Laboratory sample distribution system and laboratory automation system

I claim: 1 . A laboratory sample distribution system, the laboratory sample distribution system comprising: a number of sample container carriers configured to carry one or more sample containers, each sample container carrier comprising at least one magnetically active device; a transport plane configured to support the sample container carriers; a number of electro-magnetic actuators stationary arranged below the transport plane, the electro-magnetic actuators configured to move the sample container carriers on top of the transport plane by applying a magnetic force to the sample container carriers; a control device configured to control the movement of the sample container carriers on top of the transport plane by driving the electro-magnetic actuators such that the sample container carriers move along corresponding transport paths simultaneously and independently from one another; a sensor configured to measure supply currents (Id) and/or supply voltages (Udc), wherein the electro-magnetic actuators are supplied with electrical energy based on the supply currents (Id) and/or the supply voltages (Udc); and a monitoring device functionally coupled to the sensor, wherein the monitoring device is configured to monitor temperatures of the electro-magnetic actuators based on the measured supply currents (Id) and/or measured supply voltages (Udc). 2 . The laboratory sample distribution system according to claim 1 , wherein the laboratory sample distribution system comprises exactly one sensor configured to measure the supply currents (Id) and/or the supply voltages (Udc) in a time multiplexed manner. 3 . The laboratory sample distribution system according to claim 1 , further comprises, a number of H-bridge circuits configured to generate drive signals for the electro-magnetic actuators. 4 . The laboratory sample distribution system according to claim 3 , further comprises a voltage source configured to generate an output voltage, wherein the supply voltages (Udc) are identical to the output voltage, wherein the H-bridge circuits are supplied with the output voltage, and wherein the sensor is configured to measure currents (Id) supplied from the voltage source to the H-bridge circuits. 5 . The laboratory sample distribution system according to claim 1 , further comprises, at least one fan configured to generate an airstream supplied to the electro-magnetic actuators, wherein the monitoring device is configured to monitor the correct function of the at least one fan based on the measured currents (Id) and/or voltages (Udc). 6 . The laboratory sample distribution system according to claim 1 , further comprises, a memory configured to store the monitored temperature values. 7 . The laboratory sample distribution system according to claim 1 , wherein the monitoring device is configured to monitor the temperature of an electro-magnetic actuator only when the electro-magnetic actuator is not actively applying a magnetic force to a sample container carrier. 8 . The laboratory sample distribution system according to claim 1 , wherein the electro-magnetic actuators are formed as solenoids and wherein the solenoids respectively comprise a ferromagnetic core and a coil surrounding the ferromagnetic core. 9 . A laboratory automation system, the laboratory automation system comprising: a number of laboratory stations; and a laboratory sample distribution system according to claim 1 , wherein the laboratory sample distribution system is configured to distribute the sample containers between the laboratory stations.