PREPARED BY: \ &&-‘/,L DATE: .%’2 ,(- :-,, <’ ‘. h )4/ APPROVED - ,. BY: DATE: I- 1 -. ,dC, SHARP ELECTRONIC COMPONENTS GROUP SHARP CORPORATION SPEC. No. ED-94040E ISSUE March 5, 1998 PAGE 14 Pages REPRESENTAm A 1 lUi\1 I DMSION OPTO-ELECTRONIC DEVICES Dn! business dealing name ’ DEVICE SPECIFICATION FOR PHOTOCOUPLER MODEL No. PC123 1. These specification sheets include materials protected Please do not reproduce or cause anyone to reproduce under copyright of Sharp Corporation them without Sharp’s consent. (“Sharp”). for use outlined 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 no responsibility for any damage resulting from use of the product which does not comply with the absolute maximum ratings and the instructions included in these specification sheets, and the precautions mentioned below. (Precautions) ill This product is designed for use in the following application areas : * OA equipment * Home appliances * Audio visual equipment * Measuring equipment * Telecommunication equipment (Terminal) + Computers [ * Tooling machines If the use of the product in the above application areas is for equipment listed in paragraphs (2) or (31, please be sure to observe the precautions given in those respective paragraphs. 1 (21 Appropriate measures, such as fail-safe design and redundant design considering the safety design of the overall system and equipment, should be taken to ensure reliability and safety when this product is used for equipment which demands high reliability and safety in function and precision, such as ; . Transportation control and safety equipment (aircraft, train, automobile - Trafhc signals . Rescue and security * Gas leakage sensor breakers * Other safety equipment [ etc.1 equipment (31 Please do not use this product for equipment which require extremely high reliability and safety in function and precision, such as : . Space equipment . Telecommunication equipment (for trunk lines) * Nuclear power control equipment * Medical equipment [ 1 1 (41 Please contact and consult with a Sharp sales representative regarding interpretation of the above three paragraphs. . Please contact and consult CUSTOMER’S DATE BY APPROVAL with a Sharp sales representative if there are any questions for any questions about this product. DATE PRESENTED BY T. Matsumura, Department General Manager Engineering Dept.,11 Opto-Electronic Devices Div. ELECOM Group SHARP CORPORATION of SHARP CORPORATION ED-94040E MODEL No. 1 March PC 123 5, 1998 1 PAGE I 1. Application This specification applies Model No. PC123. to the outline and characteristics of photocoupler 2. Outline Refer to the attached 3. Ratings drawing No. CY725 lKO2. and characteristics Refer to the attached sheet, page 4 to 6. sheet, page 7. sheet, page 8. 4. Reliability Refer to the attached 5. Incoming inspection Refer to the attached 6. Supplement 6.1 Isolation voltage shaIl be measured in the following (1 I Short between anode to cathode on the primary to emitter on the secondary side. (2) The dielectric withstand tester with zero-cross method. side and between 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 6.2 Collector current (Ic) Delivery rank table (” 0” mark indicates business dealing name of ordered Rank at delivery Business dealing name Rank at delivery * Business dealing name PC123 PC123Y PC123A PC123Yl collector in insulation oil.1 product) Rank mark Ic (mAI A, B, S or no mark 2.5 to 20 Test conditions 1,=5mA A 2.5 to 7.5 B 5.0 to 12.5 vc,=5v PC123B PC 123Y2 . Ta=25”C * Applied PC123C PC123Y5 PC123S PC 123YS to products as an option (Attach no mark S sheet 2-l to 2-4) 10.0 to 20.0 5.0 to 10.0 l/8 SHARP CORPORATION ED-94040E MODEL 1 March No. 5, 1998 PAGE PC 123 2/8 6.3 This Model is approved by UL. Approved Model No. : PC123 UL tile No. : E64380 6.4 This Model is approved by CSA. Approved Model No. : PC123 CSA file No. : CA95323 C CSA approved mark ” sp: shall be indicated on minimame unit package. 6.5 This product is approved by BSI. (BS415, BS7002) Approved Model No. : PC123 Certificate No. : 7087/7409 6.6 This product is approved by SEMKO, DEMKO, NEMKO and EI. 6.7 This product is not designed against irradiation. This product is assembled with electrical input and output. This product incorporates non-coherent light emitting diode. 6.8 ODS materials This product shall not contain the following materials. Also, the following materials shall not be used in the production process for this product. Materials for ODS : CFC,, Halon, Carbon tetrachloride, 1.1.1 -Trichloroethane (Methylchloroform) 6.9 Brominated flame retardants Specific brominated flame retardants in this device at all. 7. Notes Refer to the attached sheet- 1- 1, 2. such as the PBBO, and PBB, are not used SHARP CORPORflTI ON ED-94040E MODEL 1March 5, 1998 No. 1 PAGE PC 123 I 3/B 2. Outline Rank mark mark l2 1: Anode 3: Emitter 2: Cathode 4: Collector Pin Nos. and internal connection diagram 4. 58 ‘0.3 7.62’0-3 Product ‘mass : Approx. *l) a-digit number sha.lI be marked according to DIN standard. UNIT:l/lmm *2) Factory *3) Marking identification mark shall be or shall not be marked. is laser marking q 0. 18g SHARP CORPORflTION PC 123 3. Ratings and characteristics 3.1 Absolute maximum ratings Ta=25”C *2 Peak forward *l current The derating factors of absolute are shown in Fig. 1 to 4. *2 Pulse widths100 *3 AC for 1 min. *4 For 10s maximum pus, Duty ratio : 0.001 40 to 6O%RH ratings due to ambient (Refer to Fig. 5) temperature SHARP CORPORATION ED-94040E MODEL 1 March 5, 1998 No. PAGE PC 123 3.2 Electra-optical 5/B characteristics Ta=25”C Parameter Input Forward voltage Reverse current Terminal Dark output VF *R capacitance current E EO BvCEO Emitter-collector breakdown voltage BvECO current Isolation resistance Floating capacitance Cut-off MAX. Unit 1.2 1.4 v 10 /AA 30 250 pF - - 100 IlA 1mA 70 - - V I,=10 PA, IF=0 6 - - V 2.5 - 20 mA 0.1 0.2 v 10” - Q 0.6 1.0 pF frequency 80 - kHz 4 18 ps 3 18 PS Condition 1,=2omA va=4v v=o, f=lkHz v,,=5ov, Ic=O. IF==0 V CEkW ’ Rtso 1,=5x& V,,=5V 1,=2omA Ic=lmA DC=500V 40 to 6O%RH cf v=o, f=lMHz fc v,,=5v, Ic=2mA R,=lOO Q, -3dB Response time (Rise) ll- v,,=2v . Ic=2mA Response time tf R,=lOO (Fall) MIN. I*=0 IC Collector-emitter saturation voltage Transfer charac teristics Ct Collector-emitter breakdown voltage Collector TYF’. SpbOl R 5XlO’O - SHARP CORPORATION (Fig. 1) Forward ambient (Fig. 2) Diode power dissipation vs. ambient temperature current vs. temperature g 2 3 80 70 60 4 35 40 & $ 5 -30 0 25 Ambient 55 75 temperature 100 125 2o 0 -30 Ta ( “C ) 0 Ambient (Fig. 3) Collector power dissipation vs. ambient temperature 25 55 75 temperature (Fig. 4) Total power vs. ambient 100 125 Ta ( “C 1 dissipation temperature 200 150 100 50 0 -30 0 25 Ambient 3 50 75 temperature 100 125 r -30 Ta (‘C ) 0 Ambient (Fig. 5) Peak forward curren vs. duty ratio Pulse widths100 Ta=25”C 2000 1000 500 200 100 50 5 lo-‘2 5 lo.