4D SYSTEMS TURNING TECHNOLOGY INTO ART DATASHEET 1.7" microOLED GOLDELOX Display OLED-160-G2 Document Date: 5th September 2012 Document Revision: 1.0 Uncontrolled Copy when printed or downloaded. Please refer to the 4D Systems website for the latest Revision of this document microOLED GOLDELOX DISPLAY Overview The OLED-160-G2 display module brings to life a breath-taking 1.7'' Passive Matrix OLED (PMOLED) screen, which is the biggest OLED module available in its range. Driven by the GOLDELOX processor, the OLED-160-G2 is the perfect compact display solution for any application requiring crisp and eye popping colours on a sharply refined screen. The module is an elegant combination of a 1.7" PMOLED Passive Matrix Screen, along with a modest but comprehensive collection of I/O Features. These include a micro-SD card connector, two general purpose input/output pins (GPIO's) with Dallas 1-Wire Support, Analog Input and sound generation capability, along with serial communications. Embedded at the heart of the design is the GOLDELOX processor, which is driven by a highly optimised virtual core engine called EVE (Extensible Virtual Engine). This display module serves as a perfect solution to be deployed at the forefront of any product design, requiring a brilliance of colour, animation or images on any application. This GOLDELOX driven Intelligent Display Module is a perfect example of where art meets technology. The OLED-160-G2 has a 1.7" PMOLED Display that showcases the power and capabilities of the GOLDELOX processor. Combining a resolution of 160x128 pixels with 65K True to Life colours, this display module is perfect for animations, slideshows and other multimedia presentations. Basic audio generation is possible on the module through the use of RTTTL sounds and beeps. These can be executed easily with a simple command, and are non-blocking which enables user code to be executed while audio is playing. The micro-SD card slot on the module provides the user with expandable memory space suitable for multimedia file retrieval, including images, animations and movie clips, as well as data logging applications. This microOLED module can be programmed in its native 4DGL language (similar to C), using the Workshop 4 IDE Software tool suite. It can also be configured very easily as a serial slave device, for use with your favourite host controller. Freedom is at your fingertips with the intelligent OLED-160-G2 display module. microOLED GOLDELOX DISPLAY Contents 1. Description...................................................................................................................................4 2. Features .......................................................................................................................................4 3. Pin Configuration and Summary ..................................................................................................5 4. Hardware Interface - Pins.............................................................................................................6 4.1. Serial Ports - COM0 UART ...................................................................................................................... 6 4.2. General Purpose I/O............................................................................................................................... 6 4.3. System Pins ............................................................................................................................................ 7 5. PmmC/Firmware Programming ...................................................................................................8 6. Module Features ..........................................................................................................................8 6.1. Display - 1.7" PMOLED .......................................................................................................................... 8 6.2. GOLDELOX Processor ............................................................................................................................. 8 6.3. SD/SDHC Memory Cards ........................................................................................................................ 9 7. OLED Screen Precautions .............................................................................................................9 8. Hardware Tools..........................................................................................................................10 8.1. 4D Programming Cable ........................................................................................................................ 