参数资料
| 型号: | ISL6262CRZ-T |
| 厂商: | Intersil |
| 文件页数: | 21/27页 |
| 文件大小: | 0K |
| 描述: | IC CORE REG 2PHASE 48-QFN |
| 标准包装: | 4,000 |
| 应用: | 转换器,Intel IMVP-6 |
| 输入电压: | 5 V ~ 25 V |
| 输出数: | 1 |
| 输出电压: | 0.3 V ~ 1.5 V |
| 工作温度: | -10°C ~ 100°C |
| 安装类型: | 表面贴装 |
| 封装/外壳: | 48-VFQFN 裸露焊盘 |
| 供应商设备封装: | 48-QFN(7x7) |
| 包装: | 带卷 (TR) |
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�ISL6262�
�When� temperature� increases,� the� NTC� resistor� value� on�
�NTC� pin� decreases.� Thus,� the� voltage� on� NTC� pin�
�Using� Equation� 5� into� Equation� 8,� the� required� nominal� NTC�
�resistor� value� can� be� obtained� by:�
�b� ?� ?� -----------------------� ?�
�?� T� +� 273� ?�
�2.55k� Ω� ?� e�
�b� ?� ?� -----------------------� ?�
�b� ?� ?� -----------------------� ?�
�?� T� +� 273� ?� ?� T� +� 273� ?�
�decreases� to� a� level� lower� than� 1.18V.� The� comparator�
�output� changes� polarity� and� turns� SW1� off� and� connects�
�SW2� to� 1.20V.� This� pulls� VR_TT#� low� and� sends� the� signal�
�to� start� thermal� throttle.� There� is� a� 6μA� current� reduction� on�
�NTC� pin� and� 20mV� voltage� increase� on� threshold� voltage� of�
�1�
�o�
�1� 1�
�R� NTCTo� =� ------------------------------------------------------------------------------�
�2� 1�
�e� –� e�
�(EQ.� 9)�
�2.55k� Ω�
�R� NTCTo� =� -----------------------------------------------------------------------�
�–� Λ�
�R� NTC� –� T� R� NTC� –� T�
�the� comparator� in� this� state.� The� VR_TT#� signal� will� be� used�
�to� change� the� CPU� operation� and� decrease� the� power�
�consumption.� When� the� temperature� goes� down,� the� NTC�
�thermistor� voltage� will� eventually� go� up.� The� NTC� pin� voltage�
�increases� to� 1.20V,� the� comparator� output� will� then� be� able�
�to� flip� back.� Such� a� temperature� hysteresis� feature� of�
�VR_TT#� is� illustrated� in� Figure� 33.� T� 1� represents� the� higher�
�temperature� point� at� which� the� VR_TT#� goes� from� low� to�
�high� due� to� the� system� temperature� rise.� T� 2� represents� the�
�lower� temperature� point� at� which� the� VR_TT#� goes� high�
�from� low� because� the� system� temperature� decreases� to� the�
�normal� level.�
�VR_TT#�
�For� some� cases,� the� constant� b� is� not� accurate� enough� to�
�approximate� the� NTC� resistor� value,� the� manufacturer�
�provides� the� resistor� ratio� information� at� different�
�temperature.� The� nominal� NTC� resistor� value� may� be�
�expressed� in� another� way� as� follows:�
�(EQ.� 10)�
�Λ�
�2� 1�
�Λ�
�where� R� NTC� –� T� is� the� normalized� NTC� resistance� to� its�
�nominal� value.� Most� datasheet� of� the� NTC� thermistor� gives�
�the� normalized� resistor� value� based� on� its� value� at� 25°C.�
�Once� the� NTC� thermistor� resistor� is� determined,� the� series�
�resistor� can� be� derived� by:�
�R� S� =� ----------------� –� R� NTC� (� T1� )� =� 19.67k� Ω� –� R� NTC_T�
�Logic_1�
�1.18V�
�60� μ� A�
�1�
�(EQ.� 11)�
�Once� R� NTCTo� and� R� s� is� designed,� the� actual� NTC� resistance�
