USER`MANUAL
Contents
1. 160 ms RESPONSETIME DECAY TOFTE 2100 8 Optical Definitions Response Time Contrast Ration View Angle Brightness of nonselected segment B2 Contrast Ration CURRUS selected segment Bl Brightness curve Nonselected Nonselected N ex of nonselected Condition Condition X segment P Brig htness curve of selected segment Set Point Driving Voltage Y BOTTOM Btightness Btightness Ver 2007 05 6 18 www sdec com tw BSDEC LMG S16D80 ITEM SYMBOL UNIT x n tWEH tWEL tEr tEf Setup time Note The following load circuit is connected for specification 10 Display Control Instructions 10 1 Description of command Display is controlled by writing data into the instruction register and 13 data registers The RS signal distinguishes the instruction register from the data registers 8 bit data is written into the instruction register with RS 1 and the code of data register 1s specified After that the 8 bit data is written in the data register and the specified instruction is executed with RS 0 Du2. EEF High Temperature 60 2 C 96 hrs 2 dii ad um Low Temperature 10 2 C 96 hrs Storage 96 im 10 C 2 C EI B B A AS RET Damp Proof 40 C 2 85 9095 RH 96hr Test 96 EF 40 C2 C gt 85 90 RH BB 35 HE BET Vibration Test Total fixed amplitude 1 5 mm B 8 4 1 5mm Vibration Frequency 10 55 Hz E 34 10 55 Hz One cycle 60 seconds to 3 directions of X Y Z for each 15 minutes 9 4848 X gt Y Z 827 6 Stk 60 28 528 Hep 15 448 Shock Test To be measured after dropping from 60cm high on the concrete surface in packing state amp H 60 2 27 9627 J BH dg Dropping method comer dropping F X comer once Edge dropping 48 3 amp F B C D edge once Face dropping 5 F E F G face once Note 1 No dew condensation to be observed 7 KARER FRB Note 2 The function test shall be conducted after 4 hours storage at the normal Temperature and humidity after removed from the test chamber 46 Fi EAS HR ag 25 45 RH A BTE 38 38 Z P o BERS LE TE Note 3 Vibration test will be conducted to the product itself without putting it in a container gt BAZAR ES S PP EB TE Ver 2007 05 14 18 www sdec com tw Ejepec LMG S16D80 16 Test 2444 Wide Temperature 5 8 No change no display and in operation under the following text condit
3. K NG REASON A 1 LCM SIZE AND THICKNESS LCM dA 2 POLARIZER COLOR PAREZ 4 VIEWING AREA RAAE lO O UO 3 ELECTRO CHARACTERISTIC a E 5 ILLIMINATION 422 a 6 TEMPERATURE RANGE 8 O 0 LLL APPROVED BY ht DATE OF APPROVAL B 5 Ver 2007 05 2 18 www sdec com tw Ejepec G G G 5 0 1 SDEC LCD MODULE NUMBERING SYSTEM w pj je a ks ha gi gs qo jo ou jm ua 0 2 SDEC LCD MODULE VARIATION LIST 2 LCM MODULE DIGITS MODEL B LCMOFEUNCTION B BIGSIZE TYPE HIN LCD TN LCD HIN LCD T H 4 LCD MODEL STN LCD FSTN LCD 151 ICPACKING 1 cum oRcooyvee r raBTYPE CHARACTER MODEL NUMBER GRAPHIC MODEL WIDE SIDE OF OF LINES DOTS 7 FROM A TO Z 8 CHARACTER MODEL NUMBER GRAPHIC MODEL HIGH SIDE OF CHARACTER DOTS DIGITS MODEL YEARIMONTHINUMBER STANDARD 6 DIGITS MODEL YEAR MONTH NUMBER OR CUSTOM 7 CHARACTER MODEL CHARACTER LINES NUMBER DESIGNED GRAPHIC MODEL WIDE SIDE DOTS HIGH SIDE DOTS NUMBER 9 VIEWING ANGLE 3 O CLOCK D 6 O CLOCK 9 O CLOCK 12 O CLOCK R WITHOUT BACKLIGHT EL TRANSFLECTIVE ARRAY LED TRANSFLECTIVE F FL TRANSMISSIVE YELLOW GREEN NEGATIVE STN TYPE BLUE STANDARD TYPE LCM TYPE LCM 18 10 BACKLIGHT POLARIZER 11 COLOR BLUE GREEN ORANGE w WHITE Y YELLOW GREEN 01 ENGLISH JAP
