How to configure adsl2 modem. What equipment is used for this connection? Disconnecting and connecting the Internet connection

Exist various ways connections to the Internet, but all these methods can be divided into wired and wireless. The disadvantage of wired ones is the wire (cable) itself - you cannot move further than the cable allows you from the connection point. Wireless connections are more preferable for a laptop as you will be able to move freely within range wireless network(or networks mobile operator or wireless Wi-Fi network).

Let's start with a wired Internet connection. Almost every laptop has a built-in modem that allows you to establish a regular modem connection. The advantage of a modem connection is that you can connect to the Internet in almost any apartment - everyone has a telephone. There are services for connecting to the Internet without concluding a contract - you either need to buy a prepaid access card or call a special phone number - then the Internet bill will be included in your phone bill. But that's where the advantages end. The disadvantages begin: low speed data transfers (in our realities - a maximum of 33.6 Kbps), constant connection interruptions, high cost of access itself. Don't believe that a modem connection is expensive? Let's count together. My local provider costs 15 cents per hour. Then 8 hours of access (eight-hour working day) and 22 days a month will cost you $26.4. But an unlimited DSL connection with a speed of 5 Mbit/s in both directions (to and from the Network) costs only $15! Moreover, this connection can be used around the clock. If you use a modem connection in this mode, it will cost you $108 per month, but the speed and quality of communication cannot be compared with a DSL connection, so we discard the modem connection right away. Just because your laptop has a modem doesn't mean you need to use it. When there are no other ways to connect to the Internet, then you can use a modem connection.

Physical connection of the DSL modem

To connect a DSL modem to the telephone network, you need a special DSL splitter, which is usually included with the DSL modem. The splitter must be connected to telephone line, and then connect a DSL modem and a regular telephone to it.

After this, you need to connect the modem to the laptop using an Ethernet cable. If you plan to use a wireless access point with a built-in DSL modem, then it must also be connected to the splitter. If a DSL modem and wireless access point are different devices, then the modem needs to be connected as mentioned above, and then using an Ethernet cable, connect it not to the laptop, but to the access point. We will talk in detail about building your own network in the chapter Creating your own wireless network.

Setting up a DSL connection in Windows 7

Basic DSL connection setup

In most cases, setting up a DSL connection does not pose any problems. Let's start with a basic DSL connection setup and hope everything goes well. Make sure your DSL modem is turned on and connected to your laptop. Click the connection icon in the notification area and select Network and Sharing Center. If you don’t have a connection icon, then through the control panel, run the Network and Sharing Center command.

Disconnecting and connecting the Internet connection

To disconnect the connection, right-click on the connection icon and select Disconnect, Beeline Internet.

Changing connection parameters. IP address, DNS server

Typically, all network parameters (IP address, DNS server IP addresses) are set automatically upon connection, but sometimes the provider does not use a DHCP server for automatic configuration, and users must enter connection parameters manually. This is rare, but it does happen, and you should know how to configure the network interface manually.

Open the Network and Sharing Center window and select Change adapter settings, right-click on the connection you need and select Properties. Please note that, in addition to the Properties command, you will also need the Disable and Status commands. The first allows you to terminate the connection, and the second allows you to view the connection status (including the number of bytes received/sent).

Internet connection diagnostics

To diagnose connection problems, we will use a number of Windows utility utilities. Let's start with the ipconfig utility, which displays information about your network settings. In particular, some providers are tied to the MAC address of clients. The MAC address is the scale hardware address of the network adapter. When a client connects, the administrator enters its MAC address into the database. When a client connects to the network, the server checks whether the user's login matches his MAC address. It turns out that even if someone steals your Internet password, they still won't be able to connect because their MAC address is different from yours. In other words, such control provides additional protection from “Internet theft” - you can access the Internet using your login only from your computer. But sometimes the MAC address needs to be changed, for example when you change your computer or network adapter. Then you need to inform the administrator of the new MAC address. To find your MAC address, click the Start button, type cmd in the Search programs and files line, and press the key. Will open command line Windows, enter the command:

Network adapter speed limit

When working with a DSL/PPPoE connection, I encountered the following problem: the DSL connection disappears on its own for no apparent reason, several times a day. Reconnecting in this case occurs without problems. It would seem that there is nothing wrong - you just need to reconnect, but when the connection breaks almost every 30-40 minutes, it is very annoying.

