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| 型号: | MIC2774H-26YM5 TR |
| 厂商: | Micrel Inc |
| 文件页数: | 6/8页 |
| 文件大小: | 0K |
| 描述: | IC SUPERVISOR DUAL LV SOT23-5 |
| 标准包装: | 3,000 |
| 类型: | 多压监控器 |
| 监视电压数目: | 2 |
| 输出: | 补充型 |
| 复位: | 高有效 |
| 复位超时: | 最小为 140 ms |
| 电压 - 阀值: | 2.67V,可调 |
| 工作温度: | -40°C ~ 85°C |
| 安装类型: | 表面贴装 |
| 封装/外壳: | SC-74A,SOT-753 |
| 供应商设备封装: | SOT-23-5 |
| 包装: | 带卷 (TR) |
| 其它名称: | MIC2774H-26YM5TR MIC2774H-26YM5TR-ND |
��
�
�(� R1� +� R2� )�
�V� TH� =� V� REF� �
�(� R� TOTAL� )� (� V� REF� )�
�V� TH� =�
�MIC2774�
�Application� Information�
�Programming� the� Voltage� Threshold�
�Referring� to� the� “Typical� Application� Circuit”,� the� voltage�
�threshold� on� the� IN� pin� is� calculated� as� follows:�
�R2�
�where� V� REF� =� 0.300V�
�In� order� to� provide� the� additional� criteria� needed� to� solve�
�for� the� resistor� values,� the� resistors� can� be� selected� such�
�that� the� two� resistors� have� a� given� total� value,� that� is,� R1�
�+� R2� =� R� TOTAL� .� Imposing� this� condition� on� the� resistor� val-�
�ues� provides� two� equations� that� can� be� solved� for� the� two�
�unknown� resistor� values.� A� value� such� as� 1M� for� R� TOTAL�
�is� a� reasonable� choice� since� it� keeps� quiescent� current� to� a�
�generally� acceptable� level� while� not� causing� any� measurable�
�errors� due� to� input� bias� currents.� The� larger� the� resistors,� the�
�larger� the� potential� errors� due� to� input� bias� current� (I� IN� ).� The�
�maximum� recommended� value� of� R� TOTAL� is� 3MΩ.�
�Applying� this� criteria� and� rearranging� the� V� TH� expression� to�
�solve� for� the� resistor� values� gives:�
�R2� =�
�V� TH�
�R1� =� R� TOTAL� ?� R2�
�Application� Example�
�Figure� 1� below� illustrates� a� hypothetical� MIC2774L-23� ap-�
�plication� in� which� the� MIC2774L-23� is� used� to� monitor� the�
�core� and� I/O� supplies� of� a� high-performance� CPU� or� DSP.�
�The� core� supply,� V� CORE� ,� in� the� example� is� 1.0V� ±5%.� The�
�main� power� rail� and� I/O� voltage,� V� I/O� ,� is� 2.5V� ±5%.� As� shown�
�in� Figure� 1,� the� MIC2774� is� powered� by� V� I/O� .� The� minimum�
�value� of� V� I/O� is� 2.5V� –5%� =� 2.375V;� the� maximum� is� 2.5V�
�+5%� =� 2.625V.� This� is� well� within� the� device’s� supply� range�
�of� 1.5V� to� 5.5V.�
�Resistors� R1� and� R2� must� be� selected� to� correspond� to� the�
�V� CORE� supply� of� 1.0V.� The� goal� is� to� insure� that� the� core�
�supply� voltage� is� adequate� to� insure� proper� operation,� i.e.,�
�V� CORE� ≥� (1.0V� –5%)� =� 0.950V.� Because� there� is� always�
�a� small� degree� of� uncertainty� due� to� the� accuracy� of� the�
�resistors,� variations� in� the� devices’� voltage� reference,� etc.,�
�the� threshold� will� be� set� slightly� below� this� value.� The� po-�
�tential� variation� in� the� MIC2774’s� voltage� reference� (V� REF� )�
�is� speci?� ed� as� ±1.5%.� The� resistors� chosen� will� have� their�
�own� tolerance� speci?� cation.� This� example� will� assume� the�
�use� of� 1%� accurate� resistors.� The� potential� worst-case� er-�
�ror� contribution� due� to� input� bias� current� can� be� calculated�
�once� the� resistor� values� are� chosen.� If� the� guidelines� above�
�regarding� the� maximum� total� value� of� R1+R2� are� followed,� this�
�error� contribution� will� be� very� small� thanks� to� the� MIC2774’s�
�very� low� input� bias� current.�
�Micrel�
�To� summarize,� the� various� potential� error� sources� are:�
�?� Variation� in� V� REF� :� speci?� ed� at� ±1.5%�
�?� Resistor� tolerance:�
�chosen� by� designer� (typically� ≤� ±1%)�
�?� Input� bias� current,� I� IN� :�
�calculated� once� resistor� values� are� known,� typically�
�very� small�
�Taking� the� various� potential� error� sources� into� account,� the�
�threshold� voltage� will� be� set� slightly� below� the� minimum� V� CORE�
�speci?� cation� of� 0.950V� so� that� when� the� actual� threshold�
�voltage� is� at� its� maximum,� it� will� not� intrude� into� the� normal�
�operating� range� of� V� CORE� .� The� target� threshold� voltage� will�
�be� set� as� follows:�
�Given� that� the� total� tolerance� on� V� TH� for� the� IN� pin� is� [V� REF�
�tolerance]� +� [resistor� tolerance]�
�=� ±1.5%� +� ±1%� =� ±2.5%,�
�and� V� TH(max)� =� V� CORE(min)� ,�
�then� V� CORE(min)� =� V� TH� +� 2.5%� V� TH� =� 1.025� V� TH� ,�
�therefore,� solving� for� V� TH� results� in�
�V� CORE(MIN)� 0.950�
�=� =� 0.9268V�
�1.025� 1.025�
�Solving� for� R1� and� R2� using� this� value� for� V� TH� and� the� equa-�
�tions� above� yields:�
�R1� =� 676.3kΩ� ≈� 673kΩ�
�R2� =� 323.7kΩ� ≈� 324kΩ�
�The� resulting� circuit� is� shown� in� Figure� 1.�
�Input� Bias� Current� Effects�
�Now� that� the� resistor� values� are� known,� it� is� possible� to� cal-�
�culate� the� maximum� potential� error� due� to� input� bias� current,�
�I� IN� .� As� shown� in� the� “Electrical� Characteristics”� table,� the�
�maximum� value� of� I� IN� is� 10nA.� (Note� that� the� typical� value�
�is� a� much� smaller� 5pA!)� The� magnitude� of� the� offset� caused�
�by� I� IN� is� given� by:�
�V� ERROR� =� I� IN(MAX)� � (� R1� \ R2� )� =�
�V� ERROR� =� ±� 1� ×� 10� ?� 8� A� ×� 2.189� ×� 10� 5� ?� =�
�V� ERROR� =� ±� 2.189� ×� 10� ?� 3� V� =�
�V� ERROR� =� ±� 2.189MV�
�The� typical� error� is� about� three� orders� of� magnitude� lower�
�than� this� -� close� to� one� microvolt� !� Generally,� the� error�
�due� to� input� bias� can� be� discounted.� If� it� is� to� be� taken�
�into� account,� simply� adjust� the� target� threshold� voltage�
�downward� by� this� amount� and� recalculate� R1� and� R2.� The�
�resulting� value� will� be� very� close� to� optimum.� If� accuracy�
�is� more� important� than� the� quiescent� current� in� the�
�resistors,� simply� reduce� the� value� of� R� TOTAL� to� minimize�
�offset� errors.�
�M9999-102605�
�6�
�October� 2005�
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