BM2P060MF-EVK-001

Isollation n Fly-back Conv veterr PWM M metthod O Outpu ut 40W W 24V V BM2 2P060 0MF-EVK--001 Noticce ＜ ＜High Voltage Saffety Prec cautions＞ ＞ ◇ Read all a safety prrecautions before use e overs onlyy the BM2 2P060MF evaluation n board Please note thatt this doccument co (BM2P0 060MF-EVK K-001) and d its functio ons. For ad dditional infformation, please refe er to the datashe eet. To ensu ure safe operatio on, please carefu ully read all precautions before handling g the eva aluation b board Depe ending on tthe configu uration of the board a and voltage es used, Pote entially lethal volltages may be ge enerated.. There efore, please make sure to read and o observe all sa afety precautions describe ed in the re ed box below w. Before Use U [1] Verify tthat the parts/componen nts are not damaged or missing m (i.e. due to the d drops). [2] Check that there are no condu uctive foreign n objects on the board. eful when pe erforming so oldering on the module and/or a evaluation board to ensure th hat solder [3] Be care splash does not occcur. ater droplets on the circu uit board. [4] Check that there iss no condenssation or wa During U Use [5] Be care eful to not allow conductive objects to come into o contact witth the board. [6] Brief a accidental c contact or even e bringin ng your han nd close to the t board m may result in n discha arge and lea ad to severe e injury or d death. Therefore, DO NOT to ouch the boa ard with your bare han nds or bring g them too c close to the e board. In addition, as mentione ed above ple ease exercisse extreme ccaution when n using cond ductive toolss such as nd screwdrivvers. tweezers an [7] If used under cond ditions beyon nd its rated vvoltage, it ma ay cause de efects such as a short-circuit or, ding on the ccircumstances, explosio on or other permanent da amages. depend [8] Be sure e to wear inssulated glovves when handling is req quired during g operation. After Use e [9] The RO OHM Evaluattion Board ccontains the circuits whicch store the high voltage e. Since it sto ores the chargess even after the connectted power circuits are cu ut, please disscharge the electricity affter using it, and p please deal w with it after cconfirming such electric discharge. [10] Protectt against ele ectric shockss by wearing g insulated gloves when handling. This evalu uation boarrd is intend ded for use e only in re esearch an nd develop pment facilities and should by handled o only by qu ualified pe ersonnel fa amiliar with all safe ety and op perating es. procedure We recom mmend carrrying out operation in n a safe environment that includ des the use e of high voltage sig gnage at all entrance es, safety in nterlocks, a and protecttive glasse es. ww ww.rohm.com m ©2 2018 ROHM M Co., Ltd. All rights rese erved. HVB B01E User’s Guide e AC C/DC Conv verter F Flybac ck Typ pe PW WM M Mode Is solate ed 24 V 1.6 67 A 4 40 W B BM2P0 060M MF Eva aluatiion Board BM M2P060MF F-EVK-001 Ge eneral Desc cription Thiss evaluation boa ard outputs an isolated voltage e of 24 V from an n input of 90 Vacc to 264 Vac, an nd the maximum m output currentt is 1.67 A. BM M2P060MF whicch is PWM meth hod DC/DC con nverter IC built-in n 650 V MOSFE