PC925LENSZ0F

PC925LE*SZ0F 1. These specification sheets include materials protected under copyright of Sharp Corporation ("Sharp"). Please handle with great cares and do not reproduce or cause anyone to reproduce them without Sharp's consent. 2. When using this Sharp product, please observe the absolute maximum ratings, other conditions and instructions for use described in the specification sheets, as well as the precautions mentioned below. Sharp assumes no responsibility for any damages resulting from use of the product which does not comply with absolute maximum ratings, other conditions and instructions for use included in the specification sheets, and the precautions mentioned below. (Precautions) (1) In making catalogue or instruction manual based on the specification sheets, please verify the validity of the catalogue or instruction manuals after assembling Sharp products in customer's products at the responsibility of customer. (2) This Sharp product is designed for use in the following application areas ; • Computers • OA equipment • Telecommunication equipment (Terminal) • Measuring equipment • Tooling machines ・Audio visual equipment • Home appliances If the use of the Sharp product in the above application areas is for equipment listed in paragraphs (3) or (4), please be sure to observe the precautions given in those respective paragraphs. (3) 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 Sharp product is used for equipment in responsibility of customer which demands high reliability and safety in function and precision, such as ; • Transportation control and safety equipment (aircraft, train, automobile etc.) • Traffic signals • Gas leakage sensor breakers • Rescue and security equipment • Other safety equipment (4)Sharp product is designed for consumer goods and controlled as consumer goods in production and quality. 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 (5) Please contact and consult with a Sharp sales representative if there are any question regarding interpretation of the above four paragraphs. 3. Disclaimer The warranty period for Sharp product is one (1) year after shipment. During the period, if there are any products problem, Sharp will repair (if applicable), replace or refund. Except the above, both parties will discuss to cope with the problems. The failed Sharp product after the above one (1) year period will be coped with by Sharp, provided that both parties shall discuss and determine on sharing responsibility based on the analysis results thereof subject to the above scope of warranty. The warranty described herein is only for Sharp product itself which are purchased by or delivered to customer. Damages arising from Sharp product malfunction or failure shall be excepted. Sharp will not be responsible for the Sharp product due to the malfunction or failures thereof which are caused by: (1) storage keep trouble during the inventory in the marketing channel. (2) intentional act, negligence or wrong/poor handling. (3) equipment which Sharp products are connected to or mounted in. (4) disassembling, reforming or changing Sharp products. (5) installation problem. (6) act of God or other disaster (natural disaster, fire, flood, etc.) (7) external factors (abnormal voltage, abnormal electromagnetic wave, fire, etc.) (8) special environment (factory, coastal areas, hotspring area, etc.) (9) phenomenon which cannot be foreseen based on the practical technologies at the time of shipment. (10) the factors not included in the product specification sheet. 4. Please contact and consult with a Sharp sales representative for any questions about Sharp product. 