参数资料
| 型号: | ISL6314IRZ-T |
| 厂商: | Intersil |
| 文件页数: | 18/32页 |
| 文件大小: | 0K |
| 描述: | IC CTRLR PWM 1PHASE BUCK 32-QFN |
| 产品培训模块: | Solutions for Industrial Control Applications |
| 标准包装: | 6,000 |
| 应用: | 控制器,Intel VR11,AMD CPU |
| 输入电压: | 5 V ~ 12 V |
| 输出数: | 1 |
| 输出电压: | 0.38 V ~ 1.6 V |
| 工作温度: | -40°C ~ 85°C |
| 安装类型: | 表面贴装 |
| 封装/外壳: | 32-VFQFN 裸露焊盘 |
| 供应商设备封装: | 32-QFN 裸露焊盘(5x5) |
| 包装: | 带卷 (TR) |
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�ISL6314�
�Dynamic� VID�
�Modern� microprocessors� need� to� make� changes� to� their� core�
�voltage� as� part� of� normal� operation.� They� direct� the� ISL6314�
�to� do� this� by� making� changes� to� the� VID� inputs.� The� ISL6314�
�is� required� to� monitor� the� DAC� inputs� and� respond� to�
�on-the-fly� VID� changes� in� a� controlled� manner,� supervising� a�
�safe� output� voltage� transition� without� discontinuity� or�
�disruption.� The� DAC� mode,� ISL6314� is� operating� in,�
�determines� how� the� controller� responds� to� a� dynamic� VID�
�change.�
�INTEL� DYNAMIC� VID� TRANSITIONS�
�Compensating� Dynamic� VID� Transitions�
�During� a� VID� transition,� the� resulting� change� in� voltage� on�
�the� FB� pin� and� the� COMP� pin� causes� an� AC� current� to� flow�
�through� the� error� amplifier� compensation� components� from�
�the� FB� to� the� COMP� pin.� This� current� then� flows� through� the�
�feedback� resistor,� R� FB� ,� and� can� cause� the� output� voltage� to�
�overshoot� or� undershoot� at� the� end� of� the� VID� transition.� In�
�order� to� ensure� the� smooth� transition� of� the� output� voltage�
�during� a� VID� change,� a� VID-on-the-fly� compensation�
�network� is� required.� This� network� is� composed� of� a� resistor�
�and� capacitor� in� series,� R� DVC� and� C� DVC� ,� between� the� DVC�
�and� the� FB� pin,� as� shown� in� Figure� 8.�
�When� in� Intel� VR11� mode� the� ISL6314� checks� the� VID� inputs�
�on� the� positive� edge� of� an� internal� 5.5MHz� clock.� If� a� new�
�VDIFF�
�R� FB�
�I� DVC� =� I� C�
�code� is� established� and� it� remains� stable� for� three� consecutive�
�readings� (0.36μs� to� 0.54μs),� the� ISL6314� recognizes� the� new�
�code� and� changes� the� internal� DAC� reference� directly� to� the�
�I� DVC�
�C� C�
�I� C�
�R� C�
�new� level.� The� Intel� processor� controls� the� VID� transitions� and�
�C� DVC�
�R� DVC�
�is� responsible� for� incrementing� or� decrementing� one� VID� step�
�DVC�
�FB�
�COMP�
�at� a� time.� In� VR11� mode,� the� ISL6314� will� immediately� change�
�the� internal� DAC� reference� to� the� new� requested� value� as�
�soon� as� the� request� is� validated,� which� means� the� fastest�
�recommended� rate� at� which� a� bit� change� can� occur� is� once�
�REF�
�x2�
�-�
�+�
�ERROR�
�every� 1μs.� If� the� VID� code� is� changed� by� more� then� one� step�
�at� a� time,� the� DAC� will� try� to� track� it� at� a� 5.5MHz� step� rate.�
�This� will� likely� cause� an� overcurrent� or� overvoltage� fault.�
�C� REF�
�VDAC+RGND�
�AMPLIFIER�
�ISL6314� INTERNAL� CIRCUIT�
�AMD� DYNAMIC� VID� TRANSITIONS�
�When� running� in� AMD� 5-bit� or� 6-bit� modes� of� operation,� the�
�ISL6314� responds� differently� to� a� dynamic� VID� change.� In� the�
�AMD� modes� the� ISL6314� still� checks� the� VID� inputs� on� the�
�positive� edge� of� an� internal� 5.5MHz� clock.� In� these� modes� the�
�VID� code� can� be� changed� by� more� than� a� 1-bit� step� at� a� time.� If�
�a� new� code� is� established� and� it� remains� stable� for� three�
�consecutive� readings� (0.36μs� to� 0.54μs),� the� ISL6314�
�recognizes� the� change� and� begins� slewing� the� DAC� in�
�6.25mV� steps� at� a� stepping� frequency� of� 345kHz� until� the� VID�
�and� DAC� are� equal.� Thus,� the� total� time� required� for� a� VID�
�change,� t� DVID� ,� is� dependent� only� on� the� size� of� the� VID� change�
�(� Δ� V� VID� ).�
�The� time� required� for� a� ISL6314-based� converter� in� AMD� 5-bit�
�DAC� configuration� to� make� a� 1.1V� to� 1.5V� reference� voltage�
�change� is� about� 186μs,� as� calculated� using� Equation� 10.�
�FIGURE� 8.� VID-ON-THE-FLY� COMPENSATION� NETWORK�
�This� VID-on-the-fly� compensation� network� works� by�
�sourcing� AC� current� into� the� FB� node� to� offset� the� effects� of�
�the� AC� current� flowing� from� the� FB� to� the� COMP� pin� during� a�
�VID� transition.� To� create� this� compensation� current� the�
�ISL6314� sets� the� voltage� on� the� DVC� pin� to� be� 2x� the� voltage�
�on� the� REF� pin.� Since� the� error� amplifier� forces� the� voltage�
�on� the� FB� pin� and� the� REF� pin� to� be� equal,� the� resulting�
�voltage� across� the� series� RC� between� DVC� and� FB� is� equal�
�to� the� REF� pin� voltage.� The� RC� compensation� components,�
�R� DVC� and� C� DVC� ,� can� then� be� selected� to� create� the� desired�
�amount� of� compensation� current.�
�The� amount� of� compensation� current� required� is� dependant�
�on� the� modulator� gain� of� the� system,� K1,� and� the� error�
�amplifier� R-C� components,� R� C� and� C� C� ,� that� are� in� series�
�between� the� FB� and� COMP� pins.� Use� Equations� 11,� 12,� and�
�t� DVID� =� --------------------------� ?� ?� ---------------------� ?�
�3� ?� 0.00625� ?�
�345� � 10�
�1� Δ� V� VID�
�(EQ.� 10)�
�13� to� calculate� the� RC� component� values,� R� DVC� and� C� DVC� ,�
�for� the� VID-on-the-fly� compensation� network.� For� these�
�equations:� V� IN� is� the� input� voltage� for� the� power� train;� V� P-P�
�VID� “OFF”� DAC� CODES�
�Both� the� Intel� VR11� and� the� AMD� 5-bit� VID� tables� include� “Off”�
�DAC� codes,� which� indicate� to� the� controller� to� disable� all�
�is� the� oscillator� ramp� amplitude� (1.5V);� and� R� C� and� C� C� are�
�the� error� amplifier� R-C� components� between� the� FB� and�
�COMP� pins.�
�V� IN�
�A� =� -----------------�
�regulation.� Recognition� of� these� codes� is� slightly� different� in� that�
�they� must� be� stable� for� four� consecutive� readings� of� a� 5.5MHz�
�clock� (0.54μs� to� 0.72μs)� to� be� recognized.� Once� an� “Off”� code�
�K1� =� -----------�
�V� PP�
�K1�
�K1� –� 1�
�(EQ.� 11)�
�is� recognized� the� ISL6314� latches� off,� and� must� be� reset� by�
�dropping� the� EN� pin.�
�18�
�FN6455.2�
�October� 8,� 2009�
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