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参数资料
| 型号: | ADM1178-2ARMZ-R7 |
| 厂商: | Analog Devices Inc |
| 文件页数: | 15/24页 |
| 文件大小: | 0K |
| 描述: | IC CTRLR HOTSWAP 16.5V 10-MSOP |
| 产品培训模块: | Hot Swap Design |
| 标准包装: | 1 |
| 类型: | 热交换控制器 |
| 应用: | 通用 |
| 内部开关: | 无 |
| 电流限制: | 可调 |
| 电源电压: | 3.15 V ~ 16.5 V |
| 工作温度: | -40°C ~ 85°C |
| 安装类型: | 表面贴装 |
| 封装/外壳: | 10-TFSOP,10-MSOP(0.118",3.00mm 宽) |
| 供应商设备封装: | 10-MSOP |
| 包装: | 标准包装 |
| 产品目录页面: | 792 (CN2011-ZH PDF) |
| 配用: | EVAL-ADM1178EBZ-ND - BOARD EVALUATION FOR ADM1178 |
| 其它名称: | ADM1178-2ARMZ-R7DKR |
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��Data� Sheet�
�VOLTAGE� AND� CURRENT� READBACK�
�In� addition� to� providing� hot� swap� functionality,� the� ADM1178�
�contains� the� components� to� allow� voltage� and� current� readback�
�over� an� I� 2� C� bus.� The� voltage� output� of� the� current� sense�
�amplifier� and� the� voltage� on� the� VCC� pin� are� fed� into� a� 12-bit�
�ADC� via� a� multiplexer.� The� device� can� be� instructed� to� convert�
�voltage� and/or� current� at� any� time� during� operation� via� an� I� 2� C�
�ADM1178�
�The� peripheral� whose� address� corresponds� to� the� transmitted�
�address� responds� by� pulling� the� data� line� low� during� the� low�
�period� before� the� ninth� clock� pulse,� known� as� the� acknowl-�
�edge� bit,� and� holding� it� low� during� the� high� period� of� this�
�clock� pulse.� All� other� devices� on� the� bus� remain� idle� while�
�the� selected� device� waits� for� data� to� be� read� from� it� or� written�
�command.� When� all� conversions� are� complete,� the� voltage�
�and/or� current� values� can� be� read� back� with� 12-bit� accuracy� in�
�two� or� three� bytes.�
�SERIAL� BUS� INTERFACE�
�Control� of� the� ADM1178� is� carried� out� via� the� I� 2� C� bus.� This�
�interface� is� compatible� with� the� I� 2� C� fast� mode� (400� kHz�
�maximum).� The� ADM1178� is� connected� to� this� bus� as� a� slave�
�device,� under� the� control� of� a� master� device.�
�IDENTIFYING� THE� ADM1178� ON� THE� I� 2� C� BUS�
�The� ADM1178� has� a� 7-bit� serial� bus� slave� address.� When� the�
�device� powers� up,� it� does� so� with� a� default� serial� bus� address.�
�The� three� MSBs� of� the� address� are� set� to� 111,� and� the� two� MSBs�
�are� set� to� 10,� resulting� in� an� address� of� 111x10.� Bit� A2� and� Bit�
�A3� are� determined� by� the� state� of� the� ADR� pin.� There� are� four�
�configurations� available� on� the� ADR� pin� that� correspond� to� four�
�I� 2� C� addresses� for� these� bits� (see� Table� 5).� This� scheme� allows�
�four� ADM1178� devices� to� operate� on� a� single� I� 2� C� bus.�
�GENERAL� I� 2� C� TIMING�
��and� read� operations� using� the� I� 2� C.� The� I� 2� C� specification� defines�
�conditions� for� different� types� of� read� and� write� operations,� which�
�are� discussed� in� the� Write� and� Read� Operations� section.� The�
�general� I� 2� C� protocol� operates� as� follows:�
�1.� The� master� initiates� a� data� transfer� by� establishing� a� start�
�condition,� defined� as� a� high-to-low� transition� on� the� serial�
�data� line,� SDA,� while� the� serial� clock� line,� SCL,� remains�
�high.� This� indicates� that� a� data� stream� is� to� follow.� All� slave�
�peripherals� connected� to� the� serial� bus� respond� to� the� start�
�condition� and� shift� in� the� next� eight� bits,� consisting� of� a� 7-bit�
�slave� address� (MSB� first)� plus� an� R/W� bit� that� determines�
�the� direction� of� the� data� transfer,� that� is,� whether� data� is�
�written� to� or� read� from� the� slave� device� (0� =� write,� 1� =� read).�
�Table� 5.� Setting� I� 2� C� Addresses� via� the� ADR� Pin�
�2.�
�3.�
�to� it.� If� the� R/W� bit� is� 0,� the� master� writes� to� the� slave� device.�
�If� the� R/W� bit� is� 1,� the� master� reads� from� the� slave� device.�
�Data� is� sent� over� the� serial� bus� in� sequences� of� nine� clock�
�pulses:� eight� bits� of� data� followed� by� an� acknowledge� bit�
�from� the� slave� device.� Data� transitions� on� the� data� line�
�must� occur� during� the� low� period� of� the� clock� signal� and�
�remain� stable� during� the� high� period� because� a� low-to-high�
�transition� when� the� clock� is� high� can� be� interpreted� as� a�
�stop� signal.�
�If� the� operation� is� a� write� operation,� the� first� data� byte� after�
�the� slave� address� is� a� command� byte.� This� tells� the� slave�
�device� what� to� expect� next.� It� can� be� an� instruction,� such� as�
�telling� the� slave� device� to� expect� a� block� write,� or� it� can� be�
�a� register� address� that� tells� the� slave� where� subsequent� data�
�is� to� be� written.�
�Because� data� can� flow� in� only� one� direction,� as� defined� by�
�the� R/W� bit,� it� is� not� possible� to� send� a� command� to� a� slave�
�device� during� a� read� operation.� Before� performing� a� read�
�operation,� it� may� be� necessary� to� first� execute� a� write�
�operation� to� tell� the� slave� what� sort� of� read� operation� to�
�expect� and/or� the� address� from� which� data� is� to� be� read.�
�When� all� data� bytes� are� read� or� written,� stop� conditions� are�
�established.� In� write� mode,� the� master� pulls� the� data� line�
�high� during� the� 10� th� clock� pulse� to� assert� a� stop� condition.�
�In� read� mode,� the� master� device� releases� the� SDA� line�
�during� the� SCL� low� period� before� the� ninth� clock� pulse,�
�but� the� slave� device� does� not� pull� it� low.� This� is� known� as� a�
�no� acknowledge.� The� master� then� takes� the� data� line� low�
�during� the� SCL� low� period� before� the� 10� th� clock� pulse� and�
�then� high� during� the� 10� th� clock� pulse� to� assert� a� stop� condition.�
�Base� Address�
�111AA10�
�ADR� Pin� State�
�Ground�
�Resistor� to� ground�
�Floating�
�High�
�ADR� Pin� Logic� State�
�00�
�01�
�10�
�11�
�Address� in� Binary� 1�
�1110010X�
�1110110X�
�1111010X�
�1111110X�
�Address� in� Hex�
�0xE4�
�0xEC�
�0xF4�
�0xFC�
�1�
�X� =� don’t� care.�
�Rev.� D� |� Page� 15� of� 24�
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