#908-C: 1. Add void-mode transaction data to hourly total report 2. X1/Z1 report in X2/Z2 mode 3. Resetting of consecutive number in Z1 resetting 1. Add void-mode transaction to hourly total report 2. X1/Z1 report in X2/Z2 mode 3. Resetting of consecutive No.in Z1 resetting No Yes No Yes No Yes No Yes

Enable No Disable

No Disable Yes No Enable Yes
Disable Enable Disable Enable Disable Enable Disable Enable

Enable Disable

#908-D: 1. Printing X/Z report Journal only/Receipt & Journal (Except the individual cashier report) 2. Z1 resetting, resets GT Enable/Disable 1. Printing X/Z report Receipt & Journal Journal 2. GT resetting at Z1 Disable Enable Disable Enable 908-D 5

[JOB#909] MRS=0000

#909-A: 1. Printing of training GT on the X report 2. Printing of training GT on the Z report 1. Printing of training GT on the X report Skip Print 2. Printing of training GT on the Z report Print Skip Print Skip 909-A 5

[JOB#912] MRS=1141

#912-A: 1. Date print format Date format Month/Day/Year Day/Month/Year Year/Month/Day #912-B: 1. Time system 1. Time system 12H 24H #912-C: 1. After transaction receipt format 2. Copy receipt 3. Footer print control 5 1. After transaction receipt 2. Copy receipt 3. Footer print control All receipt On selected function keys at the time of finalization All receipt On selected function keys at the time of finalization All receipt On selected function keys at the time of finalization All receipt On selected function keys at the time of finalization 912-C 5 912-B 912-A 2
#909-B: 1. Printing of data on PLU resetting report 2. All Z1 resetting in X1/Z1 mode 1. Printing of data on PLU resetting report Print Skip 2. All Z1 resetting in X1/Z1 mode Enable Disable Enable Disable 909-B No Total only Yes 909-C Detail Yes 5 No
#909-C: 1. Printing of data in void-mode totalizer and manager void totalizer on Z2 report 2. Printing of data in void-mode totalizer and manager void totalizer on Z1 report 1. Void-mode totalizer on Z2 printing Print Skip #909-D: Not used (Fixed at "0") 2. Void-mode totalizer on Z1 printing Print Skip Print Skip

[JOB#910] MRS=0004

#910-A: 1. Over laped cashier function 2. Over laped cashier function No Yes 910-A 5
#912-D: 1. Logo message control 1. Logo/stamp message control 3-line header instead of a stamp Stamp only Stamp and 3-line footer 6-line header instead of a stamp 3-line header + 3-line footer (Logo/stamp message format)

Type :

Header
#910-B: 1. Auto cashier sign off at the end of each transaction 1. Auto cashier sign off at the end of each transaction No (After cashier Z1 only) Yes (Everytime) #910-C: Not used (Fixed at "0") #910-D: 1. Cashier system 1. Cashier system 1 hole Cashier code entry 910-D 5

JOB # 942 943

Note: GT1 is obtained by calculation Equation: GT1=GT2-GT3

927-C 5

[JOB#944] MRS = 0000
PGM1/2 secret code presetting

4 digits

NOTE: When the secret code "0" is programmed, the secret code entry is be inhibited.

[JOB#945] MRS = 0000

The assignment of RS232 channel by each devices * For use, the option control ROM (ER-A46R1) and the RS232 I/F (ER-A5RS) are required.
#927-D: 1. Application of rounding 2. Limit on the least significant digit in entering the amount of payment 1. Application of rounding 2. Limit on the least significant digit in entering the amount of payment Arbitary Item & Payment 0 only 0 and 5 only Arbitary Payment 0 only 0 and 5 only

0 Job# ABCD

#945-A: 1. Channel No. for online 1. Channel No. for online Channel No. #945-B, C, D: Not used (Fixed at "000") * 0 = No connect 1 to 7 = Channel number 945-A 0 to 7
[JOB#928] NOT USED: MRS = 0000 [JOB#946] NOT USED: MRS = 0000 [JOB#929] NOT USED: MRS = 0000 [JOB#948] MRS = 000000 [JOB#980] MRS = 0000
#918-A, B, C: Not used (Fixed at "000") #980-D: 1. Language selection of guidance message 1. Language selection of guidance message English German 910-D 5 PROGRAMMING OF TRAINING CASHIER NO.

XX: Cashier No.

[JOB#949] MRS = "TRAINING"

THE TRAINING MODES TITLE

[JOB#930939] MRS = 0000

RESET REPORT COUNTER

Space 949
Character Key (8chra.) TL
"0000" Job# ABCD
TL Initial value of Z countr
Characters can be entered by using alphabetic keys or numeric keys. Please refer to section 3.

[JOB#989]

RESETTING OF ALL COUNTER AND TOTALIZER

JOB # Z1 report counter

Function Hourly Z1 report counter PLU Z1/Z2 report counter Cashier Z1/Z2 report counter Z2 report counter 31 day daily net Z2 report counter 9
[JOB#950] MRS = STANDARD KEY LAYOUT
Free key layout (Except for department keys and direct PLU keys.)
Initial setting Key number manual increment Key number automatic increment
Key No. 43 %1 %2 %3 %4 ()1 ()2 ()3 ()4 VAT AUTO AUTO2 AUTO3 AUTO4 AUTO5 CASH2 CHECK1 CHECK2 CHECK3 CHECK4 CR1 CR2 CR3 CR4 CONV1 CONV2 CONV3 CONV4 RA RA2 PO PO2
KEY %1 %2 %3 %4 ()1 ()2 ()3 ()4 VAT AUTO

KEY TEXT

Key No.

Free key

To inhibit
[JOB#951] MRS = STANDARD KEY LAYOUT
Free key layout (department keys and direct PLU keys)
Key number manual increment Key number automatic increment
AUTO2 AUTO3 AUTO4 AUTO5 CA2 CHECK1 CHECK2 CHECK3 CHECK4 CR1 CR2 CR3 CR4 EX1 EX2 EX3 EX4 RA RA2 PO PO2

Programming of the keys to be dept keys or direct PLU keys on

the keyboard.

Key No. is assigned to each key which is supposed to be dept.
Key or direct PLU key by depressing the key after entering the key No.
Those keys programmed by this job No. will be dept. keys if dept.
code is assigned, and will be direct PLU keys if PLU code is assigned in the PGM2 mode.

FUNCTION KEY LIST

Key No. KEY KEY KEY KEY KEY KEY KEY KEY KEY KEY KEY KEY TEXT KEY KEY KEY KEY KEY KEY KEY KEY KEY KEY
AMT VAT SHIFT CASHIER NO. DIFFER ST

AMT VAT SF CASH# DIF ST

ER-A460 KEY POSITION

R 1 J 77

00 KEY 000 KEY DECIMAL POINT CLEAR
00 KEY 000KEY. KEY CLEAR ! SBTL TOTAL # NS PLU GCCOPY L1 L2 L3 VP RCPT VOID RFND
ST TL # NO SALE PLU G. C. COPY Level1 Level2 Level3 PRINT RCPT VOID REFUND

ER-A470 KEY POSITION

R 1 J 111

[JOB#971]

SRV FILE PROGRAMMING. (File creation deletion and change of record count or block count) Key operation

Normal file

delete

File group No.

Number of records

Group No. 23 Dept.

File name

Type 1 1

* File table No. (Create/Erase) 01, 02, 03, 05, 37, 40, 04 07, 08, 09, 19, 20, 21, 22, 23, 24, 34, 37, 38, 39 37, 38, 40, 41, 42, 43 29, 30 31, 32 33, 39 06, 13, 18, 24, 39
Dept Text (8chra.) Dept Text (12chra.) PLU PLU Text (8chra.) PLU Text (12chra.) PLU stock Link PLU Set PLU Cashier
Cashier Dept Hourly Daily net Reg. buffer Overlapped cashier Message Text Guidance Text Term Dept. Term PLU Term Transaction Term Cashier Term Cashier Dept All of term file
Type = 0 ; Create/Erase only Type = 1 ; Create/Erase and Increase/decrease the number of Records or blocks. * : The files which are created or erased by the entry of group No.

