CFAL12832C-W-B1 CFA10009 SH1101A CFA-10009 DMO-L12832CWB1 CFAL12832C-B-B1 - Datasheet Archive

 

GRAPHIC OLED MODULE SPECIFICATIONS Crystalfontz Model Number CFAL12832C-W-B1 Hardware Version Version A, February 2009 Data Sheet

 

Crystalfontz America, Incorporated GRAPHIC OLED MODULE SPECIFICATIONS Crystalfontz Model Number CFAL12832C-W-B1 CFAL12832C-W-B1 Hardware Version Version A, February 2009 Data Sheet Version Revision 2.0, November 2009 Product Pages www.crystalfontz.com/product/CFAL12832CWB1.html Crystalfontz America, Incorporated 12412 East Saltese Avenue Spokane Valley, WA 99216-0357 Phone: Fax: Email: URL: 888-206-9720 509-892-1203 techinfo@crystalfontz.com www.crystalfontz.com Crystalfontz America, Inc. www.crystalfontz.com November 2009 CFAL12832C-W-B1 CFAL12832C-W-B1 Graphic OLED Module Data Sheet Hardware vA / Data Sheet v2.0 Page 2 REVISION HISTORY HARDWARE 2009/02/26 Current hardware version: vA New module. DATA SHEET 2009/11/02 Current Data Sheet version: v2.0 Changes since last revision: Removed all references to internal DC-DC Converter including in System Block Diagram (Pg. 11) and a DC-DC converter circuit example that cannot be used. Wherever listed, changed references to Pin 4 from "VDD2" (VDCDC) to "NC" (No Connection). Does not apply. Wherever described, improved description of dimensions by listing with "FPC folded" and "FPC unfolded". Wherever listed, made a distinction between "Module Depth" maximum "2.10 mm" (includes tolerance) and nominal "2.00 mm". In MAIN FEATURES (Pg. 5), added note on availability of demonstration and evaluation platform. In Physical Characteristics (Pg. 7), - Added "Module Connector Pitch" and "FPC Radius" dimensions. - Changed "Aperture Rate" from "78%" to "76%". - Changed "Weight" from "1 gram (typical)" to "1.17+10% grams (typical)". In Absolute Maximum Ratings (Pg. 13), added "Humidity" specification of "90%" maximum. In DC Characteristics (3.3v Operation) (Pg. 14), - Changed "Logic Supply Voltage" minimum from "+2.6v" to "+2.4v". - Changed "OLED Driver Supply Voltage" from minimum "+7v" to "+7.5v" and maximum "+9.0v" to "+8.5v". - Moved "Normal Mode Power Consumption" specification from Optical Characteristics and changed typical from "32 mW" to "31 mW" and maximum from "48 mW" to "37 mW". - Added "Standby Mode Power Consumption". In Optical Characteristics (Pg. 18), - Moved "Duty" specification from DC Characteristics section. - Changed "Response Time" from "160°. Wide temperature range for operation is -20°C to +70°C. RoHS compliant. Crystalfontz America, Inc. www.crystalfontz.com November 2009 CFAL12832C-W-B1 CFAL12832C-W-B1 Graphic OLED Module Data Sheet Hardware vA / Data Sheet v2.0 Page 6 MODULE CLASSIFICATION INFORMATION CFA L 128 32 C - W - B1 Brand Crystalfontz America, Inc. Display Type L ­ OLED Number of Pixels (Width) 128 pixels Number of Pixels (Height) 32 pixels Model Identifier C Display Color W ­ White Special Codes B1 ­ Manufacturer's codes ORDERING INFORMATION PART NUMBER COLOR CFAL12832C-W-B1 CFAL12832C-W-B1 white Additional modules in this series. CFAL12832C-B-B1 CFAL12832C-B-B1 blue Crystalfontz America, Inc. www.crystalfontz.com November 2009 CFAL12832C-W-B1 CFAL12832C-W-B1 Graphic OLED Module Data Sheet Hardware vA / Data Sheet v2.0 Page 7 MECHANICAL SPECIFICATIONS PHYSICAL CHARACTERISTICS ITEM SIZE Number of Pixels 128 x 32 pixels = 4,096 pixels Pixel Size 0.155 (W) x 0.155 (H) mm Pixel Pitch 0.175 (W) x 0.175 (H) mm Active Area Active Area Diagonal Inches: 0.91" Active Area Width and Height Millimeters: 22.38 (W) x 5.58 (H) mm Inches: 0.88" (W) x 0.22" (H) Viewing Area Width and Height Millimeters: 24.38 (W) x 7.58 (H) mm Inches: 0.96" (W) x 0.30" (H) Module Outline Dimensions Width Millimeters: 26.90 mm Inches: 1.06" Overall Height with FPC