AQW210HLAZ

PhotoMOS GU 2 Form A Current Limiting Product Catalog 2022.6 PhotoMOS GU 2 Form A Current Limiting Two output type with current limiting and high insulation FEATURES 9.86 ● Current Limiting Function 9.86 6.4 6.4 3.2 ● Enhances the capability of surge resistance between output terminals 2.9 ● High I/O isolation voltage of 5,000 Vrms (Height includes standoff) 1 8 2 7 3 6 4 5 ● Applicable for 2 Form A use as well as two independent 1 Form A use TYPICAL APPLICATIONS ● Telephone equipment ● Modem (Unit: mm) Note ) Please contact our sales representative for automotive applications of PhotoMOS. TYPES Part No. Category AC/DC dual use I/O isolation voltage 5,000 Vrms ( High insulation ) Output rating*1 Through hole terminal Packing quantity Surface mount terminal Load voltage Load current Tube packing style Tube packing style Tape and reel packing style X*2 350 V 100 mA AQW210HL AQW210HLA AQW210HLAX Tube Tape and reel 1-tube: 50 pcs. Outer carton: 500 pcs. 1-reel: 1,000 pcs. Outer carton: 1,000 pcs. Note) The surface mount terminal shape indicator "A" and the packing style indicator "X" are not marked on the device. ( Ex. the label for product number AQW210HLAX is AQW210HL. ) *1: Indicate the peak AC and DC values. *2: Tape and reel packing style X: picked from the 1/2/3/4-pin side. For part numbers with picked from the 5/6/7/8-pin side, change the "X" at the end to "Z" when ordering. Panasonic Industry Co., Ltd. Electromechanical Control Business Division industrial.panasonic.com/ac/e/ ー1 ー Panasonic Industry Co., Ltd. 2022 ASCTB56E 202206 PhotoMOS GU 2 Form A Current Limiting RATING Output Input ■ Absolute maximum ratings ( Ambient temperature: 25℃ ) Item Symbol AQW210HL ( A ) LED forward current IF 50 mA LED reverse voltage VR 5V Peak forward current IFP 1A Power dissipation Pin 75 mW Load voltage ( peak AC ) VL 350 V Continuous load current IL 0.1 A ( 0.12 A ) Pout 800 mW Power dissipation Remarks f = 100 Hz, Duty factor = 0.1% Total power dissipation PT 850 mW I/O isolation voltage Viso 5,000 Vrms Ambient temperature ( Operating ) Topr −40 to ＋85℃ Ambient temperature ( Storage ) Tstg −40 to ＋100℃ Junction temperature Tj 125℃ Peak AC, DC ( ) : in case of using only 1 channel ( Avoid icing and condensation ) ■ Electrical characteristics ( Ambient temperature: 25℃ ) Item Symbol Typical Input LED operate current Maximum Minimum LED turn off current Typical Typical LED dropout voltage Maximum AQW210HL ( A ) IFon Output Maximum Off state leakage current Transfer characteristics Current limit 0.4 mA IFoff Turn on time* 1.25 ( 1.14 V at IF = 5 mA ) − Maximum Typical I/O capacitance Maximum Initial I/O isolation resistance 20 Ω Typical Typical Turn off time* Minimum IF = 50 mA 1.5 V Ron ILeak Maximum IL = Max. 1.1 mA VF Maximum Typical IL = Max. 3.0 mA Typical On resistance Condition 1.2 mA IF = 5 mA IL = Max. Within 1 s 25 Ω Ton 1 µA IF = 0 mA VL = Max. 