Patent application number | Description | Published |
20090037040 | Bidirectional wireless controls for marine devices - A marine device, such as a trolling motor, a trim tab, a downrigger or a sonar device, is operated based upon commands generated by a wireless remote control device. The marine device is connected to a controller that provides commands to the marine device. The controller communicates with the remote control through a bidirectional wireless communication link to receive commands and to provide status information on the operation of the motor. The remote control includes user inputs for generating commands that are sent wirelessly to the controller to control operation of the marine device. The remote control also includes a display for displaying real time status information that is received wirelessly from the controller. | 02-05-2009 |
20110209652 | Shallow Water Anchor - A shallow water anchor is provided. The shallow water anchor comprises a first anchor extension and a second anchor extension axially received by a housing. The first anchor extension is axially received by the second anchor extension such that the first and second anchor extensions are sequentially deployable from the housing an actuation arrangement. The actuation arrangement is controlled by a control interface that is operable to detect when the shallow water anchor has reached a fully extended state and fully retracted state. The shallow water anchor further includes a biasing compensator that compensates for fluctuations in the overall depth of water the anchor is deployed in due to waves or other anomalies. | 09-01-2011 |
20110209653 | Shallow Water Anchor - A shallow water anchor is provided. The shallow water anchor comprises a first anchor extension and a second anchor extension axially received by a housing. The first anchor extension is axially received by the second anchor extension such that the first and second anchor extensions are sequentially deployable from the housing an actuation arrangement. The actuation arrangement is controlled by a control interface that is operable to detect when the shallow water anchor has reached a fully extended state and fully retracted state. The shallow water anchor further includes a biasing compensator that compensates for fluctuations in the overall depth of water the anchor is deployed in due to waves or other anomalies. | 09-01-2011 |
20110209656 | Shallow Water Anchor - A shallow water anchor is provided. The shallow water anchor comprises a first anchor extension and a second anchor extension axially received by a housing. The first anchor extension is axially received by the second anchor extension such that the first and second anchor extensions are sequentially deployable from the housing using an actuation arrangement. The actuation arrangement is controlled by a control interface that is operable to detect when the shallow water anchor has reached a fully extended state and fully retracted state. The shallow water anchor further includes a biasing compensator that compensates for fluctuations in the overall depth of water the anchor is deployed in due to waves or other anomalies. | 09-01-2011 |
20120055387 | Shallow Water Anchor - A shallow water anchor is provided. The shallow water anchor comprises a first anchor extension and a second anchor extension axially received by a housing. The first anchor extension is axially received by the second anchor extension such that the first and second anchor extensions are sequentially deployable from the housing using an actuation arrangement. The actuation arrangement is controlled by a control interface that is operable to detect when the shallow water anchor has reached a fully extended state and fully retracted state. The shallow water anchor further includes a biasing compensator that compensates for fluctuations in the overall depth of water the anchor is deployed in due to waves or other anomalies. | 03-08-2012 |
20130104789 | Shallow Water Anchor | 05-02-2013 |
20130104790 | Shallow Water Anchor | 05-02-2013 |
20140336854 | BIDIRECTIONAL WIRELESS CONTROLS FOR MARINE DEVICES - A marine device, such as a trolling motor, a trim tab, a downrigger or a sonar device, is operated based upon commands generated by a wireless remote control device. The marine device is connected to a controller that provides commands to the marine device. The controller communicates with the remote control through a bidirectional wireless communication link to receive commands and to provide status information on the operation of the motor. The remote control includes user inputs for generating commands that are sent wirelessly to the controller to control operation of the marine device. The remote control also includes a display for displaying real time status information that is received wirelessly from the controller. | 11-13-2014 |
Patent application number | Description | Published |
20110174881 | PARALLEL DECODING SCHEME FOR AN INDICIA READER - A method for collecting and processing information bearing indicia (IBI) comprising the steps of: converting light reflected off an IBI into IBI signals representative of the IBI; running at least one signal process for processing the IBI signals on a first processor if the IBI is of a first type; and running at least one signal process for processing the IBI signals on a second processor if the IBI is of a second type, wherein the first processor and second processor are configured to run in parallel. | 07-21-2011 |
20130008963 | DECODABLE INDICIA READING TERMINAL WITH A PLATTER TO INHIBIT LIGHT REFLECTION - A decodable indicia reading terminal for reading a substrate bearing decodable indicia may include an imager-based scanner and a platter. The imager-based scanner may be disposed within a housing and include a multiple pixel image sensor and an imaging lens configured to focus an image on the decodable indicia on the image sensor. The platter may be on the housing, the platter may surround the image-based scanner, and the platter may have a texturized surface. The texturized surface of the platter may reduce the amount light being perceived when the light is reflected from the texturized surface compared to a platter having a brushed surface aligned in a substrate motion direction. | 01-10-2013 |
20130233915 | ENCODED INFORMATION READING TERMINAL IN COMMUNICATION WITH PERIPHERAL POINT-OF-SALE DEVICES - An encoded information reading (EIR) terminal can comprise a processor, a memory, and at least one EIR device provided by a bar code reading device, an RFID reading device, an NFC reading device, or a magnetic card reading device. The EIR device can be configured to output raw message data containing an encoded message and/or output decoded message data corresponding to an encoded message. The EIR terminal can further comprise at least one communication interface, a display provided by a built-in display and/or an external display, and a user input device provided by a built-in keyboard and/or an external keyboard. The EIR terminal can be configured to transmit the raw message data and/or the decoded message data to an external computer. | 09-12-2013 |
20130240626 | PARALLEL DECODING SCHEME FOR AN INDICIA READER - A method for collecting and processing information bearing indicia (IBI) comprising the steps of: converting light reflected off an IBI into IBI signals representative of the IBI; running at least one signal process for processing the IBI signals on a first processor if the IBI is of a first type; and running at least one signal process for processing the IBI signals on a second processor if the IBI is of a second type, wherein the first processor and second processor are configured to run in parallel. | 09-19-2013 |