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参数资料
| 型号: | ISL6401CRZ-T |
| 厂商: | Intersil |
| 文件页数: | 7/11页 |
| 文件大小: | 0K |
| 描述: | IC REG CTRLR BST FLYBK ISO 16QFN |
| 标准包装: | 6,000 |
| PWM 型: | 电流模式 |
| 输出数: | 1 |
| 频率 - 最大: | 600kHz |
| 占空比: | 50% |
| 电源电压: | 4.5 V ~ 5.5 V |
| 降压: | 无 |
| 升压: | 是 |
| 回扫: | 是 |
| 反相: | 无 |
| 倍增器: | 无 |
| 除法器: | 无 |
| Cuk: | 无 |
| 隔离: | 是 |
| 工作温度: | -40°C ~ 85°C |
| 封装/外壳: | 16-VQFN 裸露焊盘 |
| 包装: | 带卷 (TR) |
��
�
�ISL6401�
�signal� generation� and� off-hook� loop� current� supply� are� two�
�analog� functions� that� are� performed� by� Subscriber� Line�
�Interface� Circuits� (SLICs).� A� SLIC� is� the� primary� interface�
�between� the� 4-wire� (ground� referenced)� low� voltage� switch�
�environment� and� the� 2� wire� (floating)� high� voltage� loop�
�environment.� It� performs� a� number� of� important� functions�
�including� battery� feed,� overvoltage� protection,� ringing,�
�signaling,� coding,� hybrid� balancing� and� testing.�
�The� Ringing� SLIC� (RSLIC)� typically� requires� two� high�
�voltage� power� supply� inputs.� The� first� is� a� tightly� regulated�
�voltage� around� -24V� or� -48V� for� off-hook� voice� transmission.�
�The� second� is� a� loosely� regulated� -70� to� -100V� for� ring� tone�
�generation.� When� the� switch� hook� is� released� the� phone�
�puts� approximately� 200� ?� of� resistance� across� the� phone�
�terminals.� Once� voice� transmission� begins,� the� SLIC�
�requires� a� lower� voltage� input� to� establish� a� current� loop� of�
�approximately� 25mA.� The� loop� feeds� the� 200� ?� ,� protection�
�resistors,� and� line� resistances� within� the� phone.�
�ISL6401� Flyback� Reference� Design�
�The� Typical� Application� Schematic� shows� a� current� mode�
�power� supply� using� the� Intersil� ISL6401� in� a� standard�
�flyback� topology.� The� IC� requires� +5V� Bias.� The� application�
�circuit� is� intended� for� wall� adapters� that� power� home�
�gateway/router� boxes.� This� circuit� input� voltage� can� be� 9V�
�to� 20V� with� the� selected� transformer� and� external�
�components.�
�The� output� voltages� are� -24V� at� 120mA� and� -72V� at�
�120mA.� The� circuit� uses� inexpensive� transformers� to�
�generate� both� outputs� using� a� single� controller.� The�
�transformer� turns� ratio� is� such� that� 24V� appear� across� each�
�secondary� winding� and� the� primary� during� the� switch� off-�
�time.� The� remaining� secondary� windings� are� stacked� in�
�series� to� develop� -48V.� The� -48V� section� is� then� stacked� on�
�the� -24V� section� to� get� the� -72V.� This� technique� provides�
�good� cross� regulation,� lowers� the� voltage� rating� required�
�for� the� output� capacitors,� and� lowers� the� RMS� current,�
�allowing� the� use� of� less� expensive� output� capacitors.� Also,�
�the� selection� of� a� transformer� with� multifilar� winding� lowers�
�the� leakage� inductance� and� cost.� The� -24V� output� is�
�precisely� regulated� by� feeding� back� this� output� to� the�
�controller.� The� -72V� output� is� derived� from� the� third� pair� of�
�windings.� Regulation� of� this� output� is� obtained� by� the� turn’s�
�ratio� of� the� transformer� with� -24V� output,� as� well� as� with�
�split� feedback.�
�Circuit� Element� Descriptions�
�?� Transformers� T1,� MOSFET� Q1,� Schottky� diode� D1,� D2,�
�and� input� capacitor� C1� and� C2� form� the� power� stage� of�
�the� converter.� Power� resistor� R5� senses� the� switch�
�current� and� converts� this� current� into� a� voltage� to� be�
�7�
�sensed� by� the� primary� side� controller� feedback�
�comparator.�
�?� Capacitors� C9� to� C12� filter� out� high� frequency� noise� on� the�
�output� bus� directly� at� the� output� diode.�
�?� R7� and� C8� provide� secondary� side� snubbing.�
�?� R6� and� C7� filter� out� the� leading� edge� voltage� spikes�
�resulting� from� the� leakage� inductance� of� the� transformer.�
�?� C4� sets� the� switching� frequency� of� the� converter.�
�?� C3� is� a� decoupling� capacitor,� which� should� always� be� a�
�good� quality� low-ESR/ESL� type� capacitor,� placed� as� close�
�to� the� IC� pins� as� possible� and� returned� directly� to� the� IC�
�ground� reference.�
�?� The� gate� drive� circuitry� can� be� composed� of� a� small� gate�
�drive� resistor,� necessary� for� damping� any� oscillations�
�resulting� from� the� input� capacitance� of� Q1� and� any�
�parasitic� stray� inductance.�
�?� The� voltage� sense� feedback� loop� is� comprised� of� R4� and�
�R3.� Feedback� components� R1,� C6,� and� C5� provide� the�
�necessary� gain� and� pole� to� stabilize� the� control� loop.�
�Component� Selection� Guidelines�
�Power� MOSFET�
�The� MOSFET� switch� is� selected� to� meet� the� drain� to� source�
�voltage� stress� resulting� from� the� maximum� input� voltage�
�(V� IN(max)� ),� the� reflected� secondary� voltages,� equal� to� the�
�output� voltage� (V� OUT� ),� plus� the� output� diode� voltage� drop�
�(V� F� ),� and� the� voltage� spike� due� to� the� leakage� inductance,�
�assumed� to� be� 30%� of� the� input� voltage.�
�Vds� (stress)� =� [(V� IN(max)� )� +� (N)(Vout� +Vf)]� +� (0.3)(V� IN(max)� )�
�The� switch� must� also� be� able� to� conduct� the� repetitive� peak�
�primary� current� as� determined� by:�
�Ipeak� (primary)� =� (Vin� min� -� Vds)� (t� ON(max)� )� /� Lp�
�The� primary� current� waveform� of� a� discontinuous� mode�
�flyback� converter� is� triangular� in� shape,� therefore,� its� root�
�mean� square(rms)� current� is� calculated� by:�
�Irms� (� prim� )� =� (� IPEAKprim� ?� 3� )� (� (� TONmax� )� ?� T� )�
�The� chosen� device� should� also� have� a� low� R� DS(ON)� value,�
�because� the� conduction� losses� of� the� device� are� proportional�
�to� the� square� of� the� primary� rms� current� through� the� device.�
�Selection� of� a� device� that� has� a� peak� current� rating� of� at�
�least� three� times� the� peak� current� usually� insures� acceptably�
�low� conduction� losses.�
�Pconduction� =� (I� prms2� )� (R� DS(on)� )�
�FN9007.7�
�April� 13,� 2005�
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