What Does LC Connector Stand For?
An LC connector is a type of push-pull connector. It features a latch for anti-snag protection, and can be used to simultaneously disengage both fibers in duplex mode. The LC connector is designed for fiber optic cables, and is used by many companies in the industry.
The LC connector is a type of fiber optic connector. This small form factor connector was developed by Lucent Technologies. It uses traditional SC duplex connector components but is smaller and simpler. It is also considered to be a small form factor connector and has 1000 mating cycles. Because of its compact size, the LC connector is popular for crowded networks.
LC connectors are compatible with single and multimode fiber optic cables. They are smaller than SC connectors, which makes them ideal for high density deployments. Their retaining tab mechanism is similar to those used on phone connectors and RJ-45 connectors. The connectors typically come in two pieces, and they are bound together by a plastic clip. Single-mode and multimode cables can both use LC connectors, and they have a low insertion loss of 0.25dB.
It is a push-pull connector
The LC connector is one of the most popular Small Form Factor (SFF) connectors. This connector features a latch for easy connection, and is smaller than other fiber optic connectors. This type of connector is ideal for applications that need to minimize losses and electromagnetic interference.
The SC connector uses a ceramic ferrule that delivers highly accurate alignment for fiber optic links. This type of connector features a locking tab and is used in some fiber optic extenders. The SC connectors are considered suitable for high-precision signals, but they also have sensitive return loss.
It has anti-snag latch
LC connectors are known for their anti-snag latch to prevent snags. They are very reliable and are often found in rack mounted equipment. They come with an audible click when fully inserted. They also have polarity markings to maintain Tx/Rx directions. The connectors also feature a stress relief boot to prevent micro bends.
An LC connector is about half the size of an SC connector, which saves on installation costs. Its polarized design helps to maintain the transmitting direction and ensures high repeatability. It also has an anti-snag latch, which reduces rearrangement work due to cross-connection. It also eliminates the need for field-mountable connectors.
It is available in UPC and APC versions
The LC connector comes in different versions and has two main types: APC and UPC. Both versions have a similar connector profile but differ in color. The UPC version is usually blue, while the APC version is green. Below are the differences between the two types.
The APC connector has an 8deg angled cut in the ferrule, which improves the connections between optical fibers. It also has a higher ORL, as the industry requires it to be at least 60dB. An LC connector consists of a metal or plastic body, which holds the ferrule and coupling mechanism. The coupling mechanism helps mate the connector with the device. The Meridian Technologies describes this coupling mechanism as “push-pull.”
It is used in multimode networks
The LC connector is a common type of connector used in multimode networks. It is smaller than SC connectors and has a ferrule made of ceramic that protects the exposed fibers of the cable. As a result, this connector is often preferred for high-density deployments. It is available in simplex and duplex versions and comes in a variety of standard colors.
The LC connector is a push-pull connector with a latch. It is easier to operate and is less expensive than SC connectors. It also has a smaller housing than SC, which allows it to fit more interfaces on panels or line-cards.
It is typically found in high-density installations
The LC connector is a smaller version of the SC connector. Its ferrule is only 1.25mm wide, which allows it to fit more interfaces on panels and line-cards. This makes it a popular choice for high-density installations.
LC connectors have a small footprint and are easy to add to the end of a cable. They are also very low-loss and pull-proof. They are ideal for high-density installations, where space is at a premium.