参数资料
| 型号: | AD8280WASTZ-RL |
| 厂商: | Analog Devices Inc |
| 文件页数: | 23/24页 |
| 文件大小: | 0K |
| 描述: | IC LI-ION BATT MON 48LQFP |
| 标准包装: | 2,000 |
| 功能: | 电池监控器 |
| 电池化学: | 锂离子(Li-Ion) |
| 电源电压: | 6 V ~ 30 V |
| 工作温度: | -40°C ~ 105°C |
| 安装类型: | 表面贴装 |
| 封装/外壳: | 48-LQFP |
| 供应商设备封装: | 48-LQFP(7x7) |
| 包装: | 带卷 (TR) |
| 配用: | AD8280-EVALZ-ND - BOARD EVAL FOR AD8280 |
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�
�AD8280�
�PROTECTION� COMPONENTS� AND� PULL-UP/�
�PULL-DOWN� RESISTORS�
�As� shown� in� Figure� 45,� several� devices� are� added� to� provide�
�Sample� Calculation�
�Following� is� a� sample� calculation� for� overvoltage� accuracy.� In�
�this� calculation,� the� following� conditions� are� assumed:�
�protection� in� a� high� voltage� environment.� Zener� Diode� Z1�
�ensures� that� the� six-cell� stack� voltage� does� not� significantly�
�exceed� the� maximum� 30� V� across� the� part.� It� is� recommended�
�that� a� 33� V� rated� Zener� diode� be� used� for� Z1.�
�?�
�?�
�?�
�Resistors� used� in� the� external� resistor� divider� to� set� the� trip�
�points� are� ±1%,� 100� ppm/°C� resistors.�
�Temperature� range� is� ?40°C� to� +85°C.�
�Desired� overvoltage� trip� point� is� 4.0� V� (resistor� values�
�The� user� can� also� use� diodes� in� the� daisy-chain� lines� (anode� to�
�cathode� from� higher� potential� to� lower� potential)� to� protect� the�
�parts� in� the� event� that� an� open� circuit� appears� on� the� battery�
�connections,� causing� a� high� reverse� voltage� across� the� AD8280�
�(these� diodes� are� not� shown� in� Figure� 45).� The� diodes� should�
�have� a� reverse� voltage� rating� comparable� to� the� highest� voltage�
�of� the� battery� system.�
�If� diodes� are� used� in� the� daisy� chain,� it� is� also� recommended� that�
�a� diode� be� used� between� the� top� cell� in� the� stack� (anode)� and�
�VTOP� (cathode)� of� the� top� part,� as� well� as� between� VBOTx�
�(anode)� of� each� part� and� VTOP� (cathode)� of� the� next� lowest�
�potential� part� in� the� daisy� chain.�
�Because� there� are� no� pull-up� or� pull-down� resistors� internal� to�
�the� part,� the� user� may� want� to� pull� down� the� TESTI� pin� of� the�
�bottom� part� through� a� 10� k� resistor� to� VBOTx� (part� ground).�
�The� addition� of� this� resistor� ensures� that� the� part� is� not� locked�
�in� self-test� mode� if� the� line� opens.� Also,� the� user� may� want� to� pull�
�up� the� ENBI� pin� on� the� bottom� part� of� a� daisy� chain� so� that� if� the�
�line� opens,� the� chain� stays� in� the� enabled� (powered� up)� mode.�
�EMI� CONSIDERATIONS�
�To� increase� immunity� to� electromagnetic� interference� (EMI),� use�
�the� following� components� and� layout� schemes� (see� Figure� 50).�
�?� Use� a� 22� pF� capacitor� on� each� of� the� daisy-chain� lines.�
�?� Route� the� daisy-chain� lines� on� an� inner� PCB� layer.�
�?� Use� ground� planes� (connected� to� VBOTx� from� the� higher�
�potential� part)� both� over� and� under� the� daisy-chain� lines� to�
�selected� should� be� 15� kΩ� and� 60� kΩ).�
�The� resulting� sources� of� error� are� described� in� this� section.�
�Maximum� Trip� Point� Error�
�The� maximum� trip� point� error� is� ±15� mV.�
�Maximum� Reference� Error�
�The� maximum� reference� error� is� as� follows:�
�(60/(60� +� 15))� ×� ±50� mV� =� ±40� mV�
�Maximum� Resistor� Tolerance� Error�
�The� maximum� resistor� tolerance� error� depends� on� the� values�
�of� the� resistors.� If� one� resistor� is� high� and� the� other� is� low,� the�
�worst-case� error� is� as� follows:�
�(60.6/(60.6� +� 14.85))� � 5.00� V� =� 4.016� V� (error� of� +16� mV)�
�(59.4/(59.4� +� 15.15))� � 5.00� V� =� 3.984� V� (error� of� ?16� mV)�
�In� this� sample� calculation,� the� maximum� resistor� tolerance�
�error� is� ±16� mV.�
�Maximum� Temperature� Coefficient� Error�
�If� one� resistor� drifts� high� and� the� other� resistor� drifts� low,� the�
�worst-case� error� is� as� follows:�
�60� kΩ� +� (100� ppm/°C� ×� (25°C� ?� (?40°C))� ×� 60� kΩ)� =� 60.39� kΩ�
�15� kΩ� ?� (100� ppm/°C� ×� (25°C� ?� (?40°C))� ×� 15� kΩ)� =� 14.9� kΩ�
�(60.39/(60.39� +� 14.90))� � 5.00� V� =� 4.010� V� (error� of� +10� mV)�
�or�
�?�
�?�
�?�
�?�
�shield� them.�
�Route� the� connections� from� VBOTx� to� VTOP� to� best�
�ensure� a� low� impedance� connection� between� them.�
��Use� 100� nF� capacitors� across� each� of� the� six-cell� battery� stacks.�
�Place� the� AD8280� parts� as� close� together� as� possible� on� the�
�60� kΩ� ?� (100� ppm/°C� ×� (25°C� ?� (?40°C))� ×� 60� kΩ)� =� 59.61� kΩ�
�15� kΩ� +� (100� ppm/°C� ×� (25°C� ?� (?40°C))� ×� 15� kΩ)� =� 15.1� kΩ�
�(59.61/(59.61� +� 15.10))� � 5.00� V� =� 3.990� V� (error� of� ?10� mV)�
�In� this� sample� calculation,� the� maximum� temperature� coefficient�
�error� is� ±10� mV.�
�board� to� minimize� the� length� of� the� daisy-chain� lines.�
�SYSTEM� ACCURACY� CALCULATION�
�When� calculating� system� accuracy,� there� are� four� error� sources�
�to� consider:�
�Total� System� Accuracy�
�The� system� accuracy,� or� the� sum� of� all� the� errors,� is� ±81� mV.� If�
�the� resistor� pair� coefficients� are� matched� so� that� drift� is� in� the�
�same� direction,� that� portion� of� the� error� can� be� ignored,� and� the�
�?�
�?�
�?�
�?�
�Trip� point� error� (see� Table� 1)�
�Reference� voltage� error� (see� Table� 1)�
�Resistor� tolerance�
�Resistor� temperature� coefficient�
�total� system� accuracy� would� be� ±71� mV.�
�Rev.� C� |� Page� 23� of� 24�
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