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Selecting & Defining Command and Control Systems for Mine Ventilation Presented By: Sancar James Fredsti.

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Presentation on theme: "Selecting & Defining Command and Control Systems for Mine Ventilation Presented By: Sancar James Fredsti."— Presentation transcript:

1 Selecting & Defining Command and Control Systems for Mine Ventilation Presented By: Sancar James Fredsti

2 Abstract:  Harsh Environment for Equipment  Communication between components is critical.  Robustness of system configuration is essential to successful design approach.  As systems age, often the configuration becomes unmanageable as equipment becomes obsolete.  Flexible design, ease of maintenance and expandability are paramount considerations.

3 Introduction:  Huge offering of equipment in market place overwhelms system designer with choices.  Incompatible communications methods and protocols leads to cumbersome system configuration.  Often systems created from ‘available’ components will become dysfunctional over time because of software and hardware upgrades.  Implemented on University of Nevada, Reno ventilation on demand simulator system. Which desired real time data collection, simplified operation and easily modified structure and design.

4 Pre Modification System  20 Manual pressure sensor points.  4 Anemometer sample points  National Inst. Analog & Digital I/O Interfaces  Regulator control through simulated stepper motor control  Fan control through analog driver, fed from remote analog speed transducer.  Centralized instrument and control points

5 System Description & Design Approach  Old system design approach inadequate  Need to simplify system Old System Operations Approach

6 Design by use of off the shelf components Design by adapting system to fit network Custom design from the ground up Design Methodologies Available

7 Design By Using Off The Shelf Components  Selection of components with compatible specifications is difficult.  Interfacing different manufacturers equipment is arduous and consumes system software development resources.  Communications often uses multiple protocols and layers,  Lack of definitive data and control topologies common across many manufacturers makes getting system pieces to play nicely together difficult.  Comfortable for system designer to use familiar equipment but usually results in a system that has adaptors, interfaces and translators.

8 Design System By Adapting To Specific Network  Selection of components with compatible communications limits the availability of hardware. No one offers everything.  Critical to select most useful communications protocol for the application and physical topology.  Keep the hardware and protocol layers similar. Mixing different protocols on the same physical layer leads to errors, failures and potential hazards.  If communications protocols require translation keep this equipment simple and close to the equipment terminus.  Be willing to break network up into manageable sections  Separate and define long haul and short haul as independent sections, this may require a mixture of hardware layer equipment.

9 Design System From Ground Up  More difficult to accomplish, requires hardware and software development team effort.  Ability to define hardware and interfaces specifically for the application at hand, helps eliminate forcing of hardware to work by software modification and adaptation.  Large selection of networkable controllers, processors and interface equipment.  Ability to define custom networking and interfacing of incompatible equipment.  Ability to design distributed and localized processing of collected data making system efficient and keeping network traffic to a minimum.  Easily accommodate long haul and short haul networking with custom interfaces.  Custom hardware design and building costs can be substantially less than cumbersome software development alone.

10 Custom Designed UNR System  Simplified system operation while expanding capabilities  Replaced manual pressure sensor system with custom designed networked 20 node dual sensor system  Replaced Interface and control cabinets with networked drivers Final Custom Network and Hardware Design

11 Applying Design and Selection Philosophies  Define all parameters required.  Discard approaches that require too much work  Don’t be afraid of designing new hardware  Distribute intelligence throughout the system  Communications is paramount  Use a Top Down approach, define what to do before defineng how to do it.  Keep maintenance and serviceability in mind Previous single approaches may yield disappointing results, but a mixture of design philosophies usually results in a successful final product.

12 Custom UNR Control System Custom designed instrument module. Note: all power, data communications and control signaling is accomplished through a single 4 conductor wire interface. This bus is shared by all modules on the network. Cluster of modules on data network. Picture shows instrument cluster. 20 Pressure Sensors, 3 Variable Speed Fans, 4 Regulators, 4 Anemometers, 5 CO2 Sensors 4 CO2 Injection points and an Outside Barometric Pressure and Dew Point instrument. Note: all power, data communications and control signaling is accomplished through a single 4 conductor wire interface. This bus is shared by all modules on the network.


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