10 8.2. Development Hardware ....................................................................................................................... 10 9. 4DGL - Software Language .........................................................................................................10 10. 4D Systems - Workshop 4 IDE ..................................................................................................11 10.1. Workshop 4 - Designer Environment ................................................................................................ 11 10.2. Workshop 4 - ViSi Environment......................................................................................................... 11 10.3. Workshop 4 - Serial Environment...................................................................................................... 12 11. Mechanical Details ...................................................................................................................13 12. Schematic Diagram ..................................................................................................................14 13. Specifications and Ratings........................................................................................................15 14. Legal Notice..............................................................................................................................17 15. Contact Information .................................................................................................................17 microOLED GOLDELOX DISPLAY 4D SYSTEMS OLED-160-G2 1. Description 2. Features The OLED-160-G2 is an impressive OLED display module in the 4D Systems microOLED graphics display range. Featuring a 1.7" 160x128 resolution display, it is the ideal size for attractive embedded display applications. * Low-cost 1.7" OLED display graphics user interface solution. Driving the module and its peripherals is the GOLDELOX processor, a very capable chip which provides impressive graphics power, programmed with 4D Systems Workshop IDE Software. 4D Systems Workshop enables graphic solutions to be constructed rapidly and with ease due to its design being solely for 4D's graphics controllers. The OLED-160-G2 has a modest but comprehensive range of features suited for an application requiring a bright eye catching display, an analog input, Dallas 1-wire sensor capability, audio generation, or simply digital I/O. This is truly an impressive little module. * 160 x 128 resolution, RGB 65K true to life colours, PMOLED Screen. * No back lighting with near 180 viewing angle. * Easy 10 pin interface to any host device: 3.3Vout, IO2, GND, IO1, RESET, GND, RX, TX, +5V, 5V OUT * Powered by the 4D-Labs GOLDELOX processor (also available as separate OEM IC) * 10KB of flash memory for user code storage and 510 bytes of RAM for user variables (255 x 16bit vars). * Asynchronous hardware serial UART port with auto-baud, TTL interface, with 300 to 600K baud. * 2 x General Purpose I/O pins. IO1 supports: * Digital I/O * A/D Converter with 8/10 bit resolution * Complex sound generation * Dedicated RTTTL tune engine * Multi-Switch Joystick, Buttons * Dallas 1-Wire IO2 supports: * Digital I/O * Complex sound generation * Dedicated RTTTL tune engine * Dallas 1-Wire * On-board micro-SD memory card adaptor for multimedia storage and data logging purposes. HC memory card support is also available for cards larger than 4GB. * Built in extensive 4DGL graphics and system library functions. * Display full colour images, animations, icons and video clips. * Supports all available Windows fonts and characters (imported as external fonts). * 4.0V to 5.5V range operation (single supply), nominal 5.0V. * Module dimensions: 52.0 x 36.0 x 15.5mm (including mounting tabs and header pins). * Weight ~ 13g. * Display Viewing Area: 33.6 x 27.0mm * RoHS Compliant. (c) 2012 4D SYSTEMS Page 4 of 17 www.4dsystems.com.au microOLED GOLDELOX DISPLAY 4D SYSTEMS OLED-160-G2 3. Pin Configuration and Summary (2) (4) (6) (8) (10) 5V OUT IO2 IO1 GND 3.3V +5V (1) Pin Symbol I/O 1 +5V P 2 5V OUT P 3 TX O 4 IO2 I/O 5 RX I 6 7 8 IO1 GND GND I/O P P 9 RESET I 10 3.3V P TX (3) RX (5) GND (7) RES (9) Interface/Programming Header Description Main Voltage Supply +ve input pin. Reverse polarity protected. Range is 4.0V to 5.5V, nominal 5.0V. 5V OUT provides approximately 4.7 V through a protection diode. Asynchronous Serial Transmit pin. Output data is at TTL voltage levels. Connect this pin to external device Serial Receive (Rx) signal. This pin is tolerant up to 5.0V levels. General purpose IO2 pin. See section 2.2 for more detail. Asynchronous Serial Receive pin. Connect this pin to external device Serial Transmit (Tx) signal. This pin is