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An ejector mechanism is provided for ejecting a field replaceable module from a receiving location in a carrier of a modular system. The ejector mechanism can include a lever pivotally mounted on the carrier and including a formation for engaging the field replaceable module to eject the field repla

An ejector mechanism is provided for ejecting a field replaceable module from a receiving location in a carrier of a modular system. The ejector mechanism can include a lever pivotally mounted on the carrier and including a formation for engaging the field replaceable module to eject the field replaceable module. The lever can also include a clamp for engaging with a handle of the field replaceable module. The lever can include a trigger that acts to release the clamp and to cause a protrusion to project from the lever as the formation for engaging the field replaceable module. Cable management can be provided, for example in the form of at least one wire loop receivable in a locating hole in the lever.

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1. An ejector mechanism for ejecting a field replaceable module that is receivable within a receiving location in a carrier of a modular system, the ejector mechanism comprising a lever pivotally mounted on the carrier, the lever including a formation operable to engage the field replaceable module

1. An ejector mechanism for ejecting a field replaceable module that is receivable within a receiving location in a carrier of a modular system, the ejector mechanism comprising a lever pivotally mounted on the carrier, the lever including a formation operable to engage the field replaceable module to eject the field replaceable module, a mount for mounting the ejector mechanism on the carrier, the lever being pivotally mounted on the mount.2. The ejector mechanism of claim 1, wherein the formation comprises a protrusion operable to engage in an aperture in a side wall of the field replaceable module.3. The ejector mechanism of claim 2, wherein the protrusion is operable to engage in the aperture to eject the field replaceable module on pivoting the lever away from the field replaceable module.4. The ejector mechanism of claim 3, wherein the protrusion forms part of a cam rotationally mounted within the lever.5. The ejector mechanism of claim 4, wherein the lever comprises a trigger member which, when operated, acts on the cam to cause the protrusion to project from the lever for engaging the aperture in the side wall of the field replaceable module.6. The ejector mechanism of claim 5, wherein a clamp member is rotationally mounted in the lever and is operable to engage with a handle of the field replaceable module when the field replaceable module is received in the receiving location, the trigger member, when operated, further acting to release the clamp member.7. The ejector mechanism of claim 5, wherein the trigger member is rotationally mounted in the lever.8. The ejector mechanism of claim 1, wherein the lever further comprises a clamp member operable to engage with a handle of the field replaceable module when the field replaceable module is received in the receiving location.9. The ejector mechanism of claim 1, comprising cable management.10. The ejector mechanism of claim 9, wherein the cable management comprises at least one wire loop, the wire loop being receivable in a locating hole in the lever.11. A carrier comprising at least one receiving location for a field replaceable module of a modular system and an ejector mechanism for facilitating removal of a field replaceable module from one of the receiving locations, the ejector mechanism comprising a lever pivotally mounted on the carrier, the lever including a formation operable to engage the field replaceable module to eject the field replaceable module, wherein the ejector mechanism is mounted adjacent a side of the receiving location from which the field replaceable module is to be ejected.12. The carrier of claim 11, wherein the ejector mechanism comprises a mount mounted on the carrier, the lever being pivotally mounted on the mount.13. The carrier of claim 11, wherein the formation comprises a protrusion operable to engage in an aperture in a side wall of the field replaceable module.14. The carrier of claim 13, wherein the protrusion is operable to engage in the aperture to eject the field replaceable module on pivoting the lever away from the field replaceable module.15. The carrier of claim 14, wherein the protrusion forms part of a cam rotationally mounted within the lever.16. The carrier of claim 15, wherein the lever comprises a trigger member which, when operated, acts on the cam to cause the protrusion to project from the lever for engaging the aperture in the side wall of the field replaceable module.17. The carrier of claim 16, wherein a clamp member is rotationally mounted in the lever and is operable to engage with a handle of the field replaceable module when the field replaceable module is received in the receiving location, the trigger member, when operated, further acting to release the clamp member.18. The carrier of claim 16, wherein the trigger member is rotationally mounted in the lever.19. The carrier of claim 11, wherein the lever further comprises a clamp member operable to engage with a handle of the field replaceable module when the field replaceable module is received in the receiving location.20. The carrier of claim 11, comprising cable management.21. The carrier of claim 20, wherein the cable management comprises at least one wire loop, the wire loop being receivable in a locating hole in the lever.22. The carrier of claim 11 forming a rack mountable shelf.23. The carrier of claim 22, wherein the rack mountable shelf is operable to receive a plurality of server blades and at least one support module, wherein the ejector mechanism is operable to eject a said support module.24. A blade server system comprising a rack mountable shelf for receiving a plurality of field replaceable server blades, the rack mountable shelf including at least one receiving location for a field replaceable support module and an ejector mechanism for facilitating removal of a field replaceable support module from a said receiving location, the ejector mechanism comprising a lever pivotally mounted on the carrier, the lever including a formation operable to engage the field replaceable module to eject the field replaceable module.25. The blade server of claim 24, wherein the support module is a combined switch and service module.26. The blade server of claim 24, wherein the support module is a power supply module.27. The blade server system of claim 24, comprising first and second receiving locations for first and second combined switch and service processor modules and third and fourth locations for first and second power supply units, wherein a said ejector mechanism is provided for each of said first to fourth receiving locations.28. The blade server system of claim 24, wherein each field replaceable support module includes support handles, each support handle being formed with recessed portions for engagement with a clamp member formed on the lever of the ejector mechanism.29. A field replaceable module receivable in a receiving location in a carrier of a modular system, the field replaceable module being provided with first and second handles mounted symmetrically with respect to the center of a rear face of module, each handle being formed with a recessed portion forming a clamping position configured for engagement by a clamp member formed on a lever of an ejector mechanism.30. The field replaceable module of claim 29, wherein the handles are D-shaped handles.31. The field replaceable module of claim 29, forming a power supply module.32. The field replaceable module of claim 29, forming a combined switch and service processor module.