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参数资料
| 型号: | MIC2196BM TR |
| 厂商: | Micrel Inc |
| 文件页数: | 9/12页 |
| 文件大小: | 0K |
| 描述: | IC REG CTRLR BST FLYBK PWM 8SOIC |
| 标准包装: | 2,500 |
| PWM 型: | 电流模式 |
| 输出数: | 1 |
| 频率 - 最大: | 440kHz |
| 占空比: | 85% |
| 电源电压: | 2.9 V ~ 14 V |
| 降压: | 无 |
| 升压: | 是 |
| 回扫: | 是 |
| 反相: | 无 |
| 倍增器: | 无 |
| 除法器: | 无 |
| Cuk: | 无 |
| 隔离: | 无 |
| 工作温度: | -40°C ~ 125°C |
| 封装/外壳: | 8-SOIC(0.154",3.90mm 宽) |
| 包装: | 带卷 (TR) |
| 其它名称: | MIC2196BMTR MIC2196BMTR-ND |
��
�
�Micrel,� Inc.�
�MIC2196�
�� (� R� WINDING� +� R� DSON� )�
�V� L� =� V� IN� ?�
�where:�
�V� O� � I� O�
�V� IN� ×� η�
�R� WINDING� is� the� winding� resistance� of� the� inductor�
�R� DSON� is� the� on� resistance� of� the� low� side�
�switching� MOSFET�
�where:�
�Q_gate� is� the� total� gate� charge� of� the� external�
�MOSFET�
�The� graph� in� Figure� 4� shows� the� total� gate� charge� which�
�can� be� driven� by� the� MIC2196� over� the� input� voltage�
�range.� Higher� gate� charge� will� slow� down� the� turn-on�
�and� turn-off� times� of� the� MOSFET,� which� increases�
�The� maximum� value� of� current� sense� resistor� is:�
�switching� losses.�
�R� SENSE� =�
�V� SENSE�
�I� IND(pk)�
�250�
�Max.� Gate� Charge�
�where:�
�V� SENSE� is� the� minimum� current� sense� threshold�
�of� the� CS� pin.�
�200�
�150�
�The� current� sense� pin,� CS,� is� noise� sensitive� due� to� the�
�low� signal� level.� The� current� sense� voltage�
�measurement� is� referenced� to� the� signal� ground� pin� of�
�the� MIC2196.� The� current� sense� resistor� ground� should�
�100�
�50�
�0�
�be� located� close� to� the� IC� ground.� Make� sure� there� are�
�no� high� currents� flowing� in� this� trace.� The� PCB� trace�
�between� the� high� side� of� the� current� sense� resistor� and�
�0�
�2�
�4� 6� 8� 10� 12� 14�
�INPUT� VOLTAGE� (V)�
�the� CS� pin� should� also� be� short� and� routed� close� to� the�
�ground� connection.� The� input� to� the� internal� current�
�sense� amplifier� has� a� 30ns� dead� time� at� the� beginning� of�
�each� switching� cycle.� This� dead� time� prevents� leading�
�edge� current� spikes� from� prematurely� terminating� the�
�switching� cycle.� A� small� RC� filter� between� the� current�
�sense� pin� and� current� sense� resistor� may� help� to�
�attenuate� larger� switching� spikes� or� high� frequency�
�switching� noise.� Adding� the� filter� slows� down� the� current�
�sense� signal,� which� has� the� effect� of� slightly� raising� the�
�overcurrent� limit� threshold.�
�MOSFET� Gate� Drive�
�The� MIC2196� converter� drives� a� low-side� N-Channel�
�MOSFET.� The� driver� for� the� OUTN� pin� has� a� 2� ?� typical�
�source� and� sink� impedance.� The� V� IN� pin� is� the� supply� pin�
�for� the� gate� drive� circuit.� The� maximum� supply� voltage� to�
�the� V� IN� pin� is� 14V.�
�MOSFET� Selection�
�In� a� boost� converter,� the� V� DS� of� the� MOSFET� is�
�approximately� equal� to� the� output� voltage.� The� maximum�
�V� DS� rating� of� the� MOSFET� must� be� high� enough� to� allow�
�for� ringing� and� spikes� in� addition� to� the� output� voltage.�
�The� V� IN� pin� supplies� the� N-Channel� gate� drive� voltage.�
�The� V� GS� threshold� voltage� of� the� N-channel� MOSFET�
�must� be� low� enough� to� operate� at� the� minimum� V� IN�
�voltage� to� guarantee� the� boost� converter� will� start� up.�
�The� maximum� amount� of� MOSFET� gate� charge� that� can�
�be� driven� is� limited� by� the� power� dissipation� in� the�
�MIC2196.� The� power� dissipated� by� the� gate� drive�
�circuitry� is� calculated� below:�
�P_gate_dri� ve� =� Q_gate� � V� IN� � fs�
�Figure� 4.� MIC2196� Frequency� vs.� Gate� Charge�
�External� Schottky� Diode�
�In� a� boost� converter� topology,� the� boost� diode,� D1� must�
�be� rated� to� handle� the� peak� and� average� current.� The�
�average� current� through� the� diode� is� equal� to� the�
�average� output� current� of� the� boost� converter.� The� peak�
�current� is� calculated� in� the� current� limit� section� of� this�
�specification.�
�For� the� MIC2196,� Schottky� diodes� are� recommended�
�when� they� can� be� used.� They� have� a� lower� forward�
�voltage� drop� than� ultra-fast� rectifier� diodes,� which� lowers�
�power� dissipation� and� improves� efficiency.� They� also� do�
�not� have� a� recovery� time� mechanism,� which� results� in�
�less� ringing� and� noise� when� the� diode� turns� off.� If� the�
�output� voltage� of� the� circuit� prevents� the� use� of� a�
�Schottky� diode,� then� only� ultra-fast� recovery� diodes�
�should� be� used.� Slower� diodes� will� dissipate� more� power�
�in� both� the� MOSFET� and� the� diode.� The� will� also� cause�
�excessive� ringing� and� noise� when� the� diode� turns� off.�
�Reference,� Enable� and� UVLO� Circuits�
�The� output� drivers� are� enabled� when� the� following�
�conditions� are� satisfied:�
�?� The� V� DD� voltage� (pin� 5)� is� greater� than� its�
�undervoltage� threshold.�
�?� The� voltage� on� the� enable� pin� is� greater� than� the�
�enable� UVLO� threshold.�
�The� internal� bias� circuitry� generates� a� 1.245V� bandgap�
�reference� for� the� voltage� error� amplifier� and� a� 3V� V� DD�
�voltage� for� the� internal� supply� bus.� The� V� DD� pin� must� be�
�decoupled� to� ground� with� a� 1� μ� F� ceramic� capacitor.�
�September� 2008�
�9�
�M9999-092908�
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