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| 型号: | LTC1325CN#PBF |
| 厂商: | Linear Technology |
| 文件页数: | 19/24页 |
| 文件大小: | 0K |
| 描述: | IC BATTERY MANAGMNT SYSTEM 18DIP |
| 标准包装: | 20 |
| 功能: | 充电管理 |
| 电池化学: | 铅酸,锂离子,镍镉,镍氢 |
| 电源电压: | 4.5 V ~ 16 V |
| 工作温度: | 0°C ~ 70°C |
| 安装类型: | 通孔 |
| 封装/外壳: | 18-DIP(0.300",7.62mm) |
| 供应商设备封装: | 18-DIP |
| 包装: | 管件 |
��
�
�LTC1325�
�APPLICATIO� N� S� I� N� FOR� M� ATIO� N�
�where,�
�I� F� =� forward� diode� current,�
�I� F� ′� =� forward� diode� current� just� prior� to� turn� off,�
�d.� Thermistor� Divider� Temperature� Curve�
�Typical� temperature� limits� for� both� NiCd� and� NiMH�
�batteries� are� shown� below.�
�V� F� =� forward� drop,�
�BATTERY�
�DISCHARGE� TEMP�
�RANGE� (� °� C)�
�CHARGE� TEMP�
�RANGE� (� °� C)�
�V� R� =� reverse� diode� voltage� (approximately� equal� to� V� DD� ),�
�f� =� PWM� frequency� (111kHz),� and�
�t� RR� =� reverse� recovery� time�
�The� power� and� maximum� reverse� voltage� ratings� of� the�
�TYPE�
�Standard�
�Quick�
�Fast� or� Rapid�
�Trickle�
�MIN�
�–� 20�
�–� 20�
�–� 20�
�–� 20�
�MAX�
�45� to� 50�
�45� to� 50�
�45� to� 50�
�45� to� 50�
�MIN�
�0�
�10�
�15�
�0�
�MAX�
�45� to� 50�
�45� to� 50�
�45� to� 50�
�45� to� 50�
�diode� should� be� greater� than� P� dD1� and� V� DD� respectively.�
�The� catch� diode� should� also� have� fast� turn-on� times� to�
�reduce� the� voltage� glitch� at� its� cathode� when� turning� on.�
�Schottky� diodes� have� fast� switching� times� and� low�
�forward� drops� and� are� recommended� for� D1.�
�5.� Trickle� Resistor� R� TRK� :� R� TRK� sets� the� desired� trickle�
�current� in� the� battery� to� compensate� for� self-dis-�
�charge� which� is� in� the� order� 1%� and� 2%� of� capacity� per�
�day� for� NiCd� and� NiMH� batteries� respectively.� Trickle�
�charge� rates� are� typically� in� the� C/30� to� C/50� range,�
�where� C� is� battery� capacity.�
�I� TRK� =� (V� DD� –� V� BAT� )/R� TRK�
�where� V� BAT� is� the� voltage� of� a� full� charged� battery.�
�Note� that� I� TRK� varies� as� the� battery� is� being� charged.�
�6.� Thermistor� R� T� and� Load� R� L� :� The� total� resistance� of� the�
�thermistor� network� should� be� greater� than� 30k� at� the�
�high� temperature� extreme� to� minimize� effects� of� load�
�regulation� (see� REG� pin� loading).�
�7.� Fault� Setting� Resistors� R1,� R2,� R3� and� R4:� The� voltage�
�levels� at� the� LTF,� HTF� and� MCV� pins� are� tapped� from�
�a� resistor� divider� powered� by� the� REG� pin.� The� voltage�
�levels� are� selected� taking� into� account:�
�a.� Manufacturer� Recommended� Temperature� and�
�Voltage� limits,�
�b.� Loading� on� the� REG� Pin� (<� 2mA)�
�c.� Input� Voltage� Ranges� of� the� LTF,� HTF� and� MCV�
�Comparators:�
�1.6V� <� V� LTF� ,� V� MCV� <� 2.8V� and� 0.5V� <� V� HTF� <� 1.3V�
�Note� that� the� discharge� limits� are� wider� than� the�
�charge� limits.� To� prolong� battery� life,� manufacturers�
�generally� recommend� discharge� temperatures� that�
�are� similar� to� the� charge� limits.� For� this� reason,� the�
�LTC1325� recognizes� the� same� LTF� and� HTF� limits� in�
�both� charge� and� discharge� modes.� MCV� should� be� set�
�just� above� the� charging� voltage� per� cell� given� in�
�battery� specifications.� The� voltage� at� the� LTF� and� HTF�
�pins� should� be� set� to� correspond� to� narrowest� tem-�
�perature� range.� These� are� typically� 15� °� C� and� 45� °� C.�
�The� corresponding� voltages� may� be� read� from� the�
�thermistor� divider� temperature� curve� such� as� that�
�shown� in� Figure� 5.� For� this� thermistor,� it� works� out� to�
�be� about� for� 2.12V� for� LTF� and� for� 1.13V� for� HTF.� The�
�MCV� may� be� conveniently� tied� to� LTF� since� MCV� is�
�typically� 2V.� If� desired,� external� analog� switches� under�
�microprocessor� control� may� be� used� to� vary� the� LTF,�
�HTF� and� MCV� voltages� between� modes� or� for� different�
�charge� rates.� The� values� of� R1,� R2,� R3� and� R4� in� Figure�
�3� can� be� calculated� from� the� following� equations:�
�R4� =� V� HTF� (RE/V� REG� )�
�R3� =� V� MCV� (RE� –� R4)�
�R2� =� V� LTF� (RE)� –� (R3� +� R4)�
�R1� =� RE� –� (R2� +� R3� +� R4)�
�where� RE� =� R1� +� R2� +� R3� +� R4� is� chosen� to� minimize�
�loading� on� the� REG� pin.� A� minimum� value� of� 30k� is�
�recommended.� Note� that� V� LTF� is� assumed� to� be� greater�
�than� V� MCV� .� If� this� is� not� the� case,� V� LTF� and� V� MCV� in� the�
�above� equations� should� be� swapped.� If� the� MCV� and�
�LTF� pins� are� shorted� to� the� same� point,� R2� should� be�
�set� to� 0.�
�19�
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