2 2 2 2 2 2 2 2 VBO max @ IBO VR @ IR Part number (V) (A) (V) (mA) IH min (mA) C typ @ VR=2V (pF) 50 (typ) 150 150 150 150 150 150 150 150 150 150 150 150 150 75 65 55 90 80 75 65 65 60 60 60 50 50 45 Package Trisils for telecom equipment - SMB SMP100LC-8 SMP100LC-25 SMP100LC-35 SMP100LC-65 SMP100LC-90 SMP100LC-120 SMP100LC-140 SMP100LC-160 SMP100LC-200 SMP100LC-230 SMP100LC-270 SMP100LC-320 SMP100LC-360 SMP100LC-400 5 5 5 5 5 5 5 5 5 5 5 5 5 5 8 25 35 65 90 120 140 160 200 230 270 320 360 400 25 40 55 85 125 160 190 205 255 295 345 400 460 540 800 800 800 800 800 800 800 800 800 800 800 800 800 800 SMB SMB SMB SMB SMB SMB SMB SMB SMB SMB SMB SMB SMB SMB * 10/1000s waveform Protection ICs: Telecom line topology -Vbat TIP THBTxxx11D Relay (SO-8) TLPxxxG/G-1 (D2PAK/I2PAK) GND TAB TIP 1 GND 2 TAB 8 TIP Protection 2 (P2) Protection 1 (P1) SLIC 7 GND RING GND 3 6 GND Ring generator 5 RING RING 4 TAB TAB 2 (NC) TIP RING Fixed voltage protection for telecom solid state relay (P1) IPP max* (A) VR @ IR Pa
TSM @50Hz A IH mA Package Marking 30 30 30 30 30 30 U01 U13 U17 U19 U31 U39 SMTPA62 SMTPA100 SMTPA120 SMTPA130 SMTPA220 SMTPA270 50 50 150 150 150 150 150 150 150 150 35 24 24 24 24 24 24 24 24 24 L08 PL8 L25 L16 L20 L23 L27 L32 L40 L35 SMP75-8 SMP100LC-8 SMP100LC-25 SMP100LC-160 SMP100LC-200 SMP100LC-230 SMP100LC-270 SMP100MC-320 SMP100MC-400 SMP100LC-35 Semiconductors 2 1+ 25+ 100+ 1K+ 3K+ BZA856AVL BZA862A 873-5115 873-5123 873-5158 873-5182 873-5212 0.220 0.370 0.270 0.390 0.260 0.135 0.230 0.184 0.250 0.189 0.094 0.163 0.139 0.168 0.139 0.068 0.120 0.106 0.123 0.106 I I I I I 100+ Vbr min. V 250+ 1K+ Discrete & Power Devices SMB Package, Ipp=100A (8/20s), Ppp=5W. 980-2959 SMTPA62 SMTPA100 980-2908 980-2916 SMTPA120 980-2924 SMTPA130 SMTPA220 980-2932 980-2940 SMTPA270 0.69 0.96 0.58 0.81 1.16 0.68 0.47 0.63 0.46 0.60 0.83 0.51 0.38 0.52 0.40 0.51 0.69 0.45 0.32 0.48 0.36 0.44 0.60 0.44 0.30 0.41 0.35 0.40 0.53 0.43 SMB Package, Ipp=250A (8/20s) 980-2894 SMP75-8 SMP100LC-8 990-7238 990-7203 <
cteristics SMP100LC Table 4. Electrical characteristics - values (Tamb = 25 C) IRM @ VRM Order code max. A IR @ VR Static Dynamic VBO (1) VBO @ IBO (2) max. V A C(4) C(5) max. max. max. min. typ. typ. V V V mA mA pF pF 50 (typ.) NA 75 SMP100LC-8 6 8 25 15 SMP100LC-25 22 25 40 35 NA 65 SMP100LC-35 32 35 55 55 NA 55 SMP100LC-65 55 65 85 85 45 90 SMP100LC-90 81 90 120 125 40 80 SMP100LC-120 108 120 155 150 35 75 140 180 175 30 65 30 65 SMP100LC-140 2 126 5 800 150 SMP100LC-160 144 160 205 200 SMP100LC-200 180 200 255 250 30 60 SMP100LC-230 207 230 295 285 30 60 SMP100LC-270 243 270 345 335 30 60 SMP100LC-320 290 320 400 390 25 50 SMP100LC-360 325 360 460 450 25 50 SMP100LC-400 360 400 540 530 20 45 1. See Figure 16: Test circuit 1 for Dynamic IBO and VBO parameters 2. See Figure 17: Test circuit 2 for IBO and VBO parameters 3. See Figure 18: Test circuit 3 for dynamic IH parameter 4. VR = 50 V bias, VRMS =1 V, F = 1 MHz 5. VR = 2V bias, VRMS =1 V, F = 1 MHz 4/13 IH (3) Doc ID 7050 Rev 14 SMP100LC Fi
