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| 型号: | LT1306ES8#TRPBF |
| 厂商: | Linear Technology |
| 文件页数: | 10/16页 |
| 文件大小: | 0K |
| 描述: | IC REG BOOST 5V 1A 8SOIC |
| 标准包装: | 2,500 |
| 类型: | 升压(升压) |
| 输出类型: | 固定 |
| 输出数: | 1 |
| 输出电压: | 5V |
| 输入电压: | 1.8 V ~ 7 V |
| PWM 型: | 电流模式,混合 |
| 频率 - 开关: | 310kHz |
| 电流 - 输出: | 1A |
| 同步整流器: | 无 |
| 工作温度: | -40°C ~ 85°C |
| 安装类型: | 表面贴装 |
| 封装/外壳: | 8-SOIC(0.154",3.90mm 宽) |
| 包装: | 带卷 (TR) |
| 供应商设备封装: | 8-SOIC |
��
�
�LT1306�
�APPLICATIO� N� S� I� N� FOR� M� ATIO� N�
�Since� a� boost� converter� produces� high� output� current�
�ripple,� one� also� needs� to� consider� the� maximum� ripple�
�current� rating� of� the� output� capacitor.� Capacitor� reliability�
�will� be� affected� if� the� ripple� current� exceeds� the� maximum�
�allowable� ratings.� This� maximum� rating� is� usually�
�specified� as� the� RMS� ripple� current.� In� the� LT1306� the�
�RMS� output� capacitor� ripple� current� is:�
�V� O� – V� IN�
�I� O�
�V� IN�
�For� 2-cell� to� 5V� applications,� 220� μ� F� low� ESR� solid� tanta-�
�lum� capacitors� (AVX� TPS� series� or� Sprague� 593D� series)�
�work� well.� To� reduce� output� voltage� ripple� due� to� heavy�
�load� transients� or� Burst� Mode� operation,� higher� capaci-�
�tance� may� be� used.� For� through-hole� applications,� Sanyo�
�OS-CON� capacitors� are� also� good� choices.�
�In� a� boost� regulator,� the� input� capacitor� ripple� current� is�
�much� lower.� Maximum� ripple� current� rating� and� input�
�voltage� ripples� are� not� usually� of� concern.� A� 22� μ� F� tantalum�
�capacitor� soldered� near� the� input� pin� is� generally� an�
�adequate� bypass.�
�Bootstrap� Supply�
�Diode� D1� and� capacitor� C1� generate� a� pulsating� supply�
�voltage,� V� CAP� ,� which� is� higher� than� the� output.� The� rectifier�
�drive� circuit� runs� off� this� supply.� During� rectifier� on-time,�
�the� rectifier� base� current� drains� C1.� Q2� base� current� and�
�the� maximum� allowable� V� CAP� ripple� voltage� determine� the�
�size� of� C1.� A� 1� μ� F� capacitor� is� sufficient� to� keep� V� CAP� ripple�
�below� 0.3V.� For� a� 2-cell� input� (V� IN� >� 1.8V)� over� an� extended�
�temperature� range,� a� BAT54� Schottky� diode� may� be� used�
�for� D1.� The� use� of� a� Schottky� diode� increases� the� bootstrap�
�switch� and� can� cause� the� current� limit� comparator� to� trip�
�erratically.� For� boost� applications� where� V� IN� is� a� few� tenths�
�of� a� volt� below� V� O� ,� a� 1� μ� F� or� 2.2� μ� F� tantalum� capacitor� (such�
�as� AVX� TAJ� series)� can� be� used� for� C1.� The� ESR� of� the�
�tantalum� capacitor� limits� the� charging� current.� A� low� value�
�resistor� (2� ?� to� 5� ?� )� can� also� be� added� in� series� with� C1� for�
�further� limiting� the� charging� current� although� this� tends� to�
�lower� the� converter� efficiency� slightly.�
�Frequency� Compensation�
�Current� mode� switching� regulators� have� two� feedback�
�loops.� The� inner� current� feedback� loop� controls� the�
�inductor� current� in� response� to� the� outer� loop.� The� outer�
�or� overall� feedback� loop� tightly� regulates� the� output�
�voltage.� The� high� frequency� gain� asymptote� of� the� inner�
�current� loop� rolls� off� at� –� 20dB/decade� and� crosses� the�
�unity� gain� axis� at� a� frequency� ω� c� between� 1/6� to� 2/3� of� the�
�switching� frequency.� The� current� loop� is� stable� and� is�
�wideband� compared� to� the� overall� voltage� feedback� loop.�
�The� low� frequency� current� loop� gain� is� not� high� (usually�
�between� unity� and� 10)� but� it� increases� the� low� frequency�
�impedance� of� the� inductor� as� seen� by� the� output� filter�
�capacitor.� (In� a� boost� regulator,� the� inductor� is� con-�
�nected� to� the� output� during� the� switch� off-time.)� Current�
�mode� control� introduces� an� effective� series� resistance�
�(>>� DCR)� to� the� inductor� that� damps� the� LC� tank� re-�
�sponse.� The� complex� high-Q� poles� of� the� LC� filter� are� now�
�separated,� resulting� in� a� dominant� pole� determined� by�
�the� filter� capacitance� and� the� load� resistance� and� a�
�second� high� frequency� pole.�
�For� a� boost� regulator� the� control� to� output� transfer� func-�
�tion� can� be� shown� to� have� a� dominant� pole� at� the� load�
�corner� frequency�
�?� (� C� )�
�?� R� L� ?�
�?� 2� ?� O�
�voltageandtheoperatingheadroomfortherectifierdriver,�
�X5.� Diodes� like� a� 1N4148� or� 1N914� work� well� for� 2-cell�
�inputs� over� the� 0� °� C� to� 70� °� C� commercial� temperature�
�range.�
�ω� P� =�
�?�
�1�
�The� charge� drawn� from� C1� during� the� rectifier� on-time� has�
�to� be� replenished� during� the� switch� on-interval.� As� duty�
�and� a� moving� right-half� plane� (RHP)� zero� with� a� minimum�
�value� of�
�R� (� 1� –� D�
�ω� Z� =� L� MAX�
�)�
�cycledecreases,theamplitudeoftheC1chargingcurrent�
�can� increase� dramatically� especially� when� delivering� high�
�power� to� the� load.� This� charging� current� flows� through� the�
�10�
�L�
�2�
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