SMA(F)-SMA(F) Reverse Polarity Adapter, DC-18GHz
![](data:image/png;base64,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)
Description
Connector 1 Series |
SMA |
Connector 1 Gender |
Female |
Connector 1 Impedance |
50 Ohms |
Connector 1 Polarity |
Standard |
Connector 1 Body Material |
Brass Gold Plated |
Connector 2 Series |
SMA |
Connector 2 Gender |
Female |
Connector 2 Impedance |
50 Ohms |
Connector 2 Polarity |
Reverse Polarity |
Connector 2 Body Material |
Brass Gold Plated |
Mount Method |
None |
Body Style |
Straight |
Electrical Specifications
Frequency Range |
DC-18G |
Environmental Specifications
Temperature Range |
-55~+165℃ |