参数资料
| 型号: | CDB5460AU |
| 厂商: | Cirrus Logic Inc |
| 文件页数: | 21/54页 |
| 文件大小: | 0K |
| 描述: | EVALUATION BOARD FOR CS5460A |
| 标准包装: | 1 |
| 主要目的: | 电源管理,电度表/功率表 |
| 嵌入式: | 是,MCU,8 位 |
| 已用 IC / 零件: | CS5460A |
| 主要属性: | 1 相电流和电压监控 |
| 次要属性: | 图形用户接口,SPI? 和 USB 接口 |
| 已供物品: | 板,线缆,软件 |
| 相关产品: | CS5460A-BSZR-ND - IC ENERGY METERING 1PHASE 24SSOP 598-1701-ND - IC PWR/ENERGY 1PH BIDIR 24SSOP 598-1700-ND - IC PWR/ENERGY 1PH BIDIR 24SSOP 598-1094-5-ND - IC ENERGY METERING 1PHASE 24SSOP |
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��
�
�CS5460A�
�PulseRate� =� IR� =� PR� ?� -------------------� ?� -------------------�
�PR� =� --------------------------------------------� =� ------------------------------------------------�
�-----------------� ?� 112.5mV� -�
�------------------� ?� ------------------�
�250mV�
�250mV�
�PR� =� -----------------------------------------�
�------------------� ?� ---------------�
�3.� FUNCTIONAL� DESCRIPTION�
�3.1� Pulse-Rate� Output�
�As� an� alternative� to� reading� the� real� energy�
�through� the� serial� port,� the� EOUT� and� EDIR� pins�
�provide� a� simple� interface� with� which� signed� ener-�
�gy� can� be� accumulated.� Each� EOUT� pulse� repre-�
�sents� a� predetermined� quantity� of� energy.� The�
�quantity� of� energy� represented� in� one� pulse� can� be�
�varied� by� adjusting� the� value� in� the� Pulse-Rate�
�Register.� Corresponding� pulses� on� the� EDIR� out-�
�put� pin� signify� that� the� sign� of� the� energy� is� nega-�
�tive.� Note� that� these� pulses� are� not� influenced� by�
�the� value� of� the� Cycle-Count� Register,� and� they�
�have� no� reliance� on� the� computation� cycle,� de-�
�scribed� earlier.� With� MCLK� =� 4.096� MHz,� K� =� 1,�
�the� pulses� will� have� an� average� frequency� (in� Hz)�
�equal� to� the� frequency� setting� in� the� Pulse� Rate�
�Register� when� the� input� signals� into� the� voltage�
�and� current� channels� cause� full-scale� readings� in�
�the� Instantaneous� Voltage� and� Current� Registers.�
�When� MCLK/K� is� not� equal� to� 4.096� MHz,� the�
�pulse-rate� should� be� scaled� by� a� factor� of�
�4.096� MHz� /� (MCLK/K)� to� get� the� actual� output�
�pulse-rate.�
�EXAMPLE� #1:� For� a� power� line� with� maximum� rat-�
�ed� levels� of� 250� V� (RMS)� and� 20� A� (RMS),� the�
�pulse-frequency� on� the� EOUT� pin� needs� to� be�
�‘IR’� =� 100� pulses-per-second� (100� Hz)� when� the�
�RMS-voltage� and� RMS-current� levels� on� the� power�
�line� are� 220� V� and� 15� A� respectively.� To� meet� this�
�requirement,� the� pulse-rate� frequency� (‘PR’)� in� the�
�Pulse-Rate� Register� must� be� set� accordingly.�
�After� calibration,� the� first� step� to� finding� the� value�
�of� ‘PR’� is� to� set� the� voltage� and� current� sensor� gain�
�constants,� K� V� and� K� I� ,� such� that� there� will� be� ac-�
�ceptable� voltage� levels� on� the� CS5460A� inputs�
�when� the� power� line� voltage� and� current� levels� are�
�at� the� maximum� values� of� 250� V� and� 20� A.� K� V� and�
�K� I� are� needed� to� determine� the� appropriate� ratios�
�of� the� voltage/current� transformers� and/or� shunt�
�resistor� values� to� use� in� the� front-end� voltage/cur-�
�rent� sensor� networks.�
�For� a� sinewave,� the� largest� RMS� value� that� can� be�
�accurately� measured� (without� over-driving� the� in-�
�puts)� will� register� ~0.7071� of� the� maximum� DC� in-�
�put� level.� Since� power� signals� are� often� not�
�perfectly� sinusoidal� in� real-world� situations,� and� to�
�DS487F5�
�provide� for� some� over-range� capability,� the� RMS�
�Voltage� Register� and� RMS� Current� Register� is� set�
�to� measure� 0.6� when� the� RMS-values� of� the�
�line-voltage� and� line-current� levels� are� 250� V� and�
�20� A.� Therefore,� when� the� RMS� registers� measure�
�0.6,� the� voltage� level� at� the� inputs� will� be�
�0.6� x� 250� mV� =� 150� mV.� The� sensor� gain� con-�
�stants,� K� V� and� K� I� ,� are� determined� by� demanding�
�that� the� voltage� and� current� channel� inputs� should�
�be� 150� mV� RMS� when� the� power� line� voltage� and�
�current� are� at� the� maximum� values� of� 250� V� and�
�20� A.�
�K� V� =� 150� mV� /� 250� V� =� 0.0006�
�K� I� =� 150� mV� /� 20� A� =� 0.0075� ?�
�These� sensor� gain� constants� are� used� to� calculate�
�what� the� input� voltage� levels� will� be� on� the�
�CS5460A� inputs� when� the� line-voltage� and�
�line-current� are� 220� V� and� 15� A.� These� values� are�
�V� Vnom� and� V� Inom.�
�V� Vnom� =� K� V� *� 220� V� =� 132� mV�
�V� Inom� =� K� I� *� 15� A� =� 112.5� mV�
�The� pulse� rate� on� EOUT� will� be� at� ‘PR’� pulses� per�
�second� (Hz)� when� the� RMS-levels� of� voltage/cur-�
�rent� inputs� are� at� 250� mV.� When� the� voltage/cur-�
�rent� inputs� are� set� at� V� Vnom� and� V� Inom� ,� the� pulse�
�rate� needs� to� be� ‘IR’� =� 100� pulses� per� second.� IR�
�will� be� some� percentage� of� PR.� The� percentage� is�
�defined� by� the� ratios� of� V� Vnom� /250� mV� and�
�V� Inom� /250� mV� with� the� following� formula:�
�V� Vnom� V� Inom�
�250mV� 250mV�
�From� this� equation� the� value� of� ‘PR’� is� shown� as:.�
�IR� 100Hz�
�-�
�V� Vnom� V� Inom� 132mV� ----------------------�
�250mV� 250mV�
�Therefore� the� Pulse-Rate� Register� is� set� to�
�~420.875� Hz,� or� 0x00349C.�
�The� above� equation� is� valid� when� current� channel�
�is� set� to� x10� gain.� If� current� channel� gain� is� set� to�
�x50,� then� the� equation� becomes:�
�IR�
�V� Vnom� V� Inom�
�250mV� 50mV�
�21�
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相关代理商/技术参数 |
参数描述 |
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| CDB5460AU-Z | 制造商:Cirrus Logic 功能描述:PB-FREEEVAL BOARD FOR CS5460 - Bulk |
| CDB5461 | 制造商:Cirrus Logic 功能描述:EVAL BD FOR CS5461 - Bulk |
| CDB5461A | 功能描述:EVAL BOARD FOR CS5461 RoHS:否 类别:编程器,开发系统 >> 过时/停产零件编号 系列:- 标准包装:1 系列:- 类型:MCU 适用于相关产品:Freescale MC68HC908LJ/LK(80-QFP ZIF 插口) 所含物品:面板、缆线、软件、数据表和用户手册 其它名称:520-1035 |
| CDB5461AU | 功能描述:数据转换 IC 开发工具 Eval Bd Sngl-Phase Pow/Energy RoHS:否 制造商:Texas Instruments 产品:Demonstration Kits 类型:ADC 工具用于评估:ADS130E08 接口类型:SPI 工作电源电压:- 6 V to + 6 V |
| CDB5461AU-Z | 制造商:Cirrus Logic 功能描述:PB-FREEEVAL BOARD FOR CS5461 WITH USB - Bulk |
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