Thursday, 26 September 2013
Wednesday, 18 September 2013
Tuesday, 10 September 2013
Cable Color Codeing HOW TO MAKE YOUR OWN CAT 5 TWISTED-PAIR NETWORK CABLES
Cable Color Codeing
HOW TO MAKE YOUR OWN CAT
5
TWISTED-PAIR NETWORK CABLES
The two most common unshielded twisted-pair (UTP) network standards are the10 Mhz 10BASE-T Ethernet and the 100Mhz 100BASE-TX Fast Ethernet. The 100BASE-TX standard is quickly becoming the predominant LAN standard. If you are starting from scratch, to build a small home or office network, this is clearly the standard you should choose. This article will show you how to make cables which will work with both standards.
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LANS
SIMPLIFIED. A LAN can be as simple as two computers, each
having a network interface card (NIC) or network adapter and running network
software, connected together with a crossover
cable.
The next step up would be a network consisting of
three or more computers and a hub. Each of the computers is plugged into
the hub with a straight-thru cable (the crossover function is
performed by the hub).
NETWORK CABLE
AND CONNECTORS
There are several classifications of cable used for twisted-pair
networks. I'll skip right over them and state that I use and recommend
Category 5 (or CAT 5) cable for all new installations. Likewise, there are
several fire code classifications for the outer insulation of CAT 5 cable.
I use CMR cable, or "riser cable," for most of the wiring I do. You should
also be aware of CMP or plenum cable (a plenum is used to distribute air in a
building). You may be required by local, state or national codes to use
the more expensive plenum-jacketed cable if it runs through suspended ceilings,
ducts, or other areas, if they are used to circulate air or act as an air
passage from one room to another. If in doubt, use plenum. CMR cable
is generally acceptable for all applications not requiring plenum
cable.
CAT 5 wire
is available in reel-in-box packaging. This is very handy for pulling the wire
without putting twists in it. Without this kind of package or a cable reel
stand, pulling wire is a two-person job. Before the advent of the
reel-in-box, we used to put a reel of wire on a broom handle to pull it.
One person would hold the broom handle and the other would pull and measure the
cable. You will produce a tangled mess, if you pull the wire off the end
of the reel.Stranded wire patch cables are often specified for cable segments running from a wall jack to a PC and for patch panels. They are more flexible than solid core wire. However, the rational for using it is that the constant flexing of patch cables may wear-out solid core cable--break it. I don't think this is a real concern in the average small network. For example, I have one solid core cable going to my work bench. It has probably flexed and average person's lifetime of flexes from the many many times I have connected customer computers to my network. Also, stranded cable is susceptible to degradation from moisture infiltration, may use an alternate color code, and should not be used for cables longer than 3 Meters (about 10 feet).
Most of the wiring I do simply connects computers directly to other computers or hubs. Solid core cable is quite suitable for this purpose and for many home and small business networks. I find it also quite acceptable for use as patch cables. You might consider a stranded wire patch cable if you have a notebook computer you are constantly moving around.
CAT 5 cable has four twisted pairs of wire for a total of eight individually insulated wires. Each pair is color coded with one wire having a solid color (blue, orange, green, or brown) twisted around a second wire with a white background and a stripe of the same color. The solid colors may have a white stripe in some cables. Cable colors are commonly described using the background color followed by the color of the stripe; e.g., white-orange is a cable with a white background and an orange stripe.
CONNECTORS. The straight through and
cross-over patch cables discussed in this article are terminated with CAT 5
RJ-45 modular plugs. RJ-45 plugs are similar to those you'll see on the
end of your telephone cable except they have eight versus four or six contacts
on the end of the plug and they are about twice as big. Make sure they are
rated for CAT 5 wiring. (RJ means "Registered Jack"). Also, there
are RJ-45 plugs designed for both solid core wire and stranded wire.
Others are designed specifically for one kind of wire or the other.
Be sure you buy plugs appropriate for the wire you are going to use. I use
plugs designed to accommodate both kinds of wire.
