What is the Difference Between Transceivers and Transporters?

Transporters and transceivers differ in minute ways. Knowing the difference will be instrumental to your design. In general, a transceiver is designed to transmit and receive data. Whereas, a transporter is used as a medium to pass and evaluate data between two endpoints. As in the case of transport security, a transporter will pass user credentials and ensure message protection. Here are some other differences between these two devices.

Difference Between Transceivers and Transporters

What is a Transceiver?
Transceivers are made up of receivers and transmitters, and they are designed to transmit and receive data. Transceivers will send information and are equipped to transmit data back and forth. They also help to direct the flow of traffic and can convert data or format data as it flows through the device.

Depending on the application, there are numerous different types of transceivers to choose. For instance, optical transceivers are used in environments that require cable and networking interfaces. These types of transceivers are used in chipsets and hot-swappable module form. Common types include SFP+, XFP and SFP transceivers.

Transceivers are typically used in applications where there is a steady flow of data. They are robust enough to handle a continual flow of data without interruption. This is one of the primary benefits of transceivers.

What is a Transporter?
Transporters are used in a variety of applications, but the most common application is transport protocol. SSL and HTTP protocol are commonly associated with transporter use. Transport security or transport protocol using SSL and HTTP will support the transfer of claims and credentials by using the transport layer. The level of security will be dependent on the transport protocol, which may be TCP, MSMQ, HTTP, or IPC. Each type will have a different mechanism for handling message protection and credentials passing.

Secure Sockets Layer (SSL) for encryption is one of the most common approaches. If there needs to be a secure connection, the packet contents are sent over the secure HTTP and is designated as HTTPS. When consumers input their credit card information or social security number, they desire HTTPS to prevent people from intercepting their personal information during the transport stage.

Transporters, typically, only transmits data on command. When the command is executed, like in the case of a credit card transaction, HTTPS is activated until the action is complete, and then, it’s terminated.

Transporters can also be used in conjunction with other technology to move heavy machinery or to execute a variety of commands. The technology is versatile and when used in conjunction with other devices, it can be powerful. Transporters are useful devices in the technology world.

Transporters and Transceivers Differ in a Variety of Ways
Transporters and transceivers are used in different applications. While they differ, they are both useful depending upon the application. Each application must be evaluated on an individual basis to determine if a transporter or transceiver is necessary. The designation may seem subtle until it’s actually put into use. Then, the differences will make a huge impact on the capability of the designs.

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