OVERVIEW: iDEN Voice Compression Technology
(GPS) system. Each burst is numbered; the number is referred to as the slot number. All bursts occurring at a given time carry the same slot number.
Inbound transmission bursts (sent from the unit) are offset 19 milliseconds from the outbound burst; the inbound burst begins 4 milliseconds after the end of the outbound burst (see Figure
In current iDEN systems, outbound transmissions in the 800 MHz band range from
An iDEN channel is created by grouping bursts so that their slot numbers differ by a number referred to as the repetition rate. The unit uses two repetition rates for interconnect voice calls: 6:1 and 3:1. A single frequency can handle 6 calls using a 6:1 repetition rate with the 4.2 Kbps coder.
Dispatch calls always use this rate. However, the audio quality of the 3:1 repetition rate with the 8.0 Kbps coder is superior to the 6:1 rate with the 4.2 Kbps coder. Most service providers configure the system and unit to allow only the 3:1 rate for interconnect calls.
Calls are set up on a primary control channel (PCCH) in response to a request from a unit or a regular telephone connected to the Public Switch Telephone Network (PSTN). The PCCH is established by the base station equipment; typically, it is a 6:1 channel.
The outbound PCCH carries system information and “pages” to specific subscriber units and asks them to respond if they are available for a call. Inbound PCCH transmissions carry responses to the “pages” and requests by subscriber units to set up calls. Inbound transmissions on the primary control channel only take 7.5 milliseconds and can be timed to occur in either half of a 15- millisecond burst.
The dual band unit will power up in the 800 MHz band and will use these channels for control
Using the above techniques, the iDEN system can operate 6 voice channels simultaneously in dispatch mode or 3 voice channels simultaneously in interconnect mode on a single RF carrier at 25 kHz bandwidth.
1.2.2Calling Area Coverage
Area coverage is obtained by dividing the area into a mosaic of cells. Coverage is controlled so that frequencies can be reused with less distance between sites. Each cell is covered by a base station, which is classified as Omni or Sectored. An Omni station connects base transceivers to antennas that have a circular pattern centered at the site. A Sectored station connects base transceivers to directional antennas that point in particular directions. Units that operate in a
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