ET is used. Low w on-resistance 0.7 Ω 650 V MO OSFET built-in contributes to h high efficiency (9 91 % typ). PW WM controller forr AC / DC power supplies, the B BM2P060MF prrovides the optim mum system forr all products wiith outlets. Figure 1. BM2P060MF--EVK-001 © 2021 2 ROHM Co., C Ltd. 1/16 No. 64UG011E 6 Re ev.001 MAY Y.2021 U User’s Gu uide BM2P060MF-EVK-001 1 Pe erformance Specific cation Not guara antee the chara acteristics is re epresentative value. Unless oth herwise speciffied VIN = 230 Vac , IOUT = 1.67 A , Ta = 25 5 °C Para ameter Symbol Min Typ Max Units In nput Voltage R Range VIN 90 230 264 V In nput Frequenccy fLINE 47 - 63 Hz VOUT1 22.8 24.0 25.2 V IOUT1 0 - 1.67 A 40.0 W O Output Voltage O Output Current Range (Note 1) 1 M Maximum Outp put Power S Standby Input P Power P Power supply efficiency e O Output Ripple V Voltage (Note 1)) O Oprating Tempe erature POUT PINSTBY - 47 100 mW η 88.0 91.0 - % VRIPPLE - 0.10 0.24 Vpp -10 +25 +65 °C Conditions IOUT = 0 A VIN = 230 V (N Note 1) Not include e spikes noise. De erating Fig gure 2. Tempe erature deratin ng curve © 2021 2 ROHM Co., C Ltd. 2/16 No. 64UG011E 6 Re ev.001 MAY Y.2021 U User’s Gu uide BM2P060MF-EVK-001 1 Op peration P Procedure 1. Opera ation Equipme ent (1) AC power supp ply (90 Vac to 2 264 Vac, 100 W or more) (2) Lo oad equipmen nt (2 A at maxim mum value) (3) DC voltmeter 2. Conne ect method (1) Preset the AC p power to 90 Va ac to 264 Vac and turn off th he power output. et the load below the rated current c of each h output to dissable the load. (2) Se (3) Connect the N pin p of the pow wer supply to th he CN1-1: AC (N) pin and th he L pin to the CN1-2: AC (L)) pin with a pa air of w wires. ositive pin and (4) Connect each lo oad to VOUT p pin from the po d to GND pin w with a pair of w wires. (5) W When connectin ng a power me eter, connect a as follows. (Fo or details, referr to the User's Manual of the e electricity me eter yo ou are using.) (6) Connect the positive pin of the DC voltmete er to VOUT pin n and the nega ative pin to GN ND pin for ou utput voltage m measurement. (7) AC power supp ply switch is ON N. (8) M Make sure that the DC voltme eter reading iss at the set volttage ( 24 V). (9) Electronic load switch is ON. 24Ｖ Ｖ C CN1-1 AC (N) CN1-2 AC (L) Figure 3. Dia agram of How w to Connect © 2021 2 ROHM Co., C Ltd. 3/16 No. 64UG011E 6 Re ev.001 MAY Y.2021 User’s Guide BM2P060MF-EVK-001 Application Circuit This evaluation board operates in flyback mode at a maximum frequency of around 65 kHz.. The output (24 V) voltage is monitored by a feedback circuit and fed back to the FB pin of BM2P060MF through a opto - coupler. At startup, the voltage at the VCC pin rises as the voltage is supplied from the DRAIN pin to the VCC pin through the start circuit. The demo board schematic is shown in Figure below and the list of parts is tabulated on page 13. 