- 您现在的位置:买卖IC网 > Sheet目录1212 > DS1863K (Maxim Integrated Products)KIT EVAL FOR DS1863
��
�
�Burst-Mode� PON� Controller�
�With� Integrated� Monitoring�
�specific� memory� address� to� begin� a� data� transfer.� A�
�repeated� START� condition� is� issued� identically� to� a� nor-�
�mal� START� condition.� See� the� timing� diagram� for�
�applicable� timing.�
�Bit� Write:� Transitions� of� SDA� must� occur� during� the� low�
�state� of� SCL.� The� data� on� SDA� must� remain� valid� and�
�unchanged� during� the� entire� high� pulse� of� SCL� plus� the�
�setup� and� hold-time� requirements� (Figure� 9).� Data� is� shift-�
�ed� into� the� device� during� the� rising� edge� of� the� SCL.�
�Bit� Read:� At� the� end� of� a� write� operation,� the� master�
�must� release� the� SDA� bus� line� for� the� proper� amount� of�
�setup� time� before� the� next� rising� edge� of� SCL� during� a�
�bit� read.� The� device� shifts� out� each� bit� of� data� on� SDA� at�
�the� falling� edge� of� the� previous� SCL� pulse� and� the� data�
�bit� is� valid� at� the� rising� edge� of� the� current� SCL� pulse.�
�Remember� that� the� master� generates� all� SCL� clock�
�pulses� including� when� it� is� reading� bits� from� the� slave.�
�Acknowledgement� (ACK� and� NACK):� An� Acknowledge-�
�ment� (ACK)� or� Not� Acknowledge� (NACK)� is� always� the�
�9th� bit� transmitted� during� a� byte� transfer.� The� device�
�receiving� data� (the� master� during� a� read� or� the� slave�
�during� a� write� operation)� performs� an� ACK� by� transmit-�
�ting� a� zero� during� the� 9th� bit.� A� device� performs� a�
�NACK� by� transmitting� a� one� during� the� 9th� bit.� Timing�
�for� the� ACK� and� NACK� is� identical� to� all� other� bit� writes.�
�An� ACK� is� the� acknowledgment� that� the� device� is� prop-�
�erly� receiving� data.� A� NACK� is� used� to� terminate� a� read�
�sequence� or� as� an� indication� that� the� device� is� not�
�receiving� data.�
�Byte� Write:� A� byte� write� consists� of� 8� bits� of� information�
�transferred� from� the� master� to� the� slave� (most� signifi-�
�cant� bit� first)� plus� a� 1-bit� acknowledgement� from� the�
�slave� to� the� master.� The� 8� bits� transmitted� by� the� mas-�
�ter� are� done� according� to� the� bit� write� definition� and� the�
�acknowledgement� is� read� using� the� bit� read� definition.�
�Byte� Read:� A� byte� read� is� an� 8-bit� information� transfer�
�from� the� slave� to� the� master� plus� a� 1-bit� ACK� or� NACK�
�from� the� master� to� the� slave.� The� 8� bits� of� information�
�that� are� transferred� (most� significant� bit� first)� from� the�
�slave� to� the� master� are� read� by� the� master� using� the� bit�
�read� definition,� and� the� master� transmits� an� ACK� using�
�the� bit� write� definition� to� receive� additional� data� bytes.�
�The� master� must� NACK� the� last� byte� read� to� terminate�
�communication� so� the� slave� will� return� control� of� SDA� to�
�the� master.�
�Slave� Address� Byte:� Each� slave� on� the� I� 2� C� bus�
�responds� to� a� slave� addressing� byte� (Figure� 10)� sent�
�immediately� following� a� START� condition.� The� slave�
�address� byte� contains� the� slave� address� in� the� most� sig-�
�nificant� 7� bits� and� the� R/� W� bit� in� the� least� significant� bit.�
�The� DS1863� ’� s� slave� address� can� be� configured� to� any�
�value� between� 00h� to� FEh� using� the� Device� Address�
�Byte� (Table� 02h,� Register� 8Ch).� The� user� also� has� to� set�
�the� ASEL� bit� (Table� 02h,� Register� 89h)� for� this� address� to�
�be� active.� The� default� address� is� A2h� (see� Figure� 10).� By�
�writing� the� correct� slave� address� with� R/� W� =� 0,� the� mas-�
�ter� indicates� it� will� write� data� to� the� slave.� If� R/� W� =� 1,� the�
�master� will� read� data� from� the� slave.� If� an� incorrect� slave�
�address� is� written,� the� DS1863� will� assume� the� master� is�
�communicating� with� another� I� 2� C� device� and� ignore� the�
�communications� until� the� next� START� condition� is� sent.�
�Memory� Address:� During� an� I� 2� C� write� operation,� the�
�master� must� transmit� a� memory� address� to� identify� the�
�memory� location� where� the� slave� is� to� store� the� data.�
�The� memory� address� is� always� the� second� byte� trans-�
�mitted� during� a� write� operation� following� the� slave�
�address� byte.�
�SDA�
�t� BUF�
�t� HD:STA�
�t� SP�
�SCL�
�t� LOW�
�t� R�
�t� F�
�t� HD:STA�
�t� HIGH�
�t� SU:STA�
�STOP�
�START�
�t� SU:DAT�
�REPEATED�
�START�
�t� SU:STO�
�t� HD:DAT�
�NOTE:� TIMING� IS� REFERENCED� TO� V� IL(MAX)� AND� V� IH(MIN)� .�
�Figure� 9.� I� 2� C� Timing� Diagram.�
�____________________________________________________________________�
�17�
�发布紧急采购,3分钟左右您将得到回复。
相关PDF资料
DS1864K
KIT EVAL FOR DS1864
DS21349DK
KIT DESIGN FOR DS21349
DS21352DK
KIT DESIGN FOR DS21352
DS21354DK
KIT DESIGN FOR DS21354
DS21458DK
KIT DESIGN FOR G511DS21458
DS2156DK
KIT DESIGN FOR DS2156
DS21Q348DK
KIT DESIGN FOR DS21Q348
DS21Q55DK
KIT DESIGN FOR DS21Q55
相关代理商/技术参数
DS1863T+
制造商:Maxim Integrated Products 功能描述:- Rail/Tube
DS1864
制造商:DALLAS 制造商全称:Dallas Semiconductor 功能描述:SFP Laser Controller and Diagnostic IC
DS1864K
功能描述:电源管理IC开发工具 RoHS:否 制造商:Maxim Integrated 产品:Evaluation Kits 类型:Battery Management 工具用于评估:MAX17710GB 输入电压: 输出电压:1.8 V
DS1864T
制造商:Maxim Integrated Products 功能描述:DUAL TMP CTRL DAC+MONITORS,QFN - Rail/Tube
DS1864T+
功能描述:激光驱动器 SFP Laser Controller & Diagnostic IC RoHS:否 制造商:Micrel 数据速率:4.25 Gbps 工作电源电压:3 V to 3.6 V 电源电流:80 mA 最大工作温度:+ 85 C 封装 / 箱体:QFN-16 封装:Tube
DS1864T+T&R
制造商:Maxim Integrated Products 功能描述:DUAL TMP CTRL DAC+MON QFN T&R LF - Tape and Reel 制造商:Maxim Integrated Products 功能描述:IC LASER CTRLR 1CHAN 5.5V 28TQFN
DS1864T+T&R
功能描述:激光驱动器 SFP Laser Controller & Diagnostic IC RoHS:否 制造商:Micrel 数据速率:4.25 Gbps 工作电源电压:3 V to 3.6 V 电源电流:80 mA 最大工作温度:+ 85 C 封装 / 箱体:QFN-16 封装:Tube
DS1865
制造商:MAXIM 制造商全称:Maxim Integrated Products 功能描述:PON Triplexer Control and Monitoring Circuit