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Emerson EV3200 - User Manual

Emerson EV3200
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EV3200 Door Control Inverter
User Manual
Version V1.4
Revision date April 21, 2008
BOM
31011543
Emerson Network Power provides customers with technical support. Users may contact the nearest
Emerson local sales office or service center.
Copyright © 2007 by Emerson Network Power Co., Ltd.
All rights reserved. The contents in this document are subject to change without notice.
Emerson Network Power Co., Ltd.
Address: No.1 Kefa Rd., Science & Industry Park, Nanshan District 518057, Shenzhen China
Homepage: www.emersonnetworkpower.com.cn
Customer Service Hotline: +86 755 86010537, 400-887-6510
Complaint Hotline: +86 755 86010800
E-mail: support@emersonnetwork.com.cn

Table of Contents

Questions and Answers

  • M
    melissadavisAug 20, 2025
    What to do if there is overcurrent in constant speed operation of Emerson Inverter?
    • A
      Anthony LopezAug 21, 2025
      If you are experiencing overcurrent during constant speed operation with your Emerson Inverter, there are several potential causes. It could be due to a sudden change in load. In this case, adjust the PI parameters. It may also be caused by an abnormal load, so check the load. Finally, check the cable connection of the motor, as an output phase failure could be the cause.
  • S
    Sharon GrantAug 22, 2025
    Why does my Emerson Inverter show over-current in Acc process?
    • M
      megan86Aug 22, 2025
      If your Emerson Inverter shows an over-current during the acceleration process, it could be due to several reasons. First, the acceleration time might be too short, so prolong the Acc time. Second, the motor might be restarting while still in motion, so ensure the motor stops before restarting. Third, check for incorrect external wiring and correct it. Fourth, verify and if needed, change the setting of F4.02 or the wiring of PG. Finally, check the cable connection of the motor, as there may be an output phase failure.
  • M
    mrobertsAug 25, 2025
    What causes overvoltage in Dec process of Emerson EV3200 Inverter?
    • M
      Michael MillerAug 25, 2025
      If you're seeing overvoltage during deceleration with your Emerson Inverter, consider these potential causes. The Dec time might be too short, so prolong it. The braking resistor may be unsuitable, so re-select it. Check the input voltage for any abnormalities. Also, adjust the PI parameters if they're unsuitable.
  • D
    Danielle SmallAug 26, 2025
    What to do if there is overcurrent in Dec process of Emerson EV3200?
    • P
      Peter CollinsAug 26, 2025
      If you're experiencing overcurrent during deceleration with your Emerson Inverter, there are two main possibilities. The Dec time might be too short, so increase Dec time or adjust PI parameters. Also, check the cable connection of the motor for output phase failure.
  • M
    Michael HansenAug 27, 2025
    Why does my Emerson EV3200 show overvoltage in Acc process?
    • L
      leekellyAug 28, 2025
      If your Emerson Inverter is showing overvoltage during acceleration, several factors could be responsible. There might be an abnormal input voltage, so check the input power source. The PI parameters might be unsuitable, so adjust them. Finally, a big load inertia could be the cause, so connect an external braking resistor.
  • E
    Elizabeth BernardAug 29, 2025
    What causes Emerson EV3200 overload?
    • A
      Amy MelendezAug 29, 2025
      An Emerson Inverter overload can be caused by several factors. It may be due to a heavy load, so select inverters with bigger ratings. Low mains voltage can also cause this, so check the mains voltage. A PG error could also be the cause, so check the PG wiring or replace the PG.
  • M
    Marc CastilloAug 31, 2025
    Why does Emerson EV3200 Inverter show overvoltage in constant speed operation?
    • J
      Jennifer BushAug 31, 2025
      If you observe overvoltage during constant speed operation of your Emerson Inverter, it could be due to an abnormal change of input voltage, so mount an input reactor. Alternatively, it may be caused by energy regenerated by negative torque load, so connect an external braking resistor.
  • B
    Brittany PhillipsSep 2, 2025
    What causes motor protection error on Emerson Inverter?
    • A
      Amy RobbinsSep 2, 2025
      If your Emerson Inverter is showing a motor protection error, it could be due to a few reasons. The motor rated current setting might be an error, so check the setting of F6.03. The motor’s max allowable operating current might be set too small, so check the setting of F6.04. Finally, there might be a motor model selection error, so select applicable motor.
  • M
    melissa87Sep 4, 2025
    What to do if Emerson EV3200 Inverter heatsink overheating?
    • D
      Don ChristensenSep 4, 2025
      If the heatsink of your Emerson Inverter is overheating, it could be due to a blocked air duct, so clear the air duct. Alternatively, there might be an IGBT abnormality, so seek service.
  • N
    Nina PettySep 5, 2025
    What to do if Emerson EV3200 Inverter has output phase loss?
    • R
      Robert AndersonSep 5, 2025
      If you are experiencing output phase loss with your Emerson Inverter, check the 3-phase output cables of the inverter. Also, check if the 3-phase loads are balanced.

