1. Manuals
  2. Brands
  3. CG Manuals
  4. DC Drives
  5. Emotron VS Series
  6. Quick start manual

CG Emotron VS Series Quick Start Manual

Motor drive
Hide thumbs
Table of Contents

Advertisement

Quick Links

Smart solutions.
Strong relationships.
Emotron
VS Series Drive

Advertisement

Table of Contents
loading
Need help?

Need help?

Do you have a question about the Emotron VS Series and is the answer not in the manual?

Questions and answers

Dillip
January 29, 2025

Vfd is locked, password not remember

0
Shiv raj
April 16, 2025

VFD not unlock

-1
1 comments:
Mr. Anderson
April 16, 2025

The CG Emotron VS Series VFD may not be unlocking because the keypad lock condition is still active. If the parameter L0.02 is set to a nonzero value, the keypad will lock again when any of the locking conditions are met. To fully disable keypad locking, you must first unlock it by pressing the ESC + > keys, then set L0.02 to 0. If L0.02 is not changed to 0, the keypad will continue to lock under the defined conditions.

This answer is automatically generated

0

Related Manuals for CG Emotron VS Series

Summary of Contents for CG Emotron VS Series

  • Page 1 Smart solutions. Strong relationships. Emotron VS Series Drive...
  • Page 2 Emotron VS Series Quick Start Guide Thank you for choosing Emotron VS Series General Purpose AC Motor Drives from CG Drives & Automation. This user manual presents a detailed description of Emotron VS series with respect to product features, structural characteristics, functions, installation, parameter setting, troubleshooting, commissioning and daily maintenance, etc.

  • Page 3: Table Of Contents

    Emotron VS Series Quick Start Guide Contents CONTENTS ..........................- 2 - CHAPTER 1 SAFETY PRECAUTIONS ..................- 4 - 1.1 S ..................... - 4 - AFETY ONSIDERATIONS 1.2 P ........................- 6 - RECAUTIONS CHAPTER 2 PRODUCT INFORMATION..................- 8 - 2.1 N...
  • Page 4 Emotron VS Series Quick Start Guide F2 S ..........- 135 - ROUP WING REQUENCY IXED ENGTH OUNT AND AKEUP H0 C ................- 138 - ROUP OMMUNICATION ARAMETERS L0 K .............- 139 - ROUP EYS AND ISPLAY OF EYPAD ARAMETERS L1 U ..............- 140 -...

  • Page 5: Chapter 1 Safety Precautions

    Users are requested to read this chapter carefully when installing, commissioning and repairing this product and perform the operation according to safety precautions as set forth in this chapter without fail. CG will bear no responsibility for any injury and loss as a result of any violation operation. 1.1 Safety Considerations...
  • Page 6 R1A, R1B, R1C andR2A, R2B, R2C. Failure to comply may result in equipment damage. ◆Since all adjustable frequency AC drives from CG have been subjected to hi-pot test before delivery, users are prohibited from implementing such a test on this equipment. Failure to comply may result in equipment damage.

  • Page 7: Precautions

    Emotron VS Series Quick Start Guide ◆Maintenance and inspection can only be performed by professionals . Risk of personal injury. ◆Maintain and inspect devices after power is off. Risk of electric hazard. ◆Repair or maintain the AC drive only ten minutes after the AC drive is powered off.
  • Page 8 1.2.11 Altitude De-rating In places where the altitude is above 1000 m and the cooling effect reduces due to thin air, it is necessary to de-rate the AC drive. Contact CG for technical support. 1.2.12 Some special usages If wiring that is not described in this manual such as common DC bus is applied, contact the agent or CG for technical support.

  • Page 9: Chapter 2 Product Information

    Emotron VS Series Quick Start Guide Chapter 2 Product Information 2.1 Nameplate information Fig 2-1 Nameplate information Model Explanation Model show on product nameplate contains information below. VSX 48 - 009 - 20 CEB Product Series VSX - General Purpose Drive...

  • Page 10: Information Of Cg Product Model

    Emotron VS Series Quick Start Guide 2.2 Information of CG Product Model 2.2.1 Information of CG General Drive Table 2-1 VS Series General Product model and technical data Rated Rated output Applicable motor Model No. Input Power capacity KVA current current VSX Series 3-Phase:415V,50/60Hz Range:-20%~+20%...

  • Page 11: Technical Features

    Emotron VS Series Quick Start Guide 2.3 Technical Features 2.3.1 Features of General Drive Table 2-3 Technical features of general drive Project Specifications Rated input 3-phase 415 V (-20%~+20%) voltage (V) 1-phase 220V (-20%~+20%) Rated input Power input See table 2-1 current (A)...
  • Page 12 Emotron VS Series Quick Start Guide Automatic voltage When the grid voltage changes, can automatically maintain adjustment a constant output voltage (AVR) Fast current limit Minimize over current fault protection inverter running function Over voltage System automatically limits of current and voltage during...
  • Page 13 Emotron VS Series Quick Start Guide -10℃~40℃(VSS/VSR) Ambient temperature -10℃~50℃(VSM/VSX) Relative 5~95%, no condensation humidity Vibration Less than 5.9m/s2 (0.6g) Storage -20℃~+70℃ temperature Efficiency Rated power≥93% Installation Wall-mounted or Flange mounting Others IP grade IP20 Cooling Fan cooled method 2.3.2 Features of Solar Drive...
  • Page 14 Emotron VS Series Quick Start Guide Recommended Voc Range 500~700VDC Recommended MPPT 450~600VDC Voltage Range Starting Voltage Range 230~800VDC Grid or backup generator input Input Voltage Three phase 415V(-20%~20%) Output specification Rated output voltage 3PH 415V Output frequency 0~600.00Hz(Default 0~50.00Hz)...

  • Page 15: Configuration, Mounting Dimensions And Weight

    Emotron VS Series Quick Start Guide 2.4 Configuration, Mounting Dimensions and Weight 2.4.1 VSX Series ◆0.7~2.2KW Dimensions and wall mounting dimensions: 2- φ 3.0 2- φ 6.0 2-φ d Fig 2-3 0.7~2.2kW Wall installation diagram ◆4~22KW Dimensions and wall mounting dimensions: Fig 2-4 4~22kW Wall installation diagram...
  • Page 16 Emotron VS Series Quick Start Guide Table 2-7 Configuration, mounting dimensions and weight External and installation dimensions(mm) Weight Mounting Model NO. (Kg) Hole Diameter 3-Phase:415V,50/60Hz Range:-20%~+20% VSX48-003-20CEB VSX48-004-20CEB 1.45 VSX48-006-20CEB VSX48-009-20CEB 2.45 116.6 186.6 106.6 176.6 VSX48-013-20CEB VSX48-017-20CEB 181.7 VSX48-024-20CEB VSX48-032-20CEB 6.35...
  • Page 17 Emotron VS Series Quick Start Guide 2.4.3 VSS Series Fig 2-6 Product size Table 2-9 Configuration, mounting dimensions and weight External and installation dimensions(mm) Model Install Install Hole Hole (kg) Single-Phase: 220V,50/60Hz VSS23 2p5 CEB 151.5 110.8 VSS23 4p2 CEB...

  • Page 18: External Dimensions Of Keypad

    Emotron VS Series Quick Start Guide ◆VSR frame 3 Table 2-10 Product size chart Dimensions and installation size(mm) Weight Model No. Installation (kg) Aperture VSR3 2.5 External Dimensions of Keypad 2.5.1 VSX Series 15.5 74.6 71.6 15.9 Fig 2-7 LCD Keyboard size diagram External keyboard installation instruction: 1.
  • Page 19 Emotron VS Series Quick Start Guide Mounting plate Keypad assembly Keypad tray +0.2 (The thickness of the plate can`t be more than 1.5 mm) Press 4 hooks on both sides of the LCD:Hole mounting ,the keypad tray will be get out...

