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TPB220 Dataheets PDF



Part Number TPB220
Manufacturers STMicroelectronics
Logo STMicroelectronics
Description TRISIL
Datasheet TPB220 DatasheetTPB220 Datasheet (PDF)

® TPB SERIES TRISILTM FEATURES BIDIRECTIONAL CROWBAR PROTECTION. VOLTAGE RANGE: FROM 62 V TO 270 V. HOLDING CURRENT : IH = 150mA min. REPETITIVE PEAK PULSE CURRENT : IPP = 100 A, 10/1000 µs. UL RECOGNIZED FILE # E136224 DESCRIPTION The TPB series are TRISIL devices especially designed for protecting sensitive telecommunication equipment against lightning and transient voltages induced by AC power lines. They are available in the CB429 axial package. TRISIL devices provide bidirectional protect.

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® TPB SERIES TRISILTM FEATURES BIDIRECTIONAL CROWBAR PROTECTION. VOLTAGE RANGE: FROM 62 V TO 270 V. HOLDING CURRENT : IH = 150mA min. REPETITIVE PEAK PULSE CURRENT : IPP = 100 A, 10/1000 µs. UL RECOGNIZED FILE # E136224 DESCRIPTION The TPB series are TRISIL devices especially designed for protecting sensitive telecommunication equipment against lightning and transient voltages induced by AC power lines. They are available in the CB429 axial package. TRISIL devices provide bidirectional protection by crowbar action. Their characteristic response to transient overvoltages makes them particularly suited to protect voltage sensitive telecommunication equipment. CB429 SCHEMATIC DIAGRAM COMPLIES WITH THE FOLLOWING STANDARDS: CCITT K20 VDE0433 VDE0878 IEC-1000-4-5 FCC Part 68, lightning surge type A FCC Part 68, lightning surge type B BELLCORE TR-NWT-001089 First level BELLCORE TR-NWT-001089 Second level CNET l31-24 October 1998 - Ed: 6A Peak Surge Voltage (V) 4000 4000 4000 level 4 level 4 1500 800 100 2500 1000 500 4000 Voltage Waveform (µs) 10/700 10/700 1.2/50 10/700 1.2/50 10/160 10/560 5/320 2/10 10/1000 2/10 0.5/700 Current Waveform (µs) 5/310 5/310 1/20 5/310 8/20 10/160 10/560 5/320 2/10 10/1000 2/10 0.8/310 Admissible Ipp (A) 100 100 100 100 100 200 100 25 500 100 500 100 Necessary Resistor (Ω) 1/5 TPB SERIES ABSOLUTE MAXIMUM RATINGS (Tamb = 25°C) Symbol P IPP Peak pulse current Parameter Power dissipation on infinite heatsink Tamb = 50 °C 10/1000 µs 8/20 µs 2/10 µs tp = 20 ms tp = 20 ms VRM Value 5 100 150 500 50 25 5 - 55 to + 150 150 230 Unit W A ITSM I t dV/dt Tstg Tj TL 2 Non repetitive surge peak on-state current I t value for fusing Critical rate of rise of off-state voltage Storage temperature range Maximum junction temperature 2 A A2s kV/µs °C °C °C Maximum lead temperature for soldering during 10s at 5mm for case THERMAL RESISTANCES Symbol Rth (j-l) Rth (j-a) Parameter Junction to leads (L lead = 10mm) Junction to ambient on printed circuit (Llead = 10 mm) Value 20 75 Unit °C/W °C/W ELECTRICAL CHARACTERISTICS (Tamb = 25°C) Symbol VRM IRM VR VBR VBO IH IBO IPP C Type Parameter Stand-offvoltage Leakage current at stand-off voltage Continuous Reverse voltage Breakdown voltage Breakover voltage Holding current Breakover current Peak pulse current Capacitance IRM @ VRM max. µA V IR @ VR max. note1 µA V VBO @ IBO max. note2 V mA IH min. note3 mA C max. note4 pF TPB62 TPB68 TPB100 TPB120 TPB130 TPB180 TPB200 TPB220 TPB240 TPB270 Note 1: Note 3: 2 2 2 2 2 2 2 2 2 2 56 61 90 108 117 162 180 198 216 243 50 50 50 50 50 50 50 50 50 50 62 68 100 120 130 180 200 220 240 270 Note 2: Note 4: 82 90 133 160 173 240 267 293 320 360 800 800 800 800 800 800 800 800 800 800 150 150 150 150 150 150 150 150 150 150 300 300 200 200 200 200 200 200 200 200 IR measured at VR guarantees VBRmin ≥ VR See test circuit 2. Measured at 50 Hz (1 cycle) - See test circuit 1. VR = 1V, F = 1MHz, refer to fig.3 for C versus VR . 2/5 TPB SERIES TEST CIRCUIT 1 FOR I BO and V BO parameters: tp = 20ms Auto Transformer 220V/2A static relay. K R1 140 R2 240 220V Vout IBO measure Transformer 220V/800V 5A D.U.T V BO measure TEST PROCEDURE : Pulse Test duration (tp = 20ms): - For Bidirectional devices = Switch K is closed - For Unidirectional devices = Switch K is open. VOUT Selection - Device with VBO ≤ 200 Volt - VOUT = 250 VRMS, R1 = 140 Ω. - Device with VBO ≥ 200 Volt - VOUT = 480 VRMS, R2 = 240 Ω. TEST CIRCUIT 2 for IH parameter R D.U.T. V BAT = - 48 V Surge generator - VP This is a GO-NO GO test which allows to confirm the holding current (IH) level in a functional test circuit. TEST PROCEDURE : - Adjust the current level at the IH value by short circuiting the D.U.T. - Fire the D.U.T. with a surge current : Ipp = 10A, 10/1000 µs. - The D.U.T. will come back to the off-state within 50 ms max. 3/5 TPB SERIES Fig. 1: Non repetitive surge peak on-state current versus overload duration (Tj initial=25°C). Fig. 2: Relative variation of holding current versus junction temperature. Fig. 3: Relative variation of junction capacitance versus reverse applied voltage(typical values). Note: For VRM upper than 56V, the curve is extrapolated(dotted line). Fig. 4: On-state current versus on-state voltage (typical values). Fig. 5: Transient thermal impedance junction to ambient versus pulse duration (for FR4 PC Board with T Lead = 10 mm). 4/5 TPB SERIES ORDER CODE TPB 100 RL PACKAGING: RL = tape and reel. = Ammopack. TRISIL PROTECTION 100A BREAKDOWN VOLTAGE MARKING : Logo, Date Code, Part Number. PACKAGE MECHANICAL DATA. CB429 Plastic DIMENSIONS C A C O / B REF. A B ∅C ∅D Millimeters Inches Min. Typ. Max. Min. Typ. Max. 9.45 26 4.90 0.94 5.00 1.00 9.50 9.80 0.372 0.374 0.386 1.024 5.10 0.193 0.197 0.201 1.06 0.037 0.039 0.042 O /D O /D L1 1.27 0.050 note 1 : the lead is not controlled in zone L1 Packaging : Standardpackagingis in tape andreel. Weight : 0.85g Information furnished is belie.


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