tolerant up to 5.0V levels. General purpose IO1 pin. See section 2.2 for more detail. Supply Ground. Supply Ground. Master Reset signal. Internally pulled up to 3.3V via a 4.7K resistor. An active Low pulse greater than 2.0s will reset the module. If the module needs to be reset externally, only use open collector type circuits. This pin is not driven low by any internal conditions. The host should control this pin via one of its port pins using an open collector/drain arrangement. Regulated 3.3 Volts output, maximum available current 50mA to power external circuitry. I = Input, O = Output, P = Power (c) 2012 4D SYSTEMS Page 5 of 17 www.4dsystems.com.au microOLED GOLDELOX DISPLAY 4D SYSTEMS OLED-160-G2 4. Hardware Interface - Pins The OLED-160-G2 provides both a hardware and software interface. This section describes in detail the hardware interface pins of the device. 4.1. Serial Ports - COM0 UART The OLED-160-G2 has a dedicated hardware UART that can communicate with external serial devices. The primary features are: * Full-Duplex 8 bit data transmission and reception through the TX and RX pins. * Data format: 8 bits, No Parity, 1 Stop bit. * Auto Baud feature. * Baud rates from 300 baud up to 600K baud. GPIO Functions and Features Function IO1 IO2 Digital Input Digital Output A/D Converter 8/10 bits Joystick - 5 position multi-switch Dallas 1-Wire support Sound Generation, RTTTL Tunes -- Input/Output: Both IO1 and IO2 pins can be programmed to be Inputs or Outputs. Diagram below shows a LED connected to IO1 (programmed as an output) and a button connected to IO2 (programmed as an input). The Serial port is also the primary interface for downloading compiled 4DGL application code as well as future PmmC/Firmware updates for the onboard GOLDELOX processor. Refer to Section 5. PmmC/Firmware Programming for more details. TX pin 3 (Serial Transmit): Asynchronous Serial port Transmit pin, TX. The serial output data is at TTL voltage levels. Connect this pin to external serial device Rx signal. RX pin 5 (Serial Receive): Asynchronous Serial port Receive pin, RX. Connect this pin to external serial device Transmit Tx signal. Analogue to Digital Converter: The IO1 pin can be programmed as an A/D input. Option is available to select 8 bit or 10 bit resolution. Diagram below is a circuit of a Light Dependant Resistor (LDR) connected to IO1 to measure and record changes in ambient light. 4.2. General Purpose I/O There are 2 GPIO pins available, IO1 and IO2. Each GPIO has a multitude of high level functions associated with it and these can be selected within 4DGL user application code. Refer to the separate document titled "GOLDELOX-4DGL-Internal-Functions.pdf" for a complete set of built in 4DGL library functions. IO1 pin 6 (General Purpose IO1): General purpose IO1 pin. The following table lists the available GPIO functions and features. IO2 pin 4 (General Purpose IO2): General purpose IO2 pin. The following table lists the available GPIO functions and features. Note: GPIO pins are 5.0V tolerant. (c) 2012 4D SYSTEMS Joystick - Multi Switch: Multiple buttons or a multi-switch Joystick can be connected to the IO1 pin on the OLED-160-G2 module. Up to five buttons or a 5 position multiswitch joystick connects to a junction of a resistor ladder network that forms a voltage divider. The A/D converter of the IO1 pin internally reads the analogue value and decodes it accordingly. This feature is supported by dedicated 4DGL library functions. The following diagrams indicate how to connect up to five individual buttons or a multi switch joystick to the IO1 pin. Page 6 of 17 www.4dsystems.com.au microOLED GOLDELOX DISPLAY 4D SYSTEMS OLED-160-G2 Sound Output: The OLED-160-G2 module is capable of generating complex sounds and RTTTL tunes from its IO1 and IO2 pins. A simple speaker circuit as shown below can be utilised. 4.3. System Pins Unused buttons do not need resistors to be connected to the circuit. Table below lists the buttons and corresponding resistor values. Number of Buttons 1 2 3 4 5 Button Number SW1 SW2 SW3 SW4 SW5 Resistor Value 22K 10K 4.7K 2.2K 1.2K 5V Out (~4.7V) Pin 2: External circuitry that requires approximately 5V supply can be powered up via this pin. Maximum available current is 50mA. GND (Module Ground) Pins 7, 8: Device ground pins. These pins must be connected to ground. Dallas 1-Wire: The Dallas 1-Wire protocol is a form of serial communications designed to operate over a single data line plus ground reference. Multiple 1 Wire devices can be attached to the same shared data line to network many devices. One wire device support is available on both the IO1 and the IO2 pins on the OLED-160-G2 module. The following diagram depicts a typical 1-Wire temperature sensor interface. (c) 2012 4D SYSTEMS +5V (Module Voltage Input) Pin 1: Module supply voltage input pin. This pin must be connected to a regulated supply voltage in the range of 4.0 Volts to 5.5 Volts DC. Nominal operating voltage is 5.0 Volts. RESET (Module Master Reset) Pin 9: Module Master Reset pin. An active low pulse of greater than 2 micro-seconds will reset the module. Internally pulled up to 3.3V via a 4.7K resistor. Only use open collector type circuits to reset the device if an external reset is required. 