Summary

Chapter 1 Safety Information

Warnings, Cautions & Notes

Information on avoiding safety hazards, product damage, and ensuring correct operation.

Electrical Safety and Personnel Safety

Covers general electrical safety and requirements for personnel.

Electrical Installation Risks

Covers electric shock risks and the need for isolation devices.

Chapter 1 Safety Information (Continued)

Function, Charge, and Component Safety

Explains STOP function, stored charge hazards, and component safety.

Earthing and Equipment Safety

Importance of earthing and safety for plug-connected equipment.

Disposing of Unwanted Inverter

Guidelines for safe disposal as industrial waste.

Chapter 2 Product Specifications

Model Description and Nameplate

Explains inverter model designation and details on the nameplate.

Available Inverter Models

Lists various EV3200 models with their specifications.

Chapter 2 Product Specifications (Continued)

Installation Size and General Specifications

Covers inverter dimensions, installation holes, and key technical specifications.

Chapter 2 Product Specifications (Continued)

Detailed Technical Specifications

Lists comprehensive specifications for environment, protection, and cooling.

Chapter 3 Electrical Installation

Power Terminal Wiring Introduction

Introduces input power terminals and their functions.

Chapter 3 Electrical Installation (Continued)

Power Terminal Connection and Protection

Guidance on connecting power terminals, MCCB, and fuses.

Chapter 3 Electrical Installation (Continued)

Control and Relay Output Terminals

Describes control terminals and user relay output terminals.

Chapter 3 Electrical Installation (Continued)

Synchronous Motor PG Terminals and Wiring Diagram

Details PG terminals for synchronous motors and the main wiring diagram.

Chapter 3 Electrical Installation (Continued)

Inverter Wiring Diagrams and EMC

Shows PG wiring diagrams and EMC recommendations.

Chapter 3 Electrical Installation (Continued)

EMC Wiring Requirements and Suppressors

Details EMC wiring requirements and surge suppressors.

Chapter 4 Operation

Operation Keypad and Status Descriptions

Explains the operation keypad, key functions, and inverter operating statuses.

Chapter 4 Operation (Continued)

Parameter Classification and Setting Method

Details parameter groups and how to set them via the keypad.

Displaying Parameters

Explains how to configure and view parameters on the LED display.

Chapter 4 Operation (Continued)

Motor Tuning Procedures

Guides on tuning motor parameters for asynchronous and synchronous motors.

Basic Operating Modes

Describes keypad and terminal control for basic operation and modes.

Chapter 5 Parameter Table

Basic Operation Parameters (F0)

Lists and describes F0 parameters for user password, control mode, etc.

OD Operation Parameters (F1)

Lists and describes F1 parameters for OD (Opening Door) operations.

Chapter 5 Parameter Table (Continued)

CD Operation Parameters (F2)

Lists and describes F2 parameters for CD (Closing Door) operations.

Enhanced Function Parameters (F3)

Lists and describes F3 parameters for advanced functions.

Chapter 5 Parameter Table (Continued)

Door Width Self-learning Parameters (F4)

Lists and describes F4 parameters for door width auto-learning.

Chapter 5 Parameter Table (Continued)

Multi-function Input Terminal Parameters (F5)

Lists and describes F5 parameters for configuring input terminals.

Motor Parameters (F6)

Lists and describes F6 motor parameters, including tuning.

Chapter 5 Parameter Table (Continued)

Motor Parameters (F6) (Continued)

Continues listing F6 motor parameters, including tuning enable and resistance/inductance.

Vector Control Parameters (F7)

Lists and describes F7 parameters for vector control.

Chapter 5 Parameter Table (Continued)

Communication Parameters (F8)

Lists and describes F8 communication parameters (Modbus/CAN).

Chapter 5 Parameter Table (Continued)

Monitoring and Recording Parameters (F9)

Lists and describes F9 parameters for monitoring and fault recording.

Chapter 6 Parameter Description

Basic Operation Parameters (F0) Description

Describes F0 parameters, including user password and control modes.

Chapter 6 Parameter Description (Continued)

Basic Operation Parameters (F0) Description (Continued)

Details control command selection, running direction, and max frequency.

OD Operation Parameters (F1) - Speed Control

Explains F1 parameters for OD operation curve in speed control.

Chapter 6 Parameter Description (Continued)

OD Operation Parameters (F1) - Speed Control (Continued)

Details OD speed control parameters like start creep time and speed.

OD Operation Parameters (F1) - Distance Control

Explains F1 parameters for OD operation curve in distance control.

