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Cable Modem Technology Overview
Data Over Cable Service Interface Specifications (DOCSIS) is a project that was developed to provide a set of necessary communications and operations support interface specifications through which cable companies can achieve cross-platform functionality. In essence, DOCSIS can guarantee interoperability by establishing standards for carrying IP packets over an HFC cable TV network. Figure 4-1 illustrates the DOCSIS protocol stack compared to the OSI model. Some of the key terminologies and DOCSIS specifications will be explained briefly.
Figure 4-1. DOCSIS Protocol Stack
Figure 4-2 illustrates a typical CATV and two-way data network. The Hybrid Fiber Coax (HFC) portion refers to any configuration of fiber optic and coaxial cable that is used to distribute broadband communications such as voice, video, and data. The HFC network connects subscribers to the cable headend and video flows as analog radio frequency or optical signals. Optical fiber brings the signal from the headend to fiber nodes that serve 500 to 2000 homes. Fiber optic is used because it has lower signal power loss and is less susceptible to noise compared to coaxial cable for long distances. Fiber node converts optical signals from fiber to electrical signals on 75-ohm coaxial cable. Coaxial cable has higher signal power loss than fiber, but it is a more cost-effective way to reach subscribers.
Figure 4-2. Typical CATV and Two-Way Data Network
You can see from Figure 4-2 that the regional headend and local headends are connected via the high-speed fiber network. The video signal flows in analog or digital formats over the fiber network. Usually the regional headend receives national channels from satellites and transmits them to various local headends. Local headends may receive local channels as well as national channels from the regional headend. They selectively process and transmit them to subscribers based on individual requests or demographic group needs. All the video channels are modulated and sent to the combiner at the local headend. The downstream port of the CMTS is connected to the up-converter, and the output signal goes into the combiner. In essence, the output signal (6 MHz wide) becomes one of the video channels that is sent downstream for data communication. Please note that to achieve two-way data network, bidirectional amplifiers are required.
Downstream and Upstream
Downstream is the term used for the signal received by the cable modem. In other words, the signal flows from the headend toward the subscribers. It is also called forward path. Upstream is the term used for the signal transmitted by the cable modem. The signal flows from the subscribers to the headend. It is also called the return path or reverse path.
Modulation Modes
Digital modulation is the physical layer of the DOCSIS protocol stack. The different types of modulation modes are as follows:
Quadrature Phase Shift Keying (QPSK) A digital modulation method in which 2 data bits are represented with each baud symbol. QPSK is used for upstream transmission.
Quadrature Amplitude Modulation (QAM) A digital modulation method in which the value of a symbol consisting of multiple bits is represented by a carrier's amplitude and phase states. Typical QAM types are
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16-QAM (4 bits per symbol)
Used for upstream transmission.
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64-QAM (6 bits per symbol)
Used for downstream transmission.
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256-QAM (8 bits per symbol)
Used for downstream transmission.
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16-QAM (4 bits per symbol)
Used for upstream transmission.
Spectrum Sharing
Time-division multiplexing (TDM) permits timeslots within a channel to be shared by multiple subscribers. TDM is used for downstream transmission, in which only one transmitter is involved. Time-division multiple access (TDMA) allows multiple subscribers to transmit sequentially to a common receiver. It is used for upstream or return transmission in which a number of transmitters need to communicate with the headend.
DOCSIS Hardware Specifications
Tables 4-1 through 4-4 show the DOCSIS hardware specification. The DOCSIS hardware must meet or exceed the published specifications for the cable access solution to work properly.
Table 4-1 summarizes key parameters of the upstream signal.
Frequency Range | 5 to 42 MHz |
Bandwidth | 200, 400, 800, 1600, 3200 KHz |
Modulation Mode | QPSK or 16-QAM |
Symbol Rates | 160, 320, 640, 1280, 256 Ksym/sec |
Table 4-2 summarizes key parameters of the downstream signal.
Frequency Range | 88 to 860 MHz |
Bandwidth | 6 MHz |
Modulation Mode | 64-QAM or 256-QAM |
Symbol Rates | 5.056941 or 5.360537 Msym/sec |
Table 4-3 summarizes the incoming upstream signals that need to be supported by the CMTS receiver. Downstream RF output is also specified in this table.
Upstream | Power Level Range |
|---|---|
200 KHz | 16 to +14 dBmV[1] |
400 KHz | 13 to +17 dBmV |
800 KHz | 10 to +20 dBmV |
1600 KHz | 7 to +23 dBmV |
3200 KHz | 4 to +26 dBmV |
Downstream | Power Level Range |
6 MHz | +50 to +61 dBmV |
[1] A dBmV is the power of a signal in comparison to the power of a 1 mV signal when applied to 75-ohm resistance. The dBmV is used as the unit of radio frequency (RF) power in the cable industry. The coax cables used in the cable industry are usually 75-ohm.
Table 4-4 summarizes input and output signal levels for the cable modem.
Output | Power Level Range |
|---|---|
QPSK | +8 to +58 dBmV |
16-QAM | +8 to +55 dBmV |
Input | Power Level Range |
64-QAM/256-QAM | 15 to +15 dBmV |
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