Compak TwinCHIP™ SIDACtor® Device RoHS (T) 2 (G) 3 (R) SIDACtor devices enable equipment to comply with various regulatory requirements including GR 1089, ITU K.20, K.21, and K.45, IEC 60950, UL 60950, and TIA-968-A (formerly known as FCC Part 68). Electrical Parameters Part Number VDRM Volts VS Volts VDRM Volts Pins1-2, 2-3 VS Volts Pins 1-3 VT Volts IDRM µAmps IS mAmps IT Amps IH mAmps 120 P1402C_L 58 77 116 154 4 5 800 2.2 P1602C_L 65 95 130 190 4 5 800 2.2 120 P2202C_L 90 130 180 260 4 5 800 2.2 120 P2702C_L 120 160 240 320 4 5 800 2.2 120 P3002C_L 140 180 280 360 4 5 800 2.2 120 P3602C_L 170 220 340 440 4 5 800 2.2 120 P4202C_L 190 250 380 500 4 5 800 2.2 120 P4802C_L 220 300 440 600 4 5 800 2.2 120 P6002C_L 275 350 550 700 4 5 800 2.2 120 * “L” in part number indicates RoHS compliance. For non-RoHS compliant device, delete “L” from part number. For surge ratings, see table below. General Notes: • All measurements are made at an ambient temperature of 25 °C. IPP applies to -40 °C through +85 °C temperature range. • IPP is a repetitive surge rating and is guaranteed for the life of the product. • Listed SIDACtor devices are bi-directional. All electrical parameters and surge ratings apply to forward and reverse polarities. • VDRM is measured at IDRM. • VS is measured at 100 V/µs. • Special voltage (VS and VDRM) and holding current (IH) requirements are available upon request. • UL 60950 creepage requirements must be considered. Surge Ratings in Amps Series IPP 0.2x310 * 2x10 * 8x20 * 0.5x700 ** 2x10 ** 1.2x50 ** 10x160 * 10x160 ** 10x560 * 10x560 ** 5x320 * 9x720 ** Amps Amps Amps Amps Amps Amps A 20 150 150 90 50 B 25 250 250 150 100 10x360 * 10x1000 * 5x310 * ITSM 10x360 ** 10x1000 ** 10x700 ** 50 / 60 Hz Amps Amps 75 75 100 125 di/dt Amps Amps Amps/µs 45 75 20 500 80 100 30 500 * Current waveform in µs ** Voltage waveform in µs Note: Contact factory for release date of Series B. Telecom Design Guide • © 2006 Littelfuse 3 - 13 www.littelfuse.com SIDACtor Devices The modified DO-214AA SIDACtor devices provide low-cost, longitudinal protection. 1 Compak TwinCHIP™ SIDACtor® Device Thermal Considerations Package Symbol Modified DO-214AA TJ Operating Junction Temperature Range -40 to +150 °C TS Storage Temperature Range -65 to +150 °C 85 °C/W Pin 3 Parameter Value Thermal Resistance: Junction to Ambient RθJA Unit Pin 1 Pin 2 Capacitance Values pF Pin 1-2 / 3-2 Tip-Ground, Ring-Ground Part Number * pF Pin 1-3 Tip-Ring MIN MAX MIN MAX P1402C[A/B]L 30 55 15 35 P1602C[A/B]L 30 55 15 30 P2202C[A/B]L 25 50 15 30 P2702C[A/B]L 25 45 10 25 P3002C[A/B]L 20 40 10 25 P3602C[A/B]L 20 40 10 25 P4202C[A/B]L 20 40 10 25 P4802C[A/B]L 20 35 10 20 P6002C[A/B]L 15 35 10 20 * [A/B] in part number indicates that values are for both A and B surge ratings. Note: Off-state capacitance (CO) is measured at 1 MHz with a 2 V bias. www.littelfuse.com 3 - 14 © 2006 Littelfuse • Telecom Design Guide Compak TwinCHIP™ SIDACtor® Device IT IS IH IDRM -V +V VT VDRM VS Peak Value 100 tr = rise time to peak value td = decay time to half value Waveform = tr x td 50 SIDACtor Devices IPP – Peak Pulse Current – %IPP +I Half Value 0 0 tr td t – Time (µs) -I 14 12 10 IH 8 6 25 ˚C 4 2 IH (TC = 25 ˚C) tr x td Pulse Waveform Ratio of Percent of VS Change – % V-I Characteristics 0 -4 2.0 1.8 1.6 1.4 25 ˚C 1.2 1.0 0.8 0.6 0.4 -40 -20 0 -6 -8 -40 -20 0 20 40 60 80 100 120 140 160 Case Temperature (TC) – ˚C 20 40 60 80 100 120 140 160 Junction Temperature (TJ) – ˚C Normalized VS Change versus Junction Temperature Telecom Design Guide • © 2006 Littelfuse Normalized DC Holding Current versus Case Temperature 3 - 15 www.littelfuse.com