File table

Table No. 43 Total Csr (Buffer) Dept Reg. buffer Over lapped Csr Message Text Guidance Text Csr trns. Dept Label Daily Term Reset Csr Dept trns. Label Daily Label Total Hourly Label Daily Daily net Label Total Reset Csr trns. Cashier Preset Flag Text Cashier transaction Label Daily Term Label Daily Total cashier (Buffer) Label Total Set PLU Transaction Label Daily Term PLU Dept. Preset Price Text (8chra.) Text (12chara.) Daily Term Preset Price Text (8chra.) Text (12chra.) Stock Daily Term Link PLU File name RECORD MRS 0 Max. *** *** *** *** *** *** *** *** *** (41) (40) (37) (37) (30) (29) (27) (25) (22) (22) (19) (19) (16) (16) (7) (7) (7) (7) (7) (7) (1) (1) (1) (1) (1) #1 MRS 0 BLOCK Max. 1 (19) (19) (19) (19) (19) (19) (19) #2 Label size 0 Data size 9

1/0 1/0 1/0 1/0 1/0 1/0 1/0 1/0
[JOB#2600]: READING OF OTHER
x: 1 A: B: C: D: E: F: G: H:
MRS = 00000000 OP X/Z report Disable/Enable 1/0 PO operation in REG mode Disable/Enable 1/0 (Not used) 0 "RFND" key entry in REG mode Disable/Enable 1/0 Direct void function in REG mode Disable/Enable 1/0 Indirect void in REG mode Disable/Enable 1/0 Subtotal void in REG mode Disable/Enable 1/0 Refund VP Compulsory/Non compulsory 1/0 MRS = 00000000 The first last item void Disable/Enable 1/0 PLU level shift system Manual/Auto 1/0 PLU level shift system MGR/MGR & REG 1/0 Printing of the number of purchases Yes/No 1/0 Time print No/Yes 1/0 Journal select/Full print 1/0 Item VP Disable/Enable 1/0 () VP Compulsory/Non compulsory 1/0 (Not used) (Not used) Zero skip in Cashier report Zero skip in Transaction report Zero skip in DEPT. report Zero skip in PLU report Zero skip in hourly report Zero skip in Daily net report MRS = 0 No/Yes 1/0 No/Yes 1/0 No/Yes 1/0 No/Yes 1/0 No/Yes 1/0 No/Yes 1/0
x: 2 A: B: C: D: E: F: G: H: x: 3 A: B: C: D: E: F: G: H: x: 4 A: B: C: D: E: F: G: H: x: 5 A: B: C: D: E: F: G: H:
01/01/00 0:#0017 #2600 *P G M * #2615 ##2617 #2619 #2620 #2630 #2631 #0000
Job code/Mode title SLIP/VP (* 1) Optional feature
Till timer (* 3) Hourly report Stack report 1 Secret code PGM1 X1/Z1 X2/Z2
MRS = 00000000 (Not used) 0 (Not used) 0 Vat/Tax amount printing on R/J No/Yes 1/0 Taxable amount printing on R/J No/Yes 1/0 Net amount printing on R/J No/Yes 1/0 (Not used) 0 (Not used) 0 When PLU level system is "Auto" (x: 2 B = 0), PLU level returns to level 1 by one receipt/by one item. 1/0 (Not used) (Not used) (Not used) VAT shift system (Not used) (Not used) (Not used) (Not used) MRS = By shift key/by cashier 1/0 MRS = 00000000 MRS = 00000000 MRS = 00000000 MRS = 00000000 MRS = 00000000 MRS = 00000000 MRS = 00000000
(* 1) Optional feature: ABCDEFGH

2616 X ABCDEFGH

x: 6 (Not used) x: 7 (Not used) x: 8 (Not used) MRS = 00000000 x: 9 (Not used) x: 10 (Not used) x: 11 (Not used) x: 12 (Not used) x: 13
MRS = 00000000 A: Credit totalizer update if RA/PO finalized by Credit key Yes/No 1/0 B: Separater line in report Separater line/1 line 1/0 C: (Not used) 0 D: (Not used) 0 E: (Not used) 0 F: (Not used) 0 G: (Not used) 0 H: (Not used) 0 1/to 23
(* 2) Hourly report : a bc a: Hourly report format by 15 minutes/by 30 minutes bc: start hour
[JOB#2640]: READING OF TEXT PROGRAMMING
01/01/00 0:#0019 #2640 *P G M * #46
entry error misoperation no record paper empty secret code memory full

Message text

out of stock sbtl compul. tend compul.
cashier err. entry err ca
# compulsory not assigned not change over limit. inh. open pr inh. unit pr not non-tend p off in vp

89 #020

buffer full

eft error eft break

close drawer

entr secret# send receive send ok receive ok com. error data error time out cancel dept price dept func. dept taxable dept halo dept text dept com.grp dept group dept drctkey plu asg.dept plu price plu base qty plu stck add plu stck sub plu stck ovw plu function plu taxable plu text plu com.grp plu drct key link plu

Guidance

083 084
set plu plu code rng plu func rng plu stts rng plu com rng rate prgram misc key pgm fnc key halo mdiakey halo % halo func text misc key pgm misc key pgm mdia key pgm mdiakey halo csr code pgm csr name pgm csr pgm date program time program mchn no. pgm cc no. pgm logotext pgm vp count opt feature drawer alarm hourlyreport stack report secret(pgm1) secret(x1z1) secret(x2z2) messge text guid text tax rate price enter dept# sign (-) sign (+) taxable1:yes taxable1:no taxable2:yes taxable2:no taxable3:yes taxable3:no vat:yes vat:no prt csr:yes prt csr:no vp compl:yes vp compl:no sif sics normal delete open&prest preset open inhibited halo(exp.) halo(amount) halo(rate) com.grp group base qty
stock(add) stock(sub) stock(over) rate item st eft cmpl eft noncmpl footer :yes footer :no # cmpl # noncmpl due disable due enable drw open:yes drw open:no tnd cmpl:yes tnd cmpl:no tnd inh. enter plu# ent.csr code ent.csr no ent.drw# g.c copy yes g.c copy no vat sft stat vat sft not ent.dept# ent.key# ent.func# ent.pos.code enter tax no ent.tax rate lower tax enter msg no enter gid no (fixed data) entercoookey data send data rcv. orgzer rcv. onl t.no. onl modem onl baudrate onl code onl timer
[JOB#2900]: AUTO KEY READING
[JOB#1500]: CASHIER READING REP.
01/01/00 0:#0005 #2900 *P G M * # 1 key 0 key 0 key total # D D P 000001 : # 1 key 0 key 0 key total check
(DEPT01) (PLU000001) Job code/Mode title
01/01/00 0:#0016 #1500 *P G M * 01csr# 02csr# 03csr# 04csr# 01 0000d0000d0000d0000d1
Job code/Mode title Cashier code/Name Drawer No.
[JOB#2700]: TAX TABLE READING REP.

2700 TL

01/01/00 0:#0005 #2700 *P G M * tax1 tax2 tax3 10.0000% 04.00 4.0000% 0.00 5.0000% 0.00
Job code/Mode title VAT No./Rate Lower tax limit VAT No./Rate Lower tax limit
[JOB#2119]: DIRECT KEY READING REP.

2119 TL

[JOB#2110]
PROGRAMMING OF DEPT. FUNCTION

No change

DEPT. CODE

ABCDEFG

For next code
XX: DEPT. code = XXA: Printing on the cashier report No Yes Job code/Mode title XXB: Item validation printing Non compulsory Compulsory C, D: Not used (Fixed at "00") XXE: SICS Function Normal Single item cash sale Single item finalize F: Not used (Fixed at "0") XXG: Amount entry type Inhibited Open Preset Open and preset G E 2 A B 0 1

B, C, D, E, F: Not used (Fixed at "00000") MRS = 100000

[JOB#2314]

TEXT PROGRAMMING FOR MISC KEYS

F-NO. 42

FUNCTION CHECK CASHING CASH CASH2 CHECK1 CHECK2 CHECK3 CHECK4 CREDIT1 CREDIT2 CREDIT3 CREDIT4 EXCHANGE1 EXCHANGE2 EXCHANGE3 EXCHANGE4 EXCHANGE1 IS EXCHANGE2 IS EXCHANGE3 IS CASH IN DRAWER CASH/CHECK IS CASH/CHECK IN DRAWER CHECK CHANGE GUEST COMMISSION SALE1 COMMISSION SALE2 COMMISSION SALE3 NON COMMISSION SALE ORDER TOTAL PAID TOTAL DOMESTIC CURRENCY1 DOMESTIC CURRENCY2 DOMESTIC CURRENCY3 DOMESTIC CURRENCY4 CHECK IN DRAWER (+) DEPT TOTAL () DEPT TOTAL HASH (+) DPT TOTAL HASH () DPT TOTAL BOTTLE (+) TOTAL BOTTLE () TOTAL NET 1 (TAXABLE-VAT1) NET 2 (TAXABLE-VAT2) NET 3 (TAXABLE-VAT3) NET (TAXABLE-VAT) SUBTOTAL MDS SBTL TOTAL CHANGE DUE ITEMS PLU ST

DEFAULT TEXT

ca/chk C ash C ash2 check check2 check3 check4 credit1 credit2 credit3 credit4 exch1 exch2 exch3 exch4 exch1 is exch2 is exch3 is ****cid ca/ch is ca/ch id chk/cg guest com.sal1 com.sal2 com.sal3 non com. order tl paid tl dom.cur1 dom.cur2 dom.cur3 dom.cur4 *ch id *dept tl dept(-) *hash tl hash(-) *bttl tl bttl(-) net 1 net 2 net 3 net subtotal mdse st ***total change due items plu st

