M22759/22-22
- Approx LBS/MFT: 0, 0.00
- AWG Size: 22
- Cond. Material: Silver-Coated Copper Alloy (High Strength)
- Conductor Stranding: 19/34
- Insul. Material: Polytetrafluoroethylene (PTFE)
- Jacket Material: Polytetrafluoroethylene (PTFE)
- M27500 Component: TM
- Max O.D. (in): 0.051
- Max. Temp: 200C
- Mil-Spec: M22759/22
- Min O.D. (in): 0.047
- Min. Temp: -55C
- No. of Cond.: 1
- No. of Strands: 19
- Nom. Dia. of Cond.: 0.03
- SAE Spec: AS22759/22
- Strand Size: 34
- Voltage: 600
M22759/22-22 — 22 Gauge M22759/22 Mil-Spec Wire
The M22759/22-22 is a high-quality electrical cable designed to excel in demanding applications where performance and reliability are critical. This cable boasts an approximate weight of 0.00 pounds per thousand feet, making it lightweight and suitable for scenarios where minimizing cable weight is essential.
With a 22 AWG size, this cable offers a balance between current-carrying capacity and flexibility, making it suitable for various electrical connections. The conductors are constructed from a high-strength silver-coated copper alloy, ensuring excellent electrical conductivity and resistance to corrosion. The conductor stranding is made up of 19 strands, each with a 34-gauge thickness, providing both flexibility and durability.
The insulation material used in this cable is Polytetrafluoroethylene (PTFE), known for its exceptional resistance to high temperatures and superior electrical insulating properties. With a maximum outer diameter of 0.051 inches and a maximum temperature rating of 200 degrees Celsius, the M22759/22-22 is built to perform reliably in high-temperature environments. This cable adheres to Mil-Spec M22759/22 and SAE Spec AS22759/22 standards, ensuring its quality and compliance with industry regulations.
Featuring 19 strands and a voltage rating of 600 volts, the M22759/22-22 is a dependable choice for applications demanding consistent electrical performance, even in high-temperature settings. Its use of a silver-coated copper alloy conductor and PTFE insulation makes it a trusted solution for applications where both conductivity and high-temperature resistance are paramount.