24:
136:
815:
871:
486:
The 1.5 μm process refers to the minimum size that could be reliably produced. The smallest transistors and other circuit elements on a chip made with this process were around 1.5 micrometers wide.
713:
447:
753:
Ormsby, Jon, Editor, "New
Product Focus: Components: 82526 Works Magic Under The Hood", Intel Corporation, Microcomputer Solutions, May/June 1988, page 10
440:
433:
765:
852:
88:
60:
656:
560:
148:
67:
735:
Intel
Corporation, "NewsBit: Three New Pinouts For One-Megabit EPROMs Announced", Solutions, January/February 1986, Page 1
726:
Intel
Corporation, "New Product Focus Components: 80286 Workhorses: Twice As Fast", Solutions, July/August 1985, Page 17
41:
107:
74:
787:
123:
567:
56:
45:
881:
744:
Rant, Jon; "CHMOS: Matching
Process to Product", Intel Corporation, Solutions, January/February 1986, Page 17
626:
563:(initially sold in 1992) included chips such as Lisa that were manufactured using a 1.5 μm CMOS process.
682:
845:
525:
876:
505:
380:
597:
472:
838:
668:
81:
34:
415:
826:
390:
8:
553:
405:
394:
375:
171:
162:
420:
797:
777:
207:
189:
180:
822:
400:
243:
237:
231:
225:
219:
213:
649:
865:
410:
315:
306:
297:
288:
279:
270:
261:
252:
542:
360:
342:
333:
324:
511:
546:
465:
143:
872:
International
Technology Roadmap for Semiconductors lithography nodes
23:
622:
489:
135:
550:
502:
650:"Impact of Processing Technology on DRAM Sense Amplifier Design"
784:
469:
573:
Intel used the 1.4-micron process on the HMOS II-E technology.
577:
535:
476:
814:
691:
529:
385:
514:
495:
480:
475:
that was reached around 1981–1982, by companies such as
508:
memory chip introduced the 1.5 μm process in 1981.
714:"Amiga Manual: Amiga 3000+ System Specification 1991"
517:
launched in 1982 was manufactured using this process.
490:
Products featuring 1.5 μm manufacturing process
48:. Unsourced material may be challenged and removed.
863:
623:"History of the Intel Microprocessor - Listoid"
846:
441:
766:Brief timeline of microprocessor development
853:
839:
448:
434:
821:This nanotechnology-related article is a
684:Mega-CD Hardware Manual: PCM Sound Source
576:Intel used the 1.5-micron process on the
566:Intel used the 1.5-micron process on the
108:Learn how and when to remove this message
648:Gealow, Jeffrey Carl (10 August 1990).
864:
647:
602:STOL (Semiconductor Technology Online)
657:Massachusetts Institute of Technology
641:
809:
561:Amiga Advanced Graphics Architecture
46:adding citations to reliable sources
17:
590:
13:
629:from the original on 27 April 2015
14:
893:
759:
813:
788:semiconductor device fabrication
528:memory chip using a 1.5 μm
473:semiconductor process technology
134:
22:
33:needs additional citations for
747:
738:
729:
720:
706:
675:
615:
1:
584:
825:. You can help Knowledge by
7:
10:
898:
808:
468:process) is the level of
520:Intel introduced a 64
882:Nanotechnology stubs
42:improve this article
556:, released in 1991.
877:1982 introductions
659:. pp. 149–166
554:video game console
834:
833:
804:
803:
794:Succeeded by
694:. 14 October 1991
458:
457:
118:
117:
110:
92:
889:
855:
848:
841:
817:
810:
774:Preceded by
771:
770:
754:
751:
745:
742:
736:
733:
727:
724:
718:
717:
710:
704:
703:
701:
699:
689:
679:
673:
672:
666:
664:
654:
645:
639:
638:
636:
634:
619:
613:
612:
610:
608:
594:
541:
532:process in 1983.
