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参数资料
| 型号: | ISL6142CB-T |
| 厂商: | Intersil |
| 文件页数: | 16/23页 |
| 文件大小: | 0K |
| 描述: | IC CONTROLLER HOT PLUG 14-SOIC |
| 标准包装: | 2,500 |
| 类型: | 热交换控制器 |
| 应用: | 通用型 VoIP |
| 内部开关: | 无 |
| 电源电压: | 36 V ~ 72 V |
| 工作温度: | 0°C ~ 70°C |
| 安装类型: | 表面贴装 |
| 封装/外壳: | 14-SOIC(0.154",3.90mm 宽) |
| 供应商设备封装: | 14-SOICN |
| 包装: | 带卷 (TR) |
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�ISL6142,� ISL6152�
�C1� and� R3� prevent� Q1� from� turning� on� momentarily� when�
�power� is� first� applied.� Without� them,� C2� would� pull� the� gate�
�of� Q1� up� to� a� voltage� roughly� equal� to� V� EE� *C2/Cgs(Q1)�
�(where� Cgs� is� the� FET� gate-source� capacitance)� before� the�
�ISL6142/52� could� power� up� and� actively� pull� the� gate� low.�
�Place� C1� in� parallel� with� the� gate� capacitance� of� Q1;� isolate�
�them� from� C2� by� R3.�
�C1� =[(Vinmax� -� Vth)/Vth]� *� (C2+Cgd)� -� where� Vth� is� the�
�FET’s� minimum� gate� threshold,� Vinmax� is� the� maximum�
�operating� input� voltage,� and� Cgd� is� the� FET� gate-drain�
�capacitance.�
�R3� -� its� value� is� not� critical,� a� typical� value� of� 18k� ?� is�
�recommended� but� values� down� to� 1k� ?� can� be� used.� Lower�
�values� of� R3� will� add� delay� to� gate� turn-on� for� hot� insertion�
�and� the� single� retry� event� following� a� hard� fault.�
�R7/R8/R9� -� are� used� to� sense� the� load� current� (R7/R8)� and�
�convert� the� scaled� output� current� (IS� OUT� )� to� a� voltage� (R9)�
�that� would� typically� be� the� input� signal� to� an� A� to� D� converter.�
�R7� is� connected� between� -IS� and� the� R1� sense� resistor.�
�These� two� resistors� set� the� I� SENSE� (current� through� the�
�Rsense� resistor)� to� IS� OUT� scaling� factor� based� on� Equation� 5�
�below.� R8� does� not� effect� the� scaling� factor� but� should� match�
�R7� to� minimize� IS� OUT� error.� Their� tolerance� should� be� +/-1%,�
�which� will� typically� result� in� an� output� current� error� of� less� than�
�5%� for� a� full� scale� condition.� The� trace� layout� is� also� critical� to�
�R10� -� is� a� pull-up� resistor� for� the� open� drain� FAULT� output�
�pin� which� goes� active� low� when� the� Over-Current� latch� is� set�
�(Over-Current� Time-Out).� The� output� signal� is� referenced� to�
�V� EE� and� the� resistor� is� connected� to� a� positive� voltage,� 5V� or�
�less,� with� respect� to� V� EE� .� A� typical� value� of� 5k� ?� is�
�recommended.� A� fault� indicator� LED� can� be� placed� in� series�
�with� the� pull-up� resistor� if� desired.� The� resistor� value� should�
�be� selected� such� that� it� will� allow� enough� current� to� drive� the�
�LED� adequately� (brightness).�
�C3� -� is� the� capacitor� used� to� program� the� current� limit� time-�
�out� period.� When� the� Over-Current� threshold� is� exceeded� a�
�20� μ� A� (nominal)� current� source� will� charge� the� C3� capacitor�
�from� V� EE� to� approximately� 8.5V.� When� the� voltage� on� the� CT�
�pin� exceeds� the� 8.5V� threshold,� the� GATE� pin� will�
�immediately� be� pulled� low� with� a� 70mA� pull� down� device,� the�
�Over-Current� latch� will� be� set,� and� the� FET� will� be� turned� off.�
�If� the� Over-Current� condition� goes� away� before� the� time-out�
�period� expires,� the� CT� pin� will� be� pulled� back� down� to� V� EE� ,�
�and� normal� operation� will� resume.� Note� that� any� parasitic�
�capacitance� from� the� CT� pin� to� -V� IN� will� effectively� add� to�
�C3.� This� additional� capacitance� should� be� taken� into� account�
�when� calculating� the� C3� value� needed� for� the� desired�
�time-out� period.�
�The� value� of� C3� can� be� calculated� using� Equation� 6� where� dt�
�is� the� time-out� period,� dv� is� the� CT� pin� threshold,� and� I� CT� is�
�the� capacitor� charging� current.�
�C3� =� ------� � I� CT� =� ----------------------� � 20� � 10�
�obtain� optimum� performance.� The� traces� connecting� these�
�resistors� to� the� device� pins� (IS+� and� IS-)� and� to� the� R1� sense�
�resistor� should� be� kept� as� short� as� possible,� match� in� length,�
�dt� timeout� –� 6�
�dv� 8.5V�
�(EQ.� 6)�
�IS� OUT� =� I� SENSE� � -----------------------�
�R7�
�and� be� isolated� from� the� main� current� flow� as� illustrated� in�
�Figure� 30.�
�R9� is� used� to� convert� the� IS� OUT� current� to� voltage� and� is�
�connected� between� the� IS� OUT� pin� and� -V� IN� .� The� current�
�flowing� through� the� resistor� (EQ.� 5)� should� not� exceed� 600� μ� A�
�and� the� voltage� on� the� CT� pin� will� clamp� at� approximately� 8V.�
�R� SENSE�
�(EQ.� 5)�
�To� select� the� appropriate� resistor� values� for� the� application�
�the� user� must� first� define� the� R1� sense� resistor� value� and� the�
�maximum� load� current� to� be� detected/measured.� The� value�
�of� R7� should� then� be� selected� such� that� the� maximum� IS� OUT�
�current� is� in� the� 400-500� μ� A� range.� For� example,� if� the� user�
�wanted� to� detect� and� measure� fault� currents� up� to� the� hard�
�fault� comparator� trip� point� (10A);� the� maximum� IS� OUT�
�current� using� the� application� components� in� Figure� 23� would�
�be� [10A� x� (.02/400]� =� 500� μ� A.� The� value� of� R9� should� be� set�
�to� accommodate� the� dynamic� range� of� the� A� to� D� converter.�
�For� this� example,� a� 5k� ?� resistor� would� produce� a� full� scale�
�input� voltage� to� the� converter� of� 2.5V� (500� μ� A� x� 5k� ?� ).�
�Figures� 32� and� 33� illustrate� the� typical� output� voltage�
�response� of� the� current� sense� circuit� for� the� Over-Current�
�Time-out� and� hard� fault� single� retry� events.�
�16�
�Q2-� is� an� N-channel� logic� FET� used� to� drive� the� disable� pin�
�(DIS).� The� DIS� pin� is� used� to� enable/disable� the� external�
�pass� transistor� (Q1)� by� turning� the� GATE� drive� voltage� on� or�
�off.� The� DIS� pin� can� also� be� used� to� reset� the� Over-Current�
�latch� by� toggling� the� pin� high� and� then� low.� When� Q2� is� off,�
�the� DIS� pin� is� pulled� high� with� an� internal� 500k� ?� resistor,�
�connected� to� an� internal� +5V� (V� EE� +� 5V)� supply� rail� (10μA).�
�In� this� condition� the� GATE� pin� is� low,� and� Q1� is� turned� off.�
�When� Q2� is� on,� the� DIS� pin� is� pulled� low� to� V� EE� allowing� the�
�GATE� pin� to� pull� up� and� turn� on� Q1.� The� gate� of� Q2� will�
�typically� be� driven� low� (<1.5V)� or� High� (>3.0V)� with� external�
�logic� circuitry� referenced� to� the� negative� input� (-V� IN� ).�
�Low-side� Application�
�Although� this� IC� was� designed� for� -48V� systems,� it� can� also�
�be� used� as� a� low-side� switch� for� positive� 48V� systems;� the�
�operation� and� components� are� usually� similar.� One� possible�
�difference� is� the� kind� of� level� shifting� that� may� be� needed� to�
�interface� logic� signals� to� the� IC.� For� example,� many� of� the� IC�
�functions� are� referenced� to� the� IC� substrate,� connected� to� the�
�V� EE� pin,� but� this� pin� may� be� considered� -48V� or� GND,�
�depending� upon� the� polarity� of� the� system.� Also,� the� input� or�
�output� logic� (running� at� 5V� or� 3.3V� or� even� lower)� might� be�
�externally� referenced� to� either� V� DD� or� V� EE� of� the� IC,� instead�
�of� GND.�
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