LIST,0 1
PCC 0
PRT: SET 1
SYSTEM ADM:A00
TITLE 'RAVEN CONTROL PROGRAM - REVISION LEVEL 3L '
SPACE 15
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* FILE NAME: S:3L:B2
*
* DESCRIPTION: RAVEN SOURCE CODE FOR B2 MACHINE
*
* DATE OF LAST CHANGE: 6/24/82
*
* CHANGE ORIGNATOR: DAVID MATEEN
*
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*
* THE FOLLOWING ITEMS REPRESENT POST 'B1' CHANGES.
*
* PAPER BUCKLE TIME INCREASED FROM 60 MS. TO 70 MS
* PAPER FEED DELAY FOR THE FIRST COPY (10/14/81)
* LOGIC LOCKUP DUE TO STATE POINTER PROBLEM RESOLVED
* ON-LINE MODE IS MAINTAINED IF OFF-LINE KEY IS PUSHED DURING ON-LINE JO
B
* ( NO TEST BARS PATTERN )
* E4 JAM TIMER IS FROM INVERTER ON EVENT (11/16/81)
* E4 JAM BECOMES HARD JAM (SOFT JAM FOR B1)
* MAIN DRIVE, HV.& FUSER TURN ON CHANGED FROM
* 160 MS. TO 220 MS.
* 400 MS. TO 460 MS.
* 760 MS. TO 820 MS.
* (REDUCES OCCURENCE OF STREAKING OF COPIES)
* SHUTTER SOLENOID 50% DUTY CYCLE ,1.1 SEC. PULL IN TIME
* (PREVENTS SOLENOID OVERHEATING)
* THE FAN TIMER IS ALLOWED TO RUN IN MACHINE JAM MODES
* (EXCEPT WHEN DOOR IS OPEN)
* THE USART IS RE-INITIALIZED IF RXRDY, PE, OE, OR FE DOES NOT OCCUR
* (PREVENTS USART LOCKUP DUE TO ELECTROSTATIC DISCHARGE)
* NEW EXPANDED DIAGNOSTICS INCLUDE THE FOLLOWING:
* COMPONENT CONTROL
* LIMITED TIMING CHECKS
* REVISED FUSER SET UP
* OFFSET PRINT COMMANDS ACCEPTANCE
* ON-LINE STATUS CHANGED TO ASCII '<' FROM ASCII 'W' (11/9/81)
* STACKER CONTROL CODE INCLUDING OFFSET HAS BEEN INCORPORATED
* ROM CHECKSUM & RAM CHECK INCORPORATED
* NEW FUSER ALGORITHM IMPLEMENTED
* ON TIME REDUCTION CODE ADDED ( GO TO SLEEP AFTER 1.5 HR )
* A 'J' IS DISPLAYED NOT AN 'A'
* LOW TONER CODE HAS BEEN ADDED
* TRAY FULL CODE HAS BEEN ADDED
* KEYBOARD BEEPER CODE HAS BEEN IMPLEMENTED
* DISPLAY IS BLANKED WHEN OFF-LINE KEY IS PUSHED.
* 3 MINUTES MINIMUM ZAP FEATURE HAS BEEN INCLUDED
* THRU'PUT WINDOW HAS BEEN EXPANDED TO 3.7 SEC. FOR
* DELAYED PRINT COMMANDS (11/9/81)
* KEYBOARD IS ENABLED DURING C4 JAM (11/16/81)
* OFF-LINE STATUS 'V' & KEYSTROKE '=' IS SENT WHEN OFF-LINE KEY IS PUSHE
D
* (11/16/81)
* STANDBY STATUS 'A' & KEYSTROKE '<' IS SENT WHEN ON-LINE KEY IS PUSHED
* (11/16/81)
* BEEPER HAS BEEN MOVED TO BIT 5 ON OUTPUT PORT#1 (11/19/81)
* STACKER EVENTS ARE REFERENCED FROM PAGE SYNC (11/23/81)
* SERVER DEFINED DISPLAY CODE 'F' HAS BEEN ADDED (11/24/81)
* ABOUT TO GO TO SLEEP STATUS CODE HAS BEEN IMPLEMENTED (11/25/81)
* 'L1' HAS BECOME A NON BLINKING DISPLAY CODE (11/24/81)
* 'C3' & 'E5' IS NOW A BLINKING DISPLAY CODE (11/25/81)
* LOW TONER STATUS CODE ASCII 'Y' IS SENT TO SERVER AT THE END
* OF THE PRINT CYCLE (11/24/81)
* SERVER CAN OVER WRITE L1,J1,F5 DISPLAY CODES &
* CANNOT OVER WRITE E2,E3,E4,C3,C4,E5 DISPLAY CODES (11/24/81)
* TRAY FULL CHECK IS DURING TRAIL EDGE @ EXIT JAM INTERROGATION
* (11/24/81)
* DISPLAY LEADING ZEROES ARE NOT SUPPRESED OR ADDED (12/10/81)
* BLADE OFF IS DURING FAN OFF EVENT (12/8/81)
* ADDITIONAL TIME IS ADDED TO BLADE & FAN OFF EVENTS
* DURING CYCLE OUT (12/10/81)
* 'E4' JAM CHECK IS 650 MS. FROM INVERTER ON (12/10/81)
* 'E3' JAM CHECK IS 4540 MS. FROM REG ROLLS ON (12/10/81)
* STACKER IS NOT POSITIONED TO JAM ACCESS POSITION
* DURING CYCLE OUT (12/10/81)
* 'C4' JAM CHECK IS 870 MS. FROM PAPER FEED EVENT (12/15/81)
* SUBSTITUTED GO TO SLEEP FUNCTION FOR CHECKSUM IN
* DIAGNOSTICS 3-61. (12/17/81)
* DIAGNOSTICS 8-3 ENERGIZES LOWER TRAY FEEDER (12/17/81)
* DIAGNOSTICS 8-55 DISPLAYS REAL TIME FOR LOWER TRAY FEED TO
* REGISTRATION SWITCH ACTUATION (12/17/81).
* DIAGNOSTICS 10-2 ENERGIZES STACKER INVERTER (1/5/82)
* DIAGNOSTICS 10-3 ENERGIZES STACKER OFFSET CLUTCH (1/5/82)
* EXIT SW. COMPONENT CONTROL CODE IS NOW 10-6 INSTEAD OF 8-6 (1/5/82).
* DIAGNOSTICS 6-1 IS FOR SHUTTER ACTUATION (1/5/82)
* SERVER DISPLAYED NUMBER IS NOT BLANKED DURING RUN (1/12/82)
*
* 3L UPDATES
* **********
*
* CORRECTED OFFSET PROBLEM DURING C4 JAM OR CYCLING OFF-LINE. (4/8/82)
* RUN:READY TO FEED STATUS IS NOT SENT DURING CYCLING OFF LINE (4/8/82)
* CORRECTED 50% DUTY CYCLE PROBLEM DURING DIAGNOSTICS 6-1 (4/8/82)
* SERVER CANNOT DISPLAY DURING E2,E3,E4,E5 & C4 (4/8/82)
* SERVER CAN DISPLAY IF TRAY IS TOGGLED DURING C4 (4/8/82)
* KEY DISPLAY INFORMATION IS NOT STORED WHEN ON-LINE (4/8/82)
* SEQUNCING DIAGNOSTICS HAS BEEN REMOVED (4/8/82)
* TRAY STATUS Q IS SENT TO SERVER & C3 IS DISPLAYED IF TRAY
* IS OPENED PRIOR TO C4 JAM. (4/30/82)
* REDUNDANT CLEAR PRNT:FLG IN DVL@OFF ROUT. REMOVED (5/4/82)
* REDUNDANT CLEAR CMD:FLG IN BLD@OFF REMOVED (5/4/82)
* REDUNDANT INITIALIZATION FOR PAP:PNT & PAP:CNT IN COP:FEED
* HAS BEEN REMOVED. (5/4/82)
* DURING CYCLING OFF-LINE STATE ONLY ONE ASCII 'U' IS SENT
* INSTEAD OF TWO. (5/7/82)
* BLADE & FAN IS PRESERVED IF TRANSITION IS FROM OFF-LINE
* TO ON-LINE. (5/7/82)
* CORRECTED WRONG OR NO FEED WHEN ASCII 'P' & 'N'
* IS SENT SIMULTANEOUSLY BY SERVER DURING COPY RUN. (5/7/82)
* STACK OVERFLOW PROTECTION CODE, ADDED. (5/11/82/)
* REMOVED CHK:INT ROUTINE, DUE TO LOCKUPS. (5/11/82)
* ADDED AN EXTRA FUSER OFF, TO INSURE THAT IT GETS
* EXECUTED AGAIN DURING CYCLE OUT IF MISSED THE FIRST TIME
* ARROUND. (5/13/82)
* FUSER REGULATION DURING ZAP INSTEAD OF FULL ON. (5/14/82)
* FUSER UNDER-TEMP DURING RUN, INITIATES ZAP CYCLE PRECEEDED
* BY CYCLE OUT. STANDBY STATUS 'A' IS NOT SENT PRIOR TO '@'. (5/21/82)
* 3 MINUTES WAIT CYCLE SHALL INHIBIT KEYBOARD FUNCTION. (5/21/82)
* REVISION LEVEL 3L IS DISPLAYED INSTEAD OF 2L. (5/24/82)
* GO TO SLEEP COMMAND ASCII 'Z' IS SERVICED ONLY DURING READY,
* OR ELSE IT WILL BE REJECTED WITH AN 'O'; ILLEGAL SEQ. (5/26/82)
* IOT RESPONSE TO SERVER PRINT COMMAND, SHALL BE ASCII 'Q'
* FOLLOWED BY ASCII 'O'. HOWEVER FOR ALL SUBSEQUENT PRINT COMMANDS
* THE RESPONSE WILL BE ASCII 'O'. (5/26/82)
* IOT RESPONSE TO SERVER COMMANDS DURING CYCLING OFFLINE STATE
* IS AS FOLLOWS: (5/26/82)
*
* A) 'O'; ILLEGAL SEQUENCE FOR PRINT COMMANDS.
* B) 'N'; COMMAND UNRECOGNIZED FOR ILLEGAL COMMANDS
* C) 'U'; CYCLING OFF LINE FOR READ OR DISPLAY STATUS COMMAND
* D) 'O'; ILLEGAL SEQUENCE FOR GO TO SLEEP COMMAND
*
* OFF LINE KEY TRANSITION ASCII '=' IS NOT SEND DURING OFF LINE. (5/27/
82)
* GO TO SLEEP TIMER IS RE-INIT.( BETWEEN ABOUT TO
* GOTO SLEEP & GOTO SLEEP ), IF SERVER COMMAND IS RECIEVED. (6/2/82)
* GOTO SLEEP TIMER IS ACTIVE ONLY DURING ON-LINE READY STATE, ASCII 'A'.
* (6/9/82)
* 360 MS HAS BEEN ADDED TO DEVELOPER OFF EVENT. (6/9/82)
PAGE
BRANCH: SET SHORT:
*
* THIS IS A MAP OF RESERVED RAM WITH A DESCRIPTION OF EACH BYTE.
*
*************************************************************
*
*
* PAGE 0: ALL DISPLAY ENCODING AND KEYBOARD DECODING
* IS DONE ON THIS PAGE.
*
*************************************************************
*
TEMP3 EQU R0 USED DURING PWR UP & DISPLAY
TEMP5 EQU R1 USED DURING PWR UP & DISPLAY
*
KBD:REG EQU R2 KEYBOARD ENABLE/DISABLE & DEBOUNCE
COL EQU R3 ENTERED COLUMN -- KEYBOARD
ROW EQU R4 ENTERED ROW -- KEYBOARD
DSP EQU R5 DISPLACEMENT IN KEYBOARD TABLE
*
DGN:SAV EQU R6 DIAG. REAL TIME VALUE
TIM:WRK EQU R7 SCRATCH PAD REGISTERS USED
SECS EQU R8 FOR COMPUTING REAL TIME DURING
H:MS EQU R9 DIAGNOSTICS TIMING TEST
*
ZERO:FLG EQU R10 ZERO DISPLAY ENTRY PROCESSING FLAGS
*
SOP:PTR EQU R11 START OF PATTERN:POINTER;FUSER CONTROL
*
TEMP4 EQU R12 TEMP REG. USED IN DISPLAY ROUT.
DSP:TENS EQU R13 SEG. CODE TO DISPLAY 10'S DIGIT R13
DSP:ONES EQU R14 SEG. CODE TO DISPLAY 1'S DIGIT R14
CPY:SEL EQU R15 PROGRAMMED NUMBER OF COPIES BCD R15
*
PAGE
*
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*
* PAGE 1: THIS PAGE CONTAINS THE I/O BYTES, OPERATION
* FLAGS, AND FUSER PATTERN GENERATION INFO.
**********************************************************
*
IN:ZERO EQU R0 PREVIOUS INPUT PORT 0 INFO R16
IN:ONE EQU R1 PREVIOUS INPUT PORT 1 INFO R17
IN:TWO EQU R2 PREVIOUS INPUT PORT 2 INFO R18
ADVAL EQU R3 P LESS N IS USED IN FUSER ROUT R19
TEMP1 EQU R4 USED IN FUSER ROUTINE R20
FLAG2 EQU R5 BIT FLAGS (DEFINED BELOW) R21
FLAG3 EQU R6 MORE BIT FLAGS R22
COUNTER EQU R7 USED DURING FEEDER TURN OFF R23
FMASK EQU R24 FUSER PATTERN MASK R24
CUR:PTR EQU R25 FUSER CURRENT PATTERN BYTE PTR. R25
SCRATCH EQU R10 SCRATCH REGISTER R26
ROUT0 EQU R11 PORT 0 OUTPUT INFORMATION R27
ROUT1 EQU R12 PORT 1 OUTPUT INFORMATION R28
ROUT2 EQU R13 PORT 2 OUTPUT INFORMATION R29
ROUT3 EQU R14 PORT 3 OUTPUT INFORMATION R30
*
FAULTS EQU R15 FAULT CODE INFO',BCD VALUE R31
PAGE
***********************************************************
* *
* PAGE 2: STATE CHECKER BYTES AND REGISTER SAVE LOCATIONS*
* FOR INTERRUPT ROUTINES. *
* *
* *
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*
TBL:CNT EQU R0 USED IN STATE CHECKER R32
TIM:CNT EQU R1 USED IN STATE CHECKER R33
IOT:STAT EQU R2 PRESENT IOT STATUS R34
TEMP2 EQU R3 USED BY STATE CHECKER R35
FLAG1 EQU R4 OFFSET & DIAGNOSTICS FLAGS R36
TEMP6 EQU R5 USED BY USART INTERRUPT HANDLER R37
COMMAND EQU R6 SERVER COMMAND REGISTER R38
FEED:COM EQU R7 SERVER FEED COMMAND BYTE R39
LOOP:CNT EQU R8 TEST BAR COUNT REGISTER R40
FAN:CTR EQU R9 FAN CONTROL COUNTER R41
TIM:SAV EQU R10 USED FOR TESTING DISABLED TIMER R42
DISPLAY EQU R11 PREVIOUS DISPLAY INFORMATION R43
PREV:STA EQU R12 PREVIOUS IOT STATUS INFORMATION R44
OS:BYTE EQU R13 OFFSET COPY COUNT R45
SAVESR EQU R46 SAVE STATUS REG IN INTERRUPT R46
SAVET EQU R47 SAVE T REGISTER IN INTERRUPT R47
*
*
**********************************************************
** PAGE 3: ALL EVENT POINTERS AND COUNTERS (TIMERS) *
* RESIDE ON THIS PAGE.
*
*
**********************************************************
*
DIVIDER EQU R0 20 MS TIMER CELL R48
*TEMP EQU R1 Z:XING TEMP USED TO SAVE T FOR R49
* BLINKING DIGIT DISPLAY
STAT:PNT EQU R2 STATE EVENT POINTER R50
TEST:PNT EQU R3 TEST MODE POINTER R51
PAGE:PNT EQU R4 PAGE SYNC. POINTER R52
STAK:PNT EQU R5 STACKER EVENT POINTER R53
PAP:PNT EQU R6 PAPER FEED EVENT POINTER R54
TIM1:PNT EQU R7 JAM1 POINTER (TE @ REG,LE @ R55
* EXIT, AND BILLING METER OFF
TIM2:PNT EQU R8 JAM2 POINTER (TE @EXIT R56
* AND FLASHING JAM CODES
STAT:CNT EQU R9 STATE EVENT COUNTER R57
TEST:CNT EQU R10 TEST MODE COUNTER R58
PAGE:CNT EQU R59 PAGE SYNC. COUNTER R59
STAK:CNT EQU R60 STACKER EVENT COUNTER R60
PAP:CNT EQU R61 PAPER PATH TIME COUNTER R61
TIM1:CNT EQU R62 JAM EVENT #1 COUNTER R62
TIM2:CNT EQU R63 JAM EVENT #2 COUNTER R63
*
****************************
PAGE
**********************************************************
**********************************************************
*
* SYSTEM EQUATES
*
*
***********************************************************
*
* INPUT ORGANIZATION
* ALL INPUTS ARE ACTIVE LOW EXCEPT Z:XING
*
IN0 EQU X'00' INPUT PORT 0
KB:ROW1 EQU 0 KEYBOARD MATRIX (J9-12)
KB:ROW2 EQU 1 KEYBOARD MATRIX (J9-11)
KB:ROW3 EQU 2 KEYBOARD MATRIX (J9-01)
KB:ROW4 EQU 3 KEYBOARD MATRIX (J9-06)
REG:SW EQU 4 REG. SW. IN PAPER PATH
EXIT:SW EQU 5 EXIT SW. IN PAPER PATH
DOOR:ILK EQU 6 DOOR INTERLOCK
ZAP:THM EQU 7 ZAP THERMO
*
*
IN1 EQU X'01' INPUT PORT 1
*SPARE EQU 0 UNUSED INPUT
*SPARE EQU 1 UNUSED INPUT
*SRARE EQU 2 UNUSED INPUT
*SPARE EQU 3 UNUSED INPUT
TRAY:SEN EQU 4 TRAY FULL SENSOR
Z:XING EQU 5 ZERO CROSSING INPUT
*SPARE EQU 6 UNUSED INPUT
TRAY:SW EQU 7 TRAY SWITCH
*
IN2 EQU X'02' INPUT PORT 2
SERV:OFF EQU 0 SERVER TURNED OFF
SERV:DIS EQU 1 SERVER DISCONNECTED
*SPARE EQU 2 UNUSED INPUT
LO:TONER EQU 3 LOW TONER INDICATION
*SPARE EQU 4 UNUSED INPUT
*SPARE EQU 5 UNUSED INPUT
*SPARE EQU 6 UNUSED INPUT
TRAY:FUL EQU 7 TRAY FULL SWITCH
*
PAGE
********************************************************
*
* OUTPUT ORGANIZATION
*
OUT0 EQU X'03' OUTPUT PORT 0
******************************************************
* BITS 0-6 ARE MULTIPLEXED VIA PORT 1 FOR 1) FRONT
* PANEL LED'S, 2) SEGMENTS FOR 1'S DIGIT, AND 3) SEG-
* MENTS FOR 10'S DIGIT.
