R.B. Sharpless scite author profile

This paper presents the design and implementation of a multivariable self-tuning temperature controller for the control of lead bromide crystal growth. The crystal grows inside a multizone transparent furnace.There are eight interacting heating zones shaping the axial temperature distribution inside the furnace. A multi-input, multi-output furnace model is identified on-line by a recursive least squares estimation algorithm. A multivariable pole placement controller based on this model is derived and implemented. Comparison between single-input, single-output and multi-input, multi-output self-tuning controllers demonstrates that the zone-to-zone interactions can be minimized better by a multi-input, multi-output controller design. This directly affects the quality of crystal grown.

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Adaptive Temperature Profile Control of a Multizone Crystal Growth Furnace

Batur

Sharpless

Duval

et al. 1991

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R.B. Sharpless

Identification and control of a multizone crystal growth furnace

Self‐tuning multivariable pole placement control of a multizone crystal growth furnace

Adaptive Temperature Profile Control of a Multizone Crystal Growth Furnace

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