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参数资料
| 型号: | LTC5100EUF#TRPBF |
| 厂商: | Linear Technology |
| 文件页数: | 25/52页 |
| 文件大小: | 0K |
| 描述: | IC DRIVER VCSEL 3.2GBPS 16QFN |
| 标准包装: | 2,500 |
| 类型: | 激光二极管驱动器 |
| 数据速率: | 3.2Gbps |
| 通道数: | 1 |
| 电源电压: | 3.135 V ~ 3.465 V |
| 电流 - 电源: | 54mA |
| 电流 - 调制: | 12mA |
| 工作温度: | -40°C ~ 85°C |
| 封装/外壳: | 16-WQFN 裸露焊盘 |
| 供应商设备封装: | 16-QFN(4x4) |
| 包装: | 带卷 (TR) |
| 安装类型: | 表面贴装 |
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��
�
�LTC5100�
�OPERATIO�
�Equation� 20� shows� that� the� loop� gain� is� completely� inde-�
�pendent� of� the� slope� efficiency� and� monitor� diode� re-�
�sponse.� Consequently� the� servo� dynamics� and� settling�
�microprocessor,� according� to� the� setting� of� Ext_temp_en.�
�The� temperature� compensated� expression� for� Imd_set� is�
�given� by:�
�?� +� Im� d� _� tc� 1� ?� 2� –� 13� ?� ?� T� +� 1� ?�
�time are independent of these highly varying quantities.�
�The� Apc_gain� quantity� can� be� set� to� compensate� for� the�
�selected� values� of� Is_rng� and� Im_rng� as� well� as� the�
�extinction� ratio,� termination� resistance� and� laser� dynamic�
�resistance.�
�Im� d� _� set� =�
�?� Im� d� _� tc� 2� ?� 2� –� 18� ?� ?� T� 2� ?�
�Im� d� _� nom� ?� ?� ?�
�(23)�
�The� step� response� of� the� APC� loop� is:�
�Imd_adc� n� =� Imd_set� ?� [1� –� (1� –� A)� n� ]�
�(22)�
�Imd_tc1� and� Imd_tc2� are� the� first� and� second� order�
�temperature� coefficients� for� the� monitor� diode� current.�
�Equation� 23� applies� to� the� digital� representation� of� the�
�The� step� response� given� in� Equation� 22� has� the� familiar�
�exponential� settling� characteristic� of� a� first� order� system.�
�The� step� response� is� shown� in� Figure� 25� for� A� =� 0.5.� The�
�remaining� error� is� reduced� by� one-half� with� each� servo�
�iteration.� In� seven� iterations,� or� about� 28ms,� the� modula-�
�tion� current� settles� to� under� 1%� in� this� example.� The�
�measured� step� response,� including� the� modulation� enve-�
�lope,� is� shown� in� the� Typical� Performance� Characteristics.�
�Choosing� A� =� 0.5� is� nearly� optimal� because� it� results� in�
�monitor� diode� current.� Recall� that� Imd_set� is� the� digital� set�
�point� for� the� logarithm� of� the� monitor� diode� current.� This�
�fact� has� two� important� implications.� First,� the� first� order�
�temperature� coefficient� in� Equation� 23� (Imd_tc1)� results�
�in� an� exponential� change� in� the� physical� monitor� diode�
�current� with� temperature.� However,� the� monitor� diode�
�temperature� drift� is� usually� very� small,� and� the� exponential�
�is� well� approximated� as� linear.� Second,� if� Imd_tc2� =� 0,� the�
�relative� temperature� sensitivity� of� the� physical� current� is�
�given� by:�
�dI� MD� 1�
�smooth,exponentialsettling.A=1willsettleinabouttwo�
�servo� iterations� or� 8ms,� but� “hunting”� or� low� level� oscil-�
�lation� will� be� seen� in� the� laser� bias� current.� A� >� 1� results�
�?�
�dT� I� MD�
�=� ln(� 8� )� ?� 2� –� 13� ?Im� d� _� tc� 1� ?�
�Im� d� _� nom�
�1024�
�(24)�
�in� overshoot� and� A� >� 2� results� in� sustained� high� level�
�oscillation.�
�Imd_set�
�where� I� MD� is� the� physical� monitor� diode� current� in� Amps.�
�Equation� 24� shows� that� the� temperature� coefficient� of� the�
�physical� current� depends� on� the� nominal� monitor� diode�
�current.� For� example,� if� Imd_nom� =� 512� and� Imd_tc1� =� 4,�
�the� physical� temperature� compensation� would� be:�
�Im_adc�
�dI� MD� 1�
�1�
�2�
�3�
�4�
�5�
�6�
�7�
�8�
�SERVO�
�ITERATIONS�
�?�
�dT� I� MD�
�=� ln(� 8� )� ?� 2� –� 13� ?� 4� ?�
�512�
�1024�
�=� 508� ppm� /� °� C� (25)�
�0�
�4�
�8�
�12�
�16�
�20�
�24�
�28�
�32�
�TIME� (ms)�
�5100� F25�
�The� effect� of� Imd_tc2� on� the� physical� monitor� diode�
�current� has� no� simple� physical� interpretation.� In� most�
�Figure� 25.� Step� Response� of� the� Monitor�
�Diode� Current� for� a� Total� Loop� Gain� of� 0.5�
�cases� it� will� be� sufficient� to� set� Imd_tc2� to� zero� and� use� the�
�first� order� temperature� coefficient,� Imd_tc1� to� correct�
�monitor� diode� drift.�
�Temperature� Compensation�
�The� set� point� value� for� the� monitor� diode� current,� Imd_set�
�in� Figure� 3,� can� be� changed� with� temperature� to� compen-�
�sate� the� temperature� dependence� of� the� monitor� diode�
�response.� Temperature� measurements� are� supplied� either�
�by� an� on-chip� temperature� sensor� or� by� an� external�
�LASER� BIAS� CURRENT� CONTROL� IN� CCC� MODE�
�Figure� 4� is� a� functional� diagram� of� the� LTC5100� operating�
�in� constant� current� control� (CCC)� mode.� In� CCC� mode,� the�
�LTC5100� sets� the� laser� bias� current� directly.� Setting�
�Apc_en� =� 0� selects� this� mode.� In� CCC� mode� the� laser� bias�
�sn5100� 5100fs�
�25�
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