bq24075 锂电池 充电电路分析
bq24075 锂电池 充电电路分析
本文主要是分析bq24075锂电池充电芯片电路,知道其大致是怎么工作的,其中的一些电阻该如何配置。 2016-1-22 深圳 南山平山村 曾剑锋
一、参考文章:
1. NTC热敏电阻器 http://baike.baidu.com/link?url=gD9Ikiv4C21Nhx2WlJwX5_b5vPeMztc4SwwsY5R0Bw-9sHrQFx8CZJBuU9EgMNABz4zgLEKF_j-bsP1qu2QcBa 2. 103AT-2 http://www.mouser.cn/ProductDetail/Semitec/103AT-2/?qs=wgO0AD0o1vvcDzsKguD%252bew%3D%3D 3. bq24075输出问题 http://www.deyisupport.com/question_answer/analog/battery_management/f/35/t/77294.aspx 4. bq24075 http://wenku.baidu.com/link?url=rq7MvZFy49pOHZnRpCO43PXGmLM46ty99skxKXxDalLsVq9zZj92SAGzoPTs28T8ZRRgHDXKYBCVb27oFB5eqncJWAyo7sdFK0_wjDGamV3
二、电路典型接法:
三、引脚功能说明:
四、芯片内部结构:
五、实际原理图:
1. Program the Input Current Limit (ILIM) RILIM = KILIM / II_MAX KILIM = 1550 AΩ from the electrical characteristics table. RISET = 1550AΩ / 1.3A = 1.192 kΩ Select the closest standard value, which for this case is 1.18 kΩ. Connect this resistor between ILIM (pin 12) and VSS. 2. Program 6.25-hour Fast-Charge Safety Timer (TMR) RTMR = tMAXCHG / (10 × KTMR) KTMR = 48 s/kΩ from the electrical characteristics table. RTMR = (6.25 hr × 3600 s/hr) / (10 × 45 s/kΩ) = 46.8kΩ Select the closest standard value, which for this case is 46.4 kΩ. Connect this resistor between TMR (pin 2) and VSS. 3. TS Function Use a 10kΩ NTC thermistor in the battery pack (103AT-2). For applications that do not require the TS monitoring function, connect a 10kΩ resistor from TS to VSS to set the TS voltage at a valid level and maintain charging. 103AT-2热敏电阻图:
4. CHG and PGOOD LED Status: connect a 1.5kΩ resistor in series with a LED between OUT and CHG to indicate charging status. Connect a 1.5kΩ resistor in series with a LED between OUT and PGOOD to indicate when a valid input source isconnected. Processor Monitoring Status: connect a pullup resistor (on the order of 100 kΩ) between the processor’s power rail and CHG and PGOOD 5. System ON/OFF (SYSOFF) (bq24075 or bq24079 only) Connect SYSOFF high to disconnect the battery from the system load. Connect SYSOFF low for normal operation