A Temperature Control System Design Using Integration Network

Wei Yan; Xian Qi Huang; Ying Sheng Zhou

doi:10.4028/www.scientific.net/AMR.472-475.93

Paper Titles

Design, Generation and Bending Stress Analysis of Face-Gear with Curvilinear Shaped Teeth
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Investigation of the Effect of Process Parameters on Surface Roughness in Wire EDM of Titanium Alloy
p.78

Application of Crab Shell Chitosan on Nonwoven Wool
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Morpholog and Conductivity of High-Solid Content Waterborne Polyurethane Dispersions with Sulfonated Polyol and Carboxylic Polyol as Compound Hydrophilic Chain Extender
p.89

A Temperature Control System Design Using Integration Network
p.93

Deterministic Model and Genetic Algorithm of Joint Inventory Control for Virtual Logistics
p.97

Preparation of Carbon Fiber/MoS₂ Core-Shell Structure by Surface Modification and Precipitation Process in Aqueous Solution
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Minimum Norm Multidimensional Scaling Solution for Mobile Station Localization in Wireless Sensors Network
p.106

Effect of Carbon Black Pigment on the Surface Resistivity of the Black Silicone Thermal Control Coating
p.110

HomeAdvanced Materials ResearchAdvanced Materials Research Vols. 472-475A Temperature Control System Design Using...

A Temperature Control System Design Using Integration Network

Abstract:

For a large percentage of control systems, the primary objective is to obtain high steady-state accuracy. Another goal is to maintain the transient performance of these systems within reasonable limits. The steady-state accuracy of many feedback systems can be increased by increasing the amplifier gain in the forward channel. We will describe the design of the integration compensation networks in order to obtain a suitable system performance.