DYNAMICALLY SHUTTING DOWN COMPONENTS BASED ON OPERATION

Organization Name

Atmosic Technologies, Inc.

Inventor(s)

Senglong Taing of San Jose CA (US)

Steven Stoiber of Saratoga CA (US)

DYNAMICALLY SHUTTING DOWN COMPONENTS BASED ON OPERATION - A simplified explanation of the abstract

This abstract first appeared for US patent application 18402908 titled 'DYNAMICALLY SHUTTING DOWN COMPONENTS BASED ON OPERATION

Simplified Explanation:

This patent application describes an IoT device that includes a sensor hub, a microprocessor, a serial interface controller, and a Bluetooth controller. The microprocessor can switch between normal and low-power states to reduce power consumption.

• The IoT device has a sensor hub, microprocessor, serial interface controller, and Bluetooth controller.
• The microprocessor can switch between normal and low-power states.
• The sensor hub controls operations of the serial interface controller and Bluetooth controller.
• Delegated operations, such as polling sensors and transmitting data, are handled by the sensor hub in the low-power state.
• The microprocessor returns to the normal power state when triggered, taking back control of delegated operations.

Key Features and Innovation:

• Power-efficient IoT device design with a microprocessor that can switch between power states.
• Delegated operations to the sensor hub in the low-power state to reduce power consumption.
• Seamless transition between power states based on triggers.
• Efficient sensor data polling and transmission mechanisms.

Potential Applications:

• Smart home devices
• Industrial IoT applications
• Wearable technology
• Environmental monitoring systems

Problems Solved:

• High power consumption in IoT devices
• Efficient sensor data handling
• Seamless power state transitions

Benefits:

• Reduced power consumption
• Extended battery life
• Improved efficiency in sensor data handling

Commercial Applications:

Potential commercial applications include smart home devices, industrial IoT solutions, wearable technology, and environmental monitoring systems. This technology can help companies improve the efficiency and power consumption of their IoT devices, leading to cost savings and enhanced performance.

Questions about IoT Device Power Management: 1. How does the sensor hub help reduce power consumption in the IoT device? 2. What are the potential commercial applications of this power-efficient IoT device technology?

Original Abstract Submitted

An IoT device includes a serial interface controller coupled to external sensors, a Bluetooth controller to transmit signals over a Bluetooth connection, a microprocessor, and a sensor hub that controls operations of the serial interface controller and the Bluetooth controller. The microprocessor is initialized to a normal power state and, in response to a first trigger, is placed in a low-power state during which some operations, including at least including polling the sensors for data, are delegated from the microprocessor to the sensor hub. In this way, the microprocessor can sleep or hibernate, thereby reducing power consumption. The microprocessor is returned to the normal power state in response to a second trigger, and responsibility for the delegated operations returns to the microprocessor. The delegated operations may also include storing the polled sensor data in memory and/or facilitating transmission of the sensor data to a host device over the Bluetooth connection.