Battery-powered portable cutting tools

The invention claimed is: 1. A battery-powered chainsaw, comprising: a housing, a cutting chain supported by the housing, an electric motor coupled to the cutting chain so as to drive the cutting chain to cut, a battery electrically coupled to the motor so as to supply electric current to the motor, a chain brake operable by a user to brake movement of the cutting chain, and a control circuit coupled to the motor and the battery to control the supply of electric current to the motor from the battery, in which the chain brake comprises a chain brake handle via which the chain brake is operable by the user; in which the control circuit comprises a main switch operable by the user and first and second auxiliary switches also operable by the user; in which the control circuit has: an active state in which the first auxiliary switch and the second auxiliary switch are in a first state, in which operation of the main switch to an actuated state by the user allows electric current to flow from the battery to the motor so as to cause the cutting chain to be driven; and an inactive state in which at least one of the first auxiliary switch and the second auxiliary switch is in a second state, in which operation of the main switch to the actuated state does not allow electric current to flow from the battery to the motor and so the motor does not drive the cutting chain; in which, while the main switch is in the actuated state and the first auxiliary switch and the second auxiliary switch are in the first state, subsequent operation of the first auxiliary switch or second auxiliary switch to the second state causes the control circuit to change from the active state to the inactive state; in which the first auxiliary switch is operated by operating the chain brake handle; and in which the second auxiliary switch includes a suspension element extending outward and away from the housing of the chainsaw and a load sensor configured to determine whether a force applied to the load sensor, by the suspension element, in a direction away from the housing satisfies a predetermined load limit and, if so, the second auxiliary switch changes to the second state causing the control circuit to change to the inactive state. 2. The chainsaw of claim 1 , in which the first auxiliary switch is coupled to the chain brake handle such that application of the chain brake handle places the control circuit in the inactive state. 3. The chainsaw of claim 1 , in which the chain brake handle is biased such that releasing the chain brake handle places the first auxiliary switch in the first state. 4. The chainsaw of claim 1 , in which the chain brake handle has three positions: a first position, where the chain brake is activated and the first auxiliary switch is switched into the second state; a second position in which the chain brake is not activated and the first auxiliary switch is in the first state, and a third, switching position, in which movement of the chain brake handle into the switching position acts to switch the first auxiliary switch into the first state. 5. The chainsaw of claim 1 , in which the control circuit is arranged with the main switch and the first and second auxiliary switches in series. 6. The chainsaw of claim 1 , wherein the load sensor comprises a strain gauge. 7. A battery-powered portable cutting tool, comprising: a housing, a cutting element supported by the housing and extending from a cutting end of the housing, an electric motor coupled to the cutting element so as to drive the cutting element to cut, a battery electrically coupled to the motor so as to supply electric current to the motor, a chain brake operable by a user to brake movement of the cutting element, and a control circuit coupled to the battery and the motor to control the supply of electric current to the motor from the battery, in which the control circuit comprises a main switch operable by the user and an auxiliary switch also operable by the user; in which the control circuit has: an active state in which the auxiliary switch is in a first state, in which operation of the main switch to an actuated state by the user allows electric current to flow from the battery to the motor so as to cause the cutting element to be driven; and an inactive state in which the auxiliary switch is in a second state, in which operation of the main switch to the actuated state does not allow electric current to flow from the battery to the motor and so the motor does not drive the cutting element; in which, while the main switch is in the actuated state, operation of the auxiliary switch from the first state to the second state causes the control circuit to change from the active state to the inactive state; wherein the auxiliary switch includes a suspension element extending outward and away from the housing of the tool at a rear end of the housing of the tool that is opposite the cutting end of the housing where the cutting element is supported and a load sensor configured to determine whether a force applied to the load sensor, by linear motion of the suspension element, in a direction away from the housing satisfies a predetermined load limit and, if so, the auxiliary switch causes the control circuit to change to the inactive state. 8. The tool of claim 7 , wherein the tool comprises a chainsaw. 9. The tool of claim 7 , in which the control circuit is arranged with the main switch and the auxiliary switch in series. 10. The tool of claim 7 , in which a timing circuit is coupled to the auxiliary switch and the main switch, and the control circuit is arranged to enter the inactive state if the main switch is not activated for a predetermined period of time as determined by the timing circuit. 11. The tool of claim 10 , in which the control circuit is arranged such that manipulation of the auxiliary switch after the control circuit has deactivated after the passage of the period of time causes the control circuit to enter the active state. 12. The tool of claim 7 , wherein the load sensor comprises a strain gauge. 13. A battery-powered portable cutting tool, comprising: a housing, a cutting element supported by the housing, an electric motor coupled to the cutting element so as to drive the cutting element to cut, a battery electrically coupled to the motor so as to supply electric current to the motor, a chain brake comprising a brake handle operable by a user to brake movement of the cutting element, and a control circuit coupled to the battery and the motor to control the supply of electric current to the motor from the battery, in which the control circuit comprises a main switch operable by the user and an auxiliary switch also operable by the user; in which the control circuit has: an active state in which the auxiliary switch is in a first state, in which operation of the main switch to an actuated state by the user allows electric current to flow from the battery to the motor so as to cause the cutting element to be driven; and an inactive state in which the auxiliary switch is in a second state, in which operation of the main switch to the actuated state does not allow electric current to flow from the battery to the motor and so the motor does not drive the cutting element; in which, while the main switch is in the actuated state, operation of the auxiliary switch from the first state to the second state causes the control circuit to change from the active state to the inactive state; wherein the auxiliary switch includes a suspension element extending outward and away from the housing of the tool and a load sensor configured to determine whether a force a