Arcol HS75 Series Aluminium Housed Axial Wire Wound Panel Mount Resistor, 10Ω ±5% 75W

  • RS-stocknr. 166-4253
  • Fabrikantnummer HS75 10R J
  • Fabrikant Arcol
Datasheets
Wetgeving en conformiteit
Conform
Land van herkomst: GB
Productomschrijving

75W Aluminium housed wirewound power resistor, HS Series

From Arcol, the HS75 series of aluminium housed resistors are high power and offer a balance of pulse power capability and volume. These 75 W panel mount resistors are manufactured in line with IEC 115 and MIL 18546. These panel mount resistors are designed for direct heatsink mounting with thermal compound, which ensures maximum performance.

Features and benefits:

At high ambient temperatures dissipation derates linearly to zero at +200 °C Wirewound to maximise high pulse capability
Compact size for power rating

Note

To achieve the given maximum performance rating of this power resistor, it is designed to be directly mounted on an appropriately matched heatsink and mounted using a thermal compound.

Specificaties
Kenmerk Waarde
Resistance 10 Ω
Power Rating 75W
Series HS75
Package/Case Aluminium Housed
Tolerance ±5%
Technology Wire Wound
Termination Style Axial
Minimum Temperature Coefficient -100ppm/°C
Maximum Temperature Coefficient +100ppm/°C
Dimensions 24.1 x 72 x 47.5mm
Overall Width 47.5mm
Overall Height 24.1mm
Overall Length 72mm
120 op voorraad - levertijd is 1 werkdag(en).
Prijs Each (In a Box of 60)
5,54
(excl. BTW)
6,70
(incl. BTW)
Aantal stuks
Per stuk
Per doos*
60 +
5,54 €
332,40 €
*prijsindicatie
Related Products
200Watt Aluminium housed power resistors which are manufactured ...
Description:
200Watt Aluminium housed power resistors which are manufactured to be compliant with the requirements of a MIL 18546, IEC 115 and are RoHS compliant. Compact size for Power ratingWinding construction maximises High Pulse Capability.
200 watt aluminium housed power resistor. Designed for ...
Description:
200 watt aluminium housed power resistor. Designed for direct heatsink mounting with thermal compound to achieve maximum performance.