SA 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. December 2004 Marking SMP100LC-8 PL8 SMP100LC-25 L25 SMP100LC-35 L35 SMP100LC-65 L06 SMP100LC-90 L09 SMP100LC-120 L12 SMP100LC-140 L14 SMP100LC-160 L16 SMP100LC-200 L20 SMP100LC-230 L23 SMP100LC-270 L27 SMP100LC-320 L32 SMP100LC-360 L36 SMP100LC-400 L40 Figure 1: Schematic Diagram REV. 10 1/10 SMP100LC Table 2: In compliance with the following standards STANDARD Peak Surge Voltage (V) Waveform Voltage Required peak current (A) Current waveform Minimum serial resistor to meet standard () GR-1089 Core First level 2500 1000 2/10 s 10/1000 s 500 100 2/10 s 10/1000 s 0 0 GR-1089 Core Second level 5000 2/10 s 500 2/10 s 0 GR-1089 Core Intra-building 1500 2/10 s 100 2/10 s 0 ITU-T-K20/K21 6000 1500 10/700 s 150 37.5 5/310 s 0 0 ITU-T-K20 (IEC61000-4-2) 8000 15000 1/60 ns VDE0433 4000 2000
nd power crossing. These devices are dedicated to central office protection as they comply with the most stressfull standards. Their Low Capacitances make them suitable for ADSL. SMB (JEDEC DO-214AA) Table 1: Order Codes Part Number Marking SMP100LC-8 PL8 SMP100LC-25 L25 SMP100LC-35 L35 SMP100LC-65 L06 SMP100LC-90 L09 DESCRIPTION The SMP100LC is a series of low capacitance transient surge arrestors designed for the protection of high debit rate communication equipment. Its low capacitance avoids any distortion of the signal and is compatible with digital transmission line cards (xDSL, ISDN...). SMP100LC series tested and confirmed compatible with Cooper Bussmann Telecom Circuit Protector TCP 1.25A. SMP100LC-120 L12 SMP100LC-140 L14 SMP100LC-160 L16 SMP100LC-200 L20 SMP100LC-230 L23 SMP100LC-270 L27 SMP100LC-320 L32 SMP100LC-360 L36 BENEFITS SMP100LC-400 L40 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 m
(mA) 8 5 15 50 C typ @ VR = 2 V Package (pF) SMP80MC-120 SMP80MC-140 SMP80MC-160 SMP80MC-200 SMP80MC-230 SMP80MC-270 SMP80MC-320 Part number SMP100MC-140 SMP100MC-160 SMP100MC-200 SMP100MC-230 SMP100MC-270 SMP100MC-320 SMP100MC-360 SMP100MC-400 SMP100LC-8 SMP100LC-25 SMP100LC-35 SMP100LC-65 SMP100LC-90 SMP100LC-120 SMP100LC-140 SMP100LC-160 SMP100LC-200 SMP100LC-230 SMP100LC-270 SMP100LC-320 SMP100LC-360 SMP100LC-400 500 3.6 1 6.8 30 150 STmite SM2T6V8A 200 5 50 6.4 10 9.2 19.6 150 STmite SM2T14A 200 12 1 13.3 1 19.9 9 150 STmite SM2T18A 200 16 1 17.1 1 26 7 150 STmite SM2T27A 200 24 1 25.7 1 28.9 4.6 150 STmite 30 30 30 100 100 VRM IPP ITU-T K20/21 5/310 s (A) (V) 135 180 240 180 230 37.5 37.5 37.5 150 150 IRM max @ VRM (A) 5 5 5 5 5 VBR min @ IR VBO max (V) (A) (V) 150 200 270 200 270 50 50 50 50 50 210 290 380 290 400 IH min Package (mA) C typ @ VR = 2 V (pF) 150 150 150 150 150 80 80 80 110 110 SO-8 SO-8 SO-8 I2PAK I2PAK 75 SMB Fixed voltage protection for telecom solid-state relays Part numb
