参数资料
| 型号: | BD9329AEFJ-E2 |
| 厂商: | Rohm Semiconductor |
| 文件页数: | 13/18页 |
| 文件大小: | 0K |
| 描述: | IC REG BUCK SYNC ADJ 3A 8HTSOP |
| 标准包装: | 1 |
| 类型: | 降压(降压) |
| 输出类型: | 可调式 |
| 输出数: | 1 |
| 输出电压: | 0.9 V ~ 12.6 V |
| 输入电压: | 4.2 V ~ 18 V |
| PWM 型: | 电流模式 |
| 频率 - 开关: | 380kHz |
| 电流 - 输出: | 3A |
| 同步整流器: | 是 |
| 工作温度: | -40°C ~ 85°C |
| 安装类型: | 表面贴装 |
| 封装/外壳: | 8-SOIC(0.154",3.90mm 宽) |
| 包装: | 标准包装 |
| 供应商设备封装: | 8-HTSOP-J |
| 其它名称: | BD9329AEFJ-E2DKR |
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�
�BD9329AEFJ�
�Technical� Note�
�●� Notes� for� use�
�1)� Absolute� maximum� ratings�
�Use� of� the� IC� in� excess� of� absolute� maximum� ratings� such� as� the� applied� voltage� or� operating� temperature� range� may�
�result� in� IC� damage.� Assumptions� should� not� be� made� regarding� the� state� of� the� IC� (short� mode� or� open� mode)� when� such�
�damage� is� suffered.� A� physical� safety� measure� such� as� a� fuse� should� be� implemented� when� use� of� the� IC� in� a� special�
�mode� where� the� absolute� maximum� ratings� may� be� exceeded� is� anticipated.�
�2)� GND� potential�
�Ensure� a� minimum� GND� pin� potential� in� all� operating� conditions.�
�3)� Setting� of� heat�
�Use� a� thermal� design� that� allows� for� a� sufficient� margin� in� light� of� the� power� dissipation� (Pd)� in� actual� operating� conditions.�
�4)� Pin� short� and� mistake� fitting�
�Use� caution� when� orienting� and� positioning� the� IC� for� mounting� on� printed� circuit� boards.� Improper� mounting� may� result� in�
�damage� to� the� IC.� Shorts� between� output� pins� or� between� output� pins� and� the� power� supply� and� GND� pins� caused� by� the�
�presence� of� a� foreign� object� may� result� in� damage� to� the� IC.�
�5)� Actions� in� strong� magnetic� field�
�Use� caution� when� using� the� IC� in� the� presence� of� a� strong� magnetic� field� as� doing� so� may� cause� the� IC� to� malfunction.�
�6)� Testing� on� application� boards�
�When� testing� the� IC� on� an� application� board,� connecting� a� capacitor� to� a� pin� with� low� impedance� subjects� the� IC� to� stress.�
�Always� discharge� capacitors� after� each� process� or� step.� Ground� the� IC� during� assembly� steps� as� an� antistatic� measure,�
�and� use� similar� caution� when� transporting� or� storing� the� IC.� Always� turn� the� IC's� power� supply� off� before� connecting� it� to� or�
�removing� it� from� a� jig� or� fixture� during� the� inspection� process.�
�7)� Ground� wiring� patterns�
�When� using� both� small� signal� and� large� current� GND� patterns,� it� is� recommended� to� isolate� the� two� ground� patterns,�
�placing� a� single� ground� point� at� the� application's� reference� point� so� that� the� pattern� wiring� resistance� and� voltage�
�variations� caused� by� large� currents� do� not� cause� variations� in� the� small� signal� ground� voltage.� Be� careful� not� to� change� the�
�GND� wiring� patterns� of� any� external� components.�
�8)� Regarding� input� pin� of� the� IC�
�This� monolithic� IC� contains� P+� isolation� and� P� substrate� layers� between� adjacent� elements� in� order� to� keep� them� isolated.�
�P/N� junctions� are� formed� at� the� intersection� of� these� P� layers� with� the� N� layers� of� other� elements� to� create� a� variety� of�
�parasitic� elements.�
�For� example,� when� the� resistors� and� transistors� are� connected� to� the� pins� as� shown� in� Fig.27� ,� a� parasitic� diode� or� a�
�transistor� operates� by� inverting� the� pin� voltage� and� GND� voltage.�
�The� formation� of� parasitic� elements� as� a� result� of� the� relationships� of� the� potentials� of� different� pins� is� an� inevitable� result�
�of� the� IC's� architecture.� The� operation� of� parasitic� elements� can� cause� interference� with� circuit� operation� as� well� as� IC�
�malfunction� and� damage.� For� these� reasons,� it� is� necessary� to� use� caution� so� that� the� IC� is� not� used� in� a� way� that� will�
�trigger� the� operation� of� parasitic� elements� such� as� by� the� application� of� voltages� lower� than� the� GND� (P� substrate)� voltage�
�to� input� and� output� pins.�
�Resistor�
�Transistor� (NPN)�
�(Pin� B)�
�(Pin� A)�
�(Pin� B)�
�C�
�B�
�E�
�B�
�C�
�E�
�N�
�GND�
�GND�
�N�
�P+�
�N�
�P�
�P+�
�N�
�N�
�P+�
�N�
�P�
�P+�
�N�
�(Pin� A)�
�Parasitic�
�elements�
�P�
�Parasitic� elements�
�P� substrate�
�GND�
�Parasitic� elements�
�GND�
�Parasitic�
�elements�
�GND�
�Fig.27� Example� of� a� Simple� Monolithic� IC� Architecture�
�9)� Overcurrent� protection� circuits�
�An� overcurrent� protection� circuit� designed� according� to� the� output� current� is� incorporated� for� the� prevention� of� IC� damage�
�that� may� result� in� the� event� of� load� shorting.� This� protection� circuit� is� effective� in� preventing� damage� due� to� sudden� and�
�unexpected� accidents.� However,� the� IC� should� not� be� used� in� applications� characterized� by� the� continuous� operation� or�
�transitioning� of� the� protection� circuits.� At� the� time� of� thermal� designing,� keep� in� mind� that� the� current� capacity� has� negative�
�characteristics� to� temperatures.�
�www.rohm.com�
�?� 2011� ROHM� Co.,� Ltd.� All� rights� reserved.�
�13/15�
�2011.02� -� Rev.A�
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| BD9329EFJ-E2 | 制造商:ROHM Semiconductor 功能描述:CONV DC-DC SINGLE STEP DOWN 4.2V TO 18V 8-PIN HTSOP-J T/R - Tape and Reel 制造商:ROHM Semiconductor 功能描述:IC REG BUCK SYNC ADJ 3A 8-HTSOP |
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