OLED Display Module 96RGBx96 (1.10”) OLED Display YOS3C DISTINCTIVE CHARACTERISTICS Example Picture - Organic LED Technology - Wide View Angle of 160° - Exceptional Contrast and Brightness: 50times greater Brightness than previous LCD Products, four times more enhanced Resolution - High Resolution provides sharp, clear Images of very small Characters - Single Power / Built in DC to DC Converter for OEL Panel - Distinct, Long travel of 5mm - Sophisticated Housing for Assembly easily - Support Parallel and Serial Interface GERNERAL SPECIFICATIONS Dispaly Specifications - Display Type: OLED - Display Mode: Passive Matrix - Display Color: 65,536 Colors (Maximum) - Drive Duty: 1/96 Duty - Number of Pixels: 96(RGB)x96 - Pixel Size: 0.049x0.191 mm - Pixel Pitch: 0.069x0.207 mm Mechanical Specifications - Dimension: 29.50x29.50x10.30 mm (LxWxH) - Window Size: 21.65x21.65 mm (LxW) - Active Area: 19.852x 19.856 mm - Assembly: Pitch 1.27mm / 12 Pin Connector*2 - Assembly on PCB Easy & Removable & Flexible Electrical Characteristic - Supply Voltage: 2.4 ~ 3.3 V - Single Voltage Control Display Module - Built-in DC to DC Power Supply to Drive OLED - Driver IC: SEPS114A - Interface: Parallel/Serial/68xx/80xx/4-wire SPI TYPICAL SWITCH DIMENSIONS [email protected] www.greatecs.com 1 OLED Display Module 96RGBx96 (1.10”) OLED Display YOS3C PIN ASSIGNMENTS Pin No. Symbol Type Function 1 VDD P Power Supply for Core VDD This is a voltage supply pin. It must be connected to external source. 2 VSS P 3 SW I Ground for System This is a ground pin. It must be connected to external source. Terminal of Switch. Normally Open. 4 SW I Terminal of Switch. Normally Open. 5 C80 I Select the CPU Type Low: 80XX-Series MCU High: 68XX-Series MCU 6 PS I 7 CS# I 8 RES# I 9 D/C# I 10 WR# (R/W#) I 11 RD#(E) I Select Parallel/Serial Interface Type Low: Serial Interface High: Parallel Interface Chip Select This is the chip select input. The chip is enable for MCU communication only when CS# is pulled low. Power Reset for Controller and Drive This is reset signal input. When the pin is low, initialization of the chip is executed. Data/ Command Control This pin is Data/Command control pin. When the pin is pulled high, the input at D0~D7 is treated as display data. When the pin is pulled low, the input at D0~D7 will be transferred to the command register. Write or Read/Write Select When 80xx interface mode is selected, the pin will be the Write (WR#) input. When interfacing to a 68xx-series microprocessor, the pin will be used as Read/Write (R/W#) selection input. Pull this pin to “High” for read mode and pull it to “Low” for write mode. Read or Read/Write Enable When 80xx interface mode is selected, the pin will be the Read (RD#) input. When interfacing to a 68xx-series microprocessor, the pin will be used as the Enable (E) signal. Read/Write operation is initiated when this pin is pulled high and the CS# is pulled low. 12 NC - 13~20 D0~D7 I/O 21 VSS P 22 VCC-CTL I [email protected] Reserved Pin Host Data Input /Output Bus These pins are 8-bit bi-directional data bus to be connected to the microprocessor’s data