Online data sheet
A B C D E F H I J K L M N O P Q R S T 15267 14181 certified certified Ordering information Type Part no. On request The exact device specifications and performance data of the product may deviate from the information provided here, and depend on the application in which the product is being used and the relevant customer specifications. Our regional sales organization will help you to select the optimum device configuration. Other models and accessories www.sick.com/gms800_fidor Product description A member of the GMS800 analyzer family, the extractive gas analyzer is ideally suited for emission monitoring according to regulatory requirements (in waste incinerators, cement and/or power plants, for example). Based on the proven flame ionization detection principle, the measures total hydrocarbon concentrations in gases at both trace levels and high concentration levels. The is available in two types: the GMS810 FIDOR with integrated control unit (BCU) and the GMS811 FIDOR with separate control unit (BCU). The housing makes integration into existing systems such as SICK's MCS100 E HW multi-component analyzer very easy. At a glance Standard 19 enclosure for easy integration into all industry-typical systems Nearly maintenance free ejector pump delivers sample gas to the analyzer Integrated catalytic converter (option) provides very clean zero gas Automatic regulation and compensation of process pressure fluctuations Protective filter at sample gas inlet High degree of linearity ( 2 %) for very low and high measuring ranges Your benefits High availability of 99.5 % Convenient remote diagnosis and operation via Ethernet using SOPAS-ET software Minimum maintenance costs due to the absence of moving parts Replacement of complete assemblies and modules makes repairs easy Compatible with predecessor systems Hydrogen as fuel gas, expensive helium is not required Low operating costs, e.g., due to low hydrogen consumption (typical 30 ml/min) The GMS811 FIDOR, on which the control unit (BCU) can be separated from the analyzer unit, supports convenient control and monitoring from a central control room. 2 GAS ANALYZERS SICK Online data sheet 2016-07-25 17:26:28 Subject to change without notice
Fields of application Continuous monitoring of hydrocarbon emissions in raw gas and clean gas Emissions measurement in thermal, catalytic, and biological exhaust gas cleaning systems Measurement of maximum workplace concentrations Process monitoring in process systems Laboratory applications, e.g., in research and development Detailed technical data system Gas flow rate 120 l/h Process temperature +230 C Process pressure Process gas humidity 120 hpa... 120 hpa Relative Non-condensing Ambient temperature +5 C... +40 C Storage temperature 20 C... +70 C Ambient pressure 900 hpa... 1,100 hpa Ambient humidity 95 % Non-condensing Conformities Electrical safety Power supply Auxiliaries Corrective functions Test functions Voltage Frequency Power consumption Instrument air: Fuel gas: Combustion air: Zero gas: Reference gas: Approved for plants requiring approval 2001/80/EC (13. BImSchV) 2000/76/EC (17. BImSchV) 27.BImSchV TA-Luft (Prevention of Air Pollution) EN 15267 EN 14181 MCERTS CE 90... 240 V 47... 63 Hz 450 W Without external heating 1,000 l/h Instrument air: 4.5 ±0.5 bar Typ. 30 ml/min Hydrogen: 5.0 or higher; 3 ±0.2 bar Typ. 250 ml/min Instrument air: 3 ±0.2 bar; measuring ranges below 300 ppm (500 mg/m³) require an internal Or external catalytic converter 500 l/h Instrument air: 3 ±0.2 bar; measuring ranges below 300 ppm (500 mg/m³) require an internal Or external catalytic converter 500 l/h Propane in synthetic air: 75% of measuring range full scale value Adjustment with test gases Extended device diagnosis via SOPAS ET software 2016-07-25 17:26:28 Online data sheet Subject to change without notice GAS ANALYZERS SICK 3
A B C D E F H I J K L M N O P Q R S T GMS810 design Enclosure rating IP 40 Dimensions (W x H x D) Weight Sample gas connections Auxiliary gas connections GMS811 design 19 rack enclosure with 4 rack units, for integration in cabinets 483 mm x 177 mm x 485 mm (for details see dimensional drawings) 17 kg Enclosure rating IP 40 Dimensions (W x H x D) Weight Sample gas connections Auxiliary gas connections FIDOR analyzer module Sample gas inlet: G 1/4 ; G 1/8 double, without antikink; G 1/8 without antikink Exhaust gas outlet: 12 mm straight; 1/2 straight; 10 mm 90 bent Auxilary gas inlet: varies depending on type 19 rack enclosure with 4 rack units, for usage with separate control