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| TISP3180 DUAL SYMMETRICAL TRANSIENT VOLTAGE SUPPRESSORS Copyright (c) 1997, Power Innovations Limited, UK NOVEMBER 1986 - REVISED SEPTEMBER 1997 TELECOMMUNICATION SYSTEM SECONDARY PROTECTION q Ion-Implanted Breakdown Region Precise and Stable Voltage Low Voltage Overshoot under Surge DEVICE `3180 V(Z) V 145 V(BO) V 180 TO-220 PACKAGE (TOP VIEW) A(T) C(G) B(R) 1 2 3 q Planar Passivated Junctions Low Off-State Current < 10 A Rated for International Surge Wave Shapes WAVE SHAPE 8/20 s 10/160 s 10/560 s 0.2/310 s 10/700 s 10/1000 s STANDARD ANSI C62.41 FCC Part 68 FCC Part 68 RLM 88 FTZ R12 VDE 0433 CCITT IX K17/K20 REA PE-60 ITSP A 150 60 45 38 50 50 50 50 Pin 2 is in electrical contact with the mounting base. MDXXANA q device symbol q UL Recognized, E132482 description The TISP3180 is designed specifically for telephone equipment protection against lightning and transients induced by a.c. power lines. These devices consist of two bidirectional suppressor elements connected to a Common (C) terminal. They will supress voltage transients between terminals A and C, B and C, and A and B. Transients are initially clipped by zener action until the voltage rises to the breakover level, which causes the device to crowbar. The high crowbar holding current prevents d.c. latchup as the transient subsides. These monolithic protection devices are fabricated in ion-implanted planar structures to ensure precise and matched breakover control and are virtually transparent to the system in normal operation. PRODUCT INFORMATION Information is current as of publication date. Products conform to specifications in accordance with the terms of Power Innovations standard warranty. Production processing does not necessarily include testing of all parameters. 1 TISP3180 DUAL SYMMETRICAL TRANSIENT VOLTAGE SUPPRESSORS NOVEMBER 1986 - REVISED SEPTEMBER 1997 absolute maximum ratings at 25C case temperature (unless otherwise noted) RATING Non-repetitive peak on-state pulse current (see Notes 1, 2 and 3) 8/20 s (ANSI C62.41, open-circuit voltage wave shape 1.2/50 s) 10/160 s (FCC Part 68, open-circuit voltage wave shape 10/160 s) 5/200 s (VDE 0433, open-circuit voltage wave shape 2 kV, 10/700 s) 0.2/310 s (RLM 88, open-circuit voltage wave shape 1.5 kV, 0.5/700 s) 5/310 s (CCITT IX K17/K20, open-circuit voltage wave shape 2 kV, 10/700 s) 5/310 s (FTZ R12, open-circuit voltage wave shape 2 kV, 10/700 s) 10/560 s (FCC Part 68, open-circuit voltage wave shape 10/560 s) 10/1000 s (REA PE-60, open-circuit voltage wave shape 10/1000 s) Non-repetitive peak on-state current, 50 Hz, 2.5 s (see Notes 1 and 2) Initial rate of rise of on-state current, Junction temperature Operating free - air temperature range Storage temperature range Lead temperature 1.5 mm from case for 10 s Tstg Tlead Linear current ramp, Maximum ramp value < 38 A ITSM diT/dt TJ ITSP 150 60 50 38 50 50 45 50 10 250 150 0 to 70 -40 to +150 260 A rms A/s C C C C A SYMBOL VALUE UNIT NOTES: 1. Above 70C, derate linearly to zero at 150C case temperature 2. This value applies when the initial case temperature is at (or below) 70C. The surge may be repeated after the device has returned to thermal equilibrium. 3. Most PTT's quote an unloaded voltage waveform. In operation the TISP essentially shorts the generator output. The resulting loaded current waveform is specified. . electrical characteristics for the A and B terminals, TJ = 25C PARAMETER VZ ID Coff NOTE Reference zener voltage Off-state leakage current Off-state capacitance IZ = 1mA VD = 50 V VD = 0 f = 1 kHz (see Note 4) 0.5 TEST CONDITIONS MIN 290 10 5 TYP MAX UNIT V A pF 4: These capacitance measurements employ a three terminal capacitance bridge incorporating a guard circuit. The third terminal is connected to the guard terminal of the bridge. electrical