GasSecure AS GS01AA Wireless gas detector User Manual GasSecure GS01 Hardware Manual

GasSecure AS Wireless gas detector GasSecure GS01 Hardware Manual

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GasSecure GS01 and GS01-EA Wireless Infrared Hydrocarbon Gas Detector User Manual (For firmware version ≥ 3.3) Document ID: 112464 Contact info Release: 9 GasSecure AS Version: 145 Hoffsveien 70 C Doc. Status: APPROVED N-0377 Oslo Last modified: 26.04.2017 Norway www.gassecure.com post@gassecure.com

GasSecure GS01 Hardware Manual I Note Those who have or will have the responsibility for the operation or maintenance of this product must carefully read this manual. The product may not perform as designed if it is not used and maintained in accordance with the manufacturer’s instructions. Please read the complete manual and particularly note the paragraphs having an exclamation mark in the margin. This manual covers installation, operation and maintenance of the GS01 wireless hydrocarbon detector and its battery pack. The product warranty issued by GasSecure is voided if the product is not used and maintained as described in this manual. Please read also the safety instructions in Section 6.  GasSecure AS, all rights reserved.

GasSecure GS01 Hardware Manual II PRODUCT DATA Manufacturer GasSecure AS Country of origin Norway Models GS01, GS01-EA Gases Hydrocarbons Range Methane configuration 0 – 100% LEL Range Propane configuration 0 – 80% LEL Environmental conditions Operating temperature -30oC to +55oC Humidity 0 to 90 RH1 non-condensing Pressure influence, 700 – 1300 hPa2 ≤ 0.15% of reading per hPa (at 50% LEL) Protection classification IP 66 and IP 67 3 Storage temperature -40oC to +65oC Storage pressure 700 to 1300 hPa Electrical RF output power GS01 ≤ 12 dBm EIRP RF output power GS01-EA ≤ 16 dBm EIRP Battery type Lithium-Thionyl Chloride Battery cells Tadiran SL-2780/S or TL-5930/S Average power 5 mW Explosion Protection II 2G Ex ib IIC T4 Gb -30oC to +55oC Intrinsic safety temperature -40oC to +65oC Gas performance temperature -30oC to +55oC 1 The manufacturer verified conditions are 0-100% RH and condensing. 2 Applies only for Methane configuration and outside the pressure range 850 – 1150 hPa: The process value (PV) must be replaced with the adjusted process value PVadj. PVadj is calculated by the controller with the measured atmospheric pressure as input according to formula( )PVPV ppadj5.10−=, where p is the measured pressure and p0 is the standard atmospheric pressure (101 kPa). Pressure p must be measured with +/-10 kPa accuracy. 3 IP ratings do not imply that the equipment will detect gas during exposure to those conditions.

GasSecure GS01 Hardware Manual III TABLE OF CONTENTS 1. PRODUCT DESCRIPTION ........................................................................................................5 1.1 GENERAL .................................................................................................................................5 1.2 MEASURING PRINCIPLE .............................................................................................................5 1.3 INSTRUMENT DESCRIPTION ........................................................................................................6 1.4 BATTERY ..................................................................................................................................6 1.5 OUTLINE DIMENSIONS ...............................................................................................................6 2. INSTALLATION ..........................................................................................................................9 2.1 TOOLS .....................................................................................................................................9 2.2 MOUNTING ...............................................................................................................................9 2.3 GROUNDING ...........................................................................................................................10 2.4 SUN SHADE / WEATHER PROTECTION .......................................................................................10 2.5 EXTERNAL ANTENNA (APPLIES ONLY FOR GS01-EA) ................................................................10 3. COMMISSIONING ....................................................................................................................12 3.1 COMMUNICATION ....................................................................................................................12 3.2 ISA100 WIRELESS™ STANDARD .............................................................................................12 3.3 ISA100 OBJECTS ....................................................................................................................12 3.4 GS01 DATA FORMAT DETAILS ..................................................................................................14 3.5 MODIFICATION OF LEL ............................................................................................................14 3.6 COMMUNICATION MONITORING ................................................................................................15 3.7 GS01 DETECTOR PROVISIONING .............................................................................................15 3.8 MODIFICATIONS TO AN EXISTING NETWORK ..............................................................................18 3.9 VISUAL AND FUNCTIONAL CHECK .............................................................................................19 4. OPERATION .............................................................................................................................20 4.1 NORMAL OPERATION ...............................................................................................................20 4.2 PROOF TEST (VALIDATION)......................................................................................................20 5. MAINTENANCE .......................................................................................................................22 5.1 ROUTINE MAINTENANCE ..........................................................................................................22 5.2 SPARE PARTS AND ACCESSORIES ............................................................................................22 5.3 CLEANING ..............................................................................................................................23 5.4 BATTERY PACK .......................................................................................................................23 5.5 STORAGE ...............................................................................................................................26 5.6 TROUBLESHOOTING ................................................................................................................26 5.7 CONTACT GASSECURE FOR SUPPORT .....................................................................................27 6. SAFETY INSTRUCTIONS ........................................................................................................29 7. CERTIFICATIONS AND STANDARDS ....................................................................................30 7.1 STANDARDS ...........................................................................................................................30 7.2 REGULATORY COMPLIANCE OF RADIO FOR GS01 .....................................................................31 7.3 MARKING ...............................................................................................................................31 8. TECHNICAL DATA ..................................................................................................................35 8.1 PERFORMANCE CHARACTERISTICS ..........................................................................................35 8.2 CROSS SENSITIVITIES .............................................................................................................36 9. REFERENCES .........................................................................................................................38 10. APPENDIX ...........................................................................................................................39

