Brief: Current transformers are designed to shrink the primary circuit current within the conversion ratio and transfer it to secondary circuit elements and to isolate the measurement and protection devices they are connected to from the high voltage system.
◉Accuracy Class : 0,5 ◉ Primary Current : 500A ◉ Secondary Current : 5A ◉ Output Power : 5VA ◉ Busbar Dimension : 40x10mm.
Brief: Current transformers are designed to shrink the primary circuit current within the conversion ratio and transfer it to secondary circuit elements and to isolate the measurement and protection devices they are connected to from the high voltage system.
◉Accuracy Class : 0,5 ◉ Primary Current : 400A ◉ Secondary Current : 5A ◉ Output Power : 5VA ◉ Busbar Dimension : 40x10mm.
Brief:EM-72 When the device is energized, firstly you need to enter the current transformer value in order to see the current values accurately. You can set the current transformer value by entering the menu. If you make direct connection without current transformer under 5A, you need to ensure that the current transformer value is 5. The device shows the phase-neutral, phase-phase voltages, frequency, phase sequence and current values.
•Easy Installation and Operation with 3x6 LED Display
•3-Phase Current Transformers
•Shows Voltage (V), Current (I) and Frequency (F) Values of Each Phase
Brief:EOCRSE2-E(Easy type)Electronic overload relay are designed to monitor single phaseand three-phase motors against overheating and damage caused by Over-load and phaseloss at industrial sites.
Brief:EOCR-SE2-E(Easy type)Electronic overload relay are designed to monitor single phaseand three-phase motors against overheating and damage caused by Over-load and phaseloss at industrial sites.
Brief:EOCRSE2-E(Easy type)Electronic overload relay are designed to monitor single phaseand three-phase motors against overheating and damage caused by Over-load and phaseloss at industrial sites.
Brief:EOCRDS-E(Easy type)Electronic overload relay are designed to monitor single phaseand three-phase motors against overheating and damage caused by Over-load and phaseloss at industrial sites.
Brief:EOCRDS-E(Easy type)Electronic overload relay are designed to monitor single phaseand three-phase motors against overheating and damage caused by Over-load and phaseloss at industrial sites.
Brief:EOCRDS-E(Easy type)Electronic overload relay are designed to monitor single phaseand three-phase motors against overheating and damage caused by Over-load and phaseloss at industrial sites.
Brief:EOCRSE2-S(Standard type)Electronic overload relay are designed to monitor single phaseand three-phase motors against overheating and damage caused by Over-load and phaseloss at industrial sites.
Brief:EOCRSE2-S(Standard type)Electronic overload relay are designed to monitor single phaseand three-phase motors against overheating and damage caused by Over-load and phaseloss at industrial sites.
Brief:EOCRSE2-S(Standard type)Electronic overload relay are designed to monitor single phaseand three-phase motors against overheating and damage caused by Over-load and phaseloss at industrial sites.
Brief:EOCRDS3-S(Standard type)Electronic overload relay are designed to monitor single phaseand three-phase motors against overheating and damage caused by Over-load and phaseloss at industrial sites.
Brief:EOCRDS3-S(Standard type)Electronic overload relay are designed to monitor single phaseand three-phase motors against overheating and damage caused by Over-load and phaseloss at industrial sites.
Brief:EOCRDS3-S(Standard type)Electronic overload relay are designed to monitor single phaseand three-phase motors against overheating and damage caused by Over-load and phaseloss at industrial sites.
Brief:EOCRSSD Electronic overload relay are designed to monitor single phase and three-phase motors against over heating and damage caused by over-load and phase loss at industrial sites.
Brief:EOCRSSD Electronic overload relay are designed to monitor single phase and three-phase motors against over heating and damage caused by over-load and phase loss at industrial sites.
Brief:EOCRSSD Electronic overload relay are designed to monitor single phase and three-phase motors against over heating and damage caused by over-load and phase loss at industrial sites.
Brief: DAV-209 Digital voltmeter and ammeter are designed to monitor both AC current value drawn by the loads and the voltage value of the relevant phase continuously.
Brief: DAV-207 Digital voltmeter and ammeter are designed to monitor both AC current value drawn by the loads and the voltage value of the relevant phase continuously.
Brief: DAV-107 Digital voltmeter and ammeter are designed to monitor both AC current value drawn by the loads and the voltage value of the relevant phase continuously.
Brief: DAV-72D Digital voltmeter and ammeter are designed to monitor both AC current value drawn by the loads and the voltage value of the relevant phase continuously.
Brief: DAV-96D Digital voltmeter and ammeter are designed to monitor both AC current value drawn by the loads and the voltage value of the relevant phase continuously.
Brief: DAV-96 Digital voltmeter and ammeter are designed to monitor both AC current value drawn by the loads and the voltage value of the relevant phase continuously.
Brief: DAV-72 Digital voltmeter and ammeter are designed to monitor both AC current value drawn by the loads and the voltage value of the relevant phase continuously.
Brief: DAV-60 Digital voltmeter and ammeter are designed to monitor both AC current value drawn by the loads and the voltage value of the relevant phase continuously.
Brief: DAV-250 Digital voltmeter and ammeter are designed to monitor both AC current value drawn by the loads and the voltage value of the relevant phase continuously.
Brief: DAV-100 Digital voltmeter and ammeter are designed to monitor both AC current value drawn by the loads and the voltage value of the relevant phase continuously.
Brief: DAV-DIN Digital voltmeter and ammeter are designed to monitor both AC current value drawn by the loads and the voltage value of the relevant phase continuously.