1/12 PC925LE*SZ0F 1. Application This specification applies to the outline and characteristics for OPIC type photocoupler PC925L for IGBT or MOS-FET Gate Drive. 2. Outline Refer to page 4. 3. Ratings and characteristics Refer to page 5 to 8. 4. Reliability Refer to page 9. 5. Outgoing inspection Refer to page 10. 6. Supplement 6.1 Isolation voltage shall be measured in the following method. (1) Short between pins 1 and 4 on the primary side and between pins 5 and 8 on the secondary side. (2) The dielectric withstanding tester with zero-cross circuit shall be used. (3) The wave form of applied voltage shall be a sine wave. 6.2 Business dealing name ("○" mark indicates business dealing name of ordered product) Orderd product Business dealing name Remark PC925LENSZ0F PC925LEYSZ0F Applied to product as an option (Attachment-2-1 to 2-3.) 6.3 The block diagram, Truth table Anode 2 Amp. Cathode 3 6.4 Package specification Interface 8 Vcc Tr.1 7 VO Tr.2 6 VO Input ON OFF VO Output High level Low level 5 GND Refer to page 11 and 12. 6.5 This Model is approved by UL. (Under preparation) Approved Model No. : PC925L UL file No. : E64380 6.6 About radiation resistant design (1) This product is not designed against irradiation. (2) This product is assembled with electrical input and output. (3) This product incorporates non-coherent light emitting diode. 6.7 ODS materials (1) This product shall not contain the following materials. (2) Also, the following materials shall not be used in the production process for this product. Materials for ODS : CFCS, Halon, Carbon tetrachloride,1.1.1-Trichloroethane (Methyl chloroform) 6.8 Specified brominated flame retardants Specified brominated flame retardants (PBB and PBDE) are not used in this device at all. 2/12 Tr.1 ON OFF Tr.2 OFF ON PC925LE*SZ0F 6.9 Compliance with each regulation (1) This product complies with EU RoHS Directive (2011/65/EU) and Commission Delegated Directive (EU)2015/863 (2) Content of six substances specified in Management Methods for Control of Pollution Caused by Electronic Information Products Regulation (Chinese : 电子信息产品污染控制管理办法). Category Photocoupler Marking Styles for the Names and Contents of the Hazardous Substances Hazardous Substances Hexavalent Polybrominated Lead Mercury Cadmium chromium biphenyls (Pb) (Hg) (Cd) 6+ (Cr ) (PBB) ○ ○ ○ ○ ○ Polybrominated diphenyl ethers (PBDE) ○ This table is prepared in accordance with the provisions of SJ/T 11364. ○：Indicates that said hazardous substance contained in all of the homogeneous materials for this part is below the limit requirement of GB/T 26572. 7. Notes Precautions for photocouplers ： Attachment-1. (Notice) The contents described herein are subject to change without notice for improvement since this product is under development. 3/12 PC925LE*SZ0F 2. Outline 1.2±0.3 ⑦ ⑥ ⑤ VCC ⑧ 6.5 ±0.3 PC925L S E ① ② ③ 9.66±0.30 (Except for burr) ⑧ Pin-Number and internal connection diagram 0.6 ±0.2 VO ⑥ VO ⑦ GND ⑤ Interface Amp. ① N.C. ④ ② Anode ④ ③ Cathode N.C. Date code *1 Factory identification mark *2 Primary side mark Rank mark *3 0.5TYP. Epoxy resin 2.9 ±0.5 3.25 ±0.50 3.5±0.5 7.62 ±0.30 0.26 ±0.10 θ 0.5±0.1 θ: 5 °TYP. θ 2.54 ±0.25 *1 Date code : 3 digit indication according to production year, month and day *2 Factory identification mark is as follows. H : YONGYAO ENSEI ELECTRONICS (SHANGQIU) CO., LTD. (CHINA products) *3 Rank mark is “E”. Pin material: Copper Alloy Pin finish : Palladium (Au flash plating) Mark : Laser marking Product mass: Approx. 