- 您现在的位置:买卖IC网 > Datasheet目录253 > SRDA3.3-4DR2G (ON Semiconductor)IC TVS ARRAY 4-LINE 3.3V SO-8 Datasheet资料下载
参数资料
| 型号: | SRDA3.3-4DR2G |
| 厂商: | ON Semiconductor |
| 文件页数: | 4/7页 |
| 文件大小: | 0K |
| 描述: | IC TVS ARRAY 4-LINE 3.3V SO-8 |
| 标准包装: | 2,500 |
| 电压 - 反向隔离(标准值): | 3.3V |
| 电压 - 击穿: | 5V |
| 功率(瓦特): | 500W |
| 电极标记: | 4 通道阵列 - 双向 |
| 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-SOICN |
| 包装: | 带卷 (TR) |
��
�
�SRDA3.3� ?� 4�
�ESD� Protection� of� Power� Supply� Lines�
�When� using� diodes� for� data� line� protection,� referencing� to�
�a� supply� rail� provides� advantages.� Biasing� the� diodes� reduces�
�their� capacitance� and� minimizes� signal� distortion.�
�Implementing� this� topology� with� discrete� devices� does� have�
�disadvantages.� This� configuration� is� shown� below:�
�L� di� ESD� /dt� factor.� A� relatively� small� trace� inductance� can� result�
�in� hundreds� of� volts� appearing� on� the� supply� rail.� This�
�endangers� both� the� power� supply� and� anything� attached� to�
�that� rail.� This� highlights� the� importance� of� good� board� layout.�
�Taking� care� to� minimize� the� effects� of� parasitic� inductance�
�will� provide� significant� benefits� in� transient� immunity.�
�Power�
�Supply�
�V� CC�
�I� ESDpos�
�Even� with� good� board� layout,� some� disadvantages� are� still�
�present� when� discrete� diodes� are� used� to� suppress� ESD� events�
�across� datalines� and� the� supply� rail.� Discrete� diodes� with� good�
�transient� power� capability� will� have� larger� die� and� therefore�
�Protected� Data� Line�
�Device�
�D1�
�D2�
�I� ESDpos�
�I� ESDneg�
�VF� +� V� CC�
�I� ESDneg�
�higher� capacitance.� This� capacitance� becomes� problematic� as�
�transmission� frequencies� increase.� Reducing� capacitance�
�generally� requires� reducing� die� size.� These� small� die� will� have�
�higher� forward� voltage� characteristics� at� typical� ESD�
�transient� current� levels.� This� voltage� combined� with� the�
�smaller� die� can� result� in� device� failure.�
�Figure� 6.�
�?� VF�
�The� ON� Semiconductor� SRDA3.3� ?� 4� was� developed� to�
�overcome� the� disadvantages� encountered� when� using� discrete�
�diodes� for� ESD� protection.� This� device� integrates� a� TVS�
�Looking� at� the� figure� above,� it� can� be� seen� that� when� a�
�positive� ESD� condition� occurs,� diode� D1� will� be� forward�
�diode� within� a� network� of� steering� diodes.�
�biased� while� diode� D2� will� be� forward� biased� when� a� negative�
�ESD� condition� occurs.� For� slower� transient� conditions,� this�
�D1�
�D3�
�D5�
�D7�
�system� may� be� approximated� as� follows:�
�For� positive� pulse� conditions:�
�Vc� =� V� CC� +� Vf� D1�
�D2�
�D4�
�D6�
�D8�
�For� negative� pulse� conditions:�
�Vc� =� ?� Vf� D2�
�ESD� events� can� have� rise� times� on� the� order� of� some�
�number� of� nanoseconds.� Under� these� conditions,� the� effect� of�
�parasitic� inductance� must� be� considered.� A� pictorial�
�representation� of� this� is� shown� below.�
�0�
�Figure� 8.� SRDA3.3� ?� 4� Equivalent� Circuit�
�During� an� ESD� condition,� the� ESD� current� will� be� driven�
�Power�
�Supply�
�V� CC�
�I� ESDpos�
�to� ground� through� the� TVS� diode� as� shown� below.�
�Power�
�Supply�
�Protected�
�Device�
�Data� Line�
�D1�
�I� ESDpos�
�I� ESDneg�
�V� CC�
�D1�
�I� ESDpos�
�D2�
�V� C� =� V� CC� +� Vf� +� (L� diESD/dt)�
�I� ESDneg�
�Protected�
�Device�
�Data� Line�
�D2�
�V� C� =� ?� Vf� ?� (L� diESD/dt)�
�Figure� 7.�
�An� approximation� of� the� clamping� voltage� for� these� fast�
�transients� would� be:�
�For� positive� pulse� conditions:�
�Vc� =� V� CC� +� Vf� +� (L� di� ESD� /dt)�
�For� negative� pulse� conditions:�
�Vc� =� ?� Vf� –� (L� di� ESD� /dt)�
�As� shown� in� the� formulas,� the� clamping� voltage� (Vc)� not�
�only� depends� on� the� Vf� of� the� steering� diodes� but� also� on� the�
�Figure� 9.�
�The� resulting� clamping� voltage� on� the� protected� IC� will�
�be:�
�Vc� =� V� FD1� +� V� TVS� .�
�The� clamping� voltage� of� the� TVS� diode� is� provided� in�
�Figure� 2� and� depends� on� the� magnitude� of� the� ESD� current.�
�The� steering� diodes� are� fast� switching� devices� with� unique�
�forward� voltage� and� low� capacitance� characteristics.�
�http://onsemi.com�
�4�
�相关PDF资料 |
PDF描述 |
|---|---|
| SRL91-22UGG3-BB99 | SWITCH ROCKER DPST 15A 125V |
| SRN91-27BB | SWITCH ROCKER DPDT 15A 125V |
| SRV05-4.TCT | TVS DIODE 5V 4CH BI SOT23-6 |
| SRV05-4A.TCT | TVS DIODE 5V 4CH BI SOT23-6 |
| SRV05-4HTG | TVS DIODE ARRAY 4CH 5V SOT23-6 |
相关代理商/技术参数 |
参数描述 |
|---|---|
| SRDA334TB | 制造商:Semtech Corporation 功能描述: |
| SRDA334TBT | 制造商:Semtech Corporation 功能描述: |
| SRDA5-6 | 制造商:未知厂家 制造商全称:未知厂家 功能描述:Direct ProTek Replacement:PSRDA5-6 |
| SRDA70-4 | 制造商:Semtech Corporation 功能描述:500 W, UNIDIRECTIONAL, 8 ELEMENT, SILICON, TVS DIODE |
| SRDA70-4.T | 制造商:Semtech Corporation 功能描述:ESD Suppressor Diode Arrays ±15KV 8-Pin SOIC T/R |
发布紧急采购,3分钟左右您将得到回复。