Sharp ER-3310, ER-3311 Service Manual

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SHARP SERVICE MANUAL

CODE:00ZER3310SM-E

ELECTRONIC CASH REGISTER

ER-3310 MODEL ER-3311

SRV Key :LKGIM7113RCZZ PRINTER:M-2640

[ER-3310]

CAUTION

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EXTREME CAUTION MUST BE TAKEN WHEN SERVICING THIS MACHINE. EVEN THOUGH THE MODE SWITCH IS IN THE OFF POSITION, VOLTAGE IS STILL SUPPLIED TO THE ENTIRE MACHINE. WHEN WORKING ON THIS MACHINE MAKE SURE THAT THE POWER CORD IS REMOVED FROM THE WALL OUTLET.


1.	Block Diagram 1
2.	Special Service Tools
З.	Reference Documents 3
4.	Specifications
5.	Options
6.	SRV/PGM mode Program List 13	·
7.	Service (SRV) mode 21
8.	Program (PGM2/PGM1) mode
· 9.	OP X/Z, X1, Z1/X2/Z2 mode 50
10.	Service Precations 51	•
11.	Down load Function 55
12.	Test Function
13.	Circuit Description 69
14.	Installation of Service Options 104
15.	Circuit Diagram and PWB Layout 109
	Parts Guide

SHARP CORPORATION

This document has been published to be used for after sales service purpose only. The contents are subject to change without notice.

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1. BLOCK DIAGRAM

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2. SPECIAL SERVICE TOOLS

HAROAIC MOOLE . .

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3. REFERENCE DOCUMENTS

4-2 Rating

(1) Cash register basic manual
(2) Printer M-2640 service manual (00ZM2640/SM-F) SFCR-286
(2) Finiter M-2040 service manual (002M26)(3) Option service manual for ER3310/3311.
(4) Options installation manual for ER3310/3311.
(5) SLIP printer M-240 service manual SECR-

4. SPECIFICATIONS

4-1 Appearance/Rating

1) Appearance

ER-3310 (FLAT KEY BOARD)

Power source	AC 120V (±10%) 60Hz
Power consumption	Standby: 14 watts Maximum: 32 watts, with no options. Maximum: 60 watts, 650mA, with options installed.
Operating temperature	0°C~40°C (32°F~104°F)
Operating humidity	10%~90% (RH)
Physical dimensions, including the drawer	440 (W) × 507 (D) × 331 (H) mm 17 31/32 (W) 20 11/16 (D) × 13 1/2 (H) inch
Weight	ER-3310 : 16 Kg ER-3311 : 17 Kg

4-3 Key board

(1) Standard key layout

1999 N. 1999				17
		SLIP	PRINT	RCPT	SCALE				20	5	10	15 ¹	20	NS -	CONV
	6.3				72	73		75		4	9	14	19	FS SHIFT	FS TEND
57	- ISS	:0		-		96	64	65	66	3		13	18	CH4	CHB
					S.			L1	PROMO #1	2	(1997) 1997 - 1997 1998 - 1997 - 1997		17	CH2	CHIS
	42			4.0	40	47		L2	PROMO #2		6	िर्दे हैं है 11	16	CHK	CHI
1.5		35	6	37		30		L3	PLU/ SUB	RA	PO	ТАХ	@ FOR	CL.	·ČA2
					30	•	2	TABLE #	CASH #	TAX1 SHIFT	TAX2 SHIFT	7	8	9	TRAY SETL
			.20					COVER CNT	SERV #	91	-92	4	5	6	MDSE SETL
								₽B	TIP	%1	%2		-2-	3.	#/ /SETE
								CB	SRVC	REND	VOID	0	00		ÇA4AI

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Standard key sheet Parts code : PSHEZ6720RCZZ

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an de maraira ana seu de Maraira de Cara Anterna de Caracteria

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(2) Key top name

standard key too


Keytop symbol	Key function
00, 0~9	Numeric key
1~20	Department key
@ / FOR	Multiplication/split pricing
•	Decimal point
CL	Clear
† † RECEIPT JOURNAL	Receipt/journal feed
1~80	Direct PLU
PROMO PROMO #1 ~ #2	Promotion (dept. 21 ~ 22)
SLIP	Slip print
PRINT	Validation print
RCPT	Print duplicate
L ₁ ~L ₃
PLU / SUB	PLU/sub dept code entry
SCALE	Scale entry
CASH#	Cashier code (sign on/off)
SERV #	Server code entry
COVER CNT	Number of customers
РВ	Previous balance or additional order
СВ	Credit balance or new check
TIP	TIP IN, TIP PAID
SRVC	SERVICE
RA	RECEIVED ON ACCOUNT
РО	PAID OUT
TAX1 TAX2 SHIFT SHIFT	TAX1/TAX2 SHIFT
ТАХ	MANUAL TAX

Ə1, Ə2	Discount-1/discount-2
%1, %2	%1, %2
RFND	Refund

Keytop symbol	Key function
VOID	Void
NS	NO SALE
CONV	Foreign currency conversion
FS Shift	FOOD STAMP SHIFT
FS TEND	FS subtotal/FS tendered
CA / AT	Cash/cash tendered
# / SBTL	Non-add code/tax inclusive subtotal
MDSE SBTL	Merchandise subtotal
TRAY SBTL	Tray subtotal
CA ₂	Cash-2
СНК	Check
CH₁~CH₅	Charge-1 to charge-5
TABLE #	Table number entry

OPTION KEY TOP

Keytop symbol	Key function
MGR#	Manager code entry
%3, %4	% 3, %4
DEPO	DEPOSIT
TRNS TRNS IN OUT	Trans in/trans out server change
DEPO RFND	DEPOSIT REFUND
CHK ADD	GUEST CHECK ADD
RTN	Return
21~99	Department key
81~100	Direct PLU key
EAT IN 1~3	Eat in subtotal-1 to subtotal-3
FINAL	FINAL

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*The key can be removed in the REG or OFF position. *Position OP X/Z can be prohibited by programming. *Service mode is not prompted on the display.

[Functions]

Eunctions for each key position


SRV:	Allows execution of service mode programming and reading.	i statu se invers	1433
• S:	NOT USED	Benefit and the second se Second sec second sec	and and the second
• PGM2:	Allows programming of an item that is not changed frequently	, in addition to the PGM1 mode programming	).
• PGM1:	Allows programming of items frequently changed (e.g. departr	ment, PLU pricing, and discount rate setting).	·
• OFF:	Disables key entry after turning the display off. The power sup	pply is still active. Mana Mana Mass during the	6 - 1997, 1997
• OP X/Z:	Allows X or Z operation by servers or cashiers.
• REG:	Allows registrations.	- 「「「」「」「」「」「」」「」「」」「」」「」」「」」「」」「」」「」」「」」	1.124.91
• MGR:	Allows the operations, by authorized person such as a manage	ger (e.g. correction after transaction finished	or cancellation of entry
	limits), which are not permitted to ordinary cashiers.	(House fight cape to the fight of the fight	からせい
• X1:	Allows reading of a day's sales total
• Z1/X2/Z2:	Allows resetting of a day's sales total, and reading or resetting	g sales totals in a specified period. Do anno o	u Martin
	vane drog terum M

4-5 Display

(1) Operator Display

0 Display position (16) (15) (14) 2 ① CONCERNENCE OF 102 2 ON T THE OFFLINE IN LINE ~ Ē m Π Ē Display () Д Display (2) -Ę wood t sourt up VOID Vail U.S. FSull PLU Display position (1) - (0) V CG (7) ST 6 ŤL (5) RFND TX2 TXI (I) (4) 0 section of a lateral main JAMO -

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Item	Display position	Description
Keyboard entry	16~5	Alphanumerics
Merchandise name,	16~5	Displays such as department, PLU, etc.
Error	16~5	Kind of error displayed by alphanumerics
Status	4~1	Mode and status displayed by alphanumerics

(LEVEL)3	14	The "A" indicator turns on for the PLU level 3.
(LEVEL)2	15	The "A" indicator turns on for the PLU level 2.
(LEVEL)1	16	The "A" indicator turns on for the PLU level 1.
ON LINE	11	The * indicator turns on during on-line connection, and flickers while data is being transmitted.
OFF LINE	3	The "A" indicator turns on when it is off line in the in-line mode (terminal number = 000) or off line in on-line mode, and turns off when it is in the in-line mode (terminal number not / 000) or on line in the on-line mode.
IN LINE	1	The A indicator turns on during in-line communication.
(B.M. Down)	6	The "A" indicator turns on when in-line back-up master is not communicated.
Display
Amount	8~1	Character pattern 1234567890
Repeat	11	Starts from "2" and only the first digit is displayed for a number above 10.
Negative sign	9~4	A floating "-" is displayed.
	a de la companya de l Companya de la company Companya de la company
TX1	1	The "♥" indicator turns on when the [TAX1 SHIFT] key is depressed. The "♥" indicator turns on when registering taxable-1 merchandise.
TX2	2	The "▼" indicator turns on when the [TAX2 SHIFT] key is depressed. The "▼" indicator turns on when registering taxable-2 merchandise.
RFND	3	The "▼" indicator turns on when the [REFUND] or [RETURN] key is depressed. The "▼" indicator turns on when registering refund or return.
VOID	4	The "V" indicator turns on when the [VOID] key is depressed. The "V" indicator turns on when registering void.
Т	5	The "▼" indicator turns on when a transaction has been complete with the [CASH], [CHECK], or [CHARGE] key. Does not turn on when closing tendered.
ST	6	The "▼" indicator turns on when displaying a subtotal.
CG	7	The "▼" indicator turns on when displaying the amount of change after the tender operation has been complete.
VAL	8	The "♥" indicator turns on when validation is programmed required.
SLIP	9	The "▼" indicator turns on when printing a slip (real time print).
PLU	.10.	The "▼" indicator turns on when in PLU registration.
FS	11	The "▼" indicator turns on when registering a food stamp applicable item.
Sentinel	11	The "•" indicator turns on when the current balance is above the prescribed limit.

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Error kind display

Prompt	Significance
ENTRY ERROR	Entry erfor
MISS OPERAT	Miss operation
PAPER EMPTY	Paper empty
S. CODE ERROR	Password error
NOTAVAILABLE	Specified code not currently available
ENTER CHECK #	Enter Guest check # compulsory
and the second	n for the transformer of the second

	and any access on the second secon The second se
Prompt	Significance
No prompt
MGR.	MGR mode
VOID	VOID mode
SRV.	evice actioner of the end of a first test of SRV mode.
PGM1	PGM1 mode
PGM2 "⊽" ₀i	PGM2,mode and TTHE D(AT) and northy m
TIME
X1	X1 mode Authorition S officers privately
Z/X2	Z1/X2/Z2 mode Chulot to Constant state and constants
VAL absault	Validation required mode HUV; on notwind
SLIP	Bio print required mode
. #	Non-add code entry required mode
	Institute a many leader only no Cashier not specified
	and and a second se Second
	e obietica a estatea, a constateire e residente. A marine e constatea, a constateire e constate (100
	(end our less) the standal activation

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(2) CUSTOMER DISPLAY volosyn I [Display, description] Identical to columns 1 to 9 of the operator side display-2, excep the "VAL" indicator appears on the operator side only. 4-6 Printer (M-2640) and the 1 Printing system : 2-station serial dot matrix printer 2 Printing direction Bidirectional and a SiPrinting speed : Max. 2.2 lines/sec. Strate and the second : 7 × 7 (half-dot) South Si Printing capacity · 21 columns for the receipteand -iournal 47 columns for the validation form 6 Dimensions of printed : 1.7(W) x 2.9(H) mm character : 2.03 mm 8.Line spacing : 5.1 mm 9. Receipt fast-feed speed : Max. 25.7 lines/sec. 10 Paper roll 14 5+0 5 mm wide (DPAPB1006CSZZ) Max. 83 mm in diameter 130 mm or more wide. 60 mm² or 11.Validation form more high oond noter ∂nsi "∆" (⊲ 12.Ink ribbon Ribbon casselte PBBN-2320BC77 : 6 million characters 13 Ribbon life 14.Head life • 40 million characters (in the case of 2 dots/1" wire/it character). • MCBF 2 million lines 15. Reliability (excent the head life) 16-Stamp.unit. : Porous rubber, 30(W)×20(H) mm • 163.7(W) × 214.8(D) × 159.2(H) mm 17.External dimensions 4-7 DRAWER (1) Cash compartment Detachable from the drawer case Paper money compartment not detachable from co compartment Available number of compartmente U.S.A. version: 6B. 6C Canadian version: 6B. 5C South African version: 4B. 8C Kinds of available compartment assembly nest tuined in 6B/6C 6B5C 4B/8C (2) Keylock Key lock location U.S.A. canadian version: Front South African version: Side Key operation U.S.A., canadian version: Close : 180 = counterclockwise rotation Open::180 = clockwise rotation

South African version: Close : Automatic

Open : 90 = clockwise rotation

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4-8 Memorys

ITEM	TOTALIZER	COUNTER	PRESET	PRESET
GT	12d×3$
Z counter		4d×8		a second a second and a second
DEPARTMENT	8d×20(99)S	6d×20(99)S	6d×20(99)
		n an	2d×20(99)	HALO Contraction Contraction
			1d×20(99)	+ /-
		and a second second	1d×20(99)	TAX SORT 1/2
		·	1d×20(99)	SIS or SIF
			1d×20(99)	Inhibit or provide
		e de la companya de l La companya de la comp	1d×20(99)	OPEN and/or PRESET
			8(12)ch×20(99)	Alpha numeric descriptor
·		n an	1d×20(99)	Validation enforce
1. 1.		میں میں ایک اور	1d×20(99)	HASH
			. 1d×20(99)
			1d×20(99)	Promotion/normal
		N ,	1d×20(99)	Scale compulsory/inhibited
			1d×20(99)	Food stampable
		ant than a t	4d×5×20(99)	Promotion code
			2d×20(99)	Kitchen printer No.
DEPT. TTL	8d×4	and a second s	8ch×4	Alpha numeric
PLU	8d×80S	6d×80S	6d×80	UNIT PRICE (or HALO AMOUNT)
	·		1d×80	+/-
			1d×80	TAX SORT 1/2
		an a	1d×80	Inhibit or provide
			2d×80	Split pricing denominator
			2d×80	Dept. number
			8(12)ch×80	Alpha numeric descriptor
a serie operations from the second	e examplementa en alter an anti-	n de la companya de l La companya de la comp	1d×80
i.			4d×3×80
	· ·	6d×80S	· ·	Stock
	an ann an		2d×3×80	Group
	the state and the state of the state of the		2d×1×80 $\sim$	Kitchen printer No.
and the second	en e		1d×80	Scale compulsory/allow/disallow
NET	8d×3S		8ch×3	Alpha numeric
VOID	8d×5	4d×5	8ch×5	VOID in REG. mode, two kind of VOID TTLs in VOID
		an di sua di Sua di		mode, HASH VOID and SBTL VOID
REFUND	8d×4S	4d×4S		Normal & hash REND
RETURN			8ch×2	Alpha numeric
and an and a second second	an ann an tha		1d×1	Validation enforce
P/O **** *	8d×1S	4d×1S	8ch×1	Alpha numeric
			1d×1	Validation onforce
			1 10 1

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ПЕМ	TOTALIZER	COUNTER	PRESET	PRESET og
R/A	8d × 1S 1 19 9 91	4d×1S	1d×1 8ch×1 1d×1 2d×1	Tend./Direct Alpha numeric Validation enforce HALO
TX' BL SALES	8d×2S		8ch×2
TAX TTL	8d×9S	HALC + . \| TAX SORT 12	(00 98stéps (09 ¥ð'×2 51 (99 2ð ≫d51	[1/2] Table(s) % TAX manual tax HALO
MEDIA TTL	3 28×b8 REAF T Iosonptor at	1315 or 01F 28×b4 28×b4 28×b4 28×b4 28×b4 28×b4 28×b4 28×b4 28×b4 28×b4 28×b4 28×b4 28×b4 28×b4 28×b4 28×b4 28×b4 28×b4 28×b4 28×b4 28×b4 28×b4 28×b4 28×b4 28×b4 28×b4 28×b4 28×b4 28×b4 28×b4 28×b4 28×b4 28×b4 28×b4 28×b4 28×b4 28×b4 28×b4 28×b4 28×b4 28×b4 28×b4 28×b4 28×b4 28×b4 28×b4 28×b4 28×b4 28×b4 28×b4 28×b4 28×b4 28×b4 28×b4 28×b4 28×b4 28×b4 28×b4 28×b4 28×b4 28×b4 28×b4 28×b4 28×b4 28×b4 28×b4 28×b4 28×b4 28×b4 28×b4 28×b4 28×b4 28×b4 28×b4 28×b4 28×b4 28×b4 28×b4 28×b4 28×b4 28×b4 28×b4 28×b4 28×b4 28×b4 28×b4 28×b4 28×b4 28×b4 28×b4 28×b4 28×b4 28×b4 28×b4 28×b4 28×b4 28×b4 28×b4 28×b4 28×b4 28×b4 28×b4 28×b4 28×b4 28×b4 28×b4 28×b4 28×b4 28×b4 28×b4 28×b4 28×b4 28×b4 28×b4 28×b4 28×b4 28×b4 28×b4 28×b4 28×b4 28×b4 28×b4 28×b4 28×b4 28×b4 28×b4 28×b4 28×b4 28×b4 28×b4 28×b4 28×b4 28×b4 28×b4 28×b4<	00/05 > 51 8ch × 8 (00/05 > 51 8d×1 (CC)05 × 51 1d×8 00/05 × 61 2d×8 (60)05 × 51 1set×8 (00)05 × 51	Alpha numeric Sentinel Flag for report HALO Functional programming (JOB#260)
( -)	8d×2S ib beticknwy ∂k	Prr 25% 25% 1436 form Prr 25% 26% 15% 14% 15% Scale computer 14% 15% 15%	10230(3,2,1) 1023(3,2,1) 1023(3,2,1) 1033(3,2,1) 1033(3,2,1) 1033(3,2,1) 1033(3,2,1) 1033(3,2,1) 1033(3,2,1) 1033(3,2,1) 1033(3,2,1) 1033(3,2,1) 1033(3,2,1) 1033(3,2,1) 1033(3,2,1) 1033(3,2,1) 1033(3,2,1) 1033(3,2,1) 1033(3,2,1) 1033(3,2,1) 1033(3,2,1) 1033(3,2,1) 1033(3,2,1) 1033(3,2,1) 1033(3,2,1) 1033(3,2,1) 1033(3,2,1) 1033(3,2,1) 1033(3,2,1) 1033(3,2,1) 1033(3,2,1) 1033(3,2,1) 1033(3,2,1) 1033(3,2,1) 1033(3,2,1) 1033(3,2,1) 1033(3,2,1) 1033(3,2,1) 1033(3,2,1) 1033(3,2,1) 1033(3,2,1) 1033(3,2,1) 1033(3,2,1) 1033(3,2,1) 1033(3,2,1) 1033(3,2,1) 1033(3,2,1) 1033(3,2,1) 1033(3,2,1) 1033(3,2,1) 1033(3,2,1) 1033(3,2,1) 1033(3,2,1) 1033(3,2,1) 1033(3,2,1) 1033(3,2,1) 1033(3,2,1) 1033(3,2,1) 1033(3,2,1) 1033(3,2,1) 1033(3,2,1) 1033(3,2,1) 1033(3,2,1) 1033(3,2,1) 1033(3,2,1) 1033(3,2,1) 1033(3,2,1) 1033(3,2,1) 1033(3,2,1) 1033(3,2,1) 1033(3,2,1) 1033(3,2,1) 1033(3,2,1) 1033(3,2,1) 1033(3,2,1) 1033(3,2,1) 1033(3,2,1) 1033(3,2,1) 1033(3,2,1) 1033(3,2,1) 1033(3,2,1) 1033(3,2,1) 1033(3,2,1) 1033(3,2,1) 1033(3,2,1) 1033(3,2,1) 1033(3,2,1) 1033(3,2,1) 1033(3,2,1) 1033(3,2,1) 1033(3,2,1) 1033(3,2,1) 1033(3,2,1) 1033(3,2,1) 1033(3,2,1) 1033(3,2,1) 1033(3,2,1) 1033(3,2,1) 1033(3,2,1) 1033(3,2,1) 1033(3,2,1) 1033(3,2,1) 1033(3,2,1) 1033(3,2,1) 1033(3,2,1) 1033(3,2,1) 1033(3,2,1) 1033(3,2,1) 1033(3,2,1) 1033(3,2,1) 1033(3,2,1) 1033(3,2,1) 1033(3,2,1) 1033(3,2,1) 1033(3,2,1) 1033(3,2,1) 1033(3,2,1) 1033(3,2,1) 1033(3,2,1) 1033(3,2,1) 1033(3,2,1) 1033(3,2,1) 1033(3,2,1) 1033(3,2,1) 1033(3,2,1) 1033(3,2,1) 1033(3,2,1) 1033(3,2,1) 1033(3,2,1) 1033(3,2,1) 1033(3,2,1) 1033(3,2,1) 1033(3,2,1) 1033(3,2,1) 1033(3,2,1) 1033(3,2,1) 1033(3,2,1) 1033(3,2,1) 1033(3,2,1) 1033(3,2,1) 1033(3,2,1) 1033(3,2,1) 1033(3,2,1) 1033(3,2,1) 1033(3,2,1) 1033(3,2,1) 1033(3,2,1) 1033(3,2,1) 1033(3,2,1) 1033(3,2,1) 1033(3,2,1) 1033(3,2,1) 1033(3,2,1) 1033(3,2,1) 1033(3,2,1) 1033(3,2,1) 1033(3,2,1) 1033	Alpha numeric +/- Food stampable Taxable HALO ITEM/ST
%	THALO BUCDBUT) 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1	URAN STRUCT STRUCT URAN SON I A State State of the structure Spill Science of Spill Science of Spill Science of Science of State Structure Science of State Structure Science of State Structure Science of State	4d×4 1d×4 1d×4 1d×4 8ch×4 4d×4 1d×4 1d×4 1d×4 1d×4 1d×4 1d×4 1d	% rate +/- Alpha numeric HALO Food stampable Taxable ITEM/ST Entry
CASH CHECK	8d×1S	1 in 8 295 U 1 in 8 295 U 2003 2004	44×9×58 44×9×58 8ch×1 201×1→25	HALO Alpha numeric Non add code entry enforce
CASH SALE	-)// 8d × 2S	າວກາກວຸ ຄວາວນດ້ 4d × 2S	08×1×05 8ch×2	Alpha numeric
CHK CHANGE	8d×1S	4d×1S onemua adq!A	8d×1 E×155 8ch×1	HALO Alpha numeric
TIP (TOTAL)	0.0 16 0.016 0.0 8 d × 15 100 1 101 0.01 0.00 100 1 0.01 0.00 0.00	Han B Landy	2d×1 2d×1 4d×1 1d×1	HALO Rate Validation.enforce
- PLU TTL	8d×1S	onomun sigiA 4d×1S	8ch×1	Alpha numeric
FS SALE FS CHANGE	8d×1S 8d×1S	4d×1S otnonocests/A otno nonebiteV	8ch×1 8ch×1 8ch×1	Alpha numeric Alpha numeric
0 P-bal		4d×15 ^AH	8ch × 1	Alpha numeric
NO SALE		4d×1S	8ch × 1	Alpha numeric

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ITEM	TOTALZER	COUNTER	PRESET
VALIDATION		4d×1S	8ch×1	Alpha numeric
			1set×1	JOB#255 PROGRAMMING
SLIP COUNT	·	4d×1S	8ch×1	Alpha numeric
			1set×1	JOB#255 PROGRAMMING
	and the second
CUSTOMER		4d×1S	8ch × 1	Alpha numeric
PERIODIC TTL	8d×455(745)	4d×455(745)
CONSECUTIVE		4d×1
MACHINE No.			3d×1	and a second Second
Conversion	8d×1S	4d×1S	6d×1	Conversion rate
			8ch×1	Alpha numeric
EAT IN SBTL	8d×3S	4d×3S
OPTIONAL			6d×10	Stack report
			1set×4	optional feature
a sa a s	anti- anti-anti-anti-anti-anti- anti-anti-anti-anti-anti-anti-anti-anti-			programming (JOB# 256)
HOURLY TTL	8d×48	4d×48
CASHIER	n an		4d×1	Code
		a de la companya de l	1d×1	Drawer
SALES	8d×1×4(9)	4d×1×4(9)	8ch×1×4(9)	Cashier's name
PO	8d×1×4(9)	4d×1×4(9)	8ch×1×4(9)	Same descriptor with the general report
BA Constant	8d×1×4(9)	4d×1×4(9)	8ch×1×4(9)
REFUND	8d×1×4(9)	4d×1×4(9)	8ch×1×4(9)	مراکز بار آماد باید کرد. از میلی با استان برمینی کار ۱۹۹۵ - این از این
VOID	8d×1×4(9)	4d×1×4(9)	8ch×1×4(9)
(-)	8d×2	4d×2	8ch×1×4(9)
MEDIA	8d×6	4d×6	8ch×1×4(9)	and and a second and a second
SERVER			4d×1	Code
	8d×1×14(99)	4d×1×14(99)	8ch×1×14(99)	Server's name
	8d×2×14(99)	4d×2×14(99)		TIP
			4d×2×14(99)	PBLU code
	8d×8×14(99)	4d×8×14(99)	4d×2×14(99)	Media Media
SLIP BUFFER	16d×(43)
BALANCE FILE	8d×9×100(999)	4d×1×100(999)		Amount, cover count
		2d×1×100(999)		Print position
		4d×1×100(999)		Table #
		4d×1×100(999)		Server #
		1d×100(999)		Flag
ł	12 M		4d×1	Code

[Specification]

Memory protection • Kind: Rechargeable Ni-Cd battery • Life: Approx. One month

• Recharging: Automatically recharged during operation, Allow 24 hours in the room temperature to fully recharge after low battery reading.

Page 14

5. Options

Page 15

NO.	NAME	MODEL	DESCRIPTION
1.	SLIP PRINTER	ER-33SP	Printer and its interface inclusive
2		ER-01RP	For SRN system
2.		ER-02RP	For RS232C system
. 3	Mode key variation	ER-25MD1~5	For USA CANADA
0.		ER-31MD1~5	For South Africa
4.	Cashier key variation	ER-25CL	Barrel lock key
5	Expansion Drawer (MAX3 units)	ER-34DW3	6B/6C for USA
		ER-34DW5	6B/5C for CANADA
	and the second	ER-34DW7	4B/8C for South Africa
6	Coin case	ER-33CC	6B/6C for USA
		ER-33CC1	6B/5C for CANADA
		ER-38CC	4B/8C for South Africa
7	Coin case cover	ER-33CV	For ER-33CC
1		ER-33CV1	For ER-33CC1
		ER-38CV1~5	For ER-38CC (key variation)
8.	EXPANSION MEMORY Board	ER-33MB	32KB memory Board with 5 ic sockets
9.	EXPANSION RAM CHIP	ER-01RA	32KB RAM CHIP
10.	in-line system	ER-33MA2	SRN i/F Board + MASTER ROM
		ER-33SL2	SRN i/F Board + SLAVE ROM
11.	on-line system	ER-33RS2	RS232C i/F(2CH) + ROM
12.	FD unit	ER-01FD or ER-02FD	Preset Loader
	cable	ER-52CB	Loader cable
	level converter	ER-52LC	TTL ↔ RS232C level converter
13.	OPTION Batlery	ER-30BT	For South Africa
14.	SCALE I/F	ER-33IF	and the second
15.	SCALE/COIN dispenser I/F	ER-52IF
16.	SCALE/COIN dispenser, RS-232CI/F	ER-33RI

5-2 OPTIONS

5-3. Service OPTIONS

NO.	NAME	PARTS CODE	DESCRIPTION
1.	Journal paper near-end Sensor	DKiT-8226RCZZ
2.	Validation form Sensor	DKiT-8227RCZZ
3.	Drip-proof printer cover	DKiT-3337RCZZ
.4.	MODE Key grip cover	LKGIM7126RCZZ	OP only
5	Water-proof switch cover	GCOVB6872RCZZ	for standard cashier key
	water-proor switch cover	GCOVB6873RCZZ	for ER25CL cashier key
6.	Service Key	LKGIM7113RCZZ	for standard mode Key
		LKGIM7094RCZZ	for ER-25MD/31MD
7.	Water-proof Key cover (ER-3311)	GCOVB6899RCZZ	for normal key board A61005
8.	Characler Key cover (ER-3311)	GCOVB6925RCZZ	for normal key board ASSA02-

5-4. Supplies

NO.	NAME	PARTS CODE	DESCRIPTION
1.	Roll paper	DPAPR1006CSZZ	5 rolis/pack
2,	Ink ribbon	PRBN-2320RCZZ	Purple
3.	Ink for stamp	UINK-1001CCZZ	5cc
4.	Key sheet	PSHEZ6720RCZZ	standard Key layout (For ER-3310)
		PSHEZ6700RCZZ	Blank Key sheet (For ER-3310)
		PSHEZ6698RCZZ	character Key sheet (For ER-3310)

6. SRV/PGM mode program list

There are the following programs.

1. User program

1-1) Program used in the PGM1 mode (routine operation)1-2) Program used in the PGM2 mode (for machine installation)

Page 16

Program used in the SRV mode (service engineering) ... Has a job code in nine hundreds. You may classify the above in terms of hardware and software. Noted with a single circle "O" in the table is applicable for the entire ECR and double circle "O" for individual function.