0.18 A IF = 5 mA 0.5 ms IF = 5 mA IL = Max. 2.0 ms 0.08 ms Toff IF = 5 mA IL = Max. 1.0 ms 0.8 pF Ciso Riso 1.5 pF f = 1 MHz VB = 0 V 1,000 MΩ 500 V DC *Turn on/Turn off time Input 90% 10% Output Ton 7RŎ ■ Recommended operating conditions ( Ambient temperature: 25℃ ) Please use under recommended operating conditions to obtain expected characteristics. Item LED current Load voltage ( Peak AC ) AQW210HL ( A ) Continuous load current Symbol Number of used channels Min. Max. Unit IF ー 5 30 mA VL ー ー 280 V IL 1 ch 2 ch ー 0.12 0.1 A Panasonic Industry Co., Ltd. Electromechanical Control Business Division industrial.panasonic.com/ac/e/ ー2 ー Panasonic Industry Co., Ltd. 2022 ASCTB56E 202206 PhotoMOS GU 2 Form A Current Limiting REFERENCE DATA 1. Load current vs. ambient temperature 2. On resistance vs. ambient temperature 3. Turn on time vs. ambient temperature characteristics characteristics characteristics Allowable ambient temperature: –40° C to +85° C Measured portion: between terminals 5 and 6, 7 and 8; LED current: 5 mA; Load voltage: Max. (DC) Continuous load current: Max.(DC) 50 LED current: 5 mA; Load voltage: Max.(DC); Continuous load current: Max.(DC) Using 2 channels 100 50 Turn on time (ms) Using only 1 channel 30 20 -20 0 20 40 0 80 85 100 60 -40 0 -20 20 40 60 0.10 -20 0 20 40 60 80 85 Ambient temperature (°C) 7. LED dropout voltage vs. ambient temperature characteristics LED current: 5 to 50 mA 3 2 0 1.4 1.3 1.2 50ｍA 30ｍA 20ｍA 10ｍA 5ｍA 1.1 1.0 -40 -20 0 20 40 60 80 85 Ambient temperature (° C) 20 40 60 8085 4 3 2 1 -40 -20 0 0 20 40 60 80 85 Ambient temperature (° C) 8. Current vs. voltage characteristics of output at MOS portion Measured portion: between terminals 5 and 6, 7 and 8; Ambient temperature: 25° C 140 120 100 80 60 40 20 -5 -4 -3 -2 -1 1 2 3 4 5 -20 Voltage (V) -40 -60 -80 -100 -120 -140 Current (mA) LED dropout voltage (V) 1.5 0 4 -40 -20 0 20 40 60 80 85 Ambient temperature (° C) 9. Off state leakage current vs. load voltage characteristics Measured portion: between terminals 5 and 6, 7 and 8; C Ambient temperature: 25° Off state leakage current (A) -40 0 Load voltage: Max. (DC); Continuous load current: Max. (DC) 5 1 0.05 -20 Ambient temperature (°C) LED turn off current (mA) LED operate current (mA) Turn off time (ms) 0.15 -40 6. LED turn off current vs. ambient temperature characteristics Load voltage: Max. (DC); Continuous load current: Max. (DC) 5 0.20 0 8085 Ambient temperature (°C) 4. Turn off time vs. ambient temperature 5. LED operate current vs. ambient characteristics temperature characteristics 0.25 1.5 0.5 Ambient temperature (°C) LED current: 5 mA; Load voltage: Max.(DC); Continuous load current: Max.