bus. PS Description 0 D[0] SCL: Synchronous Clock Input D[1] SDI: Serial Data Input D[2]: SDO: Serial Data Output D[3] R/W: Serial Read (High) / Write (Low) 1 8-bit Bus: D[7:0] When using SPI, the unused pins must be connected to VSS. Ground for System This is a ground pin. It must be connected to external source. OLED Driver Power Supply ON/ OFF Control When this pin is pulled high, the panel power supply will be turned ON. When this pin is pulled low, the panel power supply will be turned OFF. www.greatecs.com 2 OLED Display Module 96RGBx96 (1.10”) OLED Display YOS3C 23 NC - Reserved Pin 24 VCC P OLED Driver Power Supply Output This pin is OLED driver power supply output. When VCC-CTL is pulled high, the pin will be output about 13V voltage. ABSOLUTE MAXIMUM RATINGS Parameter Symbol Min Max Unit Notes Supply Voltage for Operation VDD -0.3 4 V 1,2 Supply Voltage for Display Vcc_c -0.3 16 V 1,2 Operating Temperature TOP -30 70 ɗ - Storage Temperature TSTG -40 80 ɗ - Note1烉All the above voltages are on the basis of “VSS=0V” Note2烉When this module is used beyond the above absolute maximum ratings, permanent breakage of the module may occur. Also for normal operations, it is desirable to use this module under the conditions according to Section 6 “Electrical Characteristics”. If this module is used beyond these conditions, malfunctioning of the module can occur and the reliability of the module may deteriorate. [email protected] www.greatecs.com 3 OLED Display Module 96RGBx96 (1.10”) OLED Display YOS3C ELECTRICAL CHARACTERISTICS 1. DC Characteristics Characteristics Supply Voltage for Operation Symbol Conditions VDD Note 3 Min TYP Max Unit 2.4 2.8 3.3 V 12.5 13 13.5 V Supply Voltage for Display VCC_C High Level Input VIH 0.8×VDD - VDD V Low Level Input VIL 0 - 0.4 V High Level Output VOH IOH = -0.1mA VDD-0.4 - Low Level Output VOL IOL = -0.1mA Operating Current for VDD IDD Operating Current for VCC_C ICC Note 4 V - 0.4 V 2.5 3.5 mA 9.5 11.9 mA 17.1 21.4 mA Note 5 Note 3: Brightness (Lbr) and Supply Voltage for Display (Vcc_c) are subject to the change of the panel characteristics and the customer’s request. Note 4: VDD = 2.8V, VCC_C = 13V, 50% Display Area Turn on. Note 5: VDD = 2.8V, VCC_C = 13V, 100% Display Area Turn on. 2. Optics Characteristics Characteristics Symbol Brightness Lbr C.I.E. (White) C.I.E. (Red) C.I.E. (Green) C.I.E. (Blue) Dark Room Contrast View Angle (x) (y) (x) (y) (x) (y) (x) (y) CR Conditions With Polarizer With Polarizer With Polarizer With Polarizer With Polarizer Min Typ Max Unit 80 100 - cd/m2 0.26 0.30 0.34 0.29 0.33 0.37 0.60 0.64 0.68 0.30 0.34 0.38 0.27 0.31 0.35 0.58 0.62 0.66 0.10 0.14 0.18 0.12 0.16 0.20 - >2000:1 - >160 - - degree * Optical measurement taken at VDD = 2.8V, VCC_C = 13V. [email protected] www.greatecs.com 4 OLED Display Module 96RGBx96 (1.10”) OLED Display YOS3C TIMING CHART 1. 