GasSecure GS01 Hardware Manual IV FIGURES FIGURE 1-1: GS01 DETECTOR LAYOUT................................................................................................................ 6 FIGURE 1-2: GS01 DETECTOR WITH DIMENSIONS IN [MM] ................................................................................... 7 FIGURE 1-3: GS01-EA DETECTOR WITH DIMENSIONS IN [MM] ............................................................................ 8 FIGURE 1-4: GS01 MEASURING CELL DETAILS ..................................................................................................... 8 FIGURE 2-1: CORRECT POSITION OF THE WEATHER CAP AND LOCATION OF EARTH POINT. ................................. 10 FIGURE 2-2: GS01-EA LAYOUT WITH ANTENNA CONNECTIONS ........................................................................ 11 FIGURE 3-1: GS01 CONFIGURATOR ................................................................................................................... 17 FIGURE 5-1: BATTERY PACK WARNING LABEL ................................................................................................... 24 FIGURE 5-2: BATTERY PACK BOTTOM VIEW ...................................................................................................... 25 FIGURE 5-3: BATTERY PACK TOP AND BOTTOM ................................................................................................. 25 FIGURE 7-1: GS01 PRODUCT IDENTIFICATION PLATE ......................................................................................... 31 FIGURE 7-2: GS01-EA PRODUCT IDENTIFICATION PLATE .................................................................................. 32 FIGURE 7-3: GS01 PRODUCT IDENTIFICATION PLATE – FM APPROVED .............................................................. 32 FIGURE 7-4: GS01-EA PRODUCT IDENTIFICATION PLATE – FM APPROVED ....................................................... 32 FIGURE 7-5: FCC COMPLIANCE LABEL .............................................................................................................. 33 FIGURE 7-6: BATTERY PACK IDENTIFICATION LABEL (FM APPROVED VERSION TO THE RIGHT) ......................... 34 FIGURE 7-7: ANTENNA IDENTIFICATION LABEL (FM APPROVED VERSION TO THE RIGHT) .................................. 34 FIGURE 10-1: EU DECLARATION OF CONFORMITY FOR GS01 AND GS01-EA ................................................... 42 TABLES TABLE 2-1: PROPERTIES OF STANDARD ANTENNA CABLE FOR THE GS01-EA ................................................... 11 TABLE 3-1: ISA100 OBJECTS ............................................................................................................................ 13 TABLE 3-2: LEL VALUES IN [% VOL] ACCORDING TO IEC AND NIOSH ............................................................ 14 TABLE 3-3: PV GAS MEASUREMENT DATA INTEGRITY ...................................................................................... 15 TABLE 4-1: RECOMMENDED GAS CONCENTRATIONS FOR VALIDATION .............................................................. 21 TABLE 5-1: IMPORTANT SPARE PARTS AND ACCESSORIES FOR THE GS01 ......................................................... 22 TABLE 5-2: STATUS MESSAGES RETRIEVED FROM THE DIAG_STATUS ATTRIBUTE ............................................ 27 TABLE 7-1: LIST OF APPLICABLE STANDARDS FOR THE GS01 ............................................................................ 30 TABLE 8-1: PERFORMANCE CHARACTERISTICS FOR THE GS01.......................................................................... 35 TABLE 8-2: LEL VALUES IN [% VOL] ACCORDING TO IEC60079-20. ................................................................ 36 TABLE 8-3: CROSS SENSITIVITIES FOR A GS01 METHANE DETECTOR. ............................................................... 36 TABLE 8-4: CROSS SENSITIVITIES FOR A GS01 PROPANE DETECTOR. ................................................................ 36 TABLE 8-5: LEL VALUES IN [% VOL] ACCORDING TO NIOSH. .......................................................................... 36 TABLE 8-6: CROSS SENSITIVITIES FOR A GS01 METHANE DETECTOR. ............................................................... 37 TABLE 8-7: CROSS SENSITIVITIES FOR A GS01 PROPANE DETECTOR. ................................................................ 37 TABLE 10-1: PV_STATUS BYTE DESCRIPTION ACCORDING TO ISA100 WIRELESS™ STANDARD....................... 39 TABLE 10-2: CONTENT OF THE DIAG_STATUS ATTRIBUTE ............................................................................ 39

