Multiple ECH launcher control system

M. T. Green; D. Ponce; H. J. Grunloh; R. A. Ellis; W. H. Grosnickle; R. L. Humphrey

Multiple ECH launcher control system

M. T. Green
, D. Ponce
, H. J. Grunloh
, R. A. Ellis
, W. H. Grosnickle
, R. L. Humphrey

PPPL Engineering

Research output: Contribution to conference › Paper › peer-review

Abstract

The addition of new, high power gyrotrons to the heating and current drive arsenal at DIII-D, required a system upgrade for control of fully steerable ECH Launchers. Each launcher contains two pointing mirrors with two degrees of mechanical freedom. The two flavors of motion are called facet and tilt. Therefore up to four channels of motion per launcher need to be controlled. The system utilizes absolute encoders to indicate mirror position and therefore direction of the microwave beam. The launcher movement is primarily controlled by PLC, but future iterations of design, may require this control to be accomplished by a CPU on fast bus such as Compact PCI. This will be necessary to accomplish real time position control. Safety of equipment and personnel is of primary importance when controlling a system of moving parts. Therefore multiple interlocks and fault status enunciators have been implemented. This paper addresses the design of a Multiple ECH Launcher Control System, and characterizes the flexibility needed to upgrade to a real time position control system in the future.

Original language	English (US)
Pages	532-534
Number of pages	3
State	Published - 2003
Event	20th IEEE/NPSS Symposium on Fusion Engineering, SOFE 03 - San Diego, CA, United States Duration: Oct 14 2003 → Oct 17 2003

Conference

Conference	20th IEEE/NPSS Symposium on Fusion Engineering, SOFE 03
Country/Territory	United States
City	San Diego, CA
Period	10/14/03 → 10/17/03

All Science Journal Classification (ASJC) codes

Nuclear and High Energy Physics
Nuclear Energy and Engineering

Cite this

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title = "Multiple ECH launcher control system",

abstract = "The addition of new, high power gyrotrons to the heating and current drive arsenal at DIII-D, required a system upgrade for control of fully steerable ECH Launchers. Each launcher contains two pointing mirrors with two degrees of mechanical freedom. The two flavors of motion are called facet and tilt. Therefore up to four channels of motion per launcher need to be controlled. The system utilizes absolute encoders to indicate mirror position and therefore direction of the microwave beam. The launcher movement is primarily controlled by PLC, but future iterations of design, may require this control to be accomplished by a CPU on fast bus such as Compact PCI. This will be necessary to accomplish real time position control. Safety of equipment and personnel is of primary importance when controlling a system of moving parts. Therefore multiple interlocks and fault status enunciators have been implemented. This paper addresses the design of a Multiple ECH Launcher Control System, and characterizes the flexibility needed to upgrade to a real time position control system in the future.",

author = "Green, \{M. T.\} and D. Ponce and Grunloh, \{H. J.\} and Ellis, \{R. A.\} and Grosnickle, \{W. H.\} and Humphrey, \{R. L.\}",

year = "2003",

language = "English (US)",

pages = "532--534",

note = "20th IEEE/NPSS Symposium on Fusion Engineering, SOFE 03 ; Conference date: 14-10-2003 Through 17-10-2003",

}

TY - CONF

T1 - Multiple ECH launcher control system

AU - Green, M. T.

AU - Ponce, D.

AU - Grunloh, H. J.

AU - Ellis, R. A.

AU - Grosnickle, W. H.

AU - Humphrey, R. L.

PY - 2003

Y1 - 2003

N2 - The addition of new, high power gyrotrons to the heating and current drive arsenal at DIII-D, required a system upgrade for control of fully steerable ECH Launchers. Each launcher contains two pointing mirrors with two degrees of mechanical freedom. The two flavors of motion are called facet and tilt. Therefore up to four channels of motion per launcher need to be controlled. The system utilizes absolute encoders to indicate mirror position and therefore direction of the microwave beam. The launcher movement is primarily controlled by PLC, but future iterations of design, may require this control to be accomplished by a CPU on fast bus such as Compact PCI. This will be necessary to accomplish real time position control. Safety of equipment and personnel is of primary importance when controlling a system of moving parts. Therefore multiple interlocks and fault status enunciators have been implemented. This paper addresses the design of a Multiple ECH Launcher Control System, and characterizes the flexibility needed to upgrade to a real time position control system in the future.

AB - The addition of new, high power gyrotrons to the heating and current drive arsenal at DIII-D, required a system upgrade for control of fully steerable ECH Launchers. Each launcher contains two pointing mirrors with two degrees of mechanical freedom. The two flavors of motion are called facet and tilt. Therefore up to four channels of motion per launcher need to be controlled. The system utilizes absolute encoders to indicate mirror position and therefore direction of the microwave beam. The launcher movement is primarily controlled by PLC, but future iterations of design, may require this control to be accomplished by a CPU on fast bus such as Compact PCI. This will be necessary to accomplish real time position control. Safety of equipment and personnel is of primary importance when controlling a system of moving parts. Therefore multiple interlocks and fault status enunciators have been implemented. This paper addresses the design of a Multiple ECH Launcher Control System, and characterizes the flexibility needed to upgrade to a real time position control system in the future.

UR - https://www.scopus.com/pages/publications/27644598547

UR - https://www.scopus.com/pages/publications/27644598547#tab=citedBy

M3 - Paper

AN - SCOPUS:27644598547

SP - 532

EP - 534

T2 - 20th IEEE/NPSS Symposium on Fusion Engineering, SOFE 03

Y2 - 14 October 2003 through 17 October 2003

ER -

Multiple ECH launcher control system

Abstract

Conference

All Science Journal Classification (ASJC) codes

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