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参数资料
| 型号: | ISL6744EVAL1 |
| 厂商: | Intersil |
| 文件页数: | 7/18页 |
| 文件大小: | 0K |
| 描述: | EVALUATION BOARD ISL6744 |
| 标准包装: | 1 |
| 主要目的: | DC/DC,步降 |
| 输出及类型: | 1,隔离 |
| 功率 - 输出: | 100W |
| 输出电压: | 12V |
| 电流 - 输出: | 8A |
| 输入电压: | 43.2 ~ 52.8V |
| 稳压器拓扑结构: | 降压 |
| 频率 - 开关: | 235kHz |
| 板类型: | 完全填充 |
| 已供物品: | 板 |
| 已用 IC / 零件: | ISL6744 |
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�ISL6744�
�Pin� Descriptions�
�V� DD� -� V� DD� is� the� power� connection� for� the� IC.� To� optimize�
�noise� immunity,� bypass� V� DD� to� GND� with� a� ceramic�
�capacitor� as� close� to� the� V� DD� and� GND� pins� as� possible.�
�The� total� supply� current,� I� DD� ,� will� be� dependent� on� the� load�
�applied� to� outputs� OUTA� and� OUTB.� Total� I� DD� current� is� the�
�sum� of� the� quiescent� current� and� the� average� output� current.�
�Knowing� the� operating� frequency,� Fsw,� and� the� output�
�loading� capacitance� charge,� Q,� per� output,� the� average�
�output� current� can� be� calculated� from:�
�Functional� Description�
�Features�
�The� ISL6744� PWM� is� an� excellent� choice� for� low� cost� bridge�
�topologies� for� applications� requiring� accurate� frequency� and�
�deadtime� control.� Among� its� many� features� are� 1A� FET�
�drivers,� adjustable� soft-start,� overcurrent� protection� and�
�internal� thermal� protection,� allowing� a� highly� flexible� design�
�with� minimal� external� components.�
�Oscillator�
�I� OUT� =� 2� ?� Q� ?� Fsw�
�(EQ.� 1)�
�The� ISL6744� has� an� oscillator� with� a� frequency� range� to�
�2MHz,� programmable� using� a� resistor� R� TD� and� capacitor� C� T� .�
�R� TD� -� This� is� the� oscillator� timing� capacitor� discharge� current�
�control� pin.� A� resistor� is� connected� between� this� pin� and�
�GND.� The� current� flowing� through� the� resistor� determines�
�the� magnitude� of� the� discharge� current.� The� discharge�
�current� is� nominally� 55x� this� current.� The� PWM� deadtime� is�
�The� switching� period� may� be� considered� to� be� the� sum� of�
�the� timing� capacitor� charge� and� discharge� durations.� The�
�charge� duration� is� determined� by� C� T� and� the� internal� current�
�source� (assumed� to� be� 160� μ� A� in� the� formula).� The� discharge�
�duration� is� determined� by� R� TD� and� C� T� .�
�T� C� ≈� 1.25� ×� 10� ?� C� T�
�determined� by� the� timing� capacitor� discharge� duration.�
�4�
�s�
�(EQ.� 2)�
�T� D� ≈� -----------------------------------------------------------------------------� ?� R� TD� ?� C� T�
�C� T� -� The� oscillator� timing� capacitor� is� connected� between�
�this� pin� and� GND.�
�1�
�CTDisch� arg� eCurrentGain�
�s�
�(EQ.� 3)�
�T� OSC� =� T� C� +� T� D� =� ----------------�
�CS� -� This� is� the� input� to� the� overcurrent� protection� comparator.�
�The� overcurrent� comparator� threshold� is� set� at� 0.600V� nominal.�
�The� CS� pin� is� shorted� to� GND� at� the� end� of� each� switching�
�1�
�F� OSC�
�s�
�(EQ.� 4)�
�capacitor� current� equation,� i� =� C� �
�.� In� this� case,� with�
�cycle.� Depending� on� the� current� sensing� source� impedance,� a�
�series� input� resistor� may� be� required� due� to� the� delay� between�
�the� internal� clock� and� the� external� power� switch.�
�Exceeding� the� overcurrent� threshold� will� start� a� delayed�
