Sandberg Usb To Serial Driver 13308b =LINK=
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How to Use Sandberg USB to Serial Link 13308b
If you have old devices with serial connectors that you want to use with your new computer that only has USB ports, you might think that you need to buy new equipment or install an expansion card. But there is a simpler and cheaper solution: the Sandberg USB to Serial Link 13308b.
The Sandberg USB to Serial Link 13308b is a handy adapter that lets you connect any device with a serial port to your computer's USB port. You can use it with mobile phones, PDAs, digital cameras, modems and more. It supports data transfer rates up to 500 Kbit/s and complies with USB 1.0 and 1.1 specifications.
Installing the Sandberg USB to Serial Link 13308b is easy. You don't need to open up your computer or install any drivers. Just plug the adapter into your USB port and connect your device to the other end. The adapter has a DB9 male connector that fits most serial devices. Your computer will automatically recognize the adapter and assign a COM port to it.
To use your device, you may need to configure the COM port settings in your software application. You can find the COM port number in the Device Manager under Ports (COM & LPT). The default settings are 9600 bps, 8 data bits, no parity, 1 stop bit and no flow control. You can change these settings if needed.
The Sandberg USB to Serial Link 13308b is compatible with Windows, Mac OS and Linux operating systems. You can find more information about the adapter and download manuals and drivers from the Sandberg website[^1^] [^2^]. You can also contact the Sandberg Helpdesk[^3^] if you have any questions or problems with the product.
The Sandberg USB to Serial Link 13308b is a smart and convenient way to reuse your old devices with serial connectors on your new computer. It saves you time and money and lets you enjoy your devices without hassle. Order yours today from Sandberg's online shop or find a dealer near you.
Benefits of Serial Devices
Serial devices have many advantages over parallel devices, especially for embedded systems and applications that require long-distance data communication. Some of the benefits of serial devices are:
They use fewer wires and pins, which reduces the cost and complexity of the interface. For example, a serial cable can have as little as two wires, while a parallel cable may need eight or more wires for the same amount of data.
They support higher data rates and longer cable lengths, because they are less susceptible to noise and interference. Serial signals can also be easily converted to different voltage levels and protocols using transceivers and converters.
They are more flexible and scalable, because they can use different modes and configurations to suit different needs. For example, serial devices can use synchronous or asynchronous communication, full-duplex or half-duplex transmission, point-to-point or multi-point connections, etc.
Examples of Serial Devices
There are many types of serial devices and protocols that are widely used in various fields and applications. Some of the most common examples are:
USB (Universal Serial Bus) - A standard interface for connecting peripherals to computers and other devices. USB supports plug-and-play functionality, hot swapping, power delivery, and data transfer rates up to 10 Gbit/s.
Ethernet - A network technology for local area networks (LANs) and wide area networks (WANs). Ethernet uses twisted-pair cables or optical fibers to transmit data packets between nodes. Ethernet supports data rates up to 100 Gbit/s.
SPI (Serial Peripheral Interface) - A synchronous serial interface for connecting microcontrollers and other devices. SPI uses four wires: clock, master output/slave input (MOSI), master input/slave output (MISO), and chip select (CS). SPI supports data rates up to 50 Mbit/s.
I2C (Inter-Integrated Circuit) - A synchronous serial interface for connecting low-speed devices such as sensors, EEPROMs, LCDs, etc. I2C uses two wires: clock (SCL) and data (SDA). I2C supports data rates up to 5 Mbit/s.
UART (Universal Asynchronous Receiver/Transmitter) - An asynchronous serial interface for connecting devices that use different clock sources. UART uses two wires: transmit (TX) and receive (RX). UART supports data rates up to 4 Mbit/s. 061ffe29dd