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42-616: NTE may refer to: Companies [ edit ] Nord-Trøndelag Elektrisitetsverk , a power company in Norway Northern Tier Energy , an energy company in the United States NTE Electronics , an electronic component supplier in the United States Science and technology [ edit ] Near-term extinction , the prospect of an imminent end of

84-463: A conventional Internet Protocol network. There are both technical and marketing reasons why ADSL is in many places the most common type offered to home users. On the technical side, there is likely to be more crosstalk from other circuits at the DSLAM end (where the wires from many local loops are close to each other) than at the customer premises. Thus the upload signal is weakest at the noisiest part of

126-448: A dedicated data line was installed. This way, the DSL signal is separated as close as possible to the central office and is not attenuated inside the customer's premises. However, this procedure was costly, and also caused problems with customers complaining about having to wait for the technician to perform the installation. So, many DSL providers started offering a "self-install" option, in which

168-565: A depth, usually 8 to 64, which describes how many Reed–Solomon codewords are accumulated before they are sent. As they can all be sent together, their forward error correction codes can be made more resilient. Interleaving adds latency as all the packets have to first be gathered (or replaced by empty packets) and they, of course, all take time to transmit. 8 frame interleaving adds 5 ms round-trip time , while 64 deep interleaving adds 25 ms. Other possible depths are 16 and 32. "Fastpath" connections have an interleaving depth of 1, that

210-422: A feature termed seamless rate adaptation (SRA), which can accommodate changes in total link capacity with less disruption to communications. Vendors may support the usage of higher frequencies as a proprietary extension to the standard. However, this requires matching vendor-supplied equipment on both ends of the line, and will likely result in crosstalk problems that affect other lines in the same bundle. There

252-460: A justification for internet service providers to offer a more expensive service aimed at commercial users who host websites, and who therefore need a service which allows for as much data to be uploaded as downloaded. File sharing applications are an obvious exception to this situation. Secondly internet service providers, seeking to avoid overloading of their backbone connections, have traditionally tried to limit uses such as file sharing which generate

294-402: A lot of uploads. Currently, most ADSL communication is full-duplex . Full-duplex ADSL communication is usually achieved on a wire pair by either frequency-division duplex (FDD), echo-cancelling duplex (ECD) , or time-division duplex (TDD). FDD uses two separate frequency bands, referred to as the upstream and downstream bands. The upstream band is used for communication from the end user to

336-531: A low link capacity. The total maximum capacity derived from summing the bits-per-bin is reported by DSL modems and is sometimes termed sync rate . This will always be rather misleading: the true maximum link capacity for user data transfer rate will be significantly lower because extra data are transmitted that are termed protocol overhead , reduced figures for PPPoA connections of around 84–87 percent, at most, being common. In addition, some ISPs will have traffic policies that limit maximum transfer rates further in

378-537: A lower throughput rate or not at all; this reduces the maximum link capacity but allows the modem to maintain an adequate connection. The DSL modem will make a plan on how to exploit each of the bins, sometimes termed "bits per bin" allocation. Those bins that have a good signal-to-noise ratio (SNR) will be chosen to transmit signals chosen from a greater number of possible encoded values (this range of possibilities equating to more bits of data sent) in each main clock cycle. The number of possibilities must not be so large that

420-469: A process called "bitswap", where bins that have become noisier are only required to carry fewer bits and other channels will be chosen to be given a higher burden. The data transfer capacity the DSL modem therefore reports is determined by the total of the bits-per-bin allocations of all the bins combined. Higher signal-to-noise ratios and more bins being in use gives a higher total link capacity, while lower signal-to-noise ratios or fewer bins being used gives

462-493: A suggested SNR margin to the customer's DSL modem when it initially connects, and the modem may make its bits-per-bin allocation plan accordingly. A high SNR margin will mean a reduced maximum throughput, but greater reliability and stability of the connection. A low SNR margin will mean high speeds, provided the noise level does not increase too much; otherwise, the connection will have to be dropped and renegotiated (resynced). ADSL2+ can better accommodate such circumstances, offering

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504-400: A user will visit a number of web sites and will need to download the data that comprises the web pages from the site, images, text, sound files etc. but they will only upload a small amount of data, as the only uploaded data is that used for the purpose of verifying the receipt of the downloaded data (in very common TCP connections) or any data inputted by the user into forms etc. This provides

546-464: Is a direct relationship between the number of channels available and the throughput capacity of the ADSL connection. The exact data capacity per channel depends on the modulation method used. ADSL initially existed in two versions (similar to VDSL ), namely CAP and DMT. CAP was the de facto standard for ADSL deployments up until 1996, deployed in 90 percent of ADSL installations at the time. However, DMT

588-406: Is a greater risk case of error should future signal-to-noise ratios deteriorate to the point where the bits-per-bin allocations chosen are too high to cope with the greater noise present. This conservatism, involving a choice of using fewer bits per bin as a safeguard against future noise increases, is reported as the signal-to-noise ratio margin or SNR margin . The telephone exchange can indicate

