Showing 817–834 of 834 results
Female header with 2.54mm (0.1 ”) classic pin spacing.
• Distance between pins: 2.54mm(0.1”)
• Number of pins: 9
Female header with 2.54mm (0.1 ”) classic pin spacing. Matches for Croduino NOVA.
• Pin spacing: 2.54mm(0.1”)
• Number of pins: 10
Female header with 2.54mm (0.1 ”) classic pin spacing.
• Distance between pins: 2.54mm(0.1”)
• Number of pins: 11
Female header with 2.54mm (0.1 ”) classic pin spacing.
• Distance between pins: 2.54mm(0.1”)
• Number of pins: 12
Female header with 2.54mm (0.1 ”) classic pin spacing.
• Distance between pins: 2.54mm(0.1”)
• Number of pins: 13
Female header with 2.54mm (0.1 ”) classic pin spacing. For use with Croduino SAMD.
• Distance between pins: 2.54mm(0.1”)
• Number of pins: 14
Female header with 2.54mm (0.1 ”) classic pin spacing. For use with Croduino SAMD.
• Distance between pins: 2.54mm(0.1”)
• Number of pins: 16
Female header with 2.54mm (0.1 ”) classic pin spacing.
• Distance between pins: 2.54mm(0.1”)
• Number of pins: 40
It is extremely easy to remove insulation and solder with this stranded copper wire. It will serve great in small projects and prototypes.
It is extremely easy to remove insulation and solder with this stranded copper wire. It will serve great in small projects and prototypes.
It is extremely easy to remove insulation and solder with this stranded copper wire. It will serve great in small projects and prototypes.
It is extremely easy to remove insulation and solder with this stranded copper wire. It will serve great in small projects and prototypes.
This is a huge roll of soldering wire. It’s a copper-plated stranded wire that comes in a thickness of 30AWG. Ideal for connecting to a protoboard or inside a project box. If you decide to buy this roll, you’ve probably solved the wire problem for at least 10 years!
• Thickness: 30AWG (0.255mm cross-section)
• Lenght: 250m
• Wire color: crvena, žuta, plava, crna ili bijela
• Stranded copper-plated wire
In a buzzer speaker, current is run through a coil of wire that produces a magnetic field. The flexible ferromagnetic disc is attracted to the coil when current is flowing through it and returns to a “rest” position when current is not flowing through the coil. The sound from the buzzer speaker is produced by moving a ferromagnetic disc in a similar way to a cone in a speaker.
A buzzer is a small speaker (actually a piezo). We all know how a speaker works, so no further explanation is needed. This is a passive buzzer that requires an AC signal to produce a sound. It’s like an electromagnetic speaker, where changing the input signal produces sound, rather than automatically producing a tone.