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SMP80MC Dataheets PDF



Part Number SMP80MC
Manufacturers STMicroelectronics
Logo STMicroelectronics
Description TRISIL
Datasheet SMP80MC DatasheetSMP80MC Datasheet (PDF)

SMP80MC TRISIL™ for telecom equipment protection Features ■ Bidirectional crowbar protection www.DataSheet4U.com ■ Voltage: range from 120 V to 320 ■ ■ ■ ■ ■ ■ V Low VBO / VR ratio Micro capacitance equal to 12 pF @ 50 V Low leakage current : IR = 2 µA max Holding current: IH = 150 mA min Repetitive peak pulse current : IPP = 80 A (10/1000 µs) SMB (JEDEC DO-214AA) Main applications Any sensitive equipment requiring protection against lightning strikes and power crossing: ■ Order codes Part N.

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SMP80MC TRISIL™ for telecom equipment protection Features ■ Bidirectional crowbar protection www.DataSheet4U.com ■ Voltage: range from 120 V to 320 ■ ■ ■ ■ ■ ■ V Low VBO / VR ratio Micro capacitance equal to 12 pF @ 50 V Low leakage current : IR = 2 µA max Holding current: IH = 150 mA min Repetitive peak pulse current : IPP = 80 A (10/1000 µs) SMB (JEDEC DO-214AA) Main applications Any sensitive equipment requiring protection against lightning strikes and power crossing: ■ Order codes Part Number SMP80MC-120 SMP80MC-140 SMP80MC-160 SMP80MC-200 SMP80MC-230 Marking TP12 TP14 TP16 TP20 TP23 TP27 TP32 Terminals (phone, fax, modem...) and central office equipment Description The SMP80MC is a series of micro capacitance transient surge arrestors designed for the protection of high debit rate communication equipment on CPE side. Its micro capacitance avoids any distortion of the signal and is compatible with digital transmission like ADSL2 and ADSL2+. SMP80MC-270 SMP80MC-320 Schematic diagram Benefits Trisils are not subject to ageing and provide a fail safe mode in short circuit for a better protection. They are used to help equipment to meet main standards such as UL1950, IEC950 / CSA C22.2 and UL1459. They have UL94 V0 approved resin. SMB package is JEDEC registered (DO-214AA). Trisils comply with the following standards GR1089 Core, ITU-T-K20/K21, VDE0433, VDE0878, IEC61000-4-5 and FCC part 68. TM: TRISIL is a trademark of STMicroelectronics. January 2007 Rev 4 1/10 www.st.com 10 Characteristics SMP80MC 1 Characteristics Table 1. Complies with the following standards Peak Surge Voltage (V) 2500 1000 5000 1500 6000 1500 8000 15000 4000 2000 4000 2000 4000 4000 1500 800 1000 Required Waveform peak current Voltage (A) 2/10 µs 10/1000 µs 2/10 µs 2/10 µs 10/700 µs 1/60 ns 10/700 µs 1.2/50 µs 10/700 µs 1.2/50 µs 10/160 µs 10/560 µs 9/720 µs 500 100 500 100 150 37.5 Minimum serial Current resistor to meet waveform standard (Ω) 2/10 µs 10/1000 µs 2/10 µs 2/10 µs 5/310 µs 5 2.5 10 0 10 0 0 0 0 0 0 0 0 0 2.5 0 0 STANDARD GR-1089 Core First level www.DataSheet4U.com GR-1089 Core Second level GR-1089 Core Intra-building ITU-T-K20/K21 ITU-T-K20 (IEC61000-4-2) VDE0433 VDE0878 IEC61000-4-5 FCC Part 68, lightning surge type A FCC Part 68, lightning surge type B ESD contact discharge ESD air discharge 100 50 100 50 100 100 200 100 25 5/310 µs 1/20 µs 5/310 µs 8/20 µs 10/160 µs 10/560 µs 5/320 µs Table 2. Symbol Absolute ratings (Tamb = 25° C) Parameter Conditions Value 80 200 100 120 150 200 250 5 14 8 6.5 2 7.5 7.8 -55 to 150 150 Unit IPP Repetitive peak pulse current (see Figure 1) IFS ITSM I2t Tstg Tj TL Fail-safe mode : maximum current (1) Non repetitive surge peak on-state current (sinusoidal) I2t value for fusing 10/1000 µs 8/20 µs 10/560 µs 5/310 µs 10/160 µs 1/20 µs 2/10 µs 8/20 µs t = 0.2 s t=1s t=2s t = 15 mn t = 16.6 ms t = 20 ms A kA A A2s °C Storage temperature range Maximum junction temperature Maximum lead temperature for soldering during 10 s. 260 °C 1. in fail safe mode, the device acts as a short circuit 2/10 SMP80MC Table 3. Symbol Rth(j-a) Rth(j-l) Characteristics Thermal resistances Parameter Junction to ambient (with recommended footprint) Junction to leads Value 100 20 Unit ° C/W ° C/W Table 4. Symbol VRM www.DataSheet4U.com Electrical characteristics (Tamb = 25° C) Parameter Stand-off voltage Breakdown voltage Breakover voltage Leakage current Peak pulse current Breakover current Holding current Continuous reverse voltage Leakage current at VR Capacitance Dynamic Static VBO(2) VBO @ IBO(3) max. V 120 140 160 5 200 230 270 320 V 155 180 205 255 295 345 400 max. V 155 180 205 255 295 345 400 800 150 12 25 max. mA VBR VBO IRM IPP IBO IH VR IR C IRM @ VRM Types max. µA SMP80MC-120 SMP80MC-140 SMP80MC-160 SMP80MC-200 SMP80MC-230 SMP80MC-270 SMP80MC-320 2 V 108 126 144 180 207 243 290 IR @ VR(1) max. µA IH(4) min. mA C(5) typ. pF C(6) typ. pF 1. IR measured at VR guarantee VBR min ≥ VR 2. See Figure 9 functional test circuit 1 3. See Figure 10 test circuit 2 4. See Figure 11 functional holding current test circuit 3 5. VR = 50 V bias, VRMS = 1 V, F= 1 MHz 6. VR = 2 V bias, VRMS = 1 V, F = 1 MHz 3/10 Characteristics SMP80MC Figure 1. Pulse waveform Figure 2. ITSM(A) Non repetitive surge peak on-state current versus overload duration % I PP 100 Repetitive peak pulse current tr = rise time (µs) tp = pulse duration time (µs) 40 35 30 25 F=50Hz Tj initial = 25°C 50 www.DataSheet4U.com 20 15 10 0 tr tp t 5 t(s) 0 1.E-02 1.E-01 1.E+00 1.E+01 1.E+02 1.E+03 Figure 3. On-state voltage versus on-state current (typical values) Figure 4. Relative variation of holding current versus junction temperature IT(A) 100 Tj=25°C IH[Tj] / IH[Tj=25°C] 2.0 1.8 1.6 1.4 1.2 1.0 0.8 0.6 0.4 VT(V) 10 0 1 2 3 4 5 6 7 8 0.2 0.0 -40 -30 -20 -10 0 10 20 30 Tj(°C) 40 50 60 70 80 90 100 110 120 130 Figure 5. Relative variation of breakover voltage versus junction tempera.


25F512 SMP80MC C4115


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