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参数资料
| 型号: | MAX1889ETE+T |
| 厂商: | Maxim Integrated Products |
| 文件页数: | 16/32页 |
| 文件大小: | 0K |
| 描述: | IC PWR SUP TRPL LCD 16-TQFN |
| 产品培训模块: | Lead (SnPb) Finish for COTS Obsolescence Mitigation Program |
| 标准包装: | 2,500 |
| 应用: | 控制器,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-WQFN 裸露焊盘 |
| 供应商设备封装: | 16-TQFN-EP(5x5) |
| 包装: | 带卷 (TR) |
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��
�
�Triple-Output� TFT� LCD� Power� Supply�
�with� Fault� Protection�
�� C�
�I� IN� _� AVG� =� MAIN� OUT�
�[�
�]�
�Power-Up� Sequencing� and�
�Inrush� Current� Control�
�Once� SHDN� is� high,� the� MAX1889� enables� the� UVLO�
�circuitry� and� compares� the� input� voltage� with� the� UVLO�
�rising� threshold� (2.7V,� typ).� If� the� input� voltage� exceeds�
�the� UVLO� rising� threshold,� the� reference� is� enabled.�
�When� the� reference� voltage� ramps� up� above� 1.05V�
�(typ),� the� MAX1889� enables� the� oscillator� and� turns� on�
�the� external� P-channel� MOSFET� P1� (Figure� 1)� by�
�pulling� GATE� low.� GATE� is� pulled� down� with� a� 12μA�
�current� source.� Add� a� capacitor� from� the� gate� of� P1� to�
�its� drain� to� slow� down� the� turn-on� rate� of� the� MOSFET,�
�and� reduce� inrush� current.� Once� GATE� reaches� around�
�0.6V,� an� internal� N-channel� MOSFET� turns� on� and� pulls�
�GATE� to� ground� in� order� to� maximize� the� enhancement�
�of� the� external� P-channel� MOSFET.� As� P1� fully� turns� on,�
�the� main� step-up� regulator� powers� up� with� soft-start�
�(see� the� Soft-Start� section).� The� negative� linear� regula-�
�tor� is� enabled� at� the� same� time� as� the� main� step-up�
�regulator.� The� positive� linear� regulator� is� enabled� after�
�the� soft-start� routine� is� completed.� The� fault� detection�
�timer� begins� after� the� main� step-up� regulator� has� fin-�
�ished� its� soft-start� period.�
�Soft-Start�
�The� soft-start� of� the� main� step-up� regulator� (Figure� 3)� is�
�achieved� by� ramping� up� the� reference� voltage� of� the�
�multi-input� PWM� comparator� in� 4096� oscillator� clock�
�cycles.� The� 4096� clock� cycles� correspond� to� 4.096ms�
�for� 1MHz� operation� and� 8.192ms� for� 500kHz� operation.�
�The� reference� of� the� PWM� comparator� comes� from� a�
�5-bit� DAC� that� generates� 32� steps� when� the� reference�
�ramps� up� from� 0V� to� its� final� value.� This� soft-start�
�method� allows� a� gradual� increase� of� the� output� voltage�
�to� reduce� the� input� surge� current� (see� the� startup�
�waveforms� in� the� Typical� Operating� Characteristics� ).�
�The� average� input� current� is� given� as:�
�2�
�V�
�V� IN� ×� t� SS� ×� η�
�where� V� MAIN� is� the� main� step-up� regulator� output� volt-�
�age,� V� IN� is� the� input� voltage,� C� OUT� is� the� main� step-up�
�regulator� output� capacitor,� η� is� the� efficiency� of� the�
�step-up� regulator,� and� t� SS� is� the� soft-start� period�
�(4.096ms� for� 1MHz� operation� and� 8.192ms� for� 500kHz�
�Input� Overcurrent� Protection�
�The� high-side� overcurrent� comparator� of� the� MAX1889�
�provides� input� overcurrent� protection� when� it� is� used�
�together� with� the� external� P-channel� MOSFET� switch� P1�
�(Figure� 1).� Connect� resistive� voltage-dividers� from� the�
�source� and� drain� of� P1� to� GND� to� set� the� overcurrent�
�threshold.� The� center� taps� of� the� dividers� are� connected�
�to� the� overcurrent� comparator� inputs� (OCN� and� OCP)�
�See� the� Setting� the� Input� Overcurrent� Threshold� section�
�for� information� on� calculating� resistor� values.� An� overcur-�
�rent� event� activates� the� fault-protection� circuitry.�
�Fault� Protection�
�Once� the� soft-start� routine� is� completed,� if� the� output� of�
�the� main� regulator� or� either� linear� regulator� is� below� its�
�respective� fault-detection� threshold,� or� the� input� overcur-�
�rent� comparator� pulls� high,� the� MAX1889� activates� the�
�fault� timer.� If� the� fault� condition� still� exists� after� the� 64ms�
�fault-timer� duration,� the� MAX1889� sets� the� fault� latch,�
�which� shuts� down� all� the� outputs� except� the� reference,�
�which� remains� active.� After� removing� the� fault� condition,�
�toggle� SHDN� (below� 0.4V)� or� cycle� the� input� voltage�
�(below� 2.2V)� to� clear� the� fault� latch� and� reactivate� the�
�device.�
�Thermal� Shutdown�
�The� thermal� shutdown� feature� limits� total� power� dissipa-�
�tion� in� the� MAX1889.� When� the� junction� temperature�
�(T� J� )� exceeds� +160� °� C,� a� thermal� sensor� sets� the� fault�
�latch� (Figure� 2),� which� shuts� down� all� the� outputs�
�except� the� reference,� allowing� the� device� to� cool� down.�
�Once� the� device� cools� down� by� 15� °� C,� toggle� SHDN�
�(below� 0.4V)� or� cycle� the� input� voltage� (below� 2.2V)� to�
�clear� the� fault� latch� and� reactivate� the� device.�
�Design� Procedure�
�Main� Step-Up� Regulator�
�Output� Voltage� Selection�
�Adjust� the� output� voltage� by� connecting� a� resistive� volt-�
�age-divider� from� the� output� (V� MAIN� )� to� GND� with� the�
�center� tap� connected� to� FB� (Figure� 1).� Select� R7� in� the�
�10k� ?� to� 50k� ?� range.� Calculate� R6� with� the� following�
�equations:�
�R� 6� =� R� 7� (� V� MAIN� /� V� FB� )� -� 1�
�where�
�operation).�
�V� FB� =� 1� .� 242� V� ?� (� D� ×� 20� mV� )� and� D� ≈�
�V� MAIN� ?� V� IN�
�V� MAIN�
�For� example,� at� V� IN� =� 3V,� V� MAIN� =� 9V,� D� ≈� 0.66,� and� V� FB�
�=� 1.229V.�
�V� MAIN� can� range� from� V� IN� to� 13V.�
�16�
�______________________________________________________________________________________�
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