unit (BCU), for integration in cabinets 483 mm x 177 mm x 352 mm (for details see dimensional drawings) 17 kg Sample gas inlet: G 1/4 ; G 1/8 double, without antikink; G 1/8 without antikink Exhaust gas outlet: G 1/4 ; G 1/8 double, without antikink; G 1/8 without antikink Auxilary gas inlet: varies depending on type Measured values Total hydrocarbon (C org ) Performance-tested measurands Total hydrocarbon (C org ) Measurement principles Gas flow rate Measuring ranges Certified measuring ranges Response time (t 90 ) Sensitivity drift Zero point drift Detection limit Electrical safety BCU control unit Indication Operation Dimensions (W x H x D) C org C org Flame ionization detector for measuring volatile organic components (VOC) Flame ionisation detection 120 l/h 0... 0.6 ppm / 0... 62,000 ppm A flame arrester must be provided by the customer when measuring gas concentrations above the lower explosion limit (LEL) 0... 15 mg/m³ / 0... 50 mg/m³ / 0... 150 mg/m³ / 0... 500 mg/m³ 2.5 s Without sample gas line < 3 % within the maintenance interval, relative to measuring range full scale < 3 % within the maintenance interval, relative to measuring range full scale C org : 0.05 mg/m³ CE The control unit serves as the user interface and is responsible for data processing and output as well as control and monitoring functions. Status LEDs: "Power", "Maintenance" and "Failure" LC display Via LC display and membrane keyboard 375 mm x 275 mm x 66 mm (for separat BCU control unit, for details see dimensional drawings) 4 GAS ANALYZERS SICK Online data sheet 2016-07-25 17:26:28 Subject to change without notice
I/O module Analog outputs Analog inputs Digital inputs Closed module with top-hat rail adapter or module for integration into enclosures 4 outputs: 0/2/4... 20 ma, 500 Ω Electrically isolated 2 inputs: 0/2/4... 20 ma, 500 Ω Not electrically isolated 8 inputs: 42 V All inlets with common reference potential Interfaces and bus protocols Ethernet Ethernet Ethernet RS-485 Modbus TCP OPC SOPAS ET Modbus RTU Dimensional drawings (Dimensions in mm (inch)) GMS810 FIDOR 483 (19.02) 465 (18.31) 263.8 (11.39) 213.8 (8.42) 37.8 (1.49) 177 (6.97) 101.5 (4.00) 442 (17.40) 42 (1.65) 485 (19.09) 392 (15.43) 348 (13.70) 120 (4.72) 174.5 (6.87) 62 (2.44) 135 1 On the GMS810 FIDOR, the sample gas inlet can be located on the rear or on the side (shown in light gray). 2016-07-25 17:26:28 Online data sheet Subject to change without notice GAS ANALYZERS SICK 5
A B C D E F GMS811 FIDOR 177 (6.97) 101.5 (4.00) 37.8 (1.49) 483 (19.02) 465 (18.31) 174.5 (6.87) 50 (1.97) 62 (2.44) 267.8 (10.54) 217.8 (8.57) H I J K L M N O P Q R S T 352 (13.86) 1 On the GMS811 FIDOR, the sample gas inlet can be located on the side or on the rear (shown in light gray). BCU control unit 275 (10.83) 66 (2.60) 120 135 375 (14.76) 250 (9.84) 250 (9.84) 105.5 (4.15) 170.5 (6.71) 6 GAS ANALYZERS SICK Online data sheet 2016-07-25 17:26:28 Ø 4.5 (.18) Subject to change without notice
Connection types Sample gas inlet on the rear 1 Ethernet 2 CAN 3 Line connection 4 Instrument air 5 Combustion air 6 Fuel gas 7 Zero gas 8 Reference gas 9 Test gas outlet 10 External heating 11 Exhaust gas outlet 12 Sample gas inlet 13 I/O module Sample gas inlet on the side 1 Ethernet 2 CAN 3 Line connection 4 Instrument air 5 Combustion air 6 Fuel gas 7 Zero gas 8 Reference gas 9 Test gas outlet 10 External heating 11 Exhaust gas outlet 12 Sample gas inlet 13 I/O module 2016-07-25 17:26:28 Online data sheet Subject to change without notice GAS ANALYZERS SICK 7
Online data sheet SICK at a glance SICK is one of the leading manufacturers of intelligent sensors and sensor solutions for industrial applications. A unique range of products and services creates the perfect basis for controlling processes securely and efficiently, protecting individuals from accidents and preventing damage to the environment. We have extensive experience in a wide range of industries and understand their processes and requirements. With intelligent sensors, we can deliver exactly what our customers need. In application centers in Europe, Asia and North America, system solutions are tested and optimized in accordance with customer specifications. All this makes us a reliable supplier and development partner. Comprehensive services complete our offering: SICK LifeTime Services provide support throughout the machine life cycle and ensure safety and productivity. For us, that is Sensor Intelligence. Worldwide presence: Contacts and other locations www.sick.com SICK AG Waldkirch Germany www.sick.com