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�
�ADN8831�
�Data� Sheet�
�2.5�
�f� 0� dB� ?�
�1�
�2� ?� R3C1�
�?� 80� ?� TECGAIN�
�2.0�
�1.5�
�1.0�
�To� ensure� stability,� the� unity-gain� crossover� frequency� is� to� be�
�lower� than� the� thermal� time� constant� of� the� TEC� and� thermistor.�
�However,� this� thermal� time� constant� is� sometimes� unspecified�
�making� it� difficult� to� characterize.� There� are� many� texts� written�
�on� loop� stabilization,� and� it� is� beyond� the� scope� of� this� data�
�sheet� to� discuss� all� methods� and� trade� offs� in� optimizing�
�compensation� networks.�
�0.5�
�ADN8831�
�0�
�–15�
�5�
�25�
�45�
�65�
�CHOP2�
�TEMPERATURE(°C)�
�Figure� 18.� V� OUT1� vs.� Temperature�
�4�
�OUT1�
�5�
�IN2P�
�6�
�IN2N�
�7�
�OUT2�
�PID� COMPENSATION� AMPLIFIER� (Chop2)�
�Use� the� Chop2� amplifier� as� the� PID� compensation� amplifier.�
�V� TEMPSET�
�The� voltage� at� OUT1� feeds� into� the� PID� compensation� amplifier.�
�R3�
�R1�
�C1�
�The� frequency� response� of� the� PID� compensation� amplifier� is�
�dictated� by� the� compensation� network.� Apply� the� temperature�
�R2�
�C2�
�CF�
�set� voltage� at� IN2P.� In� Figure� 17,� the� voltage� at� OUT2� is� calcu-�
�lated� using� the� following� equation:�
�Figure� 19.� Implementing� a� PID� Compensation� Loop�
�V� OUT2� ?� V� TEMPSET� ?�
�Z2�
�Z1�
�(� V� OUT1� ?� V� TEMPSET� )�
�The� user� sets� the� exact� compensation� network.� This� network�
�varies� from� a� simple� integrator� to� PI,� PID,� or� any� other� type� of�
�network.� The� user� also� determines� the� type� of� compensation�
�and� component� values� because� they� are� dependent� on� the� thermal�
�response� of� the� object� and� the� TEC.� One� method� for� empirically�
�determining� these� values� is� to� input� a� step� function� to� IN2P,�
�therefore� changing� the� target� temperature,� and� adjusting� the�
�compensation� network� to� minimize� the� settling� time� of� the� TEC�
�temperature.�
�0dB�
�R1�
�R2� ||� R3�
�R1�
�R3�
�A� typical� compensation� network� for� temperature� control� of�
�1�
�2� π� R3C1�
�1�
�2� π� R1C1�
�1�
�2� π� C2� (R2� +� R3)�
�1�
�2� π� R3C2�
�a� laser� module� is� a� PID� loop� consisting� of� a� very� low� frequency�
��shows� a� simple� network� for� implementing� PID� compensation.�
�To� reduce� the� noise� sensitivity� of� the� control� loop,� an� additional�
�pole� is� added� at� a� higher� frequency� than� the� zeros.� The� bode�
�plot� of� the� magnitude� is� shown� in� Figure� 20.� The� unity-gain�
�FREQUENCY� (Hz� Log� Scale)�
�Figure� 20.� Bode� Plot� for� PID� Compensation�
�With� an� ADN8831� -EVALZ� board,� AN-695,� an� application� note�
�shows� how� to� determine� the� PID� network� components� for� a�
�stable� TEC� subsystem� performance.�
�crossover� frequency� of� the� feedforward� amplifier� is� calculated�
�using� the� following� equation:�
�Rev.� A� |� Page� 16� of� 20�
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