16550 UART
The 16550 UART (universal asynchronous receiver/transmitter) is an integrated circuit designed for implementing the interface for serial communications. The corrected -A version was released in 1987 by National Semiconductor.[1] It is frequently used to implement the serial port for IBM PC compatible personal computers, where it is often connected to an RS-232 interface for modems, serial mice, printers, and similar peripherals. It was the first serial chip used in the IBM PS/2 line, which were introduced in 1987.[2][3][4]
The part was originally made by National Semiconductor. Similarly numbered devices, with varying levels of compatibility with the original National Semiconductor part, are made by other manufacturers. A UART function that is register-compatible with the 16550 is usually a feature of multifunction I/O cards for IBM PC-compatible computers, and may be integrated on the motherboard of other compatible computers.
Replacement of the factory-installed 8250 UART was a common upgrade for owners of IBM PC, XT, and compatible computers when high-speed modems became available. At speeds higher than 9600 baud, owners discovered that the serial ports of the computers were not able to handle a continuous flow of data without losing characters. Exchange of the 8250 (having only a one-byte received data buffer) with a 16550, and occasionally patching or setting system software to be aware of the FIFO feature of the new chip, improved the reliability and stability of high-speed connections.
Features
Main features of the 16550 include:
- The ability to convert data from serial to parallel, and from parallel to serial, using shift registers.
- An on-chip bit rate (baud rate) generator to control transmit and receive data rate.
- Handshake lines for control of an external modem, controllable by software.
- An interrupt function to the host microprocessor.
- An on-chip FIFO buffer for both incoming and outgoing data; this gives the host system more time to respond to an interrupt generated by the UART, without loss of data.
Both the computer hardware and software interface of the 16550 are backward compatible with the earlier 8250 UART and 16450 UART. The current version (since 1995) by Texas Instruments which bought National Semiconductor is called the 16550D.[2]
The 16550A and newer is pin-compatible with the 16450, but the Microsoft diagnostics program (MSD) supplied with MS-DOS 6.x, Windows 9x, Windows Me, and Windows 2000 often report the 16450 chip as an 8250 chip.[2]
The 16550 FIFO
One drawback of the earlier 8250 UARTs and 16450 UARTs was that interrupts were generated for each byte received. This generated high rates of interrupts as transfer speeds increased. More critically, with only a 1-byte buffer there is a genuine risk that a received byte will be overwritten if interrupt service delays occur. To overcome these shortcomings, the 16550 series UARTs incorporated a 16-byte FIFO buffer with a programmable interrupt trigger of 1, 4, 8, or 14 bytes.
The original 16550 had a bug that prevented this FIFO from being used. National Semiconductor later released the 16550A which corrected this issue. Not all manufacturers adopted this nomenclature, however, continuing to refer to the fixed chip as a 16550.[5]
According to another source, the FIFO issue was corrected only in the 16550AF model, with the A model still being buggy. (The C and CF models are okay too, according to this source.) The 16550AFN model added DMA transfers.[6]
The 16550 also incorporates a transmit FIFO, though this feature is less critical as delays in interrupt service would only result in sub-optimal transmission speeds and not actual data loss.
The 16550A(F) version was a must-have to use modems with a data transmit rate of 9600 baud. Dropouts occurred with 14.4 kbit/s (v.32bis and higher) units and as compression was added with v.42 getting more data per interrupt was critical as data speed continued to increase.
See also
References
- Michael, Martin (1987). A Comparison of the INS8250, NS16450 and NS16550A Series of UARTs. Microcommunication Elements Databook. AN-493. Santa Clara, CA, USA: National Semiconductor. pp. 4. Retrieved 2020-02-07.
The primary difference between these two parts is in the operation of the FIFOs. The NS16550 will sometimes transfer extra characters when the CPU reads the RX FIFO. Due to the asynchronous nature of this failure there is no work-around and the NS16550 should NOT be used in the FIFO mode. The NS16550A has no problems operating in the FIFO mode and should be used on all new designs.
- Upgrading and Repairing PCs. Que Publishing. 2003. p. 965. ISBN 9780789729743. Retrieved 2016-04-16.
- Van Gilluwe, Frank (1997). Undocumented PC (2 ed.). Addison Wesley. ISBN 0-20147950-8.
- Paul, Matthias R. (2002-04-06). "Re: [fd-dev] ANNOUNCE: CuteMouse 2.0 alpha 1". freedos-dev. Archived from the original on 2020-02-07. Retrieved 2020-02-07. (NB. Has various information on 8250 chip bugs.)
- "What are UART and How Do They Affect Performance?". Archived from the original on 2020-02-07. Retrieved 2020-02-07.
- Nickalls, Richard W. D.; Ramasubramanian, R. (1995). Interfacing the IBM-PC to Medical Equipment: The Art of Serial Communication. Cambridge University Press. pp. 25–26. ISBN 978-0-521-46280-8.
Further reading
- "PC16550D - Universal Asynchronous Receiver/Transmitter with FIFOs". Revision C. Texas Instruments / National Semiconductor. May 2015 [June 1995]. SNLS378C. Archived from the original on 2018-09-23. Retrieved 2018-09-23.
- Blies, Lammert. "Serial UART information". Archived from the original on 2020-02-07. Retrieved 2018-09-23.