SED1353 Technical Manual

Transcription

1 SED1353 Series Dot Matrix Graphics LCD Controller MF119-1b

2 MS-DOS Windows Microsoft PC/AT VGA IBM International Business Machines SEIKO EPSON CORPORATION 1997

3 SED1353 Series Dot Matrix Graphic LCD Controller Hardware Functional Specification

4 HARDWARE FUNCTIONAL SPECIFICATION LCD MC68 MPU READY( WAIT#) MPU ISA LCD MPU/CRT / SRAM DC AC MC IOW# IOR# MEMW# MEMR# MC68 READY( WAIT#) MPU/ IOW# IOR# MEMW# MEMR#

5 7.4 LCD LCD - 4, 8 / LCD LCD / LCD - 16 / LCD LCD SRAM SRAM

6 MPU ( : Z8) ( : i886/ ) ISA ISA SED1353FA SED1353F1A SED1353DA IOW# (MC68) IOR# (MC68) MEMW# (MC68) MEMR# (MC68) IOW# (MC68 ) IOR# (MC68 ) MEMW# (MC68 ) MEMR# (MC68 ) LCD LCD LCD / LCD - 16 / LCD : AUX[3] 3 = AUX[1] 2 = : AUX[3] 3 = 1 AUX[1] 2 = K SRAM K SRAM K SRAM K SRAM K SRAM

7 K SRAM K SRAM K SRAM QFP5-1-S QFP15-1-STD

8 LCD / I/O IOW# (MC68) IOR# (MC68) MEMW# (MC68) MEMR# (MC68) IOW# (MC68 ) IOR# (MC68 ) MEMW# (MC68 ) MEMR# (MC68 ) LCD - 4, 8 / LCD LCD / LCD - 16 / LCD / LCD ID SRAM SRAM : = : = : =

9 SED1353 Series Hardware Functional Specification LCD SED1353 AC DC SED V 5.5V 25MHz SED1353 SED1352 SED LCD SED1353 MC68 8/16 MPU K RAM 8 64K RAM S18A-A

10 EPSON CMOS : V SED1353FA: QFP5-1pin S2 SED1353F1A: QFP15-1pin STD SED1353DA: ( ): Max. 25MHz (2 ) 16 MC68 MPU ( : Max. 16MHz) 8 /16 MPU READY( WAIT#) 16 8 /16 SRAM : 128K : 64K 16 SRAM 1 128K : 64K 8 SRAM 2 64K : 32K 8 SRAM 2 4K : 8K 8 32K 8 SRAM 1 32K : 32K 8 SRAM 1 16K : 8K 8 SRAM 2 8K : 8K 8 SRAM 1 (BW) (1 / ) 4 16 (2 4 / ) (2 4 8 / ) (AUX[A] ) (AUX[D] ) : S18A-A-11-1

11 SED1353 Series Hardware Functional Specification ( ) / / LCD 4 (4) 8 (8) 8 ( 4 ) LCD 4 (4) 8 (8) 8 ( 4 ) 16 (8 ) 16 (8 ) 9.5 (58) 2 (AUX[1] 4 ) S18A-A

12 EPSON SED1353 SRAM LCD MC68 SED1353 A2~A23 FC~FC1 A14~A16 MEMCS# IOCS# A1~A19 A1~A19 AB1~AB19 D~D15 DB~DB15 DTACK# READY UDS# AB LDS# BHE# AS# IOR# R/W# IOW# MPU 1-4 S18A-A-11-1

13 SED1353 Series Hardware Functional Specification Z8 SED1353 MEMCS# MREQ# MI# A1~A15 IOCS# IORQ# A~A15 D~D7 WAIT# WR# RD# RESET# AB~AB15 DB~DB7 READY MEMW# MEMR# IOR# IOW# RESET ( : Z8) CLK READY RESET# RDY 8284A SED1353 CLK CLK READY RESET# S2# S1# S# A16~A19 BHE# AD~AD15 A16 S2# S1# S# DEN DT/R ALE MRDC# AMWC# IORC# AIOWC# M/IO# BHE# A~A16 STB D~D15 T OE ( : i886/ ) MEMR# MEMW# IOR# IOW# AB16~AB19 AB~AB15 BHE# MEMCS# IOCS# DB~DB15 RESET READY S18A-A

14 EPSON 8-Bit ISA Bus SED1353 REFRESH SA13~SA16 MEMCS# SMEMW# MEMW# SMEMR# MEMR# IOCHRDY READY SD~SD7 DB~DB7 SA~SA19 AB~AB19 AEN SA1~SA15 IOCS# IOW# IOW# IOR# IOR# RESET# SA(14)~SA9 RESET WS# ISA 16-Bit ISA Bus SED1353 REFRESH SA14~SA16 MEMCS# SMEMW# MEMW# SMEMR# MEMR# IOCHRDY READY SD~SD15 DB~DB15 SA~SA19 AB~AB19 AEN SA1~SA15 IOCS# IOW# IOW# IOR# IOR# SBHE# BHE# RESET# SA(14)~SA9 RESET IOCS16# LA17~LA23 MEMCS16# ISA 1-6 S18A-A-11-1

15 SED1353 Series Hardware Functional Specification IOR#, IOW#, IOCS#, MEMCS#, MEMR#, MEMW#, BHE#, AB[19:] READY DB[15:] LCDENB UD[3:], LD[3:], LP, YD, XSCL, WF (XSCL2) OSC1 OSC2 VWE# VOE# VA[15:], VD[15:] VSC#, VSC1# 3-6 MC68 MPU READY MPU VD2 SED LCD LCD LCD (RGB 1 ) 16 G( ) (48 ) VD1 VD12~VD4 IOCS# AB9~1 SED1353 VD15~VD13 MEMCS# AB19~17 SED1353 S18A-A

16 EPSON VD 8 16 MPU / (MCLK) (MCLK) 3 MCLK = fosc (fosc ) MCLK = fosc/2 MCLK = fosc/4 9.2 SRAM (57 ) = fosc (SRAM) 1-8 S18A-A-11-1

17 SED1353 Series Hardware Functional Specification S18A-A SED1353FA : : QFP5-1pin S XSCL2 WF INDEX SED1353FA DB7 VSS VDD DB8 DB9 DB1 DB11 DB12 DB13 DB14 DB15 AB AB1 AB2 AB3 AB4 AB5 AB6 AB7 AB8 AB9 AB1 AB11 AB12 AB13 AB14 AB15 AB16 AB17 AB18 WF/XSCL2* LP YD LD LD1 LD2 LD3 UD UD1 UD2 UD3 VCS1# VCS# VWE# VA15 VA14 VA13 VA12 VA11 VD15 VD14 VD13 VD12 VD11 VD1 VD9 VD8 VDD VSS VD7 VD6 VD5 VD4 VD3 VD2 VD1 VD VA1 VA9 VA8 VA7 VA6 VA5 VA4 VA3 VA2 VA1 VA RESET AB19 XSCL LCDENB VOE# IOCS# IOW# IOR# MEMCS# MEMW# MEMR# READY BHE# OSC1 OSC2 DB DB1 DB2 DB3 DB4 DB5 DB

18 EPSON 1-1 S18A-A SED1353F1A : : QFP15-1pin STD XSCL2 WF INDEX SED1353F1A DB8 DB9 DB1 DB11 DB12 DB13 DB14 DB15 AB AB1 AB2 AB3 AB4 AB5 AB6 AB7 AB8 AB9 AB1 AB11 AB12 AB13 AB14 AB15 AB16 YD LD LD1 LD2 LD3 UD UD1 UD2 UD3 VCS1# VCS# VWE# VA15 VA14 VA13 VA12 VA11 VD15 VD14 VD13 VD12 VD11 VD1 VD9 VD8 VDD VSS VD7 VD6 VD5 VD4 VD3 VD2 VD1 VD VA1 VA9 VA8 VA7 VA6 VA5 VA4 VA3 VA2 VA1 VA RESET AB19 AB18 AB17 LP WF/XSCL2* XSCL LCDENB VOE# IOCS# IOW# IOR# MEMCS# MEMW# MEMR# READY BHE# OSC1 OSC2 DB DB1 DB2 DB3 DB4 DB5 DB6 DB7 VSS VDD

19 SED1353 Series Hardware Functional Specification Dummy Pad VD7 VD6 VD5 VD4 VD3 VD2 VD1 VD VA1 VA9 VA8 VA7 VA6 VA5 VA4 VA3 VA2 VA1 VA RESET AB19 1 AB18 VSS VDD DB8 DB9 DB1 DB11 DB12 DB13 DB14 DB15 AB AB1 AB2 AB3 AB4 AB5 AB6 AB7 AB8 AB9 AB1 AB11 AB12 AB13 AB14 AB15 AB16 AB17 LP YD LD LD1 LD2 LD3 UD UD1 UD2 UD3 VCS1# VCS# VWE# VA15 VA14 VA13 VA12 VA11 VD15 VD14 VD13 VD12 VD11 VD1 VD9 VD8 VDD VSS WF/XSCL2* XSCL LCDENB VOE# IOCS# IOW# IOR# MEMCS# MEMW# MEMR# READY BHE# 11 SED1353DA 5 OSC1 OSC DB DB1 DB2 DB3 DB4 DB5 DB DB7 Dummy Pad = 5.3mm 5.3mm =.4mm =.9mm.9mm =.126mm (Min.) 4-3 SED1353DA : XSCL2 WF S18A-A

20 EPSON ( : mm) No. No. X Y X Y 1 VSS VDD VDD VD DB VD DB VD DB VD DB VD DB VD DB VD DB VD DB VA AB VA AB VA AB VA AB VA AB VWE# AB VCS# AB VCS1# AB UD AB UD AB UD AB UD AB LD AB LD AB LD AB LD AB YD AB LP AB WF/XSCL AB XSCL AB LCDENB RESET VOE# VA IOCS# VA IOW# VA IOR# VA MEMCS# VA MEMW# VA MEMR# VA READY VA BHE# VA OSC VA OSC VA DB VD DB VD DB VD DB VD DB VD DB VD DB VD DB VD Dummy Pad VSS Dummy Pad S18A-A-11-1

21 SED1353 Series Hardware Functional Specification : I = O = I/O = () P = COx = CMOS x ( 6-4 (18 ) ) COxS = CMOS x ( 6-4 (18) ) TSx =3 CMOS x ( 6-4 (18) ) TSxD2 = 3 CMOS (5V/3.V Typ. 1kΩ/2kΩ) x ( 6-4 (18) ) TTL = TTL TTLS = TTL FA No. DB~DB15 I/O 94~1, 1, 4~11 F1A No. 91~98, 1~8 DA No. 118~119, 121~125, 128, 4~ TS2 8 DB8~DB15 VDD AB I TTLS MC68 MPU MC68 (UDS#) MPU/ AB1~AB19 I 13~31 1~28 14~2, TTL 22~3, 32~33, 36 BHE# I TTLS MC68 MPU MC68 (LDS#) MPU/ 16 (BHE#) 8 VDD IOCS# I TTLS Low 16 1 IOW# I TTLS MC68 MPU MC68 R/W# ( High) ( Low) MPU/ Low IOR# I TTLS MC68 MPU MC68 AS# MPU/ Low MEMCS# I TTLS Low MEMW# I TTLS Low MC68 MPU VDD MEMR# I TTLS Low MC68 MPU VDD S18A-A

22 EPSON FA F1A DA No. No. No. READY O TS3 MC68 MPU MC68 DTACK# Low MPU/ Low READY (Hi-Z) RESET I TTLS High FA No. VD~VD15 I/O 44~51, 54~61 VA~VA15 O 33~43, 62~66 F1A No. 41~48, 51~58 3~4, 59~ DA No. 54~55, 57~61, 64, 68~75 38~4, 42~43, 45~46, 48~49, 51~52, 77~81 TS1D2 16 VD~VD7 VD8~VD15 RESET High RESET VD~VD15 ( 5-6(16 ) ) CO1 VCS1# O CO1 2 SRAM SRAM Low VCS# O CO1 1 SRAM SRAM Low VWE# O CO1 Low SRAM WE# VOE# O CO1 Low SRAM OE# UD3~UD LD3~LD FPDI-1 TM #1 UD3~UD LD3~LD LCD FA F1A DA No. No. No. O 7~73, 67~7, 86~89, CO3S 74~77 71~74 9~93 4 LD3~LD Low ( ) XSCL FPSHIFT O CO3 LCDX LP FPLINE O CO3 LCDX Y () 1-14 S18A-A-11-1

23 SED1353 Series Hardware Functional Specification WF/ XSCL2 FPDI-1 TM #1 MOD FPSHIFT2 5-3 LCD FA F1A DA No. No. No. O CO LCD BIAS AUX[5] 7~2 YD FPFRAME O CO3 LCD LP 1 Y () LCDENB O CO2 LCD On/Off 5-4 FA F1A DA No. No. No. OSC1 I OSC2 OSC2 O OSC1 5-5 FA F1A DA No. No. No. VDD P 3, 53 5, 1 3, 67 P VSS P 2, 52 49, 99 1, 65 P S18A-A

24 EPSON SED1353 SRAM VD[...15] RESET 5-6 / RESET : (1/) 1 VD 16 8 VD1 I/O I/O VD2 MC68 MPU READY(WAIT#) MPU / VD VD12~VD4 I/O [9:1] 9 I/O MPU 9~ I/O (IOCS# Low) I/O VD15~VD13 [3:1] 3 MPU 19~17 3 (MEMCS# Low) 3 128K 128K 128K A17 : RESET (17) : A I/O 3h ISA ( ) VD15~VD 5-7 I/O 8 ISA 16 ISA VD 1 1 VD1 1 1 VD2 VD3 VD12~VD xxx xxx VD15~VD x = don t care 1 = = 1-16 S18A-A-11-1

25 SED1353 Series Hardware Functional Specification 6-1 VDD -.3 ~ +6. V VIN -.3 ~ VDD +.5 V VOUT -.3 ~ VDD +.5 V TSTG -65 ~ 15 C TSOL / 26 C/ 1sec C 6-2 Min Typ Max VDD VSS = V /3.3/ V VIN VSS VDD V IOPR fosc = 6MHz 4.5/5./11 ma 256 TOPR C 6-3 Min Typ Max VIL VDD = 4.5V.8 V VDD = 3.V.4 VDD = 2.7V.3 VIH VDD = 5.5V 2. V VDD = 3.6V 1.3 VDD = 3.3V 1.2 VT+ VDD = 5.V 2.4 V VDD = 3.3V 1.4 VDD = 3.V 1.3 VT- VDD = 5.V.6 V VDD = 3.3V.5 VDD = 3.V.4 VH VDD = 5.V.1 V VDD = 3.3V.1 VDD = 3.V.1 IIZ -1 1 µa CIN f = 1MHz 12 pf VDD= V RPD VDD = 5.V kω VI = VDD VDD = 3.3V VI = VDD VDD = 3.V VI = VDD S18A-A

26 EPSON 6-4 Min Typ Max VOL (5.V).4 V Type 1 - TS1D2, CO1 Type 2 - TS2 Type 3 - TS3, CO3, CO3S VDD = Min IOL = 4mA IOL = 8mA IOL = 12mA VOL VDD = Min.3 V (3.3V) Type 1 - TS1D2, CO1 Type 2 - TS2 Type 3 - TS3, CO3, CO3S IOL = 2mA IOL = 4mA IOL = 6mA VOL VDD = Min.3 V (3.V) Type 1 - TS1D2, CO1 Type 2 - TS2 Type 3 - TS3, CO3, CO3S IOL = 1.8mA IOL = 3.5mA IOL = 5mA VOH VDD = Min VDD-.4 V (5.V) Type 1 - TS1D2, CO1 Type 2 - TS2 Type 3 - TS3, CO3, CO3S IOH = -4mA IOH = -8mA IOH = -12mA VOH VDD = Min VDD-.3 V (3.3V) Type 1 - TS1D2, CO1 Type 2 - TS2 Type 3 - TS3, CO3, CO3S IOH = -2mA IOH = -4mA IOH = -6mA VOH VDD = Min VDD-.3 V (3.V) Type 1 - TS1D2, CO1 Type 2 - TS2 Type 3 - TS3, CO3, CO3S IOH = -1.8mA IOH = -3.5mA IOH = -5mA IOZ -1 1 µa COUT f = 1MHz 12 pf VDD = V CBID f = 1MHz VDD = V 12 pf 1-18 S18A-A-11-1

27 SED1353 Series Hardware Functional Specification :VDD = 3.V ± 1% VDD = 3.3V ± 1% VDD = 5.V ± 1% TA = -4 C ~ 85 C t rise and tfall 5 nsec (1% ~ 9%) CL = 8pF( /MPU ) CL = 1pF(LCD ) CL = 2pF( ) : MPU 16MHz IOW# AB[9:1] IOCS# t2 AS# t1 t3 R/W# UDS#/LDS# t4 DTACK# DB[15:] Hi-Z Hi-Z t5 t7 t6 t8 Hi-Z Hi-Z 7-1 IOW# (MC68) 7-1 IOW# (MC68) 3V/3.3V 5V Min Max Min Max t1 AB[9:1] AS# 1 ns t2 AS# AB[9:1] 2 1 ns t3 AS# IOCS# ns t4 UDS#/LDS# AS# 3 2 ns t5 UDS#/LDS# DTACK# 4 25 ns t6 AS# DTACK# Hi-Z 4 25 ns t7 DB[15:] AS# 2 1 ns t8 AS# DB[15:] 2 1 ns S18A-A

28 EPSON IOR# AB[9:1] IOCS# t1 t2 AS# UDS#/LDS# R/W# DTACK# DB[15:] Hi-Z Hi-Z t3 t5 t4 t6 Hi-Z Hi-Z t7 MEMW# 7-2 IOR# (MC68) 7-2 IOR# (MC68) 3V/3.3V 5V Min Max Min Max t1 AB[9:1], IOCS# AS# 1 ns t2 AS# AB[9:1], IOCS# 2 1 ns t3 AS# DTACK# 4 25 ns t4 AS# DTACK# Hi-Z 4 25 ns t5 AS# DB[15:] 6 4 ns t6 AS# DB[15:] 2 15 ns t7 AS# DB[15:] Hi-Z ns AB[19:1] MEMCS# t1 t2 AS# UDS#/LDS# R/W# DTACK# DB[15:] Hi-Z Hi-Z t5 t3 t4 t6 Hi-Z Hi-Z 7-3 MEMW# (MC68) 7-3 MEMW# (MC68) 3V/3.3V 5V Min Max Min Max t1 AB[19:1], MEMCS# AS# ns t2 AS# AB[19:1], MEMCS# ns t3 AS# DTACK# ns MCLK + 2 MCLK + 1 t4 AS# DTACK Hi-Z 4 25 ns t5 AS# DB[15:] MCLK MCLK ns t6 AS# DB[15:] ns MCLK = 1/fOSC 2/fOSC 4/fOSC ( ) 1-2 S18A-A-11-1

29 SED1353 Series Hardware Functional Specification MEMR# AB[19:1] MEMCS# t1 t2 AS# UDS#/LDS# R/W# DTACK# DB[15:] Hi-Z Hi-Z t3 t5 t4 t6 Hi-Z Hi-Z t7 7-4 MEMR# (MC68) 7-4 MEMR# (MC68) 3V/3.3V 5V Min Max Min Max t1 AB[19:1], MEMCS# AS# ns t2 AS# AB[19:1], MEMCS# ns t3 AS# DTACK# ns MCLK + 2 MCLK + 1 t4 AS# DTACK# Hi-Z 4 15 ns t5 DTACK# DB[15:] 2 15 ns t6 AS# DB[15:] ns t7 AS# DB[15:] Hi-Z 4 3 ns MCLK = 1/fOSC 2/fOSC 4/fOSC ( ) S18A-A

