Kael Varko-106-tft User manual

VARko-106-TFT

Reactive Power Control Relay

√ Banks

√ Markets

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√ Schools

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6 Steps

KAEL Mühendislik Elektronik

Tic. ve San. Ltd.Şti.

www.kael.co .tr

Specifications

√Easy to use with English enu

√Advanced software

√Easy to co issioning

√Color LCD screen ( 320 x 240 pixel 2.4” )

√Enough nu ber of steps needed ( 6 steps )

√Quickly and accurately detection power of capacitors

√Total current and voltage har onics, THD-I and THD-V

√Making co pensation even at low currents ( in. 10 A)

√Operating syste is used in the icro-processor

√Password protected

√Measuring te perature

√Following electrical para eters of three phases at the sa e ti e

■ Voltage of phase V( L – N)

■ Current of phase I

■CosΦ value CosΦ

■ Frequency Hz

■ Total har onic distortion of current THD-I

■ Total har onic distortion of voltage THD-V

√Alar s

■ Over voltage

■ Under voltage

■ Over Te perature

■ Over Current

■ Over Co pensation

■ Under Co pensation

■ THD on voltage

■ HD on voltage

■ THD on current

■ HD on current

√Step Protections

■ Over voltage

■ Over Te perature

■ Over Har onic

Introduction

Warnings

All the infor ation you need to know and the warnings regarding single phase controlled

VARko-106-TFT reactive power factor controller is described in the user anual.

Prior to taking the circuit for the device read this booklet carefully for your syste and your own

safety. Do not act without getting touch with our co pany for the issues that can not be

understood.

Tel: 0090.232.877 14 84 (pbx) Fax: 0090.232.877 14 49

Factory: Atatürk ah. 78 sok. No:10 Ulucak köyü, Ke alpaşa - İZMİR

1- The device should be co isioned and progra ed by the authorized and certificated

personels. If necessary, checks should be ade by that person again.

2- As co pensation is a co plex syste , subscriber' s syste are advised to keep under

control by licensed - professional electrical engineers and technicians that co pany owned or

agreed.

3- Do not open the device and not let it open. There are not any parts in the device that the

user or so eone can cut in.

4- Prior to aking electrical connections to the ter inals of the device, ake sure that there is

no energy in the cable and ter inals. There shouldn' t be energy at the control panel.

5- Do not use the device for different purposes other than co pensation syste .

6- Fix the device tightly on the control panel with the apparatus given on the device without

hanging around.

7- Do not interfere to the keys on the front panel with an object other than your fingers.

8- Wipe your device with dry cloth being sure to disconnect the power. Water or che icals used

for cleaning da age to the device.

9- Make sure that the ter inal connections are ade in accordance with the connection

sche e and without causing contact proble (loose binding or ultiple copper cables touching

to each other, etc.), prior to co issioning (supplying energy) of your device.

10- Use co pensation contactors co patible to the power of the capacitor in your co pensation

syste . Select the fuses in the power line of the capacitor co patible to the current of the

capacitor.

11- Select the current value of the fuses connected to the C1 ter inal input of contact phase

considering the su of the current drawn by the coils of connectors in each group (senary). In

case of using connector with high current coil, auxiliary relay ust be used to prevent da age to

the contact outputs of the device.

12- The alerts and the warnings above are just for your security. In case of not applied, KAEL

Elektronik Ltd. or its seller is not responsible for undesirable conditions.

Specifications

√Easy to use with English enu

√Advanced software

√Easy to co issioning

√Color LCD screen ( 320 x 240 pixel 2.4” )

√Enough nu ber of steps needed (6 steps )

√Quickly and accurately detection power of capacitors

√Total current and voltage har onics, THD-I and THD-V

√Making co pensation even at low currents ( in. 10 A)

√Operating syste is used in the icro-processor

√Password protected

√Measuring te perature

√Following electrical para eters of three phases at the sa e ti e

■ Voltage of phase V( L – L)

■ Current of phase I

■CosΦ value CosΦ

■ Frequency Hz

■ Total har onic distortion of current THD-I

■ Total har onic distortion of voltage THD-V

12 3 45 6

Capacitor

step not

activated

Capacitor step

activated (green)

Step Indicator

The powers they are belonging to are not yet infor ed

A step indicator ade by sy bols that can be easily realized by the user, is located on the upper

part of the screen of VARko-106-TFT. No atter which part of the user in, this panel is always

located on the top of the screen.

