Control Instruments Model 650 Flame Ionization Detector (FID)
Control Instruments Model 650 Flame Ionization Detector (FID)
SKU:MOD-53626e
Top-of-the-line Flame Ionization Detector for accurate VOC emissions monitoring in diverse applications.
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$5,999.99
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Control Instruments Model 650 Flame Ionization Detector (FID)
$5,999.99
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Control Instruments Model 650 Flame Ionization Detector (FID)
$5,999.99
Quantity: 1
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The Control Instruments Model 650 Flame Ionization Detector (FID) is a top-of-the-line solution for continuous VOC emissions monitoring in a variety of applications. With precise specifications including a calibration range of milligrams carbon per cubic meter and parts per million hydrocarbon, this detector offers exceptional accuracy and reliability. Featuring heated sampling systems to prevent condensation issues and a failsafe operation ensuring continuous monitoring, the Model 650 meets stringent industry standards for performance and safety. Ideal for both process and stack monitoring, this detector provides real-time data essential for compliance and operational efficiency.
Product Specifications
Assembly Dimensions Depth
8.5 in
Assembly Dimensions Height
16 in
Assembly Dimensions Width
12.1 in
Failsafe Operation Failsafe Operation
A fault relay de-energizes whenever any of the following occur: sensor electrical failure; loss of system power; loss of heat; loss of vacuum in the flame cell; and downscale readings caused by loss of flame or fuel.
Heated Sampling System Heated Sampling System
To avoid condensation during sampling, the sensor pneumatic assembly is heated up to 200 ºC. This eliminates inaccurate readings caused by solvent dropout, excessive maintenance time due to sample condensation and clogging.The Model 650 is suitable for monitoring high flash point solvent vapors and other compounds with high temperature dew points. The sensor is unaffected by the temperature of the process and can sample streams at 1500 ºF (and higher).The sensor can be mounted directly onto the process ductwork, as close as possible to the sample pickup point. This eliminates external heated sample lines and allows the fastest response time.The sensor employs customer-supplied compressed air to drive its integrated air-aspirated sampling system. This method is simple, highly effective and requires very little maintenance. The sampling system does not require bottled air or sample pumps.
Note Note
As a result of our commitment to continual product improvement, specifications are subject to change without notice. All Rights Reserved.
Outputs Outputs
The Model 650 has three (3) single-pole, double-throw relays for Warning, Danger, and Malfunction; and three (3) single-pole, single-throw relays for Horn, Calibration-in- Progress and Service Needed. Other outputs include a 4- 20 mA analog output and an RS-485 serial port with Modbus protocol.
Performance Performance
Detector response time is 1.2 seconds. The sensor exhibits a very stable zero: less than one percent drift in thirty days. Span accuracy is less than five percent error per year.The sensor is an industrial strength assembly suitable for continuous use in harsh environments; the optional NEMA 4X housing is suitable for direct mounting on the process indoors or out.
Power Requirement Alternating Current Ac Voltage
120 V | 230 V
Power Requirement Frequency At 120 Alternating Current Ac Voltag
50 Hz | 60 Hz
Power Requirement Frequency At 230 Alternating Current Ac Voltag
50 Hz
Power Requirement Maximum Power
425 W
Power Requirement Power
200 W
Power Requirement Voltage Tolerance At 120 Alternating Current A
-15 % | +10 %
Power Requirement Voltage Tolerance At 230 Alternating Current A
-15 % | +10 %
Repeatability Maximum Repeatability
1 %
Repeatability Repeatability
0.5 %
Resolution Analog Output Resolution
0.6 %
Resolution Note For Resolution
Based on digital signal processing and full scale of analyzer.
Resolution Resolution
0.03 %
Resolution Worst Case Resolution
0.25 %
Sensor Design Sensor Design
The Model 650 FID is a high-temperature flame ionization sensor that continuously measures total hydrocarbon concentrations. Control Instruments' proprietary FID design assures an accurate and linear response.A carefully metered pilot flame incinerates the sample. The resulting ionized carbon passes through an electrical field, creating a proportional current flow. An electrometer measures the current flow. The resulting electrometer output is amplified and displayed as either: parts per million of a hydrocarbon (PPM); Milligrams of Carbon per Cubic Meter (mgC/m3); or PPM of Carbon by Volume (PPMCv).
Specifications Alarm Function
Adjustable Alarm Ranges
Specifications Ambient Temperature
-40 to 65 ºC
Specifications Analog Output Current
4 to 20 mA
Specifications Approximate Weight
18 kg | 40 lb
Specifications Calibration
Milligrams carbon per cubic meter at 20ºC (mgC/m³) | Parts Per Million Hydrocarbon (PPM) | PPM Carbon by Volume (PPMCv)
Specifications Cell Response Time T 632 Percent
1.2 sec
Specifications Cross Calibration Full Scale Reading Total Accura
3 %
Specifications Digital Output
Modbus Protocol | RS-485 Serial
Specifications Enclosure Rating
National Electrical Manufacturers Association (NEMA) 12, 13 Indoor | National Electrical Manufacturers Association (NEMA) 4X Corrosion-Resistant, Outdoor Optional
Specifications Flame Cell Material
Hard-Coat Aluminum
Specifications Flame Cell Rating
Explosion Proof Class I, Division 1
Specifications Fuel Consumption
40 cm³/min | 40 to 45 psig
Specifications Hazardous Area Rating
General Purpose (Division 1 & Division 2 Optional)
Specifications Hydrogen Fuel Requirements
99.99 %
Specifications Linearity
Within 1 % of full scale
Specifications Relays Contact Power
60 W
Specifications Sample Train Material
Hard-Coat Aluminum | Stainless Steel