Observe the following safety precautions before performing any installation or break/fix procedures involving disassembly or reassembly:
•Turn off the system and any attached peripherals.
•Disconnect the system and any attached peripherals from AC power, and then remove the battery.
•Disconnect any telephone or telecommunications lines from the system.
•Use a wrist grounding strap and mat when working inside any computer system to avoid electrostatic discharge (ESD) damage.
•After removing any system component, carefully place the removed component on an anti-static mat.
•Wear shoes with non-conductive rubber soles to help reduce the chance of being shocked or seriously injured in an electrical accident.
•Disconnect the system and any attached peripherals from AC power, and then remove the battery.
•Disconnect any telephone or telecommunications lines from the system.
•Use a wrist grounding strap and mat when working inside any computer system to avoid electrostatic discharge (ESD) damage.
•After removing any system component, carefully place the removed component on an anti-static mat.
•Wear shoes with non-conductive rubber soles to help reduce the chance of being shocked or seriously injured in an electrical accident.
Standby Power
Products with standby power must be completely unplugged before opening the case. Systems that incorporate standby power are essentially powered while turned off. The internal power enables the system to be remotely turned on (wake on LAN), suspended into a sleep mode, and have other advanced power management features. After unplugging the system, allow the charge to drain from the circuits by waiting approximately 30 to 45 seconds before removing components.
Products with standby power must be completely unplugged before opening the case. Systems that incorporate standby power are essentially powered while turned off. The internal power enables the system to be remotely turned on (wake on LAN), suspended into a sleep mode, and have other advanced power management features. After unplugging the system, allow the charge to drain from the circuits by waiting approximately 30 to 45 seconds before removing components.
Electro-Static Discharge (ESD) Protection
ESD is a major concern when handling electronic components, especially sensitive devices such as expansion cards, processors, memory DIMMs, and system boards. Very slight charges can damage circuits in ways that may not be obvious, such as intermittent problems or a shortened product lifespan. As the industry pushes for lower power requirements and increased density, ESD protection is an increasing concern.
ESD is a major concern when handling electronic components, especially sensitive devices such as expansion cards, processors, memory DIMMs, and system boards. Very slight charges can damage circuits in ways that may not be obvious, such as intermittent problems or a shortened product lifespan. As the industry pushes for lower power requirements and increased density, ESD protection is an increasing concern.
Due to the increased density of semiconductors used in recent electronic products the sensitivity to static damage is now higher than in previous products, for this reason some previously approved methods of handling parts are no longer applicable.
There are two recognized types of ESD damage, “catastrophic” and “Intermittent” failures.
Catastrophic - The damage causes an immediate and complete loss of device functionality. An example of catastrophic failure is a memory DIM which has received a static shock and immediately generates a “No POST/No Video” symptom with a beep code emitted for a missing or non-functional memory.
Intermittent - The DIMM receives a static shock, but the tracing is merely weakened and does not immediately produce outward symptoms related to the damage. The weakened trace might take weeks or months to melt, and in the meantime may cause degradation of memory integrity, intermittent memory errors, etc.
Of these two types, the more difficult to recognize and troubleshoot is the “Intermittent” (also called Latent or “walking wounded”) failure. The image below is an example of an “Intermittent” damage to a memory DIMM trace. As you can see, the damage is done although the symptoms may not become an issue or cause permanent failure symptoms for some time after the damage occurs.
To prevent static damage, do the following:
•Use a Wired (not wireless) ESD wrist strap that is properly grounded. The use of wireless anti-static straps in no longer allowed, as they do not give adequate protection.
•Furthermore, simply touching the chassis before handling parts is no longer allowed because this method does not ensure adequate ESD protection on parts with increased sensitivity to ESD damage.
•Handle all static-sensitive components in a static-safe area. If possible, use anti-static floor pads and workbench pads.
•When handling static-sensitive components, grab them by the sides, not the top. Avoid touching pins and circuit boards.
•When unpacking a static-sensitive component from its shipping carton, do not remove the component from the anti-static packing material until you are ready to install the component. Before unwrapping the anti-static packaging, be sure to discharge static electricity from your body.
•Before transporting a static-sensitive component, place it in an anti-static container or packaging.
•When handling static-sensitive components, grab them by the sides, not the top. Avoid touching pins and circuit boards.
•When unpacking a static-sensitive component from its shipping carton, do not remove the component from the anti-static packing material until you are ready to install the component. Before unwrapping the anti-static packaging, be sure to discharge static electricity from your body.
•Before transporting a static-sensitive component, place it in an anti-static container or packaging.
Insulator Elements
It is critical to keep ESD sensitive devices away from internal parts which are insulators and are often highly charged. These are elements such as plastic heat sink casings.
It is critical to keep ESD sensitive devices away from internal parts which are insulators and are often highly charged. These are elements such as plastic heat sink casings.
Transporting Sensitive Components
When transporting ESD sensitive components, it is critical to place these parts in anti-static bags for safe transport.
When transporting ESD sensitive components, it is critical to place these parts in anti-static bags for safe transport.
ESD Protection Summary
It is strongly suggested that all field service engineers use the traditional “wired” ESD grounding wrist strap and protective anti-static mat at all times when servicing products. In addition, it is critical that the engineer keep sensitive parts separate from all “insulator” parts while performing service and use anti-static bags for transport of sensitive components.
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1 comments:
Aside from all of these PPEs, make sure you wear high quality esd shoes that will keep you safe and protected while working. SAS ESD Shoes
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