TransGuard® Transient Voltage Suppressors TransGuard® act as an EMI filter, in the “off state” and a transient voltage suppressor in the “on state”. They are bidirectional and therefore act as back to back zener diodes, but offer other advantages, for example, fast turn-on time (sub 1ns) and repetitive strike capability. Package options include EIA case sizes 0402, 0603, 0805, 1206, 1210, 1812 and 2220, as well as axial leaded configuration. DESC drawing Series AA55562 PART NUMBER IDENTIFICATION Surface Mount Devices Important: For part number identification only, not for construction of part numbers. The information below only defines the numerical value of part number digits, and cannot be used to construct a desired set of electrical limits. Please refer to the TransGuard® part number data for the correct electrical ratings. V C Product Designator Case Style V = Varistor C = Chip 1206 05 Case Size Designator Working Voltage Size Length Width 0402 1.00±0.10mm (0.040"±0.004") 1.60±0.15mm (0.063"±0.006") 2.01±0.2mm (0.079"±0.008") 3.20±0.2mm (0.126"±0.008") 3.20±0.2mm (0.126"±0.008") 0.5±0.10mm (0.020"±0.004") 0.8±0.15mm (0.032"±0.006") 1.25±0.2mm (0.049"±0.008") 1.60±0.2mm (0.063"±0.008") 2.49±0.2mm (0.098"±0.008") 0603 0805 1206 1210 03 = 3.3 VDC 05 = 5.6 VDC 09 = 9.0 VDC 12 = 12.0 VDC 14 = 14.0 VDC 18 = 18.0 VDC 26 = 26.0 VDC 30 = 30.0 VDC 48 = 48.0 VDC 60 = 60.0 VDC D 150 Energy Clamping* Voltage 100 = 12V 150 = 18V 200 = 22V 250 = 27V 300 = 32V 390 = 42V 400 = 42V 500 = 50V 560 = 60V 580 = 60V 620 = 67V 650 = 67V 101 = 100V 121 = 120V A = 0.1J B = 0.2J C = 0.3J D = 0.4J E = 0.5J F = 0.7J G = 0.9J H = 1.2J J = 1.5J K = 0.6J L = 0.8J M = 1.0J N = 1.1J P = 3.0J Q = 1.3J R = 1.7J S = 1.9-2.0J T = 0.01J U = 4.0-5.0J V = 0.02J W = 6.0J X = 0.05J Y = 12.0J Z = 25.0J R M Packaging (Pcs/Reel) Style VC0402 VC0603 VC0805 VC1206 VC1210 “D” N/A 1,000 1,000 1,000 1,000 “R” N/A 4,000 4,000 4,000 2,000 Termination Finish “T” “W” N/A 10,000 M = Ni/Sn Pb (Plated) 10,000 N/A 10,000 N/A 10,000 N/A 10,000 N/A Marking All standard surface mount TransGuard® chips will not be marked. ELECTRICAL CHARACTERISTICS RANGE Range Lowest Value Highest Value Working Voltage (DC) 3.3 65 Breakdown Voltage Clamping Voltage 5.0±20% 82.0±10% 12 135 Test Current For VC 1 10 Maximum Leakage Current 100 10 Transient Energy Rating 0.05 4.80 Peak Current Rating 20 800 Typical Cap 65 5000 * Please check the AVX website for actual clamping to working voltage available on these devices. 59 MultiGuard TVS Array AVX Multilayer Ceramic Transient Voltage Suppression Arrays – ESD Protection for CMOS and Bi Polar Systems AVX’s Transient Voltage Suppression (TVS) Arrays address six trends in today’s electronic circuits: (1) mandatory ESD protection, (2) mandatory EMI control, (3) signal integrity improvement, (4) PCB downsizing, (5) reduced component placement costs, and (6) protection from induced slow speed transient voltages and currents. AVX’s MultiGuard products offer numerous advantages, which include a faster turn-on-time (<1nS), repetitive strike capability, and space savings. In some cases, MultiGuard consumes