“Microduino-BM”的版本间的差异
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− | [[File:Microduino- | + | [[File:Microduino-bm-rect.jpg|400px|thumb|right|Microduino-BM]] |
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===Efficiency of BM and Its Load Driven Capacity=== | ===Efficiency of BM and Its Load Driven Capacity=== | ||
100ma 5.05v output: | 100ma 5.05v output: | ||
− | + | {|class="wikitable" | |
+ | | align="center" style="background:#f0f0f0;"|'''Input voltage''' | ||
+ | | align="center" style="background:#f0f0f0;"|'''4.2''' | ||
+ | | align="center" style="background:#f0f0f0;"|'''4''' | ||
+ | | align="center" style="background:#f0f0f0;"|'''3.8''' | ||
+ | | align="center" style="background:#f0f0f0;"|'''3.6''' | ||
+ | | align="center" style="background:#f0f0f0;"|'''3.4''' | ||
+ | | align="center" style="background:#f0f0f0;"|'''3.2''' | ||
+ | | align="center" style="background:#f0f0f0;"|'''3''' | ||
+ | | align="center" style="background:#f0f0f0;"|'''2.8''' | ||
|- | |- | ||
− | | | + | | Input current||139||148||156||166||178||190||204||220 |
+ | |- | ||
+ | | Efficiency||86.50%||85.30%||85.20%||84.50%||83.40%||83.10%||82.50%||82.00% | ||
+ | |} | ||
+ | |||
300ma 5.05v output: | 300ma 5.05v output: | ||
− | + | {| class="wikitable" | |
+ | | align="center" style="background:#f0f0f0;"|'''Input voltage''' | ||
+ | | align="center" style="background:#f0f0f0;"|'''4.2''' | ||
+ | | align="center" style="background:#f0f0f0;"|'''4''' | ||
+ | | align="center" style="background:#f0f0f0;"|'''3.8''' | ||
+ | | align="center" style="background:#f0f0f0;"|'''3.6''' | ||
+ | | align="center" style="background:#f0f0f0;"|'''3.4''' | ||
+ | | align="center" style="background:#f0f0f0;"|'''3.2''' | ||
+ | | align="center" style="background:#f0f0f0;"|'''3''' | ||
+ | | align="center" style="background:#f0f0f0;"|'''2.8''' | ||
|- | |- | ||
− | | | + | | Input current||411||437||460||492||525||570||615||679 |
+ | |- | ||
+ | | Efficiency||87.80%||87.10%||86.90%||85.40%||84.70%||82.90%||81.50%||79.70% | ||
+ | |} | ||
500ma 5.05v output: | 500ma 5.05v output: | ||
− | + | {| class="wikitable" | |
+ | | align="center" style="background:#f0f0f0;"|'''Input voltage''' | ||
+ | | align="center" style="background:#f0f0f0;"|'''4.2''' | ||
+ | | align="center" style="background:#f0f0f0;"|'''4''' | ||
+ | | align="center" style="background:#f0f0f0;"|'''3.8''' | ||
+ | | align="center" style="background:#f0f0f0;"|'''3.6''' | ||
+ | | align="center" style="background:#f0f0f0;"|'''3.4''' | ||
+ | | align="center" style="background:#f0f0f0;"|'''3.2''' | ||
+ | | align="center" style="background:#f0f0f0;"|'''3''' | ||
+ | | align="center" style="background:#f0f0f0;"|'''2.8''' | ||
+ | |- | ||
+ | | Input current||706||746||800||863||938||1028||1157 | ||
|- | |- | ||
− | | | + | | Efficiency||85.20%||84.60%||83.10%||81.30%||79.20%||76.80%||72.70%|| |
+ | |} | ||
700ma 5.05v output: | 700ma 5.05v output: | ||
− | + | {| class="wikitable" | |
+ | | align="center" style="background:#f0f0f0;"|'''Input voltage''' | ||
+ | | align="center" style="background:#f0f0f0;"|'''4.2''' | ||
+ | | align="center" style="background:#f0f0f0;"|'''4''' | ||
+ | | align="center" style="background:#f0f0f0;"|'''3.8''' | ||
+ | | align="center" style="background:#f0f0f0;"|'''3.6''' | ||
+ | | align="center" style="background:#f0f0f0;"|'''3.4''' | ||
+ | | align="center" style="background:#f0f0f0;"|'''3.2''' | ||
+ | | align="center" style="background:#f0f0f0;"|'''3''' | ||
+ | | align="center" style="background:#f0f0f0;"|'''2.8''' | ||
+ | |- | ||
+ | | Input current||1025||1104||1189||1313||1510 | ||
|- | |- | ||
− | | | + | | Efficiency||82.10%||80.00%||78.20%||74.80%||68.90% |
+ | |} | ||
1A 5.05v output: | 1A 5.05v output: | ||
− | + | {| class="wikitable" | |
+ | | align="center" style="background:#f0f0f0;"|'''Input voltage''' | ||
+ | | align="center" style="background:#f0f0f0;"|'''4.2''' | ||
+ | | align="center" style="background:#f0f0f0;"|'''4''' | ||
+ | | align="center" style="background:#f0f0f0;"|'''3.8''' | ||
+ | | align="center" style="background:#f0f0f0;"|'''3.6''' | ||
+ | | align="center" style="background:#f0f0f0;"|'''3.4''' | ||
+ | | align="center" style="background:#f0f0f0;"|'''3.2''' | ||
+ | | align="center" style="background:#f0f0f0;"|'''3''' | ||
+ | | align="center" style="background:#f0f0f0;"|'''2.8''' | ||
|- | |- | ||
− | | | + | | Input current||1622||1842 |
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|- | |- | ||
− | | | + | | Efficiency||74.10%||68.50% |
+ | |} | ||
+ | |||
+ | [[file:Micrmodule-BM-Analysis.jpg|thumb|600px|center|image]] | ||
+ | |||