‘2 Duty ratio 5 lo-‘2 5 10” pus 25 50 temperature 75 100 Ta (“C 1 125 SHARP CORPORATION ED-94040E MODEL 1 March 5, 1998 No. PAG E PC 123 718 4. Reliability The reliability of products shall satisfy items listed below. Contidence level : 90% LTPD: 10%/20% Test Items Test Conditions *1 Solderability ‘2 Failure Judgement Criteria Samples (nl Defective(C) 23O”C, 5s n=ll, GO Soldering heat 26O”C, 10s n=ll, C=O Terminal strength (Tension) Weight : 5N 5 s/each terminal n=ll, C=O Terminal strength (Bending) *3 Weight : 2.5N 2 times/each terminal n=ll, C=O Mechanical shock 15000m/s2, 0.5ms 3 times/ +X, tY, +Z direction n=ll, C=O n=ll, C=O Variable frequency vibration 100 to 2000 to 1ooHz/4min 200m/s2 4 time’s/ X, Y, Z direction Temperature cycling 1 cycle -55 “C to + 125°C (30min) (30min) 20 cycles test High temp. and high humidity storage +6O”C, 9O%RH, lOOOh High temp. storage +125C, lOOOh Low temp. storage -55-C) 1OOOh Operation life Ir=5OmA, Ptot=200mW Ta=25’C, 1OOOh *l v,>ux 1.2 Ia>UXZ EEO >UX2 Ic <LXO.7 VCE(S~~)'~~~'~ n=22,C=O U : Upper specification limit L : Lower specification limit Test method, conforms to JIS C 702 1. *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 n=22,C=O SHARP CORPORATION 5. Incoming inspection 5.1 Inspection (1) Electrical items characteristics (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 item AQL (%) Major defect Electrical characteristics Unreadable marking 0.1 Minor defect Appearake defect except the above mentioned. 0.4 SHARP CORPORflTION ED-94040E MODEL 1 March 5, 1998 No. PC 123 1 For cleaning (11 Solvent cleaning : Solvent temperature 45°C or less Immersion for 3 min or less (21 Ultrasonic cleaning : The effect to device by ultrasonic cleaning differs by cleaning bath size, ultrasonic power output, cleaning time, PCB 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, Isopropyl alcohol In case when the other solvent is used, there are cases that the packaging resin is eroded. Please use the other solvent after thorough confirmation is performed in actual using condition. 2. 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 degradation of the light emission power of the LED. (50%/5yearsl PAGE Attach sheet- l- I SHARP CORPORATION ED-94040E MODEL 1 March 5, 1998 No. PAGE PC 123 3. Precautions for Soldering Attach sheet- Photocouplers ( 11 In case of soldering to lead 260 “C 10 s or less 180 160 140 120 - An example vs. soldering of device temperature time *.--..._.a* /.*.--*a-*.-e ,..- Solder ‘0 I I 2 4 I 6 I I I I I 8 10 12 14 16 18 20 Soldering (2) If solder reflow time (sl : It is recommended thatonly one soldering be done at the temperature and the time within the temperature profile as shown in the figure below. 230°C 25C (3) Other 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. 1-2 SHARP CORPORHTION ED-94040E MODEL 1 March No. PC 123Y (Option) 1. This specification shall be applied to photocoupler, Model No. PC 123 as an option. 