6-1. Hardware functions

		and the second				1
ltem	Function	Choice	Default	Job code	SRV	PGM
Printer	Date-print-format-	Y/M/D / D/M/Y / M/D/Y	M/D/Y	912A	, O
	Receipt switch	Enable/Disable	Enable	912B	ЧО. '
	Header print format	Normal/two lines, w/o cashier and server name/ consecutive number, double size	Nomales	912C	0	-
	Validation format	Consecutive number/date	Dale	913A	0
	Contents of validation	Sales total/tender amount	Tendered amount	913A	0	с. С.
	Amount-leading symbol	*/$	$	915A	0	•
	Journal paper near end sense (sensor as a service option)	Enable/Disable	Disable	915C
	Lock on journal paper near end (sensor as a service option)	Required tape exchange/cancel by CL key	Cancel by CL key	913C	0.
	Logo (message) print format	3 lines/stamp only, w/o	-Stamp only	912D	. O
	Receipt MONTENTEAMER		2/AM & G (2013) 2.10740 (2015	16.5	ante.	· ·
	Slamp MOS+ ind	Life Osenea) Horo Loop ( Marco ( 1996-19	ใช้สะเสรี ให้เป็นข้าม
a sana		សារីលាសារី សារីលាសារី សារី «> 1111	144 5203 FR-82LC	医无效疗法	na an Iovol Oc
y i go di i nangangan tan 1 - na ka		n na an		2011 - 2011 - 2012 - 2013 - 2014	11 1991 4 2.399() 2.899(1997)	en e
n an sa'n san sin angewege age	Register-number-setup	-3. digils		-252	1.2234.37 1.2254.47 1.2254.47 1.2255.47
100 - 400 - 200 B	Consecutive number setup	4 digils		253
	Logo (message) setup	21 chrs x 6 block (21 chrs × 6 lines)	Space	254		0
	Validation frequency	0 ~ 9 (0: disable)	1	255y-1-1-1	"s ant-	Q
	Journal selection	Select/ali	All	256D	and in PROFIL	```()
	Validation paper detection (senser		Disable	912D	0	3
la soul a construction	Text character select (dept & PLU)	8/12 character ANDERS	8 character	918B	கமேல
Slip	Slip printer connection	Connect/not-connected SCAP 93	Not-connected	902C	SSQSV ₹
printer	Print start position	Column 0 ~ 14	Column 0	904CD	0	3 - C
•	Print method	Al registration/via buffer	At registration	911D		1.0
	Print contents you not brain	Extracted/detailed	Detailed	91.1D	O.	3.0
-	Required slip print at PB entry	Required/not required	Not required	919C	0
	Print start line Notes and And Dates of	0~64	0	255ab.		Q
sa sarat	Maximum print lines GR. Maxability	1 0~99	99	255cd		0
	Print frequency crossic year fam	0~9 (0: disabled)	1 3.6 55.58	255z	- Nachi ri
Kitchen printer	Kitchen printer connection was an	ER-01RP/ER-02RP/none		9028	0.	,
	Relund, return data transmission to kitchen printer	Send/not to send	Send	902C	୍ରତ୍ରପ୍	line Line
	Second kitchen printer	0-(none), 1~10	0	207
	DEPT/PLU TEXT format	Normal/ D.C.	Normal	918C	0 )	i î
	Printing of 0-amount PLU on K.P	RED/BLACK	BLACK	918B	0	\|
	Second K.P mode	Buck up/Duplicate	Buck up	920B	: O: 1	·
Kor	Inplit buffer after a transaction is	Clear/not to clear	Not to clear	913C	Ö
board	Choice of error process	Lock error will non-accepted mis-operation/all lock error	All lock error	913D	0	.s
	Keylouch tone	Enable/Disable	Enable solt in an and	913D	O OCTA	8 8 C Y C
	Key layout	Function key numbers	Standard 0.	950 9510ng grav	Ö ciloi or	-02-1
Mode	Void mode function	Enable/Disable	Enable	907D	0
switch	Disable OP X/Z mode	Enable/Disable	Enable	256B	mange	. 'O
Drawar	Drawer closing	Required/not required	notrequired and an i	913D		an cu
Drawer	Till timer limit	0~255 seconds (in	io secondariosan tob aboat S	270 0 9 0	n, used	PO an

Page 17

ltem.	Function	Choice	Default	Job code	SRV	PGM
Memory	Period of summary	Yes/No	No	971	0
	•
	IRC	Yes/Nxo	No	902A	0
	RS232C connection	Yes/No	No	902A	0	·
Others	SCALE	Auto/manual	Manual	903	0
Others	Scale weighing mode	KG/LB	LB	903c	0
	Tare input	Enable/Disable	Disable	903c	0
ا	SCALE TARE TABLE	0.00~99.99	0	158		0
	Coindispenser	Yes/No	No	903C	0

6-2. Software functions

Item.	Function	Choice -	Default	Job code	SRV	PGM
Depart	Hash dept setup in PGM2 mode	Enable/Disable	Disable	906B	0
-ment	(-) dept set up in PGM2 mode	Enable/Disable	Disable	906B	0
mont	Department counter decimal point position	(Fixed to 2)	2	906D	0
	Maximum department number	0~99	22, including two promotion dept	971	0
	Unit price setting	6 digits (0~999999)	0	110		0
	HASH	Hash/normal	Normal	210A
	Validation print	Required/not required	not required	210C		0
	SIS	SIF/SIS/single item (normal)	Single item (normal)	210E		0
	Amount input type choice	Open & preset/open/disable	Open	210F		© ¹
	Sign	-/+	+	211A		0
	Food stamp accepted	Enable/Disable	Disable	211B		0
In a	Taxable mode	Tax-1/tax-2/tax-1 & lax-2/non- tax	Non-tax	211CD		۲
·· ·	HALO	1~9/0~7	17	212AB		0
	TEXT	8 chrs	DPT. xx	214		0
	Promotion dept setting	Promotion/normal	Normal	210B		0
	Promotion PLU code setting	5 PLU's maximum	0	215		0
	Scale input	Enable/Disable	Disable	210D	e en el esp	0
	Subtotal print format	Subtotal printed/added to subtotal/single lineleed/normal	Normal	213		۵
	Direct dept key code define	1~99		219		0
	Kitchen printer number	0~10 (0: not to sent, 10: send to receipt)	0	218		0
	Maximum PLU number	0~ (0: disabled)	80	971	0
PLU/	Accessing totalizer for entry of number of registration items for split pricing	Conversion to pack equivalent/individual count	Individual count	905C	O ·
PLU	Stock count in credit balance	Disable with error prompt/enable with error prompt only/enable	Enable	906A	0
220.000	Choice of PLU type	Erase/PLU/ sub-dept/disable	PLU	121a		0
	Printing a null amount	Yes/No	No	919C	0
	Pertaining dept setling	1~50	1	121bc	1.1.1	0
	PLU unit price setting or sub-dept HALO setting	6 digits	0	120	na tha in in	0
· ·	Scale basic weight manual entry or pack contents for split pricing	2 digits	0	120		۵
	PLU free code setting	4 digits	0	229		0
	Sign	-/+	+	221A		.©
	Food slamp accepted	Enable/Disable	Disable	211B		0
	Taxable mode	Tax-1/tax-2/tax-1 & tax-2/non- tax	Non-tax	211CD		0
	Add to inventory	0~99999	0	122		0
	TEXT	8 or 12 chars	PLU-XXXX	224		0
	PLU linking	3 PLU, maximum	0	225		0
	Group setling	1~15	1	226		0

Page 18

illeitt.					onv boins
	PLU level start/end number	1~9999 each for three levels	level 2: 81 -160	227
PLU/		n a staf a nama marana. Afrik	lovel 3: 161 -240		- 19
sub-	and the second	Auto/manual	Auto 6 201	natra contra d	101 C 20
PLU	Shift level	BEG + MGB mode/MGB		256A	ELLAL V
la seres	and a state of the second state of the second state of the second state of the second state of the second state A state of the second state of the second state of the second state of the second state of the second state of t	mode only	REG + MGR mode	NACE PERMIT	a arent
· ·	Kitchen printer number	0~10 (0: not to send, send to receipt)	ONTOLOGIC	228	n tan Militan
	Scale entry	Required/enable/not required/disable	Disable	220	त क्षस्त्र १९ २ व
	SUB TOTAL VOID	Enable/Disable	Enable	918D	0
	Specified void		Enable	918000	00r
Void	TEXT	8 chrs	VOID	234
- - M. 71	Specified void in REG mode		Enable	256A
	Last item void in REG mode	Enable/Disable	Enablesce i store (1940)	256B 30	t) dan
	Void mode in REG mode	Enable/Disable	Disable	907C	1. O
DEE	TEVT	0 obro	DEEPINID & Later and the	1994 Coller	3 1. (.) 15
HEF-				254	1413-1413 1410 - 1410 - 141
UND		Required/not required	Not required	2300	5a 1931
			BETURN	234
		Epoblo/Dicoblo	Enable	256D	1773 - 1794 10-16 - 1-16
				2000	110.6.
Cou-				2318	49.444
dis-			Non-lay	23100-
count (indivi-		2/non-tax	nuntur 1915 - Alexandra Merzaleandra	5.000 and 1000	1.1.2.2.4
dual	HALO	1~9/0~7	17	232AB	i.ed
sell- ing)	TEXT		(+).1.)d a ( (-).2.	234	ng an
	Coupon kind	Store coupon/vendor coupon	Vendor coupon	236A	1911-1911-1911-1911-1911-1911-1911-191
% kev	ST(-) and ST(%) key strokes	One stroke only/any stroke	Any stroke	915C	`0
,,	wilhin a transaction	an 1966 ș	4#10-8		i tir t
	Operation key choice	Discount (%) by item/discount	Discount (%) by subtotal	235A	sana Jora n
A.	Choice of discount mode	Open &	Open	238	1977
		preset/preset/open/disable		ustal inco	tije ji te
	Discount rate setting	0.00%~99.99% (preset disabled with 0)	0.00%	.130
	0	1. When the set included	and the second sec	2210	fection
		Enable/Disable	Disable	231R
		Tax-1/tax-2/lax-1 & tax-	Non-tax	231CD	2.2 i.i. i.
		2/non-lax	naces was seen as the second	Strate for his
	HALO	0.00%~99.99% (preset disabled with 0)	99.99%	238
	TEXT	8 chrs 14 ,	%1~%4	234	1. A 3.
: Nor	Non-add entry (départments excent	Bequired/not required	Not required	914C	0
Non- add	for hash department, PLU/sub- department)		A the second A the second s		n Tur Na B
	Non-add code entry	For required only/any time	Any time	914B	0
4 - X	At beginning of a transaction	Required/not required	Not required	914B	0
	Non-add code entry	Enable/Disable	Enable	256A	⊢ Ŭ
	Choice of maximum input digits	4/8/12/16	16	914Č	0
	Number of balance files	0~999	100	971	1 n
Pre-	Previous balance mode	Manual PB, CB/PB lookup	PB lookup	919A	10
VIOUS	Input number check digit	Yes/No	No	919B	n n
bala-	Guest check number, participant	Enable/Disable	Disable	919B	1 0
	I number checking	Lange of the second s	Barren abbien ditte

Page 19

Item.	Function	Choice	Default	Job code	SRV	PGM
Pre-	Printing header on a slip paper for additional order	Print/Not to print	Print	919A	0	5
holo	Automatic quest number search	Enable/Disable	Disable	919B	0
Uala-	PP/CP point	Bequired/pot.required	Not required	919C	0
nce	TEXT	8 chrs	**PBAL	234		0
			CBAL SERV
	Guest check number setting	1~9999	0000	295		0
	Guest check number		No setting	242		0
	Choice of account closing	At each transaction/total of	Total of transaction	256C		0
	method	Desuired/act required	Not required	256D		0
	Number of guest entry		Non-compulsony	919A	0
	PBLU code entry at reorder	Comparison y/non-comparison y	Guest check	010D	Õ
	PBLU TAX system	Brist/skip	Skin	013B	1 ŏ
Subtotal	Merchandise sales sublotai	Print/skip	Skip	913B	0	\| \|
		Phillyskip	Not required	9160	1 ŏ
			Not to compute	016D	1 o
	Tax computation at tray subtolal			224
1997 - 1997 1997 - 1997 1997 - 1997	TEXT	8 chrs	SUBTOTAL MDSE ST FAT IN1~3	204
	Paper feed after tray sublotal	0~9	0	255x		0
a terrar A	Eat in sublotal tax delete	No tax delete/tax-1/tax- 2/tax-1 & tax-2	No tax delete	260FG		0
	MANUAL TAX	Enable/Disable	Enable	914D	0
100		1~9/0~7	17	232AB		0
lunc-	TEXT (MANUAL TAX)	8 chrs	M-TAX	234	1	0
uon		Sippapore/pormal	Normal	901C	0
			No toblo polup	240	1
in a suite State of the	TAX TABLE 1 TAX TABLE 2	98 steps (112 steps altogether) 98 steps		240
	Tax raie(%)-1			1	ł
	T			241	1
	Tax rate(%)-2		0
			TAX1 ST TAX2 ST	234	\|
	Text (tax amount)	8 chrs	TAX 1 TAX 2	234		٥
	TAX DELETE	Enable/Disable	Disable	914A	0	- \|
	Printing when lax is 0	PrinVskip	Skip	913A	0
Foreign	Printing conversion subtotal	Print/Not to print	Print	919D	0
currency	Conversion rale	0.000%~999.999%	0.000%	130		0
sion	TEXT	8 chrs	CONV	234		0
Cash,	Printing footer at closing	When denomination key is pushed/all receipts	All receipts	912C	0
check	Slip printing	Required/not required	Not required	260B		0
charge	Validation printing	Required/not required	Not required	260C		0
20 - L.	Non-add code entry	Required/not required	Not required	260D		0
	Non-add code entry digits	4/8/12/16	16	260E		0
	Choice of taxing mode	Tax-1/lax-2/lax-1 & lax- 2/no tax	Tax-1 & tax-2	260FG		0
1	Foolor printing	Print/skip print	Print	260H	1
· ·		Required/pot_required	Required	2601
	Change		Enable	260J	1	0
Sec. 6			Enable	260K	1 .	0
			Not required	260L	1	0
	Entry of lendered amount		Opens	260M	1
	Opening drawer	Upens/Does not open	18	262		6
			CASH, CASH2	234		6
15		8 CRIS	CHECK CHARGE1~5

Page 20

		Choice	Delault	JOD CODE	SHV	PGM
Cash,	Non-add code entry at cashing check	Required/nol required		230A°666.5 statut	ته ترکنی ا بافید کاری
charge	HALO for change to check	0.00∻9999999.99	9999999:99:1	/ 261	liste inter	Orsu
	Check validation message print	21 chrs x 3 lines	1st line: No 2nd line: No 3rd line: for deposit only	- 274 .	63028 7X1 6 771	, O
	Checking for required non-add entry, kitchen printer which prints every charge	0~9 (0: no oulpul) 10: Printed on receipt (chit sheet)	0	237 1334 - 200 1334 - 200 1334 - 200	io recen io factor saturnos	0
Food stamp	Type of food slamp ability	Tax forgiveness/tax payment with food stamp/tax payment with cash/no food stamp	No: food: stamp (	903D	, O., icadio
1.1.1.1.1.1.1.1.1.1.1.1.1.1.1.1.1.1.1.	Food stamp subtotal before	Required/not required	Not required	260A		0
RA	Payment method: 10	Cash only registration /compound registration	Compound registration	915C 0000 00b	r doiol	l. Jana
$	Validation printing:	Required/not required	Not required	230A	i, sonara Mari	0
are a restance	HALO	.1≂9/0~8	Market have have been a second of the second	232AB	103 220	0
i se me	TEXT	8 chrs	***R/A	234	and far	0
PO	Validation printing	Required/not required	Not required	230A		0
Ŭ	HALO		18	232AB
			****/0	234	~~~~
No- sale	No-sale after entry of a non-add			914B	ol Qas' Bacho
	-Receipt issued-at-No-sale	-Yes/No	Yes Maile	914A	0
Em->	Server, cashier, manager code	-Displays/not to display -	Not to display.	910B ^{(A, )}	NUKAN O TAF	- 00 - 00
server	Cashier, server, manager-password	Required/prohibiled	Prohibited · (): an analogai 8 {	9108 ³¹⁰⁷	i) O Cit m Iopo	1 6 6
Cashier		Required/hot required acon Str	Not required	910C 3.46	ATO AS	7
	Merchandise total by cashiers	Tax inclusive/net sales	Net sales	910A	1.:Q.A1
i.	Cashier assignment	Required/not required	Not required	910B		1
ا ^ن ەش. با	Cashier key type	Barrel lock/push button type	Push button type	910D	O
f. • · •	Gashier A~E entry	Code entry/hardware change	Hardware change	910D	oleOco i
i st	Choice of number of cashiers	0-28 (XAI)	4 ^{36)(1) 6} (	1971 no side.	∷n O @I	ļ
	Cashier number setting	2 digils (1~99)	No setting	151		0
	Cashier name setting	8 chrs	Space ^{312) 8}	154	55,2201	0
5	Gashier drawer number-setting	-0~4 (0: not to open)	0	259		0
1	Merchandise sublotal by servers	Tax inclusive/net sales	Net sales	910A	0/11	1
	Server number entry	-Required/not required	Not required	910C	0	.
	Choice of server number	0~99	15	971C	0	1000
i bili i bili	Server number setting	2 digils (1~99)	No setting	141	e de lou. El estere	O.
) — 21.0 3	Server name setting	8 chrs		144
	Manager number entry	Required/not required	Not required	910C	0
	Manager number setting	2 digits (1~99)	No setting	245	in contra
TIP	Entry mode			9188	under s.V	1
,	Type of entry		Amount	2568	Non-adv
(;)			17 ²¹ (8) (4) (3)(3)	130 1939AD 0	itta radi	H~
in an address to		1.29/2027 2.2027	TIDAN	202MD	1. 1.))((43)
	IEAI	0 0115		204
	Validation priot	Required in the second	Not required	230 - 1960-	r parrett	in
	Mode	24 hours/12 hours hours	12 hours A	912B	0	ΗŬ
Timer	Date setting	6 chrs	010100	250	na ang a	0
clock	Time setting using 24 hours system	4 digits (0 = 2359)		251b abo	d holienti	Ιŏ
1000 (Color 10)		Bound down/round un/round off	Boundtoff	9114 hest	n Qab	H –
Others	PGM2 mode program password	4_digits	- 0 00kenoa0	944 ^{OWE 10}	nion0

Page 21

ltem.	. Function Choice	Default	Job code	SRV	PGM
Others	PGM1 mode program password setting	4 digits 0		280		0
	Lock error beep	2-second beep/continuous until canceled	2-second beep	913C	0
	PGM setting of SRV mode prohibited function	Enable/Disable	Disable	909C	0
	Sentinel amount setting	8 digits	999999.99	257		0
	Kilchen printer text (printed on chil)	8 chrs	Space	208		0
	Chit receint	Yes/No	No	918C	0
	GT1 print on 7 report	Print/skip print	Print	0084	ŏ
Reports	GT2 print on 7 report	Print/okip print	Print	0084
			Print	9007		\|
		Print/skip print		9064
				9088
	Department zero skip on X/Z report	Yes/No	Yes	909A	0	\|
	PLU zero skip on X/Z report	Yes/No	Yes	909A	0
	Transaction zero skip	Yes/No	Yes	909A	0
	Hourly report zero skip	Yes/No	Yes	909B	0
	Sales share print on department report	Print/skip print	Print	909C
	Prohibit print on X/Z report	the second s
	Coupon type PLU Iolalizer	Print/skip print	Skip print	917A	0
•••••	Nel sales sublotal	Print/skip print	Print	917A	0
	Check change total	Print/skip print	Print	0174	0
		Print/ekin print	Print	01780
	Gross lax1, tax2 lotal and	Print/skip print	Print	917BC	0
- Sector e
	NEI IX1,2 IIL	Print/skip print	Print	917BC	0
	TOTAL TAX AMOUNT	Print/skip print	Print	917D	0
	Gross manual tax and refund manual tax	Print/skip print	Skip print	917D	0
÷	NET MANUAL TAX TTL	Print/skip print	Skip print	917D	0
	Printing sales total by denomination on cash report	Print/skip print	Print	918A	0
- 1993 - 1993 - 1995 - 1995 - 1995 - 1995 - 1995	Printing tip total on report by servers	Print/skip print	Skip print	918B	0
ana Nana ar	Cumulative report count default setting				a ak oo oo
	71	4 diails (0~9999)	0	930	0
	72	4 digits (0~9999)	0	931	- O	\|
	ΤΑΧ	4 digits (0~9999)	0	932	0
	Hourty	4 digits (0~0000)	0	933	õ
				034
	Cashiar			025	×
	Cashier			935	2	\| :
	Balance file	4 digits (0~9999)		936	0
and the	Server	4 digils (0~9999)	0	937	0	ļ
	GT2 setting	13 digits (0~99999999999999)	0	942	0
	GT3 setting	13 digits (0~99999999999999)	0	943	0
	Resetting consecutive number at Z2	Yes/No	No	908C	0	ļ
	Resetting consecutive number at Z1	Yes/No	No	908C	0	\|
	Denomination subtotal print format on general report	Print subtotal/add to subtotal/single line feed/normal	Normal	263		0
	Z1 mode password	4 digits (0~9999)(0: password entry not required)	0	281		0
	Z2 mode password	4 digits (0~9999)(0: password entry not required)	0	282		0
- 59 / 97 -	Zero suppressing specific report within PLU	Yes/No	Yes	256C		0
	Zero suppressing PLU group report	Yes/No	Yes	256D		0
}	Stack report setting	10 reports, maximum	No settina	286		ŏ
			1

Page 22

llem.	Function	Choice (904)	Default	Job code SRV	PGM
IRC	Machine assignment	Stand alone/Slave/Master	Stand alone mowears f	920D: 0001 3000	lanens
i come a	Second K.P. mode	Back up/Duplicate	Backup	920B O	-
	PGM-mode programming at the		Disable te 2 Sisona Islau	920©-00 10110@90.
	SBN transmission speed and		mode Endbelüisci	PGM cellion of SRV
	carrier-off waiting time	1MBPS/480KBPS	1MBPS	922 ^{3000, 0946} 000	J
2	287	•Carrier-OFF waiting Time		lige liggens leveling
	801	3.2~12.8msec(480K)	6.4msec	r por course designado	, i
	internet internet inte	- 1.6~6.4msec(1M)	oldenY	in the second	an a
	Back up master for Guest check	Yes/No	Novelentit	924A	ส่วยคาย
to a sub-sub-	Entire system general Z1 (#71) by	Resets the current sales along	Resets the current sales	925A
	masler ARCO	with those already individually	along with those already	ora y no signa si s	-
	Hands y a 1976 (Landa a se	already individual-reset	it by the second of the second s	aton X no ting 1 (E
	Automatically clear individual resetting memory at #71	Clear / nol clear		925A 5 310 00 000 VC no utile clos U.39
	Perform #99 (clear individual	-Disable/Enable	Disable	925A	]
1	resetting memory) before executing		qi	la and hogen visual-
	system general Z1 (#71)	l.mr ^c i ii	no usklobil – Koobska on	an lang merkerelak	1
÷	General resetting while a slave	Enable/Disable	Disable	925B 0	1
1 4	Registration until #99 is executed	Eŋable/Disable		9258 - 100 - 200 19 0 100 - 200
-	Individual resetting (#1-#2-#4-#20	Enable/Disable	Disable	925B . C. O.O.
1 10 - 10	#40) at each terminal	im"i \|h	ne gabines ja as	ป อกักษณีคนไปคนไปค้
	Consolidation report format	Consolidation report only /	Consolidation + each idea 1 (	925C
	C ; OGNE	Report lor each machine only	machine brusistor	Sad , ted sents	i.
	Lodividual resetting memory clear at		To clear	925D - O	1
1	open slore			ITT'S DAT HEAL	Ì
÷	Reset (All Z Job) at open store	Disable/Enable	Disable 1400	925D O
1	Terminal number	0 to 254	O, General P Bland Service	310 310	0
	Machine list	Terminal-number and Register	No-selling ac geberars 1.1.1.24 AA	311 2137 CEL MARCH	0
	Delete a machine from master list	Registernumber	ri ~~ng g~~ idethin'i (= molutian addi	312.1 b. 6a. (1616)	0
	Manager retry function	Enable / disable	Enable	331 20049 (could ch	0
í.	Manager file	Centralized / individual	Centralized generation	341 5367 gá _C athar	0
	Back up master setting	Terminal # (0~254)	0	313 010VPA	0
RS-	Down loading preset data	Enable / disable	Enable Roadolt Inc	5 390A 91 3vi Sicard	0
232C	Sending transaction data and preset	Enable / disable	Enable	390B (S. Char 154	0
54	RJE (Remote Job entry)	Enable / disable	Disable	390C	0
	Receiving Z command at stand	Enable / disable (200) 0 (200)	4 (5.9 8) (6~9 ) (6~10) (6~10)	390E (A1) Missila
	Electronic mail function	Enable / disable	Enable	390F	0
	Sending consolidation buffer	Enable / disable	Disable	390D 101 101	0
t in s	RAM data	U (Dec	(十句) (()()() (- )	Barnae ino
1	Sending report print data	Enable / disable (883	Enable a l	390G THREE	0
No. and an	Sending All print data	Enable / disablesecconcescoce	Disable: 31	390H pm 28 510	0
	Ontline host / slave assignment	Host / slave (000000000000000000000000000000000000	siàveost of	391A philop 815	0
÷	ER:OFF TimeCare	10×n sec	CHRUSS OF COMO 0	391Baatoo anti nof	0
	On-line slave terminal number	01~99 01 :	01 OF SOME TS IN ISOMU	3916Daga (mitteeof	0
	Start code / End code setting	ASCIICTER	Start: 002 END: 013	13926 mail.mared	10
1 - 10-		Using modem / Not using	Not using modern with a	393A
i i		using modem with a protocol	e conservation e la conservation e la con	ORWORK (11)	i
1		Slave terminal number Officies		594warria (Lon 1)	10
	number to be received auto-matical	(01~99)	entry not reo
	ER-OFF command,	ay j	olveov – haga aim	នុទ ពួករបស់សុខមេល ភាទាំ
	Individual reset for on-line	Enable / disable	Enable	395A O. Statian	0
	Issuing report by the ECR side	Enable / disable	Enable word instant auging U	1 3958 5800000000000	0
	while the in-line reset Job is being carried out by RJE	ng pillen E contra an	n ,elna, n Ot	pulles hus a staff	i.

Page 23

7.SRV (SERVICE) MODE

The SRV key is used for operating in the SRV mode.

7-1 SRV, reset (Program Loop Reset)

Used to return the machine back to it operational state after a lock-up has occurred.

Procedure

Disconnect the AC cord from the wall outlet. Set the MODE switch to the SRV position Con nect the AC cord to the wall outlet.

7-2 Master reset (All memory clear)

There are two methods for the way of master reset.

• MRS-1

Used to clear all memory contents and return machine back to its initial settings. return keyboard back to default. for default keyboard lavout refer to page 3.

Procedure

1) Disconnect the AC cord from the wall outlet.

2) Set the MODE switch to the SBV position
3) Connect the AC cord to the wall outlet, while depressing the

• MRS-2

Used to clear all memory and keyboard contents.

This reset returns all programming back to defaults. The keyboard must be enter by hand

This reset is used if an application needs a different keyboard layout other than that supplied by a normal MRS-1.

Procedure

1) Disconnect the AC cord from the wall outlet.

2) Set the MODE switch to the SRV position

Connect the AC cord to the wall outlet, while depressing the RECEIPT FEED key and the JOURNAL FEED key.

XXX MRS RESET XXX

*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.

[key setup procedure]

NOTES:

*1: When the 0 Key is pressed, the key of the key number on display is disabled.
*2: Push the key on the position to be assigned. With this, the key of the key number on display is assigned to that key position.

Key number	Key name	Key number	Key name
1	Numeric key "0"	10	Numeric key "9"
2	Numeric key "1"	11	Numeric key "00"
3	Numeric key "2"	12	Numeric key "000"
4	Numeric key "3"	13	Decimal point key
5	Numeric key "4"	14	CL key
6	Numeric key "5"	15	@/FOR key
7	Numeric key "6"	16	#/SBTL key
- 8	Numeric key "7"	17	CA/AT key
9	Numeric key "8"

7-3 Reading of the SRV mode program

[JOB code 900]

All parameters contained for the SRV mode as listed

Key operation. 900→[@/FOR]→[CA/AT]

				01/01/00	0 1	2:01AM
	the second second			000#0002	2
. •	175 - 187 - 1 97
5 *9 1 - 1	ing in the second	ſ		#900

	and the set			901#	0002		A
· ^ .	a lata	1.1		902#	0010
d ala	ಕೆಯ್ಯಾಗಿ ತೆಯ್ದಾಗ ಕ			007#	0010	• * • •	4
1-5. 5	in the second			0044	0000
	and the state of the state			704#	0000		\|
	the second second			903#	0000	1990 a. 1	12.1
9 m	and the second			906#	0002		·. • [
2 cu	Social cases and	1		907#	0000	1997 - 1997 - 1997
ер. Лан				908#	0000
	a da de sea			909#	0000
' = r	Comino			910#	0000		1.1
	Service	1.1	н.,	911#	0001		- i : \|
i sa	Preset	1 •••	1	912#	0001	1 1 mm - 1	. 1
8 4.		1.17		917±	0124	and an
				916#	0100
	and the second second			7178 (= ·.	00100		े. \|
1. at 1.	and the second sec	10.10	14	713#	0000		्राष
	and the second secon			710#	0700	1. 1	1
	·	1.11		917#	4003
	•			918#	4000		.,,
		1.		919#	- 0001.	÷
				920#	0000
	an the difference			921#	0000
	and the second			922#	0000
				923#	0000
	and a second second			924#	0000
		0		925#	0000	n. /
e sta			1.	930#	Z1	0000
			h	931#	72	0000	. \|
	6. S.		,	9328		0000	· \|
	Z1, Z2 .	Į	Ľ	OTTH	71	0000
	counters	·		0768		0000
			1	0754	71	0000
	2.5		1.	7.00#	• £1.000.000
	19 a		1	700# 077771			1
				957#	21	0000
		~	i i
		ſ	1	GT1 $(	0000000	000.00
				942#	•
	GTs ·	ί.		GT2 $	0000000	00.00	::::
1.14	•		1	943#
				GT3 $	00000000	00.00
	•	~
	PGM2 mode	<		944#	0000
	Socrat code	{
			1

Page 24

This reset tolema all programming the state and the state and some some

6.29M «

.2. Push the key on the position to be assigned. With this, the key

The Key layout report is printed in SBV mode.

4070 Record count 00022 100022 used records to course of XUDX กกการร 107070707 2000935 used records in an additing in the second of ¥nz¥ 00012 14/00017 ¥N4¥ 00020 n4/00020 ...................................... XUEX 00040 200020 NUTX 00014 Hat MANAGE BAL CONTRACT STREAM S.S. 00004 / ucuu4 Mana a tot acchen externe or " MANA o tot acchen Yngy nnnon ¥09¥ 00073 /00073 1 28M • Used to clear is memory women ", 91 %050 eqidor .¥15¥., 100100 oseu to orear sa memory eenterlis and return mitial seficier, ∋eturn keyboard taes 000000 ,⊎ /00099 ¥17¥ 00009 /nnnn9 1) Disconnet the Abreside Don the wall outer Set the Medmurressite King position. BANK. 07 2EEA -> Connect the AC cracke the w ion totuo II

Used to down all memory and keyboard contents.

Kov operation 970 → [@/FOR] → [CA/AT]: soo - massor® least .VAC 1 \ - Table # .....

Files on the memory are liste

LIOB code 9951

Downloaded from www Manualslib com manuals search engine

Page 25

7-4 Service mode programming

The following are the key operation required for programming.

XXX $\longrightarrow$ [@/FOR] $\rightarrow$ [A] [B] [C] [D] $\rightarrow$ [CA/AT] (Job#) Numeric entry 4 divite max

Details of [A] [B] [C] [D] will be discussed at each item description.

Key entry without depression of • key will affect

the programmed contents.

