report:soa

Differences

This shows you the differences between two versions of the page.

Link to this comparison view

Both sides previous revision Previous revision
Next revision		 Previous revision
report:soa [2026/03/31 16:53] – [Introduction] team3report:soa [2026/05/13 19:27] (current) epsatisep
Line 90: Line 90:
  
 In conclusion, the combination of polypropylene for durability, polished aluminum for thermal and reflective performance, and plastic for electrical insulation and protection ensures that the smart water bottle will be safe, efficient, and suitable for everyday use. In conclusion, the combination of polypropylene for durability, polished aluminum for thermal and reflective performance, and plastic for electrical insulation and protection ensures that the smart water bottle will be safe, efficient, and suitable for everyday use.
- 
- 
-  
- 
  
 ==== Products ==== ==== Products ====
Line 248: Line 244:
 <WRAP box center> <WRAP box center>
 ^ Component  ^  Size (mm)  ^  Price (€)  ^  Power Consumption (mW)  ^  Weight (g)  ^ ^ Component  ^  Size (mm)  ^  Price (€)  ^  Power Consumption (mW)  ^  Weight (g)  ^
-|TDS Sensor (SEN0244)  | 42 $\times$ 32 (cable ~800) | 23 | 10–30 | ~32 |  +|TDS Sensor (SEN0244)  | 42 32 (cable ~800) | 23 | 10–30 | ~32 |  
-|Pressure Sensor (FSR406)  | 43.7 $\times$ 43.7 | 13 | 2–3 | ~3 |  +|Pressure Sensor (FSR406)  | 43.7 43.7 | 13 | 2–3 | ~3 |  
-|UV-C LED Module  | 30 $\times$ 30 | ~30 | 0–5 (standby), 1000 (cleaning) | ~3 |  +|UV-C LED Module  | 30 30 | ~30 | 0–5 (standby), 1000 (cleaning) | ~3 |  
-|Accelerometer (LIS3DHTR)  | 20 $\times$ 15 $\times$ 3 | ~10 | 0,165 | 2 |  +|Accelerometer (LIS3DHTR)  | 20 15 3 | ~10 | 0,165 | 2 |  
-|Temperature Sensor (KY-015 DHT)  | 32 $\times$ 14 $\times$ 7 | 11 | 7 | 8 |  +|Temperature Sensor (KY-015 DHT)  | 32 14 $\times$ 7 | 11 | 7 | 8 |  
-|Piece of activated carbon  | 50 $\times$ 30 | 12 | 0 | 5 (dry), 10 (wet) |  +|Piece of activated carbon  | 50 30 | 12 | 0 | 5 (dry), 10 (wet) |  
-|Microcontroller (ESP32 DevKit V1)  | 56 $\times$ 28 $\times$ 13 | 13 | 792 | 20 |  +|Microcontroller (ESP32 DevKit V1)  | 56 28 13 | 13 | 792 | 20 |  
-|SSD1306 OLED Display (0.96" | 25 $\times$ 26 | 4 | 82,5 | 4 |+|SSD1306 OLED Display (0.96" | 25 26 | 4 | 82,5 | 4 |
 </WRAP> </WRAP>
 </table> </table>
 </WRAP> </WRAP>
 +
 ==== Summary ==== ==== Summary ====
 The analysis of existing concepts, projects and smart water bottles shows that many products address individual aspects of hydration and water quality. Some focus on hydration tracking and behavioral motivation through smartphone apps, while others integrate UV-C technology for disinfection or include filtration systems. However, there is currently no product on the market that combines UV-C disinfection, water filtration, volume tracking, mineral content measurement, and a user-friendly app with gamification in one integrated system. While individual features exist across different products, they have not yet been combined into a single solution. This represents a potential market opportunity for the TRAQUA concept.  The analysis of existing concepts, projects and smart water bottles shows that many products address individual aspects of hydration and water quality. Some focus on hydration tracking and behavioral motivation through smartphone apps, while others integrate UV-C technology for disinfection or include filtration systems. However, there is currently no product on the market that combines UV-C disinfection, water filtration, volume tracking, mineral content measurement, and a user-friendly app with gamification in one integrated system. While individual features exist across different products, they have not yet been combined into a single solution. This represents a potential market opportunity for the TRAQUA concept. 
  • report/soa.1774972412.txt.gz
  • Last modified: 2026/03/31 16:53
  • by team3