lead (pb) free product - rohs compliant red slr2016 super-red slo2016 green slg2016 yellow sly2016 x/y stackable 0.180?? 4-digit 5x7 dot matrix alphanumeric intelligent display? devices with memory/decoder/driver 2006-01-23 1 description the slr/slo/slg/sly2016 is a four digit 5 x 7 dot matrix display module with a built-in cmos integrated circuit. this display is x/y stackable. the integrated circuit contains memory, a 128 ascii rom decoder, multiplexing circuitry and driv - ers. data entry is asynchronous. a display system can be built using any number of slr/slo/slg/sly2016 since each digit can be addressed independently and will con - tinue to display the character last stored until replaced by another. system interconnection is very straightforward. two address bits (a0, a1) are normally connected to the like-named inputs of all displays in the system. data lines are connected to all slr/slo/slg/sly2016s directly and in parallel as is the write line ( wr ). the dis - play will then behave as a write-only memory. the slr/slo/slg/sly2016 has several features supe - rior to competitive devices. 100% burn-in processing insures that the slr/slo/slg/sly2016 will function in more stressful assembly and use environments. true ?blanking? allows the designer to dim the display for more flexibility of display presentation. finally the clr clear function will clear the ascii character ram. the character set consists of 128 special ascii charac - ters for english, german, italian, swedish, danish, and norwegian. all products are 100% burned-in and tested, then subjected to out-going aql?s of 0.25% for brightness matching, visual alignment and dimensions, 0.065% for electrical and functional. features very close multi-line spacing, 0.4" centers 4.72 mm (0.180") 5 x 7 dot matrix characters 128 special ascii characters for english, german, italian, swedish, danish, and norwegian languages wide viewing angle: x axis 50 maximum, y axis 75 maximum fast access time, 110 ns at 25 c full size display for stationary equipment built-in memory built-in character generator built-in multiplex and led drive circuitry direct access to each digit independently and asyn - chronously clear function that clears character memory true blanking for intensity dimming applications end-stackable, 4-character package intensity coded for display uniformity extended operating temperature range: - 40 c to +85 c superior esd immunity 100% burned-in and tested wave solderable ttl compatible over operating temperature range see appnotes 18, 19, 22, and 23 at www.osram-os.com for additional information.
2006-01-23 2 slr2016, slo2016, slg2 016, sly2016, SCD5584A package outlines dimensions in mm (inch) ordering information type color of emission character height mm (inch) ordering code slr2016 standard red 4.72 (0.180) q68000a8640 slo2016 super-red q68000a8641 slg2016 green q68000a8642 sly2016 yellow q68000a8643 idod5215 2.54 (0.100) 5 (0.197) 19.91 (0.784) 4.57 (0.180) 10.16 (0.400) 0.38 (0.015) slx2016 z osram xxyy v luminous part number eia date code pin 1 indicator 2.54 (0.100) 12 pl. non cumulative 0.46 (0.018) 5.08 (0.200) 0.05 (0.002) 0.3 (0.012) 7.62 (0.300) 0.51 (0.020) 3.81 (0.150) tolerance: 0.25 (0.010) 4.06 (0.160) 0.51 (0.020) intensity code 3 pl.