30 EPSON IOW# AB[9:] BHE# IOCS# t1 t5 t2 IOW# DB[15:] Hi-Z t3 t4 Hi-Z IOR# 7-5 IOW# (MC68 ) 7-5 IOW# (MC68 ) 3V/3.3V 5V Min Max Min Max t1 AB[9:], BHE#, IOCS# IOW# 1 ns t2 IOW# AB[9:], BHE#, IOCS# 2 1 ns t3 DB[15:] IOW# 2 1 ns t4 IOW# DB[15:] 2 1 ns t5 IOW# 3 2 ns AB[9:] BHE# IOCS# t1 t2 IOR# DB[15:] Hi-Z t3 t4 t5 Hi-Z 7-6 IOR# (MC68 ) 7-6 IOR# (MC68 ) 3V/3.3V 5V Min Max Min Max t1 AB[9:], BHE#, IOCS# IOR# 1 ns t2 IOR# AB[9:], BHE#, IOCS# 2 1 ns t3 IOR# DB[15:] 6 4 ns t4 IOR# DB[15:] 2 15 ns t5 IOR# DB[15:] Hi-Z ns 1-22 S18A-A-11-1

31 SED1353 Series Hardware Functional Specification MEMW# AB[19:] BHE# MEMCS# t1 t2 MEMW# READY DB[15:] Hi-Z Hi-Z t3 t4 t6 t5 Hi-Z Hi-Z 7-7 MEMW# (MC68 ) 7-7 MEMW# (MC68 ) 3V/3.3V 5V Min Max Min Max t1 AB[19:], BHE#, MEMCS# MEMW# ns t2 MEMW# AB[19:], BHE#, MEMCS# ns t3 MEMW# READY 3 2 ns t4 MEMW# DB[15:] MCLK MCLK ns t5 MEMW# DB[15:] ns t6 READY 3.5 MCLK MCLK + 1 ns MCLK = 1/fOSC 2/fOSC 4/fOSC ( ) MEMR# AB[19:] BHE# MEMCS# t1 t2 MEMR# READY DB[15:] Hi-Z t3 t7 Hi-Z t4 Hi-Z t5 t6 Hi-Z 7-8 MEMR# (MC68 ) 7-8 MEMR# (MC68 ) 3V/3.3V 5V Min Max Min Max t1 AB[19:], BHE#, MEMCS# MEMR# ns t2 MEMR# AB[19:], BHE#, MEMCS# ns t3 MEMR# READY 3 2 ns t4 READY DB[15:] 15 1 ns t5 MEMR# DB[15:] 2 1 ns t6 MEMR# DB[15:] Hi-Z 3 2 ns t7 READY 3.5 MCLK MCLK + 1 ns MCLK = 1/fOSC 2/fOSC 4/fOSC ( ) S18A-A

32 EPSON tpwh tpwl VIH 9% VIL 1% tr tosc tf Min Typ Max tosc (CLKI) 4 ns tpwh High (CLKI) 4% 6% tosc tpwl Low (CLKI) 4% 6% tosc tf (1%~9%) 5 ns tr (1%~9%) 5 ns (57 ) RC RL = 2MΩ ± 5% CL = 6.8pF SED1353FA/F1A (SED1353DA) 92 (115) RL X1 CL SED1353FA/F1A (SED1353DA) 92 (115) OUT GND X1 VCC NC VCC 93 (116) CL 93 (116) S18A-A-11-1

33 SED1353 Series Hardware Functional Specification VA[15:] VCS#, VCS1# t1 VWE# t2 t4 t3 VOE# VD[15:] t5 t6 Hi-Z Hi-Z Hi-Z Hi-Z V/3.3V 5V Min Max Min Max t1 MCLK MCLK ns t2 VA[15:], VCS#, VCS1# VWE# ns t3 VWE# VA[15:], VCS#, VCS1# ns t4 VWE# MCLK MCLK ns t5 VD[15:] VWE# MCLK MCLK ns t6 VWE# VD[15:] ns MCLK = 1/fOSC 2/fOSC 4/fOSC ( ) VA[15:] VCS#, VCS1# t1 t2 t3 VD[15:] V/3.3V 5V Min Max Min Max t1 MCLK MCLK ns t2 VA[15:], VCS#, VCS1# MCLK MCLK ns t3 VD[15:] ns MCLK = 1/fOSC 2/fOSC 4/fOSC ( ) S18A-A

34 EPSON SED1353 t2 YD t3 t1 LP t4 WF SED1353 (AUX[1]5 = ) LP t8 t5 t6a t7a t9 t1 XSCL t11 t12 UD[3:] LD[3:] 1 2 SED1353 (AUX[1]5 = 1) LP t6b, t6c t13 t7b t9 t8 t1 XSCL t11 t12 UD[3:] LD[3:] LCD S18A-A-11-1

35 SED1353 Series Hardware Functional Specification 7-12 LCD - 4, 8 / 4 8 / Min Max Min Max t1 LP () HT + HNDP HT + HNDP ns t1 LP () n/a 2 (HT + ns HNDP) - 1 t2 LP YD (AUX[1] 5 = ) 8tOSC - 1 8tOSC - 1 ns t2 LP YD (AUX[1] 5 = 1) 13tOSC tOSC - 1 ns t3 LP (AUX[1] 5 = ) 6tOSC - 5 6tOSC - 5 ns t3 LP (AUX[1] 5 = 1) 5tOSC - 5 5tOSC - 5 ns t4 LP WF 2 2 ns t5 LP XSCL n/a 2tOSC - 5 ns (AUX[1] 5 = AUX[3] 2 = ) t6a XSCL LP 2tOSC - 5 4tOSC - 5 ns (AUX[1] 5 = AUX[3] 2 = ) t6a XSCL LP tosc - 5 2tOSC - 5 ns (AUX[1] 5 = AUX[3] 2 = 1) t6b XSCL LP - 13tOSC tOSC - 5 ns (AUX[1] 5 = 1 AUX[3] 2 = ) t6b XSCL LP - 12tOSC tOSC - 5 ns (AUX[1] 5 = 1 AUX[3] 2 = 1) t6c XSCL LP - n/a 31tOSC - 5 ns (AUX[1] 5 = 1 AUX[3] 2 = ) t6c XSCL LP - n/a 29tOSC - 5 ns (AUX[1] 5 = 1 AUX[3] 2 = 1) t7a LP XSCL 2tOSC - 5 4tOSC - 5 ns (AUX[1] 5 = AUX[3] 2 = ) t7a LP XSCL tosc - 5 2tOSC - 5 ns (AUX[1] 5 = AUX[3] 2 = 1) t7b LP XSCL 7tOSC - 5 9tOSC - 5 ns (AUX[1] 5 = 1 AUX[3] 2 = ) t7b LP XSCL 6tOSC - 5 7tOSC - 5 ns (AUX[1] 5 = 1 AUX[3] 2 = 1) t8 XSCL (AUX[3] 2 = ) 4tOSC - 5 8tOSC - 5 ns t8 XSCL (AUX[3] 2 = 1) 2tOSC - 5 4tOSC - 5 ns t9 XSCL High (AUX[3] 2 = ) 2tOSC - 5 4tOSC - 5 ns t9 XSCL High (AUX[3] 2 = 1) tosc - 5 2tOSC - 5 ns t1 XSCL Low (AUX[3] 2 = ) 2tOSC - 1 4tOSC - 1 ns t1 XSCL Low (AUX[3] 2 = 1) tosc - 1 2tOSC - 1 ns t11 UD[3:], LD[3:] XSCL 2tOSC - 1** 4tOSC - 1** ns (AUX[3] 2 = ) t11 UD[3:], LD[3:] XSCL tosc - 1** 2tOSC - 1** ns (AUX[3] 2 = 1) t12 XSCL UD[3:], LD[3:] 2tOSC - 1 4tOSC - 1 ns (AUX[3] 2 = ) t12 XSCL UD[3:], LD[3:] tosc - 1 2tOSC - 1 ns (AUX[3] 2 = 1) t13 LP XSCL (AUX[1] 5 = 1) 5tOSC - 5 5tOSC - 5 ns tosc = 1/fOSC = ( ) HT = ( ) tosc HNDP = tosc ( 9.3 (57 ) ) **: 5V -1ns, 3.V 3.3V -24ns S18A-A

36 EPSON t2 YD t3 t1 LP t4 WF LP XSCL t5 t7 t6 t13 t9 t8 t1 t11 t12 UD LCD LCD - 4 Min Typ Max t1 LP HT + HNDP - 1 ns t2 LP YD 13tOSC - 1 ns t3 LP 5tOSC - 5 ns t4 LP WF 2 ns t5 LP XSCL 19tOSC - 5 ns t6 XSCL LP 2tOSC - 5 ns t7 LP XSCL 14tOSC - 5 ns t8 XSCL tosc - 5 ns t9 XSCL High.5tOSC - 5 ns t1 XSCL Low.5tOSC - 5 ns t11 UD XSCL.5tOSC - 1** ns t12 XSCL UD.5tOSC - 1 ns t13 LP XSCL 13.5tOSC - 1 ns tosc = 1/fOSC = ( ) HT = ( ) tosc HNDP = tosc ( 9.3 (57 ) ) **: 5V t 11, 3.V 3.3V t 11 =.5tOSC S18A-A-11-1

37 SED1353 Series Hardware Functional Specification t2 YD t3 t1 LP t4 WF LP XSCL t5 t7 t6 t13 t9 t8 t1 t11 t12 UD/LD LCD / LCD / 8 Min Typ Max t1 LP () HT + HNDP - 1 ns t1 LP () 2(HT + HNDP) - 1 ns t2 LP YD 13tOSC - 1 ns t3 LP 5tOSC - 5 ns t4 LP WF 2 ns t5 LP XSCL 19.5tOSC - 5 ns t6 XSCL LP 2tOSC - 5 ns () t6 XSCL LP 52tOSC - 5 ns () t7 LP XSCL 14.5tOSC - 5 ns t8 XSCL 2.5tOSC - 5 ns t9 XSCL High tosc - 5 ns t1 XSCL Low 1.5tOSC - 5 ns t11 UD/LD XSCL 1.5tOSC - 1** ns t12 XSCL UD/LD tosc - 5 ns t13 LP XSCL 13.5tOSC - 1 ns tosc = 1/fOSC = ( ) HT = ( ) tosc HNDP = tosc ( 9.3 (57 ) ) **: 5V t 11, 3.V 3.3V t 11 = 1.5tOSC - 24 S18A-A

38 EPSON t2 YD t3 t1 LP t4 WF LP XSCL t5 t7 t6 t13 t9 t8 t1 t11 t12 t14 t15 UD/LD LCD - 16 / 7-15 LCD - 16 / Min Typ Max t1 LP () HT + HNDP - 1 ns t1 LP () 2(HT + HNDP) - 1 ns t2 LP YD 13tOSC - 1 ns t3 LP 5tOSC - 5 ns t4 LP WF 2 ns t5 LP XSCL 22tOSC - 5 ns t6 XSCL LP 2tOSC - 5 ns () t6 XSCL LP 52tOSC - 5 ns () t7 LP XSCL 17tOSC - 5 ns t8 XSCL 5tOSC - 5 ns t9 XSCL High 2tOSC - 5 ns t1 XSCL Low 3tOSC - 1 ns t11 UD/LD XSCL 1.5tOSC - 1** ns t12 XSCL UD/LD tosc - 5 ns t13 LP XSCL 15tOSC - 1 ns t14 UD/LD XSCL 1.5tOSC - 1 ns t15 XSCL UD/LD.5tOSC - 5 ns tosc = 1/fOSC = ( ) HT = ( ) tosc HNDP = tosc ( 9.3 (57 ) ) **: 5V t 11, 3.V 3.3V t 11 = 1.5tOSC S18A-A-11-1

39 SED1353 Series Hardware Functional Specification t2 YD t3 t1 LP LP XSCL2 (WF) t7b t14b t6b t8b t6a t8a t7a t14a t11a t1a t11b t9b t1b t9a XSCL t12b t13b t12a t13a UD/LD LCD LCD Min Typ Max t1 LP HT + HNDP - 1 ns t2 LP YD 13tOSC - 1 ns t3 LP 5tOSC - 5 ns t6a LP XSCL 22tOSC - 5 ns t6b LP XSCL2 19.5tOSC - 5 ns t7a XSCL LP 2tOSC - 5 ns t7b XSCL2 LP 23.5tOSC - 5 ns t8a LP XSCL 17tOSC - 5 ns t8b LP XSCL2 14.5tOSC - 5 ns t9a XSCL 4tOSC - 5 ns t9b XSCL2 4tOSC - 5 ns t1a XSCL High tosc - 5 ns t1b XSCL2 High tosc - 5 ns t11a XSCL Low 3tOSC - 1 ns t11b XSCL2 Low 3tOSC - 1 ns t12a UD/LD XSCL 1.5tOSC - 1** ns t12b UD/LD XSCL2 1.5tOSC - 1** ns t13a XSCL UD/LD tosc - 5 ns t13b XSCL2 UD/LD tosc - 5 ns t14a LP XSCL 16tOSC - 1 ns t14b LP XSCL2 13.5tOSC - 1 ns tosc = 1/fOSC = ( ) HT = ( ) tosc HNDP = tosc ( 9.3 (57 ) ) **: 5V t 12, 3.V 3.3V t 12 = 1.5tOSC - 24 S18A-A

40 EPSON LP: 24 LP: 4 YD LP WF UD[3:] LINE1 LINE2 LINE3 LINE LINE239 LINE24 LINE1 LINE2 LP WF XSCL UD3 UD2 UD1 UD XSCL: LP: 48 LP: 4 YD LP WF UD[3:], LD[3:] LINE1 LINE2 LINE3 LINE LINE479 LINE48 LINE1 LINE2 LP WF XSCL UD3 UD2 UD1 UD LD3 LD2 LD1 LD XSCL: S18A-A-11-1

41 SED1353 Series Hardware Functional Specification LP: 24 LP: 2 YD LP WF UD[3:] LD[3:] LINE1 LINE2 LINE3 LINE LINE239 LINE24 LINE1 LINE2 LINE241 LINE242 LINE243 LINE LINE479 LINE48 LINE241 LINE242 LP WF XSCL UD3 UD2 UD1 UD LD3 LD2 LD1 LD XSCL: LP: 24 LP: 4 YD LP WF UD[3:] LINE1 LINE2 LINE3 LINE LINE239 LINE24 LINE1 LINE2 LP WF XSCL UD3 UD2 UD1 UD XSCL: 24 1-R1 1-G2 1-B B319 1-G1 1-B2 1-R R32 1-B1 1-R3 1-G G32 1-R2 1-G3 1-B B S18A-A

42 EPSON LP: 48 LP: 4 YD LP WF UD[3:], LD[3:] LINE1 LINE2 LINE3 LINE LINE479 LINE484 LINE1 LINE2 LP XSCL2: 12 XSCL2 XSCL: 12 XSCL UD3 UD2 UD1 UD LD3 LD2 LD1 1-R1 1-G1 1-G6 1-B6 1-B11 1-R B635 1-R636 1-B1 1-R2 1-R7 1-G7 1-G12 1-B G636 1-B636 1-G2 1-B2 1-B7 1-R8 1-R13 1-G R637 1-G637 1-R3 1-G3 1-G8 1-B8 1-B13 1-R B637 1-R638 1-B3 1-R4 1-R9 1-G9 1-G14 1-B G638 1-B638 1-G4 1-B4 1-B9 1-R1 1-R15 1-G R639 1-G639 1-R5 1-G5 1-G1 1-B1 1-B15 1-R B639 1-R64 LD 1-B5 1-R6 1-R11 1-G11 1-G16 1-B G64 1-B : AUX[3] 3 = AUX[1] 2 = S18A-A-11-1

43 SED1353 Series Hardware Functional Specification LP: 24 LP: 4 YD LP WF UD[3:], LD[3:] LINE1 LINE2 LINE3 LINE LINE239 LINE24 LINE1 LINE2 LP WF XSCL: 12 XSCL UD3 UD2 UD1 UD LD3 LD2 LD1 LD 1-R1 1-B3 1-G G318 1-G1 1-R4 1-B B318 1-B1 1-G4 1-R R319 1-R2 1-B4 1-G G319 1-G2 1-R5 1-B B319 1-B2 1-G5 1-R R32 1-R3 1-B5 1-G G32 1-G3 1-R6 1-B B : AUX[3] 3 = 1 AUX[1] 2 = 1 S18A-A

44 EPSON LP: 24 LP: 2 YD LP WF UD[3:] LD[3:] LINE1 LINE2 LINE3 LINE LINE239 LINE24 LINE1 LINE2 LINE241 LINE242 LINE243 LINE LINE479 LINE48 LINE241 LINE242 LP WF XSCL UD3 UD2 UD1 UD LD3 LD2 LD1 LD XSCL: 48 1-R1 1-G2 1-B R637 1-G638 1-B639 1-G1 1-B2 1-R G637 1-B638 1-R64 1-B1 1-R3 1-G B637 1-R639 1-G64 1-R2 1-G3 1-B4 241-R1 241-G2 241-B3 241-G1 241-B2 241-R4 241-B1 241-R3 241-G4 241-R2 241-G3 241-B R638 1-G639 1-B R G B G B R B R G R G B UD[3:] LD[3:] D Q UD[3:] LD[3:] UD[7:4] LD[7:4] 16 SED1353 XSCL CK S18A-A-11-1

45 SED1353 Series Hardware Functional Specification LP: 48 LP: 4 YD LP WF Pixel Data LINE1 LINE2 LINE3 LINE LINE479 LINE48 LINE1 LINE2 LP SED1353 WF XSCL UD3 UD2 UD1 UD XSCL: 12 1-R1 1-B B635 1-G638 1-B1 1-G G636 1-R639 1-G2 1-R R637 1-B639 1-R3 1-B B637 1-G64 LD3 LD2 LD1 LD UD7 UD6 UD5 UD4 UD3 1-G1 1-R R636 1-B638 1-R2 1-B B636 1-G639 1-B2 1-G G637 1-R64 1-G3 1-R R638 1-B64 1-R B635 1-B G636 1-G R637 1-R B637 1-B G UD2 UD1 UD LD7 LD6 LD5 LD4 1-G R639 1-R B639 1-B G64 1-G R636 1-R B636 1-B G637 1-G R638 LD3 LD2 LD1 LD 1-R B638 1-B G639 1-G R64 1-R B S18A-A

46 EPSON LP: 24 LP: 2 YD LP WF Pixel Data LINE1/241 LINE2/242 LINE3/243 LINE4/ LINE239/479 LINE24/48 LINE1/241 LINE2/242 LP SED1353 WF XSCL UD3 UD2 UD1 UD XSCL: 24 1-R1 1-G2 1-B G638 1-B639 1-G1 1-B2 1-R B638 1-R64 1-B1 1-R3 1-G R639 1-G64 1-R2 1-G3 1-B G639 1-B64 LD3 LD2 LD1 LD UD7 UD6 UD5 UD4 UD3 241-R1 241-G2 241-B G B G1 241-B2 241-R B R B1 241-R3 241-G R G R2 241-G3 241-B G B64 1-R G638 1-G B638 1-B R639 1-R G639 1-G B UD2 UD1 UD LD7 LD6 LD5 LD4 1-B R64 1-R G64 1-G B R G G B B R R G639 LD3 LD2 LD1 LD 241-G B B R R G G B S18A-A-11-1

47 SED1353 Series Hardware Functional Specification SED I/O 1. I/O VD VD7~ VD12 ( 5-6 ) I/O 16 I/O VD7~VD12 AB[9:4] I/O = I/O + AB[3:] I/O : IOW# =, = { I/O }, = { } : IOR# =, = { I/O } 2. SED I/O VD1 VD4~VD12 ( ) I/O 2 I/O VD4~VD12 AB[9:1] = [3:] = [15:8] / I/O 8 1. IOW# =, = {I/O }, = {} 2. IOW# =, = {I/O + 1}, = {} 1. IOW# =, = {I/O }, = {} 2. IOR# =, = {I/O + 1} 16 IOW# =, = {I/O }, = {, } 1. IOW# =, = {I/O }, = { } 2. IOR# =, = {I/O + 1} S18A-A