Limiting the speed of the network adapter helped me and other users. The network adapter is configured at 100 Mbps by default. By limiting the speed to 10 Mbit/s, I got rid of the problem with the connection being dropped. It’s not a fact that my advice will help you, but it’s still worth a try. And don’t worry too much about the decrease in speed - a DSL connection rarely exceeds 10 Mbit/s anyway, so you won’t feel a decrease in the speed of opening web pages or downloading files.

Open Network and Sharing Center and select Change adapter settings. Then click on the adapter local network right-click and select Properties. In the window that appears, click the Configure button.

Windows 7 Troubleshooting Wizard

Network Sharing Center has a very "helpful" troubleshooting wizard (called by the Troubleshoot command). The wizard will help you troubleshoot problems with connecting to the Internet, to shared folders, problems with home group, with the network adapter, with incoming connections, with connecting to a workstation via DirectAccess, as well as problems with printing.

ADSL(Asymmetric Digital Subscriber Line) is one of the high-speed data transmission technologies known as DSL (Digital Subscriber Line) technologies, collectively referred to as xDSL. Other DSL technologies include HDSL (High data rate Digital Subscriber Line), VDSL (Very high data rate Digital Subscriber Line) and others.

The general name for DSL technologies arose in 1989, when the idea of ​​using analog-to-digital conversion at the subscriber end of the line first appeared, which would improve the technology of data transmission over twisted pair copper telephone wires. ADSL technology was developed to provide high-speed (one might even say megabit) access to interactive video services (video on demand, video games, etc.) and equally fast data transfer (Internet access, remote LAN access and other networks).

ADSL technology - so what is it?

First of all, ADSL is a technology that allows you to turn twisted pair telephone wires into a high-speed data transmission path. ADSL line connects two ADSL modem, which are connected to each end of the twisted pair telephone cable(see figure 1). In this case, three information channels are organized - a “downward” data transmission stream, an “upstream” data transmission stream and a regular channel. telephone communication(POTS) (see Figure 2). The telephone communication channel is allocated using filters, which ensures that your phone will work even if the ADSL connection fails.

Picture 1

Figure 2

ADSL is an asymmetric technology - the speed of the “downstream” data flow (that is, the data that is transmitted towards the end user) is higher than the speed of the “upstream” data flow (in turn, transmitted from the user to the network). It should be said right away that there is no cause for concern here. The data transfer rate from the user (the "slower" direction of data transfer) is still significantly higher than using an analog modem. In fact, it is also significantly higher than ISDN (Integrated Services Digital Network).

To compress large amounts of information transmitted over twisted pair telephone wires, ADSL technology uses digital signal processing and specially created algorithms, advanced analog filters and analog-to-digital converters. Telephone lines long distance can attenuate the transmitted high frequency signal (for example, at 1 MHz, which is the typical transmission rate for ADSL) by up to 90 dB. This forces analogue ADSL modem systems to work with a heavy enough load to allow large dynamic range and low noise level. At first glance, the ADSL system is quite simple - high-speed data transmission channels are created over a regular telephone cable. But, if you understand in detail how ADSL works, you can understand that this system refers to the achievements of modern technology.

ADSL technology uses a method of dividing the bandwidth of a copper telephone line into several frequency bands (also called carriers). This allows multiple signals to be transmitted simultaneously on one line. Exactly the same principle underlies cable television, when each user has a special converter that decodes the signal and allows them to see a football match or an exciting movie on the TV screen. When using ADSL, different carriers simultaneously carry different parts of the transmitted data. This process is known as Frequency Division Multiplexing (FDM) (see Figure 3). In FDM, one band is allocated for the upstream data stream and another band for the downstream data stream. The downstream range is in turn divided into one or more high-speed channels and one or more low-speed data channels. The upstream range is also divided into one or more low-speed data links. In addition, echo cancellation technology can be used, in which the ranges of the “upstream” and “downstream” streams overlap (see Figure 3) and are separated by means of local echo cancellation.

Figure 3

This is how ADSL can provide, for example, simultaneous high-speed data transmission, video transmission and fax transmission. And all this without interrupting regular telephone communication, which uses the same telephone line. The technology involves reserving a certain frequency band for regular telephone communications (or POTS - Plain Old Telephone Service). It's amazing how quickly telephone communication turned not only into “simple” (Plain), but also into “old” (Old); it turned out something like “good old telephone communication.” However, we should pay tribute to the developers of new technologies, who still left telephone subscribers a narrow band of frequencies for live communication. Wherein phone conversation can be carried out simultaneously with high-speed data transmission, rather than having to choose between the two. Moreover, even if your electricity is cut off, the usual “good old” telephone connection will still work and you will not have any problems calling an electrician. Providing this capability was part of the original ADSL development plan. This feature alone gives ADSL a significant advantage over ISDN.

