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参数资料
| 型号: | ADN8830ACPZ-REEL |
| 厂商: | Analog Devices Inc |
| 文件页数: | 13/22页 |
| 文件大小: | 0K |
| 描述: | IC THERMO COOLER CNTRLR 32-LFCSP |
| 标准包装: | 1 |
| 应用: | 热电冷却器 |
| 电流 - 电源: | 8mA |
| 电源电压: | 3.3 V ~ 5 V |
| 工作温度: | -40°C ~ 85°C |
| 安装类型: | 表面贴装 |
| 封装/外壳: | 32-VFQFN 裸露焊盘,CSP |
| 供应商设备封装: | 32-LFCSP-VQ(5x5) |
| 包装: | 剪切带 (CT) |
| 其它名称: | ADN8830ACPZ-REELCT |
��
�
�ADN8830�
�Using� TEMPOUT� to� Measure� Temperature�
�The� TEMPOUT� pin� is� a� voltage� that� is� proportional� to� the�
�difference� between� the� target� temperature� and� the� measured�
�thermistor� temperature.� The� full� equation� for� the� voltage� at�
�where� V� OUT� A� and� V� OUT� B� are� the� voltages� at� Pins� 19� and� 9,� respec-�
�tively.� The� ripple� voltage� at� Pin� 19� is� filtered� out� internally� and�
�does� not� appear� at� VTEC,� leaving� it� as� an� accurate� dc� output� of�
�the� TEC� voltage.�
�TEMPOUT� is�
�TEMPOUT� =� 1� .� 5� +� 3� ×� (� THERMIN� –� TEMPSET�
�)�
�(16)�
�The� TEC� is� driven� with� a� differential� voltage,� allowing� current�
�to� flow� in� either� direction� through� the� TEC.� This� can� provide�
�heat� transfer� either� to� or� from� the� object� being� regulated� without�
�The� voltage� range� of� TEMPOUT� is� 0� V� to� 3.0� V� and� is� inde-�
�pendent� of� power� supply� voltage.�
�Setting� the� Maximum� TEC� Voltage� and� Current�
�The� ADN8830� can� be� programmed� for� a� maximum� output� volt-�
�age� to� protect� the� TEC.� A� voltage� from� 0� V� to� 1.5� V� applied� to�
�the� VLIM� (Pin� 15)� input� to� the� ADN8830� sets� the� maximum�
�TEC� voltage,� V� TEC,� MAX� .� This� voltage� can� be� set� with� either� a�
�resistor� divider� or� from� a� DAC.� Because� the� output� of� the�
�ADN8830� is� bidirectional,� this� voltage� sets� both� the� upper�
�and� lower� limits� of� the� TEC� voltage.� The� equation� governing�
�V� TEC,� MAX� is� given� in� Equation� 17� and� the� graph� of� this� equation�
�the� use� of� a� negative� voltage� rail.� The� maximum� output� voltage�
�across� the� TEC� is� set� by� the� voltage� at� VLIM� (Pin� 15).� Refer� to�
�the� Setting� the� Maximum� TEC� Voltage� and� Current� section� for�
�details� on� this� operation.� With� VLIM� set� to� ground,� the� maximum�
�output� voltage� is� the� power� supply� voltage,� V� DD� .�
�To� achieve� a� differential� output,� the� ADN8830� has� two� separate�
�output� stages.� OUT� A� is� a� switched� output� or� pulse-width�
�modulated� (PWM)� amplifier,� and� OUT� B� is� a� high� gain� linear�
�amplifier.� Although� they� achieve� the� same� result,� to� provide�
�constant� voltage� and� high� current,� their� operation� is� different.�
�The� exact� equations� for� the� two� outputs� are�
�is� shown� in� Figure� 12.�
�V� TEC� ,� MAX� =� (� 1� .� 5� V� –� VLIM� )� ×� 4�
�(17)�
�OUT� A� =� 4� ×� (� COMPOUT� –� 1� .� 5� )� +� OUT� B�
�OUT� B� =� –� 14� ×� (� COMPOUT� –� 1� .� 5� )� +� 1� .� 5�
�(19)�
�(20)�
�5�
�4�
�3�
�2�
�where� COMPOUT� is� the� voltage� at� Pin� 13.� The� voltage� at�
�COMPOUT� is� determined� by� the� compensation� network� that� is�
�fed� by� the� input� amplifier,� which� receives� its� input� voltage� from�
�TEMPSET� and� THERMIN.� Equation� 20� is� valid� only� in� the�
�linear� region� of� the� linear� amplifier.� OUT� B� has� a� lower� limit� of�
�0� V� and� an� upper� limit� of� the� power� supply.�
�Because� the� COMPOUT� voltage� is� not� readily� known,� Equa-�
�tion� 20� can� be� rewritten� in� terms� of� the� TEC� voltage,� VTEC,�
�which� is� defined� as� OUT� B� –� OUT� A.�
�1�
�OUT� B� =� 4� � VTEC� +� 1� .� 5�
�(21)�
�In� Figure� 1,� Pins� 10� and� 11� provide� the� gate� drive� for� Q3� and� Q4,�
�0�
�0�
�0.5�
�1.0�
�VLIM� (V)�
�1.5�
�2.0�
�which� complete� the� linear� output� amplifier.� This� output� voltage�
�is� fed� back� to� Pin� 9� (OUT� B)� to� close� its� loop.� The� gate-to-drain�
�capacitance� of� Q3� and� Q4� provide� the� compensation� for� the�
�Figure� 12.� VLIM� Voltage� vs.� Maximum� TEC� Voltage�
�If� the� supply� voltage� is� lower� than� V� TEC,� MAX� ,� the� maximum� TEC�
�voltage� will� obviously� be� equal� to� the� supply� voltage.� The� voltage�
�to� VLIM� should� not� exceed� 1.5� V� since� this� causes� improper�
�operation� of� the� output� voltage� limiting� circuitry.� Setting� VLIM� to�
�1.5� V� can� be� used� to� deactivate� the� TEC� current� without�
�shutting� down� the� ADN8830� in� the� event� of� a� system� failure.� If� a�
�maximum� TEC� voltage� is� not� required,� VLIM� should� be� con-�
�nected� to� ground.� It� is� not� advisable� to� leave� VLIM� floating� as�
�this� would� cause� unpredictable� output� behavior.�
�This� feature� should� be� used� to� limit� the� maximum� output� current�
�to� the� TEC� as� specified� in� the� TEC� data� sheet.� For� example,� if�
�the� maximum� TEC� voltage� is� specified� at� 2� V,� VLIM� should� be�
�set� to� 1� V.� The� maximum� output� voltage� is� then� set� to� ±� 2� V.�
�Output� Driver� Amplifiers�
�The� output� voltage� across� the� TEC� as� measured� from� Pin� 19� to�
�Pin� 9� can� be� monitored� at� Pin� 16.� This� is� labeled� as� VTEC� in�
�the� typical� application� schematic� in� Figure� 1.� The� voltage� at�
�VTEC� can� vary� from� 0� V� to� 3� V� independent� of� the� power�
�supply� voltage.� Its� equation� is� given� as�
�linear� amplifier.� If� using� the� recommended� FDW2520C� transistors,�
�it� will� be� necessary� to� add� an� additional� 2.2� nF� of� capacitance�
�from� the� gate� to� the� drain� of� the� PMOS� transistor� to� maintain�
�stability.� A� 3.3� nF� capacitor� should� also� be� connected� from� the�
�drain� to� ground� to� prevent� small� oscillations� when� there� is� very�
�little� or� no� current� through� the� TEC.�
�These� extra� capacitors� are� specified� only� when� using� FDW2520C�
�transistors� in� the� linear� amplifier.� If� other� transistors� are� used,�
�these� values� may� need� to� be� adjusted.� To� ensure� the� linear�
�amplifier� is� stable,� the� total� gate-to-source� capacitance� for� both�
�Q3� and� Q4� should� be� at� least� 2.5� nF.� Refer� to� the� transistor’s�
�data� sheet� for� its� typical� gate-to-drain� capacitance� values.�
�The� output� of� the� linear� amplifier� is� proportional� to� the� voltage�
�at� Pin� 13� (COMPOUT).� Because� the� linear� amplifier� operates�
�with� a� gain� of� 14,� its� output� will� typically� be� at� either� ground� or�
�V� DD� if� there� is� more� than� about� 100� mA� of� current� flowing�
�through� the� TEC.� This� ensures� Q3� and� Q4� will� not� be� a� domi-�
�nant� source� of� power� dissipation� at� high� output� currents.�
�REV.� D�
�VTEC� =� 0� .� 25� � (� V� OUT�
�A�
�–� V� OUT� B� )� +� 1� .� 5�
�(18)�
�–13� –�
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