.3" Single Character DLO3/DLG3.68" Single Character DLO3/DLG3 x Dot Matrix Intelligent Display Devices with Memory/Decoder/Driver Lead (Pb) Free Product - RoHS Compliant SUPER-RED: DLO3, DLO3 GREEN: DLG3, DLG3 DLO3 / DLG3 FEATURES x Dot Matrix Characters DLO3/DLG3:.9 mm (.3") High DLO3/DLG3:. mm (.68") High Wide Viewing Angle ± 96 Character ASCII Set Upper Case and Lower Case Characters Fully Encapsulated, Rugged Solid Plastic Package Built-in Memory Built-in Character Generator Built-in Multiplex and LED Drive Circuitry Built-in Lamp Test Intensity Control ( levels) Microprocessor Bus Compatible Intensity Coded for Display Uniformity Single -Volt Power Supply X/Y Stackable Available in Super-red and Green DESCRIPTION DLO3 / DLG3 The DLX3X/DLX3X are single digit x dot matrix Intelligent Display devices. The DLX3X character is.9 mm (.3") high. The DLX3X character is. mm (.68") high. The built-in CMOS integrated circuit contains memory, ASCII character generator, LED multiplexing and drive circuitry; thereby eliminating the need for additional circuitry. They will display the 96 ASCII characters. These devices are TTL and microprocessor compatible and offer the possibility of cascading the displays, allowing for multi-character messages. These displays were designed for viewing distances of up to feet (DLX3X) or 3 feet (DLX3X). They require a single -volt power supply and parallel ASCII input. Important: Refer to Appnote 8, Using and Handling Intelligent Display Devices at www.osram-os.com. Since this is a CMOS device, normal precautions should be taken to avoid static damage. 6--3
DLX3X, DLX3X Ordering Information Type Color of Emission Character Height mm (inch) DLO3 super-red Ordering Code Q68A.9 (.68) DLG3 green Q68A9 DLO3 super-red Q68A9. (.3) DLO3 green Q68A99 6--3
DLX3X, DLX3X Package Outlines Dimensions in mm (inch) Package Outlines Device marking begins over pin DLO3 Z.8 (.3) Z DLO3 OSRAM YYWW.3 (.) 3.6 (.) min.. (.) ref..9 (.9).6 (.3). (.) typ.. (.). (.8) ±. (.). (.) Luminous Intensity Code EIA Date Code. (.) max..9 (.3).9 (.3). (.) max.. (.).6 (.3).6 (.6) typ. Dimensions in mm (inch).9 (.3) IDOD.8 (.).3 (.8) DLX3X Z V. (.6). (.) Device marking begins over pin 8.6 (.3) V DLX3X Z OSRAM YYWW.6 (.6) Pin Indicator Luminous Intensity Code EIA Date Code. (.) typ.. (.8) sq.. (.) typ..9 (.) ref. 3.8 (.).9 (.8) 3.8 (.). (.) typ..3 (.8) diam. ref.. (.68) IDOD3 6--3 3
DLX3X, DLX3X Maximum Ratings Parameter Symbol Value Unit Operating temperature range ) T op - to +8 C Storage temperature range T stg - to + C V CC range V CC -. to. Vdc Voltage, Any Pin, Respect to GND -. to V CC +. Vdc Solder temperature.9 mm (.63 ) below seating plane, t <. s T s 6 C Relative Humidity at 8 C (non condensing) 8 % Optical Characteristics (typ.) (T A = C) Parameter Symbol Values Unit DLO3 DLO3 super-red DLG3 DLG3 Spectral Peak Wavelength (typ.) λ peak 63 6 nm Viewing Angle ϕ ± ± deg. Time Averaged Luminous Intensity V CC =. V (typ.) green mcd/dot Dot to Dot Intensity Ratio (max.).8:..8:. Luminous Intensity DLO3, DLG3 DLO3 DLG3 Bin mcd per dots Bin mcd per dots Bin mcd per dots A.93... 3.6 A 3.6.... A..... B 3.63....8 B..... B.6... 6.8 C.9.... C.... 6.8 C 6.9... 8. D.6... 6.8 D 6.9... 8. D 8.6.... E 6.88... 8. E 8..... E.6... 3. F 8..... F.....9 F 3.... 6. G.... 3. G 3.... 6. G 6..... H 3.... 6. H 6.... 8. H.... 3. I 6.8... 9.8 J 9.88....6 K.... 3.3 L 3.36... 3. Conditions:. V CC =. Vdc. Ambient Temperature = C. 3. LEDs on at full brightness setting during measurement (Character Hex Code F).. Accuracy of measurement is ±%. 6--3
DLX3X, DLX3X Timing Parameters at C (V CC =. V ±. V) Symbol Parameter Units (ns) T CES Chip Enable Set-Up T DS Data Set Up T W Write Pulse T DH Data Hold T CEH Chip Enable Hold T ACC Access Time Timing Characteristics - Write Cycle Waveforms CE WE t CES t DS t ACC t W t DH tceh Data IDTC DC Characteristics Parameter C + C +8 C Units Conditions Min. Typ. Max. Min. Typ. Max. Min. Typ. Max. I CC ( dots on) 3 8 ma V CC =. V, BL=BL=. V I CC Blank....8 ma V CC =WR=. V, BL=BL= V I IL (all inputs) µa V IN =.8 V, V CC =. V ±. V V IH... V V CC =. V ±. V V IL.8.8.8 V V CC =. V ±. V V CC......... V Notes:. Off Axis Viewing Angle definition: The minimum angle in any direction from the normal to the display surface at which any part of any dot in the display is not visible.. This display contains a CMOS integrated circuit. Normal CMOS handling precautions should be taken to avoid damage due to high static voltages or electric fields. See Appnote 8 at www.osram-os.com under Intelligent Displays. 3. Unused inputs must be tied to an appropriate logic voltage level (either V + or GND).. V CC =. Vdc ±%.. Clean only in water, isopropyl alcohol, TE (or equivalent). 6--3
