参数资料
| 型号: | LTC3402EMS#TR |
| 厂商: | Linear Technology |
| 文件页数: | 10/16页 |
| 文件大小: | 0K |
| 描述: | IC REG BOOST SYNC ADJ 2A 10MSOP |
| 标准包装: | 2,500 |
| 类型: | 升压(升压) |
| 输出类型: | 可调式 |
| 输出数: | 1 |
| 输出电压: | 2.6 V ~ 5.5 V |
| 输入电压: | 0.5 V ~ 5 V |
| PWM 型: | 电流模式,混合 |
| 频率 - 开关: | 2MHz |
| 电流 - 输出: | 2A |
| 同步整流器: | 是 |
| 工作温度: | -40°C ~ 85°C |
| 安装类型: | 表面贴装 |
| 封装/外壳: | 10-TFSOP,10-MSOP(0.118",3.00mm 宽) |
| 包装: | 带卷 (TR) |
| 供应商设备封装: | 10-MSOP |
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�
�LTC3402�
�APPLICATIO� S� I� FOR� ATIO�
�Input� Capacitor� Selection�
�The� input� filter� capacitor� reduces� peak� currents� drawn� from�
�the� input� source� and� reduces� input� switching� noise.� Since�
�the� IC� can� operate� at� voltages� below� 0.5V� once� the� output�
�applications� where� physical� size� is� the� main� criterion� then�
�running� the� converter� in� this� mode� is� acceptable.� In�
�applications� where� it� is� preferred� not� to� enter� this� mode,�
�then� the� maximum� operating� frequency� is� given� by:�
�is� regulated,� then� demand� on� the� input� capacitor� is� much�
�less� and� in� most� applications� a� 4.7� μ� F� is� recommended.�
�f� MAX� _� NOSKIP� =�
�V� OUT� –� V� IN�
�V� OUT� ?� t� ON� (� MIN� )�
�Hz�
�Output� Diode�
�For� applications� with� output� voltages� over� 4.3V,� a� Schottky�
�where� t� ON(MIN)� =� minimum� on� time� =� 120ns.�
�diode� is� required� to� ensure� that� the� SW� pin� voltage� does�
�not� exceed� its� absolute� maximum� rating.� The� Schottky�
�diode� across� the� synchronous� PMOS� switch� provides� a�
�lower� drop� during� the� break-before-make� time� (typically�
�20ns)� of� the� NMOS� to� PMOS� transition.� The� Schottky�
�diode� improves� peak� efficiency� (see� graph� “Efficiency�
�Loss� Without� Schottky� vs� Frequency).� Use� of� a� Schottky�
�diode� such� as� a� MBR0520L,� 1N5817� or� equivalent.� Since�
�slow� recovery� times� will� compromise� efficiency,� do� not�
�use� ordinary� rectifier� diodes.�
�100�
�90�
�80�
�70�
�60�
�50�
�40�
�30�
�20�
�10�
�0�
�Burst� Mode�
�OPERATION�
�300kHz�
�3MHz�
�1� MHz�
�0.1�
�1�
�10� 100�
�1000�
�Operating� Frequency� Selection�
�OUTPUT� CURRENT� (mA)�
�3402� G08�
�There� are� several� considerations� in� selecting� the� operating�
�frequency� of� the� converter.� The� first� is� determining� the�
�sensitive� frequency� bands� that� cannot� tolerate� any� spec-�
�tral� noise.� For� example,� in� products� incorporating� RF�
�communications,� the� 455kHz� IF� frequency� is� sensitive� to�
�any� noise,� therefore� switching� above� 600kHz� is� desired.�
�Some� communications� have� sensitivity� to� 1.1MHz.� In� this�
�case,� a� 2MHz� converter� frequency� may� be� employed.�
�The� second� consideration� is� the� physical� size� of� the�
�converter.� As� the� operating� frequency� goes� up,� the� induc-�
�tor� and� filter� caps� go� down� in� value� and� size.� The� trade� off�
�is� in� efficiency� since� the� switching� losses� due� to� gate�
�charge� are� going� up� proportional� with� frequency.� For�
�example� in� Figure� 2,� for� a� 2.4V� to� 3.3V� converter,� the�
�efficiency� at� 100mA� is� 5%� less� at� 2MHz� compared� to�
�300kHz.�
�Another� operating� frequency� consideration� is� whether� the�
�application� can� allow� “pulse� skipping.”� In� this� mode,� the�
�minimum� on� time� of� the� converter� cannot� support� the� duty�
�cycle,� so� the� converter� ripple� will� go� up� and� there� will� be�
�a� low� frequency� component� of� the� output� ripple.� In� many�
�Figure� 2.� Converter� Efficiency� 2.4V� to� 3.3V�
�Reducing� Output� Capacitance� with� a� Load� Feed�
�Forward� Signal�
�In� many� applications� the� output� filter� capacitance� can� be�
�reduced� for� the� desired� transient� response� by� having� the�
�device� commanding� the� change� in� load� current,� (i.e.�
�system� microcontroller),� inform� the� power� converter� of�
�the� changes� as� they� occur.� Specifically,� a� “load� feed�
�forward”� signal� coupled� into� the� V� C� pin� gives� the� inner�
�current� loop� a� head� start� in� providing� the� change� in� output�
�current.� The� transconductance� of� the� LTC3402� converter�
�at� the� V� C� pin� with� respect� to� the� inductor� current� is� typically�
�170mA/100mV,� so� the� amount� of� signal� injected� is� pro-�
�portional� to� the� anticipated� change� of� inductor� current�
�with� load.� The� outer� voltage� loop� performs� the� remainder�
�of� the� correction,� but� because� of� the� load� feed� forward�
�signal,� the� range� over� which� it� must� slew� is� greatly�
�reduced.� This� results� in� an� improved� transient� response.�
�A� logic� level� feed� forward� signal,� V� FF� ,� is� coupled� through�
�components� C5� and� R6.� The� amount� of� feed� forward�
�3402fb�
�10�
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