******************************************************
SEG:A EQU 0 DISPLAY SEGMENT A
SEG:B EQU 1 DISPLAY SEGMENT B
OFF:LINE EQU 2 OFF LINE / SEGMENT D
ON:LINE EQU 3 ON LINE / SEGMENT E (J9-08)
*SPARE EQU 4 SPARE LED
SEG:F EQU 5 DISPLAY SEGMENT F
SEG:G EQU 6 DISPLAY SEGMENT G
*SPARE EQU 7 UNUSED OUTPUT
*
*
OUT1 EQU X'04' OUTPUT PORT 1
LED:RTN EQU 0 SELECTS PORT 0 FOR FRONT PANEL LEDS
LED:ONE EQU 1 SELECTS PORT 0 FORUNITS DIGIT
LED:TEN EQU 2 SELECTS PORT 0 FOR TENS DIGIT
HV:DC EQU 3 HIGH VOLTAGE DC
*SPARE EQU 4 SPARE OUTPUT
BEEPER EQU 5 BEEPER
UP:TRAY EQU 6 UPPER TRAY CLUTCH (J4-02)
LWR:TRAY EQU 7 LOWER TRAY CLUTCH (J4-14)
*
OUT2 EQU X'05' OUTPUT PORT 2
TEST:1 EQU 0 TEST 1
GO:SLEEP EQU 1 GO TO SLEEP
INVERT EQU 2 STACKER INVERTER SOLENOID
SHUT:R EQU 3 SHUTTER (DC)
*SPARE EQU 4 UNUSED OUTPUT
*SPARE EQU 5 UNDEFINED (TTL)
OFF:SET EQU 6 OFFSET SOLENOID
*SPARE EQU 7 NOT USED
*
*
OUT3 EQU X'06' OUTPUT PORT 3
BL:SOL EQU 0 BLADE SOLENOID
MN:DRV EQU 1 MAIN DRIVE MOTOR (J8-03)
FAN EQU 2 COOLING FAN
FUS:LMP EQU 3 FUSER LAMP (J8-15)
DEV:CLU EQU 4 DVL CLUTCH (J4-12)
REG:ROLL EQU 5 REGISTRATION ROLLS (J7-02)
BIL:MTR1 EQU 6 PRINT COUNTER
WD:TMR EQU 7 WATCH DOG TIMER
PAGE
* KBD:REG ALLOCATIONS ***(PG 0 - R2)***************************
*
ONE:ENT EQU 0 ONE'S SEGMENT ENABLE/DISABLE
TEN:ENT EQU 1 TEN'S SEGMENT ENABLE/DISABLE
TEST:ENT EQU 2 TEST ENABLE/DISABLE
CLR:ENT EQU 3 CLEAR ENABLE/DISABLE
ON:ENT EQU 4 ON LINE ENABLE/DISABLE
OFF:ENT EQU 5 OFF LINE ENABLE/DISABLE
*BIT6 DEBOUNCE COUNTER
*BIT7 DEBOUNCE COUNTER
*
*
* FLAG1 ALLOCATIONS
CHN6:FLG EQU 1 CHAIN 6 DIAGNOSTICS
DIAG:FLG EQU 2 DIAGNOSTICS ENABLE
CHN3:FLG EQU 3 DIAGNOSTICS CHAIN 3
CHN8:FLG EQU 4 DIAGNOSTICS CHAIN 8
CHN9:FLG EQU 5 DIAGNOSTICS CHAIN 9
CN10:FLG EQU 6 DIAGNOSTICS CHAIN 10
CONT:FLG EQU 7 DIAGNOSTICS CONTINOUS COPY CYCLE
*
*
* FLAG2 ALLOCATIONS
PRNT:FLG EQU 0 START PRINT CYCLE COLD
SOFT:JAM EQU 1 SOFT JAM(C-4)
OFF:FLG EQU 2 OFF LINE KEY DEPRESSION DURING
* ON LINE WHILE IN RUN MODE.
RUN:FLG EQU 3 RUN MODE-INHIBIT STRT PT
WDT:FLG EQU 4 WATCH DOG TIMER
SERV:FLG EQU 5 SERVER TERMINATION INTERROGATION
ZAP:FLG EQU 6 FUSER IN ZAP MODE
JAM:FLG EQU 7 HARD JAM, IMMEDIATE DN
*
* FLAG3 ALLOCATIONS
FUS:ON EQU 0 FUSER LAMP IS ON
CMD:FLG EQU 1 SERVER COMMAND ACKNOWLEDGED
SHUT:FLG EQU 2 SHUTTER 50% DUTY CYCLE ENABLE
READ:FLG EQU 3 READ THE A/D CONVERTOR
WDT:MEM EQU 4 WATCH DOG TIMER & MEMORY TEST
WAIT:FLG EQU 5 MINIMUM STANDBY FLAG
REG:FLG EQU 6 REG SW FLAG
TMR:FLG EQU 7 REG SW CHECK ENABLE
*
* OS:BYTE REGISTER ALLOCATIONS
*
OS:FLG3 EQU 0 OFFSET FLAG3
OS:FLG2 EQU 1 OFFSET FLAG2
OS:FLG1 EQU 2 OFFSET FLAG1
*BITS 5-7 ARE RESERVED FOR OFFSET FUNCTION
PAGE
*
**********************************************************
*
* GENERAL SYSTEM EQUATES
*
KBD:CLR EQU X'0A' LOCK OUT KYBD
BLANK: EQU X'00' SEG. INFO FOR BLANK CHAR
ZERO: EQU X'3F' SEG. INFO FOR ZERO CHAR
RE:PROG EQU X'F5' ENABLE KYBD DIGITS
IN:CNT EQU X'F4' USED FOR ONBOARD TIMER (TIC)
OUT:CNT EQU X'7F' SET FOR 5.04 MS @ 2.4576MHZ (TOC)
*
*
BIT0 EQU 0
BIT1 EQU 1
BIT2 EQU 2
BIT3 EQU 3
BIT4 EQU 4
BIT5 EQU 5
BIT6 EQU 6
BIT7 EQU 7
*
*
PAGE
*
**********************************************************************
************************************************************************
*
*
* USART INTERRUPT HANDLER EQUATES
*
READ:MSK EQU X'20' READ STATUS COMMAND
UNREC:MK EQU X'4E' COMMAND UNRECOGNIZED MASK
PROT:ERR EQU X'4D' PROTOCOL ERROR MASK
LSB:MSK EQU X'0F' ZERO SUPRESSION FOR DISPLAY
*
*
***********************************
* COMMUNICATION'S I/O *
***********************************
*
*
DATA:RW EQU X'08' USART DATA READ/WRITE PORT
CMD:MODE EQU X'09' USART MODE & COMMAND INSTRUCTION
* WRITE PORT.
STAT:RD EQU X'09' USART STATUS READ PORT
*
*
*
PAGE
*******************************************************************
*
* RESTART AND EXTERNAL INTERRUPT VECTORS
*
RESTRT: JMP START:UP POWER ON RESET
JMP INT:HAND EXTERNAL INTERRUPT HANDLER
*
*
***************************************************************
* *
* TIMER INTERRUPT ROUTINE *
* *
* THIS ROUTINE IS CALLED UPON A TIMER OVERFLOW INTERRUPT *
* WHICH HAPPENS EVERY 5 MS. THE INTERRUPT IS DIVIDED OUT *
* BY INCREMENTING THE DIVIDER BYTE SO THAT WE HAVE 20 MS. *
* RESOLUTION. DIVIDER IS CHECKED IN STATE CHECKER TO SEE *
* IF IT IS ZERO. WHEN IT IS, IT IS RESET TO -4 AND ALL *
* ACTIVE TIMER CELLS (I.E. THOSE NOT EQUAL TO 'FF' ARE *
* INCREMENTED. *
* *
***************************************************************
*
*
*
TIME:INT MOVD SAVET,T SAVE THE T REGISTER
MOV T,SR
MOVD SAVESR,T SAVE THE PROGRAM STATUS REG.
LPI 1
STB TMR:FLG CHECK REG SW
IOR FLAG3,T
*
LPI 3 TIMER WORK RAM IS ON PAGE 3
CLR TIMI RESET TIMER INTERRUPT LATCH
*
* UPDATE ALL ACTIVE TIMER CELLS
*
IBNZ DIVIDER,ALL:OVER INCREMENT DIVIDER
ALL:OVER JMP RESTORE RESTORE T AND SR AND RETURN
*
*
*
PAGE
***************************************************************
* *
* INTERRUPT HANDLER *
* *
* THIS ROUTINE POLL INPUTS TO DETERMINE THE TYPE OF *
* EXTERNAL INTERRUPT RECEIVED. ZERO CROSSING HAS THE HIGH-*
* EST PRIORITY. A USART INTERRUPT IS RECOGNIZED ONLY IF *
* RXRDY BIT IS TRUE. *
* *
* *
***************************************************************
*
INT:HAND MOVD SAVET,T SAVE T REG IN SAVET REG
MOV T,SR
MOVD SAVESR,T AND STATUS REGISTER IN SAVESR REG.
LPI 1
INP T,IN1 IF Z:XING INPUT IS HIGH EX-
JT Z:XING,ZERO:X DO ZERO CROSSING ROUTINE
LPI 2 ELSE:
INP T,STAT:RD CHECK USART STATUS
JT 1,USRT@INT IF: RXRDY BIT IS TRUE
* DO USART ROUTINE
JT 3,PCOL@ERR ELSEIF: PARITY ERROR
* SEND STATUS 'M'
JT 4,PCOL@ERR ELSEIF: OVERRUN ERROR
* SEND STATUS 'M'
JT 5,PCOL@ERR ELSEIF: FRAMING ERROR
* SEND STATUS 'M'
MVI TEMP6,0 ELSE:
JMP INI:USRT INITIALIZE USART
* FOR NOISE.
PCOL@ERR JMP PCOL:ERR
*
USRT@INT JMP USRT:INT
*
PAGE
*******************************************************************
* THE FOLLOWING IS THE ZERO CROSSING ROUTINE
* SEVEN FUNCTIONS ARE PERFORMED EVERY 8.33MS
* THEY ARE:
* 1) PERFORM REGISTRATION CHECKS TO SET A TRAILING EDGE FLAG
* AND TURN OFF THE PAPER FEEDER AND REG ROLLS
* 2) MONITOR THE DOOR INTERLOCKS
* 3) SCAN THE KEYBOARD SWITCHES FOR ANY NEW CLOSURES
* 4) REFRESH THE OUTPUTS
* 5) UPDATE THE FUSER REGULATION CYCLE
* 6) UPDATE THE DISPLAYS
*******************************************************************
ZERO:X MOV T,ROUT3 IF: TRIAC IS ALREADY ACTIVE
JT FUS:LMP,NOT:YET DO NOT TURN ON TRIAC YET
OUT OUT3,ROUT3 ELSE:
* TURN ON FUSER TRIAC NOW
* (NOTE THAT THE FUSER ROUTINE IS
* EXECUTED LATER IN THIS ROUTINE
* FOR THE NEXT ZERO CROSSING)
NOT:YET DIM EXTF DISABLE EXTERNAL INT. FLAG
MOV T,ROUT1
MVI ROUT1,X'F8' TURN OFF ALL OUTPUT STROBES
AND ROUT1,T TO AVOID SHADOWING
OUT OUT1,ROUT1
JT 0,DO:1S CASE:
JT 1,DO:10S THIRD BIT SET:
DO:LEDS STB LED:RTN SET THE FIRST STROB BIT
IOR ROUT1,T
MOV T,ROUT0 GET LED INFO INTO T REG
JMP PUTOUTS
DO:1S STB LED:ONE FIRST BIT SET:
IOR ROUT1,T SET THE SECOND STROBE BIT
LPI 0 ELSE:
MOV T,DSP:ONES GET ONES DISPLAY INFO
JMP PUTOUTS
DO:10S STB LED:TEN SECOND BIT SET:
IOR ROUT1,T SET THE THIRD STROBE BIT
LPI 0 ELSE:
MOV T,DSP:TENS GET TENS DISPLAY INFO
PUTOUTS LPI 1 RESTORE T
OUT OUT0,T OUTPUT THE NEW DISPLAY INFO
OUT OUT1,ROUT1 THEN OUTPUT STROBE TO CHANNEL
OUT OUT2,ROUT2 INFO TO PROPER OUTPUT
*
MOV T,FLAG3
CPL T IF: 50% DUTY CYLCLE FLAG SET
JT SHUT:FLG,CK:AUDI
MVI T,X'4D' PRESERVE A/O MOD,INVERTER
AND ROUT2,T & OFFSET OUTPUTS,
MVI T,X'08'
ADD ROUT2,T BUT TOGGLE SHUTTER SOL.
*
CK:AUDI LPI 1
MOV T,FLAG3 IF A/D READ FLAG IS SET
CPL T
JT READ:FLG,NO:READ
STRT ADC START THE CONVERSION AND
CLB 7 RESET THE NEW ADC FLAG TO ALLOW
AND ADVAL,T RE-SETTING FUSER ALGORITHM.
CLB READ:FLG CLEAR THE READ FLAG
AND FLAG3,T
NO:READ INP IN:ONE,IN1 REFRESH THE INPUT REGISTERS
INP IN:ZERO,IN0
NOP
NOP
NOP
NOP
NOP
NOP
NOP
OUT OUT3,ROUT3 FUSER TRIAC IS ACTIVATED HERE
* APPROX. 188 USEC. LATER FOR
* EMI/RFI FILTERING.
LPI 1
INP T,IN2 CHECK SERVER OFF OR DISCONNECTED POR
T
CAL SERV:STK CHECK PAPER TRAY AND STACKER TRAY
*
*
***********************************
* CHECK FOR A CHANGE IN IOT STATUS*
***********************************
*
CHK:STAT LPI 1
MOV T,FLAG2 IF OFF FLAG TRUE(CYC
* LING OFF LINE), SEND CHANGES IN STATUS IE. JAM
* INFORMATION.
JT OFF:FLG,SEN:STAT
MOV T,ROUT0
JT OFF:LINE,KEY:ON IF: ON LINE MODE IS TRUE
SEN:STAT LPI 2
MOV T,IOT:STAT LOAD IOT PRESENT STATUS AND
CMP PREV:STA,T COMPARE WITH PREVIOUS STATUS
JZ KEY:ON IF: IT HAS CHANGED
OUT DATA:RW,T TRANSMIT AND UPDATE STATUS
MOV PREV:STA,T ELSEIF: OFF LINE MODE
* SEND OFF LINE STATUS 'V'
*
***************************
* CHECK THE INTERLOCKS *
***************************
KEY:ON LPI 1
MOV T,IN:ZERO
CPL T
JT DOOR:ILK,DOOR:CK IF THE DOOR IS CLOSED:
LPI 2
LCB IOT:STAT,X'48',KEY@BRD
CLR T ANDIF: DOOR WAS OPENED PREVIOUSLY
AND FLAG1,T
LPI 0 CLEAR DIAG. FLAGS
MVI KBD:REG,X'C0' ENABLE KEYBOARD
MVI CPY:SEL,0 CLEAR KEYBOARD ENTRY REG.
LPI 3
MVI TIM2:PNT,0 TURN OFF BLINK TIMER
MVI TIM2:CNT,X'FF'
LPI 1 CHECK PAPER PATH FOR JAMS
CAL PPR:CK
KEY@BRD LPI 1
MOV T,FLAG3 IF: NOT IN 3 MIN. WAIT
JT WAIT:FLG,WTREST
MOV T,FLAG2
JT JAM:FLG,KEY:BD ORIF: NOT HARD JAM
JT RUN:FLG,CK:TRSW ORIF: RUN MODE
JMP KEY:BD
CK:TRSW MOV T,IN:ONE
JT TRAY:SW,KEY:BD
LPI 2 PRELOAD IOT STATUS WITH ASCII 'Q'
MVI IOT:STAT,X'51' ELSE:
KEY:BD CAL KEY:BRD SCAN KEYBOARD
JMP WTREST
*
DOOR:CK CAL DIA:ROUT IF: DOOR IS OPENED FOR THE
CAL CK:DR FIRST TIME
LPI 2 TURN OFF OUTPUTS & TIMERS
MVI IOT:STAT,X'48' SEND DOOR OPENED STATUS 'H'
LPI 1 IF: DOOR OPEN CODE NOT 'E5'
LCB FAULTS,X'E5',LOAD:E5 DISPLAY E5 & ENTER
JMP STK:OFF HARD SHUT DOWN STATE
LOAD:E5 MVI FAULTS,X'E5'
STB JAM:FLG
IOR FLAG2,T
CAL BL@ON
STK:OFF LPI 3
MVI STAK:CNT,X'FF' DISABLE STACKER INVERTER TIMER
*
******************************************
* GET READY TO RETURN TO BACKGROUND *
******************************************
*
WTREST LPI 1
CAL FUSER DO FUSER ALG FOR NEXT ZERO CROSSING
*
*
RESTORE LPI 2
MOV T,R15 RESTORE T REG
MOV SR,R14 AND STATUS REGISTER
RFI RETURN TO BACKGROUND OR TIMER
PAGE
*
ORG X'F0'
*
***********************************************
* KEYBOARD SCAN DELAY IS PROVIDED TO INSURE *
* KEY INPUT FILTERING PRIOR TO READ STROBE. *
* THE ADDRESS OF THESE ROUTINES MUST START AT *
* XF0 FOR PROPER OPERATION. *
***********************************************
*
*
IN:COL4 NOP
INP T,X'80'
RFS
*
IN:COL3 NOP
INP T,X'40'
RFS
*
IN:COL2 NOP
INP T,X'20'
RFS
*
IN:COL1 NOP
INP T,X'10'
RFS
PAGE
************************************
* *
* KEYBOARD READ ROUTINE *
* *
************************************
*
* ROW -- ROW INPUT
* COL -- COLUMN INPUT
* DSP -- DISPLACEMENT IN KEYBOARD TABLE
* KBD:REG -- DEBOUNCE COUNTER AND ENABLE/DISABLE BITS
*
KEY:BRD LPI 0
LCJ KBD:REG,X'FF',READ KBD:REG = FF MEANS
RFS KEYBOARD IS DISABLED
*
***** COLUMN 1
READ MVI DSP,0 SET DISPLACEMENT FOR COLUMN 1
CAL IN:COL1 READ ADDRESS OF COLUMN 1
CAL MSB:MSK MASK OFF MSB
JNZ DECODE IF NO ENTRY RECOGNIZED
* PROCEED TO COLUMN 2
***** COLUMN 2
MVI DSP,4 SET DISPLACEMENT FOR COLUMN 2
CAL IN:COL2 READ ADDRESS OF COLUMN 2
CAL MSB:MSK MASK OFF MSB
JNZ DECODE IF NO ENTRY RECOGNIZED
* PROCEED TO COLUMN 3
***** COLUMN 3
MVI DSP,8 SET DISPLACEMENT FOR COLUMN 3
CAL IN:COL3 READ ADDRESS OF COLUMN 3
CAL MSB:MSK MASK OFF MSB
JNZ DECODE IF NO ENTRY RECOGNIZED
* PROCEED TO COLUMN 4
***** COLUMN 4
MVI DSP,12 SET DISPLACEMENT FOR COLUMN 4
CAL IN:COL4 READ ADDRESS OF COLUMN 4
CAL MSB:MSK MASK OFF MSB
JNZ DECODE IF NO ENTRY RECOGNIZED
*
***** NO ENTRY MADE
MVI T,X'3F' CLEAR DEBOUNCE BITS 6 & 7
AND KBD:REG,T TO SHOW KEY HAS BEEN RELEASED
NOT:CLR LPI 1
CLB BEEPER
AND ROUT1,T TURN OFF BEEPER
RFS RETURN (NO ENTRIES MADE)
PAGE
************************************
* *
* DECODE INPUTTED COLUMN *
* *
************************************
*
DECODE CLB BIT6 MAKE SURE KEY FROM LAST
CMP KBD:REG,T ENTRY HAS BEEN RELEASED
JLT NOT:CLR IF DEBOUNCE BITS ARE NOT CLEAR
* WAIT FOR KEY TO BE RELEASED
***** DETERMINE ROW
MOV T,COL PUT INPUTTED COLUMN IN COL
MVI ROW,0 SET UP FOR ROW 1
JT BIT0,ROW:FND
MVI ROW,1 SET UP FOR ROW 2
JT BIT1,ROW:FND
MVI ROW,2 SET UP FOR ROW 3
JT BIT2,ROW:FND
MVI ROW,3 SET UP FOR ROW 4
JT BIT3,ROW:FND
*
***** SHOULD NOT GET HERE
RFS
*
ROW:FND MOV T,ROW
ADD DSP,T ADD ROW TO COLUMN DISPLACEMENT
MVI T,KBD:TBL
ADD DSP,T ADD KEYBOARD TABLE ADDRESS TO DSP
MOV T,DSP
MPM T,HIADDR(KBD:TBL) LOAD ADDRESS OF ENTRY (OR ADDRESS)
MOV DSP,T AND STORE IT IN DSP
*
***** DEBOUNCE
STB BIT6 SET T TO '40' (BIT 6 OF T)
ADD KBD:REG,T BITS 6 & 7 ARE USED FOR DEBOUNCE
CLB BIT6 SET T TO 'BF'
CMP KBD:REG,T
JLT REC:ENT IF BITS 6 & 7 ARE NOT SET
RFS DEBOUNCE IS NOT COMPLETE
PAGE
*
***********************************
* *
* KEYBOARD ENTRY RECOGNIZED *
* *
***********************************
*
REC:ENT LPI 1
STB BEEPER BEEP KEYBOARD ENTRY
IOR ROUT1,T
LPI 0
MVI T,10
CMP DSP,T
JGE NUMBER IF DISPLACEMENT IS >= 10
* ENTRY IS A FUNCTION
*****************************
* *
* FUNCTION SWITCH FOUND *
* *
*****************************
*
MOV T,DSP ACTIVATE FUNCTION KEY
JIT
*
**************************************
* *
* NUMBER ENTRY RECOGNIZED *
* *
**************************************
*
***** CHECK FOR FIRST NUMBER ENTERED
*
NUMBER MOV T,KBD:REG
JT TEN:ENT,NO:ENT
JT ONE:ENT,TRY:TENS IF ONE'S ENTRY ALREADY MADE
STB ONE:ENT TRY FOR TENS ENTRY
IOR KBD:REG,T ELSE:
CAL ENTER:0 SET ONES ENTRY FLAG
MVI T,X'F0' SET IST ZERO ENTRY FLAG
AND CPY:SEL,T SEND KEY INFO' TO SERVER
JMP DSP:NUM IF: OFF LINE
PAGE DISPLAY KEY ENTRY
***** SECOND NUMBER
*
TRY:TENS STB ONE:ENT DISABLE ONES ENTRY
IOR KBD:REG,T
CAL ENTER:0 SET 2ND ZERO ENTRY FLAG
MOV T,CPY:SEL
ADD CPY:SEL,T
MOV T,CPY:SEL START SHIFTING ONE'S ENTRY
ADD CPY:SEL,T TO TEN'S
MOV T,CPY:SEL
ADD CPY:SEL,T
MOV T,CPY:SEL
ADD CPY:SEL,T
DSP:NUM MOV T,DSP
IOR CPY:SEL,T DISPLAY KEY ENTRY
CAL KEY:CODE SEND KEY INFO' TO
CAL SEL:DSP SERVER
NO:ENT RFS
*
*
MSB:MSK CPL T RETURNED IN T (0 = ON)
MVI COL,X'0F'
AND COL,T MASK OFF BITS 4 THRU 7
RFS
PAGE
************************************************************************
*
*************************************************
*************************************************
* MACHINE FUNCTIONS: JUMPED TO FROM KEYBOARD *
* SCAN IF THE RESPECTIVE FUNCTION SWITCH IS MADE*
* NOTE THAT ALL KYBD FUNCTION LABELS MUST START*
* AFTER ADDRESS X'180' AS THIS DISTINGUISHES *
* FROM NUMERIC KEYS. *
*************************************************
*************************************************
*
***************************
* OFF LINE FUNCTION *
* SUBROUTINE *
***************************
*
*
OFFLINE: MOV T,KBD:REG
JT OFF:ENT,NO:ACTN IF: OFF LINE KEY DISABLED
LPI 1 RETURN
MOV T,ROUT0
JT OFF:LINE,CHK:DIAG IF: ON-LINE BEFORE
MVI T,X'3D' SEND KEY STATUS '='
OUT DATA:RW,T & IOT STATUS 'V'
* DELAY TO AVOID DATA COLLISION.
