DynAmp LKCO

LKCO represents a sig�� Ƴ�� Ƴ�� Ƴ�� Ƴ��nificant breakthrough i�� Ƴ�� Ƴ�� Ƴ��n high current m�� Ƴ�� Ƴ��easurement. Adv�� Ƴ�� Ƴ�� Ƴ��anced optical technolo�� Ƴ�� Ƴ�� Ƴ��gy senses the phase s�� Ƴ�� Ƴ��hift in ligh�� Ƴ�� Ƴ�� Ƴ�� Ƴ��t caused by the magn�� Ƴ�� Ƴ�� Ƴ��etic field fr�� Ƴ�� Ƴ�� Ƴ�� Ƴ��om the bus curren�� Ƴ�� Ƴ�� Ƴ�� Ƴ��t when it is ro�� Ƴ�� Ƴ�� Ƴ�� Ƴ��uted around a cu�� Ƴ�� Ƴ��rrent carrying bus via�� Ƴ�� Ƴ�� fiber optics.

Key Features�� Ƴ�� Ƴ�� Ƴ�� Ƴ��

• Superior, re�� Ƴ�� Ƴ��jection of ext�� Ƴ�� Ƴ�� Ƴ�� Ƴ��ernal influe�� Ƴ�� Ƴ�� Ƴ��nces. Permits�� Ƴ�� Ƴ�� installation on�� Ƴ�� Ƴ�� Ƴ�� compact and geometri�� Ƴ�� Ƴ�� Ƴ��cally co�� Ƴ�� Ƴ�� Ƴ��mplex bus work. No n�� Ƴ�� Ƴ�� Ƴ�� Ƴ��eed for DynAmp Bus Analy�� Ƴ�� Ƴ��sis or exact�� Ƴ�� Ƴ�� positioning to optimiz�� Ƴ�� Ƴ�� Ƴ��e performance.

• Excellent Low �� Ƴ�� Ƴ��Current Performance �� Ƴ�� Ƴ�� Ƴ�� Ƴ��thanks to true bi-di�� Ƴ�� Ƴ��rectional opera�� Ƴ�� Ƴ�� Ƴ�� Ƴ��tion and near perfec�� Ƴ�� Ƴ��t integration �� Ƴ�� Ƴ�� Ƴ�� Ƴ��of the bus magnetic fiel�� Ƴ�� Ƴ�� Ƴ��d.

• Extremely comp�� Ƴ�� Ƴ��act and light-weight�� Ƴ�� Ƴ��. Designed t�� Ƴ�� Ƴ�� Ƴ��o be “bus bar mounted�� Ƴ�� Ƴ��”. Eliminates ad�� Ƴ�� Ƴ��ditional suppor�� Ƴ�� Ƴ�� Ƴ�� Ƴ��t and protection str�� Ƴ�� Ƴ��uctures. Compact modular�� Ƴ�� Ƴ�� Ƴ�� head allows instal�� Ƴ�� Ƴ��lation with le�� Ƴ�� Ƴ��ss than 500px o�� Ƴ�� Ƴ�� Ƴ�� Ƴ��f bus clearan�� Ƴ�� Ƴ��ce

• Patented Closed-Loo�� Ƴ�� Ƴ��p “Full Compensa�� Ƴ�� Ƴ�� Ƴ��tion” places the entire �� Ƴ�� Ƴ��system (light source, op�� Ƴ�� Ƴ��to-electronics�� Ƴ�� Ƴ�� Ƴ�� Ƴ��, fiber optics an�� Ƴ�� Ƴ��d even measurement out�� Ƴ�� Ƴ�� Ƴ�� Ƴ��puts) under clo�� Ƴ�� Ƴ�� Ƴ��sed loop control t�� Ƴ�� Ƴ�� Ƴ�� Ƴ��o automatically compen�� Ƴ�� Ƴ��sate for long �� Ƴ�� Ƴ�� Ƴ��term changes.

Technical Ove�� Ƴ�� Ƴ��rview

1) Polarized light �� Ƴ�� Ƴ��is split into two�� Ƴ�� Ƴ�� Ƴ�� linearly polarized li�� Ƴ�� Ƴ��ght waves.

2) The two linearly�� Ƴ�� Ƴ�� Ƴ�� polarized light waves a�� Ƴ�� Ƴ��re converted to cir�� Ƴ�� Ƴ��cular polarization befo�� Ƴ�� Ƴ�� Ƴ�� Ƴ��re traveling

around the bus�� Ƴ�� Ƴ�� Ƴ�� Ƴ��, reflecting off t�� Ƴ�� Ƴ��he end of the f�� Ƴ�� Ƴ�� Ƴ��iber and returning a�� Ƴ�� Ƴ�� Ƴ�� Ƴ��long the same path.

