JLX12864G-1016-PN中文说明书

技术QQ：1035715441非常感谢您使用我们的产品，我们竭诚为您提供服务J12864中文字库注释：（1）模组背部自带3*3 10K硬封可调电位器VR1，可以调到理想对比度（默认5V出厂已经调试好，也可自行再次调节，电位器为微调，请尽量小心调试）（2）LED背光极性可调，JP4为液晶背光正负反接处（3）模组自带原装三星正品防静电电容，抗干扰性更强C6 C7 C8（4）串并口可通过两种方式调节1种PSB接口控制2 种JP2短路到P为并口短路到S为串口（5）自改3.3V可通过JP3调节，默认接+级为5V，接-为3.3V，然后C4 C5加极性电容即可型号为106A或者104A，背光电阻33欧改成3.3欧技术QQ：1035715441一、液晶显示模块概述J12864中文汉字图形点阵液晶显示模块，可显示汉字及图形，内置8192个中文汉字（16X16点阵）、128个字符（8X16点阵）及64X256点阵显示RAM（GDRAM）。

主要技术参数和显示特性:电源：VDD 3.3V~+5V(内置升压电路，无需负压)；显示内容：128列× 64行显示颜色：黄绿/蓝屏显示角度：6：00钟直视LCD类型：STN与MCU接口：8位或4位并行/3位串行配置LED背光多种软件功能：光标显示、画面移位、自定义字符、睡眠模式等二、外形尺寸外观尺寸：93×70×12.5mm 视域尺寸：73×39mm外形尺寸图外形尺寸技术QQ：1035715441ITEM NOMINAL DIMEN UNIT模块体积93×70×12.5 mm视域73.0×39.0 mm行列点阵数128×64 dots点距离0.52×0.52 mm点大小0.48×0.48 mm二、模块引脚说明128X64HZ 引脚说明引脚号引脚名称方向功能说明1 GND - 模块的电源地2 VCC - 模块的电源正端3 V0 - LCD驱动电压输入端4 RS(CS)H/L 数据选择信号/并行的指令；串行的片选信号5 R/W(SID)H/L 并行的读写选择信号；串行的数据口6 E(CLK)H/L 并行的使能信号；串行的同步时钟7 DB0 H/L 数据08 DB1 H/L 数据19 DB2 H/L 数据210 DB3 H/L 数据311 DB4 H/L 数据412 DB5 H/L 数据513 DB6 H/L 数据614 DB7 H/L 数据715 PSB H/L 并/串行接口选择：H-并行；L-串行16 NC 空脚17 /RST H/L 复位低电平有效18 VOUT 倍压输出脚（VDD=+3.3V有效）19 LED_A （LED+5V）背光源正极20 LED_K （LED-OV）背光源负极逻辑工作电压(VDD)：4.5～5.5V电源地(GND)：0V工作温度(Ta)：-10℃～60℃(常温) / -20℃～70℃（宽温）技术QQ：1035715441三、接口时序模块有并行和串行两种连接方法（时序如下）：8位并行连接时序图MPU写资料到模块MPU从模块读出资料2、串行连接时序图技术QQ：1035715441串行数据传送共分三个字节完成：第一字节：串口控制—格式11111ABCA为数据传送方向控制：H表示数据从LCD到MCU，L表示数据从MCU到LCDB为数据类型选择：H表示数据是显示数据，L表示数据是控制指令C固定为0第二字节：(并行)8位数据的高4位—格式DDDD0000第三字节：(并行)8位数据的低4位—格式0000DDDD串行接口时序参数：(测试条件：T=25℃VDD=4.5V)技术QQ ：1035715441四、用户指令集 1、指令表1：（RE=0：基本指令集）指令码指令R SR W DB 7DB 6DB 5DB 4DB 3DB 2DB 1DB 0说明执行时间（540KHZ ） 清除显示0 0 0 0 0 0 0 0 0 1将DDRAM 填满“20H ”，并且设定DDRAM 的地址计数器（AC ）到“00H ”4.6ms地址归位0 0 0 0 0 0 0 0 1 X设定DDRAM 的地址计数器（AC ）到“00H ”，并且将游标移到开头原点位置；这个指令并不改变DDRAM 的内容 4.6ms进入点设定 00 0 0 0 0 0 1 I/D S指定在资料的读取与写入时，设定游标移动方向及指定显示的移位72us 显示状态 开/关 0 0 0 0 0 0 1 D C B D=1：整体显示ON C=1：游标ON B=1：游标位置ON72us游标或01S/R/XX设定游标的移动与显示的移位72us技术QQ：1035715441显示移位控制C L 控制位元；这个指令并不改变DDRAM的内容功能设定0 0 0 0 1 DL XREX XDL=1 （必须设为1）RE=1：扩充指令集动作RE=0：基本指令集动作72us设定CGRA M地址0 0 0 1AC5AC4AC3AC2AC1AC设定CGRAM地址到地址计数器（AC）72us设定DDRA M地址0 0 1AC6AC5AC4AC3AC2AC1AC设定DDRAM地址到地址计数器（AC）72us读取忙碌标志（BF）和地址0 1 BFAC6AC5AC4AC3AC2AC1AC读取忙碌标志（BF）可以确认内部动作是否完成，同时可以读出地址计数器（AC）的值0us写资料到RAM 1 0 D7 D6 D5 D4 D3 D2 D1 D0写入资料到内部的RAM（DDRAM/CGRAM/IRAM/GDRAM）72us读出RAM 的值1 1 D7 D6 D5 D4 D3 D2 D1 D0从内部RAM读取资料（DDRAM/CGRAM/IRAM/GDRAM）72us指令表—2：（RE=1：扩充指令集）指令码指令RS RWDB7DB6DB5DB4DB3DB2DB1DB说明执行时间（540KHZ）待命模式0 0 0 0 0 0 0 0 0 1将DDRAM填满“20H”，并且设定DDRAM的地址计数器（AC）到“00H”72us卷动地址或IRAM地址选择0 0 0 0 0 0 0 0 1 SRSR=1：允许输入垂直卷动地址SR=0：允许输入IRAM地址72us反白选择0 0 0 0 0 0 0 1 R1 R0选择4行中的任一行作反白显示，并可决定反白与否72us技术QQ：1035715441睡眠模式0 0 0 0 0 0 1 SL X XSL=1：脱离睡眠模式SL=0：进入睡眠模式72us扩充功能设定0 0 0 0 1 1 X1REG 0RE=1：扩充指令集动作RE=0：基本指令集动作G=1 ：绘图显示ONG=0 ：绘图显示OFF72us设定IRAM地址或卷动地址0 0 0 1AC5AC4AC3AC2AC1AC0SR=1：AC5—AC0为垂直卷动地址SR=0：AC3—AC0为ICON IRAM地址72us设定绘图RAM 地址0 0 1AC6AC5AC4AC3AC2AC1AC0设定CGRAM地址到地址计数器（AC）72us备注：1、当模块在接受指令前，微处理顺必须先确认模块内部处于非忙碌状态，即读取BF标志时BF需为0，方可接受新的指令；如果在送出一个指令前并不检查BF标志，那么在前一个指令和这个指令中间必须延迟一段较长的时间，即是等待前一个指令确实执行完成，指令执行的时间请参考指令表中的个别指令说明。

