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参数资料
| 型号: | 71M6531D-IMR/F |
| 厂商: | Maxim Integrated |
| 文件页数: | 17/121页 |
| 文件大小: | 0K |
| 描述: | IC ENERGY METER 128KB 68-QFN |
| 产品培训模块: | Lead (SnPb) Finish for COTS Obsolescence Mitigation Program |
| 标准包装: | 2,500 |
| 系列: | * |
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�FDS� 6531/6532� 005�
�Data� Sheet� 71M6531D/F-71M6532D/F�
�Since� the� FIFO� resets� at� the� beginning� of� each� MUX� frame,� the� user� must� specify� PLS_INTERVAL� so� that�
�all� of� the� pulse� updates� are� output� before� the� MUX� frame� completes.� For� instance,� if� the� CE� code� outputs�
�5� updates� per� MUX� interval� and� if� the� MUX� interval� is� 1950� cycles� long,� the� ideal� value� for� the� interval� is�
�1950/5/4� =� 97.5.� If� PLS_INTERVAL� =� 98,� the� fifth� output� will� occur� too� late� and� be� lost.� In� this� case,� the�
�proper� value� for� PLS_INTERVAL� is� 97.�
�Hardware� also� provides� a� maximum� pulse� width� feature.� The� PLS_MAXWIDTH� register� selects� a� maximum�
�negative� pulse� width� to� be� Nmax� updates� according� to� the� formula:� Nmax� =� (2*� PLS_MAXWIDTH� +1).� If�
�PLS_MAXWIDTH� =� 255,� no� width� checking� is� performed.�
�The� WPULSE� and� RPULSE� pulse� generator� outputs� are� available� on� DIO6� and� DIO7,� respectively.� They�
�can� also� be� output� on� OPT_TX� (see� OPT_TXE[1:0]� for� details).�
�1.3.4�
�Data� RAM� (XRAM)�
�The� CE� and� MPU� use� a� single� general-purpose� Data� RAM� (also� referred� to� as� XRAM).� The� Data� RAM� is�
�1024� 32-bit� words,� shared� between� the� CE� and� the� MPU� using� a� time-multiplex� method.� This� reduces�
�MPU� wait� states� when� accessing� CE� data.� When� the� MPU� and� CE� are� clocking� at� maximum� frequency�
�(10� MHz),� the� DRAM� will� make� up� to� four� accesses� during� each� 100� ns� interval.� These� consist� of� two�
�MPU� accesses,� one� CE� access� and� one� SPI� access.�
�The� Data� RAM� is� 32� bits� wide� and� uses� an� external� multiplexer� so� as� to� appear� byte-wide� to� the� MPU.�
�The� Data� RAM� hardware� will� convert� an� MPU� byte� write� operation� into� a� read-modify-write� operation� that�
�requires� two� Data� RAM� accesses.� The� second� access� is� guaranteed� to� be� available� because� the� MPU�
�cannot� access� the� XRAM� on� two� consecutive� instructions� unless� it� is� using� the� same� address.�
�In� addition� to� the� reduction� of� wait� states,� this� arrangement� permits� the� MPU� to� easily� use� unneeded� CE�
�data� memory.� Likewise,� the� amount� of� memory� the� CE� uses� is� not� limited� by� the� size� of� a� dedicated� CE�
�data� RAM.�
�1.3.5�
�Delay� Compensation�
�When� measuring� the� energy� of� a� phase� (i.e.,� Wh� and� VARh)� in� a� service,� the� voltage� and� current� for� that�
�phase� must� be� sampled� at� the� same� instant.� Otherwise,� the� phase� difference,� Ф,� introduces� errors.�
�φ� =�
�t� delay�
�T�
�?� 360� o� =� t� delay� ?� f� ?� 360� o�
�nology� ,� however,� exploits� the� 32-bit� signal� processing� capability� of� its� CE� to� implement� “constant� delay”�
�Where� f� is� the� frequency� of� the� input� signal� and� t� delay� is� the� sampling� delay� between� voltage� and� current.�
�In� traditional� meter� ICs,� sampling� is� accomplished� by� using� two� A/D� converters� per� phase� (one� for� voltage�
�and� the� other� one� for� current)� controlled� to� sample� simultaneously.� The� patented� Single-Converter� Tech-�
�?�
�all-pass� filters.� These� all-pass� filters� correct� for� the� conversion� time� difference� between� the� voltage� and�
�the� corresponding� current� samples� that� are� obtained� with� a� single� multiplexed� A/D� converter.�
�The� “constant� delay”� all-pass� filters� provide� a� broad-band� delay� β,� that� is� precisely� matched� to� the� differ-�
�ence� in� sample� time� between� the� voltage� and� the� current� of� a� given� phase.� This� digital� filter� does� not� af-�
�fect� the� amplitude� of� the� signal,� but� provides� a� precisely� controlled� phase� response.� The� delay� compen-�
�sation� implemented� in� the� CE� aligns� the� voltage� samples� with� their� corresponding� current� samples� by�
�routing� the� voltage� samples� through� the� all-pass� filter,� thus� delaying� the� voltage� samples� by� β� ,� resulting� in�
�the� residual� phase� error� β� –� Ф� .� The� residual� phase� error� is� negligible,� and� is� typically� less� than� ±1.5� milli-�
�degrees� at� 100Hz,� thus� it� does� not� contribute� to� errors� in� the� energy� measurements.�
�1.3.6�
�CE� Functional� Overview�
�The� ADC� processes� one� sample� per� channel� per� multiplexer� cycle.� Figure� 6� shows� the� timing� of� the�
�samples� taken� during� one� multiplexer� cycle.�
�The� number� of� samples� processed� during� one� accumulation� cycle� is� controlled� by� PRE_SAMPS[1:0]�
�(� IORAM� 0x2001[7:6]� )� and� SUM_CYCLES[5:0]� (IORAM� 0x2001[5:0]� ).� The� integration� time� for� each� energy�
�output� is:�
�PRE_SAMPS[1:0]� *� SUM_CYCLES[5:0]� /� 2520.6,� where� 2520.6� is� the� sample� rate� [Hz]�
�Rev� 2�
�17�
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相关代理商/技术参数 |
参数描述 |
|---|---|
| 71M6531F | 制造商:TERIDIAN 制造商全称:TERIDIAN 功能描述:Energy Meter IC |
| 71M6531F-DB | 功能描述:开发板和工具包 - 8051 71M6531F Demo Brd RoHS:否 制造商:Silicon Labs 产品:Development Kits 工具用于评估:C8051F960, Si7005 核心: 接口类型:USB 工作电源电压: |
| 71M6531F-IM/F | 功能描述:计量片上系统 - SoC Residential Energy Meter IC RoHS:否 制造商:Maxim Integrated 核心:80515 MPU 处理器系列:71M6511 类型:Metering SoC 最大时钟频率:70 Hz 程序存储器大小:64 KB 数据 RAM 大小:7 KB 接口类型:UART 可编程输入/输出端数量:12 片上 ADC: 安装风格:SMD/SMT 封装 / 箱体:LQFP-64 封装:Reel |
| 71M6531F-IM/F3 | 功能描述:计量片上系统 - SoC RoHS:否 制造商:Maxim Integrated 核心:80515 MPU 处理器系列:71M6511 类型:Metering SoC 最大时钟频率:70 Hz 程序存储器大小:64 KB 数据 RAM 大小:7 KB 接口类型:UART 可编程输入/输出端数量:12 片上 ADC: 安装风格:SMD/SMT 封装 / 箱体:LQFP-64 封装:Reel |
| 71M6531F-IM/F4 | 功能描述:计量片上系统 - SoC RoHS:否 制造商:Maxim Integrated 核心:80515 MPU 处理器系列:71M6511 类型:Metering SoC 最大时钟频率:70 Hz 程序存储器大小:64 KB 数据 RAM 大小:7 KB 接口类型:UART 可编程输入/输出端数量:12 片上 ADC: 安装风格:SMD/SMT 封装 / 箱体:LQFP-64 封装:Reel |
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