48 EPSON AUX[] I/O = b, R/W ( ) ( 6:) 6 ( ) 5~ /[2:] ( 7 = 1) ( 7, 6 = ) / AUX[1] I/O = 1b, R/W DISP PANEL XSCL LCDE / LCD RAMS 7 DISP ( ON/OFF ) ON/OFF OFF( LD~3 UD~3 ) 1 ON 6 PANEL () LCD ( ) LCD 1 LCD 5 XSCL 1 AUX[C] h XSCL AUX[C] h XSCL 4 LCDE (LCD) LCDENB low 1 high LCDENB LCD 3 / (4/ ) 16 4 (2/ ) (4/ ) (2/ ) (BW) 256 (AUX[3] 2 = 1) 1-4 S18A-A-11-1

49 SED1353 Series Hardware Functional Specification 8-1 / / AUX[1] 3 /256 AUX[3] 2 AUX[3] LCD LCD 1(AUX[3] 3) 2 LCD LCD 1 AUX[3] LCD LCD AUX[1] 2 4 LCD 1 8 LCD 4 LCD 1 8 LCD LCD () LCD ( VD 1) 256 (AUX[3] 2~1 = 11) (16 ) RAMS (RAM) 8 8K 8 SRAM 1 32K 8 SRAM 16 AUX[2] (LSB) I/O = 1b, R/W ~ [7:] 8(AUX[3] ) (1 ) = : (4 / ) 4 (1 ) = = S18A-A

50 EPSON (BW) FFh = / 4 FFh = /16 1FFh = (BW) FFh = /4 FFh = /16 FFh = FFh = 124 AUX[3] 1 I/O = 11b, R/W PS PS 1 7~6 PS [1:] ( ) PS [1:] 8-5 PS1 PS ( ) 5 (52) LCD LCD LCD Low 1 (Hi-Z) 4 LUT 1 3 LCD 1 LCD (AUX[1] 2) 8-2 LCD (41) 2 /256 / (AUX[1] 3 ) / (41) 1 LCD LUT LCD 1 BW/ / 8-1 / (41 ) 1-42 S18A-A-11-1

51 SED1353 Series Hardware Functional Specification (AUX[2] ) AUX[4] (LSB) ( ) I/O = 1b, R/W ~ [7:] FFh AUX[5] AUX[5] (LSB) WF I/O = 11b, R/W WF 5 WF 4 WF 3 WF 2 WF 1 WF 9 8 7~2 WF [5:] WF WF LP -1 2 WF n(1h~3fh) 1+nLP WF 8 1 1~ [9:8] 2 (AUX[4] ) S18A-A

52 EPSON AUX[6] 1 (LSB) I/O = 11b, R/W AUX[7] 1 (MSB) I/O = 111b, R/W AUX[6] 7~, AUX[7] 7~ 1 [15:] ( ) LSB 16 ( ) : VD13~VD15 ( 5-6 / (16 ) ) 1 ( ) ( 1 2) 1 AUX[8] 2 (LSB) I/O = 1b, R/W AUX[9] 2 (MSB) I/O = 11b, R/W AUX[8] 7~, AUX[9] 7~ 2 [15:] ( ) LSB 16 ( ) = ( ) ( ) ( 1 ) ( 1 2) AUX[A] AUX[B] AUX[C] 1-44 S18A-A-11-1

53 SED1353 Series Hardware Functional Specification AUX[A] 1 (LSB) I/O = 11b, R/W AUX[B] 1 (MSB) I/O = 111b, R/W n/a n/a n/a n/a n/a n/a AUX[A] 7~, AUX[B] 1~ 1 [9:] ( ) AUX[A] AUX[B] 2h 33 (2h + 1) 1 (AUX[6] AUX[7]) 27 (24-33) 2 (AUX[8] AUX[9]) AUX[C] I/O = 11b, R/W ~ [7:] ( (57) ) (DHNDP) DHNDP AUX[C]+1 AUX[C] ( /1 ) AUX[2] 9.3 (57) 16 4 (2/ ) 32 AUX[C] [32/(16/2)]-1 = 3 AUX[C] 1 S18A-A

54 EPSON AUX[D] I/O = 111b, R/W ~ [7:] 128K AUX[6] [7] AUX[8] [9] 8 ( + AUX[D]) 1 LCD ( + 1) AUX[6] [7] AUX[8] [9] 16 2 ( + AUX[D]) 1 LCD 2 ( + 1) AUX[6] [7] AUX[8] [9] AUX[E] I/O = 111b, R/W G G 1 ID / RGB 1 ID / RGB SED ( ) 3 (RGB ) 4 / (BW) 3 16 / (48) 7~6 G( ) [1:] 4 /4 (2/ ) 16 G( ) G 1 16 /16 (4/ ) 256 (8/ ) 16 G 2 8 G 5~4 ID /RGB [1:] 2 ID : SED1353 SED1352 R/W ID 1-46 S18A-A-11-1

55 SED1353 Series Hardware Functional Specification 8-6 ID Aux[E] 5 4 SED SED1352FB/F1B/DB 1 SED1352FA/F1A/DA 1 1 RGB [1:]: 3 (RGB) 8-7 Aux[E] 5 4 ( ) 1 R( ) R/W 1 G( ) R/W 1 1 B( ) R/W : / R( ) AUX[F] / RGB AUX[E] RGB R RGB 3~ [3:] 4 CPU 16 : (1/2/4 ) CPU R/W 16 AUX[F] I/O = 1111b, R/W R 1 R B 1 B ~6 R( ) [1:] 4 16 R( ) R R 2 8 R 16 5~4 B( ) [1:] B( ) B ~ [3:] 4 / [3:] RGB [1:]( ) 4 ( ) 16 1b(4 / ) 1 4 S18A-A

56 EPSON R( ) G( ) B( ) [1:] AUX[E][7:6] 4 : CPU R/W (P3, P2, P1, P) MSB LSB : C D E F S18A-A-11-1

57 SED1353 Series Hardware Functional Specification S18A-A R 2 [1:] AUX[F][7:6] G [1:] AUX[E][7:6] B [1:] AUX[F][5:4]

58 EPSON C D E F R G C D E F B C D E F 1-5 S18A-A-11-1

59 SED1353 Series Hardware Functional Specification S18A-A [1:] AUX[F] [1:] AUX[E] [1:] AUX[F][5:4] R2 6 R1 5 R 4 G2 3 G1 2 G 1 B1 B

60 EPSON SED (AUX[3] 7:6) SED ( ) SED I/O / / LCD Low(AUX[3] 5 = ) (AUX[3] 5 = 1) 2 1 MPU ( /) / SED1353 MPU () I/O / / MPU LCD Low(AUX[3] 5 = ) (AUX[3] 5 = 1) 8-1 (PSM) PSM1 1 2 PSM2 ON Off Off Off I/O 1-52 S18A-A-11-1

61 SED1353 Series Hardware Functional Specification UD[3:], LD[3:], LP, XSCL, YD, WF/XSCL2 ( 1) UD[3:], LD[3:], LP, XSCL, YD, WF/XSCL2 ( 2) : 1. AUX[3] 5 = 1 2. AUX[3] 5 = 8-11 (PSM) PSM1 1 2 PSM2 Low Low Low AB[19:], DB[15:] IOR#, IOW# MEMR#, MEMW# RESET S18A-A

62 EPSON VD~7 VWE# SED1353 WE# 8K 8 CS# VCS# VCS1# VA~12 n/c K SRAM (AUX[1] = ) VD~7 VWE# SED1353 VCS# VCS1# VA~12 WE# 8K 8 CS# WE# 8K 8 CS# K SRAM (AUX[1] = ) VD~7 VWE# SED1353 WE# 32K 8 CS# VCS# VCS1# VA~14 n/c K SRAM (AUX[1] = 1) 1-54 S18A-A-11-1

63 SED1353 Series Hardware Functional Specification VD~7 VWE# SED1353 VCS# VCS1# VA~14 WE# 8K/32K 8 CS# WE# 32K/8K 8 CS# K SRAM (8K K 8: AUX[1] = 32K 8 + 8K 8: AUX[1] = 1) VD~7 VWE# SED1353 VCS# VCS1# VA~14 WE# 32K 8 CS# WE# 32K 8 CS# K SRAM (AUX[1] = 1) VD~7 VWE# SED1353 WE# 8K 8 CS# VCS# VA~12 VCS1# CS# 8K 8 WE# VD8~ K SRAM S18A-A

64 EPSON VD~7 VWE# SED1353 WE# 32K 8 CS# VCS# VA~14 VCS1# CS# 32K 8 WE# VD8~ K SRAM VWE# WE# SED K 16 VCS# VCS1# VA~15 VD~7 VD8~15 LB# UB# A~15 I/O 1~8 I/O 9~ K SRAM 1-56 S18A-A-11-1

65 SED1353 Series Hardware Functional Specification SRAM 3V/3.3V 5V 16 /16 1 / fosc - 4ns 1 / fosc - 25ns 4 / 4 2 / fosc - 4ns 2 / fosc - 25ns (BW) 2 / fosc - 4ns 2 / fosc - 25ns SRAM 3V/3.3V 5V / fosc - 4ns 1 / fosc - 25ns 16 /16 2 / fosc - 4ns 2 / fosc - 25ns 4 /4 4 / fosc - 4ns 4 / fosc - 25ns (BW) 4 / fosc - 4ns 4 / fosc - 25ns (BW) 2 fosc = ( + PHNDP + DHNDP) ( + 4) fosc = ( + PHNDP + DHNDP) ( + 4) (BW) 2 fosc = ( + PHNDP + DHNDP) fosc = ( + PHNDP + DHNDP) DHNDP DHNDP = 16 () DHNDP = 32 ( ) PHNDP PHNDP = (AUX[C] = ) PHNDP = ( ) ( ) (AUX[C] ) ( ) S18A-A

66 EPSON ( ) ( ) ( ) ( 1 ) = : 64 48, 4 (2 / ) ( ) ( 64) ( 48) ( 2) = = 768 = 75K ( ) (fosc) SRAM 9-3~9-5 (BW) (1 / ) 9-3 : = 64 = 64 4 /4 (2 / ) 16 /16 (4 / ) 256 (8 / ) AUX[C] = AUX[2] AUX[C] = AUX[C] = AUX[C] = 8-bit 16-bit 8-bit 16-bit 8-bit 16-bit 8-bit 16-bit 8-bit 16-bit 8-bit 16-bit (KB) V/ 5V 3.3V 4 ns 125 ns 6 ns 16 ns 85 ns 21 ns 125 ns 29 ns 125 ns 29 ns 16 ns 36 ns 55 ns 14 ns 75 ns 175 ns 1 ns 225 ns 14 ns 35 ns 14 ns 35 ns 175 ns 375 ns (KB) 75 3V/ 3.3V (2) 125 ns ns 16 ns ns 21 ns 125 ns 29 ns ns 29 ns ns 36 ns 5V (2) 14 ns (KB) 3V/ 3.3V 5V (KB) 3V/ 3.3V 5V (fosc) / 15 (1) (1) 3 (1) (1) 24 MHz 76 Hz 74 Hz 75 ns 175 ns 125 (2) 6 ns 1 ns 225 ns 1 (2) 85 ns 14 ns 35 ns 14 ns 35 ns 175 ns 375 ns 8 75 (2) 125 ns (2) 125 ns ns 16 ns (2) 75 ns (2) 1 ns (2) 14 ns (2) 14 ns 75 ns 175 ns 25 (1) (1) 2 MHz 75 Hz 74 Hz 2 (1) (1) 16 MHz 75 Hz 73 Hz 16 (1) (1) 12 MHz 7 Hz 69 Hz 15 (1) (1) 12 MHz 75 Hz 73 Hz 125 (2)(3) 6 ns (2)(3) 75 ns 1 MHz 75 Hz 73 Hz (1) SED KB (2) 64KB 16 (3) KB = K = S18A-A-11-1

67 SED1353 Series Hardware Functional Specification (BW) (1 / ) 9-4 : = 48 = 48 4 /4 (2 / ) 16 /16 (4 / ) 256 (8 / ) AUX[C] = AUX[2] AUX[C] = AUX[C] = AUX[C] = 8-bit 16-bit 8-bit 16-bit 8-bit 16-bit 8-bit 16-bit 8-bit 16-bit 8-bit 16-bit (KB) V/ 5V 3.3V 7 ns 18 ns 1 ns 24 ns 125 ns 29 ns 16 ns 36 ns 21 ns 46 ns 21 ns 46 ns 85 ns 195 ns 115 ns 255 ns (KB) V/ 3.3V 7 ns 18 ns 1 ns 24 ns 14 ns 125 ns ns 29 ns 175 ns 375 ns 225 ns 475 ns ns 36 ns 21 ns 46 ns 225 ns 21 ns ns 46 ns 5V (KB) 3V/ 3.3V 85 ns 195 ns 113 (2) 7 ns 115 ns 255 ns 14 ns 35 ns 175 ns 375 ns 225 ns 475 ns 225 ns 475 ns (2) 1 ns (2) 125 ns 6 ns 16 ns 85 ns 21 ns 85 ns 21 ns 5V (2) 85 ns (2) 115 ns (2) 14 ns 75 ns 175 ns 1 ns 225 ns 1 ns 225 ns (KB) 3V/ 3.3V 5V (fosc) / 225 (1) (1) 18 MHz 75 Hz 73 Hz 188 (1) (1) 14 MHz 7 Hz 68 Hz 15 (1) (1) 12 MHz 75 Hz 72 Hz 12 (2)(3) 6 ns 113 (2)(3) 85 ns 94 (2)(3) 85 ns (2)(3) 75 ns (2)(3) 1 ns (2)(3) 1 ns 1 MHz 77 Hz 75 Hz 8 MHz 66 Hz 64 Hz 8 MHz 79 Hz 77 Hz (BW) (1 / ) 9-5 : = 32 4 /4 (2 / ) = /16 (4 / ) 256 (8 / ) AUX[C] = AUX[2] AUX[C] = AUX[C] = AUX[C] = (KB) 8-bit 16-bit 8-bit 16-bit 8-bit 16-bit 8-bit 16-bit 8-bit 16-bit 8-bit 16-bit V/ 5V 3.3V 125 ns 29 ns 16 ns 36 ns 21 ns 46 ns 29 ns 625 ns 29 ns 625 ns 36 ns 76 ns (KB) 3V/ 3.3V 14 ns 125 ns ns 29 ns 175 ns 375 ns 225 ns 475 ns 35 ns 64 ns 35 ns 64 ns 375 ns 775 ns ns 36 ns 21 ns 46 ns 29 ns 625 ns 29 ns 625 ns 36 ns 76 ns 5V 14 ns 35 ns (1) SED KB (2) 64KB 16 (3) KB = K = 124 (KB) 75 3V/ 3.3V (2) 125 ns 175 ns 6 ns ns 16 ns 225 ns 475 ns 35 ns 64 ns ns 21 ns 125 ns 29 ns 35 ns 125 ns ns 29 ns 375 ns 775 ns ns 36 ns 5V (2) 14 ns 75 ns 175 ns 1 ns 225 ns 14 ns 35 ns 14 ns 35 ns (KB) 3V/ 3.3V 5V (fosc) / 15 (1) (1) 12 MHz 74 Hz 7 Hz 125 (2)(3) 6 ns 1 (2)(3) 85 ns 8 75 (2)(3) 125 ns (2)(3) 125 ns 175 ns (2)(3) ns 16 ns (2)(3) 75 ns (2)(3) 1 ns (2)(3) 14 ns (2)(3) 14 ns (2)(3) 175 ns 1 MHz 74 Hz 7 Hz 8 MHz 73 Hz 7 Hz 6 MHz 69 Hz 66 Hz 6 MHz 73 Hz 7 Hz 5 MHz 73 Hz 7 Hz S18A-A

68 EPSON 23.2 ±.4 2 ± INDEX 14 ± ± max 2.7 ± ±.5.8 ± QFP5-1-S2 ( : mm) 1-6 S18A-A-11-1

69 SED1353 Series Hardware Functional Specification 16 ±.4 14 ± ±.1 16 ±.4 INDEX max 1.4 ± ± QFP15-1-STD ( : mm) S18A-A

70 SED1353 Series Dot Matrix Graphic LCD Controller Programmer s Reference

71 PROGRAMMER S REFERENCE SED / ( ) (4 /4 ) (16 /16 ) (256 ) (LUT) LUT / (1 / ) (2 / ) (2 / ) (4 / ) (4 / ) (8 / ) SDU1353BC LCD LCD LCD SED

72 7 SED SED

73 ( ) (4 /4 ) (16 /16 ) (256 ) : LCD, 4 / : LCD, : 64 2 LCD, 16 / TEXT TEXT DEMO.EXE ID ( ) ( ) ( ) ( ) VGA ( 16 ) LUT ID

74 SED1353 Programming Notes and Examples SDU1353BC SED1353 LCD LCD C 886 S18A-G

75 EPSON SED SED (45) SED1353 Hardware Functional Specification SDU1353BC Evaluation Board User s Manual EXAMPLE 1 128K LCD 1 1. SED1353 AUX AUX[h] AUX[1h] (2 ) = OFF (; OFF ON ) 6 = () 5 = XSCL () 4 = LCDE = LCDENB = LCDBIAS OFF (SDU1353BC LCDBIAS OFF) (; LCDBIAS OFF ON ) 3 = 256 () 2 = 4 LCD AUX[3] 3 () 1 = 16 () = RAMS () AUX[2h] ~ = 7~ 8 AUX[3h] AUX[3h] 11 7~6 = ( - b ) 5 = LCD Low ( ) 4 = LUT () 3 = 4 LCD AUX[1] 2 () 2 = 256 () 1 = () = 8( ; AUX[2h] ) AUX[4h] ~ = 7~ 9~8 AUX[5h] 1~ AUX[5h] 7~2: = WF () 1~ = 9~8 (; AUX[4h] ) A 5.6 (39 ) B C 2-2 S18A-G-2-2

76 SED1353 Programming Notes and Examples AUX AUX[6h] AUX[7h] AUX[8h] AUX[9h] (2 ) 1 15~ - 1 = h ( ) AUX[6h] 7~ AUX[7h] 15~8 h 1 SDU1353BC D:h 2 15~ - 2 = h ( ) AUX[8h] 7~ AUX[9h] 15~8 h 2 SDU1353BC D:h AUX[Ah] ~ = 1 7~ 1 9~8 AUX[Bh] 1~ 1 (AUX[Ah] = AUX[4h], [Bh] 1~ = AUX[5h] 1~) AUX[Bh] 7~2 = don t care; 1~ = 1 9~8 (; AUX[Ah] ) AUX[Ch] h () 7~ = AUX[Dh] h ( ) 7~ = AUX[Eh] 7~6 = G () 5~4 = R/W () 3~ = () AUX[Fh] R( ) 7~6 = R () 5~4 = B () 3~ = () AUX[Fh] G( ) AUX[Fh] B( ) AUX[Eh] 1 AUX[Fh] 1 R( ) AUX[Fh] 1 G( ) AUX[Fh] 11 B( ) AUX[Eh] 1 AUX[Fh] 1 R( ) AUX[Fh] 1 G( ) AUX[Fh] 11 B( ) AUX[Eh] 11 AUX[Fh] 11 R( ) AUX[Fh] 11 G( ) AUX[Fh] 1111 B( ) AUX[Eh] 1 AUX[Fh] 11 R( ) AUX[Fh] 11 G( ) AUX[Fh] 1111 B( ) AUX[Eh] 11 AUX[Fh] 111 R( ) AUX[Fh] 111 G( ) AUX[Fh] 11 B( ) AUX[Eh] 11 AUX[Fh] 111 R( ) AUX[Fh] 111 G( ) AUX[Fh] 11 B( ) AUX[Eh] 111 AUX[Fh] 1111 R( ) SDU1353BC (24) 4.1 (22) SDU1353BC (24) 4.1 (22) 5.4 (31) 5.1 (27 ) S18A-G

