DIGIKEY > Digi-Key Catches Sasquatch with Panasonic Motion Sensors – Another Geek Moment │ DigiKey
Date: 2015-03-05 17:08
Will they finally catch him? See how Digi-Key creates custom motion sensors using various electronic components from Panasonic paired
with an Android app to in hopes to catch Sasquatch.
A PIR motion sensor with a 12 m range (EKMB1203112 - http://dky.bz/1zSC0Se ), a low-power Bluetooth module (PAN1740 -
http://dky.bz/174ICBm ), and a lithium battery (CR-2032L/F1N - http://dky.bz/1zBlhho ) all from Panasonic are used to create six custom
motion sensors which are configured with an Android smart phone app. Once complete, any moving traffic, such as Sasquatch, will enable the
custom designed motion sensors, set off the Android app, and notify Digi-Key.
Tune in to see if Digi-Key will finally capture Sasquatch!
Boost Demonstration Evaluation Board - NCP3065SOBSTGEVB Test Procedure by ONSemiconductor - 2015-03-05 17:13 - 6,704 views
This video demonstrates some of the features and capabilities of the NCP3065SOBSTGEVB evaluation board. The NCP3065SOBSTGEVB
evaluation board from ON Semiconductor is designed to deliver constant current for powering high brightness LEDs. Understand how to set-up
and measure results for this board to optimize efficiency. For more information on this evaluation board, visit our website at:
New This Week - February 16, 2015 by EEweb - 2015-03-05 17:12 - 7,472 views
This week we’ll discuss Cree’s XLamp MH-B High-Power LEDs, Microchip’s 3DTouchPad, and low voltage rail-to-rail op amps from On Semiconductor.
Arria 10 Hard Floating Point DSP Demonstration by Altera - 2015-03-05 17:10 - 6,452 views
Presentation and Demonstration on Altera Generation 10 FPGAs with Hard Floating Point DSP Blocks. This video presents the architecture,
capabilities and advantages of designing with hard floating point DSP blocks. The demonstration uses DSP Builder to show how a soft floating
point design can migrate to Arria 10 using hard floating point blocks. It also compares the utilization pointing out significant logic savings when
using hard floating point blocks.