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参数资料
| 型号: | LTC4099EUDC#PBF |
| 厂商: | Linear Technology |
| 文件页数: | 16/36页 |
| 文件大小: | 0K |
| 描述: | IC USB PWR MANAGER/CHRGR 20-QFN |
| 标准包装: | 91 |
| 系列: | PowerPath™ |
| 功能: | 电源管理 |
| 电池化学: | 锂离子(Li-Ion)、锂聚合物(Li-Pol) |
| 电源电压: | 4.35 V ~ 5.5 V |
| 工作温度: | -40°C ~ 85°C |
| 安装类型: | 表面贴装 |
| 封装/外壳: | 20-WFQFN 裸露焊盘 |
| 供应商设备封装: | 20-QFN(3x4) |
| 包装: | 管件 |
| 产品目录页面: | 1341 (CN2011-ZH PDF) |
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��
�
�LTC4099�
�OPERATION�
�H� TOTAL� =� H� BUCK� ?�
� �
�H� TOTAL� =� H� BUCK� ?�
�the battery to charge. If the input-referred load current �
�exceeds the input current limit at V� BUS� , V� OUT� will range �
�between the no-load voltage and slightly below the battery �
�voltage as indicated by the shaded region of Figure 2. If �
�there is no battery present when this happens, V� OUT� may �
�collapse to ground. In such cases the input-referred load �
�current should be maintained below the programmed input �
�current level in order to keep the V� OUT� and BAT voltages �
�within specified limits. �
�For � very � low � battery � voltages, � the � battery � charger � acts �
�like a load and, due to the input current limit circuit, its �
�current will tend to pull V� OUT� below the 3.6V instant-on �
�voltage. To prevent V� OUT� from falling below this level, an �
�undervoltage � circuit � automatically � detects � that � V� OUT� � is �
�falling and reduces the battery charge current as needed. �
�This reduction ensures that load current and voltage are �
�always prioritized while allowing as much battery charge �
�current � as � possible. � See � Overprogramming � the � Battery �
�Charger in the Applications Information section.�
�The voltage regulation loop compensation is controlled by �
�the capacitance on V� OUT� . An MLCC capacitor of 10μF is �
�required for loop stability. Additional capacitance beyond �
�this value will improve transient response.�
�An internal undervoltage lockout circuit monitors V� BUS� and �
�keeps the switching regulator off until V� BUS� rises above �
�the rising V� UVLO� threshold (4.3V). If V� BUS� falls below the �
�falling V� UVLO� threshold (4V), system power at V� OUT� will �
�be drawn from the battery via the ideal diodes. The volt-�
�age at V� BUS� must also be higher than the voltage at BAT �
�by � V� DUVLO� , � or � approximately � 200mV, � for � the � switching �
�regulator to operate.�
�Bat-Track� Auxiliary� High� Voltage� Switching� Regulator�
�Control�
�As � shown � in � the � Block � Diagram, � the � WALL, � ACPR� � and �
�V� C� pins can be used in conjunction with an external high �
�voltage Linear Technology step-down switching regula-�
�tor, � such � as � the � LT3480 � or � LT3653, � to � minimize � heat �
�production when operating from higher voltage sources. �
�Bat-Track control circuitry regulates the external switching �
�regulator’s output voltage to the larger of BAT + 300mV �
�or 3.6V in much the same way as the internal switching �
�regulator. This maximizes battery charger efficiency while �
�still � allowing � instant-on � operation � when � the � battery � is �
�deeply discharged.�
�The feedback network of the high voltage regulator should �
�be set to program an output voltage between 4.5V and �
�5.5V. When high voltage is applied to the external regulator, �
�WALL will rise toward this programmed output voltage. �
�When WALL exceeds approximately 4.3V, � ACPR� is brought �
�low, and the Bat-Track control of the LTC4099 overdrives �
�the local V� C� control of the external high voltage step-down �
�switching regulator. Once the Bat-Track control is enabled, �
�the output voltage is independent of the switching regula-�
�tor feedback network.�
�Bat-Track control provides a significant efficiency advantage �
�over the use of a simple 5V switching regulator output to �
�drive the battery charger. With a 5V output driving V� OUT� , �
�battery charger efficiency is approximately:�
�V� BAT�
�5V�
�where � H� BUCK� is the efficiency of the high voltage switching �
�regulator and 5V is the output voltage of the switching �
�regulator. With a typical switching regulator efficiency of �
�87% and a typical battery voltage of 3.8V, the total battery �
�charger efficiency is approximately 66%. Assuming a 1A �
�charge current, nearly 2W of power is dissipated just to �
�charge the battery!�
�With Bat-Track, battery charger efficiency is approximately:�
�V� BAT�
� � V� BAT� +� 0.3V�
�With the same assumptions as above, the total battery �
�charger � efficiency � is � approximately � 81%. � This � example �
�works out to less than 1W of power dissipation, or almost �
�60% less heat.�
�See the Typical Applications section for complete circuits �
�using the LT3480 and LT3653 with Bat-Track control.�
�Ideal� Diode� from� BAT� to� V� OUT�
�The LTC4099 has an internal ideal diode as well as a con-�
�troller for an external ideal diode. Both the internal and �
�the external ideal diodes are always on and will respond �
�quickly whenever V� OUT� drops below BAT.�
�4099fd�
� �
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