MVI SCRATCH,-50 DELAY HERE INSTEAD
INC: IBNZ SCRATCH,INC: OF CALLING TX:RDY
DISABLE DIAGNOSTICS
CAL DIA:ROUT TURN OFF DIAG. OUTPUTS,
LPI 3 DISPLAY & 3MIN. TIMEOUT
MVI TEST:CNT,X'FF'
MVI PAP:CNT,X'FF'
JMP BLK:DSP
ON:STAT LPI 2 SEND ON-LINE KEY & STANDBY
MVI T,X'3C' STATUS ASCII '<' & 'A'
OUT DATA:RW,T
*
*
*******************************
* *
* NO ACTION FUNCTION KEY *
* *
*******************************
*
NO:ACTN RFS
PAGE
*********************************************************************
*********************************************************************
* EVENT CODE RESIDES ON THIS PAGE OF ROM. RGT:PAGE IS JUMPED TO *
* FROM THE STATE/EVENT CHECKER ROUTINE SO THAT EVENTS MAY BE *
* CALLED WITH A 'JIT' INSTRUCTION. EVENTS THAT CANNOT FIT ON THIS*
* PAGE ARE VECTORED TO A SPOT IN HIGHER (LOWER) MEMORY WITH A JUMP*
* INSTRUCTION. *
* *
*********************************************************************
*********************************************************************
ORG X'200'
RGT:PAGE LPI 1
JIT JUMP TO (CALL) THE CURRENT EVENT
PAGE
****************************************************************
* COLD START STATE: TURNS ON ALL REQUIRED OUTPUTS AND SETS *
*FLAG FOR THE NEXT A/D READING. PAGE SYNC. COUNTER IS ACTIVATED.. *
****************************************************************
* EVENT #1 *
*************
START:C STB BL:SOL PLACE THE BLADE CLEANER ON THE DRUM
IOR ROUT3,T
STB READ:FLG REQUEST A/D READING IN NEXT Z:XING
IOR FLAG3,T
STB RUN:FLG SET RUN FLAG
IOR FLAG2,T
MOV T,ROUT0 IF ON-LINE MODE,DO NOT
JT ON:LINE,NO:OFFL ENABLE KEY BOARD
LPI 0 IF: DIAGNOSTICS MODE
MVI KBD:REG,X'C3'
NO:OFFL RFS INHIBIT NUMERIC ENTRY
*
*************
* EVENT #2 *
*************
*
*
DRV:ON STB MN:DRV TURN ON THE MAIN DRIVE AND
IOR ROUT3,T
STB FAN
IOR ROUT3,T TURN ON FAN
LPI 3
MVI PAGE:PNT,SYNC:UP INIT. PAGE SYNC TIMER
MVI PAGE:CNT,95 FOR FIRST PAGE SYNC
LPI 2
MOV T,FLAG1
CPL T
JT DIAG:FLG,DRIV:RET
LPI 0
LCB CPY:SEL,X'39',CHK:0
JMP DRIV:RET
CHK:0 LCB CPY:SEL,X'10',CHK:38
DRIV:RET LPI 1
CLB TEST:1
AND ROUT2,T
RFS
CHK:38 LCB CPY:SEL,X'38',DRIV:RET
* IF: DIAGNOSTICS 3-9 OR 3-10
LPI 1 TURN ON A/O MODU.
STB TEST:1 ELSEIF: DIAG. 3-8
IOR ROUT2,T TURN A/O MODU. OFF
RFS
PAGE
*************
* EVENT 3 *
*************
************************************
* HIGH VOLTAGE ON EVENT *
************************************
HV:ON STB HV:DC TURN ON THE HIGH VOLTAGE DC
IOR ROUT1,T
STB FUS:ON TURN ON THE FUSER
IOR FLAG3,T
RFS
*
*
***************
* EVENT 4 *
***************
******************************
* SHUTTER ON EVENT *
******************************
*
SHUT:ON MOV T,ROUT0
JT ON:LINE,SHUTR IF: OFF LINE MODE
LPI 0 ANDIF: DIAGNOSTIC MODE 3-9
LCB CPY:SEL,X'39',SHUTR
RFS LEAVE SHUTTER OFF
*
SHUTR LPI 1 ELSE:
STB SHUT:R
IOR ROUT2,T TURN ON SHUTTER
RFS
*
*
************
* EVENT #5 *
*************
*************************************
* *
* DEVELOPER ON EVENT *
* *
*************************************
*
DEV:ON STB DEV:CLU TURN ON THE DEVELOPER
IOR ROUT3,T
MOV T,ROUT0
JT ON:LINE,SET:SFLG IF: OFF LINE MODE
LPI 0 ANDIF: DIAGNOSTIC MODE 3-9
LCB CPY:SEL,X'39',SET:SFLG
JMP DEV:RET DO NOT ENABLE SHUTTER
* 50% DUTY CYCLE
SET:SFLG LPI 1 ELSE:
STB SHUT:FLG
IOR FLAG3,T ENABLE SHUTTER 50% DUTY CYCLE
DEV:RET RFS
PAGE
*
****************************************
* JUMP TABLE FOR OFF PAGE EVENTS *
****************************************
*
TE:EXIT JMP TE@EXIT
TE:REG JMP TE@REG
LE:EXIT JMP LE@EXIT
BILL:OFF JMP BILL@OFF
BL:OFF JMP BL@OFF
BL:ON JMP BL@ON
SYNC:OUT JMP SYNC@OUT
RR:OFF JMP RR@OFF
OFST:OFF JMP OFST@OFF
INV:ON JMP INV@ON
INV:OFF JMP INV@OFF
SFT:JAM JMP SFT@JAM
MIN:LOOP JMP 3MIN:WT
FAN:CNT JMP FAN@CNT
ST:SLEEP JMP ST@SLEEP
DSP:OFF JMP DSP@OFF
DSP:SECS JMP SEC:DSP
DSP:BLN JMP BLN:DSP
DSP:MS JMP MS:DSP
DSP:BLNO JMP BLNO:DSP
FUS:OUT JMP FUS@OUT
DRV:OFF JMP DRV@OFF
BLD:OFF JMP BLD@OFF
DGN:HV JMP DGN@HV
HV:OFF JMP HV@OFF
PRE:CYC JMP PRE@CYC
DVL:OFF JMP DVL@OFF
SLEEP: JMP SLEEP@
OLINE:V JMP V:OLINE
RR:ON JMP RR@ON
PAGE
*************************************
* *
* TEST PATTERN STATE: *
* TEST OUTPUT BIT IS TOGGLED TO *
* INITIATE BAR PATTERN TEST SEQ. *
* TEST BAR OUTPUT IS ACTIVE LOW *
* I.E WHEN OUTPUT IS HIGH THE *
* IMAGE IS WHITE AND VICE VERSA. *
* *
*************************************
*
TEST:ON2 LPI 2
IBNZ LOOP:CNT,TEST:ON IF: TEST BAR COUNT = 9
LPI 1 TURN OFF A/O MODULATOR
CLB TEST:1 ELSE:
AND ROUT2,T TURN IT ON
RFS
TEST:ON LPI 1
STB TEST:1
IOR ROUT2,T
LPI 3
MVI TEST:PNT,TEST:TBL1
MVI TEST:CNT,0 SET POINTER
RFS TO TURN OFF TEST 1 BIT
TEST:OFF CLB TEST:1
AND ROUT2,T TEST 1 BIT OFF
JMP INI:TTMR
TEST:ON1 LPI 2
MVI LOOP:CNT,-9 SET 9 TEST BAR LINES
LPI 1
STB TEST:1 TURN A/O MODUL OFF FOR 420 MS
IOR ROUT2,T
INI:TTMR LPI 3
MVI TEST:CNT,0
RFS
PAGE
PAGE
***********************************************
* DOCUMENT READY STATE: PAPER FEEDER IS ON, *
* REG ROLL CLUTCH ON,UPDATE FUSER A/D VALUE, *
* START PAGE SYNC TIMER,SEND RUN:READY STATUS *
* TO SERVER,START JAM INTERROGATION TIMERS & *
* INITIATE CYCLE OUT IF COINCIDENCE. *
***********************************************
****************************
* EVENT #1 PAPER FEEDER ON *
****************************
COP:FEED MOV T,FLAG2
JT PRNT:FLG,FEED:
STB PRNT:FLG
IOR FLAG2,T
MOV T,IN:ZERO IF: PAPER HAS ALREADY BEEN FED
CPL T DO NOT FEED ANOTHER SHEET
JT REG:SW,CLR:FEED (TRUE ONLY FOR COLD START)
FEED: MOV T,FLAG2 IF: CYCLING OFF ON-LINE
JT OFF:FLG,ONLINE COMPLETE ON-LINE JOB FIRST
MOV T,ROUT0
JT ON:LINE,ONLINE IF: OFF LINE MODE
LPI 0 IF: KEYBOARD ENTRY = 2
LCB CPY:SEL,2,DIA:55 ORIF: KEY ENTRY 3-32 OR 8-55
JMP ENB:LWR ENERGIZE LOWER TRAY
DIA:55 LCB CPY:SEL,X'55',DIA:32
JMP ENB:LWR
DIA:32 LCB CPY:SEL,X'32',TST:1
JMP ENB:LWR ELSE:
TST:1 LCB CPY:SEL,1,DIA:30
JMP ENB:UPPR ENERGIZE UPPER TRAY
DIA:30 LCB CPY:SEL,X'30',TEST:0
JMP ENB:UPPR
TEST:0 LCB CPY:SEL,BLANK:,ENB:UPPR
JMP ENB:UPPR
ONLINE LPI 2
MOV T,FEED:COM IF: PRINT COMMAND UPPER TRAY
JT 4,ENB:UPPR
JMP ENB:LWR ENERGIZE UPPER TRAY
ENB:UPPR LPI 1
STB UP:TRAY ELSE:
IOR ROUT1,T
JMP SET:CTR ENERGIZE LOWER TRAY
ENB:LWR LPI 1
STB LWR:TRAY
IOR ROUT1,T
SET:CTR LPI 1
CLR T
MOV COUNTER,T RESET CNTR TO AVOID ROLL OVER
CLR:FEED LPI 2
MVI FEED:COM,0
LPI 1
MOV T,FLAG2 IF: CYCLING OFFLINE
JT OFF:FLG,OFF:FEED SEND 'J', STATUS 'U'
LPI 2 ELSE:
MVI IOT:STAT,X'4A' SEND RUN:FEEDING STATUS 'J'
NO:FEED RFS
*
OFF:FEED MVI T,X'4A'
OUT DATA:RW,T
RFS
PAGE
ORG X'300'
*
*
*********************************
* EVENT #2 (REGISTRATION EVENT) *
*********************************
*
RR@ON STB REG:ROLL
IOR ROUT3,T
OUT OUT3,ROUT3 TURN ON REG ROLLS IMMEDIATELY
CLB CMD:FLG CLEAR COM. ACKN. FLAG
AND FLAG3,T
LPI 3
MVI PAGE:CNT,0 INIT. UPPER TRAY PAGE SYNC.
MVI PAGE:PNT,SYNC:UP
LPI 1
MOV T,FLAG2 IF: NOT CYCLING OFF LINE
JT SOFT:JAM,AD:FLG ANDIF: NOT C4 JAM
JT OFF:FLG,AD:FLG ANDIF: NOT TRAY OPEN STATUS 'Q'
LOAD:K LPI 2
MVI IOT:STAT,X'4B' PRE-LOAD STATUS 'K'
AD:FLG LPI 1
STB READ:FLG READ FUSER A/D VALUE DURING
IOR FLAG3,T NEXT ZERO-CROSSING.
LPI 3
MVI T,SLP:TBL
CMP TIM1:PNT,T IF: GOTO SLEEP TIMER ACTIVE
JNE TE:ON
LPI 2 INITIALIZE FAN ON COUNT
MVI FAN:CTR,0 TO ZERO.
TE:ON LPI 3
MVI TIM1:PNT,TAT:REG START TRAIL EDGE AT REG,L.E
MVI TIM1:CNT,0 @ EXIT JAM TIMERS
LPI 2
LCB FAN:CTR,196,DEC:FCNT
RFS
* IF: FAN COUNT IS <=60
DEC:FCNT MVI T,-1
ADD FAN:CTR,T INCREMENT FAN COUNT
RFS
PAGE
*
*********************************
* EVENT #3 (PRE-CYCLE OUT EVENT) *
* *
* DECISION FOR CYCLE OUT IS *
* MADE IN THIS EVENT. *
*********************************
*
PRE@CYC DIF
INP T,IN0
JT ZAP:THM,CHK:FEED IF: FUSER UNDER TEMP.
LPI 2
MVI IOT:STAT,X'49' SEND STATUS 'I' TO SERVER
JMP CYC:OUT3 & START CYCLE OUT
CHK:FEED MOV T,FLAG2
JT SOFT:JAM,CYC:OUT2 IF: SOFT JAM 'C4'
LPI 2 START CYCLE OUT
MOV T,FEED:COM IF:FEED COMMAND
JT 6,CK:B4 IF: LOWER TRAY REQ'D
MOV T,FLAG1 INIT.LWR TRAY PAGE SYNC
JT CONT:FLG,SAMP:RET ELSEIF: DIAG. TIMING CHECK MODE
CYC:OUT2 LPI 1
CLB PRNT:FLG STAY IN CONTINUOUS COPY CYCLE
AND FLAG2,T
CLB CMD:FLG ELSE:
AND FLAG3,T
CYC:OUT3 LPI 3 CLEAR PRINT ENABLE FLAG
MVI PAGE:CNT,X'FF'
MVI STAT:PNT,CYCL:TBL & ALSO COMM. ACKN. FLAG
MVI STAT:CNT,0
SAMP:RET RFS START CYCLE OUT EVENT
*
CK:B4 CPL T
JT 4,SAMP:OFF
RFS
*
SAMP:OFF LPI 3
MVI PAGE:PNT,SYNC:LO
RFS
*
PAGE
*
***********************************
* EVENT 1 (CYCLE OUT STATE) *
***********************************
DVL@OFF CLB DEV:CLU TURN OFF THE DEVELOPER
AND ROUT3,T
RFS
*
******************************
* EVENT 2 (CYCLE OUT STATE) *
******************************
HV@OFF CLB HV:DC TURN OFF THE COROTRONS
AND ROUT1,T
CLB SHUT:R TURN OFF SHUTTER
AND ROUT2,T
CLB SHUT:FLG CLEAR SHUTTER 50% DUTY CYCLE FLAG
AND FLAG3,T
RFS
******************************
* EVENT 3 (CYCLE OUT STATE) *
******************************
FUS@OUT DIF
CLB FUS:ON TURN OFF FUSER
AND FLAG3,T
LPI 3
MVI STAT:CNT,0 RE-INITIALIZE STATE COUNTER
RFS FOR SUBSEQUENT CYCLE OUT EVENTS
* (EXCEEDS 5100MS TIMER LIMIT)
*
******************************
* EVENT 4 (CYCLE OUT STATE) *
******************************
DRV@OFF CLB MN:DRV TURN OFF MAIN DRIVE
AND ROUT3,T
MOV T,FLAG2 IF: CYCLING OFFLINE
CPL T
JT OFF:FLG,OFF:DRRT
LPI 2
MVI IOT:STAT,X'56' PRELOAD OFF-LINE STATUS 'V'
OFF:DRRT RFS
*
*
***********************************
* DIAGNOSTICS: HVPS ON EVENT *
***********************************
*
DGN@HV STB HV:DC TURN ON HVPS(COROTRONS)
IOR ROUT1,T
RFS
PAGE
*
******************************
* EVENT 5 (CYCLE OUT STATE) *
******************************
*
BLD@OFF MVI T,X'BB' TURN OFF INVERTER &
AND ROUT2,T OFFSET SOLENOID.
