This is a very common 0.1uF capacitor. Used on all sorts of applications to decouple ICs from power supplies. 0.1" spaced leads make this a perfect candidate for breadboarding and perf boarding. Rated at 50V.
This is a high grade DC Buck converter that inputs 6 to 12V and outputs 5V up to 3A or 15W. With good thermal performance and protection, this DC block is...
This custom connector is a 0.1"-pitch, double-row, 14-pin, shortened (8.75 mm) male header strip. We use this header to connect the LCD on the Zumo 32U4...
These hexagonal male-female aluminum standoffs keep parts spaced 0.375" (10 mm) apart and are great for building a multi-level robot chassis. Both ends of these 3/16"-wide standoffs have 2-56 threads. The standoffs are sold in packs of 4.
This compact module packs three IR LED/phototransistor pairs onto a 1.25″ × 0.3″ board. The sensors are mounted on a 0.375″ pitch, making this array a great minimal sensing solution for a line-following robot. Each sensor provides a separate analog voltage output.
This sensor module has 8 IR LED/phototransistor pairs mounted on a 0.375" pitch, making it a great detector for a line-following robot. Pairs of LEDs are arranged in series to halve current consumption, and a MOSFET allows the LEDs to be turned off for additional sensing or power-savings options. Each sensor provides a separate analog voltage output.
This sensor module has 8 IR LED/phototransistor pairs mounted on a 0.375" pitch, making it a great detector for a line-following robot. Pairs of LEDs are arranged in series to halve current consumption, and a MOSFET allows the LEDs to be turned off for additional sensing or power-savings options. Each sensor provides a separate digital I/O-measurable output.
This board is a simple carrier of Allegro’s ±75A ACS709 Hall effect-based linear current sensor with overcurrent fault output, which offers a low-resistance (~1.1 mΩ) current path and electrical isolation up to 2.1 kV RMS. The sensor has optimized accuracy for currents from -37.5 A to 37.5 A, and the analog voltage output is linear for current magnitudes up to 75 A. The ratiometric output voltage is centered at VCC/2 and has a typical error of ±2%. It operates from 3 V to 5.5 V, so it can interface directly to both 3.3 V and 5 V systems.
A few months back I created a basic mobile platform using parts from an old 3D printer. It was fun but not very practical.
I designed Roverling Mark II so I could experi...
A few months back I created a basic mobile platform using parts from an old 3D printer. It was fun but not very practical.
I designed Roverling Mark II so I could experi...
Heads up! Our forum has separate search to our main website. You are about to be redirected to our forum and when you arrive you can search for forum only content using the icon shown below. Click continue to search our forum.
Please continue if you would like to leave feedback for any of these topics:
Website features/issues
Content errors/improvements
Missing products/categories
Product assignments to categories
Search results relevance
For all other inquiries (orders status, stock levels, etc), please contact our support team for quick assistance.
Note: click continue and a draft email will be opened to edit. If you don't have an email client on your device, then send a message via the chat icon on the bottom left of our website.
Makers love reviews as much as you do, please follow this link to review the products you have purchased.