  • Page 20: Chapter 3 Installation And Wiring

    Emotron VS Series Quick Start Guide Chapter 3 Installation and Wiring 3.1 Installation Environment 1) Ambient temperature in the range of -10℃~50℃. 2) Drive should be installed on surface of flame retardant object, with adequate surrounding space for heat dissipation.
  • Page 21 Emotron VS Series Quick Start Guide 3.2.1 Single installation Fig 3-2 Single inverter mounting orientation and space requirements 3.2.2 Multiple installations a. Multiple parallel installations Fig 3-3 multiple inverters installed direction and space requirements Fig 3-4 Multiple inverters installed Upper and lower mounting direction and space...

  • Page 22: Fixed Manner

    Emotron VS Series Quick Start Guide Table 3-1 Requirement of minimum mounting clearances Mounting clearances (mm) Drive model 4~22kW ≥50 ≥100 3.3 Fixed manner a. Wall installation Wall mounting dimensions refer to Chapter II(table 2-3),As shown in Fig drilling four holes in the mounting surface,Put the inverter against the panel and mate 4 holes, and then tighten screws in...

  • Page 23: Configuration Of Peripheral Devices

    Emotron VS Series Quick Start Guide 3.4 Configuration of Peripheral Devices power source circuit breaker contactor Inverter +/PB Braking U/V/W resistor Input chokes Output filter L1/L2/L3 Input filter Output AC reactor motor Fig 3-6 Standard configuration of peripheral device - 22 -...
  • Page 24 Emotron VS Series Quick Start Guide Table 3-2 Instructions of peripheral devices Picture Device Instructions Cable Transmitting electrical signals. Purpose: disconnect power supply and protect the equipments in case of abnormal overcorrect occurs Type selection: breaking current of circuit breaker is Circuit defined to be 1.5~2 times the rated current of the...
  • Page 25 Emotron VS Series Quick Start Guide VSS23 7p5 CEB VSS23 9p5 CEB 3.4.2 Reactor In order to prevent high grid power to the input power circuit of inverter and damage the rectifier components, need to install AC reactor in input side of inverter, and it can also improve the...

  • Page 26: Wiring Way Of Vs Series

    Emotron VS Series Quick Start Guide 3.5 Wiring Way of VS Series 3.5.1 VSS, VSM , VSR(0.4~2.2kW) wiring diagram Braking resistor MCCB 50/60Hz Three-phase 415V Single-phase 220V(L1, L2) VSR (0.4~2.2kW) Switch input 1 Analog Output 0~10V Switch input 2 Switch input 3...
  • Page 27 Emotron VS Series Quick Start Guide 3.5.2 VSR(4~7.5kW) , VSX(4~22kW) wiring diagram Braking resistor MCCB 50/60Hz Three-phase 415V VSX (4~22kW) VSR (4~7.5kW) Short circuit piece +24V Open collector output 1 Switch input 1 Switch input 2 Open collector output 2...
  • Page 28 Emotron VS Series Quick Start Guide 3.5.3 VSX(0.4~2.2kW) wiring diagram Braking resistor MCCB 50/60Hz Three-phase 415V Short circuit piece +24V VSX (0.4~2.2kW) Open collector output 1 Y2/HO Switch input 1 Switch input 2 Switch input 3 Switch input 4 High-speed...

  • Page 29: Terminal Configuration

    Emotron VS Series Quick Start Guide 3.6 Terminal Configuration 3.6.1 Main Circuit Terminals of VSX ◆0.7~2.2KW Main Circuit Terminals ( + ) ( - ) Fig 3-10 0.7~2.2kW Schematic of main circuit terminals ◆4~5.5KW Main Circuit Terminals L1 L2 L3 U V...
  • Page 30 Emotron VS Series Quick Start Guide 3.6.2 Main Circuit Terminals of VSM ◆ a: Single-phase Main Circuit Terminals Fig 3-13 Single-phase main circuit terminals ◆b: Three-phase Main Circuit Terminals PB (+) POWER MOTOR Fig 3-14 Three-phase Main Circuit Terminals 3.6.3 Main Circuit Terminals of VSS Single-phase 0.4~2.2KW Main Circuit Terminals...
  • Page 31 Emotron VS Series Quick Start Guide Fig.3-16 Three-phase 415V 0.75~2.2KW Main Circuit Terminals ◆c: Three-phase 415V 4.0~7.5KW Main Circuit Terminals Upload and Control circuit download interfaces terminals Main circuit terminals (+) (-) Fig.3-17 4.0~7.5kW Schematic of main circuit terminals Main circuit terminal functions Terminal marks Designation and function of terminals.
  • Page 32 Emotron VS Series Quick Start Guide If the motor cable is too long, electrical resonance will be generated due to the impact of distributed capacitance. This will damage the motor insulation or generate higher leakage current, causing the AC drive to trip in overcurrent protection. If the motor cable is greater than 100 m long, an AC output reactor must be installed close to the AC drive.
  • Page 33 Emotron VS Series Quick Start Guide Table 3-7 Numbers of terminal of VSS/VSR series Model 0.4~2.2kW 4~7.5kW 5 (DI1~DI4,DI7) 5 (DI1~DI4,DI7) 7 (DI1~DI7) 1 (Y1) 1 (Y1) 2 (Y1,Y2) 2 (AI1,AI2) 2 (AI1,AI2) 3 (AI1,AI2,AI3) 1 (AO1) 1 (AO1) 2 (AO1,AO2)
  • Page 34 Emotron VS Series Quick Start Guide DI5 – 24V Switch input (VSX Only) terminals 5 DI6 – 24V Switch input (VSX Only) terminals 6 Switch input Besides features of DI1–DI6, it can be terminals 7 OR DI7/HI-24V used for high-speed pulse input.
  • Page 35 Emotron VS Series Quick Start Guide Description of Wiring of Signal Terminals: 1)Description Use the analog input terminal Weak analog voltage signals are easy to suffer external interference, and therefore the shielded cable must be used and the cable length must be less than 20 m, as shown in following figure. When the analog input signal to an external power supply,AI1 Terminal wiring as shown in Fig 3-12...
  • Page 36 Emotron VS Series Quick Start Guide ◆B: Open collector NPN connection +24V +24V External Inverter External Inverter Jumper controller controller Optocoupler Optocoupler 20~30V Optocoupler Optocoupler DI7/HI DI7/HI (a) Internal power supply (b)External power supply Fig.3-23 External power supply open collector NPN connection ATTENTION: When external power supply is utilized, the jumper between +24V and PLC must be removed.
  • Page 37 Emotron VS Series Quick Start Guide Inverter Inverter +24V +24V Optocoupler Optocoupler Y1,2 Y1,2 Relays Relays + - ≤30V (a) Internal power supply (b)External power supply Fig 3-26 mode of connection when the terminal drives relay ATTENTION: When relay coil voltage is lower than 24V, a resistor as voltage divider should be mounted between relay and output terminal, based on coil impedance.

  • Page 38: Emi Solutions

    Emotron VS Series Quick Start Guide Fig 3-27 4.0~22kW RFI jumper schematic ATTENTION: 1. When power is applied to the AC motor drive, do not cut off the RFI jumper. 2. Make sure main power is switched off before cutting the RFI jumper.
  • Page 39 Emotron VS Series Quick Start Guide lines in parallel with power lines or bundle them up. t orthogonally cross power lines if this cross inevitable. -thick pipelines or buried cement groove, also, power lines can be put into metallic conduit and grounded well with shielded cables.

  • Page 40: Chapter 4 Operation And Display

    Emotron VS Series Quick Start Guide Chapter 4 Operation and display 4.1 Introduction of LCD Keypad As a human-machine interface, you can modify the parameters, monitor the working status and start or stop the inverter by operating the keypad. Its appearance and function area as shown in the...
  • Page 41 Emotron VS Series Quick Start Guide 4.1.2 Keypad Indicators There are 2 Indicators on the keypad, whose descriptions are as shown in Table 4-2. Table 4-2 Description of indicators Indicator Name Meaning ON: the drive is power on Power OFF: the drive is power off...
  • Page 42 Emotron VS Series Quick Start Guide 4.1.3 Parameters backup and restore A:Parameters backup Total 3 copies of parameters can be backup. LOCAL LOCAL LOCAL > Set Freq 50.00 V0.1 <1>:LCD Version <1>:BKUP01 U0.01 <2>:LCD Contrast <2>:BKUP02 Bus Volt <3>:LCD Brightness <3>:BKUP03...
  • Page 43 Emotron VS Series Quick Start Guide LOCAL LOCAL LOCAL > V0.1 <1>:LCD Version <1>:Monitor Page1 <1>:U0.10 PID Given > <2>:U0.11 PID Feedback <2>:LCD Contrast <2>:Monitor Page2 <3>:LCD Brightness <3>:Monitor Page3 <3>:U0.00 Output Freq <4>:Param. Backup <4>:Monitor Page4 <5>:Monitor Pages <5>:Monitor Page5 <6>:PID Unit...

