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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
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Thermistor Workshop - Basics: Part 3 - Design Support in SimSurfing.
Murata’s SimSurfing design support tool simplifies the process of designing circuits using thermistors. This video explains how to use SimSurfing. The basics consist of three parts.
6:33
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Thermistor Workshop - Basics: Part 2 - Temperature Sensor Circuit Creation and Usage Examples
This video describes the use of thermistors in temperature sensor circuits, alert circuits, and for temperature compensation circuits. The basics consist of three parts.
11:44
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Responsiveness: Indirect liquid conveyance
In this demonstration, pressurized air is used convey liquids indirectly. Two microblowers are used, one for expulsion and one for suction.
1:17
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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
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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
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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
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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
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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
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High pressure: Water fountain
The pressurized air in the tank flows out suddenly, pressing on the liquid and propelling a jet of water from the nozzle. In this video, the water jet will reach a height of around 3 meters.
0:53
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Negative pressure: Crushing a plastic bottle (with suction)
The high pressure and high airflow volume generated by the MZB4001T05 can be used to produce suction. Here we will show how this high negative pressure can quickly crush an empty plastic bottle.
0:43
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Negative pressure: Suctioning a viscous liquid
In this demonstration, a viscous liquid is suctioned. Note that the microblower is poweful enough to suction the viscous liquid.
0:45
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