Hydraulic crimper tool

What is claimed is: 1. A method of operating a hydraulic power tool, the method comprising: performing an operation by a hydraulic drive of the hydraulic power tool; detecting, with a sensor, an operational parameter of the hydraulic drive during the operation; storing a plurality of data points based on the operational parameter detected during the operation; sending, via a transceiver on the hydraulic power tool, the plurality of data points to an external device; displaying, on a display screen of the external device, an expected data point for the operational parameter; displaying, on the display screen of the external device, an actual data curve based on the plurality of data points, the actual data curve overlaid on the expected data point; comparing, with an electronic processor, the actual data curve with an expected data curve stored in the memory; and determining, with the electronic processor, whether the operation of the hydraulic power tool was successful based on the actual data curve and the expected data curve; wherein comparing the actual data curve with the expected data curve comprises: calculating a difference value between each of a plurality of selected points of the expected data curve and corresponding points of the actual data curve; and summing absolute values of each of the difference values to generate a cumulative difference value; and wherein determining whether the operation of the hydraulic power tool was successful comprises: determining that the operation of the hydraulic power tool was unsuccessful when the cumulative difference value exceeds a deviation threshold; and determining that the operation of the hydraulic power tool was successful when the cumulative difference value does not exceed the deviation threshold; and providing, with the electronic processor, an indication of whether the operation was successful. 2. The method of claim 1 , wherein detecting the operational parameter includes one selected from a group consisting of detecting a motor speed, detecting a motor current, and detecting an output pressure. 3. The method of claim 1 , wherein the operational parameter includes an output pressure, and further comprising: comparing, with an electronic processor included in the hydraulic power tool, a maximum output pressure during the operation of the hydraulic power tool to a maximum pressure threshold; generating, via an indicator on the hydraulic power tool, the indication that the operation of the hydraulic power tool was successful and further based on the maximum output pressure exceeding the maximum pressure threshold. 4. The method of claim 1 , wherein storing the plurality of data points includes storing the plurality of data points for a crimp cycle executed by the hydraulic power tool. 5. A method of operating a hydraulic power tool, the method comprising: performing an operation by a hydraulic drive of the hydraulic power tool; detecting, with a sensor, an operational parameter of the hydraulic drive during the operation; storing a plurality of data points based on the operational parameter detected during the operation; sending, via a transceiver on the hydraulic power tool, the plurality of data points to an external device; displaying, on a display screen of the external device, an expected data point for the operational parameter for the operation; displaying, on the display screen of the external device, an actual data curve based on the plurality of data points, the actual data curve overlaid on the expected data point; comparing, with an electronic processor, the actual data curve with a first expected data curve stored in a memory; determining, with the electronic processor, whether the operation of the hydraulic power tool was successful based on the actual data curve and the first expected data curve; and providing, with the electronic processor, an indication of whether the operation was successful; generating a first difference value representative of a first difference between the actual data curve and the first expected data curve; generating a second difference value representative of a second difference between the actual data curve and a second expected data curve; determining whether the first difference value exceeds the second difference value; and identifying a type of operation performed by the hydraulic power tool based on the second expected data curve when the first difference value exceeds the second difference value. 6. The method of claim 1 , wherein detecting the operational parameter includes one selected from a group consisting of detecting a motor speed, detecting a motor current, and detecting an output pressure. 7. The method of claim 1 , wherein comparing the actual data curve with the expected data curve includes: calculating a difference value between each of a plurality of selected points of the first expected data curve and corresponding points of the actual data curve; summing absolute values of each of the difference values to generate a cumulative difference value; and wherein determining whether the operation of the hydraulic power tool was successful includes determining that the operation of the hydraulic power tool was unsuccessful when the cumulative difference value exceeds a deviation threshold, and determining that the operation of the hydraulic power tool was successful when the cumulative difference value does not exceed the deviation threshold. 8. The method of claim 1 , wherein determining whether the operation of the hydraulic power tool was successful includes: determining whether the operation of the hydraulic power tool was successful based on the actual data curve and the second expected data curve when the first difference value exceeds the second difference value; and determining whether the operation of the hydraulic power tool was successful based on the actual data curve and the first expected data curve when the first difference value does not exceed the second difference value. 9. The method of claim 1 , wherein determining whether the operation of the hydraulic power tool was successful includes determining that the operation of the hydraulic power tool is unsuccessful when the first difference value and the second difference value exceed a predetermined threshold. 10. The method of claim 1 , wherein the operational parameter includes an output pressure, and further comprising: comparing, with an electronic processor included in the hydraulic power tool, a maximum output pressure during the operation of the hydraulic power tool to a maximum pressure threshold; generating, via an indicator on the hydraulic power tool, an indication that the operation of the hydraulic power tool was successful when the maximum output pressure exceeds the maximum pressure threshold. 11. The method of claim 1 , wherein storing the plurality of data points includes storing the plurality of data points for a crimp cycle executed by the hydraulic power tool. 12. A method of operating a hydraulic power tool, the method comprising: performing an operation by a hydraulic drive of the hydraulic power tool; detecting, with a sensor, an operational parameter of the hydraulic drive during the operation; storing a plurality of data points based on the operational parameter detected during the operation; sending, via a transceiver on the hydraulic power tool, the plurality of data points to an external device; displaying, on a display screen of the external device, an expected data point for the operational parameter for the operation; displaying, on the display screen of the external device, an actual data curve based on th