3.3Vout (3.3V Regulated Output) Pin 10: External circuitry that requires a regulated 3.3V supply can be powered up via this pin. Maximum available current is 50mA. Page 7 of 17 www.4dsystems.com.au microOLED GOLDELOX DISPLAY 4D SYSTEMS OLED-160-G2 5. PmmC/Firmware Programming 6. Module Features The GOLDELOX processor on the OLED-160-G2 module can be re-programmed with the latest PmmC configuration for updates and future proofing. The chip-level configuration is available as a PmmC (Personality-module-micro-Code) file and the programming must be performed over the serial interface. The chip-resident internal 4DGL functions are part of the GOLDELOX PmmC configuration file so please check regularly for the latest updates and enhancements. The OLED-160-G2 module is designed to accommodate most applications. Some of the main features of the module are listed below. It is recommended that the OLED-160-G2 display module be socketed on the application board so that it can be easily removed for PmmC programming. * * * * * * * * * The PmmC file is programmed into the device with the aid of Workshop 4, the 4D Systems IDE software (See Section 10). To provide a link between the PC and the ICSP interface, a specific 4D Programming Cable is required and is available from 4D Systems. Using a non-4D programming interface could damage your display, and void your Warranty. 6.1. Display - 1.7" PMOLED The OLED-160-G2 is equipped with a full colour PMOLED screen. Some of the features of the screen are: Screen Size: 1.7"diagonal 160 x 128 Resolution PMOLED Display Screen Dimensions: 40.0 x 33.5mm Viewing Area: 33.6 x 27mm 65K true to life colours Brightness: 100 cd/m2 Contrast Ratio: 5000:1 Viewing Angle: > 160 degrees No Back lighting Note: The Displays used are the highest rated `Grade A' Displays, which allow for 0-4 defective pixels. A defective pixel could be solid Black (Dead), White, Red, Green or Blue. 6.2. GOLDELOX Processor The module is designed around the GOLDELOX Graphics Processor from 4D-Labs. The GOLDELOX is a custom embedded graphics processor designed to interface with many popular OLED and LCD display panels. Powerful graphics, text, image, animation and countless more features are built right inside the chip. It offers a simple plug-n-play interface to many 8bit 80-Series colour LCD and OLED displays. The chip is designed to work with minimal design effort and all of the data and control signals are provided by the chip to interface directly to the display. Simply choose your display and interface it (c) 2012 4D SYSTEMS Page 8 of 17 www.4dsystems.com.au microOLED GOLDELOX DISPLAY 4D SYSTEMS OLED-160-G2 to the GOLDELOX on your application board. This offers enormous advantage to the designer in development time and cost saving and takes away all of the burden of low level design. The data sheet for the chip is available from the http://www.4dsystems.com.au website: "GOLDELOX-DS-revx.pdf" 6.3. SD/SDHC Memory Cards The module supports micro-SD memory cards via the on-board micro-SD connector. The memory card is used for all multimedia file retrieval such as images, animations and movie clips. The memory card can also be used as general purpose storage for data logging applications. Support is available for off the shelf micro-SD and high capacity HC memory cards (4GB and above). 7. OLED Screen Precautions * Avoid having a White Background. The more pixels that are lit up, the more the display module will consume current. A full white screen will have the highest power consumption. * Avoid displaying objects or text on White Backgrounds. This will cause a smearing effect which is inherent to all PMOLED displays. Instead try a shaded mixed colour as the background or better still a black background. Ideally have mixed coloured objects/text/icons on a black background. * Avoid having to display the same image/object on the screen for lengthy periods of time. This will cause a burn-in which is a common problem with all types of display technologies. Blank the screen after a while or dim it very low by adjusting the contrast. Better still; implement a screen saver feature. * The display can be easily scratched. The