CRT and Cassette Code (Cont'd)

ISIS-I I

S0:?0/:::0:35 HSSE~lE:LEP,. 1.11

13

::~)85 SERIAL I/O NOTE' APPENl'1:''':

 

LOC

!~'.r

 

 

1.'5:'CP;'F!TE

EOU

PAGE 5

i2 . SETS SA!'lPLERRTE

I:

I,'

 

 

156 LEADEP

EOU

 

 

1'57LC'F'C'Hf',

EO!.!

 

 

158

 

 

 

 

159 : EUPCD

 

 

 

~..:,e

 

 

 

 

161

 

 

 

 

1£2

:

 

13:::89

!3EFA

, iE: E!U:'PCf:o

MVI

0888

sEce

1f.4

 

r~V1

esec,

COF1313:?'

1tS BPl'

CflLL

13::::)3

eo

166

 

C'CR

98C1

C2B[{t::

it?

 

,TN:

13~~[:4

AF

1f:?

 

:,:RA

e8(:5

C(:HI(f:::

1'=0

 

CALL

e8C8

4E

17ft

P.P2

~10\·'

0:3C9

eWEI:?

171

 

CAL.L

e:?cc

2(:

172

 

INF

138CD

C2C8i3S

17:

 

,TN:

138[013

(:9

174

 

RET

 

 

175

 

 

 

 

176

 

 

 

 

177; TAPEI)

 

 

n

178

 

 

13801

179 TAPE(!

01

 

 

1813

 

 

e80s

06e9

181

 

 

138[15

AF

le2

TO:!.

 

esc,:?

(rHtlt8

184

 

 

08CoB

79

185

 

 

08(:{:

iF

1:?€

 

 

08C{'4F

1E?

 

 

08CtE

3:E01

1:::~:

 

 

aSEe

1F

18'?

 

 

138El

1F

190

 

 

08E2

C:(:fl3t18

:191

 

 

e8E5 AF

192

 

 

e8£6 CDFeee

191

 

CALL

e:?E9

€IS

194

 

f,CP

e8EA

C2[!S0S

195

 

.INZ

98E(:'

Dl

1%

 

POP

e8EE

FB

197

 

£1

08EF ("9

198

 

RET

 

 

199

 

 

08F0 16113

290 E:t~Q5T:

Wi!

0SF2 313

201

Blil.

SI~l

eBF11E1E

2(12

 

~lVI

eSFS

1(:'

2e3

FL!2'

etCF-'

0SF6 C2F5€I:?,

2134

 

.TNZ

08F9 EEes

2135

 

 

0SFB 15

206

 

 

e8FC C2F29S

2e?

 

 

25f3 . '·jU:'18EROF SUCCES!VE rm4£ BURSTS CO~lPF:ISING LEfKiR

250 U'::E[) Hi PLP,'T'E:t'TO '.l£RIF'T' PF.'ESENCE OF LEADER

CiijTPUTS A "/ER~' LijNG TONE BUF.:ST ',<lEA['fR>TIMES

THE ~'ltjPt'lAL 8URST [.'UF:AT!O~P TO ALLO~'1 RECOF.:DER ELECTRuNiCS

fiNE, AGe TO STAE;ILIZE, THEN OUTPUTS THE REr'lAINDER OF HiE

:::'56F:'T'TEPAGE POWTED TO B'y'':!-(:"STARTING AT 8'y'T£(L), C, LF:A[)EP.: SET UP LEACH'BURST LPIGTH

A.. iX:€!H .; SET ACCUl'lfJl..fiTOP TO PESULT IN TONE BURST

2UPST .; OUTPUT TC~'iE

c

PPl ; SUSTAIN LEADER TONE

P.: CLEPR ACCUI'!UlATOi':.~, OUTPUT SPACE. SO THAT

BUJ:;ST ; ... START OF =!RST DATA E"r'TE CAN BE ['ETECTED eN ·GET ['ATRB'T'TETO BE RECORDE[:'

TAPEO .: OUTPUT F:EGISTER C TO RECOF.fH:

L ,: PO INT TO NE:<:T E~'tTE

·AFTER BLOCi'. IS COI'lPi..ETE

i)UTpIJTS THE 8'r'TEIN REG!SiEF.· C TO THE RECOF.:DER.