77 EPSON : A AUX (2 ) AUX[Fh] 1111 G( ) AUX[Fh] B( ) AUX[Eh] 1 AUX[Fh] 1111 R( ) AUX[Fh] 1111 G( ) AUX[Fh] 1 B( ) AUX[Eh] 11 AUX[Fh] 111 R( ) AUX[Fh] 111 G( ) AUX[Fh] 11 B( ) AUX[Eh] 11 AUX[Fh] 111 R( ) AUX[Fh] 111 G( ) AUX[Fh] 11 B( ) AUX[Eh] 11 AUX[Fh] 11 R( ) AUX[Fh] 11 G( ) AUX[Fh] 111 B( ) AUX[Eh] 111 AUX[Fh] 1 R( ) AUX[Fh] 1 G( ) AUX[Fh] 11 B( ) AUX[Eh] 111 AUX[Fh] 1 R( ) AUX[Fh] 1 G( ) AUX[Fh] 1 B( ) AUX[Eh] 1111 AUX[Fh] R( ) AUX[Fh] G( ) AUX[Fh] 1 B( ) AUX[1h] DISP 1 LCDE LCD ON 11 b OR {AUX[1h] } 7 = ON( ) 4 = LCDE = LCDENB = LCDBIAS ON (SDU1353BC 1 LCD ON) () 1 = B 8 = = 159 = 9Fh 16 = 1 = 24 1 = 239 = EFh C = SDU1353BC I/O D: 2 (2 64K/ ; ) 31h 312h D:h FFh 2-4 S18A-G-2-2

78 SED1353 Programming Notes and Examples : SDU1353BC 128K D: 2 64K SED1353BC VGA 64K K SDU1353BC SDU1353BC I/O EXAMPLE 2 128K LCD SED1353 AUX AUX[h] AUX[1h] (2 ) = OFF (; OFF ON ) 6 = () 5 = XSCL () 4 = LCDE = LCDENB = LCDBIAS OFF (SDU1353BC LCDBIAS OFF) (; LCDBIAS OFF ON ) 3 = 4 AUX[3] 2~1 () 2 = 8 LCD () 1 = 16 () = RAMS () AUX[2h] ~ = 7~ 8 AUX[3h] AUX[3h] 7~6 = ( - b ) 5 = LCD Low ( ) 4 = LUT () 3 = 4 LCD AUX[1] 2 () 2 = 4/16 () 1 = () = 8( ; AUX[2h] ) AUX[4h] ~ = 7~ 9~8 AUX[5h] 1~ AUX[5h] 7~2: = WF () 1~ = 9~8 (; AUX[4h] ) AUX[6h] AUX[7h] AUX[8h] AUX[9h] ~ - 1 = h ( ) AUX[6h] 7~ AUX[7h] 15~8 h 1 SDU1353BC D:h 2 15~ - 2 = 4Bh ( ) AUX[8h] 7~ AUX[9h] 15~8 4Bh 2 SDU1353BC D:96h A 5.6 (39 ) B C SDU1353BC (24 ) 4.1 (22 ) SDU1353BC (24 ) 4.1 (22 ) S18A-G

79 EPSON AUX (2 ) AUX[Ah] ~ = 1 7~ 1 9~8 AUX[Bh] 1~ 1 (AUX[Ah] = AUX[4h], [Bh] 1~ = AUX[5h] 1~) AUX[Bh] 7~2 = don t care; 1~ = 1 9~8 (; AUX[Ah] ) AUX[Ch] h () 7~ = AUX[Dh] h ( ) 7~ = AUX[Eh] 7~6 = G () 5~4 = R/W () 3~ = () AUX[Fh] R( ) 7~6 = R () 5~4 = B () 3~ = () AUX[Fh] G( ) AUX[Fh] B( ) AUX[Eh] 1 AUX[Fh] 1 R( ) AUX[Fh] 1 G( ) AUX[Fh] 11 B( ) AUX[Eh] 1 AUX[Fh] 1 R( ) AUX[Fh] 1 G( ) AUX[Fh] 11 B( ) AUX[Eh] 11 AUX[Fh] 11 R( ) AUX[Fh] 11 G( ) AUX[Fh] 1111 B( ) AUX[Eh] 1 AUX[Fh] 11 R( ) AUX[Fh] 11 G( ) AUX[Fh] 1111 B( ) AUX[Eh] 11 AUX[Fh] 111 R( ) AUX[Fh] 111 G( ) AUX[Fh] 11 B( ) AUX[Eh] 11 AUX[Fh] 111 R( ) AUX[Fh] 111 G( ) AUX[Fh] 11 B( ) AUX[Eh] 111 AUX[Fh] 1111 R( ) AUX[Fh] 1111 G( ) AUX[Fh] B( ) AUX[Eh] 1 AUX[Fh] 1111 R( ) AUX[Fh] 1111 G( ) AUX[Fh] 1 B( ) AUX[Eh] 11 AUX[Fh] 111 R( ) AUX[Fh] 111 G( ) AUX[Fh] 11 B( ) 5.4 (31 ) 5.1 (27 ) 2-6 S18A-G-2-2

80 SED1353 Programming Notes and Examples : A AUX (2 ) AUX[Eh] 11 AUX[Fh] 111 R( ) AUX[Fh] 111 G( ) AUX[Fh] 11 B( ) AUX[Eh] 11 AUX[Fh] 11 R( ) AUX[Fh] 11 G( ) AUX[Fh] 111 B( ) AUX[Eh] 111 AUX[Fh] 1 R( ) AUX[Fh] 1 G( ) AUX[Fh] 11 B( ) AUX[Eh] 111 AUX[Fh] 1 R( ) AUX[Fh] 1 G( ) AUX[Fh] 1 B( ) AUX[Eh] 1111 AUX[Fh] R( ) AUX[Fh] G( ) AUX[Fh] 1 B( ) AUX[1h] DISP 1 LCDE LCD ON 11 b OR {AUX[1h] } 7 = ON( ) 4 = LCDE = LCDENB = LCDBIAS ON (SDU1353BC 1 LCDBIAS ON) () B 1 = = = 79 = 4Fh 16 Single Panel = 1 C Dual Panel 48 = = = 239 = EFh SDU1353BC I/O D: 2 (2 64K/ ; 5 ) 31h 312h D:96h Ch 2 S18A-G

81 EPSON SED1353 LCD n/a n/a ( ) ( ) (4 /4 ) (16 /16 ) R( ) G( ) B( ) 4 G( ) 2-8 S18A-G-2-2

82 SED1353 Programming Notes and Examples R 2 R 1 R G 2 G 1 G B 1 B (256 ) 256 RGB 3 R( ) 3 G( ) 3 B( ) 2 RGB R G B 8 LUT LUT LUT LUT 4 4 AUX[E] I/O = 111b, R/W G G 1 ID / RGB 1 IDID / RGB SED ( ) 3 (RGB ) 4 / (BW) 3 16 / (11) 7~6 G( ) [1:] 4 /4 (2/ ) 16 G( ) G 1 16 /16 (4/ ) 256 (8/ ) 16 G 2 8 G 5~4 ID /RGB [1:] 2 ID : SED1353 SED1352Fx R/W ID 3-2 ID Aux[E] 5 4 SED SED1352FB/F1B/DB 1 SED1352FA/F1A/DA 1 1 S18A-G

83 EPSON RGB [1:]: 3 (RGB) 3-3 Aux[E] 5 4 ( ) 1 R( ) R/W 1 G( ) R/W 1 1 B( ) R/W : / R( ) AUX[F] / RGB AUX[E] RGB R RGB 3~ [3:] 4 CPU 16 : (1/2/4 ) CPU R/W 16 AUX[F] I/O = 1111b, R/W R 1 R B 1 B ~6 R( ) [1:] 4 16 R( ) R R 2 8 R 16 5~4 B( ) [1:] B( ) B ~ [3:] 4 / [3:] RGB [1:]( ) 4 ( ) 16 1b(4 / ) S18A-G-2-2

84 SED1353 Programming Notes and Examples (LUT ) LUT 7 LUT 8 LUT Fh SED1353 LUT R( ) Fh LUT h LUT () LUT LCD LUT R( ) G( ) B( ) SED (RGB) 16 4 LUT LUT / (4 ) R G B LUT LUT 4 ( 4 (2/ ) (16) ) 4 / (16 ) R G B LUT LUT 1 ( 16 (4/ ) (19) ) 8 / (256 ) 8 RGB 3 R( ) 3 G( ) 3 B( ) 2 RGB LUT 8 h Eh 1Ch 3h LUT 16 SED R 2 G 2 R 4 ( 256 (8/ ) (2) ) S18A-G

85 EPSON / SED1353 G( ) LUT 16 4 LUT LUT / ( ) LUT 1 2 / (4 ) LUT LUT 4 ( 4(2/ ) (14) ) 4 / (16 ) LUT LUT 1 ( 16(4/ ) (18) ) EXAMPLE ( ) 3-5 ( ) ( ) LUT R G LUT 7h B LUT 3h RGB LUT 1. AUX[Eh] LUT 2. AUX[Fh] R( ) LUT 3. AUX[Fh] G( ) LUT 4. AUX[Fh] B( ) LUT LUT 1 4 (hex) R( ) LUT (hex) G( ) LUT (hex) B( ) LUT (hex) A F X 5 B B X 6 D D X 7 F F X X: Don t Care 2-12 S18A-G-2-2

86 SED1353 Programming Notes and Examples EXAMPLE ( ) ( 15 Fh) LUT 1. AUX[Eh] LUT 2. AUX[Fh] LUT LUT 1 2 (hex) ( ) (hex) (hex) (hex) A A 3 3 B B 4 4 C C 5 5 D D 6 6 E E 7 7 F F EXAMPLE 5 LUT LUT AUX[Eh] LUT AUX[Fh] LUT 2. LUT 3. LUT AUX[Eh] LUT AUX[Fh] LUT LUT LUT (hex) = ( ) (hex) (hex) (hex) F E D A 5 3 C B 4 4 B C 3 5 A D E F S18A-G

87 EPSON SED1353 (1 / ) ( )LUT 1 : 1 / SED (2 / ) 4 LUT 1 G( ) LUT LUT LUT ( 3-5 ) EXAMPLE LUT 1. LUT G( ) LUT 4 ( ) 4 2 ( 1) 2 LUT 8 = 4 2 = 2 4 = (G) 2 2. AUX[Eh] LUT 2 8h 9h Ah Bh 3. AUX[Fh] LUT LUT LUT AUX[E] 7 6 1b ( ) (hex) (hex) A A B F 2-14 S18A-G-2-2

88 SED1353 Programming Notes and Examples [1:] AUX[E][7:6] 4 : CPU R/W S18A-G

89 EPSON SED (2 / ) 4 LUT 1 RGB LUT ( 3-6 ) EXAMPLE LUT 1. R( )LUT LUT 4 ( ) 4 2 ( 1) 3 LUT Ch = 4 3 = 3 4 = 12 = Ch 3-6 R 3 2. AUX[Eh] LUT R-LUT AUX[Eh] = LUT OR 1 b 3 Ch Dh Eh Fh AUX[Eh] 1Ch 1Dh 1Eh 1Fh R-LUT C D E F 3. AUX[Fh] LUT LUT LUT R 3 AUX[Fh] b AUX[Fh] = AUX[Fh] OR 11 b ( ) (hex) (hex) C D 5 E A F F 2-16 S18A-G-2-2

90 SED1353 Programming Notes and Examples S18A-G R 2 [1:] AUX[F][7:6] G [1:] AUX[E][7:6] B [1:] AUX[F][5:4]

91 EPSON SED (4 / ) 16 LUT 1 LUT (P3, P2, P1, P) MSB LSB 16 4 C D E F S18A-G-2-2

92 SED1353 Programming Notes and Examples 16 SED (4 / ) RGB LUT LUT R C D E F G C D E F B C D E F VGA ( 16 ) R G B R G B 8 1 A 9 F 2 A A F 3 A A B F F 4 A C F 5 A A D F F 6 A A E F F 7 A A A F F F F S18A-G

93 EPSON SED (8 / ) 7~5 R( )LUT 4~2 G( )LUT 1~ B( )LUT ( (21 ) ) (12 ) 3 LUT ( 3-11 ) (2 ) LUT (2 ) S18A-G-2-2

94 SED1353 Programming Notes and Examples S18A-G [1:] AUX[F] [1:] AUX[E] [1:] AUX[F][5:4] R2 6 R1 5 R 4 G2 3 G1 2 G 1 B1 B

95 EPSON / AUX[1] I/O = 1b, R/W DISP PANEL XSCL LCDE / LCD RAMS ( VD 1) 256 (AUX[3] 2~1 = 11) (16 ) AUX[6] 1 (LSB) I/O = 11b, R/W AUX[7] 1 (MSB) I/O = 111b, R/W AUX[6] 7~, AUX[7] 7~ 1 [15:] ( ) LSB 16 ( ) : VD13~VD15 1 () ( 1 2) S18A-G-2-2

96 SED1353 Programming Notes and Examples AUX[8] 2 (LSB) I/O = 1b, R/W AUX[9] 2 (MSB) I/O = 11b, R/W AUX[8] 7~, AUX[9] 7~ 2 [15:] ( ) LSB 16 ( ) = ( ) ( ) ( 1 ) ( 1 2) AUX[A] 1 (LSB) (31 ) AUX[B] 1 (MSB) (31 ) S18A-G

97 EPSON SED1353 LCD (27) SDU1353BC SDU1353BC 128K D:h D:FFFFh 2 64K SDU1353BC D:h D:h SED SDU1353BC 128K 16 EXAMPLE 8 64K 16 EXAMPLE 8 SDU1353BC 1 D:h 1 D:h 64K 1h (64K) 8h [LSB] = h [MSB] = 8h 2-24 S18A-G-2-2

98 SED1353 Programming Notes and Examples LCD LCD (34) LCD 16 SDU1353BC SED1353 SDU1353BC SDU1353BC Evaluation Board User s Manual EXAMPLE 9 SDU1353BC LCD ( D:h) h AUX[6h] = h AUX[7h] = h EXAMPLE 1 LCD (36 ) EXAMPLE 11 SED LCD = = 16 / 4 ( 16 /)( 48 ) = SED1353 SED K 131, LCD 4 76,8 SED LCD 4 : SDE LCD S18A-G

99 EPSON LCD LCD 4 8 / 128K SED / / Hex , ,2 4B , ,8 1 2C , , ,6 E ,2 1 C , 3E , 7D , FA , 1 F , ,8 1 2C 4 16 N/A N/A N/A N/A (hex) (hex) 4F 5 1 9F 4A AAF 4AB 239 4AFF 4-1 : LCD, 4 /4 (hex) (hex) 13F F ABF 1 2AC BFF 4-2 : LCD, 256 (hex) (hex) 13F F F F8BF F8C 199 F9FF 4-3 : 64 2 LCD, 16 / S18A-G-2-2

100 SED1353 Programming Notes and Examples SED1353 / AUX[D] I/O = 111b, R/W ~ [7:] 128K AUX[6] [7] AUX[8] [9] 8 ( + AUX[D]) 1 LCD ( + 1) AUX[6] [7] AUX[8] [9] 16 2 ( + AUX[D]) 1 LCD 2 ( + 1) AUX[6] [7] AUX[8] [9] S18A-G

101 EPSON SED (EXAMPLE 12 ) EXAMPLE LCD SED / 4 / 2 / 1 = ( 1 ) 2 = 2 2 = 4 4. ( ) ( ) = = = = 8 = 5h 4 AUX[Dh] = 5h (37) 2-28 S18A-G-2-2

102 SED1353 Programming Notes and Examples LCD (1 1 ) EXAMPLE LCD TEXT (16 ) 1. T E X 8 8 / TEXT 2. EXAMPLE ( ) (12) : LCD, 256 (26) 4. 1 ( 7.3 (5) ) ( FFh) "TEXT" 5-3 (hex) (hex) F F F F F F F F F F F F F F F F F F F F F F F 1F F F F F F F F F F F F F F F F F F F F F F F F 14 F F F F F F F F F F F F F F F F F F F F F F F F F F F F F F 15F 28 3C C F F F F F F F F F F F F F F F F F F F F F F 29F F F F F F F F F F F F F F F F F F F F F F F 3DF F F F F F F F F F F F F F F F F F F F F 51F F F F F F F F F F F F F F F F F F F F F F F 65F F F F F F F F F F F F F F F F F F F F F F F F F F F F F F F F F F F F F F F 79F 8DF TEXT S18A-G

103 EPSON SED / 2 : SED1353 SED1353 Hardware Functional Specification I/O 2 I/O I/O SRAM VD[12:4] / SED1353 Hardware Functional Specification SDU1353BC 3 I/O I/O 2 I/O / SDU1353BC 2 64K 1 1 EXAMPLE 14 SDU1353BC 8h 12h 31h 1. 8h I/O + = 31h MOV DX,31h MOV AL,8h OUT DX,AL 2. 12h I/O + 1 = 311h MOV DX,311h MOV AL,12h OUT DX,AL I/O 16 I/O I/O SRAM VD[12:7] / SED1353 Hardware Functional Specification SED I/O / SDU1353BC 2-3 S18A-G-2-2

104 SED1353 Programming Notes and Examples EXAMPLE 15 SDU1353BC 8h 12h 31h 1. 8h = 31h + 8h = 318h h 12h MOV DX,318h MOV AL,12h OUT DX,AL : SDU1353BC SDU1353BC SDU1353BC Evaluation Board User s Manual LCD LCD 1 2 AUX[A] 1 (LSB) I/O = 11b, R/W AUX[B] 1 (MSB) I/O = 111b, R/W n/a n/a n/a n/a n/a n/a AUX[A] 7~, AUX[B] 1~ 1 [9:] ( ) AUX[A] AUX[B] 2h 33 (2h + 1) 1 (AUX[6] AUX[7]) 27 (24-33) 2 (AUX[8] AUX[9]) : (25 ) 2 ( 1) 1 ( 2) S18A-G

105 EPSON LCD 16 (128K ) SDU1353BC ( ) / 4 / 2 / 32 = = = 16 / = Ah / ( 5-4 ) SDU1353BC D:h 1, D:h 1 2, D:96h ( ) h AUX[6h] = h AUX[7h] = h 5. 1 ( ) ( 1 ) = = 384 = 96h ( 5-4 ) 2 2 = ( ) +( 1 ) = { D:h, } + :96h = { D:96h, } 2 D:FFFFh 1 Dh 2 { D1:92h} { 1 D:92h} 2-32 S18A-G-2-2

106 SED1353 Programming Notes and Examples = / = h + 96h = 4Bh 2 AUX[8h] = h AUX[9h] = 4Bh = 24 1 = 239 = EFh AUX[Ah] = ( - 1) = EFh AUX[Bh] = ( - 1) = h AUX[Ah] = h AUX[Bh] = h ( 5-5 ) AUX[Ah] = 63h (99 [1 ]) AUX[Bh] = h = 99 lines S18A-G

107 EPSON LCD 16 (128K ) SDU1353BC ( ) / 2 / 4 / 64 = = = 16 / = Ah / ( 5-4 ) SDU1353BC D:h h AUX[6h] = h AUX[7h] = h 5. 1 ( ) ( 1 ) = = 384 = 96h ( 5-4 ) 2 2 = ( ) +( 1 ) = { D:h, } + :96h = { D:96h, } 2 D:FFFFh 1 Dh 2 { D1:92h} { 1 D:92h} = / = h + 96h = 4Bh 2 AUX[8h] = h AUX[9h] = 4Bh S18A-G-2-2

108 SED1353 Programming Notes and Examples 1 SED ( 5-6 ) ( 24 ) = / AUX[6h] = 1 AUX[7h] = = / AUX[8h] = 2 AUX[9h] = = AUX[6h] = 1 AUX[7h] = 1 (37) = 2 1 AUX[8h] = 2 AUX[9h] = 2 (37 ) S18A-G