FYD12864液晶中文显示模块(一) (一)概述 (3)(二)(二)外形尺寸1 方框图 (3)2 外型尺寸图 (4)(三)(三)模块的接口 (4)(四)(四)硬件说明 (5)(五) 指令说明 (7)(五)(五)读写操作时序 (8)(六)(六)交流参数 (11)(七)(七)软件初始化过程 (12)(八)(八)应用举例 (13)(九)(九)附录1半宽字符表 (20)2 汉字字符表 (21)一、概述FYD12864-0402B是一种具有4位/8位并行、2线或3线串行多种接口方式，内部含有国标一级、二级简体中文字库的点阵图形液晶显示模块；其显示分辨率为128×64, 内置8192个16*16点汉字，和128个16*8点ASCII字符集.利用该模块灵活的接口方式和简单、方便的操作指令，可构成全中文人机交互图形界面。

可以显示8×4行16×16点阵的汉字. 也可完成图形显示.低电压低功耗是其又一显著特点。

由该模块构成的液晶显示方案与同类型的图形点阵液晶显示模块相比，不论硬件电路结构或显示程序都要简洁得多，且该模块的价格也略低于相同点阵的图形液晶模块。

基本特性:●●低电源电压（VDD:+3.0--+5.5V）●●显示分辨率:128×64点●●内置汉字字库，提供8192个16×16点阵汉字(简繁体可选)●●内置 128个16×8点阵字符●●2MHZ时钟频率●●显示方式：STN、半透、正显●●驱动方式：1/32DUTY，1/5BIAS●●视角方向：6点●●背光方式：侧部高亮白色LED，功耗仅为普通LED的1/5—1/10 ●●通讯方式：串行、并口可选●●内置DC-DC转换电路，无需外加负压●●无需片选信号，简化软件设计●●工作温度: 0℃ - +55℃ ,存储温度: -20℃ - +60℃二、方框图3、外形尺寸图三、模块接口说明*注释1：如在实际应用中仅使用串口通讯模式，可将PSB接固定低电平，也可以将模块上的J8和“GND”用焊锡短接。

液晶模块说明书SPEC NOYM12864G REV NO 1.0液晶显示模块中文说明书产品类型: 标准产品产品系列号： YM12864G产品描述: 128x64图形点阵，控制器：KS0108，LED背光编写: DexunZou审核： HCC批准: JingxiYang发行日期: 2002.1大连佳显电子有限公司地址：大连市沙河口区工华街１７号Tel: (0411)84６１９５６５ Fax: (0411)84６１９５８５网址: E-mail:market@一．概述 ＹＭ１２８６４Ｇ是一种图形点阵液晶显示器。

