RU2023133277A - PROBE WITH INCREASED POWER CONSUMPTION ECONOMY AND RELATED METHODS - Google Patents

Claims (16)

1. A transmitter for use in conjunction with a horizontal directional drilling system that includes a drill string extending from a drilling rig to a buried tool to which the transmitter is mounted, such that the expansion and retraction of the drill string moves the buried tool through the soil during a buried operation, said transmitter contains antenna; a sensor section containing at least an orientation sensor for generating sensor data; an antenna driver configured to selectively drive the antenna to emit a locating signal for terrestrial reception such that the locating signal carries sensor data; And a processor for controlling the antenna driver to transmit a locating signal during normal operation and enter a sleep state in which the sensor section and the antenna driver are disabled such that a locating signal is not transmitted in response to detecting transmitter inactivity, and said processor is further configured to transition from the normal mode to the doze mode by turning off the antenna driver so that the location signal is not transmitted without disabling the sensor section, and the doze mode requires less power consumption than the normal mode but more power consumption than the sleep state. 2. The transmitter of claim 1, wherein said processor is configured to enter a sleep mode in response to detecting a mode switch command based on orientation sensor data. 3. The transmitter according to claim 2, wherein the mode switching command is a predetermined roll orientation sequence detected by said processor responsive to the orientation sensor. 4. The transmitter of claim 2, wherein the processor is configured to enter the sleep mode from the sleep mode in response to detecting a mode switching command during the sleep mode, and turn on the antenna driver so that a location signal is transmitted during the sleep mode. 5. The transmitter of claim 4, wherein the processor is configured to return to the snooze mode in response to detection of a mode switch command during the snooze mode, such that switching between the snooze mode and the snooze mode in response to the mode switch command respectively selectively turns on and turned off the location signal. 6. The transmitter according to claim 4, in which the processor is made with the impossibility of returning to normal mode from the doze mode and from the auto-doze mode. 7. The transmitter of claim 1, wherein the processor is configured to enter a sleep state from the doze mode based on detecting inactivity of the transmitter during the doze mode. 8. The transmitter according to claim 1, in which the processor is made with the impossibility of returning to normal mode from doze mode. 9. The transmitter of claim 1, wherein said processor is configured to enter a sleep mode from a normal mode in response to detection of a mode switch command based on the orientation sensor data, and return to a normal mode from a sleep mode in response to detection of a mode switch command, so that switching between the normal mode and the snooze mode in response to a mode switch command respectively selectively turns on and off the location signal. 10. The transmitter of claim 9, wherein said processor is configured to enter a sleep state from a sleep mode or from a normal mode. 11. The transmitter of claim 9, wherein said processor is configured to enter a sleep state from a normal mode, but not from a sleep mode. 12. The transmitter of claim 1, wherein said processor is configured to put the transmitter into a doze mode upon startup in response to a wireless message.