Battery system

What is claimed is: 1. A battery system, comprising: a first cell balancing circuit electrically coupled to first sense line and a second sense line and to a first electrical terminal and a second electrical terminal of a first battery the first cell, balancing circuit having a first transistor electrically coupled in parallel to the first battery cell; a second cell balancing circuit electrically coupled to a third sense line and a fourth sense line and to a first electrical terminal and a second electrical terminal of a second battery cell, the second cell balancing circuit having a second transistor electrically coupled in parallel to the second battery cell; a bus bar electrically coupled between the second electrical terminal of the first battery cell and the first electrical terminal of the second battery cell, a first end of the bus bar being electrically coupled to the second sense line, and a second end of the bus bar being electrically coupled to the third sense line; a microcontroller commanding each of the first transistor and the second transistor to transition to an open operational state such that the first balancing circuit and the second balancing circuit are turned off, respectively; and an integrated circuit measuring a first voltage between the second sense line and the third sense line while the first balancing circuit and the second balancing circuit are turned off, and determining a voltage value based on the first voltage, wherein the microcontroller receiving the voltage value and determining that an open circuit condition exists in the bus bar if the voltage value is greater than a threshold voltage value. 2. The battery system of claim 1 , wherein the second electrical terminal of the first battery cell being electrically coupled in series with the second sense line, and the first electrical terminal of the second battery cell being electrically coupled in series with the third sense line. 3. The battery system of claim 2 , wherein the integrated circuit is electrically coupled to the second sense line and the third sense line and to the microcontroller. 4. The battery system of claim 1 , wherein: the microcontroller commanding the first transistor to transition to the open operational state by sending a first command message to the integrated circuit; and the integrated circuit outputting a first control signal to induce the first transistor to transition to the open operational state, in response to the first command message. 5. The battery system of claim 4 , wherein: the microcontroller commanding the second transistor to transition to the open operational state by sending a second command message to the integrated circuit; and the integrated circuit outputting a second control signal to induce the second transistor to transition to the open operational state, in response to the second command message. 6. The battery system of claim 1 , further comprising a first Zener diode electrically coupled to the second sense line and the third sense line. 7. The battery system of claim 6 , further comprising a second Zener diode electrically coupled to the first sense line and the second sense line, and a third Zener diode electrically coupled to the third sense line and the fourth sense line. 8. The battery system of claim 1 , wherein the threshold voltage value is in a range of 500 millivolts to 1500 millivolts. 9. The battery system of claim 1 , wherein the microcontroller outputs a diagnostic code indicating the open circuit condition exists in the bus bar, to a vehicle controller. 10. The battery system of claim 9 , wherein the vehicle controller generates a control message to induce a display device to display the diagnostic code.