Function number

Max. 8 char.
XXX: FUNCTION CODE Characters can be entered by using character keys or numeric keys. the key entery sequence for entering one character by numeric keys is as follows: XXX 00 key XXX: CHARACTER CODE (3DIGITS)
Please refer to section 3 F-NO. 39 RA RA2 PO PO2 ()1 ()2 ()3 ()4 %1 %2 %3 %4 SET PLU () DIFFER TAXABLE1 ST TAXABLE2 ST TAXABLE3 ST TAXABLE ST VAT/TAX 1 VAT/TAX 2 VAT/TAX 3 VAT/TAX NET1 NET2 COUPON PLU REFUND VOID VOID MODE MANAGER VOID SBTL VOID HASH VOID HASH REFUND VAT SHIFT VAT/TAX DELETE VP COUNTER NO SALE G.C. COUNTER FUNCTION DEFAULT TEXT
[~] [~] [~] [~] set pludiffer tax1st tax2st tax3st tax st vat 1 vat 2 vat 3 vat NET NET cp plu refund " " mode mgr " sbtl " hash " hashrf vat sft tax dele vp cnt nosale g. c. cnt
***ra ***ra2 ***po ***po2

F-NO. 125 126

FUNCTION COPY RCPT TITLE G.C. COPY TITLE AVERAGE GROUP1 GROUP2 GROUP3 GROUP4 GROUP5 GROUP6 GROUP7 GROUP8 GROUP9 CCD CCD DIFFER CCD DIFFER TOTAL ORDER TL-PAID TL COMMISSION AMOUNT1 COMMISSION AMOUNT2 COMMISSION AMOUNT3 COMMISSION AMOUNT TTL DEPT. REPO. TITLE GROUP REPO. TITLE PLU REPO. TITLE STOCK REPO. TITLE TRANS. REPO. TITLE CID REPO. TITLE COM. SALES REPO. TITLE CASHIER REPO. TITLE HOURLY REPO. TITLE DAILY NET REPO. TITLE SET PLU TITLE TOTAL TAX NET WITHOUT TAX ZERO SALES REPRT TITLE CATEGORY REPO. TITLE DIFFER SUBTOTAL

[JOB#2316]

MISC KEY PROGRAMMING ($ )
COPY g.c. copy ave. Group01 Group02 Group03 Group04 Group05 Group06 Group07 Group08 Group09 CCD ccd dif. dif. tl O ~ P com. amt1 com. amt2 com. amt3 com. ttl DEPT group PLU stock trans. tl-id sales cashier hourly daily set plu ttl tax NET zero sal category diff st

XXX: Function No. A: $ type A Function () 1 () 2 () 3 () 4 Remarks
Subtotal $ Item $ Function No. MRS = 0

[JOB#2320]

MEDIA KEY PROGRAMMING
No change 2320 XXX ABCDEFGHIJK ST TL

XXX: Function No.

Function Function No. CA1 CA2 CH1 CH2 CH3 CH4 CR1 CR2 CR3 CR4 A F F F F F F F F B F F F F F F F F F F C F F F F F F F F F F D F F F F F F F F F F E F F F F F F F F F F F G H I J F F F F F F F F F F K F F F F F F F F F F
* Items marked with on (F ) are programmable. A: EFT function Non compulsory Compulsory A B C D E 0 1

[JOB#2315]

MISC KEY PROGRAMMING (%)
No change 2315 XXX A ST TL

Footer print No Yes

XXX: Function No. A: % type Subtotal % Item % Function %1 %2 %3 %4 A Remarks
Non-add code entry Non compulsory Compulsory
Change due Enable Disable

Function No. MRS = 0

VP Non compulsory Compulsory
F, G, H, I: Not used (Fixed at "0000") 28

Drawer opening Yes No

J K 0 1

[JOB#2510]

CASHIER PROGRAMMING
No change 2510 YY ABCDE ST TL
Entry of amount tended Non compulsory (Cash, Check) Inhibit (CR1 to CR8) Compulsory
YY: Cashier code = 01~99 A: G.C. copy Enable Disable A B 0 1

MRS=00000000000

[JOB#2321]
MEDIA KEY FUNCTION PROGRAM (AMOUNT HALO)

VAT shift Not State

YYYYYYYY
C, D: Not used (Fixed at "00") XXX: Function No. YYYYYYYYY: Limitation amount Func. No. 40 Function CID (Sentinel) CHK CHANGE CA/CHK Entry range 0 to 9999999.to 999999.to 999999.99 MRS 9999999.99 999999.99 999999.99 MRS = 1 E: Drawer No. Not open Drawer No. E 0 1~2

[JOB#2610]

DATE SETTING

2610 XXYYZZ

[JOB#1500]

CASHIER CODE DIFINITION

XXYYZZ: Date (Year-Month-Day/Day-Month-Year/Month-Day-Year)
* The date entry format complies with the applicable SRV-mode programming. MRS = 010100

XXX: YYYY:

Cashier No.= Cashier code = 00 99

[JOB#2611]

TIME SETTING
MRS = 01;1, 02;2, 03;3, 04;4, 05;5, 06;6 ~ 15;15

[JOB#1514]

CASHIER NAME PROGRAMMING
No change 1514 YY Character key ST TL
XX: Hour (00 23) YY: Minute (00 59) MRS = 0
YYYY: Cashier code = Characters can be entered by using character keys or numeric keys. The key entry sequence for entering one character by numeric keys is as follows: XXX 00 KEY XXX: Character code (3 digits) Please refer to section 3. Max. 8 characters Mrs = Space

[JOB#2612]

MACHINE NUMBER SETTING
XXXXXX: Machine number (0 999999) MRS = 0

[JOB#2613]

CONSECUTIVE NUMBER SETTING
XXXX: Consecutive number (0000 9999) MRS = 0000

[JOB#2614]

LOGO TEXT PROGRAMMING

[JOB#2616]

OPTIONAL FEATURE

Position code

ABCDEFGH

X: 1 6

(24 char.) (24 char.) (24 char.) (24 char.) (24 char.) (24 char.) B: PO operation in REG mode Enable Disable C: Not used (Fixed at "0") D: "RFND" key entry in REG mode Enable Disable E: Direct void function in REG mode Enable Disable F: Indirect void in REG mode Enable Disable G: Subtotal void in REG mode Enable Disable H: Refund VP Non compulsory Compulsory D E F G H B X: 1 A: OP X/Z report Enable Disable MRS = 00000000 A 0 1
Character can be entered by using character keys or numeric keys. The key entry sequence for entering one character by numeric keys is as follows: XXX 00 Key XXX: Character code (3 digits) Please refer to section 3. ER-A460 MRS = ER-A470
S H A R P presents the E R ~ A S H A R P I S T H E B E S T
NOTE: This programming is related to JOB# 912D programming. Only when "6-line header instead of a stamp" is selected by JOB# 912D programming, all 6 lines are programmable. When "3-line header" is selected, upper 3 lines (1st-3rd line) are programmable. When "3-line footer" is selected, lower 3 lines (4th-6th line) are programmable.

[JOB#2615]

Programming of the limits to TRY ST feed line and No. of times of validation printing.

Y: X: MRS = 10

No. of times of validation printing Feed line after depression of differ ST key.

=09 =09

X: 2 A: The first last item void Enable Disable B: PLU level shift system Auto Manual C: PLU level shift system MGR & REG mode MGR mode D: Printing of the number of purchases No Yes E: Time print Yes No F: Printing of journal Full print Journal select G: Item VP Enable Disable H: () VP Non compulsory Compulsory X: 3 A, B: Not used (Fixed at "00") C: Zero skip in Cashier report Yes No D: Zero skip in Transaction report Yes No E: Zero skip in Dept. report Yes No F: Zero skip in PLU report Yes No G: Zero skip in Hourly report Yes No H: Zero skip in Daily net report Yes No
MRS = 00000000 A B C D E F G H MRS = 00000000
X: 4 A, B: Not used (Fixed at "00") C: Vat/Tax amount printing on R/J Yes No D: Taxable amount printing on R/J Yes No E: Net amount printing on R/J Yes No F, G: Not used (Fixed at "00") H:

MRS = 00000000

C D E 0 1
When PLU level system is "Auto" (X:2 B = 0), PLU level returns method By one item By one receipt
X: 5 A, B, C: Not used (Fixed at "000") D: VAT shift system By cashier By shift key E, F, G, H: Not used (Fixed at "0000") X: 6 X: 7 X: 8 X: 9 NOT USED NOT USED NOT USED NOT USED

MRS = 00000000 D 0 1

MRS = 00000000 MRS = 00000000 MRS = 00000000 MRS = 00000000 MRS = 00000000 MRS = 00000000 MRS = 00000000 MRS = 00000000
X: 10 NOT USED X: 11 NOT USED X: 12 NOT USED

C D E F G H 0 1

X: 13 A:
Credit totalizer update if RA/PO finalized by Credit key No Yes
Separator line in report 1 line Separator line
C, D, E, F, G, H: Not used (Fixed at "000000")

[JOB#2617]

PROGRAMMING OF THE TIME INTERVAL FOR THE DRAWER ALARM

XXX: sec MRS = 000

[JOB#2619]
HOURLY REPORT (Starting time)

[JOB#2620]

STACK REPORT

All delete

Memory format 30 minutes (24 hour) 15 minutes (12 hour) 00 23

A XX: SSSSSS: EEEEEE:

No range XX

SSSSSS EEEEEE ST TL

Next JOB# (max.=20)

Starting time (hour):

ex) Case 1.
JOB# Start code End code REPORT NAME General DEPT./GROUP DEPT. All group PLU PLU stock PLU zero sales PLU price category Transaction CID Commission sale All cashier Hourly Daily net RANGE (only X report) RANGE RANGE RANGE TYPE

JOB# 24

X1 Hourly report (#160) (15 min, start time = 7]
#160 7:00 (data) 7:15 (data) 7:30 (data)
7:45 (data) subtotal (data)
18:45 (data) subtotal (data) **:** (data)
12 hour started from 7:00 Data out of range (19:00 to 6:59)
[** ] Max. 70 step are programmable. "1 step" means the memory size used for one no range type JOB#. The RANGE type JOB# means "8 steps". For example) The memory size for programming JOB#00, 20 and 50 is 10 steps. (ie. 1 step for JOB#00, 8 step for JOB#20, and 1 step for JOB#50. )

[JOB#2630, 2631, 2632]

SECRET CODE PROGRAMMING

2630,2631,2632

#2630: #2631: #2632:
PGM1 mode X1/Z1 mode X2/Z2 mode
* If "0" is entered, "compulsory secret code entry" is canceled. MRS = 0

[JOB#2641]

MESSAGE TEXT PROGRAMMING

Message No. 43 44

Description (reserved) (reserved) (reserved) (reserved) (reserved) (reserved) (reserved) (reserved) (reserved) (reserved) (reserved) (reserved) (reserved) (reserved) (reserved) (reserved) (reserved) (reserved) (reserved) (reserved) (reserved) (reserved) (reserved) (reserved) REG Buffer full (reserved) (reserved) (reserved) (reserved) EFT ERROR EFT BREAK (reserved) (reserved) Closed drawer error (reserved) (reserved) (reserved) (reserved) Enter secret code IR sending IR receiving IR send success IR reserve success IR communication error IR data format error IR time out error IR (zaurus) cancel

XX Message No.

X: Message No. = 1~87 Message No. 37 Description Registration error Misoperation error Desired code is not programmed yet. Paper empty Secret code error (reserved) Memory is full (reserved) (reserved) Stock is empty Compulsory of pushing the ST key Compulsory of tendering (reserved) (reserved) (reserved) (reserved) (reserved) (reserved) (reserved) (reserved) (reserved) Cashier changing error Cashier entry error (reserved) (reserved) (reserved) (reserved) (reserved) (reserved) (reserved) Compulsory of non-add code entry The cashier key is not pushed or inserted. The clerk key is changed in the transaction Overflow limitation The open price entry is inhibited. The unit price entry is inhibited. The direct non-tendering finalization after previous tender entry is inhibited. Service interruption during Validation printing (reserved) (reserved) (reserved) (reserved) # COMPULSORY NOT ASSIGNED NOT CHANGE OVER LIMIT. INH. OPEN PR INH. UNIT PR NOT NON-TEND P.OFF. IN VP CASHIER ERR. ENTRY ERR CA OUT OF STOCK SBTL COMPUL. TEND COMPUL. MEMORY FULL MRS ENTRY ERROR MISOPERATION NO RECORD PAPER EMPTY SECRET CODE

BUFFER FULL

EFT ERROR EFT BREAK

CLOSE DRAWER

ENTR SECRET# SEND RECEIVE SEND OK RECEIVE OK COM. ERROR DATA ERROR TIME OUT CANCEL
Amessage is 12 characters Characters can be entered by using character keys or numeric keys. the key entery sequence for entering one character by numeric keys is as follows: XXX 00 key XXX: Character code (3 digits) Please refer to section 3 Important Note: Change of Message text under this programming requires installation of optional ER-01/02 RA RAM chip and creation of File Group No. 16.

[JOB#2644]

GUIDANCE TEXT PROGRAMMING FOR EASY PROGRAMMING

XX Guidance No.

XX: Guidance No. = 1~132 Characters can be entered by using character keys or numeric keys. the key entery sequence for entering one character by numeric keys is as follows: XXX 00 key XXX: Character code (3 digits) Please refer to section text max. 12 characters No. 45 MRS DEPT PRICE DEPT FUNC. DEPT TAXABLE DEPT HALO DEPT TEXT DEPT COM. GRP DEPT GROUP DEPT DRCTKEY PLU ASG.DEPT PLU PRICE PLU BASE QTY PLU STCK ADD PLU STCK SUB PLU STCK OVW PLU FUNCTION PLU TAXABLE PLU TEXT PLU COM. GRP PLU DRCT KEY LINK PLU SET PLU PLU CODE RNG PLU FUNC RNG PLU STTS RNG PLU COM RNG RATE PRGRAM MISC KEY PGM FNC KEY HALO MDIAKEY HALO % HALO FUNC TEXT MISC KEY PGM MISC KEY PGM MDIA KEY PGM MDIAKEY HALO CSR CODE PGM CSR NAME PGM CSR PGM DATE PROGRAM TIME PROGRAM MCHN NO. PGM CC NO. PGM LOGOTEXT PGM VP,TRY FEED OPT FEATURE JOB No. #1110 #2110 #2111 #2112 #2114 #2115 #2116 #2119 #1200 #1210 #1211 #1220 #1221 #1222 #2210 #2211 #2214 #2215 #2219 #2220 #2221 #2230 #2231 #2232 #2235 #1310 #2311 #2312 #2322 #2313 #2314 #2315 #2316 #2320 #2321 #1500 #1514 #2510 #2610 #2611 #2612 #2613 #2614 #2615 #2616

Important Note: Change of Guidance text under this programming requires installation of optional ER-01/02 RA RAM chip and creation of File Group No. 17.

[JOB#2900]

<CAUTION>
(This JOB must be performed at X2/Z2 mode position.) AUTO KEY SETTING

Max.25

AUTO2 AUTO3

(Free key)

Delete

(Auto key function)

This machine has [AUTO] key which can be programmed by the

following key-sequence.

When [AUTO] key is depressed, the machine works the same as
the programmed key-sequence programed. <Example> Mode switch (X2/Z2)

2900 AUTO PLUDEPT2 AUTO

Key entry AUTO R/J PL000001 *1.10 Display PL0000001 1.DEPT02 *1.00 DEPT02 1.10 Comment same as PLU1 entry

same as same as same as

1 entry 0 entry 0 entry

same as DEPT2 entry

(X2/Z2)
2900 AUTO2 PLUDEPT2 AUTO2 TL
Key entry DEPT 1 AUTO ***TOTAL *1.00 CASH CHANGE *1.00 *0.00 CHANGE 0.00 same as same as same as 1 entry 0 entry 0 entry R/J DEPT01 *1.00 Display DEPT01 1.10 Comment

same as TL entry

3. Character assignment method
The ER-A460/A470 has two kinds of method at character assignment. One is to use alphabetic assigned key and other one is to use ten keys one is to use ER-01RK.
Using alphabetic assignment method

Push alphabetic

Repeat TL

Programming key layout

1 ER-A460

(SPACE)

BACK SPACE

A B C D E

G H I J K L

M N O P Q R

S T U V

W X Y Z

(SHIFT)

2 ER-A470

} ? ? #

3 E D X

1 Q A ST

2 W S Z TL

4 R F C

5 T G V

6 Y H B

7 U J N 8 I K M

CL 3 000

/ , : + ;

(SPACE) (SPACE) (SPACE) (SPACE) (SPACE)
* When the SHIFT key is depressed, this character can be preset with small character.

3 ER-01RK

* Ten Key/CL key input by remote control key Ten key function is set to the remote control key for use other than text input. Keys to be used and their corresponding keys on the ECR
Keys on the remote control 0, [00] () () [.] [ST]
Key on the ECR 0, [00] [X], [@/FOR] [.] [.] [SBTL] [CL]
If a remote control key other than the above is pressed in a case other than character input, it is invalid. (the key input is not accepted.) [TL] key is not provided on the remote control. (After completion of setting, press [TL] key on the ECR.) The remote control keys can be used only in PGM1/PGM2 modes.