soft polarisation film on the glass surface may be damaged if rubbed by hard objects. Handle with care to avoid scratching the display. * Moisture and water can damage the display. Moisture on the surface of a powered display will cause the electrodes to corrode. Wipe off any moisture gently or let the display dry before usage. * Dirt from fingerprint oil and fat can easily stain the surface of the display. Gently wipe off any stains with a soft lint-free cloth. * The performance of the display will degrade under high temperature and humidity. Avoid such conditions when storing. * Displays are susceptible to mechanical shock and any force exerted on the module may result in deformed zebra strips and cracks. * Always use the mounting holes on the module's printed circuit board to mount the display. (c) 2012 4D SYSTEMS Page 9 of 17 www.4dsystems.com.au microOLED GOLDELOX DISPLAY 4D SYSTEMS OLED-160-G2 8. Hardware Tools 9. 4DGL - Software Language The following hardware tools are required for full control of the OLED-160-G2 module. The heart of the OLED-160-G2 module is the GOLDELOX graphics processor from 4D Labs. The GOLDELOX belongs to a family of processors powered by a highly optimised soft core virtual engine, EVE (Extensible Virtual Engine). 8.1. 4D Programming Cable The 4D Programming Cable is an essential hardware tool to program, customise and test the OLED-160-G2 module. The 4D Programming Cable is used to program a new Firmware/PmmC and downloading compiled 4DGL code into the module. It even serves as an interface for communicating serial data to the PC. The 4D Programming Cable is available from 4D Systems, www.4dsystems.com.au EVE is a proprietary, high performance virtualmachine with an extensive byte-code instruction set optimised to execute compiled 4DGL programs. 4DGL (4D Graphics Language) was specifically developed from ground up for the EVE engine core. It is a high level language which is easy to learn and simple to understand yet powerful enough to tackle many embedded graphics applications. 4DGL is a graphics oriented language allowing rapid application development, and the syntax structure was designed using elements of popular languages such as C, Basic, Pascal and others. Programmers familiar with these languages will feel right at home with 4DGL. It includes many familiar instructions such as IF..ELSE..ENDIF, WHILE..WEND, REPEAT..UNTIL, GOSUB..ENDSUB, GOTO, PRINT as well as some specialised instructions SERIN, SEROUT, GFX_LINE, GFX_CIRCLE and many more. 8.2. Development Hardware 4D Systems has designed a development board compatible with the OLED-160-G2, enabling easy prototyping to take place and to experiment with the OLED-160-G2 display module. For detailed information pertaining to the 4DGL language, please refer to the following documents: "4DGL-Programmers-Reference-Manual.pdf" "GOLDELOX-4DGL-Internal-Functions.pdf" To assist with the development of 4DGL applications, the Workshop 4 IDE combines a fullfeatured editor, a compiler, a linker and a downloader into a single PC-based application. It's all you need to code, test and run your applications. 4DGL is available to be written in two of the three environments offered by the Workshop 4 IDE, Designer and ViSi. This development board is called the 4DevBoard, and is available from the 4D Systems website store, or from 4D Systems distributors. (c) 2012 4D SYSTEMS Page 10 of 17 www.4dsystems.com.au microOLED GOLDELOX DISPLAY 4D SYSTEMS OLED-160-G2 10. 4D Systems - Workshop 4 IDE 10.1. Workshop 4 - Designer Environment Workshop 4 is a comprehensive software IDE that provides an integrated software development platform for all of the 4D family of processors and modules. The IDE combines the Editor, Compiler, Linker and Downloader to develop complete 4DGL application code. All user application code is developed within the Workshop 4 IDE. Choose the Designer environment to write 4DGL code in its raw form. The Designer environment provides the user with a simple yet effective programming environment where pure 4DGL code can be written, compiled and downloaded to the OLED-160-G2. The Workshop 4 IDE supports multiple development environments for the user, to cater for different user requirements and skill level. * * * The Designer environment enables the user to write 4DGL code in its natural form to program the OLED-160-G2. A visual programming experience, suitably called ViSi, enables drag-and-drop type placement of objects to assist with 4DGL code generation and allows the user to visualise how the display will look while being developed. A Serial environment is also provided to transform the OLED-160-G2 into a slave serial module, allowing the user to control the display