GasSecure GS01 Hardware Manual DESCRIPTION 5 1. PRODUCT DESCRIPTION 1.1 General The GS01 is a wireless, battery powered point detector that monitors the concentration of hydrocarbon gases. It uses a combination of two sensors: 1. An ultrasonic speed-of-sound sensor that continuously monitors changes in the ambient air composition. 2. An optical (infrared) absorption sensor that is used for accurate measurements of the hydrocarbon gas concentration. The infrared sensor uses more power than the ultrasonic and is therefore kept in watch mode if the ultrasonic sensor does not detect any changes in the air composition. The infrared sensor applies optical MEMS (micro electromechanical system) technology to enable intermittent operation with fast start-up and measurement, and thus very low average battery consumption. The measured gas concentration is transmitted wireless using the ISA100 Wireless™ standard. This manual does not cover the wireless router or gateway and the connected control system (please refer to the list of references in Section 9 providing examples of relevant documentation). The detector is intrinsically safe, with equipment protection level Gb (Ex ib) (see Section 7) intended for use in zone 1 and 2 areas. Two models are available of this gas detector: - GS01 with fixed antenna - GS01-EA with extended antenna All information in this manual for the GS01 also applies for the GS01-EA unless explicitly otherwise noted. 1.2 Measuring principle The GS01 detector utilises infrared absorption spectroscopy. The fundament is the Beer-Lambert Law, which relates the absorption of light to the properties of the material through which the light is travelling. The internal radiation source emits infrared radiation through a lens and a sapphire window into the measuring cell (cf. Figure 1-1 and Figure 1-4). A mirror at the opposite end of this cell returns the beam back through the sapphire window into the internal volume of the detector and onto a filter that disperses, focuses, and modulates the incident light. This filter is a patented silicon MEMS component proprietary to GasSecure. By applying a control voltage to the MEMS chip it is switched between the so-called gas state and the reference state. In the gas state a wavelength where hydrocarbons do absorb light is focused onto the detector, whereas two

GasSecure GS01 Hardware Manual 6 CHAPTER 1 wavelengths where hydrocarbons do not absorb are focused onto the detector in the reference state. The GS01 detector uses the same light source, light path and photodetector for both measurements. This single beam, triple wavelength detection is unique to the GS01 from GasSecure. 1.3 Instrument description The GS01 consists of the main housing (316L stainless steel) with mounting bracket, the measuring cell, an antenna (note that the GS01-EA features an antenna connector instead), and the battery compartment (cf. Figure 1-1). Attached to the main housing are the following detachable parts: • Weather cap (Polyamide 6) • Battery cap (Polyamide 6) • Battery package (Polyamide 6) Except for these detachable parts, the user shall not disassemble the sensor any further. When the weather cap is removed, the infrared measuring cell with the sapphire window on the main housing and the mirror at the outer end, is open and accessible for cleaning. The ultrasonic sensor is protected by a perforated steel sheet, which shall not be removed. 1.4 Battery The GS01 may only be used with the GasSecure battery pack (Part number 10055). The battery pack is designed for two Lithium-Thionyl Chloride size D cells in series, and has a nominal output voltage of 7.2V. The battery pack has an internal charge counter. The battery pack is intrinsically safe (see Section 7). 1.5 Outline dimensions Figure 1-1 shows the sensor buildup with an exploded drawing. Figure 1-2 and Figure 1-3 depict the GS01 and GS01-EA dimensions, respectively. Figure 1-1: GS01 detector layout with A) Weather cap, B) Measuring cell, C) Mounting bracket, D) Antenna, E) Stainless steel housing, F) Battery compartment, G) Battery pack, H) Battery cap