  • Page 44: Introduction Of Led Keypad

    Emotron VS Series Quick Start Guide 4.2 Introduction of LED Keypad As a human-machine interface, you can modify the parameters, monitor the working status and start or stop the inverter by operating the keypad. Its appearance and function area as shown in the...
  • Page 45 Emotron VS Series Quick Start Guide 4.2.2 Keypad Indicators There are 8 Indicators on the keypad, whose descriptions are as shown in Table 4-2. Table 4-2 Description of indicators Indicator Name Meaning ON: currently displayed parameter is Frequency frequency Voltage...
  • Page 46 Emotron VS Series Quick Start Guide 4.2.4 Message status A message appears when the state of completion of certain operations. Prompt message characters and their meanings are specified in Table 4-4. Table 4-4 Prompt characters Prompt symbol Meaning Prompt symbol...

  • Page 47: Motor Auto-Tuning

    Emotron VS Series Quick Start Guide parameters are displayed is determined by the values of L0.03~L0.06(Running state parameters 1~ 4), L0.07~L0.10(stop state parameters1~4) ,it can select the U0 group. 4.3 Motor Auto-tuning Tuning is valid only when the keyboard command mode is selected. Set tuning mode (stationary...

  • Page 48: Chapter 5 List Of Parameter

    Emotron VS Series Quick Start Guide Chapter 5 List of Parameter Group A0~L1 are standard function parameters. Group U0 is status monitoring parameters. Group U1 is fault record parameters. The symbols in the function code table are described as follows: "△...