characteristics for the A and C or the B and C terminals, TJ = 25C PARAMETER VZ VZ Reference zener voltage Temperature coefficient of reference voltage Breakover voltage Breakover current Peak on-state voltage Holding current Critical rate of rise of off-state voltage Off-state leakage current Off-state capacitance (see Notes 5 and 6) (see Note 5) IT = 5 A (see Note 5) (see Note 7) VD = 50 V VD = 0 f = 1 kHz (see Note 4) 110 (see Notes 5 and 6) 150 5 10 200 0.15 2.2 IZ = 1mA TEST CONDITIONS MIN 145 0.1 180 0.6 3 TYP MAX UNIT V %/oC V A V mA kV/s A pF V(BO) I(BO) VTM IH dv/dt ID Coff NOTES: 5. These parameters must be measured using pulse techniques, tw = 100 s, duty cycle 2%. 6. These parameters are measured with voltage sensing contacts seperate from the current carrying contacts located within 3.2 mm (0.125 inch) from the device body. 7. Linear rate of rise, maximum voltage limited to 80 % VZ (minimum).. PRODUCT INFORMATION 2 TISP3180 DUAL SYMMETRICAL TRANSIENT VOLTAGE SUPPRESSORS NOVEMBER 1986 - REVISED SEPTEMBER 1997 PARAMETER MEASUREMENT INFORMATION Figure 1. VOLTAGE-CURRENT CHARACTERISTIC FOR ANY PAIR OF TERMINALS thermal characteristics PARAMETER RJA Junction to free air thermal resistance MIN TYP MAX 62.5 UNIT C/W PRODUCT INFORMATION 3 TISP3180 DUAL SYMMETRICAL TRANSIENT VOLTAGE SUPPRESSORS NOVEMBER 1986 - REVISED SEPTEMBER 1997 TYPICAL CHARACTERISTICS A and C, or B and C terminals ON-STATE CURRENT vs ON-STATE VOLTAGE VZ , V(BO) - Zener Voltage, Breakover Voltage - V 1000 TCS3MAA ZENER VOLTAGE & BREAKOVER VOLTAGE vs JUNCTION TEMPERATURE 180 175 170 VZ 165 160 155 150 145 140 -25 TCS3MAB V(BO) IT - On-State Current - A 100 10 1 1 10 VT - On-State Voltage - V 100 0 25 50 75 100 125 150 TJ - Junction Temperature - C Figure 2. Figure 3. PRODUCT INFORMATION 4 TISP3180 DUAL SYMMETRICAL TRANSIENT VOLTAGE SUPPRESSORS NOVEMBER 1986 - REVISED SEPTEMBER 1997 TYPICAL CHARACTERISTICS A and C, or B and C terminals HOLDING CURRENT & BREAKOVER CURRENT vs JUNCTION TEMPERATURE IH , I(BO) - Holding Current, Breakover Current - A 1 TCS3MAC OFF-STATE CURRENT vs JUNCTION TEMPERATURE 10 TCS3MAD I(BO) ID - Off-State Current - A 1 VD = 50 V IH 0*1 0*1 0*01 0*01 -25 0 25 50 75 100 125 150 0*001 -25 0 25 50 75 100 125 150 TJ - Junction Temperature - C TJ - Junction Temperature - C Figure 4. Figure 5. ON-STATE VOLTAGE vs JUNCTION TEMPERATURE 3 TCS3MAE NORMALISED BREAKOVER VOLTAGE vs RATE OF RISE OF PRINCIPLE CURRENT 1.4 TCS3MAI VT - On State Voltage - V IT = 5A 2 Normalised Breakover Voltage 150 3 1.3 2 1.2 1 1.1 0 0 -25 0 25 50 75 100 125 1.0 0*001 0*01 0*1 1 10 100 TJ - Junction Temperature - C di/dt - Rate of Rise of Principle Current - A/s Figure 6. Figure 7. PRODUCT INFORMATION 5 TISP3180 DUAL SYMMETRICAL TRANSIENT VOLTAGE SUPPRESSORS NOVEMBER 1986 - REVISED SEPTEMBER 1997 TYPICAL CHARACTERISTICS A and C, or B and C terminals OFF-STATE CAPACITANCE vs TERMINAL VOLTAGE (POSITIVE) 100 TCS3MAJ OFF-STATE CAPACITANCE vs TERMINAL VOLTAGE (NEGATIVE) 100 TCS3MAK Off-State Capacitance - pF 10 0*1 Off-State Capacitance - pF 1 10 100 10 0*1 1 10 100 Terminal Voltage (Positive) - V Terminal Voltage (Negative) - V Figure 8. Figure 9. SURGE CURRENT vs DECAY TIME 1000 TCS3MAN Maximum Surge Current - A 100 10 2 10 100 Decay Time - s 1000 Figure 10. PRODUCT INFORMATION 6 TISP3180 DUAL SYMMETRICAL TRANSIENT VOLTAGE SUPPRESSORS NOVEMBER 1986 - REVISED SEPTEMBER 1997 TYPICAL CHARACTERISTICS A and B terminals ZENER VOLTAGE & BREAKOVER VOLTAGE vs JUNCTION TEMPERATURE VZ, V(BO) - Zener Voltage, Breakover Voltage - V 360 350 340 VZ 330 320 310 300 290 280 -25 TCS3MAF HOLDING CURRENT & BREAKOVER CURRENT vs JUNCTION TEMPERATURE IH, I(BO) - Holding Current, Breakover Current - A 1 I(BO) TCS3MAG V(BO) IH 0*1 0 25 50 75 100 125 150 0*01 -25 0 25 50 75 100 125 150 TJ - Junction Temperature - C TJ - Junction Temperature - C Figure 11. Figure 