523:
501:
450:
443:
436:
406:Transistor count
359:
341:
332:
323:
314:
305:
296:
287:
278:
269:
260:
251:
206:
197:
188:
179:
170:
161:
138:
120:
119:
113:
106:
102:
99:
93:
91:
57:"1.5 μm process"
50:
26:
18:
897:
896:
892:
891:
890:
888:
887:
886:
862:
861:
860:
859:
806:
795:
775:
762:
757:
752:
748:
743:
739:
734:
730:
725:
721:
712:
711:
707:
697:
695:
687:
681:
680:
676:
662:
660:
652:
646:
642:
632:
630:
621:
620:
616:
606:
604:
596:
595:
591:
587:
539:
521:
499:
492:
454:
425:
421:Nanoelectronics
372:
366:
357:
348:
339:
330:
321:
312:
303:
294:
285:
276:
267:
258:
249:
204:
195:
186:
177:
168:
159:
146:
127:
125:
114:
103:
97:
94:
51:
49:
39:
27:
12:
11:
5:
895:
885:
884:
879:
874:
858:
857:
850:
843:
835:
832:
831:
818:
802:
801:
792:
781:
769:
768:
761:
760:External links
758:
756:
755:
746:
737:
728:
719:
705:
674:
640:
614:
588:
586:
583:
582:
581:
574:
571:
564:
557:
533:
518:
509:
491:
488:
462:1.5 μm process
456:
455:
453:
452:
445:
438:
430:
427:
426:
424:
423:
418:
413:
408:
403:
398:
388:
383:
378:
371:
368:
367:
365:
364:
353:
350:
349:
347:
346:
337:
328:
319:
310:
301:
292:
283:
274:
265:
256:
247:
241:
235:
229:
223:
217:
211:
202:
193:
184:
175:
166:
156:
153:
152:
144:MOSFET scaling
140:
139:
131:
130:
116:
115:
30:
28:
21:
9:
6:
4:
3:
2:
894:
883:
880:
878:
875:
873:
870:
869:
867:
856:
851:
849:
844:
842:
837:
836:
830:
828:
824:
819:
816:
812:
811:
807:
800:
799:
793:
791:
789:
786:
782:
780:
779:
773:
772:
767:
764:
763:
750:
741:
732:
723:
715:
709:
693:
686:
685:
678:
670:
658:
651:
644:
628:
624:
618:
603:
599:
593:
589:
579:
575:
572:
569:
565:
562:
558:
555:
552:
548:
544:
538:RF5C164 is a
537:
534:
531:
527:
519:
516:
513:
510:
507:
504:
497:
494:
493:
487:
484:
482:
478:
474:
471:
467:
463:
451:
446:
444:
439:
437:
432:
431:
429:
428:
422:
419:
417:
414:
412:
411:Semiconductor
409:
407:
404:
402:
399:
396:
392:
389:
387:
384:
382:
379:
377:
374:
373:
370:
369:
362:
356:
355:
352:
351:
344:
338:
335:
329:
326:
320:
317:
311:
308:
302:
299:
293:
290:
284:
281:
275:
272:
266:
263:
257:
254:
248:
245:
242:
239:
236:
233:
230:
227:
224:
221:
218:
215:
212:
209:
203:
200:
194:
191:
185:
182:
176:
173:
167:
164:
158:
157:
155:
154:
150:
149:process nodes
145:
142:
141:
137:
133:
132:
129:
124:Semiconductor
122:
121:
112:
109:
101:
90:
87:
83:
80:
76:
73:
69:
66:
62:
59: –
58:
54:
53:Find sources:
47:
43:
37:
36:
31:This article
29:
25:
20:
19:
16:
827:expanding it
820:
805:
798:1 μm process
796:
783:
778:3 μm process
776:
749:
740:
731:
722:
708:
696:. Retrieved
683:
677:
667:– via
661:. Retrieved
643:
631:. Retrieved
617:
605:. Retrieved
601:
592:
549:used in the
543:silicon-gate
485:
461:
459:
363: ~ 2025
345: – 2022
336: – 2020
327: – 2018
318: – 2016
309: – 2014
300: – 2012
291: – 2010
282: – 2009
273: – 2007
264: – 2005
255: – 2003
246: – 2001
240: – 1999
234: – 1996
228: – 1993
222: – 1990
216: – 1987
210: – 1984
201: – 1981
198:
192: – 1977
183: – 1974
174: – 1971
165: – 1968
104:
95:
85:
78:
71:
64:
52:
40:Please help
35:verification
32:
15:
698:14 November
580:technology.
570:technology.
512:Intel 80286
401:Moore's law
244:130 nm
238:180 nm
232:250 nm
226:350 nm
220:600 nm
214:800 nm
199:1.5 μm
128:fabrication
866:Categories
585:References
547:sound chip
466:micrometer
395:multi-gate
376:Half-nodes
316:10 nm
307:14 nm
298:22 nm
289:28 nm
280:32 nm
271:45 nm
262:65 nm
253:90 nm
172:10 μm
163:20 μm
68:newspapers
578:CHMOS III
361:2 nm
343:3 nm
334:5 nm
325:7 nm
208:1 μm
190:3 μm
181:6 μm
633:19 April
627:Archived
598:"Memory"
568:HMOS-III
416:Industry
98:May 2015
790:process
663:25 June
607:25 June
551:Sega CD
381:Density
354:Future
82:scholar
785:MOSFET
540:1.5 μm
522:
500:
470:MOSFET
391:Device
196:
126:device
84:
77:
70:
63:
55:
688:(PDF)
653:(PDF)
545:CMOS
536:Ricoh
524:kbit
498:'s 64
477:Intel
464:(1.5
89:JSTOR
75:books
823:stub
700:2020
692:Sega
669:CORE
665:2019
635:2015
609:2019
559:The
530:CMOS
526:DRAM
506:SRAM
503:kbit
479:and
460:The
386:CMOS
61:news
515:CPU
496:NEC
481:IBM
44:by
868::
690:.
655:.
625:.
600:.
483:.
358:00
340:00
331:00
322:00
205:00
187:00
178:00
854:e
847:t
840:v
829:.
716:.
702:.
671:.
637:.
611:.
449:e
442:t
435:v
397:)
393:(
313:0
304:0
295:0
286:0
277:0
268:0
259:0
250:0
169:0
160:0
151:)
147:(
111:)
105:(
100:)
96:(
86:·
79:·
72:·
65:·
38:.
Text is available under the Creative Commons Attribution-ShareAlike License. Additional terms may apply.