2. Applicable Models (Business dealing name) PC123Y, PC123Y1, PC123Y2, PC123Y5, PC123YS 3. The relevant models are the models Approved by VDE according to DIN VDE0884/08.87. Approved Model No. : PC 123 VDE approved No. : 83601 (According to the specification DIN VDE0884/08.87) l Operating isolation voltage l Transient overvoltage l Pollution U, U,,,, : 71 OV (Peak) : 6000V (Peak) : 2 (According to VDEO 110 / 0 1.89) l Clearances distance (Between input and output) : 6.4mm (MIN.) l Creepage distance (Between input and output) : 6.4rnm (MIN.) 9 Isolation thickness between input and output : 0.4mm (MIN.) l l Tracking-proof : CT1 175 (Material group IIIa : VDEOl 10/O 1.89) Safety limit values Current (Isi) : 12OmA (Diode side) Power (Psi) : 300mW (Phototransistor side) Temperature (Tsi) : 150°C In order to keep safety electric isolation of photocoupler, please set the protective circuit to keep within safety limit values when the actual application equipment troubled. l 4. Indication of VDE approval prints “&0884” Outline Refer to the attached drawing No. CY7252K02. on sleeve package. 5, 1998 PAGE Attach sheets-z- 1 SHARP CORPORATION ED-94040E MODEL 1 March No. PC 123Y (Option) 5. Isolation specification PAG E Attach sheets-Z-2 according to VDE 0884 Parameter SpbQl Conditions Rating unit - Class of environmental test DIN IEC68 30/ 100/21 Pollution DINVDEOllO 2 Maximum operating isolation voltage UIORM 710 Remark VPEAK Partial discharge test voltage (Between input and output) Refer to the Diagram 1,2 Diagram 1 W .------.____________.----. tp=60 s, qc<SpC 852 VPE.AK ___________._.__________________________------------ Diagram 2 Maximum 5, 1998 over-voltage tp=l s, qc<spC 1136 VPEAK UN,, tm=1os 6000 VPEAK ’ Tsi &=O, Pc=O 150 % Pc=O 120 mL4 300 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) 6. Precautions in performing Ta=Tsi R Iso MIN. 10’ Ta=Topr (MAX.) MIN. 10” Ta=25”C MIN. 10” isolation test 6.1 Partial discharge test methods shall be the ones according to the specifications of VDE 0884/08.87 6.2 Please don’t carry out isolation test (Visa) over U,,. product deteriorates isolation characteristics by partial due to applying high voltage (ex. U,,). And there is that this product occurs partial discharge in operating voltage. NJ,,,, 1. This discharge possibility isolation 0 Refer to the Fig. 6, 7 1 March ED-94040E SHARP CORPORATION MODEL 5, 1998 1 PAGE No. PC123Y (Option) Attach sheets-2-3 4. Outline Rankmark A 6 \ /I I \ v kL- ‘II I :.., 1: Anode i-.. PC1 2: Cathode .m Pin Nos. and 4: Collector 3: Emitter internal connection diagram I VDE0884 7.62’0.3 identification mark 1 Product mass : Approx. 0.18g *l) 2-digit number shall be marked according to DIN standard. UNIT: *2) Factory identtication *3) Marking L mark shall be or shall not be marked. is laser marking Name Drawing No. l/l mm PC123 Outline Dimensions (Business dealing name: PC123Y1 CY7252K02 SHARP CORPORATION MODEL No. PAG E PC123Y (Option) Method of Diagram 1 : Breakdown V U,,, Attach sheets-2-4 test (Apply to type test and sampling test) WV) 6. f =l to 10s =l s t2 ~‘&rtial discharge measuring time) tb GNl =60 s =62 s =lOs U, (852VJ -----..-....-- U II-----.--.--- _._____..-_.-..-.--._--I---------.-.-..-.-- Method of Diagram 2 : Non breakdown (71OVl test (Apply to all device test) Unr(1136V) 5. U low (71Ov) discharge measuring __ ___._._.-_....._.-_.--------..-..-.-----.------.-. =O.l s =l s t4 I$ (Partial time) =1.2 s tb >t & _ _ t4 _ 5 tb It * Fig. 6 Safety maximum power dissipation vs. ambient temperature (When failed) 0 25 50 75 100 Ambient temperature 125 Ta ( % 1 150 Fig. 7 Safety maximum forward current vs. ambient temperature (When failed) 0 25 50 75 100 Ambient temperature 125 Ta (“CI 150