4. SS 3 amp 8 28 8 48 X 17 2 1 The polarizer adhering to the surface of the LCD is made of a soft material Guard against scratching it 45 HAR px o AAG 17 2 2 The LCD device panel used the LCM 1s made of plate glass Avoid any strong mechanical shock Should the glass break handle it with care 5 17 3 When the LCD module alone must be stored form long periods of time LCD 9 2 78 17 3 1 Protect the modules from excessive external forces 3 Yh 7 28 17 3 2 Protect the modules from high temperature and humidity E 9 292 BIA 17 3 3 Keep the modules out of direct sunlight or direct exposure to ultraviolet rays 3 amp BEM a LER Yb SRF 17 4 Use the module with a power supply that 1s equipped with an overcurrent protector circuit since the module is not provided with this protective feature E AAG RA Uy SE TEE 38 p EA Re 17 5 Do not ingest the LCD fluid itself should it leak out of a damaged LCD module Should hands or clothing come in contact with LCD fluid wash immediately with soap LCD RP ZR 5 RRR EAR BAILA 15 17 6 Conductivity is not guaranteed for models that use metal holders where solder connections between the metal holder and the PCB are not used Please contact us to discuss appropriate ways to assure conductivity 2 4 8 4E 3 209 4 RL AE RE 8 5 bk HER
5. cn ln Disregard 2 5 Air Bubbles between glass amp polarizer Dimension Acceptable number AEGRIS BR 22 Fa HFA CT EE Se 015 Ver 2007 05 12 18 www sdec com tw LMG S16D80 1 Pixel shape with Dent 110 5 0 152 el than 0 152 mm is no counted 2 0 152mm Z T 2 Pixel shape with Projection JS ui 0 152 x Should not be connected next pixel 35 f X5 18 8 4 Glass of Pixel 3 Deformation J GEIR 8 E12 A y I La X Y 2 0 15mm 8 p eLess than 0 1 mm is no counted 7575 0 15mm f 4 Deformation 23 X Y 2 0 3mm el ess than 0 3 mm is no counted C75 0 3mm Ver 2007 05 13 18 www sdec com tw Ejepec LMG S16D80 15 Test 38 244444 Normal Temperature No change no display and in operation under the following text condition SER ARAT F EATA Conditions Unless otherwise specified test will be conducted under the following condition Temperature 20 5 Humidity 40 5 RH NO l 2 3 4 Tests will be not conducted under functioning state OS PREFER AE 2045 C gt SAE 4045 RH 2 Parameter Conditions Notes High Temperature 50 C 2 C 96 hrs operation state Operating 96 x 50 C 2 C EIR P 6 TE i Low Temperature 0 2 96 hrs operation state Operating 96 IF gt 28 0 C 2 C SE BR
6. 1 8 bit data with RS 0 should be written into the data register This data is transferred to the RAM specified by the cursor address as display data or character code The cursor address is increased by 1 after this operation 10 1 11 Read Display Data Instruction Register 0 1 0 0 o 0 1 1 0 1 RAM o 1 0 0 MSB pattern data character code LSB Data can be read from the RAM with RS 0 after writing code 0D into the instruction register The read procedure is as follows This instruction outputs the contents of data output register on Data Bus DBO to DB7 and then transfers RAM data specified by a cursor address to the data output register also increasing the cursor address by 1 After setting the cursor address correct data is not output at the first read but at the second time Thus make one dummy read when reading data after setting the cursor address Ver 2007 05 8 18 www sdec com tw LMG S16D80 10 1 12 Clear Bit Instruction Register 0 1 0 0 0 0 1 0 BitSetRegister_ 0 0 0 0 0 0 0 NB DBiay 10 1 13 Set Bit Instruction Register 0 1 0 o 0 0 1 J 1i 1 Bit Set Register 0 0 0 0 0 0 0 NB DBiay The Clear Set bit Instruction sets 1 bit In a byte of display data RAM to 0 or respectively The position of the bit In a byte 15 specified by RAM address
