ad Nn | | m < rr - i} RED SLR2016 HIGH EFFICIENCY RED SLO2016 GREEN SLG2016 ret ts ete; QI VANAL YELLOW OLIZVIO X/IY Stackabie .180" 4-Digit 5 x 7 Dot Matrix ALPHANUMERIC | tD with Mem FEATURES * Very Ciose Multi-line Spacing, 0.4" Centers * .180" 5 x 7 Dot Matrix Characters 128 Special ASCII Characters for English, German, Italian, Swedish, Danish Norwegian Languages Wide Viewing Angle: X Axis 50 Maximum, V Axis +75 Maximum Fast Access Time, 110 ns at 25C * Full Size Display for Stationary Equipment . Built-in Memory in Character Generator ane ,ana iex and LED Drive Circuitry * Direct Access to Each Digit Independently and Asynchronously True Biankin Applications End-Stackable, 4-Character Package Intensity Coded for Disnlay Uniformity MSY VOUCU erSperay WS Oriias * Extended x, C to +85C * Superior ESD Immunity sone % Burned In and Tested Al am. Vav e TL Compatible over Operating Temperature hnge e _ Cnllaua olderable 4< Ran 0.400-f = 0.197 (2.54) | (5.00 + | 0.180 " (457) z we 0.784 (19.91; _| Part Number /-EIA Date Code (3.81) Luminous t SLx206 e *] inter sity 0.200 | A SIEMENS XXYY = Z | Code 5.08} + /f 4 SATE UL UE Wesco = 020 indicator | | | || || | || (4.06 +51) Lf ( | 00 - Tolerance: .010 (.25) DESCRIPTION EE Pee The SLR/SLO/SLG/SLY 2016 is a four digit 5x7 dot matrix display module with a built-in CMOS integrated circuit. This display is X/Y stackabie. orward. Two ad 0 the like-named in dr af in QO: 3 oD 2 Q @ Na oO: Oo 5 3 oO = 7 xamaw Ma a fad) <= = > Oo me) oO 5 2 Q o 5 = Continued See Appnotes 18, 19, 22, and 23 for additional information. 2-177DESCRIPTION (Continued) TOP VIEW The characier set consists of 128 special ASCII charac- 14 13 12 11 10 9 8 tare far Pnolich Garman Italian SGwadich Danich and LGIO TUL TEIGTSI, MAGTENIGI!, ILA), GVVOUTOLI, LAcallort, call Digit3 Digit Digit 1 2 38 4 5 6 7 Pin Function Pin Function 1 WRWrite 8 D3Data 5 Vdc 2 At Digit Select 9 D4Data a orom Q AN Tinit Galant in NE Mata Operating Temperature 00... -40C to +85C 3 ~ AO Digit Select Uo UO Vala Storage Temperature .....0...ccecccce eee 40C to+100C 4 Voc 11 D6 Data Relative Humidity at 35 Fo eas bees ee serene 85% 5 DOData 12 BL Display Blank Maximum Solder Temperature, 0.063" (1.59 mm) ere i. =A. below Seating Plane, t<5 SCC oo. ecccceeceeee eee 260C 98 UI Vala fo UL leat 7 D2Data 14. GND Optical Characteristics Spectral Peak Wavelength TIMING CHARACTERISTICS WRITE CYCLE WAVEFORMS 85 1 Ao-Ar L/ ! WW 2.0V Digit Height 2... ccc 0.180" (4.57 mm) CF 77 08 Time Averaged Luminous Intensity) Pe P| at Veg=5 V Do D \# arn REO viecccsccsesessesessesesesessvsreevsnsevsisenseseeees 50 pcd/LED min. ~ ~ 7s 4\_08v HER/YClOW .cccccsecssecssecssessvseseesesesesreeses 60 ycd/LED min. Tas ey Toa GEOG occ ccccceccstecestecetecsteteeneeens 75 pco/LED min. WR va pov LED toLED Intensity Matching, Voc=65 V........ 1.8:1.0 max | etl 5 O8Y Viewing Angie (off normal axis) Tw +! (O14 72010] (| enn +50 max. Tacc | VOrtiCal . oe ceecceececeeeeeceeceeeeeeeetenereeeeetneeneea +75 max. Note 1: Peak luminous intensity values can be calculated by multiplying these values by 7. DC CHARACTERISTICS at 25C Parameters Min. Typ Max. | Units | Conditions Voc 45 | 50] 55 | V ! Dlasl ya Qn mf As -RONy lee DIidlik 2.0 OU TA Voom v !_. (80 dots on) 80 105 | mA Vi.