GasSecure GS01 Hardware Manual DESCRIPTION 7 Figure 1-2: GS01 detector with dimensions in [mm]

GasSecure GS01 Hardware Manual 8 CHAPTER 1 Figure 1-3: GS01-EA detector with dimensions in [mm] Figure 1-4: GS01 measuring cell details showing A) External mirror, B) Infrared beam path, C) Sapphire window, D) Ultrasonic sensor with protective sheet

GasSecure GS01 Hardware Manual INSTALLATION 9 2. INSTALLATION Note: The GS01 gas detector certification must comply with the legal requirements following the area classification at the installation point. The detector shall be installed where it is most likely to detect gas in the event of a leakage. For battery pack installation see Section 5.4. In areas with significant exposure to direct sunlight and the risk of temperatures beyond the operating temperature range, a sunshade should be considered (see list of spare parts in Table 5-1). 2.1 Tools The following tools are needed to install the instrument: • Open-end spanner for M8 bolts (alternatively 5/16” bolts) • Face spanner with two pins in size 75x6 (distance x pin diameter) as optional tool to remove the battery cap • Torx screwdriver T10 for battery cell replacement (cf. Section 5.4.2) 2.2 Mounting The detector is mounted with its long axis horizontally. For the standard GS01 make sure, to the extent possible, that the antenna is vertical (pointing up or down) and that local radio shadowing is kept at a minimum. The GS01-EA may be mounted in any horizontal orientation. Two M8 bolts (alternatively 5/16” bolts) with washers under the head are used to attach the bracket. The bolts should be spaced from 85 to 95 mm to easily fit the slots when mounting the detector. The weather cap must be mounted with the arrow on the cap pointing upwards, regardless if the antenna is pointing up or down (cf. Figure 2-1). If possible, mount the GS01 with the weather cap oriented away from the prevailing wind direction. Do not use the GS01 detector in ventilation ducts or pipes. Do not mount the detector directly above hot or cold surfaces. If the detector is mounted inside metallic structures or enclosures the GS01 detector with extended antenna (GS01-EA) should be considered.

GasSecure GS01 Hardware Manual 10 CHAPTER 2 2.3 Grounding The detector housing must be connected to ground for operation in hazardous areas. This to avoid possible static charge build-up, which may arise from electrically isolated metal parts. Ground the detector either by mounting it on a grounded metallic structure or by connecting a grounded wire to the screw holes in the mounting bracket (cf. Figure 2-1).The resistance to ground must be less than 1 GOhm. 2.4 Sun shade / weather protection The sunshade is available as optional accessory and recommended for locations with high ambient temperature and / or direct sunlight exposure. It may also be used as weather protection for instance in locations with frequent heavy precipitation. The shade is fixed to the gas detector bracket with the same M8 (or 5/16”) bolts, which are used for detector mounting. Make sure that the sunshade is mounted the correct way so that the detector identification plate remains visible. Figure 2-1: Correct position of the weather cap and location of earth point. The arrow must always point up regardless of the detector orientation. 2.5 External antenna (applies only for GS01-EA) The external antenna is connected to the detector with the antenna cable as shown in Figure 2-2. The properties of the antenna cable supplied by GasSecure are shown in Table 2-1. The GS01-EA detector is certified with the coaxial cable and the omni-directional antenna in Table 5-1. Note that the approved cable length range is 0-30 m. Do not connect any other antennas than those listed in Table 5-1. The external antenna is delivered with a bracket (refer to Reference [10] for bracket dimensions) and metal bands for easy fitting to a pole (25 – 101 mm) or External earth point

GasSecure GS01 Hardware Manual INSTALLATION 11 similar. Make sure, to the extent possible, that the antenna is mounted vertical (pointing up or down) and that local radio shadowing is kept at a minimum. Please read also the safety instructions in Section 6. Table 2-1: Properties of standard antenna cable for the GS01-EA Loss/m at 2.5 GHz [dB] Diameter [mm] Bend radius [mm] Weight per m [g] 0.21 10.3 100 115 Figure 2-2: GS01-EA layout with antenna connectionsOmni-directional antenna N-type connector Antenna cable Housing N-type connector