�shutdown� sequence.� Once� an� overcurrent� condition� is�
�detected,� the� soft-start� charge� current� source� is� disabled.�
�The� soft-start� capacitor� begins� discharging� through� a� 15μA�
�current� source,� and� if� it� discharges� to� less� than� 3.9V�
�(Sustained� Overcurrent� Threshold),� a� shutdown� condition�
�occurs� and� the� OUTA� and� OUTB� outputs� are� forced� low.�
�When� the� soft-start� voltage� reaches� 0.27V� (Reset�
�Threshold)� a� soft-start� cycle� begins.�
�If� the� overcurrent� condition� ceases,� and� then� an� additional�
�50μs� period� elapses� before� the� shutdown� threshold� is�
�reached,� no� shutdown� occurs.� The� SS� charging� current� is�
�re-enabled� and� the� soft-start� voltage� is� allowed� to� recover.�
�GND� -� Reference� and� power� ground� for� all� functions� on� this�
�device.� Due� to� high� peak� currents� and� high� frequency�
�operation,� a� low� impedance� layout� is� necessary.� Ground�
�planes� and� short� traces� are� highly� recommended.�
�OUTA� and� OUTB� -� Alternate� half� cycle� output� stages.� Each�
�output� is� capable� of� 1A� peak� currents� for� driving� power�
�MOSFETs� or� MOSFET� drivers.� Each� output� provides� very�
�low� impedance� to� overshoot� and� undershoot.�
�SS� -� Connect� the� soft-start� timing� capacitor� between� this� pin�
�where� T� C� and� T� D� are� the� approximate� charge� and� discharge�
�times,� respectively,� T� OSC� is� the� oscillator� free� running�
�period,� and� F� OSC� is� the� oscillator� frequency.� One� output�
�switching� cycle� requires� two� oscillator� cycles.� The� actual�
�times� will� be� slightly� longer� than� calculated� due� to� internal�
�propagation� delays� of� approximately� 5ns/transition.� This�
�delay� adds� directly� to� the� switching� duration,� and� also�
�causes� overshoot� of� the� timing� capacitor� peak� and� valley�
�voltage� thresholds,� effectively� increasing� the� peak-to-peak�
�voltage� on� the� timing� capacitor.� Additionally,� if� very� low�
�charge� and� discharge� currents� are� used,� there� will� be� an�
�increased� error� due� to� the� input� impedance� at� the� C� T� pin.�
�The� above� formulae� help� with� the� estimation� of� the�
�frequency.� Practically,� effects� like� stray� capacitances� that�
�affect� the� overall� C� T� capacitance,� variation� in� R� TD� voltage�
�and� charge� current� over� temperature,� etc.� exist,� and� are� best�
�evaluated� in-circuit.� Equation� 2� follows� from� the� basic�
�d� V�
�d� t�
�variation� in� dV� with� R� TD� (Figure� 5),� and� in� charge� current�
�(Figure� 4),� results� from� Equation� 2� would� differ� from� the�
�calculated� frequency.� The� typical� performance� curves� may�
�be� used� as� a� tool� along� with� the� above� equations� as� a� more�
�accurate� tool� to� estimate� the� operating� frequency� more�
�accurately.�
�The� maximum� duty� cycle,� D,� and� deadtime,� DT,� can� be�
�calculated� from:�
�and� GND� to� control� the� duration� of� soft-start.� The� value� of� the�
�capacitor� determines� the� rate� of� increase� of� the� duty� cycle�
�D� =� T� C� ?� T� OSC�
�(EQ.� 5)�
�during� start-up,� controls� the� overcurrent� shutdown� delay,� and�
�DT� =� (� 1� –� D� )� ?� T� OSC�
�s�
�(EQ.� 6)�
�the� overcurrent� and� short� circuit� hiccup� restart� period.�
�7�
�FN9147.8�
�September� 22,� 2005�
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