SMA Male to SMA Female Low Loss 400 UltraFlex Coaxial Assembly - 15 FT
15 FT | 50 Ohm Wi-Fi Cable | Stranded Bare Copper | Thermoplastic Elastometer Jacket | LMR-400 Equivalent
|Quantity Discount Pricing|
Low Loss 400 UltraFlex Cable - 15FT SMA Male to SMA Female
Designed to deliver high performance with minimal loss, Low Loss 400 UltraFlex (LMR-400UF equivalent) assemblies are the standard for the wireless LAN industry. With a durable Polyethylene jacket, these cables are suited for indoor and outdoor installations.
- Length: 15 FT
- Connector 1: SMA Male
- Connector 2: SMA Female
- Cable Type: ShowMeCable Low Loss 400 UltraFlex (LMR-400UF Equivalent)
- 50 Ohm
- Polyethylene (PE) Jacket suitable for Indoor or Outdoor Use
- Stranded Center Conductor for maximum flexibility
- Applications: Wi-Fi, Antenna Cables, Ham Radio, Patch Cables, Jumper Cables, WLL, GPS, WLAN, LMR, WISP, WiMax, SCADA, Mobile Antennas
Q: What is a Reverse Polarity Connector?
A: A Reverse Polarity Connector alters a standard connector by utilizing a male pin center conductor in a female housing or a female pin in a male housing. This prevents mating with a standard non-polarized connector.
Q: What is the difference between Low Loss 400 and LMR 400?
A: The only difference between Low Loss 400 and LMR400 is the manufacturer. Both cables are made out of the same materials and have the same loss characteristics.
Q: What is the difference between Low Loss 400 and Low Loss 400 UltraFlex?
A: Low Loss 400 and Low Loss 400 UltraFlex have two main differences. The first difference is the jacket. Low Loss 400 uses a Polyethylene (PE) jacket. Low Loss 400 UltraFlex uses a more flexible Thermoplastic Elastomer (TPE). Both cables are rated for indoor and outdoor applications. The second difference is the center conductor. Low Loss 400 uses a solid bare copper covered aluminum (BCCAI) center conductor. The Low Loss 400 UltraFlex uses a more flexible stranded bare cooper (BC) center conductor. Both cables have similar loss characteristics.
Wi-Fi Cable Connector Resource
Reverse Polarity SMA
Reverse Polarity TNC
Standard N Series