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Digital Spaceport23 minutes read

The NetApp de 6600 60 Bay j-bod requires 20 terabyte SAS drives available at shop.digitalspaceport.com, with a minimum of 20 disks needed for operational efficiency, active cooling advised due to system heat, and special plugs for 220 volts AC required for power. Different types of management modules are discussed, and it's crucial to check for design flaws in the trays, specifically ensuring no detachment issues with the board or damage to connectors during drive insertion to avoid potential circuitry damage and tray replacements.

Insights

  • NetApp de 6600 60 Bay j-bod allows for a mix of SAS and SATA drives, with an insertion process involving secure latching and a minimum requirement of 20 disks for optimal performance.
  • Careful inspection of design flaws in the trays, including potential detachment issues and damage risks during drive insertion, is crucial to prevent circuitry damage and ensure smooth operation, emphasizing the importance of proper handling during maintenance and transport.

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Recent questions

  • How many disks are required for efficient operation of NetApp de 6600 60 Bay j-bod?

    A minimum of 20 disks (4 per tray) are needed for operational efficiency, with better airflow and quieter operation if all trays are loaded.

  • What type of cooling is recommended for the NetApp de 6600 60 Bay j-bod due to heat generation?

    Active cooling is advised due to the heat generated by the system to maintain optimal performance and prevent overheating.

  • What is the power requirement for the NetApp de 6600 60 Bay j-bod system?

    Special plugs for 220 volts AC are necessary for powering the system to ensure proper functionality and performance.

  • How should the trays in the NetApp de 6600 60 Bay j-bod be handled when moving the unit?

    When moving the unit, only remove the power supply, emms, and power canisters, leaving the trays intact to prevent potential issues with sharp edges and time-consuming reinsertion.

  • What is the potential issue with the design of the trays in the NetApp de 6600 60 Bay j-bod?

    Some trays have a design flaw where the board can easily detach due to cable movement, potentially causing circuitry damage, so it's important to check for this issue and ensure proper cable management.

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Summary

00:00

NetApp 6600 J-BOD: SAS Drives & Management

  • NetApp de 6600 60 Bay j-bod is the focus of the discussion.
  • 20 terabyte SAS drives are recommended and available at shop.digitalspaceport.com.
  • Caddies are not needed for the drives, as they can be easily pushed in and provide a good grip.
  • SAS connectors are present at the back, allowing for SATA drives as well, with the ability to mix and match.
  • Insertion process involves engaging arms and latching the drives into place securely.
  • Minimum of 20 disks (4 per tray) are required for operational efficiency, with better airflow and quieter operation if all trays are loaded.
  • Active cooling is advised due to the heat generated by the system.
  • Special plugs for 220 volts AC are necessary for powering the system.
  • PSU units offer redundancy, with a locking mechanism for secure installation.
  • Different types of management modules are discussed, with details on their internal components and compatibility.

17:09

NetApp de 6600: Trays and Controllers Concerns

  • NetApp de 6600 and the NetApp de 6600 are essentially the same in operation when using the correct controllers, specifically SAS HBA controllers.
  • The trays in these units have design flaws, with one design featuring a problematic board that can easily detach due to cable movement, potentially causing circuitry damage.
  • Some trays have a different board design, avoiding the detachment issue, but it's crucial to check the cable management arms that can clip integrated circuitry.
  • The connector at the back of the tray should be inspected to ensure it's not damaged, as misalignment during drive insertion can harm it, potentially necessitating manual drive insertion.
  • The rail mechanism should be carefully examined for bends, as misalignments can occur, leading to potential replacement of the entire tray if issues arise.
  • When moving the unit, only remove the power supply, emms, and power canisters, leaving the trays intact to prevent problems, as removing and reinserting trays can be a time-consuming process with sharp edges inside.
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