CLB RUN:FLG CLEAR RUN FLAG
AND FLAG2,T
MOV T,FLAG2
CPL T
JT OFF:FLG,CLR:FLG4
CLB OFF:FLG IF: OFF LINE IS TRUE
AND FLAG2,T CLEAR OFF LINE FLAG
CLR:FLG4 LPI 2
MVI T,X'FC' RESTORE DIAGNOSTIC FLAGS
AND FLAG1,T
MVI OS:BYTE,0 CLEAR OFFSET FUNCTION REGISTER
LPI 0
MVI KBD:REG,X'C0' ENABLE KEYBOARD
LPI 1
MOV T,FLAG2
JT SOFT:JAM,BLNK:ON IF: SOFT JAM TRUE
INP T,IN0 START 'C4' JAM BLINK
CPL T
JT ZAP:THM,DRV:RET IF: FUSER UNDER TEMP.
MOV T,IN:ONE ORIF: TRAY NOT SELECTED
CPL T DONT SEND STANDBY STATUS 'A'
JT TRAY:SW,DRV:RET
LPI 2 START DISPLAY BLINK
MOV T,FLAG1 IF: DIAG. MODE
JT DIAG:FLG,REF:DSP PUT BACK DIAG CODE
SEN:STBY LPI 2 ON THE DISPLAY
LCB IOT:STAT,X'58',SEND:A
RFS IF: TRAY FULL STATUS 'X'
SEND:A LPI 1 DO NOT SEND 'A'
MOV T,ROUT0
JT OFF:LINE,OFF:STAT IF: OFF LINE MODE
LPI 2 PRELOAD OFF-LINE STATUS 'V'
MVI IOT:STAT,X'41' ELSE:
DRV:RET RFS PRELOAD ON-LINE STATUS 'A'
BLNK:ON JMP BL@ON
REF:DSP LPI 0
MOV T,CPY:SEL DISPLAY DIAG. CODE
JMP DSPLY
*
OFF:STAT LPI 2
MVI IOT:STAT,X'56'
RFS
PAGE
*
*********************************************************
* HARD JAM EVENTS: LOOK FOR BREAKING OF INTERLOCKS AND *
* CLEARANCE OF PAPER DURING NEXT ZERO CROSSING. *
*********************************************************
******************************
* EVENT HARD JAM STATE *
******************************
*
***********************************
* PAPER JAM DETECTION ROUTINE *
***********************************
*
PPR:PATH MOV T,IN:ZERO
JT REG:SW,CHK:E4 IF EITHER PAPER PATH SW IS MADE:
JMP E2:JAM DECLARE 'E2' OR 'E4' JAM
CHK:E4 JT EXIT:SW,PPR:RET ELSE:
JMP E4:JAM IF: HARD JAM FLAG CLEAR
MOV T,FLAG2
JT JAM:FLG,OFF:DRRT ANDIF: DIAG. MODE
PPR:RET JMP DSP:DIAG
************************************ PUT BACK DIAG CODE
* 'E2' JAM SET UP ROUTINE *
************************************
*
E2:JAM MVI FAULTS,X'E2' LOAD E2 FAULT CODE IN
LPI 2 DISPLAY REGISTER.
MVI IOT:STAT,X'44' SEND STATUS 'D' TO SERVER
JMP DSP:BLNK AND START DISPLAY BLINK
*
*
************************************
* 'E4' JAM SET UP ROUTINE *
************************************
*
E4:JAM MVI FAULTS,X'E4' LOAD E4 FAULT CODE IN
LPI 2
MVI IOT:STAT,X'46' SEND STATUS 'F' TO SERVER
DSP:BLNK LPI 1
STB JAM:FLG SET HARD JAM FLAG
IOR FLAG2,T
LPI 3
MVI PAP:CNT,X'FF' STOP 3 MIN. WAIT TIMER
LPI 0
MVI KBD:REG,X'FF' DISABLE KEYBOARD
JMP BL@ON START DISPLAY BLINK
*
PAGE
********************************************************
* TIMER 1 EVENTS; TRAIL EDGE AT REG SNAPSHOT, LEAD *
* EDGE AT EXIT SNAPSHOT, BILLING METER ON & OFF AND *
* REGISTRATION ROLLS DEACTUATION. *
********************************************************
*
************
* EVENT 1 *
********************************
* REG. ROLLS TURN OFF EVENT *
********************************
*
RR@OFF CLB REG:ROLL
AND ROUT3,T TURN OFF REG ROLLS
CLB OFF:SET
AND ROUT2,T TURN OFF OFFSET SOL.
LPI 3
MVI STAK:CNT,0 START STACKER TIMER
MVI STAK:PNT,STK:TBL
RFS
*
*
*
************
* EVENT 2 *
********************************
* TRAIL EDGE AT REG. JAM CHECK *
********************************
*
TE@REG CAL E2:JAM DECLARE E2 JAM
JMP HRD:JAM JUMP TO HARD JAM
*
*
**************
* EVENT 3 *
*********************************
* LEAD EDGE @ EXIT JAM EVENT *
*********************************
*
LE@EXIT MVI FAULTS,X'E3' SET FAULT CODE TO 'E3'
LPI 2
MVI IOT:STAT,X'45' JAM STATUS TO 'E'
JMP HRD:JAM
*
*
***********
* EVENT 4 *
***********
**************************************************
* TIMER 2 EVENTS: TRAIL EDGE AT EXIT JAM CHECK. *
**************************************************
*
TE@EXIT CAL E4:JAM SET UP E4 JAM
JMP HRD:JAM
* & ENTER HARD JAM
PAGE
*
****************************
* EVENT #4 (TIMER 1 EVENT) *
****************************
* TURN BILLING METER OFF *
****************************
BILL@OFF CLB BIL:MTR1 TURN OFF THE BILLING METERS
AND ROUT3,T
RFS
*
*
*****************************
* *
* BLANK DISPLAY DURING *
* DISPLAY BLINK. *
* *
*****************************
*
BL@OFF LPI 0
CLR T CLEAR ONES & TENS
MOV DSP:ONES,T DISPLAY REGS.
MOV DSP:TENS,T
RFS
*
PAGE
ORG X'400'
*
**********************************************************************
* STATE CHECKER: UPDATE TIMERS WHEN APPROPRIATE, EXECUTE EVENTS THAT*
* HAVE TIMED OUT. *
**********************************************************************
STATE:CK LPI 3
DIF
DIM TIMF DISABLE TIMER INTERRUPT
EIF (DIF & EIF MUST PRECEED AND
* FOLLOW RESPECTIVELY FOR DIM TIMF)
MOV T,DIVIDER IF: DIVIDER HAS REACHED
JT 7,STATE:1 THE LAST COUNTER
MVI DIVIDER,249 INITIALIZE POINTER TO (R57)
UP:DATE DIF
MOV T,*DIVIDER TO CHECK ALL STATE &
CPL T JAM COUNTERS
JZ NXT:CNT IF COUNTER IS NOT X'FF'
NEG T THEN INCREMENT THAT COUNTER
MOV *DIVIDER,T
NXT:CNT EIF
IBNZ DIVIDER,UP:DATE CONT. LOOP UNTIL ALL CELLS CHKD
MVI DIVIDER,-4 REINIT. THE 20MS DIVIDER REG.
LPI 1
MOV T,FLAG3
CPL T IF: DIAGNOSTICS 3-62
JT WDT:MEM,TMR:WD
LPI 0
LCB CPY:SEL,X'62',TMR:WD MAKE WDT FAIL
JMP STATE:1
TMR:WD LPI 1
STB WDT:FLG FLAG TO INDICATE TIMER INTERRUPT
IOR FLAG2,T HAS OCCURRED.
STATE:1 EIM TIMF ENABLE TIMER INTERRUPT
LPI 1
MOV T,FLAG3
CPL T
JT TMR:FLG,NO:TMR IF: TIMER INT. HAS OCCURED
JMP CHK:REG
CHK:RET LPI 1 CHECK REG. SWITCH
CLB TMR:FLG CLEAR TIMER INT. INDICATION
AND FLAG3,T FLAG.
NO:TMR LPI 2
MVI TBL:CNT,242 INITIALIZE TBL:CNT POINTER TO R50
MVI TIM:CNT,249 AND TIM:CNT TO R57
LPI 1
DIF D
INP T,IN1 TEST IF ZERO CROSSING INPUT
JT Z:XING,ST1 IS STILL HIGH
EIM EXTF ELSE RE-ENABLE INTERUPT MASK
ST1 EIF
MOV T,FLAG2
CPL T
JT WDT:FLG,STATE:WT IF: WDT FLAG IS NOT SET
STB WD:TMR DO SYSTEM RESET
ADD ROUT3,T ELSE:
CLB WDT:FLG TOGGLE WDT
AND FLAG2,T
STATE:WT LPI 2
MOV T,*TBL:CNT OBTAIN THE COUNT OF THE NEXT
MPM T,HIADDR(ST:TBL) SCHEDULED EVENT FROM THE TABLE
MOV TEMP2,T
MOV T,*TIM:CNT IF ITS TIME FOR THE NEXT EVENT:
CMP TEMP2,T THEN GET THE ADR OF THAT EVENT
JNZ NEXT:CK
DIF
CAL INCREM INCREMENT THE POINTER TO NXT EV.
MOV T,TEMP2
MPM T,HIADDR(ST:TBL)
EIF
CAL RGT:PAGE
EIF
NEXT:CK LPI 2
IBNZ TBL:CNT,NXT1 UPDATE TABLE AND TIMER COUNTERS
NXT1 IBNZ TIM:CNT,STATE:WT
JMP STATE:CK THEN BEGIN STATE CHECKER
* AGAIN
PAGE
*************************************
* DISPLAY 7 SEGEMENT ENCODE TABLE *
* SEGMENTS OFF ARE ONES *
*************************************
DSP:TBL DB X'3F' DIGIT 0
DB X'06' DIGIT 1
DB X'5B' DIGIT 2
DB X'4F' DIGIT 3
DB X'66' DIGIT 4
DB X'6D' DIGIT 5
DB X'7D' DIGIT 6
DB X'07' DIGIT 7
DB X'7F' DIGIT 8
DB X'67' DIGIT 9
DB X'9E' DIGIT J
DB X'38' DIGIT L
DB X'39' DIGIT C
DB X'5E' DIGIT D
DB X'79' DIGIT E
DB X'71' DIGIT F
*
*
******************************************************
* KEYBOARD DECODE TABLE *
* FUNCTIONS ARE ADDRESS INFORMATION, AND DIGITS ARE *
* SEGMENT INFORMATION. *
******************************************************
KBD:TBL DB X'08' EIGHT
DB X'05' FIVE
DB ABSVAL(CLEAR:)&X'FF' CLEAR
DB ABSVAL(OFFLINE:)&X'FF' OFFLINE - SPARE
DB X'07' SEVEN
DB X'04' FOUR
DB X'00' ZERO
DB ABSVAL(ONLINE:)&X'FF' ON LINE
DB X'06' SIX
DB X'03' THREE
DB X'09' NINE
DB ABSVAL(TEST:)&X'FF' TEST
DB X'01' ONE
DB X'02' TWO
DB ABSVAL(OFFLINE:)&X'FF' OFF LINE
DB ABSVAL(OFFLINE:)&X'FF' OFF LINE
*
PAGE
**************************************
**************************************
* STATE AND EVENT TABLE *
**************************************
**************************************
*
* *** CAUTION ***
*
* USE 20.16 MS RESOLUTION FOR TABLE EVENTS.
* TIMER INTERRUPT RESOLUTION HAS BEEN MODIFIED TO 5.04 MS
* IN ORDER TO AVOID SYNCHRONIZATION WITH ZERO-XING.
*
*****************************************
* STATE EVENTS *
*****************************************
* COLD START STATE *
********************
ST:TBL DB 1 20 MS
DB ABSVAL(START:C)&X'FF'
DB 11 220 MS
DB ABSVAL(DRV:ON)&X'FF'
ST:TB1 DB 23 460 MS
DB ABSVAL(HV:ON)&X'FF'
DB 41 820 MS
DB ABSVAL(SHUT:ON)&X'FF'
DB 95 1920 MS
DB ABSVAL(DEV:ON)&X'FF'
*
*****************************
* DOCUMENT READY STATE *
*****************************
REG:TBL DB 61 1220 MS
DB ABSVAL(RR:ON)&X'FF'
PCYC:TBL DB 244 4920 MS
DB ABSVAL(PRE:CYC)&X'FF'
*
*
**************************
* TEST 1 PRINT STATE *
**************************
TEST:TBL DB 21 420 MS
DB ABSVAL(TEST:ON1)&X'FF'
TEST:TBL1 DB 2 40 MS
DB ABSVAL(TEST:OFF)&X'FF'
DB 19 380 MS
DB ABSVAL(TEST:ON2)&X'FF'
*
PAGE
***************************
* FEEDER STATE *
***************************
FD:TBL DB 14 280 MS
DB ABSVAL(COP:FEED)&X'FF'
DB 57 1150 MS
DB ABSVAL(SFT:JAM)&X'FF'
****************************
* CYCLE OUT STATE *
****************************
CYCL:TBL DB 35 700 MS
DB ABSVAL(DVL:OFF)&X'FF'
DB 86 1640 MS
DB ABSVAL(HV:OFF)&X'FF'
DB 192 3880 MS
DB ABSVAL(FUS:OUT)&X'FF'
DB 132 2660 MS
DB ABSVAL(DRV:OFF)&X'FF'
DB 253 5100 MS
DB ABSVAL(BLD:OFF)&X'FF'
DB 254 5120 MS
DB ABSVAL(FAN:CNT)&X'FF'
*
*******************************
* STACKER CONTROL STATE *
*******************************
*
STK:TBL DB 183 3688 MS
DB ABSVAL(INV:ON)&X'FF'
INV:TBL DB 6 120 MS
DB ABSVAL(INV:OFF)&X'FF'
DB 66 1330 MS
DB ABSVAL(OFST:OFF)&X'FF'
DB 0
*
INV:TBL2 DB 84 1700 MS
DB ABSVAL(INV:OFF)&X'FF'
PAGE
*
********************************
* TIMER 2 EVENT TABLE *
********************************
TAT:EXIT DB 32 650 MS
DB ABSVAL(TE:EXIT)&X'FF'
BIL:TBL DB 37 750 MS
DB ABSVAL(BILL:OFF)&X'FF'
DB 0
****************************
* TIMER 1 EVENT TABLE *
****************************
TAT:REG DB 206 4160 MS
DB ABSVAL(TE:REG)&X'FF'
RR:TBL DB 213 4300 MS
DB ABSVAL(RR:OFF)&X'FF'
LAT:EXIT DB 225 4540 MS
DB ABSVAL(LE:EXIT)&X'FF'
***************************
* BLINK TABLE FOR TIMER 2 *
***************************
BL:FLT DB 33 660 MS
DB ABSVAL(BL:OFF)&X'FF'
DIS:OFF DB 50 1000 MS
DB ABSVAL(BL:ON)&X'FF'
DB 0
*
*************************
* JAM STATE *
*************************
JAM:HRD DB 70 1400 MS
DB ABSVAL(DRV:OFF)&X'FF'
DB 72
DB ABSVAL(OLINE:V)&X'FF'
DB 75 1500 MS
DB ABSVAL(BILL:OFF)&X'FF'
*****************************
* 3 SEC/COPY FAN ON TIME; *
* TIMER 1 *
*****************************
TIM:TBL DB 149 3000 MS
DB ABSVAL(FAN:CNT)&X'FF'
DB 0
*
*******************************
* GO TO SLEEP EVENT *
*******************************
*
SLP:TBL DB 213 4300 MS
DB ABSVAL(ST:SLEEP)&X'FF'
DB 200 4000 MS
DB ABSVAL(SLEEP:)&X'FF'
PAGE
*
*****************************
* PAGE SYNC. TABLE *
*****************************
*
SYNC:UP DB 193 3880 MS
DB ABSVAL(SYNC:OUT)&X'FF'
*
SYNC:LO DB 186 3740 MS
DB ABSVAL(SYNC:OUT)&X'FF'
*
***************************
* STANDBY TABLE *
***************************
*
MIN:TBL DB 149 3000 MS
DB ABSVAL(MIN:LOOP)&X'FF'
*
*********************************
* LEDS ON & DISPLAY ON WITH '88' *
*********************************
*
TKEY:TBL DB 10 200 MS
DB ABSVAL(DSP:OFF)&X'FF'
DB 0
*
*
*******************************
* REAL TIME DISPLAY TABLE *
*******************************
*
RT:DSP DB 1
DB ABSVAL(DSP:SECS)&X'FF' REAL TIME DISPLAY
DB 33 660 MS.
DB ABSVAL(DSP:BLN)&X'FF'
MIL:SEC DB 49 580 MS.
DB ABSVAL(DSP:MS)&X'FF'
DB 82 164 MS.
