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参数资料
| 型号: | ADP2291RM-EVALZ |
| 厂商: | Analog Devices Inc |
| 文件页数: | 12/20页 |
| 文件大小: | 0K |
| 描述: | BOARD EVAL ADP2291 |
| 标准包装: | 1 |
| 主要目的: | 电源管理,电池充电器 |
| 嵌入式: | 否 |
| 已用 IC / 零件: | ADP2291 |
| 主要属性: | 锂离子电池,750mA 时为 4.2V 输出,4.5 ~ 5.5 Vin |
| 次要属性: | LED 状态指示器,深度放电,预充电,热关闭模式 |
| 已供物品: | 板 |
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��ADP2291�
�APPLICATION� INFORMATION�
�SETTING� THE� MAXIMUM� CHARGE� CURRENT�
�The� maximum� charge� current� is� set� by� choosing� the� proper�
�current� sense� resistor,� R� S� ,� and� the� voltage� on� the� ADJ� input.�
�The� charger� nominally� regulates� its� output� current� at� the� point�
�where� the� voltage� across� the� current� sense� resistor� V� IN� –� V� CS�
�(defined� as� V� RS� )� is� 150� mV.� This� setpoint� voltage� can� be� adjusted�
�by� pulling� down� on� the� ADJ� input,� which� is� internally� attached�
�through� a� 100� k� ?� pull-up� resistor� to� 3� V.� Each� volt� of� pull-down�
�from� 3� V� reduces� V� RS� by� 67� mV� during� fast� charge.� A� minimum�
�of� 50� mV� is� reached� when� a� 100� k� ?� resistor� is� attached� between�
�ADJ� and� ground.� During� slow� charge,� the� voltage� across� the�
�current� sense� resistor� is� 15� mV� with� no� connection� to� ADJ,� and�
�it� drops� to� 10� mV� with� a� 100� k� ?� resistor� attached� to� ground.�
�Therefore,� the� maximum� charge� rate� I� MAX� is� calculated� as�
�SETTING� THE� MAXIMUM� CHARGE� TIME�
�The� maximum� charge� time� is� intended� as� a� safety� mechanism�
�to� prevent� the� charger� from� trickle� charging� the� cell� indefinitely.�
�It� does� not� terminate� charging� under� normal� charging� condi-�
�tions,� but� only� when� there� is� a� failure� to� reach� end-of-charge.�
�A� typical� cell� charges� at� a� 1� C� rate� in� about� 1.5� hours,� depending�
�on� the� cell� type,� temperature,� and� manufacturer.� Generally,�
�a� three-hour� time� limit� is� sufficient� to� prevent� a� normal� charge�
�cycle� from� being� interrupted� by� the� charge� timer.� It� is� recom-�
�mended� that� the� cell� manufacturer� be� consulted� for� timing�
�details.�
�The� maximum� charge� time� is� set� by� selecting� the� value� of� the�
�CTIMER� capacitor.� Calculate� the� timer� capacitance� using�
�=� RS�
�CTIMER� =� t� CHG� (minutes)� �
�(4)�
�I� MAX�
�V� (mV)�
�R� S� (� m� )�
�(1)�
�1� μF�
�1800� minutes�
�The� precharge� and� end-of-charge� periods� are� 1/6� the� duration�
�where� 50� mV� ≤� V� RS� ≤� 150� mV.�
�After� determining� suitable� values� for� V� RS� and� R� S� ,� the� value� of�
�V� ADJ� and� R� ADJ� are� calculated� as�
�of� the� fast� charge� time� limit.� The� charge� timers� are� completely�
�disabled� by� connecting� the� TIMER� pin� to� ground.� If� the� timers�
�are� disabled,� the� FAULT� and� TIMEOUT� states� are� never� reached,�
�so� the� timers� should� only� be� disabled� if� charging� is� monitored�
�V� ADJ� =�
�V� RS� (� mV� )� +� 50� mV�
�66� .� 7� mV�
�V�
�(2)�
�and� controlled� externally.�
�EXTERNAL� CAPACITORS�
�R� ADJ� =� 100� k?� � ?�
�?� 3� V� ?� V� ADJ� ?� ?�
�?� V� ADJ� ?�
�?� ?�
��(3)�
�Use� an� input� supply� capacitor� (CIN)� with� a� value� in� the�
�1� μF� to� 10� μF� range� and� place� it� close� to� the� ADP2291.� This�
�should� provide� adequate� input� bypassing,� but� the� selected�
�capacitor� should� be� checked� in� the� actual� application� circuit.�
�Check� that� the� input� voltage� does� not� droop� or� overshoot�
�excessively� during� the� start-up� transient.�
�Table� 4.� Examples� of� RS� and� R� ADJ� Selection�
�I� MAX� RS� m?� V� RS� mV� V� ADJ� V�
�1.5� A� 100� 150� 3�
�1A� 100� 100� 2.25�
�750� mA� 100� 75� 1.87�
�500� mA� 100� 50� 1.5�
�750� mA� 200� 150� 3�
�500� mA� 200� 100� 2.25�
�375� mA� 200� 75� 1.87�
�250� mA� 200� 50� 1.5�
�R� ADJ�
�Open�
�300� K�
�167� K�
�100� K�
�Open�
�300� K�
�167� K�
�100� K�
�Use� a� battery� output� capacitor� (COUT)� with� a� value� of� at� least�
�10� μF.� This� capacitance� provides� compensation� when� no� battery�
�load� is� present.� In� addition,� the� battery� and� interconnections�
�appear� inductive� at� high� frequencies� and� must� be� accounted� for�
�when� the� charger� is� operated� with� a� battery� load.� Therefore,� a�
�small� amount� of� output� capacitance� is� necessary� to� compensate�
�for� the� inductive� nature� of� the� battery� and� connections.� Use� a�
�minimum� output� capacitance� value� of� 1� μF� for� applications�
�where� the� battery� cannot� be� removed.�
�500� mA�
�333� mA�
�250� mA�
�167� mA�
�300�
�300�
�300�
�300�
�150�
�100�
�75�
�50�
�3�
�2.25�
�1.87�
�1.5�
�Open�
�300� K�
�167� K�
�100� K�
�REVERSE� INPUT� PROTECTION�
�The� D� iode� D1,� shown� in� Figure� 22� through� Figure� 25� ,� is�
�optional.� It� is� required� only� if� the� input� adapter� voltage� can�
�be� applied� with� a� reverse� polarity.�
�If� the� adapter� voltage� is� high� enough,� a� Schottky� diode� is� recom-�
�mended� to� minimize� the� voltage� difference� from� the� adapter� to�
�the� charger� input� and� the� power� dissipation.� Choose� a� diode� with�
�a� continuous� current� rating� high� enough� to� handle� battery� charging�
�current� at� the� maximum� ambient� temperature.� Use� a� diode� with� a�
�voltage� rating� greater� than� the� maximum� adapter� voltage.�
�Rev.� A� |� Page� 12� of� 20�
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