[] ist of service mode program]

Joh

901 TAX system. TAB setting
902 Ontion setting
903 SCALE setting, Food stamp system, coin dispenser setting.
904 Slip print shifting digits
905 Solit registration
905 Split registration 906 STOCK counter, HASH/MINUS DEPT programming,
907 Void mode programming
908 REPORT programming
909 REPORT programming
910 Cashier/Server/employee programming
911 Fractional disposal/SLiP print program
912 Date format, Receipt on/off switch, Time display, Receipt beader format, Federal Control, VP sensor, Logo format
913 Print format NE check programming Error been Key huffer clear, drawer close operation, error mode, Key catch tone.
914 No sale programming. Tax deletion, non-add programming manual TAX
015 Amount roading symbol NE check discount BA
916 Negative ST_TRYST programming
917 REPORT programming
918 Cashier report format, DEPT/PLU TEXT charactors, TiP method, chit receipt, void programmina. kitchen printer printing odit/no
919 PBLU method. PBLU programming, amount printing when PLU unit price is 0, conversion SBTL print
920 In-line setting (1)
- Second KP mode, PGM mode can be enable / disable at slave. machine assignment
922 In-line setting (2)
SBN transmission speed and carrier-off waiting time 924 In-line setting (3)
Back up master Ves / No 925 In-line setting (4)
Resetting mode selection
930 counter setting

037

942 GT2 Setting 943 GT3 Selting
944 PGM2 Secret code Setting
950 Free Key layout Setting (1) (2)
951
971 File creation

CA/A7

A _Always 0

B. -Always 0

C -- TAX system

TAX SYSTEM	С
SALES TAX	0
SINGAPORE TAX	4

D_TAR-Sot at 2

< 10R # 002>

-1 Choice of BS232C option -2 Choice of SBN option

RS-232C	INLINE (SRN)
NO	NO	0
	YES	- 1 - 1-	: [
YES	NO	2
	YES	3

B "Choice of KITCHEN PRINTER

Kitchen printer		B-2012
NONE		0
ER-02RP		1
ER-01RP	in a farair. I search	2
ER-02RP and E	R-01RP	3

C. -1. REFUND. RETURN data to send to the kitchen printer Yes/No

-2. Choice of slip printer Yes/No

RF/RTN data	Slip printer	С
transmit	NO		- - 40
	YES	3
not transmit	NO.	5	ہ سر
-	YES	7	1

D. -Always 0

MRS =.0010

* SRV reset must be performed after any changes to this Job code.

alslib.com manuals search engine

< 100 # 001 > Key operation

Page 26

nous De following are bei bev operating regise d for programment.

A. -Credit figure in stock counter

met: deco te boasue	3ib of line (0) [13] [44]	A) tc A ctuste	3
Enabled unconditiona	ally	.1101 0 /1026	្ន
Operation:enabled though error: displayed,		en Arpe Ae	×
Disable	med contents.	जकश् 2 ल ө с	ŀ

R -1 Fnable/Disable hash dept setting by/RGM2-inert sources to ter th 2 Enable/Disable ( ) dont potting by RGM 2

1			,
		Hash DEPT	(-) dept		301 191
301>		Disable	Disable	Optics with o ,	SG
~~лдог у~~ р24	.(១៧	en e nuneritate tano	Enable	~~de Angelsee~~ CAOS	266
				Skp pri it shiking digks Coli o verence da	- 1464 - 2465
		Enable	Disable	10203000 CC	- 504 - 506
			Enable 👘 🔐	um ungo 3 g etym teoM	5 (K
202				REPORT programming	894
	C. –Alway	vs 0	ę	REPORT programming	600
3	D Dept	decimal point posi	tion (Always 2)	NAGMONE VIOGNAMBEU Nebelorende teoreteore T	011
e I	RenteR	. Ime dealer.	MRS = 0002	kirof denot obt
		907 > ion i ,1030	roa (IV), lotinon	norder formalt, Fronter
		uon 1, ⊱nar beep, N	rannasiyonq ək	rodo dM "Isamol Iar"	214
	:1()	iode, Key caten Io	a lone, oror a	Joan, Juwer dese op
	FULL HURSEN	n, non aid pieco		Minimung sis of	iit ∎
	90	7	@/FOR		210
		_	(RELEASED)	TOVAT JE Proport	-?*¢
	AAiway	s O	(	nummation 1190135	210
	B. –Alway	so ^nai 1771	an Da PERAN	авид терет каласт	31(
	C. Enabl	/Disable void mod	te in REG posi	tion and a contour
at) - Sic	O PT nori	∿Void mode: in) RE	Goposition	U NIG , borhand U NIG	PR
г		Disable	nng TRB na		.
	owala in	Enable obtaine	ана обою М	91 " ż om "01 inono?
				tana (and a condense )
	DEnable	e/Disable_void.moc	leana baalaa	i noro- solitros alis. Nels to arcanterantera era e	.*
		Void mode		State Bernard	1.
				the second
		Enable		Over prodest retuint	;36.1
in in		Disable	11.7	2 100 (100	., .
rl .			MRS = 0000	)
	< JOB #	908 >			20
	Key opera	ation
5.199			1.1.11	n in teachtaire Maistean Martin an Màistean	- 49 - 2456
n an age g				U Andreas Vistoria (Contra
and the second sec	90	8	@/FOR		] ^• •.
1 24.51

Α.	-Alway	's C	)
В.	Choice	of	coin	disper

in uispensei		0 876	wiz -
Coin dispenser	В	sys 0	włA	.8
Na	0	mokiya .	A7 -	Э
Yes	1

1064-4 80 top -

_____ @/EOB

C. -1. Scale Auto/Manual -2. Tare input Enable/Disable

-3. Scale weighing unit KG/LB


Scale	Tare input	Weighing unit	C ACOURT
Manual	Disable	LB (Sec. 4.5)
		KG	1
	Enable	LB	2
		KG	SON 3 NOT
Automatic	Disable	LB	100001040 VS 4
		KG	5
	Enable	LB	6
		KG ,	7
AAO '		лото < :	< 302

D -FOOD STAMP SYSTEM

Food stamp motion C	sest P a to	- Choice
No food stamp mode	a MiQC 194	anora V. S
Tax payable by food stamp	$ 38$	311
No tax payable by food stamp	2	044 j
Food stamp forgiveness	3
	12

<JOB # 904> Key operation

B. -Always 0

D. -- Always 0

는 가까요? 이 가슴을 감정했다. 이 가슴을 즐길 것을 했다. - 전체는 것은 지금 같이 가슴 있는 것은 것을 하는 것을 수 있다. 이 가슴을 가슴을 가 있는 것을 수 있는 것을 하는 것을 수 있다. 이 가슴을 가 있는 것을 들었다. 이 가슴을 가 있는 것을 들었다. 이 가슴을 가 있는 것을 들었다. 이 가슴을 가 있는 것을 수 있는 것을 들었다. 이 가슴을 가 있는 것을 들었다. 이 가슴을 가 있는 것을 들었다. 이 가슴을 가 있는 것을 수 있다. 이 가슴을 수 있는 것을 수 있다. 이 가슴을 가 있는 것을 수 있다. 이 가슴 것을 수 있는 것을 수 있다. 이 가 있는 것을 수 있다. 이 가 나는 것을 수 있는 것을 것을 수 있는 것을 것 같이 같이 않는 것을 수 있는 것을 것 같이 같이 않는 것을 수 있는 것 같이 않는 것 같이 않는 것 같이 않는 것 않는 것 같이 않는 것 않는 것 같이 않는 것 않 것 같이 것 같이 않는 것 않는

- 24 -

Page 27

A 1 OT1 PRINT SKIP in 7 report 2 GT2 PRINT SKIP in 7 report 3. GT2 PRINT SKIP in 7 report

GT1	GT1	GT3	А
Print	Print	Print	0
		Skip	. 1
	Skip	Print	2
		Skip	3
Skip	Print	Print	4
·		Skip	5
•	Skip	Print	6
		Skip	-7


GT1 in X report	В
Skip	0
Print	4

C. -1. Yes/No to reset consecutive number (for Z2) -2. Yes/No to reset consecutive number (for Z1)

CC# reset at Z2	CC# reset at Z1	С
Non reset	Non reset	0
	Reset proceed in this
Reset	Non reset	2
	Reset	3

D. -Always 0

<.108 # 909 >

Key operation

MRS = 0000

A. -1. TRANSACTION REPORT ZEBO SKIP Yes/NO 2. DEPARTMENT REPORT ZERO SKIP Yes/NO 3. PLU(STOCK) REPORT ZERO SKIP Yes/No

Transaction report	DEPT report	PLU(stock) report	Α
Zero skip	Zero skip	Zero skip	0
		Non Zero skip	1
	Non Zero skip	Zero skip	2
		Non Zero skip	3
Non Zero skip	Zero skip	Zero skip	4
an an n a an an		Non Zero skip	5
	Non Zero skip	Zero skip	6
		Non Zero skip	7

Hourly report	В.
Zero skip	····· 0 ··· .
Non skip	4

C -1 Print/skip to print share on dept report

-2. Refer/skip to refer to prohibit conditions by PGM setting and report *

Printing share	Refer to prohibit condition	С
Print	Yes
	No	1
Skip	Yes	2
	No	3

"If a function is inhibited in SRV programming, any PGM programming relating to that function can be allowed or disallowed depending on the presetting of SRV 909 C. For example, if the REND function is inhibited in SRV 950, any related PGM programming, such as PGM 230, can still be performed if SRV 909,C, is set to Code 1, to allow it".

D Always 0

MBS = 0000

< 100 # 010 >

Key operation

A. -1. Include/Exclude tax in server sales total 2. Include/Exclude tax in cashier sales total


-	Server total	Cashier total	А
	Exclude tax	Tax excluded	0
		Tax included	2
	Include tax	Tax excluded	- 4
		Tax included	6

B. -1. Compulsory/Non compulsory cashier, server code entry 2. Appear/Hidden cashier, server, manager entry on display 3. Compulsory/non compulsory cashier entry (cashier assign)

Secret code entry	Display	Cashier# entry	Α
Disable	Hidden	Non compulsory	0
		Compulsory	1
	Appear	Non compulsory	2
		Compulsory	3
Compulsory	Hidden	Non compulsory	4
	·	Compulsory	5
· ·	Appear	Non compulsory	6
		Compulsory	• 7

Page 28

C. -1. EMPLOYEE TIME IN operation Compulsory/non 3 (2002)
- 2. SERVER # entry Compulsory/non compulsory
- 3. MANAGER # entry Compulsory/non compulsory

Employee time in	Server# entry	Manager#;entry	А
Non compulsory	Non	Non compulsory	0
nentique MART n	compulsory no	Compulsory quart	n¶.1 59 c.
ganoo ano r g	Compulsory	Non compalsonyon	31 62
្រំ ខេត្តអំណែ	ល អាមេរិកកម្ម លោកនេះ អ	compulsory enable (	n9 3 97
Compulsory	Non ao	Non compulsory	,4 1×13
	Gi	Compulsory	5
	Compulsory 29	Non compulsory	Sk ộ ,
E C	O	icompulsory	7

D. -1. Choice of BARREL LOCK or STAY DOWN for CASHLER:)》》 M89 KEY , generating VA은 all bolididation and bolididation and an

	Cashier ID Vie in Dotidinini si m	un Gineti
Stay down switch line	Hardware Key as now	Ran o ung,
	Code entry	1
Barrel Lock key	Hardware Key	0 eyewi# 4
	Code entry	5

MRS = 0000

3. 1 Compulsory/Non compulsory cashier, server addarsignal A. 4. Αρροστέ https://www.astron.com/org/analysis.
D. -1 Choice of Sip print tormap vice lutinos convice lutino? &

2, C	noice of slip print me	thod. velasiG	vino obsetences
Slip format		Slip method	Purec.
Full	detail format	Buffered	0
Sa a	รุสมมัญญาการแห่ง	Real time	1
Sim	blified format	Buffered	4
	viadialmes nell	Real time book	າວອຸ່ມອີກາດປ
d	A R. J. M.
8	versionate rawi	n na che
5	(tene protectory

Receipt on/off SW 0		Time display	В
		12 hours	- eo 0
		24 hours	1
Invalid	) SKIP Yeevile ) SKIP Yeevile	12 hours	2
	owner and	241hourstosta (2001)	ун , 19 г.

A | heger (iloota)335 | heger 1936 | heger notacions C.-1. Choice of RECEIPT HEADER LINE FORMAT -2. Choice of specific keylany key for fabrer print contributions

header line format	Footer print control	D
normal	Any key	0
8 ຄຸຍສະບະລະຄະດາວໃ	Specific key
Double size		alay a naki
	Specific key	3
2 lines	Any key	4
Von Joro stap	Specific key	. 5

Page 29

D. -1. Choice of validation paper sense enable or disable* -2. LOGO MESSAGE CONTROL 0 -3. LINE

O MESSAGE CONTROL 0 : 3 LINE 1 · STAMP ONLY

2 : LOGO/FOOTER)

2 : LUGU(FUUT) 3 : 6 LINES


VP paper sense	Logo message format	D
Disable	3 LINES	0
	Stamp only	- 1-
	Logo(footer)	2
1	6 lines	3
Enable	3 lines	4
na an a	Stamp only	5
	Logo(footer)	- 6
	6 lines	. 7

*NOTE) When slip printer is connected, the paper is sensed always

MBS = 0001

< JOB # 913 >

Key operation

A. -1. Choice of tax print when TAXBL ST = 0 2. Validation print format (1) or (2)

Format(1) : Serial NO, machine NO, cashier name,cashier code, and amount are printed.

Format(2) : Date, time, and amount are printed.

3. Choice of total amount only/tendered amount for total validation print


Tax print	VP format	Total VP	A
NO	D Date/time Tendered amount		0
		Total amount	1
	M-No/C-No	Tendered amount	2
		Total amount	3
YES	Date/time	Tendered amount	4
		Total amount	5
1977 - 1972 - 1973 - 1975 - 19	M-No/C-No	Tendered amount	6
1.1111		Total amount	7

B. -1. Choice of subtotal print

2. Choice of MDSE ST print

Subtotal print	MDSE ST print	B.
Skip *	Skip*	1
	Print	3
Print	Skip	5
	Print	7

Nole*: Not printed upon depression of the SBTL or MDSE ST key in the skip mode, but they are displayed.

C. -1. Enable/disable of the [CL] key to clear journal paper near end sensor check error.
- 2. Choice of continuous beep/2-second beep on error
- Choice of key buffer clear at the termination of a transaction

Near end clear	Веер	Key buller clear	С
Enable	Continuous	Cleared	0
		Not cleared	1
	2-second off	Cleared	2
		Not cleared	3
Disable	Continuous	Cleared	4
te Page and		Not cleared	5
	2-second off	Cleared	6
	an an the second second	Not cleared	7.

D. -1. Noncompulsory/compulsory registration with drawer closed 2. Misoperation error


Drawer closed	Error action	Catch lone	D
Noncompulsory	All lock	Yes	0
a daara	اردین به میرد میرد د	No	1
	lock and one	Yes	2
, **	shot	No	З
Compulsory	All lock	Yes	4
	an a	No	5
* 77. add	lock and one	Yes	6
	shot	No	· · 7

3. Choice of key catch tone generation

Key operation

A. -1. Choice of receipt issuance at no sale

Enable/disable no sale

Enable/disable tax deletion


No sale receipt	No sale operation	Tax deletion	Α
Yes	Enable	Disable	· 0 ·
*** .		Enable	1
A	Disable	Disable	2
		Enable	3
No	Enable	Disable	4
		Enable	5
•	Disable	Disable	6
		Enable	7

Page 30

B. -1. Non-add éntry oblý when compulsory/any/time a set obligation Non-add entry only when compulsory/any time and a set we set. Non compulsory/compulsory entry of a non-add entry at the beginning of transaction
- 2. Epoblo/dicablo-ma.cold/objongd_rodictration/sidter/dicablo-add eniny

1 1 · · * 1 * · · *	17 18 1	~~ni chanaina an ing bara~~	111111
Non-add entry	Non-add before	No sale after a non-add entry	ас ( В .) 1460-0
Enable at any	Non	Enable	ber word
time	compulsory	Disable	1
	Compulsory	Enable	2
Q	- Angerealt V	Disable	З
Only when	Non	Enable	4
compulsory	compulsory	Disable	5
	Compulsory	Enable	6
	hears di t M	Disable	7

C -1 Compulsory/non compulsory non-add entry for PLU and DEPT only

-2.	Choice of	number of	digits	for non-add	(4/8/12/16 digits)
177.51		1 2 1		1 9 NOCHDUCIDA	2.297 14.25 (16.25 (11.15) / 27.26 (27.27.17)

Non-add item entry	Non-add digits	93	15 6 1966	2. Mis
Non compulsory	16 digits		-0	314+7 5a
G G Snot	12 digits		1890-81	KIMINI.
	8 digits	,	τρισίος 2	manacia
	4 digits		3
Compulsory	16 digits	2	4
	12 digits		5 -
l de la	8 digits		6	5,600 QC 115 Pr - 1
	4 digits		7

D.-Enable/disable manual TÁX

Manual TAX entry	D
Enable	0	4183.3.52
Disable	4
MDO

< JOB # 915 > Key operation

A -Amount leading symbol

Amount leading symbol	A
$	÷.,	0
*		2
2	Geo	- (* 11)

B -Always 0

C. -1. Choice of paper near end check of journal.

2. Choice of discount $/% number limit per transaction.

3. Choice of direct/tendering mode for received on account

. 1. คณะสายหรือ และ ครือไปประกาศสายเป็นขณะขณะ (อะไม่มีเหตุ ได้แต่ เป็นไปได้ ค.ศ.

D -Always 0

oob@SSM^ier)

<JOB # 916> Key operation

or and a marker of the more a manager are radial FICMA. •

A B. --Aiwavs 0. 7

C -1 Disable/enable negative MDSF ST

2. Compulsory/non compulsory TRY ST

Negative MDSE ST	TRY ST	С
	Non-compulsory	⊴++ 0 81€
Bernan r. eren mille r.d.	Compulsory	1
Disable	Representation of the second s	n Gaara dala∯ s
cari seo, emessire antissio 🖌	Compulsony214 hand (1)h	6≊ + 1 5

(only compulsory after first TBX/ST) is used a Calamon 1

D. -TAX calculation at TRV ST

	Jaiouia		2214-264 - 2468-28
A.	TAX	calculation at TRY ST	sa s D ⊂ry
	No	Touckneed among	on the Other
1	Yes	favora trant	4

MRS = 0700

<108 # 917>

Key operation

A. -1. Print or skip print of COUPON PLU in X/Z REPORT 2. Print or skip print of NET SALES SUBTOTAL in X/Z REPORT

3. Print or skip print of CHANGE TTL in X/Z REPORT

- 28-

Page 31

Coupon PLU	Net sales subtotal	Check chänge total	A
Print	Print	Print	0
a and the second	and a second	Skip	1
	Skip	Print	2
		Skip	З
Skip	Print contraction	Print constant in the second	- 4
		Skip	5
* .	Skip	Print	6
		Skip	7

B. -1. Print or skip print of TAXABLE 1 SUBTOTAL in X/Z BEPORT
- 2. Print or skip print of GROSS TX1 & REFUND TX1 TTLS in X/Z REPORT

3. Print or skip print of NET TX1 TTL in X/Z REPORT

Taxable 1 subtotal	Gross TX1 & Refund TX1 totals	Net TX1 total	В
Print	Print	Print	0
e en	and a second	Skip	1
and a state of the	Skip	Print	2
ty Deserve e a company -	en ann an a	Skip	3
Skip	Print	Print	4
ian an ann an taraich Tarainn an taraich Tarainn	ana 1995 - Angeles Santas, angeles angeles 1995 - Angeles Santas, angeles	Skip	5
Color Colored Colored Color Pro	Skip	Print	6
	and a second	Skip	.7

C. -1. Print or skip print of TAXABLE 2 SUBTOTAL in X/Z REPORT

2. Print or skip print of GROSS TX2 TTLS in X/Z REPORT 3. Print or skip print of NET TX2 TTL in X/Z REPORT

Taxable 2 subtotal	Gross TX2 & Refund TX2 totals	Net TX2 total	С
Print	Print	Print	0
		Skip	1
	Skip	Print	2
a na sa		Skip	3
Skip	Print	Print	4
		Skip	5
	Skip	Print	6
		Skip	7

D. -1. Print or skip print of TOTAL TAX AMOUNT in X/Z REPORT

2. Print or skip print of GROSS MANUAL TAX in X/Z REPORT

3. Print or skip print of NET MANUAL MTAX TTL in X/Z REPORT

Total TAX amount	Gross TAX & Refund TAX totals	Net manual TAX total	D
Print	Print	Print	0 ·
	·	Skip	1
	Skip	Print	2
		Skip	. 3
Skip	Print	Print	4
•		Skip	5
	Skip	Print	6
		Skip	7

MRS = 4003

< JOB # 918 >

Key operation

A. -1. Cashier detail (by denomination)/simplified report format (media totals)

2. DEPT and PLU TEXT 12 characters/8 characters

Cashier report	DEPT/PLU TEXT	A
Simplified format	8 characters	0
ta san ta sa	12 characters	1
Full detail format	8 characters	4
	12 characters	5

B. -1. Choice of TIP method.

Choice of the method. Printing of 0-amount PLU on the Kitchen printer RED/BLACK. Choice of print or not TIP total in server report.

TIP method	Printing of 0-amount PLU on K. P.	TIP total	B .
		Skip	.0
	BLACK	Print	1
Individual		Skip	2
		Print 💿	3
	BLACK	Skip	4
·	BLACK	Print	5
Pool	DED	Skip	6
	KED	Print	7

C. -1. Choice of chit receipt

-2. Choice of editting print or not at kitchen printer

-3. Choice of doubble charactor or normal printing of DEPT/PLU text at kitchen printer.

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Page 32

Chit receipt		DEPT/PLUTEXT	KA i kalasi Launa
No 0	Print	Normal 2004	0/11/1
1 1	Edit gsi2	-D.C.	1
3	ct.ve	Normal	2
4	NO. and	D.C. Jmi ^c	3 3013
Yes	(First)	Normal	4
X I	· gitta	D.C.	5
		Normal	6
	NO. 8003-	D.C.	7

D.C. = Double size character or abot vold

D -1 Enable/Disable SUBTOTAL VOID

2. Enable/Disable past item Void with VOID key

Key operation

hallow 91 be middly i - 8

LIH Indema ► ABCD -= CA/AT

-3.-PBLU-code-entry at re-order compulsory/not.

			Subivijon
PBLU	Slip neader	RED	А
PB LOOK UP	aide	Non-compulsory	0
5	Print Jong	Compulsory	1
3		Non-computsory	2
	SKIP	Compulsory	3
Manual		Non-compulsory no to a	ələri (4 . 1
PB/CB	aliana isanoa i	Compulsory	0.010010 .S- 20166 5 .E.
e;	Skip	Non-compulsory non-the	hs h 6 d
	Skip	Compulsory	7

B. -1. Check/Not to check server handling quest check

2. Check/Not to check C/D at PB. CB entry

3. Choice of manual/auto generation GUEST check number

SERVER No.	Check digits is Jornua	Guesto Check No.	19 m B p 2)
No-check	No-check	Manual	0
	(3000) (	Auto	1
	Check	Manual	2
	1. 1	Auto	3 -
Check	No-check	Manual	4
	دی	Auto-	5
	Check	Manual	6
	kanten kunstanten er	Auto	. 7

