Product Information

BM60213FV-CE2

BM60213FV-CE2 electronic component of ROHM

Datasheet
Gate Drivers 1200 V High Voltage High and Low Side Driver; The BM60213FV-C is high and low side drive IC which operates up to 1200 V with bootstrap operation, which can drive N-channel power MOSFET and IGBT. Under-voltage Lockout (UVLO) function is built-in.
Manufacturer: ROHM
This product is classified as Large/Heavy, additional shipping charges may apply. A customer service representative may contact you after ordering to confirm exact shipping charges



Price (AUD)

1: AUD 9.2888 ( AUD 10.22 Inc GST) ea
Line Total: AUD 9.2888 ( AUD 10.22 Inc GST)

1876 - Global Stock
Ships to you between
Thu. 18 Jul to Mon. 22 Jul
MOQ: 1  Multiples: 1
Pack Size: 1

 More Buying Options & Price Grid(s)

Availability Price Quantity
1423 - Global Stock


Ships to you between Thu. 18 Jul to Mon. 22 Jul

MOQ : 1
Multiples : 1
1 : AUD 7.7669
10 : AUD 6.6877
100 : AUD 5.9446
250 : AUD 5.6438
500 : AUD 5.1485
1000 : AUD 4.4585
2000 : AUD 4.4231
10000 : AUD 4.4231

Read More Specifications

     
Manufacturer
Product Category
RoHS - XON
Icon ROHS
Product
Configuration
Number of Drivers
Rise Time
Fall Time
Output Current
Supply Voltage - Max
Supply Voltage - Min
Number of Outputs
Mounting Style
Package / Case
Type
Minimum Operating Temperature
Maximum Operating Temperature
Qualification
Packaging
Pd - Power Dissipation
Technology
Brand
Off Time - Max
Propagation Delay - Max
Shutdown
Maximum Turn-Off Delay Time
Maximum Turn-On Delay Time
Product Type
Rds On - Drain-Source Resistance
Factory Pack Quantity :
Subcategory
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Additional Infomation About Product