它主要采用动态驱动原理由行驱动—控制器和列驱动器两部分组成了１２８（列）×６４（行）的全点阵液晶显示。

此显示器采用了ＣＯＢ的软封装方式，通过导电橡胶和压框连接ＬＣＤ，使其寿命长，连接可靠。

　二．特性１．工作电压为＋５Ｖ±１０％　，可自带驱动ＬＣＤ所需的负电压。

　２．全屏幕点阵,点阵数为１２８（列）×６４（行），可显示８（/行）×４（行）个（１６×　１６点阵）汉字，也可完成图形，字符的显示。

３．与ＣＰＵ接口采用５条位控制总线和８位并行数据总线输入输出，适配Ｍ６８００系列时序。

　４．内部有显示数据锁存器５．简单的操作指令 显示开关设置，显示起始行设置，地址指针设置和　数据读／写等指令。

　三．外形尺寸１．外形尺寸图２．主要外形尺寸项目标 准 尺 寸　单 位　模 块 体 积　１１８．０×８７．０×１４．０ｍｍ　定 位 尺 寸　１１０．０×７６．５　ｍｍ　视 域８５．０×５５．０　ｍｍ　行　列　点　阵　数　１２８×６４ｄｏｔｓ　点 距 离　０．５９×０．７５　ｍｍ　点 大 小０．６３×０．７９　ｍｍ　四．硬件说明１．引脚特性引脚号引脚名称　级 别　引脚功能描述１　ＶＳＳ０Ｖ电源地　２　ＶＤＤ　＋５Ｖ　电源电压　３　ＶＬＣＤ　０～－１０Ｖ　ＬＣＤ驱动负电压，要求ＶＤＤ－ＶＬＣＤ＝１３Ｖ　４　ＲＳ　Ｈ／Ｌ　寄存器选择信号５　Ｒ／Ｗ　Ｈ／Ｌ　读／写操作选择信号　６　Ｅ　Ｈ／Ｌ　使能信号　７　ＤＢ０８　ＤＢ１　９　ＤＢ２　１０　ＤＢ３Ｈ／Ｌ八位三态并行数据总线１１　ＤＢ４　１２　ＤＢ５　１３　ＤＢ６　１４　ＤＢ７　１５　ＣＳ１　Ｈ／Ｌ　片选信号，当ＣＳ１＝Ｈ时，液晶左半屏显示　１６　ＣＳ２　Ｈ／Ｌ　片选信号，当ＣＳ２＝Ｈ时，液晶右半屏显示　１７　／ＲＥＳ　Ｈ／Ｌ　复位信号，低有效　１８　ＶＥＥ　－１０Ｖ　输出－１０Ｖ的负电压（单电源供电）　１９　ＬＥＤ＋（ＥＬ）＋５Ｖ　背光电源，Ｉｄｄ≤３００ｍＡ　２０　ＬＥＤ－（ＥＬ）　０Ｖ　２．原理简图　３．主要各部分详解　１）显示数据ＲＡＭ（ＤＤＲＡＭ）　 ＤＤＲＡＭ（６４×８×８　ｂｉｔｓ）是存储图形显示数据的。

JLX12864G-086-PN 使用说明书(不带字库IC)目录1．概述晶联讯电子专注于液晶屏及液晶模块的研发、制造。

所生产JLX12864G-086 型液晶模块由于使用方便、显示清晰，广泛应用于各种人机交流面板。

JLX12864G-086 可以显示128 列*64 行点阵单色图片，或显示16*16 点阵的汉字8 个*4 行，或显示8*16 点阵的英文、数字、符号16 个*4 行。

或显示5*8 点阵的英文、数字、符号21 个*8 行。

本产品可选择带中文字库IC 与不带中文字库IC 两种。

2．JLX12864G-086 图像型点阵液晶模块的特性2.1 结构轻、薄、带背光。

2.2 IC 采用UC1701X,功能强大，稳定性好2.3 功耗低:当电压为3.3V 时，功耗低：不带背光1mW（3.3V*0.3mA）,带背光不大于150mW （3.3V*45mA）;2.4 显示内容:（1）128*64 点阵单色图片，或其它小于128*64 点阵的单色图片;（2）可选用16*16 点阵或其他点阵的图片来自编汉字，按照16*16 点阵汉字来计算可显示8 字*4 行；（3）按照12*12 点阵汉字来计算可显示10 字*4 行；（4）按照 8*16 点阵汉字来计算可显示16 字*4 行；（5）按照 5*8 点阵汉字来计算可显示21 字*8 行；2.5 指令功能强.2.6 接口简单方便:采用4 线SPI 串行接口。