DB ABSVAL(DSP:BLNO)&X'FF'
DB 0
*
**************************************
* DIAGNOSTICS: HIGH VOLTAGE ON EVENT *
**************************************
*
DIAG:TBL DB 23 460 MS
DB ABSVAL(DGN:HV)&X'FF'
DB 0
*
DIA:TBL2 DB 55 1100 MS
DB ABSVAL(SET:SFLG)&X'FF'
DB 254
DB ABSVAL(DEV:RET)&X'FF'
DB 254
DB ABSVAL(DEV:RET)&X'FF'
PAGE
***************************************
* FUSER CONTROL FOR MOHAWK *
* *
* FULL CYCLE CONTROL OVER 16 *
* FULL CYCLE PERIOD. *
* 16 BIT PATTERN ROTATED *
* EVERY OTHER ZERO CROSSING *
* CONTROLS DUTY CYCLE AND *
* PROVIDES VOUT=VIN(ROOT N/16) *
* *
* OPERATING PERIOD IS=16/LF *
***************************************
*
* USES PAGE 1 RAM CELLS
ORG X'500' $$$$$$$$$$$$$$$$$$$$$$$$$$$$
*
FUSER MOV T,FLAG3
JT FUS:ON,FUSER:ON IF FUSER FLAG IS OFF
CLB 7 RESET NEW ADVAL FLAG
AND ADVAL,T
JMP GO:ZAP JUMP TO CK FOR ZAP CONDITION
FUSER:ON MOV T,ADVAL
JT 7,REGULATE
MOV ADVAL,ADC STORE ADC VALUE
LPI 2
MOV T,FLAG1
CPL T
JT CN10:FLG,DO:PAT IF: DIAGNOSTIC FLAG IS SET
LPI 0 ANDIF: DIAGNOSTICS #1
LCB CPY:SEL,X'71',DO:PAT
LPI 1
MOV T,ADVAL
MOVD DGN:SAV,T
CAL REAL:
LPI 0
MOV T,DGN:SAV DISPLAY A/D VALUE
MOV SECS,T & SAVE IT TWICE
DO:PAT LPI 1
EQU $
MVI T,MID:ADC-1 IF ADVAL<35
CMP ADVAL,T
JRGT DET04
* START AT MIDDLE OF TABLE
MVI CUR:PTR,(ABSVAL(FTABL)&X'FF')+56
JMP DET05 ELSE
DET04 EQU $ START AT THE TOP OF THE TABLE
MVI CUR:PTR,ABSVAL(FTABL)&X'FF'
DET05 EQU $ ENDIF
MVI FMASK,-9
DET02 MOV T,CUR:PTR DO WHILE @CUR:PTR =< ADVAL
MPM T,HIADDR(FTABL)
CMP ADVAL,T
JRGT DET03
JEQ DET03
MVI T,7 ADVANCE CUR:PTR
ADD CUR:PTR,T
IJNZ FMASK,DET02 ENDDO WHILE NOT PAST END OF TBL
DET03 EQU $
DET01 EQU $ ENDIF
END:SET STB 7 SET NEW:ADC FLAG IN ADVAL
IOR ADVAL,T
MOV T,CUR:PTR
MOVD SOP:PTR,T INIT. FUSER PATTERN POINTERS
MVI FMASK,0
*
**************************************************
*
* ADVANCE PATTERN PTRS AND REGULATE
*
* INPUTS - FMASK, CUR:PTR, SOP:PTR
* OUTPUTS - FMASK, CUR:PTR, FUS:LMP BIT
*
***************************************************
REGULATE MOV T,FMASK SHIFT FMASK LEFT ONE BIT
ADD FMASK,T
JNZ ADV00 IF FMASK = 0 (BIT OFF LEFT END)
STB 0 REINITIALIZE MASK TO 1
MOV FMASK,T
MVI T,-1 DECR CUR:PTR
ADD CUR:PTR,T
MOVD T,SOP:PTR IF CUR:PTR PAST END OF PATTERN
CMP CUR:PTR,T
JRGT ADV01
MVI CUR:PTR,6 CUR:PTR TO BEG. OF PATTERN
ADD CUR:PTR,T
MVI FMASK,2
ADV01 EQU $ ENDIF
ADV00 EQU $ ENDIF
MOV T,CUR:PTR IF @CUR:PTR (AND) MASK <> 0
MPM T,HIADDR(FTABL)
MOV TEMP1,T
MOV T,FMASK
AND TEMP1,T
JZ ADV02
STB FUS:LMP TURN ON FUSER LAMP
IOR ROUT3,T
JMP ADV03 ELSE
ADV02 EQU $
GO:ZAP CLB FUS:LMP TURN OFF FUSER LAMP
AND ROUT3,T
ADV03 EQU $ ENDIF
*******************************************************
* CHECK ZAP THERMOSTAT TO SEE IF UNDER TEMP OR NOT. *
*******************************************************
*
CK:ZAP MOV T,FLAG2
JT RUN:FLG,FU:NO:ZP IF: LAST JOB COMPLETED
MOV T,IN:ZERO
JT ZAP:THM,FU:NO:ZP ANDIF THERMOSTAT REQUESTS ZAP
CPL T
JT REG:SW,END:FUS ANDIF BOTH PAPER PATH SWITCHES CLEAR
JT EXIT:SW,END:FUS
MOV T,FLAG2
JT ZAP:FLG,AROUND ANDIF NOT ALREADY NOT ZAPPING
CLB FAN TURN OFF FAN
AND ROUT3,T
MVI FAULTS,X'B1' DISPLAY 'L1'
CAL DSP:FLT
LPI 2
MVI IOT:STAT,X'40' LOAD FUSER UNDERTEMP STATUS
AROUND LPI 1
STB ZAP:FLG SET ZAP FLAG TO INDICATE ZAP MODE
IOR FLAG2,T
STB FUS:ON AND TO TURN ON FUSER TRIAC
IOR FLAG3,T
LPI 0
MVI KBD:REG,X'FF' DISABLE KEYBOARD
END:FUS RFS
FU:NO:ZP MOV T,FLAG2
CPL T IF: FUSER ZAP CYCLE IS OVER
JT ZAP:FLG,END:FUS
MOV T,ROUT0 IF: 3 MIN. WAIT ACTIVE
JT OFF:LINE,ST:BY STAY IN WAIT STATE
STND:BY MOV T,FLAG3 ELSE:
JT WAIT:FLG,WAIT@ ENTER STANDBY
ST:BY MOV T,IN:ZERO SEND STATUS 'A'
CPL T CLEAR DISPLAY & FLAGS
JT ZAP:THM,BLNK:
CAL SEND:A
CAL INI:SL START GOTO SLEEP TIMER
BLNK: CAL BLNK:DSP
STBY:RET CLR T
MOV FLAG2,T
MVI T,X'20'
AND FLAG3,T
LPI 0
MVI KBD:REG,X'C0' ENABLE KEYBOARD
LPI 1
RFS
*
WAIT@ CAL WAIT:
LPI 1
JMP STBY:RET
PAGE
*
******************************
* SEND OFFLINE STATUS IN CASE
* OF JAM WHILE CYCLING OFF
* LINE
*******************************************
*
*
V:OLINE MOV T,FLAG2 IF OFF FLAG TRUE,
CPL T SEND THE OFF LINE STATUS
JT OFF:FLG,END:V NOW AND RESET THE FLAG
MVI T,X'56'
OUT DATA:RW,T
CLB OFF:FLG
AND FLAG2,T
END:V RFS
*
PAGE
*
**********************************
* *
* PAGE SYNC STATUS IS SENT TO *
* SERVER WHEN SYN:CNT TIMES OUT *
* *
**********************************
*
SYNC@OUT MOV T,FLAG2
JT OFF:FLG,PGE:SYNC IF: OFF LINE KEY PUSHED
MOV T,ROUT0 DURING ONLINE MODE
JT OFF:LINE,SET:TMRS ORIF: ON LINE MODE
PGE:SYNC CAL TX:RDY IF: TXRDY IS TRUE
MVI T,X'52' SEND PAGE SYNC. 'R'
OUT DATA:RW,T IMMEDIATELY
SET:TMRS LPI 3 INITIALIZE TIMERS FOR
MVI PAP:PNT,FD:TBL REG ROLLS ON & FEEDER ON
MVI PAP:CNT,0 EVENTS.
MVI STAT:PNT,REG:TBL
MVI STAT:CNT,0
LPI 1
MOV T,ROUT0
JT ON:LINE,SYNC:RET IF: OFF LINE ACTIVE
LPI 2
MOV T,FLAG1
JT CONT:FLG,SYNC:RET
JT CHN3:FL TEST:PAT ELSE:
NEXT1 LCB CPY:SEL,2,CHN:31 IF: TEST MODES 0,1 & 2
JMP TEST:PAT
S:TEST LPI 0 ORIF: DIAGNOSTICS 3-1
CHN:31 LCB CPY:SEL,X'31',CHN32 ORIF: DIAGNOSTICS 3-2
JMP TEST:PAT
CHN32 LCB CPY:SEL,X'32',SYNC:RET
TEST:PAT LPI 3
MVI TEST:PNT,TEST:TBL
MVI TEST:CNT,0 START TEST PATTERN TIMER
SYNC:RET RFS
*
PAGE
ORG X'600'
***************************************
* *
* START UP POWER ON RESET *
* *
***************************************
START:UP DIF
CAL STRT:UP2 SAVE ADDRESS OF NO:STRT ON STACK
*
NO:STRT JMP NO:STRT ONLY WAY TO GET HERE IS
* VIA AN EXTRA RFI OR RFS.
STRT:UP2 LPI 0
CAL CHK:MEM CHECK RAMS & ROMS
CAL USRT:RS CLEAR USART BUFFERS
CAL USRT:INI INITIALIZE USART
CAL IN:COL2 READ ZERO KEY
JT 2,ON:LED IF: ZERO KEY DEPRESSED
INP T,IN0 ANDIF: DOOR INT'LOCK MADE
CPL T
JT DOOR:ILK,ON:LED
CAL DSP:FLT
LPI 0
MVI KBD:REG,X'C0' SUPPRESS ZERO BUT ENABLE KYBD
LPI 2 DISPLAY 2L
STB DIAG:FLG ENABLE DIAGNOSTICS
IOR FLAG1,T
LPI 1
MVI ROUT0,X'84' OFF LINE LED ON &
MVI T,X'56'
OUT DATA:RW,T SEND OFF LINE STATUS 'V'
JMP PORT:0 ELSE:
ON:LED LPI 1
LCB FAULTS,X'BB',LEDS:ON
MVI T,X'38' IF: CHECKSUM FAILURE
OUT OUT0,T
LB:OUT STB LED:TEN DISPLAY 'LL'
OUT OUT1,T
IBNZ TEMP1,LB:OUT & MULTIPLEX IT
BL:OUT STB LED:ONE @ 5 MS. PER SEGMENT
OUT OUT1,T RATE.
IBNZ TEMP1,BL:OUT
CLR T
OUT OUT1,T TURN OFF THE MUX STROBES
JMP START:UP DO NOT POWER UP
LEDS:ON MVI ROUT0,X'88'
PORT:0 OUT OUT0,ROUT0 ELSE:
LPI 3 TURN ON ON-LINE LED
MVI T,X'FF' & DISPLAY '2L'
MOV TEST:CNT,T
MOV PAGE:CNT,T
MOV PAP:CNT,T TURN OFF ALL TIMERS
MOV STAT:CNT,T
MOV TIM1:CNT,T
MOV STAK:CNT,T
MOV TIM2:CNT,T
LPI 1
MOV T,ROUT0 IF: NOT DIAGNOSTIC MODE
JT OFF:LINE,SET:WDT
LPI 2
MVI LOOP:CNT,-60 SET STANDBY TO 3 MINUTES
CAL WAIT:
SET:WDT LPI 1
INP IN:ZERO,IN0 READ INITIAL INPUTS
INP IN:ONE,IN1
CAL PPR:CK CHECK PAPER PATH
CAL TIMR:ON
EIM EXTF ENABLE THE EXTERNAL INTERRUPTS
EIF ENABLE THE SYSTEM INTERRUPTS
JMP STATE:CK WAIT FOR A CHANGE IN STATE
*
CHK:MEM MVI R0,62
LCB R0,62,RAM:FAIL IF: REG.R0 DOES NOT COMPARE
MVI R0,-63 WITH COMPLEMENT OF -63 AND -63
LCB R0,X'C1',RAM:FAIL
* DECLARE RAM FAILURE
FIL:REG MOV T,R0
MOV *R0,T
IBNZ R0,FIL:REG FILL ALL RAM REGS WITH
* RELATIVE ADDRESSES
MVI R0,-63
REG:CHK MOV T,*R0
CMP R0,T COMPARE RAM WITH REL ADDR.
JNZ RAM:FAIL IF: RAM REG NOT EQUAL
IBNZ R0,REG:CHK DECLARE RAM FAILURE
*
MVI R0,-63
FIL:REGC MOV T,R0
CPL T
MOV *R0,T FILL ALL RAM REGS. WITH
IBNZ R0,FIL:REGC COMPLEMENT OF REL. ADDR.
*
MVI R0,-63
REG:CHKC MOV T,*R0
CPL T COMPARE RAM REG. WITH
CMP R0,T COMPLEMENT OF REL. ADDR.
JNZ RAM:FAIL IF: RAM REG. NOT EQUAL
IBNZ R0,REG:CHKC DECLARE RAM FAILURE
*
CLR T
MVI R0,-63 IF: RAM REGS. O.K
CLR:RAMS MOV *R0,T
IBNZ R0,CLR:RAMS CLEAR ALL RAMS
MVI KBD:REG,X'70'
STB WD:TMR ALLOW APPROX. 60 MS.
OUT OUT3,T FOR WDT TOGGLE.
*
SUM0 MOV T,R0
MPM T,0
ADD R1,T
MOV T,R0
MPM T,1
ADD R1,T
MOV T,R0
MPM T,2
ADD R1,T ADD CONTENTS OF ALL ROM
MOV T,R0 LOCATIONS TO R1.
MPM T,3
ADD R1,T
MOV T,R0
MPM T,4
ADD R1,T
MOV T,R0
MPM T,5
ADD R1,T
MOV T,R0
MPM T,6
ADD R1,T
MOV T,R0
MPM T,7
ADD R1,T
MOV T,R0
MPM T,8
ADD R1,T
MOV T,R0
MPM T,9
ADD R1,T
MOV T,R0
MPM T,X'A'
ADD R1,T
MOV T,R0
MPM T,X'B'
ADD R1,T
MOV T,R0
MPM T,X'C'
ADD R1,T
MOV T,R0
MPM T,X'D'
ADD R1,T
MOV T,R0
MPM T,X'E'
ADD R1,T
MOV T,R0
MPM T,X'F'
ADD R1,T
IBNZ KBD:REG,INC:R0
CLR T
OUT OUT3,T WDT TOGGLE
INC:R0 IBNZ R0,SUM0
*
NEG T SUBTRACT THE VALUE OF THE
ADD R1,T CHECKSUM BYTE (LOC FFF CONTENTS
NEG T STILL IN T REG)
CMP R1,T COMPARE THE SUM TO CHECKSUM BYTE
*
LPI 1
MVI FAULTS,X'3B'
JEQ DSP:2L IF: CHECKSUM FAILED
RAM:FAIL LPI 1
MVI FAULTS,X'BB' DISPLAY LL
DSP:2L RFS
*
*
PAGE
*
ORG X'700'
*
**********************************
* GO TO SLEEP EVENT; TIMER 1 *
**********************************
*
ST@SLEEP MOV T,FLAG3 IF: 3 MINUTE WAIT STATE
JT WAIT:FLG,SLP:RET RETURN
LPI 2
MOV T,FLAG1
CPL T
JT DIAG:FLG,INC:SLP IF: DIAG. MODE
LCB LOOP:CNT,43,INC:SLP
CAL DIAG:OFF TURN OFF DIAG. OUTPUTS
INC:SLP LPI 2
LCB LOOP:CNT,0,INC:FCTR AFTER 3 MIN.
JMP INC:LCTR
INC:FCTR IBNZ LOOP:CNT,INI:STBL IF: OUTTER COUNTER = 0
INC:LCTR IBNZ FAN:CTR,INI:FCTR ANDIF: INNER COUNTER = 0
LPI 3
MVI TIM1:CNT,0 SEND ABOUT TO GOTO
LPI 2 SLEEP STATUS ASCII 'Y'
MVI IOT:STAT,X'59'
RFS INITIALIZE OUTTER COUNTER
* & GO TO SLEEP EVENT TABLE
INI:FCTR MVI LOOP:CNT,-255
INI:STBL LPI 3
MVI TIM1:CNT,0
MVI TIM1:PNT,SLP:TBL
SLP:RET RFS
*
*
*******************************
* ENTER GOTO SLEEP STATE *
*******************************
*
SLEEP@ MOV T,ROUT0
JT OFF:LINE,SLP:RET
LPI 2
LCB IOT:STAT,X'59',SLP:RET
LPI 1
STB GO:SLEEP IF: STATUS 'Y'; ABOUT TO GOTO SLEEP
IOR ROUT2,T ANDIF: ON-LINE MODE
RFS GOTO SLEEP NOW
PAGE
*
*************************************
* *
* REGISTRATION SWITCH INTERROGATION *
* DONE IN STATE CHECKER. *
* *
*************************************
CHK:REG MOV T,ROUT3
JT MN:DRV,CK:EXSW IF: MAIN DRIVE IS OFF
STB TEST:1
IOR ROUT2,T TURN OFF A/O MOD.
JMP CHK:RET
*
CK:EXSW JMP EXIT:CK ELSE:
EXT:RET LPI 1 IF: EXIT SW. JAM TIMER ACTIVE
INP T,IN0 CHECK EXIT SW
JT REG:SW,TE:LOOK ELSE
MOV T,FLAG3 INTERROGATE REG SW.
JT REG:FLG,BUCKLE
STB REG:FLG IF LEAD EDGE IS FOUND
IOR FLAG3,T
MVI COUNTER,-14 INIT. FEEDER BUCKLE
MOV T,ROUT0 TIMER TO 70.56 MS.
JT ON:LINE,FEED:OFF
LPI 0
LCB CPY:SEL,X'51',CK:55
JMP DSP:TIM
CK:55 LCB CPY:SEL,X'55',FEED:OFF
DSP:TIM MOVD T,PAP:CNT IF:DIAG. 8-51 OR 8-55
MOV DGN:SAV,T DISPLAY TIME BETWEEN FEEDERS
CAL REAL:TIM ON AND REG SW. ACTUATION.
FEED:OFF JMP CHK:RET
*
BUCKLE IBNZ COUNTER,REG:END
MOV T,ROUT1
JT UP:TRAY,FDR:OFF IF: FEEDERS ARE ON
JT LWR:TRAY,FDR:OFF ANDIF: 70.56 MS. AFTER
JMP CHK:RET LE@REG
FDR:OFF CLB UP:TRAY
AND ROUT1,T
CLB LWR:TRAY TURN OFF FEEDERS
AND ROUT1,T
OUT OUT1,ROUT1 LOAD PAPER SEQUENCE CODE
JMP CHK:RET
*
TE:LOOK MOV T,FLAG3
CPL T
JT REG:FLG,REG:END IF: TRAIL EDGE AT REG. SW.
CLB REG:FLG RESET LE@REG FLAG
AND FLAG3,T
LPI 1
MOV T,ROUT0
JT ON:LINE,LE:TIMR
LPI 2
MOV T,FLAG1
CPL T
JT CONT:FLG,LE:TIMR IF: OFF LINE KEY
LPI 0 DISABLE DIAG. 8-52
LCB CPY:SEL,X'52',LE:TIMR
MOVD T,TIM1:CNT IF: DIAG. 8-52
MOV DGN:SAV,T DISPLAY TIME BETWEEN REG ROLLS ON
CAL REAL:TIM AND REG SWITCH DEACTUATION.
LE:TIMR LPI 3
MVI TIM1:PNT,RR:TBL BUMP POINTER FOR LE@EXIT CHECK
REG:END JMP CHK:RET
*
*
*
*
****************************************
* EXIT SWITCH INTERROGATION *
****************************************
*
EXIT:CK LPI 3
MVI T,LAT:EXIT
CMP TIM1:PNT,T IF: POINTER @ LE@EXIT
JNE E4:CHK CHECK EXIT SW.
LPI 1
MOV T,IN:ZERO
JT EXIT:SW,LECK:RET IF: EXIT SW IS MADE
MOV T,ROUT0
JT ON:LINE,BMP:TIM1
LPI 0
LCB CPY:SEL,X'53',BMP:TIM1
MOVD T,TIM1:CNT IF: DIAGNOSTICS 8-53
MOV DGN:SAV,T
CAL REAL:TIM DISPLAY EXIT SW. DE-ACT.
BMP:TIM1 LPI 3 TIME FROM INVERTER ON EVENT.
MVI TIM1:PNT,BL:FLT
LECK:RET JMP CHK:RET BUMP E3 JAM TIMER
PAGE
*
***************************
* TRAIL EDGE @ EXIT CHECK *
***************************
*
E4:CHK MVI T,TAT:EXIT
CMP TIM2:PNT,T IF: TE@EXIT TIMER SET
JNE E4:FIN
*
LPI 1
MOV T,IN:ZERO ANDIF: EXIT SW. DE-ACTUATED
CPL T
JT EXIT:SW,E4:FIN
LPI 3
MVI TIM2:PNT,BIL:TBL BUMP TE@EXIT TIMER TO
LPI 1 BILLING METER OFF EVENT
MOV T,ROUT0
JT ON:LINE,TE:EX1
LPI 0
LCB CPY:SEL,X'54',TE:EX1
MOVD T,TIM2:CNT
MOV DGN:SAV,T IF: DIAGNOSTICS 8-54
CAL REAL:TIM DISPLAY REG.SW DEACTUATION
TE:EX1 CAL CHK:STAK TO EXIT SW. DE-ACTUATION TIME
LPI 1
STB BIL:MTR1
IOR ROUT3,T CHECK STACKER
MOV T,FLAG2 TURN ON PRINT COUNTER
JT OFF:FLG,PAGE:DEL ( BILLING METER )
MOV T,ROUT0
JT OFF:LINE,E4:FIN IF: OFF LINE KEY PRESSED DURING
PAGE:DEL CAL TX:RDY ON LINE MODE.
