CATV Archives

17 07, 2012

Tech Review | DEVISER S7000 TV Analyzer

Mia Colabrese2012-07-17T08:51:17-04:00July 17th, 2012|

Deviser's S7000 TV Analyzer - Many features, small package! This year at ANGA Cable show I came across a new product by DEVISER called the S7000 TV Analyzer (DEVISER OEM's their spectrum analyzer to a US based test equipment manufacturer so they have been in the business for a while and they know what they are doing). The S7000 supports measuring ITU J.83 Annex A/B/C/D standard signals and provides Power level, MER, BER, and constellation measurements in a small package. Also, there is an EVS tool for measuring interference

11 07, 2012

Tech Review | AND… what? Don’t let a name fool you

Mia Colabrese2012-07-11T08:48:16-04:00July 11th, 2012|

AND Mapping Solutions - With so much more! While at ANGA this year I was told about AND (Advanced Network Design) from a fellow convention goer. He seemed really impressed with the company and it's product. Honestly, I've never gotten excited over a mapping tool. This is not normally something that I pay a lot of attention to. Sure I'm aware of them and have experience with them but I just had visions of lot's of typing, imputing data, reviewing ports on nodes and connecting lines manually. Not very exciting stuff. AND

22 11, 2011

Fresh Tech | Leakage Detection with Brains!

Mia Colabrese2011-11-22T11:11:29-05:00November 22nd, 2011|

I admit that while I help my clients better understand the sources and negative impacts of RF ingress on DOCSIS in a cable plant, I have never found leakage/ingress detection itself particularly high-tech. That was until Daniel Babeux of VGI Solutions gave me a demo of their CPAT Flex Platform. The live demo was straightforward which made it so convincing and intriguing. It consisted of a truck-mount magnetic antenna that connected into a little green box (the brains behind the operation), and a piece of coax cable seemingly chewed upon by a squirrel. The latter connected back into the CATV plant. The awesome part of the demonstration was seeing the location of the antenna appear on Google maps at the Georgia Convention Center in Atlanta, GA. Next when the damaged coax was replaced, the leakage point on the map disappeared along with magnitude of the leakage entering the plant.

21 11, 2011

Fresh Tech | Awesome Spectrum Analyzer at a Cool Price!

Mia Colabrese2011-11-21T15:54:40-05:00November 21st, 2011|

What first caught my eye by Televes H45 Spectrum Analyzer was the HDMI port feeding a flatscreen television. How cool is that? I also noticed the small unit was displaying a QAM "haystack" along with its power, MER, BER, and the demodulated picture just beside the measurements. The picture was on a high resolution display, not the low quality displays I've seen in the past, so tiling or macro-blocking would be apparent to the user. See the picture below:

19 11, 2011

Fresh Tech from Cable-Tec Expo 2011

Mia Colabrese2020-06-09T09:59:13-04:00November 19th, 2011|

At this year's Cable-Tec Expo, Rohde & Schwarz (www.rohde-schwarz.com) introduced a 1U Cable Load Generator (CLG) capable of simulating cable TV networks with full channel loading. This baby is not just limited to North America, but can do channel plans for the World over! Here are the highlights:

31 07, 2011

IPv6 and PC Provisioning in a DOCSIS Network

Mia Colabrese2021-08-18T10:01:08-04:00July 31st, 2011|

With IPv6 on the way in a number of MSO (Multi-System Operator) networks, I have received numerous questions lately about how home devices such as routers and PCs attached to DOCSIS cable modems will get their IP addresses. Will cable operators suddenly start issuing IPv6 IP addresses to their customers? Will you as a subscriber need to upgrade your equipment to support IPv6? Or does the cable modem act as a Network Address Translation (NAT) device and hand-out IP address to each device attached to it? These are some very good questions and the answers are addressed in the DOCSIS specification as I will outline.

22 08, 2010

DOCSIS 3.0 Tutorial – Upstream Channel Bonding

Mia Colabrese2021-11-24T09:39:36-05:00August 22nd, 2010|

The focus of this article will be on the mechanics of upstream channel bonding and how it works more from a DOCSIS protocol perspective. Much more detailed information can be found in the DOCSIS 3.0 MULPIv3.0 document located in the Library, but this will provide a high level overview for the layman who is curious about the basics. First lets understand that it is the cable modem that is doing the channel bonding, remember in the upstream the cable modem transmits data to the CMTS. Per DOCSIS 3.0, the CM can bond from one to four channels in the upstream as coordinated by the CMTS. The CM is always under control by the CMTS.

7 07, 2010

DOCSIS 3.0 Tutorial – Basic Protocol 1

Mia Colabrese2021-08-18T09:58:46-04:00July 7th, 2010|

Now that we have established the two primary architectures available in DOCSIS 3.0, I-CMTS and M-CMTS (thought hybrids do exist), and the hardware components of these architectures, it is time to delve into the protocol of the DOCSIS specifications that make up DOCSIS 3.0. There are five primary specifications that I will be drawing upon from here on out listed below and located in my document library and also on the CableLabs website.

5 07, 2010

DOCSIS 3.0 Tutorial – DOCSIS Timing Interface Specification

Mia Colabrese2021-11-24T09:41:01-05:00July 5th, 2010|

Before DOCSIS 3.0 and before modular CMTS architectures, a CMTS existed in one chassis. Life was much simpler for everyone. Inside the chassis existed a 10.24 MHz clock or oscillator. This was a master time keeper that kept event in synchronization with every other event. Timing is very important in communications networks, especially when dealing with microsecond timing calculations necessary for DOCSIS transport - remember the "tick" (6.25 usec). This article is going to address the DOCSIS Timing Interface Specification (DTI) and DTI time servers that have arisen due to the distributed architectures in M-CMTSs and DOCSIS 3.0 CMTSs. In these architectures, it is possible to have the CMTS core in say the headend, with the eQAM and upstream receivers in remote hubsites. Suddenly the single 10.24 MHz clock keeping the system in synchronization is no longer an option. Three separate, free running 10.24 MHz clocks would also not work because they would not be in phase and would likely not be exactly running at the same frequency, causing the entire system to out of synchronization - there would packet collisions and lost data and VoIP packets all over the place. It would be chaos! So the smart folks at Cablelabs put together the DTI specification to resolve these issues. Here are some of the details.

26 06, 2010

DOCSIS 3.0 Tutorial – M-CMTS Architecture

Mia Colabrese2021-11-24T09:41:52-05:00June 26th, 2010|

In this article I am going to further explore the M-CMTS in order to describe two import elements of DOCSIS 3.0 network, the edge-Quadrature Amplitude Modulator or EQAM and the DOCSIS Timing Interface Specification Server or DOCSIS Timing Server. Before I cover these components I will show how they are integrated with the M-CMTS architecture.