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参数资料
| 型号: | MAX5069EVKIT |
| 厂商: | Maxim Integrated Products |
| 文件页数: | 15/19页 |
| 文件大小: | 0K |
| 描述: | EVAL KIT FOR MAX5069 |
| 标准包装: | 1 |
| 主要目的: | DC/DC,步降 |
| 输出及类型: | 1,隔离 |
| 输出电压: | 12V |
| 电流 - 输出: | 10A |
| 输入电压: | 36 ~ 72V |
| 稳压器拓扑结构: | 降压 |
| 频率 - 开关: | 500kHz |
| 板类型: | 完全填充 |
| 已供物品: | 板 |
| 已用 IC / 零件: | MAX5069 |
��
�
�High-Frequency,� Current-Mode� PWM� Controller�
�with� Accurate� Oscillator� and� Dual� FET� Drivers�
�C� FLTINT� ?� FLTINT� SH�
�V� OUT� =� ?� 1� +�
�?� x� V� REF�
�R� FLTINT� ?�
�165� � 10� ?� 6�
�� C�
�Note� that� cycle-by-cycle� current� limiting� is� provided� at�
�all� times� by� CS� with� a� threshold� of� 314mV� (typ).� The�
�fault-integration� circuit� forces� a� 60μA� current� onto�
�FLTINT� each� time� that� the� current-limit� comparator� is�
�tripped� (see� the� Functional� Diagram� ).� Use� the� following�
�formula� to� calculate� the� value� of� the� capacitor� neces-�
�sary� for� the� desired� shutdown� time� of� the� circuit:�
�I� x� t�
�2� .� 8� V�
�where� I� FLTINT� =� 60μA,� t� SH� is� the� desired� fault-integra-�
�tion� time� during� which� current-limit� events� from� the� cur-�
�rent-limit� comparator� are� ignored.� For� example,� a� 0.1μF�
�capacitor� gives� a� fault-integration� time� of� 4.7ms.�
�This� is� an� approximate� formula.� Some� testing� may� be�
�required� to� fine-tune� the� actual� value� of� the� capacitor.� To�
�calculate� the� recovery� time,� use� the� following� formula:�
�t� RT�
�0� .� 595� � C� FLTINT�
�where� t� RT� is� the� desired� recovery� time.�
�Choose� t� RT� =� 10� x� t� SH� .� Typical� values� for� t� SH� range� from�
�a� few� hundred� microseconds� to� a� few� milliseconds.�
�Soft-Start�
�The� MAX5069� soft-start� feature� allows� the� load� voltage�
�to� ramp� up� in� a� controlled� manner,� eliminating� output-�
�voltage� overshoot.� Soft-start� begins� after� UVLO� is�
�deasserted.� The� voltage� applied� to� the� noninverting�
�node� of� the� amplifier� ramps� from� 0� to� 1.23V� in� 2047�
�oscillator� clock� cycles� (soft-start� timeout� period).� Unlike�
�other� devices,� the� MAX5069� reference� voltage� to� the�
�internal� amplifier� is� soft-started.� This� method� results� in�
�superior� control� of� the� output� voltage� under� heavy-� and�
�light-load� conditions.�
�Internal� Regulators�
�Two� internal� linear� regulators� power� the� MAX5069� inter-�
�nal� and� external� control� circuits.� V� CC� powers� the� exter-�
�nal� N-channel� MOSFETs� and� is� internally� set� to�
�approximately� 9.5V.� The� REG5� 5V� regulator� has� a� 1mA�
�sourcing� capability� and� may� be� used� to� provide� power�
�Error� Amplifier�
�The� MAX5069� includes� an� internal� error� amplifier� that�
�can� regulate� the� output� voltage� in� the� case� of� a� noniso-�
�lated� power� supply� (� Figure� 1).� Calculate� the� output� volt-�
�age� using� the� following� equation:�
�?� R� 9� ?�
�?� R� 10� ?�
�where� V� REF� =� 1.23V.� The� amplifier’s� noninverting� input�
�internally� connects� to� a� digital� soft-start� reference� voltage.�
�This� forces� the� output� voltage� to� come� up� in� an� orderly�
�and� well-defined� manner� under� all� load� conditions.�
�Slope� Compensation�
�The� MAX5069� uses� an� internal-ramp� generator� for�
�slope� compensation.� The� internal-ramp� signal� resets� at�
�the� beginning� of� each� cycle� and� slews� at� the� rate� pro-�
�grammed� by� the� external� capacitor� connected� at�
�SCOMP� and� the� resistor� at� RT.� Adjust� the� MAX5069�
�slew� rate� up� to� 90mV/μs� using� the� following� equation:�
�SR� =� (� mV� /� μ� s� )�
�R� RT� SCOMP�
�where� R� RT� is� the� external� resistor� at� RT� that� sets� the� oscil-�
�lator� frequency� and� C� SCOMP� is� the� capacitor� at� SCOMP.�
�PWM� Comparator�
�The� PWM� comparator� uses� the� instantaneous� current,�
�the� error� amplifier,� and� the� slope� compensation� to�
�determine� when� to� switch� NDRVA� and� NDRVB� off.� In�
�normal� operation,� the� N-channel� MOSFETs� turns� off�
�when:�
�I� PRIMARY� x� R� CS� >� V� EA� –� V� OFFSET� -� V� SCOMP�
�where� I� PRIMARY� is� the� current� through� the� N-channel�
�MOSFETs,� V� EA� is� the� output� voltage� of� the� internal�
�amplifier,� V� OFFSET� is� the� 1.6V� internal� DC� offset,� and�
�V� SCOMP� is� the� ramp� function� starting� at� zero� and� slew-�
�ing� at� the� programmed� slew� rate� (SR).� When� using� the�
�MAX5069� in� a� forward-converter� configuration,� the� fol-�
�lowing� conditions� must� be� met� to� avoid� current-loop�
�subharmonic� oscillations:�
�to� external� circuitry.� Bypass� V� CC� and� REG5� with� 1μF�
�and� 0.1μF� high� quality� capacitors,� respectively.� Use�
�lower� value� ceramics� in� parallel� to� bypass� other�
�N� S�
�N� P�
��
�K� � R� CS� � V� OUT�
�L�
�=� SR�
�unwanted� noise� signals.� Bootstrapped� operation�
�requires� startup� through� a� bleed� resistor.� Do� not� exces-�
�sively� load� the� regulators� while� the� MAX5069� is� in� the�
�power-up� mode.� Overloading� the� outputs� may� cause�
�the� MAX5069� to� fail� upon� startup.�
�where� K� =� 0.75� and� N� S� and� N� P� are� the� number� of� turns�
�on� the� secondary� and� primary� side� of� the� transformer,�
�respectively.� L� is� the� secondary� filter� inductor.� When�
�optimally� compensated,� the� current� loop� responds� to�
�input-voltage� transients� within� one� cycle.�
�______________________________________________________________________________________�
�15�
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