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| 型号: | MAX17499BEUB+T |
| 厂商: | Maxim Integrated Products |
| 文件页数: | 9/18页 |
| 文件大小: | 0K |
| 描述: | IC REG CTRLR BST ISO PWM 10-UMAX |
| 产品培训模块: | Lead (SnPb) Finish for COTS Obsolescence Mitigation Program |
| 标准包装: | 2,500 |
| PWM 型: | 电流模式 |
| 输出数: | 1 |
| 频率 - 最大: | 625kHz |
| 占空比: | 75% |
| 电源电压: | 9.5 V ~ 24 V |
| 降压: | 无 |
| 升压: | 是 |
| 回扫: | 无 |
| 反相: | 无 |
| 倍增器: | 无 |
| 除法器: | 无 |
| Cuk: | 无 |
| 隔离: | 是 |
| 工作温度: | -40°C ~ 125°C |
| 封装/外壳: | 10-TFSOP,10-MSOP(0.118",3.00mm 宽) |
| 包装: | 带卷 (TR) |
��
�
�Current-Mode� PWM� Controllers� with�
�Programmable� Switching� Frequency�
�R� 3� ?�
�R� 2� =� IN� ULR� 2� R� 3�
�Power supplies designed with the MAX17500 use a�
�high-value� startup� resistor,� R1,� that� charges� a� reservoir�
�capacitor,� C1� (see� Figure� 1).� During� this� initial� period,�
�while� the� voltage� is� less� than� the� internal� bootstrap�
�UVLO� threshold,� the� device� typically� consumes� only�
�50μA� of� quiescent� current.� This� low� startup� current� and�
�the� large� bootstrap� UVLO� hysteresis� help� to� minimize�
�the� power� dissipation� across� R1� even� at� the� high� end� of�
�the� universal� AC� input� voltage� (265V� AC).�
�The� devices� include� a� cycle-by-cycle� current� limit� that�
�turns� off� the� gate� drive� to� the� external� MOSFET� when-�
�ever� the� internally� set� threshold� of� 1V� is� exceeded.�
�When� using� the� MAX17500� in� bootstrapped� mode,� if�
�the� power-supply� output� is� shorted,� the� tertiary� winding�
�voltage� drops� below� the� internally� set� threshold� caus-�
�ing� the� UVLO� to� turn� off� the� gate� drive� to� the� external�
�power� MOSFET.� This� reinitiates� a� startup� sequence�
�with� soft-start.�
�Current-Mode� Control� Loop�
�The� advantages� of� current-mode� control� over� voltage-�
�mode� control� are� twofold.� First,� there� is� the� feed-for-�
�ward� characteristic� brought� on� by� the� controller� ’s�
�ability� to� adjust� for� variations� in� the� input� voltage� on� a�
�cycle-by-cycle� basis.� Secondly,� the� stability� require-�
�ments� of� the� current-mode� controller� are� reduced� to�
�that� of� a� single-pole� system� unlike� the� double� pole� in�
�voltage-mode� control.�
�The� devices� use� a� current-mode� control� loop� where� the�
�output� of� the� error� amplifier� (COMP)� is� compared� to� the�
�current-sense� voltage� at� CS.� When� the� current-sense�
�signal� is� lower� than� the� noninverting� input� of� the� CPWM�
�comparator,� the� output� of� the� CPWM� comparator� is� low�
�and� the� switch� is� turned� on� at� each� clock� pulse.� When�
�the� current-sense� signal� is� higher� than� the� inverting� input�
�of� the� CPWM,� the� output� of� the� CPWM� comparator� goes�
�high� and� the� switch� is� turned� off.�
�Undervoltage� Lockout�
�The� devices� provide� a� UVLO/EN� input.� The� threshold�
�for� UVLO� is� 1.23V� with� 60mV� hysteresis.� Before� any�
�operation� can� commence,� the� voltage� on� UVLO/EN� has�
�to� exceed� 1.23V.� The� UVLO� circuit� keeps� the� CPWM�
�comparator,� ILIM� comparator,� oscillator,� and� output� dri-�
�ver� shut� down� to� reduce� current� consumption� (see� the�
�Functional� Diagram).�
�Use� this� UVLO/EN� input� to� program� the� input-supply�
�start� voltage.� For� example,� a� reasonable� start� voltage�
�for� a� 36V� to� 72V� telecom� range� is� usually� 34V.�
�Calculate� the� resistor-divider� values,� R2� and� R3� (see�
�Figure� 1)� by� using� the� following� formulas:�
�V� ULR� 2� V� IN�
�500� I� UVLO� (� V� IN� ?� V� ULR� 2� )�
�V� ?� V�
�V� U� LR� 2�
�where� I� UVLO� is� the� UVLO/EN� input� current� (50nA� max),�
�and� V� ULR2� is� the� UVLO/EN� wake-up� threshold� (1.23V).�
�V� IN� is� the� value� of� the� input-supply� voltage� where� the�
�power� supply� must� start.� The� value� of� R3� is� calculated�
�to� minimize� the� voltage-drop� error� across� R2� as� a� result�
�of� the� input� bias� current� of� the� UVLO/EN� input.�
�MAX17500� Bootstrap� UVLO�
�In� addition� to� the� externally� programmable� UVLO� func-�
�tion� offered� in� both� devices,� the� MAX17500� includes� an�
�internal� bootstrap� UVLO� that� is� very� useful� when�
�designing� high-voltage� power� supplies� (see� the�
�Functional� Diagram).� This� allows� the� device� to� bootstrap�
�itself� during� initial� power-up.� The� MAX17500� attempts� to�
�start� when� V� IN� exceeds� the� bootstrap� UVLO� threshold�
�of� 21.6V.� During� startup,� the� UVLO� circuit� keeps� the�
�CPWM� comparator,� ILIM� comparator,� oscillator,� and�
�output� driver� shut� down� to� reduce� current� consumption.�
�Once� V� IN� reaches� 21.6V,� the� UVLO� circuit� turns� on� the�
�CPWM� and� ILIM� comparators,� the� oscillator,� and� allows�
�the� output� driver� to� switch.� If� V� IN� drops� below� 1.17V,� the�
�UVLO� circuit� shuts� down� the� CPWM� comparator,� ILIM�
�comparator,� oscillator,� and� output� driver� returning� the�
�MAX17500� to� the� low-current� startup� mode.�
�Startup� Operation�
�The� MAX17499� starts� up� when� the� voltage� at� IN�
�exceeds� 9.5V� and� the� UVLO/EN� input� is� greater� than�
�1.23V.� However,� the� MAX17500� requires� that,� in� addi-�
�tion� to� meeting� the� specified� startup� conditions� for� the�
�MAX17499,� the� voltage� at� IN� exceeds� the� bootstrap�
�UVLO� threshold� of� 21.6V.�
�_______________________________________________________________________________________�
�9�
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