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参数资料
| 型号: | ADP1043ADC1-EVALZ |
| 厂商: | Analog Devices Inc |
| 文件页数: | 27/72页 |
| 文件大小: | 0K |
| 描述: | BOARD EVAL ADP1043A DAUGHTERCARD |
| 标准包装: | 1 |
| 主要目的: | 电源管理,电源监控器/跟踪器/序列发生器 |
| 已用 IC / 零件: | ADP1043A |
| 主要属性: | * |
| 次要属性: | * |
| 已供物品: | 板 |
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��ADP1043A�
�POWER� SUPPLY� CALIBRATION� AND� TRIM�
�The� ADP1043A� allows� the� entire� power� supply� to� be� calibrated�
�and� trimmed� digitally� in� the� production� environment.� It� can�
�calibrate� items� such� as� output� voltage� and� trim� for� tolerance�
�errors� introduced� by� sense� resistors� and� resistor� dividers,� as� well�
�as� its� own� internal� circuitry.� The� part� comes� factory� trimmed,�
�but� it� can� be� retrimmed� by� the� user� to� compensate� for� the� errors�
�introduced� by� external� components.�
�The� ADP1043A� allows� the� user� enough� trim� capability� to� trim�
�for� external� components� with� a� tolerance� of� 0.5%� or� better.� If�
�the� ADP1043A� is� not� trimmed� in� the� production� environment,�
�it� is� recommended� that� components� with� a� 0.1%� tolerance� be�
�used� for� the� inputs� to� CS1,� CS2,� VS1,� VS2,� VS3+,� and� VS3?� to�
�meet� data� sheet� specifications.�
�CS1� TRIM�
�Using� a� DC� Signal�
�A� known� voltage� (Vx)� is� applied� at� the� CS1� pin.� The� CS1� ADC�
�should� output� a� digital� code� equal� to� Vx/337� μV.� The� CS1� gain�
�trim� register� (Register� 0x21)� is� adjusted� until� the� CS1� ADC�
�value� in� Register� 0x13� reads� the� correct� digital� code.�
�Using� an� AC� Signal�
�A� known� current� (Ix)� is� applied� to� the� PSU� input.� This� current�
�CS2� Offset� Trim�
�It� is� important� to� perform� the� CS2� offset� trim� as� described� in�
�the� following� steps.�
�1.� Set� the� nominal� full-scale� sense� resistor� voltage� drop� in�
�Register� 0x23,� Bits[7:6].�
�2.� Set� high-side� or� low-side� current� sensing� in� Register� 0x24,�
�Bit� 7.�
�3.� Offset� errors� can� be� introduced� by� the� external� bias�
�resistors� and� the� internal� current� sources.� Apply� no-load�
�current� across� the� sense� resistor.� Adjust� the� CS2� offset� trim�
�value� (Register� 0x24,� Bits[6:0])� until� the� CS2� value� in�
�Register� 0x18� reads� as� close� to� 100� decimal� as� possible.�
�4.� Adjust� the� CS2� digital� trim� register� (Register� 0x25)� until�
�the� CS2� value� in� Register� 0x18� reads� 0.�
�The� offset� trim� is� now� completed,� and� the� ADC� code� reads� 0� if�
�there� is� no-load� current� across� the� sense� resistor.�
�CS2� Gain� Trim�
�After� performing� the� offset� trim,� perform� the� gain� trim� to�
�remove� any� mismatch� that� is� introduced� by� the� sense� resistor�
�tolerance.� The� ADP1043A� can� trim� for� sense� resistors� with� a�
�tolerance� of� 1%� or� better.�
�passes� through� a� current� transformer,� a� diode� rectifier,� and� an�
�external� resistor� (R� CS1� )� to� convert� the� current� information� to� a�
�1.�
�2.�
�Apply� a� known� current� (I� OUT� )� across� the� sense� resistor.�
�Adjust� the� CS2� gain� trim� value� (Register� 0x23,� Bits[5:0])�
�voltage� (Vx).� This� voltage� is� fed� into� the� CS1� pin.� The� voltage�
�(Vx)� is� calculated� as� follows:�
�Vx� =� Ix� � (� n2� /� n1� )� � R� CS1�
�where� n2� /� n1� is� the� turns� ratio� of� the� current� transformer.�
�The� CS1� ADC� should� output� a� digital� code� equal� to� Vx/337� μV.�
�The� CS1� gain� trim� register� (Register� 0x21)� is� adjusted� until� the�
�CS1� ADC� value� in� Register� 0x13� reads� the� correct� digital� code.�
�As� described� in� the� CS1� Pin� section,� the� CS1� ADC� has� a�
�frequency� response.� To� achieve� more� accurate� trimming,�
�the� following� multiplication� factor� (M)� should� be� used:�
�M� =� (?2� � 10� ?18� � f� SW� 3� )� +� (2� � 10� ?12� � f� SW� 2� )� +� (2� � 10� ?8� � f� SW� )� +� 0.9998�
�where� f� SW� is� the� switching� frequency� of� the� power� supply.�
�CS2� TRIM�
�The� CS2� trim� must� compensate� for� offset� and� gain� errors.� The�
�offset� error� requires� both� an� analog� trim� and� a� digital� trim.� The�
�CS2� ADC� range� does� not� begin� at� 0� V� but� instead� begins� at�
�?25� mV� to� allow� it� to� perform� reverse� current� protection� for� the�
�OrFET� circuit.� Therefore,� with� ?25� mV� at� the� CS2� input,� the� ADC�
�code� should� read� 0.� With� 0� mV� at� the� CS2� input,� the� ADC� code�
�should� read� 100� decimal.� For� this� reason,� the� analog� offset� trim�
�is� performed� until� the� CS2� reading� equals� 100� decimal� (not� 0).�
�For� this� reason,� also,� the� digital� trim� is� required.�
�until� the� CS2� value� in� Register� 0x18� reads� the� value�
�calculated� by� the� following� formula:�
�CS2� Value� =� I� OUT� � 2457� � (� R� SENSE� /� FS� )�
�where:�
�FS� is� the� full-scale� voltage� drop.�
�R� SENSE� is� the� sense� resistor� value.�
�For� example,� if� I� OUT� =� 4.64� A,� R� SENSE� =� 20� mΩ,� and�
�FS� =� 150� mV,� then�
�CS2� Value� =� (4.64� A� ×� 2457)� ×� (20� mΩ/150� mV)�
�CS2� Value� =� 1520� decimal�
�The� CS2� circuit� is� now� trimmed.� After� the� current� sense� trim� is�
�performed,� the� OCP� limits� and� settings� should� be� configured.�
�VOLTAGE� CALIBRATION� AND� TRIM�
�The� voltage� sense� inputs� are� optimized� for� sensing� signals� at�
�1� V� and� cannot� sense� a� signal� greater� than� 1.5� V.� In� a� 12� V�
�system,� a� 12:1� resistor� divider� is� required� to� reduce� the� 12� V�
�signal� to� below� 1.5� V.� It� is� recommended� that� the� output� voltage�
�of� the� power� supply� be� reduced� to� 1� V� for� best� performance.�
�The� resistor� divider� can� introduce� errors,� which� need� to� be�
�trimmed.� The� ADP1043A� has� enough� trim� range� to� trim� out�
�errors� introduced� by� resistors� with� 0.5%� tolerance� or� better.�
�The� ADCs� output� a� digital� word� of� 2643� decimal� (0xA53)�
�when� there� is� exactly� 1� V� at� their� inputs.�
�Rev.� 0� |� Page� 27� of� 72�
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