Interface for energy and data transmission

The invention claimed is: 1. A galvanically separating interface for transmitting electrical energy and data packets, the galvanically separating interface comprising: a coil arrangement including a primary coil and a first secondary coil, wherein the coil arrangement is designed such that the primary coil and the first secondary coil are inductively coupled to one another and are galvanically decoupled from one another; a switching unit which is designed such that the primary coil can be connected to a supply voltage and can be separated therefrom, and a polarity of the supply voltage on the primary coil can be reversed; a control unit which is designed to control the switching unit such that: the primary coil is reversed in polarity at a defined clock rate so that a corresponding alternating voltage signal is induced in the first secondary coil; the primary coil is separated from the supply voltage before or after each polarity reversal per cycle for a defined dead time in each case; and electrical pulses are generated in the coil arrangement on a primary side in dead times of defined cycles which, in accordance with a defined, serial transmission standard, correspond to the data packet; a rectifier which is designed to rectify the corresponding alternating voltage signal induced in the first secondary coil; and an evaluation unit which is designed to detect the electrical pulses generated on the primary side in the coil arrangement in accordance with the transmission standard via the first secondary coil as the data packet to be transmitted. 2. The galvanically separating interface according to claim 1 , wherein the primary coil includes a first end tap, a center tap, and a second end tap, and wherein the switching unit for separating the primary coil from the supply voltage and for the defined polarity reversal thereof comprises two switches switched by the control unit. 3. The galvanically separating interface according to claim 2 , wherein the center tap is connected to the supply voltage, and wherein the control unit switches the switches such that a first switch of the two switches, corresponding to the clock rate, switches the first end tap to ground and separates it therefrom, and the second switch of the two switches, corresponding to the clock rate, switches the second end tap to ground and separates it therefrom inversely to the first switch, and wherein the control unit controls the two switches inversely such that the primary coil is separated from ground between the opening of the respective switch and the closing of the respective other switch for the defined dead time in each case. 4. The galvanically separating interface according to claim 3 , further comprising: an energy storage device which can be connected to the first secondary coil via a third switch, wherein the energy storage device is fed by the rectifier, wherein the evaluation unit is designed to control the third switch in such a way that, depending upon a data packet to be transmitted, electrical pulses are generated in the first secondary coil in dead times of defined cycles, which, in accordance with the transmission standard, correspond to the data packet, and wherein the control unit is designed to detect the pulses, generated in the first secondary coil, at the primary coil in accordance with the transmission standard as the data packet to be transmitted. 5. The galvanically separating interface according to claim 1 , wherein, in the control unit and/or in the evaluation unit, UART or USART is implemented as the transmission standard for transmitting the data packet. 6. The galvanically separating interface according claim 1 , wherein the control unit and/or the evaluation unit are/is designed to transmit the pulses with a variable energy. 7. The galvanically separating interface according to claim 1 , wherein the coil arrangement further includes a second secondary coil. 8. A measuring system, comprising: a superordinate unit, which is designed to generate a data packet; a field device; and a galvanically separating interface, including, a coil arrangement including a primary coil and a first secondary coil, wherein the coil arrangement is designed such that the primary coil and the first secondary coil are inductively coupled to one another and are galvanically decoupled from one another; a switching unit which is designed such that the primary coil can be connected to a supply voltage and can be separated therefrom, and a polarity of the supply voltage on the primary coil can be reversed; a control unit which is designed to control the switching unit such that the primary coil is reversed in polarity at a defined clock rate so that a corresponding alternating voltage signal is induced in the first secondary coil, the primary coil is separated from the supply voltage before or after each polarity reversal per cycle for a defined dead time in each case, and electrical pulses are generated in the coil arrangement on a primary side in dead times of defined cycles which, in accordance with a defined, serial transmission standard, correspond to the data packet; a rectifier which is designed to rectify the corresponding alternating voltage signal induced in the first secondary coil; and an evaluation unit which is designed to detect the electrical pulses generated on the primary side in the coil arrangement in accordance with the transmission standard via the first secondary coil as the data packet to be transmitted, wherein the galvanically separating interface is connected on the primary side to the superordinate unit and on a secondary side to the field device such that the data packet, in accordance with the transmission standard, can be transmitted to the field device, the superordinate unit supplies the field device with energy via the galvanically separating interface, and the field device is galvanically separated from the superordinate unit. 9. A method for transmitting energy and data packets via a galvanically separating interface, comprising: providing a galvanically separating interface, including: a coil arrangement including a primary coil and a first secondary coil, wherein the coil arrangement is designed such that the primary coil and the first secondary coil are inductively coupled to one another and are galvanically decoupled from one another; a switching unit which is designed such that the primary coil can be connected to a supply voltage and can be separated therefrom, and a polarity of the supply voltage on the primary coil can be reversed; a control unit which is designed to control the switching unit such that the primary coil is reversed in polarity at a defined clock rate so that a corresponding alternating voltage signal is induced in the first secondary coil, the primary coil is separated from the supply voltage before or after each polarity reversal per cycle for a defined dead time in each case, and electrical pulses are generated in the coil arrangement on a primary side in dead times of defined cycles which, in accordance with a defined, serial transmission standard, correspond to the data packet; a rectifier which is designed to rectify the corresponding alternating voltage signal induced in the first secondary coil; and an evaluation unit which is designed to detect the electrical pulses generated on the primary side in the coil arrangement in accordance with the transmission standard via the first secondary coil as the data packet to be transmitted; reversing a polarity of the primary coil at a defined clock rate so that the corresponding alternating voltage signal is induced in the first secondary coil, wherein the primary coil is separated from the supply voltage or ground before or after each po