We can see from data above that BM’s 5v output shows excellent transfer efficiency no matter under low or high power output. The load driven capacity of that can reach 1A. The 3.3v transferring efficiency depends on the 1117 chip, which should be around 60% and the load driven capacity can reach up to 600ma. | We can see from data above that BM’s 5v output shows excellent transfer efficiency no matter under low or high power output. The load driven capacity of that can reach 1A. The 3.3v transferring efficiency depends on the 1117 chip, which should be around 60% and the load driven capacity can reach up to 600ma. | ||
===Temperature Rise of System Operation=== | ===Temperature Rise of System Operation=== | ||
Temperature rise under 5v output and 30 ℃ indoor: | Temperature rise under 5v output and 30 ℃ indoor: | ||
− | + | {| class="wikitable" | |
+ | | align="center" style="background:#f0f0f0;"| | ||
+ | | align="center" style="background:#f0f0f0;"|'''3-minute ''' | ||
+ | | align="center" style="background:#f0f0f0;"| | ||
+ | | align="center" style="background:#f0f0f0;"| | ||
+ | | align="center" style="background:#f0f0f0;"|'''5-minute ''' | ||
+ | | align="center" style="background:#f0f0f0;"| | ||
+ | | align="center" style="background:#f0f0f0;"| | ||
+ | | align="center" style="background:#f0f0f0;"|'''10-minute ''' | ||
|- | |- | ||
− | | | + | | Current||300||500||700||300||500||700||300||500||700 |
+ | |- | ||
+ | | Temperature||32||35.8||46||32.7||40||48||32.7||40||51 | ||
+ | |} | ||
Temperature rise under 3.3v output and 26 ℃ indoor: | Temperature rise under 3.3v output and 26 ℃ indoor: | ||
− | + | {| class="wikitable" | |
+ | | align="center" style="background:#f0f0f0;"| | ||
+ | | align="center" style="background:#f0f0f0;"|'''3-minute''' | ||
+ | | align="center" style="background:#f0f0f0;"| | ||
+ | | align="center" style="background:#f0f0f0;"| | ||
+ | | align="center" style="background:#f0f0f0;"|'''5-minute''' | ||
+ | | align="center" style="background:#f0f0f0;"| | ||
+ | | align="center" style="background:#f0f0f0;"| | ||
+ | | align="center" style="background:#f0f0f0;"|'''10-minute''' | ||
+ | |- | ||
+ | | Current||100||300||500||300||500||700||300||500||700 | ||
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− | | | + | | Temperature||27.5||32||40||28.5||35||44||28.5||38||49 |
+ | |} | ||
+ | |||
==Documents== | ==Documents== | ||
− | + | Eagle PCB '''[[File:Microduino-BM.zip]]'' | |
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==Applications== | ==Applications== | ||
− | + | *Lithium battery charge | |
− | + | *Lithium battery voltage boosting to power Microduino core modules | |
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==Pictures== | ==Pictures== | ||
− | [[file:Micrmodule- | + | [[file:Micrmodule-bm-t.jpg|thumb|600px|center|Micrmodule BM Front]] |
− | [[file:Micrmodule- | + | [[file:Micrmodule-bm-b.jpg|thumb|600px|center|Micrmodule BM Back]] |
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==FQA== | ==FQA== | ||
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==History== | ==History== |
2014年11月10日 (一) 09:45的最新版本
Language | English |
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Microduino-BM is a discharging module which combines a single-cell Li-ion battery charge management, power detection and LED indication. The output voltage is 5V, and LDO is 3.3V output, providing the outstanding battery management for the Microduino-Core module.
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目录Features
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SpecificationsInterface
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Charging
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Discharging
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Low-voltage Battery Protection
Low voltage indicator goes on under 3.60V and when the voltage keeps decreasing to 2.40V, the lithium battery protection circuit works. The indicator will go out when the battery is powered to 3.71V.
Short-circuit ProtectionWhen the output current reaches 1.2A, the lithium battery protection circuit starts and cuts off power supply. The circuit will be activated and get back to work only when you plug in MicroUSB to charge. Efficiency of BM and Its Load Driven Capacity100ma 5.05v output:
300ma 5.05v output:
500ma 5.05v output:
700ma 5.05v output:
1A 5.05v output:
We can see from data above that BM’s 5v output shows excellent transfer efficiency no matter under low or high power output. The load driven capacity of that can reach 1A. The 3.3v transferring efficiency depends on the 1117 chip, which should be around 60% and the load driven capacity can reach up to 600ma. Temperature Rise of System OperationTemperature rise under 5v output and 30 ℃ indoor:
Temperature rise under 3.3v output and 26 ℃ indoor:
DocumentsEagle PCB '文件:Microduino-BM.zip
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Development
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Applications
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FQAHistoryNovember 14, 2013 new release, major improvements:
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