PATENT CLAIM ANALYSIS

Application Number: 15863273
Application Type: Utility
Filing Date: 2018-01
Publication Date: 2019-07
Patent Classification: ["318", "010000"]

Abstract:
A winch control system having a solid state winch contactor and a boost power supply for a vehicle equipped with an electric winch and especially for off-road vehicles, is disclosed. This invention automatically provides three winch speeds: a “slow start” (“creep”) speed for “parking” the hook and for “sneaking” up on a load, a normal speed for normal winch operation and a fast speed for taking less time to unwind and rewind the winch rope when there is no load on the winch. Protection features for the winch contactor and/or the winch include, but are not limited to, electronic winch motor braking, current limiting, over temperature, undervoltage and reverse battery. Winch current limiting is adjustable from 100 amps to 300 amps, chosen for the purpose of accommodating various winch sizes.

Claim (Index 1):
An electronic winch control system, comprising:\n a driver control comprising:\n a voltage measuring circuit to determine whether a voltage from a vehicle ignition switch is above a minimum threshold of 8 volts, the driver control to activate a winch contactor in response the voltage from the vehicle ignition switch being determined to be above the minimum threshold of 8 volts; \n a logic latch to debounce an IN signal and an OUT signal from a winch control switch; \n an OR gate coupled with the IN and OUT signals to trigger slow start circuitry and allow winch activation; \n a retriggerable one shot coupled with an oscillator to create a slow start for a winch motor by generating a drive waveform, to be coupled to the winch motor, of approximately 20% on time duty cycle and approximately 9.5 kHz frequency to drive the winch motor at the beginning of each IN cycle and each OUT cycle, the drive waveform lasting approximately 650 milliseconds before switching to a constant battery voltage; \n a one shot to increase an off time of the drive waveform from approximately 25 microseconds to approximately 100 microseconds in response to a detection of an over current event; \n an over-current protection circuit to cause the drive waveform to be off for a first extended period of time in response to over current events being detected more frequently than a selected threshold amount; \n an over-temperature protection circuit to cause the drive waveform to be off for a second extended period of time when at least two metal oxide semiconductor field effect transistor's (MOSFET's) that are to apply the drive waveform to the winch motor temperature reach an elevated temperature threshold limit of approximately 85 degrees centigrade; \n control logic circuitry coupled to the OR gate, the oscillator, the one shot, the over current protection circuit, and the over-temperature protection circuit to determine whether winch drive is enabled; \n a current limit reference circuit to provide a variable winch current limit; and \n light-emitting-diode (LED) indicators to display at least two winch contactor states; \n a motor driver comprising:\n a motor driver integrated circuit to control the at least two MOSFETs that are to apply the drive waveform to the winch motor, the motor driver integrated circuit including electronic brake circuitry to cause a shorting of at east one winch motor winding at the end of each IN cycle and each OUT cycle, \n a current sense resistor to measure winch motor current, winch current measurements to be coupled to the motor driver integrated circuit the over current protection circuit, and a boost circuit; and \n a reverse battery protection circuit to turn off at least one reversed, N-channel MOSFET when a polarity of a connection to a battery voltage is reversed, the reversed N-channel MOSFET also to be turned off when the maximum voltage of the drive waveform is boosted; \n the boost circuit, comprising:\n a winch current sense monitor amplifier to amplify a voltage across the current sense resistor; \n a window comparator to determine if the winch is unloaded, the window comparator to be selectively controlled to have at least three upper thresholds, a first upper threshold for when the maximum voltage of the drive waveform is not boosted, a second upper threshold for when the maximum voltage of the drive waveform is boosted, and a third upper threshold for when the drive waveform is transitioning between being not boosted to being boosted; \n a delay block, coupled to a boost MOSFET and a fast turnoff MOSFET; \n the boost MOSFET switch to be controlled by the delay block to turn on the boost power supply; \n the fast turnoff MOSFET switch and series resistor to reduce a delay time of the delay block to turn off the boost power supply when a winch load is detected; \n a transition timing one shot to control the window comparator to have the third upper threshold and to temporarily turn off the reversed N-channel MOSFET to allow the boost power supply to turn on; and \n a resistor and PNP transistor to determine whether the drive waveform applied to the winch motor has risen above the battery voltage, and to allow the maximum voltage of the drive waveform to continue to be boosted after the transition timing one shot has timed out, and to inhibit the reversed N-channel MOSFET from being turned back on. \n \n a boost power supply to generate, from the battery voltage, a boosted maximum voltage of the drive waveform.

Metadata:
- Claim Count in Document: 1.0
- Percentile: 86.0
- Lexical Diversity: 1.68132
- Patent Class: 318.0
- Transitional Phrase Type: open
- Component Type: 1
- Foreign Priority: False
- Related Applications: ['14202523', '14352337', '10602278', '14664543', '13790544']

Analysis Scores:
- 35 USC 101 Eligibility (BERT): 0.6113836446270688
- 35 USC 102 Novelty (BERT): 0.4880741112847217
- Combined Prediction Score: 0.5990526912928342
- Mean Citation Score: 176.25698799999995
- Max Citation Score: 207.03392
- Similarity Product: 156.16815353725434

Labels:
- Claim Label 101: 1
- Claim Label 102: 1
- Claim Label 103: 1
- Claim Label 112: 1
- Combined Label: 1
- Label 101 Adjusted: 1

Dataset: test