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| 型号: | ISL8701AIBZ |
| 厂商: | Intersil |
| 文件页数: | 5/12页 |
| 文件大小: | 0K |
| 描述: | IC SEQUENCER QUAD ADJ 14-SOIC |
| 标准包装: | 50 |
| 类型: | 序列发生器 |
| 监视电压数目: | 4 |
| 输出: | 开路漏极或开路集电极 |
| 复位: | 高有效/低有效 |
| 复位超时: | 可调节/可选择 |
| 电压 - 阀值: | 可调节/可选择 |
| 工作温度: | -40°C ~ 85°C |
| 安装类型: | 表面贴装 |
| 封装/外壳: | 14-SOIC(0.154",3.90mm 宽) |
| 供应商设备封装: | 14-SOICN |
| 包装: | 管件 |
| 产品目录页面: | 1244 (CN2011-ZH PDF) |
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�ISL8700A,� ISL8701A,� ISL8702A,� ISL8703A,� ISL8704A,� ISL8705A�
�On� the� ISL8702A,� ISL8703A,� ISL8704A� and� ISL8705A,�
�enabling� of� on� or� off� sequencing� can� also� be� signaled� via� the�
�SEQ_EN� or� SEQ_EN#� input� pin� once� voltage� compliance� is�
�met.� Initially,� the� SEQ_EN� pin� should� be� held� low� and�
�released� when� sequence� start� is� desired.� The� SEQ#� is�
�internally� pulled� high� and� sequencing� is� enabled� when� it� is�
�pulled� low.� The� on� sequence� of� the� ENABLE� outputs� is� as�
�previously� described.� The� off� sequence� feature� is� only�
�available� on� the� variants� having� the� SEQ_EN� or� the�
�SEQ_EN#� inputs,� these� being� the� ISL8702A,� ISL8703A,�
�ISL8704A,� ISL8705A.� The� sequence� is� D� off,� then� C� off,� then�
�B� off� and� finally� A� off.� Once� SEQ_EN� (SEQ_EN#)� is� signaled�
�low� (high),� the� TIME� cap� is� charged� to� 2V� once� again.� Once�
�this� Vth� is� reached,� ENABLE_D� transitions� to� its� reset� state�
�and� CTIM� is� discharged.� A� delay� and� subsequent� sequence�
�off� is� then� determined� by� TD� resistor� to� ENABLE_C.� Likewise,�
�a� delay� to� ENABLE_B� and� then� ENABLE_A� turn-off� is�
�determined� by� TC� and� TB� resistor� values� respectively.�
�With� the� ISL8700A,� ISL8701A� a� quasi� down� sequencing� of� the�
�ENABLE� outputs� can� be� achieved� by� loading� the� ENABLE� pins�
�with� various� value� capacitors� to� ground.� When� a� simultaneous�
�output� latch� off� is� invoked,� the� caps� will� set� the� falling� ramp� of�
�the� various� ENABLE� outputs� thus� adjusting� the� time� to� Vth� for�
�various� DC/DC� convertors� or� other� circuitry.�
�Regardless� of� IC� variant,� the� FAULT� signal� is� always� valid� at�
�operational� voltages� and� can� be� used� as� justification� for�
�SEQ_EN� release� or� even� controlled� with� an� RC� timer� for�
�sequence� on.�
�Programming� the� Under� and� Overvoltage� Limits�
�When� choosing� resistors� for� the� divider� remember� to� keep� the�
�current� through� the� string� bounded� by� power� loss� at� the� top� end�
�and� noise� immunity� at� the� bottom� end.� For� most� applications,�
�total� divider� resistance� in� the� 10k� Ω� to1000k� Ω� range� is�
�advisable� with� high� precision� resistors� being� used� to� reduce�
�monitoring� error.� Although� for� the� ISL870XA,� two� dividers� of� two�
�resistors� each� can� be� employed� to� separately� monitor� the� OV�
�and� UV� levels� for� the� V� IN� voltage.� We� will� discuss� using� a�
�single� three� resistor� string� for� monitoring� the� V� IN� voltage,�
�referencing� Figure� 1.� In� the� three� resistor� divider� string� with� Ru�
�(upper),� Rm� (middle)� and� Rl� (lower),� the� ratios� of� each� in�
�combination� to� the� other� two� is� balanced� to� achieve� the� desired�
�UV� and� OV� trip� levels.� Although� this� IC� has� a� bias� range� of� 3.3V�
�to� 24V,� it� can� monitor� any� voltage� >1.22V.�
�The� ratio� of� the� desired� overvoltage� trip� point� to� the� internal�
�reference� is� equal� to� the� ratio� of� the� two� upper� resistors� to� the�
�lowest� (gnd� connected)� resistor.�
�The� ratio� of� the� desired� undervoltage� trip� point� to� the� internal�
�reference� voltage� is� equal� to� the� ratio� of� the� uppermost� (voltage�
�connected)� resistor� to� the� lower� two� resistors.�
�These� assumptions� are� true� for� both� rising� (turn-on)� or� falling�
�(shutdown)� voltages.�
�The� following� is� a� practical� example� worked� out.� For� detailed�
�equatons� on� how� to� perform� this� operation� for� a� given� supply�
�5�
�requirement� please� see� the� next� section.�
�1.� Determine� if� turn-on� or� shutdown� limits� are� preferred.� In� this�
�example,� we� will� determine� the� resistor� values� based� on� the�
�shutdown� limits.�
�2.� Establish� lower� and� upper� trip� level:� 12V� ±10%� or� 13.2V�
�(OV)� and� 10.8V� (UV)�
�3.� Establish� total� resistor� string� value:� 100k� Ω,� Ir� =� divider�
�current�
�4.� (Rm+Rl)� x� Ir� =� 1.1V� @� UV� and� Rl� x� Ir� =� 1.2V� @� OV�
�5.� Rm+Rl� =� 1.1V/Ir� @� UV� =� Rm+Rl� =� 1.1V/(10.8V/100k� Ω� )� =�
�10.370k� Ω�
�6.� Rl� =� 1.2V/Ir� @� OV� =� Rl� =� 1.2V/(13.2V/100k� Ω� )� =� 9.242k� Ω�
�7.� Rm� =� 10.370k� Ω� -� 9.242k� Ω� =� 1.128k� Ω�
�8.� Ru� =� 100k� Ω� -� 10.370k� Ω� =� 89.630k� Ω�
�9.� Choose� standard� value� resistors� that� most� closely�
�approximate� these� ideal� values.� Choosing� a� different� total�
�divider� resistance� value� may� yield� a� more� ideal� ratio� with�
�available� resistor’s� values� .�
�In� our� example,� with� the� closest� standard� values� of�
�Ru� =� 90.9k� Ω,� Rm� =� 1.13k� Ω� and� Rl� =� 9.31k� Ω,� the� nominal� UV�
�falling� and� OV� rising� will� be� at� 10.9V� and� 13.3V� respectively.�
�Programming� the� ENABLE� Output� Delays�
�The� delay� timing� between� the� four� sequenced� ENABLE� outputs�
�are� programmed� with� four� external� passive� components.� The�
�delay� from� a� valid� V� IN� (ISL8700A� and� ISL8701A)� to�
�ENABLE_A� and� SEQ_EN� being� valid� (ISL8702A,� ISL8703A,�
�ISL8704A,� ISL8705A)� to� ENABLE_A� is� determined� by� the�
�value� of� the� capacitor� on� the� TIME� pin� to� GND.� The� external�
�TIME� pin� capacitor� is� charged� with� a� 2.6μA� current� source.�
�Once� the� voltage� on� TIME� is� charged� up� to� the� internal�
�reference� voltage,� (V� TIME_VTH� )� the� ENABLE_A� output� is�
�released� out� of� its� reset� state.� The� capacitor� value� for� a� desired�
�delay� (±10%)� to� ENABLE_A� once� V� IN� and� SEQ_EN� where�
�applicable� has� been� satisfied� is� determined� by:�
�C� TIME� =� t� VINSEQpd� /770k� Ω�
�Once� ENABLE_A� reaches� V� TIME_VTH� ,� the� TIME� pin� is� pulled�
�low� in� preparation� for� a� sequenced� off� signal� via� SEQ_EN.� At�
�this� time,� the� sequencing� of� the� subsequent� outputs� is� started.�
�ENABLE_B� is� released� out� of� reset� after� a� programmable� time,�
�then� ENABLE_C,� then� ENABLE� _D,� all� with� their� own�
�programmed� delay� times.�
�The� subsequent� delay� times� are� programmed� with� a� single�
�external� resistor� for� each� ENABLE� output� providing� maximum�
�flexibility� to� the� designer� through� the� choice� of� the� resistor� value�
�connected� from� TB,� TC� and� TD� pins� to� GND.� The� resistor�
�values� determine� the� charge� and� discharge� rate� of� an� internal�
�capacitor� comprising� an� RC� time� constant� for� an� oscillator�
�whose� output� is� fed� into� a� counter� generating� the� timing� delay�
�to� ENABLE� output� sequencing.�
�The� R� TX� value� for� a� given� delay� time� is� defined� as:�
�R� TX� =� t� del� /1667nF�
�FN6381.0�
�October� 12,� 2006�
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相关代理商/技术参数 |
参数描述 |
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| ISL8701AIBZ-T | 功能描述:监控电路 ADJ QD SEQNCR 14N W/ANNEAL 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 |
| ISL8701IBZ | 功能描述:监控电路 ADJ QD SEQNCR 14N W/ANNEAL 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 |
| ISL8701IBZ-T | 功能描述:监控电路 ADJ QD SEQNCR 14N W/ANNEAL 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 |
| ISL8702AIBZ | 功能描述:监控电路 ADJ QUAD SEQNCR - 14 NSOIC W/ANNEAL 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 |
| ISL8702AIBZ-T | 功能描述:监控电路 ADJ QD SEQNCR 14N W/ANNEAL 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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