The LDSR model is an innovative, low cost and lightweight (25g) component, with a reduced footprint. The LDSR is dedicated to measuring the leakage current of 300 mA nominal up to 900 mA peak at 2 KHz frequency. Its main application is in transformerless photovoltaic (PV) inverters for the residential market, where it measures AC & DC fault currents and ensures the safety of people around the installation.The residual or leakage currents that the LDSR model is designed to measure can arise in fault conditions in a number of industrial or power-generation scenarios. Examples include failure modes such as a short circuits or earth faults. The connection of a solar panel to the grid raises safety concerns; if a fault occurs there is a potentially serious safety issue around any human contact with the system.
The sensor is mounted onto a PCB for primary and secondary connections & provides an analogue voltage output.
The LDSR model operates from a +5VDC supply and have a typical current consumption of just 40 mA when measuring 300 mA as nominal primary residual current; It provides access to its internal reference voltage, and to options such as a test winding and demagnetisation functions.
LDSR satisfies the needs of PV inverters, offering a competitive price, low dimensions and complying with all regulatory standards. LDSR is also an excellent alternative to expensive fluxgate solutions due to its small footprint and simple construction.
As well as ensuring safety in solar inverter installations, LEM’s LDSR product is also ideal for a range of applications that includes symmetry fault detection in medium power inverters and failure detection in a range of power sources.
The transducers are CE and UL marked and conform to the industrial standards. LEM offers a five-year warranty for each transducer