2.2n AC IN C17 1.6 LF1 220n C2 C14 RFN1LAM7S D3 47p R10 120u C3 AC IN 330m C19 D2 R1 R2 100 100 IC1 C20 UDZV24B ZD1 1k R5 100n C8 47 R13 P1 T1 S1 P2 S2 100n C10 C18 680u C11 100n 10u C24 C6 1k R19 C21 9.1k R16 PC1 R12 R7 1n C9 24V 1.67A GND 0 RF05VAM2S R8 Q1 R28 C5 VH STOP FB NC BURST GND OFF VCC SOURCE D1 10 C15 D6 10n C4 DRAIN 220n C1 100k R6 DB1 S1 S1 470 ZNR1 P1 LF2 P1 F1 680p D5 R3 C7 IC3 180k R17 15k R20 10n 18k C12 R21 22k R18 © 2021 ROHM Co., Ltd. 4/16 No. 64UG011E Rev.001 MAY.2021 U User’s Gu uide BM2P060MF-EVK-001 1 BM M2P060MF F General Descriptio on Fea atures Ke ey Specificattions  AC Low V Voltage Protecttion Function (AC ( UVLO) ■ Operation Power Sup pply Voltage R Range  X Capacittor Discharge Function n Voltage: VCC Pin 0V 11 V to 60 C UVLO)  VCC Pin Low L Voltage P Protection (VCC DRAIN P Pin Voltage: 650 V (Ma ax)  PWM Typ pe Current Mod de Control  Current at Switching Operation: O 850 μA (Tyyp)  Frequencyy Reduction F Function  Current at Burst Operration 400 μA (Tyyp)  Burst Ope eration at Lightt Load  Switchin ng Frequency 65 kHz (Tyyp)  External B Burst voltage ssetting function n  MOSFE ET ON Resisto or 0.70 Ω (Tyyp)  Minimum ON width adju ustment at ligh ht load  Operatio on Temperature Range -4 40 °C to +105 °C  Soft Start Function  FB Pin Ovverload Protecction Function (FB OLP) Pa ackage  Over Currrent Protection n Function by cycle c W (Typ) x D (Typ) x H (Max) SOP20A 1 12.8 mm x 10.3 3 mm x 2.65 mm m  Over Currrent Compensation by AC vo oltage detectio on.  External S Stop Function  Dynamic O Over Current Protection P  Leading E Edge Blanking Ap pplications AC Ada apters, Each Household Applications and P Power Supplies for Motor Pin n Configurattion VH N.C. GND N.C. SOURC CE N.C. STOP FB BURST OFF VCC N.C. DRAIN DRAIN DRAIN DRAIN DRAIN DRAIN AIN DRA DRA AIN Figu ure 4. Pin Conffiguration Pin n Descriptio ons N No. Pin n name I/O F Function No. Pin name I/O Funcction 1 STO OP I Exte ernal stop pin 11 DRAIN I/O MOSFET Drain pin 2 FB B I/O Fee edback pin 12 DRAIN I/O MOSFET Drain pin 3 BUR RST I Bursst setting pin 13 DRAIN I/O MOSFET Drain pin 4 OF FF I MIN o on setting pin 14 DRAIN I/O MOSFET Drain pin 5 VC CC I/O Power ssupply input pin 15 N.C. - No conn nection 6 N.C C. - No connection 16 SOURCE I/O MOSFET ssource pin 7 DRA AIN I/O MOSF FET Drain pin 17 N.C. - No conn nection 8 DRA AIN I/O MOSF FET Drain pin 18 GND I/O GND pin 9 DRA AIN I/O MOSF FET Drain pin 19 N.C. - No conn nection 1 10 DRA AIN I/O MOSF FET Drain pin 20 VH I AC voltage sstart-up pin © 2021 2 ROHM Co., C Ltd. 5/16 No. 64UG011E 6 Re ev.001 MAY Y.2021 U User’s Gu uide BM2P060MF-EVK-001 1 Me easurement Data 1. Load Regulation VOUUT2, IOUT2 = 0 A VOUT1 Figure 6. Effficiency vs Ou utput Current Figure 5. O Output Voltage vs Output Current 2. Line Regulation R Figu ure 7. Output V Voltage vs VIN © 2021 2 ROHM Co., C Ltd. Figure 8. Efficciency vs Inpu ut Voltage 6/16 No. 64UG011E 6 Re ev.001 MAY Y.2021 U User’s Gu uide BM2P060MF-EVK-001 1 Me easurement Data – continued c d 3. Switch hing Frequen ncy Figure 9. Freq quency vs Outtput Power 4. Input Voltage Slow wup In nput Voltage VIN 65 Vrms s 100 V / Div M MOSFET VDS 10 00 V / Div Figure 1 10. VIN 0 V to 230 V © 2021 2 ROHM Co., C Ltd. 7/16 No. 64UG011E 6 Re ev.001 MAY Y.2021 U User’s Gu uide BM2P060MF-EVK-001 1 Me easurement Data – continued c d 5. Switch hing Wave Fo orm MOSFET VDS 100V / Div v MOSFET VDDS 100 V / Diiv DRAIN Current ID DRAIN Currrent ID D 0.5 A / Div 0.5 A / Div Figure 12. VDS,ID VIN = 26 64Vac,IOUT=1.6 67A Figure 11. VDS,ID VIN = 