This is why ADC conducted ingress testing for more than two years before developing the Homeworx "virtual modem test system." Based on the results of subsequent trials, ADC added increas
Trang 1white paper
Homeworx™
Introduction
The subject of ingress on the coaxial transport (either
accidental or intentional) is of the largest concern when
considering the transportation of telephony services on a
Hybrid Fiber Coax (HFC) system With a well-maintained
coax plant that is continually checked for compliance
with FCC standards for cumulative leakage index, return
path ingress should not present a problem However, it
must be assumed that no system is impervious to strong
RF fields that are in close proximity to the telephony
equipment The most common weak points through
which ingress enters the system are the customer drop,
and faulty "F" connectors on the drop cable Therefore,
measures must be taken to ensure that there is a
solution to all possible scenarios that might affect system
operation
ADC understands very well the significance of ingress in
cable plants This is why ADC conducted ingress testing for more than two years before developing the Homeworx "virtual modem test system." Based on the results of subsequent trials, ADC added increased ingress protection to the system and solidified the choice of orthogonal frequency division multiplexing (OFDM) for the Homeworx multiplexing scheme and Quadrature Amplitude Modulation-32 (QAM-32) as the primary† modulation scheme This approach has been validated by four years of field experience with the Homeworx system
CableLabs® in Boulder, Colorado, has also performed extensive research and study on this subject and has concluded that while the forward transmission path (50-750 MHz) is relatively free from the effects of ingress, the reverse path sub low spectrum on a cable system (5-42 MHz) is indeed an extremely hostile environment that suffers from the effects of narrowband signals such as RF broad-cast, amateur, and citizen band signal sources Additionally, impulse noise also plays a significant role
in affecting the digital transmission performance of a system
Any transmission scheme that is to operate in this environment will need to have a multi-tiered approach to combating the detrimental effects that these signal sources will have on telephony or data transport on hybrid fiber coax based communication systems
† The more recent Homeworx systems support QAM-4 (or Quadrature Phase Shift Keying [QPSK]) as
an alternative modulation scheme to combat at least 9 dB higher plant noise but at 2.5 times lower channel capacity compared to QAM-32 This feature is known as Dual-Constellation OFDM scheme based on the fact that the user can choose either QAM-32 or QAM-4 modulation depending on the prevailing circumstances
Modem Technology vs HFC Ingress Noise
The reverse path sub low spectrum on a cable system is indeed an extremely hostile environment that suffers from the effects of narrowband signals Any transmission scheme that is to operate in this environment will need to have a multi-tiered approach
to combating the detrimental effects that these signal sources will have on telephony or data transport on HFC-based communication systems.
Trang 2There are two types of ingress interference that are of interest in a broadband communication system, impulse noise and narrowband noise These can be injected into the network disrupting video as well
as telephony services For example, all the telephony upstream information is carried in the 5-42 MHz range If ingress from a subscriber's home enters the network, it has the potential of disrupting all other subscribers The fact that the subscriber has a CATV tap inside their home opens the door for opportunities for mishap One potential problem is a subscriber hooking up a TV antenna directly to his CATV cable Hackers trying to create mischief could cause more serious problems
Any HFC system must consider both accidental and intentional ingress of narrowband interference and impulse noise when designing the system The Homeworx cable telephony system is designed to handle both of these types of ingress
Narrowband Ingress
Narrowband ingress is a narrowband RF signal that is coupled into the cable from an external source
An ingress signal which is located within a modem waveform can potentially take the entire band off-line Narrowband interference comes from many sources CB and Amateur (ham) radio are typical examples of narrowband interference; usually these are 5 kHz (sometimes 25 kHz) in bandwidth, and are located in several frequency bands that are also allocated for use in the upstream portion of the CATV RF spectrum
ADC addresses this problem by using OFDM (or Orthogonal Frequency Division Multiple Access — OFDMA), which allows channels to be moved to another portion of the spectrum with a granularity
of 18 kHz (one DS0) Therefore, narrowband ingress may be avoided without losing large amounts of channel capacity
Some channels may be reserved for protection channels to allow calls in progress to be switched to a different channel in the event that ingress in the form of narrowband interference becomes present
on the system This call "hand-off" to another frequency, or channel, can be accomplished without the call being dropped
Impulse Noise
Impulse noise is a time varying RF interference that is typically caused by such sources as lightning, automobile ignitions, faulty insulators on high voltage lines, and overloaded lasers which can produce clipping noise that resembles impulse noise This type of ingress is much more difficult to deal with because of its random broadband nature The ADC modulation technique has a unique way of dealing with this type of ingress by spreading the impulse energy over many symbols in frequency or over longer symbol length in time
Consider a Time Division Multiple Access (TDMA) system and an OFDM (or OFDMA) system Assume the TDMA system has a symbol rate of 10 symbols/second The OFDM system has a symbol rate of
1 symbol/second, and contains 10 OFDM tones, resulting in a net data rate of 10 symbols/second Each signal has identical average power and therefore identical energy per symbol
The primary difference between the two systems are that the OFDM system has a much slower symbol rate, hence a narrow receiver bandwidth on each tone (a consequence of the FFT [Fast Fourier Transform] detection methodology) The receive bandwidth in the example TDMA system is 10x the receive bandwidth of the OFDM system
Trang 3Consider a pulse that is 0.1 seconds in duration with a
magnitude equal to the Root Mean Square (RMS) value of
the TDMA symbol, and is also aligned with a TDMA symbol
The signal to noise ratio (SNR) under this circumstance
would be 0dB The pulse would pass through the TDMA
receiver with little attenuation
Consider the same pulse within an OFDM symbol The
symbol length is 10x as long as the impulse, and the receive
bandwidth is 10% of the equivalent TDMA system
Therefore, only 10% of the pulse power would pass through
the receive filter and the resulting average SNR would be 10
dB Consequently, the impulse noise susceptibility of the
Homeworx system using OFDM/QAM-32 is reduced over a equivalent single channel TDMA system by:
10 x Log10( Bwtone ) = 10 x Log10( 9 kHz) = -27 dB
Note: 9 kHz rather than 18 kHz is used because a DS0 is actually composed of two 9 kHz tones.