(DC) 0.30 2.0 1.0 10 0 -40 0 3.0 2.5 40 150 2QUHVLVWDQFHì Load current (mA) 200 10-3 10-6 10-9 10-12 0 20 40 60 80 Load voltage (V) 100 Panasonic Industry Co., Ltd. Electromechanical Control Business Division industrial.panasonic.com/ac/e/ ー3 ー Panasonic Industry Co., Ltd. 2022 ASCTB56E 202206 PhotoMOS GU 2 Form A Current Limiting 10. Turn on time vs. LED forward current 11. Turn off time vs. LED forward current 12. Output capacitance vs. applied characteristics characteristics voltage characteristics Measured portion: between terminals 5 and 6, 7 and 8; Load voltage: Max. (DC); Continuous load current: Max. (DC); Ambient temperature: 25° C 0.20 Measured portion: between terminals 5 and 6, 7 and 8; Load voltage: Max. (DC); Continuous load current: C Max. (DC); Ambient temperature: 25° 3.0 Measured portion: between terminals 5 and 6, 7 and 8; C Frequency: 1 MHz; Ambient temperature: 25° 50 2.0 1.5 Output capacitance (pF) Turn off time (ms) Turn on time (ms) 2.5 0.15 0.10 1.0 0.05 0 10 20 30 40 50 LED forward current (mA) 60 0 30 20 10 0.5 0 40 0 10 20 30 40 50 LED forward current (mA) 0 60 0 10 20 30 40 Applied voltage (V) 50 What is current limit ● Comparison of output voltage and output current characteristics V-I Characteristics Output current When a load current reaches the specified output control current, a current limit function works against the load current to keep the current a constant value. The current limit circuit built into the PhotoMOS thus controls the instantaneous load current to effectively ensure circuit safety. This safety feature protects circuits downstream of the PhotoMOS against over-current. But, if the current-limiting feature is used longer than the specified time, the PhotoMOS can be destroyed. Therefore, set the output loss to the max. rate or less. Output voltage DIMENSIONS ( Unit: mm ) CAD The CAD data of the products with a “CAD” mark can be downloaded from our Website. Max.10° 7.62 8-0.8 dia. 2.54 7.62±0.05 Max.10° 6.4±0.05 7.62 6.4±0.05 ±0.05 6.4 Max.10° PC board pattern ( BOTTOM VIEW ) 2.54 Surface mount terminal type External dimensions CAD 9.86 1 0.47 0.47 2.54 2.54 2.54 0.47 1 0.47 Terminal thickness: t = 0.2 General tolerance: ±0.1 1 2.7±0.05 1 Recommended mounting pad ( TOP VIEW ) 8.3 1.9 0.47 0.2 0.33 2.7±0.05 0.2+0.2 ｰ0 3 3.2 ±0.2 2.7±0.05 0.47 Tolerance: ±0.1 1 9.86 7.62 Through hole terminal type External dimensions CAD 0.47 1 0.47 1.5 2.54 2.54 2.54 Terminal thickness: t = 0.2 General tolerance: ±0.1 2.54 2.54 2.54 Tolerance: ±0.1 Panasonic Industry Co., Ltd. Electromechanical Control Business Division industrial.panasonic.com/ac/e/ ー4 ー Panasonic Industry Co., Ltd. 2022 ASCTB56E 202206 PhotoMOS GU 2 Form A Current Limiting SCHEMATIC AND WIRING DIAGRAMS Output configuration Schematic Load type Connection Wiring diagram (1) Two independent 1 Form A use 1 E1 1 8 2 7 3 6 4 5 E2 2 Form A AC/DC IF1 IF2 2 7 3 6 4 5 Load 8 8 IL1 VL1 (AC, DC) IL2 7 VL2 (AC, DC) 5 VL1 (AC, DC) IL1 Load 6 Load VL2 (AC, DC) IL2 Load − (2) 2 Form A use 1 E1 IF1 2 7 3 6 4 5 Load 8 8 IL1 VL1 (AC, DC) VL2 (AC, DC) 5 VL1 (AC, DC) Load 6 Load IL2 7 IL1 VL2 (AC, DC) IL2 