  • Page 49: Five Led (Digital) Display Indicators

    Emotron VS Series Quick Start Guide 5.1 Five LED (digital) display indicators Ten thousand’s Unit’s place place Thousand’s place Hundred’s place Ten’s place Fig 5-1 LED indicators 5.2 Standard Function Parameters Table 5-1 Standard Function Parameters Parameter Name Setting Range...
  • Page 50 Emotron VS Series Quick Start Guide 0: Motor 1 A0.07 Motor Selection × 1: Motor 2 Unit’s place: Motor 1 control mode 0: Voltage/Frequency (V/F) control 1: Sensor-less vector control 1 2: Sensor-less vector control 2 A0.08 Motor control mode ×...
  • Page 51 Emotron VS Series Quick Start Guide Model A0.20 Inverter rated power 0.0~1000.0kW ⊙ defined Model A0.21 Inverter rated voltage 60~660V ⊙ defined Model A0.22 Inverter rated current 0.1~1500.0A ⊙ defined Model A0.23 Software version 0.00~655.35 ⊙ defined A0.24 Dealer password 0~99999...
  • Page 52 Emotron VS Series Quick Start Guide frequency lower than lower 1: Run at 0 Hz would be activated limit frequency after the time delay set by b0.12 Lower limit frequency b0.12 0.0~6000.0s 60.0s × running time Up to this frequency, start b0.13...
  • Page 53 Emotron VS Series Quick Start Guide Waiting time of stop DC b1.15 0.0s × 0.0~600.0s braking b1.16 Stop DC braking time 0.0s × 0.0~600.0s 0: Disabled 1: Enabled b1.17 Dynamic brake × 2: Enabled at running 3: Enabled at deceleration 480~800V(415V inverter)
  • Page 54 Emotron VS Series Quick Start Guide (VSX Only) 07: Fault reset (RESET) 08: Running suspended C0.06 Function of terminal DI7 × 09: External fault input C0.07 Function of terminal AI1 × 10: Terminal UP C0.08 Function of terminal AI2 ×...
  • Page 55 Emotron VS Series Quick Start Guide control mode 1: Two-wire mode 2 2: Three-wire mode 1 3: Three-wire mode 2 Unit's place: action when stop 0: Clear 1: Holding Ten’s place: action on power loss 0: Clear 1: Holding Hundreds place: integral function...
  • Page 56 Emotron VS Series Quick Start Guide 18: Designated count value attained 19: Length attained 20: Under load alarm 21: Brake output 22: DI1 23: DI2 24: DI3 25: DI4 26: DI5(VSX Only) 27: DI6(VSX Only) 28: DI7 29: Digital comparator 1...
  • Page 57 Emotron VS Series Quick Start Guide Accumulative running C1.16 × 0~60000h 0:Disabled time setting 0: Disabled C1.17 Brake control selection × 1: Enabled C1.18 Brake opened frequency Closed frequency ~30.00Hz 2.50Hz × △ C1.19 Brake opened current 0.0~200.0% 0.0% C1.20 Brake open waiting time 0.00~10.00s...
  • Page 58 Emotron VS Series Quick Start Guide Set value corresponding to minimum input of C2.17 -100.0~100.0% -100.0% △ curve AI3 (VSX Only) Input of inflection point Minimum input of curve AI1~Input △ C2.18 1 of curve AI3 25.0% of inflection point 2 of curve AI3...
  • Page 59 Emotron VS Series Quick Start Guide 03: Output current 04: Output voltage 05: Output power 06: Bus voltage 07: +10V Y2/HO output function 08: keypad potentiometer C3.02 (when used as HO) 09: AI1 × (VSX Only) 10: AI2 11: AI3 (VSX Only)
  • Page 60 Emotron VS Series Quick Start Guide C1.00 : Internal short circuited to Function selection of virtual physical DIx C4.10 △ VDO4 terminals output Other: The same as function code C1.00 : Internal short circuited to Function selection of virtual physical DIx △...
  • Page 61 Emotron VS Series Quick Start Guide Model d0.16 Stator resistance of PMSM × 0.001~65.535Ω Defined D-axis inductance of Model d0.17 0.01~655.35mH × PMSM Defined Q-axis inductance of Model d0.18 0.01~655.35mH × PMSM Defined Model d0.19 Back-EMF of PMSM × 0~65535V...
  • Page 62 Emotron VS Series Quick Start Guide Multi-point V/F voltage 4 d1.10 100.0% △ 0.0~100.0 Ue=100.0% (V4) d1.11 V/F slip compensation gain 0.0% △ 0.0~300.0% Stator voltagedrop d1.12 0.0~200.0% 100.0% △ compensation gain △ d1.13 Excitation boost gain 0.0~200.0% 100.0% d1.14 Oscillation Suppression 100.0%...
  • Page 63 Emotron VS Series Quick Start Guide proportional gain Kp2 Torque adjustment integral d2.14 10.0ms △ 0.0~3000.0ms gain Ti2 △ d2.15 Excitation gain coefficient 50.0~200% 100% 0: Set by d2.17 1: Keypad potentiometer (When using LED keypad) 2: AI1 Torque setting source d2.16...
  • Page 64 Emotron VS Series Quick Start Guide defined Model d3.02 Rated voltage of motor 1 × 60~660V defined Model d3.03 Rated current of motor 1 0.1~1500.0A × defined Rated frequency of Model d3.04 10.00~600.00Hz × motor 1 defined Model d3.05 Rated speed of motor 1 1~30000...
  • Page 65 Emotron VS Series Quick Start Guide 11: 1.6 power inverse curve V/F (VSX Only) 12: 1.8 power inverse curve V/F (VSX Only) 13: 2.0 power inverse curve V/F (VSX Only) 0.0%–30.0% 0.0% (fixed torque d4.01 Torque boost 0.0% △ boost) Cut-off frequency of torque △...
  • Page 66 Emotron VS Series Quick Start Guide ASR low-speed d5.01 30.0% △ 0.0~100.0% proportional gain Kp1 ASR low-speed d5.02 0.01~30.00s 0.10s △ integration time Ti1 ASR switching △ d5.03 0.00~600.00Hz 5.00Hz frequency 1 ASR high-speed d5.04 20.0 △ 1~100.0% proportional gain Kp2 ASR high-speed △...
  • Page 67 Emotron VS Series Quick Start Guide PMSM Start excitation d5.27 × 0.0~150.0% current PMSM flux-weakening 0: Invalid d5.28 × control 1: Valid PMSM flux-weakening △ d5.29 70.0~100.0% voltage PMSM r flux-weakening d5.30 50.0% △ 0.0~500.0% gain Kp PMSM flux-weakening △...
  • Page 68 Emotron VS Series Quick Start Guide Unit’s place: External equipment fault (Err13) 0: Fault reported and coast to stop 1: Stop according to the stop mode 2: Fault reported but continue to Ten's place: EEPROM read/write fault (Err15) E0.11 Protection action 2 00000 ×...
  • Page 69 Emotron VS Series Quick Start Guide 0: E0.19 set 1: E0.19*VP 2: E0.19*AI1 3: E0.19*AI2 4: E0.19*AI3 (VSX Only) E0.19 Overload alarm threshold 130.0% × 0.0~200.0% Overload alarm E0.20 activated time that 0.0~60.0s 5.0s × exceeding threshold Inverter overheat warning Model E0.21...
  • Page 70 Emotron VS Series Quick Start Guide (VSX Only) Group F0 Process PID 0: F0.01 digital setting 1:keypad potentiometer (When using LED keypad) 2: AI1 3: Communication F0.00 PID setting × 4: Multi-Reference 5: DI7/HI pulse input 6: AI2 7: AI3 (VSX Only) F0.01...
  • Page 71 Emotron VS Series Quick Start Guide F0.19 PID differential limit 0.0~100.0% 0.5% × F0.20 PID initial value 0.0% × 0.0~100.0% Holding time of PID F0.21 0.0s × 0.0~6000.0s initial value PID output frequency lower limit~ PID output frequency F0.22 100.0% ×...
  • Page 72 Emotron VS Series Quick Start Guide △ F1.03 Reference 3 -100.0~100.0% 0.0% F1.04 Reference 4 0.0% △ -100.0~100.0% F1.05 Reference 5 0.0% △ -100.0~100.0% F1.06 Reference 6 0.0% △ -100.0~100.0% △ F1.07 Reference 7 -100.0~100.0% 0.0% △ F1.08 Reference 8 -100.0~100.0%...
  • Page 73 Emotron VS Series Quick Start Guide △ F1.29 Running time of step 11 0.0~6000.0s(h) 0.0s(h) F1.30 Running time of step 12 0.0s(h) △ 0.0~6000.0s(h) F1.31 Running time of step 13 0.0s(h) △ 0.0~6000.0s(h) F1.32 Running time of step 14 0.0s(h) △...
  • Page 74 Emotron VS Series Quick Start Guide Ten’s place: select if it can be reduced to negative 0:Disable 1:Enable UP/DOWN speed of F1.51 0.0% △ 0.0~100.0% (0.0%Invalid) Multi-reference Group F2: Swing Frequency, Fixed Length , Wakeup and Count 0: Relative to the setting...
  • Page 75 Emotron VS Series Quick Start Guide 3:AI3 (VSX Only) 4:VP (When using LED keypad) 5:HI input 6:Setting frequency (Max frequency :100.0%) 7:Output frequency (Max frequency: 100.0%) 8:Output current (Rated current 100.0%) 9:Bus voltage 10:Speed (Motor rated speed: 100.0%) Analog comparator 1 F3.03...
  • Page 76 Emotron VS Series Quick Start Guide Timer 2 low electrical level △ F3.17 0s~60000s time F3.18 Timer 3 trigger source Consistent with C1.00 × 0:Invalid 1:Delay mode F3.19 Timer 3 mode × 2:Alternating high and low electrical level Timer 3 delay time F3.20...
  • Page 77 Emotron VS Series Quick Start Guide level Timer 7 delay time △ F3.40 0s~60000s Timer 7 high electrical level △ F3.41 0s~60000s time Timer 7 low electrical level F3.42 △ 0s~60000s time F3.43 Timer 8 trigger source Consistent with C1.00 ×...
  • Page 78 Emotron VS Series Quick Start Guide time F3.63 Timer 12 trigger source Consistent with C1.00 × 0:Invalid 1:Delay mode F3.64 Timer 12 mode × 2:Alternating high and low electrical level Timer 12 delay time △ F3.65 0s~60000s Timer 12 high electrical F3.66...
  • Page 79 Emotron VS Series Quick Start Guide Ten’s digit: Speed display(U0.05) 0: According to the actual speed 1: Multiply frequency by speed coefficient(L0.11) Hundred’s digit: Decimal places 0: No decimal places 1: One decimal places 2: Two decimal places 3: Three decimal places...
  • Page 80 Emotron VS Series Quick Start Guide User-defined Display L1.10 04.00 △ 00.00~49.99 Parameter 10 User-defined Display L1.11 00.00~49.99 04.01 △ Parameter 11 User-defined Display △ L1.12 00.00~49.99 04.02 Parameter 12 User-defined Display L1.13 04.03 △ 00.00~49.99 Parameter 13 User-defined Display △...
  • Page 81 Emotron VS Series Quick Start Guide input terminal Status of DI6~DI7 digital U0.13 DI7 DI6 ⊙ input terminal Status of digital output U0.14 R2 R1 Y2 Y1 0000 ⊙ terminal U0.15 AI1 input 0.0~100.0% 0.0% ⊙ U0.16 AI2 input 0.0% 0.0~100.0%...
  • Page 82 Emotron VS Series Quick Start Guide Err12: Inverter overload Err13: External equipment fault Err14: Module overheat Err15: EEPROM read/write fault Err16: Motor auto-tuning cancelled Err17: Motor auto-tuning fault Err18: Communication overtime Error Err19: PID feedback loss Err20: Continuous running time...
  • Page 83 Emotron VS Series Quick Start Guide Bus voltage when U1.13 before-previous fault 0~1200V ⊙ occurred Cumulative running time U1.14 when before-previous 0~65535h ⊙ fault occurred Previous 3 categories of U1.15 The same with U1.00 Err00 ⊙ faults Previous 4 categories of U1.16...

  • Page 84: Chapter 6 Specification Of Parameters

    Emotron VS Series Quick Start Guide Chapter 6 Specification of Parameters Group A0 System Parameters A0.00 Setting of user password Default: 0 Range: 0~65535 Setting of password: A number greater than 100 could be set as a user password by entering this password into A0.00 and pressing ENT key to confirm once, the password setting will take effect as long as there is no operation on keypad within 5 minutes, or cutting the power off and power up again .
  • Page 85 Emotron VS Series Quick Start Guide A0.07 Model selection Default: 0 Range:0~1 0: Motor 1 To use motor and control parameter of motor 1 1: Motor 2 To use motor and control parameter of motor 2 A0.08 Motor control mode Default:01 Range:00~22...
  • Page 86 Emotron VS Series Quick Start Guide Ten’s place: PWM modulation mode 0: Seven-segment mode 1: Five-segment mode 2: Five-segment and seven-segment automatic switchover This selection is valid only for V/f control. When five-segment mode is selected, the drive has low temperature rise but relatively higher output current harmonic.

  • Page 87: Group B0 Frequency Command

    Emotron VS Series Quick Start Guide defined Default: Model A0.21 Inverter rated voltage Range:60~660V defined Default: Model A0.22 Inverter rated current Range:0.1~1500.0A defined Default: Model A0.23 Software version Range:0.00~999.99 defined The parameters are only for reference and cannot be edited.
  • Page 88 Emotron VS Series Quick Start Guide 0: Digital setting (b0.02) When the inverter is powered on, the value of b0.02 is taken as the master frequency source. 1: Keypad potentiometer (When using LED keypad) 2: Analog input AI1 AI1 and AI2 are (0~10V) voltage input and (0~20mA) current input programmable. Voltage or current input can be selected through toggle switches AI1 and AI2 on control board.
  • Page 89 Emotron VS Series Quick Start Guide 8: AI2 Master frequency command is determined by analog input AI2. 9: AI3 (VSX Only) Master frequency command is determined by analog input AI3. Digital setting of master b0.02 Range:0.00~FmaxHz Default:50.00Hz frequency When master frequency source selection b0.01 is set to 1, this parameter value will be the initial value of master frequency command.

