Thytronic NVA100X Getting Started Download

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NVA100X - Getting started - 01 - 2018

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Packaging

ProNext devices must be stored within the required temperature limits; the relative humidity should

not cause condensation or formation of frost.

It is recommended that the devices are stored in their packaging; in the case of long storage, especial-

ly in extreme climatic conditions, it is recommended that the device is supplied with power for

some hours before the commissioning, in order to bring the circuits to the rating conditions and to

stabilize the operation of the components.

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Contents

• Getting started

• Test report

• Screws

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Technical support

Full documentation is available on the www.thytronic.it website; for information and purchase of licen-

ses for oscillographic recording function please contact THYTRONIC.

TABLE OF CONTENTS

Packaging ...................................................................................................................................................................................................................1

Contents .....................................................................................................................................................................................................................1

Technical support ......................................................................................................................................................................................................1

INSTALLATION 2

Mounting .....................................................................................................................................................................................................................2

Flush mounting ...........................................................................................................................................................................................................2

I/O diagram .................................................................................................................................................................................................................4

Electrical connections ..............................................................................................................................................................................................5

Output relays ..............................................................................................................................................................................................................6

Binary Inputs ..............................................................................................................................................................................................................6

Ethernet Ports ............................................................................................................................................................................................................7

Local Port ....................................................................................................................................................................................................................7

RS485 port ...................................................................................................................................................................................................................8

PROGRAMMING AND SETTINGS

MMI Password management ..................................................................................................................................................................................9

MMI (Man Machine Interface) .............................................................................................................................................................................11

Reading variables (READ) ......................................................................................................................................................................................11

Setting modifying (SET) ..........................................................................................................................................................................................12

TEST ...........................................................................................................................................................................................................................13

COMMUNICATION ..................................................................................................................................................................................................13

Circuit breaker commands .....................................................................................................................................................................................13

MMI menu structure ...............................................................................................................................................................................................14

NVA100X#P2J00TE0

AUX

110-230 Vac/dc

100V
100V

Flush mounting

Inductive CTs-VTs

ThySensor inputs versions

Rack mounting with

MAR support

20 kV

630 A

NVA100X#P2000TE2

AUX

110-230 Vac/dc

GETTING STARTED

NOTE

This document does not replace the instruction manual.

Some functions described may be not available in all NVA100X models.

NVA100X

THE COMPREHENSIVE SOLUTION FOR FEEDERS AND UTILITIES PROTECTION

Summary of Contents for NVA100X

Page 1: ...ing function please contact THYTRONIC TABLE OF CONTENTS Packaging 1 Contents 1 Technical support 1 INSTALLATION 2 Mounting 2 Flush mounting 2 I O diagram 4 Electrical connections 5 Output relays 6 Bin...

Page 2: ...ns indicated in the overall dimensions drawing increased by 3 mm to ensure an adequate tolerance and gasket space between adjacent relays The depth dimension as indicated in the drawing must be increa...

Page 3: ...started 01 2018 Remove the two vertical frames for access the holes for the fi xing screws the frames are snapped Insert the device into the slot Fit the device to the panel with four screws Replace t...

Page 4: ...2 18 20 19 9 10 11 12 13 14 OC1E KC1 1 4 6 5 KC1 2 7 8 KC1 3 KC1 4 KC1 5 KC1 6 15 17 16 KC1 7 KC1 8 1 3 2 18 20 19 9 10 11 12 13 14 OC2F KC2 1 4 6 5 KC2 2 7 8 KC2 3 KC2 4 KC2 5 KC2 6 15 17 16 KC2 7 K...

Page 5: ...r checks on the amperometric circuits is essential to provide appropriate support to achieve the secondary circuit shorting For security reasons it is advisable to operate in the absence of line curre...

Page 6: ...1 5 mm2 for two conductors with same cross section Tightening torque 0 5 0 6 Nm Stripping length 10 mm Output relays The device may be confi gured with Two boards with eight command relays KC1 1 KC1 8...

Page 7: ...ed by means ThySetter sw and local connection Set the IP address Host IP address and IP net mask n order that the NVA100X and PC parame ters are matched Set to OFF parameters Autonegotiation on relay...

Page 8: ...le end It is recommended to terminate the line at the extremities of the same this must be performed on the RS485 line control unit and on the ProNext device placed at the furthest point serial1 sch a...

Page 9: ...Press the key ENTER PASSWORD message is displayed followed by Password not ok press the key you can enter the personal password with the usual procedure de fault password is 0000 Press the Enter butt...

Page 10: ...ameter from MMI can be changed and the changes can only be made by ThySetter To enable modification from MMI without password is needed to disable password lock connecting a PC with Thysetter setting...

Page 11: ...possible faults blink lighted The display backlight is automatically activated when any key switch is set By means of the Up or Down buttons it is possible to cyclically browse through the menu option...

Page 12: ...ower supply to the relay As example to set the operating mode of the KC1 1 output relay as ENERGIZED LATCHED the following procedure must be issued Select menu Set SET by mean of the button Down Press...

Page 13: ...in menu till the RS485 Protocol Ethernet Local Parameters or Ethernet Remote Parameters to enter you must press the Right button As example to select the address 12 for the ModBus protocol the followi...

Page 14: ...n 0 000 In IL 0 000 In ULmax 0 000 En UL 0 000 Un U 0 000 Un PhiL1 0 deg PhiL2 0 deg PhiL3 0 deg Alpha1 0 deg Alpha2 0 deg Alpha3 0 deg PhiE 0 deg PhiEC 0 deg DTheta 0 DThetaB I1 0 000 In I2 0 000 In...