GasSecure GS01 Hardware Manual 12 CHAPTER 3 3. COMMISSIONING The GS01 detector(s) is (are) set up in a wireless sensor network with a gateway and router. The exact commissioning procedure depends on the selected type of gateway. Therefore, this manual must be used together with the relevant documentation written for the respective gateway. Some references for such documentation are provided in Section 9. On completion of commissioning, the proof test, as described in Section 4.2, should be executed to validate the correct mapping of the detector output data. 3.1 Communication The GS01 detector complies with the ISA100 Wireless™ standard for wireless communication. Each GS01 detector must be paired with a single gateway, before it can communicate with the network. The gateway is the interface between the wireless and plant networks. It marks the transition between communications compliant to the standard and other communications, and acts as a translator between ISA100 Wireless™ and other protocols (Modbus, PROFINET, etc.). The pairing process, where the device obtains the appropriate security credentials and network-specific information, is referred to as provisioning and is explained in Section 3.7. 3.2 ISA100 Wireless™ standard ISA100 Wireless™ is a wireless networking technology standard developed by the International Society of Automation (ISA). This ISA standard is intended to provide reliable and secure wireless operation for safety, control, and monitoring applications. This standard defines the protocol suite, system management, gateway, and security specifications for low-data-rate wireless connectivity with fixed, portable, and moving field devices supporting very limited power consumption requirements. The application focus is to address the performance needs for periodic monitoring and process control where latencies on the order of 100 ms can be tolerated with optional behaviour for shorter latency. 3.3 ISA100 objects ISA100.11a defines a communication protocol, with an application layer that includes a simple but extensible set of input and output objects. The GS01 detector publishes the measured values and diagnostic information as ISA100 objects with attributes. It is distinguished between standard attributes and GS01 device specific attributes. 3.3.1 Standard objects The GS01 publishes ISA100 standard objects with attributes for process value and diagnostic status as outlined in Table 3-1 below. The gas measurement value

GasSecure GS01 Hardware Manual COMMISSIONING 13 is sent as User Application - Analog Input Object with the attribute “Process Value” (PV). Note that the user may choose which gas configuration to read out by selecting the corresponding PV object (Methane or Propane) for publication. The device health information is compiled and sent as User Application Management Object with the attribute “Diagnostic Status” (DIAG_STATUS). The concentrator of the gas detector is per default set up to publish the gas measurement and the diagnostic status. The concentrator can be configured differently in the gateway interface. For short detector response time (<5 sec as per GS01 datasheet), the gateway must be set up with a 2 sec sampling interval (also referred to as publication period). In the absence of hydrocarbon gas, the detector will not publish on all available time slots, but per default only publish on every 6th time in order to save battery power. In the presence of hydrocarbon gas of sufficient concentration (defined by the internal low alarm limit see Table 8-1), all time slots will be used. Table 3-1: ISA100 objects Descriptive name Access-ibility Octet no. Content Modbus input registers Data type PV (Methane or Propane) READ 1 PV_Status Register N UINT 16 bit 2 PV_Value (1/4) Register N+1 32 bit (4 octets) float, according to IEEE 754_Float32 3 PV_Value (2/4) 4 PV_Value (3/4) Register N+2 5 PV_Value (4/4) DIAG_STATUS READ 1 Diag_Status (1/4) Register M UINT 16 bit 2 Diag_Status (2/4) 3 Diag_Status (3/4) Register M+1 4 Diag_Status (4/4) The content of the PV_Status byte (PV = process value) is explained in Table 10-1 in the Appendix. The full mapping of the content of the DIAG_STATUS attribute is explained in Table 10-2 in the Appendix. Note that a controller is required to display the diagnostic information including fault or alarm conditions. Recommendations for which status and diagnostic information to integrate in the control and maintenance loop are also provided in the Appendix. 3.3.2 GS01 specific objects for safe communication In addition to the standard objects, the GS01 can be configured to publish and subscribe to the custom data object “SafeData”. This object is used for safe