Load SAFETY STANDARDS UL ( Recognized ) Part No. AC/DC dual use AQW210HL ( A ) File No. ( Standard No. ) E191218 ( UL1577 ) VDE ( Certified ) Remarks Contact rating File No. ( Standard No. ) Contact rating ( Reinforced insulation ) 1-pole 0.12 A 350 V AC ( peak ) 0.12 A 350 V DC 2-pole 0.1 A 350 V AC ( peak ) 0.1 A 350 V DC Nr.40051981 ( EN62368-1 ) 1-pole 0.12 A 350 V AC ( peak ) 0.12 A 350 V DC 2-pole 0.1 A 350 V AC ( peak ) 0.1 A 350 V DC Note) For the latest information on compliance with safety standards, please refer to our website. Please refer to "the latest product specifications" when designing your product. •Requests to customers: https://industrial.panasonic.com/ac/e/salespolicies/ Panasonic Industry Co., Ltd. Electromechanical Control Business Division industrial.panasonic.com/ac/e/ ー5 ー Panasonic Industry Co., Ltd. 2022 ASCTB56E 202206 PhotoMOS® Cautions for Use SAFETY WARNINGS Do not use the product under conditions that exceed the range RILWVVSHFL¿FDWLRQV,WPD\FDXVHRYHUKHDWLQJVPRNHRU¿UH 'RQRWWRXFKWKHUHFKDUJLQJXQLWZKLOHWKHSRZHULVRQ7KHUH LVDGDQJHURIHOHFWULFDOVKRFN%HVXUHWRWXUQRႇWKHSRZHU ZKHQSHUIRUPLQJPRXQWLQJPDLQWHQDQFHRUUHSDLURSHUDWLRQV RQWKHGHYLFHLQFOXGLQJFRQQHFWLQJSDUWVVXFKDVWKHWHUPLQDO ERDUGDQGVRFNHW  KHFNWKHZLULQJGLDJUDPVLQWKHFDWDORJDQGEHVXUHWR & FRQQHFWWKHWHUPLQDOVFRUUHFWO\,IWKHGHYLFHLVHQHUJL]HG ZLWKVKRUWFLUFXLWRUDQ\ZURQJFRQQHFWLRQLWPD\FDXVH XQH[SHFWHGPDOIXQFWLRQDEQRUPDOKHDWRU¿UH PhotoMOS® Cautions for Use Derating design 'HUDWLQJLVDVLJQL¿FDQWIDFWRUIRUUHOLDEOHGHVLJQDQGSURGXFWOLIH (YHQLIWKHFRQGLWLRQVRIXVHWHPSHUDWXUHFXUUHQWYROWDJHHWFRI WKHSURGXFWDUHZLWKLQWKHDEVROXWHPD[LPXPUDWLQJVUHOLDELOLW\PD\ EHORZHUHGUHPDUNDEO\ZKHQFRQWLQXRXVO\XVHGLQKLJKORDG FRQGLWLRQVKLJKWHPSHUDWXUHKLJKKXPLGLW\KLJKFXUUHQWKLJK YROWDJHHWF7KHUHIRUHSOHDVHGHUDWHVXႈFLHQWO\EHORZWKH DEVROXWHPD[LPXPUDWLQJVDQGHYDOXDWHWKHGHYLFHLQWKHDFWXDO FRQGLWLRQ 0RUHRYHUUHJDUGOHVVRIWKHDSSOLFDWLRQLIPDOIXQFWLRQLQJFDQEH H[SHFWHGWRSRVHKLJKULVNWRKXPDQOLIHRUWRSURSHUW\RULISURGXFWV DUHXVHGLQHTXLSPHQWRWKHUZLVHUHTXLULQJKLJKRSHUDWLRQDOVDIHW\LQ DGGLWLRQWRGHVLJQLQJGRXEOHFLUFXLWVWKDWLVLQFRUSRUDWLQJIHDWXUHV VXFKDVDSURWHFWLRQFLUFXLWRUDUHGXQGDQWFLUFXLWVDIHW\WHVWLQJ VKRXOGDOVREHFDUULHGRXW :KHQSDFNLQJSULQWHGFLUFXLWERDUGVDQGHTXLSPHQWDYRLGXVLQJ KLJKSRO\PHUPDWHULDOVVXFKDVIRDPVW\UHQHSODVWLFDQGRWKHU PDWHULDOVZKLFKFDUU\DQHOHFWURVWDWLFFKDUJH :KHQVWRULQJRUWUDQVSRUWLQJ3KRWR026®WKHHQYLURQPHQWVKRXOG QRWEHFRQGXFLYHWRJHQHUDWLQJVWDWLFHOHFWULFLW\IRULQVWDQFHWKH KXPLGLW\VKRXOGEHEHWZHHQDQGDQG3KRWR026® VKRXOGEHSURWHFWHGXVLQJFRQGXFWLYHSDFNLQJPDWHULDOV Unused terminals 7KH1RWHUPLQDOLVXVHGZLWKWKHFLUFXLWLQVLGHWKHGHYLFH 7KHUHIRUHGRQRWFRQQHFWLWWRWKHH[WHUQDOFLUFXLWU\ZLWKHLWKHU FRQQHFWLRQPHWKRG$%RU&)RUP$SLQW\SH Short across terminals 'RQRWVKRUWFLUFXLWEHWZHHQWHUPLQDOVZKHQGHYLFHLVHQHUJL]HG VLQFHWKHUHLVSRVVLELOLW\RIEUHDNLQJRIWKHLQWHUQDO,& Applying stress that exceeds the absolute maximum rating ,IWKHYROWDJHRUFXUUHQWYDOXHIRUDQ\RIWKHWHUPLQDOVH[FHHGVWKH