  • Page 90: Group B1 Start/Stop Control Start/Stop Control

    Emotron VS Series Quick Start Guide ATTENTION: 1. Fup and Fdown shall be set as per motor nameplate parameters and working conditions. Motor shall not work in low frequency for a long time. Otherwise, motor service lifespan will be shortened due to overheating.
  • Page 91 Emotron VS Series Quick Start Guide In some applications, reverse is likely to result in equipment damage. This parameter is used to prevent reverse running. Dead time of forward and b1.03 Default:0.0s Range:0.0~6000.0s reverse The dead time with 0Hz output during the transition from forward to reverse, or from reverse to forward.
  • Page 92 Emotron VS Series Quick Start Guide 1: Positive direction Tracking direction is positive direction 2: Negative direction Tracking direction is negative direction b1.05 Start frequency Default:0.00Hz Range:0.00~10.00Hz b1.06 Startup frequency holding time Range:0.0~100.0s Default:0.0s To ensure the motor torque at AC drive startup, set a proper startup frequency. In addition, to build excitation when the motor starts up, the startup frequency must be held for a certain period.
  • Page 93 Emotron VS Series Quick Start Guide When the running frequency decreases to the initial frequency of stop DC braking, the AC drive stops output for a certain period and then starts DC braking. This prevents faults such as over current caused due to DC braking at high speed.

  • Page 94: Group B2 Accel/Decel Parameters

    Emotron VS Series Quick Start Guide auto-start and power-on again Auto-start of power on again: 0:Invalid,after power off and power on again, inverter can’t run before receiving running command。 When running on keyboard control or RS485 communication control, inverter will automatically clear running commands when power off。...
  • Page 95 Emotron VS Series Quick Start Guide The 1st section and the last section in accelerating or decelerating are in smooth transition. The acceleration/deceleration curve is similar to S curve. When it is in S curve, the final acceleration/deceleration time= S curve time+ Linear acceleration/deceleration time. See Figure 6-13 for 2 acceleration/deceleration modes.

  • Page 96: Group C0 Digital Input

    Emotron VS Series Quick Start Guide Output frequency(Hz) frequency b2.13 b2.14 Time Acceleration Acceleration Deceleration Deceleration time 2 time 1 time 1 time 2 Fig 6-7 Acceleration/deceleration time switchovers Group C0 Digital Input C0.00 Function of terminal DI1 Default:1 Range:0~99 C0.01...
  • Page 97 Emotron VS Series Quick Start Guide If the frequency is determined by external terminals, the Terminal UP Terminals with the two functions are used as increment and Terminal DOWN decrement commands for frequency modification. If the frequency source is master frequency source setting, the...
  • Page 98 Emotron VS Series Quick Start Guide frequency) Swing frequency reset(output the The AC drive outputs the central frequency, and the swing central frequency function pauses. frequency) Run command This terminal should be enabled by trigger edge. When this switched to...
  • Page 99 Emotron VS Series Quick Start Guide Reference 3 F1.03 Reference 4 F1.04 Reference 5 F1.05 Reference 6 F1.06 Reference 7 F1.07 Reference 8 F1.08 Reference 9 F1.09 Reference F1.10 Reference F1.11 Reference F1.12 Reference F1.13 Reference F1.14 Reference F1.15 Table 2 State combinations of two terminals for acceleration/deceleration time selection...
  • Page 100 Emotron VS Series Quick Start Guide DI2 is invalid The four parameters set the delayed response time before DI1/DI2 is valid or invalid ATTENTION: Terminal delay time C0.11and C0.12 can be set with filtering time C0.10 at the same time. The drive will respond after the signals via DI1 and DI2 go through filtering time, and then delay time.
  • Page 101 Emotron VS Series Quick Start Guide RUN command Stop Inverter Reverse RUN Forward RUN Stop +24V Fig 6-8 setting of two-line mode 1 As shown in the preceding figure, when only K1 is ON, the AC drive instructs forward rotation.
  • Page 102 Emotron VS Series Quick Start Guide As shown in the preceding figure, if SB1 is ON, the AC drive instructs forward rotation when SB2 is pressed to be ON and instructs reverse rotation when SB3 is pressed to be ON. The AC drives stops immediately after SB1 becomes OFF.

  • Page 103: Group C1 Digital Output

    Emotron VS Series Quick Start Guide Terminal UP/DOWN frequency C0.16 Default:00000 Range:00000~11111 adjustment treatment Unit's place: action when stop 0: Clear Terminal UP/DOWN frequency adjustment value is cleared when the drive stops. 1: Holding Terminal UP/DOWN frequency adjustment value is maintained when the drive stops.
  • Page 104 Emotron VS Series Quick Start Guide Corresponding Setting Description function No output Output terminal is disabled, and there is no output. The output is ON when the drive is running, and output Drive is running is OFF when drive stopped.
  • Page 105 Emotron VS Series Quick Start Guide When the brake function selection is effective and Brake Output reach brake open condition, outputs signal ON Output DI1 signal Output DI2 signal Output DI3 signal Output DI4 signal 26~27 Reserved Output DI7 signal Digital comparator 1 Please refer to F3.00...
  • Page 106 Emotron VS Series Quick Start Guide Relay Inverter Fig 6-13 Wiring diagram of digital output terminal Detection width of C1.09 Default:5.0Hz Range:0.0~20.0Hz frequency attained This parameter should be set with digital output terminal "frequency attained". When the difference between output frequency and command frequency is less than this value, terminal "frequency attained"...
  • Page 107 Emotron VS Series Quick Start Guide Output frequency(Hz) FDT upper bound FDT lower bound Time(S) Valid Time(S) Fig 6-15 C1.14 Consecutive running time Default: 0.0Min Range:0.0~6000.0Min This parameter should be set with digital output terminal “Consecutive running time attained". When current running time attains the value of C1.14, corresponding terminal outputs ON. Current running time is cleared when stop.

  • Page 108: Group C2 Analog And Pulse Input

    Emotron VS Series Quick Start Guide Scheme of brake control process: Frequency C1.18 C1.22 FWD/REV Internal operating Brake C1.24 C1.20 C1.21 C1.23 Current C1.19 Fig 6-16 Break control logic scheme 1)After inverter receives a run command, accelerate the run to set C1.18 brake open frequency.
  • Page 109 Emotron VS Series Quick Start Guide Set value corresponding C2.05 to input of inflection Range:-100.0~100.0% Default: 100.0% point 2 of curve AI1 Range: Input of inflection point Maximum input of curve C2.06 Default:100.0% 2 of curve AI1~100.0% Set value corresponding to C2.07...
  • Page 110 Emotron VS Series Quick Start Guide Range:0.0%~input of inflection C2.08 Minimum input of curve AI2 Default:1.0% point1 of curve AI2 Set value corresponding to C2.09 Range:-100.0~100.0% Default:0.0% minimum input of curve AI2 Range: Minimum input of curve Input of inflection point Default: C2.10...
  • Page 111 Emotron VS Series Quick Start Guide maximum input of curve keypad potentiometer Curve keypad potentiometer is defined by above-noted 4 parameters. Input values C2.24, C2.26: keypad potentiometer is 0~5V on control board. 0V corresponds to 0%, while 5V corresponds to 100%.

  • Page 112: Group C3 Analog And Pulse Output

    Emotron VS Series Quick Start Guide Group C3 Analog and Pulse Output C3.00 AO1 output function Range:0~99 Default:1 AO2 output function C3.01 Range:0~99 Default:2 (VSX Only) HO output function C3.02 Default:3 Range:0~99 (VSX Only) AO1 and AO2 are analog output terminals. Voltage output(0~10V) or current output(0~20mA) of AO1 and AO2 can be selected through toggle switch AO1 and AO2.When used as high-speed pulse...

