University of Illinois (UIUC)

Slides:

Advertisements

Similar presentations

MTA Instrumentation M. Haney University of Illinois at Urbana-Champaign 25 February 2004.

Advertisements

Robotics Club, Snt Council2 The 3 Schools of Robotics: Mechanical Design – Types of motors – Material selection –

Course contents 1.Labview basics – virtual instruments, data flow, palettes 2.Structures – for, while, case,... – editing techniques 3.Controls&Indicators.

Data Acquisition Concepts Data Translation, Inc. Basics of Data Acquisition.

ESODAC Study for a new ESO Detector Array Controller.

Automated Pool Maintenance System Jonathan Arbogast Janine Garnham Ajay Suthar.

20 Feb 2002Readout electronics1 Status of the readout design Paul Dauncey Imperial College Outline: Basic concept Features of proposal VFE interface issues.

MICE LH2 Absorber Instrumentation - What is necessary/ desirable? (physics calibration) Temperature inside the the absorber Temperature inside the absorber.

MuCool Test Facility Instrumentation Update M. Haney, D. Errede, Z. Conway University of Illinois at Urbana-Champaign 12/13 August 2002.

ELI: Electronic Timing System (ETS) at Facility Level E L I – B L – – P R E – B.

G043 – Lecture 02 Inside A Desktop PC Mr C Johnston ICT Teacher

Embedded Programming and Robotics

Topic 1 different attributes that characterize sensors ETEC 6405.

Mr C Johnston ICT Teacher BTEC IT Unit 02 - Lesson 01 Back to Basics.

Chapter 8 Input/Output. Busses l Group of electrical conductors suitable for carrying computer signals from one location to another l Each conductor in.

1 Computing Basics Honolulu Community College Cisco Academy Training Center Semester 1 Version

Linac Test Area Instrumentation Update M. Haney, D. Errede, Z. Conway University of Illinois at Urbana-Champaign 14 June 2002.

ACOE2551 Microprocessors Data Converters Analog to Digital Converters (ADC) –Convert an analog quantity (voltage, current) into a digital code Digital.

Data Acquisition Data acquisition (DAQ) basics Connecting Signals Simple DAQ application Computer DAQ Device Terminal Block Cable Sensors.

DLS Digital Controller Tony Dobbing Head of Power Supplies Group.

A new class in PC Data Acquisition Delphin Technology AG Felix Ottofuelling V5.0.

Grob Systems, Inc., the customer, requires an industrial computer system that will have a function of acquiring raw data, processing the data, presenting.

2007 Oct 18SYSC2001* - Dept. Systems and Computer Engineering, Carleton University Fall SYSC2001-Ch7.ppt 1 Chapter 7 Input/Output 7.1 External Devices.

Course ILT Basics of information technology Unit objectives Define “information technology” (IT), distinguish between hardware and software, and identify.

Measurement Fundamentals Rajesh Vaidya DAQ Software Engineer Wed 10:15a, 12:45p, and 3:30p Colorado (6A) Rajesh Vaidya DAQ Software Engineer.

15 March 2001Absorber Review Meeting at NIU1 DAQ for Pressure Test, and later... Michael J. Haney University of Illinois

Storing and Organizing Data. Why Do I Need to Understand How Data Is Represented? In order to install, program,maintain, and troubleshoot today’s PLCs,

2009 Sep 10SYSC Dept. Systems and Computer Engineering, Carleton University F09. SYSC2001-Ch7.ppt 1 Chapter 7 Input/Output 7.1 External Devices 7.2.

ArgonneBeamTest_ ppt1 Argonne Beam Test preparation Tsunefumi Mizuno Tuneyoshi Kamae

A Hardware Based Cluster Control and Management System Ralf Panse Kirchhoff Institute of Physics.

Introduction to DaqScribe Solutions Turn up the volume.

Scalable Readout System Data Acquisition using LabVIEW Riccardo de Asmundis INFN Napoli [Certified LabVIEW Developer]

Relevant Computer Info. The Computer Consists of: Hardware –The CPU and motherboard (and bus) –Storage Devices (hard disk, memory, …) –Input Devices (keyboard,

Computer Organization and Design

Communication Devices..

Microprocessors Data Converters Analog to Digital Converters (ADC)

The Need for Speed: When you need a faster datalogger

Basic Computer Hardware and Software.

EET 2259 Unit 12 Data Acquisition

Nat 4/5 Computing Science Interfaces

NETWORK DESIGN.

CHAPTER 1: Computers and Systems

Chapter 6: BIOS.

Lesson Objectives Aims Key Words

SCADA for Remote Industrial Plant

Principles of Information Technology

Basic Computer Hardware & Software

DT80 range Modbus capability

Computing Basics Honolulu Community College

Technology Literacy Hardware.

C_ITCO011/C_ITCO111 LECTURER: E.DONDO

Development of built-in diagnostics in the RADE framework (EN2746)

Basic Computer Hardware and Software.

