Battery system

We claim: 1. A method of monitoring a battery system of an industrial vehicle, the battery system including: a first string of battery modules, the first string including at least two battery modules connected in series; a first contactor connected to a positive end of the first string of battery modules; a second contactor connector to a negative end of the first string of battery modules; a third contactor connected to the first contactor; a fourth contactor connected to the second contactor; and one or more controllers configured to monitor the first contactor and the second contactor; a second string of battery modules, the second string including at least two battery modules connected in series, wherein the first string of battery modules is connected to the second string of battery modules in parallel; a fifth contactor connected to a positive end of the second string of battery modules and connected to the third contactor; and a sixth contactor connector to a negative end of the second string of battery modules and connected to the fourth contactor; wherein the method comprises: receiving, at the one or more controllers, an indication of a failure of one of the first contactor and the second contactor; and opening, via the one or more controllers, at least one of the third contactor or the fourth contactor. 2. The method of claim 1 , further comprising: receiving, at the one or more controllers, an indication of a failure of one of the third contactor and the fourth contactor; and opening, via the one or more controllers, at least one of the first contactor or the second contactor. 3. The method of claim 1 , wherein the battery system further comprises: a first precharge contactor and a first precharge resistor connected to a positive end of the first string of battery modules; and a second precharge contactor and a second precharge resistor connected to a negative end of the first string of battery modules. 4. The method of claim 1 , wherein the method further comprises: receiving, at the one or more controllers, an indication of a failure of one of the fifth contactor, or the sixth contactor; and opening, via the one or more controllers, at least one of the third contactor or the fourth contactor in response to the indication of a failure of one of the fifth contactor or the sixth contactor. 5. The method of claim 1 , wherein the battery system further comprises: a first disconnect switch connected to the first string of battery modules; and a second disconnect switch connected to the second string of battery modules; wherein the battery system is configured to operate with 1) both the first string of battery modules and the second string of battery modules connected to the battery system, 2) only the first string of battery modules connected to the battery system and the second disconnect switch actuated to disconnect the second string of battery modules from the battery system, or 3) only the second string of battery modules connected to the battery system and the first disconnect switch actuated to disconnect the first string of battery modules from the battery system. 6. The method of claim 1 , wherein the indication of a failure of one of the first contactor and the second contactor includes an indication that one of the first contactor or the second contactor has welded closed. 7. The method of claim 1 , wherein the battery system is configured to generate at least 200 kilowatt hours of energy. 8. The method of claim 1 , wherein the one or more controllers is a first one or more controllers; wherein the first string of battery modules, the first contactor, the second contactor, the third contactor, and the fourth contactor are sealed within a first housing; and wherein the battery system further comprising: a second string of battery modules including at least two battery modules connected in series; a fifth contactor connected to a positive end of the second string of battery modules; a sixth contactor connector to a negative end of the second string of battery modules; a seventh contactor connected to the fifth contactor; an eighth contactor connected to the sixth contactor; and a second one or more controllers configured to monitor the fifth contactor and the sixth contactor; wherein the second string of battery modules, the fifth contactor, the sixth contactor, the seventh contactor, the eighth contactor, and the second one or more controllers are sealed within a second housing; and wherein the method further comprises: opening, via the one or more controllers, at least one of the third contactor or the fourth contactor; and operating the industrial vehicle utilizing only power provided by the second string of battery modules. 9. A battery system provided in an industrial vehicle, the battery system comprising: a first string of battery modules, the first string including a plurality of battery modules connected in series; a first contactor connected to a negative output of the first string of battery modules; a second contactor connected to a positive output of the first string of battery modules; a third contactor and a first precharge resistor each connected to the first contactor; a first precharge contactor connected to the first precharge resistor; a fourth contactor and a second precharge resistor each connected to the second contactor; and a second precharge contactor connected to the second precharge resistor; a second string of battery modules, the second string including a plurality of battery modules connected in series; a fifth contactor connected to a negative output of the second string of battery modules; a sixth contactor connected to a positive output of the second string of battery modules; wherein the third contactor and the first precharge resistor are each connected to the fifth contactor; and wherein the fourth contactor and the second precharge resistor are each connected to the sixth contactor. 10. The battery system of claim 9 , further comprising: a first controller connected to the first contactor and the second contactor; a second controller connected to the fifth contactor and the sixth contactor; and one or more controllers connected to the third contactor and the fourth contactor. 11. The battery system of claim 9 , further comprising: a first disconnect switch connected to the first string of battery modules; and a second disconnect switch connected the second string of battery modules. 12. The battery system of claim 9 , wherein the battery system is positioned within a sealed housing. 13. The battery system of claim 9 , wherein each of the first string of battery modules and the second string of battery modules is configured to generate between 15 and 30 kilowatts per hour. 14. The battery system of claim 9 , further comprising: a third string of battery modules including a plurality of battery modules connected in series; a seventh contactor connected to a negative output of the third string of battery modules; an eighth contactor connected to a positive output of the third string of battery modules; a fourth string of battery modules including a plurality of battery modules connected in series; a ninth contactor connected to a negative output of the fourth string of battery modules; a tenth contactor connected to a positive output of the fourth string of battery modules; a fifth string of battery modules including a plurality of battery modules connected in series; an eleventh contactor connected to a negative output of the fifth string of battery modules; a twelfth contactor connected to a po