... Innovative Technology for a Connected World LI0201C330R-10 LI0201C560R-10 LI0201B800R-10 LI0201C800R-10 LI0201E800R-10 LI0201B121R-10 LI0201C121R-10 LI0201B241R-10 global solutions: local support TM USA: +1 800 634.2673 +1 423 308.1690 Europe: +49 8031.2460.0 Asia: +86 755.2714.1166 www.lairdtech.com Laird Technologies has broadened its Ferrite Chip Bead product offering by adding the smaller EIA 0201 (Metric 0603) version to the existing EIA 0402 ~ 3312 (Metric 1005 ~ 8531) product family ...
... LI0201B800R- 120 mA 160 mA 200 mA 10 100 1000 10000 LI0201C330R- 120 mA 180 mA 240 mA 300 mA 10 100 1000 10000 LI0201C800R- 120 mA 180 mA 240 mA 300 mA 10 100 1000 10000 LI0201 Ferrite Chip Beads LI0201B241R-10 700 0 mA 600 40 mA 500 80 mA 120 mA 400 160 mA ...
... Laird Technologies materials or products for any specific or general uses. Laird Technologies shall not be liable for incidental or conse- quential damages of any kind. All Laird Technologies products are sold pursuant to the Laird Technologies domestic terms and conditions of sale in effect from time to time, a copy of which will be furnished upon request ...
... Concerns over the use of pure tin coatings on component leads and terminations, due to the possibility of tin whiskering, are still under industry discussion. Electroplating 100% matte tin over a nickel barrier is recognized as an effective whisker growth mitigation strategy that is accepted by most industry groups. Laird Technologies’ maintains a minimum plating thickness of 2.5µm [99µin] of Tin, and 0.7µm [28µin] of Nickel. ...
... OPERATING TEMPERATURE FOR BOARD LEVEL SHIELDS All board level part electrical specifications and tolerances are based on room temperature (23°C ± 2°C). Laird Technologies’ board level parts have an operating temperature of -40˚C to +125˚C (unless stated otherwise). While the parts will continue to operate and not be damaged over this range, they may not operate within the specified electrical performance tolerances during exposure to extreme temperatures. NOTE : All Laird Technologies’ ...