C –1 Slip print compulsory/non compulsory at quest check GAR

registration (MITTAL & IXT 22010) is the order to tage

2 Choice of compulsory/pon compulsory PB/@B.registration

3. Choice of amount print or skip print when RLU unit price is 0

Slip in Guestolos DX	RB/CB	Amount print	deAs i
Non compulsory	Non - Parsion 1	Skip	800008 - -0
υ.	compulsory	Print	340 °
	Compulsory	Skip	2
```		Print	3
Compulsory	Non	-Skip-	- 4
	compulsory	Print	цио 5
	Compulsory	Skip	6
		Print	7

D. -1. Choice of print or skip print CONVERSION SUBTOTAL. -2. PBI Usvstem selection charge posting balance system/

	ICT STATE			TEORADO	an la d
Conv	ərsion SI	37La	Л	SXPBLU	sysiem qia
6	Drint SX	ГюИ	- 40.51.74	Guest	check	s oliosa
	Print	letat		^ind Charge	posting	iglotdu
1		अक्षा च लोहि		Guest	check	5 ^am
S	БКІр	Jon-1		Charge	posting	7
Guest o Charge	heck posting	্রুর জালা	Gue Cha	est check B. arge posting	ALANCE S BALANCI	SYSTEM E SYSTEM
5		Giqp
0		Inn'i	М	RS = 0001	461

<JOB# 920 > IN-LINE SETTING (1)

More detail of Job# 920~925 and 899, Reffer to EB33MA/SI service manual. (00ZER33OPSM2E)

Page 33

#920-A : Not used. fixed to 0.

#920-B : Second kitchen printer mode

Second KP	Parameter [B]
Back up	0
Duplicate	2

#920-C : PGM mode can be enable/disable the slave unit in the in-line mode

Programming by the slave unit	Parameter [C]
Disabled	0
Enabled	1

#920-D : Machine assignment setup (master/slave/stand alone)

Assignment	Parameter [D]
Standalone	0
Slave	1
Masler	2

< JOB# 921 > NOT USED

<JOB# 922 > IN-LINE SETTING (2)

SRN transmission speed and carrier-off waiting time

max. MRS=8

Transmission speed	Carrier-off waiting time (mSec)	Parameter
	3.2 3.2	12
480K BPS	6.4	2
★ ★ A state of the state of the state of the state of the state of the state of the state of the state of	9.6	4
	12.8	0
	1.6	9
1M BPS	3.2	10
- 14 A	4.8	12
	6.4	8

<, JOB# 923 > NOT USED

<JOB# 924> IN-LINE SETTING (3)

Back up master for guest check Yes / No

< JOB# 925 > IN-LINE SETTING (4)

Key operation

#925-A: 1. Master consolidation report mode

YES/NO to automatically clear individual resetting memory at #71.

3. ENABLE/DISABLE #99 when #71 in not executed.


Consolidation report	Clear save memory at #71	#99 when #71 is not executed	Parameter [A]
	To close	Disable	0
*Method 1	TO Clear	Enable	1
	To pol to close	Disable	2
	TO NOT TO Clear	Enable	3
*Method 2	To close	Disable	4
	to clear	Enable	5
	To and the slave	Disable	6
	to not to clear	Enable	7

Method-1 : Resets the current sales along with those already individually reset.

Method-2 : Resets only those already individually reset.

Entire system general Z-1 (#71) by master There are two modes; to reset only those already individually reset or to reset the current sales and those already individually reset
- YES/NO to automatically clear individual resetting memory at system general Z-1 (#71).
- ENABLE/DISABLE to perform #99 (clear individual reseting memory)before executing system general Z-1 (#71).
#925-B: 1. ENABLE/DISABLE General resetting while a slave machine is sign-on.
- 2. Disable/Enable registration after doing general Z1.
- Enable/disable individual resetting.

General Z1 at sign-on	Registration after general Z1	Individual reset	Parameter [B]
Disable	Dicablo	Disable	0
	Uisable	Enable	and the t
	Enchlo	Disable	2
	Chable	Enable	3
	Dinable	Disable	4
Enable		Enable	5
	Enable	Disable	6
	LIIODIA	Enable	7

#925-C: Consolidation report format

Format	Parameter [C]
Consolidation report and report for each machine	Ō
Consolidation report only	1
Report for each machine only	2

#925-D: 1. YES/NO to clear the individual resetting memory at open store.

Reset at open store.

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Page 34

Sets the keys that are used for the department keys; and direct BLU. keys. (S) DMITTER EMIL-MI < SS0 NBOL. To assign the key, enter the key, number first and then push the key to be assigned for either the department or direct PLU.

ER-3310 XXX : 1 ~ 156 ER-3311 A AXXX : 1 ~ 124

FUNCTION: KEY LIST

NO.	FUNCTION	NO.	FUNCTION
1	0 KEY (aa8		%3
2	1 KEÝ 😪	37	%4
3	-2 KEY	38-	MDSE SBTL
4	3 КЕЎ 💦	39	TRAY TOTAL
5	4 KEY	40	TAX
61	5 KEY 01	41	CHECK
7	6 KEY	42	CH1
8	7 KEY	43
9		44	CH3
10	9 KEY	45	CH4
113		40
12		47
1/1		40	CBAL
15		50	NS
16	# / SBTI	51	CONVERSION
17	CA / AT	52	RATON STORE
18	CASH2	) DMI 53
19	SCALE OPE	1 × 54	SERVICE
20	PLU / SUB	55	CHECK ADD
21	TRANS OUT	56	DEPOSIT
22 .	TRANS IN	57	DEPOSIT RF.
23-	SERVER#	58	LEVEL
- 24	CASHIER#	- 59	LEVEL2
25	/MGR#05151	60	LEVEL3
26	TAXT SHIFT	61	COVER COUNT
27	TAX2 SHIFT	62
28	FS SHIFT	03	DDINT
1.29		65
21		20
32	(-)1	67	FAT IN1
- 33-	(-)2	68-	EAT IN2
34	%1	69	EAT IN3
35	%2	70	FINAL

Page 35

Key position table (ER-3310)

		28	38	48	58	68,	78	88	98	108	118	128	138	148	158
9	18	27	37	47	57 ^.	67	77	87	97	107	117	127	137	147	157
8	17	26	36	46	56	66	76	86	96	106	116	126	136	146	156
7	16	25	35	45	55	65	75	85	95	105	115	125	135	145	155
6	15	24	34	44	54	64	74	84	94	104	114	124	134	144	154
5	14	23	33	43	53	63	73	83	93	103	113	123	133	143	153
4	13	22	32	42	52	62	72	82	92	102	112	122	132	142	152
3	12	21	31	41	51	61	71	81	91	101	111	121	131	141	151
2	11	20	30	40	50	60	70	80	90	100	110	120	130	140	150
1	10	19	29	39	49	59	69	79	89	99	109	119	129	139	149

Key position table (ER-3311)

		1			1	T					*****
↑ Receipt		20	28	36	44	52	60	68	76	84	92	100	108	116	124
	1 Journal	19	27	35	43	51	59	67	75	83	91	99	107	115	123
6	12	18	26	34	42	50	58	66	74	82	90	98	106	114	122	ĺ
		17	25	33	- 41 -	49	57	65	73	81	89	97	105		121
. 4	.10	16	24	32	40	48	56	64	72	80	88	96	104	112	120
з	9	15	23	31	39	47	55	63	71	79	87	95	103	111	119
2	8	14	22	30	38	46	54	62	70	78	86	94	102	110	118
1	7	13	21	29	37	45	53	61	69	77	85	93	101	109	117

- 33 -

Page 36

<JOB # 971 > File creation

(2) File reading Kev operation

One of the following key operations is required to create a file and to read the information of files

9.2.7	Stange Bager 1	s,	÷
(1) File creation	Job code #971
(2) File reading	Job code #970

When the above key entry is entered, the life of the specified table volen the above key entry is entered, the tile of the specified table number is created.

File name	Table NO.	Record count	Block count	Record	Memory size
Department	D T	22 (0-99)	1	40	880/3960	-
Transaction	*2	73	1	34	2482
Server TRANS	3	12	14 (0-99)	11	1380/9540	-
Cashier TRANS	4)	20	4 (0-99)		700/15900
Hourly	*5	48			432	1
Server PRESET	6	14 (0-99)	1	17	238/1783	÷.
Cashier PRESET	7	4 (0-99)	1	14	56/1386
PLU 853 err	701 (8) 60	80 (0- 9	(3 (8 1 6 ) 8	43	3440/ Iomunic Inicoa
REG builer	*9	73		64	4672	1.
Term DERT,	96 🔍 106	Table NO.1 NT	80 1 58 9	o MO 89	0/990
Term TRANS	*11	-73			0/803
Term server	12	12	Table NO.3	11	0/9540
Term cashier	13	20	Table NO.4	11	0/15900	-
Term hourly	*14	48	1	9	0/432	-
PBLU 0ST STT	96 104	72 (30 - 0) 001	3 48 1 56 64	24 85 12	5800/
Manager	*16	99	1	3	297
Kitchen printer	95 71 * 103	9.8 27 79 8.9	88 88 1 78 9	23 151 23	3 9 15 99	1
(FOR In-line) Server temporary	*18	12	1	11	0/132
DEPT. consolidate	94 61 102	Table NO.1	50 1 50 1 00 . 0	10 35	0/990	1
TRANS. consolidate	*20	73	1	11	0/803
Hourly consolidateor	101 *21 80	48 55 20	45 1 53 61	E (9 ) 75	0/432	1.
PLU consolidate	22	Table NO.8		43	0/
DEPT. receive	23	table NO.1	1	10	0/990	1
TRANS receive	*24	73	1	11	0/803	1
Hourly receive	*25	48	1	9	0/432
PLU receive	26	Table NO.8	1	43	0
DEPT. IRM	27	Table NO.1	1	10	0/990	ħ
TRANS. IRM	*28	73	1	11	0/803
Hourly IRM	*29	48	1	9	0/432
PLU IRM	30	Table NO.8	1	15	0/	1)
Cashier receive	*31	20	1	11	0/220	ſ

Page 37

NOTE-1. O Record count or block count are presettable by ich number 071
- *: Record count or block count are not presettable. "Table NO. n" means that the count data is subject to the setting of the specified file table number. That is table number 1 3. 4. and 8 will automatically Change corresponding preset term and in-line tables
NOTE-2 · In case creating term files, the following key entry is required

In case of deleting Term file enter "0" as record count. Table numbers 11 12 13 and 14 are created when table number 10 is added with above key onto

NOTE 2 . Table number 18 through 31 are created with JOB number 899. (In-line RAM area clear job) NOTE-4 : IRM = individual Resetting Memory

File reading report

Stand alone machine at MRS

HODA

Memory layout

There are 2 parts in memory, fixed memory area and file area The fixed memory area is 12286 bytes of 0000H ~ 1FFFH of the common RAM and 2000H ~ 2FF5H of the bank 2 RAM. (In the In-line system, the fixed memory area is 17813 bytes) File area layout is variable with job number 971 operation and stored in the bank BAM

Memory size calculation

(1) Calculating file size

(Record length) × (Record count) × (Block count) [bytes] X: To create 30 records (30 departments)

Department at record length = 40 bytes (from file table) record count = 30 and block count = 1 ·

Memory requirement for department = 40 × 30 × 1 = 1200 bytes

(2) calculating lotal memory size

(Sum of each files size) + (Fixed memory size) [bytes]

Fixed memory size :Standalone/on-line mode	= 12286 bytes
in-line mode	= 17813 bytes


X01X 00022 /00022	> Table NO./Record count/Used record count
X02X 00073 /00073
X03X 00012 14/00012	> Table NO./Record count/Block count/Used reco
X04X 00020 04/00020
X05X 00048 /00048
X06X 00014 /00014
X07X 00004 /00004
X08X 00080 /00019
X09X 00073 /00073
¥15¥ 00100 /00000
X16X 00099 /00099
X17X 00009 /00009

BANK 07 2FFA	Bank and address number of occupied memory

Table NO./Record count/Block count/Used record count

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Page 38

8. PGM1,PGM2(PROGRAM)MODES

There are two programming modes PGM1 and PGM2.each one assigned with a set function.

In the PGM1 mode, it is possible to set JOB#100 thru #199 (100 series), in the PGM2 mode, it is possible to set JOB#200 thru #299 (200 series), in addition to the PGM1 mode (100 series), Descriptions will be provided later in the section discussing details.

Basic programming format for PGM1 and PGM2 modes areas follows:

Secret code entry

To start the operation of ECR in PGM2,PGM1,X1,Z1/X2/Z2 mode, the secret code which has been preset for the each mode should be entered by the following procedure.

The secret code for PGM1, X1, Z1/X2/Z2 mode is preset in the PGM2 mode (JOB#280) and the code for PGM2 mode is preset in the SRV mode (JOB#944). Once the secret code has been entered, re-entry is not necessary to continue the operation in the same mode. If the secret number has been preset as "0", no secret code entry is necessary.

8-1 printing of program reports

Key entry sequence

List of program reports

	the second se
Job code
110*	Department programming
215 a	promotion PLU code programming and
219	Department/PLUcode programming
120*	PLU/subdepartment programming
227	PLU level start number programming
130 (Te)	Programming of % railes and other functions (including the programming for the method of each transaction)
131	Other function programming,2
140
240	Tax lable programming
150	Cashier programming
259	Mahager number programming
207	Kilchen prinler prögramming
295	PBLU code programming

The reports on those programming jobs whose job codes are between 100 and 199 can be printed in both the PGM1 and PGM2 modes.

The reports on those programming jobs whose job codes are subbetween 200 and 299 can be printed in the PGM2 mode.

รรณี กระสะกับเสมเรณที่จะไปเรอไป

★

Range specification for program reports

Those program reports asterisked in the above list requires range specification. If no range is specified, an error occurs whose the CA/AT Key is pressed.

Range specification can be accomplished by using the following procedure.

Pressing the CA/AT key prints a report on the receipt and journal.

Pressing the SLIP Key in place of the GA/AT Key causes the slip printer to print a report. (When the SLIP Key is pressed, a report is printed on the slip and journal, not on the receipt and journal.)

Page 39

8-2 JOB CODE LIST

www Manualslib cor

							÷
	JOB NO	PROGRAMMING	Page	JOB NO	PROGRAMMING	Page
ļ	110	DEPT PRICE	20	250	DATE	45
	110		20	250	TIME	45	ł
	210	DEPT. FUNCTION	20	257	MACHINENO	45
ļ	211		30	252	CONSECUTIVE NO	45	Ŀ
	212		38	203	LOCO MESSACE	45
	213	DEPT. REPORT FORMAT	38	254		45
	214	DEPT. TEXT	38	255	SLIP, VP MISC	45
	215	PROMOTION CODE	39	256		40
ļ	218	PRINT STATION	39	257	SENTINEL AMOUNT	46
1	219	DIRECT DEPT. KEY	39	158	SCALE TABLE PROGRAMMING	46	1
						\|	Ł
į	100		30	260		46
	120		20	261	MEDIA KEY HALO -1	47	1.
ł	121	PLU ASSOCIATED-DEFT	20	201		47
	122	PLUINVENTORY	39	202	MEDIA KEY REPORT FORMAT	47
į	220	PLUMISC	40	263	MEDIA KET HEPORT FORMAT	47	1
	221	PLU MODIFY	40		·		┥
	· 224	PLUTEXT	40				1.
į	225	BOTTLE DEPOSIT	40	270		4/
	226	PLU GROUP	40	274	CHECK VP MESSAGE	47
	227	PLU LEVEL START CODE	40		and the second sec		1
1	228	PRINT STATION	41				1
	229	DIRECT PLU KEY	41	1
				ł
			ala a sila a
	130	RATE	41		and a second	ľ
1	230	MISC KEY PROGRAMMING 1	41	280-282	SECRET CODE	47	Ľ
	231	MISC KEY PROGRAMMING 2	41		A second sec second sec		1
l	232	MISC KEY AMOUNT LIMIT	42	286	STACK REPORT	48
	234	LABEL	42		an ann an stairte ann an ann an tha ann an thar ann an thar ann an t	\|
	235	MISC KEY PROGRAMMING 3	43
	236	MISK KEY PROGRAMMING 4	· 43	295	GUEST CHECK # CREATION	48
	237	CHECK, CHARGE PRINT STATION	43			ļ
	238	% ENTRY METHOD	43		the second s	a tana a sa i
	230	% HALO	43	207	KITCHEN PRINTER PROGRAMMING	48
	203			208	KITCHEN PRINTER TEXT	48	Ι.
				200
					ارون ارتباطین از برای داده ایند میشوند. این در این		Ŀ
	240	TAY TABLE	43		The second se		Ľ
	240		40	1	11 C	5. 5. 11 S
	241
		and the second sec			a second a s A second a se	Constraint System A second system
			44	l l	and the second
	141		44	1		an an the The second second	Ľ.
	242		44				Ľ
	144	SERVER IEXT	44
	245	MANAGER CODE DEFINITION	44				ŀ
			\|	4.

	151	CASHIER CODE DEFINITION	44		1. D. M.
	154	CASHIER TEXT	44	1		1
	259	CASHIER DRAWER NO.	44	1	1 The second sec		1
				1
		and the second sec	· ·		1
				-	-

- 37 -

Page 40

8-3 PROGRAMMING

[JOB #110]

PROGRAMMING OF DEPT. PRICE

	Second Company and Company and Company
	45	O PRICE . BTA	25% \| Di
	46		251 \| TI
110 -> 💽	-> @FOR		MATE Set
	- 65 ·	DEPT. CODE	eas lo
	45	HOH THE NEXT DEPL M OOC	254 10
	45	IP, VP MISC	_265 \| SI
	46	PTIONAL FLATURE	256 0
	46	THINEL AMOUNT	257 SI
*****	Y: 62 aa	DALE TABLE PROGRAMMING PREE	158 S(
		Codinita
Preset p	nce is ma	(. O UIGIIS.
Price ca	n be progr	animed for each dept in this programming	082
penorme	e, ine e	CR is automatically programmed to a	261 10
preset p	rice ₍ entry	even when it has not been programme	262 90
allow pr	eset	eura widebrinnucion biodrammidd ?	10 B 832
#210).
100
MH5=0	1.00 7 p	LL TIMER	270 TI
LODIN	47	IECK VP MESSAGE	274 G
[JUB#2
DEPI. I	UNCTION	I PROGRAMMING




210			80-282 TAX
	ar	DEPT. CODE
	48	FOR THE NEXT DEPT: NC AT	286 \| 8
			·
ĺ
	48	UEST CHECK # CREATION	295 \| G
1
This and		in intended to decide whether or oc	+ +

This programming is intended to decide whether or not to inhibit depts} to select/preset/fires/teg/boarded/price, to:decide whether or not to finalize the transactionTwith deptHKey; to assign hash and promotion depts., and to select whether or not to enforce validation printing.

			3
A:	HAS	H/NORM/	ÅL.	= 1/0
B:	PRC	MOTION/	NORMAL	= 1/0
C:	VAL	IDATION	COMPULSORY/NON-
	CON	IPULSOR	Y	= 1/0
D:	SCA	LE ENTR	Y ALLOW / INHIBITED	= 1/0
E:	SIN	GLE ITEM	FINALIZE	=2
	SIN	GLE ITEM	CASH SALE	= 1
	NOF	MAL		=0
F:	OPE	N & PRES	SET	=3
	PRE	SET		=2
	OPE	Ν		= 1
	INH	BIT		≈ 0

M	3 S =	000001

[JOB#211]

DEPT. MODIFY PROGRAMMING

This programming is intended to decide the sign (tax status) ( ... See and food stamp status.

A: SIGN – = 1
·
BPFOOD STAMPABLE DVIMMARDORS	ON SET (
SE NON-FOOD ₹000 19-10	i inter d
CENTAX 2 SORT NOT STAR 1930	ors
88 NON-SORT Y TEQ M 1930	214
	STS \|
88 NON-SOHARGTTAROTARO	223 J
88 TXAT ISAG	294
	dfS [
	016
[JOB#212]	tit s
PROGRAMMING OF THE AMOUNT LIMIT FOR	DEPTS.
PLV PRICE 39	120
68 T930-017412-0891	1 121
	IST CAVAT

VA Y RECAMPERATION	121
	927
	022 022
A:MAX DIGIT FIGURE =1 79 T2 EVALUA	550
BINO.OF ZEROS FOLLOWING THE MAXI TOT	-7 895
MRS=17 YBX UJ9 TOBRIG	229
*"17" stands for 10000000. Up to 9999999 can	be entered as
amount
RATE 41	130
	230

REPORT	NSS 1
MISC KEY PROGRAMMING 3 · 43	285
MISK KEY PROGRAMMING 4 43	236
CHEOK CHARGE PRINT STATION 43	287
	INST TH CAVAT
DEPT. CODE 01AH 32
FOR THE NEXT D	EPT.
	••••••••••••••••••••••••••••••••••••••
TAX TABLE 43	240
ALL OF THE ALL OF	241
A: NURMAL PRINT & SPECIAL ST PRINT	= 3
	=2
NORMAL PRINT & 1 LINE FEED	=1
NORMAL PRINT	24 0 =

	1.440 F
	2000) 1993()

	246
MRS = 0 IOTINITIO TO TEXT REVER MRS = 0 IOTINITIO TO TEXT REVER IOTINITIO TO TEXT REVER IOTINITIO TO TEXT REVER IOTINITIO TO TEXT REVER IOTINITIO TO TEXT REVER IOTINITIO TO TEXT REVER IOTINITIO TO TEXT REVER IOTINITIO TO TEXT REVER IOTINITIO TO TEXT REVER IOTINITIO TO TEXT REVER IOTINITIO TO TEXT REVER IOTINITIO TO TEXT REVER IOTINITIO TO TEXT REVER IOTINITIO TO TEXT REVER IOTINITIO TO TEXT REVER IOTINITIO TO TEXT REVER IOTINITIO TO TEXT REVER IOTINITIO TO TEXT REVER IOTINITIO TO TEXT REVER IOTINITIO TO TEXT REVER IOTINITIO TO TEXT REVER IOTINITIO TO TEXT REVER IOTINITIO TO TEXT REVER IOTINITIO TO TEXT REVER IOTINITIO TO TEXT REVER IOTINITIO TO TEXT REVER IOTINITIO TO TEXT REVER IOTINITIO TO TEXT REVER IOTINITIO TO TEXT REVER IOTINITIO TO TEXT REVER IOTINITIO TO TEXT REVER IOTINITIO TO TEXT REVER IOTINITIO TO TEXT REVER IOTINITIO TO TEXT REVER IOTINITIO TO TEXT REVER IOTINITIO TO TEXT REVER IOTINITIO TO TEXT REVER IOTINITIO TO TEXT REVER IOTINITIO TO TEXT REVER IOTINITIO TO TEXT REVER IOTINITIO TO TEXT REVER IOTINITIO TO TEXT REVER IOTINITIO TO TEXT REVER IOTINITIO TO TEXT REVER IOTINITIO TO TEXT REVER IOTINITIO TO TEXT REVER IOTINITIO TO TEXT REVER IOTINITIO TO TEXT REVER IOTINITIO TO TEXT REVER IOTINITIO TO TEXT REVER IOTINITIO TO TEXT REVER IOTINITIO TO TEXT REVER IOTINITIO TO TEXT REVER IOTINITIO TO TEXT REVER IOTINITIO TO TEXT REVER IOTINITIO TO TEXT REVER IOTINITIO TO TEXT REVER IOTINITIO TO TEXT REVER IOTINITIO TO TEXT REVER IOTINITIO TO TEXT REVER IOTINITIO TO TEXT REVER IOTINITIO TO TEXT REVER IOTINITIO TO TEXT REVER IOTINITIO TO TEXT REVER IOTINITIO TO TEXT REVER IOTINITIO TO TEXT REVER IOTINITIO TO TEXT REVER IOTINITIO TO TEXT REVER IOTINITIO TO TEXT REVER IOTINITIO TO TEXT REVER IOTINITIO TO TEXT REVER IOTINITIO TO TEXT REVER IOTINITIO TO TEXT REVER IOTINITA TO TEXT REVER IOTINITA TO TEXT REVER IOTINITA TO TEXT REVER IOTINITA TO TEXT REVER IOTINITA TO TEXT REVER IOTINITA TO TEXT REVER IOTINITA TO TEXT REVER IOTINITA T	1941 2361 151 154
MANAGER CODE DI FINITION MRS=0 0 0 E DI FINITION CASHILR CODE DI FINITION CASHIER LEX DRIMMARDORG TX3T.TG3C CASHIER DRAWER NO. 44	164 245 151 154 259
MANAGER CODE DI L'INITION MRS=0 0 0 CASHILA CODE DI L'INITION CASHILA CODE DEFINITION [1212 CASHIER TEX DRIMARDORY TXT.TQU CASHIER DRAWER NO. 44	245 245 151 154 259
MANAGER CODE DI L'MITION MRS = 0 CASHILR CODE DI L'MITION CASHILR CODE DEFINITION CASHIER TEX DRIMMARDORY TX3T.TQ3C CASHIER DRAWER NO.	151 245 154 259 259
	151 151 154 259 TAND TEN
	151 154 154 259 TANO

Characters can be entered by using alphabetic keys or numeric keys.

Please refer to section 8-4 character assignment method. (Page 48)

MRS = DPT. X X

Page 41

[JOB#120]

PRICE PROGRAMMING FOR PLU'S

Up to 5 PLUs can be programmed.

% If the number of linked PLU is less than 5,

#/ST] key must be depressed once more before another dept. Code is entered.

(···→ abcd → # /ST → #/ST → xx → @/FOR → abcd →···) └┬┘ └┬ PLU CODE DEPT. CODE PLU CODE

MRS = 0000

[JOB#218] PRINT STATION

ab : RECEIPT/KITCHEN PRINTER = 00 (NO OUTPUT) 01~09 (KP PRINTER) 10 (RECEIPT)

[JOB#219] DEPARTMENT CODE DEFINITION FOR DIRECT PLU KEYS

Dept. Code is assigned to the key no. Which has been programmed in job# 951 programming.

ab : DEPT CODE

= 1~99

ab : SPLIT PRICING BASE Q TY = 0~99 xxxxx : PRICE = 0~999999

PLU code is max. 4 digits. Price programming for a PLU requires that the PLU has been created in JOB # 121.

MRS = 0.00

[JOB#121] PROGRAMMING OF DEPARTMENTS TO BE ASSOCIATED WITH PLU'S

a : DELETE/PLU/SUB-DEPT/INHIBIT = 3/2/1/0 bc : DEPT. CODE = 1~99

"INHIBIT" means that the PLU code and the contents of programming remain valid, but that any entry cannot be made for the PLU.

MRS = 201

[JOB#122] PROGRAMMING OF PLU INVENTORY

abcde : stock value = 0~99999 the stock value is max. 5 digits. The stock value entered is added to the PLU stock counter.

MRS = 0.00

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Page 42

[JOB#220] PLU MISC PROGRAMMING PT STOLE ACCALATION STATE

[JOB#225] (atstact PROGRAMMING OF:BOTTLE DEROSIT (RLU:LINKING))atst

Page 43

[JOB#228] PRINT STATION

THIS PROGRAMMING IS INTENDED TO PRESET % RATE AND CONVERSION RATE. xv: %1 =7

%1	=7
%2	=8
%3	=9
%4	= 10
CONVERSION	= 56
TIP	=70

RATE: 0.00~99.99 (%1~%4、TIP) 0.000~99999.999 (CONVERSION) (PROGRAMMING OF 0 INHIBITS THE ENTRY OF % AND CONVERSION RATES.)
MBS=0

[JOB#230]

MISC KEY PROGRAMMING - 1

This programming is intended to select whether or not to enforce various functions.

-	REFUND	= 32
	RA	= 51
	PO	= 52
	TIP was	=69
	CASH CHECK OPERATION	= 53

A: VALIDATION COMPULSORY (RA, PO, TIP, REFUND)/ NON ADD CODE ENTRY COMPULSORY (CASH CHECK) NONCOMPULSORY =0 COMPULSORY =1

MRS = 0

[JOB#231] MISC KEY PROGRAMMING - 2

This programming is intended to decide the sign, tax status, and food stamp status for misc keys

			ALC: 1.1
xy:	%1			=7
	%2			=8
	%3			=9
	%4			= 10
	(-)1			=5
	(-)2			=6

A: SIC	3N	-		= 1
		+		=0
B: FO	OD S	ТАМР	ABLE	= 1
	NO	N-FO	)D	=0
C: TA	X 2 S	ORT		= 1
	NO	N-SO	RT	=0
D: TA	X 1 S	ORT		=1
	NO	N-SO	RT	- 0

MRS = 1000

Page 44

[.]08#232] PROGRAMMING OF THE AMOUNT LIMIT FOR MISC. KEVE

VERONI OF MONTON FUNCTION LIST

IJOB#2341

TEXT PROGRAMMING FOR MISC KEYS MODULAR THUR

Characters. can be entered by using alphabetic keys or numeric keys.

numeric keys (Page 48)

	NO.	FUNCTION	DEFAULT	NO.	FUNCTION	DEFAULT
	1	+ DEPT TTL	*DEPT TL	51	. RA	***BA	kan a that U.M.
	2	-DEPT·TTL	DEPT (-)	52	PO	***PO	und m rommonthial
	3	HASH + DEPT	+HASH TL	53	CASH/CHECK	CA/CHK
	4	"HASH-DEPT"	'HASH (-)	54	CHECK CHANGE	``ČHK/CG	Rep Procession
	5	()1	() 1	55	FS CHANGE	FS/CG
	, 6	(–)2	(-), 2	56	CONVERSION	CONV
	- 7 - 7	%1	%1	57	FS IN DRAWER	FS/ID
Wood of No. We I	anna 8 🛶	50%2 va «. Faore	%2 ST ST TE	58	CHARGE1	CHARGE1
n no a fanna di	9	*30 KONTONNA	° %3 ′	59 .	CHARGE2	CHARGE2	50 (1940) 61 (19 11) 1
L	10	~%4	%4	60	CHARGE3	CHARGE3	Tent reason for
	11	NET1	NET1	61	CHARGE4	CHARGE4	IMAMERYN HIAS
	12	TAXABLE1 ST	TAX1 ST	62	CHARGE5	CHARGE5
	13	GROSS TAX1	GRS TAX1	63	CHECK	CHECK
	14	REFUND TAX1	RFD TAX1	64		CA+CK ID
utsia sat .n oia d	15 11 012 1940		TAX1	65	CASH ID	***CID	-
	16	TAXABLE2 ST	TAX2 ST	6 6 T		DEPOSIT	na an Roman a ser ann
	17 5	GHUSS TAX2	GRS TAX2	67	DEPOSIT RE	DEPO RE DEDEST
	18	HEFUND TAX2	RFD TAX2	68	SERVICE	###SERV
	19	NET TAX2	IAX2	69
	20	GRUSS M-TAX	GHSMIAX	70		EP IN
	21	REFUND M-TAX	HED MIAX		EATINT	EAT IN 1
	22	OFOT FORON	M-IAX	72		EAT IN 2	ANA A CORPORATION OF AND AND
	23	FS1 FURGIVE	FS IAXI	73	DD	SEAPIN 3 SECTOR	କର୍ଷ୍ୟ ମିଷ୍ଟିନ୍ତି ଓ ଜଣ୍ଡ ଜିନ୍ତିକରି । ମିଷ୍ଟ୍ର୍ୟାନ୍ତ ସମ୍ଭ
	24	FS2 FURGIVE	TAX2		PB	***PBAL.Display.Co	(Repression) Charles
	20	NETO	AUTO IAA		CURTOTAL	***CBAL
	20		OD DUU	70	SUBIUIAL	NDOF OT	1.19
	27		VOD A	70	TOTAL	MUSE SI	8.32
	20			70	CHANGE	CHANGE
	30	MANAGER	D ninv daw	80	DUE	DUE 82 - 1409	DRUDHARY
	31	VOID TRANSOOT	1000 VOID	81	TRY TOTAL	TRAVITI.	r 24 milion of the state of the
1	32	BEFUND 19	BEFUND	82	ES SBTI	ES ST	11.5
	33	RETURN TOOL	BETURN	83	ES TEND	ES TEND
	34	HASH VOID	HASH VD	84	FS CHANGE	FSCG	e (M. Desgo - Edites)
	35	HASH REFUND	HASH RF	85	TAX12 ST 540535	TAX12ST COLOR	Product and the second
	36	HASH RETURN	HASH RT	86 10	FINAL THAT BEEN	B STAFINAL COURSES	Kenin tan a
	37	NOSALE	NOSALE	87	SCALE ( )	WEIGHT	Car at the
	38	VP	OVECNTREEM	88	VOID	VOID
	39	SLIP	SLIP CNT	89	COPY	COPY
	40	TRY ST COUNT	TRAY CNT	90	TRANS OUT	TRAN. OUT
	41	DRAWER COUNT	DRW CNT	91	TRANS IN	TRAN.IN
	42	PBAL COUNT	PBAL CNT	92	BALANCE	****BAL
	43	COVER COUNT	COVER CT	93
l	44	TRANS OUT	TRNS OUT	94
	45	TRANS IN	TRNS IN	95
	46	CUSTOMER	CUSTOMER	96
	47	SALES	NET3	97
	48	CASH	CASH	98
	49	CASH2	CASH2	99
	50	FS SALE	FSSALE	100

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Page 45

[JOB#235] MISC KEY PROGRAMMING - 3


xy:	%1	=7
	%2	=8
	%3	=9
	%4	= 10
A: ITE	EM %	= 1
SB	TI %	=0

MRS=0

[JOB#236] MISC KEY PROGRAMMING - 4

xy: (-)1 =5 (-)2 =6 A: STORE (-) =1 VENDER (-) =0

MRS=0

IJOB#2371

CHECK, CHARGE PRINT STATION

		•
xy:	CHK	=63
	CH1	= 58
	CH2	= 59
	CH3	=60
	CH4	=61
	CH5	=62

ab: RECEIPT/KITCHEN PRINTER = 00 (NO OUTPUT) 01~09 (KP PRINTER) 10 (RECEIPT)

LIOB#2381

[JUB#238] PROGRAMMING OF THE % ENTRY METHOD

THIS PROGRAMMING IS INTENDED TO DECIDE THE % ENTRY METHOD.


ay:	%1	=7
	%2	=8
	%3	= 9
	%4	= 1(
A: OPE	N & PRESET	=3
PRE	SET	=2
OPE	N	= 1
INH	BIT	= 0

MRS=1

[JOB#239]

% HALO

This programming is intended to preset halo for % entries. % rate smaller than preset value can be entered. (selecting "0" inhibits the entry of % rate.)

= 0~9999

xy: %1 =7 %2 =8 %3 =9 %4 =10

MRS = 99.99

[JOB#240] TAX TABLE PROGRAMMING

98 breakpoints can be programmed.

*Depression of the #/ST key at the following points means a tax table delete operation.

A:	INTERVAL BETWEEN BREAKPOINTS IS	≓ [1 ^° ె
	1 DOLLAR OR MORE
	INTERVAL BETWEEN BREAKPOINTS IS	=0
	BELOW 1 DOLLAR	. ·
B:	TABLE 1 PROGRAMMING	= 1
	TADLE O DDOODANUNIO

MRS=NO TAX

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Page 46

MRS = 1

Page 47

DATE SETTING

The entry format is the same as the print format (which is decided by srv-mode programming). A 6-digit integer must be entered for the date setting. Entering a zero first causes an error.

MRS = 010100

[JOB#251]

TIME SETTING

xxxx : 0~2359

The time must be entered on 24-hour system. A 4-digit integer or smaller one must be entered for the time setting.

MBS = 0000

[JOB#252]

MACHINE NUMBER

A 3-digit integer or smaller one must be entered for the machine number setting.

MBS = 000

[JOB#253]

CONSECUTIVE NO. SETTING

A 4-digit integer or smaller one must be entered for the consecutive no. Setting.

MRS = 0000

LOGO TEXT PROGRAMMING

1 BLOCK MAX 21 CHARACTERS

Characters can be entered by using alphabetic keys or numeric keys

Please refer to section 8-4 character assignment method. (Page 46)

MRS = 'space'

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 instead of a stamp" is selected, upper 3 lines (1 st-3rt line) are programmable.

when "stamp and 3-line footer" is selected, lower 3 lines (4th-6th line) are programmable.

when "stamp only" is selected, no line is programmable.

[JOB#255]

PROGRAMMING OF THE LIMITS TO INITIAL SLIP FEED LINE, NO. OF TIMES OF SLIP PRINTING, TRY ST FEED LINE AND NO. OF TIMES OF VALIDATION PRINTING

=0~64

ab : INITIAL SLIP FEED LINE

cd : SLIP PRINT MAX LINE NO. =0~99

z : NO. OF TIMES OF SLIP PRINTING =0~9
y : NO. OF TIMES OF VALIDATION =0~9 PRINTING
x : FEED LINE AFTER DEPRESSION =0~9 OF TRAY ST KEY

* Options must be present to change.

MRS=0099110

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Page 48

x : 1

Α	=0 *
В	PLU LEVEL SHIFT SYSTEM	The second
1.1.1	MANUAL (MGR MODE ONLY)	=3
	MANUAL (REG and MGR MODE)	= 2
	AUTO (MGR MODE ONLY)	********* = * 1 *******
	AUTO (REG and MGR MODE)	=0
C.	OP X/Z mode Disallowed/ disall	= 1/0
D	Always 0 53	The second se Second sec
ûn Erne	JOURNAL SELECT/NOT	= 1/0

x : 2


A	CA/AT Key inhibited/allowed	= 1/0
в	INDIRECT VOID IN REG MODE INHIBITED	)/° = 1/0 ° ∖(c) cionu
С	DIRECT VOID IN REG MODE INHIBITED/ ALLOWED	= 1/0 (06 cgs)
D	REFUND IN REG MODE INHIBITED/ ALLOWED	= 1 /0
Е	RETURN IN REG MODE INHIBITED/	ା ମ୍≌'1/03ମା
x :	3	um

^ ·	Dimmension (RECORD & Athendes as	1735 The second
Atte	b≓0dos of "caude a lo incluent retrient e	generation of the second s
	NON ADD CODE BRINT of the agriculture	nong Garevåot
Pe :	DISALLOWED/ALLOWED, insciant rea	iseni enit ≂:1/0 ente
	TIP ENTRY METHOD CHARGE ONE (	ines (1st-Std line
	FIXED-RATE ENTRY/AMOUNT ENTR	Y _{SS COM} =1/Oorly
	PLU RANGE REPORT sidemmapor	(ath 6th line) are
	ZEROISUPPRESS/NO/YESincipal "	ine cars.≣1/0orie
=	PLU GROUP REPORT
^ـ	ZERO SUPPRESS NO/YES	= 1/0

X : 4


Γ	4.B.C	PROGRAMMING OF THE LIMITS TO IMITIAL SUPP
Γ	D ¹	METHOD OF PAYMENT CALCULATION (For PBLU)
		FOR EACH TRANSACTION OPERATION AND = 1/0
⊢
	E	Entry of the NO. of guests and table# (for PBLU)
	LANAS	compulsory /noncompulsory = 1/0

Note : X represents the section of this Job code, there are 4 sections. MUTTER SUBJECT ANT A