0.55g UNIT : 1/1 mm Name 4/12 PC925L Outline Dimensions (Business dealing name : PC925LENSZ0F) PC925LE*SZ0F 3. Ratings and characteristics 3.1 Absolute maximum ratings Parameter Rating Unit IF 25 mA Reverse voltage VR 5 V *4 Peak forward current IFM 1 A Supply voltage Vcc 35 V Io(PEAK) 2.5 A VO VCC V *2 Power dissipation *3 Total power dissipation Po Ptot 250 295 mW mW *6 Isolation voltage Operating temperature Viso(rms) Topr 5.0 -40 to +100 kV Storage temperature Tstg -55 to +125 ℃ Soldering temperature Tsol 270 (For 10s) ℃ *1 Forward current Input Output Ta=25℃ *5 Peak output current Output voltage Symbol ℃ *1 When ambient temperature goes above 70℃, the power dissipation goes down at the rate of 0.3mA/℃. (Fig. 10) *2 When ambient temperature goes above 70℃, the power dissipation goes down at the rate of 4.6mW/℃. (Fig. 11) *3 When ambient temperature goes above 70℃, the power dissipation goes down at the rate of 5.4mW/℃. (Fig. 12) The maximum LED junction temperature should not exceed 125℃ *4 Pulse width≦1μs, 300pps *5 Pulse width≦10μs, Duty ratio : 0.002 *6 AC for 1 min, 40 to 60%RH, Ta=25℃ 5/12 PC925LE*SZ0F 3.2 Electro-optical characteristics *7 *13 (Unspecified : Ta= -40 to +100℃, IF(ON)=7 to16mA, VCC=15 to 30V, VF(OFF)= -3 to 0.8V) Test Parameter Symbol MIN. TYP. MAX. Unit Conditions circuit Forward voltage VF 1.2 1.8 V Ta=25℃, IF=10mA Input Reverse current IR 10 VR=5V μA Terminal capacitance Ct 60 150 pF Ta=25℃, V=0, f=1MHz 0.5 1.5 A VO=(VCC-4V), IF(ON) High level output current IOH (1) 2.0 A VO=(VCC-15V) , IF(ON) 0.5 2.0 A VO=2.5V, VF(OFF) Low level output current IOL (2) 2.0 A VO=15V, VF(OFF) High level output voltage VOH VCC-0.3 VCC-0.1 V (3) IO= -0.1A, IF(ON) Output Low level output voltage VOL 0.1 0.5 V (4) IO=0.1A, VF(OFF) High level supply current *10 ICCH 3.0 mA IF(ON) (5) Low level supply current *10 ICCL 3.0 mA VF(OFF) VUVLO+ 11.0 12.7 13.5 V VUVLO- 9.5 11.2 12.0 V UVLOHYS － 1.5 － V IFLH - - 5.0 RISO 5×1010 1011 - "L→ H" propagation delay time tPLH 0.05 0.2 0.5 "H→ L" propagation delay time tPHL 0.05 0.2 0.5 Distortion of pulse width *12 ΔtW － － 0.3 Propagation delay skew tPSK -0.35 － 0.35 Rise time Fall time tr tf - 0.1 0.1 - Instantaneous common mode rejection voltage (High level output) |CMH| 15 - - Instantaneous common mode rejection voltage (Low level output) |CML| UVLO Threshold UVLO Hysteresis Transfer charact -eristics Response time "L→ H" threshold input current *11 Isolation resistance (6) VO>5V, IF=10mA mA (7) VO>5V, IO=0 Ω - μs kV/μs 15 - - (8) (9) *8 *9 *8 *9 Ta=25℃, DC=500V, 40 to 60%RH RG=10Ω, CG=10nF f=10kHz,Duty ratio 50% Ta=25℃, VCM=1.5kV(p-p) IF=10 to 16mA, VCC=30V VOH>15V Ta=25℃, VCM=1.5kV(p-p) VF=0, VCC=30V VOL5V 3 5 (Fg.8) 8 2 8 2 PC925L Variable IO 8 5 IF V VOL 2 3 (Fg.7) VCC 6 7 10kHz VCC 6 3 5 PC925L VINs Duty ratio 50% 7 RG 6 VOUT 3 V VCC CG 5 (Fg.9) 8 SW A PC925L B tPLH 7 5 + 90% 50% V VO VOUT wave form - VCM VCM(Peak) VCM wave form CMH,VO wave form When SW is A, IＦ=10～16mA CML,VO wave form When SW is B, IＦ=0 tPHL VCC 6 3 50% VIN wave form 2 GND VOH VOL GND 7/12 10% tr tf PC925LE*SZ0F (Fig.11) Output power dissipation vs. ambient temperature Output power dissipation Po (mW) Forward current IF (mA) (Fig.10) Forward current vs. ambient temperature 25 20 15 10 5 0 -50 -40 -25 0 25 50 70 75 100 125 Total power dissipation Ptot (mW) (Fig. 12) Total power dissipation vs. ambient temperature 300 295 250 200 150 100 50 0 25 50 70 75 200 150 100 50 0 -40 -25 -50 0 25 50 70 75 Ambient temperature Ta (℃) Ambient temperature Ta (℃) 0 -40 -50 -25 250 100 125 Ambient temperature Ta (℃) 8/12 100 125 PC925LE*SZ0F 4. Reliability The reliability of products shall satisfy items listed below. Test Items Solderability Confidence level : 90% LTPD : 10 or 20 Samples (n) Failure Judgment Criteria Defective (C) *2 n=11, C=0 Test Conditions *1 245±3℃, 5 s (Flow soldering) 270℃, 10 s n=11, C=0 (Soldering by hand) 400℃, 3 s n=11, C=0 Terminal strength (Tension) Weight: 5N, 5 s/each terminal n=11, C=0 Terminal strength (Bending) *3 Weight: 2.5N, 2 times/each terminal n=11, C=0 Mechanical shock 15km/s2, 0.5ms 3 times/±X, ±Y, ±Z direction Variable frequency vibration 100 to 2000 to 100Hz/4 min 200m/s2 4 times/X, Y, Z direction Temperature cycling 1 cycle –55℃ to +125℃ (30 min) (30 min) 20 cycles test Soldering heat VF IR VOL VOH ICCH ICCL IFLH ＞ U×1.2 ＞ U×2 ＞ U×1.2 ＜ L×0.8 ＞ U×1.2 ＞ U×1.2 ＞ U×1.3 U: Upper specification limit L: Lower specification limit n=11, C=0 n=11, C=0 n=22, C=0 High temp. and high humidity storage +85℃, 85%RH, 1000h High temp. storage +125℃, 1000h n=22, C=0 Low temp. storage - 55℃, 1000h n=22, C=0 Operation life IF=25mA, Vcc=30V Ta=25℃, 1000h n=22, C=0 *1 Test method, conforms to EIAJ ED 4701. *2 The product whose not-soldered area is more than 5% for all of the dipped area and/or whose pinholes or voids are concentrated on one place shall be judged defect. *3 Terminal bending direction is shown below. θ θ ※ These test results are sampling examples from a specific lot for reference purpose only, and do not constitute any warranty or assurance in connection with the products. 9/12 n=22, C=0 PC925LE*SZ0F 5. Outgoing inspection 5.1 Inspection items (1) Electrical characteristics VF, IR, VOH, VOL, ICCH, ICCL, IFLH, RISO, Viso (2) Appearance 5.2 Sampling method and Inspection level A single sampling plan, normal inspection level II based on ISO 2859 is applied. The AQL according to the inspection items are shown below. Defect Inspection item AQL (%) Major defect Electrical characteristics Unreadable marking 0.065 Minor defect Appearance defect except the above mentioned. 0.25 10/12 PC925LE*SZ0F 6.4 Package specification 6.4.1 Package materials No. 6.4.2 (1) (2) (3) (4) Name ① Sleeve ② Stopper Materials HIPS or ABS with preventing static electricity Styrene-Erastomer Purposes ③ Packing case Corrugated cardboard Sleeve packaged ④ Kraft tape Paper Lid of packing case fixed ⑤ Label Paper Model No., (Business dealing name), Lot No., Quantity, Country of origin , Company name and Inspection date specified Products packaged Products fixed Package method MAX. 50 pcs. of products shall be packaged in a sleeve and both of sleeve ① edges shall be fixed by stoppers ②. MAX. 20 sleeves (product ; 1,000pcs.) above shall be packaged in a packing case ③. The label ⑤ shall be put on the side of the packing case. Outer case shall be closed with the lid and enclosed with kraft tape ④. 6.4.3 Sleeve package outline dimensions 5.8 10.8 12 8-R0.5 6.7 520±2 (Unit :mm) Note 1) Thickness : 0.5±0.2mm 2) Process with applying antistatic treatment. 3) Unless otherwise specified tolerances shall be ±0.5mm. (However except for deformation due to the rubber stopper in sleeve.) 11/12 PC925LE*SZ0F 6.4.4 Packaging outer case outline dimensions Sleeve ① Product Primary side mark or stepping side Stopper ② Anode mark shall be arranged at stopper side without pulled portion. (Without pulled portion) Stopper ② (With pulled portion) 20 sleeves *Maximum (5 lines×4 stairs) It is disapproved to mix different model or different rank model in one case. Packing case ③ Kraft tape ④ Label ⑤ (56mm) (70mm) (544mm) Regular packing mass : Approx. 900g ( ) : Reference dimensions 12/12 PC925LE*SZ0F Precautions for Photocouplers 1. Recommended operating conditions Parameter Forward current (ON) Forward voltage (OFF) Supply voltage Operating temperature Symbol IF(ON) VF(OFF) VCC Topr MIN. 7 -3.0 15 -40 TYP. - MAX. 16 0.8 30 100 Unit mA V V ℃ To ensure the reliability sufficiently, please design the circuit with considering the decreases of the light emission power of the LED. 2. Cleaning (1) Solvent cleaning : Solvent temperature 45℃ or less, Immersion for 3 min or less (2) 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 any defect doesn't occur before starting the ultrasonic cleaning. (3) Applicable solvent : Ethyl alcohol, Methyl alcohol, Isopropyl alcohol 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. 