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参数资料
| 型号: | MAX16834ATP+T |
| 厂商: | Maxim Integrated |
| 文件页数: | 16/23页 |
| 文件大小: | 0K |
| 描述: | IC LED DRIVR HIGH BRIGHT 20-TQFN |
| 产品培训模块: | Lead (SnPb) Finish for COTS Obsolescence Mitigation Program |
| 标准包装: | 2,500 |
| 拓扑: | PWM,SEPIC,降压(降压),升压(升压) |
| 输出数: | 1 |
| 内部驱动器: | 无 |
| 类型 - 主要: | 车载,背光 |
| 类型 - 次要: | 高亮度 LED(HBLED),RGB |
| 频率: | 100kHz ~ 1MHz |
| 电源电压: | 4.75 V ~ 28 V |
| 安装类型: | 表面贴装 |
| 封装/外壳: | 20-WFQFN 裸露焊盘 |
| 供应商设备封装: | 20-TQFN-EP |
| 包装: | 带卷 (TR) |
| 工作温度: | -40°C ~ 125°C |
��
�
�MAX16834�
�High-Power� LED� Driver� with� Integrated� High-Side� LED�
�Current� Sense� and� PWM� Dimming� MOSFET� Driver�
�(� R� LED� +� R� 10� )� � V� LED�
�R� OUT� =�
�Boost� configuration:�
�(� R� LED� +� R� 10� )� � I� LED� +� V� LED�
�C� 7� =�
�1�
�2� π� ×� R� 7� ×� f� P� 2�
�where� C7� is� in� farads,� f� P2� is� in� hertz,� and� R7� is� in� ohms.�
�Boost-buck� configuration:�
�To� minimize� switching� frequency� noise,� an� additional�
�R� OUT� =�
�(� R� LED� +� R� 10� )� � V� LED�
�(� R� LED� +� R� 10� )� � I� LED� � D� MAX� +� V� L� ED�
�capacitor� can� be� added� in� parallel� with� the� series� com-�
�bination� of� R7� and� C7.� The� pole� from� this� capacitor� and�
�R7� must� be� a� decade� higher� than� the� loop� crossover�
�where� R� LED� is� the� dynamic� impedance� (rate� of� change�
�of� voltage� with� current)� of� the� LED� string� at� the� operat-�
�ing� current,� R10� is� the� LED� current-sense� resistor� in�
�ohms,� V� LED� is� in� volts,� and� I� LED� is� in� amperes.�
�The� output� pole� frequency� for� both� boost� and� boost-�
�buck� configurations� is� calculated� as� follows:�
�frequency.�
�Short-Circuit� Protection�
�Boost� Configuration�
�In� the� boost� configuration� (Figure� 2),� if� the� LED� string� is�
�shorted� then� the� excess� current� flowing� in� the� LED� cur-�
�rent-sense� resistor� will� cause� NDRV� to� stop� switching.�
�f� P� 2� =�
�1�
�2� π� ×� C� OUT� ×� R� OUT�
�The� input� voltage� will� appear� on� the� output� capacitor,�
�and� this� causes� very� high� peak� currents� to� flow� in� the�
�LED� current-sense� resistor� R10� because� the� dimming�
�MOSFET� (Q2)� is� on.� Once� the� voltage� across� the� LED�
�where� f� P2� is� in� hertz,� C� OUT� is� the� output� filter� capaci-�
�tance� in� farads,� R� OUT� is� the� effective� output� impedance�
�in� ohms� calculated� above.�
�Compensation� components� R7� and� C7� perform� two�
�functions.� C7� introduces� a� low-frequency� pole� that�
�introduces� a� -20dB/decade� slope� into� the� loop� gain.� R7�
�flattens� the� gain� of� the� error� amplifier� for� frequencies�
�above� the� zero� formed� by� R7� and� C7.� For� compensa-�
�tion,� this� zero� is� placed� at� the� output� pole� frequency� f� P2�
�such� that� it� provides� a� -20dB/decade� slope� for� frequen-�
�cies� above� f� P2� for� the� complete� loop� gain.�
�The� value� of� R7� needed� to� fix� the� total� loop� gain� at� f� P2�
�such� that� the� total� loop� gain� crosses� 0dB� at�
�-20dB/decade� at� one-fifth� of� the� RHP� zero� can� be� cal-�
�culated� as� follows:�
�current-sense� resistor� exceeds� 300mV� for� more� than�
�5μs,� then� the� dimming� MOSFET� Q2� turns� off� and� stays�
�off� for� 4096� switching� clock� cycles.� At� the� same� time,�
�NDRV� is� also� off.� The� MAX16834� goes� into� the� hiccup�
�mode� and� recovers� from� hiccup� once� the� short� has�
�been� removed.� The� power� dissipation� in� the� dimming�
�MOSFET� (Q2)� is� minimized� during� a� short� across� the�
�LED� string.� During� the� same� period,� FLT� only� goes� high�
�when� the� dimming� MOSFET� is� on.�
�Boost-Buck� Configuration�
�In� the� case� of� the� boost-buck� configuration� (Figure� 3),�
�once� an� LED� string� short� occurs� then� the� behavior� is�
�different.� A� short� across� the� LED� string� causes� a� high�
�current� spike� due� to� the� external� capacitors� at� the� out-�
�put.� The� regulation� loop� will� cause� NDRV� to� stop�
�switching.� This� causes� the� voltage� on� HV� to� drop� if� its�
�R� 7� =�
�f� ZRHP� � R� 8�
�5� � f� P� 2� � (� 1� ?� D� MAX� )� � R� 10� � 9� .� 9� � GM� COMP�
�voltage� is� derived� from� LED+.� The� voltage� on� CLV� will�
�drop,� and� this� drop� is� detected� after� 128� clock� cycles.�
�The� dimming� MOSFET� and� the� switching� MOSFET� will�
�where� R7� is� the� compensation� resistor� in� ohms,� f� ZRHP�
�and� f� P2� are� in� hertz,� R8� is� the� switch� current-sense�
�resistor� in� ohms,� R10� is� the� LED� current-sense� resistor�
�in� ohms,� factor� 9.9� is� the� gain� of� the� LED� current� ampli-�
�fier,� and� GM� COMP� is� the� transconductance� of� the� error�
�amplifier� in� Siemens.�
�The� value� of� C7� can� be� calculated� as:�
�16�
�stop� switching.� It� stays� off� for� 4096� clock� cycles,� and�
�the� cycle� repeats� itself.� The� short� across� the� LED� string�
�will� cause� the� MAX16834� to� go� into� a� hiccup� mode.� At�
�the� same� time� the� FLT� signal� asserts� itself� for� 4096�
�clock� cycles� every� hiccup� cycle.� In� the� case� where� the�
�HV� voltage� is� derived� from� a� source� different� than�
�LED+,� then� the� LED� current� will� stay� in� regulation� even�
�during� a� short� across� the� LED� string.� In� this� case,� FLT�
�does� not� assert� itself� during� the� short.�
�Maxim� Integrated�
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