WOTH SMARTHAR REPAIRS OF MRS = 000090H OKE SKLEXAM TWEET THE TO 8 HO FEMELWERT THE TO BESS TO CONT. [JOB#257] 0 HO FEMELWERT THE TO BESS TO CONT.

AIST CAVAT 257 -> • -

xv : FUNCTION CODE SENTINEL = 65

= 0~99999999

Downloaded from www.Manualslib.com manuals search engine

[JOB#158]
SCALE TABLE PROGRAMMING	States
x : TABLE NO; Later close color reserve 1000 abcd : TARE WEIGHT (ratio etcl color of the second color mRS = 00.00 (action etcl color of the boreau of the total of the second color of the boreau of the total of the second color of the boreau of the
[JOB#260]	あらきの一の報告
MEDIA KEY programming.

xy : FUNCTION CODE CA2 FS TEND CHK CH1 CH2 CH2 CH4 CH5 EAT IN1 EAT IN2 EAT IN3	= 48 = 49 = 50 = 50 = 58 = 58 = 58 = 59 = 61 = 61 = 61 = 62 = 62 = 72 = 73
A: FS SUBTOTAL BEFORE FOOD STAMP COMPULSORY/NONCOMPULSORY B: SLIP PRINT COMPULSORY/ NONCOMPULSORY C: VALIDATION PRINT COMPULSORY/NONCOMPULSORY D: NON ADD CODE ENTRY COMPULSORY/NONCOMPULSORY E: NO. OF ENTRY DIGITS OF NON-ADD C 4/8/12/16 F: TAX2 DELETE/NOT G: TAX1 DELETE/NOT *H: FOOTER PRINT YES/NO I : DISPLAY OF SUBTOTALS COMPULSO NONCOMPULSORY J : CHANGE DISABLE/ENABLE K: SHORT AMOUNT TENDER DISABLE/EN L : ENTRY OF AMOUNT TENDERED/ COMPULSORY NONCOMPULSORY M: DRAWER OPEN NO/YES	= 1/0 = 1/0 = 1/0 = 1/0 = 1/0 = 1/0 :00E = 1/0 :00E = 1/0 :00E = 1/0 :00E = 1/0 :00E = 1/0 :00E = 1/0 = 1/0 = 1/0 = 1/0 = 1/0 = 1/0

"Note with we formation out here out to that the reporting do a se-(H)FOOTER print yes/no programming is valid only when above "stamp and 3-line footer" is selected in iob#912d

stamp and o into tootor
programming.	6960 - 8HN

Page 49

[JOB#261]

MEDIA KEY HALO-1

= 53

MRS = 999999.99

[JOB#262]

MEDIA KEY HALO-2

	CAL	and the second second	the second	= 48
	CA2	a a second a	la presenta de la construir de Construir de la	=49
	CHK			=63
	CH1	1	ter i se	= 58
	CH2	and the second		= 59
	СНЗ			= 60
·	CH4	A Real Transmission of Concerning Street		=61
	CH5			=62
А	: MAX D	IGIT FIGURE		=1~9
в	: NO. OF	ZEROS FOLLOWING	G THE MAX.	=0~8
		IGURE

MRS = 18

[JOB#263]

MEDIA KEY FULL ITEM REPORT PRINT FORMAT PROGRAMMING

ху :	FUNCTIO	N CODE						1
	CA1	•							=48
	CA2								=49
	CHK	12,111 (M. 1997)		. ~:				• •	=63
	CH1			7.1	-				= 58
	CH2							-	= 59
	CH3	11 - T M	1						= 60
	CH4								=61
	CH5					*		-	=62
A :	NORMAL	PRINT &	SPE	CIAL	ST I	PRIN	п		=3
	NORMAL	PRINT &	ADD	ITIO	N TC	SPI	ECIAL	ST	= 2
	NORMAL	PRINT &	1 LIN	IE FE	ED	÷		. •.	= 1
	NORMAL	PRINT	·						=0

MRS=0____

[JOB#270]

PROGRAMMING OF THE TIME INTERVAL FOR THE TILL TIMER

x · 0~255 sec

MRS = 000

[JOB#274]

CHECK VALIDATION MESSAGE PROGRAMMING

x:1~3

· .	1	24
an a shiristan ay s	the second war war and		and the second
	. 3	}

1 BLOCK MAX, 21 CHARACTERS

Characters can be entered by using alphabetic keys or numeric keys. Please refer to section 8-4 character assignment method. (Page 48)

MRS = "space" "space" FOR DEPOSIT ONLY

[JOB#280, 281, 282]

SECRET CODE PROGRAMMING

#280 : PGM1 MODE #281 : Z1 MODE #282 : Z2 MODE

IF "0" IS ENTERED, "COMPULSORY SECRET CODE ENTRY" IS CANCELED.

MRS = 0000

Downloaded from www.Manualslib.com manuals search engine

Page 50

STACK BEPORT

UP TO 10 DIFFERENT REPORTS CAN BE MEMORIZED IN A STACK REPORT.

	下点。他 ¹¹ 195克公式和14.5
JOB NO.	REPORT
0000 0000	General
20	PLU
23	PLU ALL GROUP
24	PLU INVENTORY
06	ALL SERVER
05	ALL CASHIER
04	HOURLY
.60	PBLU
30	CID
40	TAX

MBS = ALL DELETE

したのほか、286次の料料にした。たんかくたいのうな

[JOB#295]

RANGE PROGRAMMING OF GUEST CHECK NUMBERS (A) A CONTRACT OF EVENT AND

XXX = IRC terminal number of ER-01RP. (1~254) methods and a state

YY = Backup / duplicate kitchen printer number (KP).

IJOB#2081

KITCHEN PRINTER TEXT PROGRAMMING

--------------------------------------

8-4 Character assignment method

The ER-3310/3311 has two kinds of method at character assignment.

One is to use alphabetic assigned key and other one is to use ten keys.

~Using alphabetic assignment method~

• The layout of the programming key sheet it as follows [ER-3310]

Used for making double-size characters

Page 51

Programming key layout (ER-3311)


			0	1	2	з	4	5	6	7	8	9	;	<
•			1	2	3	4	1/2	FT	А	В	С	D	=	>
F	т	←	→		•				E	F	G	н	?	@
11	¢								1	J	к	L	•
!	17	#	$						м	N	Ö	Ρ	6	{
%	&	. ,	(	· .					Q	R	S	т		}
)	*	+	,			•			υ	v	w	х
-		1	:				-		Υ	z	(SPACE)	(DC)		•

Note : The (DC) means double-size character code and this key is used for double-size character programming. Character keycover : GCOVB6925BCZZ

~Using ten keys~

Note : 00 key is used to enter each 3 digit alpha code.

CODE TABLE FOR ALPHA DESCRIPTOR PROGRAMMING

		مرجع مستعرب مشعري
CODE	CHARACTER	CODE	CHARACTER	CODE	CHARACTER	CODE	CHARACTER
032	an The Arts	060	< '	088	X	116	t t
033	1. I.	061	- =	089	Y	117	U
034		062	· >	090	Z	118	ν. ν
035	#	063	?	091	Â	119	•••••• w
036	$	064	@	092	n na Ó na h	120	× ***** X
037	~~~%	065	А	093	Û	121	у у
038	8	066	В	094	•	122	z
039	· •	067	C .	095	·	123
040	(	068	D	096	ť	124
041	).	069	Е	097	а	125	}
042	* •	070	F	098	b	126	ß
043	, +	071	G	099	С	127	ф
044	,	072	н	100	d	128	!!
045	-	073	I	101	е	129	1'
046		074	J	102	ſ	130	2
047	1	075	к	103	g	131	3
048	0	076	L	104	h	132	4
049	1	077	М	105	i	133	1/2
050	2	078	N	106	j	134	FT
051	3	079	0	107	k	135	4
052	4	080	Р	108	Ι	136
053	5	081	Q	109	m	137	~
054	6	082	R	110	n	138	± `
055	7	083	S	111	o	139
056	8	084	т	112	р	140	•
057	9	085	U	113	q	141	F
058		086	v	114		142	r
059	;	087	w	115	s	251	DC

DC: DOUBLE CODE

Page 52

9. OP X/Z. X1. Z1/X2/Z2 mode: 128 50 (astronomy)

The following categories of reports can be printed by the ECR.

(1) OP X/Z mode reports (cashier/server report)
(2) X1 mode (daily sales reports)
(3) Z1/X2/Z2 mode (daily and periodic sales reports)

To print reports, use the following key entry sequences.

The report will be printed on journal and receipt papers with

By depressing [SLIP] key instead of [CA/AT] key in the above key sequence, the reports can be printed on slip papers and journal paper.

The DATA part will be described in the "LIST OF BEPORTS"

NOTE ----GENEBAL BULE----

if [•] key is depressed following a JOB code number entry with these procedures, data inside the ECR will be cleared (i.e. Z reports).

(Some job code numbers do not allow key to follow.)

If [•] key is not depressed following a JOB code number, data inside of ECB will be maintained (i.e. X reports).

The key is allowed only after a secret code entry when the mode switch position has been changed (i.e. when the mode switch is turned and an effective entry is made, the effective of secret code entry disappears.)

SAGUORGUONO I source advand

Note with a circle "O" in the following table shows the function available on the standard machine and marked with a triangle "A" of good shows the function that can be used with an option in use.

	s used to onter each 3 dayt sipha o	i (o)I [00	Note - [	Mode	∋ (*1)		//////////////////////////////////////	- 00
code	Kind of report	OP	X/Z	X1	Z	Z1/X2/Z2	!	Input data required
(*3)		X	Z	X1	Z1	X2	Z2	Feegas u
01	General			0	0	Δ	Δ
02	Individual cashiers	FD:0514	ROL.	1 OS	IQ O /H	a V K	ि र्∕ि≣ा	Cashier numbers
03	Individual servers		z zolati i Carlo Shamar		**************************************		- Δ	Server numbers
04	Hourly (all)		CHOARAF	01-000	);- 10) /0-		Δ
			X Y	Q ₃₀	>			Hourly zone specify range (0000 ~: 2330)(*2)
05	All cashiers	118	2	O ₆₀	01	∆ _S∂	Δ	034
06		011	A	0 ⁰⁰	^؟ 0	А .	΄ Δ
09	Stack report			Ő	- O ⁽¹⁾		Δ
12	Department (specific department)	001						Dept key depression
20	PLU (specific range)	en en fr		O.	0,			PLU code specify range (1 ~ 9999)(*2)
21	PLU subsidiary department specify	451		Q.	с. С	: ; ຍະ		Department code (1 ~ 50)
22	PLU group specify	28.	L.	Q		08	)	Group code (1 ~ 15)
23			L.	0		70 \|		x
24		•27 531		O O	0.	\| \|		PLU code specify range (1 ~ d9999)(*2)
30	CID	12.6	с	On	;	О с ¹
240	Tax	()8-1		1.65 7	S.	76 Δ	Δ
60	PB lookup sales	25.4	ę	O :		1.35
	PB lookup sales (specific range)	120		O O O O O O O C	1 1			PBLU code range specify (1 ~ 9999)("2)
61	PB lookup sales (by servers)	252	:	0	54	63	)	Server number specify. range. (*2)

NOTE (*1): X1: Daily reading report

X2: Periodical reading report

Z1: Daily resetting report
Z2: Periodical resetting report
NOTE (*2): Range can be specify by entering the beginning and ending numbers. To specify only one item, enter only the number. [XXXX] → [@/FOR] → [XXXX]

[XXXX] → [@/FOR] → [XXXX] Beginning number

NOTE (*3): To issue a periodical summary report, enter "2" on the hundreds position of the iob code.
- (EX): Job code of the daily general report is 1, and the job code 201 for the general periodical summary report.

The report will be printed on a receipt and journal tape with depression of the [CA/AT] key.
-It will be printed on a slip and journal tape with depression of the [SLIP] key.
If the decimal point key is pushed following to the job code, the data within the ECR will be cleared (resetting report). The decimal point key may not be pushed for the report that cannot issue a reset report.
If the decimal point key is not pushed following to the job code, the data within the ECR will be retained (reading report).

Page 53

10. Service precations

10-1 SSP (Special Service Preset)

SSP (Special Service Preset) is a software revising tool that developed by SHARP to be used for majority of SHARP electronic cash registers.

Overview

Because electronic cash register program is stored in ROM area, it will be possible to replace ROM chip to do even a small program change, urgent program revision, or to get rid of a bug in program. To avoid this disturbance, the special service preset is provided to permit a program revision through the keyboard without replacing ROM. So, SSP is employed to revise a part of program through the keyboard. Generally, SSP will serve to implement a special program for some user and to do urgent program revision such as to eliminate a program bug.

Description

In order to do SSP, it is necessary to have special hardware and software such as the SSP only memory area to enter the SSP program, monitor ROM to monitor program progress, and software to operate SSP.

For SSP, a part of the program in the ROM is picked up and a new program portion is entered on the keyboard. The program entered will be stored in the SSP area specially provided for it.

When it comes to a section of the program to be revised, the control jumps to an SSP area to execute the keyboard entered program portion. That is, a part of the ROM is replaced by the program part entered through the keyboard. (Fig. 10-1)

Fig.10-1

The address from which the control jumps from the ROM program to the SSP area is called BREAK ADDRESS. For it is possible to provide any number of break addresses, it becomes possible to revise a multiple number of program areas

Naturally, the control jumps to the SSP program area that corresponds to the break address. (Fig. 10-2)

Fig. 10-2

As the SSP data entered through the keyboard are decimal mnemonics used by the CPU; entry of an insignificant figure may allow the CPU to operate property.

List of SSP data will be issued on Technical Report, whenever required

SSP for EB-3310/3311

Although SSP is used for the ER-3310/3311, it has a different specification as SSP used for the (ER-4230, ER-4630,) etc.

NOTE (*): ER-4230 ..... US and Canadian, other version ER-4630 ...... European, other version
To revise a large numbers of program portions by the normal SSP, these portions are linked together into one SSP before entered through the keyboard. (Fig. 10-3)

That is, numbers of SSPs must be provided and entered in the following manner: 7 kinds for an example below.

Spec revision (1) ...... Revised by change-A Spec revision (2) ...... Revised by change-B Bug elimination (3) ..... Eliminated by change-C

If there are "n" numbers of program revisions and specification changes, it requires SSP of deeper level (2n-1).

2) For SSP of the ER-3310/3311, it is made possible to make entry of a several numbers of SSP after an individual SSP was entered as a single SSP. (Add-on type) So, it would be possible to select only the required SSPs out of the library to meet user's request. For those already containing SSPs, a new SSP can be added after mere entry of required SSP.

It now becomes possible to make easier specification change and to create SSP library.

For "n" numbers of program changes, SSP will be counted "n".

Page 54

EB-3300 SSP entry procedure The following five keyboard commands are provided for SSP.

1) Set SSP (Johngomacione and a state of the 2) Correct SSP data (Job 991) 3) Clear all SSP data (Job 991) 3) Clear all SSP data (Job 99∠) 4) Clear individual SSP data (Job 993)

Fiesda international Concernation (000 993) Fiesdarie CSP data (106 790) (1 - 01) Fiesdarie CSP data (106 790) (1 - 01) Fiesdarie CSP data (106 790) (1 - 01) Fiesdarie CSP data (106 790) (1 - 01)

O The most recent SSP data are corrected
949-33-2494 The step number must be specified to correct its data and
O For the data of Step No. = 1 indicates the SSP number, it results in error if the existing SSP.No: was entered.
O If a step number is greater than the existing SSP steps, that SSP data are added
O If none of SSP does not exist or the most recent SSP was deleted, the job execution is enabled and it evokes an error.

[Job 992] Clear all SSP data

O All SSP data are cleared.

• With this operation, only the flag is deleted without erasing the actual SSP data in storage.

[Job 993] Clear individual SSP data

O The specified individual SSP data are cleared

O Although the specified data are set invalid, the area remains occupied.

[Job 790] Restore SSP data

O The SSP data that cleared by master reset or Job 992 are restored

[Job 990] Check SSP data

O All SSP in the memory are printed out.

(Droceutione)

Power must be turned off after completing the entry of the SSP data. Otherwise, proper operation is not attained as a set a

Example of SSP entry

It is possible to make duplicate of the SSP using the ER-3300 down load function. It is also possible to store the SSP data on floppy disk using the ER-01FD/02FD 3.5" mini-floppy disk unit and load the data from the floppy disk on the field.

--------------------------------------Spec change (2).................................... Program bug elimination ......SSP-No.3

ont yd iwocken al MOVI on to her, c. al ball incenna menoa NOTE: When an SSP is copied using the ER-3310/3311 and ER-01ED/02ED the SSP data within the receiving side registers are replaced by the data received. Therefore, all the required SSP data must be written on the floopy disk before transmission

Page 55

Copying SSP data from the FB-3310/3311 to another FR-3310/3311

(1) Connect the transmitter ECR with the receiver ECR using the cable (QCNW-6952RC77)

Fig 10-8

(2) Set the receiver ECR (B) ready to receive. Key operation (MODE switch at SBV)

(3) Send the SSP data from the transmitter ECR (A).Key operation (MODE switch at SRV):

The SSP data are started to transmit

(4) Check the journal tapes on both sides that they have the following messages

Transmitter (A) ..... "SEND SUCCEED 000 " Receiver (B) ...... "RECEIVE SUCCEED 000 "

Repeat from Step (2) all over again if "ERBOR" is printed. (5) Do the following key operation (2) on the receiver ECR to print the SSP data and verify it with that of the transmitter FCR. If an error is found, clear the SSP data in the receiver ECR with the key operation (2) and repeat to receive the data again. Key operation (Checking SSP)

Key operation @ (Clear SSP)

Save SSP data from the ER-3310/3311 onto the EB-01ED/02ED

(1) Connect the SSP containing ECR with the ER-01FD/02FD.

(2) Insert-the-newly-formatted-disk-in-the-ER-01FD/02FD and turn power on to the ER-01FD/02FD.

(3) Send the SSP data.

Key operation (MODE switch at SRV):

(4) Check the journal tape that the following is printed " SEND SUCCEED 000 "

Repeat from Step (3) all over again, if "ERBOR" is printed.

Loading SSP from the ER-01ED/02ED to the ER-3300

(1) Connect the FR-3310/3311 with the ER-01FD.

(1) Connect the ER-ST0/SST1 with the ER-OTED. nower on
(2) Set the ECP ready to receive Key operation (MODE switch at SBV)

(4) Depress the SEND switch of the EB-01ED/02ED (5) Check the journal tape that the following is printed.

" RECEIVE SUCCEED 000 "

Repeat from Step (3) all over again, if "ERROR" is printed.

Size of the SSP area

When SSP data are to be loaded on field, pay attention for the number of steps to avoid exceeding the SSP area size. Each SSP has the information for the available number of steps

$\Sigma(\text{steps}+2) + 1 \le 520$

Sum of SSPs + 2

Select SSPs so as to satisfy the above equation.

SSP library

Use of the following kind list is recommended to maintain the SSP library.

10-2. Zender diode (BZ6.2EBH)

If +5V supply were to increase incidentally, it might destroy the LSI and IC to which +5V is supplied. To prevent this, a zener diode (ZD13) is provided from +5V to GND. after completion of servicing, this must be checked for damaged.

Page 56

10-3. RAM board handing (ER-33MB)

BANK RAM chips of the ER3310/3311 are mounted on the RAM PWB which is located on top of the main PWB. Specific care must be taken when handling the RAM board, to prevent loss of data.

IMPORTANT

For the circuit pattern has change for the ER-33MB since June, 1988, this new type ER-33MB can be used only for the ER-3310 and ER-3311 and on July hometron and slide and error to It is possible for the ER-3300, either the new or current type can be used. However, in this case, the jumper clip must be connected in the following way.

The PWB needs to be modified in order to use the current type ER-33MB on the ER-3310 and ER-3311. The current type can be identified from the new type in the manner next

The current type has no jumper switch J2. The new type has a jumper switch J2.

~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~

► For IC7, cut the circuit pattern across the pin-13 and the pin-20 of BAM2

using a jumper.

Bemoval

(1) Unplug the ac cord from the wall outlet.

(2) Attach the service battery (CKOG-6626RCZZ) to the service battery connector on the RAM PWB.

(3) Set the reset switch (jumper connector), on the RAM PWB to the on position.

(4) Remove the RAM PWB from the main PWB.

IMPORTANT: (COMPANY) (COMP

Replacing procedure Observe the reverse sequence of the above, with the ac cord disconnected from the wall oullet.
Use of SIO
The ER3310/3311 employs the data transfer function as
standard equipment. If data is transferred to another register
o using this function will assure protection of the data. For details, please refer to the paragraph 11, discussing the data transfer function. However, the SIO may not be used unless the CPU is operating property.

10-4. Cabinet replacement and removal and removal

It is essential to disconnect the ac cord from the wall-outlets and a

(1) Keep the popup display in the up position before removing the cabinet
(2) Before securing the cabinet, make sure that the main PWB to display PWB connector (13-nin) is firmly connected, and that
any cables are not caught in or touching the heat sink of the power supply unit of the main PWB.

10-5. Printer protect fuse

Check the following before replacing the F3 fuse (1.5A), when it has been blown

Trouble in the printer driver
OsShort in the dothead. If where this 440 to ever out the
Trouble in the driver pre-stage logic circuitry fail and a start of the driver pre-stage logic circuitry fail and a start of the driver pre-stage logic circuitry fail and a start of the driver pre-stage logic circuitry fail and a start of the driver pre-stage logic circuitry fail and a start of the driver pre-stage logic circuitry fail and a start of the driver pre-stage logic circuitry fail and a start of the driver pre-stage logic circuitry fail and a start of the driver pre-stage logic circuitry fail and a start of the driver pre-stage logic circuitry fail and a start of the driver pre-stage logic circuitry fail and a start of the driver pre-stage logic circuitry fail and a start of the driver pre-stage logic circuitry fail and a start of the driver pre-stage logic circuitry fail and a start of the driver pre-stage logic circuitry fail and a start of the driver pre-stage logic circuitry fail and a start of the driver pre-stage logic circuitry fail and a start of the driver pre-stage logic circuitry fail and a start of the driver pre-stage logic circuitry fail and a start of the driver pre-stage logic circuitry fail and a start of the driver pre-stage logic circuitry fail and a start of the driver pre-stage logic circuitry fail and a start of the driver pre-stage logic circuitry fail and a start of the driver pre-stage logic circuitry fail and a start of the driver pre-stage logic circuitry fail and a start of the driver pre-stage logic circuitry fail and a start of the driver pre-stage logic circuitry fail and a start of the driver pre-stage logic circuitry fail and a start of the driver pre-stage logic circuitry fail and a start of the driver pre-stage logic circuitry fail and a start of the driver pre-stage logic circuitry fail and a start of the driver pre-stage logic circuitry fail and a start of the driver pre-stage logic circuitry fail and a start of the driver pre-stage logic circuitry fail and a start of the driver pre-stage logic circuitry fail and a start of the driver pre-stage logic

10-6. Printer motor lock

In the ER3310/3311, the motor will automatically turn off when a premature halting of the timing signals occurs due to a paper misfeed, ribbon jam, intrusion of alien object, etc. When the motor stops, an intermittent beeping will occur, with no indication in the display.

< How to reset the motor lock >
1) Depress the receipt or journal feed keys to stop the beeping.
Disconnect the AC cord from the wall outlet. And remove the cause
3) When power is restored, the following is displayed, and a set of the following is displayed, and the following is displayed, and the following is displayed.

MOTORX (DOCK 18")....................................

4) Depréssi the [CE] key to return the ER3310/3311 to the point where the cause happened. The power failure symbols will be printed after a line feed. Design for the back of the second of the CIER, cancer and the second of the CIER.

· 我就是是一个情望是一个人的意志。

COLLECTION CONTINUES IN AND A STREET

Page 57

11. DOWN LOAD FUNCTION

11-1 General

As one of FR-3310/3311 functions it is possible to transfer RAM data (bank RAM, SSP)between the ER-3310/3311' s. which can be utilized to save BAM data at a time of machine servicino

The cable (QCNW-6952RCZZ) must be used to connect two ER-3310's or FR-3311's

Fig. 11-1

11-2. SIO interface specification

ation config rate: mode king: coma quen evel: orma	mod jurati e: ce: at*:		Sii 96 As Ve 7 I LS TT Fig	Simplex Direct connect 9600,4800,2400,1200,300BPS Asynchronous Vertical parity (odd or even) 7 bits, 8 bits,(ASCII) LSB first TTL level Fig. 11-2
LSB					MSB
b1	b2	ЬЗ	b4	b4 b5 b6 b7 P
			-		1	≜

Fia. 11-2

NOTE: Items marked with an asterisk (*) can be changed in the SRV mode (SRV job #995)

11-3. Location of connector pins

OCNW-6952RCZZ (ER-52CB)

Interfacing signals


Pin NO.	Signal name	in/Out	On leve	Description
1.	GND	-	·	Signal ground
2	NC			Not connected
3	ER	Out	Low	Equipment ready (power on)
4	CD	In	Low	Carrier detect
5	RR	Out	Low	Receiver ready
6	ĊŚ	ln	Low	Clear to send
7	DR	In	. Low	Data set ready
8	RXD	in	High:MARK Low: SPACE	Receive data
9	TXD	Out	High:MARK Low: SPACE	Transmit data
10	RS	Out	Low	Request to send

11-4. Application specification

The following jobs are provided in the SRV mode for serial data transfer:

(1) Sio handler initial setling

(2) SSP data and bank RAM transmission

(3) SSP data, bank RAM data, reception

Page 58

11-4-1.

[JOB#995]

SIO handler initial value (down load specification) is entered for transmission

#995-A:

Sun	n check	Character	Start code	Parameter
сŝ.	1. AND		No	itaria o sak
		Fixed length	Yes	(1675) 1 1
``		- 123	- ³ ∎No	2
24	83	Match	Yes	516.3
14	- ĜO		No	4
			Yes	.8.5
7	Yes	1 f	No	. 20 6 j - 0
ч.	ЦG	Match	Yes	7

#995-B: Choice of port sense

CD sense	CS sense	DR sense	Parameter
		No	0
NI-	NO	Yes	an Gunaraan
INO Rent galant	11 ( DM	nan Nonemi	langie 2 mB
	Yes	Yes	(.t.) 3
		No	4
Voo	NO	Yes	5
195	an wat yn i ne	No	6
1997	n colora XOS v	Yes	- 7

#995-C: Choice of baud rate

56 State 20 1 51.24			¥1.	1	21 ·		~
Baud rate (BPS)	Parameter	977	· .	ľ.		7
9600	0					ł
4800		2	( 1 )	-	$13 r	U III	1 '
2400	2 70 ·		815 F	э	7,		1
1200	3
300 ា	ାମତତାୟୁତତପ୍ତ	74	oja o	0Ë	C.S.	r	12.14

Uno following gobe was provided in the CNV maxim (c. 2997) 1988 Decision 1993 Decision autorities (c. 1997)

anna mar mar ann an

#995-D: Choice of code format

Bit size	Parity	Stop bit	Parameter
7 bits	Odd Even	n bit ()) i a	1913 19 04
8 bits	Odd Even	t care the source Site of the Wit
	Odd	0 1-14	4
7 bits	Even	2 01
			¥.

#995-EEE,FFF : EEE:Staft code

} Decimal number

FFF*:End code (character match code)

NOTES

No parameter entry is needed when the start code is not
- *: No parameter entry is needed when the end is not used. But, if the start code is used, any three digit number must be entered after entry of the start code.

11-4-2. Bank RAM data transmission

The contents of the bank RAM are transmitted. The size of data to be transmitted must be specified using the RAM bank count. (The SSP data are transmitted at this point)

Key operation

MODE switch: SRV position Dece Costrorat OF

Page 59

Printout

The following message is printed on the journal when the transmission is complete

Data format

A single byte image of the RAM data to be transmitted is divided into a high order 4 bits and low order 4 bits and converted into ASCII code. Then, the image of the memory is sent in the following format:


		1.1			۵	•
Ľ	, i			_
Dists (128 bulos)#
			- Deal (120	i uyida).

(1) Start code:

SRV mode programmed. Not contained at MRS.

(2) Memory top address:

Top address of the memory to be transmitted in ASCII number.

(3) Bank No.:

Bank number of the memory to be transmitted in ASCII number. A dummy bank number "1" must be used for transmission of the SSP data.

(4) Sum check:

(5) End code:

SRV programmed. Used at MRS.

SRV programmed. Hex 0D used at MRS.

In order that contents of RAM memory may not over-ride banks for this job, RAM image is sent in unit of 64 bytes from the address 2000. In other words, 128 bytes are sent at one time on the transmit data format.

RAM DATA FORMAT

Exhibit

Code table

HEX	ASCII	Character
0	30	0
1	31	1 av. 1
2	32	2
3	33	3
4	34	4
5	35	5
6	36	6
7	37	7
8	38	8
9	39	9
Α	41	A
В	42	B
С	43	С
D	44	D
E	45	E
F	46	F

11-4-3 Reception

SSP data, bank RAM data are received.

Key operation

MODE switch: SRV position

Reception continues until an END record code is recognized or a receive error occurs

Display

At transmission and error: Returns to the initial display.

NOTE:

Number of banks received are incremented from "0000"

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Page 60

Printout

The following message is printed on the journal when the transmission is complete

Forced cancellation (1993) The second

11-5 Dip switch setup of ER-01FD/02FD

1) EB-01ED

Set up as follows when the ER-3310/ER-3311 is at MBS

			DS2
1 2 3 4 5 6 7 8 1								ි 2 ්	i∕i3: -	4
OFF	ON	OFF	ON,	ON	OFF	OFF	OFF	OFF	OFF	OFF	OFF
	Baud rate 9600bps

2) ER-02FD Set up as follows when the 01FD function of the ER-02FD.

	hallh	11.161615	D	S1 Minte	th $8.4	<	·	DS2
1 5	:. 2 ⊕	3	6 4 0	. 5	6	7	8	1. 1	2	3	4
OFF	ÖN	OFF	ON	ON	OFF	ÓŇ	OFF	X	ŐFF	OFF	OFF
							-	Ţ

yî refu 1918 a Ewalda o bûrê Ewasarayî rêzarî VE

Adeste en Esperadorea 1995 - Editorea Al Berrichtery An Esperatete Paris Adella 1996 - 1995

di karan

Constant and states of the constant of the manufact of APR's constant A characterized constant "1" could be used by the constant of the 1862 could.

ting. Sanga sa

nažsta i čije i

(iii) and contents of PAM memory of your case sets and for the variable manage is a remain of 64 foreor the effects DAM manage is a remain of 64 foreor the effects DAM in Advertised Structure of the effects that Structure of the effects that Structure

Page 61

12. TEST FUNCTIONS

12-1. General

This diagnostic program has been developed for diagnosing machine functions in the field. The program is contained with in the ER-3310/3311.