GasSecure GS01 Hardware Manual COMMISSIONING 15 3.6 Communication monitoring The PV_Status byte (see Table 3-1) can be used for monitoring the communication status and the data integrity. See Table 10-1 in the Appendix for all details. With no error present (e.g. beam block or critical low power) and the detector communicating with the gateway, the status byte will be decimal value 64 or higher; please refer to Table 3-3 below for the three main classes of data integrity. The status byte is updated by the gateway if the communication with the detector is lost. The time from reception of the last packet and until the status byte is updated to flag “lost communication” is defined via the stale limit parameter. Please consult the gateway manual for information about setting this stale limit. GasSecure’s recommendation is a sampling interval of 2 sec (see Section 3.3.1) together with a stale limit of 30 times, so that “lost communication” is flagged after maximum 60 sec. Under no circumstances the stale limit must be set to less than 6, because this would disable communication between detector and gateway. Note that the timeout, as defined by the stale limit, can be checked by removing the battery and monitoring the time until the PV_Status byte is updated. Table 3-3: PV Gas measurement data integrity Data integrity Octet decimal number Explanation and actions Bad < 64 No communication or hardware failure. Check communication. Contact GasSecure if this failure persists. Uncertain 64 to 127 The integrity of the data is uncertain. As example, the sensor range or temperature range may be exceeded. Good = 128 Normal operation. The detector is providing reliable gas measurements. 3.7 GS01 detector provisioning All GS01 detectors have to be provisioned so that they will join the correct network. Provisioning the GS01 requires the following: • The GS01 serial adapter together with the GS01 Configurator software (both accessories from GasSecure) • FTDI virtual comport driver for the GS01 serial adapter • The network (or subnet) ID of the gateway or backbone router • For Yokogawa gateway only: A Capability File (CF) for the GS01 device.

GasSecure GS01 Hardware Manual 16 CHAPTER 3 Software tools, drivers, and files (e.g. CF) are available for download at http://tools.gassecure.com. This procedure can be carried out with an unprovisioned GS01 or with a GS01 that earlier has been provisioned to another gateway. 3.7.1 Yokogawa gateways a) Connect the GS01 to a PC with the GS01 Configurator installed using the GS01 serial adapter. b) Run the GS01 Configurator and select the correct COM port. Keep the default mode “Provision one GS01 device”. Press the “Connect” button and verify that the device information is displayed, cf. Figure 3-1. Press the “Read version info” button if the device information does not show automatically. Press the “Read” button so that the current provisioning status of the device is displayed. c) Enter the device tag and the required network ID in decimal format, cf. Figure 3-1. d) For the join key there are two options. i. Specific (user-defined) join key: Type a 32-bit hexadecimal number in the “join key” field. ii. Generate a random join key: Press the “Generate random join key” button. e) Check and set the LEL category to either IEC or NIOSH as defined in Table 3-2. f) Check the destination folder for the ypif file and change it by pressing the “...” button if necessary. Press the “Generate ypif file” button. This file must be uploaded to the gateway (explained in reference [RD 4]) to enable communication. Press the “Apply” button (do not make any changes to the provisioning input data between pressing the two buttons!). g) Close and exit the GS01 Configurator and disconnect the GS01 detector from the PC. h) Power up the GS01 by inserting the battery pack. i) The GS01 device should join the network within 5-20 minutes, if it is within radio distance to the gateway and the gateway is set up properly (refer to reference [RD 4]). If the gateway is out of radio range, the GS01 device will try to connect for a period of 60 min and then enter a power-saving mode. In this mode it will try to connect for a 5 min period once per hour.

GasSecure GS01 Hardware Manual COMMISSIONING 17 Figure 3-1: GS01 Configurator 3.7.2 Nivis gateway VR800/900 a) Connect the GS01 to a PC with the GS01 Configurator tool installed using the GS01 serial adapter. b) Run the GS01 Configurator and select the correct COM port. Keep the default mode “Provision one GS01 device”. Press the “Connect” button and verify that the device information is displayed, cf. Figure 3-1. Press the “Read version info” button if the device information does not show automatically. Press the “Read” button so that the current provisioning status of the device is displayed as well. c) Enter the device tag and the required network ID in decimal format, cf. Figure 3-1. d) For the join key there are two options. i. Specific (user-defined) join key: Type a 32-bit hexadecimal number in the “join key” field. ii. Generate a random join key: Select “randomize join key”. Press the “Generate random join key” button. Note down the join key. It is needed for configuring the Nivis gateway. e) Check and set the LEL category to either IEC or NIOSH as defined in Table 3-2. f) Press the “Apply” button. g) Close and exit the GS01 Configurator and disconnect the GS01 detector from the PC.

