Description
Midwest Microwave 292 Minipad Attenuator DC-8.0GHz 6dB SMA N-Type RF
The Midwest Microwave 292 is a compact inline fixed attenuator designed for RF and microwave applications spanning DC to 8.0 GHz with 6 dB of attenuation. The Minipad series uses a rugged, knurled stainless steel body construction with SMA female and N-type male connectors, making it suitable for use in coaxial signal chains in lab, test bench, and system integration environments.
Specifications & What's Included
- Brand: Midwest Microwave
- Model: 292 Minipad
- Attenuation: 6 dB
- Frequency Range: DC to 8.0 GHz
- Connector Type: SMA (female) to N-Type (male)
- Body: Knurled stainless steel inline coaxial form factor
- Attenuator only — no additional accessories
Applications
Used in RF signal level adjustment, test and measurement setups, spectrum analyzer input protection, and microwave lab bench work where controlled signal reduction across a broad frequency band is required.
This Midwest Microwave 292 Minipad RF Attenuator has been visually inspected and shows normal wear consistent with prior lab use. The body and connectors appear intact with no obvious damage. It has not been bench-tested at our facility. Please view our photos and reach out with any questions. Please note: We have multiple units in stock — yours may not be the one shown in the photos, however, it will be similar in condition and function.
Warranty Information
Additional Information
Brand: |
Midwest Microwave |
Model: |
292 |
MPN: |
292 |
SKU: |
46099 |
Condition: |
Used – Inspected |
Seller Notes: |
Attenuator only; no additional accessories included. |
Form Factor: |
Inline / Coaxial |
Attenuation: |
6 dB |
Frequency Range: |
DC to 8.0 GHz |
Connector Type: |
SMA (female) to N-Type (male) |
Type: |
Fixed Attenuator |
Country of Manufacture: |
USA |
Condition Notes: |
This Midwest Microwave 292 Minipad RF Attenuator has been visually inspected and shows normal wear consistent with prior lab use. The body and connectors appear intact with no obvious damage. It has not been bench-tested at our facility. |