Apparatus, systems and methods for row unit downforce control

The invention claimed is: 1. An agricultural implement having multiple row units, each row unit comprising opening discs for opening a trench in soil and gauge wheels for setting a depth of the trench, and having a system for applying downforce to the row units, the system comprising: a first actuator, said first actuator disposed to apply force to a first row unit, said first actuator including a first down chamber and a first lift chamber, pressure in said first down chamber tending to oppose pressure in said first lift chamber; a second actuator, said second actuator disposed to apply force to a second row unit, said second actuator including a second down chamber and a second lift chamber, pressure in said second down chamber tending to oppose pressure in said second lift chamber; a first downpressure control device in fluid communication with said first down chamber for controlling pressure in said first down chamber, said first downpressure control device configured to maintain as a selected first downpressure any one of a continuous range of pressures in said first downpressure chamber; a second downpressure control device in fluid communication with said second down chamber for controlling pressure in said second down chamber, said second downpressure control device configured to maintain as a selected second downpressure any one of a continuous range of pressures in said second downpressure chamber, wherein said selected second downpressure is different from said selected first downpressure. 2. The agricultural implement of claim 1 , further comprising: processing circuitry in electrical communication with said first downpressure control device and said second downpressure control device; wherein said processing circuitry is configured to modify an operating state of said first downpressure control device and said second downpressure control device; and wherein said processing circuitry is further configured to determine a first soil penetration criterion associated with said first row unit and determine a second soil penetration criterion associated with said second row unit. 3. The agricultural implement of claim 2 , further including: a first downforce sensor associated with said first row unit, said first downforce sensor in electrical communication with said processing circuitry, said first downforce sensor configured to generate a first downforce signal related to a force between the ground and said first row unit; and a second downforce sensor associated with said second row unit, said second downforce sensor in electrical communication with said processing circuitry, said second downforce sensor configured to generate a second downforce signal related to a force between the ground and said second row unit. 4. The agricultural implement of claim 3 , wherein said processing circuitry is further configured to: select and command a pressure in said first down chamber based on said first downforce signal; and select and command a pressure in said second down chamber based on said second downforce signal. 5. The agricultural implement of claim 2 , further including: a first downforce sensor associated with said first row unit, said first downforce sensor in electrical communication with said processing circuitry, said first downforce sensor configured to generate a first downforce signal related to a force between the ground and said first row unit; and a second downforce sensor associated with said second row unit, said second downforce sensor in electrical communication with said processing circuitry, said second downforce sensor configured to generate a second downforce signal related to a force between the ground and said second row unit, wherein said processing circuitry is further configured to determine a pressure in said first down chamber based on said first downforce signal and to determine a pressure in said second down chamber based on said second downforce signal. 6. The agricultural implement of claim 5 , wherein: said first soil penetration criterion is selected from one of: the pressure in said first down chamber, the pressure in said first down chamber less the pressure in said first lift chamber, and said first downforce signal; and said second soil penetration criterion is selected from one of: the pressure in said second down chamber, the pressure in said second down chamber less the pressure in said second lift chamber, and said second downforce signal. 7. The agricultural implement of claim 5 , wherein said first downforce sensor comprises a load-sensing pin. 8. The agricultural implement of claim 1 , wherein said first lift chamber and said second lift chamber are in fluid communication with a common fluid source. 9. The agricultural implement of claim 8 , wherein: said first downpressure control device comprises a first pressure reducing-relieving valve, said first pressure reducing-relieving valve having a first pressure port in fluid communication with a fluid supply line, a first tank port in fluid communication with a fluid return line and a first work port in fluid communication with said first actuator; said second downpressure control device comprises a second pressure reducing-relieving valve, said second pressure reducing-relieving valve having a second pressure port in fluid communication with said fluid supply line, a second tank port in fluid communication with said fluid return line and a second work port in fluid communication with said second actuator. 10. The agricultural implement of claim 9 , further comprising: a first solenoid associated with said first pressure reducing-relieving valve; a second solenoid associated with said second pressure reducing-relieving valve; a monitor in electrical communication with said first solenoid and said second solenoid, said monitor is configured to send a first control current to said first pressure reducing-relieving valve and a second control current to said second pressure reducing-relieving valve; and wherein said first pressure reducing-relieving valve is configured to set a first pressure proportional to said first control current, and said second pressure reducing-relieving valve is configured to set a second pressure proportional to said second control current.