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| 型号: | ADP122-3.3-EVALZ |
| 厂商: | Analog Devices Inc |
| 文件页数: | 14/24页 |
| 文件大小: | 0K |
| 描述: | BOARD EVALUATION 3.3V ADP122 |
| 标准包装: | 1 |
| 每 IC 通道数: | 1 - 单 |
| 输出电压: | 3.3V |
| 电流 - 输出: | 300mA |
| 输入电压: | 2.3 ~ 5.5 V |
| 稳压器类型: | 正,固定式 |
| 工作温度: | -40°C ~ 85°C |
| 板类型: | 完全填充 |
| 已供物品: | 板 |
| 已用 IC / 零件: | ADP122 |
��
�
�ADP122/ADP123�
�CURRENT� LIMIT� AND� THERMAL� OVERLOAD�
�PROTECTION�
�Data� Sheet�
�Table� 6.� Typical� θ� JA� Values� for� Specified� PCB� Copper� Sizes�
�θ� JA� (°C/W)�
�The� ADP122/ADP123� are� protected� from� damage� due� to� excessive�
�power� dissipation� by� current� and� thermal� overload� protection�
�circuits.� The� ADP122/ADP123� are� designed� to� limit� the� current�
�when� the� output� load� reaches� 500� mA� (typical).� When� the� output�
�load� exceeds� 500� mA,� the� output� voltage� is� reduced� to� maintain�
�a� constant� current� limit.�
�Copper� Size� (mm� 2� )�
�0� 1�
�50�
�100�
�300�
�500�
�TSOT�
�170�
�152�
�146�
�134�
�131�
�LFCSP�
�255�
�164�
�138�
�109�
�80�
�Device� soldered� to� narrow� traces.�
�Thermal� overload� protection� is� included,� which� limits� the� junction�
�temperature� to� a� maximum� of� 150°C� typical.� Under� extreme� con-�
�ditions� (that� is,� high� ambient� temperature� and� power� dissipation),�
�when� the� junction� temperature� starts� to� rise� above� 150°C,� the�
�1�
�The� typical� Ψ� JB� values� are� 42.8°C/W� for� TSOT� packages� and�
�44.1°C/W� for� LFCSP� packages.�
�output� is� turned� off,� reducing� output� current� to� zero.� When� the�
�junction� temperature� cools� to� less� than� 135°C,� the� output� is� turned�
�on� again� and� the� output� current� is� restored� to� its� nominal� value.�
�Consider� the� case� where� a� hard� short� from� VOUT� to� GND� occurs.�
�At� first,� the� ADP122/ADP123� limit� the� current� so� that� only� 500� mA�
�is� conducted� into� the� short.� If� self-heating� causes� the� junction�
�temperature� to� rise� above� 150°C,� thermal� shutdown� activates,�
�turning� off� the� output� and� reducing� the� output� current� to� zero.�
�The� junction� temperature� of� the� ADP122/ADP123� can� be�
�calculated� from� the� following� equation:�
�T� J� =� T� A� +� (� P� D� ×� θ� JA� )�
�where:�
�T� A� is� the� ambient� temperature.�
�P� D� is� the� power� dissipation� in� the� die,� given� by�
�P� D� =� [(� V� IN� ?� V� OUT� )� � I� LOAD� ]� +� (� V� IN� � I� GND� )�
�(2)�
�(3)�
�When� the� junction� temperature� cools� to� less� than� 135°C,� the�
�output� turns� on� and� conducts� 500� mA� into� the� short,� again�
�causing� the� junction� temperature� to� rise� above� 150°C.� This�
�thermal� oscillation� between� 135°C� and� 150°C� results� in� a� current�
�oscillation� between� 500� mA� and� 0� mA� that� continues� as� long� as�
�the� short� remains� at� the� output.�
�Current� and� thermal� limit� protections� are� intended� to� protect� the�
�device� from� damage� due� to� accidental� overload� conditions.� For�
�reliable� operation,� the� device� power� dissipation� must� be� externally�
�limited� so� that� the� junction� temperature� does� not� exceed� 125°C.�
�THERMAL� CONSIDERATIONS�
�To� guarantee� reliable� operation,� the� junction� temperature� of� the�
�ADP122/ADP123� must� not� exceed� 125°C.� To� ensure� that� the�
�junction� temperature� is� less� than� this� maximum� value,� the� user�
�needs� to� be� aware� of� the� parameters� that� contribute� to� junction�
�temperature� changes.� These� parameters� include� ambient� tem-�
�perature,� power� dissipation� in� the� power� device,� and� thermal�
�resistances� between� the� junction� and� ambient� air� (θ� JA� ).� The� value�
�of� θ� JA� is� dependent� on� the� package� assembly� compounds� used�
�and� the� amount� of� copper� to� which� the� GND� pins� of� the� package�
�are� soldered� on� the� PCB.� Table� 6� shows� typical� θ� JA� values� of� the�
�5-lead� TSOT� package� and� 6-lead� LFCSP� package� for� various�
�where:�
�I� LOAD� is� the� load� current.�
�I� GND� is� the� ground� current.�
�V� IN� and� V� OUT� are� input� and� output� voltages,� respectively.�
�The� power� dissipation� due� to� ground� current� is� quite� small� and�
�can� be� ignored.� Therefore,� the� junction� temperature� equation�
�can� be� simplified� as� follows:�
�T� J� =� T� A� +� {[(� V� IN� ?� V� OUT� )� ×� I� LOAD� ]� ×� θ� JA� }� (4)�
�As� shown� in� Equation� 4,� for� a� given� ambient� temperature,� input-�
�to-output� voltage� differential,� and� continuous� load� current,� there�
�exists� a� minimum� copper� size� requirement� for� the� PCB� to� ensure�
��through� Figure� 44� show� junction� temperature� calculations� for�
�different� ambient� temperatures,� load� currents,� V� IN� to� V� OUT�
�differentials,� and� areas� of� PCB� copper.�
�In� cases� where� the� board� temperature� is� known,� the� thermal�
�characterization� parameter,� Ψ� JB� ,� can� be� used� to� estimate� the� jun-�
�ction� temperature� rise.� The� maximum� junction� temperature� (T� J� )� is�
�calculated� from� the� board� temperature� (T� B� )� and� power� dissipation�
�(P� D� )� using� the� formula�
�T� J� =� T� B� +� (� P� D� ×� Ψ� JB� )� (5)�
�PCB� copper� sizes.�
�Rev.� E� |� Page� 14� of� 24�
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