ER-01RK

For the remote control key layout, refer to the separate sheet. * The following key marks show the following functions: Used as: Keys
Normal mode &. key key Clear key Numeric key It used to go into the character entry mode.
Character entry mode Left cursor key Right cursor key Back space key Clear key Numeric key A space key or the character key("/") used for entering letters in lower case. used for entering the right side letter. used for entering characters in double size. used for kimination after one item programming
(BS) (CL) 1 ! 2 @ 3 # 4 $ 5 % 6 + 7 & 8 * 9 ( 0 )

(SPC) / (00)

(SML) (SHIFT)
* General instructions for programming alphanumeric characters using the ER-01RK This programming remote keyboard allows you to program various items instead of using the keyboard of the cash register. The basic instruction for programming with the remote keyboard is the same as the one with the keyboard of the register. In this part, the method for programming alphanumeric characters is described. Note: Both PGM1 and PGM2 modes are available for this programming. Procedure
To enter next character To enter the character in the current case *1
To enter the character in the current size *2
To enter in the left side letter *3
One of the ( ), ( ), ( ), ( ), ( ), ( ), ( ), ( ) keys A character key

To use key combination

1 Letters of alphabets "A" through "Z" are possible to be entered in lower case or in upper case. By default, the upper-case letter mode is selected. To enter the character in lower case, press the (SML) key before you enter the character. The SML lamp lights up. To return to the upper-case letter mode, press the (SML) key again. Example: To enter "aA", do the following:

(SML) A { (SML) A {

2 Characters are possible to be entered in single size or in double size. By default, the single-size character mode is selected. To enter the character in double size, press the (DC) key before you enter the character. The DC lamp lights up. To return to the single-size character mode, press the (DC) key again. Example: To enter "
aAA ", do the following:

(SML) A { (DC) A {

3 Each character key has two levels. For example, with the A { key, you can enter "A" or "{". Under the normal condition, the left side letter is selected. To use the right side letter, press the (SHIFT) key just before you press a key. Example: To enter "Aa[", do the following:

A { (SML) A { (SHIFT) C {
4 "( )", "( )", "( ~ )", "( )", "( )", "( )", "( )", and "( )" are used only for combination with a character key. If the combination is unavailable, only a character key is entered. Example: To enter "", do the following:

(SHIFT) ; ( ) A {

To enter "", do the following:

(SML) (SHIFT) ; ( ) A {

4 Using ten key of ECR

XXX 3 digits Repeat 00

Note: 00 key is used to enter each 3 digit alpha code. CODE TABLE FOR ALPHA DESCRIPTOR PROGRAMMING CODE 044 CHARACTER
O ! " # $ % & ( ) * + ,

CODE 087

CHARACTER . / : ; < = > ? @ A B C D E F G H I J K L M N O P Q R S T U V W

CODE 130

CHARACTER X Y Z ^ _ a b c d e f g h i j k l m n o p q r s t u v w x y z { | }

CODE 193

CHARACTER

CODE 238 253

K , k , L , l ,
o Pt A a E e I i U u N ,

d P u

DC

DC: DOUBLE CODE Fig. 7-2

CHAPTER 3. OP X/Z, X1/Z1,X2/Z2 MODE
The following categories of reports can be printed by the ECR. 1) OP X/Z reports (individual clerk reports) 2) X1/Z1 reports (Daily sales total X and Z reports) 3) X2/Z2 reports (Periodic total X and Z reports) To print reports, use the following key entry sequence
Reading JOB# Resetting Range is required
MODE * 1 OP X/Z REPORT NAME GENERAL DEPT/GROUP IND. GROUP GROUP TOTAL PLU BY RANGE PLU BY DEPT PLU STOCK PLU ZERO SALES PLU PRICE CATEGORY TRANSACTION TL-ID COMMISSION SALES ALL CASHIER IND. CASHIER HOURLY (ALL) HOURLY (RANGE) DAILY NET STACKED REP * 1 X1: Daily X report X2: Periodic X report F Z1: Daily Z report Z2: Periodic Z report * 3 When 2 is entered in the third digit of a job code, periodic reports are printed. Example: Daily general report; job code 100 Periodic general report; job code 200 * 4 Reading display only KEY CL (Display amount) (Display initialize) KEY DEPT = DEPTn key CID = key Daily Net = ST key F F F X Z X1 F F F F F F F F F F F F F F F F F F F F F F F F F F F F F F F F F F X1/Z1 Z1 F X2 F F F F F F F X2/Z2 Z2 F F F-read X1 4

3 DATA FOR NOTE

JOB# 70 90
READING GROUP No. PLU CODE DPT CODE PLU CODE ALL PRICE

ALL CASHIER

Stop of printing reports: The printing of all reports can be stopped by the following operation. Set the mode switch to "MRG" to cancel. Note) When the printing is stopped, the consecutive number or Z counter dont return to the original value. When Z reports, Memory is not reset. In In-line system, when Master has consolidated the data from the satellite, ECR can not stop the printing. * 1 X1: Daily X report X2: Periodic X report Z1: Daily Z report Z2: Periodic Z report

* The key can be removed in the REG or OFF position. * In the SRV mode, key inputs are prohibited and no display is made. * With the key in the off position power is still supplied to the main PWB. [Functions]
Function for each key position SRV: SRV: PGM2: System reset Service mode (Service programming) Allows programming of an item that is not changed frequently, in addition to the PGM1 mode programming. Allows programming of items frequently changed (e.g. department, PLU pricing, and discount rate setting). Allows X or Z operation by servers or cashiers. Allows registrations. Allows the operations, by authorized person such as a manager (e.g. correction after transaction finished or cancellation of entry limits), which are not permitted to ordinary cashiers. Allows reading and resetting of a days sales total. Allows reading or resetting sales totals in a specified period. Switches off the display to prevent keyboard entries.

PGM1: OP/XZ: REG: MGR:

X1/Z1: X2/Z2: &:
(The setting does not turn off the AC power.)

4. Display

1) Layout

1 Operator display

L2 L3 CHR. SML DC ONL
The lamp lights up when PLU level is 2. The lamp lights up when PLU level is 3. The lamp lights up when character key sheet mode in text setting SML The lamp lights up when small characters are being inputted in text setting DC The lamp lights up when double width characters are being inputted in text setting. ONL The lamp lights up when the machine is connected to the online transmission line; and it goes off when the machine is disconnected from the line. The lamp blinks during data transmission. VP The lamp lights up when Validation print is under compulsion. STOCK The lamp lights up when stock is empty state. RCPT OFF The lamp lights up when receipt is OFF state. ST The lamp lights up when a subtotal is displayed. The lamp lights up when change amount is displayed after tendering. TL The lamp lights up when a transaction is finalized with CASH, CHECK, CREDIT, or CHARGE key, however, the lamp does not light up when a transaction is finalized with an amount tendered entry. /RF " The lamp lights up when the void or refund key is pressed. VAT SHIFT The lamp lights up when the vat shift key is pressed. GC COPY The lamp lights up when the guest check copy mode. CCD The lamp lights up when the CCD registration.

OPTION RAM MAX 2 PORTS LOCAL PURCHASE ER-A5RS ER-A460/A470 ER-A46R1

1. System configuration

CHAPTER 2. OPTIONS
(NOTE2) The ER-A46R1 is neccessary to work the option showed by * * * symbol. The ER-A46R1 is only one ROM on some options.

COMPUTER RS-232C I/F

MASTER MACHINE

OPTION CONT. ROM

SERVICE OPTION

IR comunication

IR comunication ER-01RK

CE-IR2/IR4

WIRELESS INTERFACE

TEXT PRESET REMOTE KEY

ER-01/02FD

COMMERCIAL PRODUCT

ER-02CV1~5

ER-48CC3

ER-A5CL

3.5 inch FDD

REMOTE DRAWER

COIN CASE COVER

DRAWER COIN CASE

1 HOLE CASHIER SW

2. Options
NO NAME ONE HOLE CASHIER KEY EXPANSION RAM CHIP ON-LINE SYSTEM CONTROL ROM PRESETS LOADER KEY TOP KIT (For ER-A460) MODEL ERA5CL ER 01RA ER 02RA ERA5RS ERA46R1 ER01FD / 02 FD E R11KT7 E R12KT7 E R22KT7 E R 11DK7 E R 51DK10 PROGRAMMING REMOTE KEYBOARD WIRELESS INTERFACE COIN CASE COIN CASE COVER E R 01RK C E I R2 / I R4 E R48CC2 E R01CV1~01CV5 32K bytes RAM chip 128K bytes RAM chip 2ports RS-232 I/F Control for ER-A5RS FD unit 1 ! 1 key top 1 ! 2 key top 2 ! 2 key top 1 ! 1 dummy key 5 ! 1 dummy key IR I/F text preset keyboard For IR communication DESCRIPTION

3. Service options

NO. SERVICE KEY DRIP-PROOF SWITCH COVER MODE KEY GRIP COVER DRIP-PROOF KEYBOARD COVER JOURNAL NEAR END SENSOR PROGRAMMING CHARACTER KEYBOARD COVER REMOTE DRAWER CLERK COVER "B" CLERK ANGLE NAME PARTS CODE L K G I MR C Z Z GCOVB0 8BHZ Z L K G I MR C Z Z G COVBBHZ Z DUNT BHZ Z GCOVB1 0BHZ A CBOXD3 6BHGCOVA0 7BHZ B LANGT 8 1BHZ Z PRICE RANK AK BA AL BF AY BE BU AG AM For ER-A5CL OP key only DESCRIPTION For the mode switch ERA460 | | | | | | | | | ERA470 | | | ! | ! | | |

4. Service tools

NO. 3 EXPANSION PWB RS-232 LOOP BACK CONNECTOR FOR ER-A5RS KEY TOP REMOVER (For ER-A460) NAME PARTS CODE CKOG 0 8RCZ Z UKOG 0 5RC Z Z UK OG - 34 RC Z Z PRICE RANK BU BU AX