MVI T,X'53' ORIF: ON LINE MODE
OUT DATA:RW,T IF: TRANSMIT READY
E4:FIN JMP EXT:RET SEND PAGE DELIV.
* STATUS 'S'
PAGE
*********************************************************
* DISPLAY ROUTINES
*********************************************************
*
*
*
***************************************************************
*********ROUTINE TO PUT A CHARACTER ON THE DISPLAY*************
***************************************************************
*
DSPLY LPI 0
MOV TEMP4,T SAVE CHARACTERS
MOV TEMP5,T
*
MVI T,X'0F' ISOLATE LOW ORDER CHARACTER
AND TEMP4,T
*
CPL T ISOLATE HIGH ORDER
AND TEMP5,T
*
MVI T,DSP:TBL GET SEGMENT PATTERN FOR
ADD TEMP4,T LOW ORDER CHARACTER
MOV T,TEMP4
MPM T,HIADDR(DSP:TBL)
MOV DSP:ONES,T
*
SF:O MVI T,X'0F' SET UP LOOP
CMP TEMP5,T TO COUNTER #
JGE SF:1 IN HIGH ORDER
MVI T,-16
ADD TEMP5,T ACCUMMULATE #
STB 0 IN LOW ORDER
ADD TEMP5,T
JMP SF:O
*
SF:1 MVI T,DSP:TBL
ADD TEMP5,T
MOV T,TEMP5 GET SEGMENT PATTERN
MPM T,HIADDR(DSP:TBL) FOR 10'S DIGIT
MOV DSP:TENS,T
*
MVI T,X'3F' SURPRESS LEADING 0'S
CMP DSP:TENS,T
JNE :OK
MOV T,ZERO:FLG
JT 1,:OK
MVI DSP:TENS,BLANK:
:OK RFS
*
PAGE
*
***********************************
* EVENT #1 HARD JAM DUMMY STATE *
* IMMEDIATE SHUTDOWN TO AVOID FIRE*
***********************************
*
HRD:JAM LPI 1
STB PRNT:FLG SET COLD START FLAG
IOR FLAG2,T
CLR T CLEAR FLAG3 BYTE
AND FLAG3,T
LPI 2
AND FLAG1,T CLEAR DIAG. FLAGS
AND OS:BYTE,T CLEAR OFFSET REG.
LPI 1
STB INVERT TURN ON INVERTER
IOR ROUT2,T
MVI T,X'87' TURN OFF ALL OUTPUTS EXCEPT
AND ROUT3,T BLADE,FAN & MAIN DRIVE
STB JAM:FLG SET HARD JAM FLG TO FORCE
IOR FLAG2,T BREAKING OF INTERLOCKS.
LPI 0
MVI KBD:REG,X'FF'
LPI 3
MVI STAK:CNT,0 TURN OFF INVERTER AFTER 1.7 SEC.
MVI STAK:PNT,INV:TBL2
LPI 1
MVI T,X'B7' TURN OFF SHUTTER & OFFSET
AND ROUT2,T
CLB SOFT:JAM CLEAR SOFT JAM FLAG
AND FLAG2,T
CAL BL:ON
CK:DR LPI 1
MVI T,X'07' TURN OFF PAPER FEED CLUTCHES
AND ROUT1,T AND HIGH VOLTAGE DC.
LPI 3
CLR T
MOV STAT:CNT,T RESET THE STATE EVENT COUNTER
MVI STAT:PNT,JAM:HRD AND THE POINTER TO HARD JAM
CPL T DISABLE ALL OTHER COUNTERS
MOV PAGE:CNT,T TO PREVENT MULTIPLE JAMS
MOV TEST:CNT,T
MOV PAP:CNT,T
MOV TIM1:CNT,T
RFS
PAGE
************************************************
* THIS SUBROUTINE IS USED BY TEST KEY *
************************************************
STRT:SUB LPI 1
MOV T,FLAG3
JT WAIT:FLG,END:ST IF: 3 MINUTES WAIT STATE
MOV T,FLAG2
JT JAM:FLG,END:ST ORIF: HARD JAM CONDITION
JT ZAP:FLG,END:ST ORIF: ZAP CONDITION
CPL T
JT SOFT:JAM,BL:DSP SEND COMMAND NOT ACCEPTED
CLB SOFT:JAM ILLEGAL SEQUENCE 'O'- RETURN
AND FLAG2,T ELSE:
BL:DSP CAL DSP:DIAG BLANK DISPLAY
LPI 2
CLR T
MOV DISPLAY,T CLEAR DISPLAY REG.
LPI 3
MVI STAT:PNT,ST:TBL SET STATE POINTER TO START COLD
MOV STAT:CNT,T
CK:TIMR1 LPI 3
MVI T,LAT:EXIT
CMP TIM1:PNT,T IF TIM1 PNTR AT TIM:TBL OR >
JRLE END:STRT STOP TIM1 CNTR
MVI TIM1:CNT,X'FF'
END:STRT LPI 1
JMP WT@REST
END:ST MOV T,ROUT0 IF: THIS ROUT. IS CALLED
JT ON:LINE,SAVE@ VIA USART INTERRUPT
WT@REST MOV T,ROUT0
JT OFF:LINE,RETN: RETURN TO RESTORE IN ZERO:XING
JMP RESTORE
SAVE@ JMP SAVE: ELSEIF: CALLED VIA TEST KEY
RETN: RFS
* RETURN TO WTREST IN ZERO:XING
*
*
DSP:DIAG MOV T,ROUT0
JT OFF:LINE,REF@DSP IF: OFF LINE ; REF. DISPLAY
LCB FAULTS,X'C4',CHK:C3
CAL BLNK:DSP IF: C4 JAM; BLANK DISPLAY
CHK:C3 LCB FAULTS,X'C3',TEST:RUN
CAL BLNK:DSP IF: C3 JAM; BLANK DISPLAY
TEST:RUN MOV T,FLAG2 IF: RUN FLG; DON'T BLANK
JT RUN:FLG,RETN: THE DISPLAY
JMP BLNK:DSP ANDIF: KEY ENTRY IS NOT ZERO
REF@DSP CAL BLNK:OFF
LPI 0 DISPLAY KEY ENTRY
LCB CPY:SEL,0,DSP:ON ELSE:
JMP BLNK:DSP BLANK DISPLAY
DSP:ON JMP REF:DSP & SEND STANDBY STATUS 'A'
PAGE
*****************************************************
* SYSTEM ROUTINE TO INCREMENT TO NEXT STATE. *
* CALLED BY STATE CHECKER *
*****************************************************
INCREM MOV T,*TBL:CNT
CPL T
NEG T
MOV TEMP2,T INCREMENT THE TABLE COUNTER BY 2
CPL T INC IS DONE BY ONES COMPL THE 2'S
NEG T COMPLEMENT.
MOV *TBL:CNT,T
RFS
PAGE
*
*
**************************************
* *
* SUBROUTINE FOR DISPLAYING *
* NUMERIC KEY ENTRY DURING *
* OFF LINE TEST 1 MODE *
* *
**************************************
*
SEL:DSP LPI 1
MOV T,ROUT0
JT ON:LINE,RETN:
LPI 0 IF: OFF LINE ACTIVE
MOV T,CPY:SEL DISPLAY KEY ENTRY
JMP DSPLY
*
*
*
**************************************
* *
* SUBROUTINE TO BLANK UNIT AND *
* TENS DIGIT. *
* *
*************************************
*
BLNK:DSP LPI 0
CLR T
MOV DSP:TENS,T TURN OFF DISPLAY
MOV DSP:ONES,T
MVI T,X'FC' MASK OFF THE DIGIT ENTRY FLGS
AND ZERO:FLG,T CLR ZERO ENTRY FLAGS
LPI 1
MVI FAULTS,0 CLEAR DISPLAY FAULTS REG.
BLNK:OFF LPI 1
MOV T,FLAG2
JT RUN:FLG,BLNK:RET IF: NOT RUN MODE
LPI 3
MVI TIM2:CNT,X'FF' TURN OFF BLINK TIMER
MVI TIM2:PNT,0
BLNK:RET LPI 1
RFS
*
**************************************************
* SET UP DISPLAY FAULT CODE AND BLINK TIMER *
* FOR 2/3 SEC. ON AND 1/3 OFF. (TIMER 2 USED) *
**************************************************
BL@ON LPI 3
CLR T
MOV TIM2:CNT,T SET UP TIMER 2 FOR BLINK EVENTS
MVI TIM2:PNT,BL:FLT
DSP:FLT MOVD T,R31 DISPLAY FAULT CODE
JMP DSPLY
*
PAGE
*
*************************************
* *
* KEYBOARD ENTRY IS DECODED *
* HERE FOR KEY STATUS TRANS- *
* MISSION TO SERVER. *
* *
*************************************
*
KEY:CODE LPI 1
MOV T,ROUT0
JT OFF:LINE,KEY:RET IF: ON-LINE MODE
LPI 0
MVI CPY:SEL,0 DO NOT STORE KEY INFO'
MOV T,DSP
LPI 2
MVI TEMP6,X'30' DECODE KEY INFO'
IOR TEMP6,T
MOV T,TEMP6
OUT DATA:RW,T & TRANSMIT IT TO SERVER
KEY:RET LPI 0
RFS ELSE:
* RETURN
*
*
*******************************
* CLEAR KEY FUNCTION ROUTINE *
*******************************
*
CLR:KEY MOV T,KBD:REG IF: CLEAR KEY DISABLED
JT CLR:ENT,NO@ACTN RETURN
* ELSE:
* DO CLEAR KEY FUNCTION
LPI 2
MOV T,FLAG1
CPL T IF: DIAGNOSTIC MODE
JT DIAG:FLG,DSP:CLR
CLB CONT:FLG DISABLE DIAG. CONTINUOUS
AND FLAG1,T COPY CYCLE.
LPI 0
MVI KBD:REG,X'C0' ENABLE THE KEYBOARD
LPI 1
MOV T,FLAG2
JT RUN:FLG,KEY:RET
CAL DIA:ROUT TURN OFF ALL OUTPUTS
LPI 0
MVI CPY:SEL,0 CLEAR KEY ENTRY REG.
JMP REV:LEVL BACK TO REVISION LEVEL
DSP:CLR LPI 0
MVI CPY:SEL,0 ELSE:
CAL BLK:DSP BLANK DISPLAY
CLR:STAT MOV T,ROUT0 IF: ON LINE
JT ON:LINE,CLR: SEND KEY STATUS ':'
RFS
CLR: MVI T,X'3A'
OUT DATA:RW,T RETURN
NO@ACTN RFS
PAGE
*
*******************************
* TEST KEY FUNCTION *
*******************************
*
TEST@ MOV T,KBD:REG
JT TEST:ENT,NO@ACTN IF: TEST KEY DISABLED
LPI 1 RETURN
MOV T,ROUT0
JT ON:LINE,START:1 IF: OFF LINE MODE & STANDBY
MOV T,FLAG2
JT RUN:FLG,NO@ACTN
CAL STRT:SLP START 3 MINUTE TIMER
JMP DIA:MODE DO DIAGNOSTIC ROUTINE
START:1 MVI T,X'3B' ELSE:
OUT DATA:RW,T SEND TEST KEY STATUS ';'
START:2 RFS
*
*****************************
* PAPER PATH JAM CHECK;DONE *
* DURING POWER UP. *
*****************************
*
PPR:CK MOV T,IN:ZERO
JT REG:SW,E4:CK IF: PAPER UNDER REG. OR EXIT SW.
JMP E2:JAM
E4:CK JT EXIT:SW,STANDBY ENTER HARD JAM STATE
JMP E4:JAM ELSE:
STANDBY LPI 2
MOV T,FLAG1
LPI 1
JT DIAG:FLG,START:2
JMP STND:BY
PAGE
ORG X'900'
*
******************************************
* *
* ROUTINE CHECKS SERVER TERMINATIONS. *
* STACKER TRAY, PAPER TRAY AND *
* LOW TONER SWITCHES ARE ALSO *
* CHECKED HERE *
* *
******************************************
*
SERV:STK JT SERV:OFF,RST:USRT
JT SERV:DIS,RST:USRT IF: SERVER OFF OR DISCONNECTED
MOV T,FLAG2 RESET USART
CPL T ELSE:
JT SERV:FLG,CHK:FLG2
CLB SERV:FLG IF: USART WAS OFF BEFORE
AND FLAG2,T
CAL USRT:INI RE-INIT. USART
CHK:FLG2 LPI 1
MOV T,FLAG2
JT JAM:FLG,CHK:WAIT IF: HARD JAM & NOT WAIT STATE
JT RUN:FLG,TRAY:RET ANDIF: NOT RUN STATE
CHK:WAIT LCB FAULTS,X'B1',CK:TRA
RFS
CK:TRA MOV T,IN:ZERO ANDIF: DOOR IS NOT OPEN
CPL T
JT DOOR:ILK,TRAY:RET CHECK TRAY SWITCH
*
*
* PAPER TRAY SWITCH INTERROGATION
*
MOV T,IN:ONE
JT TRAY:SW,TRAY:OK
LCB FAULTS,X'C3',LOAD:C3
RFS
LOAD:C3 MOV T,FLAG2
JT JAM:FLG,TRAY:RET IF: NOT HARD JAM
MVI FAULTS,X'C3' ANDIF: TRAY IS OPEN
CAL BL@ON DISPLAY TRAY OPEN FAULT 'C3'
LPI 2 PRE-LOAD TRAY OPEN STATUS 'Q'
MVI IOT:STAT,X'51'
OK:RET LPI 1 ELSE:
TRAY:RET RFS
* CHECK PAPER PATH
TRAY:OK LCB FAULTS,X'C3',STK:TRAY
MOV T,FLAG2
JT JAM:FLG,PR:PTH
MVI FAULTS,0
CLB SOFT:JAM ALLOW SERVER TO DISPLAY
AND FLAG2,T STATUS IF TRAY WAS OPENED
JMP TRAY:CLR AFTER 'C4' JAM.
*
PR:PTH JMP PPR:PATH
PAGE
*
* STACKER TRAY SWITCH INTERROGATION *
*
STK:TRAY MOV T,FLAG2 IF: HARD JAM
JT JAM:FLG,TRAY:RET ORIF: SOFT JAM
JT SOFT:JAM,TRAY:RET RETURN
LPI 2
LCB IOT:STAT,X'58',STK:SW
JMP STK:SW2
STK:SW LPI 1
INP T,IN2 IF: STACKER TRAY FULL
JT TRAY:FUL,CK:TONER DISPLAY 'F5'
JMP TRA:FULL ELSE:
* CHECK PAPER PATH
STK:SW2 LPI 1
INP T,IN2
CPL T
JT TRAY:FUL,TFLT:RT
JMP TRAY:CLR
*
* LOW TONER INTERROGATION *
*
*
CK:TONER LPI 1
MOV T,FLAG2
JT RUN:FLG,TFLT:RT IF: RUN MODE
LPI 2 DO NOT CHECK TONER
LCB IOT:STAT,X'54',TONR:SW
JMP TONR:SW2
TONR:SW LPI 1
INP T,IN2
JT LO:TONER,TFLT:RT
MVI FAULTS,X'A1'
* IF: LOW TONER CONDITION
DIAG9:3 LPI 2
MOV T,FLAG1
CPL T
JT DIAG:FLG,TONR:FLT IF: DIAG. 9-3
LPI 0
LCB CPY:SEL,X'93',TONR:FLT
JMP TFLT:RT RETURN
*
TONR:FLT LPI 1 ELSE:
CAL DSP:FLT DISPLAY 'J1'
LPI 2
MVI IOT:STAT,X'54' SEND STATUS 'T' TO SERVER
TFLT:RT LPI 1 ELSE:
RFS CHECK IF DIAG. MODE
* IF TRUE
TONR:SW2 LPI 1 PUT BACK DIAG. CODE
INP T,IN2 ON DISPLAY.
CPL T
JT LO:TONER,TFLT:RT RETURN TO STANDBY
TRAY:CLR CAL BL@OFF BLANK DISPLAY
LPI 1
CAL SEND:A
LPI 1 IF: ON-LINE & READY (STATUS 'A')
MOV T,ROUT0
JT OFF:LINE,NO:SLEEP RE-INIT. GOTO SLEEP TIMER
CAL INI:SL
NO:SLEEP LPI 1
MOV T,FLAG2
JT RUN:FLG,TRAY:RET
JMP DSP:DIAG
*
PAGE
*
******************************
* USART RESET ROUTINE: *
* ACTIVE WHEN SERVER IS *
* TURNED OFF OR DISCON- *
* NECTED. *
******************************
*
RST:USRT STB SERV:FLG
IOR FLAG2,T
CAL USRT:RS
JMP CHK:FLG2
PAGE
*
*********************************************
** DIAGNOSTIC DISPLAY **
** ROUTINES **
** **
** USED FOR DISPLAYING REAL TIME **
** RESULTS FOR DIAGNOSTIC TIMING **
** TESTS **
*********************************************
*********************************************
**
SEC:DSP LPI 0
CLB 1
AND ZERO:FLG,T
MOV T,SECS
JMP DSPLY DISPLAY SECONDS
*
BLNO:DSP LPI 3 TURN OFF REAL TIME DISPLAY TIMER
MVI TEST:CNT,X'FF'
BLN:DSP LPI 0
CLR T BLANK DISPLAY
AND DSP:ONES,T
AND DSP:TENS,T
RFS
*
MS:DSP LPI 0
STB 1
IOR ZERO:FLG,T
MOV T,DGN:SAV DISPLAY MILLISECONDS
JMP DSPLY
PAGE
*
************************************
* *
* STACKER SWITCH INTERROGATION: *
* STACKER FAULT F5 IS DISPLAYED *
* AND STACKER FULL STATUS IS SENT *
* TO SERVER IF SWITCH IS MADE.. *
* *
************************************
*
CHK:STAK LPI 1
MOV T,FLAG2
JT JAM:FLG,F5:RET IF: NO HARD JAM
INP T,IN2 ANDIF: STACKER TRAY SW. IS MADE
JT TRAY:FUL,F5:RET1
TRA:FULL MVI FAULTS,X'F5' DISPLAY F5 & SEND
CAL DSP:FLT STATUS 'X' TO SERVER
LPI 2
MVI IOT:STAT,X'58'
LPI 1
F5:RET RFS
F5:RET1 LCB FAULTS,X'F5',F5:RET ON THE OTHER HAND,
MVI FAULTS,0 IF AN F5 WAS DECLARED
* ON A PREVIOUS COPY CYCLE AND THE FAULT HAS BEEN
* CLEARED IN THE MEANTIME, CLEAR FAULTS AND BLANK
* THE DISPLAY NOW.
JMP BL@OFF
PAGE
*
**************************************
* STACKER CONTROL ROUTINE *
**************************************
*
INV@ON STB INVERT TURN ON INVERTER
IOR ROUT2,T
LPI 3
MVI TIM2:PNT,TAT:EXIT
MVI TIM2:CNT,0 START TE@EXIT TIMER
MVI STAK:CNT,0 RE-INIT. STACKER TIMER
*
LPI 1
MOV T,ROUT0 IF: ON-LINE MODE
JT ON:LINE,CK:OS ORIF: CYCLING OFF LINE
MOV T,FLAG2
JT OFF:FLG,CK:OS PROCESS OFFSET
LPI 0 ELSE:
LCB CPY:SEL,2,INV:RET IF: TEST MODE 2
JMP OFFS:ON TURN ON OFFSET SOL.
