specifications are subject to change without notice. customers should verify actual device performance in their specific applications. thin film on silicon 2dea integrated esd protection diode array d e a 0 0 2 2 4 q 0 0 3 6 features lead free versions available rohs compliant (lead free version)* supports 15 kv iec 61000-4-2 esd equipment specification* single device protects as many as 20 lines on exposed pins, communications ports incorporates 40 bi-directional pn junction diodes small form factor replaces 20 sot23 packages general information the model 2dea series is well-suited for space constrained designs where the requirements of international esd standard specification iec 61000-4-2 must be met. these highly integrated pn junction diode arrays are espe- cially effective for use in pc notebooks and motherboards, engineering workstations and portable battery-powered devices such as pdas and cellular phones. space savings, as compared to popular ba v99 sot23 based implementations, can yield a 75 % reduction in utilized board area. in addition, significant assembly cost reductions and manufacturing integrity improvements can be realized. two package options are available. model 2dea consists of 20 bi-directional diode pairs in a miniature 24-pin jedec qsop package. the 2deb consists of 17 bi-directional diode pairs in a traditional wide-body soic jedec package. * note: iec 61000-4-2 esd test performance is measured at the systems level and system designs, enclosure shielding and other c onventional esd control measures usually influence the results of these tests. testing on the component level serves as an indicator that the system passes a specific compliance step, but does not ensure that the system passes at that level. the model 2dea/deb device, therefore, can support successful implementation of the iec 61000-4-2 system level esd standa rd. package schematic 18 7 17 8 16 9 15 10 14 11 13 12 23 24 2 1 22 3 21 4 20 5 19 6 vss vdd vss vdd electrical characteristics symbol minimum nominal maximum unit supply voltage v dd - v ss -0.3 12 v voltage @ any channel v in -0.3 v dd + 0.5 v channel clamp current (continuous) i c ?5 ma forward voltage: @i f = 1 ma v f 0.8 0.9 v @i f = 12 ma 1.5 v leakage current @ v ss |