What is CDMA? Advantage Disadvantage and its Characteristics

What is CDMA? Advantage Disadvantage and its Characteristics

 

CDMA (Code-Division Multiple Access) is a channel access method used by various radio communication technologies. It is a form of multiplexing, which allows numerous signals to occupy a single transmission channel, optimizing the use of available bandwidth. The technology is used in ultra-high-frequency (UHF) cellular telephone systems in the 800-MHz and 1.9-GHz bands.
CDMA employs analog-to-digital conversion (ADC) in combination with spread spectrum technology. 
The original CDMA standard, also known as CDMA One and still common in cellular telephones in the U.S offers a transmission speed of only up to 14.4 Kbps in its single channel form and up to 115 Kbps in an eight-channel form. CDMA2000 and Wideband CDMA deliver data many times faster.
  1. Ø  spread spectrum techniques use a transmission bandwidth that is several orders of magnitude greater than the minimum required signal bandwidth. These systems were designed using spread spectrum because of its security and resistance to jamming.
  2. Ø  CDMA can  effectively reject narrow band interference. Since narrow band interference affects only a small portion of the spread spectrum signal, it can easily be removed through notch filtering without much loss of information.
  3. Ø  CDMA devices use a rake receiver, which exploits multipath delay components to improve the performance of the system.
  4. Ø  In a CDMA system, the same frequency can be used in every cell, because channelization is done using the pseudo-random codes.
  5. Ø  Reusing the same frequency in every cell eliminates the need for frequency  planning in a CDMA system;
  6. Ø  CDMA systems use the soft hand off, which is undetectable and provides a more reliable and higher quality signal.



General Specification of CDMA
  1. Ø  Rx:  869-894MHz     Tx:  824-849MHz
  2. Ø  20 Channels spaced 1250kHz apart (798 users/channel)
  3. Ø  QPSK/(Offset) OQPSK modulation scheme
  4. Ø  1.2288Mbps bit rate
  5. Ø  IS-95 standard
  6. Ø  Operates at both 800 and 1900 MHz frequency bands
  1. Ø  Efficient practical utilization of fixed frequency spectrum.
  2. Ø  Flexible allocation of resources.
  3. Ø  Many users of CDMA use the same frequency, TDD or FDD may be used
  4. Ø  Multipath fading may be substantially reduced because of large signal bandwidth
  5. Ø  No absolute limit on the number of users, Easy addition of more users.
  6. Ø  Impossible for hackers to decipher the code sent
  7. Ø  Better signal quality
  8. Ø  No sense of handoff when changing cells
  9. Ø  The CDMA channel is nominally 1.23 MHz wide.
  10. Ø  CDMA networks use a scheme called soft handoff, which minimizes signal breakup as a handset passes from one cell to another.
  11. Ø  CDMA is compatible with other cellular technologies; this allows for nationwide roaming.
  12. Ø  The combination of digital and spread-spectrum modes supports several times as many signals per unit bandwidth as analog modes.
  1. Ø  As the number of users increases, the overall quality of service decreases
  2. Ø  Self-jamming
  3. Ø  Near- Far- problem arises
  1. Ø  One of the early applications for code division multiplexing is in GPS. This predates and is distinct from its use in mobile phones.
  2. Ø  The Qualcomm standard IS-95, marketed as cdmaOne.
  3. Ø  The Qualcomm standard IS-2000, known as CDMA2000. This standard is used by several mobile phone companies, including the Globalstar satellite phone network.
  4. Ø  The UMTS 3G mobile phone standard, which uses W-CDMA.
  5. Ø  CDMA has been used in the OmniTRACS satellite system for transportation logistics.

     

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