630-466: Is different from Wikidata All article disambiguation pages All disambiguation pages Nord-Tr%C3%B8ndelag Elektrisitetsverk NTE operates 22 hydroelectric power plants , two wind farms and one bioenergy plant, totaling an annual electricity production of 3.4 terawatt-hours (12  PJ ), about 4% of the total electricity production in Norway. The hydro plants are mostly located in

672-648: Is more susceptible to electromagnetic interference and has more attenuation than solid twisted-pair copper wires typically wired to telephone jacks. These effects are especially significant where the customer's phone line is more than 4 km from the DSLAM in the telephone exchange, which causes the signal levels to be lower relative to any local noise and attenuation. This will have the effect of reducing speeds or causing connection failures. FTTx usually has no surge problems, for example, caused by lightning . ADSL defines three "Transmission protocol-specific transmission convergence (TPS-TC)" layers: In home installation,

714-411: Is one packet is sent at a time. This has a low latency, usually around 10 ms (interleaving adds to it, this is not greater than interleaved) but it is extremely prone to errors, as any burst of noise can take out the entire packet and so require it all to be retransmitted. Such a burst on a large interleaved packet only blanks part of the packet, it can be recovered from error correction information in

756-437: Is rarely done. It is usually much easier to install filters at each telephone jack that is in use. DSL signals may be degraded by older telephone lines, surge protectors, poorly designed microfilters, repetitive electrical impulse noise , and by long telephone extension cords. Telephone extension cords are typically made with small-gauge, multi-strand copper conductors which do not maintain a noise-reducing pair twist. Such cable

798-477: The ADSL modem tests each of the bins to determine the signal-to-noise ratio at each bin's frequency. Distance from the telephone exchange , cable characteristics, interference from AM radio stations , and local interference and electrical noise at the modem's location can adversely affect the signal-to-noise ratio at particular frequencies. Bins for frequencies exhibiting a reduced signal-to-noise ratio will be used at

840-549: The Indre Namdal district plus Meråker Municipality , Inderøy Municipality and Steinkjer Municipality . NTE's largest plant is the one at Tunnsjødal with an annual production of 840 gigawatt-hours (3,000  TJ ) per year. The bioplant is located in Inderøy Municipality while the two windmill parks are located at Hundhammerfjellet and Vikna . NTE owns the power grid for all of northern Trøndelag county. Despite

882-512: The County of Nord-Trøndelag decided to found NTE and build a hydroelectric power plant at Follafoss in Verran Municipality . In 1923, the power plant started operations. In 1938, NTE made its first acquisition of a municipal power company, Stod electrical works. NTE gradually took over the municipal companies until it owned all the companies by 1989. This was due to a national encouragement from

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924-417: The authorities to create larger, vertical integrated power companies, preferably owned by counties and not municipalities, through the 1970s and 80s. Nord-Trøndelag is the only county that managed to create a fully vertical integrated power company that controlled the entire power grid and all production facilities throughout the entire country, and was wholly owned by the county municipality. The last purchase

966-436: The band used by voice telephone calls . With a DSL filter , often called splitter , the frequency bands are isolated, permitting a single telephone line to be used for both ADSL service and telephone calls at the same time. ADSL is generally only installed for short distances from the telephone exchange (the last mile ), typically less than 4 kilometres (2.5 mi), but has been known to exceed 8 kilometres (5 mi) if

1008-404: The customer's premises to avoid interference between the DSL, voice services, and any other connections to the line (for example intruder alarms). This is desirable for the voice service and essential for a reliable ADSL connection. In the early days of DSL, installation required a technician to visit the premises. A splitter or microfilter was installed near the demarcation point , from which

1050-497: The customer's premises. Commonly, microfilters are only low-pass filters, so beyond them only low frequencies (voice signals) can pass. In the data section, a microfilter is not used because digital devices that are intended to extract data from the DSL signal will, themselves, filter out low frequencies. Voice telephone devices will pick up the entire spectrum so high frequencies, including the ADSL signal, will be "heard" as noise in telephone terminals, and will affect and often degrade

1092-623: The human species Network termination equipment Negative thermal expansion , a physicochemical process Not-To-Exceed , a pollution emission standard Other [ edit ] National Teacher Examination , a past standardized test replaced by the Praxis test Neverness to Everness , an upcoming video game Night-time economy , the economy made up of venues and industries such as bars and nightclubs IATA code of Nantes Atlantique Airport in Bouguenais, France Topics referred to by

1134-466: The less common symmetric digital subscriber line (SDSL). In ADSL, bandwidth and bit rate are said to be asymmetric, meaning greater toward the customer premises ( downstream ) than the reverse ( upstream ). Providers usually market ADSL as an Internet access service primarily for downloading content from the Internet, but not for serving content accessed by others. ADSL works by using spectrum above

1176-447: The line. Once a line has had DSL enabled, the DSL signal is present on all telephone wiring in the building, causing attenuation and echo. A way to circumvent this is to go back to the original model, and install one filter upstream from all telephone jacks in the building, except for the jack to which the DSL modem will be connected. Since this requires wiring changes by the customer, and may not work on some household telephone wiring, it

