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参数资料
| 型号: | ISL6754DBEVAL1Z |
| 厂商: | Intersil |
| 文件页数: | 11/19页 |
| 文件大小: | 0K |
| 描述: | BOARD DEMO FOR ISL6754 |
| 标准包装: | 1 |
| 系列: | * |
��
�
�ISL6754�
�The� EA� available� on� the� ISL6754� may� also� be� used� as� the�
�voltage� EA� for� the� voltage� feedback� control� loop� rather� than�
�the� current� EA� as� described� above.� An� external� op-amp� may�
�be� used� as� either� the� current� or� voltage� EA� providing� the�
�circuit� is� not� allowed� to� source� current� into� VERR.� The�
�external� EA� must� only� sink� current,� which� may� be�
�accomplished� by� adding� a� diode� in� series� with� its� output.�
�The� 4x� gain� of� the� sample� and� hold� buffer� allows� a� range� of�
�150� -� 1000mV� peak� on� the� CS� signal,� depending� on� the�
�resistor� divider� placed� on� I� OUT� .� The� overall� bandwidth� of� the�
�average� current� loop� is� determined� by� the� integrating� current�
�EA� compensation� and� the� divider� on� I� OUT� .�
�1�
�20� VREF�
�CHANNEL� 1� (YELLOW):� OUTLL�
�CHANNEL� 3� (BLUE):� CS�
�CHANNEL� 2� (RED):� OUTLR�
�CHANNEL� 4� (GREEN):� IOUT�
�2� VERR�
�19� SS�
�FIGURE� 6.� DYNAMIC� BEHAVIOR� OF� CS� vs� I� OUT�
�3�
�4�
�ISL6754�
�18� VDD�
�17� OUTLL�
�The� average� current� signal� on� I� OUT� remains� accurate�
�provided� the� output� inductor� current� remains� continuous�
�C10�
�5�
�6�
�16� OUTLR�
�15� OUTUL�
�(CCM� operation).� Once� the� inductor� current� becomes�
�7� FB�
�-�
�14� OUTUR�
�discontinuous� (DCM� operation),� I� OUT� represents� 1/2� the�
�8�
�0.6V� +�
�13� N/C�
�peak� inductor� current� rather� than� the� average� current.� This�
�occurs� because� the� sample� and� hold� circuitry� is� active� only�
�during� the� on� time� of� the� switching� cycle.� It� is� unable� to�
�detect� when� the� inductor� current� reaches� zero� during� the� off�
�150� -� 1000� mV�
�R6�
�9� CS�
�10� IOUT�
�R5�
�S&H�
�4x�
�12� GND�
�11� GND�
�time.�
�If� average� overcurrent� limit� is� desired,� I� OUT� may� be� used�
�with� the� error� amplifier� of� the� ISL6754.� Typically� I� OUT� is�
�divided� down� and� filtered� as� required� to� achieve� the� desired�
�amplitude.� The� resulting� signal� is� input� to� the� current� error�
�amplifier� (IEA).� The� IEA� is� similar� to� the� voltage� EA� found� in�
�most� PWM� controllers,� except� it� cannot� source� current.�
�Instead,� VERR� has� a� separate� internal� 1mA� pull-up� current�
�R4�
�FIGURE� 7.� AVERAGE� OVERCURRENT� IMPLEMENTATION�
�The� current� EA� cross-over� frequency,� assuming� R6� >>�
�(R4||R5),� is:�
�f� CO� =� -----------------------------------�
�source.�
�Configure� the� IEA� as� an� integrating� (Type� I)� amplifier� using�
�1�
�2� π� ?� R6� ?� C10�
�Hz�
�(EQ.� 6)�
�the� internal� 0.6V� reference.� The� voltage� applied� at� FB� is�
�integrated� against� the� 0.6V� reference.� The� resulting� signal,�
�VERR,� is� applied� to� the� PWM� comparator� where� it� is�
�compared� to� the� sawtooth� voltage� on� RAMP.� If� FB� is� less�
�than� 0.6V,� the� IEA� will� be� open� loop� (can’t� source� current),�
�VERR� will� be� at� a� level� determined� by� the� voltage� loop,� and�
�the� duty� cycle� is� unaffected.� As� the� output� load� increases,�
�I� OUT� will� increase,� and� the� voltage� applied� to� FB� will�
�increase� until� it� reaches� 0.6V.� At� this� point� the� IEA� will�
�reduce� VERR� as� required� to� maintain� the� output� current� at�
�the� level� that� corresponds� to� the� 0.6V� reference.� When� the�
�output� current� again� drops� below� the� average� current� limit�
�threshold,� the� IEA� returns� to� an� open� loop� condition,� and� the�
�duty� cycle� is� again� controlled� by� the� voltage� loop.�
�The� average� current� control� loop� behaves� much� the� same�
�as� the� voltage� control� loop� found� in� typical� power� supplies�
�except� it� regulates� current� rather� than� voltage.�
�11�
�where� f� CO� is� the� cross-over� frequency.� A� capacitor� in� parallel�
�with� R4� may� be� used� to� provide� a� double-pole� roll-off.�
�The� average� current� loop� bandwidth� is� normally� set� to� be�
�much� less� than� the� switching� frequency,� typically� less� than�
�5kHz� and� often� as� slow� as� a� few� hundred� hertz� or� less.� This�
�is� especially� useful� if� the� application� experiences� large�
�surges.� The� average� current� loop� can� be� set� to� the� steady�
�state� overcurrent� threshold� and� have� a� time� response� that� is�
�longer� than� the� required� transient.� The� peak� current� limit� can�
�be� set� higher� than� the� expected� transient� so� that� it� does� not�
�interfere� with� the� transient,� but� still� protects� for� short-term�
�larger� faults.� In� essence� a� 2-stage� overcurrent� response� is�
�possible.�
�The� peak� overcurrent� behavior� is� similar� to� most� other� PWM�
�controllers.� If� the� peak� current� exceeds� 1.0V,� the� active�
�output� pulse� is� terminated� immediately.�
�FN6754.1�
�September� 29,� 2008�
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