PEG!';'TERSA, 8, C. [' ..~E ARE ALL USE£i,

D

: N.E USED AS CDlINTERS 8'~ SIJBROUTINE 8URST

E .:;

· ~HLL RESULT IN ::: DATA BITS AND ONE STOP BIT

 

,ClEAP

ACCU~lULHTOR

A,oem.: .. SET ACCU~liJlATOF.: TO CAUSE A TONE BURST

PUPST

 

 

 

,: CARR'T ~lllL BECOf'lE 50[:0 ENABLE IN BUF:Si ROUTINE

Po. i:jlH

;':'ET BIT TO 8E REPEATEOL'r'C0l'1PLH1ENTED IN BURST

BURST

.; CmpUT EITHEP H TONE OR A PAUSE

A

,: CLEAR

FlCCUt'lULATOR

BIJPST

,: OUTPUT

PAUSE

e

TOl

.: REPEAT UNTIL 8'T'TEFINISHED

(:,

: RESTOPE STATUS AND F.:EiURN

[J, C'r'eNO;SET NU~1BEF.: OF C'felES

,: COf1PLHlENT SOD LINE IF SOD Et-lABLE BIT SET

E. HP.LFCYC

E; PEG!JLRTE TONE FREOUENC'r'

BU2

eeH .: COf1PLEtiENT 50(:'C'ATABIT IN ACCUMULATOR

(i

8Ul ,; CONTINlJE UNTIL BURST (OR EQUIVILENT PAUSE) FUHSHED

A1·52

Page 193
Image 193
Intel MCS-80/85 manual SEce, 06e9, 3E01

MCS-80/85 specifications

The Intel MCS-80/85 family, introduced in the late 1970s, is a seminal collection of microprocessors that played a pivotal role in the early days of computing. The MCS-80 series, initially targeting embedded systems and control applications, gained remarkable attention due to its innovative architecture and flexible programming capabilities.

The MCS-80 family is anchored by the 8080 microprocessor, which was one of the first fully integrated 8-bit microprocessors. Released in 1974, the 8080 operated at clock speeds ranging from 2 MHz to 3 MHz and featured a 16-bit address bus capable of addressing up to 64KB of memory. The processor’s instruction set included around 78 instructions, providing extensive capabilities for data manipulation, logic operations, and branching.

Complementing the 8080 was a suite of support chips, forming the MCS-80 platform. The most notable among them was the 8155, which integrated a static RAM, I/O ports, and a timer, tailored for ease of designing systems around the 8080. Other support chips included the 8085, which provided improvements with an integrated clock generator, making it compatible with more modern designs and applications.

The MCS-85 series, on the other hand, revolves around the 8085 microprocessor, which provided a more advanced architecture. The 8085 operated at clock speeds of up to 6 MHz and came with a 16-bit address bus, similar to its predecessor. However, it introduced more sophisticated features, including an enhanced instruction set and support for interrupt-driven programming. These enhancements made the 8085 especially appealing to developers working in real-time processing environments.

The MCS-80/85 family utilized NMOS technology, known for its lower power consumption and higher performance compared to previous technologies like TTL. The family’s architecture allowed for easy interfacing with a variety of peripherals, making it a favorite for educational institutions and hobbyists embarking on computer engineering projects.

With its robustness, versatility, and affordability, the Intel MCS-80/85 microprocessors laid the groundwork for many subsequent microcomputer systems and applications. The legacy of this powerful family continues to influence modern microprocessor design, emphasizing the importance of reliable architecture in a rapidly evolving technology landscape.