  • Page 113: Group C4 Virtual Io

    Emotron VS Series Quick Start Guide HO maximum output C3.09 pulse frequency Range:0.01~100.00kHz Default:50.00kHz (VSX Only) This parameter sets the maximum output frequency when Y2/HO terminal is selected as high-speed pulse output. HO output filtering time C3.10 Default:0.010s Range:0.000~10.000s (VSX Only) Set the filtering time of HO high-speed pulse output.

  • Page 114: Group D 0 Parameters Of Motor 1

    Emotron VS Series Quick Start Guide Virtual VDO5 output C4.16 Default: 0.0s Range: 0.0s~6000.0s delay time Positive and negative C4.17 logic of VD0 output Default: 00000 Range: 00000~11111 terminal Positive and negative logic of VD0 output terminal: Positive logic: If terminal is invalid, then output 0, if terminal is valid, then output 1.
  • Page 115 Emotron VS Series Quick Start Guide 3: single phase asynchronous motor VSS(≤0.75kW) connected to single phase motor, running direction is determined by the motor (figure 6-22). 220VAC Inverter connect to single phase motor ≤ Fig 6-22 VSS ( 0.75kW) d0.01...

  • Page 116: Group D 1 V/ F Control Parameters Of Motor 1

    Emotron VS Series Quick Start Guide d0.20 Installation angle of encoder 0.0~359.9° Default: 0.0° d0.21 Pole number of motor Default: 4 0~1000 d0.16~d0.19 are synchronous motors’ parameters,d0.20 is the installation angle, they are got through inverter auto-tuning. d0.21 Motor’s pole number Range: 0~1000...
  • Page 117 Emotron VS Series Quick Start Guide 2.0 power 1.8 power 1.6 power Output voltage (V) 1.4 power 1.2 power Rated voltage of motor SL V/F Output frequency(Hz) Rated frequency of motor Fig 6-24 7: V/F complete separation (VSX Only) In this mode, the output frequency and output voltage of the AC drive are independent. The output frequency is determined by the frequency source, and the output voltage is determined by "Voltage...
  • Page 118 Emotron VS Series Quick Start Guide Output voltage (V) Rated voltage of motor Torque boost Output frequency(Hz) Cut-off frequency of Rated frequency of motor torque boost Fig 6-25 Torque boost d1.03 Multi-point V/F frequency 1(F1) Range:0.0~d1.05 Default:0.0Hz d1.04 Multi-point V/F voltage 1(V1) Default:0.0%...
  • Page 119 Emotron VS Series Quick Start Guide d1.11 V/F slip compensation gain Range:0.0~300.0% Default: 80.0% This parameter is valid only for the asynchronous motor. It can compensate the rotational speed slip of the asynchronous motor when the load of the motor increases, stabilizing the motor speed in case of load change.

  • Page 120: Group D 2 Vector Control Parameters Of Motor 1

    Emotron VS Series Quick Start Guide Group d2 Vector Control Parameters of Motor 1 d2.00 Speed/torque control Default: 0 Range:0~1 Sensor-less vector control 2 and close-loop vector control support torque control. Under these two control patterns, speed control and torque control can be programmed by this parameter. Added to this, the switchover between speed control and torque control can also be realized by digital input terminal "speed/torque control switch".
  • Page 121 Emotron VS Series Quick Start Guide d2.07 ASR input filtering time Range:0.0~500.0ms Default:3.0ms d2.08 ASR output filtering time Default:0.0ms Range:0.0~500.0ms Sets the input/output filtering time of ASR. No need to modify its default setting if not have special requirement. d2.09 Vector control slip gain Range:50~200%...
  • Page 122 Emotron VS Series Quick Start Guide You can implement continuous change of the maximum frequency in torque control dynamically by controlling the frequency upper limit. d2.20 Set torque accel time Range:0.0~6000.0s Default:0.0s d2.21 Set torque decel time Range:0.0~6000.0s Default:0.0s In torque control, the difference between the motor output torque and the load torque determines the speed change rate of the motor and load.

  • Page 123: Group D3 Parameters Of Motor 2

    Emotron VS Series Quick Start Guide Group d3 Parameters of Motor 2 All parameters of motor 2 are same with group d0 Group d4 V/f Control Parameters of Motor 2 All V/f control parameters of motor 2 are same with group d1...
  • Page 124 Emotron VS Series Quick Start Guide Overvoltage stall control E0.05 Range:0~2 Default: 2 Range: 320~400V Default: 370V (220V inverter) E0.06 Overvoltage stall voltage Range: 600~800V Default: 730V (415V inverter) Overvoltage stall mode 2 E0.07 Default:50.0% Range:0.1~300.0% proportion gain Overvoltage stall mode2 E0.08...
  • Page 125 Emotron VS Series Quick Start Guide E0.11 Protection action 2 Range:00000~22222 Default:00000 Unit's place: External equipment fault(Err13) 0: Fault reported and coast to stop 1: Stop according to the stop mode 2: Fault reported but continues to run 3: Fault protection disabled...
  • Page 126 Emotron VS Series Quick Start Guide E0.18 Overload alarm Default:00000 Range:00000~11111 Unit's place: detection option 0: Always detect Overload alarm works all the time during drive running. 1: Detect at constant speed only Overload pre-alarm only works during constant-speed running of inverter.
  • Page 127 Emotron VS Series Quick Start Guide Decel time at Range: 0.0~6000.0s E0.25 Default: 5.0s instantaneous power failure Instantaneous power off Range: 60.0%~E0.31 E0.30 Default: 80.0% bus voltage Instantaneous power off Range: E0.30~100.0% E0.31 Default: 85.0% recovery voltage Instantaneous power off Range: 0.00~10.00s...

  • Page 128: Group F0 Process Pid

    Emotron VS Series Quick Start Guide Select which channel to detect the feedback voltage of motor E0.37 Range: 0~3 Default: 0 temperature sensor (VSX Only) 0:None 1:AI1 Select AI1 to detect the feedback voltage of motor temperature sensor 2:AI2 Select AI2 to detect the feedback voltage of motor temperature sensor 。...
  • Page 129 Emotron VS Series Quick Start Guide F0.02 PID feedback Range:0~8 Default:0 Select the feedback source of PID control. 0: AI1 1: AI2 2: Communication 3: AI1+AI2 4: AI1-AI2 5: Max{AI1,AI2} 6: Min{AI1,AI2} 7: DI7/HI pulse input 8: AI3 (VSX Only) F0.03...
  • Page 130 Emotron VS Series Quick Start Guide feedback value change reaches 100.0%, and then the adjustment amplitude reaches the maximum frequency. F0.11 Proportional gain Kp2 Range:0.0~1000.0 Default:1.0 F0.12 Integration time Ti2 Range:0.01~10.00s Default:0.10s F0.13 Differential time Td2 Range:0.000~10.000s Default:0.000s In some applications, PID parameters switchover is required when one group of PID parameters cannot satisfy the requirement of the whole running process.
  • Page 131 Emotron VS Series Quick Start Guide Low value of PID feedback Default:0.0% Range:0.0%~100.0% F0.24 loss Detection time for low value Default:1.0s Range:0.0~30.0s F0.25 of PID feedback loss High value of PID feedback Default:100.0% Range:0.0%~100.0% F0.28 loss Detection time for high value Default:1.0s...

