PACE-IT: Network Cabling (part 2) - N10 006
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The document outlines key concepts in network cabling, focusing on coaxial and fiber optic cabling, including their types, connectors, and characteristics. It emphasizes the historical use of coaxial cables and explains fiber optic cabling's advantages and disadvantages, such as cost and resistance to EMI. Additionally, it details various types of connectors for both coaxial and fiber optic cables, and mentions funding and support information related to the educational program.
PACE-IT: Network Cabling (part 2) - N10 006
- 2. Page 2 Instructor, PACE-IT Program – Edmonds Community College Areas of Expertise Industry Certification PC Hardware Network Administration IT Project Management Network Design User Training IT Troubleshooting Qualifications Summary Education M.B.A., IT Management, Western Governor’s University B.S., IT Security, Western Governor’s University Entrepreneur, executive leader, and proven manger with 10+ years of experience turning complex issues into efficient and effective solutions. Strengths include developing and mentoring diverse workforces, improving processes, analyzing business needs and creating the solutions required— with a focus on technology.
- 3. Page 3 – Coaxial cabling. – Fiber optic cabling. PACE-IT.
- 4. Page 4 Network cabling II.
- 5. Page 5 – Coaxial cabling. » Coaxial cabling is one of the oldest Ethernet cabling standards (1973). » It has been used for baseband (carries single digital signal). » It has been used for broadband (carries multiple digital signals). » It is composed of a central conductor that is covered by an insulating layer, which is covered by an outer metal mesh or foil layer that is finished with an outer insulating layer. » The inner metal mesh or foil layer helps to protect against EMI. – Coaxial cable types. » RG58: 10Base2, max distance of 185 m, 50 ohms impedance. • No longer commonly found in the modern network. » RG59: Commonly used to provide a broadband connection between two devices over a short distance, has a 75 ohms impedance value. » RG6: cable TV or broadband, distance varies, has a 75 ohms impedance value. • Commonly used to make the connection to cable modems by cable companies. Network cabling II.
- 6. Page 6 – Coaxial cable connectors. » BNC (Bayonet Neill-Concelman). • Also known as a bayonet connector. • Used with coaxial cable; is now considered obsolete. • The connection from the cable to the device was achieved through a twist-lock type connection. • A BNC coupler can be used to connect two coaxial cable segments back to back. » F connector. • A threaded bayonet connector. • Used with coaxial cable. • An F connector coupler can be used to connect two coaxial cable segments back to back. Network cabling II.
- 7. Page 7 Network cabling II.
- 8. Page 8 – Fiber optic cabling described. » It is relatively expensive and harder to work with. » It is not that common in the LAN environment. » It resists all form of EMI and cannot be easily tapped. » It can cover long distances at high speed. » It is designated by fiber type, cladding size (the cladding is what the light bounces down), and jacket size. • Size of cladding and jacket listed in micrometers. » Most applications require that fiber cables be run in pairs. (basically a send cable and a receive cable). » The type of connector used on fiber optic cabling can impact the performance of the transmissions. • The UPC (Ultra Physical Contact) connector has a back reflection rating of around -55 dB. • The APC (Angled Physical Contact) connector has a back reflection rating of around -70 dB, making it the better performing connector. Network cabling II.
- 9. Page 9 – Fiber types. » Multimode fiber (MMF). • It uses an infrared LED system to transmit the light. • It uses multiple rays of light going down the cable. • It is used for shorter fiber runs, under 2 km. • It is less expensive to implement than SMF. • The most common application in networking is MMF 62.5/125µ, which is good for up to 275 m. » Single-mode fiber (SMF). • It uses a laser-diode arrangement to transmit the light. • It uses a single ray of light transmitted down the cable. • It is used for longer runs that require high speed. • It can traverse 40+ km. Network cabling II.
- 10. Page 10 – Fiber optic cabling connectors. » SC. • Subscriber Connector, or Square Connector, or Standard Connector (Stick and Click). • A push-pull type of connector. » ST. • Straight Tip (Stick and Twist). • A twist lock type of connector. » LC. • Local Connector, or Lucent Connector, or Little Connector. • A type of connector that uses a locking tab to secure the connection. » MTRJ. • Mechanical Transfer Registered Jack. • A small form factor connector that contains two fibers and that utilizes a locking tab to secure the connection. » Fiber optic coupler. • Used to connect two fiber optic cables back to back. Network cabling II.
- 11. Page 11 Network cabling II. Coaxial cabling is composed of a central conductor covered by an insulating sheath, covered by a foil or metal mesh sheath, covered by an outer insulating layer. RG58 is no longer found in the modern network. RG59 is used to provide a short distance broadband connection between two devices. RG6 is the most commonly used grade of cable used by cable companies to connect to the cable modem. Topic Coaxial cabling. Summary Fiber optic cabling is expensive and can be difficult to work with, but resists all forms of EMI and can span long distances. The grade of connector can influence the quality of the signal. Fiber optic cabling is classified by its type of transmission as either being MMF or SMF. Currently there are four common types of connectors—SC, ST, LC, and MTRJ. Fiber optic cabling.
- 13. This workforce solution was 100 percent funded by a $3 million grant awarded by the U.S. Department of Labor's Employment and Training Administration. The solution was created by the grantee and does not necessarily reflect the official position of the U.S. Department of Labor. The Department of Labor makes no guarantees, warranties, or assurances of any kind, express or implied, with respect to such information, including any information on linked sites and including, but not limited to, accuracy of the information or its completeness, timeliness, usefulness, adequacy, continued availability or ownership. Funded by the Department of Labor, Employment and Training Administration, Grant #TC-23745-12-60-A-53. PACE-IT is an equal opportunity employer/program and auxiliary aids and services are available upon request to individuals with disabilities. For those that are hearing impaired, a video phone is available at the Services for Students with Disabilities (SSD) office in Mountlake Terrace Hall 159. Check www.edcc.edu/ssd for office hours. Call 425.354.3113 on a video phone for more information about the PACE-IT program. For any additional special accommodations needed, call the SSD office at 425.640.1814. Edmonds Community College does not discriminate on the basis of race; color; religion; national origin; sex; disability; sexual orientation; age; citizenship, marital, or veteran status; or genetic information in its programs and activities.