2.7 工作温度宽:-20℃ - 70℃;3.外形尺寸及接口引脚功能模块的接口引脚功能表1：模块的接口引脚功能4.基本原理4.1 液晶屏（LCD）在LCD 上排列着128×64 点阵,128 个列信号与驱动IC 相连，64 个行信号也与驱动IC 相连，IC 邦定在LCD 玻璃上（这种加工工艺叫COG）.4.2 工作电图：图2 是JLX12864G-0086 图像点阵型模块的电路框图,它由驱动IC ST7565R 及几个电阻电容组成。

LCD Module SpecificationModel No.:LG128646-FFDWH6VTable of Contents1. BASIC SPECIFICATIONS (2)2. ABSOLUTE MAXIMUM RATINGS (3)3. ELECTRICAL CHARACTERISTICS (4)4. OPERATING PRINCIPLES & METHODS (7)5. DISPLAY CONTROL INSTRUCTIONS (10)6. DISPLAY DATA RAM ADDRESS MAP (13)7. CONNECTION WITH 8051 FAMILY MPU (14)8. ELECTRO-OPTICAL CHARACTERISTICS (15)9. DIMENSIONAL OUTLINE (16)10. LCD MODULE NUMBERING SYSTEM (17)11. PRECAUTIONS FOR USE OF LCD MODULE (18)RECORD OF REVISIONRev. Date Page Item Description0.1 2007/02/09 -- -- New release1. BASIC SPECIFICATIONS1.1 FeaturesItemSpecificationsUnit Display Format 128 x 64dot LCD Type FSTN - Positive - TransflectiveBlack characters on white background - Driving Method 1/64 Duty, 1/9 Bias - Viewing Direction 6O ’clock Backlight & ColorLED, white color - Outline Dimension (WxHxT) 66.0 x 58.0 x 10.5 mm Viewing Area (WxH) 57.0 x 37.0 mm Active Area (WxH)55.0 x 35.16 mm Dot Pitch (WxH) 0.43 x 0.55 mm Dot Size (WxH) 0.39 x 0.51 mm Weight 40 g Controller S6B0108- Interface8-bit parallel (6800 series MPU)- Power Supply (V DD ) 5.0 (Built-in voltage converter for LCD driving)V1.2 Block Diagram1.3 Terminal FunctionsPin No. Symbol Level Function1 V SS0V Ground2 V DD+5V Power supply for logic3 V O- Operating voltage for LCD (contrast adjusting) Refer to section 3.54 RS H/L Data or instruction selectionH: Display data L: Instruction code5 R/W H/L Read or write selectionH: Read operation L: Write operation6 E H, H→L Enable signal. In read mode (R/W=“H”), data appears at DB0 to DB7 while E is “H”. In write mode (R/W=“L”), data of DB0 to DB7 is latched at the falling edge of E.7 DB0 H/L8 DB1 H/L9 DB2 H/L10 DB3 H/L11 DB4 H/L12 DB5 H/L13 DB6 H/L14 DB7 H/LData bus15 /CS1 L Chip selection for IC1 (left half panel). Active “L”.16 /CS2 L Chip selection for IC2 (right half panel). Active “L”.17 /RST L Reset signal. Active “L”.18 V OUT-10V Output voltage for LCD driving19 LEDA +5V20 LEDK 0V Power supply for LED backlight Refer to section 3.3 to 3.42. ABSOLUTE MAXIMUM RATINGSItem Symbol Min. Max. Unit Supply Voltage (Logic) V DD-V SS-0.3 7.0 V Supply Voltage (LCD) V DD-V O-0.3 19.0 V Input Voltage V I-0.3 V DD+0.3 V Operating Temperature Topr-20 70 °C Storage Temperature Tstg-30 80 °C3. ELECTRICAL CHARACTERISTICS3.1 DC Characteristics (V DD=5.0V±10%, Ta=25°C)Item Symbol Condition Min. Typ. Max. Unit Supply VoltageV DD 4.5 5.0 5.5 V (Logic)Supply VoltageV DD-V O-- 12.2 -- V (LCD Drive)Input High Voltage V IH 2.0 -- V DD V Input Low Voltage V IL0 -- 0.8 V Output High Voltage V OH I OH=-0.2mA 2.4 -- V DD V Output Low Voltage V OL I OL=1.6mA 0 -- 0.4 VSupply CurrentI DD V DD=5.0V -- 6.0 8.0 mA (Logic)3.2 Interface Timing Chart (V DD=5.0V±10%, Ta=25°C)Characteristic Symbol Min. Typ. Max. UnitE Cycle t C1000 -- -- nsE High Level Width t WH450 -- -- nsE Low Level Width t WL 450 -- -- nsE Rise Time t R-- -- 25 nsE Fall Time t F-- -- 25 ns Address Set-Up Time t ASU140 -- -- ns Address Hold Time t AH10 -- -- ns Data Set-Up Time t DSU200 -- -- ns Data Delay Time t D-- -- 320 ns Data Hold Time(Write) t DHW10 -- -- ns Data Hold Time(Read) t DHR10 -- -- nsRSDB0-DB7R/W/CS1, /CS2EDB0-DB7ERS/CS1, /CS2R/WMPU Read TimingMPU Write Timing3.3 LED Backlight Characteristics (Ta=25°C)Item Symbol Condition Min. Typ. Max. Unit Forward Voltage V f 2.9 3.1 3.3 V Forward Current I f V f=3.1V -- 45 -- mA Color White3.4 Power Supply for LED Backlight* R L (internal) and R E (external) are the current limiting resistors for LED backlight1) V LED=5.0V: J1 open. Supply 5.0V to LEDA (Pin 19) and LEDK (Pin 20) <Default>2) V LED=3.3V: J1 close; R E=(3.3V-3.1V)/45mA=4.5Ω. Supply 3.1V to LEDA (Pin 19) and LEDK (Pin 20)3) V LED is other voltage: J1 close; R E=(V LED-3.1V)/45mA. Supply 3.1V to LEDA (Pin 19) and LEDK (Pin 20)3.5 Power Supply for Logic and LCD Driving* V O is LCD driving voltage (contrast adjusting). Adjust V DD-V O voltage to be around 12.2V for a better contrast.4. OPERATING PRINCIPLES & METHODS4.1 I/O BufferInput buffer controls the status between the enable and display of chip. Unless the IC (selected by /CS1 or /CS2) is in active mode, input or output of data and instruction does not execute. Therefore internal state is maintained. But /RST can operate regardless the level of /CS1 or /CS2.4.2 RegisterBoth input register and output register are provided to interface to MPU of which the speed is different from that of internal operation. The selections of these registers depend on the combination of R/W and RS signals.RS R/W FunctionL InstructionLH Status read (busy check)L Data write (from input register to display data RAM) HH Data read (from display data RAM to output register)4.2.1 Input RegisterInput register stores the data temporarily before writing it into display data RAM.When the IC is in active mode, R/W and RS select