unfolded Millimeters: 23.50 mm Inches: 0.93" Overall Height with FPC folded Millimeters: 15.26 mm Inches: 0.60" Module Depth Maximum: Millimeters: 2.10 mm Inches: 0.083" Nominal: Millimeters: 2.00 mm Inches: 0.079" Module Connector Pitch 0.6 mm FPC Bend Radius >R.40 Aperture Rate* 76% Weight 1.17+ 10% grams (typical) *Aperture rate is defined by dividing an effective display area with unit pixel area. 5.58 AA 8.80 Polarizer 23.50 Overall with FPC unfolded 13.70±0.20 Panel 9.80 FPC 25.90 Polarizer 18.40±0.20 17.00 Solder Area 128 x 32 22.38 Active Area www.crystalfontz.com/products/ Crystalfontz America, Inc. Part No.(s): 1.11 .50 .155 .175 CFAL12832C-B-B1 CFAL12832C-B-B1 CFAL12832C-W-B1 CFAL12832C-W-B1 Millimeters Units: Not to scale Scale: Pixel Detail A .020 See FPC Detail A Page 2 2.09 1.09 .50 See Pixel Detail A 2.00 Nominal 2.10 Maximum 1.56 15.26 FPC folded Date: 2009/09/14 CFAL12832C CFAL12832C_master Drawing Number: .15 7.49 Sheet: 1 of 3 vA Hardware Rev.: 40 R. copyright © 2009 by Note: 1. Tolerance is ±0.30mm unless specified. 2. FPC = Flexible Printed Circuit. 3. Diagonal = 0.91" 7.58 VA 24.38 Viewing Area .155 26.90±0.20 Overall (Panel) .175 2.11 .020 Crystalfontz America, Inc. www.crystalfontz.com November 2009 CFAL12832C-W-B1 CFAL12832C-W-B1 Graphic OLED Module Data Sheet Hardware vA / Data Sheet v2.0 Page 8 MODULE OUTLINE DRAWINGS Figure 1. Module Outline Drawings (next 3 pages) .90 .70 2.20 4.10±0.20 5.00±0.20 www.crystalfontz.com/products/ Crystalfontz America, Inc. copyright © 2009 by CFAL12832C-B-B1 CFAL12832C-B-B1 CFAL12832C-W-B1 CFAL12832C-W-B1 FPC Detail 16.60±0.10 Alignment Holes P0.60 X (27-1) = 15.60±0.05 Part No.(s): Note: 1. Tolerance is ±0.30mm unless specified. 2. FPC = Flexible Printed Circuit. 3. Diagonal = 0.91" W0.30 11.32±0.20 Millimeters Units: Not to scale Scale: Ø .8 0 See Pin Detail A Page 3 Date: 2009/09/14 CFAL12832C CFAL12832C_master Drawing Number: 2- Sheet: 2 of 3 vA Hardware Rev.: Crystalfontz America, Inc. www.crystalfontz.com November 2009 CFAL12832C-W-B1 CFAL12832C-W-B1 Graphic OLED Module Data Sheet Hardware vA / Data Sheet v2.0 Page 9 2 SW 3 NC 4 FB 5 SENSE 6 V BREF 7 V LOGIC 8 NC www.crystalfontz.com/products/ Crystalfontz America, Inc. copyright © 2009 by DB7 I REF DB6 DB5 DB4 DB3 DB2 DB1 DB0 V PANEL RD 8080 (E 6800) V COMH WR8080 WR8080 (R/ W6800 W6800) D/C RST IS2 CS Part No.(s): CFAL12832C-B-B1 CFAL12832C-B-B1 CFAL12832C-W-B1 CFAL12832C-W-B1 A Pin Detail Millimeters Units: Not to scale Scale: Date: 2009/09/14 CFAL12832C CFAL12832C_master Drawing Number: 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 IS1 Note: 1. Tolerance is ±0.30mm unless specified. 2. FPC = Flexible Printed Circuit. 3. Diagonal = 0.91" GND 1 NC Sheet: 3 of 3 vA Hardware Rev.: Crystalfontz America, Inc. www.crystalfontz.com November 2009 CFAL12832C-W-B1 CFAL12832C-W-B1 Graphic OLED Module Data Sheet Hardware vA / Data Sheet v2.0 Page 10 Crystalfontz America, Inc. www.crystalfontz.com November 2009 CFAL12832C-W-B1 CFAL12832C-W-B1 Graphic OLED Module Data Sheet Hardware vA / Data Sheet v2.0 Page 11 ELECTRICAL SPECIFICATIONS SYSTEM BLOCK DIAGRAM Host 6800, 8080, or SPI 5 6 7 8 9 10 11 12 13 Sino Wealth SH1101A SH1101A Controller FB SENSE VBREF VLOGIC 14 IS1 IS2 CS RST D/C WR8080 WR8080 (R/W6800 R/W6800) 15 16 RD8080 RD8080 (E6800 E6800) VCOMH 17 18 19 20 21 22 23 24 25 CFAL12832C-B-B1 CFAL12832C-B-B1 CFAL12832C-W-B1 CFAL12832C-W-B1 Row Driver 128 x 32 OLED Panel VPANEL Column Driver DB0 DB1 DB2 DB3 DB4 DB5 DB6 DB7 Figure 2. System Block Diagram Crystalfontz America, Inc. www.crystalfontz.com November 2009 CFAL12832C-W-B1 CFAL12832C-W-B1 Graphic OLED Module Data Sheet Hardware vA / Data Sheet v2.0 Page 12 CIRCUIT EXAMPLE ­ EXTERNALLY SUPPLIED VPANEL CFAL12832C CFAL12832C Series R1 910k IREF Common 2 Common 30 