పరిశ్రమ వార్తలు

ఏకాక్షక కేబుల్ విస్మరించబడదు

2021-03-05

ఏకాక్షక కేబుల్చెయ్యవచ్చువిస్మరించకూడదు

 

రాగి కేబుల్ పరీక్ష కోసం, వర్గం 6 (CAT 6), వర్గం 6 (CAT 6A) మరియు వర్గం 8 (CAT 8) వంటి సమతుల్య వక్రీకృత-జత రాగి కేబులింగ్ సంబంధిత కంటెంట్ గురించి మేము చాలా చర్చించాము. వాయిస్, డేటా మరియు వీడియో యొక్క ఈథర్నెట్ ప్రసారానికి మద్దతు ఇవ్వడానికి ఈ రకమైన కేబులింగ్ విస్తృతంగా ఉపయోగించబడుతున్నప్పటికీ, మీరు ఎదుర్కొనే ఏకైక రాగి కేబులింగ్ ఇది అని అర్ధం కాదు.

ఏకాక్షక కేబుల్ ("coax" in English) has long been used to transmit data and video signals. It is one of the first media to support 10BASE2 and 10BASE5 Ethernet, which చెయ్యవచ్చు achieve 10 Mb up to 185 meters or 500 meters, respectively. /s transfer. The term "coaxial" means that the central conductor of the cable and its shield have the same axis or center point. Some ఏకాక్షక కేబుల్s may have multiple shielding layers, such as a four-shielded ఏకాక్షక కేబుల్. The cable contains two layers of shielding, and each layer of shielding is composed of aluminum foil wrapped with wire mesh. The shielding characteristics of ఏకాక్షక కేబుల్ make it have strong anti-electromagnetic interference ability and చెయ్యవచ్చు transmit high-frequency signals over long distances.

Although we usually think that ఏకాక్షక కేబుల్ is only used in broadband video and cable television (CATV) home applications, but in the commercial enterprise environment, from closed circuit television (CCTV), audio and video to radio frequency antennas, and even some network connections, you చెయ్యవచ్చు find Its figure. Therefore, it is very necessary to understand this cable medium and how to test it.

ప్రధాన రకం

There are many different types of ఏకాక్షక కేబుల్s that support a wide range of professional applications, such as satellite communications, industrial, military, and marine applications. The three most common types of non-industrial ఏకాక్షక కేబుల్s are RG6, RG11, and RG59, of which RG6 is most commonly used in applications such as CCTV and CATV in corporate environments. The center conductor of RG11 is thicker than RG6, which means that its insertion loss is lower and the signal transmission distance is longer. However, thicker RG11 cables are more costly and very difficult to bend, which makes them unsuitable for deployment in indoor applications, but more suitable for long-distance outdoor installations or straight backbone links. RG59 is more flexible than RG6, but its loss is higher. It is rarely used in other applications except for low-bandwidth, low-frequency analog video applications (rear-view cameras in automobiles) with short distances and limited wiring space.

 

ఏకాక్షక కేబుల్sవేర్వేరు ఇంపెడెన్స్‌లను కూడా కలిగి ఉంటాయి-సాధారణంగా 50, 75 మరియు 93Ω. 50Ω ఏకాక్షక కేబుల్s have high power handling capabilities and are mainly used in radio transmitters such as amateur radio equipment, civil band radio (CB) and walkie-talkies. 75 Ω cables చెయ్యవచ్చు maintain signal strength well and are mainly used to connect various types of receiving equipment, such as cable television (CATV) receivers, high-definition televisions and digital video recorders. 93 Ω ఏకాక్షక కేబుల్ was used in IBM mainframe networks in the 1970s and early 1980s, with very few applications and expensive. Although the 75 Ω ఏకాక్షక కేబుల్ impedance is most commonly encountered in most applications today, it should be noted that all components in the ఏకాక్షక కేబుల్ system should have the same impedance to avoid signal loss and signal loss at the connection point. Internal reflections that reduce video quality.

The digital signal 3 (DS3) signal used in the central office (also known as T3 line) transmission service also uses ఏకాక్షక కేబుల్s, including 75 Ω 735 type and 734 type. The 735 type cable has a coverage distance of up to 69 meters, while the 734 type cable has a coverage distance of up to 137 meters. RG6 cable చెయ్యవచ్చు also be used to transmit DS3 signals, but the coverage distance is shorter.

For any ఏకాక్షక కేబుల్, successful installation depends on the use of high-quality components and correct installation techniques, especially the installation of connectors. Insertion loss is affected by the total length of the installed link and is the main parameter to ensure that the ఏకాక్షక కేబుల్ supports the intended application.