One of the main advantages of ADSL over other high-speed data transmission technologies is the use of the most common twisted pairs copper wires telephone cables. It is quite obvious that there are much more such pairs of wires (and this is an understatement) than, for example, cables laid specifically for cable modems. ADSL forms, so to speak, an “overlay network”. At the same time, expensive and time-consuming upgrades of switching equipment (as is necessary for ISDN) are not required.

ADSL connection speed

ADSL is a high-speed data technology, but how high-speed? Considering that the letter “A” in the name ADSL stands for “asymmetric”, we can conclude that data transfer in one direction is faster than in the other. Therefore, there are two data transfer rates to consider: "downstream" (transferring data from the network to your computer) and "upstream" (transferring data from your computer to the network).

Factors affecting the data transfer speed are the condition of the subscriber line (i.e., the diameter of the wires, the presence of cable outlets, etc.) and its length. Signal attenuation in a line increases with increasing line length and increasing signal frequency, and decreases with increasing wire diameter. In fact, the functional limit for ADSL is a subscriber line 3.5 - 5.5 km long with a wire thickness of 0.5 mm. Currently, ADSL provides downstream speeds ranging from 1.5 Mbit/s to 8 Mbit/s and upstream speeds from 640 Kbit/s to 1.5 Mbit/s. The general development trend of this technology promises an increase in data transfer speeds in the future, especially in the “downstream” direction.

In order to evaluate the data transfer speed provided by ADSL technology, it is necessary to compare it with the speed that may be available to users using other technologies. Analog modems allow you to transfer data at speeds from 14.4 to 56 Kbps. ISDN provides a data rate of 64 Kbps per channel (typically the user has access to two channels, for a total of 128 Kbps). Various technologies DSL gives the user the opportunity to transmit data at speeds of 144 Kbps (IDSL), 1.544 and 2.048 Mbps (HDSL), downstream 1.5 - 8 Mbps and upstream 640 - 1500 Kbps ( ADSL), “downstream” stream 13 - 52 Mbit/s and “upstream” stream 1.5 - 2.3 Mbit/s (VDSL). Cable modems have data transfer speeds from 500 Kbps to 10 Mbps (note that the bandwidth of cable modems is divided among all users simultaneously accessing a given line, so the number of concurrent users has a significant impact on the actual speed data transmission of each of them). Digital lines E1 and E3 have data transfer rates of 2.048 Mbit/s and 34 Mbit/s, respectively.

When using ADSL technology, the bandwidth of the line through which the end user is connected to the backbone network always belongs to that user entirely. Do you need an ADSL line? It's up to you to decide, but for you to accept correct solution, let's look at some of the benefits of ADSL.

First of all, the data transfer speed. The numbers were stated two paragraphs above. Moreover, these numbers are not the limit. The new ADSL 2 standard implements speeds of 10 Mbit/s “downstream” and 1 Mbit/s “upstream” with a range of up to 3 km, and ADSL 2+ technology, the standard of which should be approved in 2003, includes “downstream” speeds. streams of 20, 30 and 40 Mbit/s (on 2,3 and 4 pairs, respectively).

Internet via ADSL

In order to connect to Internet via ADSL, no need to dial the phone number. ADSL creates a broadband data link using an existing telephone line. After installing ADSL modems, you constantly receive established connection. A high-speed data link is always ready to go – whenever you need it.

The line bandwidth belongs entirely to the user. Unlike cable modems, which allow the bandwidth to be shared among all users (which greatly affects the data transfer speed), ADSL technology allows only one user to use the line.

ADSL connection technology allows you to fully use line resources. A regular telephone connection uses about one hundredth bandwidth telephone line. ADSL technology eliminates this "disadvantage" and uses the remaining 99% for high-speed data transmission. In this case, different frequency bands are used for different functions. For telephone (voice) communications, the lowest frequency region of the entire line bandwidth is used (up to approximately 4 kHz), and the entire remaining band is used for high-speed data transmission.

The versatility of this system is not the least argument in its favor. Since different frequency channels of the subscriber line bandwidth are allocated for the operation of different functions, ADSL allows you to simultaneously transfer data and talk on the phone. You can make and answer calls, send and receive faxes, while at the same time being on the Internet or receiving data from the corporate LAN. All this over the same telephone line.