  • Page 132: Group F1 Multi -Reference And Simple Plc Function

    Emotron VS Series Quick Start Guide Group F1 Multi-Reference and Simple PLC Function Default:0.0% F1.00 Reference 0 Range:-100.0~100.0% Default:0.0% F1.01 Reference 1 Range:-100.0~100.0% Default:0.0% F1.02 Reference 2 Range:-100.0~100.0% Default:0.0% F1.03 Reference 3 Range:-100.0~100.0% Default:0.0% F1.04 Reference 4 Range:-100.0~100.0% Default:0.0% F1.05 Reference 5 Range:-100.0~100.0%...
  • Page 133 Emotron VS Series Quick Start Guide F1.17 Running mode of simple PLC Range:0000~1132 Default:0000 Unit's place: PLC running mode 0: Stop after a single cycle PLC stops upon the completion of one cycle and it won’t be started unless another run command is given, shown as Fig.
  • Page 134 Emotron VS Series Quick Start Guide 2: Repeat cycles PLC automatically starts another cycle after finishing one until there is a stop command, shown as Fig. 6-33. Output frequency(Hz) T13T14 T15 Pulse length:250ms PLC cycle completed Run command Fig 6-33 Ten’s place: started mode...
  • Page 135 Emotron VS Series Quick Start Guide Default:0.0s(h) F1.28 Running time of step 10 Range:0.0~6000.0s(h) Default:0.0s(h) F1.29 Running time of step 11 Range:0.0~6000.0s(h) Default:0.0s(h) F1.30 Running time of step 12 Range:0.0~6000.0s(h) Default:0.0s(h) F1.31 Running time of step 13 Range:0.0~6000.0s(h) Default:0.0s(h) F1.32 Running time of step 14 Range:0.0~6000.0s(h)

  • Page 136: Group F2 Swing Frequency, Fixed Length, Count And Wakeup

    Emotron VS Series Quick Start Guide Group F2 Swing Frequency, Fixed Length, Count and Wakeup The swing frequency function is applied to the textile and chemical fiber fields and the applications where traversing and winding functions are required. The swing frequency function indicates that the output frequency of the AC drive swings up and down with the set frequency as the center.
  • Page 137 Emotron VS Series Quick Start Guide F2.05 Set length Range:0~65535m Default:1000m F2.06 Number of pulses per meter Default:100.0 Range:0.0~6553.5 The preceding parameters are used for fixed length control. The length information is collected by DI terminals. U0.27 (Actual length) is calculated by dividing the number of pulses collected by the DI terminal by F2.06 (Number of pulses each meter).
  • Page 138 Emotron VS Series Quick Start Guide After the designated F2.08 counting value is (Designated reached, set the DO counting value) C1.00 C1.03=17 ~ terminal to 1. (Designated ≥ counting value reached) Counting pulses C0.00 C0.06=32 U0.28 ~ (Counting pulses) Counting value Reset C1.00...

  • Page 139: Group H0 Communication Parameters

    Emotron VS Series Quick Start Guide Default:00 F2.16 Pressure feedback source Range:00~13 When voltage dormancy or wake up: Unit’s place: Pressure feedback channel 0:AI1 Pressure feedback given by AI1 1:AI2 Pressure feedback given by AI2 2:DI7/HI pulse input Pressure feedback given by DI7/HI Ten’s place: dormancy mode on pressure...

  • Page 140: Group L0 Keys And Display Of Keypad Parameters

    Emotron VS Series Quick Start Guide Group U0.00 output H0.08 Range: 0~1 Default: 0 frequency numerical attribute 0:Positive and negative value (Forward: Positive value,reverse: negative value) 1: Absolute value Group L0 Keys and Display of Keypad Parameters L0.00 MF.K key setting Range:0~4...

  • Page 141: Group L1 User-Defined Display Parameters

    Emotron VS Series Quick Start Guide Group L1 User-defined Display Parameters User-defined Display L1.00 Range:00.00~49.99 Default:00.03 Parameter 0 User-defined Display L1.01 Default:01.01 Range:00.00~49.99 Parameter 1 User-defined Display L1.02 Range:00.00~49.99 Default:01.02 Parameter 2 User-defined Display L1.03 Default:01.08 Range:00.00~49.99 Parameter 3 User-defined Display L1.04...
  • Page 142 Emotron VS Series Quick Start Guide User-defined Display L1.28 Default:00.00 Range:00.00~49.99 Parameter 28 User-defined Display L1.29 Range:00.00~49.99 Default:00.00 Parameter 29 This function code is for user to customize parameter User can select any function code of VSS into L1 group, for easy check and change.

  • Page 143: Group U0 Status Monitoring

    Emotron VS Series Quick Start Guide Group U0 Status Monitoring Group U0 is used to monitor the AC drive's running state. You can view the parameter values by using keypad, convenient for on-site commissioning, or from the host computer by means of communication (address: 0x3000~0x3020).

  • Page 144: Group U1 Fault Record

    Emotron VS Series Quick Start Guide (VSX Only) HO output Range: 0.00~100.00kHz U0.22 Default: 0.00kHz (VSX Only) U0.23 Temperature of inverter Range:-40.0~120.0℃ Default: 0.0℃ Accumulative power-on U0.24 Range:0~65535min Default: 0min time U0.25 Accumulative running time Default: 0min Range:0~65535min U0.26 Cumulative power-on time Default: 0h Range:0~65535h...

  • Page 145: Group Y0 Incense Making Machine Parameters

    Emotron VS Series Quick Start Guide before-previous fault occurred Cumulative running time U1.14 when before-previous fault Default:0h Range:0~65535h occurred Previous 3 categories of U1.15 The same with U1.00 Default: Err00 faults Previous 4 categories of U1.16 The same with U1.00...
  • Page 146 Emotron VS Series Quick Start Guide Below is the wiring: Single Phase 220V 50/60Hz Operation Sensor Panel Man/Auto Inching Motor Reset Inching motor Fig 6-37 Incense making machine wiring Commissioning Steps: (1) Connecting power lines and signal lines as Figure 6-35, and also note that proximity sensor connected to DI1 and 24V terminals as figured;...

  • Page 147: Chapter 7 Solar Commissioning

    Emotron VS Series Quick Start Guide Chapter 7 Solar Commissioning 7.1 Parameters Description 0: Null Control of PV Pump y0.00 Default: 1 Inverter 1: Valid 0: Null For standard model 1: Valid For PV pumps special inverter,y0 Group: Invalid Selection of inverter 0: Mains y0.01...
  • Page 148 Emotron VS Series Quick Start Guide Default: MPPT mini voltage y0.04 0~Max Voltage VSR23:270 reference VSR48:500 Default: MPPT max voltage y0.05 Max Voltage~750V VSR23:330 reference VSR48:600 When y0.03 is 1, MPPT voltage will tracked within y0.04~y0.05. y0.05 must be larger than y0.04.Smaller is the difference between them, the narrower will be the tracking range and tracking will...
  • Page 149 Emotron VS Series Quick Start Guide 0: Null 1: AI1 Feedback channel selection of y0.15 Default: 0 reservoir water level 2: AI2 3: AI3 0: Null Control of water level is invalid. 1: AI1 AI1 for analog signal source of water-level control...
  • Page 150 Emotron VS Series Quick Start Guide 0: Positive direction,higher detection value higher water level Water level direction y0.24 Default: 1 detection 1: Negative position,higher detection value lower water level To set the relationship between hydraulic probe detected signal and water level...
  • Page 151 Emotron VS Series Quick Start Guide PV panels Grid DI7/HI +24V Fig 7-2 Automatic switch between grid and solar power wiring Pump rated flow y0.31 Default:6.0 m3/h 0.0~1000.0 m3/h Pump rated head y0.32 Default :24m 0.0~500.0m Pump cumulative flow 0: Invalid y0.33...

  • Page 152: Solar Commissioning Guide

    Emotron VS Series Quick Start Guide 7.2 Solar Commissioning Guide 1. Wiring ◆A:PV Panel Power Supply Commissioning Refer wiring drawing of inverter as shown in Figure 7-3 PV panels U/T1 R/L1 V/T2 S/L2 W/T3 T/L3 Short film +24V RUN/STOP Operation panel...
  • Page 153 Emotron VS Series Quick Start Guide 5). MPPT voltage range y0.04 and y0.05 are respectively the lowest voltage and highest voltage under the MPPT mode. Smaller the range between the two, the faster is the tracing of maximum power, but the bus voltage during normal operation must fall within this range else the maximum power point may not be tracked.
  • Page 154 Q1 should be prohibited from closing together with grid power input switch Q2 to protect the panel from damage 2. Wiring diagram between CG VFD and single phase motor 2.1 Single phase motor introduction Single phase motor generally means asynchronous single phase motor powered by single phase AC 220V There are two phase windings in motor stator and motor rotor is common squirrel cage.
  • Page 155 Emotron VS Series Quick Start Guide Starting Centrifugal capacitor switch Secondary Main 220VAC winding winding Fig 7-6 Starting mode: Internal wiring of motor with single capacitor Internal wiring of single phase motor with double capacitors has been shown below: Running...
  • Page 156 Emotron VS Series Quick Start Guide Secondary Main winding winding Fig 7-9 Main and secondary winding of motor 2.2 Wiring between VFD and motor(Remove capacitor) Connect main and secondary winding of motor to inverter UVW, then inverter can work. But due to the motor winding difference, motor forward wiring must be done as shown below or else it will cause overheating of the motor.
  • Page 157 Emotron VS Series Quick Start Guide 2.3 Wiring between VFD and motor(No need to remove capacitor) Running direction of motor is determined by the attribute of motor. 220VAC Fig 7-12 wiring between VSR VFD and motor After wiring is completed, set d0.00=3...