Chapter 6 Parameter Description (Continued)

OD Operation Parameters (F1) - Distance Control (Continued)

Details OD distance control parameters, including torque and curve selection.

CD Operation Parameters (F2) - Speed Control

Explains F2 parameters for CD operation curve in speed control.

Chapter 6 Parameter Description (Continued)

CD Operation Parameters (F2) - Speed Control (Continued)

Details CD speed control parameters like start creep time and speed.

CD Operation Parameters (F2) - Distance Control

Explains F2 parameters for CD operation curve in distance control.

Chapter 6 Parameter Description (Continued)

CD Operation Parameters (F2) - Distance Control (Continued)

Details CD distance control parameters, including torque and curve selection.

Enhanced Function Parameters (F3) Description

Describes F3 parameters for OD/CD time limits and obstruction handling.

Chapter 6 Parameter Description (Continued)

Enhanced Function Parameters (F3) Description (Continued)

Details remaining F3 parameters like demo mode and fan control.

Chapter 6 Parameter Description (Continued)

Door Width Self-learning Parameters (F4) Description

Explains F4 parameters for door width auto-learning.

Chapter 6 Parameter Description (Continued)

Door Width Self-learning Parameters (F4) Description (Continued)

Details F4 parameters related to PG type, direction, and manual door width input.

Chapter 6 Parameter Description (Continued)

Multi-function Input Terminal Parameters (F5) Description

Lists F5 parameters for configuring multi-function input terminals.

Chapter 6 Parameter Description (Continued)

Multi-function Input Terminal Parameters (F5) Description (Continued)

Details functions for multi-function input terminals and relay outputs.

Chapter 6 Parameter Description (Continued)

Motor Parameters (F6) Description

Describes F6 motor parameters, including type, rating, and tuning.

Chapter 6 Parameter Description (Continued)

Motor Parameters (F6) Description (Continued)

Details F6 motor tuning parameters and equivalent circuit.

Vector Control Parameters (F7) Description

Explains F7 vector control parameters for speed regulation.

Chapter 6 Parameter Description (Continued)

Vector Control Parameters (F7) Description (Continued)

Details F7 speed regulator adjustment and torque limiting.

Communication Parameters (F8) Description

Lists F8 communication parameters (Modbus/CAN).

Chapter 6 Parameter Description (Continued)

Monitoring and Recording Parameters (F9) Description

Describes F9 parameters for LED display configuration and status monitoring.

Chapter 6 Parameter Description (Continued)

Monitoring and Recording Parameters (F9) Description (Continued)

Details fault logging, operation/running times, and parameter initialization.

Chapter 7 Application Guidance

Motor Type Setup

Provides procedures for setting motor type and parameters before tuning.

Chapter 7 Application Guidance (Continued)

Speed Control - Wiring and Testing

Shows wiring diagram and outlines testing procedures for speed control.

Chapter 7 Application Guidance (Continued)

Speed Control - Parameter Settings

Lists specific parameter settings for speed control.

Distance Control 1 - Wiring

Shows wiring diagrams for distance control 1 (async/sync motors).

Chapter 7 Application Guidance (Continued)

Distance Control 1 - Testing Procedures

Outlines testing procedures for distance control 1.

Chapter 7 Application Guidance (Continued)

Distance Control 3 - Parameter Settings

Lists specific parameter settings for distance control 3.

Chapter 7 Application Guidance (Continued)

Distance Control 2 Configuration

Explains configuration and testing for distance control 2.

Distance Control 3 - Wiring

Shows wiring diagram for distance control 3 (asynchronous motor).

Chapter 7 Application Guidance (Continued)

Distance Control 3 - Testing and Parameters

Outlines testing procedures and lists parameter settings for distance control 3.

Chapter 8 Troubleshooting

Troubleshooting Fault Codes

Details fault codes (E001-E031), their possible causes, and actions to take.

Chapter 9 Maintenance

Daily Maintenance Checks

Outlines daily checks for operating environment, inverter, and motor.

Chapter 9 Maintenance (Continued)

Periodical and Component Maintenance

Details periodic maintenance and replacement of components like capacitors.

Chapter 9 Maintenance (Continued)

Storage Guidelines and Warranty Information

Provides guidelines for inverter storage and warranty terms.

Appendix 1 EMI Filter and AC Input Reactor

EMI Filter and AC Input Reactor Recommendations

Lists recommended EMI filters and AC input reactors for use with the inverter.

Appendix 2 Modbus Communication Protocol

Modbus Communication Protocol Overview

Explains network topology, interfaces, and communication modes for Modbus.

Appendix 3 EU Declaration of Conformity

EU Declaration of Conformity Statement

Declares compliance with EU directives for electrical equipment.

Emerson EV3200 Specifications

General IconGeneral
BrandEmerson
ModelEV3200
CategoryInverter
LanguageEnglish

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