Intel 80186

The Intel 80186, also known as the iAPX 186,[4] or just 186, is a microprocessor and microcontroller introduced in 1982. It was based on the Intel 8086 and, like it, had a 16-bit external data bus multiplexed with a 20-bit address bus. It was also available as the 80188, with an 8-bit external data bus.

Intel 80186
An Intel A80186 processor with a gray heat spreader.
General information
Launched1982
DiscontinuedSeptember 28, 2007[1]
Common manufacturer(s)
Performance
Max. CPU clock rate6 MHz to 25 MHz
FSB speeds6 MHz to 25 MHz
Data width16 bits
Address width20 bits
Architecture and classification
Min. feature size3 µm[3]
Instruction setx86-16
Physical specifications
Transistors
  • 55,000
Co-processor8087 and later, 80187 (for 80186 only)
Package(s)
Socket(s)
Products, models, variants
Variant(s)Intel 80188
History
PredecessorIntel 8088
SuccessorIntel 80386 (The 80286 was also introduced in early 1982, and thus contemporary with the 80186)
A greatly simplified block diagram of the 80186 architecture
Die of Intel 80186

Description

The 80186 series was generally intended for embedded systems, as microcontrollers with external memory. Therefore, to reduce the number of integrated circuits required, it included features such as clock generator, interrupt controller, timers, wait state generator, DMA channels, and external chip select lines.

The initial clock rate of the 80186 was 6 MHz, but due to more hardware available for the microcode to use, especially for address calculation, many individual instructions ran faster than on an 8086 at the same clock frequency. For instance, the common register+immediate[5] addressing mode was significantly faster than on the 8086, especially when a memory location was both (one of the) operand(s) and the destination. Multiply and divide also showed great improvement being several times as fast as on the original 8086 and multi-bit shifts were done almost four times as quickly as in the 8086.

A few new instructions were introduced with the 80186 (referred to as the 8086-2 instruction set in some datasheets): enter/leave (replacing several instructions when handling stack frames), pusha/popa (push/pop all general registers), bound (check array index against bounds), and ins/outs (input/output of string). A useful immediate mode was added for the push, imul, and multi-bit shift instructions. These instructions were also included in the contemporary 80286 and in successor chips. (The instruction set of the 80286 is superset of the 80186's, plus new instructions for Protected mode.)

Die of Intel 80C186.

The (redesigned) CMOS version, 80C186, introduced DRAM refresh, a power-save mode, and a direct interface to the 80C187 floating point numeric coprocessor.

Uses

In personal computers

The 80186 would have been a natural successor to the 8086 in personal computers. However, because its integrated hardware was incompatible with the hardware used in the original IBM PC, the 80286 was used as the successor instead, in the IBM PC/AT.

A few notable personal computers used the 80186: the Australian Dulmont Magnum laptop, one of the first laptops; the Wang Office Assistant, marketed as a PC-like stand-alone word processor; the Mindset; the Siemens PC-D (not 100% IBM PC compatible but using MS-DOS 2.11); the Compis (a Swedish school computer); the French SMT-Goupil G4; the RM Nimbus (a British school computer); the Unisys ICON (a Canadian school computer); ORB Computer by ABS; the HP 100LX, HP 200LX, HP 1000CX, and HP OmniGo 700LX; the Tandy 2000 desktop (a somewhat PC-compatible workstation with sharp graphics for its day); the Telex 1260 (a desktop PC-XT compatible); the Philips :YES; the Nokia MikroMikko 2. Acorn created a plug-in for the BBC Master range of computers containing an 80186-10 with 512 KB of RAM, the BBC Master 512 system.

In addition to the above examples of stand-alone implementations of the 80186 for personal computers, there was at least one example of an "add-in" accelerator card implementation: the Orchid Technology PC Turbo 186,[6] released in 1985. It was intended for use with the original Intel 8088-based IBM PC (Model 5150).

Other devices

The Intel 80186 is intended to be embedded in electronic devices that are not primarily computers. For example:

  • the 80186 was used to control the Microtek 8086 in-circuit emulator[7]
  • its offshoot, Intel 80188 was embedded inside the Intel 14.4EX modem released in 1991. The 16 MHz processor was used to perform complex algorithms needed for forward error correction, Trellis modulation, and echo cancellation in the modem
  • the IBM 7171 protocol converter, which made ASCII character-oriented terminals appear as an IBM 3270 terminal to an IBM mainframe,[8] used the Intel 80186 as its CPU.[9]

In May 2006, Intel announced that production of the 186 would cease at the end of September 2007.[10] Pin- and instruction-compatible replacements might still be manufactured by various third party sources,[11] and FPGA versions are publicly available.[12]

See also

  • iAPX, for the iAPX name
  • NEC V20/V30, for a third-party CPU also supporting the 80186 instructions

Notes and references

  1. .
  2. CPU http://www.cpu-world.com.
  3. WikiChip
  4. iAPX 286 Programmer's Reference (PDF). Intel. 1983. page 1-1.
  5. In fact, all variants, including reg+reg and reg+reg+immediate were faster.
  6. Adding Spunk to the IBM PC in InfoWorld, May 20, 1985
  7. https://www.youtube.com/watch?v=XqLBmWu6Mg4
  8. Brear, Scott (21 January 1985). "Cycle of change speeds up". Computerworld. IDG Enterprise. 19 (3): ID/15. ISSN 0010-4841.
  9. 7171 Reference Manual and Programming Guide (PDF). IBM Corporation. 1986. pp. 4–13. GA37-0021-0.
  10. "Intel cashes in ancient chips". Archived from the original on 2011-08-22. Retrieved 2009-01-19.
  11. "Innovasic Offers Replacement ICs for Intel 186/188 Microcontrollers". Archived from the original on 2012-02-13. Retrieved 2009-01-19.
  12. "S80186: 16-bit 80186 compatible IP core".
This article is issued from Wikipedia. The text is licensed under Creative Commons - Attribution - Sharealike. Additional terms may apply for the media files.