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参数资料
| 型号: | MAX1748EUE+T |
| 厂商: | Maxim Integrated Products |
| 文件页数: | 8/16页 |
| 文件大小: | 0K |
| 描述: | IC DC-DC CONV TRPL LCD 16-TSSOP |
| 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: | 2.7 V ~ 5.5 V |
| 输出数: | 3 |
| 输出电压: | 2.7 V ~ 13 V |
| 工作温度: | 0°C ~ 85°C |
| 安装类型: | 表面贴装 |
| 封装/外壳: | 16-TSSOP(0.173",4.40mm 宽) |
| 供应商设备封装: | 16-TSSOP |
| 包装: | 带卷 (TR) |
��
�
�Triple-Output� TFT-LCD�
�DC-DC� Converters�
�Pin� Description� (continued)�
�PIN�
�8�
�9�
�10�
�11�
�12�
�13�
�14�
�15�
�16�
�NAME�
�FBN�
�SHDN�
�DRVN�
�SUPN�
�DRVP�
�SUPP�
�PGND�
�LX�
�TGND�
�FUNCTION�
�Negative� Charge-Pump� Regulator� Feedback� Input.� Regulates� to� 0V� nominal.�
�Active-Low� Logic-Level� Shutdown� Input.� Connect� SHDN� to� IN� for� normal� operation.�
�Negative� Charge-Pump� Driver� Output.� Output� high� level� is� V� SUPN� ,� and� low� level� is� PGND.�
�Negative� Charge-Pump� Driver� Supply� Voltage.� Bypass� to� PGND� with� a� 0.1μF� capacitor.�
�Positive� Charge-Pump� Driver� Output.� Output� high� level� is� V� SUPP� ,� and� low� level� is� PGND.�
�Positive� Charge-Pump� Driver� Supply� Voltage.� Bypass� to� PGND� with� a� 0.1μF� capacitor.�
�Power� Ground.� Connect� to� GND� underneath� the� IC.�
�Main� Boost� Regulator� Power� MOSFET� n-Channel� Drain.� Connect� output� diode� and� output� capacitor�
�as� close� to� PGND� as� possible.�
�Must� be� connected� to� ground.�
�Detailed� Description�
�The� MAX1748/MAX8726� are� highly� efficient� triple-output�
�power� supplies� for� TFT-LCD� applications.� These� devices�
�contain� one� high-power� step-up� converter� and� two� low-�
�power� charge� pumps.� The� primary� boost� converter� uses�
�an� internal� n-channel� MOSFET� to� provide� maximum�
�efficiency� and� to� minimize� the� number� of� external� compo-�
�nents.� The� output� voltage� of� the� main� boost� converter�
�(V� MAIN� )� can� be� set� from� V� IN� to� 13V� with� external� resistors.�
�The� dual� charge� pumps� independently� regulate� a� posi-�
�tive� output� (V� POS� )� and� a� negative� output� (V� NEG� ).� These�
�low-power� outputs� use� external� diode� and� capacitor�
�stages� (as� many� stages� as� required)� to� regulate� output�
�voltages� up� to� +40V� and� down� to� -40V.� A� proprietary�
�regulation� algorithm� minimizes� output� ripple� as� well� as�
�capacitor� sizes� for� both� charge� pumps.�
�Also� included� in� the� MAX1748/MAX8726� is� a� precision�
�1.25V� reference� that� sources� up� to� 50μA,� logic� shut-�
�down,� soft-start,� power-up� sequencing,� fault� detection,�
�and� an� active-low� open-drain� ready� output.�
�Main� Boost� Converter�
�The� MAX1748/MAX8726� main� step-up� converter�
�switches� at� a� constant� 1MHz� internal� oscillator� frequen-�
�cy� to� allow� the� use� of� small� inductors� and� output�
�capacitors.� The� MOSFET� switch� pulse� width� is� modulat-�
�ed� to� control� the� power� transferred� on� each� switching�
�cycle� and� to� regulate� the� output� voltage.�
�During� PWM� operation,� the� internal� clock’s� rising� edge�
�sets� a� flip-flop,� which� turns� on� the� n-channel� MOSFET�
�(Figure� 1).� The� switch� turns� off� when� the� sum� of� the�
�voltage-error,� slope-compensation,� and� current-feed-�
�back� signals� trips� the� multi-input� comparator� and�
�resets� the� flip-flop.� The� switch� remains� off� for� the� rest� of�
�the� clock� cycle.� Changes� in� the� output-voltage� error�
�signal� shift� the� switch� current� trip� level,� consequently�
�modulating� the� MOSFET� duty� cycle.�
�Dual� Charge-Pump� Regulator�
�The� MAX1748/MAX8726� contain� two� individual� low-�
�power� charge� pumps.� One� charge� pump� inverts� the�
�supply� voltage� (SUPN)� and� provides� a� regulated� nega-�
�tive� output� voltage.� The� second� charge� pump� doubles�
�the� supply� voltage� (SUPP)� and� provides� a� regulated�
�positive� output� voltage.� The� MAX1748/MAX8726� con-�
�tain� internal� p-channel� and� n-channel� MOSFETs� to� con-�
�trol� the� power� transfer.� The� internal� MOSFETs� switch� at�
�a� constant� 500kHz� (0.5� x� f� OSC� ).�
�Negative� Charge� Pump�
�During� the� first� half-cycle,� the� p-channel� MOSFET� turns�
�on� and� the� flying� capacitor� C5� charges� to� V� SUPN� minus� a�
�diode� drop� (Figure� 2).� During� the� second� half-cycle,� the�
�p-channel� MOSFET� turns� off,� and� the� n-channel� MOSFET�
�turns� on,� level� shifting� C5.� This� connects� C5� in� parallel�
�with� the� reservoir� capacitor� C6.� If� the� voltage� across� C6�
�minus� a� diode� drop� is� lower� than� the� voltage� across� C5,�
�charge� flows� from� C5� to� C6� until� the� diode� (D5)� turns� off.�
�The� amount� of� charge� transferred� to� the� output� is�
�controlled� by� the� variable� n-channel� on-resistance.�
�Positive� Charge� Pump�
�During� the� first� half-cycle,� the� n-channel� MOSFET� turns�
�on� and� charges� the� flying� capacitor� C3� (Figure� 3).� This�
�initial� charge� is� controlled� by� the� variable� n-channel� on-�
�resistance.� During� the� second� half-cycle,� the� n-channel�
�MOSFET� turns� off� and� the� p-channel� MOSFET� turns� on,�
�level� shifting� C3� by� V� SUPP� volts.� This� connects� C3� in� par-�
�allel� with� the� reservoir� capacitor� C4.� If� the� voltage� across�
�C4� plus� a� diode� drop� (V� POS� +� V� DIODE� )� is� smaller� than� the�
�level-shifted� flying� capacitor� voltage� (V� C3� +� V� SUPP� ),�
�charge� flows� from� C3� to� C4� until� the� diode� (D3)� turns� off.�
�8�
�_______________________________________________________________________________________�
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