Electrohydraulic control valve

What is claimed is: 1. An electrohydraulic control valve comprising: a valve element that is displaceable in a first direction by a pressure in a first pressure chamber and in a second direction by a pressure in a second pressure chamber, wherein the first pressure chamber is connectable to a high pressure supply and to a low pressure supply, and wherein the second pressure chamber is connectable to the high pressure supply and to the low pressure supply; a first magnetic valve; a second magnetic valve; and a third magnetic valve; wherein the first magnetic is a three-way valve comprising: a first port connectable to the low pressure supply; a second port connected to the first pressure chamber; and a third port connected to both the second magnetic valve and the third magnetic valve; wherein the second magnetic valve is a three-way valve comprising: a fourth port connectable to the low pressure supply and connected to the third magnetic valve; a fifth port connected to the second pressure chamber; and a sixth port connected to both the first magnetic valve and the third magnetic valve; and wherein the third magnetic valve is connectable to the high pressure supply and is connected to both the first magnetic valve and to the second magnetic valve. 2. The electrohydraulic control valve according to claim 1 , wherein the third magnetic valve is a solenoid proportional valve. 3. The electrohydraulic control valve according to claim 2 , wherein the third magnetic valve is a three-way valve. 4. The electrohydraulic control valve according to claim 2 , wherein the third magnetic valve has an adjustable duty cycle. 5. The electrohydraulic control valve according to claim 4 , wherein the third magnetic valve is a three-way valve. 6. The electrohydraulic control valve according to claim 1 , wherein the third magnetic valve is a three-way valve. 7. The electrohydraulic control valve according to claim 6 , wherein the third magnetic valve in a normal position is configured to connect the low pressure supply to both the first magnetic valve and the second magnetic valve. 8. The electrohydraulic control valve according to claim 7 , wherein the third magnetic valve comprises: a seventh port connectable to the high pressure supply; an eighth port connected to both the first magnetic valve and the second magnetic valve; and a ninth port connectable to the low pressure supply and connected to the second magnetic valve. 9. The electrohydraulic control valve according to claim 6 , wherein the third magnetic valve comprises: a seventh port connectable to the high pressure supply; an eighth port connected to both the first magnetic valve and the second magnetic valve; and a ninth port connectable to the low pressure supply and connected to the second magnetic valve. 10. The electrohydraulic control valve according to claim 1 , wherein the first magnetic valve in a normal position is configured to connect the first pressure chamber with the low pressure supply; and wherein the second magnetic valve in a normal position is configured to connect the second pressure chamber with the low pressure supply. 11. The electrohydraulic control valve according to claim 1 , wherein the first magnetic valve, the second magnetic valve and the third magnetic valve are all spring loaded valves. 12. An electrohydraulic control valve comprising: a valve element that is displaceable in a first direction by a pressure in a first pressure chamber and in a second direction by a pressure in a second pressure chamber, wherein the first pressure chamber is connectable to a high pressure supply and to a low pressure supply, and wherein the second pressure chamber is connectable to the high pressure supply and to the low pressure supply; a first magnetic valve comprising a first port, a second port, and a third port; a second magnetic valve comprising a fourth port, a fifth port and a sixth port; a third magnetic valve; wherein the first port of the first magnetic valve is connectable to the low pressure supply; wherein the second port of the first magnetic valve is connected to the first pressure chamber; wherein the third port of the first magnetic valve is connected to both the sixth port of the second magnetic valve and the third magnetic valve; wherein the fourth port of the second magnetic valve is connectable to the low pressure supply and is connected to the third magnetic valve; wherein the fifth port of the second magnetic valve is connected to the second pressure chamber; and wherein the sixth port of the second magnetic valve is connected to both the second port of the first magnetic valve and the third magnetic valve. 13. An electrohydraulic control valve comprising: a valve element that is displaceable in a first direction by a pressure in a first pressure chamber and in a second direction by a pressure in a second pressure chamber, wherein the first pressure chamber is connectable to a high pressure supply and to a low pressure supply, and wherein the second pressure chamber is connectable to the high pressure supply and to the low pressure supply; a first magnetic valve comprising a first port, a second port, and a third port; a second magnetic valve comprising a fourth port, a fifth port and a sixth port; a third magnetic valve comprising a seventh port, an eighth port and a ninth port; wherein the first port of the first magnetic valve is connectable to the low pressure supply; wherein the second port of the first magnetic valve is connected to the first pressure chamber; wherein the third port of the first magnetic valve is connected to both the sixth port of the second magnetic valve and the eighth port of the third magnetic valve; wherein the fourth port of the second magnetic valve is connectable to the low pressure supply and is connected to the ninth port of the third magnetic valve; wherein the fifth port of the second magnetic valve is connected to the second pressure chamber; and wherein the sixth port of the second magnetic valve is connected to both the second port of the first magnetic valve and the eighth port of the third magnetic valve; wherein the seventh port of the third magnetic valve is connectable to the high pressure supply; wherein the eighth port of the third magnetic valve is connected to both the third port of the first magnetic valve and the sixth port of the second magnetic valve; and wherein the ninth port of the third magnetic valve is connectable to the low pressure supply and is connected to the fourth port of the second magnetic valve.