ADSL opens up completely new possibilities in those areas where it is necessary to transmit high-quality video signals in real time. These include, for example, video conferencing, distance learning and video on demand. ADSL technology allows providers to provide their users with services that are more than 100 times faster than the current fastest analog modem (56 Kbps) and more than 70 times faster than ISDN (128 Kbps) ).

ADSL technology allows telecommunications companies to provide a private, secure channel to facilitate the exchange of information between the user and the provider.

Internet connection via ADSL

We should not forget about costs. The technology for connecting to the Internet via ADSL is effective from an economic point of view, if only because it does not require the installation of special cables, but uses already existing two-wire copper telephone lines. That is, if you have a connected telephone at home or in the office, you do not need to lay additional wires to use ADSL. (Although there is a fly in the ointment. The company that provides you with regular telephone service must also provide ADSL service.)

Not much equipment is needed to make an ADSL line work. ADSL modems are installed at both ends of the line: one on the user side (at home or in the office), and the other on the network side (at the Internet provider or at the telephone exchange). Moreover, the user does not have to buy his own modem, but it is enough to rent it from the provider. In addition, in order for the ADSL modem to work, the user must have a computer and an interface card, for example, Ethernet 10baseT.

As telephone companies gradually enter the untapped field of delivering video and multimedia data to the end user, ADSL technology continues to play a large role. Of course, after some time, the broadband cable network will cover all potential users. But the success of these new systems will depend on how many users will be involved in the process of using new technologies now. By bringing movies and television, video catalogs and the Internet into homes and offices, ADSL makes the market viable and profitable for telephone companies and other service providers in a variety of industries.

ADSL is a technology for asymmetric Internet access. Its structure is an asymmetric system and allows you to work with connections at speeds up to 8 Mbit/s. ADSL technology, the transmission speed of which is calculated to be up to 1 Mbit/s, operates on average at a distance of more than 5 km. Today we will look at what this type of connection is and how it works.

History of appearance

Before answering the question: “ADSL - what is it?”, we bring to your attention some historical data. For the first time about creation high speed connections they started talking in the late 80s, when even the Internet in its modern guise was only its main task in 1989 was to improve and modernize the technology for transmitting data over copper telephone wires. Analog-to-digital conversion was created mainly for the rapid transfer of information between various interactive services, video games, video files, as well as for instant remote access to a LAN and other network systems.

Modern ADSL technology: operating principle

The network operates on the subscriber's digital line, which provides access to the Internet through telephone channels. But telephone lines use an analog signal to transmit voice messages. An ADSL connection is designed to convert an analog signal into a digital one and transmit it directly to a computer. At the same time, unlike already outdated Dial-up modems, ADSL-based devices do not block the telephone line and allow you to use digital and analog signals simultaneously.

The essence of the technology (asymmetry) is that the subscriber receives a huge amount of data - incoming traffic, and transmits a minimum of information from himself - downward traffic. Input refers to various types of content: video and media files, applications, objects. Descending sends only important technical information- various commands and requests, emails and other minor elements. The asymmetry is that the speed from the network to the subscriber is several times higher than the speed from the user.

The most important advantage of ADSL technology is its cost-effectiveness and cost-effectiveness. The fact is that the same copper telephone wires are used to operate the system. The number in them, of course, significantly exceeds the number of similar elements in cable modems. But at the same time, no modernization of switching equipment or complex reconstruction is necessary. ADSL connects quickly, and modern types of modems are intuitive to manage and configure.

What equipment is used for this connection?

In order for the technology to work, it is used special types modems, differing in their structure, design, type of connection:

• PCI modems ( internal devices computer).
• External modems with USB connection type.
• Devices with an Ethernet type interface.
• Router, routers with Ethernet circuit.
• Profile types of modems (for security companies, private telephone lines).
• Router with internal Wi-Fi access points.

Additional equipment: splitters and microfilters

We must not forget that to connect a gadget such as an ADSL modem, you will need splitters and microfilters. Devices are selected in accordance with the design of the telephone cable. In a situation where a cable outlet has been made (or can be done) to separate the modem and telephone channels, a splitter is used. In another case, it is necessary to purchase a microfilter, which is installed on each telephone present in the room.

The main task of the splitter is to separate frequencies - voice (0.3-3.4 KHz) and those used directly by the modem itself (25 KHz-1.5 MHz). It is in this way that the simultaneous operation of the modem and telephone is ensured, which do not interfere with each other and do not create interference. Splitters are compact and will not cause unnecessary inconvenience. The miniature box is equipped with three connectors and is lightweight.