7. 15 specified by cursor address After the execution of the Instruction the cursor address 15 automatically Increased by 1 NB is a value of 1 to 8 NB 1 and NB 8 indicates LSB and MSB respectively 10 1 14 Read Busy Flag Busy Flag 10111190 When the read mode is set with RS 1 the busy flag is output to DB7 The busy flag is set to 1 during the execution of any of instructions 1 to 13 After the execution it is set to 0 The next instruction can be accepted No instruction can be accepted when busy flag 1 Before executing an instruction or writing data perform a busy flag check to make sure that busy flag is 0 When data is written in the register RS 1 no busy flag changes Thus no busy flag check is required just after the write operation into the instruction register with RS 1 The busy flag can be read without specifying any instruction register 10 2 Display variables RDO Nx v Hn digits Horizontal character pitch Hn characters character mode or number of bytes per line in the graphic mode number Vp Vertical character pitch Cursor position Line number on which the cursor can be displayed D nx Number of time divisi
8. according to delivery specifications For any other use apart from general electronic equipment we cannot take responsibility if the product is used in medical devices nuclear power control equipment aerospace equipment fire and security systems or any other applications in which there is a direct risk to human life and where extremely high levels of reliability are required If the product 15 to be used in any of the above applications we will need to enter into a separate product liability agreement JE E dn HS EP 8 AREE Eds Eo KN BAA He XE ede AR RE ARE UE XS F PL ADELA Jo S on HER ERR KARSARK gt 2248 245 Fl 3 ERRE AE RG 99x Ver 2007 05 17 18 www sdec com tw LMG S16D80 18 1 We cannot accept responsibility for any defect which may arise after the application of strong external force to the product E D 5 amp 8 A P 7 6 8 S 18 2 We cannot accept responsibility for any defect which may arise from additional manufacturing of the product disassembly ean after product delivery ARH A a H aR 4E EHH px 89 80 148 18 3 We cannot accept responsibility for any defect which may arise due to the application of static electricity after the product has passed your company s acceptance inspection procedures A 338 i8 38 A NRE e 4246 c 12759 5 wae
9. 18 4 We cannot accept responsibility for intellectual property of a third party which may arise through the application of our product to your assembly with exception to those issues relating directly to the structure or method of manufacturing of our product 5E E P ARE ouk E ERU ALO LACE RM AH AE t s F KAR d Bj 4 85 F 38 18 5 When the product is in CCFL models CCFL service life and brightness will vary according to the performance of the inverter used leaks etc We cannot accept responsibility for product performance reliability or defect which may arise 5 6 CCFL San CCFL A B 0 PE 86 USE Sitz CCFL 8 18 6 SDEC will not be held responsible for any quality guarantee issue for defect products longer than year from SDEC production which ever comes later BAB 38 o AER 528 Ver 2007 05 18 18 www sdec com tw
10. ADB REE ERE DOT MATRIX LIQUID CRYSTAL DISPLAY MODULE COMPANY USER MANUAL LMG S16D80 Serial LCD Module Description PROPOSED BY APPROVED Design Approved SDEC TECHNOLOGY CORP ADDRESS 0 No 100 Shing De Rd San Chung City 241 m Taipei Hsien Taiwan R O C EH mm TEL 886 2 2999 2512 886 2 8512 1288 BH g FAX 886 2 2999 2510 886 2 8512 2828 e EMAIL sdec8405 ms6 hinet net sdec sdec com tw Li http www sdec com tw BSDEC LMG S16D80 EE LCM SAMPLE APPROVAL lt KR a SI PART A FILLED BY SDEC TECH SDEC amp 1 COMPANY Z 44 2 SDEC ITEM NO 3 CUSTOMER ITEM NO P RAZR 4 LCM Function LCM WZ A LCD TYPE LCD 638 TN HTN STN FSTN TT 9 NEGATIVE R e TT BLACK MASK 3 2 amp Ep B VIEWING AREA L 3H 6H C 9H O 12H POLARIZER COLOR 4 amp GRAY X YELLOW GREEN BLUE BLACK Z BACKLIGHT COLOR 3 28 YELLOW GREEN SS ORANGE BLUE X GREEN Z WHITE 4 5x TEMPERATURE 1 NORMAL 3 E WIDE PCB RESISTOR W RI KQ R2 R3 R5 R6 2KQ RA KQ 7 9 RIG 2 RI2 CQ DIC CONTROL IC z IC LC7981 SAMPLE DELIVERY DATE 2 PART B FILLED BY CUSTOMER 2748 O CHECK LIST ITEMS 2 78 B