Mr C Johnston ICT Teacher

Computer System Basics- The Pieces & Parts

Outline Overview Development Tools

Phoenix Family Overview Test with Confidence.

EET 2261 Unit 14 INCOMPLETE Analog-to-Digital Conversion (ADC) & Digital-to-Analog Conversion (DAC) Read. Homework #13 and Lab #13 due next week. Quiz.

PLC Hardware Components.

Five Key Computer Components

Standard Grade Revision

Training Module Introduction to the TB9100/P25 CG/P25 TAG Customer Service Software (CSS) Describes Release 3.95 for Trunked TB9100 and P25 TAG Release.

MuCool Test Facility Instrumentation Update

Data Acquisition (DAQ)

UNIT-III Pin Diagram Of 8086

EPICS: Experimental Physics and Industrial Control System

Networks & I/O Devices.

724 Temperature Calibrator

University of Illinois (UIUC)

Presentation transcript:

University of Illinois (UIUC) MTA Instrumentaion University of Illinois (UIUC) Debbie Errede Mike Haney Zack Conway Fermilab Robert Goodwin Mike Kucera Mike Shea Feb 22, 2003

What’s Going On? Instrumentation Measurements Hardware Data Collection Data Processing Measurements 5/23/2019

Hardware In Urbana we have: FISO bus system. Fiber optic light conditioner. LakeShore 218 temperature monitor. Diode/resistive temperature sensor monitor. IRM(Internet Rack Monitor) Fancy ADC connected to the Fermilab Ethernet. “Fast” ADC with 8 differential channels PC card. 5/23/2019

FISO BUS SYSTEM Part 1 Currently we have 4 signal conditioners. Can take data at 1kHz. Room for 8 total(4 more) signal conditioners. We have temperature, pressure, and strain gauges. Each signal conditioner can illuminate a separate sensor. 5/23/2019

FISO BUS SYSTEM Part 2 Gauges are not certified below 250K. The gauges have been used to 35K but never below(H. Kirk @ Brookhaven). Working with FISO technologies Inc. to modify the internal calibration curves. By mid-March we will be able to simulate many aspects of the LH2 absorber in Urbana for sensor testing. 5/23/2019

LakeShore 218 Temperature Monitor 8 channel temperature monitor. Supports two sets of 4 channels. Each set of channels can be calibrated for either diode or resistive temperature sensors. 1.4K-325K temperature range for each channel. Temperature resolution of ~10mK at 20K in a rad free environment. Maximum data collection rate on all channels in 16 Hz. 5/23/2019

IRM(Internet Rack Monitor) IRM comes with: 64 differential A-D input channels. 8 bytes of digital I/O channels. 8 bytes of D-A output channels. Ethernet LAN interface. 5/23/2019

PCI-MIO-16E-1 ADC 16 channel ADC(8 differential channels) 12 bits per channel 1.25 Msamples/s Each ADC channel built into an IRM has a maximum operating rate of 100 ksamples/s. Internal PC device. 5/23/2019

Data Collection All hardware can communicate with external devices. The process repeats itself at regular intervals(15Hz???). Using Labview as a user interface between the PC and the hardware. Labview comes with built in functions supporting hardware communication: GPIB, Serial, UDP, TCP/IP, ect. 5/23/2019

Labview Very modular Labview code is very easy to understand. Each instrument has its own independent code. Labview can run each instrument’s code concurrently. Labview code is very easy to understand. 5/23/2019

Collection Control At this time: One master configuration file. All of the data will be saved to the PC’s hard drive. There are size issues when writing to the IRM. ~1kB every 66 milliseconds is the current goal. What should be posted on the IRM? 5/23/2019

IRM Data Collection Operates repetitively at a constant rate. In Urbana we are running at 12.5Hz. Can definitely handle 15Hz operation. Faster??? Each cycle includes: The revision of the analog and binary data tables. Answering/generating messages for other IRMs, ACNET, our PC, ect…. 5/23/2019

IRM Part 2 University of Illinois IRM: Has room for 1000 virtual channels. Can be upgraded to 2000 virtual channels. All channels are ACNET compatible. 2MB of free memory. Not as structured as the channel data. 5/23/2019

Data Processing The PC can handle almost any data type sent to it at high rates. The IRM Refresh rate of data is limited. Amount of data refreshed per cycle is limited. Data must be formatted. Each reading occupies 2 bytes of memory. This leaves 65535 steps to record each data point. 5/23/2019

IRM Data Processing Take an ammeter. Let’s say it needs to measure a current from 0 to 200mA. So the maximum resolution the IRM data can have is: 200mA/65535=0.0031mA In other words IRM Reading = (1/0.0031mA)*Current Hardware value. 5/23/2019

Hardware Data All sensor readings use different units. Each sensor requires its own calibration curve. The current plan: Save the non-calibrated data to disk. Post the adjusted data for ACNET. 5/23/2019

Wrap up U of I @ Urbana-Champaign is focusing on the data collection and hardware for the LH2 absorber. The hardware works but sensor calibration remains a high priority. 5/23/2019