Datasheets
DX4R205JJ8R2000 by: Japan Aviation Electronics Industry Limited

Telecom and Datacom Connector,

Part Details for DX4R205JJ8R2000 by Japan Aviation Electronics Industry Limited

Results Overview of DX4R205JJ8R2000 by Japan Aviation Electronics Industry Limited

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Applications Consumer Electronics Computing and Data Storage

DX4R205JJ8R2000 Information

DX4R205JJ8R2000 by Japan Aviation Electronics Industry Limited is a Telecom and Datacom Connector.
Telecom and Datacom Connectors are under the broader part category of Connectors.

Connectors are devices that join electrical termination points to form circuits. With various types designed for specific functions like data, power, or signal transmission, choosing the right connector is essential for compatibility and device performance. Read more about Connectors on our Connectors part category page.

Part Details for DX4R205JJ8R2000

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DX4R205JJ8R2000 Part Data Attributes

DX4R205JJ8R2000 Japan Aviation Electronics Industry Limited
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DX4R205JJ8R2000 Japan Aviation Electronics Industry Limited Telecom and Datacom Connector,
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Rohs Code Yes
Part Life Cycle Code Obsolete
Ihs Manufacturer JAPAN AVIATION ELECTRONICS INDUSTRY LTD
Reach Compliance Code unknown
Connector Type USB CONNECTOR
Contact Finish Mating GOLD FLASH OVER PALLADIUM NICKEL
Contact Finish Termination Gold (Au) - with Nickel (Ni) barrier
Contact Material COPPER ALLOY
JESD-609 Code e4

DX4R205JJ8R2000 Frequently Asked Questions (FAQ)

  • The recommended PCB layout and land pattern can be found in the Japan Aviation Electronics Industry Limited's application note or design guide, which provides detailed information on pad dimensions, spacing, and layout considerations to ensure reliable assembly and operation.

  • To ensure proper driving and control, follow the recommended drive circuit and control signal specifications outlined in the datasheet. Additionally, consider using a buffer circuit or a dedicated relay driver IC to ensure the relay coil is properly energized and de-energized.

  • The relay module's thermal performance is critical. Ensure good airflow around the module, and consider using a heat sink or thermal pad to dissipate heat generated by the relay coil. Operating temperatures should be kept within the specified range to prevent overheating and ensure reliable operation.

  • While the relay module is designed to be robust, it's essential to evaluate its suitability for high-vibration or high-shock environments. Consider the relay's mechanical construction, terminal strength, and PCB mounting method to ensure reliable operation under such conditions.

  • To troubleshoot issues, start by verifying the drive circuit and control signal integrity. Check for proper voltage supply, signal levels, and timing. Also, inspect the relay module for signs of physical damage, corrosion, or contamination. Consult the datasheet and application notes for guidance on troubleshooting and fault diagnosis.