GAL22V10 explained

GAL22V10
Designfirm:Lattice Semiconductor
Type:Series of programmable-logic devices

The GAL22V10 is a series of programmable-logic devices from Lattice Semiconductor, implemented as CMOS-based generic array logic ICs, and available in dual inline packages or plastic leaded chip carriers. It is an example of a standard production GAL device that is often used in educational settings as a basic programmable-logic device. In combinatorial mode, it is conceptually a group of programmable AND-OR-invert (AOI) (AND-NOR) gates or AND-OR gates.

Specifications

The GAL22V10 has 12 input pins, and 10 pins that can be configured as either inputs or outputs, and exists in various switching speeds, from 25 to 4 ns.[1] [2] [3] Each output is driven by an output-logic macrocell (OLMC), with an output-enable product term, and a variable number of product terms, ranging from eight to sixteen. Each OLMC may be set to output as inverting or non-inverting, and be placed into either registered or combinatorial mode. In registered mode, each macrocell actively uses a D-flip-flop to hold a state under control of the data input from the logic portion of the macrocell and the rising edge of the clock signal, while in combinatorial mode the flip-flop is removed from the macrocell and the outputs are driven directly by the logic. In the latter mode, the pin may also dynamically switch between input and output based on the product term. In either mode the pin value is fed back into the array as a product term. Combinations are set using an E2PROM.[4] The output registers can be preloaded into a potentially invalid state for testing by a GAL22V10 programmer. Inputs and outputs include active pull-ups and are transistor-transistor logic compatible due to high-impedance buffers.[5]

A user electronic signature section is included for details such as user ID codes, revision IDs, or asset tagging on official Lattice Semiconductor units, as well as a static ES section for compatibility with non-Lattice Semiconductor GAL22V10 units. In addition, a security cell is included which, when set, disallows the retrieval of the array logic from the chip, until a new set of logic is set.

Latch-up protection is implemented using n-pullups and a charge pump in the official Lattice Semiconductor models.

Availability

The GAL22V10D had been discontinued by Lattice Semiconductor as of June 2010 with the last shipment in June 2011. No pin-compatible replacements have been offered or recommended by Lattice for this PLD.[6] However, other pin-compatible alternatives exist from other manufacturers (e.g. Atmel ATF22V10).

Further reading

Historical books
Historical Lattice documents
Historical AMD documents
Historical National documents
Microchip/Atmel documents (modern lower-power parts that are still being manufactured)

External links

Notes and References

  1. Web site: Foltz . Heinrich . Supplemental Notes: GAL22V10 Programming . Electrical Engineering Laboratory I/II . University of Texas, Pan-American . 12 January 2014 .
  2. Web site: Reeder . Nick . Programming a GAL22V10 . EET1131 Digital Electronics . Sinclair Community College . 12 December 2013 . dead . https://web.archive.org/web/20140220060159/http://people.sinclair.edu/nickreeder/eet1131/programmingGAL.htm . 20 February 2014 .
  3. Web site: Wirth. N.. The Programmable Logic Device ispGAL22V10. Institute of Computer Systems, Swiss Federal Institute of Technology, Zurich. 12 January 2014. 4 March 2016. https://web.archive.org/web/20160304030417/http://www.cs.inf.ethz.ch/lola/gal22v10/. bot: unknown.
  4. Book: Dueck, Robert K.. Digital design with CPLD applications and VHDL. 2005. Thomson/Delmar Learning. Clifton Park, N.Y.; [Canada]. 1401840302. 467–469. 2nd.
  5. Web site: GAL22V10 Datasheet. Massachusetts Institute of Technology. 6 December 2015. 21 January 2024. https://web.archive.org/web/20240121124736/http://web.mit.edu/6.115/www/document/gal22v10.pdf. bot: unknown.
  6. Web site: PCN09I-10. Lattice Semiconductor. 13 December 2013.