NETWORK CABLE
TOOLS
Modular Plug Crimp Tool. You will need a
modular crimp tool. This one is very similar to the one I have been using
for many years for all kinds of telephone cable work and it works just fine for
Ethernet cables. You don't need a lot of bells and whistles, just a tool
which will securely crimp RJ-45 connectors. This one is made by
Eclipse Enterprises,
Inc. Even though the crimper has cutters which can be used to cut
the cable and individual wires, and possibly stripping the outer jacket, I
find that the following tools are better for stripping and cutting the
cable...
Universal UTP Stripping Tool (Eclipse). I
recently bought one of these tools and it works slick, and it makes a much
neater cut. I recommend that you purchase one if you will be making many
cables.
Diagonal Cutters ("4 to 6"). It is easier to
use diagonal cutters ("diags" or "dikes") to cut the cable off at the reel and
to fine tune the cable ends during assembly. Also, if you don't have a
stripper, you can strip the cable by using a small knife (X-acto, utility,
etc.) to carefully slice the outer jacket longitudinally and use the diags
to cut it off around the circumference.
A LITTLE THEORY
Now, bear with me, you need to understand some of this
stuff...The 10BASE-T and 100BASE-TX Ethernets consist of two transmission lines. Each transmission line is a pair of twisted wires. One pair receives data signals and the other pair transmits data signals. A balanced line driver or transmitter is at one end of one of these lines and a line receiver is at the other end. A (much) simplified schematic for one of these lines and its transmitter and receiver follow:
Pulses of energy travel down the transmission
line at about the speed of light (186,000 miles/second). The principal
components of one of these pulses of energy is the voltage potential between
wires and current flowing near the surface of the wires. This energy can
also be considered as residing in the magnetic field which surrounds the wires
and the electric field between the wires. In other words, an
electromagnetic wave which is guided by, and travels down the wires.
The main concern is the transient magnetic fields which
surrounds the wires and the magnetic fields generated externally by the other
transmission lines in the cable, other network cables, electric motors,
fluorescent lights, telephone and electric lines, lightning, etc. This is known
as noise. Magnetic fields induce their own pulses in a transmission
line which may literally bury the Ethernet pulses, the conveyor of the
information being sent down the line.The twisted-pair Ethernet employs two principle means for combating noise. The first is the use of balanced transmitters and receivers. A signal pulse actually consists of two simultaneous pulses relative to ground: a negative pulse on one line and a positive pulse on the other. The receiver detects the total difference between these two pulses. Since a pulse of noise (shown in red in the diagram) usually produces pulses of the same polarity on both lines one pulse is essentially canceled by out the other at the receiver. Also, the magnetic field surrounding one wire from a signal pulse is a mirror of the one on the other wire. At a very short distance from the two wires the magnetic fields are opposite and have a tendency to cancel the effect of each other out. This reduces the line's impact on the other pair of wires and the rest of the world.
The second and the primary means of reducing crosstalk--the term crosstalk came from the ability to (over) hear conversations on other lines on your phone--between the pairs in the cable, is the double helix configuration produced by twisting the wires together. This configuration produces symmetrical (identical) noise signals in each wire. Ideally, their difference, as detected at the receiver, is zero. In actuality it is much reduced.
COLOR-CODE
STANDARDS
Again, please bear with me... Let's start with simple
pin-out diagrams of the two types of UTP Ethernet cables and watch how
committees can make a can of worms out of them. Here are the
diagrams:
Note that the TX (transmitter) pins are connected
to corresponding RX (receiver) pins, plus to plus and minus to minus. And
that you must use a cossover cable to connect units with identical
interfaces. If you use a straight-through cable, one of the two units
must, in effect, perform the cross-over function.