3. Static electricity This product consist of bipolar and CMOS type device in output side and is susceptive to static electricity due to its minute design. When handling them, general countermeasure against static electricity should be taken to avoid breakdown of devices or degradation of characteristics. 4. Circuit design 4.1 In order to stabilize power supply line, please certainly connect a by-pass capacitor of 0.1μF or more between Vcc and GND near the device. 4.2 When steep voltage noise is applied between the primary side and the secondary side of the photocoupler, current flows or changes in the light emitting diode through a parasitic capacitance between the primary side and the secondary side of the photocoupler, then there is a case that miss operation occurs depending upon the applied noise level. We should certainly recommend to use a by-pass capacitor between both terminals of the light emitting diode when used in noisy environment. 4.3 The detector which is used in this device has parasitic diode between each pins and GND. There are cases that miss operation or destruction may be occurred if electric potential of any pin fall below GND level in an instant. Therefore it is recommended to design the circuit that electric potential of any pin does not become below GND level. 4.4 The LED used in the Photocoupler generally decreases the light emission power by operation. In case of long operation time, please design IF value so that IF is twice or more of the Maximum value of the "H→L" threshold input current at circuit design with considering the decreases of the light emission power of the LED. (50%/5years) Attachment 1-1 PC925LE*SZ0F 5. Precautions for Soldering (1) In the case of flow soldering (Whole dipping is possible) It is recommended that flow soldering should be at 270℃ or less for 10 s or less (Pre-heating : 100 to 150℃, 30 to 80s). (2 times or less) (2) In the case of hand soldering What is done on the following condition is recommended. ( 2 times or less) Soldering iron temperature : 400℃ or less Time : 3s or less (3) Other precautions Depending on equipment and soldering conditions (temperature, Using solder etc.), the effect to the device and the PCB is different. Please confirm that there is no problem on the actual use conditions in advance. Attachment 1-2 PC925LEYSZ0F 1. This specification shall be applied to photocoupler, Model No. PC925L as an option. 2. Applicable Models (Business dealing name) PC925LEYSZ0F 3. The relevant models are the models approved by VDE according to DIN EN 60747-5-5. (Under preparation) Approved Model No. : PC925L VDE approved No. : 40008898 (According to the specification DIN EN60747-5-5) ・Operating isolation voltage VIORM : 890V (Peak) ・Transient voltage : 7100V (Peak) ・Pollution : 2 ・Clearances distance (Between input and output) : 6.4mm (MIN.) ・Creepage distance (Between input and output) : 6.4mm (MIN.) ・Tracking-proof : CTI 175 ・Safety limit values Current (Isi) : 200mA (Diode side) Power (Psi) : 687mW (Photo IC 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 actualapplication equipment troubled. ・Indication of VDE approval " " is printed on minimum unit package. 4. Outline Refer to the attachment-2-2. 5. Isolation specification according to EN60747-5-5 Parameter Symbol Condition Rating Unit Class of environmental test - - 55/100/21 - Pollution - - 2 - VIORM (PEAK) - 890 V Vm (PEAK) tp=10s, qc