3G3JX-A2037 Omron Automation, 3G3JX-A2037 Datasheet - Page 52

3G3JX-A2037

Manufacturer Part Number

3G3JX-A2037

Description

Drive, Adjustable Frequency, 3-Phase, 240VAC, 5.0HP, 15.9A, RS-485 Serial , IP20

Manufacturer

Omron Automation

Type

Adjustable Frequencyr

Datasheet

1.3G3JX-A2004.pdf (57 pages)

Specifications of 3G3JX-A2037

Brand/series

Current, Input

20 A

Function

Motor Control

Horse Power Rating

5 HP

Mounting Type

Screw

Phase

Three

Power Rating

5.0 HP

Primary Type

AC Drive

Standards

IP20

Voltage, Supply

240 VAC

Voltage, Supply Maximum

240

Lead Free Status / Rohs Status

RoHS Compliant part

Current page: 52 of 57
Download datasheet (6Mb)

Overview of Braking Resistor Selection

■ Applications Requiring Braking Resistors

In applications where excessive regenerative motor energy is

produced during deceleration or descent, the main-circuit volt-

age in the Inverter may rise high enough to damage the Inverter.

Standard Inverters are equipped with an overvoltage protection

function so the main-circuit overvoltage (OV) is detected and

operation is stopped to prevent damage. Although the Inverter

will be protected, the overvoltage protection function will gener-

ate an error and the motor will stop; this system configuration will

not provide stable continuous operation.

● About Regenerative Energy

The load connected to the motor has kinetic energy if it is rotat-

ing or potential energy if it is at a high level. The kinetic or poten-

tial energy is returned to the Inverter when the motor decelerates

or lowers the load. This phenomenon is known as regeneration

and the returned energy is called regenerative energy.

● Avoiding the Use of a Braking Resistor

The following methods can be used to avoid having to connect a

Braking Resistor. These methods require the deceleration time

to be extended, so you must evaluate whether extending the

deceleration time will cause any problems in the application.

• Enable the "stall prevention during deceleration" function; the

• Set a longer deceleration time. (This reduces the rate at which

• Select "coast to stop" as the stopping method. (Regenerative

Overview of Inverter Selection

default setting for this function is enabled. (The deceleration

time is extended automatically to prevent main-circuit overvolt-

age from occurring.)

the regenerative energy is produced.)

energy will not be returned to the Inverter.)

Inverter

Regenerative

energy

Overview of Inverter Selection

Motor

During deceleration, the Inverter acts as

a generator and converts kinetic and

potential energy to regenerative energy.

Load

Kinetic energy

Potential energy

■ Simple Method for Braking Resistor Selection

This is a simple method for determining the braking resistance

from the percentage of time that regenerative energy is produced

during a normal operating pattern.

t: Deceleration time (regenerative time)

T: Time for 1 cycle of operation

Use rate (duty) = t/T x 100 (%ED)

3G3JX-A2037 Omron Automation, 3G3JX-A2037 Datasheet - Page 52

3G3JX-A2037

Specifications of 3G3JX-A2037

Related parts for 3G3JX-A2037