PREPARED BY: DATE: SHARP APPROVED 7 35h BY: DATE: niMj.;? / .J- Tf6 DEVICE f SA-88049D ISSUE March PAGE 15 Pages ELECTRONIC COMPONE,NTS GROUP SHARP CORPORATION REPRESENTATIVE SPECIFICATION OPTO-ELECTRONIC SPECIFICATION 25, 1996 DMSION DEVICES DIV. FOR Business PHOTOCOUPLER MODEL SPEC. No. dealing name I No. PCSOOV I 1. These Please specification sheets include do not reproduce or cause 2. When using this product, please observe the absolute maximum ratings and the instructions in these specification sheets. as well as the precautions mentioned below. Sharp assumes for any damage resulting from use of the product which does not comply with the absolute and the instructions included in these specification sheets, and the precautions mentioned (Precautions) (1) This product is designed * OA equipment [ materials protected anyone to reproduce for use * Audio * Telecommunication * Tooling machines * Home equipment . Computers (Terminal) * Measuring [ 3. Please in the above application to observe the precautions safety and * Gas equipment safety leakage equipment sensor breakers * Space equipment * Nuclear power * Telecommunication control equipment CUSTOMER’S and consult APPROVAL with a Sharp sales representative : 1 appliances equipment (aircraft, train, automobile . Rescue and security require extremely (for trunk for any questions reliability 1 1 lines) lf there reliability and etc.) equipment high equipment Please contact and consult with a Sharp sales representative regarding interpretation of the above three paragraphs. contact for use outlined no responsibility maximum ratings below. redundant design considering should be taken to ensure which demands high reliability equipment . Medical areas (“Sharp”). areas is for equipment listed in paragraphs given in those respective paragraphs. Please do not use this product for equipment which and safety in function and precision, such as : [ (4) * Other control of Sharp Corporation Sharp’s consent. application equipment Appropriate measures, such as tbil-safe design and the safety design of the overall system and equipment, and safety when this product is used for equipment safety in function and precision, such as ; * Transportation * Traffic signals (3) ln the following copyright without visual If the use of the product (2) or (3). please be sure (2) under them are any about questions this product. DATE PRESENTED BY DATE BY T. Matsumura. Department Engineering Opto-Electronic ELECOM SHARP General Manager Dept.,11 Devices Div. Group CORPORATION of SHARP CORPORATION SA-88049D MODEL 1 March25, No. 1996 PAGE PCSOOV l/9 i 1. Application This specification applies to the outline and characteristics Model No. PCSOOV. of photocopier 2. Outline Refer to the attached drawing No. CY544OKO2. 3. Ratings and characteristics Refer to the attached sheet, page 3 to 5. 4. Reliability Refer to the attached sheet, page 8. 5. Incoming inspection Refer to the attached sheet, page 9. 6. Supplement 6.1 Isolation voltage shall be measured in the following method. ( 1) Short among pins 1 to 3 on the primary side and among pins 4 to 6 on the secondary side. (2) The dielectric whhstand tester with zero-cross circuit shall be used. (3) The wave form of applied voltage shall be a sine wave. (It is recommended that the isolation voltage be measured in insulation oil.) 6.2 Business dealing name (” 0” mark indicates business dealing name of ordered product) Product Business dealing name G PCSOOV PC9OOVY Remarks Applied to products as a option (Attached sheets -2-l to 2-4.) SHARP CORPORATION 6.3 This Model is approved Approved Model by UL. No. : PCSOOV UL file No. : E64380 6.4 Theory of operation (1) When the forward current of above the “H-L” threshold input is applied to the input side, the output will go “Low level”. (21 When input the forward current on the input side goes below current (I,1 the output will go “High level”. 