0LGR015.H Datasheet/PDFElectrical specialty fuses are essential components of many different types of electrical systems. The 0LGR015.H application field and working principle is no exception. This type of fuse is designed to protect vital electrical components from harmful overcurrents and voltages. This article will discuss the key components of 0LGR015.H, their application field, and working principle.
The 0LGR015.H is a mold-loop fuse (MIGF) designed for low-voltage, low-power applications. It has a rated current of 15A and operates within a voltage range of 250-1250VAC/DC. The main components of 0LGR015.H include the fuse body, end plates, arc contacts, arc chambers, and fuse element. The fuse element is a bent wire composed of fuse metal alloy.
The primary application field of 0LGR015.H is used to protect other electrical components in low voltage, low power circuits from overloads and short circuits. This kind of fuse is suitable for applications where protection and selection accuracy are critical. It is widely used as a safety device in electronic, electrical, and communications equipment.
The working principle of 0LGR015.H can be explained by examining the various components of the fuse. When the fuse element is overloaded or short-circuited, heat is generated due to the current passing through the element. This heat is conducted to the arc chamber, which then causes an arc to form between the arc contacts. This arc shorts out the overload current and causes the fuse to blow. The remaining current that passes through the fuse body is too low to damage the protected components.
In summary, the 0LGR015.H is an electrical specialty fuse that provides protection in low voltage, low power circuits. It is composed of a fuse body, end plates, arc contacts, arc chamber, and fuse element. The fuse has a rated current of 15A and operates within a voltage range of 250-1250VAC/DC. The main application of 0LGR015.H is for protecting other electrical components in low voltage, low power circuits from overloads and short circuits. Its working principle involves the heat generated from an overloaded or short-circuited fuse element causing an arc to form between the arc contacts.