the input register. The data from MPUis written into input register, then into display data RAM. Data is latched at falling edge of the E signal and then written into the display data RAM automatically by internal operation.4.2.2 Output RegisterOutput register stores the data temporarily which is read from display data RAM when the IC is in active mode and R/W and RS=H, stored data in display data RAM is latched in output register. When the IC is in active mode and R/W=H, RS=L, status data (busy check) can be read out.To read the contents of display data RAM, twice access of read instruction is needed. In first access, data in display data RAM is latched into output register. In second access, MPU can read data that is latched in output register. That is, to read the data in display data RAM, it needs dummy read. But status read does not need dummy read.The following shows the MPU read timing.DB0-DB7Writeaddress NRegister Address Output R/W Busy checkE RS MPU Read TimingcheckBusyData at address N+1Data at address N Ncheck Busy (dumy)Read data N+1address NRead data checkBusy N+2address N+1Read data4.3 ResetThe system can be initialized by setting /RST terminal at low level when turning power on. When /RST becomes low, following procedure is occurred. 1. Display off2. Display start line register is set by 0. (Z address 0)While /RST is low level, no instruction except status read can be accepted. Reset status appears at DB4 of status byte, after DB4 becomes “L ”, any instruction can be accepted. The conditions of power supply at initial power up are shown below.Item Symbol Min. Typ. Max. Unit Reset time t RS1.0 -- -- μs Rise time t R----200ns/RSTV DD4.4 Busy FlagBusy flag indicates the system is now internally operating or not. When busy flag is “H ”, the system is in internal operation. When busy flag is “L ”, the system can accept data or instruction. Busy flag is read out on DB7 by the Status Read instruction.4.5 Display On/Off Flip-FlopThe display on/off flip-flop makes on/off the liquid crystal display. When flip-flop is reset (logical low), selective voltage or non selective voltage appears on segment output terminals. When flip-flop is set (logical high), non selective voltage appears on segment output terminals regardless of display RAM data.The display on/off flip-flop can change status by instruction. The display data at all segments disappear while /RST is low. The status of the flip-flop is output on DB5 by Status Read instruction.4.6 X Page RegisterX page register designates page of the internal display data RAM. Count function is not available. The address is set by instruction.4.7 Y Address CounterY address counter designates address of the internal display data RAM. The address is set by instruction and is increased by 1 automatically by read or write operations of display data.4.8 Display Data RAMDisplay data RAM stores a display data for liquid crystal display. 1 bit data of this RAM corresponds to light ON (data=1) or light OFF (data=0) of 1 dot on the display panel.4.9 Display Start Line RegisterThe register specifies a line in display data RAM that corresponds to the top line of LCD panel, when displaying contents in display data RAM on the LCD panel. Bit data (DB<0:5>) of the display start line information is written into this register by display start line set instruction. It is used for scrolling of the liquid crystal display screen.5. DISPLAY CONTROL INSTRUCTIONSThe display control instructions control the internal state of the S6B0108. Instruction is received from MPU to S6B0108 for the display control. The following table shows various instructions.Instruction RS R/W DB7 DB6 DB5 DB4 DB3 DB2 DB1 DB0 FunctionDisplay ON/OFF 0 0 0 0 1 1 1 1 1 0/1 Control the display on or off.Internal status and display RAM data arenot affected.Set Address (Y address) 0 0 0 1 Y address (0-63) Set the Y address at the Y addresscounter.Set Page (X address) 0 0 1 0 1 1 1 Page(0-7)Set the X address at the X addressregister.Display Start Line(Z address) 0 0 1 1 Display start line (0-63) Indicate the display data RAM displayedat the top of the screen.Status Read 0 1 BUSY 0 ON/OFFRESET0 0 0 0 Read status.BUSY 0: Ready1: In internal operationON/OFF0: Display ON1: Display OFFRESET0: Normal1: ResetWrite Display Data 1 0 Display Data Write data (DB0-DB7) into display dataRAM. After writing instruction, Y addressis increased by 1 automatically.Read Display Data 1 1 Display Data Read data (DB0-DB7) from display dataRAM to the data bus.LG128646-FFDWH6V Rev 0.1- 11 -5.1 Display On/Off RS 0 R/W 0 DB7 0 DB6 0 DB5 1 DB4 1 DB3 1 DB2 1 DB1 1 DB0 DThe display data appears when D is 1 and disappears when D is 0. Though the data is not on the screen with D=0, it remains in the display data RAM. Therefore, you can make it appear by changing D=0 into D=1. 