Datasheet 1200 V High Voltage High and Low Side Driv er BM60213FV-C General Description Key Specifications The BM60213FV-C is high and low side drive IC which High-Side Floating Supply Voltage: 1200 V operates up to 1200 V with bootstrap operation, which Maximum Gate Drive Voltage: 24 V can drive N-channel power MOSFET and IGBT. Turn ON/OFF Time: 75 ns (Max) Under-voltage Lockout (UVLO) function is built-in. Logic Input Minimum Pulse Width: 60 ns (Max) Features Package W(Typ) x D(Typ) x H(Max) (Note 1) AEC-Q100 Qualified SSOP-B20W 6.50 mm x 8.10 mm x 2.01 mm High-Side Floating Supply Voltage 1200 V Under Voltage Lockout Function 3.3 V and 5.0 V Input Logic Compatible (Note 1) Grade 1 Applications MOSFET Gate Driver IGBT Gate Driver SSOP-B20W Typical Application Circuit VCCB Up to 1200 V NC GND1 UVLO UVLO S ENA GND2 ENA Pulse Q Generator INA INA NC R INB INB VCCA VREG OUTAH Regulator Pre- driver OUTAL VCCB C VREG OUTBH NC Pre- CVCCB driver OUTBL NC CVCCA PGND GND2 TO LOAD NC GND1 Pin 1 Product structure : Silicon integrated circuit This product has no designed protection against radioactive rays www.rohm.com TSZ02201-0818ACH00050-1-2 2018 ROHM Co., Ltd. All rights reserved. 1/22 TSZ22111 14 001 26.Oct.2018 Rev.001 BM60213FV-C Contents General Description ................................................................................................................................................................ 1 Features .......................................................................................................................................................................... 1 Applications .......................................................................................................................................................................... 1 Key Specifications ................................................................................................................................................................... 1 Package ................................................................................................................................................................................. 1 Typical Application Circuit ........................................................................................................................................................ 1 Contents .......................................................................................................................................................................... 2 Recommended Range of External Constants ........................................................................................................................... 3 Pin Configuration .................................................................................................................................................................... 3 Pin Descriptions ...................................................................................................................................................................... 3 Description of Functions and Examples of Constant Setting ..................................................................................................... 5 Absolute Maximum Ratings ..................................................................................................................................................... 7 Thermal Resistance ................................................................................................................................................................ 8 Recommended Operating Conditions ...................................................................................................................................... 8 Electrical Characteristics ......................................................................................................................................................... 9 Typical Performance Curves .................................................................................................................................................. 10 Figure 6. VCCB Circuit Current 1 vs Low-side Supply Voltage (OUTB=L) ............................................................................ 10 Figure 7. VCCB Circuit Current 2 vs Low-side Supply Voltage (OUTB=H) ............................................................................ 10 Figure 8. VCCB Circuit Current 3 vs Low-side Supply Voltage (INA=10 kHz, Duty=50 %) ..................................................... 10 Figure 9. VCCB Circuit Current 4 vs Low-side Supply Voltage (INA=20 kHz, Duty=50 %) ..................................................... 10 Figure 10. VCCA Circuit Current 1 vs High-side Floating Supply Voltage (OUTA=L) ............................................................. 11 Figure 11. VCCA Circuit Current 2 vs High-side Floating Supply Voltage (OUTA=H) ............................................................. 11 Figure 12. Logic H/L Level Input Voltage vs High-side Floating Supply Voltage .................................................................... 11 Figure 13. OUTA (OUTB)Output Voltage vs Logic Input Voltage (V =15 V, V =15 V, Ta=+25 C).................................... 11 CCB CCA Figure 14. Logic Pull-down Resistance vs Temperature....................................................................................................... 12 Figure 15. Logic Pull-down Current vs Temperature ............................................................................................................ 12 Figure 16. Logic Input Minimum Pulse Width vs Temperature .............................................................................................. 12 Figure 17. ENA Input Mask Time vs Temperature................................................................................................................ 12 Figure 18. OUTA ON Resistance (Source) vs Temperature ................................................................................................. 13 Figure 19. OUTA ON Resistance (Sink) vs Temperature ...................................................................................................... 13 Figure 20. OUTB ON Resistance (Source) vs Temperature ................................................................................................. 13 Figure 21. OUTB ON Resistance (Sink) vs Temperature ..................................................................................................... 13 Figure 22. OUTA Turn ON Time vs Temperature (INA=PWM, INB=L) .................................................................................. 14 Figure 23. OUTA Turn OFF Time vs Temperature (INA=PWM, INB=L) ................................................................................. 14 Figure 24. OUTB Turn ON Time vs Temperature (INA=L, INB=PWM)................................................................................ 14 Figure 25. OUTB Turn OFF Time vs Temperature (INA=L, INB=PWM) ................................................................................ 14 Figure 26. VCCB UVLO ON/OFF Voltage vs Temperature................................................................................................... 15 Figure 27. VCCB UVLO Mask Time vs Temperature ........................................................................................................... 15 Figure 28. VCCA UVLO ON/OFF Voltage vs Temperature ................................................................................................... 15 Figure 29. VCCA UVLO Mask Time vs Temperature ........................................................................................................... 15 I/O Equivalence Circuits ........................................................................................................................................................ 16 Operational Notes ................................................................................................................................................................. 18 Ordering Information ............................................................................................................................................................. 20 Marking Diagram................................................................................................................................................................... 20 Physical Dimension and Packing Information ......................................................................................................................... 21 Revision History .................................................................................................................................................................... 22 www.rohm.com TSZ02201-0818ACH00050-1-2 2018 ROHM Co., Ltd. All rights reserved. 2/22 TSZ22111 15 001 26.Oct.2018 Rev.001

HS Compliance

Tariff Desc

8542.39.23 No ..Linear/analogue and peripheral integrated circuits, timers, voltage regulators, A/D and D/A converters, telecommunication and modem integrated circuits, other than board level products Free

Electronic integrated circuits- Processors and controllers, whether or not combined with memories, converters, logic circuits, amplifiers, clock and timing circuits, or other circuits

ROHM may also be referenced as

LAPIS Semiconductor
RHE
RHM
ROHM Semicon
ROHM Semiconductor

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