V COMH V PANEL PIN 16 PIN 17 Segment 2 IREF PIN 26 RD 8080 (E 6800) WR8080 WR8080 (R/ W6800 W6800) DB0-DB7 PIN 18-25 PIN 15 PIN 13 PIN 11 PIN 9 PIN 12 HOST C1 4.7F PIN 10 PIN 8 PIN 7 PIN 6 PIN 5 NC PIN 4 PIN 3 PIN 2 GND SW NC FB SENSE V BREF V LOGIC IS1 IS2 CS RST D/ C SH1101 SH1101 A PIN 14 Segment 129 Common 1 Common 31 128 X 32 OLED C3 4.7F C2 4.7F GND External Voltage Supply Figure 3. Externally Supplied VPANEL Circuit Example Crystalfontz America, Inc. www.crystalfontz.com November 2009 CFAL12832C-W-B1 CFAL12832C-W-B1 Graphic OLED Module Data Sheet Hardware vA / Data Sheet v2.0 Page 13 POWER UP AND POWER DOWN SEQUENCING VLOGIC / vLOGIC I/O 0V / VPANEL 0V / 100 ms 100 ms Figure 4. Power Up and Power Down Sequencing ABSOLUTE MAXIMUM RATINGS SYMBOL MINIMUM MAXIMUM ABSOLUTE MAXIMUM RATINGS Operating Temperature* TOP -20°C +70°C Storage Temperature* TST -30°C +80°C Humidity RH 0% 90% Logic Supply Voltage VLOGIC -0.3v +3.5v Driver Supply Voltage VPANEL 0v +15v *Prolonged exposure at temperatures outside of this range may cause permanent damage to the module. Crystalfontz America, Inc. www.crystalfontz.com November 2009 CFAL12832C-W-B1 CFAL12832C-W-B1 Graphic OLED Module Data Sheet Hardware vA / Data Sheet v2.0 Page 14 Voltage2 Normal Mode Power Consumption Standby Mode Power Consumption MAXIMUM OLED Driver Supply TYPICAL Logic Supply Voltage TEST CONDITION MINIMUM ITEM SYMBOL DC CHARACTERISTICS (3.3V OPERATION) VLOGIC TOP = -20 C to +70 C +2.4v +3.3v +3.5v1 VPANEL TOP = -20°C to +70°C +7.5v +8.0v +8.5v POPERATION With polarizer All pixels on Driving voltage:+8v Contrast setting: 0x28 Frame rate: 104Hz 31 mW 37 mW PSTANDBY With polarizer 10% pixels on Driving voltage:+8v Contrast setting: 0x0B Frame rate: 104Hz 2.4 mW ° ° +0.8v x VLogic For VLogic = +3.3v VIH = +0.8v x +3.3v = +2.64v VLOGIC IOUT =0.5 mA 3.3MHz 0v +0.2v x VLogic For VLogic = +3.3v VIL = +0.2v x +3.3v = +0.66v VOH IOUT =0.5 mA 3.3MHz +0.8v x VLogic For VLogic = +3.3v VIH = +0.8v x +3.3v = +2.64v VLOGIC VOL IOUT =0.5 mA 3.3MHz 0v +0.2v x VLogic For VLogic = +3.3v VIL = +0.2v x +3.3v = +0.66v High Level Input Voltage VIH IOUT =0.5 mA 3.3MHz Low Level Input Voltage VIL High Level Output Voltage High Level Output Voltage 1Do not exceed 3.5v absolute maximum. VPANEL input must be a stable value with no ripple or noise. 2The This is a summary of the module's major operating parameters. For detailed information see APPENDIX D: SINO WEALTH SH1101A SH1101A CONTROLLER SPECIFICATION SHEET (Pg. 34). Crystalfontz America, Inc. www.crystalfontz.com November 2009 CFAL12832C-W-B1 CFAL12832C-W-B1 Graphic OLED Module Data Sheet Hardware vA / Data Sheet v2.0 Page 15 DIRECTION LEVEL DETAILS OF INTERFACE PIN FUNCTIONS PIN SIGNAL DESCRIPTION 1 NC 2 GND 3 SW 4 NC 5 FB 6 SENSE Source current for external NMOS of booster circuit. 7 VBREF Internal voltage reference for booster circuit. A decoupling capacitor, typically 1µF, should be connected to GND. 8 VLOGIC +2.4v to +3.5v I 9 IS1 H/L I No connection. 0v Ground. Must be connected to an external ground. O Switch output drives gate of the external NMOS of the booster circuit. No connection. variable I Feedback resistor input for the booster circuit. Use to adjust booster output voltage level, VPANEL. Power supply input. Must be connected to an external source. IS1 0 11 12 13 CS RST D/C H/L H/L H/L H/L I Serial 1 6800 Parallel 1 0 Not Allowed 1 IS2 0 0 10 IS2 Interface Mode 1 8080 Parallel I Chip select input. Low: Controller chip is selected. Communications with the host possible. High: Controller chip is not selected. Host interface signals are ignored by the controller. I Reset signal input. Low: Display controller is reset. The RST pin should be pulsed low shortly after power is applied. High: The RST pin should be brought high for normal operation. I Data/Command control. Determines whether data bits are data or command. 