参数资料
| 型号: | TISP4095M3BJR |
| 厂商: | Bourns Inc. |
| 文件页数: | 9/12页 |
| 文件大小: | 0K |
| 描述: | SURGE SUPP 75V BIDIR DO-214AA |
| 产品培训模块: | ESD Protection Products |
| 标准包装: | 3,000 |
| 电压 - 击穿: | 95V |
| 电压 - 断路: | 75V |
| 电压 - 导通状态: | 3V |
| 电流 - 峰值脉冲(8 x 20µs): | 220A |
| 电流 - 峰值脉冲(10 x 1000µs): | 50A |
| 电流 - 保持 (Ih): | 150mA |
| 元件数: | 1 |
| 电容: | 83pF |
| 封装/外壳: | DO-214AA,SMB |
| 包装: | 带卷 (TR) |
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�
�TISP4xxxM3BJ� Overvoltage� Protector� Series�
�APPLICATIONS� INFORMATION�
�Deployment�
�These� devices� are� two� terminal� overvoltage� protectors.� They� may� be� used� either� singly� to� limit� the� voltage� between� two� conductors� (Figure� 13)�
�or� in� multiples� to� limit� the� voltage� at� several� points� in� a� circuit� (Figure� 14).�
�Th3�
�Th1�
�Th1�
�Th2�
�Figure� 13.� Two� Point� Protection�
�Figure� 14.� Multi-Point� Protection�
�In� Figure� 13,� protector� Th1� limits� the� maximum� voltage� between� the� two� conductors� to� ±� V(BO).� This� configuration� is� normally� used� to� protect�
�circuits� without� a� ground� reference,� such� as� modems.� In� Figure� 14,� protectors� Th2� and� Th3� limit� the� maximum� voltage� between� each� conduc-�
�tor� and� ground� to� the� ±� V(BO)� of� the� individual� protector.� Protector� Th1� limits� the� maximum� voltage� between� the� two� conductors� to� its� ±� V(BO)�
�value.� If� the� equipment� being� protected� has� all� its� vulnerable� components� connected� between� the� conductors� and� ground,� then� protector� Th1�
�is� not� required.�
�Impulse� Testing�
�To� verify� the� withstand� capability� and� safety� of� the� equipment,� standards� require� that� the� equipment� is� tested� with� various� impulse� wave� forms.�
�The� table� below� shows� some� common� values.�
�Peak� Voltage�
�Voltage�
�Peak� Current�
�Current�
�TISP4XXXM3�
�Series�
�Standard�
�Setting�
�Wave� Shape�
�Value�
�Wave� Shape�
�25� °C� Rating�
�Resistance�
�V�
�A�
�A�
�GR-1089-CORE�
�2500� 2/10� 500� 2/10� 300�
�1000� 10/1000� 100� 10/1000� 50�
�11�
�1500� 10/160� 200� 10/160� 120� 2x5.6�
�FCC� Part� 68�
�(March� 1998)�
�800� 10/560� 100� 10/560� 75� 3�
�1500� 9/720� ?� 37.5� 5/320� ?� 100� 0�
�1000� 9/720� ?� 25� 5/320� ?� 100� 0�
�I3124� 1500� 0.5/700� 37.5� 0.2/310� 100� 0�
�ITU-T� K.20/K.21�
�1500�
�4000�
�10/700�
�37.5�
�100�
�5/310� 100� 0�
�?� FCC� Part� 68� terminology� for� the� waveforms� produced� by� the� ITU-T� recommendation� K.21� 10/700� impulse� generator�
�If the impulse generator current exceeds the protector’s current rating, then a series resistance can be used to reduce the current to the�
�protector� ’s� rated� value� to� prevent� possible� failure.� The� required� value� of� series� resistance� for� a� given� waveform� is� given� by� the� following�
�calculations.� First,� the� minimum� total� circuit� impedance� is� found� by� dividing� the� impulse� generator’s� peak� voltage� by� the� protector’s� rated�
�current.� The� impulse� generator’s� fictive� impedance� (generator’s� peak� voltage� divided� by� peak� short� circuit� current)� is� then� subtracted� from� the�
�minimum� total� circuit� impedance� to� give� the� required� value� of� series� resistance.�
�For� the� FCC� Part� 68� 10/560� waveform,� the� following� values� result.� The� minimum� total� circuit� impedance� is� 800/75� =� 10.7� ?� and� the� generator’s�
�fictive� impedance� is� 800/100� =� 8� ?� .� This� gives� a� minimum� series� resistance� value� of� 10.7� -� 8� =� 2.7� ?� .� After� allowing� for� tolerance,� a� 3� ?� ±� 10%�
�resistor� would� be� suitable.� The� 10/160� waveform� needs� a� standard� resistor� value� of� 5.6� ?� per� conductor.� These� would� be� R1a� and� R1b� in�
�Figure� 16� and� Figure� 17.� FCC� Part� 68� allows� the� equipment� to� be� non-operational� after� the� 10/160� (conductor� to� ground)� and� 10/560� (inter-�
�conductor)� impulses.� The� series� resistor� value� may� be� reduced� to� zero� to� pass� FCC� Part� 68� in� a� non-operational� mode,� e.g.� Figure� 15.� For� this�
�type� of� design,� the� series� fuse� must� open� before� the� TISP4xxxM3� fails.� For� Figure� 15,� the� maximum� fuse� i� 2� t� is� 2.3� A� 2� s.� In� some� cases,� the�
�equipment� will� require� verification� over� a� temperature� range.� By� using� the� rated� waveform� values� from� Figure� 12,� the� appropriate� series� resistor�
�value� can� be� calculated� for� ambient� temperatures� in� the� range� of� -40� °� C� to� 85� °� C.�
�NOVEMBER� 1997� -� REVISED� MAY� 2007�
�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 |
|---|---|
| TISP4095M3BJR-S | 功能描述:硅对称二端开关元件 BI-DIRECTIONL PRTCTR 75volts 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 |
| TISP4095M3BJ-S | 制造商:BOURNS 制造商全称:Bourns Electronic Solutions 功能描述:BIDIRECTIONAL THYRISTOR OVERVOLTAGE PROTECTORS |
| TISP4095M3LM | 功能描述:硅对称二端开关元件 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 |
| TISP4095M3LMFR | 功能描述:硅对称二端开关元件 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 |
| TISP4095M3LMFRS | 制造商:BOURNS 制造商全称:Bourns Electronic Solutions 功能描述:BIDIRECTIONAL THYRISTOR OVERVOLTAGE PROTECTORS |
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