Difference between CDMA and GSM

Key Difference: CDMA allows multiple users on the same channel using unique codes. GSM divides users into time slots or on different frequencies, where only one user is allowed to use one channel slot at one time.

When purchasing a mobile phone, a normal person usually does not care much about the type of channel it uses, the frequency rate, the way data is transferred, or if it is GSM or CDMA; he only cares about the company he prefers (T-Mobile, Reliance, Vodafone, etc), the type of phone wants (iPhone, Samsung, etc) and the cost and the type of bill payment (pre-paid or postpaid). This is usually what goes through a consumer’s mind when purchasing the bill and in many cases they don’t even know if they are purchasing a CDMA network or a GSM network specially in countries such as the United States. CDMA and GSM are two different types of standards that are available for transmitting data and mobile voice services on a cell phone or mobile phone.

CDMA is shorthand for Code Division Multiple Access, which is one of the major radio systems that are used in cell phones. In tech lingo, CDMA is actually known as Interim Standard 95 (IS-95) and it is the first digital cellular standard by Qualcomm. IS-95 is a 2G mobile communications standard that uses CDMA to send voice, data and signaling data between cell phones and towers. CDMA is a multiple access scheme for digital radio. CDMA standards allow various radios to share the same frequency, which enables all radios to be active at the same time. Since one frequency can host a number of radios, a small number of cell-towers are required allowing it to have a significant economic advantage over other standards. This type of standard is dominantly used in the United States, where the significant number of carriers offer only CDMA services.

CDMA runs on a code system, where every call data is assigned with a unique code so that when all the voice data is transmitted it once it the receivers have a unique key to divide the code into individual cells. This allows all the calls to run on the same frequency without having to interact with each other. CDMA is considered as having more advanced technology due to being able to offer faster and clearer voice and data transfer rate, it also provides more security due to the encryption of each phone call. However, it also has a few limitations such as it is not widely available which results in it being only used in selective areas such as the United States. It is also carrier dependent, in terms that if a user wishes to change the phone, he would require another mobile that is only provided by the carrier or is CDMA compatible and cannot willing switch between carriers.

Let’s use an example to help understand how the data is transferred in CDMA network. Let’s imagine a group of people that are placed in a single room and divided into couples. All off the two people groups would be talking to each other; however each group of two would be talking in a different language so that they do interfere with the other couples.

The GSM, shorthand for Global System for Mobile Communication, is a standard that was developed by the European Telecommunications Standards Institute (ETSI) to describe the 2G network for cell phones. This was created in 1991 as a replacement for the first generation (1G) analog cellular networks. The way that the GSM standard transmits data only allows a few people to connect to one frequency at one time, resulting in requirement of many cell towers. This sometime causes frequencies to mix, resulting in wrong calls or accidently being connected to another call. GSM is has a larger market share of 76% and is popular in many countries including Europe and Asia.

The GSM standard uses two different technologies for transferring voice and data from the cell phone to the network tower: Time-division multiple access (TDMA) and Frequency-division multiple access (FDMA). The TDMA technology allows multi-user technology that divides the channel into sequential time slices and allows each user to take turns transmitting and receiving signals on that particular channel. In actuality, only one person uses the channel at one time. The FDMA actually works a bit better where it divides the call according to frequencies. This technology provides multi-user access to one channel by placing them of different frequencies, while then using TDMA to separate users within different cells.

Using the same example where people are divided into couples, in GSM only one person would be allowed to talk, while the others would listen. At any given point, only one person would be allowed to speak at one time in the whole room.

CDMA and GSM have been in constant competition trying to capture the market and both have strong points as well as weak points. As stated previously, in terms of technology CDMA won the upper hand and GSM in had to shift to CDMA for its 3G technology. However, it still made it incompatible by deploying WCDMA (Wideband CDMA) or UMTS (Universal Mobile Telecommunications Service). While, CDMA depends on the EV-DO and SV-DO for its 3G technology. CDMA EV-DO technology is also flawed in the sense that it cannot transmit voice and data at the same time, while GSM can transmit both. GSM has the upper hand in the market share due to its leniency with allowing the users to change their phones to any unlocked GSM-compatible phone by just placing their SIM card into the new phone. However, in terms of data transfer rate in 2G as well as clarity of calls, CDMA is unbeatable. Only recently as GSM been able to surpass CDMA’s transfer rate using its 3G technology. For the 4G standards, it is estimated that both the companies would have to resort to 4G LTE ( Long Term Evolution) standards.

 

CDMA

GSM

Stands for

Code Division Multiple Access

Global System for Mobile Communication

Storage Type

Internal Memory

SIM (subscriber identity module) Card

Year of First Use

1995

1991

Handset interoperability

None, though some do use SIM cards.

SIM card

Signal quality/coverage area

Unlimited cell size, low transmitter power permits large cells

Good coverage indoors on 850/900 MHz. Repeaters possible. 35 km hard limit.

Technology

CDMA

Time-division multiple access (TDMA) and Frequency-division multiple access (FDMA).

Mode of data transfer

CDMA makes the optimal use of bandwidth as it allows data of each user to transmit over the entire frequency spectrum at all times. So a number of callers can be on the same connection at the same time, but do not interact with each other.

GSM divides the channel into sequential time slices, where each user takes turns to transmit and receive signal. Only one user is allowed to be in one time slot at one time and until the person is done, no other person can use that slot. While, FDMA allows GSM to have multiple users on a channel by separating them on different frequencies.

Global market share

24%

76%

Dominance

Dominant standard in the United States.

Dominant standards worldwide.

Voice and Data at the same time

No

Yes GPRS Class A

Security

Higher security is provided on this network as it is inbuilt with encryption. Each person has a unique code.

GSM technology allows various people to access the same connection, hence it makes it less safer compared to CDMA.

Spectrum Frequencies

CDMA 850 MHz and 1900 MHz

GSM 850 MHz and 1900 MHz.

Data Transfer Rate

CDMA has a maximum download speed of 2 mbps.

GSM has a maximum download speed of 384 kbps.

Radiation Exposure

No radiation is emitted.

GSM network emits continuous wave pulses. Radiation is 28 times more than CDMA.

3G

IS-2000 (CDMA 2000)

UMTS (3GSM)

4G

4G LTE (Long Term Evolution)

4G LTE ( Long Term Evolution)

Advantages

CDMA can accommodate more users per MHz of bandwidth, no built-in limit to the number of concurrent users, uses precise clocks so that tower distance is not limited, consumes less power and covers large areas, able to produce a reasonable call with lower signal levels, uses soft handoff, reducing the likelihood of dropped calls, channels are packed more efficiently.

Less signal deterioration inside buildings, ability to use repeaters, talktime is generally higher in GSM phones due to the pulse nature of transmission, allows to switch handsets at will, covers almost all parts of the world for international roaming, more subscribers globally make it a better network effect for GSM handset makers, carriers and end users.

Limitations

Qualcomm is the major IP holder and other technologies must be licensed from them, breathing of base stations, where coverage area shrinks under load, IS-95 towers are installed on shorter towers, which gives bad coverage in hilly areas, is-95 phones are generally unable to roam internationally, smaller market so release of new technologies take time, phones are not portable across providers.

Interferes with some electronics, intellectual property is concentrated among a few industry participants, GSM has a fixed maximum cell site range of 120 km.

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