DEVROXWHPD[LPXPUDWLQJLQWHUQDOHOHPHQWVZLOOGHWHULRUDWHEHFDXVH RIWKHRYHUYROWDJHRURYHUFXUUHQW,QH[WUHPHFDVHVZLULQJPD\ PHOWRUVLOLFRQ31MXQFWLRQVPD\EHGHVWUR\HG 7KHUHIRUHWKHFLUFXLWVKRXOGEHGHVLJQHGLQVXFKDZD\WKDWWKHORDG QHYHUH[FHHGWKHDEVROXWHPD[LPXPUDWLQJVHYHQPRPHQWDULO\ Surge voltages at the input ,IUHYHUVHVXUJHYROWDJHVDUHSUHVHQWDWWKHLQSXWWHUPLQDOVFRQQHFW DGLRGHLQUHYHUVHSDUDOOHODFURVVWKHLQSXWWHUPLQDOVDQGNHHSWKH UHYHUVHYROWDJHVEHORZWKHUHYHUVHEUHDNGRZQYROWDJH 7\SLFDOFLUFXLWVDUHEHORZVKRZQ SLQ Input voltage (for Voltage-sensitive type) )RUULVLQJDQGGURSSLQJUDWLRRILQSXWYROWDJHGYGWPDLQWDLQ0LQ P9PV Oscillation circuit and control circuit (for CC Type) 7KHRVFLOODWLRQFLUFXLWDQGFRQWUROFLUFXLWRISURGXFWPD\EHGHVWUR\HG E\H[WHUQDOQRLVHVXUJHVWDWLFHOHFWULFLW\DQGVRRQ )RUQRLVHHႇHFWWRSHULSKHUDOFLUFXLWVZKHQRVFLOODWLRQFLUFXLW RSHUDWHVSOHDVHLPSOHPHQWVDIHW\PHDVXUHVRQWKHV\VWHPEHIRUH XVHE\YHULI\LQJRSHUDWLRQXQGHUWKHDFWXDOGHVLJQ 1 6 2 5 3 4 3RZHUW\SH Deterioration and destruction caused by discharge of static electricity 7KLVSKHQRPHQRQLVJHQHUDOO\FDOOHGVWDWLFHOHFWULFLW\GHVWUXFWLRQ DQGRFFXUVZKHQVWDWLFHOHFWULFLW\JHQHUDWHGE\YDULRXVIDFWRUVLV GLVFKDUJHGZKLOHWKH3KRWR026®WHUPLQDOVDUHLQFRQWDFWSURGXFLQJ LQWHUQDOGHVWUXFWLRQRIWKHHOHPHQW 7RSUHYHQWSUREOHPVIURPVWDWLFHOHFWULFLW\WKHIROORZLQJSUHFDXWLRQV DQGPHDVXUHVVKRXOGEHWDNHQZKHQXVLQJ\RXUGHYLFH (PSOR\HHVKDQGOLQJ3KRWR026® should wear anti-static clothing DQGVKRXOGEHJURXQGHGWKURXJKSURWHFWLYHUHVLVWDQFHRINȍ WR0ȍ $FRQGXFWLYHPHWDOVKHHWVKRXOGEHSODFHGRYHUWKHZRUNWDEOH 0HDVXULQJLQVWUXPHQWVDQGMLJVVKRXOGEHJURXQGHG :KHQXVLQJVROGHULQJLURQVHLWKHUXVHLURQVZLWKORZOHDNDJH FXUUHQWRUJURXQGWKHWLSRIWKHVROGHULQJLURQ8VHRIORZYROWDJH VROGHULQJLURQVLVDOVRUHFRPPHQGHG 'HYLFHVDQGHTXLSPHQWXVHGLQDVVHPEO\VKRXOGDOVREH JURXQGHG 3 1 4 2 Reverse voltages at the input (for CC Type) ,IUHYHUVHYROWDJHVDUHSUHVHQWDWWKHLQSXWWHUPLQDOVIRUH[DPSOH FRQQHFWDVFKRWWN\EDUULHUGLRGHLQUHYHUVHSDUDOOHODFURVVWKHLQSXW WHUPLQDOVDQGNHHSWKHUHYHUVHYROWDJHVEHORZWKHUHYHUVH EUHDNGRZQYROWDJH7\SLFDOFLUFXLWLVVKRZQEHORZ 1 4 2 3 Panasonic Industry Co., Ltd. Electromechanical Control Business Division industrial.panasonic.com/ac/e/ ー6 ー Panasonic Industry Co., Ltd. 2022 ASCTB65E 202204 PhotoMOS® Cautions for Use 3OHDVHNHHSDPSOLWXGHYROWDJHRIULSSOHZLWKLQ“9 IRU&&7\SH Recommended LED forward current or recommended input voltage 'HVLJQLQDFFRUGDQFHZLWKWKHUHFRPPHQGHGRSHUDWLQJFRQGLWLRQV IRUHDFKSURGXFW 6LQFHWKHVHFRQGLWLRQVDUHDႇHFWHGE\WKHRSHUDWLQJHQYLURQPHQW HQVXUHFRQIRUPDQFHZLWKDOOUHOHYDQWVSHFL¿FDWLRQV within ±0.5 V Set voltage within ±0.5 V LED forward current vs. Ambient temperature characteristics Output spike voltages ,IDQLQGXFWLYHORDGJHQHUDWHVVSLNHYROWDJHVZKLFKH[FHHGWKH DEVROXWHPD[LPXPUDWLQJWKHVSLNHYROWDJHVKDOOEHOLPLWHG 5HSUHVHQWDWLYHFLUFXLWH[DPSOHVRI$&'&GXDOXVHW\SHDUH VKRZQEHORZ7KHUHDUHWKHVDPHZLWK'&RQO\W\SH SLQ 3OHDVHNHHSWKH/('IRUZDUGFXUUHQWWRZLWKLQWKHUDQJHJLYHQ EHORZ LED forward current (mA) 100 80 60 1 6 2 5 3 4 Clamp diode is