6.5 This product is not designed against This product is assembled with This product incorporates non-coherent 7. Notes Refer to the attached sheet-l-l, 2. the “L-H” irradiation. electrical input and output. light emitting current diode. (I,) threshold SHARP CORPORATION PCSOOV Voltage regulator I cc Anode PCSOOV SHARP 3 Cathode ,z N.C. Pin Nos. and internal connection diagram \ bode mark Lot No. l l Factory identification mark l 2 L 7.6210.3 * 1) a-digit number shall be marked according to DIN standard. *2) Factory identification mark shall be or shall not be marked. UNIT: Name Drawing No. l/l mm PCSOOV Outline Dimensions (Business dealing name : PC9OOW CY5440K02 SHARP CORPORATION SA-88049D MODEL 1 March25. 1996 No. PAGE PCSOOV 4/9 3. Ratings and characteristics 3.1 Absolute maximum ratings Ta=25C Parameter I *l unit Forward current mA A V P~~ I 70 mW Supply voltage vcc 16 V High level output voltage VOH 16 V Low level output current r, 50 m.A *l PO 150 mW output Power dissipation * 1 Total power dissipation I Ptot I 170 mW I *3 Isolation voltage viso 5.0 kVrms Operating temperature Topr -25 to +85 ‘C *4 Storage temperature Tstg -40 to 125 “C *4 Soldering temperature I Tsol I 260 I *l The derating factors of absolute maximum ratings due to ambient temperature areshowninFig. 1, 2, 3. *2 Pulse widths 100 /1s, Dutyratio l 3 AC for 1 min. 40 to 6O%RH *4 For 10s : 0.001 ‘C SHARP CORPORATION PCSOOV 3.2 Electra-optical characteristics (Unspecified Symbol Parameter Forward 5 voltage Reverse E. VF current Terminal supply Low level output TYP. MAX. 1.1 1.4 voltage voltage Unit 1,=4mA 0.7 1.0 1,=0.3mA 10 PA Ta=25”C, V,=3V Ta=25”C, f=lkHz V=O ct - 30 250 pF vcc 3 - 15 v VCL - 0.2 0.4 v y6&nA, vcc=sv F 5 3 High level output voltage s Low level supply High level supply “H--L” threshold current *l current current input bH - - 100 PA vcc=vo= IF=omA 15v E CL - 2.5 5.0 mA Vcc=SV, 1,=4mA & - 1.0 5.0 mA vcc=5v, IF=omA 1.1 2.0 mA Ta=25”C, Vcc=5V RL=280 ~2 b-u Vcc=W, 4.0 0.4 “L-I-I” 8 si ‘c: B s 2 5 i 8-i + Conditions V IR capacitance Operating range MIN. : Ta=O to 70°C) threshold current input Vcc=SV, R,=280 R 0.5 0.7 0.9 Vcc=5V, R,=280 R 5XlO’O 10” - tPHL 1 3 tPLH 2 6 Im/IFHL Isolation resistance RiSO aE 8 g propagation time time Ta=25”C ,Vcc=SV R,=280 Q - *3 “L-H” mA - Hysteresis 8 8 - Q 0.3 *2 o, ‘I-I -+L” propagation 0.8 kLH R,=280 c-2 Ta=25C, DC500V 40 to 6O%RH Ta=25C jls Falltime if 0.05 0.5 Risetime tr 0.1 0.5 vcc=5v, R,=280 1,=4mA R SHARP CORPORATION SA-88049D 1 March MODEL No. PAGE PCSOOV *1 I,, represents forward current when output goes from “H” to “L”. *2 I, represents forward current when output goes from “L” to “H”. *3 Hysteresis l 4 Test circuit : IFLH/IFHL for response Voltage time shall be shown below. regulator Input t r=t f”o zo=502 . ....50% ...________..tP L tP 4-k Test circuit diagram Timing 25, 19% chart II 6/9 SHARP CORPORATION PCSOOV (Fig. 1) Forward ambient -25 0 Ambient 25 current vs. temperature 50 temperature 7585 100 Ta ( “C ) (Fig. 3) Total power dissipation vs. ambient temperature 2 E 200 E $j ,a 4 170 150 2 50 a 2 i: 100 0 -25 0 Ambient 25 50 temperature 7585 100 Ta (“C 1 (Fig. 2) Output power dissipation vs. ambient temperature -25 0 Ambient 25 50 temperature 7585 100 Ta (“C ) SHHRP CORPORflTION SA-88049D MODEL No. 1 March 25, 1996 PAGE PCSOOV B/9 4. Reliability The reliability of products shall be satisfied with items listed below. Confidence level : 90% LTPD: 10%/20% Test Items Test