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参数资料
| 型号: | MAX3869EHJ+T |
| 厂商: | Maxim Integrated |
| 文件页数: | 9/15页 |
| 文件大小: | 0K |
| 描述: | IC LASER DRIVR 2CHAN 5.5V 32TQFP |
| 产品培训模块: | Lead (SnPb) Finish for COTS Obsolescence Mitigation Program |
| 标准包装: | 2,500 |
| 类型: | 激光二极管驱动器(光纤) |
| 数据速率: | 2.5Gbps |
| 通道数: | 2 |
| 电源电压: | 3.14 V ~ 5.5 V |
| 电流 - 电源: | 64mA |
| 电流 - 调制: | 60mA |
| 电流 - 偏置: | 100mA |
| 工作温度: | -40°C ~ 85°C |
| 封装/外壳: | 32-TQFP 裸露焊盘 |
| 供应商设备封装: | 32-TQFP-EP(5x5) |
| 包装: | 带卷 (TR) |
| 安装类型: | 表面贴装 |
��
�
�+3.3V,� 2.5Gbps� SDH/SONET� Laser� Driver�
�with� Current� Monitors� and� APC�
�Optional� Data� Input� Latch�
�To� minimize� input� data� pattern-dependent� jitter,� the� dif-�
�ferential� clock� signal� should� be� connected� to� the� data�
�input� latch,� which� is� selected� by� an� external� LATCH�
�control.� If� LATCH� is� high,� the� input� data� is� retimed� by�
�the� rising� edge� of� CLK+.� If� LATCH� is� low,� the� input� data�
�is� directly� connected� to� the� output� stage.� When� this�
�latch� function� is� not� used,� connect� CLK+� to� V� CC� and�
�leave� CLK-� unconnected.�
�Enable� Control�
�The� MAX3869� incorporates� a� laser� driver� enable� func-�
�tion.� When� ENABLE� is� low,� both� the� bias� and� modulation�
�currents� are� off.� The� typical� laser� enable� time� is� 250ns,�
�and� the� typical� disable� time� is� 25ns.�
�Current� Monitors�
�The� MAX3869� features� bias-� and� modulation-current�
�monitor� outputs.� The� BIASMON� output� sinks� a� current�
�equal� to� 1/37� of� the� laser� bias� current� (I� BIAS� /� 37).� The�
�MODMON� output� sinks� a� current� equal� to� 1/29� of� the�
�laser� modulation� current� (I� MOD� /� 29).� BIASMON� and�
�MODMON� should� be� connected� through� a� pull-up� resis-�
�tor� to� V� CC� .� Choose� a� pull-up� resistor� value� that� ensures� a�
�voltage� at� BIASMON� greater� than� V� CC� -� 1.6V� and� a� volt-�
�age� at� MODMON� greater� than� V� CC� -� 1.0V.�
�Slow-Start�
�For� laser� safety� reasons,� the� MAX3869� incorporates� a�
�slow-start� circuit� that� provides� a� delay� of� 250ns� for�
�enabling� a� laser� diode.�
�APC� Failure� Monitor�
�The� MAX3869� provides� an� APC� failure� monitor�
�(TTL/CMOS)� to� indicate� an� APC� loop� tracking� failure.�
�FAIL� is� set� low� when� the� APC� loop� can� no� longer� adjust�
�the� bias� current� to� maintain� the� desired� monitor� current.�
�Short-Circuit� Protection�
�The� MAX3869� provides� short-circuit� protection� for� the�
�modulation,� bias,� and� monitor� current� sources.� If� either�
�BIASMAX,� MODSET,� or� APCSET� is� shorted� to� ground,�
�the� bias� and� modulation� output� will� be� turned� off.�
�Design� Procedure�
�Programming� the� Modulation� Current�
�For� a� given� laser� power� P� AVG� ,� slope� efficiency� (� η)� ,� and�
�extinction� ration� (r� e)� ,� the� modulation� current� can� be� cal-�
�culated� using� Table� 1.� See� the� I� MOD� vs.� R� MODSET� graph�
�in� the� Typical� Operating� Characteristics� and� select� the�
�value� of� R� MODSET� that� corresponds� to� the� required� cur-�
�rent� at� +25°C.�
�Programming� the� Bias� Current�
�When� using� the� MAX3869� in� open-loop� operation,� the�
�bias� current� is� determined� by� the� R� BIASMAX� resistor.� To�
�select� this� resistor,� determine� the� required� bias� current�
�at� +25°C.� See� the� I� BIASMAX� vs.� R� BIASMAX� graph� in� the�
�Typical� Operating� Characteristics� and� select� the� value�
�of� R� BIASMAX� that� corresponds� to� the� required� current� at�
�+25°C.�
�When� using� the� MAX3869� in� closed-loop� operation,� the�
�R� BIASMAX� resistor� sets� the� maximum� bias� current� avail-�
�able� to� the� laser� diode� over� temperature� and� life.� The�
�APC� loop� can� subtract� from� this� maximum� value� but�
�cannot� add� to� it.� See� the� I� BIASMAX� vs.� R� BIASMAX� graph�
�in� the� Typical� Operating� Characteristics� and� select� the�
�value� of� R� BIASMAX� that� corresponds� to� the� end-of-life�
�bias� current� at� +85°C.�
�Programming� the� APC� Loop�
�When� the� MAX3869’s� APC� feature� is� used,� program� the�
�average� optical� power� by� adjusting� the� APCSET� resistor.�
�To� select� this� resistor,� determine� the� desired� monitor� cur-�
�rent� to� be� maintained� over� temperature� and� life.� See� the�
�I� MD� vs.� R� APCSET� graph� in� the� Typical� Operating�
�Characteristics� and� select� the� value� of� R� APCSET� that� cor-�
�responds� to� the� required� current.�
�Interfacing� with� Laser� Diodes�
�To� minimize� optical� output� aberrations� caused� by� signal�
�reflections� at� the� electrical� interface� to� the� laser� diode,� a�
�series� damping� resistor� (R� D� )� is� required� (Figure� 4).�
�Additionally,� the� MAX3869� outputs� are� optimized� for� a�
�25� ?� load.� Therefore,� the� series� combination� of� R� D� and�
�R� L� (where� R� L� represents� the� laser-diode� resistance)�
�Table� 1.� Optical� Power� Definition�
�PARAMETER� SYMBOL� RELATION�
�When� designing� a� laser� transmitter,� the� optical� output� is�
�usually� expressed� in� terms� of� average� power� and� extinc-�
�tion� ratio.� Table� 1� gives� the� relationships� that� are� helpful�
�in� converting� between� the� optical� average� power� and� the�
�modulation� current.� These� relationships� are� valid� if� the�
�mark� density� and� duty� cycle� of� the� optical� waveform� are�
�50%.�
�Average� Power�
�Extinction� Ratio�
�Optical� Power� High�
�Optical� Power� Low�
�Optical� Amplitude�
�Laser� Slope�
�Efficiency�
�Modulation� Current�
�P� AVG�
�r� e�
�P� 1�
�P� 0�
�Pp-p�
�η�
�I� MOD�
�P� AVG� =� (P� 0� +� P� 1� )� /� 2�
�r� e� =� P� 1� /� P� 0�
�P� 1� =� 2P� AVG� ·� r� e� /� (r� e� +� 1)�
�P� 0� =� 2P� AVG� /� (r� e� +� 1)�
�Pp-p� =� 2P� AVG� (r� e� -� 1)� /� (r� e� +� 1)�
�η� =� Pp-p� /� I� MOD�
�I� MOD� =� Pp-p� /� η�
�_______________________________________________________________________________________�
�9�
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