On the other hand, susceptibility for noise of the Homeworx system using OFDM/QAM-4 is reduced over an equivalent single channel TDMA system by:
10 x Log10( 9 kHz ) = -23 dB
Common Path Distortion (CPD)
An OFDM system has one other advantage over a TDMA system: the tolerance for Common Path Distortion (CPD) CPD is a source of noise which is frequency dependent Since OFDM uses multiple carriers, an OFDM system like Homeworx can abandon the bad frequency regions and select only the good ones for transport of telephony signals
Reducing Ingress
Plant segmentation
Reducing the size of the distribution area through plant segmentation will not only support increased system capacity to each subscriber, it will reduce the funneling effect that coaxial systems exhibit Funneling occurs when all legs of the coaxial plant effectively create a funnel into which all forms of ingress are fed and appear at the combined input to the reverse path transmitter at the optical distribution node
The very nature of the reverse plant, in which all return signals share the same medium, does not guarantee a reliable reverse transmission path based on plant segmentation size only There must be other means that can be used in conjunction with plant segmentation to minimize the effects of ingress
Impulse noise ingress is much more difficult to deal with because of its random broad-band nature The ADC modulation technique deals with it by spreading the impulse energy over many symbols in frequency or over longer symbol length in time.
5 MHz/2.5
Trang 4Since QAM-4 with Forward Error Correction (FEC) has additional 3 dB of advantage against broadband white noise and retains the various OFDM advantages listed above, OFDM/QAM-4 coupled with FEC would be the most robust telephony transport scheme available over HFC ADC is the only vendor supplying a cable telephony system that supports adaptable modulation — QAM-32 or QAM-4 Hence, by using ADC's Homeworx system, operators with questionable upstream plant can choose QAM-4 as the operating mode and once the plant improves or is improved and channel capacity becomes the driving force, they could switch to QAM-32 as the operating mode
Maintenance
Field tests have determined that good building practice and regular maintenance of a coaxial-based communication system cannot be over emphasized The system must be continually checked for precise gain alignment on both the forward and reverse paths Also, a comprehensive and thorough plant hardening effort must be implemented Frequent checks for ingress and leakage and immediate repair of the offending sections of the system must be an ongoing effort by plant maintenance personnel
With a properly maintained plant, all of the industry established objectives will be met by the system
OFDM Deployments
As of 2000, ADC has deployed 150,000 subscriber lines
with AT&T, helping to achieve AT&T's target of 500,000
subscribers Additionally, ADC's installed base includes
MSOs such as Comcast and Midcontinent, Alternative
Service Providers/overbuilders, municipalities, and utilities
Homeworx Cable Telephony is currently installed in 15
markets throughout North America
Conclusion
ADC has developed multiple lines of defense to deal with
ingress on upstream telephony traffic:
1 Homeworx telephony uses a proprietary spectrum
efficient OFDM modulation scheme OFDM ( O r t h o g o n a l
Frequency Division Multiple Access, OFDMA) allows
channels to be moved with a granularity of 18 kHz (one DS0)
The system is able to detect when an interfering carrier is
occupying a channel slot It will then automatically search for
and acquire an unused portion in the allocated spectrum to
transfer the call to Therefore, narrowband ingress may be
avoided without losing large amounts of channel capacity
2 The receive bandwidth and consequently the selectivity of
an OFDM system is much narrower than that used with
equivalent modulation techniques This means that the system will allow much less impulse noise to pass through to the receiver, and therefore will create less chance of interference to the telephony carriers on the system
Recently some hardware manufacturers, software firms and users of OFDM technology have joined together to form a voluntary association called The OFDM Forum One of the goals
of this forum is to encourage the broad acceptance of a single compatible global OFDM standard on a worldwide basis ADC had realized the immense potential of OFDM technology six years ago when it embarked upon the Homeworx project And since 1996, telephony service providers in several major cities in US have successfully deployed ADC's Homeworx system which is the only OFDM-based HFC telephony system available in the market today.
Trang 5ADC Telecommunications, Inc., P.O Box 1101, Minneapolis, Minnesota USA 55440-1101
Specifications published here are current as of the date of publication of this document Because we are continuously improving our products, ADC reserves the right to change specifications without prior notice At any time, you may verify product specifications by contacting our headquarters office in Minneapolis ADC Telecommunications, Inc views its patent portfolio as an important corporate asset and vigorously enforces its patents Products or features contained herein may be covered by one or more U.S or foreign patents.
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3 Fixed frequency upstream ingress filters for the customer drop will prevent ingress from entering the system from the customer premise
4 In the event that these methods of combating ingress do not sufficiently screen out the interference, the system also has Forward Error Correction capability This will help to maintain the integrity of the data used in the telephony transport
5 QAM-4 can provide additional noise immunity for questionable upstream plant; once the plant is improved and channel capacity becomes the driving force, QAM-32 may be implemented
6 Further protection measures beyond those listed above are used employing the special characteristics
of OFDM These techniques remain proprietary to ADC