Responsiveness: Indirect liquid conveyance
1:17
In this demonstration, pressurized air is used convey liquids indirectly. Two microblowers are used, one for expulsion and one for suction.
Related Videos
In All Videos
-
Play video Pressurizing (pushing out): Piston
Pressurizing (pushing out): Piston
In this demonstration, an MZB3004T04 microblower that is thin but capable of outputting high pressure is used to raise a 1-liter plastic bottle filled with water by means of air pressure.
0:44
-
Play video Pressurizing (expansion): Balloon
Pressurizing (expansion): Balloon
In this demonstration, multiple microblowers are used, arranged in parallel. The thinness and compactness of the microblowers allows them to be incorporated flexibly into various layouts.
0:59
-
Play video Thermistor Workshop - Basics: Part 1 - NTC Thermistors and Temperature Sensor Circuits
Thermistor Workshop - Basics: Part 1 - NTC Thermistors and Temperature Sensor Circuits
This video explains the characteristics of thermistors, comparing SMD-type components used in temperature sensor circuits. The basics consist of three parts.
7:29
-
Play video Negative pressure: Adhesion by suction
Negative pressure: Adhesion by suction
The microblower can produce adhesion by suction using air pressure. In this demonstration, an MZB1001T02 microblower is used to raise a weight.
0:53
-
Play video Responsiveness: Floating a ball by blowing air from below
Responsiveness: Floating a ball by blowing air from below
In this demonstration, a microblower expels air from below to float a ball. The way that the ball floats upward as soon as the button is pressed confirms the high responsiveness of the microblower.
0:40
-
Play video Pressurizing: Siphon
Pressurizing: Siphon
The microblower can generate high air pressure. In this demonstration, the air pressure in a tank is raised, causing water to be pumped upward.
1:04