WebCTRL P.I.F.B.C

Key Features

Monitor:

up to 1000 feet (305 meters) of conductive fluid sensing cable and/or spot detectors per zone; 6000 feet (1830 meters) total, or

up to 700 feet (213 meters) of chemical sensing cable per zone; 4200 feet (1280 meters) total

The LDRA6 fully integrates with RLE’s family of leak detection cables. One controller can monitor an area for both water and chemical leaks with our distinct leak detection cables.

Create a unique combination of zone leak detection and dry contact alarm annunication

Adjustable leak thresholds fine-tune the system

Supervised inputs monitor cable for breaks and contamination

Form C relay output for each input enables communication with BMS/NMS/BAS via Modbus RTU (EIA-485)

One tri-color notification LED per input, and one audible alarm

Included Equipment: LDRA6 alarm panel

Additional Requirements: Isolated RLE power supply, leader cable, end-of-line (EOL) terminator, sensing cable (as needed for application)

Power: Requires an isolated power supply.

24VDC Isolated @ 600mA max.; requires RLE power supply PSWA-DC-24 (not included)

Inputs

Leak Detection Cable: Compatible with SeaHawk sensing cable and SD-Z and SD-Z1 spot detectors (not included)

Cable Input: Requires 15ft (4.6m) leader cable and EOL terminator for each zone (not included)

Maximum Length: 1000 feet (305m) of conductive fluid sensing cable and/or spot detectors per zone; 6000 feet (1830m) total, or 700 feet (213m) of chemical sensing cable per zone; 4200 feet (1280m) total

Detection Response Time Digital: When used with conductive fluid sensing cable or chemical sensing cable, 20-3600sec, software adjustable in 10 second increments; ±2sec Dry Contact NO/NC.

Outputs

Relay: 1 Form C Summary Alarm Relay, 6 Form C alarms, one per input/zone 1A @ 24VDC, 0.5A resistive @ 120VAC; Configurable for supervised or non-supervised, latched or non-latched

Communication Ports

EIA-232: 9600 baud; Parity none; 8 data bits, 1 stop bit

EIA-485: 1200, 2400, 9600 or 19,200 baud; Parity none, odd, even (programmable); 8 data bits, 1 stop bit

Protocols

Terminal Emulation (EIA-232): VT100 compatible

Modbus (EIA-485): Slave; RTU Mode; Supports function codes 03, 04, 06, and 16

Alarm Notification

Audible Alarm: 85DBA @ 2ft (0.6m); re-sound (disabled, 8,16 or 24 hours)

Visible Alarm: LED: Alarm: red; Cable Fault: yellow

Front Panel Interface

LED Indicators: Power: 1 green (on/off); 1 tri-color Status LED per zone (6 total) (Power On: green; Alarm: red; Cable Fault: yellow)

Push Buttons: Quiet/Test/Reset: 1

Operating Environment

Temperature: 32° to 122°F (0° to 50°C)

Humidity: 5% to 95% RH, non-condensing

Altitude: 15,000ft (4572m) max.

Storage Environment: -4° to 158°F (-20° to 70°C)

Dimensions: 10.5″W x 8.0″H x 2.0″D (267mmW x 203mmH x 51mmD)

Weight: 4 lbs. (1.82kg)

Mounting: Wall mount enclosure

Certifications: CE; ETL listed: conforms to UL 61010-1, EN 61010, CSA C22.2 No. 61010-1, IEC 61326:1997; RoHS compliant

Shop and search results

The BTU07 is a full featured and low cost BTU meter with Modbus over RS485 capability developed specifically for sub metering applications. The DFSR737A is unique among BTU meters by having the BTU calculator separate from the flow sensor, which allows the flow meter to be installed where it is needed, but with the BTU calculator and display installed anywhere it is convenient for tenant reading. The BTU07 comes as a set together with the flow and temperature sensors.

Introduction

Ever since the first commercial thermal imaging camera was

sold in 1965 for high voltage power line inspections, by what

would later become FLIR Systems, the use of thermal imaging

cameras for industrial applications has been an important market

segment for FLIR.

Since then thermal imaging technology has evolved. Thermal

imaging cameras have become compact systems that look just

like a digital video camera or digital photo camera. They are easy

to use and generate crisp real-time high-resolution images.

Thermal imaging technology has become one of the most

valuable diagnostic tools for industrial applications. By detecting

anomalies that are usually invisible to the naked eye, thermal

imaging allows corrective action to be taken before costly

system failures occur.

The AMR (auto meter reading) is an I/O module that has been specifically designed for the special needs of auto meter reading applications. The AMR can be interfaced directly with the output of various types of pulse output meters (electricity, water, gas, BTU) and the data collected from the various meters sent to a central host via its RS485 interface. Some special features which distinguish it from regular I/O modules are:

– noise filtering from the pulse input to prevent miscounts

– EEPROM memory to retain count data in case of power interruption

– accommodates up to 16 channels of pulse input

– dry contact channel input that eliminates the need for additional power supply

– synchronize retain count with actual meter display

– rechargeable battery backup option to maintain at least 8 hours of continuous operation during a power outage

and many more!

Powerful Microprocessor-Based Lighting Control Panel

Automated Logic’s Lighting Control LC08 panel brings the power and simplicity of WebCTRL® to your building’s lighting systems. The LC08 utilizes an advanced microprocessor to provide superior lighting control, while delivering the rapid response required by lighting applications

Zone Controller

Automated Logic’s ZN253 provides unprecedented power and flexibility through fully programmable networked controllers. The ZN253 controllers connect to the Building Automation System (BAS) network using BACnet over ARCNET 156 kbps or MS/TP. The ZN253 supports a line of RS room sensors using its Rnet port.

Zone Controller

Automated Logic’s ZN220 provides unprecedented power and flexibility through fully programmable networked controllers. The ZN220 controllers connect to the Building Automation System (BAS) network using BACnet over ARCNET 156 kbps or MS/TP. The ZN220 supports a line of RS room sensors using its Rnet port.

A Tool for Sustainable Building Operations

Automated Logic’s EnergyReports™ application is an incredibly flexible, easy-to-use reporting tool that gives facility managers the power to produce a wide variety of reports showing a building’s energy consumption. Using dynamic and animated color graphs, EnergyReports allows users to compare energy consumption or demand over different periods with simple drop-down menus and calendar control options. A click of the mouse enables users to normalize consumption data, convert the data to cost or carbon dioxide emissions, and change engineering units on the fly. This gives facility managers a powerful tool to minimize energy consumption, maximize comfort, and achieve sustainable building operations

Balancing Efficiency with Comfort

WebCTRL Environmental Index – Balancing Efficiency With Comfort

As energy prices continue to soar, facility managers are under increasing pressure to find ways to cut building operating costs. A simple solution would be to decrease energy consumption, but smart managers know that sacrificing comfort for energy savings could lead to even bigger financial problems. After all, studies have shown productivity decreases as comfort levels decline, leading to lost revenues in companies and difficult learning environments in school systems. What’s needed is a way to measure comfort, so managers would know exactly how far to cut energy usage without negatively impacting comfort.

Automated Logic’s Environmental Index provides the solution. Since the key component of comfort is temperature, ALC’s index starts with assigning point values based on the difference between zone temperature and heating and cooling set points. Other factors, such as humidity and CO2 levels, can also be computed into the numeric system to reflect one “comfort” score for all factors. This is a powerful tool for facility managers who need to identify buildings with performance problems or ensure buildings don’t become less efficient as changes are made.