1、文字符号 中文 EnglishIF(AV) 正向平均电流(整流管) mean foreard current (of diode)IT(AV) 通态平均电流 mean on-state currentVRSM 反向不重复峰值电压 non-reetitive peak reverse voltageVRRM 反向重复峰值电压 repetitive peak reverse voltageVDSM 断态不重复峰值电压 non-repetitive peak off-state voltageVDRM 断态重复峰值电压 repetitive peak off-state voltageVFM 正向峰
2、值电压(整流管) peak forward voltage (of diode)VTM 通态峰值电压 peak on-state voltageTjm 最高等效结温 maximum virtual junction temperatureF 紧固力 mounting forceIRRM 反向重复峰值电流 repetitive peak reverse currentIDRM 断态重复峰值电流 repetitive peak of-state currentVGT 门极触发电压 gate trigger voltageIGT 门极触发电流 gate trigger currentRjc 结壳热阻
3、 junction-case thermal resistanceQrr 反向恢复电荷 reverse recovery chargeITM 通态峰值电流 peak on-state currentIFM 正向峰值电流(整流管) peak forward current (of diode)ITSM 通态浪涌电流 surge on-state currentdv/dt 断态电压临界上升率 critical rate of rise of off-state voltagedi/dt 通态电流临界上升率 critical rate of rise of on-state currenttgt 门
4、极控制开通时间 gate controlled turn-on timetq 电路换向关断时间 cricuit commutated turn-off timeIRMS 通态方均根电流 R.M.S. on-state current(dv/dt)c 换向电压临界上升率 critical rate of rise of commutating voltage(of bi-(双向晶闸管) directional thyristor)trr 反向恢复时间( 二极管的) reverse recovery time (of diode)ton 开通时间 turn on timets 存储时间 stora
5、ge timetf 下降时间 fall timeCj Junction Capacitance 结电容V Rectification Efficiency 整流效率If DC Forward Current 正向直流电流I(AV) Average Forward Rectified Current 正向平均整流电流ID Stand-off Reverse Leakage Current 关态反向漏电流IFSM Peak Forward Surge Current 正向浪涌峰植电流ITSM Non Repetitive Surge Peak on-state Current 不重复浪涌峰值开态电
6、流IDM Maximum Reverse Leakage 最大反向漏电流IFRM Repetitive Peak Forward Current 正向重复峰值电流IH Holding Current 维持电流IO Mean Forward Current 正向平均电流IR Reverse Leakage Current 反向漏电流Irr Reverse Recovery Current 反向恢复电流IPPM Maximum peak lmpulse Current 最大脉冲峰值电流IRM Maximum peak Reverse Current 最大峰值反向电流IRM(REC) Maximum
7、 peak Reverse recovery Current 最大峰值反向恢复电流IRSM Maximum Non-repetitive recovery Peak Current 最大峰值反向恢复电流IT On-state Test Current 导通测试电流I2t Rating for fusing 正向浪涌电流的平方对电流浪涌持续时间的积分值PM(AV) Maximum Steady State Power Dissipation 最大稳态功耗PPM Peak Pulse Power Dissipation 峰值脉冲功耗Ptot Total Power Dissipation 总功耗Q
8、rr Recovered Charge 恢复电荷ROJA Thermal Resistance (Junction to Ambient) 热阻(结到环境)ROJC Thermal Resistance(Junction to Case ) 热阻(结到管壳)ROJL Thermal Resistance(Junction to Lead ) 热阻(结到引线)TA Ambient Temperature 环境温度TC Case Temperature 管壳温度td Time Duration 持续时间tf Fall Time 下降时间Tj Junction Temperature 结温TL Le
9、ad Temperature 引线温度tfr Forward Recovery Time 正向恢复时间tr Rise Time 上升时间trr Reverse Recovery Time 反向恢复时间TSTG Storage Temperature 存储温度VBO Breakover Voltage 转折电压V(BR) Reverse Breakdown Voltage 反向击穿电压VF Instantaneous Forward Voltage 正向瞬态电压VFR Forward Recovery Voltage 正向恢复电压VDC,VR DC Reverse Voltage 反向直流电流V
10、RM Maximum Reverse Paek Reverse Voltage 最大重复峰值反向电压VRMS RMS Input Voltage 均方根输入电压VRRM Peak Repetitive Reverse Voltage 反向重复峰值电压VWM Working Peak Reverse Voltage 反向工作峰值电压VC Clamping Voltage 箝位电压VWM Working Stand-off Voltage 关态工作电压VZ Zener Voltage 齐纳电压ZZ Dynamia Zener Impedance 动态齐纳阻抗VF Temperature coeff
11、icient of forward voltage 正向压降的温度系数TVS(TRANSIENT VOLTAGE SUPPRESSOR)或称瞬变电压抑制二极管是在稳压管工艺基础上发展起来的一种新产品,其电路符号和普通稳压二极管相同,外形也与普通二极管无异,当 TVS 管两端经受瞬间的高能量冲击时,它能以极高的速度(最高达 1*10-12 秒)使其阻抗骤然降低,同时吸收一个大电流,将其两端间的电压箝位在一个预定的数值上,从而确保后面的电路元件免受瞬态高能量的冲击而损坏。 TVS 的反应速度绝对比 RC 回路快的多 10s-12s,可不用考虑 TVS 的击穿电压 VBR,反向临界电压 VWM,最大峰值脉冲电流 IPP 和最大箝位电压 VC 及峰值脉冲功率 PP. 选择 VWM 等于或大于电路工作电压,VC为小于保护器件的耐压值,能测量最好 (IPP),或估计出脉冲的功率,选功率较大的 TVS.