68XX-Series MPU Parallel Interface Timing Characteristics Symbol Min Max Unit (Read) (Write) 10 5 - ns ns (Read) (Write) 10 5 - ns ns TCYC6 System Cycle Timing tELR6 Read “L” Pulse Width 200 - ns 90 - ns tEHR6 Read “H” Pulse Width 90 - ns TCYC6 System Cycle Timing tELW6 Write “L” Pulse Width tEHW6 Write “H” Pulse Width 100 - ns 45 - ns 45 - ns 0 70 ns tRDH6 Data Hold Timing 0 70 ns tDS6 Data Setup Timing 40 - ns Data Hold Timing (VDD = 2.8V, Ta = 25ƱC) 10 - ns tAH6 tAS6 Description Address Setup Timing Address Hold Timing tRDD6 Read Data Output Delay Time - Port CSB RS E *CL**15PF tDH6 D[17:9] * All the timing reference is 10% and 90% of VDD (Read Timing) (Write Timing) [email protected] www.greatecs.com 5 OLED Display Module 96RGBx96 (1.10”) OLED Display YOS3C TIMING CHART 2. 80XX-Series MPU Parallel Interface Timing Characteristics Symbol Description Min Max Unit Port CSB A0 tAS8 Address Setup Timing 5 - ns tAH8 tCYC8 tRDLR8 t RDHR8 tCYC8 tWRLW8 tWRHW8 Address Hold Timing 5 - ns System Cycle Timing 200 - ns Read “L” Pulse Width 90 - ns Read “H” Pulse Width 90 - ns System Cycle Timing 100 - ns Write “L” Pulse Width 45 - ns Write “H” Pulse Width 45 - ns tRDD8 tRDH8 tDS8 tDH8 Read Data Output Delay Time *CL = 15PF Data Hold Timing - 60 ns 0 60 ns Data Setup Timing 30 - ns Data Hold Timing 10 - ns RDB WRB D[7:0] (VDD = 2.8V, Ta = 25ƱC) * All the timing reference is 10% and 90% of VDD. (Read Timing) (Write Timing) [email protected] www.greatecs.com 6 OLED Display Module 96RGBx96 (1.10”) OLED Display YOS3C TIMING CHART 3. Series Interface Timing Characteristics Symbol Description Min Max Unit tCYCS Serial Clock Cycle 200 - ns tSHW tSLW tDss tDHS tCSS tCSH tRSS tRSH SCL “L” Pulse Width 90 - ns SCL “H” Pulse Width 90 - ns Data Setup Timing 25 - ns Data Hold Timing 25 - ns CSB-SCL Timing 25 - ns CSB-Hold Timing 25 - ns RS-SCL Timing 25 - ns RS-Hold Timing 25 ns Port SCL SDI CSB RS (VDD = 2.8V, Ta = 25ƱC) * All the timing reference is 10% and 90% of VDD. [email protected] www.greatecs.com 7 OLED Display Module 96RGBx96 (1.10”) OLED Display YOS3C FUNCTION SPECIFICATION 1. Commands Refer to the Technical Manual for the SEPS114A 2. Power Down and Power up Sequence To protect OEL panel and extend the panel life time, the driver IC power up/down routine should include a delay period between high voltage and low voltage power sources during turn on/off. It gives the OEL panel enough time to complete the action of charge and discharge before/after the operation. 2.1. 2.2. Power up Sequence 1. Power up VDD & VDDIO 2. Send Display off command 3. Initialization 4. Clear Screen 5. Power up VCC_C 6. Delay 100ms (when VCC_C is stable) 7. Send Display on command Power down Sequence 1. Send Display off command 2. Power down Vcc_c 3. Delay 100ms (when Vcc_c is reach 0 and panel is completely discharges) 4. Power down V [email protected] www.greatecs.com 8 OLED Display Module 96RGBx96 (1.10”) OLED Display YOS3C FUNCTION SPECIFICATION 3. Reset Circuit When RSTB input is low, the chip is initialized with the following status: 1. 2. Standby Mode: On Frame Frequency: 95Hz 3. 4. 5. Oscillation: Internal Oscillator Off DDRAM Write Horizontal Address: XS = 0x00, XE = 0x5F DDRAM Write Vertical Address: YS = 0x00, YE = 0x5F 6. 7. Display Data RAM Write: MDIR1 = 0, MDIR0 = 0, VH = 0 Row Scan Shift Direction: R0, R1, … , R94, R95 8. 9. 