High humidity can cause moisture to enter the switches and servers. Moisture can cause corrosion of internal components and degradation of properties such as electrical resistance, thermal conductivity, physical strength, and size. The switches and servers are rated to operate at 10 to 90 percent relative humidity with a humidity gradation of 10 percent per hour. For nonoperating conditions, these devices can withstand from 5 to 93 percent relative humidity.

Buildings in which the climate is controlled by air conditioning in the warmer months and by heat during the colder months usually maintain an acceptable level of humidity for the devices. However, if the devices are located in an unusually humid location, you should use a dehumidifier to maintain the humidity within an acceptable range.

If you operate rack devices at a high altitude (low pressure), the efficiency of forced and convection cooling is reduced and can result in electrical problems that are related to arcing and corona effects. This condition can also cause sealed components with internal pressure, such as electrolytic capacitors, to fail or to perform at a reduced efficiency. These devices are rated to operate at altitudes from 0 to 10,000 feet (0 to 3,050 m), and can be stored at altitudes of 0 to 40,000 feet (12,200 m).

Fans cool power supplies, switches, and servers by drawing in air and exhausting air out through various openings in the chassis. However, fans also ingest dust and other particles, causing contaminant buildup in the switch and increased internal chassis temperature. A clean operating environment can greatly reduce the negative effects of dust and other particles, which act as insulators and interfere with the mechanical components in the switches and servers.

In addition to regular cleaning, follow these precautions to avoid contamination of rack switches and servers:

• Do not permit smoking near the rack.

• Do not permit food or drink near the rack.

Electromagnetic interference (EMI) and radio frequency interference (RFI) from the devices in the Tetration (Secure Workload) cluster rack can adversely affect other devices such as radio and television (TV) receivers operating near the rack. Radio frequencies that emanate from the devices in the rack can also interfere with cordless and low-power telephones. Conversely, RFI from high-power telephones can cause spurious characters to appear on the device monitors.

RFI is any EMI with a frequency above 10 kHz. This type of interference can travel from the switch to other devices through the power cable and power source or through the air as transmitted radio waves. The Federal Communications Commission (FCC) publishes specific regulations to limit the amount of EMI and RFI that can be emitted by computing equipment. Each switch meets these FCC regulations.

When wires are run for any significant distance in an electromagnetic field, interference can occur between the field and the signals on the wires with the following implications:

• Bad wiring can result in radio interference emanating from the plant wiring.

• Strong EMI, especially when it is caused by lightning or radio transmitters, can destroy the signal drivers and receivers in the chassis and even create an electrical hazard by conducting power surges through lines into equipment.

Note	To predict and prevent strong EMI, consult experts in RFI.

The wiring is unlikely to emit radio interference if you use twisted-pair cable with a good distribution of grounding conductors. If you exceed the recommended distances, use a high-quality twisted-pair cable with one ground conductor for each data signal when applicable.

Caution

If the wires exceed the recommended distances, or if wires pass between buildings, give special consideration to the effect of a lightning strike in your vicinity. The electromagnetic pulse caused by lightning or other high-energy phenomena can easily couple enough energy into unshielded conductors to destroy electronic devices. Consult experts in electrical surge suppression and shielding if you have had similar problems in the past.

The devices in the Tetration (Secure Workload) cluster devices have been shock- and vibration-tested for operating ranges, handling, and earthquake standards.

The devices in the Tetration (Secure Workload) cluster are sensitive to variations in voltage supplied by the power sources. Overvoltage, undervoltage, and transients (or spikes) can erase data from the memory or cause components to fail. To protect against these types of problems, make sure that there is an earth-ground connection for the devices. You must connect the rack to the facility earth ground.

The grounding points on the chassis are sized for M5 screws. You must provide your own screws, grounding lug, and grounding wire. The grounding lug must be a dual-hole lug that fits M5 screws. The grounding cable that you provide must be 14 AWG (2 mm), minimum 60°C wire, or as permitted by the local code.