11. ANESE NGLISH EURPEAN 13 VERSION 03 ENGLISH RUSSIAN b LED BACKLIGHT of our STN Panel belong WIDE TEMPERATURE BACKLIGHT COLOR 12 NEGATIVE FSTN TYPE BLACK E i Ver 2007 05 3 18 www sdec com tw SDEC YS be o A amp Q H ra CONTENTS LCM Sample Approval LCD Module Number System Mechanical Specification Mechanical Diagram Interface Pin Connections Block And Power Supper Diagram Environmental absolute maximum ratings Electrical Characteristics Optical Characteristics Optical Definitions Timing Control Display Control Instructions Interface For LCM CG Pattern Reliability Condition Functional Test amp Inspection Criteria Test Normal Temperature Test Wide Temperature Precautions Against Product Handling Warranty Ver 2007 05 4 18 LMG S16D80 PAGE CA Aa aa Dn r2 10 Un bh ra OC www sdec com tw Ejepec V ZMGSI6D80 1 Mechanical Specification ITEM STANDARD VALUE UNIT DOT MATRIX FORMAT 160 x 80 DOTS Lie CONTROLLER LC7981 OR EQUIVALENT E MODULE DIMENSION NO BACKLIGHT EL BACKLIGHT MODULE DIMENSION ARRAY LED BACKLIGHT 93 0 W X 70 0 H X 14 0 T MODULE DIMENSION EDGE LED BACKLIGHT BLUE ie dT SDEC 1002A 3 000 YELLOW GREEN OR ORANGE OR RED 30 000 BLUE OR GREEN OR WHITE 3 000 AVOID LIGHTING CONTIN
12. E RUE E C EUR IC MAEM ETERS 17 10 Models which use flexible cable heat seal or TAB ju 9 ASSA TAB 694 a 17 10 1 In order to maintain reliability do not touch or hold by the connector area LA 4E SE ou d A AR ake EAE ES 17 10 2 Avoid any bending pulling or other excessive force which can result in broken connections 9 58 dh dirdb E38 7I o S IAB 17 11 In case of acrylic plate 1s attached to front side of LCD panel cloudiness very small cracks can occur on acrylic plate being influenced by some components generated from polarizer film Please check and evaluate those acrylic materials carefully before use Rk LCD 33 58 Ay un 09 P yu 7 AUS 78 5 88 8 Pp 28 OAR 5 AES TF 4m 28 38 E 3 71 17 12 In case of buffer material such as cushion gasket 1s assembled into LCD module it may have an adverse effect on connecting parts LCD panel TCP HEAT SEAL FPC PCB TCP HEAT SEAL FPC TCP HEAT SEAL TCP FPC HEAT SEAL FPC depending on its materials Please check and evaluate these materials carefully before use sb SE X E HE 8 LCD panel TCP HEAT SEAL FPC PCB TCP HEAT SEAL FPC SEAL TCP FPC HEAT SEAL FPC 3 m K 3X 1 FE Al 38 EH 18 Warranty 4 amp 3 amp This product has been manufactured to your company s specifications as a part for use in your company s general electronic products It is guaranteed to perform
13. MAN 38 S 17 7 For models which use CCFL CCFL 4 a 17 7 1 High voltage of 1000V or greater 1s applied to the CCFL cable connector area CCFL 44g Ht 5 8 7 1000V rA E65 3 ER 17 7 2 Protect CCFL cables from rubbing against the unit and thus causing the wire jacket to become worn CCFL 2528 74 CCFL 44 4 BAR XA CCFL bx gt lt B48 17 7 3 The use of CCFLs for extended periods of time at low temperatures will significantly shorten their service life 8 fe 4 amp 8 4e JH CCFL 8H RA 48 RE EAS gt Ver 2007 05 16 18 www sdec com tw LMG S16D80 17 8 For models which use touch panels 45 3 R dy 45 2 28 17 8 1 Do not stack up modules since they can be damaged by components on neighboring modules 27 He SE 49 17 8 2 Do not place heavy objects on top of the product This could cause glass breakage Z8 S WX Ede RGu Eo QUY SR 17 9 For models which use COG amp TAB COG TAB J amp 4a 17 9 1 The mechanical strength of the product 15 low since the IC chip 15 faces out unprotected from the rear Be sure to protect the rear of the IC chip from external forces wx IC d Hh Rw MAB P PA q EE 7 78 TR 28 Z0 58 gt 22711 17 9 2 Given the fact that the rear of the IC chip 15 left exposed in order to protect the unit from electrical damage avoid installation configurations which the rear of the IC chip runs the risk of making any electrical contact ARABIC d Fi
