(SP, OPTEK Product Bulletin OPB9OO0W July 1996 Photologic Slotted Optical Switches Types OPB900W, OPB910W Wide Gap Series 1.23 (31.24) 1.21 (30.73) +130 (3.30) +875 (14.81) -120 (3.05) +565 (14.35) MOLDED OOT 1.005 (25.53) INOICATES a Bienes | 0.395 = ; ! e g Oo -260 (6.60) o 200 (5.08) | -240 (6,10) oO 180 (4.58) L | 1130 (3.30) .650 (18.51) + "120 (3.05) * -B40 (16.13) 7; : 45 (18.92) DPTICAL tt +725 (18.42) 380 (9.65) 110 (2.79) 7370 (3.40) [ NOW HO (2.79) +90 (2.28) PO Ty 435 (11.05) 2080 (1.52) | -425 (10.80) 7040 (7-02) | 4 Lt, tit rly t t | 4 a 5 |e (2.18) Beiccpve |, -200 (5.08) .075 (1.91) - 180 my H CIMENSIONS ARE IN INCHES (MILLIMETERS) Features Absolute Maximum Ratings (Ta = 25 C unless otherwise noted) 0.375" (9.53 mm) wide gap Supply Voltage, Vcc (Not to exceed 3 SEC.).. 0. cece cece eens 10V oO oO Choice of aperture Storage Temperature Range ....... 0... ccc cece ee cee ee ees 40 C to +80 Cc Choice of output confi ti Operating Temperature Range. ...........00 ccc eee eee eens -40 Cito +70C olce OF Output configuration . Input Diode Power Dissipation .... 0.0.0.0... 00.00 ccc ccc eee ee 100 mw) Choice of roe or IR transmissive Output Photologic Power Dissipation..........00.00ccecceceeeeees 200 mw) Snel materia Total Device Power Dissipation ............. 0.0 c cee cc cece eee 300 mw*) Data rates to 250 kBaud Voltage at Output Lead (Open Collector Output). ....0...00. 0. cece eee eee 35 V 24" min, 26AWG wire leads Diode Forward D.C. Current... 2.0... ccc cece eect eee e ne eeees 40 mA Diode Reverse D.C. Voltage ... 0... ccc eect eee teen e eee nees 2V Description Notes: 1) Derate linearly 2.22 mW/? C above 25 C. The OPB900W and OPB910W series of g Derate tinearly ee mW g above 385 c :.@ . erate linear : m ove : Photologic Photo Integrated Circuit 4) The OPB9O0W/OPB910W Series are terminated with 24 inches of 7 strand 26 AWG, UL Switches provide optimum flexibility for 1429 insulated wire on each terminal. Insulation function and colors are : the design engineer. Building from a . . . u" Red - IRED Anode White - V. standard housing with a 0.375" (9.53 Black - IRED Cathode Blue - Output mm) wide slot, the user can specify (1) type and polarity of TTL output and (2) discrete shell material. Other wire lengths and/or colors in addition to customer selected connectors are available. Contact your local representative or call the factory. . op: 5) Normal application would be with light source blocked, simulated by Ir = 0 mA. The electrical output can be specified as 6) All parameters tested using pulse technique. either TTL totem pole or TTL open 7) Methanol and isopropanol are recommended as cleaning agents. Housings are soluble in collector. Either may be supplied with chlorinated hydrocarbons and ketones. inverter or buffer output polarity. All have added stability of a built-in hysteresis amplifier. Green - Ground Optek Technology, Inc. 1215 W. Crosby Road Carrollton, Texas 75006 (972) 323-2200 Fax (972) 323-2396 12-140Types OPB900W, OPB910W Series Electrical Characteristics (Ta = -40 C to +70 C unless otherwise noted) SYMBOL | PARAMETER | MIN | TYP | MAX [UNITS | TEST CONDITIONS Input Diode VE Forward Voltage 1.7 V [le =20 mA, Ta = 25C Ir Reverse Current 100 | pA |VR=2V,TA=25C