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Home / Products / RF Adapters / 4.1-9.5 Adapters / 4.1-9.5 to 4.1-9.5 Adapters / 4.1-9.5 Jack to 4.1-9.5 Jack Adapter 50 Ohm Straight 4-Hole Flange

4.1-9.5 Jack to 4.1-9.5 Jack Adapter 50 Ohm Straight 4-Hole Flange

4.1-9.5 Jack to 4.1-9.5 Jack Adapter 50 Ohm Straight 4-Hole Flange

4.1-9.5 Jack to 4.1-9.5 Jack Adapter 50 Ohm Straight 4-Hole Flange
332109
Part Status: Active
Customer Drawing 3D Model
Product Specifications All Related Documents Related Resources Contact Us
Product Specifications

Product Specifications

Attributes Details See Similar
Select the attributes below to view similar products
Adapter Configuration
4.1-9.5 Jack to 4.1-9.5 Jack
Adapter Type
In-Series
Applications
Low-PIM
Body Finish
Nickel
Body Material
Brass
Contact Finish
Silver
Contact Material
Beryllium Copper
Country of Origin
CN
ECCN
EAR99
Frequency (Max GHz)
2.5
HTS Code
8536.69.4010
Impedance (Ohms)
50
Insulator Material
PTFE
IP Rating
Not Rated
Isolated
No
Low PIM
Yes
Mil Qualified
Not Mil Qualified
Non Magnetic
Contains Magnetic Materials
Orientation
Straight
Panel Mounting Feature
4-Hole Flange
PFAS
Contains PFAS
Temp (Max Degrees Celsius)
165
Temp (Min Degrees Celsius)
-65
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All Related Documents

All Related Documents

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Document Title Type Publish Date
332109 PDF Customer Drawing (Size: 159.8 KB)
pdf
 5/28/2021
332109 STP 3D Model (Size: 1 MB)
stp
 2/2/2026

Related Resources

The document "Passive Intermodulation Distortion in Connectors, Cable and Cable Assemblies" by David Weinstein of Amphenol Corporation discusses the causes, impacts, and measurement of Passive Intermodulation Distortion (PIM) in RF components. It explains how PIM is generated by non-linear mixing in passive devices like connectors and cables, causing unwanted signals that can interfere with communication systems. The paper outlines design guidelines to minimize PIM, including contact design, material choices and cleanliness, and describes testing methods to ensure low PIM performance​​.
Marketing Collateral
White Paper: Passive Intermodulation Distortion
The document "Passive Intermodulation Distortion in Connectors, Cable and Cable Assemblies" by David Weinstein of Amphenol Corporation discusses the causes, impacts, and measurement of Passive Intermodulation Distortion (PIM) in RF components. It explains how PIM is generated by non-linear mixing in passive devices like connectors and cables, causing unwanted signals that can interfere with communication systems. The paper outlines design guidelines to minimize PIM, including contact design, material choices and cleanliness, and describes testing methods to ensure low PIM performance​​.
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