5. Supplies

NO. ROLL PAPER INK RIBBON INK FOR STAMP KEY SHEET (For ER-A470) NAME PARTS CODE DPAPR0 6CSZ Z PRBN 4 4RCZ Z U I NK1 001CCZ Z PSHEKBHZ Z PSHEKBHZ Z PSHEKBHZ Z PRICE RANK AR AZ AK AU AR AK 5 cc Programming character sheet Standard character sheet Blank character sheet 5rolls/pack DESCRIPTION

6. Options

For installation of the options, refer to the Installation Manual which is issued separately.
7. How to use service tools
7-1. Expansion PWB: CKOG-6708RCZZ External view
Fig. 7-1 Purpose 1: Used for servicing and repairing of options (such as the and the ER-A5RS) which are connected with the main body option connector.
[Procedure 1] Use an insulator base as shown in Fig. 7-2 (shaded section) and perform servicing.
ER-A460/A470 Expansion PWB Main PWB (CKOG-6708RCZZ) A Control ROM ER-A5RS PWB

2. Master reset (All memory clear)
There are two possible methods to perform a master reset.

MRS-1

Used to clear all memory contents and return machine back to its initial settings and return keyboard back to default keyboard.
1) Unplug the AC cord from the wall outlet. 2) Set the MODE switch to the (SRV) position. 3) Plug in the AC cord to the wall outlet. 4) While holding down JOURNAL FEED key, turn to (SRV) position from (SRV) position.

MRS-2

Used to clear all memory and keyboard contents. This reset returns all programming back to defaults. The keyboard must be entered by hand. This reset is used if an application needs different keyboard layout other than that supplied by a normal MRS-1.
1) Unplug the AC cord from the wall outlet. 2) Set the MODE switch to the (SRV) position. 3) Plug in the AC cord to the wall outlet. 4) While holding down JOURNAL FEED key and RECEIPT FEED key, turn to (SRV) position from (SRV) position. 5) Key position assignment: * After the execution of MRS-2, only the RECEIPT FEED and JOURNAL FEED keys can remain effective on key assignment. Any key can be assigned on any key position on the main keyboard.
CHAPTER 4. HARDWARE DESCRIPTION
1. Hard ware block diagram

STANDARD

OPTIONAL

CPU DRAWER MAX.2

MAX.128KB
ER-01RA:32KB ER-02RA:128KB

GATE ARRAY MPCA6

ROM 256KB

ROM 128KB

ER-A46R1
OPERATER DISPLAY 2 LINE 5 x 7DOT 12DIG 5 x 7SEG 10DIG CUSTOMER DISPLAY

1 LINE 7SEG 7DIG

PRINTER DP-730 CKDC6

SWITCH

KEY BOARD

ER-01RK Other ECR

I/R UNIT OPT CN

RS232 I/F 2 ports

ER-A5RS
2. Description of main LSIs
2-1. CPU (HD6415108FX) 1) Pin configuration

AVCC 87

RES NMI VSS D0 D1 D2 D3 D4 D5 D6 D7 D8 D9 D10
AN1 AN0 AVSS VSS P67 P66 P65/RS P64/RR P63/CD P62/CS P61/DR P60/ER P57/STOP P56 FMRS P54 P53 P52
D12 D13 D14 D15 VSS A0 A1 A2 A3 A4 A5 A6 A7
P50/FTCA1 VSS P47 FTI2 P45 FTI1 P43 P42 TMCI
HD6415108FX pin configuration

2) Block diagram

D15 D14 D13 D12 D11 D10 D9 D8 D7 D6 D5 D4 D3 D2 D1 D0

P27/A23

P26/A22

Data bus

Port 1

P25/A21

Port 2
P24/A20 P23/A19 P22/A18 P21/A17 P20/A16

Data bus (Lower)

EXTAL XTAL X E MD2

Data bus (Upper)

Clock oscillator

Watch dog timer

H8/500 CPU

P50/FTCA1 TRGI

Out Dot pulse adjust signal Out NC Out NC In In GND NC Out NC Out NC Out System reset output. Normally Out In In In Out Out In In In In In In In In In In In In In In In Out SIO control signal (Equipment ready) (NU) SIO control signal (Data set ready) (NU) SIO control signal (Clear to send) (NU) SIO control signal (Carrier detect) (NU) SIO control signal (Ready to receive) (NU) SIO control signal (Request to send) (NU) Remote keyboard input signal Printer home position signal GND GND Validation sensor journal Validation sensor receipt (NU) +24V test input Validation sense signal (NU) +5V +5V Interrupt signal 0 Interrupt signal 1 (RS-232C) I/R control signal (Shift clock) CKDC Interface sync shift clock I/R control signal (Receive data) I/R control signal (Transmit data)
Out Address bus Out Address bus Out Address bus Out Address bus Out Address bus Out Address bus Out Address bus Out Address bus Out Address bus Out Address bus Out Address bus Out Address bus Out Address bus Out Address bus Out Address bus Out Address bus In GND Out Address bus Out Address bus Out Address bus Out Address bus Out Address bus Out Address bus Out Address bus Out Address bus In In Out In In GND Wait signal Bus control request acknowledge Bus control request Drawer open signal Remote drawer No.1 open signal
Out Option drawer open signal Out

Pin No. 99

Symbol RXD2 TXD2 VSS EXTAL XTAL
Signal name RXD2 TXD2 NU EXTAL XTAL NU X NU AS RD WR LWR RFSH VCC MD0 MD1 MD2 STBY
In/ Out In Out In In In In
Function CKDC Interface shift input data CKDC Interface shift output data GND Crystal oscillator connection Crystal oscillator connection GND
100 VSS 101 X 102 E 103 AS 104 RD 105 HWR 106 LWR 107 RFSH 108 VCC 109 MDMDMDSTBY
Out System clock Out Nu Out Address strobe Out Read Out Write Out Nu Out Refresh cycle In In In In In +5V +5V (MODE 3) +5V (MODE 3) GND (MODE 3) +5V (Nu)
2-2. G.A (MPCA6) 1) Pin configuration
RF JF PCUT FCUT VF STAMP SLF SLRS SLMTD RES TRG TRG POFF INT1 HTS1 SCK1 STH1 NU NU VCC GND NU VRESC SLTMG SLRST AS RD WR PHAI SDT7 SDT6 SDT5 GND SDT4 SDT3 SDT2 SDT1 D0 D1 D2
NU DOTEN NU NU NU NU NU NU STH2 SCK2 HTS2 SLMTR SLMTS SLMTD RJMTR RAS3 NU GND VCC NU NU NU NU RJMTD RJMTS DT5 DT6 DT7 GND DT1 DT2 DT3 DT4 RJTMG RJRST RAS1 RAS2 ROS2 ROS1 OPTCS

DP ID MODR CFSR KEX0 KEX1 NU NU ST0 ST1 ST2 ST3 POFF STOP DDIG DCS VCC SCK HTS STH SDISP BUZZ DSCK SRES
I I I I I I I I I I I I I I
29 R42/S0 I/O 30 R43/PWM I/O 31 R70/BUZZ I/O R71/SCK2 I/O R72/SI2 I/O

DB4 : SEG-A

SEG00 SEG15

DIG00 DIG15

PULL-DOWN
NOTE 3: Pull-up/down in the table indicates that the lines concerned require external pull-up/down resistance. 19

3. Clock generator

1) CPU (HD64151010FX)

4. Reset (POFF) circuit

+24V +5V D8 1SS133 R19 8.2KG R22 2.7K R23 R20 15KG + C50V R21 9.1KG ZD5 MTZ5.1A + 4 56K 8 B 7 IC2 GL393 C16 1000P /POFF R24 2.7K
CPU (HD64151010FX) EXTAL 98

14.7456MHz

Fig. 3-1 Basic clock is supplied from a 14.7456MHz ceramic oscillator. The CPU contains an oscillation circuit from which the basic clock is internally driven. If the CPU was not operating properly, the signal does not appear on this line in most cases.

89 IRQ0

CPU 72

RESET (FROM CKDC 6)

2) HD404728A91FS CKDC6 oscillation circuit (Display-PWB)

X2 4.19MHz 3 42

STOP (TO CKDC 6)

Fig. 4-1

R22 1M

CKDC 6 CL2

X1 32.768KHz CL1 HD404728A91FS

45 C15 15PCH C14 15PCH

In order to prevent memory loss at a time of power off and power supply failure of the ECR, the power supply condition is monitored at all times. When a power failure is met, the CPU suspends the execution of the current program and immediately executes the power-off program to save the data in the CPU registers in the external S-RAM with the signal STOP forced low to prepare for the power-off situation. The signal STOP is supplied to the CKDC6 as signal RESET to reset the devices. This circuit monitors +24V supply voltage. The voltage at the () pin of the comparator GL393 is always maintained to 5.1V by means of the zener diode ZD5, while +24V supply voltage is divided through the resistors R19, R20, and R21, and is applied to the (+) pin. When normal +24V is in supply, 6.8V is supplied to the (+) pin, therefore, signal POFF is at a high level. When +24V supply voltage decreases due to a power off or any other reason, the voltage at the (+) pin also decreases. When +24V supply voltage drops, the voltage at the (+) pin drops below +5.1V, which causes POFF to go low, thus predicting the power-off situation.
Fig. 3-2 Two oscillators are connected to the CKDC6. The main clock X2 generates 4.19MHz which is used during power on. When power is turned off, the CKDC6 goes into the standby mode and the main clock stops. The sub-clock X1 generates 32.768KHz which is primarily used to update the internal RTC (real time clock). During the standby mode, it keeps oscillating to update the clock and monitoring the power recovery.

