参数资料
| 型号: | TISP7082F3DR |
| 厂商: | Bourns Inc. |
| 文件页数: | 10/15页 |
| 文件大小: | 0K |
| 描述: | SURGE SUPP 66V BIDIR 8-SOIC |
| 标准包装: | 2,500 |
| 电压 - 击穿: | 82V |
| 电压 - 断路: | 66V |
| 电压 - 导通状态: | 5V |
| 电流 - 峰值脉冲(8 x 20µs): | 80A |
| 电流 - 峰值脉冲(10 x 1000µs): | 40A |
| 电流 - 保持 (Ih): | 150mA |
| 元件数: | 3 |
| 电容: | 66pF |
| 封装/外壳: | 8-SOIC(0.154",3.90mm 宽) |
| 包装: | 带卷 (TR) |
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�TISP70xxF3� (LV)� Overvoltage� Protector� Series�
�APPLICATIONS� INFORMATION�
�Deployment�
�These� devices� are� three� terminal� overvoltage� protectors.� They� limit� the� voltage� between� three� points� in� the� circuit.� Typically,� this� would� be� the�
�two� line� conductors� and� protective� ground� (Figure� 16).�
�Th3�
�Th1�
�Th2�
�Figure� 16.� MULTI-POINT� PROTECTION�
�In� Figure� 16,� protective� functions� Th2� and� Th3� limit� the� maximum� voltage� between� each� conductor� and� ground� to� their� respective� ±� V(BO)�
�values.� Protective� function� Th1� limits� the� maximum� voltage� between� the� two� conductors� to� its� ±� V(BO)� value.�
�Lightning� Surge�
�Wave� Shape� Notation�
�Most� lightning� tests,� used� for� equipment� verification,� specify� a� unidirectional� sawtooth� waveform� which� has� an� exponential� rise� and� an�
�exponential� decay.� Wave� shapes� are� classified� in� terms� of� rise� time� in� microseconds� and� a� decay� time� in� microseconds� to� 50� %� of� the� maximum�
�amplitude.� The� notation� used� for� the� wave� shape� is� rise� time/decay� time,� without� the� microseconds� quantity� and� the� “/”� between� the� two� values�
�has� no� mathematical� significance.� A� 50� A,� 5/310� waveform� would� have� a� peak� current� value� of� 50� A,� a� rise� time� of� 5� μ� s� and� a� decay� time� of� 310�
�μ� s.� The� TISP� ?� surge� current� graph� comprehends� the� wave� shapes� of� commonly� used� surges� .�
�Generators�
�There� are� three� categories� of� surge� generator� type:� single� wave� shape,� combination� wave� shape� and� circuit� defined.� Single� wave� shape�
�generators� have� essentially� the� same� wave� shape� for� the� open� circuit� voltage� and� short� circuit� current� (e.g.,� 10/1000� open� circuit� voltage� and�
�short� circuit� current).� Combination� generators� have� two� wave� shapes,� one� for� the� open� circuit� voltage� and� the� other� for� the� short� circuit� current�
�(e.g.,� 1.2/50� open� circuit� voltage� and� 8/20� short� circuit� current).� Circuit� specified� generators� usually� equate� to� a� combination� generator,�
�although� typically� only� the� open� circuit� voltage� wave� shape� is� referenced� (e.g.,� a� 10/700� open� circuit� voltage� generator� typically� produces� a� 5/�
�310� short� circuit� current).� If� the� combination� or� circuit� defined� generators� operate� into� a� finite� resistance,� the� wave� shape� produced� is�
�intermediate� between� the� open� circuit� and� short� circuit� values.�
�ITU-T� 10/700� Generator�
�This� circuit� defined� generator� is� specified� in� many� standards.� The� descriptions� and� values� are� not� consistent� between� standards� and� it� is�
�important� to� realize� that� it� is� always� the� same� generator� being� used.�
�Figure� 17� shows� the� 10/700� generator� circuit� defined� in� ITU-T� recommendation� K.20� (10/96)� “Resistibility� of� telecommunication� switching�
�equipment� to� overvoltages� and� overcurrents”.� The� basic� generator� comprises� of:�
�Capacitor� C1,� charged� to� voltage� VC,� which� is� the� energy� storage� element.�
�Switch� SW� to� discharge� the� capacitor� into� the� output� shaping� network.�
�Shunt� resistor� R1,� series� resistor� R2� and� shunt� capacitor� C� 2� form� the� output� shaping� network.�
�Series� feed� resistor� R3� to� connect� to� one� line� conductor� for� single� surge.�
�Series� feed� resistor� R4� to� connect� to� the� other� line� conductor� for� dual� surging.�
�In� the� normal� single� surge� equipment� test� configuration,� the� unsurged� line� is� grounded.� This� is� shown� by� the� dotted� lines� in� the� top� drawing� of�
�Figure� 17.� However,� doing� this� at� device� test� places� one� terminal� pair� in� parallel� with� another� terminal� pair.� To� check� the� individual� terminal� pairs�
�of� the� TISP7xxxF3,� without� any� paralleled� operation,� the� unsurged� terminal� is� left� unconnected.�
�With� the� generator� output� open� circuit,� when� SW� closes,� C1� discharges� through� R1.� The� decay� time� constant� will� be� C1� R� 1,� or�
�20� x� 50� =� 1000� μ� s.� For� the� 50� %� voltage� decay� time,� the� time� constant� needs� to� be� multiplied� by� 0.697,� giving� 0.697� x� 1000� =� 697� μ� s� which� is�
�rounded� to� 700� μ� s.�
�MARCH� 1994� -� REVISED� SEPTEMBER� 2008�
�Specifications� are� subject� to� change� without� notice.�
�Customers� should� verify� actual� device� performance� in� their� specific� applications.�
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相关代理商/技术参数 |
参数描述 |
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| TISP7082F3DR-S | 功能描述:硅对称二端开关元件 Low Volt Triple Elmt Bidirectional RoHS:否 制造商:Bourns 转折电流 VBO:40 V 最大转折电流 IBO:800 mA 不重复通态电流: 额定重复关闭状态电压 VDRM:25 V 关闭状态漏泄电流(在 VDRM IDRM 下): 保持电流(Ih 最大值):50 mA 开启状态电压:5 V 关闭状态电容 CO:120 pF 最大工作温度:+ 150 C 安装风格:SMD/SMT 封装 / 箱体:DO-214AA |
| TISP7082F3D-S | 功能描述:硅对称二端开关元件 Low Volt Triple Elmt Bidirectional RoHS:否 制造商:Bourns 转折电流 VBO:40 V 最大转折电流 IBO:800 mA 不重复通态电流: 额定重复关闭状态电压 VDRM:25 V 关闭状态漏泄电流(在 VDRM IDRM 下): 保持电流(Ih 最大值):50 mA 开启状态电压:5 V 关闭状态电容 CO:120 pF 最大工作温度:+ 150 C 安装风格:SMD/SMT 封装 / 箱体:DO-214AA |
| TISP7082F3P | 功能描述:硅对称二端开关元件 Low Volt Triple Elmt Bidirectional RoHS:否 制造商:Bourns 转折电流 VBO:40 V 最大转折电流 IBO:800 mA 不重复通态电流: 额定重复关闭状态电压 VDRM:25 V 关闭状态漏泄电流(在 VDRM IDRM 下): 保持电流(Ih 最大值):50 mA 开启状态电压:5 V 关闭状态电容 CO:120 pF 最大工作温度:+ 150 C 安装风格:SMD/SMT 封装 / 箱体:DO-214AA |
| TISP7082F3PS | 制造商:Bourns Inc 功能描述: |
| TISP7082F3P-S | 功能描述:硅对称二端开关元件 Low Volt Triple Elmt Bidirectional RoHS:否 制造商:Bourns 转折电流 VBO:40 V 最大转折电流 IBO:800 mA 不重复通态电流: 额定重复关闭状态电压 VDRM:25 V 关闭状态漏泄电流(在 VDRM IDRM 下): 保持电流(Ih 最大值):50 mA 开启状态电压:5 V 关闭状态电容 CO:120 pF 最大工作温度:+ 150 C 安装风格:SMD/SMT 封装 / 箱体:DO-214AA |
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