5.2 Set Address (Y Address) RS 0 R/W 0 DB7 0 DB6 1 DB5 AC5 DB4 AC4 DB3 AC3 DB2 AC2 DB1 AC1 DB0 AC0Y address (AC0-AC5) of the display data RAM is set in the Y address counter. The address is set by instruction and increased by 1 automatically by read or write operations of display data. 5.3 Set Page (X Address) RS 0 R/W 0 DB7 1 DB6 0 DB5 1 DB4 1 DB3 1 DB2 AC2 DB1 AC1 DB0 AC0X address (AC0-AC2) of the display data RAM is set in the X address register. Writing or reading to or from MPU is executed in this specified page until the next page is set. 5.4 Display Start Line (Z Address) RS 0 R/W 0 DB7 1 DB6 1 DB5 AC5 DB4 AC4 DB3 AC3 DB2 AC2 DB1 AC1 DB0 AC0Z address (AC0-AC5) of the display data RAM is set in the display start line register and displayed at the top of the screen.LG128646-FFDWH6V Rev 0.1- 12 -5.5 Status Read RS 0 • R/W 1 DB7 BUSY DB6 0 DB5 ON/OFF DB4 RESET DB3 0 DB2 0 DB1 0 DB0 0••BUSY When BUSY is 1, the chip is executing internal operation and no instructions are accepted. When BUSY is 0, the chip is ready to accept any instructions. ON/OFF When ON/OFF is 1, the display is off. When ON/OFF is 0, the display is on. RESET When RESET is 1, the system is being initialized. In this condition, no instructions except status read can be accepted. When RESET is 0, initializing has finished and the system is in the normal operation condition.5.6 Write Display Data RS 1 R/W 0 DB7 D7 DB6 D6 DB5 D5 DB4 D4 DB3 D3 DB2 D2 DB1 D1 DB0 D0Write data (D0-D7) into the display data RAM. After writing instruction, Y address is increased by 1 automatically. 5.7 Read Display Data RS 1 R/W 1 DB7 D7 DB6 D6 DB5 D5 DB4 D4 DB3 D3 DB2 D2 DB1 D1 DB0 D0Read data (D0-D7) from the display data RAM. After reading instruction, Y address is increased by 1 automatically. One time of dummy read must be required after column address setting.LG128646-FFDWH6V Rev 0.1- 13 -6. DISPLAY DATA RAM ADDRESS MAPPage (X) Address Display Data D0 D1 D2 D3 D4 D5 D6 D7 D0 D1 D2 D3 D4 D5 D6 D7 D0 D1 D2 D3 D4 D5 D6 D7 D0 D1 D2 D3 D4 D5 D6 D7 D0 D1 D2 D3 D4 D5 D6 D7 D0 D1 D2 D3 D4 D5 D6 D7 D0 D1 D2 D3 D4 D5 D6 D7 D0 D1 D2 D3 D4 D5 D6 D7 Column (Y) Address 0 1 2 1st S6B0108 (IC1) (/CS1=L, /CS2=H) 2nd S6B0108 (IC2) (/CS1=H, /CS2=L) Line (Z) Address 0 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 49 50 51 52 53 54 55 56 57 58 59 60 61 62 63 61 SEG126 62 SEG127 63 SEG128 Common COM1 COM2 COM3 COM4 COM5 COM6 COM7 COM8 COM9 COM10 COM11 COM12 COM13 COM14 COM15 COM16 COM17 COM18 COM19 COM20 COM21 COM22 COM23 COM24 COM25 COM26 COM27 COM28 COM29 COM30 COM31 COM32 COM33 COM34 COM35 COM36 COM37 COM38 COM39 COM40 COM41 COM42 COM43 COM44 COM45 COM46 COM47 COM48 COM49 COM50 COM51 COM52 COM53 COM54 COM55 COM56 COM57 COM58 COM59 COM60 COM61 COM62 COM63 COM640123LCD PANEL 128 X 64 DOTS4567--61 SEG6262 SEG6363 SEG640 SEG651 SEG662 SEG67--SEG1SEG2SegmentSEG3----LG128646-FFDWH6V Rev 0.1- 14 -7. CONNECTION WITH 8051 FAMILY MPU8051 P0.0-P0.7 8 74HC373 8 A0 A1LCD Module DB0-DB7 RS R/WY0 P2.5-P2.7 3 74HC138 Y1/CS1 /CS2/RD /WR RSTE /RSTa. Application Circuit 18051 P1.0-P1.7 P3.0 P3.1 P3.2 P3.3 P3.4 RST 8LCD Module DB0-DB7 RS R/W E /CS1 /CS2 /RSTb. Application Circuit 2LG128646-FFDWH6V Rev 0.1- 15 -8. ELECTRO-OPTICAL CHARACTERISTICS (Ta=25°C)Item View Angle Contrast Ratio Response Time Symbol Φ2-Φ1 Cr tr (rise) tf (fall) Condition Cr³2 , q=0° Φ=0°,q=0° Φ=0°,q=0° Φ=0°,q=0° Min. -3 --Typ. 70 -200 250 Max. ----Unit Deg -ms ms Note Note1, Note2 Note3 Note4Z( f =0° ) Y( q =180° , f =-90° )Topf1f2Cr Max CrXX'2.0qBottom Y'( q =0° , f =+90° ) Note1: Definition of viewing angle f, qf1f2Note2: Definition of viewing angle range f1, f2BrightnessB1 Non-selective state Brightness 100% Selective state Non-selective stateDriving Voltage Contrast Ratio = Brightness of non-selected dot (B1) Brightness of selected dot (B2)trtf10% TimeB2Note3: Definition of contrast ratio (positive type)Note3: Definition of response time90%LG128646-FFDWH6V Rev 0.1- 16 -9. DIMENSIONAL OUTLINELG128646-FFDWH6V Rev 0.1- 17 -10. LCD MODULE NUMBERING SYSTEML G 128 64 6 - F(1)(1) (2)FD W(8) (9)H(10)6(11)V - XXXXX(12) (13)(2)(3)(4)(5)(6) (7)Brand Module type C - Character module G - Graphic module(3)Display format Character module : Number of characters per line, two digits XX Graphic module : Number of columns, three digits XXX(4)Display format Character module : Number of lines, one digit X Graphic module : Number of rows, two or three digits XX or XXX(5) (6)Development number : One or two digits X or XX LCD mode T - TN Positive, Gray S - STN Positive, Yellow green B - STN Negative, Blue K - FSTN Negative, Black Q - FFSTN Negative, Black N - TN Negative, Blue G - STN Positive, Gray F - FSTN Positive, White L - FSTN Negative, Blue(7) (8) (9)Polarizer mode R - Reflective Backlight type N - Without backlight Backlight color Y - Yellow green A - Amber B - Blue R - Red W - White M - Multi color G - Green Nil - Without backlight L - Array LED D - Edge light LED E - EL C - CCFL F - Transflective M - Transmissive(10) Operating temperature range S - Standard temperature (0 to +50 oC) (11) Viewing direction 3 - 3:00 6 - 6:00 9 - 9:00 U - 12:00 V - Built in DC-DC converter (12) DC-DC Converter N or Nil - Without DC-DC converter (13) Version code Nil or 0 to ZZZZZ - Version code H - Extended temperature (-20 to +70 oC)LG128646-FFDWH6V Rev 0.1- 18 -11. PRECAUTIONS FOR USE OF LCD MODULE11.1 Handing Precautions 1) The display panel is made of glass. Do not subject it to a mechanical shock by dropping it from a high place, etc. 2) If the display panel is damaged and the liquid crystal substance inside it leaks out, be sure not to get any in your mouth. If the substance comes into contact with your skin or clothes, promptly wash it off using soap and water. 