System and method to reduce parasitic loads on an engine of a harvesting machine

The invention claimed is: 1. A hydraulic power module for a crop harvester having an engine, the hydraulic power module comprising: a main drive gear; a drive shaft extending through the main drive gear; a clutch operatively connected to the drive shaft, the clutch having an engaged position and a disengaged position, wherein the engaged position of the clutch fixedly connects the main drive gear to the drive shaft and the disengaged position of the clutch disconnects the main drive gear drive from the drive shaft; a first pump device directly coupled to the drive shaft, wherein the first pump device is driven by the drive shaft during rotation of the drive shaft; a second pump device indirectly connected to the drive shaft through the clutch, wherein the second pump device is driven by the drive shaft when the clutch is in the engaged position. 2. The hydraulic power module of claim 1 wherein the first pump device includes a first plurality of hydraulic pumps wherein each one of the first plurality of pumps provides a different function. 3. The hydraulic power module of claim 2 wherein one of the first plurality of pumps comprises a steering pump and another of the first plurality of pumps comprises a scavenge pump. 4. The hydraulic power module of claim 2 wherein the second pump device includes a second plurality of hydraulic pumps wherein each of the second plurality of pumps provides a different function. 5. The hydraulic power module of claim 4 wherein one of the second plurality of pumps comprises a header pump and another of the second plurality of pumps comprise a cleaner pump. 6. The hydraulic power module of claim 4 further comprising a third pump device including a third plurality of third pumps wherein each of the third plurality of pumps provides a different function. 7. The hydraulic power module of claim 2 further comprising a first intermediate gear coupled to a secondary drive gear and the first pump device, wherein rotation of the secondary drive gear drives the first intermediate gear to drive the first pump device. 8. The hydraulic power module of claim 7 further comprising a second intermediate gear coupled to the main gear and the second pump device, wherein rotation of the main gear drives the second intermediate gear to drive the second pump device. 9. The hydraulic power module of claim 8 further comprising a hydraulic reservoir configured to hold a supply of hydraulic fluid for driving the first pump device and the second pump device and a fluid level sensor disposed in the hydraulic reservoir, wherein the fluid level sensor is configured to transmit a level signal indicating a level of hydraulic fluid in the hydraulic reservoir. 10. The hydraulic power module of claim 9 further comprising a controller operatively connected to the fluid level sensor and operatively connected to the clutch, wherein the fluid level sensor transmits the level signal to the controller and the controller in response to the level signal prevents the the clutch from being in the engaged position. 11. The hydraulic power module of claim 10 further comprising a third intermediate gear coupled to the main gear and a third pump device, wherein rotation of the main gear drives the third intermediate gear to drive the third pump device. 12. A method of operating a crop harvester having an engine and a plurality of pump devices operatively connected to the engine, the method comprising: providing a drive shaft configured to be operatively connected to the engine; providing a clutch having an engaged position with the drive shaft and a disengaged position with the drive shaft; providing a first gear operatively connected to the clutch and to a first one of the plurality of pump devices; providing a second gear fixedly connected to the drive shaft and to a second one of the plurality of pump devices; disengaging the clutch from the drive shaft; operating the second one of the plurality of pump devices with the second gear immediately upon starting the engine; identifying a threshold engine speed, wherein the threshold engine speed is equal to or greater than a predetermined speed threshold; and after identifying the threshold engine speed, engaging the clutch to connect the first gear with the drive shaft. 13. The method of claim 12 further comprising providing a fluid level sensor configured to determine an oil level in a reservoir configured to provide fluid to the plurality of pump devices. 14. The method of claim 13 further comprising preventing starting the engine if the oil level determined by the fluid level sensor is less than a predetermined oil level. 15. The method of claim 12 wherein the operating the second one of the plurality of pump devices includes operating one of a load sensing steering pump and a scavenge pump. 16. An agricultural vehicle comprising: an engine having a drive shaft; a hydraulic power module including: i) a main drive gear, the drive shaft extending through the main drive gear; ii) a clutch operatively connected to the drive shaft, the clutch having an engaged position and a disengaged position, wherein the engaged position of the clutch fixedly connects the main drive gear to the drive shaft and the disengaged position of the clutch disconnects the main drive gear drive from the drive shaft, iii) a first pump device directly coupled to the drive shaft, wherein the first pump device is driven by the drive shaft during rotation of the drive shaft; and iv) a second pump device indirectly connected to the main drive gear through the clutch, wherein the second pump device is driven by the drive shaft when the clutch is in the engaged position. 17. The agricultural vehicle of claim 16 further comprising a first intermediate gear coupled to a secondary drive gear and the first pump device, wherein rotation of the secondary drive gear drives the first intermediate gear to drive the first pump device. 18. The agricultural vehicle of claim 17 further comprising a second intermediate gear coupled to the main gear and the second pump device, wherein rotation of the main gear drives the second intermediate gear to drive the second pump device. 19. The agricultural vehicle of claim 18 further comprising a hydraulic reservoir configured to hold a supply of hydraulic fluid for driving the first pump device and the second pump device, and a fluid level sensor disposed at the hydraulic reservoir, wherein the fluid level sensor is configured to transmit a level signal indicating a level of hydraulic fluid in the hydraulic reservoir. 20. The agricultural vehicle of claim 19 further comprising a controller operatively connected to the fluid level sensor and operatively connected to the clutch, wherein the fluid level sensor transmits a level signal to the controller and the controller in response to the level signal prevents actuation of the clutch.