A Road-Mobile GNSS-Disciplined Oscillator for Accurate Synchronization of Vehicular Microwave Measurements

TL;DR

This paper introduces a mobile-optimized GNSS-disciplined oscillator using a specialized OCXO, achieving significantly improved synchronization accuracy in vehicular environments compared to traditional stationary devices.

Contribution

The authors develop a novel mobile GNSSDO with a low-sensitivity OCXO and demonstrate its superior synchronization accuracy in real-world driving tests.

Findings

Deviation of up to 2315 ns in state-of-the-art devices during mobile use

Our device's deviation never exceeded 22.6 ns in tests

Mobile-optimized design significantly improves synchronization accuracy

Abstract

Precise synchronization is essential in various technical disciplines, being especially challenging in mobile scenarios. Unfortunately, state-of-the-art global navigation satellite system (GNSS) disciplined oscillators (GNSSDOs) are designed and optimized for stationary operation. We present a novel solution that is optimized for mobile use from the ground up. The centerpiece is a precise oven-controlled crystal oscillator (OCXO) that is optimized for low sensitivity to dynamic accelerations. A state-of-the-art GNSS timing module is used to discipline it. We evaluate the system by comparing it with state-of-the-art test equipment in a real-world test drive through diverse environments. After compensating for the stationary offset, the state-of-the-art devices deviated by up to 2315 ns, while with our devices, the deviation never exceeded 22.6 ns. It is evident that the devices designed for laboratory use perform inadequately in mobile operation and that our novel solution enables a significant leap in accuracy.