SA 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. November 2004 Marking SMP100LC-8 PL8 SMP100LC-25 L25 SMP100LC-35 L35 SMP100LC-65 L06 SMP100LC-90 L09 SMP100LC-120 L12 SMP100LC-140 L14 SMP100LC-160 L16 SMP100LC-200 L20 SMP100LC-230 L23 SMP100LC-270 L27 Figure 1: Schematic Diagram REV. 9 1/10 SMP100LC Table 2: In compliances with the following standards STANDARD Peak Surge Voltage (V) Waveform Voltage Required peak current (A) Current waveform Minimum serial resistor to meet standard () GR-1089 Core First level 2500 1000 2/10 s 10/1000 s 500 100 2/10 s 10/1000 s 0 0 GR-1089 Core Second level 5000 2/10 s 500 2/10 s 0 GR-1089 Core Intra-building 1500 2/10 s 100 2/10 s 0 ITU-T-K20/K21 6000 1500 10/700 s 150 37.5 5/310 s 0 0 ITU-T-K20 (IEC61000-4-2) 8000 15000 1/60 ns VDE0433 4000 2000 10/700 s 100 50 5/310 s 0 0 VDE0878 4000 2000 1.2/
olding current VR Continuous reverse voltage IR Leakage current at VR C Capacitance IRM @ VRM Type max. A IR @ VR (1) Dynamic Static VBO (2) VBO @ IBO (3) max. V A V IH (4) C(5) C(6) max. max. max. min. typ. typ. V V mA mA pF pF SMP100LC-8 6 8 25 15 NA 75 SMP100LC-25 22 25 40 35 50 (typ.) NA 65 SMP100LC-35 32 35 55 55 NA 55 SMP100LC-65 55 65 85 85 45 90 SMP100LC-90 81 90 120 125 40 80 SMP100LC-120 108 120 155 150 35 75 140 180 175 30 65 30 65 SMP100LC-140 SMP100LC-160 2 126 144 5 160 205 200 800 150 SMP100LC-200 180 200 255 250 30 60 SMP100LC-230 207 230 295 285 30 60 SMP100LC-270 243 270 345 335 30 60 SMP100LC-320 290 320 400 390 25 50 SMP100LC-360 325 360 460 450 25 50 SMP100LC-400 360 400 540 530 20 45 1. IR measured at VR guarantee VBR min VR 2. See Figure 15: Test circuit 1 for Dynamic IBO and VBO parameters 3. See Figure 16: Test circuit 2 for IBO and VBO parameters 4. See Figure 17: Test circuit 3 for dynamic IH parameter 5. VR = 50 V bias, VRMS =1 V, F = 1 MHz 6. VR = 2V bias, VRMS =1 V,
cteristics SMP100LC Table 4. Electrical characteristics - values (Tamb = 25 C) IRM @ VRM Order code max. A IR @ VR Static Dynamic VBO (1) VBO @ IBO (2) max. V A C(4) C(5) max. max. max. min. typ. typ. V V V mA mA pF pF 50 (typ.) NA 75 SMP100LC-8 6 8 25 15 SMP100LC-25 22 25 40 35 NA 65 SMP100LC-35 32 35 55 55 NA 55 SMP100LC-65 55 65 85 85 45 90 SMP100LC-90 81 90 120 125 40 80 SMP100LC-120 108 120 155 150 35 75 140 180 175 30 65 30 65 SMP100LC-140 2 126 5 800 150 SMP100LC-160 144 160 205 200 SMP100LC-200 180 200 255 250 30 60 SMP100LC-230 207 230 295 285 30 60 SMP100LC-270 243 270 345 335 30 60 SMP100LC-320 290 320 400 390 25 50 SMP100LC-360 325 360 460 450 25 50 SMP100LC-400 360 400 540 530 20 45 1. See Figure 16: Test circuit 1 for Dynamic IBO and VBO parameters 2. See Figure 17: Test circuit 2 for IBO and VBO parameters 3. See Figure 18: Test circuit 3 for dynamic IH parameter 4. VR = 50 V bias, VRMS =1 V, F = 1 MHz 5. VR = 2V bias, VRMS =1 V, F = 1 MHz 4/13 IH (3) Doc ID 7050 Rev 14 SMP100LC Fi