=5.0V cc. / cc V,, (all inputs) 0.8 45V <V, <5.5V V,, (all inputs) 2.0 V 45V<V, <55V |, (all inputs) 25 100 | pA 45V <V <5.5V,V,=0.8V SLR/SLO/SLG/SLY2016 2-178uaranteed Minimum Timing Parameters at V., G o - s We x =] E 2 a. mz = oa =< Wm 2S SU 8 a ; g Ro uo Oo i = o-3 8 alg 2s Os t= z =o + == ft Ox Ww) = Q & 26 5 =O tt ce 2 os Oc oo BOlLS ees 8 6 So a0 c ooo er BLGS ig = 2 3 \ a2 - f2eS O82-F Bogs wee ea Tet 4 | 3 & _ Sau =O0O0O gl = Oc 0 ogo QO9 PES & 25S Fo : a ~ 4s Oa 2D ________ a e olaltlaloloalatltale? S On oo q se Fo S ai Qo is 3S & - ql so z = e Direc le}eflfelyrec}lec]yafe aoe Por Boa w 3 & 2 <x = | fe E al z > ~ 2 2 6 S Sreq SEO oO g = = os 2 Le ~ De LH Pie 2 a " S clm @ Sof OB 05 OGD = a = G <OQ2G ww@SH= BSC S22 % | ep a a Goo 5 ao Sno oo wy =) S as? oz QBos o ee . Es : 2 1 = ro : - : L__. o = O- wz ~5 OD & 8 = 6 & "Ss PE 6 fF Qf2fee ES AH | 40 et < fas >2= BeEE ESS BO Bg G g SoS 2a, HA2z PSEE 6G a : Oo Qilealo]lo|]Ft Be 8D Enz OD oO a 2 a molt PF} ole [a Sao one ExSA ote O = lTTE cS = OO .. a So . ecs Deer ~Al D ecolac @6= SE Ge EQE = z Ost eE OF 2 BOF ES BOG = " > oO wos 28% 08 5c = elec uSs Cse2aca5 & Too = Onry et OS0D GOCE wir a, > ES. OW Q S208 222 SEs5 Siz 4 a ! Coss S3= Bgex2 B2 ai az HI & CfGa & Ec eters Eggs Ww oS woo olelolo|eS SEO OD BISGSS SES of Lnnmse f c BS} [SO yO] rm fe fo ~OunG ZOE SMEG RES = a | 5 cx 52 oats SK =N Ss OF = a Q o |. SOQ25 =ZEN 2LY2OHH 650 c< ES a S gOolo test FSSHSR C= re > a o8 i + o> uuwwwuw Ss . DO Lo _- r}uw DDD u wy fg 2 ane} bE 3 2 > B/K IG |R]S j- JH 5 8 Qe [_ s| * _g gow Pal gB x 8 Oaleoeoorm su 341 41 4 f re NS Oe as are po & + 2 9S 5 8 C 55h LG oe 5 BOs D of SOFC Fmamm 3] Wf AA A { F Go GO S886 9 d 2S SE a 52S 8 rru1sarte { 4 9 2 Ss S$ gec8 5 iil = Do = q5[- == =| 5. : ~ qQ + _ = =|J SS == a 4aa4u Dasa = o|.| els| cle] 8} s/t 82 8 &ees a = boo ee < zs ao] = oO x oO oO a _ wie Ss uw a ~ t= ee PE TE JE PR IE |e] & ep a SBrl65 2! al Z ; o| > OS SB - Ge o 3 8 Bo a Aals/r rT Tats] pe os o_~ OD we ro ot oO 7 65 S05 fe ug e| > ~< = a =o Bow oO 8 Slo mz 44 u/s 5 7 6) OF Tf w 2 co] 3 = + as EN [Seg Gek > a] i ge a QO & oO t cp CO a g aru 4234 x{s 6 - Qo E ~% el 6@EF 2 S| 9 KF go ge 2SeoD%! gs o| zZ < be a }e E Q oo ee 9 fc 2 6 Aaja 4 41 a 4 ajo] & Ir S EJEJ}]o E 2 < oS Sse cls z ow = - = Coo Sach wR _ . " =| /elgllels|_ |# &s8e $2 2388 8) a [pzzzz| | 4 oy s sida lolBlrlolEleleo|] fogs 8D SVERDES iL i 5o|e2lElelels 5 OVE = O%9 22 Eo Ls em a 2 4Gbutrtruisx . G 2 be icp) o <I o a I : o a E o x i TEE Ol r = Fico lols llellslsl- Zaaec = agro gl - lu lI ku 3 #=/Lioal[Ll}o ss] gs - Oorm 978 ECF x a4urto3i34x| Cc _ e T wo Oo O Oo o me) 2g Qa Oo Cc cs 5 & <_ Oo Mi eis lalt{ Joal;etlolo]s fonge SE BR2S0ca x . . - o Z2O0Oc 2 SO 8D Bort > Slog og a ous 4 4 S 1 o areean OF OBO & LL Le SLR/SLO/SLG/SLY2016 4 us min, 196 ps max + 5 KHz Blanking Frequency ~ 200 je | 2-179 |~ >| | ~ 500ms| z Bianking Frequency ~2CHARACTER SET a a a a 0 DO De CODE D6] D5] D4] HEX SSE RRBSEL SSE a a a Q oD oO -l 5 ao 2 = o o 2 > q. 2 3 oO oe o a & = N mh, = Q & Oo 3 a c ln = 2 2 & 2 o a = 3 3 Bs ) e a o| = Sag 3G 9 0 ony Oo} c 5m 2 x ON Ga oot c & AS - ao - O 2 Jeposeq uWN|OD = . = seyoye] 3 2 8 - = @ 5 3 2 S B 8 m3 2 c } < 1 i = N 5 e as 2 N Q g HS 3 = 8 t = = sess] OS be g =O 7 Swe fe oO > 5 ce 2 2 9 o aA an az oc oO 22 & 6 oO = = NM =o 6 = _ 2 x Sz 8 z Q << = | [sna ssuppy L_= <9 = | guorenNre Zor Agagagaga Sia CLR SLR/SLO/SLG/SLY2016 2-180DESIGN CONSIDERATIONS For details on design and applications of the SLX2016 in multiple display systems, refer to Appnote 15 in the current Siemens Optoelectronics Data Book. ELECTRICAL & MECHANICAL CONSIDERATIONS VOLTAGE TRANSIENT SUPPRESSION We recommend that the same p S display and the com to avoid iogic inputs | igher than V_.. Additionally, the LEDs may cause transients in ihe power supply line while they change display states. The common practice is to place .01 uF capacitors close to the displays across Vand GND, one for each display, and one 10 uF capacitor for every second display. a ali yaonie raciatant Me GLAZY 10 is Peslo leat ithstanding discharges