Glass Encapsulated TransGuard Multilayer Varistors GENERAL DESCRIPTION The Glass Encapsulated TransGuard multilayer varistors are zinc oxide (ZnO) based ceramic semiconductor devices with non-linear, bi-directional V-I characteristics. They have the advantage of offering bi-directional overvoltage protection as well as EMI/RFI attenuation in a single SMT package. These large case size parts extend TransGuard range into high energy applications. In addition the glass encapsulation provides enhanced resistance against harsh environment or process such as acidic environment, salts or chlorite flux. GENERAL APPLICATIONS FEATURES CHARACTERISTICS Proffesional / Industrial / Commercial Applications Bi-Directional protection IC Protection, DC motor protection EMI/RFI attenuation in off-state Operating Temperature: Relays, Controllers, Sensors -55C to 125C Multi-strike capability Smart Grids Sub 1nS response to ESD strike Case Size: 1206-2200 Alarms Working Voltage: 16-85Vdc High energy / High current Various Applications where Glass Encapsulation is Energy: 0.7-12J Glass Encapsulated Needed for Harsh Environment / Acid-Resistance Peak Current: 200-2000A and more HOW TO ORDER V G 1812 16 P 400 R P Varistor Glass Chip Size Working Engergy Clamping Package Termination Encapsulated 1206 Voltage Rating Voltage D = 7 reel P = Ni/Sn plated Chip 1210 16 = 16Vdc D = 0.4J R = 7 reel 380 = 38V 770 = 77V 1812 18 = 18Vdc F = 0.7J T = 13 reel 390 = 40V 900 = 90V 2220 22 = 22Vdc H = 1.2J 400 = 42V 101 = 100V 3220 26 = 26Vdc J = 1.5-1.6J 440 = 44V 111 = 110V 30 = 30Vdc K = 0.6J 490 = 49V 121 = 120V 31 = 31Vdc N = 1.1J 540 = 54V 131 = 135V 38 = 38Vdc R = 1.7J 560 = 60V 161 = 165V 45 = 45Vdc S = 2.0J 570 = 57V 201 = 200V 48 = 48Vdc P = 2.5-3.7J 620 = 67V 251 = 250V 56 = 56Vdc U = 4.0-5.0J 650 = 65V 60 = 60Vdc W = 5.1-6.0J 65 = 65Vdc Y = 6.5-12J 85 = 85Vdc 101 = 100Vdc PHYSICAL DIMENSIONS: mm (inches) Size (EIA) Length (L) Width (W) Max Thickness (T) Land Length (t) 3.200.20 1.600.20 0.94 max. 1.70 (0.067) 1206 (0.1260.008) (0.0630.008) (0.037 max.) 3.200.20 2.490.20 0.14 max. 1.70 (0.067) 1210 (0.1260.008) (0.0980.008) (0.045 max.) 4.500.30 3.200.30 2.00 (0.079) 1.00 max. 1812 1) (0.1770.012) (0.1260.012) 2.50 (0.098) (0.040 max.) 5.700.40 5.000.40 1.00 max. 2.50 (0.098) 2220 (0.2240.016) (0.1970.016) (0.040 max.) 8.200.40 5.000.40 2.50 max. 1.30 max. 3220 (0.3230.016) (0.1970.016) (0.098 max.) (0.051 max.) 1) Applicable for: VG181285W201, VG1812101W251, VG1812125U271 012317 68 Glass Encapsulated TransGuard Multilayer Varistors ELECTRICAL CHARACTERISTICS AVX PN V (DC) V (AC) V V I I E I Cap Freq W W B C VC L T P VG120616K390 16 11 24.510% 40 1 15 0.6 200 900 K VG120616N390 16 11 24.510% 40 1 15 1.1 300 1300 K VG181216P390 16 11 24.510% 40 5 15 2.9 1000 7000 K VG181216P400 16 11 24.510% 42 5 10 2.9 1000 5000 K VG222016Y400 16 11 24.510% 42 10 10 7.2 1500 13000 K VG120618D400 18 13 25.510% 42 1 15 0.4 150 1200 K VG120618E380 