Petite UMT-H Surface Mount Fuse Is Powerful Up To 50 A


An alternative to the through-hole mounted 5 x 20 mm cartridge fuses often used for primary circuit protection

SCHURTER’s prominent UMT-H surface mount ceramic fuse family now includes 40 A and 50 A current ratings with an impressive breaking capacity rating of 500 A at 125 VAC / 72 VDC. The series provides unprecedented overcurrent and short circuit protection performance in a package size of 5.3 x 16 mm.

The UMT-H was originally developed to provide a smaller alternative to through-hole mounted 5 x 20 mm cartridge fuses often used for primary circuit protection. The range has since grown to include 26 rated currents from 160 mA to 50 A. Rated voltage is a maximum of 277 VAC / 250 VDC, with a remarkable interrupt capacity rating of 1500 A for current ratings up to 6.3 A. The Time-Lag T characteristic of the UMT-H withstands high inrush and pulse currents.

The UMT-H series has evolved to include higher current ratings to meet new markets for secondary protection in battery-powered applications. Areas of application are widespread, from motors to newer emerging applications such as those reliant on energy accumulators and everything in between. The UMT-H is an all-around ideal solution for many applications in energy, data, medical, industrial control and automotive to name a few. It is also impermeable to conformal coatings and thus a good candidate for use in ATEx and IECEx rated devices for hazardous environments.

A variety of breaking capacity measurements are performed on the UMT-H at specific solder trace widths. The admissible ambient temperature range is -55 degrees Celsius to 125 degrees Celsius. Large solder pads ensure optimal heat dissipation.

The UMT-H is designed according to IEC 60127-7 and UL 248-14 and carries VDE and cURus approvals. IEC, MIL-STD 202 and AEC-Q200 tests apply.






Source link

We will be happy to hear your thoughts

Leave a reply

My Blog
Logo
Enable registration in settings - general
Compare items
  • Total (0)
Compare
0