  • Page 158: Chapter 8 Elevator Commissioning

    Emotron VS Series Quick Start Guide Chapter 8 Elevator Commissioning 8.1 Parameters Description 0:Invalid Special Purpose Inverter Function y0.00 Default: 1 Enable 1:Valid 0:Invalid 1:Valid Special purpose for elevator, group y0 is valid y0.01 0.00~10.00s Brake 0pen Delay Default:0.00s y0.02 0.00~10.00Hz...
  • Page 159 Emotron VS Series Quick Start Guide y0.05(Brake Open Frequency (Rising))、y0.06(Brake Release Frequency (Rising)) and y0.07(Brake Open Frequency (Falling))、y0.08(Brake Release Frequency (Falling)) are same meanings, rising group use for frequency adjusting on FWD, falling group use for frequency adjusting on REV.
  • Page 160 Emotron VS Series Quick Start Guide The parameter used for improving the leveling when elevator is falling. If leveling is good when elevator is falling with half load but leveling is not good when elevator is falling without load, to increase the value of y0.02 to improve the leveling.
  • Page 161 Emotron VS Series Quick Start Guide Emergency signal input Forward run command Output y0.27 frequency Hz y0.12 y0.27 Light load direction search completed output Light load direction search direction output Figure 8-3 Light load direction search timing diagram When detected light load direction is opposite with given running command direction, inverter...
  • Page 162 Emotron VS Series Quick Start Guide 0:Invalid When light load direction detection completed, inverter run via light load direction 1:Valid When detecting light load direction, when UPS power voltages in both direction are lower than setting of y0.28, inverter will trip with Err43...

  • Page 163: Multi-Step Speed Setting Method

    Emotron VS Series Quick Start Guide Coefficient of S curve time when y0.41 Default: 0.7 0.00~1.00 short floor function is enabled When short floor function is enabled and triggered, deceleration time will multiple this coefficient set by y0.41. Special DI/DO terminal function for Elevator inverter...

  • Page 164: Elevator Commisioning Guide

    Emotron VS Series Quick Start Guide 8.3 Elevator Commisioning Guide Elevator special purpose inverter series designed special for elevator application supports open loop & close loop vector control as well as below functions: Resistance 1-Phase 220VAC 3-Phase 380VAC Elevator Controller...

  • Page 165: Chapter 9 Maintenance And Troubleshooting

    Emotron VS Series Quick Start Guide Chapter 9 Maintenance and Troubleshooting VS Series inverter provides a number of warning information and protection, when a fault occurs, the protective function is activated, the inverter will stop output, inverter fault relay contact, and in the inverter displays the fault code on the display panel.
  • Page 166 Emotron VS Series Quick Start Guide 1: The input voltage is too 1: Adjust the voltage to high. normal range. 2: An external force drives the 2: Cancel the external force motor during deceleration. Decel or install the braking resistor.
  • Page 167 Emotron VS Series Quick Start Guide small power class. higher power class. 1: The load is too heavy or 1: Reduce the load and locked-rotor occurs on the check the motor and Err12 Inverter overload motor. mechanical condition. 2: The AC drive model is of too 2: Select an AC drive of small power class.
  • Page 168 Emotron VS Series Quick Start Guide Module temperature The temperature sensor Err24 Contact for technical support detection failure or cable break disconnection Check that the load is The AC drive running current Err25 Load becoming 0 disconnected or the setting is lower than E0.22...
  • Page 169 Emotron VS Series Quick Start Guide Water-level feedback is lower than the set threshold and has Pre-warning of Check the pre-warning point continued under this state for Full-water of water level a duration greater than the delay time - 168 -...

  • Page 170: Chapter 10 Maintenance And Inspection

    Emotron VS Series Quick Start Guide Chapter 10 Maintenance and Inspection 10.1 Inspection Frequency semiconductor devices, passive electronic components, and the movement device is configured, these devices have life, even under normal working conditions, if over the useful life, some devices may have characteristic changes or failure.

  • Page 171: Maintenance

    Emotron VS Series Quick Start Guide Semiconduct ● Are stained with dirt and dust; ● Clean the operating or devices ● Are there significant changes in environment; appearance. ● Replace damaged parts. Electrolytic ● whether the leaks, discoloration, capacitor cracking, safety is exposed, swelling, ●...
  • Page 172 Emotron VS Series Quick Start Guide Fig 10-1 (a) Remove the fan covers Fig 10-1 (b) Remove the fan Fan Installation 1.Figure 10-2 (a) shown in finger pressure to the inside of the fan under the lead terminal elastic snaps, while a little harder vertically into the lead terminal, and then fan vertically into the slot.

  • Page 173: Appendix A: Modbus Communication Protocol

    Emotron VS Series Quick Start Guide Appendix A: Modbus Communication Protocol 1. Application Scope 1. Applicable series: CG VS series inverter. 2. Applicable network: Support Modbus protocol, RTU format, with single-master/multi-slave Communication network of RS485 bus. The typical RTU message frame format:...
  • Page 174 Emotron VS Series Quick Start Guide 4.3 Allocation of Register Addresses name Description High byte function code group number, A0~F31, U0, U1, respectively, corresponding to the high byte address is 00H~1FH, 30H, 31H. Low byte of the group function code number, from 0 to 99 corresponding to the low byte address is 00H~63H.
  • Page 175 Emotron VS Series Quick Start Guide Torque set point (-3000~3000, 1000 corresponds to 100.0% 2004H motor rated current) Retention 2005~20FF 4.5 The status and function of the read address Description: (read only) Status word address functional status word 0000H: parameter setting...
  • Page 176 Emotron VS Series Quick Start Guide Register start address 0x0000~0xFFFF The number of register 0x0000~0xFFFF CRC parity Slave responds : Address of slave The local address Command Code 0x06 Register start address 0x0000~0xFFFF The number of register 0x0000~0xFFFF CRC parity...
  • Page 177 Emotron VS Series Quick Start Guide unsigned int crc_value = 0xFFFF; int i = 0; while (Length--) for (i=0; i<8; i++) if (crc_value & 0x0001) crc_value = (crc_value>>1) ^ 0xa001; else crc_value = crc_value>>1; return (crc_value); 7.Error Message Response Inverter will send an error message report when the master sends error data or inverter receives the error data due to the external interference.
  • Page 178 Emotron VS Series Quick Start Guide 8. Illustration 1, No. 01 reads the output frequency value (U0.00), returned 5000, that 50.00Hz. To send data: 01 03 30 00 00 01 8B 0A The received data is: 01 03 02 13 88 B5 12 2, No.

  • Page 179: Appendix B: Braking Resistor

    Emotron VS Series Quick Start Guide Appendix B: Braking Resistor When the inverter with high inertia loads or need to slow down rapid deceleration, Motor will in the state of power generation, the energy is transferred to the inverter DC link via the inverter bridge,...
  • Page 180 Emotron VS Series Quick Start Guide CG Drive & Automation www.cgglobal.com/www.emotron.com...

This manual is also suitable for:

Vsx48-003-20cebVsx48-004-20cebVsx48-006-20cebVsx48-009-20cebVsx48-013-20cebVsx48-017-20ceb ... Show all

Table of Contents

Save PDF