11. Switching regulator circuit
Pin/Remark C-MOS pin C-MOS pin. Requires to be pulled up C-MOS pin

4700 + 63V

VIN +28.8V VIN 5 STR2024 1
Reference voltage circuit

LH ION +24V IOFF

: Indicator

C2 Load 2200 F 35V

Fig. 11-1 By switching VIN (+28.8V) by the transistor TR1 within the STR2024, DC+24V supply is obtained through the LC network. Stable +24V is obtained by controlling on/off duty of TR1. ION: Current when TR1 is on. IOFF: Current when TR1 is off.

D10 D11 D12 D13 D14

12. I/R communication circuit
In the ER-A460/A470, infra-red data transmission of the optical
communication system is performed. System Carrier wave Sub-carrier wave Modulation system 950 nm (16 times of baud rate clock) "0": HIGH level "1": LOW level Only around the center of the bit cycle in HIGH level, 3/16 of the bit cycle is set HIGH, and the rest is set LOW. IRDA nm 500 kHz10% Pulse modulation: The pulse array of data code is modulated by the AM system. Primary modulation: The sub-carrier waveform is amplitude-modulated with this pulse array. Secondary modulation: With the sub-carrier waveform which was modulated in the primary modulation, infra-red rays are amplitude-modulated. Modulated waveform ASK REMOTE KEYBOARD nm kHz Pulse modulation: The pulse array is modulated by data codes in the PPM system. Primary modulation: The sub-carrier waveform is amplitude-modulated with this pulse array. Secondary modulation: With the sub-carrier waveform which was modulated in the primary modulation, infra-red rays are amplitude-modulated.
UART "0" Reverse UART 16-division

"1"

"0"

3/16 ASK 500KHz

<Remote keyboard>

58.5~76.5 ms 108 ms

Time is the value for 455kHz oscillation.

108 ms

4.5 ms Custom Code Custom Code' 8 bits 8 bits 18 ms~36 ms 58.5 ms~76.5 ms

Data Code 8 bits

13.5 ms Leader Code

Data Code 8 bits 27 ms

First time

9 ms 13.5 ms

4.5 ms 1.125 ms 0

0.56 ms 2.25 ms 1

Second time and later (Transmitted only when the key is depressed.)
9 ms 11.25 ms 2.25 ms 0.56 ms

Carrier waveform

8.77s 26.3s 9 ms or 0.56 ms
Carrier frequency..fc=fosc/12=38 khz
Baud rate Serial communication system Transmission distance

2.4 115.2 kbps Start-stop synchronization system Data length: 8bit Parity: None Stop bit: 1 About 0.75m: ECR to ECR Min. 0.65m
9.6 57.6 kbps (ZR-5000: 9600 bps) Start-stop synchronization system Data length: 8bit Parity: ODD Stop bit: 1 About 0.75m: ECR to ECR Min. 0.65m About 1m

Reception circuit

The infra-red signals which was transmitted from the transmission unit through the air is received by the photo diode, and sent through the two-system circuit to the MPCA6, where they are modulated and inputted to the CPU.

Amplifier PD

Band-pass filter

Hysteresis comparator

IRDA /REMOCON

AGC Amplifier

Bypass filter
+5V R69 R70 MPCA6 R67 IRDA /REMOCON
R68 R54 C49 Q2 PD1 C45 R55 R56

R51 R52

+5V R70 R69 C50 MPCA6 R67 ASK R64 R63 R66 R62 C48 R60 R65 IC1B C49

R68 Q2

C46 C47

Transmission circuit

+5V R71

LED2 IRTX

R72 Q2
With the IRTX signal from the MPCA6, Q2 is turned on/off to light LED1, 2. To strengthen the light intensity, two LEDs are used.

CHAPTER 5. TEST FUNCTION

1. General
1) This diagnostic program has been developed for diagnosing machine functions in the field. The program is contained within the ER-A460/A470. The diagnostic program is stored in the external ROM which will be executed by the CPU (H8/510) which requires the following diagnostic operations: a) Proper power supply voltages are mandatory for logic circuits (+5V, VRAM, VCKDC, POFF, +24V). b) CPU input/output pins, CPU internal logic, CKDC6, MPCA6, address decoder, address bus, data bus, and common ROM/RAM must be working properly.

[1] Display test-1

1 Key operation 100 TL 2 Functional description The following is displayed: Front display
DOT DISPLAY: 7-SEGMENT DISPLAY:

Operator display

3 Check the following items: a) Check for proper activation of display elements. b) Check for blur, uneven illumination, and partial omission. 4 Test termination Press any key. The test terminates with the test and message printed. 100 Test termination print

Table pointer

Write data 55H to check address END For check address other than the current check address, write AAH after saving 1-byte data into the register
Is the current check address 55H? YES Reset operation of saved data

Address error

Is the operation comleted for the other check address? YES Revise the table pointer
Is the address table completed?
3 Check the following items: Check the termination printout. 4 Test termination The test terminates after printing the termination printout. Termination printout: Normal termination Abnormal termination @@@@@
Dot pulse adjusting method
1. Turn power on. 2. Measure the voltage of the VP line between the fuse F1 and GND. Use a digital voltmeter capable of measuring 100mV steps. 3. Set the MODE switch to the SRV position and start the diagnostic program Job #150 with the next command procedure. 150 TL 4. Adjust pulse width of PE at the test point TP1 as shown in the graph in Fig.3. The pulse width of PE can be adjusted using the 200K pot VR1. 5. To terminate the diagnostic program, press any key.
X = 01: Data check error 02: Address check error Note: When an error occurs, the error print is performed and the check is terminated. The error occurrence address is shown in hexadecimal at positions shown with @@@@@.

[13] Standard ROM test

1 Key operation 130 TL 2 Functional description Sum check of the standard ROM (C00000H - C3FFFFH) is performed. If the lower two digits of SUM is 10H, it is normal.

TP1 VR1

3 Check the following items: Check the printout after the test. 4 Test termination The test automatically terminates with termination message. Normal termination print ROM Error termination print E ROM 130 27020@@@@@ @@@@@ 130 27020@@@@@ @@@@@

FIg. 3-4

Transmission width (s)
Note: "@@@@@ " means the ROM version number. The underlined section (10 bytes) of code table is provided in the ROM as a standard and the table content is always printed. The table position is the upper 10 digits of the ROM address. The check sum correction address is the last address -0FH. Note: In the case of the ER-ROM, the ROM version number is displayed in the upper and the lower stages. In the case of the MASK-ROM (future specification), the MASK ROM code is displayed in the upper stage, and the ROM version number is displayed in the lower stage. 130 27020RAU1A RAU1A 400

320 21.26.4 330

3s (Allowance)

Drive voltage (V)

Fig. 3-5

Pw Pt Pd

[14] R/J printer dot pulse width adjustment
The dot pulse width adjust circuit is provided to control the width of the current applied to the dot head of the printer, according to a supply voltage fluctuation. When the circuit is changed with a new one for such as a repair work, the dot pulse width needs to be adjusted using the 200K pot VR1.

996 x All data X

2 ECR ER-02FD

X: SSP data = 0

CE-IR2 or CE-IR4

ER-02FD

Note: The ONL lamp on the display blinks during IR transmission. If the ONL lamp goes off during transmission, it shows that transmission is interrupted by a shift in the optical axis and retrying process is being performed. To resume transmission, adjust the optical axis. If the ON lamp blinks, transmission is resumed.
3) Transmission status. Description of error status 1: Application error (Command error) 2: Line error (DTR OFF) 3: Application error (Parity error) 4: Application error (Check sum error) 5: Application error (Data size error) 6: Hard ware error 7: Power off error 10: Time out error 11: Application error (Transmit data size error) 12: Application error (Block sequence error) 13: Memory full error 4) Service reset the receiving ECR.
2. Communication between ECRs
1) The pop-up display of the ER-A460/A470 is equipped with the IR interface. Set the distance between IR interfaces within 75cm. Communication between ECRs is available in the ASK system and in the IRDA system. Note: Set the memory size (JOB #971) and the transmission baud rate (JOB #903) in the receive side and the send side identically.
3. Communication between an ECR and the ER-01FD/02FD
1) The ER-A460/A470 can perform IR communication by connecting the IR interface (CE-IR2/IR4) to the FD unit (ER-01FD/02FD). The transmission is made only in the ASK system. 2) ER-01FD/02FD ROM replacement To perform IR communication with the ER-01FD or the ER-02FD, the control ROM must be replaced. New control ROM version for IR communication Version No. ER-01FD ER-02FD R261C RAG1D Parts code VHI27256R261C VHI27256RAG1D

ECR to ECR

| : Enable!: Disable Baud rate (bps) 115200

ABCD TL

ASK | | | | | | !

