Systems and methods for determining blockages in a negative pressure wound therapy system

What is claimed is: 1. A method of operating a negative pressure wound therapy apparatus, the method comprising: activating a negative pressure source to attempt to reduce pressure in a fluid flow path connecting a wound covered by a wound dressing to the negative pressure source to approximately a negative pressure set point; deactivating the negative pressure source responsive to determining that pressure in the fluid flow path has been reduced to approximately the negative pressure set point; responsive to determining that pressure in the fluid flow path satisfies a threshold negative pressure that is more positive than the negative pressure set point, activating the negative pressure source for a first duration of time to reduce pressure in the fluid flow path to approximately the negative pressure set point; and responsive to determining that pressure in the fluid flow path has been reduced to approximately the negative pressure set point over the first duration of time: deactivating the negative pressure source; subsequently activating the negative pressure source for a second duration of time to attempt to reduce pressure in the fluid flow path, the second duration of time being shorter than the first duration of time; determining a pressure change in the fluid flow path over at least part of the second duration of time; deactivating the negative pressure source subsequent to expiration of the second duration of time; and at a first time, responsive to determining that the pressure change in the fluid flow path over the at least part of the second duration of time indicates reduction in pressure, providing an indication of a blockage in the fluid flow path, wherein the method is performed by a controller. 2. The method of claim 1 , further comprising: at a second time, responsive to determining that the pressure change in the fluid flow path over the at least part of the second duration of time does not indicate reduction in pressure, providing an indication of a leak in the fluid flow path. 3. The method of claim 1 , further comprising: at a second time, detecting a first leak in the fluid flow path that prevents reducing pressure in the fluid flow path to approximately the negative pressure set point; and at a third time, detecting a second leak in the fluid flow path that does not prevent reducing pressure in the fluid flow path to approximately the negative pressure set point. 4. The method of claim 3 , further comprising: at a fourth time, responsive to determining that pressure in the fluid flow path has not been reduced to approximately the negative pressure set point, providing an indication of the first leak in the fluid flow path; and at a fifth time, responsive to determining that the pressure change in the fluid flow path over the at least part of the second duration of time does not indicate reduction in pressure, providing an indication of the second leak in the fluid flow path. 5. The method of claim 4 , wherein: providing the indication of the first leak in the fluid flow path comprises deactivating the negative pressure source; and providing the indication of the second leak in the fluid flow path does not comprise deactivating the negative pressure source. 6. The method of claim 1 , wherein the second duration of time comprises of up to 100 milliseconds. 7. The method of claim 1 , wherein pressure in the fluid flow path is reduced over the at least part of the second duration of time due to evacuation of gas from a portion of the fluid flow path downstream from the blockage. 8. The method of claim 7 , wherein the fluid flow path includes a leak, and wherein the portion of the fluid flow path downstream from the blockage is depressurized over a duration of time when the negative pressure source is deactivated due to the leak. 9. The method of claim 1 , wherein determining the pressure change in the fluid flow path over at least part of the second duration of time is performed based on a difference between a first pressure measurement made approximately at a start of the second duration of time and a second pressure measurement made approximately at an end of the second duration of time. 10. A method of operating a negative pressure wound therapy apparatus, the method comprising: responsive to determining that pressure in a fluid flow path connecting a wound covered by a wound dressing and a negative pressure source satisfies a threshold negative pressure that is more positive than a negative pressure set point, activating the negative pressure source for a first duration of time to reduce pressure in the fluid flow path to approximately the negative pressure set point; and responsive to determining that that pressure in the fluid flow path has been reduced to approximately the negative pressure set point over the first duration of time: deactivating the negative pressure source; subsequently activating the negative pressure source for a second duration of time to attempt to reduce pressure in the fluid flow path, the second duration of time being shorter than the first duration of time; determining a pressure change in the fluid flow path over at least part of the second duration of time; deactivating the negative pressure source subsequent to expiration of the second duration of time; and at a first time, responsive to determining that the pressure change in the fluid flow path over the at least part of the second duration of time does not indicate reduction in pressure, providing an indication of a leak in the fluid flow path, wherein the method is performed by a controller. 11. The method of claim 10 , further comprising: at a second time, responsive to determining that the pressure change in the fluid flow path over the at least part of the second duration of time indicates a reduction in pressure, providing an indication of a blockage in the fluid flow path. 12. The method of claim 11 , wherein pressure in the fluid flow path is reduced over the at least part of the second duration of due to evacuation of gas from a portion of the fluid flow path downstream from the blockage. 13. The method of claim 12 , wherein the portion of the fluid flow path downstream from the blockage is depressurized over a duration of time when the negative pressure source is deactivated. 14. The method of claim 10 , further comprising: at a second time, detecting and indicating a first leak in the fluid flow path that prevents reducing pressure in the fluid flow path to approximately the negative pressure set point; and at a third time, detecting and indicating a second leak in the fluid flow path that does not prevent reducing pressure in the fluid flow path to approximately the negative pressure set point, the second leak being detected responsive to determining that the pressure change in the fluid flow path over the at least part of the second duration of time does not indicate reduction in pressure. 15. The method of claim 14 , wherein: indicating the first leak in the fluid flow path comprises deactivating the negative pressure source; and indicating the second leak in the fluid flow path does not comprise deactivating the negative pressure source. 16. The method of claim 10 , wherein the second duration of time comprises of up to 100 milliseconds. 17. The method of claim 10 , wherein determining the pressure change in the fluid flow path over at least part of the second duration of time is performed based on a difference between a first pressure measurement made approximately at a start of the second duration of time and a s