109 EPSON LCD LCD 16 (128K ) SDU1353BC ( ) / 2 / 4 / 64 = = = 16 / = Ah / 3. ( 5-7 ) SDU1353BC D:h h AUX[6h] = h AUX[7h] = h 5. = 1 = = = 24 2 = ( ) 1 = = 384 = 96h S18A-G-2-2

110 SED1353 Programming Notes and Examples 6. ( 5-7 ) 2 2 = ( ) +( 1 ) = { D:h, } + :96h = { D:96h, } D:FFFFh 1 Dh { D1:92h} { 1 D:92h} = / = h + 96h = 4Bh 2 AUX[8h] = h AUX[9h] = 4Bh 8. LCD LCD SED1353 SED1353 (2 ) SED (27 ) 1 1 SED ( SDU1353BC (24) ) ( 5-1 ) 5-1 / / ( ) S18A-G

111 EPSON LCD EXAMPLE 16 LCD K 16 LCD AUX[6h] = Ah AUX[7h] = h (36) 5. 2 AUX[8h] = 2 AUX[9h] = 2 64 / = = 32 / 2 / 1 = / = h = Ah 2 = / 2-38 S18A-G-2-2

112 SED1353 Programming Notes and Examples SED1353 AUX[3] 1 I/O = 11b, R/W PS PS 1 LCD LUT LCD 1 BW/ ~6 PS [1:] ( ) PS [1:] 5-2 PS1 PS SED1353 Hardware Functional Specification SED (AUX[3] 7:6) : 5-4 (PSM) PSM1 1 2 PSM2 ON Off Off Off I/O 1. PS 2. (5 ) S18A-G

113 EPSON LCDBIAS LCDENB LCD LCDBIAS LCDENB AUX[1h] 4(LCDE) 1. AUX[1h] 7 OFF 2. LCDBIAS () AUX[1h] 4 SDU1353BC 3. LCDBIAS V SDU1353BC.5 4. AUX[3h] 7~6 LCDBIAS LCDENB LCDENB AUX[1h] 4(LCDE) 1. AUX[3h] 7~6 b 2. LCDBIAS ( ) AUX[1h] 4 SDU1353BC 1 3. AUX[1h] 7 1 ON 2-4 S18A-G-2-2

114 SED1353 Programming Notes and Examples LCD / 1. LCD ON 2. AUX[Eh] 5~4 ID ID Aux[E] 5 4 SED SED1352FB/F1B/DB 1 SED1352FA/F1A/DA 1 1 : AUX[Eh] 5~4 ID RGB (AUX[Eh] ) ID S18A-G

115 EPSON SED1353 C SED1353 SUD1353BC 1353DEMO.EXE : DEMO t=n x=n y=n d=n i=n p=n [f=n] [/?] t = SINGLE DUAL: x = 1~32 (1 ): ( ) y = 1~24 (1 ): ( ) d = COLOR MONO: i = 4 8: 4 8 LCD p = (16 ): ( I/O ) f = 1 2: 8 /? = LCD h 1353DEMO t=single x=32 y=24 d=color i=8 p=31 f=2 1353DEMO SED1353FA/SDU1353BC DEMO PROGRAM Press 1 to read registers Press 2 to show color/gray shade bar Press 3 to show split screen Press 4 to show panning and scrolling Press 5 to start power saving Press ESC to quit DEMO.EXE 2-42 S18A-G-2-2

116 SED1353 Programming Notes and Examples FUNCTION: main() DESCRIPTION: Start of demo program. INPUTS: Command line arguments. RETURN VALUE: None void main(char argc, char **argv) { int ch; CheckArguments(argc, argv); printf("initializing\n"); Initialize(); SetDisplay(OFF); ClearLCDScreen(); switch (GetID(PanelPortAddr)) { case ID_1352FOA: printf("detected SED1352FA.\n\n"); Quit(); break; case ID_1352FOB: printf("detected SED1352FB.\n\n"); Quit(); break; case ID_1353: printf("detected SED1353FA.\n"); break; default: printf("error: Could not detect chip.\n\n"); Quit(); break; } ShowMenu(); while ((ch = getch())!= ESC) { switch (ch) { case '1': ShowRegisters(); break; case '2': GrayShadeBars(); break; case '3': SplitScreen(); break; case '4': PanScroll(); S18A-G

117 EPSON } } break; case '5': PowerSaving(); break; case ESC: exit(); } 2-44 S18A-G-2-2

118 SED1353 Programming Notes and Examples FUNCTION: Initialize() DESCRIPTION: Intialize SED1353 registers. INPUTS: This function looks at the followingl global variables to determine the appropriate register settings: PanelX, PanelY, PanelType OUTPUTS: The following global variables are changed: PanelGrayLevel, BytesPerScanLine void Initialize(void) { static unsigned int val, val2; static unsigned int x; if (PanelD == PANEL_MONO) PanelGrayLevel = 16; else PanelGrayLevel = 256; Mode Register: Display = OFF Panel = SINGLE Mask XSCL = NOT MASKED LCDE = NOT ENABLED Gray Shade/Color = 16 Gray Shades (bit is ignored for 256 colors) LCD Data Width = 8 bit data transfer Memory Interface = 16 bits RAMS = Addressing for 8Kx8 SRAM val = xc; if (Interface == 4) val &= xfb; Clear AUX[1] bit 2 so that Memory Interface = 4 bits if (PanelType == TYPE_DUAL) val = x4; Set panel type to DUAL WriteRegister(1, val); Write to Mode Register Line Byte/Word Count Register Bits -7 are in AUX[2], Bit 8 is in AUX[3]. Because the Memory Interface is set to 16 bits, the Line Byte/Word Count Register counts in words. To calculate the Line Byte Count for different numbers of gray shades/colors, use the following formula: BitsPerPixel x Horizontal Resolution - 1 S18A-G

119 EPSON Memory Interface Width switch (PanelGrayLevel) { case 2: val = (PanelX / 16) - 1; break; case 4: val = (PanelX / 8) - 1; break; case 16: val = (PanelX / 4) - 1; break; case 256: val = (PanelX / 2) - 1; break; } WriteRegister(2, val & xff); For black and white mode For 4 gray shades/colors For 16 gray shades/colors For 256 colors Line Byte/Word Count Register val2 = (val >> 8) & x1; if (PanelD == PANEL_COLOR) { val2 = x6; Select color mode and 256 colors if ((Interface == 8) && (PanelF == 2)) val2 = x8; Select format 2 } WriteRegister(3, val2); Mode Register 1 BytesPerScanLine is a global variable switch (PanelGrayLevel) { case 2: BytesPerScanLine = (PanelX / 8); break; case 4: BytesPerScanLine = (PanelX / 4); break; case 16: BytesPerScanLine = (PanelX / 2); break; case 256: BytesPerScanLine = PanelX; break; } Total Display Line Count Register Screen 1 Display Line Count Register 2-46 S18A-G-2-2

120 SED1353 Programming Notes and Examples To show a full image on Screen 1, copy the Total Display Line Count into the Screen 1 Display Line Count. Old programs had previously assumed that all panels smaller than 4 lines use a 4 bit interface. However, newer panels which are less than 4 lines may use an 8 bit interface. Consequently this program must be told which interface to use. Set the Mask XSCL bit to MASKED (1) when using a 4 bit interface. if (Interface == 4) { val = ReadRegister(1); val &= xfb; Set LCD Data Width to 4 bit data transfer val = x2; Set Mask XSCL to MASKED WriteRegister(1, val); Write to Mode Register; LCD Data Width = 4 bits } val = PanelY; A dual panel LCD will, of course, have two panels. Each panel will show either the top or bottom half of the image, which is half of the vertical resolution. if (PanelType == TYPE_DUAL) val /= 2; --val; WriteRegister(4, val & xff); Write to Total Display Line Count Reg WriteRegister(xa, val & xff); Write to Screen 1 Display Line Count Reg WriteRegister(5, (val >> 8) & x3); Total Disp Line Cnt (MSB)/WF Count Reg WriteRegister(xb, (val >> 8) & x3); Scrn 1 Disp Line Count Reg (MSB) Set Screen 1 Display Start Address to beginning of video memory WriteRegister(6, ); Write to Screen 1 Display Start Address Register WriteRegister(7, ); Screen 2 Display Start Address Register If using a dual panel, the Screen 2 Display Start Address must point to the second half of the image in video memory. if (PanelType == TYPE_DUAL) { val = (unsigned int) ((ReadRegister(3) & x1) << 8) ReadRegister(2); ++val; val *= (PanelY / 2); WriteRegister(8, val & xff); WriteRegister(9, val >> 8); } else { S18A-G

121 EPSON On a single panel, Screen 1 was programmed to show all of its lines. Consequently Screen 2 will not be seen, and so the Screen 2 Display Start Address will have no observable effect. For convenience, set the screen 2 address to. WriteRegister(8, ); WriteRegister(9, ); } Set Horizontal Non-Display Period to to use fixed default non-display period WriteRegister(xc, ); Set Address Pitch Adjustment to WriteRegister(xd, ); Write to Address Pitch Adjustment Register Update Lookup Table for 16 gray shades/ 256 colors if (PanelD == PANEL_MONO) { for (x = ; x < 16; ++x) { WriteRegister(xe, x); WriteRegister(xf, MonoLUT16[x]); } } else { for (x = ; x < 16; ++x) { WriteRegister(xe, x); Auto-increment mode selected } WriteRegister(xf, ColorLUT256Red[x]); WriteRegister(xf, ColorLUT256Green[x]); WriteRegister(xf, ColorLUT256Blue[x]); } Now that system is initialized, set DISPLAY ON and enable LCDE val = ReadRegister(1); val = x9; DISPLAY ON, LCDE enabled WriteRegister(1, val); } GetID() 2-48 S18A-G-2-2

122 SED1353 Programming Notes and Examples This function returns the Chip ID static unsigned char GetID(int PortAddr) { static unsigned char ChipID; ChipID = ID_NOT_DETECTED; If the chip was just powered up, and no registers have been initialized, then use the following code: outp(portaddr, xe); switch (inp(portaddr+1) & x3) { case x: ChipID = ID_1353; break; case x2: ChipID = ID_1352FB; break; case x3: ChipID = ID_1352FA; break; default: ChipID = ID_NOT_DETECTED; break; } return(chipid); } S18A-G

123 EPSON #define VIRTUAL_X #define VIRTUAL_Y (36L) (36L) FUNCTION: ShowRegisters() DESCRIPTION: Shows the contents of the SED1353 registers. INPUTS: None. RETURN VALUE: None void ShowRegisters(void) { static unsigned char x; static unsigned char red, green, blue; printf("sed1353 Registers: "); for (x = ; x < 16; ++x) printf("%2x ", ReadRegister(x)); printf("\nsed1353 Lookup Table: "); for (x = ; x < 16; ++x) { WriteRegister(xe, x); red = ReadRegister(xf); green = ReadRegister(xf); blue = ReadRegister(xf); if (x % 7 == ) printf("\n"); printf("(%2x,%2x,%2x) ", red, green, blue); } ShowMenu(); } FUNCTION: GrayShadeBars() DESCRIPTION: Displays a series of vertical bars, each with a different color/gray shade. For color displays, bars are shown for 4, 16, and 256 colors. For monochrome displays, bars are shown for black and white, 4, and 16 gray shades. INPUTS: None. RETURN VALUE: None void GrayShadeBars(void) { static unsigned int val, val2, x; 2-5 S18A-G-2-2

124 static unsigned char _far *pvideo; static char Gray4[] = "Vertical Bars at 4 Gray Shades"; static char Color4[] = "Vertical Bars at 4 Colors"; static char Gray16[] = "Vertical Bars at 16 Gray Shades"; static char Color16[] = "Vertical Bars at 16 Colors"; static char *str; SED1353 Programming Notes and Examples printf("displaying Vertical Bars\n"); Initialize(); SetDisplay(OFF); ClearLCDScreen(); Access memory banks FP_SEG(pVideo) = xd; FP_OFF(pVideo) = x; if (PanelD == PANEL_MONO) { Select black and white mode val = ReadRegister(3); val = x4; Set AUX[3] bit 2 val &= xfd; Clear AUX[3] bit 1 WriteRegister(3, val); Update Line Byte/Word Count register for black and white. Since black and white has 8 pixels per byte, there are ((x horizontal pixels)/8) bytes per scan line. This means that there are ((x horizontal pixels)/16) words per scan line. Since the Memory Interface is set to 16 bits, the Line Byte/Word Count refers to words. val = (PanelX / 16) - 1; BytesPerScanLine = (PanelX / 8); WriteRegister(2, val & xff); Line Byte Count Register val2 = ReadRegister(3); val2 &= xfe; Clear bit val2 = (val >> 8) & x1; WriteRegister(3, val2); Mode Register 1 PanelGrayLevel = 2; ShowVerticalBars(pVideo, ); Show text. The lightest gray shade is set to PanelGrayLevel-1. ShowText(pVideo, BANK, "Vertical Bars for Black and White", PanelGrayLevel-1); S18A-G

125 EPSON SetDisplay(ON); Delay(2); } SetDisplay(OFF); ClearLCDScreen(); Select 4 gray shades/colors if (PanelD == PANEL_MONO) { val = ReadRegister(1); val &= xf7; Clear AUX[1] bit 3 WriteRegister(1, val); val = ReadRegister(3); val &= xf9; Clear AUX[3] bits 1 and 2 WriteRegister(3, val); Update Lookup Table for 4 gray shades for (x = ; x < 16; ++x) { WriteRegister(xe, x); WriteRegister(xf, MonoLUT4[x]); } str = Gray4; } else 4 colors { val = ReadRegister(1); val &= xf7; Clear AUX[1] bit 3 WriteRegister(1, val); val = ReadRegister(3); val &= xfb; Clear AUX[3] bit 2 val = x2; Set AUX[3] bit 1 WriteRegister(3, val); Update Lookup Table for 4 colors for (x = ; x < 16; ++x) { WriteRegister(xe, x); WriteRegister(xf, ColorLUT4Red[x]); WriteRegister(xf, ColorLUT4Green[x]); WriteRegister(xf, ColorLUT4Blue[x]); } str = Color4; } Update Line Byte/Word Count register for 4 colors/gray shades Since 4 colors/gray shades corresponds to 4 pixels per byte, there are ((x horizontal pixels)/4) bytes per scan line. This means that 2-52 S18A-G-2-2

126 SED1353 Programming Notes and Examples there are ((x horizontal pixels)/8) words per scan line. Since the Memory Interface is set to 16 bits, the Line Byte/Word Count refers to words. val = (PanelX / 8) - 1; BytesPerScanLine = (PanelX / 4); WriteRegister(2, val & xff); Line Byte Count Register val2 = ReadRegister(3); val2 &= xfe; Clear bit val2 = (val >> 8) & x1; WriteRegister(3, val2); Mode Register 1 PanelGrayLevel = 4; ShowVerticalBars(pVideo, ); Show text. The lightest color/gray shade is set to PanelGrayLevel-1. ShowText(pVideo, BANK, str, PanelGrayLevel-1); ShowText(pVideo + BytesPerScanLine*8, BANK, "BANK: ", PanelGrayLevel-1); SetDisplay(ON); Delay(2); val = ReadRegister(xe); val &= x3f; val = x4; WriteRegister(xe, val); ShowVerticalBars(pVideo, ); ShowText(pVideo, BANK, str, PanelGrayLevel-1); ShowText(pVideo + BytesPerScanLine*8, BANK, "BANK: 1", PanelGrayLevel-1); Delay(2); val &= x3f; val = x8; WriteRegister(xe, val); ShowVerticalBars(pVideo, ); ShowText(pVideo, BANK, str, PanelGrayLevel-1); ShowText(pVideo + BytesPerScanLine*8, BANK, "BANK: 2", PanelGrayLevel-1); Delay(2); val = xc; WriteRegister(xe, val); ShowVerticalBars(pVideo, ); ShowText(pVideo, BANK, str, PanelGrayLevel-1); ShowText(pVideo + BytesPerScanLine*8, BANK, "BANK: 3", PanelGrayLevel-1); Delay(2); SetDisplay(OFF); ClearLCDScreen(); Select 16 colors/gray shades if (PanelD == PANEL_MONO) { val = ReadRegister(1); val = x8; Set AUX[1] bit 3 WriteRegister(1, val); S18A-G

127 EPSON val = ReadRegister(3); val &= xf9; Clear AUX[3] bits 1 and 2 WriteRegister(3, val); Update Lookup Table for 16 gray shades for (x = ; x < 16; ++x) { WriteRegister(xe, x); WriteRegister(xf, MonoLUT16[x]); } str = Gray16; } else 16 colors { val = ReadRegister(1); val = x8; Set AUX[1] bit 3 WriteRegister(1, val); val = ReadRegister(3); val &= xfb; Clear AUX[3] bit 2 val = x2; Set AUX[3] bit 1 WriteRegister(3, val); Update Lookup Table for 16 colors for (x = ; x < 16; ++x) { WriteRegister(xe, x); WriteRegister(xf, ColorLUT16Red[x]); WriteRegister(xf, ColorLUT16Green[x]); WriteRegister(xf, ColorLUT16Blue[x]); } str = Color16; } Update Line Byte Count register for 16 colors/gray shades Since 16 colors/gray shades corresponds to 2 pixels per byte, there are ((x horizontal pixels)/2) bytes per scan line. This means that there are ((x horizontal pixels)/4) words per scan line. Since the Memory Interface is set to 16 bits, the Line Byte/Word Count refers to words. val = (PanelX / 4) - 1; BytesPerScanLine = (PanelX / 2); WriteRegister(2, val & xff); Line Byte Count Register val2 = ReadRegister(3); val2 &= xfe; Clear bit val2 = (val >> 8) & x1; WriteRegister(3, val2); Mode Register 1 PanelGrayLevel = 16; ShowVerticalBars(pVideo, ); 2-54 S18A-G-2-2

128 SED1353 Programming Notes and Examples Show text. The lightest color/gray shade is set to PanelGrayLevel-1. ShowText(pVideo, BANK, str, PanelGrayLevel-1); SetDisplay(ON); Delay(2); if (PanelD == PANEL_COLOR) { SetDisplay(OFF); ClearLCDScreen(); Select 256 colors val = ReadRegister(3); val = x6; Set AUX[3] bits 1 and 2 WriteRegister(3, val); Update Lookup Table for 256 colors for (x = ; x < 16; ++x) { WriteRegister(xe, x); WriteRegister(xf, ColorLUT256Red[x]); WriteRegister(xf, ColorLUT256Green[x]); WriteRegister(xf, ColorLUT256Blue[x]); } Update Line Byte/Word Count register for 256 colors Since 256 colors have one pixel per byte, there are (x horizontal pixels) bytes per scan line. This means that there are ((x horizontal pixels)/2) words per scan line. Since the Memory Interface is set to 16 bits, the Line Byte/Word Count refers to words. val = (PanelX / 2) - 1; BytesPerScanLine = PanelX; WriteRegister(2, val & xff); Line Byte Count Register val2 = ReadRegister(3); val2 &= xfe; Clear bit val2 = (val >> 8) & x1; WriteRegister(3, val2); Mode Register 1 PanelGrayLevel = 256; ShowVerticalBars(pVideo, ); Show text. The lightest color is set to PanelGrayLevel-1. ShowText(pVideo, BANK, "Horizontal/Vertical Bars at 256 Colors", PanelGrayLevel-1); S18A-G