IrDA | | | | | | |

3) Connection between the ER-01FD/02FD and the CE-IR2/IR4 Make the connection cable and connect the FD unit and the IR interface. Connection cable wiring

ER-01FD/02FD side Frame Ground SD RD RS CS DR Signal Ground ER Signal Ground CE-IR2/IR4 side Frame Ground TXD RXD RS DB-25 MALE CONNECTOR

Baud rate setting

1. Baud rate (bps) 115200

903-A 8 5

DB-25 MALE CONNECTOR
4) DIP switch setting of the ER-01FD/02FD

DIP SW5 DIP SW3 4

ON OFF OFF
OFF ON OFF ON OFF OFF OFF ON

RS232c level

PC-DOS format

CCPM format

Note: When performing IR communication with the ER-A460/ A470, the baud rate should be set to 19200 bps only. The PC-DOS format cannot be used for the ER-01FD. 5) CE-IR2/IR4 setting 1 CE-IR2 The CE-IR2 is used in the ASK mode only, and requires no setting. 2 CE-IR4 When the power switch of CE-IR4 is turned on, the mode is set to the ASK mode. The ASK mode is retained until the power switch is turned off. 6) Saving data 1 Turn on the power switch and insert a floppy disk which has been formatted. 2 Start the SEND JOB on the ECR side as follows:

All data 996 x X TL

X: 0 = SSP 3 Data transmission is started and the green lamp on the ER02FD blinks. 7) Loading data 1 Turn on the power switch and insert the floppy disk which stores the data. 2 Start the RECEIVE JOB on the ECR side as follows:

998 x TL

3 Press the SEND key on the FD unit. 4 Data transmission is started and the Green lamp on the ER02FD blinks. 5 Service reset the ECR.
CHAPTER.7 CIRCUIT DIAGRAM & PWB LAYOUT
1. Main PWB circuit diagram

CPU (HD6415108)

+5V +5V
IC6 (5-4A) /RESET (2-8B) NMI
+5V /RFSH NU R34 R35 R36 /WR /RD /AS 33 C60 C61 C62 (7-7B)

100P NU X1 14.7456MHz

(2-7C) (5-8B) (7-7B)

D(0~7)

RA1 10K x8
R43 (2-7C) (5-7D) R44 (2-7C) (5-7D) R45 (7-7A) R79 C63 R46 PHAI
R47 R48 R49 R37 10KF R38 R89 NU 12KF +24V RA2 10K x8

TXD2 (2-8B)

C25 C26 C27 C28 C29 C30 C31 C32 D0 D1 D2 D3 D4 D5 D6 D7
R26 R27 R28 R29 R30 R31 R32 R33

(2-8B)

/UATX (2-3B) /UARX (2-3B) SCK2 (2-8B) UASCK (2-3B) /IRQ1 (7-7B) /IRQ0 (2-8B)
RA3 10K x8 (2-7B) (5-8D) (7-7D) RA4 10K x8 A(0~23) R40 R41 R42 NU NU NU NU NU NU NU C49 C50 C51 C52 C53 C54 C55 C56 NU NU NU C57 R80 C58 /WAIT (2-3B) /BACK (7-7B) /BREQ (7-7B) DOPS (3-5A) /DR0 (3-7A) /DR1 (3-7A) +5V C59 RA5 10K x6 NU NU C64 C65 C66 C67 C68 HD6415108(25X) NU NU

(3-5B)

C33 C34 C35 C36 C37 C38 C39 C40 C41 C42 C43 C44 C45 C46 C47 C48 +5V

HP RCO

(3-5D) (2-3B)

10K /STOP 33 0P

TRGI /NER /SHEN /NEJ /PRST

(2-2A)

RES NMI VSS D0 D1 D2 D3 D4 D5 D6 D7 D8 D9 D10 D11 D12 D13 D14 D15 VSS A0 A1 A2 A3 A4 A5 A6 A7 A8 A9 A10 A11 A12 A13 A14 A15 VSS A16 A17 A18 A19 A20 A21 A22 A23 VSS WAIT BACK BREQ P33 P34 P35 P36 (D R3 ) P37 (D R4 ) VCC P40 STBY MD2 MD1 MD0 VCC RFSH LWR HW R RD AS E PHAI VSS XTAL EXTAL VSS TXD2 RXD2 TXD1 RXD1 SCK2 SCK1 IRQ1 IRQ0 VCC AVCC VPPS VPTEST VPR VPJ AVSS VSS HP P67 RCO P66 RS P65 RR P64 CD P63 CS P62 DR P61 ER P60 STOP P57 SLIPLMP FMRS FVPON P53 PSTOP CKDCR2 TRGI VSS NER SHEN NEJ PRST BOF TOF PTMG (2-2A) /PTMG (2-2A) 58 57

94 D21(P23B) D22(P24B) D23(P25B) D24(P26B) D25(P27B) D26(P28B) D27(P29B) D28(P30B) D29(P31B) D30(P32B) D31(P33B) D32(P34B) NC VF1 VF1 VF1 VF1

G4 G3 G2 G1

DISPLAY DG10(11GB) DG9(10GB) DG8(9GB) DG7(8GB) DG6(7GB) DG5(6GB) DG4(5GB) DG3(4GB) DG2(3GB) DG1(2GB) DG0(1GB) VF2 VF2 VF2 VF2 VF2 VF2 VFVF2 D15(P17B) D14(P16B) D13(P15B) D12(P14B) D11(P13B) D10(P12B) D9(P11B) D8(P10B) D7(P9B) D6(P8B) D5(P7B) D4(P6B) D3(P5B) D2(P4B) D1(P3B) D0(P2B) D35(P1B) D16(P18B) D17(P19B) D18(P20B) D19(P21B) D20(P22B)
TUBE VF1 VF1 VF1 VF1 NC D33(P35B) D34(P36B) SA(P1A) SB(P2A) SF(P3A) SG(P4A) SC(P5A) SE(P6A) SD(P7A) DP(P8A) ID(P9A) NC G10(10GA) G9(9GA) G8(8GA) G7(7GA) G6(6GA) G5(5GA)

R17 R18 R19 R20

(DISPLAY-27)
(DISPLAY-28) (DISPLAY-29) X2 C15 15p
(CN2-8) (CN2-7) (CN2-6) (CN2-5) (CN2-4) (CN2-3) VCKDC IC1 CKDC3 R22 1M 1

SB SC SD SE SF SG

47K 47K CKDC R CKDCR (CN3-7) +5V RC13 0.1uF CA1 470p
(DISPLAY-17) (DISPLAY-18)
(CN4-4) (CN4-5) (CN3-2) (CN3-1) ST0 ST1 D D I. G S D V I C S. C. P.

/MORD /CFSR KEX0 KEX1

C1 470p

R4 R3 4.7K 4.7K C2 1000p

(CN4-6) (CN4-7)
19. IC2 M66004FP. TEST CL2 CL1 GND OSC1 OSC2 RESET. DS0 SRES 33

(DISPLAY-30)

(DISPLAY-31) (DISPLAY-32) (CN3-6) (CN3-5)

(CN4-8) (CN4-9)

ST2 ST3

(DISPLAY-33)

(DISPLAY-34) (DISPLAY-35)

(CN3-4)

(CN3-3) (CN6-6) (CN6-7)

C0 470p

/KR3 /KR2 /KR1 /KR0 /KRQ /SHEN /KR3 /KR2 /KR1 /KR0 /KRQ /SHEN

(DISPLAY-36)

(CN7-2) C11 470p 33 DSO /RESETS (3-B) C12 470p
(DISPLAY-69) (DISPLAY-68) (DISPLAY-67) (DISPLAY-66)

(CN7-1)

C16 470p C17 470p C18 470p C19 1000p
(DISPLAY-37) (DISPLAY-38) (DISPLAY-39) (DISPLAY-40) (DISPLAY-41)
DG11 DG10 DG9 DG8 DG7 DG6 DG5 DG4 DG3 DG2 DG1 DG0
(DISPLAY-65) (4-B) /RESETS 13 RESET

14 CS 15 SCK

VCKDC R8 /SCK HTS /DSCK STH /DCS C9 470p RRR7 STH HTS 33 /SCK

16 SDATA

C21 0.1uF C20 10u10V R0 27KG

(CN6-5)

C3 0.1u

C4 0.1u

(CN6-4)

(CN6-3)

(DISPLAY-64) (DISPLAY-63) (DISPLAY-62) (DISPLAY-61) (DISPLAY-60) (DISPLAY-59) (DISPLAY-58) (DISPLAY-57) (DISPLAY-56) (DISPLAY-55) (DISPLAY-54) (DISPLAY-71) (DISPLAY-72) (DISPLAY-73) (DISPLAY-74) C10 2200p +5V C23 100p

(IncludeN047-49)

Display sheet IR shield plate IR enac-r

RCPSO083

Bottom cabinet etc.

PARTS CODE

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