System and method for controlling an optical filter assembly
First Claim
1. A control system for a variable transmittance optical filter assembly, the optical filter assembly comprising a pair of terminals and an optical filter electrically coupled between the pair of terminals, the control system comprising:
- (a) a controller communicatively coupled to a pair of load terminals for electrically coupling to the terminals of the optical filter assembly;
(b) a memory communicatively coupled to the controller and having encoded thereon statements and instructions executable by the controller to transition the optical filter assembly between first and second operating states, wherein the controller allows the optical filter assembly to transition from the second operating state to the first operating state by shorting the load terminals together, wherein, when transitioning from the second operating state to the first operating state in response to light striking the optical filter, a transmittance of the optical filter assembly decreases to a minimum transmittance, and wherein, when transitioning from the first operating state to the second operating state in response to a voltage being applied across the terminals of the optical filter assembly, the transmittance of the optical filter assembly increases to a maximum transmittance;
(c) switching circuitry communicatively coupled between the controller and the pair of load terminals, the switching circuitry configured to short the load terminals together in response to a control input signal received from the controller, wherein the switching circuitry is switchable to apply at least a portion of an input voltage across the load terminals in one polarity and an opposite polarity; and
(d) a detector communicatively coupled to the controller, and wherein the statements and instructions encoded on the memory are further executable by the controller, upon receiving a detector output signal from the detector, to cause the switching circuitry to short the load terminals together so as to dissipate residual charge accumulated on the load terminals and thereby facilitate the optical filter assembly transitioning from the second operating state to the first operating state, during which the transmittance of the optical filter assembly decreases to the minimum transmittance.
4 Assignments
0 Petitions
Accused Products
Abstract
A control system for a variable transmittance optical filter assembly includes a controller in communicatively coupled to a pair of load terminals, and a memory communicatively coupled to the controller and having encoded thereon statements and instructions executable by the controller to transition the optical filter assembly between operating states when coupled to the pair of load terminals. The controller is operable to perform any one or more of: allowing the optical filter assembly to transition to a dark state by shorting the load terminals together, maintaining the optical filter assembly in a hold mode by applying a pulse width modulated voltage signal across the load terminals, and transitioning the optical filter assembly between operative states by applying a voltage signal having voltage pulses of opposite polarities to the load terminals.
25 Citations
10 Claims
-
1. A control system for a variable transmittance optical filter assembly, the optical filter assembly comprising a pair of terminals and an optical filter electrically coupled between the pair of terminals, the control system comprising:
-
(a) a controller communicatively coupled to a pair of load terminals for electrically coupling to the terminals of the optical filter assembly; (b) a memory communicatively coupled to the controller and having encoded thereon statements and instructions executable by the controller to transition the optical filter assembly between first and second operating states, wherein the controller allows the optical filter assembly to transition from the second operating state to the first operating state by shorting the load terminals together, wherein, when transitioning from the second operating state to the first operating state in response to light striking the optical filter, a transmittance of the optical filter assembly decreases to a minimum transmittance, and wherein, when transitioning from the first operating state to the second operating state in response to a voltage being applied across the terminals of the optical filter assembly, the transmittance of the optical filter assembly increases to a maximum transmittance; (c) switching circuitry communicatively coupled between the controller and the pair of load terminals, the switching circuitry configured to short the load terminals together in response to a control input signal received from the controller, wherein the switching circuitry is switchable to apply at least a portion of an input voltage across the load terminals in one polarity and an opposite polarity; and (d) a detector communicatively coupled to the controller, and wherein the statements and instructions encoded on the memory are further executable by the controller, upon receiving a detector output signal from the detector, to cause the switching circuitry to short the load terminals together so as to dissipate residual charge accumulated on the load terminals and thereby facilitate the optical filter assembly transitioning from the second operating state to the first operating state, during which the transmittance of the optical filter assembly decreases to the minimum transmittance. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9)
-
-
10. A method for controlling a variable transmittance optical filter assembly comprising a pair of terminals and an optical filter electrically coupled between the terminals, the method comprising:
-
(a) applying a voltage across the terminals of the optical filter assembly sufficient to transition the optical filter assembly from a dark state to a faded state, wherein the voltage is applied in one polarity and in an opposite polarity; and (b) in response to receiving a detector output signal from a detector, shorting the terminals of the optical filter assembly together so as to dissipate residual charge accumulated on the load terminals and to allow the optical filter assembly to transition from the faded state to the dark state, wherein, when transitioning from the faded state to the dark state in response to light striking the optical filter, a transmittance of the optical filter assembly decreases to a minimum transmittance, and wherein, when transitioning from the dark state to the faded state in response to a voltage being applied across the terminals of the optical filter assembly, the transmittance of the optical filter assembly increases to a maximum transmittance.
-
Specification