�R� NTC_T� =� 2.55k� Ω� +� R� NTC_T�
�Logic_0�
�T� 2�
�T� 1�
�T� (°C)�
�at� T� 2� and� the� actual� T� 2� temperature� can� be� found� in:�
�(EQ.� 12)�
�2� 1�
�T� 2_actual� =� -----------------------------------------------------------------------------------� –� 273�
�?� R� NTC_T� ?�
�---� ln� ?� -------------------------� 2� ?� +� 1� ?� (� 273� +� To� )�
�?� R� NTCTo� ?�
�FIGURE� 33.� TEMPERATURE� HYSTERESIS� OF� VR_TT#�
�Usually,� the� NTC� thermistor's� resistance� can� be�
�approximated� by� the� following� formula:�
�1�
�b�
�1�
�(EQ.� 13)�
�b� ?� ?� --------------------� –� -----------------------� ?�
�R� NTC� (� T� )� =� R� NTCTo� ?� e�
�1� 1�
�?� T� +� 273� To� +� 273� ?�
�(EQ.� 5)�
�One� example� of� using� Equations� 9,� 10� and� 11� to� design� a�
�thermal� throttling� circuit� with� the� temperature� hysteresis�
�T� is� the� temperature� of� the� NTC� thermistor� and� b� is� a�
�parameter� constant� depending� on� the� thermistor� material.�
�T� o� is� the� reference� temperature� in� which� the� approximation�
�is� derived.� Most� common� temperature� for� T� o� is� 25°C.� For�
�example,� there� are� commercial� NTC� thermistor� products�
�with� b� =� 2750k,� b� =� 2600k,� b� =� 4500k� or� b� =� 4250k.�
�From� the� operation� principle� of� the� VR_TT#� circuit�
�explained,� the� NTC� resistor� satisfies� the� following� equation�
�group.�
�100°C� to� 105°C� is� illustrated� as� follows.� Since� T� 1� =� 105°C�
�and� T� 2� =� 100°C,� if� we� use� a� Panasonic� NTC� with� B� =� 4700,�
�the� Equation� 9� gives� the� required� NTC� nominal� resistance� as�
�R� NTC_To� =� 396k� Ω�
�In� fact,� the� datasheet� gives� the� resistor� ratio� value� at� 100°C�
�to� 105°C,� which� is� 0.03956� and� 0.03322� respectively.� The� b�
�value� 4700K� in� Panasonic� datasheet� only� covers� to� 85°C.�
�Therefore,� using� Equation� 10� is� more� accurate� for� 100°C�
�design,� the� required� NTC� nominal� resistance� at� 25°C� is�
�R� NTC� (� T� 1� )� +� R� S� =� ----------------� =� 19.67k� Ω�
�R� NTC� (� T� 2� )� +� R� S� =� ---------------� =� 22.22k� Ω�
�1.18V�
�60� μ� A�
�1.2V�
�54� μ� A�
�(EQ.� 6)�
�(EQ.� 7)�
�402k� Ω� .� The� closest� NTC� resistor� value� from� manufacturer� is�
�470k� Ω� .� So� the� series� resistance� is� given� by� Equation� 11� as�
�follows,�
�R� S� =� 19.67k� Ω� –� R� NTC_105� °� C� =� 19.67k� Ω� –� 15.65k� Ω� =� 4.067k� Ω�
�From� Equation� 6� and� Equation� 7,� the� following� can� be�
�derived,�
�Furthermore,� the� NTC� resistance� at� T� 2� is� given� by� Equation� 12.�
�R� NTC_T2� =� 2.55k� Ω� +� R� NTC_T1� =� 18.16k� Ω�
�R� NTC� (� T� 2� )� –� R� NTC� (� T� 1� )� =� 2.55k� Ω�
�21�
�(EQ.� 8)�
�From� the� NTC� datasheet,� it� can� be� concluded� that� the� actual�
�temperature� T� 2� is� about� 97°C.� If� using� the� Equation� 13,� T� 2� is�
�calculated� to� be� 97.7°C.� Check� the� NTC� datasheet� to� decide�
�FN9199.2�
�May� 15,� 2006�
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