129 EPSON SetDisplay(ON); Delay(2); } else SetDisplay(ON); ShowMenu(); } ShowText() DESCRIPTION: Writes text to the LCD panel. Text must only contain the letters A-Z, and the space character. All other characters are replaced by spaces. NOTES: It is assumed that a pixel set to a value of represents the background color (black) void ShowText(unsigned char _far *pvideostart, unsigned char bank, char *str, int color) { static const unsigned char *pfont; static unsigned char _far *pvideofirstcolumn; static unsigned char _far *pvideo; static unsigned char ch; static unsigned int y, val, Video; static unsigned int count; Each letter in the font is 8 x 8 bits #define MAX_FONT 97 static const unsigned char font[max_font][8] = { { x, x, x, x, x, x, x, x }, (blank) { x3, x78, x78, x3, x3, x, x3, x },! { x6c, x6c, x6c, x, x, x, x, x }, " { x6c, x6c, xfe, x6c, xfe, x6c, x6c, x }, # { x3, x7c, xc, x78, xc, xf8, x3, x }, $ { x, xc6, xcc, x18, x3, x66, xc6, x }, % { x38, x6c, x38, x76, xdc, xcc, x76, x }, & { x6, x6, xc, x, x, x, x, x }, ' { x18, x3, x6, x6, x6, x3, x18, x }, ( { x6, x3, x18, x18, x18, x3, x6, x }, ) { x, x66, x3c, xff, x3c, x66, x, x }, * { x, x3, x3, xfc, x3, x3, x, x }, + { x, x, x, x, x, x3, x3, x6 },, { x, x, x, xfc, x, x, x, x }, - { x, x, x, x, x, x3, x3, x },. { x6, xc, x18, x3, x6, xc, x8, x }, / { x7c, xc6, xce, xde, xf6, xe6, x7c, x }, { x3, x7, x3, x3, x3, x3, xfc, x }, 1 { x78, xcc, xc, x38, x6, xcc, xfc, x }, 2 { x78, xcc, xc, x38, xc, xcc, x78, x }, 3 { x1c, x3c, x6c, xcc, xfe, xc, x1e, x }, 4 { xfc, xc, xf8, xc, xc, xcc, x78, x }, 5 { x38, x6, xc, xf8, xcc, xcc, x78, x }, 6 { xfc, xcc, xc, x18, x3, x3, x3, x }, 7 { x78, xcc, xcc, x78, xcc, xcc, x78, x }, 8 { x78, xcc, xcc, x7c, xc, x18, x7, x }, S18A-G-2-2

130 SED1353 Programming Notes and Examples { x, x3, x3, x, x, x3, x3, x }, : { x, x3, x3, x, x, x3, x3, x6 }, ; { x18, x3, x6, xc, x6, x3, x18, x }, < { x, x, xfc, x, x, xfc, x, x }, = { x6, x3, x18, xc, x18, x3, x6, x }, > { x78, xcc, xc, x18, x3, x, x3, x },? { x7c, xc6, xde, xde, xde, xc, x78, x { x3, x78, xcc, xcc, xfc, xcc, xcc, x }, A { xfc, x66, x66, x7c, x66, x66, xfc, x }, B { x3c, x66, xc, xc, xc, x66, x3c, x }, C { xf8, x6c, x66, x66, x66, x6c, xf8, x }, D { xfe, x62, x68, x78, x68, x62, xfe, x }, E { xfe, x62, x68, x78, x68, x6, xf, x }, F { x3c, x66, xc, xc, xce, x66, x3e, x }, G { xcc, xcc, xcc, xfc, xcc, xcc, xcc, x }, H { x78, x3, x3, x3, x3, x3, x78, x }, I { x1e, xc, xc, xc, xcc, xcc, x78, x }, J { xe6, x66, x6c, x78, x6c, x66, xe6, x }, K { xf, x6, x6, x6, x62, x66, xfe, x }, L { xc6, xee, xfe, xfe, xd6, xc6, xc6, x }, M { xc6, xe6, xf6, xde, xce, xc6, xc6, x }, N { x38, x6c, xc6, xc6, xc6, x6c, x38, x }, O { xfc, x66, x66, x7c, x6, x6, xf, x }, P { x78, xcc, xcc, xcc, xdc, x78, x1c, x }, Q { xfc, x66, x66, x7c, x6c, x66, xe6, x }, R { x78, xcc, xe, x7, x1c, xcc, x78, x }, S { xfc, xb4, x3, x3, x3, x3, x78, x }, T { xcc, xcc, xcc, xcc, xcc, xcc, xfc, x }, U { xcc, xcc, xcc, xcc, xcc, x78, x3, x }, V { xc6, xc6, xc6, xd6, xfe, xee, xc6, x }, W { xc6, xc6, x6c, x38, x38, x6c, xc6, x }, X { xcc, xcc, xcc, x78, x3, x3, x78, x }, Y { xfe, xc6, x8c, x18, x32, x66, xfe, x }, Z { x78, x6, x6, x6, x6, x6, x78, x }, [ { xc, x6, x3, x18, xc, x6, x2, x }, (backslash) { x78, x18, x18, x18, x18, x18, x78, x }, ] { x1, x38, x6c, xc6, x, x, x, x }, ^ { x, x, x, x, x, x, x, xff }, _ { x3, x3, x18, x, x, x, x, x }, { x, x, x78, xc, x7c, xcc, x76, x }, a { xe, x6, x6, x7c, x66, x66, xdc, x }, b { x, x, x78, xcc, xc, xcc, x78, x }, c { x1c, xc, xc, x7c, xcc, xcc, x76, x }, d { x, x, x78, xcc, xfc, xc, x78, x }, e { x38, x6c, x6, xf, x6, x6, xf, x }, f { x, x, x76, xcc, xcc, x7c, xc, xf8 }, g { xe, x6, x6c, x76, x66, x66, xe6, x }, h { x3, x, x7, x3, x3, x3, x78, x }, i { xc, x, xc, xc, xc, xcc, xcc, x78 }, j { xe, x6, x66, x6c, x78, x6c, xe6, x }, k { x7, x3, x3, x3, x3, x3, x78, x }, l { x, x, xcc, xfe, xfe, xd6, xc6, x }, m { x, x, xf8, xcc, xcc, xcc, xcc, x }, n { x, x, x78, xcc, xcc, xcc, x78, x }, o { x, x, xdc, x66, x66, x7c, x6, xf }, p { x, x, x76, xcc, xcc, x7c, xc, x1e }, q { x, x, xdc, x76, x66, x6, xf, x }, r { x, x, x7c, xc, x78, xc, xf8, x }, s { x1, x3, x7c, x3, x3, x34, x18, x }, t { x, x, xcc, xcc, xcc, xcc, x76, x }, u { x, x, xcc, xcc, xcc, x78, x3, x }, v { x, x, xc6, xd6, xfe, xfe, x6c, x }, w { x, x, xc6, x6c, x38, x6c, xc6, x }, x { x, x, xcc, xcc, xcc, x7c, xc, xf8 }, y S18A-G

131 EPSON { x, x, xfc, x98, x3, x64, xfc, x }, z { x1c, x3, x3, xe, x3, x3, x1c, x }, { { x18, x18, x18, x, x18, x18, x18, x }, { xe, x3, x3, x1c, x3, x3, xe, x }, } { x76, xdc, x, x, x, x, x, x }, ~ { x, x1, x38, x6c, xc6, xc6, xfe, x }, 127 { xff, xff, xff, xff, xff, xff, xff, xff } }; block char pvideofirstcolumn = pvideostart; pvideo = pvideofirstcolumn; Select Memory Bank by reading or writing to port. if (bank == 1) outp(panelportaddr+2, ); else inp(panelportaddr+2); switch (PanelGrayLevel) { case 2: If there are 2 gray levels, there are 8 pixels/byte color &= x1; while (*str!= ) { ch = *str++; if ((ch < ' ') (ch - ' ' > MAX_FONT-1)) ch = '.'; pfont = &font[ch - ' '][]; for (y = ; y < 8; ++y) { pvideo = pvideofirstcolumn; Video = ; val = *pfont++; Since there are 2 gray shades, each bit in the font will be represented in video memory as a one bit pixel. if (val & x8) Video = (color << 7); if (val & x4) Video = (color << 6); if (val & x2) Video = (color << 5); if (val & x1) Video = (color << 4); if (val & x8) Video = (color << 3); if (val & x4) 2-58 S18A-G-2-2

132 SED1353 Programming Notes and Examples Video = (color << 2); if (val & x2) Video = (color << 1); if (val & x1) Video = color; *pvideo++ = (unsigned char) Video; CheckBank(pVideo, &bank); pvideofirstcolumn += BytesPerScanLine; } ++pvideostart; Point to next character pvideofirstcolumn = pvideostart; } break; case 4: If there are 4 colors/gray levels, there are 4 pixels/byte color &= x3; while (*str!= ) { ch = *str++; if ((ch < ' ') (ch - ' ' > MAX_FONT-1)) ch = '.'; pfont = &font[ch - ' '][]; for (y = ; y < 8; ++y) { pvideo = pvideofirstcolumn; Video = ; val = *pfont++; Since there are 4 colors/gray shades, each bit in the font will be represented in video memory as a two bit pixel. if (val & x8) Video = (color << 6); if (val & x4) Video = (color << 4); if (val & x2) Video = (color << 2); if (val & x1) Video = color; *pvideo++ = (unsigned char) Video; CheckBank(pVideo, &bank); Video = ; if (val & x8) Video = (color << 6); S18A-G

133 EPSON if (val & x4) Video = (color << 4); if (val & x2) Video = (color << 2); if (val & x1) Video = color; *pvideo++ = (unsigned char) Video; CheckBank(pVideo, &bank); pvideofirstcolumn += BytesPerScanLine; } pvideostart += 2; Point to next character pvideofirstcolumn = pvideostart; } break; case 16: color &= xf; while (*str!= ) { ch = *str++; if ((ch < ' ') (ch - ' ' > MAX_FONT-1)) ch = '.'; pfont = &font[ch - ' '][]; for (y = ; y < 8; ++y) { pvideo = pvideofirstcolumn; Video = ; val = *pfont++; Since there are 16 colors/gray shades, each bit in the font will be represented in video memory as a four bit pixel. if (val & x8) Video = (color << 4); if (val & x4) Video = color; *pvideo++ = (unsigned char) Video; CheckBank(pVideo, &bank); Video = ; if (val & x2) Video = (color << 4); if (val & x1) Video = color; *pvideo++ = (unsigned char) Video; CheckBank(pVideo, &bank); Video = ; if (val & x8) 2-6 S18A-G-2-2

134 SED1353 Programming Notes and Examples Video = (color << 4); if (val & x4) Video = color; *pvideo++ = (unsigned char) Video; CheckBank(pVideo, &bank); Video = ; if (val & x2) Video = (color << 4); if (val & x1) Video = color; *pvideo++ = (unsigned char) Video; CheckBank(pVideo, &bank); pvideofirstcolumn += BytesPerScanLine; } pvideostart += 4; Point to next character pvideofirstcolumn = pvideostart; } break; case 256: while (*str!= ) { ch = *str++; if ((ch < ' ') (ch - ' ' > MAX_FONT-1)) ch = '.'; pfont = &font[ch - ' '][]; for (y = ; y < 8; ++y) { pvideo = pvideofirstcolumn; Video = ; val = *pfont++; Since there are 256 colors, each bit in the font will be represented in video memory as an 8 bit pixel. for (count = ; count < 8; ++count) { if (val & x8) Video = color; else Video = ; *pvideo++ = (unsigned char) Video; CheckBank(pVideo, &bank); val <<= 1; } pvideofirstcolumn += BytesPerScanLine; } pvideostart += 8; Point to next character pvideofirstcolumn = pvideostart; S18A-G

135 EPSON } } } break; FUNCTION: SplitScreen() DESCRIPTION: Show split screen. INPUTS: None. RETURN VALUE: None void SplitScreen(void) { static unsigned char _far *pvideoimage1; static unsigned char _far *pvideoimage2; static unsigned long ImageSize; static unsigned int OriginalLineCount; static unsigned int val; static int MinLineCount; static unsigned int MaxVirtualScanLines; static unsigned char Image2Bank; printf("showing Split Screen\n"); Initialize(); SetDisplay(OFF); ClearLCDScreen(); Access memory banks FP_SEG(pVideoImage1) = xd; FP_OFF(pVideoImage1) = x; switch (PanelGrayLevel) { case 2: BytesPerScanLine = (PanelX / 8); break; case 4: BytesPerScanLine = (PanelX / 4); break; case 16: BytesPerScanLine = (PanelX / 2); break; case 256: BytesPerScanLine = PanelX; break; } ShowVerticalBars(pVideoImage1, ); 2-62 S18A-G-2-2

136 SED1353 Programming Notes and Examples Calculate starting video memory location for image 2 by finding the last location of image 1 ImageSize = (unsigned long) BytesPerScanLine * PanelY; Because the image size is limited to a maximum of 32 x 24, and there is 128K of video memory, there is enough memory available. FP_SEG(pVideoImage2) = xd; FP_OFF(pVideoImage2) = (unsigned int) (ImageSize & xffff); if (ImageSize & xffff) Image2Bank = BANK1; else Image2Bank = BANK; ShowHorizontalBars(pVideoImage2, Image2Bank); Show text. The lightest color/gray shade is set to PanelGrayLevel-1. ShowText(pVideoImage1, BANK, "SPLIT SCREEN IMAGE ONE", PanelGrayLevel-1); ShowText(pVideoImage2, Image2Bank, "SPLIT SCREEN IMAGE TWO", PanelGrayLevel-1); Set Screen 2 Display Start Address register to point to Image 2 Adjust ImageSize to represent the size in words, not bytes. This is because the Memory Interface is set to 16 bits. val = (unsigned int) (ImageSize / 2); WriteRegister(8, (unsigned int) val & xff); WriteRegister(9, (unsigned int) val >> 8); SetDisplay(ON); If this is a dual panel, then the split screen has just been shown. Otherwise, set up the Screen 1 Display Line Count register for single panels. if (PanelType == TYPE_SINGLE) { OriginalLineCount = (unsigned int) ((ReadRegister(xb) & x3) << 8) ReadRegister(xa); Only for 128K of memory MaxVirtualScanLines = (unsigned int) ((unsigned long) x2 / BytesPerScanLine); MinLineCount = OriginalLineCount - (MaxVirtualScanLines - OriginalLineCount) + 1; if (MinLineCount < ) MinLineCount = ; S18A-G

137 EPSON Scroll image 2 down for (val = MinLineCount; val < OriginalLineCount; val += 1) { WriteRegister(xa, val & xff); Total Display Line Count WriteRegister(xb, (val >> 8) & x3); Total Disp Line Cnt/WF Count Delay(DELAY_SHORT); } Scroll image 2 up for (val = OriginalLineCount; val > (unsigned int) MinLineCount; val -= 1) { WriteRegister(xa, val & xff); Total Display Line Count WriteRegister(xb, (val >> 8) & x3); Total Disp Line Cnt/WF Count Delay(DELAY_SHORT); } val = MinLineCount; WriteRegister(xa, val & xff); WriteRegister(xb, (val >> 8) & x3); Total Display Line Count Reg Total Disp Line Cnt/WF Count Delay(5); } ShowMenu(); } void SetStartAddress(int x, int y) { int addr; switch (PanelGrayLevel) { case 16: addr = (unsigned int) ((x/2 + (VIRTUAL_X/2) * y)/2); break; case 256: addr = (unsigned int) ((x + VIRTUAL_X * y)/2); break; } WriteRegister(6, addr & xff); WriteRegister(7, addr >> 8); } void PanScroll(void) { static unsigned int x, y; static unsigned int MaxX, MaxY; static unsigned int val, pitch; static unsigned char _far *pvideo; static unsigned char bank, color; printf("showing Panning and Scrolling\n"); 2-64 S18A-G-2-2

138 SED1353 Programming Notes and Examples Initialize(); SetDisplay(OFF); ClearLCDScreen(); switch (PanelGrayLevel) { case 16: pitch = (unsigned int) (((VIRTUAL_X / 2) - BytesPerScanLine) / 2); BytesPerScanLine = (VIRTUAL_X / 2); break; case 256: pitch = (unsigned int) ((VIRTUAL_X - BytesPerScanLine) / 2); BytesPerScanLine = VIRTUAL_X; break; } WriteRegister(xd, pitch); Access memory banks FP_SEG(pVideo) = xd; FP_OFF(pVideo) = x; Display random blocks of data. To do so, a text character will be used. This character sets all pixels in a character region, so a block is shown at the specified gray shade. Seed the random number generator with current time srand((unsigned) time(null)); for (x = ; x < 3; ++x) { if (((rand() * 2L) / RAND_MAX) == 1) bank = BANK; else bank = BANK1; FP_OFF(pVideo) = (unsigned int) ((rand() * xffffl) / RAND_MAX); val = rand() % 5; switch (PanelGrayLevel) { case 16: color = (unsigned char) (rand() % 16); break; case 256: color = (unsigned char) (rand() % 256); break; } The last character in the font table is a solid block character. ShowText(pVideo, bank, "\x8", color); } S18A-G

139 EPSON ShowBorders(); Move virtual display from (, ) to (MaxX, ) MaxX = (unsigned int) (VIRTUAL_X - PanelX); MaxY = (unsigned int) (VIRTUAL_Y - PanelY); SetDisplay(ON); for (x = ; x <= MaxX; ++x) { SetStartAddress(x, ); Delay(DELAY_SHORT); } for (y = ; y <= MaxY; ++y) { SetStartAddress(MaxX, y); Delay(DELAY_SHORT); } for (x = MaxX; x > ; --x) { SetStartAddress(x, MaxY); Delay(DELAY_SHORT); } for (y = MaxY; y > ; --y) { SetStartAddress(, y); Delay(DELAY_SHORT); } SetStartAddress(, ); ShowMenu(); } FUNCTION: PowerSaving() DESCRIPTION: Starts power saving mode 2. INPUTS: None. RETURN VALUE: None void PowerSaving(void) { static unsigned int val; printf("starting Power Saving\n"); The following are the steps to enter a power save mode. Step 1: Turn off display val = ReadRegister(1); 2-66 S18A-G-2-2

140 SED1353 Programming Notes and Examples val &= x7f; WriteRegister(1, val); Step 2: Disable LCDE (turn off LCD power supply). For the SDU1353BC, set LCDE bit to. val = ReadRegister(1); val &= xef; WriteRegister(1, val); Step 2: Wait for LCD power supply to drop to zero volts For the SDU1353BC, wait about a half second. Delay(5); Step 3: Enter Power Save Mode val = ReadRegister(3); val &= x3f; val = x8; WriteRegister(3, val); Set power saving mode 2 printf("press any key to cancel power saving\n"); getch(); The following are the steps to exit a power save mode. Step 1: Exit Power Save Mode val = ReadRegister(3); val &= x3f; WriteRegister(3, val); Cancel power saving mode 2 Step 2: Enable LCDE (turn on LCD power supply). For the SDU1353BC, set LCDE bit to 1. val = ReadRegister(1); val = x1; WriteRegister(1, val); Step 3: Turn on display. val = ReadRegister(1); val = x8; WriteRegister(1, val); ShowMenu(); } S18A-G

141 EPSON 1353 SED1353 LCD LCD SED1353 LCD LCD SED1353 LCD LUT LUT SDU1353BC SED1353FA SDU1353BC PC ISA SED1353 SED1353 LCD / 64K 64K 1 64K LCD LCD 1 2 SED SED1353 SED1353 / 2-68 S18A-G-2-2

142 SED1353 Register Summary AUX[1] : I/O = 1b, RW DISP PANEL XSCL LCDE / LCD RAMS AUX[2] (LSB): I/O = 1b, RW ( ) AUX[3] 1: I/O = 11b, RW LCD LUT LCD 1 1 BW/256 8 AUX[4] (LSB): I/O = 1b, RW ( ) AUX[5] (MSB) & WF : I/O = 11b, RW WF AUX[6] 1 (LSB): I/O = 11b, RW 1 ( ) AUX[7] 1 (MSB): I/O = 111b, RW 1 ( ) AUX[8] 2 (LSB): I/O = 1b, RW 2 ( ) AUX[9] 2 (MSB): I/O = 11b, RW 2 ( ) AUX[A] 1 (LSB): I/O = 11b, RW 1 ( ) AUX[B] 1 (MSB): I/O = 111b, RW n/a 1 n/a n/a n/a n/a n/a AUX[C] : I/O = 11b, RW AUX[D] : I/O = 111b, RW AUX[E] : I/O = 111b, RW G ID 2 / RGB ( ) AUX[F] : I/O = 1111b, RW R B ( ) : 1. n/a 2. / SED1353 / b SED1353 1b SED1352FB/F1B/DB 11b SED1352FA/F1A/DA S18A-Q

