参数资料
| 型号: | DS1236+5 |
| 厂商: | Maxim Integrated Products |
| 文件页数: | 10/19页 |
| 文件大小: | 0K |
| 描述: | IC MICRO MANAGER 5% 16-DIP |
| 标准包装: | 25 |
| 系列: | MicroManager |
| 类型: | 备用电池电路 |
| 监视电压数目: | 1 |
| 输出: | 开路漏极,推挽式 |
| 复位: | 高有效/低有效 |
| 复位超时: | 最小为 25 ms |
| 电压 - 阀值: | 4.62V |
| 工作温度: | 0°C ~ 70°C |
| 安装类型: | 通孔 |
| 封装/外壳: | 16-DIP(0.300",7.62mm) |
| 供应商设备封装: | 16-PDIP |
| 包装: | 管件 |
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�DS1236�
�additional� NMI� pulses.� In� this� way,� the� ST� pin� can� be� used� to� allow� the� CMOS� processor� to� determine� if�
�the� supply� voltage,� as� monitored� by� the� IN� pin,� is� above� or� below� a� selected� operating� value.� This� is�
�illustrated� in� Figure� 3.� As� discussed� above,� the� RC� pin� determines� the� timing� relationships� and� levels� of�
�several� signals.� The� following� section� describes� the� power-up� and� power-down� timing� diagrams� in� more�
�detail.�
�TIMING� DIAGRAMS�
�This� section� provides� a� description� of� the� timing� diagrams� shown� in� Figure� 10,� Figure� 11,� Figure� 12,� and�
�Figure� 13.� These� diagrams� show� the� relative� timing� and� levels� in� both� the� NMOS� and� the� CMOS� mode�
�for� power-up� and� down.� Figure� 10� illustrates� the� relationship� for� power-down� in� CMOS� mode.� As� V� CC�
�falls,� the� IN� pin� voltage� drops� below� V� TP� .� As� a� result,� the� processor� is� notified� of� an� impending� power�
�failure� via� an� active� NMI� ,� which� allows� it� to� enter� a� sleep� mode.� As� the� power� falls� further,� V� CC� crosses�
�V� CCTP� ,� the� power� monitor� trip� point.� Since� the� DS1236� is� in� CMOS� mode,� no� reset� is� generated.� The� RST�
�voltage� will� follow� V� CC� down,� but� will� fall� no� further� than� V� BAT� .� At� this� time,� CEO� is� brought� high� to�
�write� protect� the� RAM.� When� the� V� CC� reaches� V� BAT� ,� a� power-fail� is� issued� via� the� PF� and� PF� pins.�
�Figure� 11� illustrates� operation� of� the� power-down� sequence� in� NMOS� mode.� Once� again,� as� power� falls,�
�an� NMI� is� issued.� This� gives� the� processor� time� to� save� critical� data� in� nonvolatile� SRAM.� When� V� CC�
�reaches� V� CCTP� ,� an� active� RST� and� RST� are� given.� The� RST� voltage� will� follow� V� CC� as� it� falls.� CEO� ,� PF,�
�and� PF� will� operate� in� a� similar� manner� to� CMOS� mode.� Notice� that� the� NMI� will� tri-state� to� prevent� a�
�loss� of� battery� power.�
�Figure� 12� shows� the� power-up� sequence� for� the� NMOS� mode.� As� V� CC� slews� above� V� BAT� ,� the� PF� and� PF�
�pins� are� deactivated.� An� active� reset� occurs� as� well� as� an� NMI� .� Although� the� NMI� may� be� short� due� to�
�slew� rates,� reset� will� be� maintained� for� the� standard� t� RST� timeout� period.� At� a� later� time,� if� the� IN� pin� falls�
�below� V� TP� ,� a� new� NMI� will� occur.� If� the� processor� does� not� issue� a� ST� ,� a� watchdog� reset� will� also� occur.�
�The� second� NMI� and� RST� are� provided� to� illustrate� these� possibilities.�
�Figure� 13� illustrates� the� power-up� timing� for� CMOS� mode.� The� principal� difference� is� that� the� DS1236�
�issues� a� reset� immediately� in� the� NMOS� mode.� In� CMOS� mode,� a� reset� is� issued� when� IN� rises� above�
�V� TP� .� Depending� on� the� processor� type,� the� NMI� may� terminate� the� Stop� mode� in� the� processor.�
�WAKE� CONTROL/SLEEP� CONTROL�
�The� Wake/Sleep� Control� input� (WC/� SC� )� allows� the� processor� to� disable� all� comparators� on� the� DS1236�
�before� entering� the� Stop� mode.� This� feature� allows� the� DS1236,� processor,� and� static� RAM� to� maintain�
�nonvolatility� in� the� lowest� power� mode� possible.� The� processor� may� invoke� the� sleep� mode� in� battery�
�operated� applications� to� conserve� battery� capacity� when� an� absence� of� activity� is� detected.� The� operation�
�of� this� signal� is� show� n� in� Figure� 14.� The� DS1236� may� subsequently� be� restarted� by� a� high-to-low�
�transition� on� the� PBRST� input� through� human� interface� via� a� keyboard,� touchpad,� etc.� The� processor� will�
�then� be� restarted� as� the� watchdog� times� out� and� drives� RST� and� RST� active.� The� DS1236� can� also� be�
�started� up� by� forcing� the� WC/� SC� pin� high� from� an� external� source.� Also,� if� the� DS1236� is� placed� in� a�
�sleep� mode� by� the� processor� and� system� power� is� lost,� the� DS1236� will� wake� up� the� next� time� V� CC� rises�
�above� V� BAT� .� These� possibilities� are� illustrated� in� Figure� 15.�
�When� the� sleep� mode� is� invoked� during� normal� power-valid� conditions,� all� operation� on� the� DS1236� is�
�disabled,� thus� leaving� the� NMI� ,� RST,� and� RST� outputs� disabled� as� well� as� the� ST� and� IN� inputs.�
�However,� a� loss� of� power� during� a� sleep� mode� will� result� in� an� active� RST� and� RST� when� the� RC� pin� is�
�grounded� (NMOS� mode).� If� the� RC� pin� is� tied� high,� the� RST� and� RST� pins� will� remain� inactive� during�
�10� of� 19�
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| DS1236-10+ | IC MICRO MANAGER 10% 16-DIP |
| EBC65DRAN | CONN EDGECARD 130PS R/A .100 SLD |
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相关代理商/技术参数 |
参数描述 |
|---|---|
| DS1236-5N | 制造商:未知厂家 制造商全称:未知厂家 功能描述:Power Supply Supervisor |
| DS1236A | 制造商:DALLAS 制造商全称:Dallas Semiconductor 功能描述:MicroManager Chip |
| DS1236A-10 | 功能描述:监控电路 RoHS:否 制造商:STMicroelectronics 监测电压数: 监测电压: 欠电压阈值: 过电压阈值: 输出类型:Active Low, Open Drain 人工复位:Resettable 监视器:No Watchdog 电池备用开关:No Backup 上电复位延迟(典型值):10 s 电源电压-最大:5.5 V 最大工作温度:+ 85 C 安装风格:SMD/SMT 封装 / 箱体:UDFN-6 封装:Reel |
| DS1236A-10+ | 功能描述:监控电路 RoHS:否 制造商:STMicroelectronics 监测电压数: 监测电压: 欠电压阈值: 过电压阈值: 输出类型:Active Low, Open Drain 人工复位:Resettable 监视器:No Watchdog 电池备用开关:No Backup 上电复位延迟(典型值):10 s 电源电压-最大:5.5 V 最大工作温度:+ 85 C 安装风格:SMD/SMT 封装 / 箱体:UDFN-6 封装:Reel |
| DS1236A-10N | 功能描述:监控电路 RoHS:否 制造商:STMicroelectronics 监测电压数: 监测电压: 欠电压阈值: 过电压阈值: 输出类型:Active Low, Open Drain 人工复位:Resettable 监视器:No Watchdog 电池备用开关:No Backup 上电复位延迟(典型值):10 s 电源电压-最大:5.5 V 最大工作温度:+ 85 C 安装风格:SMD/SMT 封装 / 箱体:UDFN-6 封装:Reel |
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