Conditions Failure *1 Solderability Soldering *2 Judgement Criteria 230-C, 5 s heat 26O”C, 10s v,>ux I*>UX2 Terminal (Tension) strength Weight : 5N 5 s/each terminal Terminal (Bending) strength *3 Weight : 2.5N 2 times/each terminal 1.2 Samples (n, Defective(C: n=ll, C=O n=ll, C=O n=ll, C=O n=ll, C=O n=ll, C=O n=ll, C=O v,>ux1.2 Mechanical shock roH>UX1.2 15000m/s2, 0.5ms 3 times/ +X, *Y, &Z direction &,>ux1.2 &+ >ux1.2 Variable vibration frequency 100 to 2000 to 1ooHz/4min 200m/s2 4 times/ X, Y, 2 direction IFHL >ux I, Temperature cycling 1 cycle -40 C to t 125°C (3Omil-l) (3Omin) 20 cycles test High temp. and high humidity storage +6O’C, 9O%RH, High temp. storage +125-C, Low temp. storage -40-C, lOOOh Operation I,=lOmA, vcc=15v Io,=16mA, Ta=25%, *l life Test method, conforms 1.3 <LXO.8 n=22,C=O I,, /I=#LXO.8 -ux 1.2 lOOOh n=22 ,C=O U : Upper specification limit lOOOh L : Lower specification limit lOOOh to JIS C 7021. *2 Solder shall adhere at the area of 95% or more of immersed portion of lead and pin hole or other holes shall not be concentrated on one portion. *3 Terminal bending direction is shown below. n=22,C=O n=22,C=O n=22,C=O SHflRP CORPORflTION SA-88049D MODEL No. 1 March PCSOOV 5. Incoming inspection 5.1 Inspection ( 1) Electrical items characteris v,, I,, v OL’ IOH, tics ‘CCL* ‘CCH* ‘FHL, ‘FLHv Rise, visa (2) Appearance 5.2 Sampling method and Inspection level A single sampling plan, normal inspection level II based on IS0 2859 is applied. The AQL according to the inspection items are shown below. Defect Inspection Major defect I Minor defect item Electrical characteristics Unreadable marking I Appearance defect except the above mentioned. AQL (%) 0.1 25. 1996 PAGE 9/9 SHARP CORPORRTION PCSOOV Precautions for Photocouplers 1. For cleaning (1) Solvent cleaning : Solvent temperature 45°C or less Immersion for 3 mln or less (21 Ultrasonic cleaning : The affect to device by ultrasonic cleaning is different by cleaning bath size, ultrasonic power output, cleaning time, PWB size or device mounting condition etc. Please test it in actual using condition and confirm that doesn’t occur any defect before starting the ultrasonic cleaning. (31 Applicable solvent : Ethyl alcohol, Methyl alcohol Freon TE . TF, Diflon-solvent S3-E Please refrain form using Chloro Fluoro Carbon type solvent to clean devise as much as possible since it is internationally restricted to protect the ozonosphere. Before you use alternative solvent you are requested to contirm that it does not attack package resin. 2. Please use the same as normal integration circuit about static electricity in order that this device is OPIC photocopier. 3. In order to stabilize power supply line, we recommend to connect a by-pass capacitor of 0.0 1 p F or more between Vcc and GND near the device. 4. The LED used in the Photocoupler generally decreases the light emission power by operation. In case of long operation time, please design the circuit with considering the decreases of the light emission power of the LED. (50%/5yearsl Please decide the input current which become 2 times of MAX. I,. Attach sheet- 1- 1 SHARP CORPORATION SA-88049D MODEL No. 1 March PCSOOV 5. Precautions for Soldering Photocouplers (1) In case of soldering to lead 260 “C 10 s or less An example ix!! IGiJ 110 1% 100 80 60 -10 20 “0 Device temperature (“Cl of device temperature E I iFi=+- - Solder -- 2 1 ti 8 Soldering (2) If solder reflow 10 12 l-1 16 18 :I! time (s) : It is recommended that only one soldering be done at the temperature and the time within the temperature profile as shown in the figure. 