tr t tp ELECTRICAL PARAMETERS (Tamb = 25C) Type IRM @ VRM max. IR @ VR max. Note 1 A A V Static Dynamic C C IH VBO @ IBO VBO @ IBO min. typ. typ. max. max max. max Note 4 Note 5 Note 6 Note 2 Note 3 V V mA V mA mA pF pF SMP100LC-8 6 8 25 15 50 (typ) NA 75 SMP100LC-25 22 25 40 35 150 NA 65 SMP100LC-35 32 35 55 55 150 NA 55 SMP100LC-65 55 65 85 85 150 45 90 SMP100LC-90 81 90 120 125 150 40 80 SMP100LC-120 2 800 155 150 35 75 140 185 190 150 30 65 SMP100LC-160 144 160 210 220 150 30 65 SMP100LC-200 170 200 265 275 150 30 60 SMP100LC-230 200 230 300 320 150 30 60 SMP100LC-270 230 262 350 370 150 30 60 IR measured at VR guarantee VBR min VR See functional test circuit 1 See test circuit 2 Note 4: Note 5: Note 6: 160 800 120 120 Note 1: Note 2: Note 3: 108 50 SMP100LC-140 See funtional holding current test circuit 3 VR = 50V bias, VRMS=1V, F=1MHz VR = 2V bias, VRMS=1V, F=1MHz 3/8 SMP100LC-xxx Fig. 1: Non repetitive surge peak on-state current versus overload duration (Tj initial = 25 C). Fig. 2: On-sta
(s) tp: pulse duration time (s) ex: Pulse waveform 10/1000s tr = 10s tp = 1000s % IPP 100 50 0 tr t tp ELECTRICAL PARAMETERS (Tamb = 25C) Type IRM @ VRM max. IR @ VR max. Note 1 A A V V 6 8 25 22 25 40 32 35 55 SMP100LC-65 55 65 SMP100LC-90 81 SMP100LC-8 SMP100LC-25 SMP100LC-35 SMP100LC-120 2 V Static Dynamic C C IH VBO @ IBO VBO @ IBO min. typ. typ. max. max max. max Note 4 Note 5 Note 6 Note 2 Note 3 108 50 mA mA pF pF 15 50 (typ) NA 75 35 150 NA 65 55 150 NA 55 85 85 150 45 90 90 120 125 150 40 80 120 155 150 35 75 800 V 160 mA 800 SMP100LC-140 120 140 185 190 150 30 65 SMP100LC-160 144 160 210 220 150 30 65 SMP100LC-200 170 200 265 275 150 30 60 SMP100LC-230 200 230 300 320 150 30 60 SMP100LC-270 230 262 350 370 150 30 60 Note 1: Note 2: Note 3: IR measured at VR guarantee VBR min VR See functional test circuit 1 See test circuit 2 Note 4: Note 5: Note 6: See funtional holding current test circuit 3 VR = 50V bias, VRMS=1V, F=1MHz VR = 2V bias, VRMS=1V, F=1MHz 3/8 SMP100LC-xxx Fig. 1: Non rep
50 0 tr t tp DYNAMIC PARAMETERS (Tamb = 25C) Type IRM @ VRM max. IR @ VR max. Note 1 A A V Static Dynamic C C IH VBO @ IBO VBO @ IBO min. typ. typ. max. max max. max Note 4 Note 5 Note 6 Note 2 Note 3 V V mA V mA mA pF SMP100LC-8 6 8 25 15 50 (typ) NA 75 SMP100LC-25 22 25 40 35 150 NA 65 SMP100LC-35 32 35 55 55 150 NA 55 SMP100LC-65 55 65 85 85 150 45 90 SMP100LC-90 81 90 120 125 150 40 80 120 155 150 35 75 SMP100LC-120 2 108 50 800 160 800 SMP100LC-140 120 140 185 190 150 30 65 SMP100LC-160 144 160 210 220 150 30 65 SMP100LC-200 170 200 265 275 150 30 60 SMP100LC-230 200 230 300 320 150 30 60 SMP100LC-270 230 262 350 370 150 30 60 Note 1: Note 2: Note 3: Note 4: Note 5 Note 6 IR measured at VR guarantee VBR min VR See functional test circuit 1 See test circuit 2 See funtional holding current test circuit 3 VR = 50V bias, VRMS=1V, F=1MHz VR = 2V bias, VRMS=1V, F=1MHz 3/7 SMP100LC-xxx Fig 1 : Non repetitive surge peak on-state current versus overload duration (Tj initial = 25 C). Fig 2 : Relative
