参数资料
| 型号: | MAX8758ETG+T |
| 厂商: | Maxim Integrated Products |
| 文件页数: | 14/20页 |
| 文件大小: | 0K |
| 描述: | IC REG STEP UP 24-TQFN |
| 产品培训模块: | Lead (SnPb) Finish for COTS Obsolescence Mitigation Program |
| 标准包装: | 2,500 |
| 应用: | 转换器,TFT,LCD |
| 输入电压: | 1.8 V ~ 5.5 V |
| 输出数: | 1 |
| 输出电压: | 5V |
| 工作温度: | 0°C ~ 85°C |
| 安装类型: | 表面贴装 |
| 封装/外壳: | 24-WFQFN 裸露焊盘 |
| 供应商设备封装: | 24-TQFN-EP(4x4) |
| 包装: | 带卷 (TR) |
��
�
�Step-Up� Regulator� with� Switch� Control�
�and� Operational� Amplifier� for� TFT� LCD�
�Activate� the� first� mode� by� connecting� MODE� to� LDO.�
�When� CTL� is� logic� high,� Q1� turns� on� and� Q2� turns� off,�
�connecting� GON� to� SRC.� When� CTL� is� logic� low,� Q1�
�turns� off� and� Q2� turns� on,� connecting� GON� to� DRN.�
�GON� can� then� be� discharged� through� a� resistor� con-�
�nected� between� DRN� and� PGND� or� AV� DD� .� Q2� turns� off�
�and� stops� discharging� GON� when� V� GON� reaches� 10�
�times� the� voltage� on� THR.�
�When� V� MODE� is� less� than� 0.9� x� V� LDO� ,� the� switch� control�
�block� works� in� the� second� mode.� The� rising� edge� of�
�V� CTL� turns� on� Q1� and� turns� off� Q2,� connecting� GON� to�
�SRC.� An� internal� n-channel� MOSFET� Q3� between�
�MODE� and� GND� is� also� turned� on� to� discharge� an�
�external� capacitor� between� MODE� and� GND.� The�
�falling� edge� of� V� CTL� turns� off� Q3,� and� an� internal� 50μA�
�current� source� starts� charging� the� MODE� capacitor.�
�Once� V� MODE� exceeds� 0.5� x� V� REF� ,� the� switch� control�
�block� turns� off� Q1� and� turns� on� Q2,� connecting� GON� to�
�DRN.� GON� can� then� be� discharged� through� a� resistor�
�connected� between� DRN� and� GND� or� AV� DD� .� Q2� turns�
�off� and� stops� discharging� GON� when� V� GON� reaches� 10�
�times� the� voltage� on� THR.�
�The� timing� of� enabling� the� switch� control� block� can� be�
�adjusted� with� an� external� capacitor� connected� between�
�DLP� and� GND.� An� internal� current� source� starts� charg-�
�ing� the� DLP� capacitor� if� the� input� voltage� is� above�
�1.75V� (typ),� SHDN� is� high,� and� the� fault� latch� is� not� set.�
�The� voltage� on� DLP� linearly� rises� because� of� the� con-�
�stant-charging� current.� When� VDLP� goes� above� 2.5V�
�(typ),� the� switch� control� block� is� enabled.� The� switch�
�control� block� is� disabled� and� DLP� is� held� low� when� the�
�MAX8758� is� shut� down� or� in� a� fault� state.�
�Linear� Regulator� (LDO)�
�The� MAX8758� includes� an� internal� 5V� linear� regulator.�
�OUT� is� the� input� of� the� linear� regulator� and� should� be�
�directly� connected� to� the� output� of� the� step-up� regulator.�
�The� input� voltage� range� is� between� 4.5V� and� 13V.� The�
�output� of� the� linear� regulator� (LDO)� is� set� to� 5V� (typ).� The�
�regulator� powers� all� the� internal� circuitry� including� the�
�gate� driver.� This� feature� significantly� improves� the� effi-�
�ciency� at� low� input� voltages.� Bypass� the� LDO� pin� to�
�GND� with� a� 0.22μF� or� greater� ceramic� capacitor.�
�Design� Procedure�
�Step-Up� Regulator�
�Step-Up� Regulator� Inductor� Selection�
�The� inductance� value,� peak-current� rating,� and� series�
�resistance� are� factors� to� consider� when� selecting� the�
�inductor.� These� factors� influence� the� converter’s� effi-�
�ciency,� maximum� output-load� capability,� transient�
�response� time,� and� output� voltage� ripple.� Physical� size�
�and� cost� are� also� important� factors� to� be� considered.�
�The� maximum� output� current,� input� voltage,� output� volt-�
�age,� and� switching� frequency� determine� the� inductor�
�value.� Very� high� inductance� values� minimize� the� cur-�
�rent� ripple� and,� therefore,� reduce� the� peak� current,�
�which� decreases� core� losses� in� the� inductor� and� I� 2� R�
�losses� in� the� entire� power� path.� However,� large� induc-�
�tor� values� also� require� more� energy� storage� and� more�
�turns� of� wire,� which� increase� physical� size� and� can�
�increase� I� 2� R� losses� in� the� inductor.� Low� inductance� val-�
�ues� decrease� the� physical� size� but� increase� the� current�
�ripple� and� peak� current.� Finding� the� best� inductor�
�involves� choosing� the� best� compromise� between� circuit�
�efficiency,� inductor� size,� and� cost.�
�The� equations� used� here� include� a� constant� LIR,� which�
�is� the� ratio� of� the� inductor� peak-to-peak� ripple� current�
�to� the� average� DC� inductor� current� at� the� full-load� cur-�
�rent.� The� best� trade-off� between� inductor� size� and� cir-�
�cuit� efficiency� for� step-up� regulators� generally� has� an�
�LIR� between� 0.3� and� 0.5.� However,� depending� on� the�
�AC� characteristics� of� the� inductor� core� material� and�
�ratio� of� inductor� resistance� to� other� power-path� resis-�
�tances,� the� best� LIR� can� shift� up� or� down.� If� the� induc-�
�tor� resistance� is� relatively� high,� more� ripple� can� be�
�accepted� to� reduce� the� number� of� turns� required� and�
�increase� the� wire� diameter.� If� the� inductor� resistance� is�
�relatively� low,� increasing� inductance� to� lower� the� peak�
�current� can� decrease� losses� throughout� the� power�
�path.� If� extremely� thin� high-resistance� inductors� are�
�used,� as� is� common� for� LCD� panel� applications,� the�
�best� LIR� can� increase� to� between� 0.5� and� 1.0.�
�14�
�______________________________________________________________________________________�
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