Output Photologic Sensor Pat : Vcc |Operating D.C. Supply Voltage 4.75 5.25, V = e S 7 loci Low Level Supply Current: BOs Buffered Totem-Pole Output 15 mA |Vcc =5.25 V, Ir = 0 mA) , Buffered Open-Collector Output inverted Totem-Pole Output 15 mA jVcc =5.25 V, fp = 20 mA Inverted Open-Collector Output IccH High Level Supply Current: Buffered Totem-Pole Output 15 mA |Vcc = 5.25 V, lr = 20 mA Buffered Open-Collector Output inverted Totem-Pole Output 15 mA jiVcc =5.25V, IF =0 ma) inverted Open-Collector Output VoL Low Level Output Voltage: Buffered Totem-Pole Output 0.4 V Voc = 4.75 V, lo. = 12.8 mA Buffered Open-Collector Output Ir =0 mA) Inverted Totem-Pole Output : 0.4 V Voc = 4.75 V, lo. = 12.8 mA Inverted Open-Collector Output ' lp =20 mA VoH _ |High Level Output Voltage: Buffered Totem-Pole Output 2.4 V Voc = 4.75 V, lon = -800 pA Ip =20mA Inverted Totem-Pole Output _ 24 V_ |Vcc = 4.75 V, lon = -800 HA : IF =0 mA) loH High Level Output Current: Buffered Open-Collector Output 100 | yA {Vcc = 4.75 V, Von =30V Ip = 20 mA, Ta = 25C Inverted Open-Collector Output | 100 | yA |Vcc =4.75 V, Vou = 30 V IF =O MA, Ta = 25C ' lF(+) LED Positive-Going Threshold Current 20 mA |Vcc =5V,TaA=25C | Ir(+/le(-) |Hysteresis 2.0 Voc =5V los Short Circuit Output Current: mA Buffered Totem-Pole Output -30 -100 Voc = 5.25 V, Ip = 20 mA Output = GND Inverted Totem-Pole Output -30 -100 | mA |Vcc =5.25V, IF=OmA Output = GND tr, ty Output Rise Time, Output Fall Time 70 ns |lVcc=5V, Ta = 25C ; Oe : lp =Oor20mA it P - - . tpLH, tpHL |Propagation Delay Low-High & High-Low 5.0 HS |, =8 TTLLoads (Totem-Pole) Ri = 360 Q (Open-Collector) Housing All housings are an opaque grade of injection-molded plastic to minimize the assembly's sensitivity to ambient radiation, both visible and near-infrared. Discrete shells (exposed on the parallel faces inside the device throat) are either IR transmissive plastic for applications where aperture contamination may occur or opaque plastic for maximum protection against ambient light. Optek reserves the right to make changes at any time in order to improve design and to supply the best product possible. Optek Technology, Inc. 1215 W. Crosby Road Carrollton, Texas 75006 (972)323-2200 Fax (972)323-2396 12-141Types OPB900W, OPB910W Series (S), OPTEK PART NUMBER GUIDE OPBOXXXXX Optek Assembly Photologic Photo Integrated Circuit Sensor Family Discrete Shell Material Designation 0 - Wide Gap IR Transmissive Plastic Discrete Shell 1 - Wide Gap Opaque Plastic Discrete Shell Aperture Width In Front of Sensor 5 = 0.050" Aperture Width In Front of Emitter 5 = 0.050" = Mounting Configurations L - Solder Leads Termination W - Wire Termination Electrical Specification Variations 0 - Buffered Totem-Pole Output 1 - Buffered Open-Collector Output 2 - Inverted Totem-Pole Output 3 - Inverted Open-Collector Output Schematics OPB900/0PB910 OPB901/0PB911 {Totem-Pole Output) (Open-Collector Output) Buffer Buffer OPB903/0PB913 (Open-Collector Output) Inverter Voc QUT o GND OPB902/OPB912 (Totem-Pole Output) Inverter Optek Technology, Inc. 1215 W. Crosby Road Carrollton, Texas 75006 12-142 (972) 323-2200 Fax (972) 323-2396Types OPB900W, OPB910W Series Typical Performance Curves OPBSOOL, OPB902L, OPB910L, OPB912L