143 SED1353 Series Dot Matrix Graphic LCD Controller Utilities

144 UTILITIES SHOW.EXE VIRT.EXE BIOS.COM MODE.EXE PD.EXE READ.EXE

145 1353SHOW.EXE Display Utility 1353SHOW GIF 2 SED1353 BIOS DOS DOS Windows Windows DO Windows DOS OS/2 DOS : SED1353 : LCD : 1353BIOS ver. 1.xx : : 3. : : : : (DOS ) 1353SHOW DOS 1353show [file1.gif] [file2.gif] [/i] [/k] [/v] [/?] file1.gif 1 file2.gif 2 /I / /k /v GIF /d /? 1353show Page Up Page Down Home End 1353show file.gif GIF 1353show file1.gif file2.gif 2 GIF 2 (file2.gif) Page Up Page Down Home End Esc S18A-B

146 EPSON 1353SHOW 1353BIOS.COM LCD GIF 2 GIF GIF89a /k Esc 1353SHOW 1353SHOW ( : ) ERROR: This program requires BIOS1353 to be loaded! 1353SHOW 1353BIOS.COM 1353BIOS.COM 1353SHOW.EXE File filename not found or cannot be opened for reading. GIF File is not GIF89a format. GIF 1353SHOW GIF89a Insufficient video memory for second image S18A-B-1-1

147 1353VIRT.EXE Display Utility 1353VIRT.EXE SED VIRT.EXE BIOS DOS DOS Windows Windows DOS Windows DOS OS/2 DOS : SED1353 : LCD : 1353BIOS ver. 1.xx : : 3. : : : : (DOS ) 1353VIRT DOS 1353virt g=n [/a] [/k] [/?] g n n /a / /k /? 2 : : Home : Page Up : End : Page Down : 5 : Ctrl+ : / Num Lock : 2 Shift+ Shift+ : Esc : S18A-B

148 EPSON 1353VIRT 1353BIOS.COM ERROR: This program requires 1353BIOS to be loaded! 1353VIRT 1353BIOS.COM 1353BIOS.COM 1353VIRT.EXE 3-4 S18A-B-2-1

149 1353BIOS.COM Utility 1353BIOS PC INT 1h (TSR) VGA BIOS SED1353 VGA EGA VGA BIOS Edlin Debug DOS Copy Ren Mkdir Edit Qbasic Scandisk VGA BIOS VGA BIOS BIOS DOS DOS Windows Windows DOS Windows DOS OS/2 DOS : SED1353 : LCD : VGA BIOS : : 3. : : : : ) (DOS 1353BIOS.COM DOS 1353bios.ini 1353bios.com 1353bios.com 1353bios.ini 1353bios.com 1353bios.ini 1353bios.com 1353bios t=n x=n y=n d=n g=n i=n m=n p=n [f=n] [/?] t LCD n x LCD (1 ) y LCD (1 ) d LCD n g n i n p 16 n (1h ) m K n f 8 n /? SDU BIOS t=single x=32 y=24 d=color g=256 i=8 p=31 m=128 f=2 S18A-B

150 EPSON 1353BIOS (mono) LCD DOS MODE MODE MONO MODE CO8 LCD 1353BIOS 3 BIOS 1353BIOS VGA BIOS TTY VGA 64K SED1353 Dh DFFFh 128K Ch DFFFh ERROR: Panels greater than 64 pixels not supported. 64 ERROR: Panels greater than 48 lines not supported. 48 ERROR: Invalid port specified. ( p) 3x 3h 37h 1h ERROR: Not enough memory for panel ERROR: Video memory and VGA BIOS memory conflict. SED1353 VGA BIOS Ch CFFFh ERROR: Only 64k or 128k memory allowed. ( m) 3-6 S18A-B-3-1

151 1353MODE.EXE Display Utility 1353MODE SED1353 / 128K / BIOS DOS DOS Windows Windows DOS Windows DOS OS/2 DOS : SED1353 : LCD : 1353BIOS ver. 1.xx : : 3. : : : : (DOS ) 1353MODE DOS 1353mode g=n [/?] [/d] [/k] g n n /? /d LUT /k 1353MODE / / show.exe 1353show file.gif /k mode /d (LUT) Esc 1353BIOS S18A-B

152 EPSON 1353MODE 1353BIOS.COM ERROR: This program requires 1353BIOS to be loaded! 1353MODE 1353BIOS.COM 1353BIOS.COM 1353MODE.EXE 3-8 S18A-B-4-1

153 1353PD.EXE Power Down Utility 1353PD SOLLEX Super VGA BIOS SED1353 LCD OEM BIOS DOS DOS Windows Windows DO Windows DOS OS/2 DOS : SED1353 : LCD : 1353BIOS ver. 1.xx : : 3. : : : : (DOS ) 1353PD DOS 1353pd ModeNumber ModeNumber pd 2 <ENTER> COM1 1353pd 2 > com1 <ENTER> ( ) 1353PD 1353BIOS.COM SED SED LCD Low S18A-B

154 EPSON Power Down Mode xx is set. xx SED1353 ERROR: Cannot set power mode xx! 1353PD.EXE 1353BIOS.COM 2 ERROR: This program requires 1353BIOS to be loaded! 1353PD 1353BIOS.COM 3-1 S18A-B-5-1

155 1353READ.EXE Diagnostic Utility 1353READ SED1353 OEM OEM 1353BIOS BIOS : SED1353 : LCD BIOS : 1353BIOS.COM ( ) DOS : DOS : 3. Windows : Windows DO : Windows DOS : OS/2 DOS : : 1353READ stdout MORE.COM DOS (DOS ) DOS 1353read [p=n] [/?] SED1353 p SED ( : 31) /? 1353read [port] > report.txt 1353READ report.txt 1353BIOS 1353READ 1353BIOS.COM 1353BIOS 1353READ READ SUD1353BC 3h 37h S18A-B

156 EPSON ERROR: 1353 registers not responding at port address [port]. SED BIOS 1353READ ERROR: 1353READ requires a port address. 1353READ 1353BIOS.COM 1353READ 1353READ 1353BIOS.COM ERROR: 1353BIOS reports a port address of [port], which is different from the specified port address of [port]. 1353READ 1353BIOS.COM 1353READ 1353BIOS.COM SDU1353 WARNING: 1353BIOS state is out of sync with SED1353 registers. 1353BIOS SED1353 /( ) 3-12 S18A-B-6-1

157 SED1353 Series Dot Matrix Graphic LCD Controller SDU1353BC Evaluation Board User s Manual

158 SDU1353BC EVALUATION BOARD USER S MANUAL 1 SDU1353BC REV ISA ISA SRAM LCD LCD LCD LCD CPU/ A B SDU1353BC REV

159 1 SDU1353BC Rev. 1. (1/7) SDU1353BC Rev. 1. (2/7) SDU1353BC Rev. 1. (3/7) SDU1353BC Rev. 1. (4/7) SDU1353BC Rev. 1. (5/7) SDU1353BC Rev. 1. (6/7) SDU1353BC Rev. 1. (7/7) DIP I/O LCD J CPU/ H CPU/ H

160 SDU1353BC Rev. 1. Evaluation Board User s Manual SED1353FA LCD SDU1353BC Rev. 1. QFP5-1pin SED1353FA SMD 4/8 STN LCD 4/8/16 STN LCD 8/16 ISA 5V 2 ( 25.MHz) K SRAM LCD BIAS LCD BIAS ISA CPU/ S18A-G

161 EPSON SED1353FA (VD[15:]) 8 DIP 2-1 DIP (ON) (OFF) SW1-1 VD 16 ISA 8 ISA SW1-2 VD1 I/O I/O SW1-3 VD2 M68K CPU ISA SW1-4 VD3 / SW1-5 VD7 I/O 4 Table 2-2, I/O SW1-6 VD8 I/O 5 SW1-7 VD9 I/O 6 SW1-8 : DIP 1(High) (Low) VD[15:] K $D 2 64K ( SRAM (7 ) ) $3y ( 11 yyy x) I/O x don t care yyy DIP SW1-5 SW1-7 yyy=1 I/O $31 $311 I/O ISA I/O I/O $3yx( 11 yyy xxxx) x don t care yyy DIP SW1-5 SW1-7 yyy=1 AUX[] I/O $31 AUX[1] I/O $311 AUX[2] I/O $312 ( ISA (7 ) ) 2-2 I/O I/O (Hex) JP1 SW1-1 (VD) 1 JP2 SW1-5 (VD7) 1 JP3 SW1-6 (VD8) 1 JP4 SW1-7 (VD9) 1 JP LCD XSCL2 ( 1) ( Functional Specification ) NC XSCL2 : ISA ISA 1kΩ VD11 VD12 VD14 VD15 ( R6 R5 R4 R3) ISA (7 ) 1kΩ VD4 (R18), VD5 (R19), VD6 (R2), VD1 (R21), VD13 (R17) 4-2 S18A-G-7-1

162 SDU1353BC Rev. 1. Evaluation Board User s Manual LCD SED1353 LCD No. 16 / 2-4 LCD J1 8 STN LCD 8 8 ( 1 #1 ) ( 2 #1 ) AUX[3] b3 =, AUX[3] b3 = 1, AUX[1] b2 = 1 AUX[1] b2 = 1 STN LCD LD 1 LD LD LD LD LD LD1 3 LD1 LD1 LD1 LD1 LD1 LD2 5 LD2 LD2 LD2 LD2 LD2 LD3 7 LD3 LD3 LD3 LD3 LD3 UD 9 UD UD UD UD UD UD UD UD1 11 UD1 UD1 UD1 UD1 UD1 UD1 UD1 UD2 13 UD2 UD2 UD2 UD2 UD2 UD2 UD2 UD3 15 UD3 UD3 UD3 UD3 UD3 UD3 UD3 LD4 17 LD4 LD5 19 LD5 LD6 21 LD6 LD7 23 LD7 UD4 25 UD4 UD5 27 UD5 UD6 29 UD6 UD7 31 UD7 XSCL 33 XSCL XSCL XSCL XSCL XSCL XSCL XSCL WF/XSCL2 35 XSCL2 LP 37 LP LP LP LP LP LP LP YD 39 YD YD YD YD YD YD YD GRND 2 26 GRND GRND GRND GRND GRND GRND GRND ( ) N/C 28 VLCD 3 VLCD VLCD VCC 32 +5V +5V +5V +5V +5V +5V +5V +12V V +12V +12V +12V +12V +12V +12V VDDH 36 VDDH VDDH VDDH VDDH VDDH VDDH VDDH WF/XSCL2 38 WF WF WF WF WF WF LCDENB 4 /LCDPWR /LCDPWR /LCDPWR /LCDPWR /LCDPWR /LCDPWR /LCDPWR S18A-G

163 EPSON CPU/ 2-5 CPU/ H1 CPU/ No. 1 SD SED1353 DB 2 SD1 SED1353 DB1 3 SD2 SED1353 DB2 4 SD3 SED1353 DB3 5 GND 6 GND 7 SD4 SED1353 DB4 8 SD5 SED1353 DB5 9 SD6 SED1353 DB6 1 SD7 SED1353 DB7 11 GND 12 GND 13 SD8 SED1353 DB8 14 SD9 SED1353 DB9 15 SD1 SED1353 DB1 16 SD11 SED1353 DB11 17 GND 18 GND 19 SD12 SED1353 DB12 2 SD13 SED1353 DB13 21 SD14 SED1353 DB14 22 SD15 SED1353 DB15 23 RESET SED1353 RESET 24 GND 25 GND 26 GND V 12V V 12V 29 /SBHE SED1353 BHE# 3 IOCHRDY SED1353 READY 31 /IOSC SED1353 IOCS# 32 /MEMCS SED1353 MEMCS# 4-4 S18A-G-7-1

164 SDU1353BC Rev. 1. Evaluation Board User s Manual 2-6 CPU/ H2 CPU/ No. 1 SA SED1353 AB 2 SA1 SED1353 AB1 3 SA2 SED1353 AB2 4 SA3 SED1353 AB3 5 SA4 SED1353 AB4 6 SA5 SED1353 AB5 7 SA6 SED1353 AB6 8 SA7 SED1353 AB7 9 GND 1 GND 11 SA8 SED1353 AB8 12 SA9 SED1353 AB9 13 SA1 SED1353 AB1 14 SA11 SED1353 AB11 15 SA12 SED1353 AB12 16 SA13 SED1353 AB13 17 GND 18 GND 19 SA14 SED1353 AB14 2 SA15 SED1353 AB15 21 SA16 U SA17 SED1353 AB17 23 SA18 SED1353 AB18 24 SA19 SED1353 AB19 25 GND 26 GND 27 +5V 5V 28 +5V 5V 29 /IOW SED1353 IOW# 3 /IOR SED1353 IOR# 31 /SMEMW SED1353 MEMW# 32 /SMEMR SED1353 MEMR# S18A-G

165 EPSON AT I/O 8/16 ISA ISA (2 ) SED1353FA Application Notes(S18A-G-3-xx) 11 yyy x I/O x don t care yyy DIP SW1-5 SW1-7 yyy=1 I/O $31 $311 SRAM (7 ) : I/O $31 1 I/O $311 I/O $31 5 I/O $311 7 : 1 :AUX[1] : 5 :AUX[5] 7 VGA VGA ISA VL VGA 8 BIOS EPROM ( ROM 1 ) SDU1353BC SW1-1 : 8 VGA BIOS MEMCS16# SW1-2 ~1-4 : I/O ISA SW1-5~1-7 : JP1 2-3 : SW1-1 JP2~JP4 : SW1-5~1-7 JP5 : ISA VL VGA 16 BIOS EPROM ( 2 ROM ) SDU1353BC 16 ISA 8 ISA SDU1353BC PCI VGA SDU1353BC 16 ISA 8 ISA SDU1353BC SDU1353BC 16 ISA 8 ISA SDU1353BC BIOS No Video 1353BIOS.COM BIOS 1353BIOS.COM(S18A-B-3-1) 4-6 S18A-G-7-1

166 SDU1353BC Rev. 1. Evaluation Board User s Manual 8/16 ISA SED1353FA ( 2-1 DIP (2 ) CPU/ (9 ) ) 1. ISA ISA ( ) 2. U2 TIBPAL22V1 PAL ISA SED1353FA IOCS#(23 ) MEMCS#(22 ) ISA U K RAM ISA U2 H2 21 U2 2 SA16 U1 4. VD[15:] 1kΩ VD SDU1353BC K SRAM SDU1353BC VGA 128K 2 64K 64K I/O +2(I/O $31 $312) 2 64K 64K $D I/O $312 : I/O $312 : 1 SED1353FA 4 /8 LCD LCD J1 (3 ) SDU1353BC 4 /8 /16 LCD 4 16 SED1353FA SED1353 UD[3:] LD[3:] D Q 74LS374 UD[3:] LD[3:] UD[7:4] LD[7:4] 16 XSCL CK SED1353FA LCD J1 (3 ) S18A-G

167 EPSON SED1353FA PD.EXE SED1353FA LCD -18V -23V(IOUT = 45mA) VLCD R11(1K ) -14V -23V LCDENB ( / ) : LCDENB SED1353FA AUX[1] 4 SDU1353BC VLCD 1 LCDENB VLCD SDU1353BC LCD STN LCD +23V +4V(IOUT = 45mA) VDDH R8(1K ) +23V +4V LCDENB ( / ) : LCDENB SED1353FA AUX[1] 4 SDU1353BC VDDH 1 LCDENB VDDH SDU1353BC SED1353FA 25.MHz Hardware Functional Specification MHz Hardware Functional Specification 9.3 : C7 C8 R S18A-G-7-1

168 SDU1353BC Rev. 1. Evaluation Board User s Manual SED1353FA CPU/ SA16 H1 H2 ISA CPU/ 2-5 CPU/ H1 (4 ) 2-6 CPU/ H2 (5 ) : SED1353FA CPU/ MC68 (SW1-3 ) SED1353FA S18A-G

169 EPSON 1 13 C11~C23.1µF.1µF, 126 pckg 2 2 C9 ~C1 1µF 1uF / 25V D-SIZE 3 2 C7~C8 7pF 7pF, 126 pckg () 4 3 C2~C4 1µF / 63V (LXF63VB1RM5X11LL) 5 3 C1, C5, C6 56µF/35V LXF35VB56RM6X11LL 6 2 H1, H2 CON32A JP1~JP J1 CON4A 4 PTH 9 1 L1 1µH IM-4-1.µH PTH 1 2 L2~L Q1 2N396 PNP TO-92 PTH 12 1 Q2 2N393 NPN TO-92 PTH 13 3 R2, R13, R14 1K 1kΩ/126/5% 14 2 R12, R15 1K 1kΩ/126/5% 15 4 R3~R6 1K 1kΩ/126/5% 16 1 R7 47K 47kΩ/126/5% 17 1 R8 2K 2kΩ POT Spectrol 63S24T R9 1K 1kΩ 1 SIP, Part No. 461X R1 14K 14kΩ/126/5% 2 1 R11 1K 1kΩ POT Spectrol 63S14T R16 2M 2MΩ/126/5% () 22 1 R1 Ω Ω/126/1% 23 5 R17~R21 1K 1kΩ/126/5% 24 1 S1 SW-DIP-8 8 DIP 25 1 U1 SED1353FA QFP5-1-S U2 TIBPAL22V1 Texas Ins. PAL, 27 2 U3, U4 74LS688 DW2 SMT 28 1 U5 74LS9 D14 SMT 29 2 U6, U7 SRM21LTM-7 128K 8 SRAM 3 1 U8 RD-412 XENTEK U9 EPN1 XENTEK U1 OSC MHz, 12.MHz, 6.MHz14 ( ) 33 1 U11 74LS374 DW2 SMT 34 1 Y MHz () 4-1 S18A-G-7-1

170 SDU1353BC Rev. 1. Evaluation Board User s Manual S18A-G SDU1353BC Rev. 1. (1/7) Date: December 13, 1996 Sheet 1 of 7 Size Document Number REV B SCH 1. Title SDU1353BOC SMD ISA-BUS EVALUATION BOARD SD[..15] LD[..3] SD SD1 SD2 SD3 SD4 SD5 SD6 SD7 SD8 SD9 SD1 SD11 SD12 SD13 SD14 SD15 LD LD1 LD2 LD[..3] SA SA1 SA2 SA3 SA4 SA5 SA6 SA7 SA8 SA9 SA1 SA11 SA12 SA13 SA14 SA15 SA17 SA18 SA19 AB 12 AB1 13 AB2 14 AB3 15 AB4 16 AB5 17 AB6 18 AB7 19 AB8 2 AB9 21 AB1 22 AB11 23 AB12 24 AB13 25 AB14 26 AB15 27 AB17 29 AB19 31 IOCS# 84 IOW# 85 IOR# 86 MEMCS# 87 MEMW# 88 MEMR# 89 OSC1 92 OSC2 93 RESET 32 DB 94 DB1 95 DB2 96 DB3 97 DB4 98 DB5 99 DB6 1 DB7 1 DB8 4 DB9 5 DB1 6 DB11 7 DB12 8 DB13 9 DB14 1 DB15 11 LD 77 LD1 76 LD2 75 LD3 74 UD 73 UD1 72 UD2 71 UD3 7 WF/XSCL2 8 LP 79 YD 78 XSCL 81 VA1 34 VA2 35 VA3 36 VA4 37 VA5 38 VA6 39 VA7 4 VA8 41 VA9 42 VA12 63 VA13 64 VA14 65 VA15 66 VD 44 VD1 45 VD2 46 VD3 47 VD4 48 VD5 49 VD6 5 VD7 51 VD8 54 VD9 55 VD1 56 VD11 57 VD12 58 VD13 59 VD14 6 VD15 61 VWE# 67 VOE# 83 VCS# 68 VCS1# 69 VA11 62 LCDENB 82 VA 33 VA1 43 AB16 28 AB18 3 BHE# 91 READY 9 VSS 52 VSS 2 VDD 53 VDD 3 U1 SED1353FA NEW-SA16 SA[..19] OSC1 OSC2 /SBHE /IOCS /IOW /IOR /MEMCS RESET /SMEMW /SMEMR NEW-SA16 OSC1 OSC2 /SBHE /IOCS /IOW /IOR /MEMCS RESET /SMEMW /SMEMR LD3 UD UD1 UD2 UD3 LP YD XSCL LCDENB VA VA1 VA2 VA3 VA4 VA5 VA6 VA7 VA8 VA9 VA1 VA11 VA12 VA13 WF/XSCL2 UD[..3] LP YD XSCL LCDENB WF/XSCL2 UD[..3] IOCHRDY VA[..15] VD[..15] /VWE /VOE /VCS /VCS1 VA14 VA15 VD VD1 VD2 VD3 VD4 VD5 VD6 VD7 VD8 VD9 VD1 VD11 VD12 VD13 VD14 VD15 /VWE /VOE /VCS /VCS1 IOCHRDY +5V +12V +12V +5V VSS +5V GND R1

