Hand-held electrically powered cut-off tool with a kickback mitigation function

The invention claimed is: 1. A hand-held electrically powered cut-off tool for cutting concrete and stone by a rotatable cutting disc, the cut-off tool comprising an electric motor arranged to be controlled by a control unit via a motor control interface, wherein the control unit is arranged to obtain data indicative of an angular velocity of the cutting disc, and to detect a kickback condition based on a decrease in angular velocity, wherein the control unit is arranged to control an electromagnetic braking of the electric motor in response to detecting a kickback condition, and wherein the control unit is arranged to actively regulate an energy outtake from the electric motor over the control interface during the electromagnetic braking. 2. The hand-held electrically powered cut-off tool according to claim 1 , wherein the control unit is arranged to estimate a rotor angle of the electric motor based on a measured current over the control interface, and to obtain the data indicative of angular velocity as a difference of the rotor angle over time. 3. The hand-held electrically powered cut-off tool according to claim 1 , wherein the control unit is arranged to determine the rotor angle of the electric motor based on data indicative of a rotor flux angle of the electric motor, and to obtain the data indicative of angular velocity as a difference of the rotor angle over time. 4. The hand-held electrically powered cut-off tool according to claim 1 , wherein the control unit is arranged to process the data indicative of the angular velocity of the cutting disc by a first low-pass filter and by a second low-pass filter, where the first low-pass filter has a larger bandwidth compared to the second low-pass filter, wherein the first low-pass filter is applied for kickback event detection, and where the second low-pass filter is applied otherwise. 5. The hand-held electrically powered cut-off tool according to claim 1 , comprising an energy dissipating module configured to dissipate energy from the electric motor during the electromagnetic braking. 6. The hand-held electrically powered cut-off tool according to claim 5 , wherein the energy dissipating module comprises any of a resistance, a super-capacitor, a cable connection to electrical mains and/or a battery configured with an energy absorption capacity. 7. The hand-held electrically powered cut-off tool according to any previous claim 1 , wherein the control unit is arranged to obtain the data indicative of an angular velocity of the cutting disc at least in part from an external sensor. 8. The hand-held electrically powered cut-off tool according to claim 1 , wherein the cut-off tool comprises a radio transceiver, and wherein the control unit is arranged to obtain data indicative of the tool diameter or tool inertia from a remote server via the radio transceiver. 9. The hand-held electrically powered cut-off tool according to claim 1 , wherein the control unit is configured to control the electromagnetic braking of the electric motor by applying a configurable braking torque in dependence of a pre-determined time limit for braking the rotatable cutting disc, wherein the control unit is configured to control the electromagnetic braking of the electric motor to generate a torque determined in dependence of a direct current, DC, bus voltage of the cut-off tool, wherein the control unit is configured to control the electromagnetic braking of the electric motor to generate a torque determined in dependence of an energy dissipating capability of the energy dissipating module, or wherein the control unit is configured to control the electromagnetic braking of the electric motor to generate a braking torque below a maximum braking torque level associated with a maximum rate of change in motor shaft angular speed. 10. The hand-held electrically powered cut-off tool according to claim 1 , wherein a direct current, DC, bus voltage of the cut-off tool is regulated by switching a device associated with an impedance during electromagnetic braking of the electric motor. 11. The hand-held electrically powered cut-off tool according to claim 1 , comprising a support arm, wherein the rotatable cutting disc is arranged to be driven by the electric motor via a belt drive and a geared transmission. 12. The hand-held electrically powered cut-off tool according to claim 1 , wherein the control unit is arranged to prevent operation of the tool during a time window following detection of the kickback condition. 13. The hand-held electrically powered cut-off tool according to claim 12 , wherein the time window is between 2 seconds long, wherein the time window is configured in dependence of a tool inertia, or wherein the time window is configured in dependence of a temperature of the electric motor and/or energy dissipating module. 14. The hand-held electrically powered cut-off tool according to claim 1 , wherein the control unit is arranged to suppress detection of a kickback condition during a time period following start of the electric motor, or wherein the control unit is arranged to suppress detection of a kickback condition unless the tool engages an object to be cut. 15. A method in a control unit for mitigating kickback in a hand-held electrically powered cut-off tool arranged for cutting concrete and stone by a rotatable cutting disc, wherein the cut-off tool comprises an electric motor arranged to be controlled by the control unit via a motor control interface, the method comprising obtaining data indicative of an angular velocity of the cutting disc, detecting a kickback condition based on a decrease in angular velocity, and controlling electromagnetic braking of the electric motor in response to detecting a kickback condition, wherein the controlling comprises actively regulating an energy outtake from the electric motor over the control interface during the electromagnetic braking. 16. A hand-held electrically powered cut-off tool for cutting concrete and stone by a rotatable cutting disc, the cut-off tool comprising an electric motor arranged to be controlled by a control unit via a motor control interface, wherein the control unit is arranged to determine an angular position of a rotor of the electric motor based on a current over the control interface, and to obtain data indicative of an angular velocity of the cutting disc based on a rate of change of the angular position of the rotor over time, wherein the control unit is arranged to detect a kickback condition based on a decrease in angular velocity of the cutting disc, and to control electromagnetic braking of the electric motor in response to detecting a kickback condition, and wherein the control unit is arranged to actively regulate an energy outtake from the electric motor over the control interface during the electromagnetic braking. 17. A hand-held electrically powered cut-off tool for cutting concrete and stone by a rotatable cutting disc, the cut-off tool comprising an electric motor arranged to be controlled by a control unit via a motor control interface, wherein the control unit is arranged to obtain data indicative of an angular velocity of the cutting disc, and to detect a kickback condition based on a decrease in angular velocity, wherein the control unit is arranged to control an electromagnetic braking of the electric motor in response to detecting a kickback condition, wherein the electrically powered cut-off tool comprises an energy dissipating module configured to dissipate energy from the electric motor during the electromagnetic braking.