current VR Continuous reverse voltage IR Leakage current at VR C Capacitance IRM @ VRM Order code max. A IR @ VR (1) Dynamic Static VBO (2) VBO @ IBO (3) max. V A V IH (4) C(5) C(6) max. max. max. min. typ. typ. V V mA mA pF pF SMP100LC-8 6 8 25 15 NA 75 SMP100LC-25 22 25 40 35 50 (typ.) NA 65 SMP100LC-35 32 35 55 55 NA 55 SMP100LC-65 55 65 85 85 45 90 SMP100LC-90 81 90 120 125 40 80 SMP100LC-120 108 120 155 150 35 75 140 180 175 30 65 30 65 SMP100LC-140 SMP100LC-160 2 126 144 5 160 205 200 800 150 SMP100LC-200 180 200 255 250 30 60 SMP100LC-230 207 230 295 285 30 60 SMP100LC-270 243 270 345 335 30 60 SMP100LC-320 290 320 400 390 25 50 SMP100LC-360 325 360 460 450 25 50 SMP100LC-400 360 400 540 530 20 45 1. IR measured at VR guarantee VBR min VR 2. See Figure 15: Test circuit 1 for Dynamic IBO and VBO parameters 3. See Figure 16: Test circuit 2 for IBO and VBO parameters 4. See Figure 17: Test circuit 3 for dynamic IH parameter 5. VR = 50 V bias, VRMS =1 V, F = 1 MHz 6. VR = 2V bias, VRMS =1 V,
6 22 32 55 81 108 126 144 180 207 243 290 325 360 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 Part number SMP75-8 SMP80MC-140 SMP80MC-160 SMP80MC-200 SMP80MC-230 SMP80MC-270 SMP100MC-140 SMP100MC-160 SMP100MC-200 SMP100MC-230 SMP100MC-270 SMP100LC-8 SMP100LC-25 SMP100LC-35 SMP100LC-65 SMP100LC-90 SMP100LC-120 SMP100LC-140 SMP100LC-160 SMP100LC-200 SMP100LC-230 SMP100LC-270 SMP100LC-320 SMP100LC-360 SMP100LC-400 [V] VR @ IR [A] VBO max @ IBO [V] [mA] IH min [mA] C typ @ VR = 2V [pF] Package 8 140 160 200 230 270 140 160 200 230 270 8 25 35 65 90 120 140 160 200 230 270 320 360 400 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 15 190 220 275 320 370 180 205 255 295 345 25 40 55 85 125 160 190 205 255 295 345 400 460 540 800 800 800 800 800 800 800 800 800 800 800 800 800 800 800 800 800 800 800 800 800 800 800 800 800 50 (typ) 150 150 150 150 150 150 150 150 150 150 50 (typ) 150 150 150 150 150 150 150 150 150 150 150 150 150 75 27 26 26 26 26 60 50 45 40 40 75 65 55 90 80 75 65 65 60 60
160 75 150 SMB SMP100LC-140 Bidirectional 100 150 500 140 5 190 65 150 SMB SMP100LC-160 Bidirectional 100 150 500 160 5 205 65 150 SMB SMP100LC-200 Bidirectional 100 150 500 200 5 255 60 150 SMB SMP100LC-230 Bidirectional 100 150 500 230 5 295 60 150 SMB SMP100LC-25 Bidirectional 100 150 500 25 5 40 65 150 SMB SMP100LC-270 Bidirectional 100 150 500 270 5 345 60 150 SMB SMP100LC-320 Bidirectional 100 150 500 320 5 400 50 150 SMB SMP100LC-360 Bidirectional 100 150 500 360 5 460 50 150 SMB SMP100LC-400 Bidirectional 100 150 500 400 5 540 45 150 SMB SMP100MC-140 Bidirectional 100 150 500 140 5 180 60 150 SMB SMP100MC-160 Bidirectional 100 150 500 160 5 205 50 150 SMB SMP100MC-200 Bidirectional 100 150 500 200 5 255 45 150 SMB SMP100MC-230 Bidirectional 100 150 500 230 5 295 40 150 SMB SMP100MC-270 Bidirectional 100 150 500 270 5 345 40 150 SMB SMP100MC-320 Bidirectional 100 150 500 320 5 400 35 150 SMB SMP100MC-360 Bidirectional 100 150 500 360 5 460 35 150 SMB 32 Part number Directionality Peak pul