3) Do not apply excessive force on the surface of display or the adjoining areas of LCD module since this may cause the color tone to vary. 4) The polarizer covering the display surface of the LCD module is soft and easily scratched. Handle this polarizer carefully. 5) If the display surface of LCD module becomes contaminated, blow on the surface and gently wipe it with a soft dry cloth. If it is heavily contaminated, moisten cloth with one of the following solvents. · Isopropyl alcohol · Ethyl alcohol Solvents other than those mentioned above may damage the polarizer. Especially, do not use the following: · Water · Ketone · Aromatic Solvents 6) When mounting the LCD module make sure that it is free of twisting, warping, and distortion. Distortion has great influence upon display quality. Also keep the stiffness enough regarding the outer case. 7) Be sure to avoid any solvent such as flux for soldering never stick to Heat-Seal. Such solvent on Heat-Seal may cause connection problem of heat-Seal and TAB. 8) Do not forcibly pull or bend the TAB I/O terminals. 9) Do not attempt to disassemble or process the LCD module. 10) NC terminal should be open. Do not connect anything. 11) If the logic circuit power is off, do not apply the input signals. 12) To prevent destruction of the elements by static electricity, be careful to maintain an optimum work environment. · Be sure to ground the body when handling the LCD module. · Tools required for assembly, such as soldering irons, must be properly grounded. · To reduce the amount of static electricity generated, do not conduct assembly and other work under dry conditions. · The LCD module is coated with a film to protect the display surface. Exercise care when peeling off this protective film since static electricity may be generated. 11.2 Storage Precautions 1) When storing the LCD module, avoid exposure to direct sunlight or to the light of fluorescent lamps and high temperature/high humidity. Whenever possible, the LCD module should be stored in the same conditions in which they were shipped from our company.LG128646-FFDWH6V Rev 0.1- 19 -2) Exercise care to minimize corrosion of the electrodes. Corrosion of the electrodes is accelerated by water droplets or a current flow in a high humidity environment. 11.3 Design Precautions 1) The absolute maximum ratings represent the rated value beyond which LCD module can not exceed. When the LCD modules are used in excess of this rated value, their operating characteristics may be adversely affected. 2) To prevent the occurrence of erroneous operation caused by noise, attention must be paid to satisfy VIL, VIH specification values, including taking the precaution of using signal cables that are short. 3) The liquid crystal display exhibits temperature dependency characteristics. Since recognition of the display becomes difficult when the LCD is used outside its designated operating temperature range, be sure to use the LCD within this range. Also, keep in mind that the LCD driving voltage levels necessary for clear displays will vary according to temperature. 4) Sufficiently notice the mutual noise interference occurred by peripheral devices. 5) To cope with EMI, take measures basically on outputting side. 6) If DC is impressed on the liquid crystal display panel, display definition is rapidly deteriorated by the electrochemical reaction that occurs inside the liquid crystal display panel. To eliminate the opportunity of DC impressing, be sure to maintain the AC characteristics of the input signals sent to the LCD Module. 11.4 Others 1) Liquid crystals solidify under low temperatures (below the storage temperature range) leading to defective orientation or the generation of air bubbles (black or white). Air bubbles may also be generated if the LCD module is subjected to a strong shock at a low temperature. 2) If the LCD modules have been operating for a long time showing the same display patterns, the display patterns may remain on the screen as ghost images and a slight contrast irregularity may also appear. A normal operating status can be regained by suspending use for some time. It should be noted that this phenomenon does not adversely affect performance reliability. 3) To minimize the performance degradation of the LCD modules resulting from destruction caused by static electricity, etc., exercise care to avoid touching the following sections when handling the module: · Terminal electrode sections. · Part of pattern wiring on TAB, etc.。

