.0 [0.20] C-8 8.1 [0.32] 5.0 [0.20] 11.1 [0.44] 3.0 [0.12] 148.0 [5.83] 5.8 [0.23] 132.2 [5.21] 85.0 [3.35] 74.0 [2.92] DELTA ELECTRONICS, INC.
VFD-S Series VFD007S43B 1 HP 460V / 3 Phase Unit: mm [inches] 5.0 [0.20] DELTA ELECTRONICS, INC. ALL RIGHTS RESERVED C-9 5.0 [0.20] 11.1 [0.44] 3.0 [0.12] 67.8 [2.67] 51.0 [2.01] 8.1 [0.32] 16.0 [0.63] 73.0 [2.88] 126.0 [4.96] 3.0 [0.12] 148.0 [5.83] 5.8 [0.23] 132.2 [5.21] 85.0 [3.35] 74.0 [2.
VFD-S Series VFD007S11A 1 HP 115V / 1 Phase Unit: mm [inches] 129.0 [5.08] 5.5 [0.22] C-10 9.5 [0.38] 1.0 [0.04] 5.5 [0.22] 6.5 [0.26] 186.0 [7.33] 5.4 [0.21] 173.0 [6.82] 100.0 [3.94] 86.5 [3.41] DELTA ELECTRONICS, INC.
VFD-S Series VFD007S11B 1 HP 115V / 1 Phase Unit: mm [inches] 67.8 [2.67] 5.5 [0.22] DELTA ELECTRONICS, INC. ALL RIGHTS RESERVED C-11 9.5 [0.38] 1.0 [0.04] 5.5 [0.22] 53.5 [2.11] 6.5 [0.26] 16.0 [0.63] 73.0 [2.88] 129.0 [5.08] 186.0 [7.33] 5.4 [0.21] 173.0 [6.82] 100.0 [3.94] 86.5 [3.
VFD-S Series VFD015S21A 2 HP 230V / 1 Phase VFD015S23A 2 HP 230V / 3 Phase Unit: mm [inches] 143.0 [5.63] 5.5 [0.22] C-12 9.5 [0.38] 1.0 [0.04] 5.5 [0.22] 6.5 [0.26] 186.0 [7.33] 5.4 [0.21] 173.0 [6.82] 100.0 [3.94] 86.5 [3.41] DELTA ELECTRONICS, INC.
VFD-S Series VFD015S21D/E 2 HP 230V / 1 Phase VFD022S21D/E 2 HP 230V / 1 Phase VFD022S23D 2 HP 230V / 3 Phase Unit: mm [inches] 100.0 [3.94] 5.4 [0.21] 129.3 [5.09] 5.5 [0.22] 6.5 [0.26] 5.5 [0.22] 9.5 [0.37] 1.0 [0.04] 186.0 [7.33] 8.5 [0.33] 173.0 [6.82] 86.5 [3.41] Unit: mm [inch] DELTA ELECTRONICS, INC.
VFD-S Series VFD015S43A/E VFD022S23A VFD022S43A/E 2 HP 460V / 3 Phase 3 HP 230V / 3 Phase 3 HP 460V / 3 Phase Unit: mm [inches] 129.0 [5.08] 5.5 [0.22] C-14 9.5 [0.38] 1.0 [0.04] 5.5 [0.22] 6.5 [0.26] 186.0 [7.33] 5.4 [0.21] 173.0 [6.82] 100.0 [3.94] 86.5 [3.41] DELTA ELECTRONICS, INC.
VFD-S Series VFD015S21B VFD015S23B VFD015S43B VFD022S23B VFD022S43B 2 HP 230V / 1 Phase 2 HP 230V / 3 Phase 2 HP 460V / 3 Phase 3 HP 230V / 3 Phase 3 HP 460V / 3 Phase Unit: mm [inches] 53.5 [2.11] 5.5 [0.22] 5.5 [0.22] DELTA ELECTRONICS, INC. ALL RIGHTS RESERVED C-15 9.5 [0.38] 1.0 [0.04] 67.8 [2.67] 6.5 [0.26] 173.0 [6.82] 73.0 [2.88] 129.0 [5.08] 186.0 [7.33] 5.4 [0.21] 16.0 [0.63] 100.0 [3.94] 86.5 [3.
VFD-S Series VFD022S21A 3 HP 230V / 1 Phase Unit: mm [inches] 67.8 [2.67] 54.1 [2.13] 5.5 [0.22] 5.5 [0.22] C-16 6.5 [0.26] 9.5 [0.38] 1.0 [0.04] 73.0 [2.88] 130.9 [5.16] 220.0 [8.67] 207.0 [8.16] 4.4 [0.17] 16.0 [0.63] 118.0 [4.65] 105.5 [4.16] DELTA ELECTRONICS, INC.
VFD-S Series VFD022S21B 3 HP 230V / 1 Phase Unit: mm [inches] 5.5 [0.22] DELTA ELECTRONICS, INC. ALL RIGHTS RESERVED C-17 9.5 [0.38] 1.0 [0.04] 5.5 [0.22] 54.1 [2.13] 6.5 [0.26] 67.8 [2.67] 16.0 [0.63] 73.0 [2.88] 130.9 [5.16] 220.0 [8.67] 4.4 [0.17] 207.0 [8.16] 118.0 [4.65] 105.5 [4.
VFD-S Series DELTA ELECTRONICS, INC.
VFD-S Series DELTA ELECTRONICS, INC.