14. UOUSLY 2 Mechanical Diagram Zo 80 7 420 0 1 0 II III III II x m 7 54 19 48 PG Ka 4 SYMBOL VSS Ground VDD Powersupply for logic circuit n Power supply for LCD circuit DBI DB2 DB3 DB4 DBS DB6 DB7 CS DISP OFF RES VEE Negative voltage output A LED Backlight G5V K LED Backlight 0V EN EN EN Ver 2007 05 5 18 www sdec com tw LMG S16D80 5 Environmental absolute maximum ratings M MAX MIN MAX Vibaio ms 1965 XYZ Directions o Shock 294ms 4900m s XYZ Directions Remarks NOTE 1 Ta at 60 C 50 HR Max NOTE 2 Ta lt 40 C 95 RH Max Ta gt 40 C Absolute humidity must be lower than the humidity of 95 at 40 C 6 Electrical Characteristics Logic Circuit Power Supply Vpp Vs 4745 50 55 v MM _ D oe e Power Supply Current de Vgg l0V 20 mA 7 Optical Characteristics at 25 C SYM CONDITION MIN TYPE MAX UNIT L WiEWANGUE OB ZBOTTOM 21 02 oras amm de VIEWANGLE LEFT RIGHT 91 92 5 3535 deg _ CONRASTRATIO JL 7 7 RESPONSETIME RISID TON Ir
15. aracter pitches Vp 1s set Cp Vp and a character 15 overlapped with the cursor the cursor has higher priority of display at cursor display ON If Cp is greater than Vp no cursor is displayed The cursor horizontal length is equal to Hp 10 1 6 Ser Display Start Low Order Address REGISTER Instruction Register 01 1 Display Start Address Register low order byte Start low order address Binary 10 1 7 Display start High Order Address REGISTER DB4 Instruction Register Display Start Address Register high order byte 2010 Start high order address Binary These instructions cause display start addresses to be written in the display start address registers The display start address indicates a RAM address at which the data displayed at the top left end on the screen is stored In the graphic mode the start address 15 composed of high low order 16 bits In the character display it is composed of he lower 4 bits of high order address DB3 DB4 and 8 bits of low order address The upper 4 bits of high order address are ignored 10 1 8 Set Cursor Address low order RAM write low order address REGISTER DB4 Instruction Register 0 11010 0 10 110 110 Cursor Address Counter low order byte KI Cursor low order address Binary 10 1 9 Set Cursor Address high order RAM write high address REGISTER DB4 Instruction Register Cursor Address Counter hi
16. d 7 KARER FRB Note 2 The function test shall be conducted after 4 hours storage at the normal Temperature and humidity after removed from the test chamber 46 Fi EAS HR ag 25 45 RH A BTE 38 38 Z P o BERS LE TE Note 3 Vibration test will be conducted to the product itself without putting it in a container gt BAZAR ES S PP EB TE Ver 2007 05 15 18 www sdec com tw LMG S16D80 17 Precautions Against Product Handling 4 48 M 5 S35 The following precautions will guide you handling our product correctly T amp 5 S iE e 1o A ou 17 1 Care of the LCD module against static electricity discharge LCD 28 3 Et 5 HJA 17 1 4 When working with the module be sure to ground your body and any electrical equipment you may be using We strongly recommend the use of anti static mats made of rubber to protect work tables against the hazards of electrical shock Siren 58 ACRE R JUR E BARA URLS Di x E SEXT 17 1 2 Slowly and carefully remove the protective film from the LCD module since this operation can generate static electricity LCD H 8 DASS E 17 1 3 Avoid the use of work clothing made of synthetic fibers We recommend cotton clothing or other conductivity treated fibers RESALES RO TERR o SUUS SH 17 2 Liquid crystal display devices LCD devices 7 amp
