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参数资料
| 型号: | A6267KLPTR-T |
| 厂商: | Allegro Microsystems Inc |
| 文件页数: | 8/17页 |
| 文件大小: | 0K |
| 描述: | IC LED CTLR AUTO HI CURR 16TSSOP |
| 标准包装: | 8,000 |
| 恒定电流: | 是 |
| 拓扑: | 低端,PWM,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 |
| 频率: | 100kHz ~ 700kHz |
| 电源电压: | 6.5 V ~ 50 V |
| 安装类型: | 表面贴装 |
| 封装/外壳: | 16-TSSOP(0.173",4.40mm)裸露焊盘 |
| 供应商设备封装: | 16-TSSOP-EP |
| 包装: | 带卷 (TR) |
| 工作温度: | -40°C ~ 150°C |
��
�
�A6267�
�Automotive� High� Current� LED� Controller�
�LF� Single� diode� forward� voltage� reference� input.� Measures� the�
�forward� voltage� of� the� first� LED.� This� value� is� used� as� a� reference�
�against� the� voltage� on� the� LA� pin� to� detect� possible� shorted� LEDs�
�in� the� LED� string.�
�Circuit� Operation�
�Converter� A� constant� frequency,� current� mode� control� scheme�
�is� used� to� regulate� the� current� through� the� LEDs.� There� are� two�
�control� loops� within� the� regulator.� The� inner� loop� formed� by� the�
�amplifier,� AS� (see� the� Functional� Block� Diagram� for� AS,� AC,� AE,�
�and� AL),� comparator,� AC,� and� the� RS� bistable,� controls� the� induc-�
�tor� current� as� measured� through� the� switch� by� the� switch� sense�
�resistor,� R� SS� .�
�The� outer� loop� including� the� amplifier,� AL,� and� the� integrating�
�error� amplifier,� AE,� controls� the� average� LED� current� by� provid-�
�ing� a� setpoint� reference� for� the� inner� loop.�
�The� LED� current� is� measured� by� the� LED� sense� resistor,� R� SL� ,�
�and� compared� to� the� internal� reference� current� to� produce� an�
�integrated� error� signal� at� the� output� of� AE.� This� error� signal� sets�
�the� average� amount� of� energy� required� from� the� inductor� by� the�
�LEDs.� The� average� inductor� energy� transferred� to� the� LEDs� is�
�defined� by� the� average� inductor� current� as� determined� by� the�
�inner� control� loop.�
�The� inner� loop� establishes� the� average� inductor� current� by�
�controlling� the� peak� switch� current� on� a� cycle-by-cycle� basis.�
�Because� the� relationship� between� peak� current� and� average� cur-�
�rent� is� non-linear,� depending� on� the� duty� cycle,� the� reference�
�level� for� the� peak� switch� current� is� modified� by� a� slope� generator.�
�This� compensation� reduces� the� peak� switch� current� measurement�
�by� a� small� amount� as� the� duty� cycle� increases� (refer� to� figure� 1).�
�The� slope� compensation� also� removes� the� instability� inherent� in� a�
�fixed� frequency� current� control� scheme.�
�The� control� loops� work� together� as� follows:� the� switch� current,�
�sensed� by� the� switch� current� sense� resistor,� R� SS� ,� is� compared�
�to� the� LED� current� error� signal.� As� the� LED� current� increases�
�the� output� of� AE� will� reduce,� reducing� the� peak� switch� current�
�and� thus� the� current� delivered� to� the� LEDs.� As� the� LED� current�
�decreases� the� output� of� AE� increases,� increasing� the� peak� switch�
�current� and� thus� increasing� the� current� delivered� to� the� LEDs.�
�known� as� discontinuous� mode� operation,� and� results� in� some� low�
�frequency� ripple.� The� average� LED� current,� however,� remains�
�regulated� down� to� zero.� In� discontinuous� mode,� when� the� induc-�
�tor� current� drops� to� zero,� the� voltage� at� the� drain� of� the� external�
�MOSFET� rings,� due� to� the� resonant� LC� circuit� formed� by� the�
�inductor,� and� the� switch� and� diode� capacitance.� This� ringing� is�
�low� frequency� and� is� not� harmful.�
�Switch� Current� Limit� The� switch� current� is� measured� by� the�
�switch� sense� resistor,� R� SS� ,� and� the� switch� sense� amplifier,� AS�
�(see� the� Functional� Block� Diagram).� The� input� limit� of� the� sense�
�amplifier,� V� IDS� ,� and� the� maximum� switch� current,� I� SMAX� ,� define�
�the� maximum� value� of� the� sense� resistor� as:�
�R� SS� =� V� IDS� /� I� SMAX� (1)�
�This� defines� the� maximum� measurable� value� of� the� switch� (and�
�inductor)� current.�
�The� maximum� switch� current� is� modulated� by� the� on-time� of� the�
�switch.� An� internal� slope� compensation� signal� is� subtracted� from�
�the� voltage� sense� signal� to� produce� a� peak� sense� voltage� which�
�effectively� defines� the� current� limit.� This� signal� is� applied� at� a�
�rate� of� –16� mV� /� μ� s� starting� with� no� contribution� (t� =� 0� μ� s)� at� the�
�beginning� of� each� switching� cycle.� Figure� 1� illustrates� how� the�
�peak� sense� voltage� (typical� values)� changes� over� a� period� of� 3� μ� s.�
�For� example,� the� maximum� current� (typical)� through� the� switch�
�at� t� =� 1.5� μ� s� (D� =� 50%)� would� be� 145� mV/R� SS� ,� however,� if� the�
�switch� remained� on� for� a� further� 1� μ� s,� the� maximum� current�
�through� the� switch� would� be� 129� mV/R� SS� .�
�200�
�150�
�100�
�50�
�0�
�Under� some� conditions,� especially� when� the� LED� current� is� set� to�
�a� low� value,� the� energy� required� in� the� inductor� may� result� in� the�
�0�
�1�
�Period� (� μ� s)�
�2�
�3�
�inductor� current� dropping� to� zero� for� part� of� each� cycle.� This� is�
�Figure� 1.� Slope� compensation� for� peak� switch� current� control.�
�Allegro� MicroSystems,� LLC�
�115� Northeast� Cutoff�
�Worcester,� Massachusetts� 01615-0036� U.S.A.�
�1.508.853.5000;� www.allegromicro.com�
�8�
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