| Attribute | Value |
|---|---|
| Product Category: | |
| Manufacturer: | Amphenol Aerospace |
| Manufacturer Part Number: | Amphenol Aerospace M83723/96W20417 L/C |
| Series: | Series III |
| Wire Size: | 24 to 20 AWG |
| Shell Size: | 20 |
| Shell Type: | Plug, Straight |
| Contact Type: | Pin |
| Shell Finish: | Olive Drab Cadmium |
| Shell Material: | Aluminum |
| Voltage Rating: | 600 VAC |
| Keying Position: | 7 |
| Without Contacts: | Yes |
| Locking Mechanism: | Threaded |
| Insert Arrangement: | 20-41 |
| Military Specification: | MIL-DTL-83723 |
| Operating Temperature: | -65 to 175 °C |
| SKU: | AANM83723/96W20417 L/C |
M83723/96W20417 L/C
| Heilind Number: | AANM83723/96W20417 L/C |
| Manufacturer: | Amphenol Aerospace |
| Manufacturer Number: | M83723/96W20417 L/C |
| ECAD Model: | |
Description:
Matrix MIL-DTL-83723 Series Provides Many Choices within the Range of a Medium Sized, Environmentally Resistant Circular Connector. With Three Coupling Style Choices- Bayonet, Threaded and Quick-Disconnect the Versatility of this Family Makes it Increasingly Popular for Panel Mount, Box Mount and Line-to-Line Applications in Aircraft. For General Duty Environmentally Resistant Requirements, this Family of Connectors Provides a Wide Range of Interconnection Solutions.
More >>Specifications
Detailed Description
Introducing the M83723/96W20417 L/C, a MIL-DTL-83723 compliant Circular Connector from Series III designed for high-reliability applications. Featuring a rugged aluminum shell with Olive Drab Cadmium finish, this Plug connector with 20 shell size and 20-41 insert arrangement ensures secure and durable connectivity in demanding environments. With a contact type of Pin and compatibility with wire sizes ranging from 24 to 20 AWG, it offers versatile usage. The threaded locking mechanism and keying position 7 provide added security. Please note that this assembly does not ship with contacts, allowing for customization according to specific requirements. Trust in the M8372396W20417LC for robust and dependable performance in critical connectivity tasks.
