Skip to content Skip to navigation Skip to collection information

OpenStax_CNX

You are here: Home » Content » Principles of Digital Communications » Application of Rake Receiver in CDMA System

Navigation

Table of Contents

Recently Viewed

This feature requires Javascript to be enabled.
 

Application of Rake Receiver in CDMA System

Module by: Sinh Nguyen-Le, Tuan Do-Hong. E-mail the authorsEdited By: Sinh Nguyen-Le, Tuan Do-HongTranslated By: Sinh Nguyen-Le

Interim Specification 95 (IS-95) describes a Direct-Sequence Spread-Spectrum (DS/SS) cellular system that uses a Rake receiver to provide path diversity for mitigating the effects of frequency-selective fading. The Rake receiver searches through the different multipath delays for code correlation and thus recovers delayed signals that are then optimally combined with the output of other independent correlators.

Figure 1 show the power profiles associated with the five chip transmissions of the code sequence 1 0 1 1 1. Each abscissa shows three components arriving with delays τ1τ1 size 12{τ rSub { size 8{1} } } {}, τ2τ2 size 12{τ rSub { size 8{2} } } {}, and τ3τ3 size 12{τ rSub { size 8{3} } } {}. Assume that the intervals between the transmission times titi size 12{t rSub { size 8{i} } } {} and the intervals between the delay times τiτi size 12{τ rSub { size 8{i} } } {} are each one chip in duration. The component arriving at the receiver at time t4t4 size 12{t rSub { size 8{ - 4} } } {}, with delay τ3τ3 size 12{τ rSub { size 8{3} } } {}, is time-coincident with two others, namely the components arriving at times t3t3 size 12{t rSub { size 8{ - 3} } } {} and t2t2 size 12{t rSub { size 8{ - 2} } } {} with delays τ2τ2 size 12{τ rSub { size 8{2} } } {} and τ1τ1 size 12{τ rSub { size 8{1} } } {} respectively. Since in this example the delayed components are separated by at least one chip time, they can be resolved.

Figure 1
Figure 1 (graphics1.png)

At the receiver, there must be a sounding device dedicated to estimating the τiτi size 12{τ rSub { size 8{i} } } {} delay times. Note that the fading rate in mobile radio system is relatively slow (in the order of milliseconds) or the channel coherence time large compared to the chip time duration ( T0>TchT0>Tch size 12{T rSub { size 8{0} } >T rSub { size 8{ ital "ch"} } } {}). Hence, the changes in τiτi size 12{τ rSub { size 8{i} } } {} occur slowly enough that the receiver can readily adapt to them.

Once the τiτi size 12{τ rSub { size 8{i} } } {} delays are estimated, a separate correlator is dedicated to recovering each resolvable multipath component. In this example, there would be three such dedicated correlators, each one processing a delayed version of the same chip sequence 1 0 1 1 1. Each correlator receives chips with power profiles represented by the sequence of components shown along a diagonal line. For simplicity, the chips are all shown as positive signaling elements. In reality, these chips form a pseudonoise (PN) sequence, which of course contains both positive and negative pulses. Each correlator attempts to correlate these arriving chips with the same appropriately synchronized PN code. At the end of a symbol interval (typically there may be hundreds or thousands of chips per symbol), the outputs of the correlators are coherently combined, and a symbol detection is made.

The interference-suppression capability of DS/SS systems stems from the fact that a code sequence arriving at the receiver time-shifted by merely one chip will have very low correlation to the particular PN code with which the sequence is correlated. Therefore, any code chips that are delayed by one or more chip times will be suppressed by the correlator. The delayed chips only contribute to raising the interference level (correlation sidelobes).

The mitigation provided by the Rake receiver can be termed path diversity, since it allows the energy of a chip that arrives via multiple paths to be combined coherently. Without the Rake receiver, this energy would be transparent and therefore lost to the DS/SS receiver.

Collection Navigation

Content actions

Download:

Collection as:

PDF | EPUB (?)

What is an EPUB file?

EPUB is an electronic book format that can be read on a variety of mobile devices.

Downloading to a reading device

For detailed instructions on how to download this content's EPUB to your specific device, click the "(?)" link.

| More downloads ...

Module as:

PDF | EPUB (?)

What is an EPUB file?

EPUB is an electronic book format that can be read on a variety of mobile devices.

Downloading to a reading device

For detailed instructions on how to download this content's EPUB to your specific device, click the "(?)" link.

| More downloads ...

Add:

Collection to:

My Favorites (?)

'My Favorites' is a special kind of lens which you can use to bookmark modules and collections. 'My Favorites' can only be seen by you, and collections saved in 'My Favorites' can remember the last module you were on. You need an account to use 'My Favorites'.

| A lens I own (?)

Definition of a lens

Lenses

A lens is a custom view of the content in the repository. You can think of it as a fancy kind of list that will let you see content through the eyes of organizations and people you trust.

What is in a lens?

Lens makers point to materials (modules and collections), creating a guide that includes their own comments and descriptive tags about the content.

Who can create a lens?

Any individual member, a community, or a respected organization.

What are tags? tag icon

Tags are descriptors added by lens makers to help label content, attaching a vocabulary that is meaningful in the context of the lens.

| External bookmarks

Module to:

My Favorites (?)

'My Favorites' is a special kind of lens which you can use to bookmark modules and collections. 'My Favorites' can only be seen by you, and collections saved in 'My Favorites' can remember the last module you were on. You need an account to use 'My Favorites'.

| A lens I own (?)

Definition of a lens

Lenses

A lens is a custom view of the content in the repository. You can think of it as a fancy kind of list that will let you see content through the eyes of organizations and people you trust.

What is in a lens?

Lens makers point to materials (modules and collections), creating a guide that includes their own comments and descriptive tags about the content.

Who can create a lens?

Any individual member, a community, or a respected organization.

What are tags? tag icon

Tags are descriptors added by lens makers to help label content, attaching a vocabulary that is meaningful in the context of the lens.

| External bookmarks