1 ­ High: DB0 to DB7 inputs are display data. 0 ­ Low: DB0 to DB7 inputs transferred to command registers. 14 SIGNAL WR8080 WR8080 (R/W6800 R/W6800) 15 RD8080 RD8080 (E6800 E6800) 16 CFAL12832C-W-B1 CFAL12832C-W-B1 Graphic OLED Module Data Sheet Hardware vA / Data Sheet v2.0 Page 16 DIRECTION PIN LEVEL Crystalfontz America, Inc. www.crystalfontz.com November 2009 DESCRIPTION VCOMH H/L I I Host interface input. Read data is output on databus when RD is low. 8080 Host: Active low. Signal on the databus is latched at the rising edge of RD signal. 6800 Host: Enable control signal input active high. E = High: Read or Write Active E = Low: No Read or Write Active O H/L Host interface input. 8080 Host: Active low. Signal on the databus is latched at the rising edge of WR signal. 6800 Host: read/write control signal output R/W = High: Read (HostModule) R/W = Low: Write (HostModule) High level voltage output for common signals. A low ESR capacitor should be connected between this pin and GND. Do not connect external power supply directly to this pin. Only high voltage input on chip. Power must be supplied externally. Note: You must observe power sequencing for this pin. Power Up ­ Display must be powered up and initialized before power is applied to the pin. Power Down ­ Power must be removed from this pin before the display is powered off. 17 VPANEL +7.5v to +8.5v I 18 DB0 H/L I/O 19 DB1 H/L I/O 20 DB2 H/L I/O 21 DB3 H/L I/O 22 DB4 H/L I/O 23 DB5 H/L I/O 24 DB6 H/L I/O 25 DB7 H/L I/O 26 IREF 27 NC O Bidirectional databus connects to 8-bit standard host databus. In serial mode (IS1=0, IS2=0): DB0 serves as the serial clock input signal (SCL) and DB1 serves as the serial data input pin (SI). DB2-DB7 are high impedance. In serial mode, data can be written to the display but not read. Pin 14 (WR8080 WR8080 (R/W6800 R/W6800) and pin 15 (RD8080 RD8080 (E6800 E6800) are unused and should be tied low. In 6800 Parallel mode: Pin 14 is used as R/W6800 R/W6800. Pin 15 is used as E6800 E6800. Data is input or output on DB0-DB7. In 8080 Parallel mode: Pin 14 is used as WR8080 WR8080. Pin 15 is used as RD8080 RD8080. Data is input or output on DB0-DB7. Segment output current reference for brightness adjustment. A resistor should be connected between this pin and GND. Set the current at 10µA. No connection. Crystalfontz America, Inc. www.crystalfontz.com November 2009 CFAL12832C-W-B1 CFAL12832C-W-B1 Graphic OLED Module Data Sheet Hardware vA / Data Sheet v2.0 Page 17 QUICK REFERENCE FOR PIN FUNCTIONS (BACK PHOTO) (14) WR (2) GND (4) NC (8) VLOGIC ) (10) IS2 (12) RST (R/W 6800 (6) SENSE 8080 (16) VCOMH (18) DB0 (20) DB2 (22) DB4 (24) DB6 (26) I REF (1) NC (3) SW (5) FB (7) VBREF (9) IS1 (11) CS (13) D/C (15) RD8080 RD8080 (E6800 E6800) (17) VPANEL (19) DB1 (21) DB3 (23) DB5 (25) DB7 (27) NC Figure 5. Back View of FPC (Labeled) ESD (ELECTRO-STATIC DISCHARGE) SPECIFICATIONS The circuitry is industry standard CMOS logic and susceptible to ESD damage. Please use industry standard antistatic precautions as you would for any other PCB such as expansion cards or motherboards. Ground your body, work surfaces, and equipment. Crystalfontz America, Inc. www.crystalfontz.com November 2009 CFAL12832C-W-B1 CFAL12832C-W-B1 Graphic OLED Module Data Sheet Hardware vA / Data Sheet v2.0 Page 18 OPTICAL SPECIFICATIONS ITEM Viewing Angle Dark Room Contrast Ratio1 MAXIMUM >160° CR >100:1 Response Time2 50% of initial brightness at typical brightness for a new module. OLED displays are an emissive technology. Each pixel is susceptible to dimming based on its individual use (burn-in). Frequently used pixels will dim more quickly than pixels that are not used as often. Please avoid using a