CK:OS LPI 2
DIF
MOV T,OS:BYTE SHIFT OFFSET BYTE
ADD OS:BYTE,T
MVI T,X'E6'
AND OS:BYTE,T CLEAR BIT 5 & OS:FLG3
JC OFFS:ON IF: CARRY FLAG IS SET
INV:RET RFS ENABLE OFFSET SOL.
* ELSE:
*
OFFS:ON LPI 1
STB OFF:SET RETURN
IOR ROUT2,T
RFS
*
OFST@OFF CLB OFF:SET TURN OFF OFFSET SOL.
AND ROUT2,T
RFS
*
INV@OFF CLB INVERT
AND ROUT2,T TURN OFF INVERTER
RFS
PAGE
ORG X'9F1'
*
**********************************************
* *
* SERVER COMMUNICATIONS HANDLER *
* *
**********************************************
*
USRT:INT LPI 1
MOV T,FLAG2 IF: CYCLING OFF LINE
JT OFF:FLG,CHK:COM PROCESS COMMANDS
MOV T,ROUT0
JT ON:LINE,CHK:COM IF: OFF LINE TEST MODE
LPI 2
INP T,DATA:RW DUMMY READ DATA
JMP STAT:V (DATA MUST BE READ AFTER
* EVERY USART INTERRUPT)
CHK:COM LPI 3
MVI T,SLP:TBL-1
CMP TIM1:PNT,T IF: TIMER 1 PNT @ SLP:TBL OR >
JRGT INI@SL
JMP CK:CMD
INI@SL CAL INI:SL RE-INIT. GOTO SLEEP TIMER
CK:CMD LPI 2
INP T,DATA:RW READ SERVER COMMAND DATA
*
JT 6,PRINT: IF: PRINT COMMAND
JT 5,CHK:4 PROCESS PRINT COMMAND INFO'
JMP COM:UNR
CHK:4 JT 4,DISPLAY: ELSEIF: DISPLAY STATUS COMMAND
JMP READ: PROCESS DISPLAY INFO'
* ELSEIF: READ STATUS COMMAND
* SEND IOT CURRENT STATUS
* ELSE:
* SEND COMMAND UNRECOGNIZED
* STATUS 'N'
PRINT: MOV TEMP6,T
MVI T,X'5A'
CMP TEMP6,T IF: GO TO SLEEP COMMAND
JNZ CHK:UNR IF: STANDBY READY MODE
LCB IOT:STAT,X'41',SAVE:
LPI 1
STB GO:SLEEP GO TO SLEEP IMMEDIATELY
IOR ROUT2,T ELSE:
JMP RES:TORE SEND 'O'; ILLEGAL SEQ.
*
CHK:UNR INP T,DATA:RW
MVI TEMP6,X'AE' CHECK FOR OTHER POOSIBLE
AND TEMP6,T COMBINATION OF PRINT
JNZ COM:UNR COMMANDS.
* IF: PRINT COMMD. NOT FOUND
* COMMD. UNREC. STATUS 'N'
PAGE
LPI 1
MOV T,FLAG2
JT OFF:FLG,SAVE:
MOV T,FLAG3 IF: MULTIPLE PRINT COMMANDS
JT CMD:FLG,SAVE: ORIF: TRAY SW. DE-SELECTED
MOV T,IN:ONE ORIF: CYCLING OFF LINE
CPL T IGNORE PRINT COMMANDS
JT TRAY:SW,SAVE: SEND ASCII 'O'; ILLEGAL SEQ.
LPI 2
MOV T,OS:BYTE
JT OS:FLG1,SET:FLG2
STB OS:FLG1 IF: FIRST PRINT COMMAND
IOR OS:BYTE,T
INP T,DATA:RW IF: OFFSET NOT REQ'D
MOV FEED:COM,T
JT 0,SET:BIT7 DISABLE OFFSET SOL.
CLB 7 ELSE:
AND OS:BYTE,T ENABLE OFFSET SOL.
JMP CHK:RUN
*
SET:BIT7 STB 7
IOR OS:BYTE,T
JMP CHK:RUN
*
SET:FLG2 JT OS:FLG2,CHK:OS
STB OS:FLG2 IF: 2ND PRINT COMMAND
IOR OS:BYTE,T
INP T,DATA:RW IF: OFFSET NOT REQ'D
MOV FEED:COM,T
JT 0,SET:BIT6 DISABLE OFFSET SOL.
CLB 6
AND OS:BYTE,T ELSE:
JMP CHK:RUN
* ENABLE OFFSET SOL.
SET:BIT6 STB 6
IOR OS:BYTE,T
JMP CHK:RUN
*
CHK:OS STB OS:FLG3
IOR OS:BYTE,T SET OFFSET FLAG3
INP T,DATA:RW
MOV FEED:COM,T IF: PRINT COMMANDS > 2
JT 0,SET:BIT5
CLB 5 IF: OFFSET NOT REQ'D
AND OS:BYTE,T
JMP CHK:RUN DISABLE OFFSET
*
SET:BIT5 STB 5 ELSE:
IOR OS:BYTE,T
* ENABLE OFFSET SOL.
CHK:RUN LPI 1
MOV T,FLAG2
CPL T
JT PRNT:FLG,1ST:CPY
LPI 2 IF: RUN:READY TO FEED 'K'
LCB IOT:STAT,X'4B',SAVE: FEED NEXT COPY
LPI 1 ELSE:
MOV T,FLAG2 IF RUN FLAG, DON'T
JT RUN:FLG,NO:BLNK BLANK THE DISPLAY
CAL BLNK:DSP BLANK DISPLAY
NO:BLNK STB CMD:FLG START FROM COLD STATE
IOR FLAG3,T
JMP RESTORE INHIBIT MULTIPLE PRINT COMMANDS
SAVE: LPI 2
MVI TEMP6,X'4F'
JMP SEND:STA
1ST:CPY STB CMD:FLG
IOR FLAG3,T
JMP STRT:SUB
*
PAGE
DISPLAY: LPI 1
MOV T,FLAG2 IF: CYCLING OFF LINE
JT OFF:FLG,STAT:U SEND STATUS 'U'
JT SOFT:JAM,SAVE: IF: C4 JAM
JT JAM:FLG,SAVE: ORIF: HARD JAM
LCB FAULTS,X'C3',STAT:DSP
JMP SAVE: ORIF: TRAY OR DOOR OPEN
STAT:DSP LPI 2
INP T,DATA:RW DO NOT SERVICE DISPLAY COMMAND
MVI TEMP6,X'3F'
CMP TEMP6,T
JZ BLNK:DIS ELSEIF: BLANK DISPLAY COMMAND
DSP:STAT MVI TEMP6,LSB:MSK BLANK DISPLAY
AND TEMP6,T .
MOV T,DISPLAY GET PREVIOUS DIGIT INFORMATION
LPI 0
MOV TEMP4,T PLACE IT IN TENS DIGIT
MVI T,X'0F'
AND TEMP4,T
MVI TEMP3,-4
SHF:L MOV T,TEMP4
ADD TEMP4,T
IBNZ TEMP3,SHF:L
*
MOV T,TEMP4
LPI 2
MOV DISPLAY,T
MOV T,TEMP6
IOR DISPLAY,T
LPI 0
CAL ENTER:0 CALL ZERO SUPPRESSION ROUT.
LPI 2
MOV T,DISPLAY
CAL DSPLY ELSE:
MVI T,X'4C'
OUT DATA:RW,T SEND KEY PRESSED STATUS 'L'
JMP RESTORE TO THE SERVER.
*
READ: MOV TEMP6,T
MVI T,X'2F' IF DIPLAY 'F' COMMAND
CMP TEMP6,T
JZ DISPLAY: DISPLAY 'F'
*
INP T,DATA:RW
MOV TEMP6,T IF: READ STATUS COMMAND
MVI T,READ:MSK SEND MACHINE STATUS
CMP TEMP6,T
JNZ COM:UNR
STAT:U LPI 2
LCB PREV:STA,X'59',NOT:Y
JMP RESTORE
NOT:Y MOV T,IOT:STAT
OUT DATA:RW,T
JMP RESTORE
*
COM:UNR MVI T,X'51'
AND FEED:COM,T MASK OFF ILLEGAL COMMANDS
MVI TEMP6,UNREC:MK AND SEND COMMAND UNRECOGNIZED
JMP SEND:STA STATUS TO SERVER.
*
PCOL:ERR MVI TEMP6,X'4D' LOAD PARITY ERROR MASK
INI:USRT INP T,DATA:RW DUMMY READ DATA
CAL USRT:RS RESET USART
CAL USRT:INI RE-INI. USART
SEND:STA LPI 2
MOV T,TEMP6 SEND IOT STATUS
OUT DATA:RW,T
RES:TORE JMP RESTORE
*
BLNK:DIS LPI 1
MOV T,FLAG2
JT SOFT:JAM,CLR:DSP IF: SOFT JAM CONDITION
LPI 3
MVI T,BL:FLT-1 ORIF: BLINK TIMER ACTIVE
CMP TIM2:PNT,T
JRGT CLR:DSP DO NOT BLANK DISPLAY
CAL BLNK:DSP ELSE:
MVI T,X'4C' BLANK DISPLAY
OUT DATA:RW,T
CLR:DSP LPI 2 SEND STATUS 'L'
CLR T
MOV DISPLAY,T CLEAR PRESENT DISPLAY INFO'
JMP RESTORE
*
STAT:V MVI T,X'56'
OUT DATA:RW,T
JMP RESTORE
*
PAGE
*
*************************************
* USART RESET ROUTINE *
*************************************
*
USRT:RS CLR T
OUT CMD:MODE,T
OUT CMD:MODE,T OUTPUT 3 ZEROES AS COMMANDS
OUT CMD:MODE,T BEFORE SETTING 'IR' BIT IN
MVI T,X'40' COMMAND REGISTER.
OUT CMD:MODE,T (A QUIRK OF INTEL 8251)
RFS
*
*************************************
* USART INITIALIZATION ROUTINE *
*************************************
*
USRT:INI MVI T,X'5A'
OUT CMD:MODE,T SEND MODE INSTRUCTION
MVI T,X'35'
OUT CMD:MODE,T SEND COMMAND INSTRUCTION
INP T,DATA:RW DUMMY READ DATA
RFS
*
PAGE
*
*
*************************************
* *
* DIAGNOSTIC ROUTINE ACTIVE DURING *
* OFF LINE STATE.ROUTINE CORRESPOND-*
* ING WITH NUMERIC KEY ENTRY IS *
* ACTIVATED BY PUSHING TEST BUTTON. *
* *
*************************************
*
DIA:MODE LPI 2
MOV T,FLAG1 IF: UNDER DIAGNOSTICS
JT DIAG:FLG,CHK:CHN DO CHAIN SELECTION
LPI 0 ELSE:
LCB CPY:SEL,BLANK:,DIAG:1
JMP STRT:SUB IF: NO KEY ENTRY
DIAG:1 LCB CPY:SEL,1,DIAG:2 ORIF: KEY ENTRY = 1
JMP STRT:SUB FEED FROM UPPER TRAY
*
DIAG:2 LCB CPY:SEL,2,DIAG:RET ELSEIF: KEY ENTRY = 2
JMP STRT:SUB
* FEED FROM LOWER TRAY
*
CHK:CHN JT CHN3:FLG,SYS:TST IF: KEY 3; ENTER CHAIN 3 DIAG.
JT CHN6:FLG,COMP:61 ELSEIF: KEY 6; ENTER CHAIN 6 DIAG.
JT CHN8:FLG,COMP@81 ELSEIF: KEY 8; ENTER CHAIN 8 DIAG.
JT CHN9:FLG,COMP@91 ELSEIF: KEY 9; ENTER CHAIN 9 DIAG.
JT CN10:FLG,COMP@01 ELSEIF: KEY 10; ENTER CHAIN 10 DIAG.
*
* TEST KEY INTERROGATION *
*
LPI 0
LCB CPY:SEL,0,CHK:ENT
* ELSEIF: NO NUMERIC ENTRY
TEST:KEY LPI 3
MVI TEST:PNT,TKEY:TBL DEBOUNCE TEST KEY FOR 200 MS
MVI TEST:CNT,0 AND LOOK AT IT AGAIN.
RFS
*
DSP@OFF LPI 0
LCB CPY:SEL,0,DIA:MODE AGAIN MAKE SURE NO NUM. ENTRY
CHK:TST LPI 1
INP T,X'40' IF: TEST KEY RELEASED
CPL T
JT 3,REP:TEST
MVI T,X'04'
AND ROUT0,T TURN OFF DISPLAY &
JMP TESTK:LV RETURN TO REV. LEVEL
*
REP:TEST STB ON:LINE ELSE:
IOR ROUT0,T TURN ON ON-LINE LED
MVI FAULTS,X'88' & 7 SEGMENT LEDS WITH
CAL DSP:FLT '88'
JMP TEST:KEY & LOOK FOR TEST
* KEY AGAIN.
CHK:ENT LPI 0
LCB CPY:SEL,3,CHAIN:6
LPI 2 ELSE:
STB CHN3:FLG IF: KEY ENTRY 3
IOR FLAG1,T SELECT CHAIN 3
RFS
*
CHAIN:6 LCB CPY:SEL,6,CHAIN:8
LPI 2 ELSEIF: KEY ENTRY 6
STB CHN6:FLG SELECT CHAIN 6
IOR FLAG1,T
RFS
*
CHAIN:8 LCB CPY:SEL,8,CHAIN:9 ELSEIF: KEY ENTRY 8
LPI 2
STB CHN8:FLG SELECT CHAIN 8
IOR FLAG1,T
RFS
*
CHAIN:9 LCB CPY:SEL,9,CHAIN:10
LPI 2 ELSEIF: KEY ENTRY 9
STB CHN9:FLG
IOR FLAG1,T SELECT CHAIN 9
RFS
*
CHAIN:10 LCB CPY:SEL,X'10',BAD:ENT ELSEIF: KEY ENTRY 10
LPI 2
STB CN10:FLG SELECT CHAIN 10
IOR FLAG1,T
RFS ELSE:
*
BAD:ENT MOV T,CPY:SEL FLASH WRONG ENTRY
MOVD R31,T
JMP BL@ON
*
*
****************************************
* SYSTEM TEST & COMPONENT CONTROL *
****************************************
*
*
****************************
* CHAIN 3 DIAGNOSTICS *
****************************
SYS:TST LPI 0
LCB CPY:SEL,X'31',SYS:TST2
JMP STRT:SUB ELSEIF: CHAIN 3-0
* MAKE COPY FROM UPPER TRAY
SYS:TST2 LCB CPY:SEL,X'32',SYS:TST3
JMP STRT:SUB ELSEIF: CHAIN 3-2
* MAKE A COPY FROM LWR TRAY
SYS:TST3 LCB CPY:SEL,X'33',DIAG:4
AO:MODU LPI 1
CLB TEST:1 ELSEIF: COMPONENT CODE = 33
AND ROUT2,T TURN ON A/O MODUL.
STB MN:DRV ALONG WITH MAIN DRIVE
IOR ROUT3,T (LASER HITS THE DRUM)
OUT OUT3,ROUT3
RFS
*
DIAG:4 LCB CPY:SEL,X'34',DIAG:5
DIAG:4A LPI 1
STB MN:DRV ELSEIF: COMPONENT CODE 34
IOR ROUT3,T
STB TEST:1 TURN ON MAIN DRIVE
IOR ROUT2,T TURN OFF A/O MODUL.
STB SHUT:R TURN ON SHUTTER SOL.
IOR ROUT2,T & SHUTTER 50% DUTY
LPI 3 CYCLE AFTER 1.1 SEC.
MVI PAP:PNT,DIA:TBL2
MVI PAP:CNT,0
RFS
*
DIAG:5 LCB CPY:SEL,X'35',DIAG:6
CAL DRV:HV ELSEIF: COMPONENT CODE = 35
CAL DIAG:4A TURN MAIN DRV,HIGH VOLT.
JMP AO:MODU SHUTTER & A/O MODULATOR
*
DIAG:6 LCB CPY:SEL,X'36',DIAG:7
DRV:HV LPI 1 ELSEIF: COMPONENT CODE = 36
STB MN:DRV
IOR ROUT3,T TURN ON MAIN DRIVE
STB TEST:1
IOR ROUT2,T A/O MODULATOR OFF
LPI 3
MVI TEST:PNT,DIAG:TBL
MVI TEST:CNT,0 & HVPS(COROTRONS).
RFS
*
*
DIAG:7 LCB CPY:SEL,X'37',DIAG:8
CAL DRV:HV ELSEIF: COMPONENT CODE = 37
JMP DIAG:4A TURN ON DRIVE,HI. VOLT
*
DIAG:8 LCB CPY:SEL,X'38',DIAG:9
JMP STRT:SUB ELSEIF: COMPONENT CODES 38,39 OR 3-1
0
* START PRINT CYCLE
DIAG:9 LCB CPY:SEL,X'39',DIAG:10
JMP STRT:SUB
DIAG:10 LCB CPY:SEL,X'10',COMP:311
JMP STRT:SUB
DIAG:RET RFS RETURN
*
COMP:311 LPI 0
LCB CPY:SEL,X'11',COMP:361 IF: CHAIN 3-11 DIAGNOSTICS
LPI 1
STB BIL:MTR1 TURN ON BILLING METER FOR 3 MIN
IOR ROUT3,T
RFS
*
COMP:361 LCB CPY:SEL,X'61',COMP:62
LPI 1
STB GO:SLEEP ELSEIF: COMPONENT CODE 3-61
IOR ROUT2,T GO TO SLEEP
RFS
*
COMP:62 LCB CPY:SEL,X'62',BAD:ENT
LPI 1
STB WDT:MEM
IOR FLAG3,T
RFS
* TEST WATCH DOG TIMER
* ELSE:
* FLASH WRONG ENTRY
COMP@01 JMP COMP:01
COMP@91 JMP COMP:91
COMP@81 JMP COMP:81
*
*
*
****************************
* CHAIN 6 DIAGNOSTICS *
****************************
*
COMP:61 LPI 0
LCB CPY:SEL,X'61',BAD:ENT
LPI 1 ELSEIF: COMPONENT CODE 61
STB SHUT:R TURN ON SHUTTER SOL.
IOR ROUT2,T & START SHUTTER SOL.
LPI 3 50% DUTY CYCLE AFTER
MVI TEST:PNT,DIA:TBL2 1.1 SEC.
MVI TEST:CNT,0 TURN OFF AFTER 3 MIN.
