TO-220 Type 61 SIDACtor SIDACtor Data Book TO-220 Type 61 SIDACtor a The modified TO-220 Type 61 SIDACtor is a solid state protection device designed for telecommunications applications that do not reference earth ground. The SIDACtor is used to help equipment meet various regulatory requirements including: GR 1089, ITU K.20 & K.21, IEC 950, UL 1459 & 1950 and FCC Part 68. Electrical Parameters Part Vprm Vs Vr lopm Is h ty Co Number Volts Volts Volts pAmps. | mAmps Amps mAmps pF P2000AA61 180 220 5 5 800 1 150 30 P2200AA61 200 240 5 5 800 1 150 30 P2400AA61 220 260 5 5 800 1 150 30 P2500AA61 240 290 5 5 800 1 150 30 P3000AA61 270 330 5 5 800 1 150 30 P3300AA61 300 360 5 5 800 1 150 30 Notes: * All measurements are made at an ambient temperature of 25C. Ipp applies to -40C through +85C temperature range. * Ipp is a repetitive surge rating and is guaranteed for the life of the product. Listed SIDACtors are bi-directional. All electrical parameters & surge ratings apply to forward and reverse polarities. *Vorm is measured at Iprw. Vg is measured at 100V/ps. * Special voltage (Vs & Vpry) and holding current (I,4) requirements are available upon request. * Off-state capacitance is measured at 1MHz with a 2 volt bias and is a typical value. Surge Ratings Ipp Ipp Ipp Ipp Tpp lpp Ipp irsm dvdt Series] 0.2x310us | 2x10ys | Sx20ye | 10x160ys | 10x560us | 5x320u8 |10x1000ps| GOHZ | ampejus Amps | Amps |. Amps Amps.___| Amps Amps Amps: | Amps AA 20 200 150 100 50 75 50 20 500 2-8 Teccor Electronics (972)580-7777SIDACtor Data Book TO-220 Type 61 SIDACtor Thermal Considerations Parameter = ( iwststi lltC~*C*C#C lu Unit Junction Temperature Range -40 to +150 Cc Storage Temperature Range -65 to +150 cc Modified ; 7 TO-220 Te Maximum Case Temperature +115 c Peic Thermal Resistance: junction to case +12 CIN Roja Thermal Resistance: junction to ambient +50 CIV V-I Characteristics t.xty Pulse Wave-form +| A a tr = rise time to peak value lt |- xs Peak td = decay time to haif value a 100 i Value Ils >b po. -- < fi ! hy | 2 1 . | | 5 de Waveform=| tr x tg | | oO ' IDRM> + t-=se | 2 ve > Vv a 50}+ < half Value daa . Vr Vorm 2 a MS | V. I $s a oe ~ 9h tr td 0 t- Time (us) v -l Normalized Vg Change vs. Normalized DC Holding Current vs. Junction Temperature Case Temperature x o ' 1 N 2 x 0 ~ oO = oO E 2) = 2 5 ! 5 2 < 3 ' a ' -40 -20 0 20 40 60 80100120140 160 ! Case Temperature (Tc) - C -40 -20 0 20 40 60 80100120140 160 Junction Temperature (Ty) - C Teccor Electronics 2-9 (972) 580-7777