Active valve for ventilators

The invention claimed is: 1. A ventilation system, comprising: a valve for for controlling pressure in the ventilation system and for providing pressure relief and pressure regulation in the ventilation system, the valve comprising: an electromagnet, an input signal connected to the electromagnet, the input signal comprising a current, a shaft connected to the electromagnet, and a diaphragm connected to the shaft, wherein the electromagnet applies a force to the diaphragm via the shaft based on the input signal that dictates raising and lowering the diaphragm with respect to a connection to a patient circuit coupled to the ventilation system, wherein (a) raising the diaphragm (a)(i) enables air to be released in a controlled manner from the connection to an ambient through an opening in the valve in response to the input signal based on a pressure in the patient circuit being greater than a desired pressure but less than positive threshold pressure, and (a)(ii) allows air to be provided to the connection in a controlled manner from the ambient through the opening in the valve in response to the input signal based on a negative pressure in the patient circuit being greater in magnitude than a negative pressure threshold to function as a safety valve, and (b) lowering the diaphragm maintains a seal between the diaphragm and the opening in the valve in a controlled manner in response to the input signal based on pressure in the patient circuit being at or below a desired pressure; and a controller connected to the valve and configured to provide the input signal to the valve, wherein the electromagnet applies the force to the diaphragm via the shaft in response to the input signal. 2. The ventilation system as claimed in claim 1 , wherein the valve further comprises a plunger connected between the diaphragm and the shaft, wherein the plunger is configured to raise and lower the diaphragm in response to the input signal. 3. The ventilation system as claimed in claim 1 , wherein the electromagnet comprises a coil disposed around a magnet. 4. The ventilation system as claimed in claim 3 , wherein the shaft is coupled to the coil and extends through the magnet. 5. The ventilation system as claimed in claim 1 , wherein the diaphragm is configured to release pressure from the patient circuit of the ventilation system in response to the input signal providing no current to the electromagnet. 6. The ventilation system as claimed in claim 1 , wherein the diaphragm is configured to maintain a selected pressure in the patient circuit of the ventilation system in response to the input signal providing the current, different from zero current, to the electromagnet. 7. The ventilation system as claimed in claim 1 , further comprising a pressure transducer configured to determine the pressure in the patient circuit. 8. The ventilation system as claimed in claim 7 , wherein the controller is configured to change the input signal based on the pressure determined by the pressure transducer. 9. The ventilation system as claimed in claim 8 , wherein the controller provides no current to the electromagnet to release the pressure from the patient circuit. 10. The ventilation system as claimed in claim 8 , wherein the controller is configured to provide the current to the electromagnet, wherein a magnitude of the current is proportional to the force applied by the diaphragm.