90Vac,IO OUT=1.67A Diode Volta age VD Diode V Voltage VD 50 V / Div D 50 V / Div D Diode e Current IS Diode C Current IS 12 2.5 A / Div 12.5 A / Diiv Figure 13. VDS,ID VIN = 90Vacc,IOUT=1.67A © 2021 2 ROHM Co., C Ltd. Figure 14. VDS,ID VIN = 264 4 Vac,IOUT=1.6 67 A 8/16 No. 64UG011E 6 Re ev.001 MAY Y.2021 U User’s Gu uide BM2P060MF-EVK-001 1 Me easurement Data – continued c d 5. Switch hing Wave Form- continued d VOUT VOUT 10 V / Div 10 V / Div VDS VDS 250 V / Diiv 250 V / Div 10 A / Div 10 A / Div IOUT IOUT Figu ure 15. VIN = 9 90 Vac, VOUT 6. Shorted Figure 16. VIN V = 264 Vacc, VOUT Shortted Startup p Wave Form Outputt Voltage VOU UT Output Voltag ge VOUT 5 V / Div v 5 V / Div Input Vo oltage VIN 250 V / Div In nput Voltage VIN F Figure 18. VIN = 264 Vac, IOUUT = 1.67 A F Figure 17. VIN = 90 Vac, IOUTT = 1.67 A © 2021 2 ROHM Co., C Ltd. 250 V / Div 9/16 No. 64UG011E 6 Re ev.001 MAY Y.2021 U User’s Gu uide BM2P060MF-EVK-001 1 Me easurement Data – continued c d 7. Dynam mic Load Fluc ctuation IOUT VOUT 0.5 V / Div VOUT IOUT 1 A / Diiv Fiigure 19. VIN = 115 Vac,IOUT = Switch 0 A / 1.67 A 8. 0.5 V / Div 1A/D Div Figure 20. VIN = 230 Vacc,IOUT = Switch h 0 A / 1.67 A Outputt Voltage Ripp ple Wave Forrm 2 V /Div 0.2 0.2 V /Div 0.2 V / Div O Output Ripple e Voltage VRIPPPLE 9. Outut tput Ripple Vtage VRIPPLE Voltage VRIPPLEE2 Outpu Ripple Volt = 0..10 Vpp = 0.10 0 Vpp = 0.10 V Vpp Fig gure 21. VIN = 115 Vac, IOUT = 1.67 A Figure 2 22. VIN = 230 V Vac, IOUT = 1.6 67 A Tempe erature of Parrts Surface IOUUT1 Theyy are measured after 15 minutes from app plying a power supply. Table e 1. Surface Te emperature of Parts (Ta = 20 0 °C) Part IC1 Diode D1 © 2021 2 ROHM Co., C Ltd. Condition VIN = 90 V Vac, IOUT1 = 1.3 3A VIN = 264 Vac, IOUT1 = 1.3 A 6 60.4 °C 6 61.6 °C 10/16 61.3 °C C 62.3 °C C No. 64UG011E 6 Re ev.001 MAY Y.2021 U User’s Gu uide BM2P060MF-EVK-001 1 Me easurement Data – continued c d 10. EMI C Conducted Em mission:CISPR R22 Pub 22 Cla ass B QP margin: 9.0dB AVE margin: 6.4dB Figure 23. VIN: 115 V Vac / 60 Hz, IOUUT: 1.67 A QP margin: AVE margin n: 7.0dB 10.4dB Figure e 24. VIN: 230 Vac / 50 Hz, IOUT O : 1.67 A © 2021 2 ROHM Co., C Ltd. 11/16 No. 64UG011E 6 Re ev.001 MAY Y.2021 User’s Guide BM2P060MF-EVK-001 Schematics VIN = 90 Vac to 264 Vac、VOUT = 24 V 1.67 A 2.2n AC IN 1.6 LF1 220n C2 120u C3 D1 D2 R1 R2 100 100 IC1 C20 UDZV24B ZD1 1k R5 R10 47p 330m C5 100n C8 47 R13 R28 24V 1.67A P1 T1 S1 P2 S2 100n C10 680u C11 C21 GND C18 0 RF05VAM2S R12 R7 1n C9 10 C15 1k R19 9.1k R16 PC1 R8 Q1 680p D6 10n C4 DRAIN AC IN C19 C14 RFN1LAM7S D3 VH STOP FB NC BURST GND OFF VCC SOURCE 220n C1 100k R6 DB1 S1 S1 470 ZNR1 P1 LF2 P1 F1 C17 D5 100n 10u C24 C6 R3 C7 IC3 180k R17 15k R20 10n 18k C12 R21 22k R18 Figure 25. BM2P060MF-EVK-001 Schematics © 2021 ROHM Co., Ltd. 12/16 No. 64UG011E Rev.001 MAY.2021 U User’s Gu uide BM2P060MF-EVK-001 1 Pa arts List Ite em C1,C2 C3 C4 C5 C6 C7,C14,C18 8,C19,C20,C21 C8,C10,,C24 C9 C11 C12 C15 C17 D1,D2 D3 D5 D6 PC1 Q1 DB1 R1,R2 R8 R3,R7,R R5 R6 R10 R12 R13 R16 R17 R18 R19 R20 R21 R28 F1 ZNR1 LF1 LF2 T1 IC1 IC2 IC3 ZD1 HEAT1 CN1 2 TP1,TP2 Spec 220 n, 310 Vac 2 V 1 120 µ, 450 V 1 nF, 500 V 10 4 p, 630 V 47 1 µF, 50 V 10 N Non.mounte ed 0 µF, 100 