Multiport SLIC Protector 1 (T1) 6 (T2) 2 (G1) 5 (G2) 3 (R1) 4 (R2) This multiport line protector is designed as a single-package solution for protecting multiple twisted pair from overvoltage conditions. Based on a six-pin SOIC package, it is equivalent to four discrete DO-214AA packages. Available in surge current ratings up to 500 A for a 2x10 µs event, the multiport line protector is ideal for densely populated line cards that cannot afford PCB inefficiencies or the use of series power resistors. For details of specific design criteria, see Figure 6.44, Figure 6.45, and Figure 6.46 in Section 6, “Reference Designs” of this Telecom Design Guide. Electrical Parameters VDRM Volts VS Volts Pins 1-2, 2-3, 4-5, 5-6 Part Number * VT Volts VF Volts IDRM µAmps IS mAmps IT Amps IH mAmps 120 P0641U_L 58 77 4 5 5 800 2.2 P0721U_L 65 88 4 5 5 800 2.2 120 P0901U_L 75 98 4 5 5 800 2.2 120 P1101U_L 95 130 4 5 5 800 2.2 120 P1301U_L 120 160 4 5 5 800 2.2 120 P1701U_L 160 200 4 5 5 800 2.2 120 * “L” in part number indicates RoHS compliance. For non-RoHS compliant device, delete “L” from part number. For individual “UA” and “UC” 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. • VDRM is measured at IDRM. • VS and VF are measured at 100 V/µs. • Special voltage (VS and VDRM) and holding current (IH) requirements are available upon request. • Parallel capacitive loads may affect electrical parameters. Surge Ratings in Amps Series IPP 0.2x310 * 2x10 * 8x20 * 0.5x700 ** 2x10 ** 1.2x50 ** 10x160 * 10x160 ** 10x560 * 10x560 ** 5x320 * 9x720 ** Amps Amps Amps 10x360 * 10x1000 * 5x310 * ITSM 10x360 ** 10x1000 ** 10x700 ** 50 / 60 Hz Amps Amps Amps Amps A 20 150 150 90 50 75 75 C 50 500 400 200 150 200 175 Amps di/dt Amps Amps Amps/µs 45 75 20 500 100 200 50 500 * Current waveform in µs ** Voltage waveform in µs Telecom Design Guide • © 2006 Littelfuse 3 - 71 www.littelfuse.com SIDACtor Devices RoHS Multiport SLIC Protector Thermal Considerations Package Symbol Modified MS-013 TJ Operating Junction Temperature Range -40 to +150 °C TS Storage Temperature Range -65 to +150 °C 60 °C/W 6 5 4 Parameter Value Thermal Resistance: Junction to Ambient RθJA Unit 1 2 3 Capacitance Values pF Pin 1-2 / 3-2 (4-5 / 6-5) Tip-Ground, Ring-Ground Part Number pF Pin 1-3 (4-6) Tip-Ring MIN MAX MIN MAX P0641UAL 50 200 20 105 P0641UCL 65 200 20 105 P0721UAL 45 190 20 105 P0721UCL 60 190 20 105 P0901UAL 45 180 20 105 P0901UCL 60 180 20 105 P1101UAL 40 160 15 105 P1101UCL 50 160 15 105 P1301UAL 40 160 15 105 P1301UCL 50 160 15 105 P1701UAL 30 125 15 80 P1701UCL 40 125 15 80 Note: Off-state capacitance (CO) is measured at 1 MHz with a 2 V bias. www.littelfuse.com 3 - 72 © 2006 Littelfuse • Telecom Design Guide Multiport SLIC Protector VF VS VDRM VT -V IDRM +V IH IS 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 IT 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 - 73 www.littelfuse.com