171 EPSON SA[1..19] LA[17..23] +12V +12V +5V +5V VSS GND +5V JP HEADER 3 JP HEADER 3 JP HEADER 3 JP HEADER 3 /8BITBI 16-BIT INTERFACE = 1 8-BIT INTERFACE = SA1 SA11 SA12 SA13 SA14 SA15 SA16 SA17 SA18 SA19 ADDBIT6 ADDBIT5 ADDBIT4 SA9 SA8 SA7 SA6 SA5 SA4 SA3 SA2 SA1 +5V U3 P P1 P2 P3 P4 P5 P6 P7 Q Q1 Q2 Q3 Q4 Q5 Q6 Q7 G /P=Q 74LS688 DW2 VCC GND V +5V LA17 LA18 LA19 LA2 LA21 LA22 LA U4 P P1 P2 P3 P4 P5 P6 P7 Q Q1 Q2 Q3 Q4 Q5 Q6 Q7 G /P=Q 74LS688 DW2 VCC GND V MEMORY ADDRESS = C SEGMENT OR C & D SEGMENTS /IODC2TO U2 CLK/IN I/O IN I/O IN I/O IN I/O IN I/O IN I/O IN I/O IN I/O IN I/O IN I/O IN IN GND TIBPAL22V1 VCC /IOCS16EN /LCDENB LCDENB /IOEN REFRESH +5V /IOCS /MEMCS NEW-SA16 NEW-SA16 /IOW LCDENB /IOEN REFRESH /IOR +5V U5A R2 1K 3 /LCDPWR 74LS9 D14 U5B 6 /IOCS16 74LS9 D14 U5C 8 /MEMCS16 74LS9 D14 U5D 11 74LS9 D14 Unused gate Title SDU135BC SMD ISA-BUS EVALUATION BOARD Size Document Number REV B SCH Date: 1996 Sheet 7 December 13, 2 of 2 SDU1353BC Rev. 1. (2/7) 4-12 S18A-G-7-1

172 SDU1353BC Rev. 1. Evaluation Board User s Manual +5V R18 1K +12V +12V +5V +5V VSS GND R19 1K R2 1K R21 1K R17 1K R3 1K R4 1K FOR 68 MPU SUPPORT VD[..15] VD[..15] VA[..15] +5V VA VA1 VA2 VA3 VA4 VA5 VA6 VA7 VA8 VA9 VA1 VA11 VA12 VA13 VA14 VA U6 A A1 A2 A3 A4 A5 A6 A7 A8 A9 A1 A11 A12 A13 A14 A15 A16 OE WE CS1 CS2 DO1 DO2 DO3 DO4 DO5 DO6 DO7 DO8 R5 1K NC 8 VDD VSS SRM21LTM-7 /VOE /VOE /VWE /VWE /VCS /VCS /VCS1 /VCS1 24 R6 1K VD VD1 VD2 VD3 VD4 VD5 VD6 VD7 +5V R9A 1K V VA VA1 VA2 VA3 VA4 VA5 VA6 VA7 VA8 VA9 VA1 VA11 VA12 VA13 VA14 VA15 R9H 1K 1 R9I 1K 1 S1 SW DIP-8 VD9 (IOBIT6) VD8 (IOBIT5) VD7 (IOBIT4) VD3 (NO BYTESWAP) VD2 (ISA) VD1 (INDEXING) VD (8BITBI) VD11 VD12 VD14 VD15 VD13 VD1 VD6 VD5 VD U7 A A1 A2 A3 A4 A5 A6 A7 A8 A9 A1 A11 A12 A13 A14 A15 A16 OE WE CS1 CS2 DO1 DO2 DO3 DO4 DO5 DO6 DO7 DO8 NC VDD VSS SRM21LTM VD8 VD9 VD1 VD11 VD12 VD13 VD14 VD15 +5V Title SDU1353BOC SMD ISA-BUS EVALUATION BOARD Size Document Number REV B SCH Date: 1996 Sheet 7 December 12, 3 of 3 SDU1353BC Rev. 1. (3/7) S18A-G

173 EPSON +12V +12V +5V +5V VSS GND LD[..3] UD[..3] XSCL WF/XSCL2 LP YD SD SD2 GND SD4 SD6 GND SD8 SD1 GND SD12 SD14 RESET GND +12V /SBHE /IOCS LD[..3] UD[..3] JP HEADER 3 H CON32A Mono/Color LCD Connector LD LD1 LD2 LD3 UD UD1 UD2 UD3 LD4 LD5 LD6 LD7 UD4 UD5 UD6 UD7 XSCL XSCL2 LP YD J CON4A VLCD +5V +12V VDDH WF/XSCL2 WF/XSCL2 /LCDPWR /LCDPWR LD LD1 LD2 LD3 UD UD1 UD2 UD U11 D D1 D2 D3 D4 D5 D6 D7 OC CLK 74LS374 DW2 Q Q1 Q2 Q3 Q4 Q5 Q6 Q7 VCC GND LD4 LD5 LD6 LD7 UD4 UD5 UD6 UD7 +5V 2 46 SD1 SD3 GND SD5 SD7 GND SD9 SD11 GND SD13 SD15 GND GND +12V IOCHRDY /MEMCS SA SA2 SA4 SA6 GND SA8 SA1 SA12 GND SA14 SA16 SA18 GND +5V /IOW /SMEMW H CON32A CPU/BUS I/F SA1 SA3 SA5 SA7 GND SA9 SA11 SA13 GND SA15 SA17 SA19 GND +5V /IOR /SMEMR Title SDU1353BOC SMD ISA-BUS EVALUATION BOARD Size Document Number REV B SCH Date: 1996 Sheet 7 December 13, 4 of 4 SDU1353BC Rev. 1. (4/7) 4-14 S18A-G-7-1

174 SDU1353BC Rev. 1. Evaluation Board User s Manual +12V +12V +5V +5V VSS GND IOCHRDY /IOEN SA[..19] /SBHE LA[17..23] SD[..15] SD7 SD6 SD5 SD4 SD3 SD2 SD1 SD SA19 SA18 SA17 SA16 SA15 SA14 SA13 SA12 SA11 SA1 SA9 SA8 SA7 SA6 SA5 SA4 SA3 SA2 SA1 SA LA23 LA22 LA21 LA2 LA19 LA18 LA17 SD8 SD9 SD1 SD11 SD12 SD13 SD14 SD AT1 /IOCHCK SD7 SD6 SD5 SD4 SD3 SD2 SD1 SD IOCHRDY AEN SA19 SA18 SA17 SA16 SA15 SA14 SA13 SA12 SA11 SA1 SA9 SA8 SA7 SA6 SA5 SA4 SA3 SA2 SA1 SA AT CON-A AT3 /SBHE LA23 LA22 LA21 LA2 LA19 LA18 LA17 /MEMR /MEMW SD8 SD9 SD1 SD11 SD12 SD13 SD14 SD15 AT CON-C AT2 GND RESET +5V IRQ9-5V DRQ2-12V OWS +12V GND /SMEMW /SMEMR /IOW /IOR /DACK3 DRQ3 /DACK1 DRQ1 /REFRESH CLK IRQ7 IRQ6 IRQ5 IRQ4 IRQ3 /DACK2 T/C BALE +5V OSC GND AT CON-B AT4 /MEMCS16 /IOCS16 IRQ1 IRQ11 IRQ12 IRQ15 IRQ14 /DACK DRQ /DACK5 DRQ5 /DACK6 DRQ6 /DACK7 DRQ7 +5V MASTER GND AT CON-D V +5V +12V RESET /SMEMW /SMEMR /IOW /IOR REFRESH /MEMCS16 /IOCS16 Title SDU1353BOC SMD ISA-BUS EVALUATION BOARD Size Document Number REV B SCH Date: 1996 Sheet 7 December 12, 5 of 5 SDU1353BC Rev. 1. (5/7) S18A-G

175 EPSON PSVCC L2 1 2 PSGND L V +12V +5V +5V VSS GND +5V /LCDPWR PSVCC C1 56uF/35V PSVCC U8 RD-412 R D EM C_ O I TE N 2 3 U9 EPN1 D D C_ C_ I I N N C5 56uF/35V G ND G G G G G ND ND ND ND ND G ND V OU D T C A O D UT J N C9 D D C_ C_ O O N N N UT UT C C C N C V OU T _A G G D ND ND J R11 1K R7 47K R8 2k R1 14k L uH C2 1uF/63V C3 1uF/63V LOW ESR LOW ESR +5V R13 1K Q1 2N396 R14 1K R12 1K Q2 2N393 C6 56uF/35V PSGND VDDH adjustable 23v to 4v C4 1uF/63V PSGND R15 1K VLCD adjustable -14v to -23v Title SDU1353BOC SMD ISA-BUS EVALUATION BOARD Size Document Number REV B SCH Date: 1996 Sheet 7 December 12, 6 of 6 SDU1353BC Rev. 1. (6/7) 4-16 S18A-G-7-1

176 SDU1353BC Rev. 1. Evaluation Board User s Manual +12V +12V +5V +5V VSS GND +5V C11.1uF OSC1 OSC2 C12.1uF C13.1uF R16 2M C14.1uF Y Mhz 8 U1 NC OUT OSC-14 VCC GND R16 C7 7pF C8 7pF BYPASS CAPACITORS (1/POWER PIN) C15.1uF C16.1uF C17.1uF C18.1uF +5V +12V C9 1uF C1 1uF 14 +5V C19.1uF C7 C8 C2.1uF C21.1uF C22.1uF C23.1uF Title SDU1353BC SMD ISA-BUS EVALUATION BOARD Size Document Number REV B SCH Date: 1996 Sheet 7 December 13, 7 of 7 SDU1353BC Rev. 1. (7/7) S18A-G

177 SED1353 Series Dot Matrix Graphic LCD Controller Application Notes

178 APPLICATION NOTES 1 ISA ISA PAL SED ISA SED MC MC6834 MPU MC PAL SED LCD / SRAM SRAM SRAM SED SED1353 SED SED1352 SED

179 ISA ISA MC6834 MPU V V SED1353 SED

180 SED1353 ISA Bus Interface Considerations SED1353 LCD SED ISA AC SED1353 Hardware Functional Specification ISA ISA S18A-G

181 EPSON 1. 31h 311h I/O( ) 2. $C $D 128K () : VGA SED ISA : PAL 16-Bit ISA Bus AEN REFRESH SA~19 SBHE# SD~15 SMEMW# SMEMR# IOW# IOR# IOCHRDY IOCS16# LA17~23 MEMCS16# SA1~15 PAL 1 3 A B 5 74LS9 IOCS16EN P Q G 74LS ISA SED1353 IOCS# MEMCS# AB~19 BHE# DB~15 MEMW# MEMR# IOW# IOR# READY VD, VD7, VD11~12, VD14~15 LA23~17 (p~6) 11 (q~6) VCC 1kΩ PAL! & 1. I/O 31h 311h SED1353 A A9 IOCS# IOCS16# SED1353 I/O ISA I/O A15 A A A9 A1 A15 AEN IOCS# =!(!AEN &!A15 &!A14 &!A13 &!A12 &!A11 &!A1) 2. SED I/O IOCS16# ISA IOCS16# IOCS16EN# =!(!IOCS# & A9 & A8 &!A7 &!A6 &!A5 & A4 &!A3 &!A2 &!A1) K A17 A19 SED1353 MEMCS# =!REFRESH : 1MB SMEMW# SMEMR# MSB (A23 A2) 5-2 S18A-G-3-1

182 SED1353 ISA Bus Interface Considerations LS688 Ch DFFFFh 16 MEMCS16# ISA MEMCS16# 2. 74LS9 IOCS16# MEMCS16# SED1353 SRAM 1 1. VD15~VD13 = 11 $C $D 2. VD12~VD4 = h 311h I/O (111b~1111b) 3. VD3 = / 4. VD2 = ISA ( MC68K ) 5. VD1 = I/O 6. VD = kΩ - : 16 AUX[1] 1 = : VD 16 CPU - RAMS, AUX[1] : 16 SED1353 Hardware Functional Specification S18A-G

183 EPSON 1. I/O( A1 A15 I/O ) : ISA 3FFh I/O 2. 3h 31h I/O (xxxxxx11b xxxxxx111b) 3. $A 64K : 74LS $B MEMCS# VGA SED ISA I/O PAL 8-Bit ISA Bus AEN REFRESH SA~19 SD~7 SMEMW# SMEMR# IOW# IOR# IOCHRDY SA A 6 B LS 3 SED1353 IOCS# BHE# MEMCS# VD11~13, VD15 AB~19 DB~7 MEMW# MEMR# IOW# IOR# READY VCC 1kΩ ISA SED1353 SRAM 1 1. VD15~VD13 = 11 $A 2. VD12~VD4 = 11 11b~111b I/O 3. VD3 = / 4. VD2 = ISA ( MC68K ) 5. VD1 = I/O 6. VD = 8 1 1kΩ SED1353 Hardware Functional Specification 5-4 S18A-G-3-1

184 SED1353 MC6834 Interface Considerations SED1353 LCD SED MC6834 AC SED1353 Hardware Functional Specification MC6834 MC6834 S18A-G

185 EPSON SED1353 MC6834 MC6834 SED1353 CS3 MEMCS# SIZ A~19 D~15 A, A1~17 PAL IOCS# BHE# AB~19 DB~15 VD~3, VD13 VCC 1kΩ VCC VCC 4.7kΩ MEMW#, MEMR# DSACK1 READY AS IOR# R/W IOW# RESET RESET 2-1 MC6834 MPU MC6834 CS3 DSACK1 SED1353 h I/O 2h 128K K CS3 - h 3FFFFh 2. DSACK CPU 4. 58h~5Bh = 3FFFFh 5Ch~5Fh = F5h PAL 1. I/O h Fh A4 A9 SED1353 IOCS# =!(!CS3 &!A17 &!A16 &!A15 &!A14 &!A13 &!A12 &!A11 &!A1) 2. 2h 3FFFFh A17 A19 SED1353 MEMCS# = CS3 3. BHE# , SIZ = 8, SIZ = 1 A = 1 BHE# = SIZ &!A 5-6 S18A-G-4-1

186 SED1353 MC6834 Interface Considerations 1. VD15~VD13 = 1 2h~3FFFFh 2. VD12~VD4 = xxx b~1111b I/O 3. VD3 = 1 / 4. VD2 = 1 MC68K 5. VD1 = 1 I/O 6. VD = kΩ x don t care : RESET AUX[1] 1 = : 16 (16 ) S18A-G

187 EPSON 5-8 S18A-G-4-1

188 SED1353 LCD Panel Options / Mamory Requirements SED1353 LCD LCD LCD / AC SED1353 Hardware Functional Specification S18A-G

189 EPSON 1 SED1353 Hardware Functional Specification LCD : LCD : LCD : 256 : 7Hz SED1353 : 3.3V 8,, 7Hz () fosc = fosc = ( + PHNDP + DHNDP) ( + 4) DHNDP DHNDP = 16 () DHNDP = 32 ( ) PHNDP PHNDP = (AUX[C] = ) PHNDP = ( ) ( ) (AUX[C] ) ( ) : DHNDP = 32 PHNDP = fosc = 7 ( ) (24 + 4) = 6.MHz SRAM ( ) ( ) ( 1 ) () = / 1 1 (8 ) ( ) = (32 24) 8 /8 = 76.8K : SED1353 Hardware Functional Specification S18A-G-5-1

190 SED1353 LCD Panel Options / Mamory Requirements SRAM (SRAM) 16 SRAM SRAM 1/fOSC - 4ns (3.3V ) 6.MHz 127ns SRAM : SRAM SED1353 Hardware Functional Specification Hz 6.MHz 76.8K 127ns SRAM 76.8K 127ns SRAM 64K 16 12ns SRAM 32 x 24 Color LCD UD 3 LD 3 YD LP XSCL VWE# SRAM 64K x 16 WE# 6.MHz OSC1 VCS# VCS1# LB# UB# VA~15 VD~7 VD8~15 A~15 I/O 1~8 I/O 9~16 SED VD = (1kΩ ): 16 S18A-G

191 EPSON AUX[] = ( ) AUX[1] = 111 1x AUX[2] = = = 1 / 1 / AUX[3] = 11 ( ) AUX[4] = AUX[5] = WF = AUX[6] = AUX[7] = = h (AUX[6] ) AUX[8] = xxxx xxxx AUX[9] = xxxx xxxx AUX[A] = AUX[B] 1~ AUX[5] AUX[B] = xxxx xx 1~ AUX[4] AUX[D] = x = don t care 256 RED: [ B D F]F D B GREEN: [ B D F]F D B BLUE: [ 5 A F]F A E D : SED1353 Programming Notes and Examples(S18A-G-2-2) 5-12 S18A-G-5-1

192 SED1353 Power Consumption V 1 = 6MHz LCD = VDD = 3.V 16 2 = 6MHz LCD = VDD = 3. V 3 = 25MHz LCD = VDD = 3.V 4 = 25MHz LCD = VDD = 3.V mW 6.4mW 7.6mW 8.8mW 1.3mW 12.7mW 19.7mW 24.3mW mW 3µW 1.2mW 3µW 1.2mW 3µW 1.2mW 1.2mW 1.2mW 2.7mW 2.7mW 3µW 3µW 3µW 3µW 3µW mW 2.7mW 3µW 1 = 6MHz LCD = VDD = 5.V 2 = 6MHz LCD = VDD = 5.V 3 = 25MHz LCD = VDD = 5.V 4 = 25MHz LCD = VDD = 5.V V mW 29.7mW 35.7mW 37.8mW 44.5mW 52.8mW 76.mW 92.mW mW 1.2mW 1.5mW 1.2mW 1.5mW 1.2mW 1.5mW 1.5mW 1.5mW 16.7mW 16.7mW 1.2mW 1.2mW 1.2mW 1.mW 1.mW mW 16.7mW 1.mW S18A-G

193 EPSON mw SED1353-3V PSM 1 PSM 2 14 SED1353-5V mw PSM 1 PSM S18A-G-6-1

194 SED1353 / SED1352 Comparison SED1353 SED1352 SED Hardware Functional Specification 5-1 SED1353 SED1352 SED1353 SED1352 4/16/256 4/16 4/16 4/8, / 4/8/16, / ( ) 4/8, / 3 16, , : 16 SED1353 SED1353 Hardware Functional Specification SED1352 Hardware Functional Specification SED1353 Hardware Functional Specification AUX[1h] 2 LCD 3 / AUX[3h] 1 2 /256 3 LCD 1 AUX[Ch] :7 AUX[Eh] 4 ID / RGB 5 ID / RGB 1 6 G( ) 7 G( ) 1 AUX[Fh] 4 B( ) 5 B( ) 1 6 R( ) 7 R( ) 1 S18A-G

195

196 SED1353FA SED1353F1A SED1353DA M