Fuses can effectively protect circuits from current overload or short circuit damage. WALTE, as the industry's leading fuse manufacturer, has many fuse series models. Today, we will briefly introduce the selection parameters of 2010 series square fuses. The WALTE 2010 series square fuses offer compact dimensions, excellent protection, and a wide range of current and voltage, making them not only easy to install, but also reliable protection under extreme operating conditions.
2010 Square fuse selection parameters
Rated current (A) : This is the maximum current that the fuse can safely carry. The WALTE 2010 series offers a variety of options from 1A to 10A to meet the needs of different circuits.
Rated voltage (V) : Although the fuse itself has a strong ability to withstand voltage, choosing the right rated voltage can ensure its best performance in a particular circuit. The series covers the range from 15V to 60V.
Time-current characteristics: This describes the reaction rate of the fuse under overload current. Quick-acting type (T) fuses will blow quickly when the current slightly exceeds the rated value, providing timely protection.
2010 Square fuse Specific model parameters:
2010-T10A0V2T11192AM9G: 10A rated current, fast action type, specific internal structure and material.
2010-T1A60V2T11192AM9G: 1A rated current, 60V rated voltage, fast action type.
2010-T2A50V2T11192AM9G: 2A rated current, 50V rated voltage, fast action type.
2010-T3A15V2T11192AM9G: 3A rated current, 15V rated voltage, fast action type.
2010-T5A00V2T11192AM9G: 5A rated current, fast action type.
2010 Square fuse selection suggestions
Select the appropriate rated current according to the actual working current of the circuit and the maximum possible current.
Ensure that the rated voltage of the selected fuse is at least equal to or higher than the maximum operating voltage of the circuit.
Consider the protection needs of the circuit. For applications that require a quick cut-off of current, choose a quick-acting fuse.
Note compatibility with existing circuit components and installation methods.
