K18D025D15 Open-Loop current sensor The K18 series is an Open-Loop current sensor based on the Hall effect. It provides electronic measurement of DC, AC or pulse currents at the same time, and their combinations with galvanic between the primary (high current) and secondary circuits, PCB mount design is suitable for general low power applications. Read more
K18D030D15 Open-Loop current sensor The K18 series is an Open-Loop current sensor based on the Hall effect. It provides electronic measurement of DC, AC or pulse currents at the same time, and their combinations with galvanic between the primary (high current) and secondary circuits, PCB mount design is suitable for general low power applications. Read more
K18D040D15 Open-Loop current sensor The K18 series is an Open-Loop current sensor based on the Hall effect. It provides electronic measurement of DC, AC or pulse currents at the same time, and their combinations with galvanic between the primary (high current) and secondary circuits, PCB mount design is suitable for general low power applications. Read more
K18D050D15 Open-Loop current sensor The K18 series is an Open-Loop current sensor based on the Hall effect. It provides electronic measurement of DC, AC or pulse currents at the same time, and their combinations with galvanic between the primary (high current) and secondary circuits, PCB mount design is suitable for general low power applications. Read more
K18D060D15 Open-Loop The K18 series is a Open-Loop current sensor based on the Hall effect. It provides electronic measurement of DC, AC or pulse currents at the same time, and their combinations with galvanic between the primary (high current) and secondary circuits, PCB mount design is suitable for general low power applications. Read more
N1002H Close-Loop current sensor The NxxH series is a current transducer which operates on the principle of magnetic compensation. It measures DC, AC or pulse currents and their combinations, with galvanic isolation techniques used to separate the primary and secondary circuits. Read more
N100H Close-Loop current sensor The NxxH series is a current transducer which operates on the principle of magnetic compensation. It measures DC, AC or pulse currents and their combinations, with galvanic isolation techniques used to separate the primary and secondary circuits. Read more
N1252H Close-Loop current sensor The NxxH series is a current transducer which operates on the principle of magnetic compensation. It measures DC, AC or pulse currents and their combinations, with galvanic isolation techniques used to separate the primary and secondary circuits. Read more
N125H Close-Loop current sensor The NxxH series is a current transducer which operates on the principle of magnetic compensation. It measures DC, AC or pulse currents and their combinations, with galvanic isolation techniques used to separate the primary and secondary circuits. Read more
N25 Close-Loop current sensor The N25 is a current transducer which operates on the principle of magnetic compensation with multirange and small size. It measures DC, AC or pulse currents and their combinations, with galvanic isolation techniques used to separate the primary and secondary circuits. Read more
N502H Close-Loop current sensor The NxxH series is a current transducer which operates on the principle of magnetic compensation. It measures DC, AC or pulse currents and their combinations, with galvanic isolation techniques used to separate the primary and secondary circuits. Read more
N50H Close-Loop current sensor The NxxH series is a current transducer which operates on the principle of magnetic compensation. It measures DC, AC or pulse currents and their combinations, with galvanic isolation techniques used to separate the primary and secondary circuits. Read more
NxxH Close-Loop current sensor The NxxH series is a current transducer which operates on the principle of magnetic compensation. It measures DC, AC or pulse currents and their combinations, with galvanic isolation techniques used to separate the primary and secondary circuits. Read more