LCD screen is used in VARko-106-TFT to provide it to be ore easier in use and be

intelligible. In case the keys are not pressed for a long ti e, the device switch to the screen saver

ode to extend the life of the display, and only the step indicator shown on the the top scrolls

down step by step fro the top to the botto of the screen. Thus, the condition of the steps can

be continued to be onitored. In case of pressing on any key, the ain screen i age appears

again.

■ The connections of the device should be ade while the syste is energy-free.

■ VARko-106-TFT should be connected as shown in the connection diagra .

■ Current transfor er and voltage connection should be ade according to Sche e.

■ The value of the selected current transfor ers should not be under the real load values but

should be X/5 a per. It is also advised to choose 0.5 class.

■ Connect the “C1” co on phase input to the sa e phase with FF type fuses seperately.

Select the fuses to be used according to the specified current value.

■ Do not energize the device without ensuring the connections checked by easure ent

instru ents.

Making the Connections

Commisioning

When co issioning the first ti e, start values

are loaded into the device. Then it requires to

enter the nu ber of steps. In this case, the

screen on the right side will be displayed. The

nu ber of step is set-up to the required value

by the direction keys and “Apply” is selected. In

case “Okay” key is pressed, saves the change.

Or, in case no key is pressed, when the ti e is

over on the screen, it switches to the section

in which the current transfor er ratio is

inserted by taking 6 steps in the e ory.

1 2 3 4 5 6

nter number of step

seconds

Apply▲ + ▼ - ◄

123456

nter number of step

seconds

CancelOkay xit

Save

Changes?

1 2 3 4 5 6

nter current transformer Value

seconds

00500 / 5A

Apply▲ + ▼ - ◄

123456

Insert current transformer Value

seconds

CancelOkay Back

00500 / 5A

Save

Changes?

The line on which the blue bar locates, is set-

up to the required value by using the direction

keys and switch to the next side by pressing

the left direction key. Inserting the co plete

pri ary value, “Apply” key is pressed. In case

of pressing “Okay” key, the change is saved.

1 2 3 4 5 6

searching for current

transformer direction ... 5

Main MenuPlease wait

R S T ????????

Switch on loads

For all phases

1 2 3 4 5 6

Seaeching for current

transformer directions...

Main Menu

Current Flow dir. not Detected

- Make sure all

phases have loads

- Check voltage and

current inputs

The device auto atically switches to the

internalization of current polarity direction

ode. In this case, it is required to draw

enough current fro each phase. If enough

current can not be drawn fro any phase, the

device warns as “current flow direction not

detected” and shows the phase or phases

which are not internalized by ??? arks. When

the current polarity direction are internalized,

the device switches to the auto atic capacitor

power internalization ode.

P.S.: There is no need to press on the ain

screen key nor ally.

1 2 3 4 5 6

Main MenuPlease wait

Rdetected

1 Step : Number of Steps

2 Step : Current Transformer Ratio

3 Step : Determine of Current Transformer Directions

1 2 3 4 5 6

Kvar

Make internalizeMain Screen

R S

Detecting step powers... 10:00

Please close the variable loads in the system.

S1 -1.0

Device tries to identify capacitor powers, by

activating and then re oving the steps in

sequence. It is reco ended the closure of

variable loads in the syste to ensure instant

internalization during this process. If required,

the user presses the “Make the steps

internalize” key and can ake the syste

internalize by hi self. The auto atic

internalization is put on hold in the eanti e.

The step is not internalized auto atically as

long as the user is in the “Make the steps

internalize” enu.

P.S.1: There is no need to press on the ain

screen key nor ally.

P.S.2: Despite of the variable loads are

disabled, the connections of the device should

be checked again in case any power of the

steps and their connections are not intenalized

for a long ti e.

4 Step : Learning of step powers

When all the steps are internalized, the ain

screen page co es up and the device starts

operating in auto atic ode.

5 Step (Main Screen)

searching for current

transformer directions ... 5

R S T ????????

