MOTOR STARTING REACTOR

◈ Purpose of use

This method uses an auto transformer to start the motor. If the neutral point is opened without disconnecting the autotransformer after

starting, the autotransformer will act as a reactor.

At this time, if the neutral point is short-circuited, the rated voltage is applied to the motor and it starts. The characteristic of this method is

that when switching from tap voltage to full voltage, Since the power source and motor are not separated, there is less shock.

Therefore, because the starting torque of the load is large, it is often used for starting large-capacity motors.

◈ Operating principle

The reactor for starting the motor is a reduced-pressure starting method that reduces the terminal voltage when starting the induction

motor. As the rotating machine in the stationary state is started and the current decreases, the terminal voltage rises and when complete

start is achieved (after t seconds), the reactor By short-circuiting and operating at full voltage, the starting current is limited to ensure smooth

① Operating sequence

When the motor starts, VC1 is connected and the reactor is connected in series with the motor to start. After t seconds (starting time),

VC2 is turned on, switching from starting to running, and no current flows in the reactor.

② Rated and starting current

◈ Reactor capacity calculation

1. Calculated by motor capacity

If kW or HP is set, set the reactor's kW or HP equal to or slightly larger than the motor capacity.

2. Calculation based on actual load capacity

Once the actual load starting current value is calculated, the capacity of the reactor can be calculated based on the values of

(Equation 1) and (Equation 2).

Caution) Please note that in (Equation 2), the (FAN or BLOWER) constant may range from 7 to 12 depending on the load type.

◈ Characteristic

1) The starting torque is large, making it easy to start, and the smooth start reduces mechanical shock.

2) When starting, the motor's starting current is reduced by the Tap setting (50%), harmonics are not generated, and the motor's heat

    generation is reduced to less than 65%, thereby protecting the motor's insulation.

3) The control method is simple and economical, and the starting current can be adjusted to suit the conditions by installing a tap.

4) This reactor is a molded type that is compact and lightweight, making it easy to handle and easy to repair and inspect due to the

    reduced area of the reactor.

◈ Built-in burnout-resistant contacts

Reactors for motor starting are rated for short-term use (10 seconds to 300 seconds). 

If the motor is started frequently, the reactor winding coil may be damaged if the reactor is operated for a long time due to reactor

overheating and mechanical defects or malfunctions of theVC2 S/W. 
Therefore, an overheating prevention temperature sensor is built into the winding coil, and when the temperature of the reactor

winding coil reaches 85℃, it operates as an A contact. 

At this time, the VC1 S/W blocking or protection circuit is activated to prevent such accidents.

◈ Product specification

CONDENSER SERIES REACTOR

◈ Purpose of use

If a condenser is used to improve the power factor in the power system, the distortion of the voltage or current waveform of the circuit may

increase, causing malfunction of relays due to harmonic current in the condenser circuit. It is installed in series with the condenser to reduce

distortion of circuit voltage and current waveforms, suppress inrush current when the condenser is turned on, and eliminate the negative

effects of harmonics on the load.

◈ Sources of harmonics in the power system

◈ Effects of Harmonics

1. When harmonics are included in the current : It causes copper wires, iron loss, overheating of equipment, and noise.

2. When harmonics are included in the current input: various disturbances occur, such as a decrease in the current resistance, that is,

    insulation breakdown, core loss, increase in noise, increase in current loss, and increase in charging current.

◈ Harmonic disturbances to equipment

1. Overload of condenser equipment

2. Loss (overheating) and capacity reduction of rotors and transformers

3. Overheating and damage to condensers and stabilizers for preventing noise from fluorescent frames

4. Malfunction of protection relay, error of indicator

◈ Reactance to harmonic sources

1. The harmonics present in the power system are 6% in the inductive circuit of the 5th harmonic.

2. 13 to 15% in circuits where the third harmonic of subway loads and arc furnace loads occur.

3. If there is a large-capacity rectifier or load welder, set 8 to 13% depending on the amount of generation.

◈ Performance of series reactor ※Specification basis : KSC-4806

1. Capacity tolerance: within -5% to +10%

2. Insulation resistance : 500MΩ or more

3. Maximum operating voltage : 110% or less of rated voltage

3. Maximum use current: The 5th harmonic content of the fundamental wave current is less than 35% and the composite current is

    less than 120%.

◈ Precautions when operating a series reactor

■ Condenser capacity change

Reduction in condenser capacity

If the capacity of the capacitor decreases, the reactance of the capacitor increases, and the % ratio of the series reactance to the capacitor

decreases, so that the total impedance shifts to capacitive rather than the actual value, and harmonic expansion phenomenon may occur. 