230t 25r L t 1 min (3) Other 25, 1996 1 PAGE Attach sheet- l-2 precautions An infrared lamp used to heat up for soldering may cause a localized temperature rise in the resin. So keep the package temperature within that specified in Item (2). Also avoid immersing the resin part in the solder. SHARP CORPORRTION SA-88049D MODEL No. PC9OOvY 1. This specification 1 March (Option) shall be applied to photocopier, Model No. PCSOOV as an option. 2. Applicable Models (Business dealing name) PC9OOVY 3. The relevant models are the models Approved by T& Rheinland Japan according to DIN VDE0884/08.87. Approved T& Model No. : PCSOOV approved No. : R9 15 1577 (According to the specification DIN VDE0884/08.871 l Operating isolation voltage UIoRici: 7 1OV (Peak) l Transient voltage l Pollution : 2 (According to VDEO 11 O/O 1.891 l Clearances distance (Between input and output) : 6mm (MIN.) U, : 6000V (Peak) l Creepage distance (Between input and output) : 6mm (MIN.1 l Isolation thickness between input and output : 0.15mm (MIN.] l Tracking-proof l Safety limit values : CT1 225 (Material group IIIa : VDEO 110 / 0 1.89) Current (Isi) : 120mA (Diode side) Power (Psi) : 240mW (Phototransistor Temperature side1 (Tsi) : 150 “C In order to keep safety electric isolation of photocopier, please set the protective circuit to keep within safety limit values when the actual application equipment troubled. . Indication of Tti approval prints “‘0884” 4. Outline Refer to the attached drawing No. CY5 164K02. on sleeve package. 25, 1996 PAGE Attach sheets-2- 1 SHARP CORPORATION SA-88049D MODEL 1 March No. PCSOOVY (Option) 5. Isolation specification according Parameter Symbol Conditions DIN IEC68 Pollution DINVDEOllO unit Rating 25/85/21 2 U IORb 710 VPEAK Refer to the Diagraml.2 W .____.___.__..__.___.-.-.. over-voltage tp=60 s, qc<SpC 852 . . .._.__.........~~.~~~~~~.......~..~~~..-.........- Diagram 2 Maximum Remark - Partial discharge test voltage (Between input and output) Diagram 1 PAGE Attach sheets-2-2 to VDE 0884 Class of environmental test Maximum operating isolation voltage 25, 1996 I vPEAK tp=1 s, qc<5pC 1136 V PEAK ua tm=1os 6000 vPEAK . Tsi I,=O, Pc=O 150 “C Pc=O 120 mA 240 mW Safety maximum ratings 1) Case temperature 2) Input current Isi 3) Electric power (Output or Total power dissipation) Psi Isolation resistance (Test voltage between input and output ; DC500V) R Iso Ta=Tsi MIN. 10’ Ta=Topr (MAX. 1 MIN. 10” Ta=25”C Mm. lOI R Refer to the Fig. 6, 7 SHARP CORPORflTION SA-88049D MODEL I March 25. 1996 No. 1 PAGE Attach sheets-Z-3 PCSOOVY (Option) Voltage regulator % - PCSOOV Anode 2 In Cathode B v3 cd N.C. - Pin Nos. and internal connection diagram Lot No. / Anode mark \ \ Factory +I identification \ VDE 0884 identification mark l2 mark 7. 6210.3 4 i e :o- I 13” ’ *1) a-digit number shall be marked according to DIN standard. *2) Factory identification mark shaI.I be or shall not be marked. UNIT: 3 l/l mm SHARP CORPORRTION SA-88049D MODEL 1 March PAGE PCSOOW Method V * of Diagram UIm, 1 : Breakdown test (Apply to type test and sampling WW t1* (Option) Attach sheets-2-4 test) =l =l 4 t*&-tial discharge measuring time) tb GNl U, of Diagram to 10s s =60 s =62 =lO s s (852V) U low --I---------- .___.__....__.__.__..____-___-_.___-_____________11__1___. Method 25, 1996 No. 2 : Non breakdown (71Ovl test (Apply to all device test) U r(l136V) L f* Fig. 6 Safety maximum power vs. ambient temperature (When failed) dissipation =O.l t 2, (Partial discharge measuring time) =l tb =1.2 Fig. 7 Safety maximum forward vs. ambient temperature (When failed) s s s current 250 200 300 150 240 200 120 100 100 50 I 01 0 25 Ambient I 50 I 75 temperature I 100 I nl y 125 Ta ( “C 1 150 0 I 25 Ambient I I I I 50 75 100 125 temperature y 150 Ta ( “C 1