UMTS / WCDMA modulation

- tutorial, or overview of the basics of the UMTS, WCDMA modulation formats or schemes used

The modulation schemes used within the CDMA signal format have been chosen to optimise the performance of the overall UMTS, WCDMA system. One major driver that influenced the choice of the UMTS modulation formats was experience gained from 2G systems. By using a careful choice of modulation scheme it has been possible to overcome the problems experienced in 2G. However there many other requirements that need to be met in addition to this.

UMTS modulation schemes

There are several considerations that were taken into account when making the choice for the overall format for the UMTS WCDMA modulation formats. Some of the considerations were:

  • It is necessary to ensure that the data is carried efficiently over the available spectrum, and therefore maximum use is made of the available spectrum, and hence the capacity of the system is maximised.
  • The modulation scheme should be chosen to ensure that the efficiency of the RF power amplifier in the handset or UE is made as high as possible. By enabling the power amplifier to be maximised, less battery power is consumed for the same transmitted power. As battery power is of particular importance to users, this is a key requirement.
  • The modulation format should be chosen to avoid the audio interference caused to many nearby electronics equipment resulting from the pulsed transmission format used on many 2G systems such as GSM

As the uplink and downlink have different requirements, the exact format for the modulation format used on either direction is slightly different.

UMTS modulation schemes for both uplink and downlink, although somewhat different are both based around phase shift keying formats. This provides many advantages over other schemes that could be used in terms of spectral efficiency and other requirements.

Note on PSK:

Phase shift Keying, PSK is a form of modulation used particularly for data transmissions. If offers an effective way of transmitting data. By altering the number of different phase states which can be adopted, the data speeds that can be achieved within a given channel can be increased, but at the cost of lower resilience to noise an interference.

Click on the link for a PSK tutorial

Downlink modulation

The UMTS modulation format for the downlink is more straightforward than that used in the uplink. The downlink uses quadrature phase shift keying, QPSK.

The QPSK modulation used in the downlink is used with time-multiplexed control and data streams. While time multiplexing would be a problem in the uplink, where the transmission in this format would give rise to interference in local audio systems, this is not relevant for the downlink where the NodeB is sufficiently remote from any local audio related equipment to ensure that interference is not a problem.

Uplink modulation

However the uplink uses two separate channels so that the cycling of the transmitter on and off does not cause interference on the audio lines, a problem that was experienced on GSM. The dual channels (dual channel phase shift keying) are achieved by applying the coded user data to the I or In-phase input to the DQPSK modulator, and control data which has been encoded using a different code to the Q or quadrature input to the modulator.

By Ian Poole

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Securing the future of IoT | Rutronik
Securing the future of IoT
Co-authored by Bernd Hantsche, Head of the GDPR Team of Excellence and Marketing Director Embedded & Wireless and Richard Ward, ‎Semiconductor Marketing Manager at Rutronik. is operated and owned by Adrio Communications Ltd and edited by Ian Poole. All information is © Adrio Communications Ltd and may not be copied except for individual personal use. This includes copying material in whatever form into website pages. While every effort is made to ensure the accuracy of the information on, no liability is accepted for any consequences of using it. This site uses cookies. By using this site, these terms including the use of cookies are accepted. More explanation can be found in our Privacy Policy