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AZ DISPLAYS, INC. SPECIFICATIONS FOR LIQUID CRYSTAL DISPLAY PART NUMBER: DATE: AGM1264M July 8, 2005 Page 1 of 13 1. General Specifications Item Display Pattern Color Module Dimension Viewing Area Active Area Character Size Character Pitch DOT Size DOT Pitch 0.45 X 0.50 0.49 X 0.54 TN, Positive HTN, Positive STN, Yellow-Green FSTN, Positive Color STN FM LCD Transflective Anti-Glare 6H 12H NT7532H-BDT 1/65duty, 1/9bias I2C 6800 LED EL 4-wire Serial 8080 4-bit Bottom CCFL 3-wire Serial Change by hardware Single Side White Red External External (TOPL TOPH) deg. deg. (TSTL -- TSTH) Amber Dual Side TN, Negative HTN, Negative STN, Gray FSTN, Negative Standard Value Dot-Graphic Mono. 65.0 X 41.0 62.68 X 34.52 Character with ICON Grayscale mm mm mm mm mm mm mm Digits Unit Dots 74.0 X 59.45 X 7.6 LCD Type STN, Blue Polarizer Type View Direction LCD Controller & Driver LCD Driving Method Interface Type Backlight Type Backlight Color EL/CCFL Driver type DC-DC Converter Operation Temperature ( C) Storage Temperature ( C) o o Transmissive Reflective Yellow-Green Blue Build-in Build-in -20-70 -30-80 AZ DISPLAYS, INC. 2 2. Mechanical Diagram AZ DISPLAYS, INC. AZ DISPLAYS, INC. 3 AGM1264M 3. I/O Terminals 3.1 Pin Description Pin NO. 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16-23 Symbol PS C86 V0 V4 V3 V2 V1 C2C2+ C1+ C1C3+ VOUT VSS VDD DB7-DB0 Function Description Parallel or Serial data input select MPU Interface select(6800 or 8080) LCD driver supply voltage LCD driver supply voltage LCD driver supply voltage LCD driver supply voltage LCD driver supply voltage For internal DC/DC voltage converter For internal DC/DC voltage converter For internal DC/DC voltage converter For internal DC/DC voltage converter For internal DC/DC voltage converter DC/DC voltage converter output Logic Ground. Logic supply voltage. Quasi-Bidirectional I/O Data Bus. Three state I/O common terminal. DB0 (LSB) ... DB7 (MSB) 24 /RD(E) When connected to an 8080 MPU, it is active LOW. This pad is connected to the RD signal of the 8080MPU, and the NT7532 data bus is in an output status when this signal is "L" When connected to a 6800 Series MPU, this is active HIGH. This is used as an enable clock input of the 6800 series MPU When connected to an 8080 MPU, this is active LOW. This terminal connects to the 8080 MPU WR signal. The signals on the data bus are latched at the rising edge of the WR signal. When connected to a 6800 Series MPU, this is the read/write control signal input terminal. When W R/ = "H": Read When W R/ = "L": Write Data or Instruction. A0 = H A0 = L DB<0:7>: Display RAM data DB<0:7>: Instruction data 25 /WR(R/W 26 A0 27 28 /RES /CS1 14 16 RES I When RES is set to "L", the settings are initialized. The reset operation is performed by the RES signal level This is the chip select signal. When CS1="L", then the chip select becomes active, and data/command I/O is enabled. AZ DISPLAYS, INC. 4 3.2 Block Diagram 4. Electro-optical Specifications 4.1 Absolute Maximum Ratings No 1 2 3 Item Supply Voltage For Logic Supply Voltage For Lcd Driver Symbol VDD -VSS VLCD Min. -0.3 -0.3 Max. 3.6 13.5 Unit V V VI VDD+0.3 V -0.3 Input Voltage Note: Operating Temperature and Storage Temperature can be found in 1.General Specifications. 4.2 Optical Characteristics(1) No 1 2 3 4 5 6 7 Viewing Angle Item Contrast Ratio Response time Response time 3H 9H 6H 12H Symbol Condition Cr TON TOFF _ O1 _ O2 _ O3 _ O4 Ta=23+3 C VLCD = Typ. (2) Ta=23+3oC Ta=23+3 C Cr = 2 Ta=23+3 oC o o Min. - Typ. 4.03 110 170 48 50 28 55 Max. - Unit ms ms - Deg. Deg. Deg. Deg. Note: (1) See Appendix 1 Definition of Optical Characteristics for detail. (2) VLCD can be found in 4.2 Electrical Characteristics Supply Voltage for LCD Driver AZ DISPLAYS, INC. 5 4.3 Electrical Characteristics No 1 2 3 4 5 6 7 8 9 10 item I Supply Voltage for Logic Supply Voltage for LCD Driver Supply Current for Logic Oscillation Frequency Input High Voltage Input Low Voltage Output High Voltage Output Low Voltage Supply Current Backlight Supply Voltage Backlight for for LED LED Symbol Condition VDD-VSS VO-VSS (VLCD) IDD Fosc VIH VIL VOH VOL ILED VLED Ta=23+3 oC VLED = Typ. Ta=23+3 oC ILED = Typ. Ta=23+3 oC Ta=23+3 oC 27 0.7 VDD -0.3 2.0 50 42 Min. 2.4 9.5 Typ. / 9.6 0.4 33 Max. 3.5 9.7 1.5 39 Unit V V mA KHz V V V V mA V V DD 0.4 0.4 - 4.4 Timming Characteristics AZ DISPLAYS, INC. 6 AZ DISPLAYS, INC. 7 AZ DISPLAYS, INC. 8 5. Programming 5.1 Instruction Table AZ DISPLAYS, INC. 9 5.2 Display Data RAM AZ DISPLAYS, INC. 10 6. Power Supply AZ DISPLAYS, INC. 11 Appendix 1 1. Optical Definitions Note 1: Contrast Ratio Test A. Contrast ratio is calculated by the following formula when the output voltage (Fig.2-a, positive type; Fig 2-b,negative type) is obtained from the next electro-optical test system (Fig.1) B. Conditions of Testing: Accord to the LCD s driving method and operating voltage (Vop) C. The formula: Photometer output voltage when non-select waveform is applying Contrast ratio = ----------------------------------------------------------------------------------Photometer output voltage when select waveform is applying (positive type ) Photometer output voltage when select waveform is applying Contrast ratio = ----------------------------------------------------------------------------------(negative type ) Photometer output voltage when non-select waveform is applying D. Test system: Fig. 1 Note 2: Response time A. Rise time is defined as the time required for the transmission to change from 90% to 10%. B. Fall time is defined as the time required for the transmission to change from 10% to 90%. C. On time is defined as the time required for the transmission to change from 100% to 10%. D. Off time is defined as the time required for the transmission to change from 10% to 100%. AZ DISPLAYS, INC. 12 Non-selective state Intensity 100 % 90% Selective state Non-selective state 10% Tr To n Tf To ff positive type Fig.2-a Non-selective state Intensity Selectective state Non-selective state 100% 90% 10% Tr Ton Tf Toff negative type Fig.2-b Note 3: Viewing Angle A. The viewing angle is defined as shown below. (See Fig.3 ) Fig.3 B. The system block diagram (See Fig.4) AZ DISPLAYS, INC. 13 |
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