Frequency Range | DC to 18 GHz,extended to 26.5 GHz |
Impedance | 50 Ohms |
VSWR | ≤ 1.2:1 |
Material | Gold-plated Brass or Stainless Steel |
Interface | Threaded Interface for Secure Connection |
Wireless Communication Systems
Radar & Military Equipment
Telecommunications & 5G
Test & Measurement Equipment
GPS & Navigation Systems
wireless sensor networks and IoT gateways
smart meters and remote monitoring devices
RF ablation, telemetry, and diagnostic tools
Body Plating | Gold |
Body Material | Brass |
Contact Plating | Gold |
Contact Material | Phorsphor Bronze |
Coupling Mechanism | Threaded |
HS Code | 8536909000 |
Frequency (Max GHz) | 6 |
Impedance (Ohms) | 50 |
Insulator Material | PTFE |
Size Category | Subminiature |
Temperature Range | -65 to 165 °C |
Thread Direction | Standard |
Mating Cycles | 500 Min |
Interface Specification | MIL-STD-348 |
Regular models require 15 days, while some complex connectors require 25 days.
Most RF connectors are CNC-machined parts and do not require mold-making.
However, each part needs to be fine-tuned on the CNC machine. Typically, a single sample costs $200.
This fee will be refunded after a 5K bulk order.
Brass RF connectors come with a one-year warranty.
Stainless steel connectors come with a three-year warranty.
The lifespan also depends on the contact material—beryllium contacts offer better durability.
Our products fully comply with ROHS & REACH regulations.
Yes. We are honored to provide military-grade products with exceptionally stable quality.
Regular connectors: 500 PCS
Adapters: 100 PCS
Military connectors: 100 PCS
Common materials include:
Body: Brass, stainless steel
Insulator: PTFE, PEEK
Contacts: Brass, phosphor bronze, beryllium copper
Other: Aluminum, titanium alloy
Connector durability is rated in mating cycles: General-purpose connectors (BNC, SMA): 500 cycles. Precision connectors (2.92 mm, 2.4 mm): 500 cycles or less. Rugged telecom connectors (N, 7/16 DIN): 500 cycles.
Yes, but performance degrades with wear. Precision connectors (used in test equipment) should be handled carefully—damage to threads or pins increases VSWR and insertion loss.
Home Products Applications About Us Resources News Contact Us