Reverse power sharing

The invention claimed is: 1. A power distributor for a communications system for controlling delivery of electrical power drawn over a plurality of electrical communications connections allocated to respective customer premises equipment, to electrically powered network components within a network, the power distributor comprising: one or more control inputs to receive inputs relating to electrical power required by one or more network interface functions, and to identities of customer premises equipment connections currently served by the one or more network interface functions; and a plurality of control outputs arranged to control collection of electrical power to be drawn from each customer premises equipment connection in accordance with power requirements of services operated by or for respective customer premises equipment, the electrical power to be drawn from each customer premises equipment being controlled in accordance with the power requirements of the services delivered to respective customers, independent of identities of electrical connections used to deliver the services, wherein the power distributor has a first input from a first interface unit controlling communications over a plurality of connections on which power requirements are apportioned equally between a plurality of electrical connections, and a second input from a second interface unit controlling communications over a subset of the plurality of electrical connections and on which power requirements are apportioned to one or more active members of the subset of the plurality of electrical connections. 2. The power distributor according to claim 1 , arranged such that power is not taken from members of the subset of the plurality of electrical connections other than the one or more active members. 3. The power distributor according to claim 1 , wherein the first interface unit is a vectoring unit for co-ordinating communications on a plurality of communications links sharing a common physical carrier. 4. The power distributor according to claim 3 , wherein the common physical carrier is a cable comprising a plurality of twisted pairs making up the individual connections. 5. The power distributor according to claim 3 , wherein the second interface unit is a beamforming unit for converting between a signal on a single connection and a co-ordinated series of signals on parallel connections. 6. A method of delivering electrical power to one or more elements of a communications system in which power is drawn over a plurality of electrical communications connections allocated to respective customer premises, wherein a power sharing process is used to control the power drawn from each of the plurality of electrical communications connections in accordance with power requirements of services operated by or for respective customer premises equipment, the method comprising: using one or more electrical connections allocated to a first set of customer premises are used, when not required by the first set of customer premises, to augment communications capacity delivered to a second set of customer premises; and controlling the power to be drawn from each electrical communications connection in accordance with the power requirements of the services delivered to the respective customers, independent of identities of the electrical communications connections used to deliver the services, wherein a first interface unit controls communications over a plurality of connections on which power requirements are apportioned equally between a plurality of electrical connections, and a second interface unit controls communications over a subset of the plurality of electrical connections and on which power requirements are apportioned to one or more active members of the subset of the plurality of electrical connections. 7. The method according to claim 6 , wherein electrical power is not taken from members of the subset of the plurality of electrical connections other than the one or more active members. 8. The method according to claim 6 , wherein the first interface unit is a vectoring unit for co-ordinating communications on a plurality of communications links sharing a common carrier. 9. The method according to claim 8 , wherein the common communications carrier is a cable comprising a plurality of twisted pairs making up the individual connections. 10. The method according to claim 9 , wherein the second interface unit is a beamforming unit for converting between a signal on a single connection and a co-ordinated series of signals on parallel connections.