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| 型号: | MCP1630RD-LIC2 |
| 厂商: | Microchip Technology |
| 文件页数: | 13/30页 |
| 文件大小: | 0K |
| 描述: | BOARD DEMO FOR MCP1630 LI-ION |
| 标准包装: | 1 |
| 主要目的: | 电源管理,电池充电器 |
| 嵌入式: | 是,MCU,8 位 |
| 已用 IC / 零件: | MCP1630 |
| 主要属性: | 3 芯镍氢/镍镉电池,1.35A 输出,6V ~ 14 V 输入 |
| 次要属性: | 预处理,电池温度和电池组故障监视 |
| 已供物品: | 板,CD |
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�Installation� and� Operation�
�2.6.1.2�
�APPLYING� BATTERY� TO� MCP1630V� BIDIRECTIONAL� 4� CELL� LI-ION�
�CHARGER� REFERENCE� DESIGN�
�A� four� cell� battery� pack� (with� internal� protection)� is� connected� to� the� J1� connector�
�before� applying� input� power� and� pressing� SW1� to� start� the� charge� cycle.� Once� the�
�battery� pack� is� connected,� SW1� can� be� pressed� to� start� the� synchronous� buck�
�converter� (assuming� there� is� no� 7.0V� input� applied� to� J2).� With� the� battery� pack�
�connected,� the� source� for� J2� can� be� “hot”� plugged� in� and� out,� a� voltage� will� always� be�
�present� on� J2� until� SW1� is� pressed� shutting� off� the� converter.�
�2.6.1.3�
�ALTERNATIVE� BATTERY� PACK� SIMULATOR�
�As� an� alternative� to� the� four� cell� Li-Ion� battery� pack,� a� battery� pack� simulation� circuit�
�can� be� used,� (� Figure� 2-3� ).� This� simulation� circuit� consists� of� an� adjustable� metal� wound�
�power� load� resistor� (10� Ω� ,� 100W),� Aluminum� Electrolytic� Capacitor� (3,300� μF� 25V)� and�
�Schottky� Diode� (10V,� 30V).� For� evaluating� the� bidirectional� converter� design,� the� bat-�
�tery� simulator� circuit� is� recommended.� When� using� the� battery� pack� simulator,� the�
�operating� point� for� charging� and� discharging� can� be� easily� be� adjusted� using� the� V� BATT�
�power� supply� and� load� resistor� value.�
�2.6.1.4�
�LED� STATUS� INDICATION�
�Two� LED’s� are� connected� to� the� I/O� of� the� PIC16F88� to� provide� status� of� the� charger.�
�LED� D3� provides� indication� that� the� converter� is� running� while� LED� D5� flashing�
�provides� indication� that� the� converter� is� charging.� With� a� 6.5V� to� 7.0V� source� applied�
�to� J2� while� the� converter� is� running,� a� charge� cycle� is� initiated.� Once� the� charge� cycle�
�is� complete,� the� charger� will� continue� to� operate� providing� 0� mA� of� current� to� the�
�battery.� If� the� source� is� removed� from� J2,� the� converter� will� regulate� the� V� BULK� voltage�
�to� 6.0V� with� a� load� up� to� 6A.�
�Evaluating� the� Application�
�The� best� way� to� evaluate� the� MCP1630V� Bidirectional� 4� Cell� Li-Ion� Charger� Reference�
�Design� is� to� operate� the� bidirectional� power� system� over� a� wide� range� using� the� battery�
�pack� simulator.� The� simulator� consists� of� a� 10� Ω� power� resistor,� diode� and� variable�
�voltage� source.� When� configured� as� shown� in� Figure� 2-3� ,� the� circuit� will� simulate� a�
�battery.� The� load� resistor� is� used� to� sink� current� from� the� charger� while� a� large� capacitor�
�is� used� to� simulate� the� battery� voltage� (V� SIM� ).� By� adjusting� the� V� SIM� voltage,� different�
�operating� points� in� the� charge� cycle� can� be� evaluated.�
�Once� evaluated� using� the� battery� pack� simulator,� the� bi-directional� reference� design�
�can� be� used� to� run� charge� and� discharge� cycles� using� a� four� cell� Li-ion� battery� pack.� If�
�using� an� actual� Li-ion� battery� pack,� it� must� have� the� proper� protection� features�
�including,� (overvoltage,� overcurrent,� overtemperature,� etc.).�
�?� 2006� Microchip� Technology� Inc.�
�DS51641A-page� 9�
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