17. gh order byte 2010 Cursor high order address Binary These instructions cause cursor addresses to be written in the cursor address counters The cursor address indicates and address for sending or receiving display data and character codes to or from the RAM Namely data at address specified by the cursor address are read written In the character mode the cursor is displayed at the digit specified by the cursor address A cursor address consists of the low order address 8 bits and the high order address 8 bits Satisfy the following requirements When you want to rewrite set both the low order address and the high order address address When you want to rewrite only the low order address the low order address 3 When you want to rewrite only the high order address Set the high order address You don t have to set the low order address again The cursor address counter Is a 16 bit up count with SET and RESET functions When the bit Changes from 1 to 0 the bit N 1 is added by 1 When setting the low order address the LSB bit 1 of the high order address is added by 1 if the MSB bit of the low order address changes from 1 to 0 Therefore set both the low order address and the high order address as shown in above table 10 1 10 Write Display Data Instruction Register 0 1 0 a 1 0 0 RAM CC 0 MSB pattern data character code LSB After the code OC is written into the instruction register with RS
18. ion SER FORA gt F EATA Conditions Unless otherwise specified test will be conducted under the following condition Temperature 20 5 Humidity 40 5 NO 1 2 3 4 Tests will be not conducted under functioning state OS PREFER MARE 2045 C gt R 4045 RH 2 Parameter Conditions Notes High Temperature 70 C 2 C 96 hrs operation state Operating 96 um ER 70 C 2 C SIR ALAR ETE UT aM Low Temperature 20 CH C 96 hrs operation state Operating 96 Jm RE 20 C 2 SIR Ec 60 High Temperature 80C 2 C 96 hrs 2 dii 3 um Low Temperature 30 2 C 96 hrs Storage 96 mE 30 C 2 C EI B B A AS RET Damp Proof 40 C 2 85 9095 RH 96hr Test 96 EF 40 C2 C gt 85 90 RH BB 35 HE BET Vibration Test Total fixed amplitude 1 5 mm B 8 4 1 5mm Vibration Frequency 10 55 Hz E 34 10 55 Hz One cycle 60 seconds to 3 directions of X Y Z for each 15 minutes 9 4848 X gt Y Z 827 6 Stk 60 28 528 Hep 15 448 Shock Test To be measured after dropping from 60cm high on the concrete surface in packing state amp H 60 2 27 9627 J BH dg Dropping method comer dropping F X comer once Edge dropping 48 3 amp F B C D edge once Face dropping 5 F E F G face once Note 1 No dew condensation to be observe
19. ion criteria is Base Major defect AQL 0 65 Minor defect AQL 2 5 14 2Inspection condition Viewing distance for cosmetic inspection is 30cm with bare eyes and under an environment of 800 lus 20W light intensity All direction for inspecting the sample should be within 45 against perpendicular line 14 3Definition of Inspection Zone in LCD Zone Character Digit area ZoneB Viewing area except Zone A Zone A Zone B minimum Viewing area Zone Outside viewing area invisible area after assembly in customer s product Note As a general rule visual defects in Zone C are permissible when it is no trouble for quality and assembly of customer s product 14 4Major Defect All functional defects such as open or missing segment short contrast differential excess power consumption smearing leakage etc and overall outline dimension beyond the drawing Are classified as major defects Ver 2007 05 11 18 www sdec com tw LMG S16D80 14 5 Inspection Parameters And Glass Pixel 4 amp XIR 40 gk 8 1 15 Ferien 3 0 2 SD lt 0 25 Den D 4 Length amp Width 3 y2 gt Disregard Sei Scratch 5145 X y Acceptable number mm 1 Black or White spots And Piercing Dimension Acceptable number 2 4 2540 fi 3L 1 fa EECH D lt 0 15 0 15 SD 0 2 2 jorew o X Length R Y Width Disregard Z2 s amp 0 15 lt D 0 25