slr2016, slo2016, slg2 016, sly2016, SCD5584A 2006-01-23 3 top view maximum ratings parameter symbol value unit operating temperature range t op ? 40 ? + 85 c storage temperature range t stg ? 40 ? + 100 c dc supply voltage v cc -0.5 to + 7.0 v input voltage, respect to gnd (all inputs) -0.5 to v cc +0.5 v solder temperature 1.59 mm (0.063?) below seating plane, t < 5.0 s t s 260 c relative humidity 85 % optical characteristics at 25 c ( v cc =5.0 v at 100% brightness level, view ing angle: x axis 50, y axis 75 ) description symbol values unit red slr2016 super-red slo2016 green slg2016 yellow sly2016 time averaged luminous intensity 1) (min.) (typ.) i v 50 60 75 60 cd/led spectral peak wavelength (typ.) peak 660 635 565 585 nm notes: 1. peak luminous intensity values can be calculated by multiplying these vaues by 7. 2. led to led intensity matching 1.8:1.0 idpa5119 12345 7 6 13 14 8 9 10 11 12 digit 3 digit 2 digit 1 digit 0
slr2016, slo2016, slg2 016, sly2016, SCD5584A 2006-01-23 4 timing characteristics?write cycle waveforms loading data the desired data code (d0?d6) and digit address (a0, a1) must be held stable during the write cycle for storing new data. data entry may be asynchronous. digit 0 is defined as right hand digit with a1=a2=0. clearing the entire internal four-digit memory can be accomplished by holding the clear ( clr ) low for 1.0 msec minimum. the clear function will clear the ascii ram. loading an illegal data code will display a blank. pin function pin function pin function 1 wr write 8 d3 data 2 a1 digit select 9 d4 data 3 a0 digit select 10 d5 data 4 v cc 11 d6 data 5 d0 data 12 bl display blank 6 d1 data 13 clr clear 7 d2 data 14 gnd pin function pin function pin function dc characteristics at 25 c parameters min. typ. max. units conditions v cc 4.5 5.0 5.5 v ? i cc blank ? 2.3 3.0 ma v cc =5.0 v i cc (80 dots on) ? 80 105 ma v cc =5.0 v v il (all inputs) ? ? 0.8 v 4.5 v < v cc <5.5 v v ih (all inputs) 2.0 ? ? v 4.5 v < v cc <5.5 v i il (all inputs) 25 ? 100 a 4.5 v < v cc <5.5 v, v in =0.8 v ac characteristics (guaranteed minimum timing parameters at v cc =5.0 v 0.5 v) parameter symbol ?40c +25c +85c unit address set up time t as 10 10 10 ns write time t w 60 70 90 ns data set up time t ds 20 30 50 ns address hold time t ah 20 30 40 ns data hold time t dh 20 30 40 ns access time t acc (1) 90 110 140 ns clear disable time t clrd 1.0 1.0 1.0 s clear time t clr 1.0 1.0 1.0 ms note: 1) t acc =set up time + write time + hold time t as t dh t ah t ds t acc t w w r clr a0 ?a1 d 0 ?d6 2.0 v 0.8 v 2.0 v 0.8 v 2.0 v 0.8 v
slr2016, slo2016, slg2 016, sly2016, SCD5584A 2006-01-23 5 display blanking blank the display by loading a blank or space into each digit of the display or by using the ( bl ) display blank input. setting the ( bl ) input low does not affect the contents of data memory. a flashing circuit can easily be constructed using a 555 as table multivibrator. figure 3 illustrates a circuit in which varying r1 (100k~10k) will have a flash rate of 1.0 hz~10 hz. the display can be dimmed by pulse width modulating the ( bl ) at a frequency sufficiently fast to not interfere with the internal clock. the dimming signal frequency should be 2.5 khz or higher. dim - ming the display also reduces power consumption. an example of a simple dimming circuit using a 556 is illustrated in figure 4. adjusting potentiometer r3 will dim the display by chang - ing the blanking pulse duty cycle. flashing circuit usi ng a 555 and flashing (blanking) timing dimming circuit using a 556 and dimming (blanking) timing typical loadi ng state table wr a1 a0 d6 d5 d4 d3 d2 d1 d0 digit 3 2 1 0 h previously loaded display g r e y l l l h l l l h l h g r e e l l h h l h l h l h g r u e l h l h l l h h l l g l u e l h h h l l l l h l b l u e l l h h l l l h l h b l e e l l l h l h l h h h b l e w l x x see character code see char. set idcd5033 timer 555 1 2 3 4 7 8 6 5 1 r 4.7 k ? 100 k r 2 ? 10 f c 3 0.01 f c 4 cc v = 5 v to bl pin on display idcd5035 1 0 500 ms blanking pulse width 50% duty factor 2 hz blanking frequency ~ ~ ~ ~ ~ ~ idcd5034 dual timer 556 1 2 3 4 13 14 12 11 500 k r 3 ? 1000 pf c 3 cc v = 5 v 6 7 5 9 8 10 c 0.01 f 4 0.01 f c 2 2 47 k r ? 200 r 1 ? 4700 pf c 1 control dimming (blanking) to bl pin on display idcd5036 1 0 200 s blanking pulse width 4 s min., 196 s max. 5 khz blanking frequency ~ ~ ~ ~