The diagnostic program is stored in the external ROM which will be executed by the CPU (HD63A03) which requires the following diagnostic operations:

a) Proper power supply voltages are mandatory for logic circuits (+5V POE 12V 24V)
b) CPU input/output pins, CPU internal logic, KDC, MPCA, PRC, LZ92A42, address decoder, address bus, data bus, and common ROM/RAM must be working property.

12-2. Operational procedure

To start the diagnostic program, you must enter the following command.

3-digit test item number → [CA/AT] key in the SRV mode.

The key assignment must be properly set and a part of ROM and RAM must be operating properly to go into this mode because the control jumps to the program area in the SRV mode. A master reset must be performed before operating the ECR for the first time. After any option is installed, a program reset is required. When the master reset or program reset is performed, be sure to check the printout on the journal paper.

Master reset: Plug in the ECR with the [JF] key depressed in the SRV mode.

Journal print : Program reset : Plug in the ECR in the SRV mode. Journal print :

SRV mode display:

13-3. Test command list

With the following command entry, the test starts.


	Code	Description
	100	Display test-1
	101	Key, clerk, and switch position code test display test
	102	M-2640 printer test-1
1	103	M-240 printer test-1
	104	Keyboard test
• •	105	Mode switch test
	106	Validation printer sensor and near end sensor test
	107	BTF and IFV test
	108	Calendar clock test
	109	SSP test
	110	Drawer-1 open and sensor test
	111	Drawer-2 open and sensor test
	112	Drawer-3 open and sensor test
	113	Drawer-4 open and sensor test
	114	M-2640 printer test-2
	115	M-240 printer test-2
	116	Display test-2
	117	SIO test-1
	118	SIO test-2
	120	Common RAM test
1	130	Common ROM test

Code	Description
200	Bank RAM chip test
$	thru 1 chip = 8 banks
207	(Bank: 8 to 63, address: 2000H to 2FFFH)
300	Bank RAM unit test (Bank: 2 to 15)
301	Bank RAM unit test (Bank: 2 to 23)
302	Bank RAM unit test (Bank: 2 to 31)
303	Bank RAM unit test (Bank: 2 to 39)
304	Bank RAM unit test (Bank: 2 to 47)
305	Bank RAM unit test (Bank: 2 to 55)
306	Bank RAM unit test (Bank: 2 to 63)
400	Option ROM test (ROM 2: bank 8 to 11)
401	Option ROM test (ROM 3: bank 12 to 15)

[1] Display test-1

④ Key operation 100 → [CA/AT]
Functional description The following is displayed:

Dot display unit

0123456789ABC DFF

7-segment display unit

0, 12, 3, 4, 5, 6, 7, 8, 9, -,

Customer display

₹, ५, ५, ६, 7, 8, 8, -,

③ Check the following items:

a) Check for proper activation of display elements. b) Check for blur, uneven illumination, and partial omission.
by oneok for bibl, uneven manimation, and part
Test termination
- Press any key. The test terminates with the test end message printed.

[2] Key, clerk, and switch position code test

③ Key operation: 101 → [CA/AT]
In Functional description Key, clerk, and switch codes are displayed on the dot display unit.

Page 62

O Check the following items: Change key and switch positions for proper display activation (_____ (off state) 00 (on state) 0. (clerk B) 04 (clerk D) 04 and (olone e) Receipt switch code: 8 0.0 100 state) 1.00 (off state) 1.00 ··········(on state) This (off state) ···································· Key code depression invalid entry) 000

NOTE: Beler to JOB#104, key soft code, for the key code.

Change the MODE switch position other than SRV@position to

terminate the test. The test termination messarie is printed.

1010 certe de l'activitaria 1.4 Enclose and the second sec second sec Test termination print

n ten as traintaite. En a

[3] M-2640 printer test-1

Kev operation
Regardless of the receipt (on)off) switch 21 digits of "7" are

printed on five lines of the receipt and journal. From print will be produced if the reset signal was issued to both

the receipt and journal sides in continuation.

Check the following items:
- I) Print starting position of each line must be on the same colum
- UN On both the receipt and journal extension of print is not permitted. Pay special attention on the right side of the receipt and on the left side of the journal.
- III) Print quality Check the ordin quality by using the JOB#114 nrinter test-2
- IV) Check the action of the paper feed, LOGO stamping, and auto cutter.
- V) Both margins must be invalignmentant and and

YOUR RECEIPT

THANK YOU and she was the second seco

---------------------------------------777777777777777777777777777777777777777 777777777777777777777777777777777777777 ************************************** 777777777777777777777777777777777777777

Test termination

The test automatically terminates without termination message print. No error print will be produced if an error was met.

[4] M-240 printer test-1 Ney operation A sin must be set on the print table - it set in the set of A sip most be se 103 → ICA/ATI e este asin 123 de la constructiva Se functional describilión

Functional description Renardless of maner setting, 35 digits of "Z" are printed on five lines then the printer stops after releasing the paper

I) Print starting position must line up in the same column? 1) Print starting position must line op in the same coloria
1) Check the print quality. 11) Make sure that the paper is released at the termination.

						07	a d'a s	3000	97 Ci	10.0	ುಗ	3 * 3436	3£) -	15 8
	ZZZ	ZZ	ZZZ	7Z.	ZZZ	ZZZ	ZZ.	ZZZ	.ZZZ	ZZZ	ZZZ	ZZZ	ZZ
an die	ZZZ	ZZ	77.7	ZZ	ZZZ	ZZZ	ZZ	17	ZZZ	ZZ7	ZZZ	ZZZ	ΖZ;	sh.
	ZZZ	ZZ	ZZZ	ZZ	ZZZ	ZZZ	ZZ	ZZZ	ZZZ	ZZZ	ZZZ	ZZZ	ZZn
	ZŻŻ	ZZ	ŹŹŻ	ZZ	ŻZZ	ZZŻ	ZZ	ŻŹŹ	ŻZZ	ZZŻ	ZZZ	ZZŻ	ZZ	武
N	לדל	77	777	77	777	777	77	777	777	777	777	777	77∛	3년 · ·
ંસતંદા	6000		χп	010H	1000	ិភិទ្	13	ait."	្នះអត្	्रिय	noq	105	ित्रम्	187
5 C 10 10	Sec. Server	- A	and serve	2 m 3	15114	و من ا			A. 194. 1.		1.1.1.24	4.8	1	1

ADD RESIDE A RESIDE VICE OF A DESCRIPTION A Test termination: which out a discrete of a coThe test terminates, automatically. If the paper release, lever is not. oup perform 10B#107 BTF. JEV test to release the paper.

...................................... printer or the slip printer interface board is not connected (IFV error). Ensure the connection. Depression of any key or a change in the MODE switch position causes the test to terminate with the following error message printed.

Error display	ABRADIO DITAS. VIET
Dot-display:	SLIP PRIN
Error print		táran - curra c
R/J printer:	Ë	103
[5] Keyboard test	tal bre	nama: test comma
Key operation 104 → [CA/AT]	ratenation to extant Renared	Wils the following commis-
Functional description Key actions of the sta Press keys on the keybor If the test has been su printout showing correct occurred in a course of the immediately upon occur interrupted, the normal te	ndard version, E ard in the order, g accessful, the te action of even ne fest? the error rence of the e st termination pri	R-3310/11 vare dested. iven in the figure below. ast terminates with the verse dican error has message with be printed ror. When the test is hour is hot produced.
Check the termination print in the termination of termi	ot icanca brin ne 9. icense bas ne otricense bas ne	1.16 Drawer Lorv 17 Drawer 2.455 1.17 Drawer 8.655
Test termination When the [CA/AT] key i termination printout.	ed idanes bris re Gaet au s depressêdpihê	ngo Ar own GT Still nang Dieus M Still test tehminates with the sear yr igan GT Still the tokar Still
10		x9 teo: C484 8 1 01 nomino 1 061 061 nomino 1 061

Test termination print

XXX: Key code that caused the error.

Error print

Page 63

Key code

		28	38	48	58	68,	78	88	98	108	118	128	138	148	158
9	18	27	37	47	57	67	77	87	97	107	117	127	137	147	157
8	17	26	36	46	56	66	76	86	96	106	116	126	136	146	156
7	16	25	35	45	55	65	75	85	95	105	115	125	135	145	155
6	15	24	34	44	54	64	74	84	94	104	114	124	134	144	154
5	14	23	33	43	53	63	73	83	93	103	113	123	133	143	153
4	13	22	32	42	52	62	72	82	92	102	112	122	132	142	152
3	12	21	31	41	51	61	71	81	91	101	111	121	131	141	151
2	11	20	30	40	50	60	70	80	90	100	110	120	130	140	150
1	10	19	29	39	49	59	69	79	. 89	99	109	119	129	139	149

Page 64

[ER-3311]

Key code

Page 65

[6] Mode switch test

③ Key operation 105 → ICA/ATI

Eunctional description

This test is applicable for checking of the MODE switch. The MODE switch must be changed as described below to do the test.

Initial state Mode : SRV mode Mode check

Change the MODE switch position in the order given below starting from the SRV position.

(x: 0E - intermediate position, 0F - multiple errors)

If a mode was detected in the order other than mentioned above, or if any key is depressed, the test immediately terminates with the error print, except for an intermediate position setting. Therefore, the MODE switch must be rotated exactly as directed. The MODE switch may be quickly returned to the SRV position as no check is done until the switch returns to the SRV position. Note that no code is displayed.

③ Check the following items:

Check to see if the following are displayed and that the termination print is produced.

Test termination

When the test has been completed according to the given procedure, the test automatically terminates with the termination message printed. To terminate the test in the middle of an operation, merely depress any key. Then, the test will terminate with the termination message printed. When an error was encountered, the test automatically terminates with the error message printed on the printer.

Test termination print

Error print (any key depression)

[7] Validation sensor and near end sensor test

③ Key operation 106 → [CA/AT]
③ Functional description

State of the validation and near end sensor is sensed and displayed.

Ocheck the following items:

On and off actions of the validation and near end sensors are tested and their results are displayed.

Display	x⁄y	Description
VDS	0	Validation card not detected
	С	Validation card detected
NES	0	Journal side paper roll near end detected.
	С	Journal side paper roli near end not detected.

Test termination

Any key depression causes the test to terminate with the termination message on printout.

100 Test termination print

[8] BTF and IFV sensor test

③ Key operation 107 → [CA/AT]
@ Functional description

After releasing the paper, the state of BOF, TOF, and IFV sensor are sensed and displayed.

Or Check the following items:
- BOF, TOF : Check the paper set condition.
- IFV :Check the connection of the ER-33SP slip printer and slip printer interface.

Check the on and off actions.

Display	x/y/z	Description
IFV ·	0	Slip printer or slip printer interface not in connection
	С	Slip printer and slip printer interface is in connection
BOF	0	Slip paper not delected
	С	Slip paper detected detected.
TOF	0	Slip paper not detected
	С	Slip paper detected

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Page 66

NOTE-3 : The test data will not be erased after completion of the test. The test completes without a check after making a full printout of the SSP table. The SSP test area should remain in the SSP table to the
[11] Drawer open sensor test
Note a constraint of the second s
Functional description object V49 Object Action The drawer indicated by the job number is opened to check the propert action. Object action obje	I
(a) Contraction producting to the production of the production print. (b) Any key depression terminates the test with the termination print. (c) Contraction of the production of the production print. (c) Contraction of the production print. (c) Contraction of the production print. (c) Contraction of the production print. (c) Contraction print. (c) Contraction print. (c) Contraction print. (c) Contraction print. (c) Contraction print. (c) Contraction print. (c) Contraction print. (c) Contraction print. (c) Contraction print. (c) Contraction print. (c) Contraction print. (c) Contraction print. (c) Contraction print. (c) Contraction print. (c) Contraction print. (c) Contraction print. (c) Contraction print. (c) Contraction print. (c) Contraction print. (c) Contraction print. (c) Contraction print. (c) Contraction print. (c) Contraction print. (c) Contraction print. (c) Contraction print. (c) Contraction print. (c) Contraction print. (c) Contraction print. (c) Contraction print. (c) Contraction print. (c) Contraction print. (c) Contraction print. (c) Contraction print. (c) Contraction print. (c) Contraction print. (c) Contraction print. (c) Contraction print. (c) Contraction print. (c) Contraction print. (c) Contraction print. (c) Contraction print. (c) Contraction print. (c) Contraction print. (c) Contraction print. (c) Contraction print. (c) Contract
and the switch is to be to be the will be descent of the test of t
Key operation Josych(jan) (ar ob)
Functional description of the character generator are printed. The same one character is printed on a single line. If any key has been depressed before completion of printing one line, the test terminates. If not, the print test continues with the relevant code indicated on the display unit. The state of the receipt switch is interrogated after completing all characters in the character generator. If the switch is on, the test continues. If it is off, the test terminates. If not, the print test continues with the relevant code indicated on the display unit. The state of the receipt switch is interrogated after completing all characters in the character generator. If the switch is on, the test continues. If it is off, the test terminates. The character disclamates does not all obtained on the switch is on the test continues. If it is off, the test terminates. Check the following items: Check to see that every line started to print in the same column. Check to see that nothing is printed out of the print zone on both receipt and journal.	·


الله المالية ال 106 -> [CA] م ~~المستخدمة المالية المالية الم~~ 10 Functional description State of the فَقَعْهُهُهُهُهُهُهُهُهُهُهُهُهُهُهُهُهُهُهُ
XXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXX
Concert the featible និងចំនួននិងចំនួននិងចំនួននិងចំនួននិងចំនួននិងចំនួននិងចំនួននិងចំនួននិងចំនួននិងចំនួននិងចំនួនន
On and off additing the trace of the rest and sensors are test to sensors are tested and their results are displayed.

Page 67

Test termination

Depress any key or set the receipt switch to the off position to terminate the test. The test terminates with the termination message.

[13] M-240 printer test-2

Wey operation (Receipt switch at ON position) 115 → [CA/AT]

② Functional description

Without paper sensing, all characters within the character generator are printed. The same one character is printed on a single line. If any key has been depressed before completion of printing one line, the test terminates. If not, the print test continues with the relevant code indicated on the display unit. The state of the receipt switch is interrogated after completing all characters in the character generator. If the switch is on, the test continues. If it is off the test terminates.

One Check the following items: One of the following items: One of the following items: One of the following items: One of the following items: One of the following items: One of the following items: One of the following items: One of the following items: One of the following items: One of the following items: One of the following items: One of the following items: One of the following items: One of the following items: One of the following items: One of the following items: One of the following items: One of the following items: One of the following items: One of the following items: One of the following items: One of the following items: One of the following items: One of the following items: One of the following items: One of the following items: One of the following items: One of the following items: One of the following items: One of the following items: One of the following items: One of the following items: One of the following items: One of the following items: One of the following items: One of the following items: One of the following items: One of the following items: One of the following items: One of the following items: One of the following items: One of the following items: One of the following items: One of the following items: One of the following items: One of the following items: One of the following items: One of the following items: One of the following items: One of the following items: One of the following items: One of the following items: One of the following items: One of the following items: One of the following items: One of the following items: One of the following items: One of the following items: One of the following items: One of the following items: One of the following items: One of the following items: One of the followin

I) Check to see that every line started to print in the same
II) Check the print quality.

<PRINT SAMPLE>

Test termination

Depress any key or set the receipt switch to the off position to terminate the test. The test terminates with the termination message.

NOTE : Since the existence of paper is not checked, the test will be carried out without paper. But, the test must be started after loading the paper as it is not preferable for the printer.

[14] Display test-2

③ Key operation 116 → [CA/AT]

@ Functional description

For both the dot display unit and the 7-segment display unit, character display and LED display are shifted in the following order.

Test sequence]

1. Dot display: Same character displayed on the entire display row (all characters).
2. Dot display: "8" shifts from the first to the sixteenth digit one at a time.
Dot display: "▲" sign shifts from the first to the sixteenth digit one at a time.
4. 7-segment display: Same character displayed on the entire display row (0 ~ 9.).
5. 7-segment display: "8" shifts from the first to the eleventh digit one at a time.
6. 7-segment display: "▼" sign shifts from the first to the eleventh digit one at a time.
7. 7-segment display: "." shifts from the first to the eleventh digit at one a time.
8. 7-segment display: Common signal turns on and off.

Any key depression halts to display and depression of any key again resumes the test.

Check the following items:

I) Check for correct displaying.
II) Check for blur, partial omission, and uneven activation.
Test termination

Change in the MODE switch to other than the SRV position stops the test and the termination message is printed.

116 Test termination print

[15] Serial interface test-1

③ Key operation (Receipt switch at ON position) 117 → [CA/AT]

② Functional description

The following two kinds of loopback tests are carried out using the special service tool (UKOG-6651RCZZ) to check the transaul and receive data, ready, and not ready signals.

Test-1: Checks RS <--> CD, RR <--> CS, FR <--> DR.

Test-2: Checks TXD <--> RXD

Dot-display:

Other Check the following items: Other Check the following items: Other Check the following items: Other Check the following items: Other Check the following items: Other Check the following items: Other Check the following items: Other Check the following items: Other Check the following items: Other Check the following items: Other Check the following items: Other Check the following items: Other Check the following items: Other Check the following items: Other Check the following items: Other Check the following items: Other Check the following items: Other Check the following items: Other Check the following items: Other Check the following items: Other Check the following items: Other Check the following items: Other Check the following items: Other Check the following items: Other Check the following items: Other Check the following items: Other Check the following items: Other Check the following items: Other Check the following items: Other Check the following items: Other Check the following items: Other Check the following items: Other Check the following items: Other Check the following items: Other Check the following items: Other Check the following items: Other Check the following items: Other Check the following items: Other Check the following items: Other Check the following items: Other Check the following items: Other Check the following items: Other Check the following items: Other Check the following items: Other Check the following items: Other Check the following items: Other Check the following items: Other Check the following items: Other Check the following items: Other Check the following items: Other Check the following items: Other Check the following items: Other Check the following items: Other Check the following items: Other Check the following items: Oth

Successful test results must be checked on the display and the termination message print.

The test terminates after checking with the termination message.

EX----

Test termination print X = 1: Test-1 error

117

2: Send and receive data unmatch error 3: Timer overflow error
- 3: Timer overflow error

117

Page 68

facility of the state of the st

③ Key operation 118 → ICA/ATI
③ Functional description

After the test-1, the test data is looped back as TXD and RXD to test the function. Any key depression or an error occurrence will terminate the test. However, no data verification will be carried out with this test

	I se el ellectre const " de " montpole parts el

And which a grant which a dis-	Bullet (11), March 2011, Constrained and Constrained

17] Common RAM test	ent of an and an
Key operation 120 → [CA/AT] ⁵ (10 open)	al una a lima 8. 7-1 sement display: Glassera aignal
Functional description	ery is y represent train to de play a
The following checks are bank RAM are within the c	done for the common RAM area and ommon RAM.
1) Common area test	ารสาวมี มีการสาวมี เป็นสาวมี มีการสาวมี เป็นการสาวมี เป็นการสาวมีการสาวมีการสาวมี
The 256 bytes of the common RAM	geheral purpose working area within , are tested in the read/write test mode
in three phases of	notherranet lool is
Pass-1: VThe entire 55H. After verified	check area is written with the test data writing the test data, the data stored is
Pass-2: Each byte area is read test data A	of the test data 55H within the check I one at a time and replaced by a new AH. At the same time 55H is verified to
read, AAH	is written and checked.
Pass-3: Each byte area is read	t one at a time and replaced by a new
test data 00 read, 00H i	H. At the same time 55H is verified to swritten and checked.
2) Bank area test
read/write test, si	d bank select test are carried out
1) Single byte rea	d/write check (device check)
The following 2000 = 2FF	jis done for bank 2* thru 2* (address: FH), (10) < - > (31) attained a deal FH), 10
1) Data save 2) 55H write	check to check for proper writing
(NOTE- 3) AAH write (NOTE-	check to check for proper writing
4) Data resto
The above the second se	ye tests are carried out to each whether a solution of the second s
2) Check point re	ad/write check a second out for check address
of each ban	New gasta and other control care addressed
	1: At the same time the data in the check address is saved, the test data 55H is written, write checked,
Check pass-	and the data is then verified. 2: Upon checking the data 55H
data amaratria co. (at	new test data AAH is written and
#า มาตัวส าอกเว้	write checked. The data in the
	Check address is compared with the test data.

Check pass-3: Upon checking the data AAH control control data written in the check pass-2, the control control data are restored of control

NOTE-1: E1 is printed for this error. NOTE-2: E2 is printed for this error

address		address bus to a second and a second
444.000	11	10	9	8	7	6	5	4	3	2	ા	< 0 ~
2000	0	0	0	0	0	0	0	0	0	0.	0	0.
2001	0	ី ០.:	<0\?	0 10	.0	10. /	0	( 0 at	(i 0 .)	0	. 0	1 /4	Ľ
2002	0	0	0	0	Ö	Ö	0 4	0	Ó	Ó	Ť	0	ĺ.
2004	.0	0	0	0	0	0	0	0	0	1	0	0	i.
2008	0	0	0	0	0	0	0	. 0	1	0	0	0
2010	O.	2 0 ;	1. 0	::(0 ,);	0)	; 0 ; ;	0	: 1 :5	្រុ	0.	0	, 0	ł
2020	3. 0 0	Ő	(0 ¹⁾	۰ ( 0 ) -	a d ia	0	2 1 1	0.4	51031	( 10 (1)	. O G (	) ( 10 ) -	ŀ
2040	0	0	0	0	0	1	0	°0.	0	ി റ ി:	់ឲ្	Ô.	ŀ
2080	0	0	0	0	1	0	0	0	0	0	0,	0
2100	0	(i 0 ),	50 k	- 1 -0-	, 0	0.	0	0,	0	_₀ 0 ,},	.0.	0	,
2200	0	0	1	0	0	0	0	0	0	0 :0	0,	0
2400	0	1	0	0	0	0	.0 1	ാ	. 0	0	:00)	្រា	÷
2800	1	0	0	0	0	0	0	0	0	0	0	0

ii) Bank select check

The following tests are conducted regarding the bank
select check address (2000H) of all banks (2 to 7) Check
pass-1: At the same time the data in the check address is saved, the test data 55H is written and write checked (NOTE-1). Check pass-2: At the same time the data 55H stored in Check pass-1 is read to check, a new test data AAH is written and write checked (NOTE-3). Check pass-3: At the same time the data AAH is read to check, the data saved in check pass-1 is restored (NOTE-3).
- NOTE-1 E1/is printed for this error
- NOTE-3 : E3 is printed for this error.
Ocheck the following items: ************************************
Construction ( Section ( Sectio
Test termination The test terminates after producing the printout.

Termination print:	a mart
Normal test termination	i zrane konstruiten († 1919 - Jacobia Konstruiten († 1917)	20	n dia tanàna tanàna Tanàna dia tanàna
Error termination	s E	20	n an
Error kind print descriptio
Error-1 printout	E1 –	0	0:Common
Error-2 printout	E2 –	0	RAM
Error-3 printout	E3	0 (W	dan -

NOTE : When an error has been encountered, the test terminates with the error kind (E1 to E3) printed.

[18] Common ROM test

③ Key operation 130 → [CA/AT]
Inclusion a sumcheck is done for the common ROM (address hex 8000 thru FFFF, banks2 thru 7; 4000 thru 7FFF).
Check the following items: Check the printout after the test.

Page 69

Test termination

The test automatically terminates with the termination mess:

Normal	100	00	V	~~~
	130	- 33	Ŷ	- XX
termination print	E-130	33	Υ	ХΧ
Error termination	XX : ROM version numb

Y - ROM location

[19] Bank RAM test

Before this test, clear the in-line mode and do a program reset Note that the contents of the memory are destroyed when an inline is accessed during this test

Key operation

20X → [CA/AT] (X · 0~7)

JOB# NO.	RAM# NQ.	Check RAM bank	NOTE	PWB LOCATION
200	000	02 ~ 07	Common RAM (main PWB)	IC30
201	001	08 ~ 15	Option RAM (ER-01RA)	IC15
			on main PWB
202	002	16 ~ 23	Option RAM (ER-33MB)	RAM1
203	003	24 ~ 31	Option RAM (ER-01RA)	RAM3
204	004	32 ~ 39	Option RAM (ER-01RA)	RAM4
205	005	40 ~ 47	Option RAM (ER-01RA)	RAM6
206	006	48 ~ 55	Option RAM (ER-01RA)	RAM5
207	007	56 ~ 63	Option RAM (ER-01RA)	RAM2

② Functional description

RAM chips (common RAM bank area) / ontion RAM chip on the main board and RAM chips on the ER-33MB memory option are tested one chip at a time

With this test, single byte read/write test, check point read/write test, and back select test are carried out

1) Single byte read/write check (device check)
- The following is done for back 2 thru 7 (address: 2000 = 2FFFH 1) Data save
- 2) 55H write check to check for proper writing
- 3) AAH write check to check for proper writing (NOTE-1)
- The above tests are carried out to each byte.
2) Check point read/write check

The following tests are carried out for check address of each bank.

Check nass-1 . At the same time the data in the check address is saved, the test data 55H is written write checked and the data is then verified.
Check pass-2: Upon checking the data 55H written in the check pass-1, a new test data AAH is written and write checked. The data in the check address is compared with the test
Check pass-3 : Upon checking the data AAH written in the check pass-2, the saved data are restored

NOTE-1: E1 is printed for this error.

NOTE-2 · E2 is printed for this error

address		address bus
	11	10	9	8	7	6	5	4	3	2	1	0
2000	0	0	0	0	0	0	0	0	0	0	0	0
2001	0	0	0	0	0	0	0	0	0	0	0	1
2002	0	0	0	0	0	0	0	0	0	0	1	0
2004	0	0	0	0	0	0	0	0	0	1.	0	0
2008	0	0	0	0	0	0	0	0	1	0	0	0
2010	0	0	0	0	0	0	0	1	0	0	0	0
2020	0	0	0	0	0	0	1	0	0	0	0	0
2040	0	0	0	0	0	1	0	0	0	0	0	0
2080	0	0	0	0	1	0	0	0	0	0	0	0
2100	0	0	0	1	0	0	0	0	0	0	0	0
2200	0	0	1	0	0	0	0	0	0	0	0	0
2400	0	1	Ò	0	0	0	0	0	0	0	0	0
2800	1	0	0	0	0	0	0	0	0	0	0	0

i)	Bank	select	check

The following tests are conducted regarding the bank select check address (2000H) of all banks (2 to 7).

encon pace i i
· ·	address is saved, the test data 55H is
	written and write checked (NOTE-1).
