Defibrillator with a high voltage solid state relay
First Claim
1. A defibrillator, comprising:
- a low voltage power source;
a capacitor, operatively coupled to said low voltage power source, for accumulating high voltage from said low voltage power source;
a switch, operatively coupled to said low voltage power source;
a high voltage solid state relay, connected to said capacitor and responsive to said switch;
defibrillator paddles, connected to said high voltage solid state relay;
said high voltage solid state relay having a relay group having a plurality of relay sections;
means in each relay section of said relay group for preventing an overvoltage condition due to parametric variations; and
an output section, connected to said relay group, comprising circuitry for minimizing the leakage current from said relay group to said defibrillator paddles.
5 Assignments
0 Petitions
Accused Products
Abstract
A solid state relay, suitable for use in a defibrillator or other high voltage application, is disclosed. Upon activation by a switch, the solid state relay switches power from a high voltage power source, such as a capacitor, to a load, such as a patient undergoing defibrillation. The solid state relay has a group of at least two relay sections that share the voltage load such that no one relay section experiences an overvoltage condition due to the parametric variations of each relay section. Each relay section contains a subsection responsible for balancing the off-state voltage between the relay sections, a subsection responsible for controlling the change of voltage over time as the switch is activated, and a subsection for controlling the change of voltage over time as the switch is deactivated. The solid state relay also contains an output section responsible for minimizing the leakage current from the relay group to the load. The switch is optically coupled to the relay group to provide an isolation boundary.
17 Citations
5 Claims
-
1. A defibrillator, comprising:
-
a low voltage power source; a capacitor, operatively coupled to said low voltage power source, for accumulating high voltage from said low voltage power source; a switch, operatively coupled to said low voltage power source; a high voltage solid state relay, connected to said capacitor and responsive to said switch; defibrillator paddles, connected to said high voltage solid state relay; said high voltage solid state relay having a relay group having a plurality of relay sections; means in each relay section of said relay group for preventing an overvoltage condition due to parametric variations; and an output section, connected to said relay group, comprising circuitry for minimizing the leakage current from said relay group to said defibrillator paddles. - View Dependent Claims (2, 3, 4, 5)
-
Specification