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参数资料
| 型号: | LTC2901-3IGN#TRPBF |
| 厂商: | Linear Technology |
| 文件页数: | 13/16页 |
| 文件大小: | 0K |
| 描述: | IC MONITOR QUAD SUPP PROG 16SSOP |
| 标准包装: | 2,500 |
| 类型: | 多压监控器 |
| 监视电压数目: | 4 |
| 输出: | 开路漏极或开路集电极 |
| 复位: | 低有效 |
| 复位超时: | 最小为 5 ms |
| 电压 - 阀值: | 16 种可选阀值组合 |
| 工作温度: | -40°C ~ 85°C |
| 安装类型: | 表面贴装 |
| 封装/外壳: | 16-SSOP(0.154",3.90mm 宽) |
| 供应商设备封装: | 16-SSOP |
| 包装: | 带卷 (TR) |
��
�
�LTC2901�
�APPLICATIO� S� I� FOR� ATIO�
�R� PU� =�
�Ω�
�Pull-Up Current vs V2 curve). Output rise time (10% to�
�90%)� is� estimated� using:�
�t� RISE� ≈� 2.2� ?� R� PU� ?� C� LOAD�
�where� R� PU� is� the� on-resistance� of� the� pull-up� transistor.�
�The� on-resistance� as� a� function� of� the� V2� voltage� at� room�
�temperature� is� estimated� using:�
�6� ?� 10� 5�
�V� 2� –� 1�
�with� V2� =� 3.3V,� R� PU� is� about� 260k.� Using� 150pF� for� load�
�capacitance,� the� rise� time� is� 86� μ� s.� If� the� output� needs� to�
�pull� up� faster� and/or� to� a� higher� voltage,� a� smaller�
�external� pull-up� resistor� may� be� used.� Using� a� 10k� pull-�
�up� resistor,� the� rise� time� is� reduced� to� 3.3� μ� s� for� a� 150pF�
�load� capacitance.�
�The� LTC2901-2� has� an� active� pull-up� to� V2� on� the� RST�
�output.� The� typical� performance� curve� (RST� Pull-Up� Cur-�
�rent� vs� V2� curve)� demonstrates� that� the� pull-up� current� is�
�somewhat� linear� versus� the� V2� voltage� and� R� PU� is� esti-�
�mated� to� be� approximately� 625� Ω� .� A� 150pF� load� capaci-�
�tance� makes� the� rise� time� about� 206ns.�
�Watchdog� Timer�
�The� watchdog� circuit� typically� monitors� a� μ� P’s� activity.� The�
�μ� P� is� required� to� change� the� logic� state� of� the� WDI� pin� on�
�a� periodic� basis� in� order� to� clear� the� watchdog� timer� and�
�prevent� the� WDO� pin� (LTC2901-1/LTC2901-2)� from� going�
�low.� Whenever� RST� is� low,� the� watchdog� timer� is� cleared�
�and� WDO� is� set� high.� The� watchdog� timer� is� started� when�
�RST� pulls� high.� Subsequent� edges� received� on� the� WDI� pin�
�will� clear� the� watchdog� timer.� The� timer� will� continue� to�
�run� until� the� watchdog� timer� times� out.� Once� the� watchdog�
�timer� times� out,� internal� circuitry� will� bring� the� WDO� pin�
�low.� WDO� will� remain� low� and� the� watchdog� timer� will�
�remain� cleared� until� the� next� edge� is� received� on� the� WDI�
�pin� or� until� RST� goes� low.�
�In� the� LTC2901-3/LTC2901-4,� there� is� no� WDO� pin.� Instead,�
�the� RST� pin� is� pulled� low� for� the� programmed� reset� time-�
�out� period� whenever� a� WDI� edge� is� missed.� In� this� manner,�
�a� full� system� reset� can� be� issued� after� a� watchdog� failure.�
�To� disable� the� watchdog� timer,� simply� ground� the� CWT� pin�
�(Pin� 9).� With� CWT� held� at� ground,� any� reset� event� will� force�
�WDO� high� indefinitely.� It� is� safe� to� leave� the� WDI� pin�
�(Pin� 8)� unconnected� because� the� weak� internal� pull-up�
�(10� μ� A� typ)� will� pull� WDI� high.� Tying� WDI� to� V1� or� ground�
�is� also� allowed,� but� grounding� the� WDI� pin� will� force� the�
�pull-up� current� to� be� drawn� continuously.�
�Selecting� the� Reset� Timing� Capacitor�
�The� reset� time-out� period� is� adjustable� in� order� to� accom-�
�modate� a� variety� of� microprocessor� applications.� The�
�reset� time-out� period,� t� RST� ,� is� adjusted� by� connecting� a�
�capacitor,� C� RT� ,� between� the� CRT� pin� and� ground.� The�
�value� of� this� capacitor� is� determined� by:�
�C� RT� =� t� RST� ?� 217� ?� 10� –9�
�with� C� RT� in� Farads� and� t� RST� in� seconds.� The� C� RT� value� per�
�millisecond� of� delay� can� also� be� expressed� as� C� RT� /ms� =�
�217� (pF/ms).�
�Leaving� the� CRT� pin� unconnected� will� generate� a� mini-�
�mum� reset� time-out� of� approximately� 50� μ� s.� Maximum�
�reset� time-out� is� limited� by� the� largest� available� low�
�leakage� capacitor.� The� accuracy� of� the� time-out� period� will�
�be� affected� by� capacitor� leakage� (the� nominal� charging�
�current� is� 2� μ� A)� and� capacitor� tolerance.� A� low� leakage�
�ceramic� capacitor� is� recommended.�
�Selecting� the� Watchdog� Timing� Capacitor�
�The� watchdog� time-out� period� is� adjustable� and� can� be�
�optimized� for� software� execution.� The� watchdog� time-out�
�period,� t� WD� ,� is� adjusted� by� connecting� a� capacitor,� C� WT� ,�
�between� the� CWT� pin� and� ground.� Given� a� specified�
�watchdog� time-out� period,� the� capacitor� is� determined� by:�
�C� WT� =� t� WD� ?� 50� ?� 10� –9�
�with� C� WT� in� Farads� and� t� WD� in� seconds.� The� C� WT� value� per�
�millisecond� of� delay� can� also� be� expressed� as� C� WT� /ms� =�
�50� (pF/ms).�
�Leaving� the� CWT� pin� unconnected� will� generate� a� mini-�
�mum� watchdog� time-out� of� approximately� 200� μ� s.� Maxi-�
�mum� time-out� is� limited� by� the� largest� available� low�
�leakage� capacitor.� The� accuracy� of� the� time-out� period� will�
�be� affected� by� capacitor� leakage� (the� nominal� charging�
�current� is� 2� μ� A)� and� capacitor� tolerance.� A� low� leakage�
�ceramic� capacitor� is� recommended.�
�2901fb�
�13�
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