10. 11. 12. Column Data Shift Direction: C0, C1, … , C286, C287 Display On/Off: Off Panel Display Size: FX = 0x00, TX = 0x5F, FY = 0x00, TY = 0x5F Display Data RAM Read Column/Row Address: DX = 0x00, DY = 0x00 Discharge Time: 8 Clock 13. Peak Pulse Delay: 5 Clock 14. Peak Pulse Width Time (R/G/B): 5 Clock 15. Precharge Current (R/G/B): 0ˤA 16. Driving Current (R/G/B): 0ƶA [email protected] www.greatecs.com 9 OLED Display Module 96RGBx96 (1.10”) OLED Display YOS3C COMMAND APPLICATION EXAMPLE Command usage and explanation of an actual example <Initialization> OLED_VCC_CTL=0; //Off power up Panel Vcc OLED_RESET=0; //Reset driver IC for 100ms Delay_100ms (1); OLED_RESET=1; Set SOFT_RESET (0x01, 0x00); Set STANDBY_ON_OFF (0x14, 0x00); Set DISP_ON_OFF (0x02, 0x00); Set ANALOG CONTROL (0x0F, 0x40); Set OSC_ADJUST (0x1A, 0x03); Set DISPLAYSTART_X (0x38, 0x00); Set DISPLAYSTART_Y (0x39, 0x00); Set RGB_IF (0xE0, 0x00); Set RGB_POL (0xE1, 0x00); Set DISPLAY_MODE_CONTROL (0xE5, 0x00); Set CPU_IF (0x0D, 0x00); Set MEMORY_WRITE/READ (0x1D, 0x01); Set ROW_SCAN_DIRECTION (0x09, 0x00); Set ROW_SCAN_MODE (0x13, 0x00); Set COLUMN_CURRENT_R (0x40, 0x7F); Set COLUMN_CURRENT_G (0x41, 0x65); Set COLUMN_CURRENT_B (0x42, 0x7B); Set ROW_OVERLAP (0x48, 0x03); Set DISCHARGE_TIME (0x18, 0x03); Set PEAK_PULSE_DELAY (0x16, 0x00); Set PEAK_PULSE_WIDTH_R (0x3A, 0x03); Set PEAK_PULSE_WIDTH_G (0x3B, 0x03); Set PEAK_PULSE_WIDTH_B (0x3C, 0x02); Set PRECHARGE_CURRENT_R (0x3D, 0x09); Set PRECHARGE_CURRENT_G (0x3E, 0x09); Set SCAN_OFF_LEVEL (0x49, 0x0F); Set DISPLAY_X1 (0x30, 0x00); Set DISPLAY_X2 (0x31, 0x5F); Set DISPLY_Y1 (0x32, 0x00); Set DISPLAY_Y2 (0x33, 0x5F); Clear Screen; Set DISP_ON_OFF (0x02, 0x01); OLED_VCC=1; Delay_100ms(1); Set_Display_On(0xAF); //Power up Vcc //Dealy 100ms // Display On (0x00/0x01) If the noise is accidentally occurred at the displaying window during the operation, please reset the display in order to recover the display function. [email protected] www.greatecs.com 10 OLED Display Module 96RGBx96 (1.10”) OLED Display YOS3C RELIABILITY 1. Contents of Reliability Test Item High Temperature Operation Conditions 70ƱC, 240hrs Low Temperature Operation -30ƱC, 240hrs High Temperature Storage 80ƱC, 240hrs Low Temperature Storage -40ƱC, 240hrs High Temperature/ Humidity Operation 60ƱC, Criteria The operational functions work. 90% RH, 120hrs -40ƱCġĽľĿġ85ƱC, 24 cycles Thermal Shock 60 mins dwell *The samples used for the above test do not include polarizer. *No moisture condensation is observed during tests. 2. Lifetime End of lifetime is specified as 50% of initial brightness. Parameter Min Max Unit Condition Notes ij Operating Life Time 10,000 - hr 100 cd/Ů , 50% checkerboard Storage Life Time 20,000 - hr Ta = 25ƱC, 50% RH * *The average operating lifetime at room temperature is estimated by the accelerated operation at high temperature conditions. 10.3. Failure Check Standard After the completion of the described reliability test, the samples were left at room temperature for 2 hrs prior to conducting the failure test at 23 ± 5ƱC烊55 ± 15% RH. [email protected] www.greatecs.com 11