V 0.1 1 1000 pF, 100 0V 6 680 µF, 35 V 0 0.01 µF, 100 0V 6 680 pF, 1 kV V 2 2200 pF, AC C 300 V 1 A, 1000 V F FRD, 0.8 A, 700 V F FRD, 200 V, 0.5 A F FRD, 300 V, 20 A TR, 50 V, 0.1 A T 6 600 V, 4 A 1 100 Ω N Non.mounte ed 1 1k 1 100 kΩ 3 330 mΩ 0Ω 4 Ω 47 9 kΩ 9.1 1 180 kΩ 2 kΩ 22 1 kΩ 1 kΩ 15 1 kΩ 18 1 Ω 10 1 A, 300 V 1.6 3 300 V, 400 A, φ 5 mm 34.5 mH 3 6 µH 60 P 26 PQ N Non.mounte ed 24V 2 2 22.9 k/W Parts Name e 890334025027C CS 450CX XW120MEFC18× ×31.5 885342208009 GRM3 31A5C2J470JW01D 860160672009 HMK K107B7104K KA-T HMK K107B7102ＭA-T 860080578019 C060 03C103K5RA ACTU GRM31B5C2J681FW W01L DE1E E3RA222MJ4BP01F 1N4 4007 RFN N1LAM7S RF05VAM2S RF2001T3D LTV V-817-B 2SC CR523UB D3S SBA60 ESR R18EZPJ101 R03EZPJ102 2 MCR MOS S2CT52R104 4J LTR R50EZPZFLR R330 MCR R18EZPJ000 0 ESR R18EZPJ470 MCR R03EZPFX91 101 MCR R03EZPFX18 803 MCR R03EZPFX22 202 MCR R03EZPJ102 2 MCR R03EZPJ153 3 MCR R03EZPJ183 3 ESR R18EZPJ100 36911600000 V47 70ZA05P SSR R21NV-M123 345 LF12 246Y XE2395Y_B 2P060MF BM2 P431AVSNT1G NCP UDZ ZVTE-1724B B IC-1 1625-STL B02P－NV(LF)(SN) CD-10-15 Ma anufacturer WURTH R RUBYCON WURTH M MURATA WURTH Taiyo Yuden Taiyo Yuden WURTH KEMET M MURATA M MURATA Rohm Rohm Rohm Liteon Rohm Sh hindengen Rohm Rohm Rohm Rohm Rohm Rohm Rohm Rohm Rohm Rohm Rohm Rohm Rohm Rohm L Littelfuse L Littelfuse TOKIN アル ルファトランス アル ルファトランス Rohm Onsemi Rohm ＪＳＴ ＭＡＣ８ M Materials may be changed c without n notifying. © 2021 2 ROHM Co., C Ltd. 13/16 No. 64UG011E 6 Re ev.001 MAY Y.2021 U User’s Gu uide BM2P060MF-EVK-001 1 La ayout Sizze: 160 mm x 5 55 mm Figure e 26. TOP Layo out (Top view)) Figure e 27. Bottom L Layout (Top Vie ew) © 2021 2 ROHM Co., C Ltd. 14/16 No. 64UG011E 6 Re ev.001 MAY Y.2021 U User’s Gu uide BM2P060MF-EVK-001 1 Sp pecificatio on of the Transforme er anufacture Ma Alphatran ns Co., Ltd. (1--7-2, Bakurou--cho, Chuo-ku u, Osaka City, 541-0059, Jap pan) http//www w.alphatrans.jp p/ Product N Name:  X XE2395Y_B Bobbin: 12PIN Core: PQ26 50 00 μH ±10 % Primaryy Inductance: (100 kHz, 1 V V)  Withstan nd Voltage Between n Primary and d Secondary: Between n Primary and d Core: AC1500 V AC1500 V AC500 V Between n Secondary a and Core: ■ Insulatio on Resistance 100 MΩ orr more (DC500 V) Figure 29. S Structure Diag gram F Figure 28. Circcuit Diagram T Table 2. Producct Specification of XE2395Y Y_B Windin ng Pin Wire Tu urn Num mber Tape Laye er Wiire Specifiication 2 2UEW / Φ0.29 x 2 1 19 1 COMP PACT 10 7 TEX / Φ0.32 2x2 1 11 1 COMP PACT 11 8 TEX / Φ0.32 2x2 1 11 1 COMP PACT ND 5 6 2UEW / Φ0.15 x 1 8 1 COMP PACT C5 NS1 12 9 TEX / Φ0.32 2x2 1 11 1 COMP PACT 6 NP2 2 1 2UEW / Φ0.29 x 2 1 19 3 COMP PACT No. Transforme er 1 Start Finish NP1 3 2 NS1 3 NS1 4 © 2021 2 ROHM Co., C Ltd. 15/16 No. 64UG011E 6 Re ev.001 MAY Y.2021 User’s Guide BM2P060MF-EVK-001 Revision History Date Rev. 12.May.2021 001 © 2021 ROHM Co., Ltd. Changes New Release 16/16 No. 64UG011E Rev.001 MAY.2021 Notice Notes 1) The information contained herein is subject to change without notice. 