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| 型号: | REF194GS-REEL |
| 厂商: | Analog Devices Inc |
| 文件页数: | 22/28页 |
| 文件大小: | 0K |
| 描述: | IC VREF SERIES PREC 4.5V 8-SOIC |
| 标准包装: | 2,500 |
| 系列: | REF19 |
| 基准类型: | 串联,精度 |
| 输出电压: | 4.5V |
| 容差: | ±10mV |
| 温度系数: | 25ppm/°C |
| 输入电压: | 4.6 V ~ 15 V |
| 通道数: | 1 |
| 电流 - 静态: | 15µA |
| 电流 - 输出: | 30mA |
| 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-SO |
| 包装: | 带卷 (TR) |
第1页第2页第3页第4页第5页第6页第7页第8页第9页第10页第11页第12页第13页第14页第15页第16页第17页第18页第19页第20页第21页当前第22页第23页第24页第25页第26页第27页第28页
��
�
�REF19x� Series�
�management� should� still� be� exercised.� A� short,� heavy,� low� dc�
�resistance� (DCR)� conductor� should� be� used� from� U1� to� 6� to� the� V� OUT�
�Sense� Point� S,� where� the� collector� of� Q1� connects� to� the� load,� Point� F.�
�Because� of� the� current� limiting� configuration,� the� dropout� voltage�
�circuit� is� raised� about� 1.1� V� over� that� of� the� REF19x� devices,� due� to�
�the� V� BE� of� Q1� and� the� drop� across� Current� Sense� Resistor� R4.�
�Data� Sheet�
�integrator� adjusts� its� output� to� establish� the� proper� relationship�
�between� the� V� OUT� and� GND� references.� Thus,� any� desired� negative�
�output� voltage� can� be� selected� by� substituting� for� the� appropriate�
�reference� IC.� The� sleep� feature� is� maintained� in� the� circuit� with�
�the� simple� addition� of� a� PNP� transistor� and� a� 10� k� resistor.�
�V� S�
�However,� overall� dropout� is� typically� still� low� enough� to� allow�
�operation� of� a� 5� V� to� 3.3� V� regulator/reference� using� the� REF196� for�
�U1� as� noted,� with� a� V� S� as� low� as� 4.5� V� and� a� load� current� of� 150� mA.�
�The� requirement� for� a� heat� sink� on� Q1� depends� on� the� maximum�
�input� voltage� and� short-circuit� current.� With� V� S� =� 5� V� and� a�
�300� mA� current� limit,� the� worst-case� dissipation� of� Q1� is� 1.5� W,�
�less� than� the� TO-220� package� 2� W� limit.� However,� if� smaller� TO-39�
�10k� ?�
�SLEEP�
�TTL/CMOS�
�10k� ?�
�2N3906�
�2�
�V� S�
�3� SLEEP� OUTPUT� 6�
�REF19x�
�GND�
�4�
�100k� ?�
�1k� ?�
�1μF�
�+5V�
�A1�
�1μF�
�100� ?�
�–V� REF�
�or� TO-5� package� devices,� such� as� the� 2N4033,� are� used,� the� current�
�limit� should� be� reduced� to� keep� maximum� dissipation� below�
�the� package� rating.� This� is� accomplished� by� simply� raising� R4.�
�A� tantalum� output� capacitor� is� used� at� C1� for� its� low� equivalent�
�series� resistance� (ESR),� and� the� higher� value� is� required� for� stability.�
�Capacitor� C2� provides� input� bypassing� and� can� be� an� ordinary�
�electrolytic.�
�Shutdown� control� of� the� booster� stage� is� an� option,� and� when� used,�
�some� cautions� are� needed.� Due� to� the� additional� active� devices�
�in� the� V� S� line� to� U1,� a� direct� drive� to� Pin� 3� does� not� work� as� with� an�
�unbuffered� REF19x� device.� To� enable� shutdown� control,� the�
�connection� from� U1� to� Q2� is� broken� at� the� X,� and� Diode� D1�
�then� allows� a� CMOS� control� source,� V� C� ,� to� drive� U1� to� 3� for� on/off�
�operation.� Startup� from� shutdown� is� not� as� clean� under� heavy�
�load� as� it� is� in� basic� REF19x� series,� and� can� require� several�
�milliseconds� under� load.� Nevertheless,� it� is� still� effective� and�
�can� fully� control� 150� mA� loads.� When� shutdown� control� is�
�used,� heavy� capacitive� loads� should� be� minimized.�
�NEGATIVE� PRECISION� REFERENCE� WITHOUT�
�PRECISION� RESISTORS�
�In� many� current-output� CMOS� DAC� applications� where� the� output�
�signal� voltage� must� be� the� same� polarity� as� the� reference� voltage,� it�
�is� often� necessary� to� reconfigure� a� current-switching� DAC� into�
�a� voltage-switching� DAC� using� a� 1.25� V� reference,� an� op� amp,�
�and� a� pair� of� resistors.� Using� a� current-switching� DAC� directly�
�–5V�
�A1� =� 1/2� OP295,�
�1/2� OP291�
�Figure� 26.� Negative� Precision� Voltage� Reference� Uses� No� Precision� Resistors�
�One� caveat� to� this� approach� is� that� although� rail-to-rail� output�
�amplifiers� work� best� in� the� application,� these� operational� amplifiers�
�require� a� finite� amount� (mV)� of� headroom� when� required� to� provide�
�any� load� current;� consider� this� issue� when� choosing� the� negative�
�supply� for� the� circuit.�
�STACKING� REFERENCE� ICs� FOR� ARBITRARY�
�OUTPUTS�
�Some� applications� may� require� two� reference� voltage� sources� that�
��shows� how� this� stacked� output� reference� can� be� implemented.�
�Two� reference� ICs� are� used,� fed� from� a� common� unregulated� input,�
�V� S� .� The� outputs� of� the� individual� ICs� are� connected� in� series,� as�
�shown� in� Figure� 27,� which� provide� two� output� voltages,� V� OUT1� and�
�V� OUT2� .� V� OUT1� is� the� terminal� voltage� of� U1,� whereas� V� OUT2� is� the�
�sum� of� this� voltage� and� the� terminal� voltage� of� U2.� U1� and� U2�
�are� chosen� for� the� two� voltages� that� supply� the� required� outputs�
�(see� Table� 1).� If,� for� example,� both� U1� and� U2� are� REF192s,� the�
�two� outputs� are� 2.5� V� and� 5.0� V.�
�OUTPUT� TABLE�
�U1/U2� V� OUT1� (V)� V� OUT2� (V)�
�+V� S� REF192/REF192� 2.5� 5.0�
�V� S� >� V� OUT2� +� 0.15V� REF192/REF194� 2.5� 7.0�
�REF192/REF195� 2.5� 7.5�
�2�
�requires� an� additional� operational� amplifier� at� the� output� to�
�reinvert� the� signal.� A� negative� voltage� reference� is� then� desirable�
�because� an� additional� operational� amplifier� is� not� required� for�
�C1�
�0.1μF�
�3�
�U2�
�REF19x�
�(SEE� TABLE)�
�4�
�6�
�V� O� (U2)�
�+�
�C2�
�1μF�
�+V� OUT2�
�either� reinversion� (current-switching� mode)� or� amplification�
�(voltage-switching� mode)� of� the� DAC� output� voltage.� In� general,�
�2�
�any� positive� voltage� reference� can� be� converted� into� a� negative�
�voltage� reference� using� an� operational� amplifier� and� a� pair� of�
�matched� resistors� in� an� inverting� configuration.� The� disadvantage�
�to� this� approach� is� that� the� largest� single� source� of� error� in� the�
�circuit� is� the� relative� matching� of� the� resistors� used.�
�V� IN�
�COMMON�
�C3�
�0.1μF�
�3�
�U1�
�REF19x�
�(SEE� TABLE)�
�4�
�6�
�V� O� (U1)�
�+� C4�
�1μF�
�R1�
�3.9k� ?�
�(SEE� TEXT)�
�+V� OUT1�
�V� OUT�
�COMMON�
�The� circuit� illustrated� in� Figure� 26� avoids� the� need� for� tightly�
�matched� resistors� by� using� an� active� integrator� circuit.� In� this�
�circuit,� the� output� of� the� voltage� reference� provides� the� input�
�drive� for� the� integrator.� To� maintain� circuit� equilibrium,� the�
�Rev.� L� |� Page� 22� of� 28�
�Figure� 27.� Stacking� Voltage� References� with� the� REF19x�
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相关代理商/技术参数 |
参数描述 |
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| REF194GS-REEL7 | 功能描述:IC VREF SERIES PREC 4.5V 8-SOIC RoHS:否 类别:集成电路 (IC) >> PMIC - 电压基准 系列:REF19 标准包装:3,000 系列:- 基准类型:旁路,精度 输出电压:5V 容差:±0.5% 温度系数:100ppm/°C 输入电压:- 通道数:1 电流 - 阴极:80µA 电流 - 静态:- 电流 - 输出:15mA 工作温度:-40°C ~ 85°C 安装类型:表面贴装 封装/外壳:TO-236-3,SC-59,SOT-23-3 供应商设备封装:SOT-23-3 包装:带卷 (TR) 其它名称:LM4040CIM3-5.0MLTRLM4040CIM3-5.0MLTR-ND |
| REF194GSZ | 功能描述:IC VREF SERIES PREC 4.5V 8-SOIC RoHS:是 类别:集成电路 (IC) >> PMIC - 电压基准 系列:REF19 标准包装:3,000 系列:- 基准类型:旁路,精度 输出电压:3V 容差:±0.5% 温度系数:100ppm/°C 输入电压:- 通道数:1 电流 - 阴极:82µA 电流 - 静态:- 电流 - 输出:15mA 工作温度:-40°C ~ 85°C 安装类型:表面贴装 封装/外壳:6-TSSOP(5 引线),SC-88A,SOT-353 供应商设备封装:SC-70-5 包装:带卷 (TR) 其它名称:296-20888-2 |
| REF194GSZ-REEL | 功能描述:IC VREF SERIES PREC 4.5V 8-SOIC RoHS:是 类别:集成电路 (IC) >> PMIC - 电压基准 系列:REF19 产品培训模块:Voltage Reference Basics 标准包装:100 系列:- 基准类型:旁路,精度 输出电压:4.096V 容差:±0.075% 温度系数:50ppm/°C 输入电压:- 通道数:1 电流 - 阴极:1µA 电流 - 静态:- 电流 - 输出:10mA 工作温度:0°C ~ 70°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:管件 |
| REF194GSZ-REEL7 | 功能描述:IC VREF SERIES PREC 4.5V 8SOIC RoHS:是 类别:集成电路 (IC) >> PMIC - 电压基准 系列:REF19 标准包装:3,000 系列:- 基准类型:旁路,精度 输出电压:3V 容差:±0.5% 温度系数:100ppm/°C 输入电压:- 通道数:1 电流 - 阴极:82µA 电流 - 静态:- 电流 - 输出:15mA 工作温度:-40°C ~ 85°C 安装类型:表面贴装 封装/外壳:6-TSSOP(5 引线),SC-88A,SOT-353 供应商设备封装:SC-70-5 包装:带卷 (TR) 其它名称:296-20888-2 |
| REF195 | 制造商:AD 制造商全称:Analog Devices 功能描述:Precision Micropower, Low Dropout, Voltage References |
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