Network Solutions
VPN Connectivity
Niche Information and Technology Systems
Niat Systems Network Solutions
VPN Connectivity
As it is most commonly defined, a virtual private network (VPN) allows two or more private networks to be connected over a publicly accessed network. In a sense, VPNs are similar to wide area networks (WAN) or a securely encrypted tunnel, but the key feature of VPNs is that they are able to use public networks like the Internet rather than rely on expensive, private leased lines. At they same time, VPNs have the same security and encryption features as a private network, while taking the advantage of the economies of scale and remote accessibility of large public networks.
A VPN is an especially effective means of exchanging critical information for employees working remotely in branch offices, at home, or on the road. It can securely deliver information between vendors, suppliers, and business partners, who may have a huge physical distance between them. Since companies no longer have to invest in the actual infrastructure themselves, they can reduce their operational costs by outsourcing network services to service providers. VPNs can also reduce costs by eliminating the need for long-distance telephone charges to obtain remote access, as client need only call into the service provider's nearest access point.
Structured Cabling
Structured cabling design and installation is governed by a set of standards that specify wiring data centers, offices, and apartment buildings for data or voice communications, using category 5 (CAT 5E) or category 6 cable (CAT 6E) and modular sockets. These standards define how to lay the cabling in a star formation, such that all outlets terminate at a central patch panel (which is normally 19 inch rack-mounted), from where it can be determined exactly how these connections will be used. Each outlet can be 'patched' into a data network switch (normally also rack mounted alongside), or patched into a 'telecoms patch panel' which forms a bridge into a private branch exchange (PBX) telephone system, thus making the connection a voice port.
Lines patched as data ports into a network switch require simple straight-through patch cables at the other end to connect a computer. Voice patches to PBXs in most countries require an adapter at the remote end to translate the configuration on 8P8C modular connectors into the local standard telephone wall socket. No adapter is needed in the U.S. as the 6P6C plug used with RJ11 telephone connections is physically compatible with the larger 8P8C socket and the wiring of the 8P8C is compatible with RJ11. In the UK, an adapter must be present at the remote end as the 6-pin BT socket is physically incompatible with 8P8C.
It is common to color code patch panel cables to identify the type of connection, though structured cabling standards do not require it, except in the demarcation wall field.
Cabling standards demand that all eight connectors in Cat5/5e/6 cable are connected, resisting the temptation to 'double-up' or use one cable for both voice and data. This is generally helpful as it means that they fully support features such as Power over Ethernet which require the so-far unused brown cables.
We assure the following standards to our valuable customers
The main structured cabling standards used in the USA and many other countries are:
A. TIA-526-7 Measurement of Optical Power Loss of Installed Single-Mode Fiber Cable Plant OFSTP-7 - (February 2002)
B. TIA-526-14-A Optical Power Loss Measurements of Installed Multimode Fiber Cable Plant OFSTP-14 - (August 1998)
C. ANSI/TIA/EIA-568-B.1 Commercial Building Telecommunications Cabling Standard Part 1: General Requirements: General Requirements, may 2001.