RFS
*
ORG X'C00'
****************************
* CHAIN 8 DIAGNOSTICS *
****************************
*
*
COMP:81 LPI 0
LCB CPY:SEL,X'81',COMP:82
LPI 1
STB UP:TRAY IF: COMPONENT CODE = 81
IOR ROUT1,T TURN ON UPPER TRAY FEEDER
RFS
*
COMP:82 LCB CPY:SEL,X'82',COMP:83
LPI 1
INP T,IN0 IF: COMPONENT CODE = 82
CPL T
JT REG:SW,CLR:SW ANDIF: REG. SW. NOT ACTIVE
JMP ONLN:ON TURN ON ON-LINE LED
*
COMP:83 LCB CPY:SEL,X'83',COMP:84
LPI 1 IF: COMP. CODE = 83
STB LWR:TRAY TURN ON FEEDERS
IOR ROUT1,T
RFS
*
COMP:84 LCB CPY:SEL,X'84',COMP:51
LPI 1
STB REG:ROLL IF: COMPONENT CODE 84
IOR ROUT3,T TURN ON REG ROLLS
RFS
*
*
COMP:51 LCB CPY:SEL,X'51',COMP:52
CONT:CPY LPI 2
STB CONT:FLG IF: DIAGNOSTICS 8-51,8-52,
IOR FLAG1,T 8-53,8-54 OR 8-55
LPI 1 START CONTINUOUS COPY CYCLE
JMP STRT:SUB ELSE:
* FLASH WRONG ENTRY
COMP:52 LCB CPY:SEL,X'52',COMP:53
JMP CONT:CPY
*
COMP:53 LCB CPY:SEL,X'53',COMP:54
JMP CONT:CPY
*
COMP:54 LCB CPY:SEL,X'54',COMP:55
JMP CONT:CPY
COMP:55 LCB CPY:SEL,X'55',BAD@ENT
JMP CONT:CPY
*
TEST@KEY JMP TEST:KEY
*
PAGE
*
**********************************
* CHAIN 9 DIAGNOSTICS *
**********************************
*
COMP:91 LPI 0
LCB CPY:SEL,X'91',COMP:92
LPI 1 IF: COMPONENT CODE = 91
STB BL:SOL
IOR ROUT3,T TURN ON BLADE SOL. FOR 3 MIN.
RFS
*
COMP:92 LCB CPY:SEL,X'92',COMP:93
LPI 1 ELSEIF: COMPONENT CODE = 92
STB DEV:CLU
IOR ROUT3,T TURN ON DEVELOPER FOR
RFS
*
COMP:93 LCB CPY:SEL,X'93',BAD@ENT
LPI 1 ELSEIF: COMPONENT CODE = 93
INP T,IN2 ANDIF: TONER SW. ACTIVE LOW
CPL T
JT LO:TONER,CLR:SW
JMP ONLN:ON LEAVE ON-LINE LED ON FOR
* 3 MINUTES.
*
*
*
********************************
* CHAIN 10 DIAGNOSTICS *
********************************
*
*
COMP:01 LPI 0
LCB CPY:SEL,1,COMP:2
LPI 1 ELSEIF: COMPONENT CODE = 10-1
STB FAN
IOR ROUT3,T TURN ON FAN FOR 3 MIN.
RFS
*
COMP:2 LCB CPY:SEL,2,COMP:3
LPI 1 ELSEIF: COMPONENT CODE 10-2
STB INVERT
IOR ROUT2,T TURN ON INVERTER
RFS
*
COMP:3 LCB CPY:SEL,3,COMP:6
LPI 1 ELSEIF: COMPONENT CODE 10-3
STB OFF:SET
IOR ROUT2,T TURN ON OFFSET SOL.
RFS
*
COMP:6 LCB CPY:SEL,6,COMP:71
LPI 1 IF: COMPONENT CODE = 10-6
INP T,IN0 ANDIF: EXIT SW NOT ACTIVE
CPL T
JT EXIT:SW,CLR:SW TURN ON ON-LINE LED
ONLN:ON MOV T,ROUT0
JT ON:LINE,TEST@KEY
STB ON:LINE
IOR ROUT0,T
JMP TEST:KEY
*
COMP:71 LCB CPY:SEL,X'71',BAD@ENT
LPI 2
STB CONT:FLG ELSEIF: COMPONENT CODE 71
IOR FLAG1,T ENABLE CONT. COPY CYCLE
JMP STRT:SUB & DISPLAY A/D VALUE (1-64)
* ELSE:
BAD@ENT JMP BAD:ENT DISPLAY BAD ENTRY
*
*
CLR:SW CAL TEST:KEY IF: SWITCH IS ACTIVE
JMP ONLN:OFF TURN OFF ON-LINE LED
*
PAGE
*
*************************************
* *
* DIAGNOSTIC SUBROUTINE TO TURN OFF *
* ALL ACTIVE OUTPUTS. *
* *
*************************************
*
DIA:ROUT LPI 2
MOV T,FLAG1
JT CN10:FLG,FN:OFF
JT CHN9:FLG,BLA:OFF
JMP CLR:FLG3
BLA:OFF LPI 0
LCB CPY:SEL,X'91',CLR:FLG3
JMP FNBL:OFF
FN:OFF LPI 0
LCB CPY:SEL,1,CLR:FLG3 IF: DIAGNOSTICS 10-1
FNBL:OFF LPI 1 ORIF: DIAGNOSTICS 9-1
MVI T,X'80' TURN OFF ALL OUTPUTS ON
* PORT 3, EXCEPT WDT
AND ROUT3,T ELSE:
JMP CLR:REST
CLR:FLG3 LPI 1 PRESERVE FAN,BLADE & WDT
MVI T,X'85' TURN OFF OTHER OUTPUTS
AND ROUT3,T
CLR:REST CLR T PRESERVE WAIT FLAG
AND ROUT2,T
MVI T,X'20' CLEAR OTHER FLAGS
AND FLAG3,T
MVI T,X'17'
AND ROUT1,T TURN OFF OUTPUTS ON PORT 2
LPI 0 TURN OFF FEEDER & HV DC
CLB ONE:ENT ENABLE ONES ENTRY
AND KBD:REG,T
RFS
*
*
*
*********************************
* THIS ROUTINE IS CALLED *
* DURING DIAGNOSTICS WHEN *
* CLEAR KEY IS PUSHED. *
*********************************
*
REV:LEVL LPI 2
STB DIAG:FLG
AND FLAG1,T CLEAR ALL DIAG. CHAIN FLAGS
LPI 3 BUT PRESERVE DIAGNOSTIC MODE
MVI PAP:CNT,X'FF' DISABLE 3 MIN. TIME OUT
CAL BLNK:DSP CLEAR DISPLAY & KEYBOARD REGS.
TESTK:LV LPI 1
MVI FAULTS,X'3B' DISPLAY REVISION LEVEL '3L'
JMP DSP:FLT
PAGE
*
*
************************************
* THIS ROUT. DE-ACTIVATES ALL *
* ACTIVE OUTPUTS DURING DIAG. *
************************************
*
DIAG:OFF LPI 3
MVI TEST:CNT,X'FF'
ONLN:OFF LPI 1
CLB ON:LINE TURN OFF ON LINE LED
AND ROUT0,T & ACTIVE OUTPUTS.
CLR T
AND ROUT2,T
STB WD:TMR PRESERVE WDT
AND ROUT3,T
MVI T,X'07'
AND ROUT1,T
CLB SHUT:FLG CLEAR THE SHUTTER FLAG
AND FLAG3,T
RFS
*
***************************************
* 3 MINUTES TIME OUT ROUTINE *
* DURING ON-LINE POWER UP. *
***************************************
*
3MIN:WT LPI 2
IBNZ LOOP:CNT,STBY:TBL
LPI 1 IF: 3MIN. WAIT OVER
CLB WAIT:FLG ENTER STANDBY
AND FLAG3,T CLEAR WAIT MODE
JMP ST:BY
*
*
WAIT: LPI 1 ELSE:
STB WAIT:FLG
IOR FLAG3,T ENTER 3 MIN. WAIT STATE
MVI FAULTS,X'B1'
CAL DSP:FLT DISPLAY 'L1' ON DISPLAY
LPI 2
MVI IOT:STAT,X'40' SEND WAIT STATUS '@'
STBY:TBL LPI 3 TO SERVER
MVI PAP:PNT,MIN:TBL INIT. TIMER FOR 3 MIN. WAIT
MVI PAP:CNT,0
JMP BLNK:OFF & TURN OFF DISPLAY BLINK
*
PAGE
ORG X'D00'
*************************************
* *
* SOFT JAM STATE *
* *
*************************************
*
*
***********************************************
***********************************************
*
SFT@JAM MOV T,IN:ONE
JT TRAY:SW,CHK:RGSW
MVI FAULTS,X'C3' IF: TRAY DE-SELECTED
LPI 2
MVI IOT:STAT,X'51' DISPLAY C3 & SEND 'Q'
JMP DR:CK
CHK:RGSW MOV T,IN:ZERO ELSE:
CPL T
JT REG:SW,NO:JAM IF: PAPER NOT AT REG. SW
MVI FAULTS,X'C4' DISPLAY C4 &
LPI 2
MVI IOT:STAT,X'42' SEND STATUS 'Q'
DR:CK CAL CK:DR START CYCLE OUT
MVI STAT:PNT,PCYC:TBL
MVI STAT:CNT,0
MVI T,SLP:TBL
CMP TIM1:PNT,T IF: SLEEP TIMER WAS ACTIVE
JNE SET:SJAM BEFORE.
LPI 2
MVI FAN:CTR,0 INIT. FAN OFF COUNTER TO 0
SET:SJAM LPI 1
STB SOFT:JAM DECLARE FEEDER FAULT
IOR FLAG2,T
CLB REG:ROLL TURN OFF REG ROLLS
AND ROUT3,T
CLB PRNT:FLG ENABLE COLD START ST�ATE
AND FLAG2,T
MOVD T,R31
JMP DSPLY
*
NO:JAM RFS
PAGE
*
*********************************
* FAN OFF EVENT *
*********************************
*
FAN@CNT MOV T,FLAG2 IF: HARD JAM MODE
JT JAM:FLG,CHK:DOOR CHECK DOOR
JT RUN:FLG,END:FAN ELSEIF: RUN MODE
CHK:DOOR MOV T,IN:ZERO RETURN
CPL T
JT DOOR:ILK,TIM@OUT IF: DOOR OPEN
LPI 2 DO NOT INC. FAN REG.
LCB FAN:CTR,0,FAN:1 ELSEIF: FAN OFF TIME IS COMPLETE
LPI 1 TURN OFF FAN
CLB FAN
AND ROUT3,T
CLB BL:SOL TURN OFF BLADE SOL.
AND ROUT3,T
INI:SL LPI 2
LCB IOT:STAT,X'59',CHK:A
JMP STRT:SLP
CHK:A LCB IOT:STAT,X'41',END:FAN
STRT:SLP LPI 3 IF: ABOUT TO GOTO SLEEP
MVI TIM1:PNT,SLP:TBL ORIF: STANDBY READY 'A'
MVI TIM1:CNT,0 RE-INIT. GOTO SLEEP TIMER
LPI 2 IF: ABOUT TO GOTO SLEEP STATUS 'Y',
TRUE
LCB IOT:STAT,X'59',SLP:TIME
MVI PREV:STA,X'59' LOAD PREVIOS STATUS WITH 'Y'
MVI IOT:STAT,X'41' SEND STANDBY READY STATUS 'A'
SLP:TIME MVI FAN:CTR,-5
MVI LOOP:CNT,-255
END:FAN RFS
*
FAN:1 IBNZ FAN:CTR,TIM@OUT
*
TIM@OUT LPI 3
MVI TIM1:CNT,0 RE-INIT. TIMER TO
MVI TIM1:PNT,TIM:TBL CHECK FAN AGAIN
RFS
*
*
PAGE
*
************************************************
** SUBROUTINE: REAL:TIM **
** **
** THIS SUBROUTINE IS USED TO CONVERT THE **
** NUMBER OF 20MS. TIMING COUNTS INTO A **
** REAL TIME VALUE (SECS. AND MS.) **
** **
** **
** ENTER: **
** DGN:SAV = # OF 20MS. COUNTS **
** **
** EXIT: **
** TEMP 5 = # OF SECONDS **
** DGN:SAV(HI-ORDER) = 100'S MS. **
** DGN:SAV(LO-ORDER) = 10'S MS. **
** **
************************************************
**
REAL:TIM LPI 0
MVI T,-50 FIRST DIVIDE OUT
CAL DV:LOOP # OF SECONDS
MOV SECS,T AND SAVE
*
MOV T,DGN:SAV CONVERT REMAING # OF
ADD DGN:SAV,T COUNTS TO MS. BY MULITPLYING
* BY 2(0)
*
REAL: MVI T,-10 NOW DIVIDE OUT #
CAL DV:LOOP OF 100 MS.
MOV H:MS,T AND SAVE
*
MVI TEMP3,-4 GET # OF 100 MS
SF:UP MOV T,H:MS
ADD H:MS,T
IBNZ TEMP3,SF:UP
*
MOV T,H:MS
LPI 0
IOR DGN:SAV,T
*
LPI 3
MVI TEST:CNT,0 START THE REAL TIME DISPLAY
MVI TEST:PNT,RT:DSP
*
LPI 1
REAL:EX RFS
PAGE
*
**********************************************
** SUBROUTINE: DV:LOOP **
** **
** PURPOSE: TO PERFORM DIVIDE **
** FOR REAL:TIM SUBROUTINE **
** **
** ENTER: **
** T = DIVISOR **
** DGN:SAV = DIVIDEND **
** **
** EXIT: **
** T = QUOTIENT **
** DGN:SAV = REMAINDER **
**********************************************
**
DV:LOOP LPI 0
MVI TIM:WRK,0
DV:LOOP1 ADD DGN:SAV,T
JNC DV:LOOP2
IBNZ TIM:WRK,DV:LOOP1
DV:LOOP2 NEG T
ADD DGN:SAV,T
MOV T,TIM:WRK
RFS
PAGE
*
*****************************
* ON BOARD TIMER SET UP *
* ROUTINE. *
*****************************
*
TIMR:ON MVI T,IN:CNT SET UP ON BOARD TIMER FOR A
MOV TIC,T 5 MS INTERRUPT.
MVI T,OUT:CNT
MOV TOC,T
STRT TIM START THE TIMER
CHK:INT2 EIM TIMF ENABLE THE TIMER INTERRUPT
RFS
*
*
*********************************
* DISPLAY ZERO ROUTINE *
*********************************
*
ENTER:0 LPI 0
MOV T,ZERO:FLG SET 1ST & 2ND ZERO ENTRY FLAGS
JT 0,SECOND:0 IF FIRST BIT SET,
STB 0
IOR ZERO:FLG,T
RFS
SECOND:0 STB 1 SET THE SECOND BIT
IOR ZERO:FLG,T
RFS
*
*
SPACE 2
*********************************************
* *
* THIS ROUTINE IS CALLED WHEN PAGE SYNC OR *
* PAGE DELIVERED OR RUN:READY TO FEED *
* STATUS IS SENT. *
* TXRDY (TRANSMIT READY) IS CHECKED ON *
* USART BEFORE ANY OF THE ABOVE STATUS IS *
* BEING SENT. *
* *
*********************************************
*
TX:RDY LPI 2
MVI LOOP:CNT,-29
DEC:CNT IBNZ LOOP:CNT,CHK:RDY
RFS
CHK:RDY INP T,STAT:RD READ USART STATUS REGISTER
CPL T IF: TXRDY IS NOT TRUE
JT 0,DEC:CNT GO THRU' DELAY LOOP
RFS ELSE:
* RETURN
*
PAGE
*
*
* OFF LINE KEY ROUTINE
*
CHK@DIAG LPI 2
MOV T,FLAG1
CPL T IF: DIAGNOSTIC MODE
JT DIAG:FLG,OFF@ON
JT CONT:FLG,DIA@ROUT IF: CONTINUOUS COPY CYCLE
CLB CONT:FLG
AND FLAG1,T DISABLE COPY CYCLE
LPI 1
RFS
* ELSE:
DIA@ROUT LPI 1
MOV T,FLAG2 IF: NOT RUN MODE
JT RUN:FLG,OFF:RET TURN OFF OUTPUTS
CAL DIA:ROUT
LPI 3
MVI TEST:CNT,X'FF' & REAL TIME DISPLAY DIAG TMR.
OFF@ON LPI 1
STB OFF:LINE ACTIVATE ON-LINE LED
IOR ROUT0,T
CLB ON:LINE TURN OFF OFF-LINE LED
AND ROUT0,T
OFF:RET RFS
PAGE
**************************************************
*
* PROC PATS, FOR BUILDING THE
* PATTERN TABLE
*
*************************************************
PATS CNAME
PROC
LF EQU $
DB AF(1)&X'3F'
DB AF(2)
DB AF(3)
DB AF(4)
DB AF(5)
DB AF(6)
DB AF(7)&X'FE'
PATS1 SET AF(1)
PEND
************************************************
*
* FUSER CONTROL PATTERN TABLE
*
* FOR EACH ENTRY:
* 1ST BYTE - ADC COMPARE VALUE (MAX FOR RANGE)
* BYTES 2-7 - PATTERN BYTES
*
* PATTERN IS SCANNED IN DESCENDING ADDRESS
* ORDER, AND FOR EACH BYTE, FROM BIT 0 TO BIT
* 7. AT THE END OF THE 6 BYTES, IT RESTARTS.
*
* ******* CAUTION ********
* THIS TABLE MUST START AT ADDRESS > 0
*
****************************************************
*
ORG X'E01'
* ***** 47 OF 47 *****
*
FTABL PATS 53,X'FF',X'FF',X'FF',X'FF',X'FF',X'FE'
*
* ***** 46 OF 47 *****
*
PATS 50,X'FF',X'FF',X'FE',X'FF',X'FF',X'FE'
*
*
* ***** 45 OF 47 *****
*
PATS 48,X'FF',X'FB',X'FF',X'FF',X'FD',X'FE'
*
* ***** 44 OF 47 *****
*
PATS 45,X'FF',X'FB',X'FF',X'F7',X'FF',X'EE'
*
* ***** 43 OF 47 *****
*
PATS 44,X'FF',X'EF',X'FD',X'FF',X'EF',X'FC'
*
* ***** 42 OF 47 *****
*
PATS 41,X'7F',X'BF',X'DF',X'EF',X'F7',X'FE'
*
* ***** 41 OF 47 *****
*
PATS 38,X'7F',X'BF',X'7F',X'BF',X'7F',X'BE'
*
* ***** 40 OF 47 *****
*
PATS 36,X'EF',X'DF',X'BF',X'7E',X'F7',X'EE'
*
* ***** 39 OF 47 *****
*
PATS 33,X'7E',X'F7',X'EF',X'DE',X'F7',X'BE'
*
MID:ADC EQU PATS1 NOTE-MUST FOLLOW 8TH ENTRY
*
PAGE
* ***** 38 OF 47 *****
*
PATS 31,X'7B',X'DE',X'F7',X'BD',X'EF',X'DE'
*
* ***** 37 OF 47 *****
*
PATS 28,X'7B',X'DE',X'F7',X'BD',X'ED',X'EE'
*
* ***** 36 OF 47 *****
*
PATS 24,X'77',X'BB',X'DD',X'EE',X'DD',X'EE'
*
* ***** 35 OF 47 *****
*
PATS 21,X'77',X'BB',X'77',X'BB',X'76',X'EE'
*
* ***** 34 OF 47 *****
*
PATS 18,X'6D',X'ED',X'BD',X'BD',X'BD',X'B6'
PAGE
*
* ***** 33 OF 47 *****
*
PATS 15,X'BD',X'B6',X'DB',X'6D',X'B6',X'F6'
*
* ***** 32 OF 47 *****
*
PATS 12,X'ED',X'B6',X'DB',X'6D',X'B6',X'DA'
*
* ***** 31 OF 47 *****'
*
PATS 08,X'6D',X'B6',X'DB',X'6D',X'B6',X'DA'
*
* ***** 30 OF 47 *****
*
LAST:PAT PATS 05,X'6B',X'6B',X'6D',X'6D',X'B6',X'DA'
*
PAGE
ORG X'FFF'
*
******************************
* THIS BYTE IS RESERVED FOR *
* CHECKSUM. *
******************************
*
CK:SUM DB 0
*
END
!