NEMA HP 5-TYPE “LL” EXRAD

NEMA HP 5 Type “LL” EXRAD is specifically designed for Military Equipment and Applications. NEMA HP 5 Type “LL” EXRAD replaces and improves the design of MIL-DTL 16878/15 requirements (specification rendered inactive). It is a high performance wire built to handle the increasingly harsh, adverse environments. It is an irradiation cross-linked polyolefin with impressive properties. It significantly reduces wire and harness routing headaches because it is more heat resistant, tougher and more fluid resistant than previous designs.

NEMA HP 5 Type “LL” EXRAD is rated at 150°C, but it survives temperatures to 240°C and higher. It is safer in overload conditions as it will not melt or prematurely soften.

NEMA HP 5 Type “LL” EXRAD creates opportunities to eliminate unnecessary and expensive convolute tubing, tapes and heat shields that protect inferior wire systems.

NEMA HP 5 Type “LL” EXRAD processes very well on automated high speed cut and strip equipment. This advantageous processing feature will provide ideally suited product for equipment and applications where heat protection, long life and less expensive wiring harnesses are required.

  • High Temperature Rating: 150°C
  • Low Temperature Rating: -40°C
  • Voltage Rating: 1000V

Specifications

CCC Part

Number

  Standard

Conductors

 Nom. Diameter of

Conductor

 Nom. Insulation

  Thickness

 Nom.

 OD

 Finished

 Weight

 

Ampacity*

 

  [Tinned Copper]

  Min.

Max.

 (inches)

 (inches)

 (lbs./mft)

 

HP5-LL15BDB

26 (7/34)

.018

.020

.017

.053

1.41

4

HP5-LL15BEB

24 (7/32)

 .023

.025

 .017

 .058

 2.08

 7

HP5-LL15BFB

22 (7/30)

.028

.031

.017

.064

3.10

11

HP5-LL15BGB

20 (7/28)

.036

.039

.017

.072

4.50

15

HP5-LL15BHE

18 (19/30)

.046

.052

.017

.081

6.45

21

HP5-LL15BJE

16 (19/29)

.052

.059

.017

.091

9.13

28

HP5-LL15BKE

14 (19/27)

.065

.073

.017

.106

15.49

46

HP5-LL15BLJ

12 (19/25)

.082

.093

.021

.125

24.60

60

"Additional Sizes available upon request

*Ampacity based on 150°C rated single-insulated conductor in free air @ 40°C ambient air temperature.

We cannot anticipate all conditions under which this information and our products or the products of other manufacturers in combination with our products may be used. We accept no responsibility for results obtained by the application of this information or the safety and suitability of our products alone or in combination with other products. Users are advised to make their own tests to determine the safety and suitability of each such product combination for their own purpose. Unless otherwise agreed in writing, we sell the products without warranty, and buyers and users assume all responsibility and liability for loss and damage arising from the handling and use of our products whether used alone or in combination with other products"