D. Adenda ANSI/TIA/EIA-568-B.1-1-2001, Addendum 1, Minimum Curve Radius for 4 pair UTP and ScTP cable, July, 2001.
E. TIA/EIA-568-B.1-2 Commercial Building Telecommunications Cabling Standard Part 1: General Requirements Addendum 2 Grounding and Bonding Requirements for Screened Balanced Twisted-Pair Horizontal Cabling - (February 2003)
F. TIA/EIA-568-B.1-3 Commercial Building Telecommunications Cabling Standard Part 1: General Requirements Addendum 3 Supportable Distances and Channel Attenuation for Optical Fiber Applications by Fiber Type - (February 2003)
G. TIA/EIA-568-B.1-4 Commercial Building Telecommunications Cabling Standard Part 1: General Requirements Addendum 4 Recognition of Category 6 and 850 nm Laser Optimized 50/125 ΅m Multimode Optical Fiber Cabling - (February 2003)
H. TIA/EIA-568-B.1-5 Commercial Building Telecommunications Cabling Standard Part 1: General Requirements Addendum 5 Telecommunications Cabling for Telecommunications Enclosures (March 2004)
I. TIA/EIA-568-B.1-7 Commercial Building Telecommunications Cabling Standard Part 1: General Requirements Addendum 7 - Guidelines for Maintaining Polarity Using Array Connectors (January 2006)
J. TIA/EIA-568-B.2 Commercial Building Telecommunications Cabling Standard Part 2: Balanced Twisted-Pair Cabling Components - (December 2003)
K. TIA/EIA-568-B.2-1 Commercial Building Telecommunications Cabling Standard Part 2: Balanced Twisted-Pair Cabling Components Addendum 1 Transmission Performance Specifications for 4-Pair 100 ohm Category 6 Cabling - (June 2002)
L. TIA/EIA-568-B.2-2 Commercial Building Telecommunications Cabling Standard Part 2: Balanced Twisted-Pair Cabling Components Addendum 2 Revision of Sub-clauses - (December 2001)
M. TIA/EIA-568-B.2-3 Commercial Building Telecommunications Cabling Standard Part 2: Balanced Twisted-Pair Cabling Components Addendum 3 Additional Considerations for Insertion Loss & Return Loss Pass/Fail Determination - (March 2002)
N. TIA/EIA-568-B.2-4 Commercial Building Telecommunications Cabling Standard Part 2: Balanced Twisted-Pair Cabling Components Addendum 4 Solderless Connection Reliability Requirements for Copper Connecting Hardware - (June 2002)
O. TIA/EIA-568-B.2-5 Commercial Building Telecommunications Cabling Standard Part 2: Balanced Twisted-Pair Cabling Components Addendum 5 Corrections to TIA/EIA-568-B.2 (January 2003)
P. TIA/EIA-568-B.2-6 Commercial Building Telecommunications Cabling Standard Part 2: Balanced Twisted-Pair Cabling Components Addendum 6 Category 6 Related Component Test Procedures (December 2003)
Q. TIA/EIA-568-B.2-11 Commercial Building Telecommunications Cabling Standard Part 2: Balanced Twisted-Pair Cabling Components Addendum 11 - Specification of 4-Pair UTP and SCTP Cabling (December 2005)
R. TIA/EIA-568-3 Optical Fiber Cabling Components Standard - (April 2002)
S. TIA/EIA-568-3.1 Optical Fiber Cabling Components Standard Addendum 1 Additional Transmission Performance Specifications for 50/125 ΅m Optical Fiber Cables (April 2002)
T. TIA-569-B Commercial Building Standard for Telecommunications Pathways and Spaces - (October 2004)
U. TIA-598-C Optical Fiber Cable Color Coding - (January 2005)
V. TIA/EIA-606-A Administration Standard for Commercial Telecommunications Infrastructure - (May 2002)
W. J-STD-607-A Commercial Building Grounding (Earthing) and Bonding Requirements for Telecommunications - (October 2002)
X. TIA-758-A Customer-owned Outside Plant Telecommunications Infrastructure Standard August 2004
European countries use another set of standards, the main one being ISO/IEC 11801.
A VPN is an especially effective means of exchanging critical information for employees working remotely in branch offices, at home, or on the road. It can securely deliver information between vendors, suppliers, and business partners, who may have a huge physical distance between them. Since companies no longer have to invest in the actual infrastructure themselves, they can reduce their operational costs by outsourcing network services to service providers. VPNs can also reduce costs by eliminating the need for long-distance telephone charges to obtain remote access, as client need only call into the service provider's nearest access point.
Structured CablingStructured cabling design and installation is governed by a set of standards that specify wiring data centers, offices, and apartment buildings for data or voice communications, using category 5 (CAT 5E) or category 6 cable (CAT 6E) and modular sockets. These standards define how to lay the cabling in a star formation, such that all outlets terminate at a central patch panel (which is normally 19 inch rack-mounted), from where it can be determined exactly how these connections will be used. Each outlet can be 'patched' into a data network switch (normally also rack mounted alongside), or patched into a 'telecoms patch panel' which forms a bridge into a private branch exchange (PBX) telephone system, thus making the connection a voice port.
Lines patched as data ports into a network switch require simple straight-through patch cables at the other end to connect a computer. Voice patches to PBXs in most countries require an adapter at the remote end to translate the configuration on 8P8C modular connectors into the local standard telephone wall socket. No adapter is needed in the U.S. as the 6P6C plug used with RJ11 telephone connections is physically compatible with the larger 8P8C socket and the wiring of the 8P8C is compatible with RJ11. In the UK, an adapter must be present at the remote end as the 6-pin BT socket is physically incompatible with 8P8C.
It is common to color code patch panel cables to identify the type of connection, though structured cabling standards do not require it, except in the demarcation wall field.
Cabling standards demand that all eight connectors in Cat5/5e/6 cable are connected, resisting the temptation to 'double-up' or use one cable for both voice and data. This is generally helpful as it means that they fully support features such as Power over Ethernet which require the so-far unused brown cables.
