4D-PAM5 Line Coding: Advantages and Disadvantages
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This page explores the benefits and drawbacks of 4D-PAM5 encoding. We’ll cover the advantages and disadvantages of this line coding scheme.
What is 4D-PAM5 Line Coding?
4D-PAM5 (Four-Dimensional Five-Level Pulse Amplitude Modulation) is a multilevel signaling scheme. In this encoding method, data is transmitted simultaneously over four wires, utilizing five voltage levels: -2, -1, 0, 1, and 2. The ‘0’ level is specifically used for forward error detection.
In this technique, all 8 bits are fed into the wire simultaneously and transmitted using a single signal element. Gigabit LANs employ this encoding technique to achieve 1 Gbps data transfer over four copper cables, capable of handling 125 Mbaud. Conceptually, if we consider the code as one-dimensional, the four levels resemble the 8B4Q line coding scheme.
Advantages of 4D-PAM5 Line Coding
The following are the benefits of using 4D-PAM5 line coding:
- Reduced Signal Rate: By sending data across four channels, the signal rate is reduced by N/8.
- Gigabit LAN Compatibility: It facilitates simultaneous data transmission over four wires in Gigabit LAN environments.
- Error Detection: Redundant data is used for forward error detection.
- Self Synchronization: 4D-PAM5 offers self-synchronization capabilities.
- Absence of DC Components: The encoded signal does not contain DC components.
Disadvantages of 4D-PAM5 Line Coding
The following are the drawbacks of using 4D-PAM5 line coding:
- Redundancy: 4D-PAM5 maps 28 data patterns to 44 signal patterns. This substantial mapping results in considerable redundancy in the signal patterns.