ADSL - what is it? Stages of connecting high-speed Internet

1. Choosing a provider. Use this technology At the moment, every provider offers it. Different kinds and tariffs depend on the region, as well as on technical capabilities companies whose coverage area may be limited.
2. Purchase of equipment. Currently, it is not at all necessary to buy a modem, splitters and microfilters. When signing a connection agreement, the provider offers to rent the necessary equipment, including an ADSL modem. In the future, when the document is terminated, the equipment is returned back. The client pays exclusively for the Internet connection. Modern Internet ADSL - what is it? It's fast, cheap and quality way connections.
3. Account activation. The provider reserves an account for each client, activation of which may take up to 12 days. However, in most cases, with normal network coverage, the procedure does not require more than a few hours. The provider first checks the phone number for ADSL connectivity. If the access zone of the technology is not enough, then high-speed Internet will not be possible.
4. Equipment setup. At this stage, devices are connected to the telephone line, splitters and microfilters are installed, modem drivers are installed on the computer, and the modem’s network parameters are set in the Internet browser.

pros

What are the advantages of ADSL technology? Here are a few of them:

• High ADSL allows you to easily transfer files of any size without long waits. The technology is constantly being improved, and speeds are increasing, significantly expanding the subscriber's capabilities.
• Wireless connection. To use the ADSL system, you do not need to stretch the cable to the subscriber and install a large number of equipment. The reliability, quality and functionality of the network increases.
• No interference on the telephone line. The ADSL router operates in independent mode and does not create any problems for the phone. You can make calls and travel around the virtual space completely freely.
• Constant Internet access ADSL. What it is? This means that the network will not fail during operation. The technology does not require reconnection. The user gets access to the Internet constantly and can be online around the clock.
• Reliability and stability. Today ADSL is the most reliable type of Internet connection.
• Profitability. The cost of connecting ADSL and installing a modem with a router is minimal and will not hit the family budget.

Flaws

1. No crosstalk protection. If several dozen clients are connected to one channel, count on high speed you won't have to. The more subscribers on one ADSL, the lower the quality of data transmission.
2. Although ADSL technology has disadvantages, they are few. This also includes the minimum speed from the subscriber. ADSL asymmetry has an obvious disadvantage - file transfer from the subscriber will be long and inconvenient. But the technology is intended primarily for quick access to the Internet for surfing. In addition, the information transmitted from the subscriber takes up minimal space and does not require a large resource.

Speed ​​and factors influencing it

ADSL is a technology high speed internet, but there is no universal meaning or formula. For each individual subscriber, the speed is individual and is determined by a whole set of factors. Some of them may affect the reliability and quality of the equipment. Therefore, it is best for professionals to install modems and routers.

The main reason for low ADSL connection speed is the quality of the subscriber line. We are talking about the presence of cable outlets, their condition, wire diameter and length. Signal attenuation is a direct consequence of increasing the length of the subscriber line, and interference can be reduced by expanding the diameter of the wire. The standard length of an ADSL channel does not exceed 5 km - optimal range for high-speed data transfer.

Speed ​​characteristics

When compared to other Internet connection technologies, ADSL is significantly superior in speed. An analog modem will give a maximum of up to 56 Kbit/s, while ADSL at the dawn of its appearance already made it possible to transmit information at speeds of up to 144 Kbit/s.

ADSL technology, maximum speed which is also determined by the characteristics of the modem and can reach 2048 Mbit/s, optimizes the process of information transfer. Digital lines significantly increase the user's capabilities, taking him beyond the limitations even with multiple connected computers, mobile phones, tablets and other gadgets.

Technology Outlook

The capabilities and resources of ADSL technology are far from being exhausted. Even the ADSL2 and ADSL2+ standards, introduced back in the mid-2000s, still retain their relevance and capabilities. This is, in fact, the only technology that can provide broad Internet access without interruptions and software problems, and therefore is a competitor to many other methods of connecting to the Internet.

The minimum technical equipment is supplemented modern types modems. Manufacturers annually release new devices designed for continuous operation without the need for maintenance and servicing. In addition, ADSL speed is constantly increasing and is not limited to megabits. Connection becomes relevant both for the home and for an entire office company with several dozen computer clients.

Conclusion

So, we found out what ADSL technology is, what its essence is and how it works. As you can see, this is one of those technologies that practically does not fail during operation (even if several dozen users are connected to the network). At the same time, it does not require constant reconnections and speed restrictions.