S T

S2 -2.5

Connections

Current direction

L3 (T)

L2 (S)

L1 (R)

l1k1

Voltage

inputs

Current

Transformer

Inputs

Load

* Fuse co patible

to the capacitor

power

ALR

(Alarm output)

FAN

(Fan output)

FAN

VARko-106-TFT

400V AC

X/5A

Main Screen Te perature

Total Har onic Distortion

Steps

Voltage

(L-L)

Current

400

500

Frequency

Cos Φ

1 MENU

This is the section in which any of the electrical easure ents

are onitored and set-up are ade. The para eters are

accessed by direction keys in the enu, para eters are inserted

by “Select” key and exit fro the para eters by “Exit” key.

Target TanΦ - CosΦ

1 1 Select ▼ xit▲

1 1 MENU

►Target TanΦ - CosΦ

Switch On Ti e

Switch Off Ti e

Step Nu ber

Current Trans. Ratio

This is the section in which the required % value of the syste is entered. CosΦ value

corresponding to the % value is displayed auto atically on the other side. The value is setup to

the required step by using up and down keys starting fro the digit where the blue line is. Then,

left key is pressed and the blue line oves next to left digit. All values are entered in the sa e

way by using the up and down keys. Moving the blue sub-line to the digit where the sign is by

using left key, the sign can be changed by pressing upwards key. (+) expresses inductive, (-)

expresses capacitive sections..

Enter target TanΦ value

Apply▲ + ▼ - ◄

CosΦ

1.000

%+00

Enter target TanΦ value

CancelOkay xit

CosΦ

1.000

%+00 Save

changes

“Apply” key is pressed to take the

target value into e ory. “Save

Changes” essage will appear on

the screen. When “Okay” key is

pressed, the value is taken into the

e ory.

123456

123456 123456

Switch on Ti e ( 1 – 3600 sec)

1 2

Delay ti e to switch on any step. The value is setup to the required step starting fro the digit

under which the blue line is, by using up and down keys. Then left key is pressed and the blue line

oves next to left digit. All the values are entered in the sa e way by using up and down keys.

Press “Apply” key inorder to take the period of step activating into e ory. “Save changes”

essage will appear on the screen. When “Okay” key is pressed, the value is taken into e ory.

Enter Step Switch On (Dis.)

Ti e

Apply▲ + ▼ - ◄

0020 sec

CancelOkay xit

Enter Step Switch On (Dis.)

Ti e

0020

Save

changes

123456 123456

Switch Off Ti e ( 1 – 3600 sec)

1 3

Delay ti e to switch Off any step. The value is setup to the required step starting fro the digit

under which the blue line is, by using up and down keys. Then left key is pressed and the blue line

oves next to left digit. All the values are entered in the sa e way by using up and down keys.

Press “Apply” key inorder to take the period of step activating into e ory. “Save changes”

essage will appear on the screen. When “Okay” key is pressed, the value is taken into e ory.

Enter Step Switch Off Ti e

Apply▲ + ▼ - ◄

0020 sec

CancelOkay xit

Enter Step Switch Off Ti e

0020

Save

changes

123456 123456

Nu ber of Steps ( 3 – 12)

1 4

Enter nu ber of steps

Apply▲ + ▼ - ◄CancelOkay xit

This is the section in which the nu ber of steps will be used for co pensation, is entered. The

value is setup to the required step by using up and down keys starting fro the digit where the blue

line is. Then, left key is pressed

12 12 Save

changes

Enter nu ber of steps

and the blue line oves next to left

digit. All values are entered in the

sa e way by using the up and down

keys. Press “Apply” key inorder to

take the nu ber of steps into

e ory. “Save changes” essage

will appear on the screen. When

“Okay” key is pressed, the value is

taken into e ory.

123456 123456

Current Trans. Ratio ( 5.......10000 / 5A )

1 5

Enter current transfor er value

Apply▲ + ▼ - ◄

00500 / 5A

Enter current transfor er value

CancelOkay xit

This is the section in which the pri ary value of current transfor ers in co pensation syste , is

entered. The value is setup to the required step by using up and down keys starting fro the digit

where the blue line is. Then, left key is pressed and the blue line oves next to left digit. All

values are entered in the sa e way by using the up and down keys. Press “Apply” key inorder to

take the current transfor er (pri ary) value into e ory. “Save changes” essage will appear on

the screen. When “Okay” key is pressed, the value is taken into e ory.

