SEMITRON INDUSTRIES LTD 4W3E > = 8137889 OOOOL4S O BMSLCB -T-(\-23 SURGEPAK Transient Voltage Suppressor = Surge Module Voltage Range 8V4 to 500 Volts Across the Line AC Power Protection APPLICATIONS m PHP/PIP series is designed for applications requiring acrossthe-line AC power protection. These Surgepak modules are used in applications where extreme voltage transients can permanently damage voltage sensitive systems or components. These devices are most often used when discrete devices do not have high enough power requirements to suppress large power surges. FEATURES m Plastic moulded case w 7.5, 15, 60 KWatt surge capability 40uS expo. m Available for Military and Commercial applications am Fast response time: typically less than 1.0 ps from 0 volts to BV min. w T operating and storage -65C to +150C MECHANICAL DATA m Moulded case w Weight: 50 grams g Bipolar and Unipolar | > 030 127 2 763 (mm j 435 NOM. tn $68 = 763 (mm 1950" + 020 150" + 015 t- 8S SOR re) | possi 2 3S} (men) 800 Centers : eae . r 20 Fmm) Coolers i 690 030 Ss + 020 _| |, s- nom DA 1750 = 763 [me] 877 x SOM (mm) 3 LE WOM OFA (meny PEAK PULSE POWER vs PULSE TIME 1000 (Waveform - see Figure 3) = Non-repetitive x I = 100 z a 3 = a 3 a 10 | a a 10 100 ns lus 1Ous 100us. Ims td Pulse Time sec PULSE WAVEFORM ] I I Sie! bet TEST WAVEFORM Se 100 i PARAMETERS ' tr=10psec 7 s Peak Value ~ Ipp td = 1000 psec = T T 3S I top o Half-Value ~ > 2 | a sH--+ F10 x 1000 Waveform xs as defined by R.E.A. | a. | i & e ~ 10 ms % 1 2 3 ty t Time - msec 2:39 SEMITRON INDUSTRIES LTD 43E D MM 8137889 GOOOL44S 2 BESLCB T-11-23 Peak Pulse Power (Pp) or Current (ipp) Electrical Characteristics @ 25C Average Reverse Minimum Maximum Maximum Maximum Maxmum Rms Standoff Breakdown Reverse Clamping, Peak Voltage Voltage Voltage Leakage Voltage Pulse Pulse @Vp @ be Current Power Miltary (Ir) @ VR (1 msec) Semitron Part Voltage Va Bv @h Micro Ve lee (Pr) Part Number Number Volts AC Volts DC Volts mA Amperes Volts DC A Kilowatts L60S 8.4M PHP 8.4 84 12.0 14 10 250 22 341 75 Lees 24M PHP 24 24.0 34.0 40 10 ms 87 112 75 L60S 30M PHP 30 30.0 425 50 10 250 a4 90 75 L60S 60M PHP 60 60.0 85.0 100 1.0 250 167 90 15.0 L605 120M PHP 120* 120.0 170.0 200 1.0 250 319 a7 15.0 Leos 208M PHP 208 208.0 2350 M7 10 250 S36 23 15.0 160s 250M PHP 250" 250.0 354.0 1B (10 250 652 2a 15.0 ee L60S 440M PHP 440 440.0 623.0 738 10 250 1138 13.2 15.0 L608 500M PHP S00" 500.0 708.0 835. 10 250 1292 11.6 15.0 Commercial Part Number L60S 8.4 PIP 8.4 84 12.0 14 10 250 22 M4 75 Los 24 PIP 24 24.0 340 40 10 260 67 i112 75 L60S 30 PIP 30 3.0 425 cH 10 250 & 15 L60S 60 PIP 60 60.0 85.0 100 10 250 167 90 15.0 L60s 120 PIP 120+ 120.0 170.0 200 10 250 319 47 15.0 Le0s 208 PIP 208. 208.0 295.0 7 1.0 250 536 2B 15.0 L608 250 PIP 250* 260.0 354.0 418 10 250 652 3 15.0 Leos 440 PIP 440 440.0 623.0 735 1.0 250 1138 13.2 15.0 Us0s 500 PIP S00* 5000 708.0 835 10 250 1292 116 15.0 Reverse M Mi Standoff Voltage Reverse Clamping Peak Voltage @ima Leakage Voltage Pulse @Ve @ lee Current Commercial &v Semitron Part Ve Volts tf] Ve lee Part Number Number Volts Min. Max. pA Volts A LOS 200 GOKS 200C* 180 200 225 10 335 180 *C Denotes Bidirectionat PULSE WAVEFORM PULSE WAVEFORM (1.5 x 40 usec) 100% (See Figura 1 for Peak Pulse vs Puise Time a 3 Pulse time (tp) 75 = detined at that point | Ip decays to 50% of ipp ~ y' s 2 5 3 oO o 5 gto e z 8 < S < a 8 25 | so & 2 0 0 oO 50 100 200 oO 40 80 120 160 T Temperature C - { Time usec 2-40