connected in parallel with the load. 40 20 0 -40 Load -20 0 20 40 60 8085 100 Ambient temperature (°C) 1 6 2 5 3 4 Load )RU$49*$39*9$39*9 CR snubber is connected in parallel with the load. LED forward current (mA) 50 40 3RZHUW\SH 30 20 1 2 3 4 Load 10 0 -40 -20 0 20 40 60 Clamp diode is connected in parallel with the load. 80 85 100 Ambient temperature (°C) 1 2 3 4 Load Ripple in the input power supply ,IULSSOHLVSUHVHQWLQWKHLQSXWSRZHUVXSSO\REVHUYHWKHIROORZLQJ )RU/('IRUZDUGFXUUHQWDW(PLQSOHDVHPDLQWDLQWKHYDOXH PHQWLRQHGDW³■5HFRPPHQGHG/('IRUZDUGFXUUHQW´ 1 3OHDVHPDNHVXUHWKH/('IRUZDUGFXUUHQWIRU(PD[LVQRKLJKHU WKDQP$ 3 4 Load 3OHDVHPDLQWDLQWKHLQSXWYROWDJHDWOHDVW9IRU(PLQ*85) DQG3RZHUYROWDJHVHQVLWLYHW\SH A varistor is connected in parallel with PhotoMOS® &&7\SH 3OHDVHPDNHVXUHWKHLQSXWYROWDJHIRU(PD[LVQRKLJKHUWKDQ9 *8DQG5)YROWDJHVHQVLWLYHW\SH 3OHDVHPDNHVXUHWKHLQSXWYROWDJHIRU(PD[LVQRKLJKHUWKDQ9 3RZHUYROWDJHVHQVLWLYHW\SH Emin. 2 CR snubber is connected in parallel with the load. 1 4 2 3 Load Clamp diode is connected in parallel with the load. 1 4 2 3 Load CR snubber is connected in parallel with the load. 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Electromechanical Control Business Division industrial.panasonic.com/ac/e/ ー7 ー Panasonic Industry Co., Ltd. 2022 ASCTB65E 202204 PhotoMOS® Cautions for Use Output Waveform (CC Type) Input wiring pattern 7KLVSURGXFWKDVWKHFDSDFLWRUFRXSOHGLVRODWLRQ7KHUHIRUHLIRXWSXW ZDYHIRUPÀXFWXDWHVDORQJWKHWLPHD[LVHJ$&ZDYHIRUPRU SXOVDWLQJZDYHIRUPLWPD\DႇHFWWKHRSHUDWLRQRIWKLVSURGXFWDQG SHULSKHUDOFLUFXLW3OHDVHHYDOXDWHWKHGHYLFHLQWKHDFWXDOFRQGLWLRQ :LWK$4< RU$4: VHULHVDYRLGLQVWDOOLQJWKHLQSXW/('VLGH ZLULQJSDWWHUQWRWKHERWWRPVLGHRIWKHSDFNDJHLI\RXUHTXLUHWKH VSHFL¿HG,2LVRODWLRQYROWDJH9isoDIWHUPRXQWLQJWKH3&ERDUG 6LQFHSDUWRIWKHIUDPHRQWKHRXWSXWVLGHLVH[SRVHGLWPD\ FDXVHÀXFWXDWLRQVLQWKH,2LVRODWLRQYROWDJH Continual DC bias (AQV259 and AQV258) ,IDFRQWLQXDO'&ELDVZLOOEHDSSOLHGEHWZHHQWKHLQSXWDQGRXWSXW WKHEUHDNGRZQYROWDJHRIWKHVZLWFKLQJHOHPHQW026)(7RQWKH RXWSXWVLGHPD\GHJUDGH7KHUHIRUHEHVXUHWRWHVWWKHSURGXFW XQGHUDFWXDOFRQGLWLRQV([DPSOHRIFLUFXLWVWKDWZLOOFDXVH GHJUDGDWLRQRIEUHDNGRZQYROWDJHRI026)(7LVJLYHQEHORZ E IF 1 6 2 5 3 4 Load ([FOXGLQJKLJK,2LVRODWLRQYROWDJHSURGXFWVDQG6623621DQG7621 SDFNDJHV ([SRVHGWHUPLQDOVDUHHOHFWULFDOO\FRQQHFWHGWRLQWHUQDOHOHPHQWV %HDZDUHWKDWFRQWDFWZLWKH[WHUQDOFLUFXLWVPD\FDXVH GHWHULRUDWLRQRILQVXODWLRQEHWZHHQLQSXWDQGRXWSXWOHDGLQJWR GHVWUXFWLRQRILQWHUQDOHOHPHQWV ,ILQVWDOOHGLQSUR[LPLW\WRRWKHUGHYLFHWDNHFDUHWRDYRLGVKRUW FLUFXLWVEHWZHHQGHYLFHZKLFKPD\RFFXULIH[SRVHGIUDPHVRI DGMDFHQWGHYLFHFRPHWRRFORVH 4 IL IIN 2 Input wiring pattern (Input terminal side) May not allow the prescribed I/O withstand voltage (Viso) to be achieved ,I\RXZLVKWRXVHWKHSURGXFWZLWKDFRQQHFWLRQEHWZHHQLQSXWDQG RXWSXW\RXPD\QRWREWDLQH[SHFWHGSHUIRUPDQFH7KHUHIRUH SOHDVHEHVXUHWRHYDOXDWHWKHGHYLFHLQWKHDFWXDOXVDJH$FLUFXLW H[DPSOHLVVKRZQEHORZWKDWPD\QHJDWLYHO\DႇHFW3KRWR026 FKDUDFWHULVWLFV