+86 769 81090126
Categories
Cart 0 items
Your cart is empty
  • Wobbly Windbell Fun Electronic DIY Kit Wring 83 LEDs Wind Bell
  • Wobbly Windbell Fun Electronic DIY Kit Wring 83 LEDs Wind Bell
  • Wobbly Windbell Fun Electronic DIY Kit Wring 83 LEDs Wind Bell

It's Diy Kits.

Operating Voltage:5-9V
Dimensions:92x89mm

Principle of Operating
The Q1 and Q2 form the multivibrator which used to control the flashing of these two LEDs. 83 LEDs form the pattern of a wobbly wind bell.
And here is the operating principle of multivibrator. As there is difference between the components, Q1 or Q2 will be turn on at the first place after the boot. If Q1 turns on at the first place, the voltage of Q1

collector will be 0V and the LEDs of group A start light. As it cannot have a sudden change on the voltage of

two ends of the capacitance, the Q1 collector with 0V will let the base potential of Q2 reduced to 0V through C1

and let the Q2 turn off. LEDs of group B turn off at this time. When the charge voltage of C1 increases to the

breakover voltage of Q2, the Q2 turns on. And the voltage of Q2 collector reduced to 0V and LEDs of group B

starts to light. In the same way, the Q2 collector with 0V will let the base potential of Q1 reduced to 0V

through C2 and let the Q1 turn off. LEDs of group A turn off at this time. The multivibrator will operate according to this cycle to let these two groups of LEDs light by turns.
And the wobble frequency of these two groups of LEDs depends on the specification of C1、C2、R21 and R22.

Wobbly Windbell Fun Electronic DIY Kit Wring 83 LEDs Wind Bell

AE1240

It's Diy Kits. Operating Voltage:5-9V Dimensions:92x89mm Principle of Operating The Q1 and Q2 form the multivibrator which used to control the flashing of these two LEDs. 83 LEDs form the pattern of a wobbly wind bell. And here is the operating principle of multivibrator. As there is ...
  • Shipping Weight: 97g
  • Manufactured by: gikfun
6 Units in Stock
$17.98

Current Reviews: 0

This product was added to our catalog on Monday 06 March, 2017.