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| 型号: | ACS759KCB-150B-PFF-T |
| 厂商: | Allegro Microsystems Inc |
| 文件页数: | 14/19页 |
| 文件大小: | 0K |
| 描述: | SENSOR CURRENT |
| 特色产品: | ACS759 Series |
| 标准包装: | 34 |
| 电流 - 感应: | ±12.5A |
| 精确度: | ±2.2% |
| 灵敏度: | 56mV/A |
| 电流 - 电源: | 11mA |
| 传感器类型: | 霍尔效应 |
| 电源电压: | 3 V ~ 5.5 V |
| 输出: | 2.5V |
| 频率: | 120kHz |
| 响应时间: | 4µs |
| 电极标记: | 双向 |
| 工作温度: | -40°C ~ 125°C |
| 封装/外壳: | 5-CB 成形引线 |
| 包装: | 管件 |
| 其它名称: | 620-1464-5 |
��
�
�ACS759xCB�
�Thermally� Enhanced,� Fully� Integrated,� Hall� Effect-Based�
�Linear� Current� Sensor� IC�
�With� 100� μ� Ω� Current� Conductor� and� Optimized� Performance� at� 3.3� V�
�Characteristic� Definitions�
�Definitions� of� Accuracy� Characteristics�
�Sensitivity� (Sens).� The� change� in� device� output� in� response� to� a�
�1� A� change� through� the� primary� conductor.� The� sensitivity� is� the�
�The� ratiometric� change� (%)� in� the� quiescent� voltage� output� is�
�defined� as:�
�product� of� the� magnetic� circuit� sensitivity� (G� /� A)� and� the� linear�
�IC� amplifier� gain� (mV/G).� The� linear� IC� amplifier� gain� is� pro-�
�V� IOUTQ(�
�V)�
�=�
�V� IOUTQ(V� CC� )� V� IOUTQ(3.3V)�
�V� CC� 3.3� (V)�
�%�
�grammed� at� the� factory� to� optimize� the� sensitivity� (mV/A)� for� the�
�half-scale� current� of� the� device.�
�and� the� ratiometric� change� (%)� in� sensitivity� is� defined� as:�
�Noise� (V� NOISE� ).� The� noise� floor� is� derived� from� the� thermal� and�
�shot� noise� observed� in� Hall� elements.� Dividing� the� noise� (mV)�
�Sens� (�
�V�
�=�
�Sens� (V� CC�
�V� CC�
�Sens� (�
�3.3� (V)�
�V�
�%)�
�by� the� sensitivity� (mV/A)� provides� the� smallest� current� that� the�
�device� is� able� to� resolve.�
�Nonlinearity� (E� LIN� ).� The� degree� to� which� the� voltage� output�
�from� the� IC� varies� in� direct� proportion� to� the� primary� current�
�through� its� half-scale� amplitude.� Nonlinearity� in� the� output� can� be�
�attributed� to� the� saturation� of� the� flux� concentrator� approaching�
�the� half-scale� current.� The� following� equation� is� used� to� derive�
�Quiescent� output� voltage� (V� IOUT(Q)� ).� The� output� of� the� device�
�when� the� primary� current� is� zero.� For� bidirectional� devices,�
�it� nominally� remains� at� V� CC� ?� 2.� Thus,� V� CC� =� 3.3� V� translates�
�into� V� IOUT(QBI)� =� 1.65� V.� For� unidirectional� devices,� it� nomi-�
�nally� remains� at� 0.1� � V� CC� .� Thus,� V� CC� =� 3.3� V� translates� into�
�V� IOUT(QUNI)� =� 0.33� V.� Variation� in� V� IOUT(Q)� can� be� attributed�
�to� the� resolution� of� the� Allegro� linear� IC� quiescent� voltage� trim,�
�magnetic� hysteresis,� and� thermal� drift.�
�{� [�
�Δ� gain� ×� %� sat� (� V� IOUT� _half-scale� amperes� –� V� IOUT(Q)� )�
�the linearity:�
�100� 1–�
�where�
�2� (� V� IOUT� _quarter-scale� amperes� –� V� IOUT(Q)� )�
�[{�
�Electrical� offset� voltage� (V� OE� ).� The� deviation� of� the� device� out-�
�put� from� its� ideal� quiescent� value� of� V� CC� ?� 2� for� bidirectional� and�
�0.1� � V� CC� for� unidirectional� devices,� due� to� nonmagnetic� causes.�
�Magnetic� offset� error� (I� ERROM� ).� The� magnetic� offset� is� due� to�
�the� residual� magnetism� (remnant� field)� of� the� core� material.� The�
�V� IOUT(Q)� –� V� IOUT� _–half-scale� amperes�
�?� ?�
�? gain = the gain variation as a function of temperature�
�changes� from� 25oC,�
�%� sat� =� the� percentage� of� saturation� of� the� flux� concentra-�
�tor,� which� becomes� significant� as� the� current� being� sampled�
�approaches� half-scale� ±I� P� ,� and�
�V� IOUT_half-scale� amperes� =� the� output� voltage� (V)� when� the�
�sampled� current� approximates� half-scale� ±I� P� .�
�Symmetry� (E� SYM� ).� The� degree� to� which� the� absolute� voltage�
�output� from� the� IC� varies� in� proportion� to� either� a� positive� or�
�negative� half-scale� primary� current.� The� following� equation� is�
�used� to� derive� symmetry:�
�V� IOUT� _+ half-scale amperes –� V� IOUT(Q� )�
�100�
�Ratiometry.� The� device� features� a� ratiometric� output.� This�
�means� that� the� quiescent� voltage� output,� V� IOUTQ� ,� and� the� mag-�
�netic� sensitivity,� Sens,� are� proportional� to� the� supply� voltage,� V� CC� .�
�magnetic� offset� error� is� highest� when� the� magnetic� circuit� has�
�been� saturated,� usually� when� the� device� has� been� subjected� to� a�
�full-scale� or� high-current� overload� condition.� The� magnetic� offset�
�is� largely� dependent� on� the� material� used� as� a� flux� concentrator.�
�The� larger� magnetic� offsets� are� observed� at� the� lower� operating�
�temperatures.�
�Total� Output� Error� (E� TOT� ).� The� maximum� deviation� of� the�
�actual� output� from� its� ideal� value,� also� referred� to� as� accuracy� ,�
�illustrated� graphically� in� the� output� voltage� versus� current� chart�
�on� the� following� page.�
�E� TOT� is� divided� into� four� areas:�
�??� 0� A� at� 25°C.� Accuracy� at� the� zero� current� flow� at� 25°C,� with-�
�out� the� effects� of� temperature.�
�??� 0� A� over� Δ� temperature.� Accuracy� at� the� zero� current� flow�
�including� temperature� effects.�
�??� Half-scale� current� at� 25°C.� Accuracy� at� the� the� half-scale� current�
�at� 25°C,� without� the� effects� of� temperature.�
�??� Half-scale� current� over� Δ� temperature.� Accuracy� at� the� half-�
�scale� current� flow� including� temperature� effects.�
�Allegro� MicroSystems,� LLC�
�115� Northeast� Cutoff�
�Worcester,� Massachusetts� 01615-0036� U.S.A.�
�1.508.853.5000;� www.allegromicro.com�
�14�
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| ACS759KCB-150B-PSS-T | 制造商:ALLEGRO 制造商全称:Allegro MicroSystems 功能描述:The Allegro ACS759 family of current sensor ICs provides economical and precise solutions for AC or DC current sensing. |
| ACS759LCB-050B-PFF-T | 功能描述:SENSOR CURRENT RoHS:是 类别:传感器,转换器 >> 电流 系列:- 标准包装:10 系列:* |
| ACS759LCB-100B-PFF-T | 功能描述:SENSOR CURRENT RoHS:是 类别:传感器,转换器 >> 电流 系列:- 标准包装:10 系列:* |
| ACS759XCB | 制造商:ALLEGRO 制造商全称:Allegro MicroSystems 功能描述:The Allegro ACS759 family of current sensor ICs provides economical and precise solutions for AC or DC current sensing. |
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