less than 75% of the PCB real estate required for the equivalent number of discrete chips. This size advantage, coupled with the savings associated with placing only one chip, makes MultiGuard the TVS component of choice for ESD protection of I/O lines in portable equipment and programming ports in cellular phones. Other applications include differential data line protection, ASIC protection and LCD driver protection for portable computing devices. Where multiple lines require the ESD protection, the 4-element 0612 or 0508 chip is an ideal solution. While the 2-element 0405 MultiGuard is the smallest TVS array, the 4-element 0508 MultiGuard is the smallest 4-element TVS device available in the market today. Available with standard working voltage of 5.6V up to 18V with low capacitance in the 3 case sizes, AVX MultiGuard arrays offer a very broad range of integrated TVS solutions to the design community. HOW TO ORDER MG 04 2 MultiGuard Case Size Configuration 04 = 0405 05 = 0508 06 = 0612 2 = 2 Elements 4 = 4 Elements L 14 A 300 T P Style Working Energy Clamping Voltage Packaging (PCS/REEL) Termination Finish Voltage Rating S = Standard Construction 05 = 5.6VDC A = 0.10 Joules 09 = 9.0VDC V = 0.02 Joules L = Low Capacitance 14 = 14.0VDC X = 0.05 Joules 18 = 18.0VDC 150 = 18V 200 = 22V 300 = 32V 400 = 42V 500 = 50V D = 1,000 R = 4,000 T = 10,000 P = Ni/Sn Alloy (Plated) M = Ni/Sn Pb (Plated) ELECTRICAL CHARACTERISTICS PER ELEMENT AVX Part Number Working Working Breakdown Clamping Test Voltage Voltage Voltage Voltage Current (DC) (AC) For VC Maximum Leakage Current Transient Energy Rating Peak Current Rating Typical Cap MG042S05X150 _ _ 5.6 4.0 8.5±20% 18 1 35 0.05 15 300 2 Element MG042L14V400 _ _ 0405 Chip 14.0 10.0 18.5±12% 32 1 15 0.02 15 45 MG042L18V500 _ _ 18.0 14.0 N/A 50 1 10 0.02 15 40 MG052S05A150 _ _ 5.6 4.0 8.5±20% 18 1 35 0.10 30 825 MG052S09A200 _ _ 9.0 6.4 12.7±15% 22 1 25 0.10 30 550 2 Element MG052S14A300 _ _ 0508 Chip 14.0 10.0 19.5±12% 32 1 15 0.10 30 425 MG052S18A400 _ _ 18.0 14.0 25.5±10% 42 1 10 0.10 30 225 MG052L18X500 _ _ ≤18.0 ≤14.0 N/A 50 1 10 0.10 20 50 MG054S05X150 _ _ 5.6 4.0 8.5±20% 18 1 35 0.05 15 400 MG054S09X200 _ _ 9.0 6.4 12.7±15% 22 1 25 0.05 15 300 4 Element MG054S14X300 _ _ 0508 Chip 14.0 10.0 19.5±12% 32 1 15 0.05 15 150 120 MG054S18X400 _ _ 18.0 14.0 25.5±10% 42 1 10 0.05 15 MG054L18V500 _ _ ≤18.0 ≤14.0 N/A 50 1 10 0.02 15 50 MG064S05A150 _ _ 5.6 4.0 8.5±20% 18 1 35 0.10 30 825 MG064S09A200 _ _ 9.0 6.4 12.7±15% 22 1 25 0.10 30 550 4 Element MG064S14A300 _ _ 0612 Chip 14.0 10.0 19.5±12% 32 1 15 0.10 30 425 MG064S18A400 _ _ 18.0 14.0 25.5±10% 42 1 10 0.05 15 120 MG064L18X500 _ _ ≤18.0 ≤14.0 N/A 50 1 10 0.10 20 75 Termination Finish Code Packaging Code VW (DC) VW (AC) VB VB Tol 60 DC Working Voltage (V) AC Working Voltage (V) Typical Breakdown Voltage (V @ 1mADC ) VB Tolerance is ± from Typical Value VC IVC IL ET IP Cap Clamping Voltage (V @ IVC ) Test Current for VC (A, 8x20µS) Maximum Leakage Current at the Working Voltage (µA) Transient Energy Rating (J, 10x1000µS) Peak Current Rating (A, 8x20µS) Typical Capacitance (pF) @ 1MHz and 0.5 VRMS