Electric strike including a biasing mechanism for a keeper support bracket

What is claimed is: 1. An actuator-controlled electric strike for operating in conjunction with a latch of a lockset, wherein the latch has an engaged position so as to secure a door in a closed state and a released position, the strike comprising: a) a housing defining an entry chamber therein; b) a keeper disposed in said entry chamber, wherein said keeper is movable between a locked position and an unlocked position; c) a keeper support bracket movable between a first position and a second position, wherein when said keeper support bracket is in said first position, said keeper is in one of said locked position or said unlocked position, and wherein when said keeper support bracket is in said second position said keeper is in the other of said locked position or said unlocked position; d) an actuating mechanism operatively connected to said keeper support bracket, wherein said actuating mechanism is actionable in a first direction to move said keeper support bracket toward said first position, and wherein said actuating mechanism is configured to allow said keeper support bracket to move in a second direction toward said second position, wherein said second direction is different than said first direction; and e) a biasing member applying a net force to said keeper support bracket, said biasing member comprising a first biasing mechanism and a second biasing mechanism, wherein said first biasing mechanism has at least one biasing characteristic value different from that of the said second biasing mechanism, wherein said first biasing mechanism applies a first force to said keeper support bracket in said first direction, wherein said second biasing mechanism applies a second force to said keeper support bracket in said second direction, and wherein when said keeper support bracket is in said first position, said net force of said biasing member is approximately zero. 2. The strike in accordance with claim 1 wherein said second direction is opposite of said first direction. 3. The strike in accordance with claim 1 wherein said first biasing mechanism comprises a first spring having a first spring constant, wherein said second biasing mechanism comprises a second spring having a second spring constant different from said first spring constant, and wherein said at least one biasing characteristic value comprises said first spring constant and said second spring constant. 4. The strike in accordance with claim 1 wherein said keeper support bracket includes an actuator extension that is operatively coupled to said actuating mechanism, and wherein said keeper support bracket is selectively moveable by said actuating mechanism between said first position and said second position. 5. The strike in accordance with claim 1 wherein said actuating mechanism is a stepper motor. 6. The strike in accordance with claim 1 further comprising a keeper release operatively coupled between said keeper support bracket and said keeper. 7. The strike in accordance with claim 1 further comprising a carrier operatively connected between said actuating mechanism and said keeper support bracket. 8. The strike in accordance with claim 7 wherein said carrier is formed of a polyether ether ketone polymer. 9. The strike in accordance with claim 7 wherein said actuating mechanism is a stepper motor, wherein said stepper motor includes a lead screw having a screw thread, said motor carrier has a carrier thread mateable with said screw thread, wherein when said stepper motor is actionable in either said first direction or said second direction, said motor carrier acts upon said keeper support bracket to move said keeper support bracket between said first position and said second position. 10. A method of improving the performance of an electric strike, wherein said electric strike includes a keeper movable between a locked position and an unlocked position, and a support bracket movable by an actuating mechanism between a first position and a second position, wherein when said support bracket is in said first position said keeper is in one of said locked position or said unlocked position, and wherein when said support bracket is in said second position said keeper is in the other of said locked position or said unlocked position, said method comprises the steps of: a) providing a first biasing mechanism operatively coupled to said support bracket to apply a first force in a first direction to move said support bracket toward said first position, wherein said first biasing mechanism includes a first biasing characteristic value; b) providing a second biasing mechanism operatively coupled to said support bracket to apply a second force in a second direction opposite said first direction to move said support bracket toward said second position, wherein said second biasing mechanism includes a second biasing characteristic value that is different than said first biasing characteristic value; c) selecting said first and second biasing characteristic values so that a net force exerted on said support bracket by said first and second biasing mechanisms is approximately zero when said support bracket is in said first position, whereby said performance of said electric strike is improved by increasing an acceleration of said support bracket upon an initial movement of said support bracket toward one of said first position or said second position by said actuating mechanism. 11. The method in accordance with claim 10 wherein said first biasing characteristic value comprises a first spring constant, and wherein said second biasing characteristic value comprises a second spring constant different from said first spring constant. 12. The method in accordance with claim 11 comprising the further step of selecting said first and second spring constants so that said net force exerted on said support bracket by said first and second biasing mechanisms is positive in said first direction applied in said second direction when said support bracket is in said second position. 13. An actuator module for an electric strike for operating in conjunction with a latch of a lockset, wherein said latch has an engaged position so as to secure a door in a closed state and a released position, wherein said electric strike comprises a housing defining an entry chamber and a keeper disposed in said entry chamber movable between a locked position and an unlocked position, wherein said actuator module comprises: a) a keeper support bracket movable between a blocking position and an unblocking position, wherein when said keeper support bracket is in said blocking position, said keeper is held in said locked position, and wherein when said keeper support bracket is in said unblocking position said keeper is able to be moved to said unlocked position; b) an actuating mechanism operatively connected to said keeper support bracket and actionable in a first direction to move said keeper support bracket toward said blocking position, and actionable in a second direction to move said keeper support bracket toward said unblocking position, wherein said second direction is different than said first direction; and c) a biasing member applying a net force to said keeper support bracket, said biasing member comprising a first biasing mechanism and a second biasing mechanism, wherein a first biasing characteristic value of said first biasing mechanism is different than a second biasing characteristic value of said second spring, wherein said first biasing mechanism applies a first force to said keeper support bracket in said first direction, wherein said second biasing mechanism applies a second force to said keeper support bracket in