Upstream Allocation of Bidirectional Load Demand by Power Packetization

TL;DR

This paper introduces a novel upstream allocation scheme for bidirectional power load demand using power packetization, integrating power and information transfer for efficient management in electric systems.

Contribution

It proposes a new routing scheme for power packets that enables bidirectional load management with integrated power and information flow.

Findings

The routing scheme effectively manages bidirectional load demand.

Experimental results demonstrate the scheme's viability.

Packetized control improves power system flexibility.

Abstract

The power packet dispatching system has been studied for power management with strict tie to an accompanying information system through power packetization. In the system, integrated units of transfer of power and information, called power packets, are delivered through a network of apparatuses called power packet routers. This paper proposes upstream allocation of a bidirectional load demand represented by a sequence of power packets to power sources. We first develop a scheme of power packet routing for upstream allocation of load demand with full integration of power and information transfer. The routing scheme is then proved to enable packetized management of bidirectional load demand, which is of practical importance for applicability to, e.g., electric drives in motoring and regenerating operations. We present a way of packetizing the bidirectional load demand and realizing the power and information flow under the upstream allocation scheme. The viability of the proposed methods is demonstrated through experiments.