参数资料
| 型号: | CBC-EVAL-09 |
| 厂商: | Cymbet Corporation |
| 文件页数: | 12/15页 |
| 文件大小: | 0K |
| 描述: | ENERCHIP EP ENERGY HARVEST EVAL |
| 产品培训模块: | Energy Processing and Solid State Batteries for Energy Harvesting |
| 标准包装: | 1 |
| 系列: | EnerChip™ |
| 主要目的: | 电源管理,能量收集 |
| 嵌入式: | 否 |
| 已用 IC / 零件: | CBC915-ACA,CBC51100 |
| 主要属性: | EM/RF,太阳能,热能,振动能量处理器 |
| 已供物品: | 板,电缆,CD,太阳能电池 |
| 其它名称: | 859-1013 |
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�CBC-EVAL-09� EnerChip� EP� Universal� EH� Eval� Kit�
�Pulse� Discharge� Current� for� a� Wireless� End� Device�
�Pulse� discharge� currents� place� special� demands� on� batteries.� Repeated� delivery� of� pulse� currents� exceeding�
�the� recommended� load� current� of� a� given� chemistry� will� diminish� the� useful� life� of� the� cell.� The� effects� can� be�
�severe,� depending� on� the� amplitude� of� the� current� and� the� particular� cell� chemistry� and� construction.� Pulse�
�currents� of� tens� of� milliAmperes� are� common� in� wireless� sensor� systems� during� transmit� and� receive� modes.�
�Moreover,� the� internal� impedance� of� the� cell� often� results� in� an� internal� voltage� drop� that� precludes� the� cell�
�from� delivering� the� pulse� current� at� the� voltage� necessary� to� operate� the� external� circuit.�
�This� important� issue� is� covered� in� Cymbet� Applications� note� AN-1025� available� on� cymbet.com.�
�Battery� Protection�
�The� EVAL-09� board� contains� a� low� battery� cutoff� circuit� that� prevents� the� EnerChips� on� the� CBC51100� module�
�from� being� completely� discharged� -� a� condition� that� would� permanently� damage� the� battery.� The� cutoff� circuit�
�places� a� parasitic� 400nA� load� on� the� battery� -� a� load� that� would� discharge� the� two� EnerChips� in� approximately�
�125� hours,� or� just� over� 5� days.� If� the� EnerChips� are� allowed� to� reach� the� cutoff� voltage� at� such� low� discharge�
�currents,� their� specified� cycle� life� will� be� reached� after� a� few� hundred� of� such� deep� discharge� cycles.� To�
�avoid� this� condition� and� extend� the� service� life� of� the� EnerChip,� it� is� advisable� to� program� the� MCU� to� count�
�transmission� cycles� or� elapsed� time� to� determine� when� the� EnerChips’� state-of-charge� is� approximately� 50%,�
�at� which� time� the� MCU� would� force� itself� or� another� system� circuit� element� to� briefly� draw� high� power� from� the�
�CBC-EVAL-09,� forcing� the� CBC-EVAL-09� circuit� into� a� cutoff� mode� and� thereby� disconnecting� the� EnerChips� from�
�the� circuit.� Drawing� a� brief� burst� of� a� few� milliamperes� from� the� CBC-EVAL-09� will� force� the� cutoff� condition�
�to� occur� within� a� few� seconds.� This� will� ensure� that� the� charge/discharge� cycle� life� of� the� EnerChips� will� be�
�greater� than� 5000,� as� rated.� To� calculate� the� number� of� hours� the� EnerChips� are� capable� of� supplying� energy�
�to� the� load,� add� the� cutoff� current� to� the� average� load� current� drawn� by� the� system� and� divide� the� sum� into�
�the� combined� 100μAh� capacity� of� the� two� EnerChips.� The� quotient� is� the� number� of� hours� until� the� EnerChip� is�
�totally� depleted.� Divide� that� number� in� half� to� reach� the� 50%� depth-of-discharge� time.�
�Guidelines� for� Attaching� Other� Energy� Harvesting� Transducers�
�Other� energy� harvesting� transducers� (e.g.,� inductive,� piezoelectric,� thermoelectric)� may� be� attached� to� the� CBC-�
�EVAL-09.� As� configured,� the� CBC-EVAL-09� will� operate� with� many� other� transducer� types.� However,� performance�
�specifications� of� these� other� transducers� -� namely� output� impedance� -� will� affect� the� power� conversion�
�efficiency� of� the� CBC-EVAL-09� kit� as� designed.� Please� contact� Cymbet� Applications� Engineering� at� the� phone�
�number� shown� below� to� discuss� your� specific� application� and� desired� alternate� transducer(s).�
�System� Level� Considerations� when� Using� a� Low� Power� Energy� Harvester�
�The� EVAL-09� is� capable� of� supplying� 10s� to� 100s� of� μW� of� continuous� power� to� the� load.� Most� applications�
�operating� with� radios� and� microcontrollers� typically� need� 10s� to� 100s� of� mW� of� power� under� peak� load�
�conditions.� The� disparity� between� what� is� available� and� what� is� needed� can� be� made� up� by� limiting� the�
�amount� of� time� the� load� is� powered� and� waiting� sufficient� time� for� the� energy� harvester� to� replenish� the� energy�
�storage� device� before� the� subsequent� operation� commences.� In� typical� remote� RF� sensor� applications,� the�
�‘on’� time� will� be� on� the� order� of� 5-20ms,� with� an� ‘off’� time� of� several� seconds� to� several� hours� depending� on�
�the� application� and� available� energy� source.� The� duty� cycle� is� an� important� consideration� when� designing� a�
�wireless� system.� While� it� is� relatively� straightforward� to� calculate� a� power� budget� and� design� a� system� to� work�
�within� the� constraints� of� the� power� and� energy� available,� it� is� easy� to� overlook� the� power� required� to� initialize�
�the� system� to� a� known� state� and� to� complete� the� radio� link� with� the� host� system� or� peer� nodes� in� a� mesh�
�network.� The� initialization� phase� can� sometimes� take� two� to� three� times� the� power� needed� for� steady� state�
�operation.�
�Ideally,� the� hardware� should� be� in� a� low� power� state� when� the� system� power-on� reset� is� in� its� active� state.� If�
�this� is� not� possible,� the� microcontroller� should� place� the� hardware� in� a� low� power� state� as� soon� as� possible.�
�After� this� is� done,� the� microcontroller� should� be� put� into� a� sleep� state� long� enough� for� the� energy� harvester�
�DS-72-13� Rev� G�
�?2013� Cymbet� Corporation� ?� Tel:� +1-763-633-1780� ?� www.cymbet.com�
�Page� 12� of� 15�
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相关代理商/技术参数 |
参数描述 |
|---|---|
| CBC-EVAL-09 - DSC | 功能描述:CBC915-ACA, CBC51100 EnerChip? Series Power Management, Energy Harvesting Evaluation Board 制造商:cymbet corporation 系列:EnerChip?? 零件状态:有效 主要用途:电源管理,能量收集 嵌入式:否 使用的 IC/零件:CBC915-ACA,CBC51100 主要属性:EM/RF,太阳能,热能,振动能量处理器 辅助属性:- 所含物品:板 标准包装:1 |
| CBC-EVAL-09_13 | 制造商:CYMBET 制造商全称:CYMBET 功能描述:EnerChip EP Universal Energy Harvester Eval Kit |
| CBC-EVAL-10 | 功能描述:电源管理IC开发工具 EnerChip CCEH EH Kit RoHS:否 制造商:Maxim Integrated 产品:Evaluation Kits 类型:Battery Management 工具用于评估:MAX17710GB 输入电压: 输出电压:1.8 V |
| CBC-EVAL-10 - DSC | 功能描述:CBC3150, CBC51100 EnerChip? CC Series Power Management, Renewable Energy Evaluation Board 制造商:cymbet corporation 系列:EnerChip?? CC 零件状态:有效 主要用途:电源管理,可再生能源 嵌入式:否 使用的 IC/零件:CBC3150,CBC51100 主要属性:薄膜充电式固态电池 辅助属性:太阳能收集器 所含物品:2 板,线缆 标准包装:1 |
| CBC-EVAL-10B | 制造商:Cymbet Corporation 功能描述:ENERCHIP CCEH EVAL KIT |
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