1218-563: The local loop, while the download signal is strongest at the noisiest part of the local loop. It therefore makes technical sense to have the DSLAM transmit at a higher bit rate than does the modem on the customer end. Since the typical home user in fact does prefer a higher download speed, the telephone companies chose to make a virtue out of necessity, hence ADSL. The marketing reasons for an asymmetric connection are that, firstly, most users of internet traffic will require less data to be uploaded than downloaded. For example, in normal web browsing,

1260-490: The market being deregulated so anyone can purchase from any supplier in the country, NTE has remained a market share of 96%. The ownership and operations of the power grid was transferred to the subsidiary NTE Nett AS in 2006. The company also construct a network of primarily optical fiber based broadband supplemented with ADSL to all households in Nord-Trøndelag though the subsidiary NTE Bredbånd AS . On June 22, 1919,

1302-402: The networks beyond the exchange, and traffic congestion on the Internet, heavy loading on servers and slowness or inefficiency in customers' computers may all contribute to reductions below the maximum attainable. When a wireless access point is used, low or unstable wireless signal quality can also cause reduction or fluctuation of actual speed. In fixed-rate mode, the sync rate is predefined by

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1344-420: The old Nord-Trøndelag county sold the entire ownership of the company to the 19 municipalities in the old Nord-Trøndelag county. ADSL Asymmetric digital subscriber line ( ADSL ) is a type of digital subscriber line (DSL) technology, a data communications technology that enables faster data transmission over copper telephone lines than a conventional voiceband modem can provide. ADSL differs from

1386-483: The operator and the DSL modem chooses a bits-per-bin allocation that yields an approximately equal error rate in each bin. In variable-rate mode, the bits-per-bin are chosen to maximize the sync rate, subject to a tolerable error risk. These choices can either be conservative, where the modem chooses to allocate fewer bits per bin than it possibly could, a choice that makes for a slower connection, or less conservative in which more bits per bin are chosen in which case there

1428-399: The originally laid wire gauge allows for further distribution. At the telephone exchange, the line generally terminates at a digital subscriber line access multiplexer (DSLAM) where another frequency splitter separates the voice band signal for the conventional phone network . Data carried by the ADSL are typically routed over the telephone company 's data network and eventually reach

1470-415: The provider provided equipment and instructions to the customer. Instead of separating the DSL signal at the demarcation point, the DSL signal is filtered at each telephone outlet by use of a low-pass filter for voice and a high-pass filter for data, usually enclosed in what is known as a microfilter . This microfilter can be plugged by an end user into any telephone jack: it does not require any rewiring at

1512-412: The receiver might incorrectly decode which one was intended in the presence of noise. Noisy bins may only be required to carry as few as two bits, a choice from only one of four possible patterns, or only one bit per bin in the case of ADSL2+, and very noisy bins are not used at all. If the pattern of noise versus frequencies heard in the bins changes, the DSL modem can alter the bits-per-bin allocations, in

1554-440: The rest of the packet. A "fastpath" connection will result in extremely high latency on a poor line, as each packet will take many retries. ADSL deployment on an existing plain old telephone service (POTS) telephone line presents some problems because the DSL is within a frequency band that might interact unfavorably with existing equipment connected to the line. It is therefore necessary to install appropriate frequency filters at

1596-403: The same term [REDACTED] This disambiguation page lists articles associated with the title NTE . If an internal link led you here, you may wish to change the link to point directly to the intended article. Retrieved from " https://en.wikipedia.org/w/index.php?title=NTE&oldid=1257103304 " Category : Disambiguation pages Hidden categories: Short description

1638-444: The service in fax, dataphones and modems. From the point of view of DSL devices, any acceptance of their signal by POTS devices mean that there is a degradation of the DSL signal to the devices, and this is the central reason why these filters are required. A side effect of the move to the self-install model is that the DSL signal can be degraded, especially if more than 5 voiceband (that is, POTS telephone-like) devices are connected to

1680-590: The telephone central office. The downstream band is used for communicating from the central office to the end user. With commonly deployed ADSL over POTS (Annex A), the band from 26.075  kHz to 137.825 kHz is used for upstream communication, while 138–1104 kHz is used for downstream communication. Under the usual discrete multitone modulation (DMT) scheme, each of these is further divided into smaller frequency channels of 4.3125 kHz. These frequency channels are sometimes termed bins . During initial training to optimize transmission quality and speed,

1722-518: Was Statkrafts ownership in the powerplants in Indre Namdal in 2004. On 5 October 2009, NTE and Østfold Energi announced that they, through their 50–50% joint venture Norsk Vannkraftproduksjon had bought the power stations Siso and Laksola from Elkem for NOK 4.3 billion. The shares are distributed between 23 owner municipalities in 2018. In 2018, Nord-Trøndelag and Sør-Trøndelag counties merged to form Trøndelag county. At that time

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1764-453: Was chosen for the first ITU-T ADSL standards, G.992.1 and G.992.2 (also called G.dmt and G.lite respectively). Therefore, all modern installations of ADSL are based on the DMT modulation scheme. ISPs (but users rarely, apart from Australia where it's the default ) have the option to use interleaving of packets to counter the effects of burst noise on the telephone line. An interleaved line has

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