Two wire color-code standards apply: EIA/TIA 568A and
EIA/TIA 568B. The codes are commonly depicted with RJ-45 jacks
as follows:If we apply the 586A color code and show all eight wires, our pin-out looks like this:
However, the actual cables are not physically that simple. In the diagrams, the orange pair of wires are not adjacent. The blue pair is upside-down. The right ends match RJ-45 jacks and the left ends do not. If, for example, we invert the left side of the 586A "straight"-thru cable to match a 586A jack--put one 180° twist in the entire cable from end-to-end--and twist together and rearrange the appropriate pairs, we get the following can-of-worms:
This further emphasizes, I hope, the importance of the word
"twist" in making network cables which will work. You cannot use an
flat-untwisted telephone cable for a network cable. Furthermore, you must
use a pair of twisted wires to connect a set of transmitter pins to their
corresponding receiver pins. You cannot use a wire from one pair and
another wire from a different pair.
Keeping the above principles in mind, we can
simplify the diagram for a 568A straight-thru cable by untwisting the
wires, except the 180° twist in the entire cable, and bending the ends
upward. Likewise, if we exchange the green and orange pairs in the 568A
diagram we will get a simplified diagram for a 568B straight-thru cable.
If we cross the green and orange pairs in the 568A diagram we will arrive at a
simplified diagram for a crossover cable. All three are shown
below.
LET'S MAKE IT
SIMPLER
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There are only two unique cable ends in the
preceding diagrams. They correspond to the 568A and 568B RJ-45 jacks and are
shown to the right.
Again, the wires with colored backgrounds
may have white stripes and may be donated that way in diagrams found
elsewhere. For example, the green wire may be labeled Green-White--I don't
bother. The background color is always specified first.
Now, all you need to remember, to properly
configure the cables, are the diagrams for the two cable ends and the following
rules:
-
A straight-thru cable has identical ends.
-
A crossover cable has different ends.
It makes no functional difference which standard
you use for a straight-thru cable. You can start a crossover cable
with either standard as long as the other end is the other standard.
It makes no functional difference which end is which. Despite what you may
have read elsewhere, a 568A patch cable will work in a network with 568B wiring
and 568B patch cable will work in a 568A network. The electrons couldn't
care less.
My preference is to use the 568A standard
for straight-thru cables and to start crossover cables with a 568A end.
That way all I have to remember is the diagram for the 568A end, that a
straight-thru cable has two of them, and that the green and orange pairs are
swapped at the other end of a crossover cable.
LET'S MAKE SOME
CABLES
1. Pull the cable off the reel to the
desired length and cut. I have a box of cable at one end of my shop and a
mark on the floor 10' away. For cable lengths which are a fraction
of ten feet, I eye-ball the length as I pull the cable out of
the box (also, my feet are about one foot long). For longer cables, I pull
it out to the ten foot mark and go back to the box and pull the remaining
fraction or another ten feet. If you are pulling cables through walls, a
hole in the floor, etc., it easier to attach the RJ-45 plugs after the cable is
pulled. The total length of wire segments between a PC and a hub or
between two PC's cannot exceed 100 Meters (328 feet or about the length of a
football field) for 100BASE-TX and 300 Meters for 10BASE-T.
2. Strip one end of the cable with the stripper or a knife and
diags. If you are using the stripper, place the cable in the groove on the
blade (left) side of the stripper and align the end of the cable with the right
side of the stripper. This will strip about 1/2" of the jacket off the
cable. Turn the stripper about 1 1/4 turns and pull. If you turn it
more, you will probably nick the wires. If you are using a knife and
diags, carefully slit the cable for about an inch or so and neatly trim around
the circumference of the cable with diags to remove the jacket.
3. Inspect the wires for nicks.
Cut off the end and start over if you see any. You may have to adjust the
blade with the screw at the front stripper. Cable diameters and jacket
thicknesses vary.
4. Spread and arrange the pairs roughly in the order of the
desired cable end. |
5. Untwist the pairs and arrange the wires
in the order of the desired cable end. Flatten the end between your thumb
and forefinger. Trim the ends of the wires so they are even with one
another. It is very important that the unstripped (untwisted) end
be slightly less than 1/2" long. If it is
longer than 1/2" it will be out-of-spec and susceptible to crosstalk.
If it less than slightly less than 1/2" it will not be properly clinched
when RJ-45 plug is crimped on.. Flatten again. There should be
little or no space between the wires.
