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参数资料
| 型号: | MAX8795AETJ+C7P |
| 厂商: | Maxim Integrated Products |
| 文件页数: | 23/31页 |
| 文件大小: | 0K |
| 描述: | IC TFT-LCD DC/DC CONV 32-TQFN |
| 产品培训模块: | Lead (SnPb) Finish for COTS Obsolescence Mitigation Program |
| 标准包装: | 60 |
| 应用: | 转换器,TFT,LCD |
| 输入电压: | 2.5 V ~ 6 V |
| 输出数: | 8 |
| 输出电压: | 2.5 V ~ 18 V |
| 工作温度: | -40°C ~ 85°C |
| 安装类型: | 表面贴装 |
| 封装/外壳: | 32-WFQFN 裸露焊盘 |
| 供应商设备封装: | 32-TQFN-EP(5x5) |
| 包装: | 管件 |
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�
�TFT-LCD� DC-DC� Converter� with�
�Operational� Amplifiers�
�I� LOAD� (� MAX� )� =� ?� I� DRV� ?� BE� ?� � h� FE� (� MIN� )�
�Charge-Pump Output Capacitor�
�Increasing� the� output� capacitance� or� decreasing� the�
�ESR� reduces� the� output� ripple� voltage� and� the� peak-to-�
�peak� transient� voltage.� With� ceramic� capacitors,� the�
�output� voltage� ripple� is� dominated� by� the� capacitance�
�value.� Use� the� following� equation� to� approximate� the�
�required� capacitor� value:�
�voltage,� and� power� dissipation.� The� transistor’s� current�
�gain� limits� the� guaranteed� maximum� output� current� to:�
�?� V� ?�
�?� R� BE� ?�
�where� I� DRV� is� the� minimum� guaranteed� base-drive� cur-�
�C� OUT� _� CP� ≥�
�I� LOAD� _� CP�
�2� f� OSC� V� RIPPLE� _� CP�
�rent,� V� BE� is� the� transistor’s� base-to-emitter� forward� volt-�
�age� drop,� and� R� BE� is� the� pullup� resistor� connected�
�between� the� transistor’s� base� and� emitter.� Furthermore,�
�the� transistor’s� current� gain� increases� the� linear� regula-�
�R� 4� =� R� 5� � ?� GON� ?� 1� ?�
�R� 7� =� R� 8� � FBN� GOFF�
�?� I� BIAS� FE� ?� ?�
�� h�
�A� V� _� LR� ?� ?� V� T� ?� � ?� 1� +� ?� I� ?� ?� � V� REF�
�where C� OUT_CP� is the output capacitor of the charge�
�pump,� I� LOAD_CP� is� the� load� current� of� the� charge�
�pump,� and� V� RIPPLE_CP� is� the� peak-to-peak� value� of� the�
�output� ripple.�
�Charge-Pump� Rectifier� Diodes�
�Use� low-cost� silicon� switching� diodes� with� a� current� rat-�
�ing� equal� to� or� greater� than� two� times� the� average�
�charge-pump� input� current.� If� it� helps� avoid� an� extra�
�stage,� some� or� all� of� the� diodes� can� be� replaced� with�
�Schottky� diodes� with� an� equivalent� current� rating.�
�Linear-Regulator� Controllers�
�Output-Voltage� Selection�
�Adjust� the� gate-on� linear-regulator� (REG� P)� output� volt-�
�age� by� connecting� a� resistive� voltage-divider� from� the�
�REG� P� output� to� AGND� with� the� center� tap� connected�
�to� FBP� (Figure� 1).� Select� the� lower� resistor� of� the� divider�
�R5� in� the� range� of� 10k� ?� to� 30k� ?� .� Calculate� the� upper�
�resistor� R4� with� the� following� equation:�
�?� V� ?�
�?� V� FBP� ?�
�where� V� FBP� =� 1.25V� (typ).�
�Adjust� the� gate-off� linear-regulator� REG� N� output� volt-�
�age� by� connecting� a� resistive� voltage-divider� from�
�V� GOFF� to� REF� with� the� center� tap� connected� to� FBN�
�(Figure� 1).� Select� R8� in� the� 20k� ?� to� 50k� ?� range.�
�Calculate� R7� with� the� following� equation:�
�V� ?� V�
�V� REF� ?� V� FBN�
�where� V� FBN� =� 250mV,� V� REF� =� 1.25V.� Note� that� REF� can�
�only� source� up� to� 50μA;� using� a� resistor� less� than� 20k� ?�
�for� R8� results� in� higher� bias� current� than� REF� can� supply.�
�Pass-Transistor� Selection�
�The� pass� transistor� must� meet� specifications� for� current�
�gain� (h� FE� ),� input� capacitance,� collector-emitter� saturation�
�tor’s� DC� loop� gain� (see� the� Stability� Requirements� sec-�
�tion),� so� excessive� gain� destabilizes� the� output.�
�Therefore,� transistors� with� current� gain� over� 100� at� the�
�maximum� output� current� can� be� difficult� to� stabilize� and�
�are� not� recommended� unless� the� high� gain� is� needed� to�
�meet� the� load-current� requirements.�
�The� transistor’s� saturation� voltage� at� the� maximum� out-�
�put� current� determines� the� minimum� input-to-output�
�voltage� differential� that� the� linear� regulator� can� support.�
�Also,� the� package’s� power� dissipation� limits� the� usable�
�maximum� input-to-output� voltage� differential.� The� maxi-�
�mum� power-dissipation� capability� of� the� transistor’s�
�package� and� mounting� must� exceed� the� actual� power�
�dissipated� in� the� device.� The� power� dissipated� equals�
�the� maximum� load� current� (I� LOAD(MAX)_LR� )� multiplied�
�by� the� maximum� input-to-output� voltage� differential:�
�P� =� I� LOAD� (� MAX� )_� LR� � (� V� IN� (� MAX� )_� LR� ?� V� OUT� _� LR� )�
�where� V� IN(MAX)_LR� is� the� maximum� input� voltage� of� the�
�linear� regulator,� and� V� OUT� _� LR� is� the� output� voltage� of�
�the� linear� regulator.�
�Stability� Requirements�
�The� MAX8795A� linear-regulator� controllers� use� an� inter-�
�nal� transconductance� amplifier� to� drive� an� external�
�pass� transistor.� The� transconductance� amplifier,� the�
�pass� transistor,� the� base-emitter� resistor,� and� the� out-�
�put� capacitor� determine� the� loop� stability.� The� following�
�applies� to� both� linear-regulator� controllers� in� the�
�MAX8795A.�
�The� transconductance� amplifier� regulates� the� output�
�voltage� by� controlling� the� pass� transistor’s� base� cur-�
�rent.� The� total� DC� loop� gain� is� approximately:�
�?� 10� ?� ?�
�?� ?�
�?� ?� LOAD� _� LR� ?� ?�
�where� V� T� is� 26mV� at� room� temperature,� and� I� BIAS� is� the�
�current� through� the� base-to-emitter� resistor� (R� BE� ).� For�
�the� MAX8795A,� the� bias� currents� for� both� the� gate-on�
�______________________________________________________________________________________�
�23�
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