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参数资料
| 型号: | DS1864T+ |
| 厂商: | Maxim Integrated |
| 文件页数: | 69/72页 |
| 文件大小: | 0K |
| 描述: | IC LASER CTRLR 1CHAN 5.5V 28TQFN |
| 产品培训模块: | Lead (SnPb) Finish for COTS Obsolescence Mitigation Program |
| 标准包装: | 60 |
| 类型: | 激光二极管控制器(光纤) |
| 通道数: | 1 |
| 电源电压: | 2.97 V ~ 5.5 V |
| 电流 - 电源: | 3mA |
| 工作温度: | -40°C ~ 95°C |
| 封装/外壳: | 28-WFQFN 裸露焊盘 |
| 供应商设备封装: | 28-TQFN-EP(5x5) |
| 包装: | 管件 |
| 安装类型: | 表面贴装 |
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�
�SFP� Laser� Controller� and�
�Diagnostic� IC�
�I� 2� C� Communication�
�Writing� a� Single� Byte� to� a� Slave:� The� master� must�
�generate� a� start� condition,� write� the� slave� address� byte�
�(R/� W� =� 0),� write� the� memory� address,� write� the� byte� of�
�data,� and� generate� a� stop� condition.� Remember� the�
�master� must� read� the� slave’s� acknowledgement� during�
�all� byte� write� operations.�
�Writing� Multiple� Bytes� to� a� Slave:� To� write� multiple�
�bytes� to� a� slave,� the� master� generates� a� start� condition,�
�writes� the� slave� address� byte� (R/� W� =� 0),� writes� the�
�memory� address,� writes� up� to� 8� data� bytes,� and� gener-�
�ates� a� stop� condition.� The� DS1864� writes� 1� to� 8� bytes� (1�
�page� or� row)� with� a� single� write� transaction.� This� is�
�internally� controlled� by� an� address� counter� that� allows�
�data� to� be� written� to� consecutive� addresses� without�
�transmitting� a� memory� address� before� each� data� byte�
�is� sent.� The� address� counter� limits� the� write� to� one� 8-�
�byte� page� (one� row� of� the� memory� map).� The� first� page�
�begins� at� address� 00h� and� subsequent� pages� begin� at�
�multiples� of� 8� (08h,� 10h,� 18h,� etc).� Attempts� to� write� to�
�additional� pages� of� memory� without� sending� a� stop�
�condition� between� pages� results� in� the� address� counter�
�wrapping� around� to� the� beginning� of� the� present� row.�
�To� prevent� address� wrapping� from� occurring,� the� mas-�
�ter� must� send� a� stop� condition� at� the� end� of� the� page,�
�then� wait� for� the� bus-free� or� EEPROM-write� time� to�
�elapse.� Then� the� master� can� generate� a� new� start� con-�
�dition,� and� write� the� slave� address� byte� (R/� W� =� 0)� and�
�the� first� memory� address� of� the� next� memory� row�
�before� continuing� to� write� data.�
�Acknowledge� Polling:� Any� time� an� EEPROM� page� is�
�written,� the� DS1864� requires� the� EEPROM� write� time�
�(t� W� )� after� the� stop� condition� to� write� the� contents� of� the�
�page� to� EEPROM.� During� the� EEPROM� write� time,� the�
�DS1864� will� not� acknowledge� either� of� its� slave�
�addresses� because� it� is� busy.� It� is� possible� to� take�
�advantage� of� that� phenomenon� by� repeatedly� address-�
�ing� the� DS1864,� which� allows� the� next� page� to� be� writ-�
�ten� as� soon� as� the� DS1864� is� ready� to� receive� the� data.�
�The� alternative� to� acknowledge� polling� is� to� wait� for�
�maximum� period� of� t� W� to� elapse� before� attempting� to�
�write� again� to� the� DS1864.�
�EEPROM� Write� Cycles:� When� EEPROM� writes� occur,�
�the� DS1864� writes� the� whole� EEPROM� memory� page� (8�
�bytes),� even� if� only� a� single� byte� on� the� page� was� modi-�
�fied.� Writes� that� do� not� modify� all� 8� bytes� on� the� page�
�are� allowed� and� do� not� corrupt� the� remaining� bytes� of�
�memory� on� the� same� page.� Because� the� whole� page� is�
�written,� bytes� on� the� page� that� were� not� modified� dur-�
�ing� the� transaction� are� still� subject� to� a� write� cycle.� This�
�can� result� in� a� whole� page� being� worn� out� over� time� by�
�writing� a� single� byte� repeatedly.� Writing� a� page� one�
�byte� at� a� time� wears� the� EEPROM� out� eight� times� faster�
�than� writing� the� entire� page� at� once.� The� DS1864’s�
�EEPROM� write� cycles� are� specified� in� the� Nonvolatile�
�Memory� Characteristics� table.� The� specification� shown�
�is� at� the� worst-case� temperature.� Writing� to� SRAM-�
�shadowed� EEPROM� memory� with� SEE� =� 1� does� not�
�count� as� an� EEPROM� write.�
�Reading� a� Single� Byte� from� a� Slave:� Unlike� the� write�
�operation� that� uses� the� memory� address� byte� to� define�
�where� the� data� is� to� be� written,� the� read� operation� occurs�
�at� the� present� value� of� the� memory� address� counter.� To�
�read� a� single� byte� from� the� slave,� the� master� generates� a�
�start� condition,� writes� the� slave� address� byte� with� R/� W� =�
�1,� reads� the� data� byte� with� a� NACK� to� indicate� the� end� of�
�the� transfer,� and� generates� a� stop� condition.�
�Manipulating� the� Address� Counter� for� Reads:� A�
�dummy� write� cycle� can� be� used� to� force� the� address�
�counter� to� a� particular� address.� To� do� this,� the� master�
�generates� a� start� condition,� writes� the� slave� address� byte�
�(R/� W� =� 0),� writes� the� memory� address� where� it� desires� to�
�read,� generates� a� repeated� start� condition,� writes� the�
�slave� address� byte� (R/� W� =� 1),� reads� data� with� ACK� or�
�NACK� as� applicable,� and� generates� a� stop� condition.�
�Reading� Multiple� Bytes� from� a� Slave:� The� read� oper-�
�ation� can� be� used� to� read� multiple� bytes� with� a� single�
�transfer.� When� reading� bytes� from� the� slave,� the� master�
�simply� ACKs� the� data� byte� if� it� desires� to� read� another�
�byte� before� terminating� the� transaction.� After� the� master�
�reads� the� last� byte� it� NACKs� to� indicate� the� end� of� the�
�transfer� and� generates� a� stop� condition.� This� can� be�
�done� with� or� without� modifying� the� address� counter’s�
�location� before� the� read� cycle.� The� DS1864’s� address�
�counter� does� not� wrap� on� page� boundaries� during� read�
�operations,� but� the� counter� will� roll� from� its� uppermost�
�memory� address� FFh� to� 00h� if� the� last� memory� location�
�is� read� during� the� read� transaction.�
�See� Figure� 20� for� a� read� example� using� the� repeated�
�start� condition� to� specify� the� starting� memory� location.�
�Application� Information�
�Power-Supply� Decoupling�
�To� achieve� best� results,� it� is� recommended� that� the� power�
�supply� is� decoupled� with� a� 0.01μF� or� a� 0.1μF� capacitor.�
�Use� high-quality,� ceramic,� surface-mount� capacitors,� and�
�mount� the� capacitors� as� close� as� possible� to� the� V� CC� and�
�GND� pins� to� minimize� lead� inductance.�
�SDA� and� SCL� Pullup� Resistors�
�SDA� is� an� open� collector� output� on� the� DS1864� that�
�requires� a� pullup� resistor� to� realize� high� logic� levels.� A�
�master� using� either� an� open-collector� output� with� a�
�pullup� resistor� or� a� push-pull� output� driver� can� be� utilized�
�____________________________________________________________________�
�69�
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相关代理商/技术参数 |
参数描述 |
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| 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 |
| DS1865_09 | 制造商:MAXIM 制造商全称:Maxim Integrated Products 功能描述:PON Triplexer Control and Monitoring Circuit |
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