Check pass-2 :	At the same time the data 55H stored
	in Check pass-1 is read to check, a
	new test data AAH is written and write
	checked (NOTE-3).
Check pass-3 :	At the same time the data AAH is
	read to check, the data saved in check
	page-1 is restored (NOTE-3)

NOTE-1 : E1 is printed for this error. NOTE-3 : E3 is printed for this error.

③ Check the following items:

Check the printout after the test

Test termination

The test terminates after producing the printout

Termination print:	1	l
Normal test termination	20X	20X:JOB#
Error termination	E 20X	NO.(200~ 207)
Error kind print description
Error-1 printout	E1 Y	Y:RAM#
Error-2 printout	E2 Y	NO.(0~7)
Error-3 printout	E3 – Y	n an thain tha ng inter an

NOTE : When an error has been encountered, the test terminates with the error kind (E1 to E3) printed.

[20] BANK RAM UNIT TEST

Before this test, clear the in-line mode and do the program reset Note that the contents of the memory are destroyed when an inline is accessed during this test.

Key operation 30X → [CA/AT] (X : 0~6)

Page 70

4 1.1 1.				the second se
JOB# NO.	RAM# NO.	Che RAM	eck bank	Check RAM bank
300	0,1	02 ~	- 15	Common RAM + ER-01RA (main PWB)
301	0~2	02	23	Common RAM + ER-33MB
302	0~3	02	, 31 ,1	Common RAM + ER-01RA, x 2
303	0~4	02	,39	Common RAM + ER-01RA, x 3
304	0~5	02	47	Common RAM + ER-01RA, x, 4
305	0~6	02	55	Common RAM + ER-01RA, x 5
306	0~7	02	63	Common RAM + ER-01RA, x 6

@ Eunctional description

BAM chips (common RAM bank area) on the main board and BAM chips on the ER-33MB memory option are tested one chip at a time

With this test, single byte read/write test: check point read/write test, and bank select test are carried out.

1) Single byte read/write check (device check)

The following is done for bank 2 thru 7 (address: 2000 = 2FFFH).

2000 = ---------------------------------
Data save 55H write check to check for proper writing

3) AAH write check to check for proper writing (NOTE-1).

(NOTE-1). 4) Data restore

The above tests are carried out to each byte. ne above tests are carried 2) Check point read/write check

The following tests are carried out for check address of each bank

Check pass-1: At the same time the data in the check address is saved the test data 55H is written, write checked. and the data is then verified

Check pass-2: Upon checking the data 55H written in the check pass-1, a new test data AAH is written and write checked. The data in the check address is compared with the test data.
the test data. Inter noticement Check pass-3: Upon checking the data AAH written in the check pass-2, the saved data are restored.

NOTE-1 · E1 is printed for this error bran * 1

NOTE-2 : E2 is printed for this error.

						- F					10217
address	5 4				C address bus Central Champ							-
2001000	11	10	9	8	7	6	5	4	3	2	1	0
2000	0	it o	0	0 ³²	0	0	ó	13 6 1 :	0:0 ⁰³	പ്പം	- õ	10 6 4
2001	0	0	0	0	0	O	Ö	0	Ó	0	0	1
2002	0	0	0	0	0	0	0	0	0	0	- 1 -	0 ₁ .
2004	0	0	0	0	0	0	0	0	0	1	0	0
2008	0	0	0	- '0 ' *	• 0	′⊷ 0	0	0	1	9 0 % (	i 0	3:0
2010	• 0 ^V	0	Ó	0	- 10 ^-0	0	Ò	®¶∂′	0	- io i	ŐÔ	100
2020	0	0	0	0	0	Ő	1	0	0	Ó	Ó	0
2040	0	0	0	0	0	1	0	0	0,	, 0 ,	. 0.	, 0 ,
2080	0	0	0	0	1	0 (	0 0 (	0	10/	(2 0 1)	<0.	X.Q:
2100	0	0	0	1	0	0	0	0	0	0	0	0
2200	0	0	1	0	0	0	0	0	0	0	0	0
2400	0	1	0	0	0	0	0	0	0	0	0	0
2800	1	0	0	0	0	0	0	0	0	0	0	0


ii) Bank select ch	eck distance endo
- Theofollowing te	sts are conducted regarding the bank
select check add	ress (2000H) of all banks (2 to 7).
XX `Check pass-1:	At the same time the data in the check
YV V PD	address is saved, the test data 55H is
ingen in taly index	written and write checked (NOTE-1).
Check pass-2 :	At the same time the data 55H stored
COM A MORT	^Y in Check pass-1 is read to check, a
	new test data AAH is written and write
	checked (NOTE-3).
Check pass-3 :	At the same time the data AAH is
	read, the data saved in check pass-1
та, коң страны қ	is réslored (NOTE-3).
NOTE-1 : E1 is	printed for this error.
NOTE-3 : E3 is	printed for this error.

Check the following items:

Check the printout after the test.

Test termination (0.1) (

Termination print: MARA	ແມະປີ ຕິຈະໃນປ ເຫດນັ້ນ 30X	30X:JOB#
CError termination D MAR	.cE . – 30Х	306)
XError-1 printout	E1 Y	Y:RAM#
Error-2 printout	E2 Y	NO.(0~7)
Error-3 printout	E3 Y	an tan

NOTE : When an error has been encountered, the error kind (E1, to E3) printed and the test resumes. Once an error has occurred in a RAM, no error is printed even if another error is encountered. Those errors will be printed after the completion of the test. Jack NASE neurophics and of the

[21] Option ROM test (ROM address 4000H thru 7FFFH)

A Constantion

	氯化物物物化乙烯酸钙经济证	daethan,	9	1.121
0	Key operation	and the second second	atoret -	and a
	40Y -> (CA/AT1 (X · 0~5)	ALCON A LOUGH	0.201

Job# No.	RAM BANK	Remarks
(Calc 400	∦ ≇द⊖स् 8~11	4 bank, 64 KB	Bar Ots
401	/ 12~15	4 bank, 64 KB	₹6.j

A Functional description ROM chips on the industry board specified by JOB# are tested in the suncheck mode one chip at a time.

Check the following items: The test terminates with the termination message printed

Test termination Normal test termination print

(name)

Normal	40X	33 X YZ
termination print	E 40X	33 X YZ
Error termination	XX : RO	A version number

BAA alah ort pratoorn a rtix : JOB# e ore ause, and the second

Page 71

13. CIRCUIT DESCRIPTION

13-1 Circuit block diagram

- 69 -

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Page 72

13-2 Description of main LSI's

13-2-1 CPU (HD63A03X) description

The HD63A03X is a high performance 8-bit CMOS microprocessor (MCU) which incorporates enhanced internal function and has the command codes compatible with the HD6301VI.

Apart from the CPU, the HD63A03X incorporates the 192byte RAM, 16-bit programmable timer, 8-bit reload timer, serial communication interface, and 53 parallel I/O pins. In addition, external bus release and low speed memory accessing are permitted when the system is expanded as it has the halt and memory ready functions.

1) Features

The HD63A03X has the following features:

Command set compatible with the HD6301V1.
192-byte RAMWE RESIERCO
53 parallel I/O pins
24 input/output pins (ports, 2, 3, 6)
21 output pins (ports, 1, 4, 7)
8 input pins (port 8)
Permits driving of darlington transistor (ports, 2, 6)
16-bit programmable timer Input capture register × 1 Free running counter × 1 Output compare register × 1
8-bit reload timer External event counter Square waveform generator
Serial communication interface (SCI) Async mode/clock sync mode 3 kinds of transfer formats (async mode) 6 kind of clock sources
Memory ready function for accessing of low speed memory = CANCIEN
Halt function
Error detect function (address error, op code error)
Interrupt cause ....................................
Operation mode...Mode 1 (expansion mode)
Maximum 65KB address space
Low power dissipation mode Sleep mode Standby mode
Minimum command execution time...0.5µs (f = 2.0MHz)
Wide operation range VCC = 3 to 6V (f = 0.1 to 0.5MHz) VCC = 5V ± 10%

							-
	Vss	Ш					64	Е			-
	XTAL	2					63	F70	RD	•
	EXTAL	3					62	P71	WR		-
	MP0						61	P72	R/W
	MPI	5					60	P78	LTR
	RES	6					59	P74	BA
	STBY	7					58	P30	D0
	NM I	8		350	ъć		57	P81	Dl	.	-
~~1 : R~~ de	P 20	9	1 34		•••		56	P32	D2
	P21	10	200 - ANA				55	P33	D3	•	-
	P22	Ш					54	P34	D4
	P23	12	1 5. 41	S. 1			53	P35	D5	•
	P24	13			:	•	52	P36	D6	•	+
	P25	14					51	P 8 7	D7	•	-
·	P25	15					50	P10	A 0
	P27	16					49	PII	AI
	P50	17					48	P12	A2
	P51	18					47	P13	A 3		-
	- P52	19					46	P14	A4		-
	P58	20					45	P15	A5		-
>	P54	21					44	P 16	A 6		-
	P55	22			÷	17.9 1	43	P17	A 7		-
	P56	23	••	. *			42	Vss
	P57	М					41	P40	AB
	P60	2	•				40	P41	A9	•	-
	P61	26					39	P42	A10
	P62	27					38	P48	All		-
	P63	28					37	P44	A12
	P64	29		5	129	ার মারণ প্রথম্য হার্য হিন্দি	8	P45	A18
	P65	30					8	P46	A14
	P66	81					з	P47	A15
	P67	32		29-63	5.1	というつうが	4 33	vcc

HD 63A03X pin configuration

Fig. 13-2

Page 73

Fig, 13-3

Page 74

г	T
	Pin No.	Symbol	Signal name	In/Out	Function
	1	VSS	GND	in	GND connected.
	2	XTAL	XTAL	-lń	4.9152MHz crystal oscillator connection
ŀ	3	FXTAL	EXTAL S	in a a	4.9152MHz crystal oscillator connection
, 17.201 - 17.000-44.8000 - 19.00		MPO	VCC A	in i	CPU mode-1 selection (+5V connected)
	4	MD1	GND	In	CPU mode-1 selection (GND connected)
			DECET	In	Reset input active low
-		TEO		ر البرز استعمالیت
		SIBY		111
	8	MINI	SPRU	10
Server in American		P20	CS (
W. Commerciana Station States	10	P21	RS	Out
100 17 - Carrier - Lander - Lander - Carrier	្ញុំ 11	P22	BR	Out.
	୍ର 12-	P23	RX	In	Serial data input
	13	P24	, TX	Out	Serial data output
i fill damaran in in ana Shadi 1993 - Sha 1993 - Shadi	14	P25	PX1	Out
	15	P26	PX2	Out
	16	P27	STOP	Out	System reset output. Normally, high
atomic // cong	17	IRQ1	POF	In	Interrupt input
and the second s	18	IRQ2	MPCRQ	In	Peripheral device interrupt input
C. Terrer	19	MR	MRS	ln.	Memory ready (Not used),
Contraction of the second s	20	HALT	SPRQ	- In	SSP circuit sync signal
(al managed of A		P54	NE	In	Printer paper roll near end sense signal (Journal)
142.000	22	P55	VP	In	Validation paper sense signal
a f d'annaichtean ann an t-	23	P56	CD	In	SIO control signal (Received line signal detector)
WAX-	20	P57		In	SIO control signal (Data set ready)
		Pen	DBO	Out	Internal drawer open signal. Low =- Open
No pair i constituire	20	P00	000		Option drawer No 1 open signal-low = Open
	20	Peo			Option drawer No 2 open signal=1 ow = Open
i presenta de la		P02			Option drawer No.3 open signal Low = Open
Liberar (M	28	P63
P. S. samesman .	29	P64	DOPN
and a second state	30	P65		-
	31	P66	SOSE	In
	32	P67			Alarm signal
Armen	33	vcc	VCC	in In
i gara menda di ka	34	A15	A15	Out	High order address output-(High order address bus (A15~A8)
Maria Contra da	35	A14	A14	Out	High order address output (High order address bus (A15~A8)
v	36	A13	j A13	Out	High order address output (High order address bus (A15~A8)
	37	A12	A12	Out	High order address output (High order address bus (A15~A8)
at 2 and a set	38	A11	A11	Out	High order address output (High order address bus (A15~A8)
na na ser se di se	39	A10	A10	Out	High order address output: (High order address bus (A15~A8)
	40	A9	A9	Out	High order address output (High order address bus (A15~A8)
i gana i g	41	A8	A8	Out	High order address output (High order address bus (A15~A8)
19 -	42	VSS	GND	In	GND connected
	43	A7	A7	Out	Low order address output (Low order address bus A7~A0)
Constants of the second se	44	A6	A6	Out	Low order address output (Low order address bus A7~A0)
- 51A	45	A5	A5	Out	Low order address output (Low order address bus A7~A0)
a financia anti-	46	A4	A4	Out	Low order address output (Low order address bus A7~A0)
	47	A3	A3.	Out	Low order-address output (Low order address bus A7~A0)
	48	Δ2	A2	Out	Low order address output (Low order address bus A7~A0)
	40				1 ow order address output (Low order address bus A7~A0)
			40		Low order address output (Low order address bus A7~A0)
	50				Data hus
	51
	52	100
	53	105
NOTE:	54	1D4	D4
() Standby mode All lines on to high	55	D3		in/Out	Data bus
impedance except for	56	\| D2	D2	In/Out	Data bus
power on XTAL.	57	D1	D1	In/Out	Data bus
EXTAL.	l 58	I D0	\| D0	\| In/Out	\| Data bus

Page 75

	Pin No.	Symbol	Signal name	In/Out	Function
NOTE	59	BA	ВА	Out	Indicates release of the address data bus line in the halt state.
(*) Standby mode	60	LIR	LIR	Out	Data on the data bus are loaded in the CPU command register.
All lines go to high	61	R/W	R/W	Out	Read/write signal; Low = Write, High = Read
impedance except for	62	WR	WR	Out	Write signal
EXTAL.	63	RD	RD	Out	Read signal
	64	E	E	Out	External system clock (f = 1.2288MHz)

13-2-2 SC61J214F description

This microchip is a CMOS gate array (500 gates) incorporated semi-custom chip that contains the HD63A03X peripheral circuits and is called the memory mapping and peripheral controller which is called MPCA.

1) Features

Permits interfacing with a 4-bit microcomputer as it has an 8-bit serial interface (for KDC).
Internal interrupt control circuit (8-bit)
Memory expansion signal Three kinds of bank address registers
Internal SSP control circuit
Low power dissipation 5V + 5%, 8 mA
High speed operation Access cycle time...1.5MHz (max)
CE pin and internal register addressing pointer register (APR) Only two addresses are dominated for address space.

Variable address of the microchip itself (CE pin)

2) Pin configuration

Page 76

Page 77


Pin No.	Symbol	Signal name	In/Out	Function
1	GND	GND	in
- 2	PO	IFV	In	Slip printer sense signal
3	P1	TOF	In	Slip paper sense signal
4	P2	BOF	In	Slip paper sense signal
5	P3	PIX	In
6	RES	RESET	In	Reset input, active low
7	IRQ	MPCRQ	Out	Interrupt request output to the CPU, active low
8	INTO	SHEN	In	Interrupt input
9	INT1	KRQ	In	Interrupt input
10	INT2	-	In	Not used
- 11	INT3	-	In	Not used
12	INT4	PRQ	In	Interrupt input
13	INT5	TRRQ	In	Interrupt input (ER33MA2 / SL2)
14	INT6	RSRQ	In	Interrupt input (NOT USED)
15	INT7	EXINT	In	Interrupt input (ER33IF, ER33RS2)
16	D0	D0
1	1	·	In/Out	Data bus (D0~D7)
23	D7	D7
24	SPRQ	SPRQ	Out	SSP request signal, active low
25	EX	E	In	System clock input
26	SPE	SPE	In	SSP enable signal input, active low
27	VCC	VCC	In	+5V
28	GND	GND	In	ΩV
29	BA	BA	In	Data/address bus release signal input
30	SPD	SPD	In	SSP data
21	WB	WB	In	Write signal
32	RD .	BD	- In	Bead signal
- 32		A0	in	Register select signal
	0	MPCS	ln	Chin select signal active low
	41	A14	lo
35		A14
36	AH	A15	111	Auuress IIIput Signal
37		רט	0.4
1			Out	(Used for Gru expansion now address)
40	F3	F3		Output which indicates that the ODI I address is within the OOD
41	SPCS	SPCS	Out	Output which indicates that the CPU address is within the SSP

42	B0	B0		Bank information output (used for CPU expansion RAM
I		I	Out	address)(binary)
47	B5	B5
48	SCK	SCK	Out	8-bit serial port shift clock
49	HTS	HTS	Out	8-bit serial sport data output signal
50	STH	STH	In	8-bit serial sport data input signal
51	U0	KDCR	Out	KDC control signal
52	U1	-	Out	Not used
53	DIR	-	Out	Not used
54	VCC	VCC	In	+5V

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Page 78

(1) General		an di Seriya Seri Marina Seri Marina di Seria di Angelara di Seria di Seria		, hree	ue este lectra B	Cyni C	15	. 25
	and the second sec	na na ser ana an	Vü	6 i	(1711)	(11.13)		ž is
Command	I set upper compatible with HD	5305 series (multiply comma	nd and dire	ect page re	gister added)	U i
8-KB proc	rammable ROM, with the prog	ram specification compatible	with the 27	7256 type	anne an			1
	frankriki kuningen og stærter av som	en i mente sente la rece l'accarizzazione e i	n la colonidade de la colonidade	1999 - 200 - 20			13
🖩 384KB RA	AM	WOLWELL JU.	E SO (N)		199.31		20
68 paralle	I I/O lines	a an	Bigilitik I. G. Kom anotose		OSOPA Miro	(OFIE)	1
16-bit proc	grammable timer	1. 1	a an					- 1
		n kat naan ka ji n ni in	8	in a constant Al constant a sub-	i en la combra de la La combra de la combr	1.04
16-bit relo	adable timer x 2	a a supra a sur
E Serial con	munication interface	in the second		•11 • •	- 1993)	en Alfrei Eine
📕 Dual nort \|	RAM (slave MCU mode)	·	n prosisteria Interne Station	a ian y Porte in P	1975);		Land Land	•
			iona del Rara del				1.81
A/D conve	arter	A second compared of			[A]	(a)
Latch port	function	(541 ± 36) t	art child	alOsti j				i
	modes (four kinds of MCI I mo	doe) multi the formula form			Ne la compañía de la Compañía de la compañía	i in the second seco Second
		and a second				in the second Second Second
Maximum	65KB address space	Sanda Militar (1997) a harden ber			27.2	193.	67
E Power sav	/e-modes (standby, stop, wait)	in a fait anti-actus Anore A composition (1999), and an anti-	Ve i	1	Lington f Role IV NATION COMMISSION	CKW.
		a 1990 - Andrea State (1990) Antonio - Recent Angele, and a state (1990)	V.			Gari () Anna	i de s Norma
interrupts,	inree externais and seven inte	maistragas as juon das arom	itana an an Caracteria Caracteria		- 2301 - 241 - 2412	281) (1992)	- 281 - - 2851
Minimum	instruction execution time: 0.5p	s (f=2.0MHz)	ja sinW		HW	1916	[]
	n na hara a Na hara na har	an anna mar a car a car 1993 Anna an anna ann anna anna	pe în ce	10	Gil	(151		•
(2) Pin conf	iguration	releat rgad	n dar ja P		AO	89	33
		March Controlling Litting on Storr	102 - 1 45		BOYIM
			n huistist Hint - Longe Hint - Anto A		01A	171 1.1.1	48
			hs the?		607 03		i se Ese
РВ6 ГТ	(365.5	IN UCH HEREP UTU B	a brath				•
PB7 2	n 1997 - La companya di Angela di Angela 1997 - Angela di Angela	63 PE3			513 ^-	81	00
XTAL	- 1993 est milita el tradition	940 oli d e R ission dela	r furginO	hK.	80419	8098	12
MPI 0	มี 1.สาร์ไปนี้ (ครามและความสาราช 1.สาร์ไปนี้ (ครามและความสาราช)	(530 60] PE6 9233 (530)	(4) (301)3 (1) (30) (30		nan sana ara 1203	7.43	0
MPo 7	An example a second designed a se Second designed a s	SI VSS (MORALING SI VSS (MORALING)	aaraddau aaraddau	1 110		1.11
STBY 0	1	36 PFo			68	- 50		200
Vcc 10 PC7 11		55 PF1 54 pf3 Anie 2003 iot	108 JR1-8		A()1		l 3a	-
PC+ 12		haren in 19 Pr otein korp in 1	KOSIS -	146	841	l su	[]	e - A
PC4 14		Fright STPF	ne 34 S (	ni j	113	ma	[ 06 ]	1
PC: 15		50 PF6	NDU GA		13.00 B	00	18
PC, 17		48 P.Jo	oso told		•	:0
PCo IB		17 PJ1	eeu loM	1 M/A \|			ેક	· 4
PA1 20		46 PJ2 43 PJ3	Vd+	ni j	VOO	VCU	çs;	. 4
PA2 21 PA1 22		44 PJa
PA4 23		43)PH7 47]PH6
PA5 24		41PHs
L

	e « e

Fig. 13-6

Page 79

(3) Block diagram

- 77 -

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Page 80

(A) Pin descript

55 - - +<5V 56 - - NC

International optimized 1 - Not used - Not used 3 TRES TRESET In RESET Signal input - - 4 XTAL XTAL In Clock in - - 6 MP1 VCC In + Sv - - 6 MP1 VCC In + Sv - - 7 MP0 GND In GND - - Not used 9 - Not used - - Not used 11 - NC - Not used - - Not used - - Not used -	Pin No	Symbol	Signal name	In/Out	Eurotion
2 - - Not used 3 RES RESET In RESET Signal input 4 XTAL XTAL In Clock in 5 EXTAL EXTAL In Clock in 6 MP1 VCC In + 5V 7 MP0 GND In GND 8 - Not used 9 - Not used 10 VCC VCC In + 5V 11 - - Not used - 12 - - NC - 13 Array - NC - 14 PTBG - NC - 15 PDCR - - NC - 16 - - NC - - 17 - - NC - - 18 MTDR	1		Ognarname		Not used
L Interference 3 RES RESET in RESET Signal input 4 XTAL In Clock in 5 EXTAL EXTAL In Clock in 6 MP1 VCC In +5V 7 MP0 GND In GND 8 - Not used 9 - Not used 10 VCC VCC In +5V 11 - NC 12 - - NC - 13 - - NC - 14 ETRIG - NC - 15 PDCB - NC - 16 - - NC - 18 - - NC - 20 - - NC - 21 TMG	2				Not used
Strike Trike Trike In Clock in 5 EXTAL EXTAL In Clock in 6 MP1 VCC In +5V 7 MP0 GND In SND 8 - Not used 9 - Not used 10 VCC In +5V 11 - - Not used 12 - - NO 13 A.Fd - NO 14 PTR6 Out "DOTE trigger output 15 PDC8 - NO 16 - A.T - NO 18 - NO - NO 21 TMG TMG Motor drive output SC 22 AVC1 - NO - NO 23 HCUT - NO Starp drive -	-2	BES	BESET	in	RESET Signal input
F EXTAL In Clock in 5 EXTAL EXTAL In Clock in 6 MP1 VCC In +5V 7 MP0 GND In GND EXTAL 8 - Not used	4	YTAI	YTAI	In
J DATAL EARL III Clock III 6 MP1 VCC In +5V 7 MP0 GND In GND State 8 - Not used State 9 - Not used State 10 VCC VCC In +5V State 11 - - NC State State 12 - - NC State State 12 - - NC State State 14 PTR6 State NC State State 16 - NC NC State 19 MTOR MTG In State <		EVTAL		111 in
0 MTP1 VOC Im TSV 7 MPO GND In GND Not used 9 - - Not used 9 - - Not used 11 - - NC Not used Not used 13 - - NC Not used Not used 13 - - NC Not used Not used 14 PTRG - NC Im - Not used 16 - - NC Im - Not used - 17 - - NC Im - NC - - 18 - MTDS Out Motor drive output - NC - - 21 TMG TMG Im - NC - - NC - -		MDI		111
A TMPC GRU III GRU GRU 8 - - Not used - - Not used 9 - - Not used - - Not used 11 - - NO - - Not used 12 - NO - - 13 - - NO - 14 PTRG - - NC - 16 - NC - - NC - NC - - NC - - NC -
a - - Not used 10 VCC VCC In +5V 11 - - Not used - 12 - - Not used - 12 - - Not - 12 - - Not - 12 - - Not - 13 Article - NC - 14 PTRG Out DOTE trigger output - 16 - Article - NC - 18 - Article - NC - 19 MTDR MTDS Out Motor drive output - 21 TMG TMG In - - NC 22 ACUT Article - NC - - 23 HCUT Article - NC - - 24
9 - - Notised 10 VCC VCC in + 5V 11 - - NC mail in 13 Article - NC mail in 13 Article - NC mail in 14 PTRG - NC - in 15 PDCR - - NC - in 16 - Article - NC - in 18 - NTDS Out Motor drive output - in 20 - - NC - NC - - 21 TMG TMG In NC -			_
10 VCC VCC III	9	-	-	-
11 - NC -	10	VUU	VCC	i in an
14 PTRG AVAT A NC A 13 AVAT A NC A A 14 PTRG AVAT A NC A 15 PDCR A NC A A 16 - NC NC A A 17 - A NC A A 18 - NC A 18 - NC A 18 - NC A 18 - NC A 20 - A NC A A 21 TMG TMG MC In A 22 ACUT A STMPS Out Stampldrve A 23 HCUT A STMPS Out Stampldrve A 26 VCC A VCC In Stampldrve A 27 RR1 RR1	11	-	-		TUNE CARACTERISTICS CONTRACTOR CONTRACT
13 A.T.T. K. M.	12	। के त्रिच्च ये थे. स्वयः प्रस्ताः ये	2613 VIU ~~I -~~
14 PTITSC ALLIG Uut PUCE trigger output 15 PDCR T NC Image: Stress and S	13	AJ. 705 \
10 PDUK Average NC NC 16 - NC 17 - NTDS Out Motor drive output Status 18 - - NC - NC 19 MTDR MTDS Out Motor drive output Status 20 - - NC - NC 21 TMG MG In - NC 23 HCUT Average - NC - 24 STMP STMPS Out Status (drive - 25 SLB ASLRS Out Status (drive - 26 AVCC AVCC In Reset pulse input (drive - 28 RE1 RE1 In Reset pulse input (drive - - 28 RE1 RE1 In Printer timing pulse input (drive - - 30 - Yet (drive - 31 RL	14	BRAD	։Հուվ էն ⊸
10 NC	15	PDCK	30A 1037	yd-yd-yd-yd-
17 Late Advant Image: Constraint of the computed	16		: A \ )도
18 Image: Amount of the second o	17	- 2.35	. (A \-))		NC 1411
19 MTDR AMTDS Qut Motor drive output Site Pictor 20	18	; q	, 20 (2010		Non-induced and the second sec
20	19	MTDR		Out
21 TMG TMG In	20		5 CA (19 4	i - Garanar
22 ACUT ANT INC I	21	TMG	TMG	in
23 HCUT A Vie NC Automatic and the set of	22	ACUT
24 STMP STMPS Out Stampldrive Image: Stampldrive 25 SLB ASLPS Out Stampldrive Attempldrive Attempldrive 26 AVCC AVCC Image: Stampldrive Attempldrive Attempldrive 27 RR1 Image: Stampldrive Attempldrive 28 RC3 Attempldrive Image: Stampldrive Attempldrive Attempldrive 29 TMG1 OTRSL Image: Stampldrive Printer timing pulse input Attempldrive Attempldrive 30 Attempldrive Image: Stampldrive Printer timing pulse input Attempldrive Attempldrive 31 RL2 GND Image: Stampldrive Attempldrive 32 TMG2 Attempldrive Image: Stampldrive Attempldrive	23	HCUT			CI NG manual T Lawrence CHIM.
25 SLR IA SERS Out Slip release drive 3 26 AVCC AVCC In FSV Image: Strain of the	24	STMP		Out	Stamp drive
26 AVCC A \VCC A \VCC In P t5V 27 RR1 RR1 In Reset pulse input (receipt) 28 RE1 In Reset pulse input (journal) In the pulse input (journal) 29 TMG1 IT&TSL In Printer timing pulse input (journal) In the pulse input (journal) 30 In RE2 In Printer timing pulse input (slip) In the pulse input (slip) 31 RL21 In Printer timing pulse input (slip) In the pulse input (slip) 32 TMG2 It & RES In Printer timing pulse input in the pulse input in the pulse input in the pulse input in the pulse input in the pulse input in the pulse input in the pulse input in the pulse input in the pulse input in the pulse input in the pulse input in the pulse input in the pulse input in the pulse input in the pulse input in the pulse input in the pulse input in the pulse input i	25	SLR	SLRS	Out	Slip release drive
27 RR1 RR1 In Reset pulse input (receipt) 28 RC1 GR1 In Reset pulse input (journal) Reset pulse input (journal) 29 TMG1 GRS1 In Printer timing pulse input (journal) Reset pulse input (journal) 30 GRS1 GRS1 In Printer timing pulse input (slip) Reset pulse input (slip) 31 RL2 GRS1 In Reset pulse input (slip) Reset pulse input (slip) 32 TMG2 GRS1 In Printer timing pulse input (slip) Reset pulse input (slip) 33 PNET NE In Paper near end signal-input Reset pulse input (slip) 34 VS1 HI In Paper near end signal-input Reset pulse 35 VSS GND In CGND In/Out Reset pulse input (slip) 36 DBB0 Rev VDO In/Out Paper near end signal-input Rev Paper near end signal-input 43 DBB7 In/Out In Output enable Rev Paper near end signal input 44 WE WR In Output enable	26	AVCC		- > In>	D +5V
28 Rt_1 In Reset pulse input (journal) Image: Applied to the second seco	27	RR1	RR1	İn	Reset pulse input (receipt)
29 TMG1 37&TSL In Printer timing pulse input. Printer timing pulse input. Printer timing pulse input. 30	28	RÇÎa	RL1	้ากั	Reset pulse input (journal)
30 33 Alvais 50 55 31 RE21 25 (RSL In Reset pulse input (slip) 50 16/4 32 TMG2 37 (RSL) In Printer timing pulse input (a) 50 16/5 33 PNE1 NE In Printer timing pulse input (a) 50 16/5 34 VSI, and MP In Paper hear end signal-input (a) 50 16/5 35 VSS 16/6 (RD) In Paper hear end signal-input (a) 16/5 36 DBB0 16/5 O In/Out (a) 16/5 16/5 43 DBB7 High MP In/Out (a) 16/5 44 WE WR In Output enable 16/5 16/5 44 WE TRQ Output enable 16/5 45 OE RD In Output enable 16/5 16/5 47 RS0 A0 In Register select 16/5 16/5 48 CS PRCS In	-29	TMG1	ा T&TSL 🐡	- in ^{⊙	Printer timing pulse input.
31 RE2 aG RSL In Reset pulse input (slip) aG and	30		• PGA2 64		⊃ ₹5V > 0 - 1
32 TMG2 a T&TSL In Printer timing pulse input 33 PNE1 NE In Paper near end signal-input 34 VSI HR AMP In Paper near end signal-input 35 VSS HR AMP In GRD In 36 DBB0 Cart vB0 In/Out GRD In/Out 1 eb0 HR AMP In/Out Data bus In/Out 43 DBB7 HR AMP In/Out Data bus In/Out 44 WE WR In Output enable In/Out 45 OE RD In/Out Printer request In/Out 46 RDY PRQ Out Printer request In/Out 47 RS0 A0 In Register select In/Out 48 CS PRCS In Register select In/Out 50 RS2 A2 In Register select In/Out 51 RS3 A3 In Register select In/OI 53	31	RL2	e⊆∖\ RSL ∽	In~ [	Reset pulse input (slip)
33 PNET NE In Paper near end signal-input 34 VS1 atti MVP In Validation paper sense input IMACC 35 VSS Atti MVP In GND In Validation paper sense input IMACC 36 DBB0 Atti MVP In In GND In Im 36 DBB7 In In GND In Im GND Im 43 DBB7 In In/Out Im Data bus Im	32	TMG2	ुँ देश SL 🐭	in-\|	Printer timing pulse input
34 VST. HI MP In Validation paper sense input HALCY 35 VSS HI MP In GND In GND 36 DBB0 HI MP In GND In HI MALCY 43 DBB7 HI MP In In Data bus HI MALCY 43 DBB7 HI MP In Output enable HI MALCY 44 WE WR In Write enable HI MALCY 45 OE RD In Output enable HI MALCY 46 RDY PRQ Output enable HI MALCY 47 RS0 A0 In Register select HI MALCY 48 CS PRCS In Chip select MALCY 49 RS1 A1 In Register select MALCY 50 RS2 A2 In Register select MALCY 51 RS3 A3 In Register select MALCY 53 TOF TOP In Slip paper sense (BOF)	33	PNE1	NE	In Commit	Paper near end signal-input
35 VSS H ⁴ GND In GND GND 36 DBB0 H ⁴ VD0 In/Out Data bus H ⁴ 1 H ⁴ VB H ⁴ VD7 In/Out Data bus H ⁴ 43 DBB7 H ⁴ VB In Data bus H ⁴ 44 WE WR In Write enable H ⁴ 45 OE RD In Output enable H ⁴ 46 RDY PRQ Out Printer request H ⁴ 47 RS0 A0 Lin Register select H ⁴ 48 CS PRCS In Chip select H ⁴ 49 RS1 A1 In Register select H ⁴ 50 RS2 A2 H ⁵ Register select H ⁴ 51 RS3 A3 In Register select H ⁴ 52 BOF In Slip paper sense (BOF) H ⁴ 54 - + 5V H ⁴ 55 - -	34	VS1	₀на ууЮР ⊸	ln_\|	Validation paper sense input
36 DBB0 car y D0 in/Out Data bus in/Out data to the second seco	35	VSS	GND -	≀ In²	GND
I ccpc H9 bH1 H1 of Data bus A 43 DBB7 H9 bH1 H1 of Data bus A 44 WE WR In Write enable A 44 WE WR In Output enable A 45 OE RD In Output enable A 46 RDY PRQ Out Printer request A 47 RS0 A0 Lin Register select A 48 CS PRCS In Chip select A 49 RS1 A1 In Register select A 50 RS2 A2 In Register select A 51 RS3 A3 In Register select A 52 BOF BOF In Slip paper sense (BOF) A 53 TOF TOP In Slip printer sense (TOF) A 54 - +5V A 55 - +5V A	36	DBBO	.;4< \. D 0	In/Out.
43 DBB7 Invout Wout Wite enable 44 WE WR Invout Write enable 45 OE RD In Output enable 46 RDY PRQ Out Printer request 47 RS0 A0 In Register select 48 CS PRCS In Chip select 49 RS1 A1 In Register select 50 RS2 A2 In Register select 51 RS3 A3 In Register select 52 BOF BOF In Slip paper sense (BOF) 53 TOF TOP In Slip printer sense (TOF) 54 - - + + 55 - + 56 - NC	E	nepa -	- File/ PHz		Data bus
44 WE WR In Write enable 45 OE RD In Output enable	43	DBB7	1999 (al D7	In/Out	Contractive Contraction and the second secon
45 OE RD In Output enable 46 RDY PRQ Out - Printer request 47 RS0 A0 In Register select 48 CS PRCS In Chip select 49 RS1 A1 In Register select 50 RS2 A2 In Register select 51 RS3 A3 In Register select 52 BOF BOF In Slip paper sense (BOF) 53 TOF TOP In Slip paper sense (TOF) 54 - - + 5V 55 - - + 5V 56 - - NC	44	WE	WR	10	Write enable.
46 RDY PRQ Out Printer request 41 47 RS0 A0 Lin Register select 42 48 CS PRCS In Chip select 44 49 RS1 A1 In Register select 44 50 RS2 A2 In Register select 44 51 RS3 A3 In Register select 44 52 BOF BOF In Slip paper sense (BOF) 45 53 TOF TOP In Slip paper sense (TOF) 45 54 - - + 5V 55 - 55 - + 5V 55 56 - NC 51 56 - NC 51	45	OE	RD	in	Output enable