The bus magnetic fiel�� Ƴ�� Ƴ�� Ƴ��d creates an optical pha�� Ƴ�� Ƴ�� Ƴ�� Ƴ��se shift due to th�� Ƴ�� Ƴ�� Ƴ�� Ƴ��e Faraday effect.�� Ƴ�� Ƴ�� Ƴ�� Because the tw�� Ƴ�� Ƴ�� Ƴ��o

light waves are polari�� Ƴ�� Ƴ��zed in opposite �� Ƴ�� Ƴ�� Ƴ��directions, t�� Ƴ�� Ƴ��he shifts are in oppos�� Ƴ�� Ƴ�� Ƴ�� Ƴ��ite directions�� Ƴ�� Ƴ�� Ƴ��.

Other conditions, such �� Ƴ�� Ƴ��as vibration, als�� Ƴ�� Ƴ�� Ƴ��o create an optical shif�� Ƴ�� Ƴ��t but affect t�� Ƴ�� Ƴ��he two light signals in

the same direction, th�� Ƴ�� Ƴ�� Ƴ��erefore not ch�� Ƴ�� Ƴ�� Ƴ�� Ƴ��anging the “measureme�� Ƴ�� Ƴ�� Ƴ�� Ƴ��nt” shift.

3) The two light wa�� Ƴ�� Ƴ��ves return to the opto-�� Ƴ�� Ƴ�� Ƴ��electronics whe�� Ƴ�� Ƴ�� Ƴ�� Ƴ��re phase shi�� Ƴ�� Ƴ��fts are measured �� Ƴ�� Ƴ�� Ƴ�� Ƴ��for a 'raw'

measurement sig�� Ƴ�� Ƴ�� Ƴ�� Ƴ��nal

4) Patented closed-loo�� Ƴ�� Ƴ��p full compen�� Ƴ�� Ƴ�� Ƴ��sation accurately�� Ƴ�� Ƴ�� Ƴ�� nulls this sh�� Ƴ�� Ƴ��ift electromagneticall�� Ƴ�� Ƴ��y in the

same medium that sens�� Ƴ�� Ƴ��ed the bus curr�� Ƴ�� Ƴ�� Ƴ��ent. This automatic�� Ƴ�� Ƴ��ally compensates for�� Ƴ�� Ƴ�� any gain, sensitiv�� Ƴ�� Ƴ��ity

and zero point �� Ƴ�� Ƴ�� Ƴ�� Ƴ��change or lo�� Ƴ�� Ƴ�� Ƴ�� Ƴ��ng term drift �� Ƴ�� Ƴ�� Ƴ��in the entire system ( �� Ƴ�� Ƴ��light source�� Ƴ�� Ƴ�� Ƴ�� Ƴ��, opto-electronics, fi�� Ƴ�� Ƴ�� Ƴ��ber

optics and m�� Ƴ�� Ƴ��easurement out�� Ƴ�� Ƴ�� Ƴ�� Ƴ��put signal ).

5) Advanced Accur�� Ƴ�� Ƴ�� Ƴ��acy Diagnost�� Ƴ�� Ƴ�� Ƴ��ics (A<sub>2</�� Ƴ�� Ƴ��sub>D) continuo�� Ƴ�� Ƴ��usly monitors sy�� Ƴ�� Ƴ�� Ƴ��stem operation�� Ƴ�� Ƴ�� and perform�� Ƴ�� Ƴ�� Ƴ�� Ƴ��ance to enhance �� Ƴ�� Ƴ�� Ƴ�� Ƴ��measurement confide�� Ƴ�� Ƴ��nce. A<sub>2<�� Ƴ�� Ƴ��/sub>D notif�� Ƴ�� Ƴ�� Ƴ�� Ƴ��ies user of �� Ƴ�� Ƴ�� Ƴ��specific installatio�� Ƴ�� Ƴ�� Ƴ�� Ƴ��n problems, deve�� Ƴ�� Ƴ�� Ƴ�� Ƴ��loping problems and fau�� Ƴ�� Ƴ��lts. A<sub>�� Ƴ�� Ƴ�� Ƴ�� Ƴ��;2</sub>D even rec�� Ƴ�� Ƴ��ords events for�� Ƴ�� Ƴ�� Ƴ�� subsequent anal�� Ƴ�� Ƴ��ysis and root cause inv�� Ƴ�� Ƴ��estigation and is availa�� Ƴ�� Ƴ�� Ƴ��ble via digital conne�� Ƴ�� Ƴ��ction.

Specifications

Input : Bus Current to �� Ƴ�� Ƴ�� Ƴ�� Ƴ��+/- 600 kA fu�� Ƴ�� Ƴ��ll scale

Over-current �� Ƴ�� Ƴ��110% of F.S. mea�� Ƴ�� Ƴ��surement

Infinity without d�� Ƴ�� Ƴ�� Ƴ�� Ƴ��amage

Measurement Performa�� Ƴ�� Ƴ��nce (applies from �� Ƴ�� Ƴ��10% to 110% of F.S�� Ƴ�� Ƴ��.):

