Fan unit with improved surge characteristics

The invention claimed is: 1. A fan unit which in use forms part of a gases supply unit suitable for use as part of a system for providing heated gases to a user, said fan unit comprising: a casing defining a diffuser, a volute, an inlet and an outlet, said volute further defined by a channel that encircles said diffuser, an impeller located within said casing and adapted for connection to a motor, said impeller further having an inducer adapted to receive a gases stream from said casing inlet, said diffuser located at least partially annular to said impeller, said impeller further having an exducer adapted to expel gases to said diffuser and said volute, a recirculation passage providing a gases flow path between an area proximate said exducer and an area proximate said inducer, wherein a lower surface of said diffuser and an inner wall of said volute define an angular transition of more than 270 degrees, wherein said lower surface of the diffuser is sloped up to 6 degrees from a plane tangential to the axis of impeller rotation. 2. A fan unit as claimed in claim 1 , wherein an inner surface of said casing is arched from an outer wall to an upper wall. 3. A fan unit as claimed in claim 1 , wherein said impeller has a plurality of blades enclosed by a lid, said lid having an aperture to provide a gases inlet to said impeller. 4. A fan unit as claimed in claim 3 , wherein said recirculation passage is defined by a gap between said lid and said casing. 5. A fan unit as claimed in claim 1 , wherein said channel has an internal area enlarging in a radial direction. 6. A fan unit as claimed in claim 1 , wherein said channel extends below the plane of the inducer. 7. A fan unit as claimed in claim 1 , wherein the lower surface of said diffuser is a separable member. 8. A fan unit as claimed in claim 7 , wherein said separable member is a ring that at least partially encircles said impeller proximate to said exducer. 9. A fan unit as claimed in claim 1 , wherein said fan unit is part of a medical breathing assistance system connectable to a patient to provide pressurised breathing gases, wherein said casing outlet is connectable to a humidification chamber. 10. A fan unit as claimed in claim 1 , wherein said impeller has a plurality of blades, said blades extending at least partially in a direction of impeller rotation. 11. A fan unit which in use forms part of a gases supply unit suitable for use as part of a system for providing heated gases to a user, said fan unit comprising: a casing defining a diffuser, a volute, an inlet and an outlet, said volute further defined by a channel that encircles said diffuser, an impeller located within said casing and adapted for connection to a motor to rotate about an impeller axis, said impeller further having an inducer adapted to receive a gases stream from said casing inlet, said diffuser located at least partially annular to said impeller, said impeller further having an exducer adapted to expel gases to said diffuser and said volute, a recirculation passage providing a gases flow path between an area proximate said exducer and an area proximate said inducer, wherein airflow leaving said impeller is directed in a direction that is acute relative to the impeller axis and toward the entry of said recirculation passage, wherein said impeller has a plurality of blades capped by a lid, said lid having a central aperture to provide an inlet to said impeller. 12. A fan unit as claimed in claim 11 , wherein a lower surface of the diffuser directs airflow leaving said impeller in a direction that is acute relative to the impeller axis and toward the entry of said passage. 13. A fan unit as claimed in claim 11 , wherein a lower surface of said impeller and a lower surface of the diffuser directs airflow leaving said impeller in a direction that is acute relative to the impeller axis and toward the entry of said passage. 14. A fan unit as claimed in claim 11 , wherein a lower surface of said impeller directs airflow leaving said impeller in a direction that is acute relative to the impeller axis and toward the entry of said passage. 15. A fan unit as claimed in claim 11 , wherein an inner surface of said casing is arched from an outer wall to an upper wall. 16. A fan unit as claimed in claim 11 , wherein said recirculation passage is defined by an air gap between said lid and said casing. 17. A fan unit as claimed in claim 11 , wherein said channel has an internal area enlarging in a radial direction and downwardly encircling said diffuser. 18. A fan unit as claimed in claim 11 , wherein the lower surface of said diffuser is a separable member. 19. A fan unit as claimed in claim 18 , wherein said separable member is a ring that at least partially encircles said impeller proximate said exducer. 20. A fan unit as claimed in claim 11 , wherein said fan unit is part of a medical breathing assistance system that is connectable to a patient to provide pressurised breathing gases. 21. A fan unit as claimed in claim 11 , wherein the impeller comprises a plurality of blades, said blades extending at least partially in a direction of impeller rotation. 22. A breathing assistance apparatus as claimed in claim 21 , wherein said casing outlet is connectable to a humidification chamber. 23. A breathing assistance apparatus for providing heated gases to a patient, said apparatus including a fan unit having the features of claim 11 . 24. A breathing assistance apparatus claimed in claim 23 , wherein said casing outlet is connectable to a patient to provide pressurised breathing gases. 25. A fan unit which in use forms part of a gases supply unit suitable for use as part of a system for providing heated gases to a user, said fan unit comprising: a casing defining a diffuser, a volute, an inlet and an outlet, said volute further defined by a channel having a radially expanding volume that surrounds said diffuser, an impeller located within said casing and adapted for connection to a motor to rotate about an impeller axis, said impeller further having at least one gases flow path entry to receive gases from said casing inlet and a gases flow path exit to expel gases to said diffuser, said volute and said casing outlet, a recirculation passage providing a gases flow path from an area proximate said impeller gases flow path exit to at least one said impeller gases flow path entry, wherein gases passed through said impeller are directed in a direction that is acute relative to the impeller axis and toward the entry of said recirculation passage, wherein said impeller has a plurality of blades capped by a lid, said lid having a central aperture to provide an inlet to said impeller. 26. A fan unit as claimed in claim 25 , wherein a lower surface of the diffuser directs airflow leaving said impeller is directed in a direction that is acute relative to the impeller axis and toward the entry of said recirculation passage. 27. A fan unit as claimed in claim 25 , wherein a lower surface of said impeller and a lower surface of the diffuser directs airflow leaving said impeller in a direction that is acute relative to the impeller axis and toward the entry of said recirculation passage. 28. A fan unit as claimed in claim 25 , wherein a lower surface of said impeller directs airflow leaving said impeller in a direction that is acute relative to the impe