from any host microcontroller or device with a serial port. The Workshop 4 IDE is available from the 4D Systems website. www.4dsystems.com.au For a comprehensive manual on the Workshop 4 IDE Software, refer to its documentation from the 4D Systems website. "Workshop-4-IDE-User-Manual.pdf" (c) 2012 4D SYSTEMS 10.2. Workshop 4 - ViSi Environment ViSi was designed to make the creation of graphical displays a more visual experience. ViSi is a great software tool that allows the user to see the instant results of their desired graphical layout. Additionally, there is a selection of inbuilt dials, gauges and meters that can simply be placed onto the simulated module display. From here each object can have its properties edited, and at the click of a button all relevant 4DGL code associated with that object is produced in the user program. The user can then write 4DGL code around these objects to utilise them in the way they choose. Page 11 of 17 www.4dsystems.com.au microOLED GOLDELOX DISPLAY 4D SYSTEMS OLED-160-G2 10.3. Workshop 4 - Serial Environment The Serial environment in the Workshop 4 IDE provides the user the ability to transform the OLED-160-G2 into a slave serial graphics controller. This enables the user to use their favourite microcontroller or serial device as the Host, without having to learn 4DGL or program in a separate IDE. Once the module is configured from the Serial Environment, simple graphic commands can be sent from the users host microcontroller to display primitives, images, sound or even video. Refer to the Serial Environment section in the Workshop 4 user manual, for a complete listing of all the supported serial commands "Workshop-4-IDE-User-Manual.pdf" By default, each module shipped from the 4D Systems factory will come pre-programmed ready for use in the Serial mode. (c) 2012 4D SYSTEMS Page 12 of 17 www.4dsystems.com.au 4D SYSTEMS OLED-160-G2 microOLED GOLDELOX DISPLAY 11. Mechanical Details (c) 2012 4D SYSTEMS Page 13 of 17 www.4dsystems.com.au 4D SYSTEMS OLED-160-G2 microOLED GOLDELOX DISPLAY 12. Schematic Diagram (c) 2012 4D SYSTEMS Page 14 of 17 www.4dsystems.com.au microOLED GOLDELOX DISPLAY 4D SYSTEMS OLED-160-G2 13. Specifications and Ratings ABSOLUTE MAXIMUM RATINGS Operating ambient temperature ................................................................................................... -35C to +75C Storage temperature .......................................................................................................................... -40C +80C Voltage on any digital input pin with respect to GND ....................................................................... -0.3V to 6.0V Voltage on SWITCH pin with respect to GND ................................................................................... -0.3V to 6.0V Voltage on VCC with respect to GND ................................................................................................. -0.3V to 6.0V Maximum current out of GND pin .............................................................................................................. 300mA Maximum current into VCC pin .................................................................................................................. 250mA Maximum output current sunk/sourced by any pin ....................................................................................... 4mA Total power dissipation .................................................................................................................................. 1.0W NOTE: Stresses above those listed here may cause permanent damage to the device. This is a stress rating only and functional operation of the device at those or any other conditions above those indicated in the recommended operation listings of this specification is not implied. Exposure to maximum rating conditions for extended periods may affect device reliability. RECOMMENDED OPERATING CONDITIONS Parameter Supply Voltage (VCC) Operating Temperature Input Low Voltage (VIL) Input High Voltage (VIH) Reset Pulse Operational Delay Conditions RX Pin RX Pin External Open Collector Power-Up or External Reset Min 4.0 -30 GND 2.0 2.0 1000 Typ 5.0 --3.3 --- Max 5.5 +70 0.8 5.0 --- Units V C V V s ms GLOBAL CHARACTERISTICS BASED ON OPERATING CONDITIONS Parameter Supply Current (ICC) Low Power Current (ICC) Output Low Voltage (VOL) Output High Voltage (VOH) A/D Converter Resolution Capacitive Loading Flash Memory Endurance (c) 2012 4D SYSTEMS Conditions VCC = 5.0V VCC = 5.0V, Contrast = 0 Min 14 300 Typ 40 500 Max 120 -- Units mA A TX, IO1, IO2, IOL = 3.4mA -- -- 0.4 V TX, IO1, IO2, IOL = -2.0mA 2.4 -- 3.3 V IO1 Pin -- 8 10 bits All pins -- -- 50 pF PmmC/4DGL