20. on Inverse of display duty ratio to 128 lines Note If the number of vertical dots on screen is taken as m and the number of horizontal dots as n 1 m 1 Nx display duty ratio n Hp x Hn m Vp Number of display lines Cp Vp 10 3 Initialize LCM register set list Ver 2007 05 9 18 www sdec com tw LMG S16D80 Interface For LCM SDEC 11 www sdec com tw 11 2 Interface to 68 family E E a E E z SCH e e gt gt ab de 24 CS e D x S Vi Q N S w gt LMG S16D80 13 Reliability Condition Ton omen Oey se oue Angle High Temperature Power Off 240 Hours 240 Hours 240 Hours 240 Hours 60 C 80 C 60 C 80 C Low Temperature Power 240 Hours 240 Hours 240 Hours 240 Hours 107 30 10 C 30 High Temperature Power On 240 Hours 240 Hours 240 Hours 240 Hours TT Powe ame awe eno 0 C 207 0 C 207 High Temperature amp High 40 C 90 RH 40 C 90 RH 40 C 90 RH 40 C 90 RH Humidity Power Off 240 Hours 240 Hours 240 Hours 240 Hours Wide temp version may not available for some products Please consult our sales engineer or representative 14 Functional Test amp Inspection Criteria 14 1 Sample plan Sample plan according to MIL STD 105D level 2 and acceptance reject
21. ring the execution of the instruction no new instruction can be accepted Since the busy flag is set during this read the busy flag and make sure it is 0 before writing the next instruction 10 1 1 Mode Control Code 00 hexadecimal written into the instruction register specifies the mode control register Instruction Register 0 1 0 0 0 0 0 0 0 0 Mode Control Register 0 0o 0 0 ModeDaa Cursor blink Graphic Character 010 Internal Gua CG un 10 Co 9 TE External unun CG I _ O 0 I Graphic Mode 1 Master Mode 0 Slave Mode Normal is set Master Mode gt 1 Display ON 0 Display OFF 10 1 2 Set Character Pitch Instruction Register 0 1 0 o 0 0 o 0 0 1 Character Pitch Register O 0 Vp 1 Binary 200 Hp 1 Binary Vp indicates the number of vertical dots per character The space between the vertically displayed characters is considered for determination This value is meaningful only during character display in the character mode and becomes invalid in the graphic mode The Hp indicates the number of horizontal dots per character in display including the space between horizontally displayed characters In the graphic mode the Hp indicates the number of bits of 1 byte display data to be displayed Three Hp values Hp DB DB DB 6 1 0 1 1 Hoizeon
22. tachaacterpitch Lo 7 1 1 0 1 Hoizeontlchaacterpitch7 Horizontal character pitch 8 10 1 3 Set Number of Characters Instruction Register 0 1 0 o 0 o o oj 1 0 Number of Character Register 0 0 0 Hn DBiay Hn indicates the number of horizontal characters in the character mode r the number of horizontal bytes in the graphic mode If the total sum of horizontal dots on the screen 15 taken as n n Hp x Hn Hn be set with an even number of 2 to 128 decimal 10 1 4 Set Number of Time Division inverse of display duty ratio Instruction Register 0 1 0 0 0 0 0 o I 1 Character Pitch Register 00 0 Nx 1 Binary Nx indicates the number of time division in multiplex display 1 Nx is a display duty ration A value of 1 to 128 decimal can be set to Nx Ver 2007 05 7 18 www sdec com tw LMG S16D80 10 1 5 Set Cursor Position ImtruionRegisier 0 1 0 0 o 0 o 0 0 Cursor Position Register 0 0 0 0 0 0 Cp 1 Binary Cp indicates the position in a character where the cursor is displayed in the character mode For example in 5x7 dot font the cursor 15 displayed under a character by specifying Cp 8 decimal The cursor horizontal length is equal to the horizontal character pitch Hp A value of 1 to 16 decimal can be set to Cp If a smaller value than the number of vertical ch
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