2006-01-23 6 slr2016, slo2016, slg2 016, sly2016, SCD5584A character set notes: 1. high=1 level 2. low= 0 level 3. upon power up, the device will initialize in a random state. idcs5087 ascii code d0 d1 d2 d3 hex d4 d5 d6 000 0 1 1 0 0 2 010 3 011 4 100 5 101 6 110 7 111 0 0 0 0 0 1 0 0 1 0 2 0 0 0 1 3 0 0 1 1 4 0 1 0 0 5 0 1 1 0 6 0 1 0 1 7 0 1 1 1 8 1 0 0 0 9 1 0 1 0 a 1 0 0 1 b 1 0 1 1 c 1 1 0 0 d 1 1 1 0 e 1 1 0 1 f 1 1 1 1
slr2016, slo2016, slg2 016, sly2016, SCD5584A 2006-01-23 7 block diagram idbd5070 ram read logic d0 d1 d2 d3 d4 d6 d5 memory ram 4 x 7 bit write address decoder a0 wr a1 address bus row decoder rom ascii 128 x 7 bit character decode (4.48 kbits) column decoder latches 7-bit ascii code output column data row drivers & row control logic osc 128 counter counter 7 rows 0 to 6 3 2 1 0 timing and control logic bl columns 0 to 19 display clr logic display
slr2016, slo2016, slg2 016, sly2016, SCD5584A 2006-01-23 8 design considerations for details on design and applications of the slx2016 in multiple display systems, refer to appnote 15 at www.osram-os.com electrical & mechanical considerations voltage transient suppression we recommend that the same power supply be used for the dis - play and the components that interface with the display to avoid logic inputs higher than v cc . additionally, the leds may cause transients in the power supply line while they change display states. the common practice is to place 0.01 mf capacitors close to the displays across v cc and gnd, one for each display, and one 10 f capacitor for every second display. esd protection the cmos ic of the slx2016 is resistant to esd damage and capable of withstanding discharges less than 2.0 kv. however, take all the standard precautions, normal for cmos components. these include properly grounding personnel, tools, tables, and transport carriers that come in contact with unshielded parts. if these conditions are not, or cannot be met, keep the leads of the device shorted together or the parts in anti-static packaging. soldering considerations the slx2016 can be hand soldered using a grounded iron set to 260 c. the display is compatible with leadfree and tin/lead solder. wave soldering is also possible following these conditions. preheat does not exceed 93c on the solder side of the pc board or a package surface temperature of 85c. water soluble organic acid flux (ex - cept carboxylic acid) or resin-based rma flux without alcohol can be used. wave temperature of 245c +/-5c with a dwell between 1.5 sec. to 3 sec. exposure to the wave should not exceed temperatures above 260c for five seconds at 0.063 inches below the seating plane. the packages should not be immersed in the wave. post solder cleaning procedures the least offensive cleaning solution is hot d.i. water (60 c) for less than 15 minutes. addition of m ild saponifiers is acceptable. do not use commercial dishwasher detergents. for faster cleaning, solvents may be used. carefully select any sol - vent as some may chemically attack the nylon package. maximum exposure should not exceed two minutes at elevated tempera - tures. acceptable solvents are tf (trichorotrifluorethane), ta, 111 trichloroethane, and unheated acetone. note: acceptable commercial solvents are: basic tf, arklone, p. genesolv, d. genesolv da, blaco-tron tf and blaco-tron ta . unacceptable solvents contain alcohol, methanol, methylene chlo - ride, ethanol, tp35, tcm, tmc, tms+, te, or tes. since many com - mercial mixtures exist, contact a solvent vendor for chemical composition information. some major solvent manufacturers are: allied chemical corporation, specialty chemical division, morris - town, nj; baron-blakeslee, chicago, il; dow chemical, midland, mi; e.i. dupont de nemours & co., wilmington, de. for further information refer to appnotes 18 and 19 at www.osram-os.com an alternative to soldering and cleaning the display modules is to use sockets. standard pin dip sockets 7.62 mm (0.300") wide with 