TO-92 SIDACtor SIDACtor Data Book TO-92 SIDACtor The TO-92 SIDACtor is a solid state protection device designed for telecommunications applications such as modems, line cards, fax machines, etc. The SIDAGtor 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 Te yO _ Numt =: ~POOS0E 5 1 PO300E_ 25 40 5 5 800 1 50 110 PO640E_ 5B 77 5 5 800 1 150 50 PO720E_ 85 88 5 5 800 1 150 50 POSOOE_ 75 98 5 5 B00 1 150 50 P1100E_ 90 130 5 5 800 1 150 40 P1300E_ 120 160 5 5 B00 1 150 40 P1500E_ 140 180 5 5 800 1 150 40 P1800E_ 160 220 5 5 B00 1 150 30 P2300E_ 190 260 5 5 800 1 150 30 P2600E_ 220 300 5 5 B00 1 150 30 P3100E_ 275 350 5 5 800 1 150 30 PS500E_ 320 400 5 5 B00 1 150 30 * For individual EA, EB and EC surge ratings, see table below. (POO80EB is not available.) Notes: - All measurements are made at an ambient temperature of 25C. Ipp applies to -40 C through +85 C temperature range. *lppis arepetitive 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 IDRM. V5 is measured at 100V/us. * Special voltage (Vs & Vorm) and holding current (Iq) requirements are available upon request. + Off-state capacitance is measured at 1MHz with a 2 volt bias and is a typical value for EA and EB product. EC capacitance is approximately 2x the listed value. Surge Ratings 2-6 Teccor Electronics (972)580-7777SIDACtor Data Book TO-92 SIDACtor Thermal Considerations -40 to +150 j Junction Temperature Range Ts Storage Temperature Range -65 to +150 C TO-92 To Maximum Case Temperature +110 C Rejc Thermal Resistance: junction to case +28 CAN Reja Thermal Resistance: junction to ambient +90 CAN V-| Characteristics t-xty Pulse Wave-form 40-20 0 20 40 60 80100120140 160 Junction Temperature (Tj) - C 4H A a tr = rise time to peak value lk; | = tool |_ Peak td = decay time to half value lg y [fi < Value lH _-+ Hf I 2 : + 5 A Waveform=|tr x td o ! !pRM> A 8 : v tv @ 50Hr--7--- t Half Value 4 t = ' ' Vr VbrM 2 ' ' a Vi 1 7 _ ' ' 0 1 1 tr td Oo t- Time (us) 4 Normalized Vg Change vs. Normalized DC Holding Current vs. Junction Temperature Case Temperature = =~ oO c Flo Oo E cn = > = 5 e 2 ! o 2 cc D oa 40-20 0 20 40 60 80100120140 160 Case Temperature (Tc) - C Teccor Electronics (972) 580-7777