The Development of a Highly Integrated Secondary Instrument

Hao Pan; Qiu Fang Ma

doi:10.4028/www.scientific.net/AMR.998-999.491

Paper Titles

Rolling Bearing Fault Diagnosis and Health Assessment Based on EMD–TEO
p.470

Simulation and Experiment of Power Amplifier for Magnetic Bearings
p.476

The Absolute Measurement Deviation of Rotational Averaging Mirror Surface Based on the Finite Element Method
p.481

The Creation of Virtual Assembly System Based on Virtools
p.486

The Development of a Highly Integrated Secondary Instrument
p.491

The Motor Temperature Rise Test System Based on Magnetic Powder Dynamometer
p.495

The Present Situation and Development Trend of Rapid Drilling Technology in Coal Mine Emergency Rescue
p.499

Tri-Linear Regulation of Diffusion Tensor Field for WM Fiber Tracking
p.503

Novel N-3 Compressor for Low-Power Booth Multiplier
p.507

HomeAdvanced Materials ResearchAdvanced Materials Research Vols. 998-999The Development of a Highly Integrated Secondary...

The Development of a Highly Integrated Secondary Instrument

Abstract:

In order to simplify the design of secondary instrument, a highly integrated scheme based on MSP430F169 was put forward in the paper. On analysis of the functional requirement for process parameter measurement and control systems, signal conditioning circuits to deal with the thermal resistance, thermocouple, current and pulse input or output was designed to meet the demand of different field. The MCU on-chip resources were used in the design as far as possible. It mainly includes the use of A/D and pulse counter to acquire signal, D/A to output current and UART to construct communication. Furthermore the clock and EEPROM storage systems were designed to enlarge the universal property. Tests show that the platform can meet the hardware demand of the mainstream secondary instrument, and is with high performance cost ratio.