The capacity reduction of the condenser should be less than 10% of the total capacity.

Increase in condenser capacity

As the capacity of the denser increases, the current increases, which may cause overheating and burnout due to insufficient capacity

of the series reactor. As the reactance value of the condenser decreases, the % rate of series reactance increases, so the series reactance

and the terminal voltage of the condenser rise. In this case, replace the series reactor with an appropriate capacity.

◈ Precautions when setting up a series reactor

When using a series reactor connected to a condenser, the condenser terminal voltage rises above the circuit voltage.

◈ How to calculate capacity of series reactor

The capacity of the series reactor must be selected according to the harmonic components. In other words, it applies up to 6% for inductive

general loads and 8~13% for converters, arc furnaces, etc., so please consult thoroughly with the manufacturer when ordering.

◈ Transient phenomenon when opening and closing a condenser

The conduction phenomenon and the role of the series reactor when opening and closing the condenser are explained as follows.

Ic  : Condenser normal current     Xc : Condenser reactance

f1  : Excessive frequency                f : Commercial frequency

XL : Condenser Circuit Inductive Reactance

EC : Condenser normal voltage

■ Condenser capacity change

As can be seen from the above equation, if XL is small, the inrush current can reach tens to hundreds of times.

This phenomenon occurs in high-input circuits,

● When a series reactor is not installed

● When the power short-circuit capacity is large

● When there is no series reactor in the parallel BANK

● When there is residual charge in the condenser

This can easily occur, and overvoltage may occur in the secondary circuit of the CT, causing damage to connected devices such as

machines and relays.

At this time, if 6% series reactor is installed,

◈ Condenser capacity calculation table

To find the capacitor capacity according to the load capacity and power factor, please use the capacity calculation table below.

※ If conversion between kVA and ㎌ is necessary, use the conversion formula or conversion table below.

◈ Dry self-cooling Product specifications

◈ Inflow self-cooling Product specifications

DISCHARGE COIL

◈ Purpose of use

A discharge coil is installed to be used for the purpose of discharging residual charge in a short time when the capacitor is opened

from the circuit by always being used in a low-pressure and high-pressure direct capacitor group.

◈ Place of installation

· Indoor (dry-type self-cooling)

· Outdoor Use (Inflow Self-Cooling Type)

◈ Performance

· Discharge capacity : 6 seconds after the start of discharge, the capacitor terminal voltage is 50V or less

· Insulation resistance : 400 ㏁ or higher

· Maximum voltage used : 24-hour average below 110% of rated voltage

· KBC 4804

◈ Discharge coil connection method

◈ Product specification

※ The above dimensions are subject to some changes depending on detailed specifications, etc.

※ Unmarked standards are manufactured according to the standards, so please contact us separately.

INVERTER REACTOR

◈ Characteristics

AR : Reactor for power cooperation : LINE FILTER (ACL : For inverter shearing)

◈ Purpose of use

It is installed at the front end of the inverter to reduce harmonics generated by inverters or rectifiers using rectification circuits for

three-phase six pulses and to improve power factor.

◈ Purpose

3-phase inverter, rectifier, HVDC System, AC/DC Drivers, Elevators, etc

◈ Product specification

※ The above dimensions may change slightly depending on detailed specifications, etc.

※ Please contact us separately for sizes not indicated as they are manufactured according to our standards.

DR : Direct Current Reactor(DC REACTOR)

◈ Purpose of use

It is used in the direct current circuit of inverters and converters, and is a reactor used for the purpose of smoothing the direct current

waveform in a circuit that rectifies alternating current to direct current.

It must be manufactured more specifically than a typical reactor to be used for its intended purpose.

◈ Usage

It is used to remove alternating current particles from the rectified DC waveform or to remove notching, ripple, and noise.

Inverter(WWF), Converter, AC/DC Drivers, etc.

◈ Characteristic

1. As a special reactor, it has good electrical characteristics and excellent insulation strength.

2. The special heat dissipation structure provides excellent cooling characteristics and excellent short-circuit mechanical power.

3. A function to remove noise can be added to the smoothing reactor.

4. It protects components of DC rectifier circuits such as inverters and converters to extend their service life. (Substrate protection)

◈ Product specifications

NR : For noise reduction REACTOR : LOAD FILTER(For inverter rear end)

◈ Purpose of use

It is installed at the rear of the inverter to protect the motor from bearing noise, wear, and vibration due to rotational force eccentricity

due to angle phase generation due to torque unevenness due to notching.

◈ Usage

3-phase inverters, rectifiers, HVDC System, AC/DC Drivers, Elevators, etc.

◈ Product specifications