Programming -- 1000 -- E/W Page 15 of 17 www.4dsystems.com.au microOLED GOLDELOX DISPLAY 4D SYSTEMS OLED-160-G2 CURRENT CONSUMPTION BASED ON DISPLAY USAGE Contrast Setting (Range: 0-15) High Contrast 15 15 15 Medium Contrast 8 8 8 Low Contrast 0 0 0 Don't Care Current (mA) Display Usage 13.5 40.0 115.0 All pixels OFF (Black screen) Screen has mix text and graphics (Typical usage) All pixels ON (White screen) 13.5 32.0 110.0 All pixels OFF (Black screen) Screen has mix text and graphics (Typical usage) All pixels ON (White screen) 13.5 18.0 41.0 0.3 All pixels OFF (Black screen) Screen has mix text and graphics (Typical usage) All pixels ON (White screen) Screen Power-Down command executed OPTICAL CHARACTERISTICS Parameter Luminance (L) Viewing Angle (VA) Contrast Ratio (CR) Operational Lifetime (LT) Storage Lifetime (ST) Condition VCC = 5.0V VCC = 5.0V VCC = 5.0V 50% checker board pattern. 90 cd/m. End of lifetime is 50% initial intensity. Ta = 25C, 50% RH Min 70 160 2000:1 Typ 100 -5000:1 Max ---- Units cd/m degree -- 10000 15000 -- hours 20000 -- -- hours ORDERING INFORMATION Order Code: OLED-160-G2 Package: 65mm x 50mm x 30mm Packaging: Module sealed in antistatic foam padded 4D Systems Box (c) 2012 4D SYSTEMS Page 16 of 17 www.4dsystems.com.au microOLED GOLDELOX DISPLAY 4D SYSTEMS OLED-160-G2 14. Legal Notice Proprietary Information The information contained in this document is the property of 4D Systems Pty. Ltd. and may be the subject of patents pending or granted, and must not be copied or disclosed without prior written permission. 4D Systems endeavours to ensure that the information in this document is correct and fairly stated but does not accept liability for any error or omission. The development of 4D Systems products and services is continuous and published information may not be up to date. It is important to check the current position with 4D Systems. 4D Systems reserves the right to modify, update or makes changes to Specifications or written material without prior notice at any time. All trademarks belong to their respective owners and are recognised and acknowledged. Disclaimer of Warranties & Limitation of Liability 4D Systems makes no warranty, either expressed or implied with respect to any product, and specifically disclaims all other warranties, including, without limitation, warranties for merchantability, non-infringement and fitness for any particular purpose. Information contained in this publication regarding device applications and the like is provided only for your convenience and may be superseded by updates. It is your responsibility to ensure that your application meets with your specifications. Images and graphics used throughout this document are for illustrative purposes only. All images and graphics used are possible to be displayed on the 4D Systems range of products, however the quality may vary. In no event shall 4D Systems be liable to the buyer or to any third party for any indirect, incidental, special, consequential, punitive or exemplary damages (including without limitation lost profits, lost savings, or loss of business opportunity) arising out of or relating to any product or service provided or to be provided by 4D Systems, or the use or inability to use the same, even if 4D Systems has been advised of the possibility of such damages. 4D Systems products are not fault tolerant nor designed, manufactured or intended for use or resale as on line control equipment in hazardous environments requiring fail - safe performance, such as in the operation of nuclear facilities, aircraft navigation or communication systems, air traffic control, direct life support machines or weapons systems in which the failure of the product could lead directly to death, personal injury or severe physical or environmental damage (`High Risk Activities'). 4D Systems and its suppliers specifically disclaim any expressed or implied warranty of fitness for High Risk Activities. Use of 4D Systems' products and devices in 'High Risk Activities' and in any other application is entirely at the buyer's risk, and the buyer agrees to defend, indemnify and hold harmless 4D Systems from any and all damages, claims, suits, or expenses resulting from such use. No licenses are conveyed, implicitly or otherwise, under any 4D Systems intellectual property rights. 15. Contact Information For Technical Support: support@4dsystems.com.au For Sales Support: sales@4dsystems.com.au Website: www.4dsystems.com.au Copyright 4D Systems Pty. Ltd. 2000-2012. (c) 2012 4D SYSTEMS Page 17 of 17 www.4dsystems.com.au Mouser Electronics Authorized Distributor Click to View Pricing, Inventory, Delivery & Lifecycle Information: 4D Systems: uOLED-160-G2