$0.00 / 1000 FT
  • Approx LBS/MFT: 2.61
  • AWG Size: 24
  • Cond. Material: Silver-Coated Copper
  • Conductor Stranding: 19/36
  • Insul. Material: Polytetrafluoroethylene (PTFE)
  • Jacket Material: Polyimide (PI)
  • M27500 Component: JB
  • Max O.D. (in): 0.046
  • Max. Temp: 200C
  • Mil-Spec: M22759/28
  • Min O.D. (in): 0.042
  • Min. Temp: -55C
  • No. of Cond.: 1
  • No. of Strands: 19
  • Nom. Dia. of Cond.: 0.024
  • SAE Spec: AS22759/28
  • Strand Size: 36
  • Voltage: 600

M22759/28-24 — 24 Gauge M22759/28 Mil-Spec Wire

The M22759/28-24 cable is a high-quality electrical cable designed for demanding applications where precision and reliability are essential. With an approximate weight of 2.61 pounds per thousand feet, it offers a lightweight and flexible solution.

Featuring a 24 AWG size, this cable is suitable for a variety of electrical and electronic applications. It is constructed with silver-coated copper conductors known for their excellent electrical conductivity, corrosion resistance, and longevity. The conductor stranding consists of 19 strands, each with a 36-gauge thickness, providing both flexibility and robustness.

This cable is insulated with Polytetrafluoroethylene (PTFE), a high-performance insulating material valued for its exceptional thermal and electrical insulation properties. The jacket material is made of Polyimide (PI), which adds an extra layer of protection and durability. With a maximum outer diameter of 0.046 inches and a maximum operating temperature of 200 degrees Celsius, it is well-suited for use in high-temperature environments.

Compliant with Mil-Spec M22759/28 and SAE Spec AS22759/28 standards, this cable meets stringent industry regulations and quality standards. With 19 strands, it provides reliable electrical performance, making it suitable for various application requirements.

The M22759/28-24 cable is a reliable and durable solution, making it suitable for a wide range of applications. Its silver-coated copper conductors, PTFE insulation, Polyimide jacket, and high-temperature tolerance make it an excellent choice for environments where consistent signal transmission and resistance to elevated temperatures are crucial.