STREAMLIED DESIGN DEVELOPMENT

TVAC 2.4mm Jack (Female) to 2.4mm Jack (Female) Adapter, DC-50 GHz, VSWR 1.3

Order No:VH-AD-Q2Q25A/9X-9X
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Key Specifications

Type Design:
Precision
Connection Type:
In-Series
Connector 1 Series:
2.4mm
Connector 1 Gender:
Jack (Female)
Connector 2 Series:
2.4mm
Connector 2 Gender:
Jack (Female)
Impedance (Ohm):
50
Body Style:
Straight
Panel Mount:
None
Connector 1 Connection Method:
Threaded (Screw-lock)
Connector 2 Connection Method:
Threaded (Screw-lock)
Frequency, Max (GHz):
50
Connector 1 Body Material:
Stainless Steel
Connector 1 Body Plating:
Passivated
Connector 2 Body Material:
Stainless Steel
Connector 2 Body Plating:
Passivated
VSWR, Max:
1.30

Description

TVAC 2.4mm Jack (Female) to 2.4mm Jack (Female) RF Adapter | Vacuum Vented | Stainless Steel Body

The ROSNOL VH-AD-Q2Q25A/9X-9X is a high-performance 50Ω RF adapter engineered for precision microwave systems operating from DC to 50 GHz. Delivering VSWR ≤ 1.30, insertion loss ≤ 0.05 × √F (GHz) dB, insulation resistance ≥ 5 GΩ, RF leakage ≥ 100 dB, and power handling up to 19 W, it supports low-loss signal transmission in advanced RF and microwave networks. The vacuum-vented design is optimized for thermal vacuum environments where electrical stability and reliability are essential.

Constructed with gold-plated beryllium copper contacts and passivated stainless-steel bodies, the adapter provides excellent conductivity, wear resistance, corrosion protection, and long service life. PEI dielectric insulators help maintain impedance consistency and stable electrical characteristics across the operating frequency range. Low-outgassing materials further enhance suitability for aerospace and vacuum-system applications.

This adapter is well suited for satellite communications, aerospace platforms, defense electronics, RF laboratories, scientific instrumentation, and microwave test equipment. Its robust mechanical design, reliable high-frequency performance, and compatibility with precision 2.4 mm interconnect systems make it an excellent solution for demanding RF environments.