Coagulation device comprising an energy control

What is claimed is: 1. A device ( 10 ) for tissue coagulation, the device comprising: an electric source ( 18 ), configured to be connected to electrodes ( 12 , 13 ) for influencing biological tissue ( 11 ) with current, a monitoring unit ( 23 ), which is connected to the electric source ( 18 ), configured to determine one or both of a current (I ACT ) output by the electric source ( 18 ) and a voltage (U ACT ) is output by the electric source ( 18 ), a control unit ( 22 ), which includes the monitoring unit ( 23 ) and which is connected to the electric source ( 18 ) in a controlling manner, the control unit ( 22 ) configured to: establish an energy (E 1 ) the electric source ( 18 ) outputs to the electrodes ( 12 , 13 ) in a first operating phase (I), and control the electric source ( 18 ) as a function of the energy (E 1 ), which is determined in the first operating phase (I), in a subsequent second operating phase (II), and to turn off the electric source ( 18 ) after reaching a total energy output to the electrodes ( 12 , 13 ), wherein the total energy is determined as a function of the energy (E 1 ). 2. The device according to claim 1 , wherein the control unit ( 22 ) is interconnected with the electric source ( 18 ) in the first operating phase (I) as a current regulating circuit. 3. The device according to claim 1 wherein at an onset of the first operating phase (I), the control unit ( 22 ) is configured to define a chronologically increasing current (i 1 a ). 4. The device according to claim 1 wherein during at least a section (Ib) of the first operating phase (I), the control unit ( 22 ) is configured to define a constant current (i 1 b ). 5. The device according to claim 1 wherein the control unit ( 22 ) comprises a module ( 26 ) configured to determine a conclusion of the first operating phase (I) using at least one of: a relationship between voltage and current at the electric source ( 18 ) increases beyond a threshold value (R Gmax ), the relationship between voltage and current at the electric source ( 18 ) passes through a minimum (M), an increased speed of change in the relationship between voltage and current at the electric source ( 18 ) exceeds a threshold value, the voltage (U ACT ) at the electric source ( 18 ) exceeds a threshold value, the current (I ACT ) falls below a threshold value. 6. The device according to claim 1 wherein at an onset of the second operating phase (II), the control unit ( 22 ) is equipped to adjust at least one variable of: current (I ACT ) from the electric source ( 18 ), voltage (U ACT ) at the electric source ( 18 ), output power (P ACT ) of the electric source ( 18 ) to a same value the variable had at a conclusion of the first operating phase (I). 7. The device according to claim 1 wherein in the second operating phase (II), the control unit ( 22 ) is configured to define a course of time for changing of a relationship between the voltage (U ACT ) at the electric source ( 18 ) and the current (I ACT ) supplied by said source. 8. The device according to claim 7 , wherein the course of time encompasses a constant impedance increase (A). 9. The device according to claim 1 wherein the control unit ( 22 ) is configured to define a chronological length (t 2 ) of the second operating phase (II). 10. The device according to claim 1 wherein the control unit ( 22 ) is configured to define a chronological length (t 2 ) of the second operating phase (II) as a function of the energy (E 1 ), which is determined in the first operating phase (I). 11. The device according to claim 1 wherein directly following the second operating phase (II), the control unit ( 22 ) is configured to merge into a third operating phase (III). 12. The device according to claim 11 , wherein in the third operating phase (III), the control unit ( 22 ) is configured to define and adjust a constant voltage (U 3 ). 13. The device according to claim 11 , wherein in the third operating phase (III), the control unit ( 22 ) is configured to define a voltage (U 3 ) of the electric source ( 18 ) to a value determined by the monitoring unit ( 23 ) at a conclusion of the second operating phase (II). 14. The device according to claim 11 , wherein the control unit ( 22 ) is configured to conclude the third operating phase (III), if: a minimum treatment time (t min ) and a given total energy (E tot ) have been reached or a maximum treatment time (t max ) has elapsed or a maximum energy (E max ) has been applied. 15. The device according to claim 11 , wherein the control unit ( 22 ) is equipped to monitor a power output by the electric source ( 18 ) in the operating phase (II), so as to extend a time period (t 2 ) for the second or third operating phase (II, III), provided that the power has left a performance window, which is defined between a maximum power (P max ) and a minimum power (P min ).