Wireless bicycle wheel monitor system
First Claim
1. A wireless data display system for monitoring a wheel of a vehicle such as a bicycle, comprising in combination:
- a transmitter unit mounted adjacent the wheel having sensor means for monitoring rotation of the wheel and generating a corresponding signal, and a transmitter antenna for transmitting the signal; and
a receiver unit which is visually accessible to a user remote from the transmitter unit having a receiver antenna for receiving the transmitted signal, processing means for processing the received signal into monitoring data, and display means for displaying the monitoring data to the user,wherein said transmitter and receiver antennas have a longitudinal axis of symmetry for signal propagation in a longitudinal direction, and means for orienting the axes of symmetry of said antennas in alignment with each other, said orienting means including at least one of said transmitter and receiver units having a mounting portion which is mounted to a part of the frame provided with a pivotable part carrying the antenna for said unit for allowing it to be pivoted to a position in which its longitudinal axis is aimed in alignment with the longitudinal axis of the antenna of the other unit, whereby efficient transmission and reception of the signal is obtained and interference with or from an adjacent one of such systems is avoided.
3 Assignments
0 Petitions
Accused Products
Abstract
A wireless data display system has a receiver/display unit tuned to the same frequency as a sensor/transmitter unit for monitoring wheel rotation for a vehicle such as a bicycle. The two units are preferably battery powered, and their circuits are designed for low power consumption. Both units have directed antennas positioned in alignment with each other. The receiver includes a tunable antenna to enhance signal reception and reduce sensitivity to a transmitter of an adjacent system, as well as filter and latch circuitry to reduce interference from EMI or RFI or from adjacent operation of a similar transmitter/receiver pair.
114 Citations
20 Claims
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1. A wireless data display system for monitoring a wheel of a vehicle such as a bicycle, comprising in combination:
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a transmitter unit mounted adjacent the wheel having sensor means for monitoring rotation of the wheel and generating a corresponding signal, and a transmitter antenna for transmitting the signal; and a receiver unit which is visually accessible to a user remote from the transmitter unit having a receiver antenna for receiving the transmitted signal, processing means for processing the received signal into monitoring data, and display means for displaying the monitoring data to the user, wherein said transmitter and receiver antennas have a longitudinal axis of symmetry for signal propagation in a longitudinal direction, and means for orienting the axes of symmetry of said antennas in alignment with each other, said orienting means including at least one of said transmitter and receiver units having a mounting portion which is mounted to a part of the frame provided with a pivotable part carrying the antenna for said unit for allowing it to be pivoted to a position in which its longitudinal axis is aimed in alignment with the longitudinal axis of the antenna of the other unit, whereby efficient transmission and reception of the signal is obtained and interference with or from an adjacent one of such systems is avoided.
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2. A wireless data display system which is used on a bicycle having a frame, front and rear wheels, and a handlebar mounted on a front part of the frame, comprising in combination:
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a transmitter unit mounted adjacent the wheel having sensor means for monitoring rotation of the wheel and generating a corresponding signal, and a transmitter antenna for transmitting the signal; and a receiver unit which is visually accessible to a user remote from the transmitter unit having a receiver antenna for receiving the transmitted signal, processing means for processing the received signal into monitoring data, and display means for displaying the monitoring data to the user, wherein said transmitter and receiver antennas have a longitudinal axis of symmetry for signal propagation in a longitudinal direction, and means for orienting the axes of symmetry of said antennas in alignment with each other, whereby efficient transmission and reception of the signal is obtained and interference with or from an adjacent one of such systems is avoided, and wherein said transmitter unit includes a mounting portion which is mounted to a part of the frame adjacent one of the wheels and a pivotable part carrying said transmitter antenna for allowing it to be pivoted to a position in which its longitudinal axis is aimed toward said receiver unit, and wherein said receiver unit includes a mounting portion which is mounted to the handlebar and a pivotable part carrying said receiver antenna for allowing it to be pivoted to a position in which its longitudinal axis is aimed toward said transmitter unit. - View Dependent Claims (3, 4, 5)
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6. A wireless data display system for monitoring a wheel of a vehicle such as a bicycle, comprising in combination:
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a transmitter unit mounted adjacent the wheel having sensor means for monitoring rotation of the wheel and generating a corresponding signal, and a transmitter antenna for transmitting the signal; and a receiver unit which is visually accessible to a user remote from the transmitter unit having a receiver antenna for receiving the transmitted signal, processing means for processing the received signal into monitoring data, and display means for displaying the monitoring data to the user, wherein said transmitter and receiver antennas have a longitudinal axis of symmetry for signal propagation in a longitudinal direction, and means for orienting the axes of symmetry of said antennas in alignment with each other, whereby efficient transmission and reception of the signal is obtained and interference with or from an adjacent one of such systems is avoided, and wherein said transmitter unit includes a sensor switch which is closed upon each actuation by rotation of the wheel, a transmitter transistor which is turned on with each closing of the sensor switch, a self-oscillating circuit for generating an oscillation signal of a selected frequency and duration for transmission when the transmitter transistor is turned on, and means for precluding generation of the oscillation signal beyond the selected duration even if the sensor switch is held closed for an extended period of time.