DLX3X, DLX3X Top View DLO3, DLG3 6 3 3 6 8 9 Top View DLO3, DLG3 3 3 9 8 IDPA3 IDPA Pin Functions DLO3, DLG3 Pin Function Pin Function LT Lamp 9 D Data LSB WR Write D Data 3 BL Brightness D Data BL Brightness D3 Data No Pin 3 D Data 6 No Pin D Data CE Chip Enable D6 Data MSB 8 GND 6 +V CC Pin Functions DLO3, DLG3 Pin Function Pin Function V CC 8 D Data Input LSB LT Lamp Test 9 D Data 3 CE Chip Enable D Data WR Write D3 Data BL Brightness D Data 6 BL Brightness 3 D Data GND D6 Data Input MSB 6--3 6
DLX3X, DLX3X Lamp Test When the lamp test (LT) is activated, all dots on the display are illuminated at brightness. The lamp test function is independent of write (WR) and the settings of the blanking inputs (BL, BL). This convenient test gives a visual indication that all dots are functioning properly. Lamp test also may be used as a cursor function or pointer which does not destroy previously displayed characters. Dimming and Blanking the Display Brightness Level BL BL Blank Brightness Brightness Full Brightness Loading Data Loading data into the display is straightforward. Chip enable (CE) should be present and stable during a write pulse (WR). Parallel data information should be stable for the minimum time (T W ) and held for TDH after write has gone high. No synchronization is necessary and each character will continue to be displayed until it is replaced with another. Multiple displays may be stacked together with only an additional decoder IC for chip enable decoding. Note: Either BL or BL should be held high for display to light up. Data Loading Example CE WR BL BL LT Data Input D6 D D D3 D D D H X H X H X X X X X X X NC X X L L H X X X X X X X Blank X X X X L X X X X X X X Lamp Test L L H H H H L L L L L H A L L H H H H H H L L H L r L L H H H L H H L L H H 3 L L H H H L H L H L H H + X=don t care, NC=no change 6--3
DLX3X, DLX3X 6 Digits Interconnection + GND BL-BL LT D-D6 WR D D A-A3 6 CE IDCD Character Set D ASC D CODE D D3 D6 D D HEX 3 6 8 9 A B C D E F THESE CODES DISPLAY BLANK 3 6 IDCS8 Notes:. High= level. Low= level 3. Upon power up, the device will initialize in a random state. 6--3 8
DLX3X, DLX3X Revision History: 6--3 Previous Version: --9 Page Subjects (major changes since last revision) Date of change all complete rework -9-3 all Lead free device 6--3 Attention please! The information describes the type of component and shall not be considered as assured characteristics. Terms of delivery and rights to change design reserved. Due to technical requirements components may contain dangerous substances. For information on the types in question please contact our Sales Organization. If printed or downloaded, please find the latest version in the Internet. Packing Please use the recycling operators known to you. We can also help you get in touch with your nearest sales office. By agreement we will take packing material back, if it is sorted. You must bear the costs of transport. For packing material that is returned to us unsorted or which we are not obliged to accept, we shall have to invoice you for any costs incurred. Components used in life-support devices or systems must be expressly authorized for such purpose! Critical components ) may only be used in life-support devices or systems ) with the express written approval of OSRAM OS. ) A critical component is a component used in a life-support device or system whose failure can reasonably be expected to cause the failure of that life-support device or system, or to affect its safety or the effectiveness of that device or system. ) Life support devices or systems are intended (a) to be implanted in the human body, or (b) to support and/or maintain and sustain human life. If they fail, it is reasonable to assume that the health and the life of the user may be endangered. 6--3 9