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参数资料
| 型号: | MAX814TESA+T |
| 厂商: | Maxim Integrated Products |
| 文件页数: | 11/16页 |
| 文件大小: | 0K |
| 描述: | IC SUPERVISOR MPU LP 8SOIC |
| 产品培训模块: | Lead (SnPb) Finish for COTS Obsolescence Mitigation Program |
| 标准包装: | 2,500 |
| 类型: | 简单复位/加电复位 |
| 监视电压数目: | 1 |
| 输出: | 推挽式,推挽式 |
| 复位: | 高有效/低有效 |
| 复位超时: | 最小为 140 ms |
| 电压 - 阀值: | 3.03V |
| 工作温度: | -40°C ~ 85°C |
| 安装类型: | 表面贴装 |
| 封装/外壳: | 8-SOIC(0.154",3.90mm 宽) |
| 供应商设备封装: | 8-SOIC |
| 包装: | 带卷 (TR) |
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�
�±1%� Accuracy,� Low-Power,� +3V� and� +5V�
�μP� Supervisory� Circuits�
�(V� RT� )� is� greater� than� or� equal� to� the� minimum� IC� operat-�
�ing� voltages� (V� ICMIN� ).� The� 1%� “L”� series� allows� the� use�
�of� a� 5V� ±5%� power� supply,� and� guarantees� system�
�operation� over� worst-case� conditions,� maximizing� the�
�Power-Supply� Guard-Band� Range.�
�T-suffix� parts� have� a� minimum� reset� threshold� set� to�
�3.00V,� worst� case.� They� are� intended� for� 3.3V� systems�
�(3.33V� ±0.26V)� with� a� 7.8%� or� better� power-supply� tol-�
�erance.� Typically,� the� reset� threshold� (V� RT� )� is� greater�
�than� or� equal� to� the� minimum� IC� operating� voltages�
�(V� ICMIN� ).�
�The� MAX816� has� an� adjustable� reset� threshold,� set� with�
�an� external� resistive� divider� (Figure� 3).� The� voltage� on�
�the� RESET� IN� pin� is� monitored,� not� the� voltage� on� V� CC� .�
�The� RESET� IN� threshold� is� 1.700V,� and� has� very� high�
�impedance� and� 35nA� maximum� leakage.� Calculate� the�
�trip� point,� V� RT� ,� as� follows:�
�Early� Power-Fail� Warning�
�Critical� systems� often� require� early� warning� to� indicate�
�when� power� is� failing.� This� warning� provides� time� for�
�the� μP� to� store� vital� data� and� take� care� of� any� additional�
�“housekeeping”� before� the� power� supply� gets� too� far�
�out� of� tolerance� for� the� μP� to� operate� reliably.�
�Power-Fail� Comparator�
�The� power-fail� comparator� is� intended� as� an� undervolt-�
�age� detector� to� signal� a� failing� power� supply.� However,�
�the� comparator� does� not� need� to� be� dedicated� to� this�
�function,� because� it� is� completely� separate� from� the�
�rest� of� the� circuitry.� To� build� an� early-warning� circuit� for�
�power� failure,� connect� the� PFI� pin� to� a� voltage� divider�
�(see� Figures� 1,� 2,� and� 3).� Choose� the� voltage� divider�
�ratio,� so� the� voltage� at� PFI� falls� below� V� PF� I� just� before�
�the� monitored� voltage� drops� out.� Use� PFO� to� interrupt�
�the� μP,� so� it� can� prepare� for� an� orderly� power-down.�
�V� RT� =�
�V� RIT� � (� R� 1� +� R� 2� )�
�R� 2�
�The� power-fail� input� (PFI)� is� compared� to� an� internal�
�reference.� If� the� voltage� on� PFI� is� less� than� the� power-�
�fail� reference,� PFO� sinks� at� least� 1.2mA� to� GND;� other-�
�[� (� )� ]�
�C� HOLD� =� LOAD� SHDN�
�where� V� RT� =� the� desired� reset� threshold,� V� RIT� is� the�
�RESET� IN� threshold� (1.700V),� R1� is� the� resistor� con-�
�nected� between� V� RT� and� RESET� IN,� and� R2� is� the�
�resistor� connected� between� RESET� IN� and� GND.�
�Resistors� R1� and� R2� can� have� very� high� values.� The�
�usual� procedure� is� to� set� R2� to� some� conveniently� high�
�value� (100k� ?� ,� for� example)� and� calculate� R1� based� on�
�the� desired� reset� threshold,� using� the� following� formula:�
�R� 1� =� R� 2� � V� RT� /� V� RIT� ?� 1�
�The� MAX816� can� achieve� ±1.2%� accuracy� with� 0.1%�
�resistors.�
�Watchdog� Timer� (MAX815)�
�The� watchdog� circuit� monitors� the� μP’s� activity.� If� the� μP�
�does� not� toggle� the� watchdog� input� (WDI)� within� the�
�watchdog� timeout� period� (t� WP� ),� WDO� goes� low� (Figure�
�8).� WDO� also� goes� low� during� reset� conditions.�
�Whenever� V� CC� is� below� the� reset� threshold,� WDO� stays�
�low;� however,� unlike� RESET,� WDO� does� not� have� a� mini-�
�mum� pulse� width.� As� soon� as� V� CC� rises� above� the� reset�
�threshold,� WDO� goes� high� with� no� delay� (Figure� 9).�
�Typically,� WDO� is� connected� to� the� non-maskable� inter-�
�rupt� (NMI)� of� a� μP.� When� V� CC� drops� below� the� reset�
�threshold,� WDO� goes� low� whether� or� not� the� watchdog�
�timer� has� timed� out� (Figure� 9).� This� would� normally� trig-�
�ger� an� NMI� interrupt,� but� RESET� goes� low� simultane-�
�ously� and� thus� overrides� the� NMI� interrupt.�
�Connecting� WDO� to� MR� enables� the� watchdog� timeout�
�to� generate� a� reset� in� the� MAX815.�
�wise� it� sources� at� least� 300μA� from� V� CC� .� The� reference�
�is� 2.50V� in� the� MAX814/MAX815� with� K,� L,� N� suffixes,� or�
�1.70V� with� the� T� suffix.� It� is� also� 1.70V� in� the� MAX816.�
�LOW� LINE� Output� (MAX814)�
�The� low-line� detector� is� a� separate� comparator� that�
�monitors� V� CC� with� a� typical� threshold� voltage� of� 60mV�
�above� the� normal� reset� threshold,� with� 2mV� of� hystere-�
�sis� (Figure� 9).� If� V� CC� rises� faster� than� 10μs/V,� insert� a�
�100pF� capacitor� from� LOW� LINE� to� GND� to� ensure�
�proper� start-up.� For norma� l� operation� (V� CC� above� the�
�reset� threshold),� LOW� LINE� is� pulled� to� V� CC� .� Use� LOW�
�LINE� to� provide� an� NMI� to� the� μP� when� power� begins� to�
�fall.� In� most� battery-operated� portable� systems,� reserve�
�energy� in� the� battery� provides� ample� time� to� complete�
�the� shutdown� routine� once� the� low-line� warning� is�
�encountered,� and� before� reset� asserts.� If� the� system�
�must� also� contend� with� a� more� rapid� V� CC� fall� time—�
�such� as� when� the� main� battery� is� disconnected� or� a�
�high-side� switch� is� opened� during� operation� —use�
�capacitance� on� the� V� CC� line� to� provide� time� to� execute�
�the� shutdown� routine.� First,� calculate� the� worst-case�
�time� required� for� the� system� to� perform� its� shutdown�
�routine.� Then� use� the� worst-case� shutdown� time�
�(t� SHDN� ),� worst-case� load� current� (I� LOAD� ),� and� minimum�
�low-line� to� reset� threshold� (V� LR� )� to� calculate� the� amount�
�of� capacitance� required� to� allow� the� shutdown� routine�
�to� complete� before� reset� is� asserted.�
�I� � t�
�V� LR�
�______________________________________________________________________________________�
�11�
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相关代理商/技术参数 |
参数描述 |
|---|---|
| MAX815 | 制造商:MAXIM 制造商全称:Maxim Integrated Products 功能描述:【1% Accuracy, Low-Power, +3V and +5V レP Supervisory Circuits |
| MAX815_CPA | 制造商:MAXIM 制造商全称:Maxim Integrated Products 功能描述:?±1% Accuracy, Low-Power, 3V and 5V uP Supervisory Circuits |
| MAX815_CSA | 制造商:MAXIM 制造商全称:Maxim Integrated Products 功能描述:?±1% Accuracy, Low-Power, 3V and 5V uP Supervisory Circuits |
| MAX815_EPA | 制造商:MAXIM 制造商全称:Maxim Integrated Products 功能描述:?±1% Accuracy, Low-Power, 3V and 5V uP Supervisory Circuits |
| MAX815_ESA | 制造商:MAXIM 制造商全称:Maxim Integrated Products 功能描述:?±1% Accuracy, Low-Power, 3V and 5V uP Supervisory Circuits |
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