6. Hold the RJ-45 plug with the clip facing down or away from
you. Push the wire firmly into the plug. Now,
inspect the darn thing... before crimping and wasting the
plug! Looking through the bottom of the plug, the wire on the far
left side will have a white background. The wires should alternate light
and dark from left to right. The furthest right wire is brown. The
wires should all end evenly at the front of the plug. The jacket should
end just about where you see it in the diagram--right on the line. Aren't
you glad you didn't crimp the plug?
ALL ABOUT
CRIMPING
7. Hold the wire near the RJ-45 plug with
the clip down and firmly push it into the left side of the front of the crimper
(it will only go in one way). Hold the wire in place squeeze the crimper
handles quite firmly. This is what will happen:
(Crimp it once.) The crimper pushes two plungers down on the RJ-45 plug. One forces what amounts to a cleverly designed plastic plug/wedge onto the cable jacket and very firmly clinches it. The other seats the "pins," each with two teeth at its end, through the insulation and into the conductors of their respective wires.
8. Test the crimp... If done properly an average person will not be able to pull the plug off the cable with his or her bare hands. And that quite simply, besides lower cost, is the primary advantage of twisted-pair cables over the older thinwire, coaxial cables. In fact, I would say the RJ-45 and ease of its installation is the main reason coaxial cable is no longer widely used for small Ethernets. But, don't pull that hard on the plug. It could stretch the cable and change its characteristics. Look at the side of the plug and see if it looks like the diagram and give it a fairly firm tug to make sure it is crimped well.
9. Prepare the other end of the cable so it has the desired end and crimp.
10. If both ends of the cable are within reach, hold them next to each other and with RJ-45 clips facing away. Look through the bottom of the plugs. If the plugs are wired correctly, and they are identical, it is a straight-thru cable. If they are wired correctly and they are different, it is a crossover cable.
11. If you have an operational network, test the cable. Copy some large files.
12. If the cable doesn't work, inspect the ends again and make sure you have the right cable and that it is plugged into the correct units for the type of cable. Try power-cycling (cold booting) the involved computers.
13. If you have many straight-thru cables and a crossover cable in your system, you should consider labeling the crossover cable or using a different colored cable for the crossover cable so you don't mix them up. I do not recommend implementing the crossover function, as recommended elsewhere, with two RJ-45 jacks, appropriately wired back to back, and two straight-thru cables. This method costs noticeably more, introduces more than the necessary number of components and connections, increases the complexity and time of assembly, and decreases reliability.
(Abhishek Srivastava)
Mail user agent (MUA)
Mail user agent (MUA)
A mail user agent (MUA) is a program
that allows you to receive and send e-mail messages; it's usually just called
an e-mail program. To use an MUA such as Eudora or Microsoft Outlook, you
install the MUA program on your computer and then use it to download and store
e-mail messages to your computer; it will also allow you to read or write
messages offline. Web-based MUAs, such as Hotmail and Yahoo, store messages on
their own mail servers and allow access to them through a Web
page. An MUA is sometimes called an e-mail agent or an e-mail client.
virtual Area Network (VAN)
virtual area Network (VAN)
VAN is also an acronym for value-added network. Also see virtual private network (virtual private network).
A virtual area network (VAN) is a network on which users are enabled to share a more visual sense of community through high band-width connections. As conceived by PennWell Media Online, an online directory for specialized networking products, a virtual area network is something like a metropolitan area network (MAN) or extended local areanetwork (LAN) in which all users can meet over high-bandwidth connections, enabling "face-to-face" online "coffeehouses," remote medical diagnosis and legal consultation, and online corporate or extracorporate workgroups, focus groups, and conferences. A VAN requires multi-megabyte data flow and can be implemented through the use of Asymmetric Digital Subscriber Line but more likely through the installation of cable modem. Since the high-bandwidth connections imply a common infrastructure, the first VANs are likely to be local or regional. However, a VAN can also be national or international in geographic scope, assuming all users share similar capabilities. ( Abhishek Srivastava)
Token Passing
Token passing
A type of CAM.
Token passing uses a token, or series of bits,
to grant a device permission to transmit over the network.
