Micro-fluidic chambers for use in liquid medicament delivery systems

What is claimed: 1. A micro-fluidic chamber for use in a liquid medicament delivery system, the micro-fluidic chamber comprising: a bottom substrate and a top cover, the top cover being spaced from the bottom substrate so as to define a height of the micro-fluidic chamber; wherein, two or more walls or fillings are positioned in the micro-fluidic chamber, the walls or fillings forming a fluid channel between the walls or fillings, the fluid channel extending from an inlet conduit connected to an inlet of the micro-fluidic chamber to an outlet conduit connected to an outlet of the micro-fluidic chamber; wherein, each of the walls or fillings has a height less than the height of the micro-fluidic chamber so as to define a fluid gap between a top surface of each wall or filling and the top cover; and wherein, the dimensions of the walls or fillings and the micro-fluidic chamber are such that the fluid gap will be filled with liquid by capillary forces via the fluid channel when liquid is introduced into the micro-fluidic chamber; wherein, the top cover comprises a gas-permeable membrane which allows gas to freely pass through the gas-permeable membrane and prevents liquid from passing through the gas-permeable membrane. 2. The micro-fluidic chamber of claim 1 , wherein a height of the fluid gap is from 0.02 to 0.2 mm. 3. The micro-fluidic chamber of claim 2 , wherein a height of the fluid gap is from 0.05 and 0.15 mm. 4. The micro-fluidic chamber of claim 1 , wherein the top cover comprises a flexible membrane. 5. The micro-fluidic chamber of claim 1 , wherein at least one of a part of the surface of the bottom structure, the walls, and the top cover facing toward an inner volume of the micro-fluidic chamber is hydrophilic. 6. The micro-fluidic chamber of claim 1 , wherein the fluid channel comprises a meander-like shape. 7. The micro-fluidic chamber of claim 1 , wherein the fluid channel extends uninterrupted from the inlet conduit to the outlet conduit. 8. A pressure sensor for use in a liquid medicament delivery system, the pressure sensor comprising: a rigid bottom structure and a top cover, the top cover comprising a flexible, resilient membrane being spaced from the rigid bottom structure so as to define a height of a chamber; wherein, two or more walls or fillings are positioned in the chamber, the walls or fillings forming a fluid channel between the walls or fillings, the fluid channel extending from an inlet conduit connected to an inlet of the micro-fluidic chamber to an outlet conduit connected to an outlet of the micro-fluidic chamber; wherein, each of the walls or fillings has a height less than the height of the chamber so as to define a fluid gap between a top surface of each wall or filling and the top cover; wherein, the top cover comprises a gas-permeable membrane which allows gas to freely pass through the gas-permeable membrane and prevents liquid from passing through the gas-permeable membrane; wherein, the dimensions of the walls or fillings and the chamber are such that the fluid gap will be filled with liquid by capillary forces via the fluid channel when liquid is introduced into the chamber; and wherein, when there is no pressure difference between an external pressure of the chamber and an internal pressure of the chamber, the top cover remains flat and when the external pressure of the chamber is less than the internal pressure, the top cover bulges outwards. 9. The pressure sensor of claim 8 wherein, wherein a height of the fluid gap is from 0.02 to 0.2 mm. 10. The pressure sensor of claim 9 wherein, wherein a height of the fluid gap is from 0.05 and 0.15 mm. 11. The pressure sensor of claim 8 wherein, a detection system is arranged to measure a deformation of the top cover of the chamber. 12. The pressure sensor of claim 8 wherein, wherein at least one of a part of the surface of the rigid bottom structure, the walls, and the top cover facing toward an inner volume of the micro-fluidic chamber is hydrophilic. 13. The pressure sensor of claim 8 , wherein the fluid channel comprises a meander-like shape. 14. The pressure sensor of claim 8 , wherein the fluid channel extends uninterrupted from the inlet conduit to the outlet conduit.