47 RS0 A0 Line Register select 48 CS PRCS In Chip select 49 RS1 A1 In Register select 50 RS2 A2 In Register select 51 RS3 A3 In Register select 52 BOF BOF In Slip paper sense (BOF) 53 TOF TOP In Slip paper sense (TOF) 54 - - +<5V	46	RDY	PRO	Out -	Printer request
48 CS PRCS In Chip select Aut 49 RS1 A1 In Register select Aut 50 RS2 A2 In Register select Aut 51 RS3 A3 In Register select Aut 52 BOF BOF In Slip paper sense (BOF) 53 TOF TOP In Slip printer sense (TOF) 54 - - + 5V 55 - - + 5V 56 - - NC	47	BSO	A0 ~~~~		Recister select
49 RS1 A1 In Register select Addition 50 RS2 A2 In Register select 5 Mit MA 51 RS3 A3 In Register select 5 Mit MA 52 BOF BOF In Slip paper sense (BOF) 5 Mit MA 53 TOF TOP In Slip paper sense (TOF) 5 Mit MA 54 - + 5V 5 Mit 56 - NC Mit	48		PRCS	in line	Chip select
TO TO 50 RS2 A2 In Register select 54 51 RS3 A3 In Register select 52 BOF BOF In Slip paper sense (BOF) 53 TOF TOP In Slip printer sense (TOF) 54 - + 5V 55 - - + 5V 56 - 56 - 57 MD0 MO0 In	40	BS1	Δ1	In Game
50 High H	50	BS2	Δ2	- Bay	Benister select 9 MC
52 BOF BOF In Slip paper sense (BOF) 53 TOF TOP In Slip printer sense (TOF) 54 - + 5V 55 - - + 5V 56 - 57 MD0 MO0 In	51	PC2	Δ3	ln ln	Register select
52 DQ1 III Oup paper sense (DO1) 53 TOF TOP In Slip printer sense (TOF) 54 - - + + 55 - - + + 56 - NC	50	BOE		In
53 10r 11 Sup printer sense (10r) 54 - - +5V 55 - - +5V 56 - - NC	52			111
54 - - + 5v 55 - - + 5V 56 - - NC	53	ישר	5 IUP
55 - - + 5V 56 - - NC	54	-
	55
	56	-	-

Page 81

	Contraction of the local division of the local division of the local division of the local division of the local division of the local division of the local division of the local division of the local division of the local division of the local division of the local division of the local division of the local division of the local division of the local division of the local division of the local division of the local division of the local division of the local division of the local division of the local division of the local division of the local division of the local division of the local division of the local division of the local division of the local division of the local division of the local division of the local division of the local division of the local division of the local division of the local division of the local division of the local division of the local division of the local division of the local division of the local division of the local division of the local division of the local division of the local division of the local division of the local division of the local division of the local division of the local division of the local division of the local division of the local division of the local division of the local division of the local division of the local division of the local division of the local division of the local division of the local division of the local division of the local division of the local division of the local division of the local division of the local division of the local division of the local division of the local division of the local division of the local division of the local division of the local division of the local division of the local division of the local division of the local division of the local division of the local division of the local division of the local division of the local division of the local division of the local division of the local division of the local division of the local division of the local division of the local division of the loc
	Pin No.	Symbol	Signal name	In/Out	Function
	60	PD7	- DT7	Out
	1	11	11 J	1.	Dot solenoid drive signal
	65	PD2	DT2	Out	(1) A set of the se	an a
	66	PD1	DT1	Out	and a second Second	n n Anna an an
	67	- L		-
	1 ^°	1 T 1	n in the second s	1	Not used
	74	a n e ratik	_ fa	. ¹		Same and see
	75	-	. .	-	NC
	76	-	-	-	NC
	77	PSEL	PSEL	Out	Printer select
	78	PFJ	PFJS	Out	Paper feed (journal)	e og en en de General Articues
	79	PFR	PFRS	Out	Paper feed (receipt)
	80	SLPF	SLFS	Out	Paper feed (slip)
·				1. A.
					ان ما ما معادی می باشد. ماه می این از می این ای
			н н 1

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Page 82

13-2-4 LZ92A42 description

	Din	deseri				* * ·			· - ;
(4)	Pig	descri	puor	i ieir t	ĢŁ.	0.01	NG.	- CR

(4)	The 1 202042 is a CMOS gate array isoprograted		10/00
(1)	microchip which are used to generate printer M2640(Percent) (Accorded)	Pin No.	Symb
	control timing signals, which have an internal address		,
	decoder, enhancing low power dissipation in the logic	1	A15
	circuitry, dense circuit integration, and low cost.	2	A14
		∋,/ 3	A13
(2) \|	Features	4	A12
1. S	upports the ER-3310/3311 address decoder.	i∕ ;5 ∣	A11
	4 chip select outputs	6	A10
	Chip select is disabled during reset period	7	TS
2. N	Ionitors the M2640 printer dot head drive period	8	RRJ
•	Adjustment not required, because the use of the	_о . 9	R RF
	retriggerable digital monomulti timer	10	MTS
зÞ	rioter motor drive circuit	11	MTC
• •	Generates timing signal to prohibit simultaneous activation	12	MTF
•	of the drive phototransistor and brake transistor	13	PRT
•	Dermanont clock by detecting mater look (closed by	14	TRG
	report)	15	GNE
	Prohibite activation of the brake transister when the motor	16	MTD
•	is looked	17	POF
	is locked.	18	RL
4. P	nnær control linning signal buller (linning pulse, reset pulse)	19	RR
(0)		20	Е
(3)	rin configuration	21	OPTO
		22	СТС

Fig. 13-8

	1.1.1.7		the second of the second se
Pin No.	Symbol	In/Out	Function
1	A15	in c	Address input
2	A14	In	Address input
3	A13	In	Address input
4	A12	In.	Address input
.,∕ .5 Î	A11	In	Address input
6	A10	In .	Address input
7	TS	ln:	Printer timing pulse
8	RRJ	ln,	Printer reset pulse (journal)
9	RRR	in se	Printer reset pulse (receipt)
10	MTS	Out	Brake transistor drive signal output
11	MTD	Out	Motor drive transistor drive signal
12	MTR	In	Motor lock signal input
13	PRTE	Out	Head drive signal enable output
14	TRG	In	Trigger input
15	GND	-	ov (GND)
16	MTDS	In	Motor drive signal input
17	POF	In	Dot drive signal enable
18	RL	Out	Reset pulse output (receipt)
19	RR	Out	Reset pulse output (journal)
20	E	In	Clock input (1.22875MHz)
21	OPTCS	Out	Decoder output
22	CTCS	Out	Decoder output
23	MPCS	Out	Decoder output
24		Out
25	BRAS	Out	Decoder output
26	-	Out	-
27		Out	Timing pulse output
28 ^.	PSEL	In	Printer enable input
29	RES	In	Reset input
30	+5V		VCC (+5V)

13-2-5 VHI16L8CRAT1A (PAL 16L8A2) description

(1) General

With the PAL 16L8, address decoder and chip select circuits are established within the peripheral circuit of the ER-3310/3311.

(2) Pin configuration

	······		1

A15 →	A15	5V	– 5V
A14 →	A14	RAS1	→ RAS1
A13 →	A13	RAS2	→ RAS2
A12 →	A12	ROS1	→ ROS1
F3 →	F3	ROS2	→ ROS2
F2 →	F2	ROS3	→ ROS3
B5 →	B5	BA12	→ BA12
B4 →	B4	BO	← B0
B3 →	B3	BA13	→ BA13
0V -	GND	B1	← B1

1

Fig. 13-9

Page 83

(3) Logi

Logic ROS1 = A15 + A14 · F3 ROS2 = A15 · A14 · F2 · F3 ROS3 = A15 · A14 · F2 · F3 RAS1 = A15 + A14 + A13 · B5 + A13 · B4 + A13 · B3 + A13 · A12 RAS2 = A15 + A14 + A13 + B5 + B4 + B3 + A12 BA12 = A13 · A12 + A13 · B0 PA12 = B1 + A12

Input signal Output signal A 1 F .... DE ....................................... D0 D1 D0 ----- POC 2 ..... 1 n n н 1 A12 ٥ 1 n 0 0 ß B1 BO н 80 B1 0 1 n 0 n н н 0 A12 A12 во

(4) Signal names

(4)-1 Input signals

A15 - A12 : CPU address input

F3, F2 : ROM bank signal to which connected the MPC ROM bank signal.

B5, B4, B3, B1, B0 : RAM bank signal to which connected the MPC RAM bank signal.

(4)-2 Output signals

ROS1 : ROM1 chip select output ROM1 consists of six banks of bank 2 to bank 7(x16 kb) and common ROM (32 kb).

BOS2 : BOM2 chip select output

ROM2 consists of four banks of bank 8 to bank 11 (×16 kb).

ROS3 : ROM3 chip select output ROM3 consists of four banks of bank 12 to bank 15 (×16 kb).
RAS1: RAM1 chip select output RAM1 is chip selected by an externally RESET combined signal. RAM1 consists of a common BAM (8 kb) and

six banks of bank 2 to bank 7 (X4 kb)

RAS2: RAM2 chip select output. RAM2 consists of 8 banks of bank 8 to bank F (×4 kb).

BA12: Oulput to connected to RAM1 address bus For the common RAM area (A13 = "L"), A12 is issued. For the bank RAM area (A13 = "H"), B0 is

issued.

BA13: Output connected to RAM1 address bus For the common RAM area (A13 = "L"), 0 (= "L") is issued. For the bank RAM area (A13 = "H"), B1 is
- issued.

13-3 Clock Generator

The basic clock pulse circuit is not provided in the ER-3310/3311 itself. An independent oscillation circuit is provided in each device (CPU, PRC, KDC). The clock E (1.2288MHz) is issued from the CPU for synchronization with devices.

(1) HD63A03X CPU oscillation circuit

Basic clocking is supplied from a 4.915MHz ceramic oscillator. Since the CPU has an internal oscillator circuit, the 4.915MHz ceramic oscillator output is directly supplied to the CPU.

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Blank: don't care

Page 84

(4) HD614042 KDC oscillator circuit

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Page 85

Operational description

(1) At power on

During power on, POF is at a low level. RESET is VRAM backed up, and are held to a low level. While the CPU is in reset, STOP is at a high impedance. As POF goes from low to a high level at a low to high transition of +5V and +24V, C59 starts to charge via R48 and the voltage at point (A). The voltage at point (A) reaches the threshold voltage of IC17

RESET changes from low to a high level. Accordingly, the CPU reset is cleared so that the CPU can go into operation.

(2) VCG (+5V) is below 4.5V at power off. When POF goes low, the CPU forces STOP low, so that, the pin 15 output of IC3 goes low and the charge on C59 is discharged via R47.

As C59 is discharged, RESET changes fro high to low state which supplies a reset to the devices.

13-5 POF Circuit

The ER-3310/3311 detects a power failure and executes the power down procedure, then it executes the power recovery procedure. It has a power down informing signal (POF), to protect the system from a power failure.

When a power failure is encountered, the CPU must hold the instruction being executed after protecting the memory contents and must take action to permit recovery from a power

down. The POF circuit also prevents incidental driving of the printer and drawer solenoids.

The ER-3310/3311 POF detect circuit consists of two blocks.

Page 86

(1) Circuit to detect the state of ac power supply (circuit-1)

When +24V is at a normal level, 5.2V appears on the ⊕ line of the comparator (pin 3, IC4). On the other hand, the ⊖ (Pin 2) line is held to +4.3V by the zenor diode D6 so that the comparator output POE is at a binh level

3 At power on

When the comparator the input voltage goes higher than the O input voltage (+4.3V) as the power is turned on, the comparator output POF turns from low to high level.

At power off

When the supply power is off or at an extremely low level, the the input voltage goes low before the O input voltage and POE turns from high to low level

When POF goes low, the CPU executes the power down procedure and stops its operation

(2) Circuit to detect the state of VCC (+5v) (circuit-2) -When VCC (+5V) goes below 4:5V, then M51943B (IC29) forces the POF line to drop to GND level. In other words, POF is set to a low level immediately after VCC goes below 4.5V.

13-6 VPOF Circuit

While the supply power is not stable at power on or power off, the output side of the first stage IC of each magnet drive transistor is pulled up by VPOF, in order to prevent malfunction of the magnet drive circuit.

VPOF is a signal of POF is used to control +5V using the transistor Q9.

The transistor turns on only when POF is high.

Fia. 13-21

an a

Page 87

13-7 Memory Control Circuit

13-7-1 Address bus

The CPU address bus is directly connected to the address required drive, in order to specify memory (RAM/ROM) and I/O address.

13-7-2 Address decoder

Each chip select signal of the ER-3310/3311 is created by decoding the CPU address (A-15 - A10) using the LZ92A42 internal address decoder and the PAL (16L8). The LZ92A42 produces ER-33MB option memory board bank RAM select signal (BRAS), I/O device chip select signal (PRCS, RTCS, MPCS), and option board select select signal (OPTCS).

The PAL creates ROM chip select signal (ROS1 to ROS3), RAM select signal (RAS1, RAS2) and RAM address signal (B12, BA13).

Page 88

nehosob opinishiki Sili di

Freeh Ghp refered mignel of the kH sections (3) is created by should get the GPR reference (4, the c, 646) using the 1-2016 (c) mound address of creater in the FyAr (1918). Ano 1-202042 pressure for SMR report momenty recent to a AM reference for SAR (C) SAR (c) which reports a create AM reference for SAR (C) SAR (c) and c) THOS, MISS (c) SAR (c) has the context regard THOS, MISS (c) of replace trace (c) and cater 1 degraes THOS).

The PAL coules (100M chip select signal (RÖST to RÖSS)). RAM seleculoitad (RAS1, TAS2) and FAM relates eignal RAIS, PA1-6

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13-7-4 Bank creation circuit

A part of the ER-3310/3311 ROM and RAM is read and written via the bank circuit.

The information regarding the bank is sent from the CPU to the MPCA from which issues the bank signal

There are two bank information registers dedicated (BRA, BRB) within the MPCA; the one is 6 bits and the other is 4

With the ER3310/3311, the 6-bit bank register (BRA) is used for RAM bank and the 4-bit bank register (BRB) is used for ROM.

The signal BRAS from the LZ92A42 is issued when selecting bank RAM on the option memory board.

ROS1 to ROS3 are issued from the PAL to select ROM and RAS1 to select RAM1 and RAS2 to select RAM2 (OPTION).

13-7-5 ROM select circuit

As seen from the memory map (13-7-3), three ROM chips are used.

ROM 1	1 Mbit	Standard
ROM 2	512 kbit	Standard and option
ROM 3	512 kbit	Option

The following shows the ROM support area.

ROM1:8000H - FFFFH ... Common area, 32 kbytes4000H - 7FFFH ... Bank area, bank 2 to 7, 96 kbytesROM2:4000H - 7FFFH ... Bank area, bank 8 to B, 64 kbytesROM3:4000H - 7FFFH ... Bank area, bank C to F, 64 kbytes

NOTE: Bank 0 and 1 are not used.

The table below shows assignment of each bank select signal to ROM. These signals are issued from the PAL. The PAL selectione of ROM1 to ROM3 according to the CPU address and F2 and F3 ROM bank information.

	ROM ^1/2	ROM select signal
a. 17 - 34 - 2		ROS1	010
	ROM 2	ROS2
£	ROM 3	ROS3

Page 91

The following shows CPU (HD63A03X) address allocation for the ROM chip address of ROM1 thru ROM3.

ROM 1

M chip address	Program allo	cation area
$00000	$C000 1 $FFFF	Common
$04000	$8000 ! $BFFF	Common	area
$08000	$4000 1 $7FFF	BANK 2
$0C000	$4000 1 $7FFF	BANK 3
$10000	$4000 I $7FFF	BANK 4	Bank area
$14000	$4000 i $7FFF	BANK 5
$18000	$4000 1 $7FFF	BANK 6
$1C000 $1FFFF	$4000 1 $7FFF	BANK 7

Fig. 13-27 (a)

ROM 2

RON	A chip address	Program allocation area
مر ب	$0000	$4000 I BANK 8 $7FFF
	$4000	$4000 i BANK 9 $7FFF
	$8000	$4000 I BANK A $7FFF
	$C000	$4000 I BANK B $7FFF

Fig. 13-27 (b)

BOM 3

ROM chip address Program allocation area


$0000	$4000 1 BANK C $7FFF
$4000	$4000 I BANK D $7FFF
$8000	$4000 1 BANK E $7FFF
$C000	$4000 1 BANK F $7FFF

Fig. 13-27 (c)

NOTE: F0 to F3 from the MPCA normally contains the contents of the BRB register, except that the following address is fixed.

inj	out	output
A15	A14	F3	F2	F1	F0
1	0	0	0	0	1
1	1	0	0	0	0

13-7-6 RAM select circuit

1) RAM1 select

RAM1 is selected by RAS1 which is issued from the PAL. RAM1 has the common area and bank area within the same one chip.

Fig. 13-28

Page 92

The following shows CPU (HD63A03X) address allocation for the RAM chip address of RAM1:

erdenan sala dada a	1.1533(2.00)
chip@address	Program allocation area
$0000 ₇₈	$2000
$4000	ーーーBANK 4 $2年年紀
$1000 ₃	$2000
00.04.0	$2FFF
$ 2000 (?	$2000
BGeWeg	$2FFF
$3000 g	$2000
(3) 111 (6)	sing $2FFF
$4000	$0000
aro vikunne ĉi	3946 Stollage SCommon
a, agaran jiwaan h	en elementative policy de la companya. Obber elementative policy de la companya.
le ne store s
$6000	$2000
0 0	BANK 2 $2FFF
2
$7000 D	$2000
	chip@ddrēss $00000; 300048 $1000; 31000; 31000; 32000; 32000; 32000; 33000; 33000; 34000 0,0,0,1,1,2; 34000 0,0,0,1,1,2; 34000 0,0,0,1,1,2; 34000 0,0,0,1,1,2; 34000 0,0,0,0,1,1,2; 34000 0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0

Fig. 13-29

. With the second and investigation of the second of MAR (or readed) and which and and an angle See the PAL truth table for more details.

2) RAM2 select (OPTION RAM)

RAM2 selected by RAS2 which is issued from the PAL.

The following show CPU address allocation for the RAM chip address of RAM2.

RAM	1 chip addres	s	Pro	gram all	ocation area
	$0000		i	$2000
	is the dealers	3 5	est r e	$2FFF	BANK 8 asetas caro M
+ \|	$1000	Ю	48.)55	$2000	aCµ s(≥), f
			11-12	$2FFF_	BANK 9
	$2000	0.	X-82	$2000	n Natural
, vi	a hada a sa a		1949) 1949	۱ $2FFF	BANK A
A H	$3000	ð	/HAG	$2000	-300-soft
	1- 2826-8891		1 \|775/	ı $2FFF	BANK B
	$4000	.)	A	$2000	GEOGRA.
	alus tranganabus Suuring	1.1		I $2FFF	BANK C
ļĮ	$5000	.3,	i Velet	$2000	(2) (2)
	1 2789423 ⁰ -		179	। $2FFF	BANK D
	$6000	Ċ	)	$2000	ette i
		n:		। $2FFF	BANK E
1.1.1.1.1.1.1.1.1.1.1.1.1.1.1.1.1.1.1.1.	$7000	(Å)	)( Det	$2000	- 14 - 14 P
	0.269 8 6	2	inse	۱ $2FFF	BANK F
		- W	. No :		n i perd

13-8 Clock Control Circuit (RP5C15)

The clock and calendar of the ER-3310/3311 are controlled by the clock control LSI (RP5C15)

The RP5C15 is read/written in the cycle timing of the HD63A03X CPU. Since it is backed up at all times using the VRAM, the time and calendar are updated from time to time. The alarm output on pin 15 is connected to P67 line (pin 32) of the CPU HD63A03X.

81-61 pm

Page 93

13-9 Monitor RAM Circuit

Execution address monitor BAM

A 16K×1-bit RAM (LH5157) is used to check the CPU executing address, As addressed by the monitor RAM, the total of 14 bits are inputted; A4 thru A13, ROM bank information representing F0 thru F3.

F0 thru F3 are expansion addresses represented by the ROM bank number occurring in MPC (HD61J214F). Hexadecimal "1" is issued as a bank information when 8000H thru BFFFH

is addressed out of the common area which is not the bank ROM, and "0" is issued when C000H thru FFFFH is addressed. Naturally, the bank number is issued when addressing the ROM bank area of 4000H thru 7FFFH. The SPCS signal created by the CPU is connected with the monitor RAM chip select line. SPCS goes active when addressing all banks except for the bank 0 and 1 or the common ROM. So, ROM is addressed along with the monitor RAM, so that the monitor RAM is also selected when a ROM (except bank 0 and 1) is selected.

Fig. 13-32

As it does not have the monitor RAM corresponding to the bank 0 and 1, those are out of SSP range.

Mark information can be written in the monitor RAM by simply entering the data 00H in the respective ROM address. (Data contention on the data bus would not occur since the ROM output is disabled by the OE signal, even if data are written in the ROM.)

Above timing shows the case when a mark routine exists the common ROM. The STA command of the extend address is used for the write command.

* If the mark address (destination address of the write command) is a bank in ROM, the signal is a high level. As shown in the Fig13-31, a 16KB area of the ROM corresponds to 1K bits of the monitor RAM. This indicates that a continuous 16KB ROM area cannot be discriminated from the monitor RAM. This is for holding the total bit number of the monitor RAM to a minimum. So, an SSP interrupt issued for the command included in the same 16KB block, not the mark address originally. The unwanted SSP interrupt returns without doing anything during an SSP interrupt as the address specified by the mark address differs from the return address.

Page 94

Page 95

13-10-2


KDC	cional	decorintion
	SIUHAI	uesci induoir.

Dia No	Cumbol		in/Out
		Signal name	Out	Display segment signal "h"
	RU1		Out	Display segment signal "c"	n an the second
2	RU2	50	Out	Display segment signal "d"	an da Maria
3	RU3	50	Out	Display segment signal "o"	an an seachtraine Saithean saithe
4	RIU	SE	Out		an guð gann Marinn
5	H11	SF	Out	Display segment signal 1
6	H12	SG	Out	Display segment signal
7	H13	ECI	Out	Display tube common signal
8	R20	DOIV	Out	Display segment signal
9	R21	_	Out	NOTUSED
10	R22	SEG▼	Out	Display segment signal
11	R23	SEGDP	Out	Display segment signal
12	RA0	CFSR	In	Cashier switch return signal
13	RA1	MODR	In	mode switch return signal
14	R30	KR0			14 . 18 . 19 - 19 -
1	1	I	In	Key return signal	in a statut
17	R33	KR3
18	R50	SKR	-	GND (not used)	The second
19	R51	ENCG	Out ·	Dot matrix segment decoder (LI-2047) CE signal	l .
20	R52	KEX	Out	Key expand signal
21	R53	ENST	Out	Dot matrix digit signal decoder (IR-2C12) CE signal	1.1.1.1.1.1.1.1.1.1.1.1.1.1.1.1.1.1.1.1.
22	R60	ST0
1	1	1 .	Out	Key scan timing signal
25	R63	ST3
26		VCC		+ 5V supply	en de la composition Composition de la comp
27	SCK	SCK		Serial data shift clock input	i a a sta carte
28	SI	HTS	In	Serial data input
29	SO	STH	Out	Serial data output	t e entre
30	R43	NU	_	Not used	المراجع المحروم الم محاوي المحروم الم محاوي المراجع المحروم المراجع
31	B70	CGA0			and the second secon
			• • Out •	Dot matrix address signal	••
27	002	CGAE	000
	D26	CUAO		NOTHISED
		KD4
39	H9U	NR4	l.	Kou rotum cional
			- 111
42	H93	KH/		Ponot input algoal
43	HESEL		in .
44	IEST.	IESI
45		0501	in
46	USC2	USC2	in		and the second second
47	GND	GND		+ UV supply	a
48	DO	KRQ	Out	Interrupt request
49	D1	SHEN	Out	Interrupt output
50	D2	-	Out	NOT USED
51	D3	BZ	Out	Buzzer signal, high tone
. 52	D4	GS1
1.	1 - 1	1	Out	Display tube digital signal
62	D14	GS11.
63	d15	_	-	NOT USED	1
64	R00	SA	Out	Display tube segment signal "a"	- L
					and the second second

Page 96

12.10.2 Conomi

Data from the CPU, is sent to the MPCA where it is converted into a serial signal. Then, it is sent to the keyboard/display/buzzer controller (KDC)

numeric, alphanumeric display tube, and customer display. A Dia Marcan Marcan SG, SEG V, DP, and dot "V" signals are sent from Information, from the key and switch are returned to the MPCA's tracers a value (KDC' to the numeric display, and they are driven directly in the form of sorial data

19-10 E. Dioplay control from the second

The numeric and alphanumeric display tube (112) T02G) is niverieu ાતુ, પ્ વરા ગુજુ

The KDC controls keys, cashier switch, mode switch, hipper the (new real water Display, signals (CG1;CG11), segment signals (SA -"" and a weather only the KDC. The 1/12LT02G sinnals on the one-rator ter de la secondar van display are supplied parallel to the customer display.

Fia. 13-36

Page 97

)	Voltage level
	Input (CGA0 - CGA6)
	High :	+ 5V
	Low :	GND
	Output (D11	- D75)
	High :	+ 5V
	Low:	-31V

S2-S5

Fig. 13-37

13-10-7 Key switch control

Fig. 13-38

- 95 -

Page 98

Key strobe signals, ST0 - ST3, sent from the KDC are	ANALOGANY (
converted into SU - S12 via the two chips of 3-8 decoders	Man constants
within the keyboard.	CIMES I I MARS
SU - S12 are sent as active low signals and sent to the	NAPER LEGEL
keyboard matrix, cashier switch, receipt switch, JF-// HF switch, 1643	Annan Annan Marian Annan
and mode switch.	and a stational
Since the matrix is divided into two on the keyboard (78 keys,	2010 (MO)
80 keys), there are two groups of return signals, SR0A
SR7A and SR0B - SR7B. These signals are selected using
the multiplexer of the HC157.
The HEX signal issued from the KDC is used to control the 1841
multiplexer.
The CFSR signal is used for the journal feed key return,
receipt feed key return, cashier key return, and receipt switch	.461 × 53
return and the MODR signal is used for the mode switch return
signal.
When the KDC detects a key return signal or switch return
signal, the interrupt request (KRQ) is set low to the MPCA
After converting the key and switch data into serial data, the arr tork same tart	•
key and switch status is sent to the MPCA.
in a second france of the second france of the second second france of the second s
au sa
13-10-8 Buzzer circuit
+5V VPOF
TP2 TP2
♀ $ \? $ ≵:_⊖3
EXAMPLE 15 51 3 8 14 2 15 - 8 +

	nn eo define y olt N-8
LSISS Coverences
Display PWB Main PWB
Substantion of the second s
Fig. 13-39
	r S
	i i
The signal B2 of the KDC is used to only the burned will not activate if
	2
	⊅년 X 및
2000 100000 2000 2000000
ามาการการการการการการการการการการการการการ	le de la companya de
	4 •.
	į.





	**************************************

	- ·


	·
	N ·




	α

00.81 mil

Page 99

13-11 Printer Control

13-11-1 Block diagram

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Page 100

13-11-4 Dot wire drive control circuit

The PRC (HD63705Z0) is used to control the printer. Data transfer between the CPU and the PRC is carried out in the parallel communication mode (handshake) via the PRC internal dual port.

Timing signals from the M-2640 R/J printer are shaped in the control timing circuit within the LZ92A42 and sent to the PRC. The motor drive timing circuit is provided within the LZ92A42. When MTDS (PRC, pin 9) goes low, MTD (pin 11) of the LZ92A42 is forced high to start rotating the motor. As the motor rotates, timing pulse (TMS) are generated by means of the sensor attached to the motor. The printer is controlled within a TTL level signal which TMS converted to.

With the timing pulse (TS) from the motor, current is applied to the dot wire drive coll to print.

Discussion is given here to explain how a single dot wire Striven
When current is applied to a coil, the actuator moves towards the arrowhead (a) as the steel core is magnetized. The actuator makes connection with the wire, and the wire pulsed out towards the platen.
As the wire hits the platen with the ink ribbon and paper
When current is removed from the coil, the actuator and the wire return to their home position by means of the actuator spring and wire return spring.

Dot wire drive signals (DT1-DT7) sent from the PRC pins 66 ----60 and PRTE print enable signal from the LZ92A42 are sent to IC23 and IC24. The solenoid will not activate unless PRTE is sent active to IC23 and IC24.

ne PRTE is created within the LZ92A42.

3-43 LZ92A42 internal block diagram

		2 l m
106	Motor	TRG	RES	POF	PRIE
M	OFF	×	х	×	,न0 (1 म ा)
	×	×	0	×	H,
0	×	×	×	0	H H	One she
U-1	ON	¥_	1	1	Ľ,	<- One-sho action

Table 13-2 Truth table

As shown from the truth table in Table 13-2, PRTE will not be issued when RES: POF are active.

The counter operated by the E signal is a retriggerable digital monomulti-timer which is used to monitor the head drive period. If current to the dot head was too long, the timer is started and it will stop the current applied to the dot head by forcing PRTE high.

Sharp ER-3310, ER-3311 Service Manual

SHARP SERVICE MANUAL

ER-3310 MODEL ER-3311

CAUTION

CONTENTS

SHARP CORPORATION

1. BLOCK DIAGRAM

2. SPECIAL SERVICE TOOLS

3. REFERENCE DOCUMENTS

4-2 Rating

4. SPECIFICATIONS

4-1 Appearance/Rating

1) Appearance

4-3 Key board

(2) Key top name

standard key too

OPTION KEY TOP

[Functions]

4-5 Display

Error kind display

5. Options

5-2 OPTIONS

5-3. Service OPTIONS

5-4. Supplies

6. SRV/PGM mode program list

There are the following programs.

1. User program

6-1. Hardware functions

6-2. Software functions

7.SRV (SERVICE) MODE

7-1 SRV, reset (Program Loop Reset)

Procedure

7-2 Master reset (All memory clear)

• MRS-1

Procedure

• MRS-2

Procedure

NOTES:

7-3 Reading of the SRV mode program

[JOB code 900]

Key operation. 900→[@/FOR]→[CA/AT]

7-4 Service mode programming

Joh

037

MRS =.0010

< 100 # 001 > Key operation

D. -1. Choice of validation paper sense enable or disable* -2. LOGO MESSAGE CONTROL 0 -3. LINE

< JOB # 913 >

D.-Enable/disable manual TÁX

(only compulsory after first TBX/ST) is used a Calamon 1

MRS = 0700

<108 # 917>

MRS = 4003

B. -1. Choice of TIP method.

<JOB# 920 > IN-LINE SETTING (1)

#920-A : Not used. fixed to 0.

FUNCTION: KEY LIST

<JOB # 971 > File creation

(2) File reading Kev operation

File reading report

Stand alone machine at MRS

Memory layout

Memory size calculation

8. PGM1,PGM2(PROGRAM)MODES

Secret code entry

8-1 printing of program reports

List of program reports

★

8-2 JOB CODE LIST

8-3 PROGRAMMING

[JOB #110]

[JOB#211]

MRS = DPT. X X

MRS = 0.00

MRS = 1000

IJOB#2341

MRS=0

IJOB#2371

LIOB#2381

DATE SETTING