Whichever device has the token can put data into the network. When its
transmission is complete, the device passes the token along to the next device
in the topology. System rules in the protocol
specifications mandate how long a device may keep the token, how long it can
transmit for and how to generate a new token if there isn't one circulating.
Also see contention and polling.
Wednesday, 4 September 2013
How To Install and Configure DNS Server in Windows Server 2003
This step-by-step article describes how to install and configure DNS on your Windows Server 2003 computer.
For Abhishek
You must have the following information:
Before you configure your computer as a DNS, verify that the following conditions are true:
thanks for read............................................... Abhishek Srivastava
For Abhishek
Before You Start
Before you start to configure your DNS, you must gather some basic information. Internic must approve some of this information for use on the Internet, but if you are configuring this server for internal use only, you can decide what names and IP addresses to use.You must have the following information:
- Your domain name (approved by Internic).
- The IP address and host name of each server that you want to provide name resolution for.
Before you configure your computer as a DNS, verify that the following conditions are true:
- Your operating system is configured correctly. In the Windows Server 2003 family, the DNS service depends on the correct configuration of the operating system and its services, such as TCP/IP. If you have a new installation of a Windows Server 2003 operating system, then you can use the default service settings. You do not have to take additional action.
- You have allocated all the available disk space.
- All the existing disk volumes use the NTFS file system. FAT32 volumes are not secure, and they do not support file and folder compression, disk quotas, file encryption, or individual file permissions
Install DNS
- Open Windows Components Wizard. To do so, use the following steps:
- Click Start, click Control Panel, and then click Add or Remove Programs.
- Click Add/Remove Windows Components.
- In Components, select the Networking Services check box, and then click Details.
- InSubcomponents of Networking Services, select the Domain Name System (DNS) check box, click OK, and then clickNext.
- If you are prompted, in Copy files from, type the full path of the distribution files, and then click OK.
Configure DNS
- Start the Configure Your Server Wizard. To do so, click Start, point to All Programs, point to Administrative Tools, and then click Configure Your Server Wizard.
- On the Server Role page, click DNS server, and then click Next.
- On the Summary of Selections page, view and confirm the options that you have selected. The following items should appear on this page:
- Install DNS
- Run the Configure a DNS Wizard to configure DNS
- When the Configure Your Server Wizard installs the DNS service, it first determines whether the IP address for this server is static or is configured automatically. If your server is currently configured to obtain its IP address automatically, the Configuring Components page of the Windows Components Wizard prompts you to configure this server with a static IP address. To do so:
- In the Local Area Connection Properties dialog box, click Internet Protocol (TCP/IP), and then click Properties.
- In the Internet Protocols (TCP/IP) Properties dialog box, click Use the following IP address, and then type the static IP address, subnet mask, and default gateway for this server.
- In Preferred DNS, type the IP address of this server.
- In Alternate DNS, type the IP address of another internal DNS server, or leave this box blank.
- When you finish setting up the static addresses for your DNS, click OK, and then click Close.
- After you click Close, the Configure a DNS Server Wizard starts. In the wizard, follow these steps:
- On the Select Configuration Action page, select the Create a forward lookup zone check box, and then clickNext.
- To specify that this DNS hosts a DNS zone that contains DNS resource records for your network resources, on the Primary Server Location page, click This server maintains the zone, and then click Next.
- On the Zone Name page, in Zone name, specify the name of the DNS zone for your network, and then clickNext. The name of the zone is the same as the name of the DNS domain for your small organization or branch office.
- On the Dynamic Update page, click Allow both nonsecure and secure dynamic updates, and then click Next. This makes sure that the DNS resource records for the resources in your network update automatically.
- On the Forwarders page, click Yes, it should forward queries to DNS servers with the following IP addresses, and then click Next. When you select this configuration, you forward all DNS queries for DNS names outside your network to a DNS at either your ISP or central office. Type one or more IP addresses that either your ISP or central office DNS servers use.
- On the Completing the Configure a DNS Wizard page of the Configure a DNS Wizard, you can click Back to change any of the settings. To apply your selections, click Finish.
thanks for read............................................... Abhishek Srivastava
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