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Oracle® Server X5-4 Service Manual

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Updated: December 2015

Troubleshooting System Cooling Issues

Maintaining the proper internal operating temperature of the server is crucial to a the health of the server. To prevent server shutdown and damage to components, address over temperature- and hardware-related issues as soon as they occur. If your server has a temperature-related fault, the cause of the problem might be one of following:

External Ambient Temperature Too High

Server component cooling relies on the movement of cool ambient air pulled into the server from its external environment. If the ambient temperature of the server's external environment is too high, cooling does not occur, and the internal temperature of server and its components increases. This can cause poor server performance or a failure of one or more components.

Action: Check the ambient temperature of the server space against the environmental specifications for the server (see the Installation Guide). If the temperature is not within the required operating range, remedy the situation immediately.

Prevention: Periodically check the ambient temperature of the server space to ensure that it is within the required range, especially if you have made any changes to the server space (for example, added additional servers). The temperature must be consistent and stable.

Airflow Blockage

The server cooling system uses fans to pull cool air in from the server front intake vents and exhaust warm air out the server back panel vents. If the front or back vents are blocked, the airflow through the server is disrupted and the cooling system fails to function properly causing the server internal temperature to rise.

Action: Inspect the server front and back panel vents for blockage from dust or debris. Additionally, inspect the server interior for improperly installed components or cables that can block the flow of air through the server.

Prevention: Periodically inspect and clean the server vents using a vacuum cleaner. Ensure that all components, such as cards, cable, fans, air baffles and dividers are properly installed. Never operate the server without the top cover installed.

Internal Pressures Compromised

The server has two main cooling area (see Cooling Subsystem). To function properly, these areas have separate pressures that are maintained using dividers, baffles, component filler panels, and the server top cover. These things need to be in place for the server to function as a sealed system. If the internal pressures are compromised, the server cooling system, which relies on the movement of cool air through the server, cannot function properly, and the airflow inside the server becomes chaotic and non-directional.

Action: Inspect the server interior to ensure that the air divider and air baffle (Two-CPU Configuration) are properly installed. Ensure that all external-facing slots (storage drive, DVD, PCIe) are occupied with either a component or a component filler panel. Ensure that the server top cover is in place and sits flat and snug on top of the server.

Prevention: When servicing the server, ensure that the divider and baffle are installed correctly and that the server has no unoccupied external-facing slots. Never operate the server without the top cover installed.

Hardware Component Failure

Components, such as power supplies and fan modules, are an integral part of the server cooling system. When one of these components fails, the server internal temperature can rise. This rise in temperature can cause other components to enter into an over temperature state. Additionally, some components, such as processors, might overheat when they are failing, which can also generate an over-temperature event.

Action: Investigate the cause of the over-temperature event, and replace failed components immediately. For hardware troubleshooting information, see Troubleshooting Server Hardware Component Faults.

Prevention: Component redundancy is provided to a allow for component failure in critical subsystems, such as the cooling subsystem. However, once a component in a redundant system fails, the redundancy no longer exists, and the risk for server shutdown and component failures increases. Therefore, it is important to maintain redundant systems and replace failed components immediately.