参数资料
| 型号: | CBC-EVAL-08 |
| 厂商: | Cymbet Corporation |
| 文件页数: | 6/11页 |
| 文件大小: | 0K |
| 描述: | ENERCHIP EH SEH EVAL KIT |
| 产品目录绘图: | CBC-EVAL-08 Module |
| 特色产品: | EnerChip? EH Solar Energy Harvesting Evaluation Kit |
| 标准包装: | 1 |
| 系列: | EnerChip™ EH |
| 主要目的: | 电源管理,可再生能源 |
| 嵌入式: | 否 |
| 已用 IC / 零件: | CBC5300 |
| 主要属性: | 薄膜充电式固态电池 |
| 次要属性: | 太阳能收集器 |
| 已供物品: | 板 |
| 相关产品: | 859-1009-6-ND - IC BATT SOLID ST ENERCHIP 16QFN 859-1009-1-ND - IC BATT SOLID ST ENERCHIP 16QFN 859-1009-2-ND - IC BATT SOLID ST ENERCHIP 16QFN 859-1005-5-ND - IC BATT SOLID ST ENERCHIP 16QFN |
| 其它名称: | 859-1002 |
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�EnerChip� Solar� Energy� Harvesting� Demo� Kit�
�Again,� Vmin� and� Vmax� are� functions� of� the� EnerChip� voltage� and� the� circuit� operating� specifications.� EnerChip�
�resistance� varies� according� to� temperature� and� state-of-charge� as� described� above.� Worst-case� conditions�
�are� often� applied� to� the� calculations� to� ensure� proper� system� operation� over� temperature� extremes,� EnerChip�
�condition,� capacitance� tolerance,� etc.�
�The� composite� resistance� of� the� 2-cell� parallel� EnerChip� arrangement� on� the� CBC-EVAL-08� board� ranges� from�
�375?� to� about� 1000?.� At� the� output� stage,� a� 1000μF,� low� resistance� capacitor� in� parallel� with� the� EnerChips�
�delivers� peak� power� to� the� external� circuit,� which� might� contain� a� microcontroller� and� radio,� for� example.� The�
�EnerChips� deliver� the� lower� level,� continuous� (average)� power� to� the� load.� EnerChip� electrical� resistance� is� fairly�
�constant� from� 100%� state-of-charge� to� about� 10%� state-of-charge;� its� internal� resistance� begins� to� increase�
�significantly� only� when� the� state-of-charge� is� reduced� below� approximately� 10%.�
�A� question� often� arises:� “How� many� radio� transmission� pulses� can� be� delivered� by� the� two� EnerChips� on� the�
�CBC5300?”� The� answer� depends� on� a� number� of� factors� including� the� pulse� current� amplitude,� pulse� duration,�
�operating� temperature,� etc.� The� question� will� be� addressed� by� way� of� example.�
�To� extend� the� life� of� the� EnerChips,� assume� the� EnerChips� will� be� cutoff� from� the� load� when� a� 50%� state-of-�
�charge� has� been� reached.� (See� the� section� titled� Protection� of� EnerChip� Storage� Devices� for� a� description� of�
�how� this� is� accomplished.)� With� 100μAh� of� combined� capacity� in� the� two� EnerChips,� a� 50%� state-of-charge� is�
�simply� 50μAh.� Further,� suppose� each� radio� transmission� uses� 30mA� for� 20ms.� The� charge� per� pulse� is:�
�30mA� *� 20ms� =� 600μA-seconds� =� 0.167μAh.�
�That� amount� of� charge� is� transferred� from� the� EnerChips� into� the� output� capacitor,� which� then� delivers� the�
�charge� to� the� load� at� the� rate� demanded� by� the� radio.� On� the� CBC-EVAL-08,� there� is� a� series� diode� between� the�
�output� capacitor� and� the� output� pin� (V� OUT2� ),� resulting� in� a� diode� voltage� drop� that� must� be� taken� into� account.�
�In� that� scenario,� 50%� of� the� 100μAh� allows� 50μAh� /� 0.167μAh� =� 300� transmissions� to� be� made� if� no� ambient�
�power� is� available� (i.e.,� when� CHARGE� is� high).� In� this� example,� the� background� (sleep)� current� that� is� drawn�
�between� transmissions� has� been� neglected.� Use� actual� power� consumption� numbers� to� arrive� at� the� number�
�of� transmissions� available� in� any� given� application.� The� MCU� can� be� programmed� to� utilize� this� information� to�
�conserve� power� and� maximize� the� service� life� of� the� EnerChips,� as� described� in� the� following� sections.�
�Protection� of� EnerChip� Storage� Devices�
�The� CBC5300� energy� harvester� module� contains� a� low� voltage� cutoff� circuit� that� prevents� the� EnerChips� from�
�being� completely� discharged� -� a� condition� that� would� permanently� damage� the� storage� device.� The� cutoff�
�circuit� places� a� parasitic� 800nA� load� on� the� EnerChips� -� 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-08,� forcing� the� CBC-EVAL-08� circuit� into� a� cutoff� mode� and� thereby� disconnecting� the� EnerChips�
�from� the� circuit.� Drawing� a� brief� burst� of� a� few� milli-Amperes� from� the� CBC-EVAL-08� 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.�
�DS-72-08� Rev18�
�?2009� Cymbet� Corporation� ?� Tel:� +1-763-633-1780� ?� www.cymbet.com�
�Page� 6� of� 11�
�相关PDF资料 |
PDF描述 |
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| CBC-EVAL-11 | INDUCTIVE CHARGING EVAL KIT |
| CBJ157 | TRS JACK STR PCB SLD POT 3-LUG |
| CBJ70 | TRB JACK STR PCB 3-LUG |
| CBJR12 | MINI-WECO PATCH JACK 75OHM R/A |
相关代理商/技术参数 |
参数描述 |
|---|---|
| CBC-EVAL-08_10 | 制造商:CYMBET 制造商全称:CYMBET 功能描述:EnerChipa?¢ EH Solar Energy Harvester Evaluation Kit |
| CBC-EVAL-09 | 功能描述:电源管理IC开发工具 EnerChip EP Universal 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-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 |
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