参数资料
| 型号: | LT1786FCS#TR |
| 厂商: | Linear Technology |
| 文件页数: | 15/20页 |
| 文件大小: | 0K |
| 描述: | IC REG SW CCFL SMBUS PROG 16SOIC |
| 标准包装: | 2,500 |
| 应用: | 转换器,CCFL |
| 输入电压: | 4.5 V ~ 30 V |
| 输出数: | 1 |
| 工作温度: | 0°C ~ 70°C |
| 安装类型: | 表面贴装 |
| 封装/外壳: | 16-SOIC(0.154",3.90mm 宽) |
| 供应商设备封装: | 16-SOIC |
| 包装: | 带卷 (TR) |
��
�
�LT1786F�
�APPLICATIO� N� S� I� N� FOR� M� ATIO� N�
�Simplified� Lamp� Current� Programming�
�A� programming� block� in� the� LT1786F� controls� lamp�
�current,� permitting� either� grounded� lamp� or� floating� lamp�
�configurations.� Grounded� configurations� control� lamp�
�current� by� directly� controlling� one-half� of� actual� lamp�
�current� and� converting� it� to� a� feedback� signal� to� close� a�
�control� loop.� Floating� configurations� control� lamp� current�
�by� directly� controlling� the� Royer’s� primary-side� converter�
�current� and� generating� a� feedback� signal� to� close� a� control�
�loop.�
�Previous� backlighting� solutions� have� used� a� traditional�
�error� amplifier� in� the� control� loop� to� regulate� lamp� current.�
�This� approach� converted� an� RMS� current� into� a� DC� voltage�
�for� the� input� of� the� error� amplifier.� This� approach� used�
�several� time� constants� in� order� to� provide� stable� loop�
�frequency� compensation.� This� compensation� scheme�
�meant� that� the� loop� had� to� be� fairly� slow� and� that� output�
�overshoot� with� start-up� or� overload� conditions� had� to� be�
�carefully� evaluated� in� terms� of� transformer� stress� and�
�of� the� probe’s� respective� input� capacitance.� A� current�
�meter� in� series� with� the� I� CCFL� pin� will� also� produce� oscil-�
�lation� due� to� its� shunt� capacitance.� Use� a� decoupling�
�resistor� of� several� kilohms� between� the� I� CCFL� pin� and� the�
�I� OUT� pin� if� excessive� trace� stray� capacitance� exists.� Nor-�
�mally,� this� resistor� is� not� required.�
�In� some� applications,� the� maximum� programming� current�
�required� at� the� I� CCFL� pin� for� a� maximum� lamp� current� will� be�
�less� than� the� full-scale� output� current� of� the� DAC,� which� is�
�100� μ� A.� The� system� designer� can� either� limit� the� maximum�
�programming� current� through� software� built� into� the� system,�
�or� use� a� current� splitter� which� shunts� a� percentage� of� the� full-�
�scale� current� from� the� I� CCFL� pin.� A� splitter� circuit� is� illustrated�
�in� Figure� 1.� A� divider� string� is� used� from� a� reference� voltage�
�to� set� up� a� voltage� level� equal� to� the� I� CCFL� summing� voltage,�
�or� 465mV.� The� main� current� flowing� in� the� divider� string�
�should� be� chosen� to� swamp� out� the� effects� of� the� shunted�
�current� into� the� divider� string.�
�breakdown� voltage� requirements.�
�I� OUT� FULL-SCALE�
�100� μ� A�
�R1�
�V(I� CCFL� )�
�465mV�
�I� =� 100� μ� A�
�0<X<1�
�The� LT1786F� eliminates� the� error� amplifier� concept�
�entirely� and� replaces� it� with� a� lamp� current� programming�
�block.� This� block� provides� an� easy-to-use� interface� to�
�program� lamp� current.� The� programmer� circuit� also�
�reduces� the� number� of� time� constants� in� the� control� loop�
�by� combining� the� error� signal� conversion� scheme� and�
�I�
�V1�
�XI�
�R2�
�(1� –� X)I�
�I1�
�V� REF�
�R3�
�V(I� CCFL� )�
�R4�
�SELECT� V1� WITHIN� THE� DAC� I� OUT�
�COMPLIANCE� RANGE�
�(EX.� V1� =� 2V� FOR� V� CC� =� 3.3V� OR� 5V)�
�CHOOSE� I1� >>� (1� –� X)I�
�R1� =� (V1� –� 0.465)/[(X)(100� μ� A)]�
�R2� =� (V1� –� 0.465)/[(1� –� X)(100� μ� A)]�
�R3� =� (V� REF� –� 0.465)/I1�
�R4� =� 0.465R3/[(1� –� X)(100� μ� A)(R3)�
�+� (V� REF� –� 0.465)]� 1786� F01�
�frequency� compensation� into� a� single� capacitor.� The� con-�
�trol� loop� thus� exhibits� the� response� of� a� single� pole�
�system,� allows� for� faster� loop� transient� response� and�
�virtually� eliminates� overshoot� under� start-up� or� overload�
�conditions.�
�Lamp� current� is� programmed� at� the� input� of� the� program-�
�mer� block,� the� I� CCFL� pin.� This� pin� is� the� input� of� a� shunt�
�regulator� and� accepts� a� DC� input� current� signal� of� 0� μ� A� to�
�100� μ� A� from� the� DAC.� This� input� signal� is� converted� to� a�
�0� μ� A� to� 500� μ� A� source� current� at� the� CCFL� V� C� pin.� The�
�programmer� circuit� is� simply� a� current-to-current� con-�
�verter� with� a� gain� of� five.�
�The� I� CCFL� pin� is� sensitive� to� capacitive� loading� and� will�
�oscillate� with� capacitance� greater� than� 10pF.� For� example,�
�loading� the� I� CCFL� pin� with� a� 1� � or� 10� � scope� probe� causes�
�oscillation� and� erratic� CCFL� regulator� operation� because�
�Figure� 1�
�Grounded� Lamp� Configuration�
�In� a� grounded� lamp� configuration,� the� low� voltage� side� of�
�the� lamp� connects� directly� to� the� LT1786F� DIO� pin.� This�
�pin� is� the� common� connection� between� the� cathode� and�
�anode� of� two� internal� diodes.� In� previous� grounded� lamp�
�solutions,� these� diodes� were� discrete� units� and� are� now�
�integrated� onto� the� IC,� saving� cost� and� board� space.�
�Bidirectional� lamp� current� flows� in� the� DIO� pin� and� thus,�
�the� diodes� conduct� alternately� on� half� cycles.� Lamp� cur-�
�rent� is� controlled� by� monitoring� one-half� of� the� average�
�lamp� current.� The� diode� conducting� on� negative� half�
�cycles� has� one-tenth� of� its� current� diverted� to� the� CCFL� V� C�
�pin� and� nulls� against� the� source� current� provided� by� the�
�15�
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