All Assemblies Output Voltage Short Circuit Output Current Propagation Time vs Ambient Temperature vs Ambient Temperature vs Ambient Temperature ToT Tee | eo=5.25 cc= a You r { t z Output Voltage = 6 a + Putse Frequency: 10 kHr en 2 ie |e I : Light Source 2 mW cm? Gas 1935 nm = Pulse Amplitude: 20 mA a oS F = 30 _+ : & 50 6 f Duty Cycle: 50% ola 3 sobs 3 = . a's = g { 1 i L ba z The) 5 TG : 2 S a 2 aa 3 5 = 20 ' tT I = a0 z . a Were 475 : 2 2 ' + i output Current: Low, 12.8 mA: S = . & High. - 800 pA s Z { ! "=, 10 [ Light Source tor Vy: 2 mcm? zB 2 ay: 1 ! fo. | 8 z ti Tv | Z 3 t | jo | 20 i -85 -35 -16 5 2 45 65 85 105 125 -5 -35 -18 5 25 45 65 85 105 125 6 98 15 5) 2S AS OBS BS NOH 175 Ty - AMBIENT TEMPERATURE ~ C . Ty - AMBIENT TEMPERATURE - C Ty - AMBIENT TEMPERATURE - C OPBS01L, OPBS03L, OPB911L, OPB913L Output Current (High} Rise Time and Fal! Time Data Rate vs Ambient Temperature vs Ambient Temperature vs Ambient Temperature vy T T T 50 7 T . " 600 7 1 PT] Je ae C m7 10 p- ner t Yec=5 s i . 1 i Output Load: 360 ohm pullup resistor ' | 99 ' - sat 4 40 + Light Source: 2 mWicm2 GaAs (935 nm) Soo po _ = i 1 . " 5 (O85 ne . T gate. |e ign e pit jfpoii J z | : 2 . : w t ' i | I ' _ 4 : 1 : ! BP wee eel = 30 : + + mm 440 . 7 g | - = : a e 06 by fie ee 4 2 $e pee 3 : i = t > i ao sp ee = 20 A . 2 09 + | 5 ~ I = T toy 4 3 Ip = 20 mA, Voc = 5 V t as 1 2 input Signal 50% duty cycle 5., Vee = 4.75 | = 0 | jog } Output Signal: Low. 0.4 V max, | oon vt Un ded - i High, 2.4 V mn jutput Unloade am Led Output Load. 12 B mA L ? F ight Source 2 mW cm? Gas 1935 nm es "00 Ah . or o 7 $5 iy Ww 5 2 45 65 BS 105 125 5 1S S 2 a 65 85 105 1275 bd cy abd + 2% 35 bh 4S 10h FD Ta - AMBIENT TEMPERATURE - C Tq - AMBIENT TEMPERATURE - C Ty - AMBIENT TEMPERATURE - C OPBSOOL, OPB901L, OPBS10L, OPB911L OPB902L, OPBS03L, OPBS12L, OPB913L All Assemblies Normalized Supply Current Normalized Supply Current Trigger Current vs Ambient Temperature vs Ambient Temperature vs Ambient Temperature 4 ve , ' re TT TTT TT I - [ji ! it Z, L = i e* i | =" * ; 3 4d tece "yy na ee 3 leet > 5 = x 16 es = f 10 + : > lec . ca es tile 3 con [ooo | 3 8 2 ' 1 oi Soa 4 set ' ! Sos 4 4. --+- 2 & : { = 3 "Ta Z Z = pee Sieh ' ' i 2 o8 yep =5.25V . " rs | : 2 "Vee =5.25 Output Unloaded Eabypesy , = Output Unloaded & Light Source for Icey: 2 mW cm? ; c= oS light Source for lecy: 2 mW em? Pot _ CCH = Output Signal: Low. 0.4 max: Oe F Gets 4 =935 om a Gads, X= 935 nm FL digh, 2.6 mu. 8 Normalized to Ta = 25C = wmanet to Ty= 25C ' Output Unioaded = it | ft ] n oO = ons 3518 5 2 45 65 8 WS 126 $6 36 15 s 2% 4 65 85 105 125 85-35-15 5 25 45 65 9S 105 125 . a Ty - AMBIENT TEMPERATURE - C Th - AMBENT TEMPERATURE ~ C Ty - AMBIENT TEMPERATURE ~ C A Switching Test Curve for Buffers Switching Test Curve for Inverters INPUT of ---) 50% a 50% gen) ye0 IgttN) a0 PLH von - er "Pat teh r "PHL OL - ae hal . Way output 8 sou YOu 0 ; oy, Vo owkEezesee 14v tf mw ete oH yf ie el | You LEO f= 10 kHr OC = 50% LEO f= 16 kHe DC = 50% Optek reserves the right to make changes at any time in order to improve design and to supply the best product possible. Optek Technology, Inc. 1215 W. Crosby Road Carrollton, Texas 75006 (972)323-2200 Fax (972)323-2396 12-143