参数资料
| 型号: | MIC3002GML TR |
| 厂商: | Micrel Inc |
| 文件页数: | 23/65页 |
| 文件大小: | 0K |
| 描述: | IC LASER DRIVR 10GBPS 3.6V 24MLF |
| 标准包装: | 1,000 |
| 类型: | 激光二极管控制器(光纤) |
| 数据速率: | 10Gbps |
| 通道数: | 1 |
| 电源电压: | 3 V ~ 3.6 V |
| 电流 - 电源: | 2.3mA |
| 工作温度: | -40°C ~ 105°C |
| 封装/外壳: | 24-VFQFN 裸露焊盘,24-MLF? |
| 供应商设备封装: | 24-MLF?(4x4) |
| 包装: | 带卷 (TR) |
| 安装类型: | 表面贴装 |
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��Micrel,� Inc.�
�RX� Power�
�Received� power� is� sensed� as� a� voltage� appearing� at�
�VRX.� It� is� assumed� that� this� voltage� is� generated� by� a�
�sense� resistor� carrying� the� receiver� photodiode� current�
�or� by� the� RSSI� circuit� of� the� receiver.� The� value� returned�
�by� the� A/D� is� therefore� a� voltage� analogous� to� received�
�power.� The� binary� values� in� RXOPh� and� RXOPl� are�
�related� to� receive� power� by:�
�RX(mW)� =� K� x� VREF� x� (256� x� RXOPh� +RXOPl/16)/�
�MIC3002�
�The� offsets� correct� for� constant� errors� in� the� measured�
�data.� Each� offset� is� a� signed,� sixteen-bit,� fixed-point�
�binary� number.� The� bit-weights� of� the� offsets� are� the�
�same� as� that� of� the� final� results.� The� sixteen� -� bit� offsets�
�provide� a� numerical� range� of� –32768� to� +32767� for�
�voltage,� bias� current,� transmit� power,� and� receive� power.�
�The� numerical� range� for� the� temperature� offset� is�
�–32513� (–128°)� to� +32512� (+127°)� in� increments� of� 256�
�(1°).� The� format� for� offsets� is:�
�[Smmmmmmmllllllll],� where� S� is� the� sign� bit� (6)�
�65536�
�(4)�
�(0� =� positive,� 1� =� negative),� m� is� a� data� bit� in�
�For� a� given� implementation,� the� constant,� K,� will� likely�
�have� to� be� determined� through� experimentation� or�
�closed-loop� calibration,� as� it� depends� upon� the� gain� and�
�efficiencies� of� the� receiver.� In� SFF-8472�
�implementations,� the� external� calibration� constants� can�
�describe� up� to� a� fourth-order� polynomial� in� case� K� is�
�nonlinear.�
�B/� Internal� Calibration�
�If� the� INTCAL� bit� in� OEMCFG3� is� set� to� 1� (internal�
�calibration� selected),� the� MIC3002� will� process� each�
�piece� of� data� coming� out� of� the� A/D� converter� before�
�storing� the� result� in� memory.� Linear� slope/offset�
�correction� will� be� applied� on� a� per-channel� basis� to� the�
�measured� values� for� voltage,� bias� current,� TX� power,�
�and� RX� power.� Only� compensation� is� applied� to�
�temperature.�
�The� user� must� store� the� appropriate� slope/offset�
�parameters� in� memory� at� the� time� of� transceiver�
�calibration.� In� the� case� of� RX� power,� a� look-up� table� is�
�provided� that� implements� eight-segment� piecewise-�
�linear� correction.� This� correction� may� be� performed� as� a�
�compensation� of� the� receiver� non-linearity� over� receive�
�power� level.� If� static� slope/offset� correction� for� RX� power�
�is� desired,� the� eight� coefficient� sets� can� simply� be� made�
�the� most-significant� byte� and� l� is� a� data� bit� in�
�the� least� significant� byte�
�The� most� significant� byte� is� always� stored� in� memory� at�
�the� lower� numerical� address.�
�Calibration� of� voltage,� bias� current,� and� TX� power� are�
�performed� using� the� following� calculation:�
�RESULTn� =� ADC_RESULTn� x� SLOPEn� +� (7)�
�OFFSETn�
�Calibration� of� RX� power� is� performed� using� the� following�
�calculation:�
�RESULT� =� ADC_RESULT� x� SLOPE(m)� +� (9)�
�OFFSET(m)�
�where� m� represents� one� of� the� eight� linearization�
�intervals� corresponding� to� the� RX� power� level.�
�The� results� of� these� calculations� are� rounded� to� sixteen�
�bits� in� length.� If� the� seventeenth� most� significant� bit� is� a�
�one,� the� result� is� rounded� up� to� the� next� higher� value.� If�
�the� seventeenth� most� significant� bit� is� zero,� the� upper�
�sixteen� bits� remain� unchanged.� The� bit-weights� of� the�
�offsets� are� the� same� as� that� of� the� final� results.� For� SFF-�
�8472� compatible� applications,� these� bit-weights� are�
�given� in� Table� 10.�
�the� same.� The� memory� maps� for� these� coefficients� are�
�shown� in� Tables� 11� and� 12.� The� user� must� enter� the�
�seven� delimiters� of� the� intervals� that� fit� better� the�
�receiver� response.� The� diagram� in� Figure� 3� shows� the�
�link� between� the� delimiters� and� the� sets� of�
�slopes/offsets.�
�The� slopes� allow� for� the� correction� of� gain� errors.� Each�
�Parameter�
�Voltage�
�Bias� Current�
�TX� Power�
�RX� Power�
�Magnitude� of� LSB�
�100μV�
�2μA�
�0.1μW�
�0.1μW�
�slope� coefficient� is� an� unsigned,� sixteen-bit,� fixed-point�
�binary� number� in� the� format:�
�[mmmmmmmm.llllllll],� where� m� is� a� data� bit� (5)�
�in� the� most-significant� byte� and� l� is� a� data�
�bit� in� the� least� significant� byte�
�Slopes� are� always� positive.� The� binary� point� is� in� between�
�the� two� bytes,� i.e.,� between� bits� 7� and� 8.� This� provides� a�
�numerical� range� of� 1/256� (0.00391)� to� 255.997� in� steps� of�
�1/256.� The� most� significant� byte� is� always� stored� in�
�memory� at� the� lower� numerical� address.�
�Table� 10.� LSB� Values� of� Offset� Coefficients�
�July� 2007�
�23�
�M9999-073107-B�
�hbwhelp@micrel.com� or� (408)� 955-1690�
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