00500 / 5A

Save

changes

123456 123456

Current Flow Direction

1 6

This is the section in which the function of searching of current transfor er polarity directions are

activated or de-activated. In case “Enable” is selected, internalization of current transfor er

direction is always “On”, and only checks the directions when the device is powered. If “disable” is

selected, then the device internalize the current transfor er directions at once and do not change

it. The “disable” choice should be selected for so e loads (producing negative active load).

The required status for function is selected by using the up

and down keys. Press “Apply” key inorder to take this para eter

into e ory. “Save changes” essage will appear on the screen.

When “Okay” key is pressed, the value is taken into e ory.

Apply▲ + ▼ -

Enable

Direction Detection Status

1 2 3 4 5 6

Enter Power of Steps

1 7

xit▲▼

Kvar

Select

RS T

S1 ---------

S2 ---------

S3 ---------

S4 ---------

S5 ---------

Step powers are adjusted anually...

xit▲▼Select

1.Step

0.000 KVAr

1.Step

Apply▲ + ▼ - ◄

CancelOkay xit

xit▲▼

Select

1.Step

CancelOkay xit

R S T

- 0.000 KVAr

RST

KVAr

RST- 0.000

Save

changes

This is the section in which the step powers

are entered. The device directs the user

with subco and display continuously. It is

oved on the step of which the power is

required to be entered by using the up and

down keys. In the eanti e, that line are in

red colour. Select key is pressed.

The selected step nu ber co es to screen.

The “Select” key is pressed and a blue

underline appears on the last digit inside of

the fra e. The value is setup by using the

up and down keys starting fro the digit

where the blue line is. Then, left key is

pressed and the blue underline oves next

to the left digit. All the values are entered in

1 8 Delete Power of Steps

the sa e way by using up and down keys.

The “Apply” key is pressed to take the

into e ory. The sub-co and screen

changes and “Okay”, then “Exit” key is

pressed. “Save Changes” will appear on

the screen. When “Okay” key is pressed,

the value is taken into e ory.

1 2 3 4 5 6 1 2 3 4 5 6

123456

This is the section in which the step para eters are deleted one by one, or all. In case the reactive

load is changed in any step, the power of that step ust be deleted to let the device internalize the

the power of new step. The device fowards the user continuously by sub-co and screen. Moving

onto the step of which power required to be deleted, the up or down key is pressed. The line is in red

colour in the eanti e. In case of deleting only that step, “Delete” key is pressed; in case of deleting

all steps (if a device used in so ewhere else is connected to a new plant), “Delete All” key is

pressed. If “Delete” key is pressed, “Step Delete?” warning appears on the screen. When “Okay” key

is pressed, the power of that step would be deleted. The device will auto atically try to internalize the

power of that step again. You can exit the enu by “Exit” key. In case “Delete All?” key is pressed,

“Steps Delete?” warning appears on the screen. When “Okay” key is pressed, the power of all

steps would be deleted. The device will auto atically try to internalize the power of that step again.

You can exit the enu by “Exit” key.

xit▼ Delete CancelOkay Back

CancelOkay Back

xit▼ Delete Delete All

Delete All

S5 - 5,000

Kvar R S T

S1 - 1,000

S2 - 1,500

S3 - 2,500

S4 - 5,000

1 3 4 52 6

S5 - 5,000

Kvar RST

S1 - 1,000

S2 - 1,500

S3 - 2,500

S4 - 5,000

1 3 4 52 6

Step

Delete ?

S5 - 5,000

Kvar RS T

S1 - 1,000

S2 - 1,500

S3 ----------

S4 - 5,000

134 52 6

S5 - 5,000

Kvar R S T

S1 - 1,000

S2 - 1,500

S3 - 2,500

S4 - 5,000

1 3 4 52 6

Steps

Delete ?

S5 ----------

Kvar RS T

S1 ----------

S2 ----------

S3 ----------

S4 ----------

1 3 4 52 6

Alar & Protection Para eters

1 9

1 9 1 1 Phase alarms 1 9 1 2 General Alarms

Over voltage

Under voltage

Over current

Over co pensation

Under co pensation

No phase

THD on voltage

HD on voltage

THD on current

HD on current

1st Connector Error

Total over co pensation

Total under co pensation

Syste Error

Over te perature

Voltage connection

Step Change

Step Zero

Modbus security Error

1 9 1 Alarm Control

1 9 1 1 1 Phase Alarms – Over Voltage (enable)

In case of over voltage during the activation of alert, alert is given and device warns the user.