less than 2 KV. However, take all the standard precautions, normal for CMOS components. These inciude properiy 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. Bs m gy aG Q is 9 C en NEDIAIT CORICINEDATIONIC SVLVUCAING VCYUNSIVDORNA PRINS The SI XYONIE can hoe hond ooidarad with SNIE2 enidar IHS SGLALU IO Call Ve dle SUIUIETEU WILE] OINDO SUIUITI rainn a arnindad iran cat in DENS USINIG a YOUU IFOT! Sel lO ZOUTU soluble organic acid flux (except carboxylic scie) c or resin- based RMA flux without alcoho! can be used based RMA Tux without alcono! can be used. Wave temperature of 245C +5C with a dwell between 1.5 sec. to 3.0 sec. Exposure to the wave should not exceed temperatures above 260C for five seconds at 0.063" 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 (60C) for less than 15 minutes. Addition of mild saponifiers is acceptable. Do not use commercial disnwasher detergents. any solvent as some may chemically attack the nyion package. Maximum exposure should not exceed two minutes at elevated temperatures. Acceptabie soivents are TF (trichorotrifluorethane), TA, 1114 Trichloroethane, and unheated acetone. Note: Acceptable commercial solvents are: Basic TF, Arklone, P. Genesolv, D. Genesolv DA, Blaco-Tron TF, Blaco-Tron TA, and Freon TA. Unacceptable solvents contain alcohol, methanol, meth- ylene chloride, ethanol, TP35, TCM, TMC, TMS+, TE, or TES. Since many commercial mixtures exist, contact a solvent vendor for chemical composition information. Some major solvent manufacturers are: Allied Chemical Corporta- tion, Specialty Chemical Division, Morristown, NJ; Baron- Blakeslee, Chicago, IL; Dow Chemical, Midland, MI; E.1. DuPont de Nemours & Co. Wilmington, DE. For further information refer to Siemens Appnotes 18 and 19. An alternative to soldering and cleaning the display modules is to use sockets. Standard pin DIP sockets .300" wide with .100" centers work well for single displays. Multiple display assemblies are best handled by longer SIP sockets or DIP ckets when available for uniform package alignment. y! Inc., Frenchtown, D 5 ck : manufacturers are Aries Electro ZZ _ @ 2 8 e =! w a Cc aE SS Cc 5 ~ ZS oO = WM g Cc a wn gs oO OPTICAL CONSIDERATIONS The .180" high characters of the SLX2016 gives readability up to eight feet. Proper filter selection enhances readability over this distance. The SLO2016 is a high efficiency red display and should be matched with a long wavelength pass filter in the 470 nm to 590 range. The SLG/SLY2016 should be matched with a yellow-green band-pass filter that peaks at 565 nm. For vy reer eee displays of multiple colors, neutral density gray filters offer the lop COMO best compromise. Additional contrast enhancement is gained by shading the displays. 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 polarized, anti-reflective, band-pass filters. Circular polarizing further enhances contrast by reducing the light that travels through the filter and relfects back off the display to less than 1%. Severai filter manufacturers supply quaiity filter materiais. Some of them are: Paneigraphic Corporation, W. Caidweili, NJ; SGL Homaiite, Wilmington, DE; 3M Company, Visuai Products Division, St. Paul, MN; Polaroid Corporation, Polarizer Division, Cambridge, MA; Marks Polarized Corpora- tion, Deer Park, NY, Hoya Optics, Inc., Fremont, CA. ie last Note ON Mounting filters: recessing as ays a and i is an inexpensive way to p ovide as ading turers are: R.M.F. Products, Batavia, iL; Nobex Componenis, Griffith Plastic Corp., Burlingame, CA; Photo Chemical Products of California, Santa Monica, CA; I.E.E.-Atlas, Van Nuys, CA. tn Oinesane)e Annan SLR/SLO/SLG/SLY2016 2-181