No one said the inductor will restore a missing half wave - I said it responds in a certain way putting out energy after input power goes away. All it takes is a fraction of a cycle time to do that, but it allows any battery fallover power source being activated to drive to any DC to AC generation circuitry. Which can be activated very rapidly, being semiconductor based, and within a fraction of cycle time.

I believe now you are a technician parading authority, so enough of this.

No one said the inductor will restore a missing half wave - I said it responds in a certain way putting out energy after input power goes away. All it takes is a fraction of a cycle time to do that, but it allows any battery fallover power source being activated to drive to any DC to AC generation circuitry. Which can be activated very rapidly, being semiconductor based, and within a fraction of cycle time. I believe now you are a technician parading authority, so enough of this.

No one said the inductor will restore a missing half wave - I said it responds in a certain way after input power goes away. Other behavior of the system then depends on any battery fallover power source being activated to drive to any DC to AC generation circuitry. Which can be activated very rapidly, being semiconductor based. I believe now you are a technician parading authority, so enough of this.

No one said the inductor will restore a missing half wave - I said it responds in a certain way after input power goes away. Other behavior of the system then depends on any battery fallover power source being activated to drive to any DC to AC generation circuitry. I am now certain you are a technician parading authority, so enough of this.

No one said the inductor will restore a missing half wave - I said it responds in a certain way after input power goes away. I am now certain you are a fool parading authority, so enough of this.