project F:Realisation-f
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m (→Power sources) |
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= Power sources = | = Power sources = | ||
− | 9V external adpter (worked with two valves) | + | # 9V external adpter (worked with two valves) |
− | 5V Nokia adapter (worked with two valves) | + | # 5V Nokia adapter (worked with two valves) |
[http://www.ladyada.net/learn/multimeter/voltage.html Measuring voltage with a multimeter] | [http://www.ladyada.net/learn/multimeter/voltage.html Measuring voltage with a multimeter] |
Revision as of 19:38, 17 January 2012
Design Realisation Relationships
Design Execution Prototype Validation Arduino development 1:1 Prototype
Arduino development
Pseudocode for controlling the air valves
Light sensor is in the place of motion sensor. Green led is the air OUT valve, the red is air IN. Air pressure is not measured, but it is a variable, that is changed by "letting air in / out".
Yellow led in the middle represents the air pressure. Bright: high pressure (cushion filled with air). Dim: low pressure (minimum pressure in the cushion).
When there is movement (light on the sensor), more air is pumped in (red led on). Otherwise the other valve starts to let air out (green led on).
Pumps
Bristol (18e): Elektro-Pumpe HB-135 C, AC 230V - 50 Hz, 95W
Power sources
- 9V external adpter (worked with two valves)
- 5V Nokia adapter (worked with two valves)
Measuring voltage with a multimeter
Pressure sensors
- conductive thread or wire, or conductive stretching textile
- Conductive paints and inks
- based on resistance difference when the canvas is stretched
Air Flow
Air weight: in 20oC - Density (ρ)(kg/m3) 1.204 - γ (N/m3) 11.81 in 25oC - Density (ρ)(kg/m3) 1.184 - γ (N/m3) 11.61