Page 15: ...BLK2IN DThAL2 OFF BLK2IN DThAL2 OFF BLK4IN DThAL2 OFF Trip DTh OFF BLK1 DTh OFF BLK2IN DTh OFF BLK4IN DTh OFF CLP DTh OFF 49LT 79 ActiveMode 79 OFF Run 79 OFF CycleState 79 Rest Residual time 79 0 s L...

Page 16: ...K4IN IPD OFF Start IPD OFF Trip IPD OFF CLP IPD OFF BLK1 IPD OFF BLK2IN IPD OFF BLK4IN IPD OFF Start IPD OFF Trip IPD OFF CLP IPD OFF BLK1 IPD OFF BLK2IN IPD OFF BLK4IN IPD OFF 67 Start U OFF Trip U O...

Page 17: ...000 Un U12r 0 000 Un U23r 0 000 Un U31r 0 000 Un IEr 0 000 IEn IECr 0 000 IEn UEr 0 000 UEn UECr 0 000 UECn PhiL1r 0 deg PhiL2r 0 deg PhiL3r 0 deg Alpha1r 0 deg Alpha2r 0 deg Alpha3r 0 deg PhiEr 0 deg...

Page 18: ...D cnt 0 ParBk1IPD cnt 0 ParBk2IPD cnt 0 ParStIED cnt 0 ParTrIED cnt 0 ParBk1IED cnt 0 ParBk2IED cnt 0 ParStIED cnt 0 ParTrIED cnt 0 ParBk1IED cnt 0 ParBk2IED cnt 0 ParStIED cnt 0 ParTrIED cnt 0 ParBk1...

Page 19: ...otBk2IPD cnt 0 TotStIPD cnt 0 TotTrIPD cnt 0 TotBk1IPD cnt 0 TotBk2IPD cnt 0 TotStIED cnt 0 TotTrIED cnt 0 TotBk1IED cnt 0 TotBk2IED cnt 0 TotStIED cnt 0 TotTrIED cnt 0 TotBk1IED cnt 0 TotBk2IED cnt 0...

Page 20: ...16 IN2 1 0000000000000000 Relays KC1 8 KC1 1 00000000 Relays KC2 8 KC2 1 00000000 Fault x Cause No faults Operating phase Date Time IL1r 0 000 In IL2r 0 000 In IL3r 0 000 In UL1r 0 000 En UL2r 0 000 E...

Page 21: ...tOFF 0 s IN1 2 matching None Logic Active ON ON Delay IN1 2 tON 0 s OFF Delay IN1 2 tOFF 0 s IN1 2 matching None ENABLE VECTOR JUMP Endphi ON 0 2 En tEndphi 0 5 s INPUTS IN1 1 IN1 16 Binary input IN1...

Page 22: ...Common P1 Element P2 Element Q1 DIR Q Forward Q1 RES 0 00 s Q1 def enable OFF Q1 def 0 50 Qn tQ1 def 1 00 s Q1 BLK1 OFF Relays Q1 Q1 ST K Q1 TR K LEDs Q1 Q1 ST L Q1 TR L Q2 DIR Q Forward Q2 RES 0 00 s...

Page 23: ...BLK4 OFF Dth BF OFF Dth disby50 51 OFF Relays Dth Dth K LEDs Dth Dth L Dth Element 49MG Common DthIN 0 0 DThetaB KST 2 0 K2 0 T 10 min T 1 0 T DthCLP Mode OFF tDthCLP 0 10 s DthAL1 Element DthAL1 Ena...

Page 24: ...ILR inv 0 8 IB I MOT ST 1 IB tLR inv 10 s ILR BLK1 OFF ILR BLK2IN OFF ILR BLK2OUT OFF ILR BF OFF Relays ILR ILR ST K ILR TR K LEDs ILR ILR ST L ILR TR L ILR Enable OFF Mode51LR No speed crt1 tLRCLP 0...

Page 25: ...U U ST K U TR K LEDs U U ST L U TR L U def Enable OFF U def 1 Un tU def 1 s U BLK1 OFF U disbyU OFF U BF OFF Relays U U ST K U TR K LEDs U U ST L U TR L Utype59 Uph ph Logic59 OR U Element U Element...

Page 26: ...IEDCLP def 1 IEn tED def 1 s IED BLK1 OFF IED BLK2IN OFF IED BLK2OUT OFF IED BLK4 OFF IED BF OFF IED disIED OFF IED disIED OFF IED disIED OFF Relays IED IED ST K IED TR K LEDs IED IED ST L IED TR L IE...

Page 27: ...LEDs BLOCK2IN tB L BLOCK2 INPUT ModeBLOUT1 OFF tF IPh 1 s tF IE 1 s tF IPh IE 1 s Relays BLOCK2OUT BLOCK2OUT IPh K BLOCK2OUT IE K BLOCK2OUT IPh IE K LEDs BLOCK2OUT BLOCK2OUT IPh L BLOCK2OUT IE L BLOC...

Page 28: ...Protocol MODBUS Address 1 9600 bauds REMOTE TRIPPING PulseBLOUT1 OFF PulseBLIN1 OFF Relays PulseBLIN1 K LEDs PulseBLIN1 L PILOTE WIRE DIAGNOSTIC Test state OFF Stop test Yes Start test Yes Test KC1 1...

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