bright, static, high-contrast image for a long time. If you want to leave the display powered on, please use scrolling text or alternating images to "wear level" the pixels. To conserve power and display lifetime, turn off or dim the display when it is not in use. MODULE LONGEVITY (EOL / REPLACEMENT POLICY) Crystalfontz is committed to making all of our modules available for as long as possible. For each module we introduce, we intend to offer it indefinitely. We do not preplan a module's obsolescence. The majority of modules we have introduced are still available. We recognize that discontinuing a module may cause problems for some customers. However, rapidly changing technologies, component availability, or low customer order levels may force us to discontinue ("End of Life", EOL) a module. For example, we must occasionally discontinue a module when a supplier discontinues a component or a Crystalfontz America, Inc. www.crystalfontz.com November 2009 CFAL12832C-W-B1 CFAL12832C-W-B1 Graphic OLED Module Data Sheet Hardware vA / Data Sheet v2.0 Page 20 manufacturing process becomes obsolete. When we discontinue a module, we will do our best to find an acceptable replacement module with the same fit, form, and function. In most situations, you will not notice a difference when comparing a "fit, form, and function" replacement module to the discontinued module. However, sometimes a change in component or process for the replacement module results in a slight variation, perhaps an improvement, over the previous design. Although the replacement module is still within the stated Data Sheet specifications and tolerances of the discontinued module, changes may require modification to your circuit and/or firmware. Possible changes include: Controller. A new controller may require minor changes in your code. Component tolerances. Module components have manufacturing tolerances. In extreme cases, the tolerance stack can change the visual or operating characteristics. Please understand that we avoid changing a module whenever possible; we only discontinue a module if we have no other option. We will post Part Change Notices on the product's webpage as soon as possible. If interested, you can subscribe to future part change notifications. CARE AND HANDLING PRECAUTIONS For optimum operation of the module and to prolong its life, please follow the precautions below. Excessive voltage will shorten the life of the module. You must drive the display within the specified voltage limit. See Absolute Maximum Ratings (Pg. 13). ESD (ELECTRO-STATIC DISCHARGE) The circuitry is industry standard CMOS logic and susceptible to ESD damage. Please use industry standard antistatic precautions as you would for any other PCB such as expansion cards or motherboards. Ground your body, work surfaces, and equipment. DESIGN AND MOUNTING The exposed surface of the "glass" is actually a polarizer laminated on top of the glass.To protect the soft plastic polarizer from damage, the module ships with a protective film over the polarizer. Please peel off the protective film slowly. Peeling off the protective film abruptly may generate static electricity. The polarizer is made out of soft plastic and is easily scratched or damaged. When handling the module, avoid touching the polarizer. Finger oils are difficult to remove. To protect the soft plastic polarizer from damage, place a transparent plate (for example, acrylic, polycarbonate, or glass) in front of the module, leaving a small gap between the plate and the display surface. We use GE HP92 Lexan, which is readily available and works well. Do not disassemble or modify the module. Do not modify the tab of the metal holder or make connections to it. For prototype work, hand soldering may be acceptable. Preset soldering iron to