12. OFF-STATE CURRENT vs JUNCTION TEMPERATURE 10 TCS3MAH ID - Off-State Current - A 1 VD = 50 V 0*1 0*01 0*001 -25 0 25 50 75 100 125 150 TJ - Junction Temperature - C Figure 13. PRODUCT INFORMATION 7 TISP3180 DUAL SYMMETRICAL TRANSIENT VOLTAGE SUPPRESSORS NOVEMBER 1986 - REVISED SEPTEMBER 1997 TYPICAL CHARACTERISTICS A and B terminals OFF-STATE CAPACITANCE vs TERMINAL VOLTAGE (POSITIVE) 1 TCS3MAL OFF-STATE CAPACITANCE vs TERMINAL VOLTAGE (NEGATIVE) 1 TCS3MAM Off-State Capacitance - pF 0*1 0*1 Off-State Capacitance - pF 1 10 100 0*1 0*1 1 10 100 VAB - Terminal Voltage (Positive) - V VAB - Terminal Voltage (Negative) - V Figure 14. Figure 15. PRODUCT INFORMATION 8 TISP3180 DUAL SYMMETRICAL TRANSIENT VOLTAGE SUPPRESSORS NOVEMBER 1986 - REVISED SEPTEMBER 1997 THERMAL INFORMATION MAXIMUM NON-RECURRENT 50 Hz CURRENT vs CURRENT DURATION TIS3MAA THERMAL RESPONSE IRMS - Maximum Non-Recurrent 50 Hz Current - A 100 10 TIS3MAB - Transient Thermal Impedance - C/W 10 1 VGEN = 250 VRMS 0*1 RGEN = 20 to 1000 ohms TAMB = 70C 1 Z A 0*1 0*0001 0*001 0*01 0*1 1 10 100 1000 0*01 0*01 0*1 1 t - Current Duration - s 10 100 t - Power Pulse Duration - s Figure 16. Figure 17. FREE AIR TEMPERATURE DERATING CURVE 100 TIS3MAC Percent of Rated Power - % 80 60 40 20 0 25 50 75 100 125 150 TA - Free Air Temperature - C Figure 18. PRODUCT INFORMATION 9 TISP3180 DUAL SYMMETRICAL TRANSIENT VOLTAGE SUPPRESSORS NOVEMBER 1986 - REVISED SEPTEMBER 1997 MECHANICAL DATA TO-220 3-pin plastic flange-mount package This single-in-line package consists of a circuit mounted on a lead frame and encapsulated within a plastic compound. The compound will withstand soldering temperature with no deformation, and circuit performance characteristics will remain stable when operated in high humidity conditions. Leads require no additional cleaning or processing when used in soldered assembly. TO220 4,70 4,20 o 3,96 3,71 10,4 10,0 2,95 2,54 6,6 6,0 15,90 14,55 1,32 1,23 see Note B see Note C 6,1 3,5 0,97 0,61 1 2 3 1,70 1,07 14,1 12,7 2,74 2,34 5,28 4,88 2,90 2,40 0,64 0,41 VERSION 1 VERSION 2 ALL LINEAR DIMENSIONS IN MILLIMETERS NOTES: A. The centre pin is in electrical contact with the mounting tab. B. Mounting tab corner profile according to package version. C. Typical fixing hole centre stand off height according to package version. Version 1, 18.0 mm. Version 2, 17.6 mm. MDXXBE PRODUCT INFORMATION 10 TISP3180 DUAL SYMMETRICAL TRANSIENT VOLTAGE SUPPRESSORS NOVEMBER 1986 - REVISED SEPTEMBER 1997 IMPORTANT NOTICE Power Innovations Limited (PI) reserves the right to make changes to its products or to discontinue any semiconductor product or service without notice, and advises its customers to verify, before placing orders, that the information being relied on is current. PI warrants performance of its semiconductor products to the specifications applicable at the time of sale in accordance with PI's standard warranty. Testing and other quality control techniques are utilized to the extent PI deems necessary to support this warranty. Specific testing of all parameters of each device is not necessarily performed, except as mandated by government requirements. PI accepts no liability for applications assistance, customer product design, software performance, or infringement of patents or services described herein. Nor is any license, either express or implied, granted under any patent right, copyright, design right, or other intellectual property right of PI covering or relating to any combination, machine, or process in which such semiconductor products or services might be or are used. PI SEMICONDUCTOR PRODUCTS ARE NOT DESIGNED, INTENDED, AUTHORIZED, OR WARRANTED TO BE SUITABLE FOR USE IN LIFE-SUPPORT APPLICATIONS, DEVICES OR SYSTEMS. Copyright (c) 1997, Power Innovations Limited PRODUCT INFORMATION 11 |
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