Intel corporation (20240214177). MULTI-DEVICE SYSTEM AND METHOD FOR PHASE ALIGNMENT OF DEVICES IN THE MULTI-DEVICE SYSTEM simplified abstract
Contents
MULTI-DEVICE SYSTEM AND METHOD FOR PHASE ALIGNMENT OF DEVICES IN THE MULTI-DEVICE SYSTEM
Organization Name
Inventor(s)
Daniel Gruber of St. Andrae (AT)
Edwin Thaller of Faak am See (AT)
Michael Kalcher of Villach (AT)
MULTI-DEVICE SYSTEM AND METHOD FOR PHASE ALIGNMENT OF DEVICES IN THE MULTI-DEVICE SYSTEM - A simplified explanation of the abstract
This abstract first appeared for US patent application 20240214177 titled 'MULTI-DEVICE SYSTEM AND METHOD FOR PHASE ALIGNMENT OF DEVICES IN THE MULTI-DEVICE SYSTEM
Simplified Explanation: The patent application describes a system and method for aligning the phases of multiple devices in a multi-device system by introducing specific delays to clock signals.
- The system consists of multiple devices, clock dividers, and a delay circuit.
- Devices operate based on a first clock signal, while clock dividers generate a second clock signal from the first one and provide it to the devices.
- The delay circuit introduces a specific delay to the second clock signal, spreading its phase over time.
- Clock dividers can be reset based on a reference clock signal, and the delay circuit incurs the specific delay on the reference clock signal provided to each clock divider.
Key Features and Innovation:
- Phase alignment of multiple devices in a multi-device system.
- Introduction of specific delays to clock signals to spread their phases over time.
- Clock dividers generating second clock signals for devices based on a reference clock signal.
- Resetting of clock dividers based on a reference clock signal for accurate phase alignment.
Potential Applications:
- Synchronization of devices in communication systems.
- Coordination of multiple sensors in IoT applications.
- Timing alignment in distributed computing systems.
Problems Solved:
- Ensuring precise phase alignment among multiple devices.
- Minimizing signal interference and synchronization issues.
- Improving overall system performance and reliability.
Benefits:
- Enhanced system synchronization and coordination.
- Reduced signal distortion and timing errors.
- Increased efficiency and accuracy in data processing.
Commercial Applications: Potential commercial uses include:
- Telecommunications networks for synchronized data transmission.
- Industrial automation systems for coordinated operations.
- Satellite communication systems for precise signal reception.
Questions about Phase Alignment Technology: 1. How does the delay circuit ensure accurate phase alignment among multiple devices? 2. What are the advantages of spreading the phase of clock signals over time in a multi-device system?
Original Abstract Submitted
a multi-device system and a method for phase alignment of multiple devices in a multi-device system. the system includes a plurality of devices, a plurality of clock dividers, and a delay circuit. the plurality of devices are configured to operate based on a first clock signal. the clock dividers are configured to generate a second clock signal from the first clock signal and provide the second clock signal to the devices. the delay circuit is configured to incur a specific delay to the second clock signal provided to the devices such that a phase of the second clock signal provided to the devices is spread over time. each of the clock dividers may be reset based on a reference clock signal provided to each clock divider, and the delay circuit may incur the specific delay on the reference clock signal provided to each clock divider.