VIN (Output terminal side) IL Connections Between Input and Output (CC Type) 1 Portion of output side frame 3 VL(AC, DC) Load Cleaning solvents compatibility &OHDQLQJWKHVROGHUÀX[VKRXOGXVHWKHLPPHUVLRQZDVKLQJZLWKDQ RUJDQLFVROYHQW,I\RXKDYHWRXVHXOWUDVRQLFFOHDQLQJSOHDVHDGRSW WKHIROORZLQJFRQGLWLRQVDQGFKHFNWKDWWKHUHDUHQRSUREOHPVLQWKH DFWXDOXVDJH ‡)UHTXHQF\WRN+] ‡8OWUDVRQLFRXWSXW1RJUHDWHUWKDQ:FP2* ‡&OHDQLQJWLPHVRUOHVV ‡2WKHUV)ORDW3&%DQGWKHGHYLFHLQWKHFOHDQLQJVROYHQWWR SUHYHQWIURPFRQWDFWLQJWKHXOWUDVRQLFYLEUDWRU $SSOLHVWRXQLWDUHDXOWUDVRQLFRXWSXWIRUXOWUDVRQLFEDWKV Notes for mounting :KHQGLႇHUHQWNLQGVRISDFNDJHVDUHPRXQWHGRQ3&ERDG WHPSHUDWXUHULVHDWVROGHULQJOHDGLVKLJKO\GHSHQGHQWRQ SDFNDJHVL]H7KHUHIRUHSOHDVHVHWWKHORZHUWHPSHUDWXUH VROGHULQJFRQGLWLRQWKDQWKHFRQGLWLRQVRILWHP³■6ROGHULQJ´DQG FRQ¿UPWKHWHPSHUDWXUHFRQGLWLRQRIDFWXDOXVDJHEHIRUH VROGHULQJ :KHQVROGHULQJFRQGLWLRQH[FHHGVRXUUHFRPPHQGDWLRQWKH 3KRWR026®FKDUDFWHULVWLFVPD\EHDGYHUVHO\DႇHFWHG,WPD\ RFFXUSDFNDJHFUDFNRUERQGLQJZLUHEUHDNLQJEHFDXVHRI WKHUPDOH[SDQVLRQXQFRQIRUPLW\DQGUHVLQVWUHQJWKUHGXFWLRQ 3OHDVHFRQWDFWRXUVDOHVRႈFHDERXWWKHSURSULHW\RIWKH FRQGLWLRQ 3OHDVHFRQ¿UPWKHKHDWVWUHVVE\XVLQJDFWXDOERDUGEHFDXVHLW PD\EHFKDQJHGE\ERDUGFRQGLWLRQRUPDQXIDFWXULQJSURFHVV FRQGLWLRQ 6ROGHUFUHHSDJHZHWWDELOLW\RUVROGHULQJVWUHQJWKZLOOEHDႇHFWHG E\WKHVROGHULQJFRQGLWLRQRUXVHGVROGHULQJW\SH3OHDVHFKHFN WKHPXQGHUWKHDFWXDOSURGXFWLRQFRQGLWLRQLQGHWDLO 3OHDVHDSSO\FRDWLQJZKHQWKHGHYLFHUHWXUQVWRDURRP WHPSHUDWXUH Panasonic Industry Co., Ltd. Electromechanical Control Business Division industrial.panasonic.com/ac/e/ ー8 ー Panasonic Industry Co., Ltd. 2022 ASCTB65E 202204 PhotoMOS® Cautions for Use Soldering ([DPSOHRIVXUIDFHPRXQWWHUPLQDOUHFRPPHQGHGFRQGLWLRQV ,5,QIUDUHGUHÀRZVROGHULQJPHWKRG ,QFDVHRIDXWRPDWLFVROGHULQJIROORZLQJFRQGLWLRQVVKRXOGEH REVHUYHGUHFRPPHQGHGFRQGLWLRQUHÀRZ0D[WLPHV PHDVXUHPHQWSRLQWVROGHULQJOHDG t3 T1 = 150 to 180°C T2 = 230°C T3 = 240 to 250°C* t1 = 60 to 120 s t2 = Within 30 s t3 = Within 10 s T3 T2 T1 *240 to 245°C for SON, VSSOP t1 and TSON package t2 Part of frame on input side Adjacent mounting ([DPSOHRIWKURXJKKROHWHUPLQDOUHFRPPHQGHGFRQGLWLRQV ':6VROGHULQJPHWKRG ,QFDVHRIDXWRPDWLFVROGHULQJIROORZLQJFRQGLWLRQVVKRXOGEH REVHUYHGUHFRPPHQGHGFRQGLWLRQQXPEHURIWLPHV0D[ WLPHPHDVXUHPHQWSRLQWVROGHULQJOHDG  T1 = 120°C T2 = Max. 260°C t1 = within 60 s t2+t3 = within 5 s T1 t1 t2 )RU96623W\SHDVVKRZQLQWKHIROORZLQJ¿JXUHSDUWRIWKHLQSXW DQGRXWSXWIUDPHVDUHH[SRVHGRQWKHVLGHVRIWKHSDFNDJH'XHWR WKLVSOHDVHEHNHHSLQPLQGWKHFDXWLRQVOLVWHGEHORZ 7DNHFDUHWRDYRLGVKRUWFLUFXLWVEHWZHHQH[SRVHGWHUPLQDOV ZKLFKPD\FDXVHLQVXODWLRQGHWHULRUDWLRQEHWZHHQLQSXWDQG RXWSXWOHDGLQJWRGHVWUXFWLRQRILQWHUQDOHOHPHQWV 6LQFHWKHH[SRVHGWHUPLQDOVDUHFRQQHFWHGHOHFWULFDOO\WRWKH LQWHUQDOHOHPHQWSOHDVHUHIHUWRWKHLWHP³■Deterioration and GHVWUXFWLRQFDXVHGE\GLVFKDUJHRIVWDWLFHOHFWULFLW\´DQG LPSOHPHQWVXႈFLHQWPHDVXUHVWRFRQWUROVWDWLFHOHFWULFLW\ :KHQLQVWDOOLQJWKHGHYLFHVLQWKHYLFLQLW\SOHDVHNHHSLQPLQG