Sunday, June 21, 2009

RF Splitters

An RF Splitter is a device that has a single input connector and multiple output connectors. An RF Splitter is used for the purpose of splitting a single signal into multiple independent RF signals. Use of splitters in everyday implementations of wireless LANs is not recommended. Sometimes two 120-degree panel antennas or two 90-degree panel antennas may be combined with a splitter and equal-length cables when the antennas are pointing in opposite directions. This configuration will produce a bidirectional coverage area, which may be ideal for covering the area along a river or major highway. Back-to-back 90 degree panels may be separated by as little as 10 inches or as much as 40 inches on either side of the mast or tower. Each panel in this configuration may have a mechanical down tilt. The resultant gain in each of the main radiation lobes is reduced by 3 - 4 dB in these configurations.

When installing an RF splitter, the input connector should always face the source of the RF signal. The output connectors (sometimes called "taps") are connected facing the destination of the RF signal (the antenna). Figure 5.26 shows two examples of RF splitters. Figure 5.27 illustrates how an RF splitter would be used in a wireless LAN installation.

Splitters may be used to keep track of power output on a wireless LAN link. By hooking a power meter to one output of the splitter and the RF antenna to the other, an administrator can actively monitor the output at any given time. In this scenario, the power meter, the antenna, and the splitter must all have equal impedance. Although not a common practice, removing the power meter from one output of the splitter and replacing it with a 50 ohm dummy load would allow the administrator to move the power meter from one connection point to another throughout the wireless LAN while making output power measurements.


RF Connectors

RF connectors are specific types of connection devices used to connect cables to devices or devices to devices. Traditionally, N, F, SMA, BNC, & TNC connectors (or derivatives) have been used for RF connectors on wireless LANs.

In 1994, the FCC & DOC (Canadian Department of Communications) ruled that connectors for use with wireless LAN devices should be proprietary between manufacturers. For this reason, many variations on each connector type exist such as:
  • N-type
  • Reverse polarity N-type
  • Reverse threaded N-type

Choosing an RF Connector

There are five things that should be considered when purchasing and installing any RF
connector, and they are similar in nature to the criteria for choosing RF amplifiers and
attenuators.
  1. The RF connector should match the impedance of all other wireless LAN components (generally 50 ohms).
  2. Know how much insertion loss each connector inserted into the signal path causes. The amount of loss caused will factor into your calculations for signal strength required and distance allowed.
  3. Know the upper frequency limit (frequency response) specified for the particular connectors. This point will be very important as 5 Ghz wireless LANs become more and more common. Some connectors are rated only as high as 3 GHz, which is fine for use with 2.4 GHz wireless LANs, but will not work for 5 GHz wireless LANs. Some connectors are rated only up to 1 GHz and will not work with wireless LANs at all, other than legacy 900 MHz wireless LANs.
  4. Beware of bad quality connectors. First, always consider purchasing from a reputable company. Second, purchase only high-quality connectors made by name-brand manufacturers. This kind of purchasing particularity will help eliminate many problems with sporadic RF signals, VSWR, and bad connections.
  5. Make sure you know both the type of connector (N, F, SMA, etc.) that you need and the sex of the connector. Connectors come in male and female. Male connectors have a center pin, and female connectors have a center receptacle.

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