2) Before you use our Products, please contact our sales representative and verify the latest specifications : 3) Although ROHM is continuously working to improve product reliability and quality, semiconductors can break down and malfunction due to various factors. Therefore, in order to prevent personal injury or fire arising from failure, please take safety measures such as complying with the derating characteristics, implementing redundant and fire prevention designs, and utilizing backups and fail-safe procedures. ROHM shall have no responsibility for any damages arising out of the use of our Poducts beyond the rating specified by ROHM. 4) Examples of application circuits, circuit constants and any other information contained herein are provided only to illustrate the standard usage and operations of the Products. The peripheral conditions must be taken into account when designing circuits for mass production. 5) The technical information specified herein is intended only to show the typical functions of and examples of application circuits for the Products. ROHM does not grant you, explicitly or implicitly, any license to use or exercise intellectual property or other rights held by ROHM or any other parties. ROHM shall have no responsibility whatsoever for any dispute arising out of the use of such technical information. 6) The Products specified in this document are not designed to be radiation tolerant. 7) For use of our Products in applications requiring a high degree of reliability (as exemplified below), please contact and consult with a ROHM representative : transportation equipment (i.e. cars, ships, trains), primary communication equipment, traffic lights, fire/crime prevention, safety equipment, medical systems, servers, solar cells, and power transmission systems. 8) Do not use our Products in applications requiring extremely high reliability, such as aerospace equipment, nuclear power control systems, and submarine repeaters. 9) ROHM shall have no responsibility for any damages or injury arising from non-compliance with the recommended usage conditions and specifications contained herein. 10) ROHM has used reasonable care to ensure the accuracy of the information contained in this document. However, ROHM does not warrants that such information is error-free, and ROHM shall have no responsibility for any damages arising from any inaccuracy or misprint of such information. 11) Please use the Products in accordance with any applicable environmental laws and regulations, such as the RoHS Directive. For more details, including RoHS compatibility, please contact a ROHM sales office. ROHM shall have no responsibility for any damages or losses resulting non-compliance with any applicable laws or regulations. 12) When providing our Products and technologies contained in this document to other countries, you must abide by the procedures and provisions stipulated in all applicable export laws and regulations, including without limitation the US Export Administration Regulations and the Foreign Exchange and Foreign Trade Act. 13) This document, in part or in whole, may not be reprinted or reproduced without prior consent of ROHM. Thank you for your accessing to ROHM product informations. More detail product informations and catalogs are available, please contact us. ROHM Customer Support System https://www.rohm.com/contact/ www.rohm.com © 2016 ROHM Co., Ltd. All rights reserved. R1102B