Claims
- 1. An output module for controlling AC power to an AC load, and DC power of either polarity to a DC load, wherein only one of said AC or DC loads is controlled at any one time, said module comprising:
- a control element having a conduction state which is selectable responsive to an input signal to be in one of a conducting state or a nonconducting state, said input signal received from a control apparatus and commanding connection of the load to the power source in the control apparatus, said control element including a first transistor having a low resistance between its controlled terminals when in the conducting state; and
- a drive element, including a switching structure connected to said control element which is switched based on said conduction state of said control element, and a full wave rectification circuit connected to said switching structure, said drive element selectively full wave rectifying when the switching structure is commanded to an ON state by a conduction state of said control element, input nodes of said full wave rectifier connected to the DC power source in a first DC load mode of operation and to the AC power source in a second AC load mode of operation.
- 2. An output module for controlling AC power and DC power of either polarity, wherein only one of said AC or DC is controlled at any one time, based on a signal received from a control apparatus, said module comprising:
- a buffer, receiving and buffering said signal to produce a buffered signal;
- an optical isolator structure, receiving said buffered signal from said buffer, having an first transistor as an output element, said transistor having a conduction that is switched between a conducting state and a non-conducting state by said buffered signal;
- a second transistor element, having its controlling gate connected to a source of power through said first transistor of said optical isolator structure, so that when said first transistor of said optical isolator structure is in a conducting state, said controlling gate is energized, thereby switching said second transistor into its conducting state, and when said first transistor of said optical isolator is in a nonconducting state, said gate is de-energized and said second transistor is switched into its nonconducting state;
- a full wave rectifier, having two opposite terminals connected to said terminals of said second transistor, and having its other two terminals, other than said two opposite terminals, connected to a circuit including a power source and a load, said power source being an AC source and a DC source at different times, and said full wave rectifier rectifying current from said source such that same polarity current is always passed, only when said second transistor is in the conducting state.
Priority Claims (1)
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Date |
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2-4784 |
Jan 1990 |
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Parent Case Info
This is a continuation of application Ser. No. 07/589,814, filed on Sep. 26, 1990, now abandoned.
US Referenced Citations (17)
Continuations (1)
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589814 |
Sep 1990 |
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