Product Description:

250V Radial Lead Square Type Time-Delay Slow Blow Time-Lag Subminiature MST MTS Micro Fuse

Description Of Square Type Slow Blow Radial Lead Micro Fuses

Rated Voltage: 250V

Material: Base and Cap: Black thermoplastic, Pin: Tin-lead Plated alloy

Certificate : CUL,UL

Application : Home appliances, power supply, communications, consumer electronics

Type: MTS TMS 8X4mm

Size: 8.0mm*4mm

Rated current : 50mA - 25A

Product Features of Square Type Time Delay Subminiature Fuses

1. Pin tensile strength: 5 N 10±1 S

2. Pin thrust strength: 2 N 10±1 S

3. Solderability: wave soldering: 260℃, ≤ 3S; iron soldering: 350±10℃, ≤1S

4 Welding heat resistance: wave soldering: 260℃, 10s; iron soldering iron: 350℃, 3S

Electrical Characteristics of Time-Lag Subminiature Fuses Micro Fuse

1. Experimental conditions

The ambient temperature for all tests is 25±5℃.

2. Segmentation ability

Fuse withstand segment capacity: at 250V AC power supply, 35A or 10 times the rated current among the larger.

The insulation resistance of the fuse after the sectional ability test is greater than 0.1MΩ.

3. Temperature rise test

The temperature rise at any part of the fuse is measured not to exceed 135 ° C and the ambient temperature is 25±5 ° C when the fuse is disconnected by 1.5 times the rated current for 15 minutes, followed by 0.1 times the rated current every 15 minutes.

The Drawing of Slow Blow Square Subminiature Fuse

Description Of Radial Lead Micro Fuses

Details Of MTS 8X4mm Time-Delay Radial Lead Micro Fuses

Description Of Square Type Slow Blow Micro Fuses

Details Of tMS 8X4mm Time-Lag Radial Lead Micro Fuses

Function Of Time Delay Micro Fuses

1. Under normal circumstances, disposable fuse plays the role of connecting the circuit in the circuit.

2. Under abnormal (overload) circumstances, one-time fuse as a safety protection element in the circuit, through its own fuse safety cut off and protect the circuit.

Working Principle Of Time Lag Micro Fuses

When a one-time fuse is energized, the heat converted by electrical energy raises the melt temperature. When the normal working current or allowed overload current passes through, the heat generated will radiate to the surrounding environment through the melt and outer shell, and the heat emitted by convection and conduction will gradually reach the balance with the heat generated.If the heat generated is greater than the heat emitted, the excess heat will gradually accumulate in the melt, causing the melt temperature to rise.When the temperature reaches and exceeds the melting point of the melt, it will make the melt melt, fuse and cut off the current, played the role of safety protection circuit.