CELL-PHONE TECHNOLOGY

Wireless phones which receive their signals from towers. A cell is typically the area (several
miles) around a tower in which a signal can be received.
Cell phones provide an incredible array of functions. Depending on the cell-phone model, you
can:
• Store contact information
• Make task or to-do lists
• Keep track of appointments and set reminders
• Use the built-in calculator for simple math
• Send or receive e-mail
• Get information (news, entertainment, stock quotes) from the internet
• Play games
• Watch TV
• Send text messages
• Integrate other devices such as PDAs, MP3 players and GPS receivers
A cell phone is a full-duplex device. That means that you use one frequency for talking and a
second, separate frequency for listening. Both people on the call can talk at once.
Division of a city into small cells allows extensive frequency reuse across a city, so that
millions of people can use cell phones simultaneously. Cell phones operate within cells, and they
can switch cells as they move around. Cells give cell phones incredible range. Someone using a
cell phone can drive hundreds of miles and maintain a conversation the entire time because of the
cellular approach. Each cell has a base station that consists of a tower and a small building
containing the radio equipment.

A single cell in an analog cell-phone system uses one-seventh of the available duplex voice
channels. That is, each cell is using one-seventh of the available channels so it has a unique set of
frequencies and there are no collisions:
• A cell-phone carrier typically gets 832 radio frequencies to use in a city.
• Each cell phone uses two frequencies per call -- a duplex channel -- so there are typically
395 voice channels per carrier. (The other 42 frequencies are used for control channels)
Therefore, each cell has about 56 voice channels available. In other words, in any cell, 56 people
can be talking on their cell phone at one time. Analog cellular systems are considered
first-generation mobile technology, or 1G. With digital transmission methods (2G), the number
of available channels increases. For example, a TDMA-based digital system (more on TDMA
later) can carry three times as many calls as an analog system, so each cell has about 168
channels available.
Cell phones have low-power transmitters in them. Many cell phones have two signal strengths:
0.6 watts and 3 watts. The base station is also transmitting at low power. Low-power transmitters
have two advantages:
• The transmissions of a base station and the phones within its cell do not make it very
far outside that cell. Therefore, 2 different cells can reuse the same 56 frequencies.
Hence, the same frequencies can be reused extensively across the city.
• The power consumption of the cell phone, which is normally battery-operated, is
relatively low. Low power means small batteries, and this is what has made handheld
cellular phones possible.
The cellular approach requires a large number of base stations in a city of any size. A typical
large city can have hundreds of towers. But because so many people are using cell phones, costs
remain low per user. Each carrier in each city also runs one central office called the Mobile
Telephone Switching Office (MTSO). This office handles all of the phone connections to the
normal land-based phone system, and controls all of the base stations in the region.

All cell phones have special codes associated with them. These codes are used to identify the
phone, the phone's owner and the service provider. The various Cell Phone Codes used are as
follows:
1. Electronic Serial Number (ESN) : It is a unique 32-digit number programmed into the
phone when it is manufactured.
2. Mobile Identification Number (MIN) : A 10-digit number derived from the phones
number
3. System Identification Code (SID) : A unique 5-digit number that is assigned to each
carrier by the Federal Communications Commission (FCC).
ESN is a permanent part of the phone while both MIN and SID codes are programmed into
the phone when a service plan is purchased and the phone is activated.
Some of the necessary terminologies for cell-phone connection are described:
1. Mobile Telephone Switching Office (MTSO) : The switching office that all base
station cell sites connect to. It is a sophisticated computer that monitors all cellular calls,
keeps track of the location of all cellular-equipped vehicles traveling in the system,
arranges hand-offs, keeps track of billing information, etc. The MTSO in turn interfaces
to the PSTN by connection to a Control Office.
2. Public Switched Telephone Network (PSTN) : It is the network of the world's public
circuit-switched telephone networks, in much the same way that the Internet is the
network of the world's public IP-based packet-switched networks. Originally a network
of fixed-line analogue telephone systems, the PSTN is now almost entirely digital, and
now includes mobile as well as fixed telephones.
3.
If you have a cell phone, you turn it on and someone tries to call you. Here is what happens to
the call:
• When you first power up the phone, it listens for an SID on the control channel. The
control channel is a special frequency that the phone and base station use to talk to one
another about things like call set-up and channel changing. If the phone cannot find any
control channels to listen to, it knows it is out of range and displays a "no service"
message.
• When it receives the SID, the phone compares it to the SID programmed into the phone.
If the SIDs match, the phone knows that the cell it is communicating with is part of its
home system.
• Along with the SID, the phone also transmits a registration request, and the MTSO
keeps track of your phone's location in a database -- this way, the MTSO knows which
cell you are in when it wants to ring your phone.
• The MTSO gets the call, and it tries to find you. It looks in its database to see which
cell you are in.
• The MTSO picks a frequency pair that your phone will use in that cell to take the call.
• The MTSO communicates with your phone over the control channel to tell it which
frequencies to use, and once your phone and the tower switch on those frequencies, the
call is connected. Now, you are talking by two-way radio to a friend.
• As you move toward the edge of your cell, your cell's base station notes that your signal
strength is diminishing. Meanwhile, the base station in the cell you are moving toward
(which is listening and measuring signal strength on all frequencies, not just its own
one-seventh) sees your phone's signal strength increasing. The two base stations
coordinate with each other through the MTSO, and at some point, your phone gets a
signal on a control channel telling it to change frequencies. This hand off switches your
phone to the new cell.

If you're on the phone and you move from one cell to another -- but the cell you move into is
covered by another service provider, not yours. Instead of dropping the call, it'll actually be
handed off to the other service provider.
If the SID on the control channel does not match the SID programmed into your phone, then the
phone knows it is roaming. The MTSO of the cell that you are roaming in contacts the MTSO of
your home system, which then checks its database to confirm that the SID of the phone you are
using is valid. Your home system verifies your phone to the local MTSO, which then tracks your
phone as you move through its cells. All of this happens within seconds.
On most phones, the word "roam" will come up on your phone's screen when you leave your
provider's coverage area and enter another's. If you want to roam internationally, you'll need a
phone that will work both at home and abroad. Different countries use different cellular access
technologies.