Eclipse Combustion VeriFlame Single Burner Monitoring System Remote Display Model Number 5602-DB

Page 11

Dimensions (continued)

Veri-Flame/Modulating Model with Base Model Number 5602-40

40mm

(1-9/16")

116mm (4-9/16")

 

24mm

 

(15/16")

 

171mm

 

(6-3/4")

 

25mm

 

(1")

1 2 3 4 5 6 7 8

A D S2 S1 10 11 12 13

10mm (3/8")

5mm (3/16")

213mm (8-3/8")

Remote Display Model Number 5602-DB

89mm

 

102mm

 

 

 

 

 

 

 

(3-1/2")

 

(4") Square

 

54mm

 

Square

 

 

*

(2-1/8")

 

 

Ground

 

 

 

 

 

 

 

 

 

 

Screw

 

 

Mounting

 

 

Contrast

 

 

Bracket &

 

 

 

 

 

 

Adjustment

 

 

Screw (2)

 

 

 

*

 

 

Screw

 

 

 

 

 

 

Wiring

15-pin Port

* = Alternate Mounting Locations

Terminal

Terminal

24VDC Power Supply for Remote Display 5602-DB

 

 

44mm

70mm

 

 

 

 

(1-3/4")

(2-3/4")

 

 

 

 

 

 

79mm

 

 

 

 

 

(3-1/8")

 

 

 

Remote Display Model Number 5602-DBP

 

102mm

 

89mm

 

 

(3-1/2")

 

(4") Square

54mm

 

Square

 

 

*

(2-1/8")

 

 

 

 

 

 

 

 

Ground

 

 

Mounting

 

Screw

 

 

 

Contrast

 

 

Bracket &

 

 

 

 

Adjustment

 

*

Screw (2)

 

Screw

 

 

 

 

 

Wiring

15-pin Port

 

 

 

*

= Alternate Mounting Locations

Terminals (2)

Terminal

 

 

Eclipse Veri-Flame Instruction Manual 818 -2/02

11

Image 11
Contents VeriFlame Single Burner Monitoring System Copyright Disclaimer Notice Liability Warranty Audience Scope Document Conventions About this manualHOW to GET Help Table of Contents Page LED Status & Conditions for No Purge Models Table Product Description IntroductionIntroduction SpecificationsSpecifications Veri-Flame Bases/Purge & No Purge Models DimensionsVeri-Flame Unit/All Models Remote Display Model Number 5602-DBP Veri-Flame/Modulating Model with Base Model NumberRemote Display Model Number 5602-DB Modulation & Purge DIP Switch Settings DIP Switch SelectionDIP Switch Location Function Summary Interlocks and Limit Switch Input Terminal Combustion AirIntroduction Standard Features Main Fuel Valve Closed Switch TerminalTest Mode Run Mode Seconds Status Lights PUSH-BUTTON Optional FeaturesSystem Installation High Purge Input Remote Reset Remote Display & Power Supply Ignition Wiring Low Fire InputNo Purge and Purge Wiring Diagrams No Purge Models Typical Connections For All Models Modulating Base Purge and No Purge BasesInputs Sequence DiagramsSensor Wiring Flame Rods Sensor InstallationFlame Rod Position Scanners Scanner Sighting ConsiderationsFlame Signal Strength Minimum Pilot Test Test ProceduresSpark Sighting Test Limits & Interlock Tests Pilot Flame Failure Test Main Flame FailureTestIntroduction Maintenance Maintenance &TroubleshootingMonthly Checklist Yearly Checklist Problem Possible Cause Solution TroubleshootingLED Status AIR Failure LED Status & Conditions forVeri-Flame Purge ModelsAuto Interlocks Closed LED Status & Conditions forVeri-Flame Modulation ModelsRemote Display Messages Veri-Flame Operating Sequence Power onYES no YES Burner Shutdown AIR Failure Xxxxxx Lockout Pilot on Remote Display Diagnostic MessagesInternal Fault Metric to Metric AppendixConversion Factors Metric to EnglishPos Model Part Category Description Number Illustrated Parts List

5600, VeriFlame Single Burner Monitoring System specifications

The Eclipse Combustion VeriFlame Single Burner Monitoring System, model 5600, represents a significant advancement in the field of combustion management technology. Designed to provide enhanced monitoring and control of burner operations, the VeriFlame system is equipped with state-of-the-art features that ensure optimal efficiency, safety, and performance in a variety of industrial applications.

One of the main features of the VeriFlame 5600 is its advanced flame detection technology, which employs efficient optical sensors to monitor flame presence and stability continuously. This feature enables the system to provide real-time feedback, ensuring that burners operate within specified parameters and respond swiftly to any fluctuations. The system’s intelligent analytics can easily discern between normal operational conditions and potential hazards, enhancing safety and reducing the risk of unsafe operation.

The VeriFlame system is also known for its versatile communication capabilities, featuring multiple connectivity options. The unit can integrate seamlessly with existing plant control systems using industry-standard protocols such as Modbus or Profibus. This interoperability allows for comprehensive data sharing and centralized control of multiple burner systems from a single interface, streamlining operations and improving operator efficiency.

Another notable characteristic of the Eclipse Combustion VeriFlame is its user-friendly interface. The system comes with an intuitive graphical display that provides operators with critical operational data, including flame quality, burner status, and diagnostic information. This straightforward interface facilitates quick decision-making and troubleshooting, minimizing downtime and enhancing the overall operational efficiency of the burner system.

The 5600 model also offers robust diagnostic capabilities, allowing for proactive maintenance and reduced unexpected failures. It features built-in self-check routines and historical data logging, which provide valuable insights into system performance over time. These diagnostic tools empower operators to identify and address potential issues before they escalate, thereby reducing maintenance costs and enhancing the longevity of the burner components.

Moreover, the VeriFlame system is designed with flexibility in mind, accommodating various burner types and fuel sources. This adaptability makes it suitable for use in a wide range of industries, including oil and gas, power generation, and manufacturing.

In conclusion, the Eclipse Combustion VeriFlame Single Burner Monitoring System 5600 stands out due to its advanced flame detection, versatile communication options, user-friendly interface, robust diagnostics, and flexibility. Together, these features make it an essential tool for optimizing combustion processes, enhancing safety, and improving overall operational efficiency in industrial environments.