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参数资料
| 型号: | ISL6615AIBZ-T |
| 厂商: | Intersil |
| 文件页数: | 6/12页 |
| 文件大小: | 0K |
| 描述: | IC MOSFET DRVR SYNC HF 6A 8-SOIC |
| 标准包装: | 2,500 |
| 配置: | 高端和低端,同步 |
| 输入类型: | PWM |
| 延迟时间: | 10ns |
| 电流 - 峰: | 2.5A |
| 配置数: | 1 |
| 输出数: | 2 |
| 高端电压 - 最大(自引导启动): | 36V |
| 电源电压: | 6.8 V ~ 13.2 V |
| 工作温度: | -40°C ~ 70°C |
| 安装类型: | 表面贴装 |
| 封装/外壳: | 8-SOIC(0.154",3.90mm 宽) |
| 供应商设备封装: | 8-SOIC |
| 包装: | 带卷 (TR) |
��
�
�ISL6615A�
�Description�
�PWM�
�1.18V� <� PWM� <� 2.36V�
�0.76V� <� PWM� <� 1.96V�
�t� PDHU�
�t� PDLU�
�t� PDTS�
�t� TSSHD�
�t� PDTS�
�UGATE�
�LGATE�
�t� PDLL�
�t� FL�
�t� RU�
�t� RL�
�t� FU�
�t� TSSHD�
�t� PDHL�
�FIGURE� 1.� TIMING� DIAGRAM�
�Operation�
�Designed� for� versatility� and� speed,� the� ISL6615A� MOSFET� driver�
�controls� both� high-side� and� low-side� N-Channel� FETs� of� a� half-�
�bridge� power� train� from� one� externally� provided� PWM� signal.�
�Prior� to� VCC� exceeding� its� POR� level,� the� Pre-POR� overvoltage�
�protection� function� is� activated� during� initial� start-up;� the� upper�
�gate� (UGATE)� is� held� low� and� the� lower� gate� (LGATE),� controlled�
�by� the� Pre-POR� overvoltage� protection� circuits,� is� connected� to�
�the� PHASE.� Once� the� VCC� voltage� surpasses� the� VCC� Rising�
�Threshold� (see� “Electrical� Specifications”� on� page� 4)� the� PWM�
�signal� takes� control� of� gate� transitions.� A� rising� edge� on� PWM�
�initiates� the� turn-off� of� the� lower� MOSFET� (see� “TIMING�
�DIAGRAM”� on� page� 6).� After� a� short� propagation� delay� [t� PDLL� ],�
�the� lower� gate� begins� to� fall.� Typical� fall� times� [t� FL� ]� are� provided�
�in� the� “Electrical� Specifications”� on� page� 4.� Adaptive� shoot-�
�through� circuitry� monitors� the� LGATE� voltage� and� determines� the�
�upper� gate� delay� time� [t� PDHU� ].� This� prevents� both� the� lower� and�
�upper� MOSFETs� from� conducting� simultaneously.� Once� this� delay�
�period� is� complete,� the� upper� gate� drive� begins� to� rise� [t� RU� ]� and�
�the� upper� MOSFET� turns� on.�
�A� falling� transition� on� PWM� results� in� the� turn-off� of� the� upper�
�MOSFET� and� the� turn-on� of� the� lower� MOSFET.� A� short�
�propagation� delay� [t� PDLU� ]� is� encountered� before� the� upper� gate�
�begins� to� fall� [t� FU� ].� Again,� the� adaptive� shoot-through� circuitry�
�determines� the� lower� gate� delay� time,� t� PDHL� .� The� PHASE� voltage�
�and� the� UGATE� voltage� are� monitored,� and� the� lower� gate� is�
�allowed� to� rise� after� PHASE� drops� below� a� level� or� the� voltage� of�
�UGATE� to� PHASE� reaches� a� level� depending� upon� the� current�
�direction� (See� the� following� section� titled� “Advanced� Adaptive�
�Zero� Shoot-Through� Dead-Time� Control”� for� details).� The� lower�
�gate� then� rises� [t� RL� ],� turning� on� the� lower� MOSFET.�
�Advanced� Adaptive� Zero� Shoot-Through�
�Dead-time� Control�
�The� ISL6615A� driver� incorporates� a� unique� adaptive� dead-time�
�control� technique� to� minimize� dead-time,� resulting� in� high�
�efficiency� from� the� reduced� freewheeling� time� of� the� lower�
�MOSFETs’� body-diode� conduction,� and� to� prevent� the� upper� and�
�6�
�lower� MOSFETs� from� conducting� simultaneously.� This� is�
�accomplished� by� ensuring� the� rising� gate� turns� on� its� MOSFET�
�with� minimum� and� sufficient� delay� after� the� other� has� turned� off.�
�During� turn-off� of� the� lower� MOSFET,� the� LGATE� voltage� is�
�monitored� until� it� drops� below� 1.75V.� Prior� to� reaching� this� level,�
�there� is� a� 25ns� blanking� period� to� protect� against� sudden� dips� in�
�the� LGATE� voltage.� Once� 1.75V� is� reached,� the� UGATE� is� released�
�to� rise� after� 20ns� of� propagation� delay.� Once� the� PHASE� is� high,�
�the� adaptive� shoot-through� circuitry� monitors� the� PHASE� and�
�UGATE� voltages� during� PWM� falling� edge� and� subsequent� UGATE�
�turn-off.� If� PHASE� falls� to� less� than� +0.8V,� the� LGATE� is� released�
�to� turn� on� after� 10ns� of� propagation� delay.� If� the� UGATE-PHASE�
�falls� to� less� than� 1.75V� and� after� 40ns� of� propagation� delay,�
�LGATE� is� released� to� rise.�
�Tri-state� PWM� Input�
�A� unique� feature� of� these� drivers� and� other� Intersil� drivers� is� the�
�addition� of� a� shutdown� window� to� the� PWM� input.� If� the� PWM�
�signal� enters� and� remains� within� the� shutdown� window� for� a� set�
�holdoff� time,� the� driver� outputs� are� disabled� and� both� MOSFET�
�gates� are� pulled� and� held� low.� The� shutdown� state� is� removed�
�when� the� PWM� signal� moves� outside� the� shutdown� window.�
�Otherwise,� the� PWM� rising� and� falling� thresholds� outlined� in�
�“Electrical� Specifications”� on� page� 4,� determine� when� the� lower�
�and� upper� gates� are� enabled.�
�This� feature� helps� prevent� a� negative� transient� on� the� output�
�voltage� when� the� output� is� shut� down,� eliminating� the� Schottky�
�diode� that� is� used� in� some� systems� for� protecting� the� load� from�
�reversed� output� voltage� events.�
�In� addition,� more� than� 400mV� hysteresis� also� incorporates� into�
�the� Tri-State� shutdown� window� to� eliminate� PWM� input�
�oscillations� due� to� the� capacitive� load� seen� by� the� PWM� input�
�through� the� body� diode� of� the� controller’s� PWM� output� when� the�
�power-up� and/or� power-down� sequence� of� bias� supplies� of� the�
�driver� and� PWM� controller� are� required.�
�FN6608.2�
�April� 13,� 2012�
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