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参数资料
| 型号: | MAX8521EWX+T |
| 厂商: | Maxim Integrated Products |
| 文件页数: | 14/18页 |
| 文件大小: | 0K |
| 描述: | IC DRVR PWR TEC 36-WLP |
| 产品培训模块: | Lead (SnPb) Finish for COTS Obsolescence Mitigation Program |
| 标准包装: | 2,500 |
| 应用: | 热电冷却器 |
| 电源电压: | 3 V ~ 5.5 V |
| 工作温度: | -40°C ~ 85°C |
| 安装类型: | 表面贴装 |
| 封装/外壳: | 36-UFBGA,WLCSP |
| 供应商设备封装: | 36-WLP(3.07x3.07) |
| 包装: | 带卷 (TR) |
��
�
�Smallest� TEC� Power� Drivers� for� Optical�
�Modules�
�C� COMP� ≥� ?� m� ?� ×� ?� ?�
�The output common-mode ripple voltage can be calcu-�
�lated� as� follows:�
�V� RIPPLEpk-pk� =� LIR� x� I� TEC(MAX)� (ESR� +� 1/8� x� C� x� fs)�
�A� 1μF� ceramic� capacitor� with� ESR� of� 10� m� ?� with� LIR� =�
�12%� and� I� TEC(MAX)� =� 1.5A� will� result� in� V� RIPPLE(P-P)� of�
�24.3mV.� For� size-constraint� application,� the� capacitor�
�can� be� made� smaller� at� the� expense� of� higher� ripple�
�voltage.� However,� the� capacitance� must� be� high�
�enough� so� that� the� LC� resonant� frequency� is� less� than�
�1/5� the� switching� frequency:�
�tional� bypassing� may� be� needed� to� stabilize� the� input�
�supply.� In� such� cases,� a� low-ESR� electrolytic� or� ceramic�
�capacitor� of� 100μF� or� more� at� V� DD� is� sufficient.�
�Compensation� Capacitor�
�A� compensation� capacitor� is� needed� to� ensure� current-�
�control-loop� stability� (see� Figure� 3).� Select� the� capacitor�
�so� that� the� unity-gain� bandwidth� of� the� current-control�
�loop� is� less� than� or� equal� to� 10%� the� resonant� frequency�
�of� the� output� filter:�
�?� g� ?� ?� 24� � R� SENSE� ?�
�?� f� BW� ?� ?� 2� π� (� R� SENSE� ×� R� TEC� )� ?�
�f� =�
�1�
�2� π� LC�
�where:�
�f� BW� =� Unity-gain� bandwidth� frequency,� less� than� or�
�equal� to� 10%� the� output� filter� resonant� frequency�
�where� f� is� the� resonant� frequency� of� the� output� filter.�
�Differential� Mode� Filter� Capacitor�
�The� differential-mode� filter� capacitor� (C5� in� Figure� 1)� is�
�used� to� bypass� differential� ripple� current� through� the�
�TEC� as� the� result� of� unequal� duty� cycle� of� each� output.�
�This� happens� when� the� TEC� current� is� not� at� zero.� As�
�TEC� current� increases� from� zero,� both� outputs� move�
�away� from� the� 50%� duty-cycle� point� complementarily.�
�The� common-mode� ripple� decreases,� but� the� differential�
�ripple� does� not� cancel� perfectly,� and� there� will� be� a�
�resulting� differential� ripple.� The� maximum� value� happens�
�when� one� output� is� at� 75%� duty� cycle� and� the� other� is� at�
�25%� duty� cycle.� At� this� operating� point,� the� differential�
�ripple� is� equal� to� 1/2� of� the� maximum� common-mode� rip-�
�ple.� The� TEC� ripple� current� determines� the� TEC� perfor-�
�mance,� because� the� maximum� temperature� differential�
�that� can� be� created� between� the� terminals� of� the� TEC�
�depends� on� the� ratio� of� ripple� current� and� DC� current.�
�The� lower� the� ripple� current,� the� closer� to� the� ideal� maxi-�
�mum.� The� differential-mode� capacitor� provides� a� low-�
�impedance� path� for� the� ripple� current� to� flow,� so� that� the�
�TEC� ripple� current� is� greatly� reduced.� The� TEC� ripple�
�current� then� can� be� calculated� as� follows:�
�I� TEC(RIPPLE)� =� (0.5� x� LIR� x� I� TEC(MAX)� )� x� (Z� C5� )/(R� TEC�
�+� R� SENSE� +� Z� C5� )�
�where� Z� C5� is� the� impedance� of� C5� at� twice� the� switching�
�frequency,� R� TEC� is� the� TEC� equivalent� resistance,� and�
�R� SENSE� is� the� current-sense� resistor.�
�Decoupling� Capacitor� Selection�
�Decouple� each� power� supply� input� (V� DD� ,� PVDD1,�
�PVDD2)� with� a� 1μF� ceramic� capacitor� close� to� the� sup-�
�ply� pins.� In� applications� with� long� distances� between�
�the� source� supply� and� the� MAX8520/MAX8521,� addi-�
�g� m� =� Loop� transconductance,� typically� 100μA/V�
�C� COMP� =� Value� of� the� compensation� capacitor�
�R� TEC� =� TEC� series� resistance,� use� the� minimum� resis-�
�tance� value�
�R� SENSE� =� Sense� resistor�
�Setting� Voltage� and� Current� Limits�
�Certain� TEC� parameters� must� be� considered� to� guarantee�
�a� robust� design.� These� include� maximum� positive� current,�
�maximum� negative� current,� and� the� maximum� voltage�
�allowed� across� the� TEC.� These� limits� should� be� used� to�
�set� the� MAXIP,� MAXIN,� and� MAXV� voltages.�
�Setting� Max� Positive� and� Negative� TEC� Current�
�MAXIP� and� MAXIN� set� the� maximum� positive� and� nega-�
�tive� TEC� currents,� respectively.� The� default� current� limit�
�is� ±150mV/R� SENSE� when� MAXIP� and� MAXIN� are� con-�
�nected� to� REF.� To� set� maximum� limits� other� than� the�
�defaults,� connect� a� resistor-divider� from� REF� to� GND� to�
�set� V� MAXI_� .� Use� resistors� in� the� 10k� ?� to� 100k� ?� range.�
�V� MAXI_� is� related� to� ITEC� by� the� following� equations:�
�V� MAXIP� =� 10(I� TECP(MAX)� � R� SENSE� )�
�V� MAXIN� =� 10(I� TECN(MAX)� � R� SENSE� )�
�where� I� TECP(MAX)� is� the� maximum� positive� TEC� current�
�and� I� TECN(MAX)� is� the� negative� maximum� TEC� current.�
�Positive� TEC� current� occurs� when� CS� is� less� than� OS1:�
�I� TEC� x� R� SENSE� =� OS1� -� CS�
�when� I� TEC� >� 0A.�
�I� TEC� � R� SENSE� =� CS� -� OS1�
�when� I� TEC� <� 0A.�
�14�
�______________________________________________________________________________________�
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