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参数资料
| 型号: | LTC1559CS8-3.3#PBF |
| 厂商: | Linear Technology |
| 文件页数: | 10/20页 |
| 文件大小: | 0K |
| 描述: | IC BACKUP BATT CNTRLR 3.3V 8SOIC |
| 标准包装: | 100 |
| 功能: | 备份管理 |
| 电池化学: | 镍镉 |
| 电源电压: | 2.9 V ~ 3.5 V |
| 工作温度: | 0°C ~ 70°C |
| 安装类型: | 表面贴装 |
| 封装/外壳: | 8-SOIC(0.154",3.90mm 宽) |
| 供应商设备封装: | 8-SOIC |
| 包装: | 管件 |
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�
�LTC1559-3.3/LTC1559-5�
�APPLICATIO� N� S� I� N� FOR� M� ATIO� N�
�If� V� CC� is� still� less� than� V� CC� (rated� value)� –� 7%� (LTC1559-�
�3.3)� after� the� first� boost� cycle,� the� LTC1559� immediately�
�reconnects� SW� to� ground,� repeating� the� boost� cycle.� If�
�after� two� consecutive� pulses,� V� CC� is� still� not� above� the�
�boost� threshold� V� CC� (rated� value)� –� 7%� (LTC1559-3.3),�
�the� LTC1559� decides� that� the� load� is� not� so� light� after� all,�
�and� doubles� the� internal� inductor� charging� current� limit� to�
�330mA� for� subsequent� cycles.� This� is� high� current� mode.�
�By� doubling� the� peak� inductor� current,� each� boost� cycle�
�effectively� carries� four� times� more� energy� compared� to�
�low� current� mode� (E� =� 1/2� ?� LI� 2� ),� doubling� the� available�
�output� power.� When� V� CC� exceeds� the� V� CC� (rated� value)�
�–� 7%� (LTC1559-3.3)� boost� threshold,� the� LTC1559� stops�
�the� boost� converter� and� resets� the� internal� 2-pulse� counter.�
�The� next� time� V� CC� falls� below� V� CC� (rated� value)� –� 7%�
�(LTC1559-3.3),� the� boost� converter� restarts� in� low� current�
�mode� for� at� least� two� boost� cycles.� Moderate� or� changing�
�loads� cause� the� LTC1559� to� shift� between� the� two� peak�
�inductor� current� limits,� keeping� the� output� in� tight� regula-�
�tion.� Near� its� maximum� load� capability,� the� LTC1559� will�
�stay� in� 330mA� high� current� mode� and� the� output� voltage�
�V� BAK� will� hover� around� V� CC� (rated� value)� –� 7%�
�(LTC1559-3.3).�
�V� CC� Capacitor� ESR�
�The� type� of� output� capacitor� and� the� rated� V� CC� value� will�
�affect� the� LTC1559’s� output� ripple� and� efficiency.� In� most�
�applications,� the� V� CC� capacitor� is� primarily� determined� by�
�the� requirements� of� the� main� power� supply.� Such� a�
�capacitor� will� generally� meet� the� requirements� of� the�
�LTC1559.� In� unusual� circumstances� or� circuits� where�
�the� main� system� V� CC� capacitor� is� located� some� distance�
�away� from� the� LTC1559,� a� local� output� capacitor� may� be�
�necessary.�
�The� ripple� on� the� V� CC� pin� is� equal� to� the� capacitor� ESR�
�voltage� drop� due� to� the� boost� converter’s� output� current�
�pulses.� The� ripple� frequency� and� output� duty� cycle� is�
�proportional� to� the� inductor� discharge� time.� Given� a� fixed�
�inductor� value� (22� μ� H)� and� a� known� peak� current� limit,� the�
�booster’s� discharge� time� in� each� boost� cycle� is� propor-�
�tional� to� the� difference� between� V� BAK� (93%� of� the� rated� V� CC�
�for� the� LTC1559-3.3� and� 92.5%� of� the� rated� V� CC� for� the�
�LTC1559-5)� and� the� battery� cell� voltage,� V� BAT� (1.2V).�
�10�
�Assuming� ESR� =� 0.2� ?� ,� I� IND(PEAK)� =� 330mA,� V� CC� =� 5V,�
�V� RIPPLE(P-P)� =� (I� IND(PEAK)� )(R� ESR(CAP)� )�
�=� (330mA)(0.2� ?� )�
�=� 66mV�
�Since� V� CC� must� be� scaled� down� internally,� the� external�
�resistor� ratio:�
�=� 5V/1.272V�
�=� 3.931�
�Therefore� the� ripple� seen� by� the� V� CC� comparators� is:�
�=� 66mV/3.931�
�=� 16.79mV�
�The� discharge� time� period,�
�t� DISCH� =� (L� ?� I� IND(PEAK)� )/(V� BAK� –� V� BAT� )�
�=� (22� μ� H� ?� 330mA)/(4.625� –� 1.2V)�
�=� 2.12� μ� s�
�For� V� CC� =� 3.3V� and� I� IND(PEAK)� =� 330mA,�
�V� RIPPLE(P-P)� =� 66mV�
�RB� resistor� ratio� =� 3.3/1.272� =� 2.594�
�Ripple� voltage� =� 25.4mV�
�t� DISCH� =� 3.9� μ� s�
�The� internal� V� CC� comparators� are� designed� to� have� a� slow�
�response� time� to� filter� away� this� ripple.� The� V� CC� (rated�
�value)� –� 5.5%� (LTC1559-3.3)� and� V� CC� (rated� value)� –� 9%�
�comparators� have� a� 6� μ� s� rising� edge� delay� and� 2� μ� s� falling�
�edge� delay.� The� V� CC� (rated� value)� –� 7%� (LTC1559-3.3)�
�comparator� has� a� similar� 6� μ� s� rising� time� delay� but� a� much�
�longer� falling� time� delay� of� 20� μ� s.� This� enables� the� com-�
�parator� to� control� the� boost� converter� properly,� and� avoids�
�turning� off� the� boost� converter� prematurely� due� to� false�
�triggering� by� the� ESR� ripple.�
�Exit� from� Backup�
�When� a� main� battery� is� inserted� into� the� system,� the�
�LTC1559� follows� a� specific� sequence� to� exit� backup� mode�
�and� return� control� to� the� main� supply.� The� sequence�
�depends� on� the� type� of� main� power� supply� used.� In�
�systems� where� the� main� supply’s� output� impedance� is�
�相关PDF资料 |
PDF描述 |
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| HBM18DRXN | CONN EDGECARD 36POS DIP .156 SLD |
| LTC1559CS8-3.3 | IC BACKUP BATT CNTRLR 3.3V 8SOIC |
| M3CFK-5006J | IDC CABLE - MKC50K/MC50G/MCF50K |
| HCM18DRXH | CONN EDGECARD 36POS DIP .156 SLD |
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