WKDWLIWKHH[SRVHGIUDPHVRIDGMDFHQWGHYLFHVJHWWRRFORVHD VKRUWEHWZHHQGHYLFHVPD\RFFXU Part of frame on output side 2WKHUVROGHULQJPHWKRGV 2WKHUVROGHULQJPHWKRGV936KRWDLUKRWSODWHODVHU KHDWLQJSXOVHKHDWHUHWFDႇHFWWKH3KRWR026® FKDUDFWHULVWLFVGLႇHUHQWO\SOHDVHHYDOXDWHWKHGHYLFHXQGHU WKHDFWXDOXVDJH 0DQXDOVROGHULQJPHWKRG 7HPSHUDWXUHWRƒ&ZLWKLQVHOHFWULFDOSRZHUWR : T2 About the exposed terminals on the sides of the package (for VSSOP) :KHQVHYHUDO3KRWR026®DUHPRXQWHGFORVHO\HDFKRWKHURU KHDWJHQHUDWLQJFRPSRQHQWVDUHPRXQWHGFORVHWRWKH3KRWR026® WKHDEQRUPDOKHDWLQJPD\RFFXU7KLVDEQRUPDOKHDWPD\EH FDXVHGE\WKHLQWHUQDOHOHPHQWZKHQHQHUJL]HGRUWKHUPDO LQWHUIHUHQFHEHWZHHQWKHGHYLFHV7KHGHJUHHRIWHPSHUDWXUHULVH GHSHQGVRQWKHPRXQWLQJOD\RXWRIWKHGHYLFHVDQGXVDJHFRQGLWLRQ WKHUHIRUHSOHDVHEHVXUHWRXVH3KRWR026® with reduced load FXUUHQWDIWHUWHVWLQJXQGHUWKHZRUVWFRQGLWLRQRIWKHDFWXDOXVDJH Transportation and storage t3 6ROGHUWHPSHUDWXUH0D[ƒ& 2WKHUVROGHULQJPHWKRGUHFRPPHQGHGFRQGLWLRQWLPH 3UHKHDWLQJ0D[ƒ&ZLWKLQVPHDVXUHPHQWSRLQW soldering lead 6ROGHULQJ0D[ƒ&ZLWKLQVPHDVXUHPHQWDUHD VROGHULQJWHPSHUDWXUH 0DQXDOVROGHULQJPHWKRG 7HPSHUDWXUHWRƒ&ZLWKLQVHOHFWULFDOSRZHUWR : ([WUHPHYLEUDWLRQGXULQJWUDQVSRUWPD\GHIRUPWKHOHDGRU GDPDJHWKH3KRWR026®FKDUDFWHULVWLFV3OHDVHKDQGOHWKHRXWHU DQGLQQHUER[HVZLWKFDUH ,QDGHTXDWHVWRUDJHFRQGLWLRQPD\GHJUDGHVROGHULQJ DSSHDUDQFHDQGFKDUDFWHULVWLFV7KHIROORZLQJVWRUDJHFRQGLWLRQV DUHUHFRPPHQGHG ‡7HPSHUDWXUHWRƒ& ‡+XPLGLW\0D[5+ ‡$WPRVSKHUH1RKDUPIXOJDVVHVVXFKDVVXOIXURXVDFLGJDV PLQLPDOGXVW 6WRUDJHEHIRUH7621966236216623RU623SURFHVVLQJ ,QFDVHWKHKHDWVWUHVVRIVROGHULQJLVDSSOLHGWRWKH3KRWR026® ZKLFKDEVRUEVPRLVWXUHLQVLGHRILWVSDFNDJHWKHHYDSRUDWLRQRI WKHPRLVWXUHLQFUHDVHVWKHSUHVVXUHLQVLGHWKHSDFNDJHDQGLW PD\FDXVHWKHSDFNDJHEOLVWHURUFUDFN7KLVGHYLFHLVVHQVLWLYH WRPRLVWXUHDQGLWLVSDFNHGLQWKHVHDOHGPRLVWXUHSURRISDFNDJH 3OHDVHPDNHVXUHWKHIROORZLQJFRQGLWLRQDIWHUXQVHDOLQJ 3OHDVHXVHWKHGHYLFHLPPHGLDWHO\DIWHUXQVHDOLQJ :LWKLQGD\VDWWRƒ&DQG0D[5+ ,IWKHGHYLFHZLOOEHNHSWIRUDORQJWLPHDIWHUXQVHDOLQJSOHDVH VWRUHLQWKHDQRWKHUPRLVWXUHSURRISDFNDJHFRQWDLQLQJVLOLFDJHO 3OHDVHXVHZLWKLQGD\V Water condensation :DWHUFRQGHQVDWLRQRFFXUVZKHQWKHDPELHQWWHPSHUDWXUHFKDQJHV VXGGHQO\IURPDKLJKWHPSHUDWXUHWRORZWHPSHUDWXUHDWKLJK KXPLGLW\RUWKHGHYLFHLVVXGGHQO\WUDQVIHUUHGIURPDORZDPELHQW WHPSHUDWXUHWRDKLJKWHPSHUDWXUHDQGKXPLGLW\&RQGHQVDWLRQ FDXVHVWKHIDLOXUHVVXFKDVLQVXODWLRQGHWHULRUDWLRQ3DQDVRQLF ,QGXVWU\&R/WGGRHVQRWJXDUDQWHHWKHIDLOXUHVFDXVHGE\ZDWHU FRQGHQVDWLRQ7KHKHDWFRQGXFWLRQE\WKHHTXLSPHQWWKH 3KRWR026®LVPRXQWHGPD\DFFHOHUDWHWKHZDWHUFRQGHQVDWLRQ 3OHDVHFRQ¿UPWKDWWKHUHLVQRFRQGHQVDWLRQLQWKHZRUVWFRQGLWLRQ RIWKHDFWXDOXVDJH6SHFLDODWWHQWLRQVKRXOGEHSDLGZKHQKLJK WHPSHUDWXUHKHDWLQJSDUWVDUHFORVHWRWKH3KRWR026® Panasonic Industry Co., Ltd. Electromechanical Control Business Division industrial.panasonic.com/ac/e/ ー9 ー Panasonic Industry Co., Ltd. 2022 ASCTB65E 202204 PhotoMOS® Cautions for Use Packing format 1) Tape and reel 7DSHGLPHQVLRQV 'LPHQVLRQVRIWDSHUHHO Direction of picking 2±0.1 1:KHQSLFNHGIURP12SLQVLGH3DUW1R$4