We assure the following standards to our valuable customers
The main structured cabling standards used in the USA and many other countries are:
A. TIA-526-7 Measurement of Optical Power Loss of Installed Single-Mode Fiber Cable Plant OFSTP-7 - (February 2002)
B. TIA-526-14-A Optical Power Loss Measurements of Installed Multimode Fiber Cable Plant OFSTP-14 - (August 1998)
C. ANSI/TIA/EIA-568-B.1 Commercial Building Telecommunications Cabling Standard Part 1: General Requirements: General Requirements, may 2001.
D. Adenda ANSI/TIA/EIA-568-B.1-1-2001, Addendum 1, Minimum Curve Radius for 4 pair UTP and ScTP cable, July, 2001.
E. TIA/EIA-568-B.1-2 Commercial Building Telecommunications Cabling Standard Part 1: General Requirements Addendum 2 Grounding and Bonding Requirements for Screened Balanced Twisted-Pair Horizontal Cabling - (February 2003)
F. TIA/EIA-568-B.1-3 Commercial Building Telecommunications Cabling Standard Part 1: General Requirements Addendum 3 Supportable Distances and Channel Attenuation for Optical Fiber Applications by Fiber Type - (February 2003)
G. TIA/EIA-568-B.1-4 Commercial Building Telecommunications Cabling Standard Part 1: General Requirements Addendum 4 Recognition of Category 6 and 850 nm Laser Optimized 50/125 ΅m Multimode Optical Fiber Cabling - (February 2003)
H. TIA/EIA-568-B.1-5 Commercial Building Telecommunications Cabling Standard Part 1: General Requirements Addendum 5 Telecommunications Cabling for Telecommunications Enclosures (March 2004)
I. TIA/EIA-568-B.1-7 Commercial Building Telecommunications Cabling Standard Part 1: General Requirements Addendum 7 - Guidelines for Maintaining Polarity Using Array Connectors (January 2006)
J. TIA/EIA-568-B.2 Commercial Building Telecommunications Cabling Standard Part 2: Balanced Twisted-Pair Cabling Components - (December 2003)
K. TIA/EIA-568-B.2-1 Commercial Building Telecommunications Cabling Standard Part 2: Balanced Twisted-Pair Cabling Components Addendum 1 Transmission Performance Specifications for 4-Pair 100 ohm Category 6 Cabling - (June 2002)
L. TIA/EIA-568-B.2-2 Commercial Building Telecommunications Cabling Standard Part 2: Balanced Twisted-Pair Cabling Components Addendum 2 Revision of Sub-clauses - (December 2001)
M. TIA/EIA-568-B.2-3 Commercial Building Telecommunications Cabling Standard Part 2: Balanced Twisted-Pair Cabling Components Addendum 3 Additional Considerations for Insertion Loss & Return Loss Pass/Fail Determination - (March 2002)
N. TIA/EIA-568-B.2-4 Commercial Building Telecommunications Cabling Standard Part 2: Balanced Twisted-Pair Cabling Components Addendum 4 Solderless Connection Reliability Requirements for Copper Connecting Hardware - (June 2002)
O. TIA/EIA-568-B.2-5 Commercial Building Telecommunications Cabling Standard Part 2: Balanced Twisted-Pair Cabling Components Addendum 5 Corrections to TIA/EIA-568-B.2 (January 2003)
P. TIA/EIA-568-B.2-6 Commercial Building Telecommunications Cabling Standard Part 2: Balanced Twisted-Pair Cabling Components Addendum 6 Category 6 Related Component Test Procedures (December 2003)
Q. TIA/EIA-568-B.2-11 Commercial Building Telecommunications Cabling Standard Part 2: Balanced Twisted-Pair Cabling Components Addendum 11 - Specification of 4-Pair UTP and SCTP Cabling (December 2005)
R. TIA/EIA-568-3 Optical Fiber Cabling Components Standard - (April 2002)
S. TIA/EIA-568-3.1 Optical Fiber Cabling Components Standard Addendum 1 Additional Transmission Performance Specifications for 50/125 ΅m Optical Fiber Cables (April 2002)
T. TIA-569-B Commercial Building Standard for Telecommunications Pathways and Spaces - (October 2004)
U. TIA-598-C Optical Fiber Cable Color Coding - (January 2005)
V. TIA/EIA-606-A Administration Standard for Commercial Telecommunications Infrastructure - (May 2002)
W. J-STD-607-A Commercial Building Grounding (Earthing) and Bonding Requirements for Telecommunications - (October 2002)
X. TIA-758-A Customer-owned Outside Plant Telecommunications Infrastructure Standard August 2004
European countries use another set of standards, the main one being ISO/IEC 11801.
