STREAMLIED DESIGN DEVELOPMENT

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

Order No:VH-AD-Q1Q25A/9XX-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:
Plug (Male)
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 Plug (Male) to 2.4mm Jack (Female) RF Adapter | Vacuum Vented | Stainless Steel Body

The ROSNOL VH-AD-Q1Q25A/9XX-9X is a precision 50Ω RF adapter designed for thermal vacuum environments and ultra-high-frequency signal transmission up to 50 GHz. Featuring VSWR ≤ 1.30, insertion loss ≤ 0.05 × √F (GHz) dB, insulation resistance ≥ 5 GΩ, RF leakage ≥ 100 dB up to 1 GHz, and 16 W power handling, this adapter helps maintain exceptional signal integrity across demanding microwave and millimeter-wave applications. Its vacuum-vented construction enables pressure equalization and stable performance in vacuum systems.

The adapter utilizes gold-plated beryllium copper center contacts with a non-magnetic nickel-phosphorus underplating to provide excellent conductivity and long-term mating reliability. Passivated stainless-steel bodies offer superior corrosion resistance and mechanical durability, while PEI insulators contribute to stable dielectric performance. The 2.4 mm interface is mechanically compatible with 1.85 mm systems, providing additional design flexibility.

Ideal for aerospace electronics, satellite payloads, thermal vacuum chambers, defense systems, scientific research equipment, and microwave test platforms, this adapter combines low-outgassing characteristics, rugged construction, and dependable high-frequency performance for mission-critical RF applications.