Capillary-based pressure threshold sensor for liquids and methods and apparatuses using same

The invention claimed is: 1. A method of making a capillary-based pressure threshold sensor comprising: selecting a first porous medium with a porous property that allows fluid to leak from a first side thereof, through the medium to an opposite second side thereof, the leak happening when fluid pressure exceeds the porous medium fluid breakthrough pressure threshold; providing a fluid detection element disposed at least proximally to the second side of the porous medium and configured to detect the presence of at least the target fluid on said second side of the porous medium; and configuring the first side to form a seal over a port in a fluid pathway to expose the porous medium to fluid in the fluid pathway and prevent the fluid from leaking outside the capillary-based pressure threshold sensor. 2. The method of claim 1 , wherein the fluid detection element is chosen from a passive fluid detection element and an active fluid detection element, wherein a passive fluid detection element is not activated until the target fluid leaks through the porous medium reaching the opposite second side of the porous medium; and wherein an active fluid detection element provides different outputs that distinguish a first state wherein the target fluid has not yet leaked through the porous medium from a second state wherein the target fluid has leaked through the porous medium. 3. The method of claim 1 , wherein the fluid detection element comprises an indicator element that is configured to change state when the target fluid has leaked through the porous medium to the second side thereof, and changing state is chosen from a color indication and a change in color indication. 4. A method of making a capillary-based pressure threshold sensor comprising: selecting a first porous medium with a porous property that allows fluid to leak from a first side thereof, through the medium to an opposite second side thereof, the leak happening when fluid pressure exceeds the porous medium fluid breakthrough pressure threshold; providing a fluid detection element disposed at least proximally to the second side of the porous medium and configured to detect the presence of at least the target fluid on said second side of the porous medium; and coating the first porous medium with a thermoresponsive material to detect a condition chosen from a designated temperature and a designated pressure change in the target fluid. 5. The method of claim 4 , wherein the thermoresponsive material is poly-N-isopropylacrylamide (PNIPAM). 6. The method of claim 1 , wherein the porous property of the medium is chosen from pore size, thickness, material, topography, coating, and contact angle with the fluid. 7. A method of making a capillary-based pressure threshold sensor comprising: selecting a first porous medium with a porous property that allows fluid to leak from a first side thereof, through the medium to an opposite second side thereof, the leak happening when fluid pressure exceeds the porous medium fluid breakthrough pressure threshold; and providing a fluid detection element disposed at least proximally to the second side of the porous medium and configured to detect the presence of at least the target fluid on said second side of the porous medium; and selecting a supplementary porous medium disposed at least proximally to the opposite side of the first porous medium as to be in contact with the target fluid at least before target fluid leak through the first porous medium, wherein second porous medium has one or more porous properties that allows fluid to readily infiltrate the second porous medium and achieves enhanced contact between the target fluid and the fluid detection element. 8. A method of making a capillary-based pressure threshold sensor comprising: selecting a first porous medium with a porous property that allows fluid to leak from a first side thereof, through the medium to an opposite second side thereof, the leak happening when fluid pressure exceeds the porous medium fluid breakthrough pressure threshold; and providing a fluid detection element disposed at least proximally to the second side of the porous medium and configured to detect the presence of at least the target fluid on said second side of the porous medium; wherein the fluid detection element comprises at least two electrodes, and further comprising: providing a second porous medium (-philic) disposed between the porous medium (-phobic) and the fluid detector element to controllably distribute the fluid leaking through the porous medium to the sensor, wherein the second porous medium is chosen to have different conductivity when dry and when wetted by the fluid in the fluid pathway; and providing the two electrodes in contact with the second side of the porous medium, the electrodes configured to be passive and not activated until fluid leaking through the porous medium exceeds the threshold. 9. The method of claim 8 , wherein providing a fluid detection element comprises providing electrodes made from contact pads on a printed circuit board (PCB). 10. The method of claim 9 , further comprising heat-staking the PCB via heat-staking pins configured to maintain proximity with the second porous medium and direct contact with the porous medium. 11. A method of making a capillary-based pressure threshold sensor comprising: selecting a first porous medium with a porous property that allows fluid to leak from a first side thereof, through the medium to an opposite second side thereof, the leak happening when fluid pressure exceeds the porous medium fluid breakthrough pressure threshold; and providing a fluid detection element disposed at least proximally to the second side of the porous medium and configured to detect the presence of at least the target fluid on said second side of the porous medium; wherein the fluid detection element comprises at least two electrodes, and further comprising operating the electrodes as a passive switch that is open until it closes upon contact with the fluid. 12. A method of making a capillary-based pressure threshold sensor comprising: selecting a first porous medium with a porous property that allows fluid to leak from a first side thereof, through the medium to an opposite second side thereof, the leak happening when fluid pressure exceeds the porous medium fluid breakthrough pressure threshold; and providing a fluid detection element disposed at least proximally to the second side of the porous medium and configured to detect the presence of at least the target fluid on said second side of the porous medium; and providing a switch that comprises providing electrodes made from contact pads on a printed circuit board (PCB). 13. The method of claim 12 , further comprising connecting the electrodes to a microcontroller using a connection chosen from connecting one of the electrodes to a ground pin of a microcontroller and connecting the other electrode to an input pin of the microcontroller; connecting one of the electrodes to an output pin of a microcontroller and connecting the other electrode to an input pin of the microcontroller; and connecting one of the electrodes to a positive rail of a power supply having common ground with the microcontroller and connecting the other electrode to an input pin of the microcontroller. 14. The method of claim 13 , further connecting a pullup resistor between a positive rail of a power supply or reference voltage for the microcontroller and said input pin, said resistor having a resistance on the order of 1 k Ohm to 100 M Ohm. 15. The method of either claim 13 , further connecting a p