18 14 2210% 38 1.0 15 0.5 200 1000 K VG121018J380 18 14 2210% 38 2.5 15 1.5 400 2300 K VG121018J400 18 13 25.510% 42 5 10 1.6 500 3100 K VG181218P380 18 14 2210% 38 5.0 15 2.3 800 5000 K VG181218P440 18 14 27.510% 44 5 15 2.9 800 5000 K VG222018W380 18 14 2210% 38 10 15 5.8 1200 18000 K VG121022R440 22 17 2710% 44 2.5 15 1.7 400 1600 K VG222022Y440 22 17 2710% 44 10 15 7.2 1200 18000 K VG222022Y490 22 17 3010% 49 10 15 6.8 1200 12000 K VG120626F540 26 18 33.010% 54 1 15 0.7 200 600 K VG121026H560 26 18 34.510% 60 5 15 1.2 300 1200 K VG121026S540 26 20 3310% 54 2.5 15 1.9 400 1600 K VG181226P540 26 20 3510% 54 5 15 3.0 800 3000 K VG181226P570 26 23 3510% 57 5 15 2.5 600 3000 K VG222026Y540 26 20 3310% 54 10 15 7.8 1200 11000 K VG222026Y570 26 23 35.010% 57 10 15 6.8 1100 7000 K VG322026N570 26 20 3310% 57 10 15 1.1 400 5500 K VG121030H620 30 21 41.010% 67 5 15 1.2 280 1850 K VG181230Y650 30 21 3910% 65 5 50 6.5 800 3500 K VG181230Y770 30 21 47.510% 77 5 50 6.5 800 3300 K VG120631M650 31 25 3910% 65 1.0 15 1.0 200 700 K VG121031R650 31 25 3910% 65 2.5 15 1.7 300 1200 K VG181231P650 31 25 3910% 65 5 15 3.7 800 2600 K VG222031Y650 31 25 39.010% 65 10 15 9.6 1200 6100 K VG120638N770 38 30 4710% 77 1.0 15 1.1 200 500 K VG121038S770 38 30 47.010% 77 2.5 15 2 400 1000 K VG181238U770 38 30 47.010% 77 5 15 4.2 800 1300 K VG222038Y770 38 30 47.010% 77 10 15 12 2000 4200 K VG322038J920 38 30 4710% 92 10.0 15 1.5 400 2600 K VG121045S900 45 35 5610% 90 2.5 15 2 300 800 K VG181245U900 45 35 56.010% 90 5 15 4.0 500 1200 K VG222045Y900 45 35 5610% 90 10 15 12 1000 5000 K VG121048H101 48 34 62.010% 100 5 15 1.2 250 500 K VG121056P110 56 40 6810% 110 2.5 15 2.3 250 500 K VG181256U111 56 40 68.010% 110 5 15 4.8 500 800 K VG222056Y111 56 40 68.010% 110 10 15 9 1000 2000 K VG121060J121 60 42 76.010% 120 5 15 1.5 250 400 K VG120665L131 65 50 8210% 135 1.0 15 0.8 200 250 K VG121065P131 65 50 82.010% 135 2.5 15 2.7 350 600 K VG181265U131 65 50 82.010% 135 5 15 4.5 400 600 K VG222065Y131 65 50 82.010% 135 10 15 6.5 1100 3000 K VG181285U161 85 60 10010% 165 5 15 4.5 400 500 K VG222085Y161 85 60 10010% 165 10 15 6.8 800 1500 K TELECOM APPLICATIONS Parts are specified in accordance to CCITT 10x700s pulse test in addition to standard industrial specifications. AVX PN V (DC) V (AC) V V I I E I Cap Freq CCITT W W B C VC L T P VG181285W201 85 60 11010% 200 45 15 6.0 400 800 K 45 VG1812101W251 100 75 12010% 250 45 15 6.0 400 500 K 45 VG1812125U271 125 95 15010% 270 45 15 5 250 250 K 45 V (DC) DC Working Voltage V E Transient Energy Rating J, 10x1000S W T V (AC) AC Working Voltage V I Peak Current Rating A, 8x20S W P V Typical Breakdown Votage V 1mA , 25C Cap Typical capacitance pF frequency specified B DC V Clamping Voltage V I and 0.5V , 25C, M = 1MHz, K = 1kHz C IVC RMS I Test Current for V A, 8x20s CCITT 10 pulses applied at 1min intervals A, 10x700S VC C I Maximum leakage current at the working L voltage, 25C A 012317 69