2.54 mm (0.100") centers work well for single displays. multiple display assemblies are best handled by longer sip sockets or dip sockets when available for uniform package alignment. socket manufacturers are aries electronics, inc., frenchtown, nj; garry manufacturing, new brunswick, nj; robinson-nugent, new albany, in; and samtec electronic hardware, new albany, in. for further information refer to appnote 22 at www.osram-os.com optical considerations the 4.72 mm (0.180") high characters of the slx2016 gives readability up to eight feet. proper filter selection enhances read - ability over this distance. filters enhance the contrast ratio between a lit led and the character background intensifying the discrimination of different characters.the only limitation is cost. take into consideration the ambient lighting envi - ronment for the best cost/benefit ratio for filters. incandescent (with almost no green) or fluorescent (with almost no red) lights do not have the flat spectral response of sunlight. plas - tic band-pass filters are an inexpensive and effective way to strengthen contrast ratios.the slr2016 is a standard red display and should be matched with long wavelength pass filter in the 600 nm to 620 nm range. the slo2016 is a super-red display and should be matched with a long wavelength pass filter in the 470 nm to 590 nm range. the slg/sly2016 should be matched with a yellow-green band-pass fil - ter that peaks at 565 nm. for displays of multiple colors, neutral den - sity gray filters offer the best compromise. additional contrast enhancement is gained by shading the dis - plays. plastic band-pass filters with built-in louvers offer the next step up in contrast improvement. plastic filters can be improved further with anti-reflective coatings to reduce glare. the trade-off is fuzzy characters. mounting the filters close to the display reduces this effect. take care not to overheat the plastic filter by allowing for proper air flow. optimal filter enhancements are gained by using circular polar - ized, anti-reflective, band-pass filters. circular polarizing further enhances contrast by reducing the light that travels through the fil - ter and reflects back off the display to less than 1%. several filter manufacturers supply quality filter materials. some of them are: panelgraphic corporation, w. caldwell, nj; sgl homa - lite, wilmington, de; 3m company, visual products division, st. paul, mn; polaroid corporation, polarizer division, cambridge, ma; marks polarized corporation, deer park, ny, hoya optics, inc., fremont, ca. one last note on mounting filters: recessing displays and bezel assemblies is an inexpensive way to provide a shading effect in overhead lighting situations. several bezel manufacturers are: r.m.f. products, batavia, il; no bex components, griffith plastic corp., burlingame, ca; photo chemical products of california, santa monica, ca; i.e.e.-atlas, van nuys, ca. refer to appnote 23 at www.osram-os.com for further information.
slr2016, slo2016, slg2 016, sly2016, SCD5584A 2006-01-23 9 revision history: 2006-01-23 previous version: 2005-01-10 page subjects (major changes since last revision) date of change all lead free device 2006-01-23
2006-01-23 10 slr2016, slo2016, slg2 016, sly2016, SCD5584A p ublished by osram opto semiconductors gmbh wernerwerkstrasse 2, d-93049 regensburg www.osram-os.com ? all rights reserved. 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 informati on 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 1) may only be used in life-support devices or systems 2) with the express written approval of osram os. 1) a critical component is a component used in a life-support devi ce or system whose failure can reasonably be expected to cause t he failure of that life-support device or system, or to affect its safety or the effectiveness of that device or system. 2) life support devices or systems are intended (a) to be implanted in the human body, or (b) to support and/or maintain and susta in human life. if they fail, it is reasonable to assume that the health and the life of the user may be endangered.
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