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7. In a low-power wireless data display system for monitoring rotation of an object, said system having a transmitter unit including sensor means for monitoring rotation of the object and generating a corresponding signal, and a transmitter antenna for transmitting the signal, and a receiver unit remote from the transmitter unit including a receiver antenna for receiving the transmitted signal, processing means for processing the received signal into monitoring data, and display means for displaying the monitoring data,
the improvement comprising: said transmitter unit having a sensor switch which is closed upon each actuation by rotation of the object, a transmitter transistor which is turned on with each closing of the sensor switch, a self-oscillating circuit for generating an oscillation signal of a selected frequency and duration for transmission when the transmitter transistor is turned on, and means for turning off the transmitter transistor after the selected duration following an output pulse signal, in order to preclude generation of the oscillation signal beyond the selected duration even if the sensor switch is held closed for an extended period of time. - View Dependent Claims (8, 9, 10)
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11. In a low-power wireless data display system for monitoring rotation of an object, said system having a transmitter unit including sensor means for monitoring rotation of the object and generating a corresponding signal, and a transmitter antenna for transmitting the signal, and a receiver unit remote from the transmitter unit including a receiver antenna for receiving the transmitted signal, processing means for processing the received signal into monitoring data, and display means for displaying the monitoring data,
the improvement comprising: -
said transmitter unit having a sensor switch which is closed upon each actuation by rotation of the object, a transmitter transistor which is turned on with each closing of the sensor switch, a self-oscillating circuit for generating an oscillation signal of a selected frequency and duration for transmission when the transmitter transistor is turned on, and means for precluding generation of the oscillation signal beyond the selected duration even if the sensor switch is held closed for an extended period of time, and wherein said receiver unit includes an amplifier circuit coupled to said receiver antenna, an output circuit, and means for operating one stage of said amplifier circuit in a dual mode as a monostable latch to provide a defined output data pulse to said output circuit in response to the transmitted signal from said transmitter unit. - View Dependent Claims (12)
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13. In a low-power wireless data display system for monitoring rotation of an object relative to a frame, said system having a transmitter unit including sensor means for monitoring rotation of the object and generating a corresponding signal, and a transmitter antenna for transmitting the signal, and a receiver unit remote from the transmitter unit including a receiver antenna for receiving the transmitted signal, processing means for processing the received signal into monitoring data, and display means for displaying the monitoring data,
the improvement wherein said transmitter and receiver units are mounted to the frame, and said transmitter and receiver antennas have a longitudinal axis of symmetry for signal propagation in a longitudinal direction, and means for orienting the axes of symmetry of said antennas in alignment with each other, said orienting means including at least one of said transmitter and receiver units having a mounting portion which is mounted to a part of the frame and provided with a pivotable part carrying the antenna for said unit for allowing it to be pivoted to a position in which its longitudinal axis is aimed in alignment with the longitudinal axis of the antenna of the other unit, whereby efficient transmission and reception of the signal is obtained and interference with or from an adjacent, similar system is avoided.
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17. In a wireless monitoring system having a transmitter unit including sensor means for generating a series of sensor signals representing a phenomenon being monitored, and a transmitter antenna for transmitting the signals as a series of RF pulse signals, and a receiver unit remote from the transmitter unit including a receiver antenna for receiving the transmitted RF signals, and processing means for processing the received signals into data pulse signals,
an improved receiver circuit of said receiver unit, for receiving transmitted RF signal pulses of a defined frequency, signal strength, and inter-pulse timing and for preventing false reception due to noise or stray RF interference or erroneous pulses, comprising: -
an antenna circuit coupled to said receiver antenna for receiving the transmitted RF pulse signals; an amplifier circuit coupled to the antenna circuit for amplifying the gain of the received RF pulse signals; a pulse detector circuit, including a detector transistor having its emitter coupled to a detector capacitor connected to ground, for detecting the leading edges of the amplified pulse signals from the amplifier circuit and providing output spike pulses of a fixed shape; and a pulse trigger/latch circuit including a monostable latch formed by a first latch transistor having its base coupled through a base resistor to the common node of the emitter of the detector transistor and the detector capacitor, and a second latch transistor having its base connected through a time-constant resistor and capacitor in series to the collector of the first latch transistor and its emitter coupled through an output resistor to the base of the first latch transistor, wherein, in the period between pulses, the detector capacitor discharges relatively slowly through the base resistor, the first latch transistor, and the output resistor of the pulse trigger/latch circuit to a voltage dependent on the time interval between pulses, such that if the rise time of the received pulse signal is not fast enough, the pulse detector circuit will ignore the received pulse signal, and, if the pulses arrive too rapidly, the amount of voltage change at the detector capacitor becomes too small to provide the trigger necessary to the pulse trigger/latch circuit and disables the triggering of the latch transistors. - View Dependent Claims (18, 19, 20)
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Specification