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参数资料
| 型号: | EVAL-AD7280AEDZ |
| 厂商: | Analog Devices Inc |
| 文件页数: | 21/48页 |
| 文件大小: | 0K |
| 描述: | BOARD EVAL FOR AD7280 |
| 标准包装: | 1 |
| 主要目的: | 电源管理,电池监控器 |
| 嵌入式: | 否 |
| 已用 IC / 零件: | * |
| 主要属性: | * |
| 次要属性: | SPI 接口 |
| 已供物品: | 板 |
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��
�
�AD7280A�
�The� 10� k� resistors� in� series� with� the� inputs� provide� protection� for�
�the� analog� inputs� in� the� event� of� an� overvoltage� or� undervoltage�
�on� those� inputs.� The� 100� nF� capacitor� across� the� differential� inputs�
�acts� as� a� low-pass� filter� in� conjunction� with� the� 10� k� resistor.�
�The� cutoff� frequency� of� the� low-pass� filter� is� 80� Hz.� Using� these�
�external� components,� the� default� acquisition� time� of� 400� ns� can�
�be� used,� which� allows� a� combined� acquisition� and� conversion�
�time� of� 1� μs.�
�CONVERTING� CELL� VOLTAGES� AND� AUXILIARY�
�ADC� INPUTS� IN� A� CHAIN� OF� AD7280As�
�The� AD7280A� provides� a� daisy-chain� interface� that� allows� up� to�
�eight� parts� to� be� stacked� without� the� need� for� individual� isola-�
�tion.� One� feature� of� the� daisy-chain� interface� is� the� ability� to�
�initiate� conversions� on� all� parts� in� the� daisy-chain� stack� with� a�
�single� convert� start� command.� The� convert� start� command� is�
�transferred� up� the� daisy� chain,� from� the� master� device� to� each�
�AD7280A� in� turn.� The� delay� time� between� each� AD7280A� is�
�t� DELAY� ,� as� shown� in� Figure� 34.� The� maximum� delay� between� the�
�start� of� conversions� on� the� master� AD7280A� and� the� last� AD7280A�
�device� in� the� chain� can� be� determined� by� multiplying� t� DELAY� by�
�the� number� of� slave� AD7280As� in� the� daisy� chain.� The� total�
�conversion� time� for� all� cell� voltage� and� auxiliary� ADC� input�
�conversions� can� be� calculated� using� the� following� equation:�
�Total� Conversion� Time� =� ((� t� ACQ� +� t� CONV� )� � (� Number� of�
�Conversions� per� Part� ))� ?� t� ACQ� +� ((� N� ?� 1)� � t� DELAY� )�
�where:�
�t� ACQ� is� the� analog� input� acquisition� time� of� the� AD7280A� (see�
�Table� 9).�
��Number� of� Conversions� per� Part� is� the� number� of� inputs� selected�
�for� conversion� (6,� 9,� or� 12,� as� listed� in� Table� 8),� multiplied� by�
�the� number� of� averages� selected� for� each� input� (1,� 2,� 4,� or� 8).�
�N� is� the� number� of� AD7280As� in� the� daisy� chain.�
�t� DELAY� is� the� delay� time� when� transferring� the� convert� start�
�command� between� adjacent� AD7280A� devices,� as� specified�
��The� total� conversion� times� calculated� for� three� possible�
��TOTAL� CONVERSION� TIME� =�
�((� t� ACQ� +� t� CONV� )� ×� (#CONVERSIONS� PER� PART))� –� t� ACQ� +� ((N� –� 1)� ×� t� DELAY� )�
�CNVST�
�INTERNAL� ADC�
�CONVERSIONS�
�PART� 1�
�t� CONV�
�VOLT� 6�
�VOLT� 5�
�t� ACQ� +� t� CONV�
�VOLT� 4�
�AUX6�
�SERIAL� READ�
�OPERATION�
�PART� 2�
�SERIAL� READ�
�OPERATION�
�PART� 3�
�t� DELAY�
�t� DELAY�
�VOLT� 12�
�VOLT� 18�
�t� DELAY�
�VOLT� 11�
�t� DELAY�
�VOLT� 17�
�VOLT� 10�
�t� ACQ� +� t� CONV�
�VOLT� 16�
�t� ACQ� +� t� CONV�
�AUX12�
�AUX18�
�Figure� 34.� ADC� Conversions� and� Readback� on� a� Chain� of� Three� AD7280As�
�Table� 10.� Calculated� Conversion� Times� for� Three� Example� AD7280A� Configurations,� T� A� =� ?40°C� to� +85°C�
�Bits�
�Bits�
�Bits�
�Conversion�
�Total� Conversion� Time�
�[D15:D14]�
�00�
�10�
�00�
�[D10:D9]�
�00�
�00�
�11�
�[D6:D5]�
�00�
�01�
�10�
�11�
�00�
�01�
�10�
�11�
�00�
�01�
�10�
�11�
�Configuration�
�12� channels;� t� CONV� =� 695� ns;� t� ACQ� =� 465� ns;� average� =� 0�
�12� channels;� t� CONV� =� 695� ns;� t� ACQ� =� 1.01� μs;� average� =� 0�
�12� channels;� t� CONV� =� 695� ns;� t� ACQ� =� 1.46� μs;� average� =� 0�
�12� channels;� t� CONV� =� 695� ns;� t� ACQ� =� 1.89� μs;� average� =� 0�
�6� channels;� t� CONV� =� 695� ns;� t� ACQ� =� 465� ns;� average� =� 0�
�6� channels;� t� CONV� =� 695� ns;� t� ACQ� =� 1.01� μs;� average� =� 0�
�6� channels;� t� CONV� =� 695� ns;� t� ACQ� =� 1.46� μs;� average� =� 0�
�6� channels;� t� CONV� =� 695� ns;� t� ACQ� =� 1.89� μs;� average� =� 0�
�12� channels;� t� CONV� =� 695� ns;� t� ACQ� =� 465� ns;� average� =� 8�
�12� channels;� t� CONV� =� 695� ns;� t� ACQ� =� 1.01� μs;� average� =� 8�
�12� channels;� t� CONV� =� 695� ns;� t� ACQ� =� 1.46� μs;� average� =� 8�
�12 channels; t� CONV� = 695 ns; t� ACQ� = 1.89 μs; average = 8�
�Time� per� Part�
�13.46� μs�
�19.45� μs�
�24.4� μs�
�29.13� μs�
�6.5� μs�
�9.22� μs�
�11.47� μs�
�13.62� μs�
�110.9� μs�
�162.67� μs�
�205.42� μs�
�246.27� μs�
�per� 48� Channel� Stack�
�15.2� μs�
�21.2� μs�
�26.15� μs�
�30.9� μs�
�8.23� μs�
�10.97� μs�
�13.22� μs�
�15.37� μs�
�112.65� μs�
�164.42� μs�
�207.17� μs�
�248.02� μs�
�Rev.� 0� |� Page� 21� of� 48�
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