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| 型号: | ISL6548CRZA-T |
| 厂商: | Intersil |
| 文件页数: | 9/15页 |
| 文件大小: | 0K |
| 描述: | IC REG/CTRLR ACPI DUAL DDR 28QFN |
| 标准包装: | 4,000 |
| 应用: | 存储器,DDR/DDR2 稳压器 |
| 电流 - 电源: | 7mA |
| 工作温度: | 0°C ~ 70°C |
| 安装类型: | 表面贴装 |
| 封装/外壳: | 28-VQFN 裸露焊盘 |
| 供应商设备封装: | 28-QFN(6x6) |
| 包装: | 带卷 (TR) |
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�ISL6548�
�The� digital� soft-start� for� the� PWM� regulator� is� accomplished� by�
�clamping� the� error� amplifier� reference� input� to� a� level�
�proportional� to� the� internal� digital� soft-start� voltage.� As� the� soft-�
�start� voltage� slews� up,� the� PWM� comparator� generates� PHASE�
�pulses� of� increasing� width� that� charge� the� output� capacitor(s).�
�This� method� provides� a� rapid� and� controlled� output� voltage� rise.�
�The� linear� regulators,� with� the� exception� of� the� internal�
�V� TT_DDR� LDO,� are� soft-started� in� a� similar� manner.� The�
�error� amplifier� reference� is� clamped� to� the� internal� digital�
�soft-start� voltage.� As� the� soft-start� voltage� ramps� up,� the�
�respective� DRIVE� pin� voltages� increase,� thus� enhancing� the�
�N-MOSFETs� and� charging� the� output� capacitors� in� a�
�controlled� manner.�
�At� time� t� 3� ,� the� V� DDQ_DDR� and� upper� V� GMCH� LDO� output�
�rails� are� in� regulation� and� the� lower� V� GMCH� LDO� is� soft-�
�started.� At� time� t� 4� ,� the� V� GMCH� rail� is� in� regulation� and� the�
�V� TT_GMCH/CPU� linear� regulator� is� soft-started.� At� time� t� 5� ,�
�the� V� TT_GMCH/CPU� rail� is� in� regulation� and� the� V� TT_DDR�
�internal� regulator� is� soft-started.�
�The� V� TT_DDR� LDO� soft-starts� in� a� manner� unlike� the� other�
�regulators.� When� the� V� TT_DDR� regulator� is� disabled,� the�
�reference� is� internally� shorted� to� the� V� TT_DDR� output.� This�
�allows� the� termination� voltage� to� float� during� the� S3� sleep�
�state.� When� the� ISL6548� enables� the� V� TT_DDR� regulator� or�
�enters� S0� state� from� a� sleep� state,� this� short� is� released� and�
�the� internal� divide� down� resistors� which� set� the� V� TT_DDR�
�voltage� to� 50%� of� V� DDQ_DDR� will� provide� a� controlled�
�voltage� rise� on� the� capacitor� that� is� tied� to� the� VREF_IN� pin.�
�The� voltage� on� this� capacitor� is� the� reference� for� the�
�V� TT_DDR� regulator� and� the� output� will� track� it� as� it� settles� to�
�50%� of� the� V� DDQ� voltage.� The� combination� of� the� internal�
�resistors� and� the� V� REF_IN� capacitor� will� determine� the� rise�
�time� of� the� V� TT_DDR� regulator� (see� the� Functional� Pin�
�Description� section� for� proper� sizing� of� the� VREF_IN�
�capacitor).�
�At� time� t� 6� ,� a� full� soft-start� cycle� has� passed� from� the� time� that�
�the� V� TT_DDR� regulator� was� enabled.� At� this� time� the�
�VIDPGD� comparator� is� enabled.� Once� enabled� if� the�
�V� TT_GMCH/CPU� output� is� within� regulation,� the� VIDPGD� pin�
�will� be� forced� to� a� high� impedance� state.�
�Active� to� Sleep� (S0� to� S3� Transition)�
�When� SLP_S3� goes� LOW� with� SLP_S5� still� HIGH,� the�
�ISL6548� will� disable� all� the� regulators� except� for� the� V� DDQ�
�regulator,� which� is� continually� supplied� by� the� 5VDUAL� rail.�
�VIDPGD� will� also� transition� LOW.� When� V� TT� is� disabled,� the�
�internal� reference� for� the� V� TT� regulator� is� internally� shorted�
�to� the� V� TT� rail.� This� allows� the� V� TT� rail� to� float.� When�
�floating,� the� voltage� on� the� V� TT� rail� will� depend� on� the�
�leakage� characteristics� of� the� memory� and� MCH� I/O� pins.� It�
�is� important� to� note� that� the� V� TT� rail� may� not� bleed� down� to�
�0V.� Figure� 1� shows� how� the� individual� regulators� are�
�affected� by� the� S3� state� at� time� t� 7� .�
�9�
�Sleep� to� Active� (S3� to� S0� Transition)�
�When� SLP_S3� transitions� from� LOW� to� HIGH� with� SLP_S5�
�held� HIGH� and� after� the� 12V� rail� exceeds� POR,� the� ISL6548�
�will� initiate� the� soft-start� sequence.� This� sequence� is� very�
�similar� to� the� mechanical� start� soft-start� sequencing.� The�
�transition� from� S3� to� S0� is� represented� in� Figure� 1� between�
�times� t� 8� and� t� 14� .�
�At� time� t� 8� ,� the� SLP_S3� signal� transitions� HIGH.� This� enables�
�the� ATX,� which� brings� up� the� 12V� rail.� At� time� t� 9� ,� the� 12V� rail�
�has� exceeded� the� POR� threshold� and� the� ISL6548� enters� a�
�reset� mode� that� lasts� for� 3� soft-start� cycles.� At� time� t� 10� ,� the� 3�
�soft-start� cycle� reset� is� ended� and� the� individual� regulators�
�are� enabled� and� soft-started� in� the� same� sequence� as� the�
�mechanical� cold� start� sequence,� with� the� exception� that� the�
�V� DDQ� regulator� is� already� enabled� and� in� regulation.�
�Active� to� Shutdown� (S0� to� S5� Transition)�
�When� the� system� transitions� from� active,� S0,� state� to�
�shutdown,� S4/S5,� state,� the� ISL6548� IC� disables� all�
�regulators� and� forces� the� VIDPGD� pin� LOW.� This� transition�
�is� represented� on� Figure� 1� at� time� t� 15� .�
�Fault� Protection�
�The� ISL6548� monitors� the� V� DDQ� regulator� for� under� and�
�overvoltage� events.� The� V� DDQ� regulator� also� has� overcurrent�
�protection.� The� internal� V� TT_DDR� LDO� regulator� is� monitored�
�for� under� and� overvoltage� events.� All� other� regulators� are�
�monitored� for� undervoltage� events.�
�An� overvoltage� event� on� either� the� V� DDQ� or� V� TT_DDR�
�regulator� will� cause� an� immediate� shutdown� of� all� regulators.�
�This� can� only� be� cleared� by� toggling� the� SLP_S5� signal� such�
�that� the� system� enters� the� S5� sleep� state� and� then�
�transitions� back� to� the� active,� S0,� state.�
�If� a� regulator� experiences� any� other� fault� condition� (an�
�undervoltage� or� an� overcurrent� on� V� DDQ� ),� then� that�
�regulator,� and� only� that� regulator,� will� be� disabled� and� an�
�internal� fault� counter� will� be� incremented� by� 1.� If� the� disabled�
�regulator� is� used� as� the� input� for� another� regulator,� then� that�
�cascoded� regulator� will� also� experience� a� fault� condition� due�
�to� a� loss� of� input.� The� cascoded� regulator� will� be� disabled�
�and� the� fault� counter� incremented� by� 1.�
�At� every� fault� occurrence,� the� internal� fault� counter� is�
�incremented� by� 1� and� an� internal� Fault� Reset� Counter� is�
�cleared� to� zero.� The� Fault� Reset� Counter� will� increment� once�
�for� every� clock� cycle� (1� clock� cycle� is� typically� 1/250kHz,� or�
�4� μ� s).� If� the� Fault� Reset� Counter� reaches� a� count� of� 16384�
�before� another� fault� occurs,� then� the� Fault� Counter� is�
�cleared� to� 0.� If� a� fault� occurs� prior� to� the� Fault� Reset� Counter�
�reaching� a� count� of� 16384,� then� the� Fault� Reset� Counter� is�
�set� back� to� zero.�
�The� ISL6548� will� immediately� shut� down� when� the� Fault�
�Counter� reaches� a� count� of� 4� when� the� system� is� restarting�
�from� an� S5� state� into� the� active,� or� S0,� state.� The� ISL6548�
�FN9188.2�
�January� 3,� 2006�
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