学习笔记：12864液晶模块的详细使用备注：这篇文章是对12864操作的具体介绍，仅限刚接触12864的新手，大神请拍砖，文章写的较散，建议先参考12864手册及控制驱动器ST7920英文手册有个初步理解之后再阅读该篇文章，将会有更深的认识。

强烈建议阅读ST7920英文手册，细节内容里面有详细介绍，中文的12864也是从中译过来的。

本文分三个步骤介绍12864的内部资源原理，指令集详细讲解，以及应用例子。

对12864的所有操作概括起来有4种：1）、读忙状态（同时读出指针地址内容），初始化之后每次对12864的读写均要进行忙检测。

2）、写命令：所有的命令可以查看指令表，后续讲解指令的详细用法。

写地址也是写指令。

3）、写数据：操作对象有DDRAM、CGRAM、GDRAM。

4）、读数据：操作对象也是DDRAM、CGRAM、GDRAM。

对12864的学习首相要了解其内部资源，知道了它里面有哪些东西，你就可以更加方便的使用它。

先介绍几个英文的名字：DDRAM：（Data Display Ram），数据显示RAM，往里面写啥，屏幕就会显示啥。

CGROM：（Character Generation ROM）,字符发生ROM。

里面存储了中文汉字的字模，也称作中文字库，编码方式有GB2312（中文简体）和BIG5（中文繁体）。

笔者使用的是育松电子的QC12864B，讲解以此为例。

CGRAM：（Character Generation RAM），字符发生RAM，，12864内部提供了64×2B的CGRAM，可用于用户自定义4个16×16字符，每个字符占用32个字节。

GDRAM：（Graphic Display RAM）：图形显示RAM，这一块区域用于绘图，往里面写啥，屏幕就会显示啥，它与DDRAM的区别在于，往DDRAM中写的数据是字符的编码，字符的显示先是在CGROM中找到字模，然后映射到屏幕上，而往GDRAM中写的数据时图形的点阵信息，每个点用1bit来保存其显示与否。