Method for wireless time synchronization of a first electrical unit with a second electrical unit

What is claimed is: 1 . A method for wireless time synchronization of a first electrical unit with a second electrical unit which is intermittently wirelessly connected to each other via a low-energy connection, wherein the first electrical unit includes a first time counter and the second electrical unit includes a second time counter, and wherein a connection event occurs repeatedly at predetermined connection time intervals, comprising: a) transmitting a first data packet by the first electrical unit to the second electrical unit upon a first connection event; b) receiving the first data packet and creating a second timestamp based on the second time counter by the second electrical unit; c) transmitting a second data packet with the created second timestamp by the second electrical unit to the first electrical unit upon a next connection event; d) transmitting the second data packet by the first electrical unit; e) determining a current time by the first electrical unit based on one or more time periods of the predetermined connection time interval and the second timestamp; and f) setting the first time counter to the current time determined. 2 . The method according to claim 1 , wherein: the setting of the first time counter is carried out when a condition is met, the condition is met if a time period between the transmission of the first data packet by the first electrical unit and the reception of the second data packet by the first electrical unit is less than the sum of two predetermined connection time intervals, and otherwise the method steps (a) to (e) are performed again at least once. 3 . The method according to claim 1 , wherein: prior to transmitting the first data packet, a first timestamp is created based on the first time counter by the first electrical unit, the first and second data packets comprise the first timestamp, the setting of the first time counter is carried out when a condition is met, the condition is met if a time period between the time of the first timestamp and the reception of the second data packet by the first electrical unit is less than the sum of two predetermined connection time intervals, and otherwise the method steps (a) to (e) are performed again at least once. 4 . The method according to claim 1 , wherein the method steps (a) to (f) are performed again at predetermined time intervals. 5 . The method according to claim 1 , wherein a synchronicity of the first and second time counters is checked using the steps: creating a third timestamp by one of the two electrical units, transmitting the created third timestamp by the one electrical unit to the other electrical unit upon a next connection event, receiving the third timestamp by the other electrical unit, determining an amount of a difference by the other electrical unit between the time of the transmitted third timestamp and a current local time of the one electrical unit at the time of receiving the third timestamp, and performing the method steps (a) to (f) at least once if the amount of a difference is greater than or equal to the magnitude of a predetermined connection time interval. 6 . The method according to claim 5 , wherein checking a synchronicity is performed as a result of a particular event and/or at predetermined time intervals. 7 . The method according to claim 1 , wherein after setting the first time counter, a plausibility check is performed using the steps: performing the method steps (a) to (e), and determining an amount of a difference by the first electrical unit between the current time determined in step (e) and a local time of the first time counter, wherein it is considered plausible if the amount of a difference is less than 10 ms, and greater than 1 ns. 8 . The method according to claim 1 , wherein the connection time interval is set between 1 ns and 500 ms. 9 . The method according to claim 1 , wherein: the first and second electrical units each comprises a transmission queue, a symmetry of a temporal transmission behavior of the first and second electrical units is checked based on an amount of a difference between a first transmission time period of the first electrical unit and a second transmission time period of the second electrical unit, the first transmission time period comprises a transmission time for the first data packet, and the second transmission time duration comprises a transmission time for the second data packet, and said transmission time is considered symmetrical if the amount of a difference is less than 0.1 ms, and greater than 1 ns. 10 . The method according to claim 1 , wherein a transmission protocol based on Bluetooth, Bluetooth Low Energy, WLAN, WiFi, Zigbee, NFC, Sigfox, Li-Fi, or Mioty is used to communicate between the first and second electrical units. 11 . The method according to claim 1 , wherein data is transmitted in encrypted form. 12 . The method according to claim 1 , wherein: the setting of the first time counter is carried out when a condition is met, the condition is met if a time period between the transmission of the first data packet by the first electrical unit and the reception of the second data packet by the first electrical unit is less than the sum of two predetermined connection time intervals, and otherwise the method steps (a) to (e) are performed until the condition is met. 13 . The method according to claim 1 , wherein: prior to transmitting the first data packet, a first timestamp is created based on the first time counter by the first electrical unit, the first and second data packets comprise the first timestamp, the setting of the first time counter is carried out when a condition is met, the condition is met if a time period between the time of the first timestamp and the reception of the second data packet by the first electrical unit is less than the sum of two predetermined connection time intervals, and otherwise the method steps (a) to (e) are performed until the condition is met. 14 . The method according to claim 1 , wherein the method steps (a) to (f) are performed again at predetermined time intervals of 10 min. 15 . The method according to claim 1 , wherein a synchronicity of the first and second time counters is checked using the steps: creating a third timestamp by one of the two electrical units, transmitting the created third timestamp by the one electrical unit to the other electrical unit upon a next connection event, receiving the third timestamp by the other electrical unit, determining an amount of a difference by the other electrical unit between the time of the transmitted third timestamp and a current local time of the one electrical unit at the time of receiving the third timestamp, and performing the method steps (a) to (f) at least once if the amount of a difference is greater than or equal to the magnitude of a predetermined connection time interval as long as the amount of a difference is greater than a predetermined connection time interval. 16 . The method according to claim 1 , wherein after setting the first time counter, a plausibility check is performed using the steps: performing the method steps (a) to (e), and determining an amount of a difference by the first electrical unit between the current time determined in step (e) and a local time of the first time counter, wherein it is considered plausible if the amount of a difference is less than 1 ms, and greater than 1 μs. 17 . The method according to claim 1 , wherein the connection time interval is set between 100