0LFUR&DSDFLWDQFH0&6,'$&WRU'HYLFH RoHS ¨ These TO-92 MC SIDACtor devices are intended for applications sensitive to load values. Typically, high speed connections, such as xDSL and T1/E1, require a lower capacitance. CO values for the MicroCapacitance device are 40 percent lower than a standard EC part. This MC SIDACtor series enables 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) without the need of series resistors. Electrical Parameters Part Number * VDRM Volts VS Volts VT Volts IDRM μAmps IS mAmps IT Amps IH mAmps P0080ECMCL 6 25 4 5 800 2.2 50 P0300ECMCL 25 40 4 5 800 2.2 50 P0640ECMCL 58 77 4 5 800 2.2 150 P0720ECMCL 65 88 4 5 800 2.2 150 P0900ECMCL 75 98 4 5 800 2.2 150 P1100ECMCL 90 130 4 5 800 2.2 150 P1300ECMCL 120 160 4 5 800 2.2 150 P1500ECMCL 140 180 4 5 800 2.2 150 P1800ECMCL 170 220 4 5 800 2.2 150 P2300ECMCL 190 260 4 5 800 2.2 150 P2600ECMCL 220 300 4 5 800 2.2 150 P3100ECMCL 275 350 4 5 800 2.2 150 P3500ECMCL 320 400 4 5 800 2.2 150 * “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. Surge Ratings in Amps Series IPP C 0.2x310 * 2x10 * 8x20 * 0.5x700 ** 2x10 ** 1.2x50 ** 10x160 * 10x160 ** 10x560 * 10x560 ** 5x320 * 9x720 ** 10x360 * 10x1000 * 5x310 * ITSM 10x360 ** 10x1000 ** 10x700 ** 50 / 60 Hz di/dt Amps Amps Amps Amps Amps Amps Amps Amps Amps Amps Amps/μs 50 500 400 200 150 200 175 100 200 30 500 * Current waveform in μs ** Voltage waveform in μs www.littelfuse.com 3 - 22 © 2006 Littelfuse, Inc. • Telecom Design Guide 0LFUR&DSDFLWDQFH0&6,'$&WRU'HYLFH Thermal Considerations TO-92 Symbol Parameter Value Unit TJ Operating Junction Temperature Range -40 to +150 °C TS Storage Temperature Range -65 to +150 °C 90 °C/W Thermal Resistance: Junction to Ambient RθJA 5+&#%VQT&GXKEGU Package Capacitance Values pF Part Number MIN MAX P0080ECMCL 35 75 P0300ECMCL 25 45 P0640ECMCL 55 85 P0720ECMCL 50 75 P0900ECMCL 45 70 70 P1100ECMCL 45 P1300ECMCL 40 60 P1500ECMCL 35 55 P1800ECMCL 35 50 P2300ECMCL 30 50 P2600ECMCL 30 45 P3100ECMCL 30 45 P3500ECMCL 25 40 Note: Off-state capacitance (CO) is measured at 1 MHz with a 2 V bias. Telecom Design Guide • © 2006 Littelfuse, Inc. 3 - 23 www.littelfuse.com 0LFUR&DSDFLWDQFH0&6,'$&WRU'HYLFH IPP – Peak Pulse Current – %IPP +I 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 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 Junction Temperature (TJ) – ˚C Normalized VS Change versus Junction Temperature www.littelfuse.com 20 40 60 80 100 120 140 160 Case Temperature (TC) – ˚C Normalized DC Holding Current versus Case Temperature 3 - 24 © 2006 Littelfuse, Inc. • Telecom Design Guide