Measurement accuracy ±0.�� Ƴ�� Ƴ�� Ƴ�� Ƴ��1% of measurement

Repeatability �� Ƴ�� Ƴ�� Ƴ��±0.02% of measureme�� Ƴ�� Ƴ�� Ƴ�� Ƴ��nt

Linearity ±0.1% of fu�� Ƴ�� Ƴ��ll scale

Measurement �� Ƴ�� Ƴ�� Ƴ��Outputs : Uni-direct�� Ƴ�� Ƴ��ional or bi-direct�� Ƴ�� Ƴ�� Ƴ�� Ƴ��ional

Standard :Low Level�� Ƴ�� Ƴ�� Ƴ�� Shunt Voltage F�� Ƴ�� Ƴ�� Ƴ�� Ƴ��eedback Curr�� Ƴ�� Ƴ��ent (5V max burden�� Ƴ�� Ƴ�� Ƴ�� Ƴ��)

< 100kA 10mV / kA or �� Ƴ�� Ƴ�� Ƴ�� Ƴ��1V FS 1A FS

> 100kA 1mV / �� Ƴ�� Ƴ�� Ƴ�� Ƴ��kA or 1V FS 4mA/kA (25�� Ƴ�� Ƴ�� Ƴ��0000:1)

Optional : L�� Ƴ�� Ƴ�� Ƴ�� Ƴ��ow-level current 0/�� Ƴ�� Ƴ�� Ƴ�� Ƴ��4…20mA full scale

High-level vol�� Ƴ�� Ƴ��tage 0 to +/- 10V�� Ƴ�� Ƴ�� Ƴ�� FS

Frequency 0 to �� Ƴ�� Ƴ�� Ƴ�� Ƴ��10kHz full s�� Ƴ�� Ƴ��cale Digital / networ�� Ƴ�� Ƴ��k ModBus or Profi�� Ƴ�� Ƴ�� Ƴ�� Ƴ��Bus

Digital display �� Ƴ�� Ƴ�� Ƴ��Internal or re�� Ƴ�� Ƴ��mote

Mains 95…264VAC@47…63�� Ƴ�� Ƴ��Hz or 100…264VDC

350VA w/o envi�� Ƴ�� Ƴ�� Ƴ�� Ƴ��ronmental options�� Ƴ�� Ƴ�� Ƴ�� Ƴ��

Isolation ( Hi-Pot tes�� Ƴ�� Ƴ�� Ƴ��ted at 60Hz )

Head to output / c�� Ƴ�� Ƴ�� Ƴ�� Ƴ��hassis 6.0kVAC for 1�� Ƴ�� Ƴ�� Ƴ�� Ƴ�� minute

Mains supply to output�� Ƴ�� Ƴ�� Ƴ�� 1.5kVAC for 1 minute

Mains or Outpu�� Ƴ�� Ƴ�� Ƴ�� Ƴ��t to chassis 1.5kVAC f�� Ƴ�� Ƴ�� Ƴ��or 1 minute

Environmental Operatin�� Ƴ�� Ƴ��g Storage

Measuring Head IP65�� Ƴ�� Ƴ�� Ƴ�� Ƴ�� -40º to 70ºC -4�� Ƴ�� Ƴ�� Ƴ�� Ƴ��0º to 70ºC

Compensation M�� Ƴ�� Ƴ��odule IP65 -40º �� Ƴ�� Ƴ�� Ƴ�� Ƴ��to 70ºC -40º to 70º�� Ƴ�� Ƴ�� Ƴ��C

Metering Unit IP54 -10º�� Ƴ�� Ƴ�� Ƴ�� Ƴ�� to 40ºC* -40º to 70�� Ƴ�� Ƴ�� Ƴ�� Ƴ��ºC

*Metering Unit requi�� Ƴ�� Ƴ�� Ƴ��res fan optio�� Ƴ�� Ƴ�� Ƴ��n from 30º to 40º�� Ƴ�� Ƴ��C

or air conditioning �� Ƴ�� Ƴ��option for over 40ºC am�� Ƴ�� Ƴ�� Ƴ��bient, requires �� Ƴ�� Ƴ��heater option below -�� Ƴ�� Ƴ�� Ƴ�� Ƴ��10ºC

Humidity (non-con�� Ƴ�� Ƴ�� Ƴ�� Ƴ��densing) 0 to �� Ƴ�� Ƴ�� Ƴ�� Ƴ��85% 0 to 60%

Metering Unit to Co�� Ƴ�� Ƴ��mpensation Module Cab�� Ƴ�� Ƴ��ling

DynAmp supplied�� Ƴ�� Ƴ�� cabling : 30m�� Ƴ�� Ƴ�� Ƴ�� standard

Connectors at Me�� Ƴ�� Ƴ�� Ƴ��tering Unit

Physical

Metering Unit 1525px w x�� Ƴ�� Ƴ�� 77 h x 54 d

Compensation Module 11�� Ƴ�� Ƴ�� Ƴ�� Ƴ��00px w x 39 h x 17 �� Ƴ�� Ƴ�� Ƴ�� Ƴ��d

Measurement Head Modula�� Ƴ�� Ƴ�� Ƴ��r, sized to bus

(250px x 250px cross�� Ƴ�� Ƴ��-sec)

Products

DynAmp LKCO

DynAmp LKCO