Power distributor

What is claimed is: 1. A power distributor comprising: a first controller; and at least two connection modules connected to the first controller and being adapted to be mounted on a supporting rail; wherein the at least two connection modules are attachable to each other and each comprise coupling contacts for an electrical and/or signaling contact connection, wherein inside each of the at least two connection modules, a base resistor is provided between two of the coupling contacts and wherein the at least two connection modules are lined up, such that the base resistor of each of the at least two connection modules are connected together to form a series-connected resistor chain, wherein the at least two connection modules are each equipped with an actuatable circuit breaker, wherein the circuit breaker of each of the at least two connection modules each have a breaker-internal second controller for recording a voltage dropped at the respective, associated base resistor and a switching element that is actuated by the second controller, the switching element being connected between the respective, associated base resistor and a ground connection of the respective, associated connection module, wherein the second controllers are configured to transmit a controller signal to the first controller on the basis of the recorded voltage, the controller signal corresponding to the voltage dropped at the respective, associated base resistor, and wherein the first controller is configured to determine a total resistance value of the resistor chain, wherein the first controller includes a DC power source for supply of the resistor chain, wherein the first controller is configured to determine, based on the total resistance value, a number value corresponding to a number of the at least two connection modules that are attached, and wherein, in the event of a galvanic interruption of the resistor chain, the first controller and the second controller of each of the at least two connection modules are configured to initiate a search process for determining the point of interruption. 2. The power distributor according to claim 1 , wherein, for guiding the controller signals, a communication line is provided which is formed by the coupling contacts. 3. The power distributor according to claim 1 , wherein each of the at least two connection modulo modules has a contact opening with a split plug base contact for a plug contact of the circuit breaker, the split plug base contact formed of two partial plug base contacts and wherein the base resistor is connected between the two partial plug base contacts. 4. The power distributor according to claim 3 , wherein the ground of each of the at least two connection modules is in contact with the respective second controller, is in contact with one of the two partial plug base contacts of the plug contact, and wherein the switching element, actuatable by the second controller, is connected between the ground connection and the one of the two partial plug base contacts. 5. A method of operating a power distributor having a first controller and having at least two attached connection modules, each of the at least two connection modules having one base resistor therein, with the base resistor of each of the at least two connection modules being connected together to form a series-connected resistor chain, the method comprising: providing each of the at least two connection modules with an actuatable circuit breaker with a breaker-internal second controller and a switching element, the second controller transmitting a controller signal, which corresponds to the voltage dropped at the respective base resistor, to the first controller, at which a total resistance value of the resistor chain is determined; and determining, by the first controller and based on the total resistance value, a number value corresponding to a number of the at least two connection modules that are attached, wherein, in the event of a galvanic interruption of the resistor chain, a search process for determining the point of interruption is initiated. 6. The method according to claim 5 , wherein, in response to the controller signals of the second controllers, module-specific device addresses are transmitted to the second controllers. 7. Method according to claim 6 , wherein, as a function of the number value, the module-specific device addresses are converted to a set of logical addresses corresponding to an order of the at least two connection modules that are attached. 8. The method according to claim 5 , wherein, at the beginning of the search process, all connected second controllers are set to an ON state, in which the respective switching element is closed. 9. The method according to claim 8 , wherein, during the search process, the number value for the number of the at least two connection modules that are attached is determined, the module-specific device addresses are distributed to the second controllers, and the second controller with a first device address is switched off. 10. The method according to claim 9 , wherein the search process is terminated when there is no second controller with the first device address.