In this case;

- capacitors and devices in the syste ay be da aged.

- “Voltage protection activated” ay be preferred in the step protection function

Phase Alarms – Under Voltage (enable)

In case of under voltage during the activation of alert, alert is given and device warns the user.

In this case;

- capacitors and devices in the syste ay be da aged or ay not be operated properly.

- “Voltage protection activated” ay be preferred in the step protection function

Phase Alarms – Over Current (enable)

In case over current is drawn fro the syste during the activation of alert, alert is given and

device warns the user. In this case;

- Inputs of the device ay be da aged any o ent. This case is out of warranty.

- Please stop the syste and replace the current transfor ers with the larger ones.

Phase Alarms – Over Compensation (enable)

In case the syste falls into over co pensation in any phase during the activation of alert, device

warns the user. In this case;

- Review the capacitor power distribution in the steps, especially in the phase where the alert is

given.

- Please allow less powerful capacitors which can reach buffer power values.

Phase Alarms – Under Compensation (enable)

In case the syste falls into under co pensation in any phase during the activation of alert,

device warns the user.

In this case;

- Review the capacitor power distribution in the steps, especially in the phase where the alert is

given.

- Please insert the capacitors which the phase or the phases need.

1 9 1 1 2

1 9 1 1 3

1 9 1 1 4

1 9 1 1 5

1 9 1 1 Phase alarms

Phase Alarms – THD on Voltage (enable)

In case total har onic failure in the phase voltage exceeds the set value during the activation of

alert, device warns the user.

In this case;

- You should install har onic filter to protect your devices.

1 9 1 1 7

Phase Alarms – HD on Voltage (enable)

In case the failure of any har onics between 3...31 in the phase voltage exceeds the set value

during the activation of alert, device warns the user.

In this case;

- You should install har onic filter to protect your devices.

Phase Alarms – THD on Current (enable)

In case total har onic failure in the phase of syste exceeds the set value during the activation of

alert, device warns the user.

In this case;

- You should install har onic filter to protect your devices.

Phase Alarms – HD on Current (enable)

In case the failure of any har onics between 3...31 in the phase voltage exceeds the set value

during the activation of alert, device warns the user.

In this case;

- You should install har onic filter to protect your devices.

1 9 1 1 8

1 9 1 1 9

1 9 1 1 10

1 9 1 2 1 General Alarms – 1 connector failure (K1 K6) (enable)

In case of this alar ;

- (C1) co on phase input ay not be connected.

- The fuse of (C1) co on phase input ay blowed out.

- Co pensation connection ay be ade prior to current transfor ers.

- Re oving the failure, steps internalized zero should be internalized again.

1 9 1 2 4 General Alarms – Total Over Compensation (enable)

In case of this alar ;

- The syste ay be kept in penalty.

- Review the capacitor power distribution in the steps.

- Please allow less powerful capacitors which can reach buffer values.

1 9 1 2 5 General Alarms – Total Under Compensation (enable)

In case of this alar ;

- The syste ay be kept in penalty.

- Review the capacitor power selection in the steps.

- Please insert the capacitors which the phase or the phases need.

1 9 1 2 6 General Alarms – System Error (enable)

In case of this alar ;

- (C1) co on phase input ay not be connected.

- The fuse of (C1) co on phase input ay blowed out.

- The fuses in the power line of capacitors ay blowed out.

- Re oving the failure, steps internalized zero should be internalized again.

1 9 1 2 7 General Alarms – Over Temperature (enable)

In case of this alar ;

- The te perature in the board exceeds the value setted.

- Please e power the panel cooling.

-“Te perature protection enable” ay be preferred in the step protection function (Chapter 179641)

1 9 1 2 General Alarms

1 9 1 2 9 General Alarms – Step Change (enable)

In case of this alar ;

- The old capacitor ay be replaced with the new one, but power value is not entered, or the

power of capacitor ay be decreased 50%.

1 9 1 2 10 General Alarms – Step Zero (enable)

In case of this alar ;

- The fuses in the power line of capacitors ay blowed out or contactor ay be da aged.

- Re oving the failure, steps internalized zero should be internalized again.

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