GasSecure GS01 Hardware Manual 18 CHAPTER 3 h) Power up the GS01 by inserting the battery pack. i) The GS01 device should join the network within 5-20 minutes, if it is within radio distance to the gateway and the gateway is set up properly. If the gateway is out of radio range, the GS01 device will try to connect for a period of 60 min and then enter a power-saving mode. In this mode it will try to connect for a 5 min period once per hour. 3.7.3 Over the air (OTA) provisioning a) Connect the GS01 to a PC with the GS01 Configurator installed using the GS01 serial adapter. b) Run the GS01 Configurator and select the correct COM port. Keep the default mode “Provision one GS01 device”. Press the “Connect” button and verify that the device information is displayed, cf. Figure 3-1. Press the “Read version info” button if the device information does not show automatically. Press the “Read” button so that the current provisioning status of the device is displayed. c) Press the “Reset radio to factory defaults” button. d) Close and exit the GS01 Configurator and disconnect the GS01 detector from the PC. e) Power up the GS01 by inserting the battery pack. f) The GS01 can now be provisioned over the air (OTA) using either special field tools or the field wireless access points. Refer to references [RD3], [RD6] or [RD 8] for possible solutions from different vendors. 3.8 Modifications to an existing network 1. Add a detector Provision the GS01 as described in Section 3.7. Mount the GS01 with battery. Re-configure the gateway to accommodate the additional detector(s) (cf. Section 9 for gateway relevant documentation). 2. Replace a detector Power down the GS01 in question by removing its battery. Provision the replacement GS01 by following all steps in Section 3.7. Mount the replacement GS01 with battery. Re-configure the gateway to accommodate the replacement detector(s) (cf. Section 9 for gateway relevant documentation). 3. Remove a detector Power down the GS01 in question by removing its battery pack. Optional: Re-configure the gateway in order to remove the detector from the list of publishers (cf. Section 9 for gateway relevant documentation).

GasSecure GS01 Hardware Manual COMMISSIONING 19 3.9 Visual and functional check The following activities are recommended before putting into operation the GS01 detector: • The axis of the detector shall be horizontal. • Verify the correct orientation of the weather cap (cf. Figure 2-1). • Check that all bolts and screws are securely tightened. • Carry out a validation as described in Section 4.2. • It is moreover recommended to read the procedures described in IEC 60079-29-2 for reference.

GasSecure GS01 Hardware Manual 20 CHAPTER 4 4. OPERATION The GS01 has no user adjustable parts. Do not open the instrument. Opening the GS01 detector voids the warranty issued by the manufacturer. 4.1 Normal operation After provisioning the GS01 detector with an ISA100 Wireless™ gateway, it will perform the following tasks: • Measure gas concentration • Publish gas concentration to the gateway • Publish other diagnostic information to the gateway 4.2 Proof test (Validation) Referring to Section 3.5, note that the GS01 is set to detect gas on a % LEL scale either according to IEC60079-20 or to NIOSH. Although no re-calibration of the GS01 is necessary, it is recommended to check the response of the detector at least every second year by applying pressurized test gas. The weather cap is designed for validation, as it includes a 6 mm diameter tube fitting for efficiently filling the GS01 measuring cell with a test gas mixture. Note however that the test gas will leak out during testing and leakage will depend on the wind speed. Therefore, the measured gas concentration is normally lower than stated on the test gas cylinder. It is not recommended to carry out validation in stronger wind, or alternatively the weather cap has to be covered on the outside for example by applying tape to the openings. The function of the detector is positively validated as long as it responds to the test gas. Please refer to Table 4-1 for the recommended gas mixtures and expected instrument readings. Apply the test gas through a 6 mm tube from a gas cylinder with pressure regulator. It is recommended to adjust the flow to at least 5 L/min.

GasSecure GS01 Hardware Manual MAINTENANCE 21 Table 4-1: Recommended gas concentrations for validation Detector version and LEL category Recommended test gas Expected reading Methane, IEC Methane 2.2 % vol in synthetic air Or alt. 2.5 % vol in synth. air 50 % LEL 57 % LEL Propane, IEC Propane 0.42 % vol in synthetic air Or alt 1.0 % vol in synth. air 25 % LEL 59 % LEL Methane, NIOSH Methane 2.5 % vol in synthetic air 50 % LEL Propane, NIOSH Propane 0.42 % vol in synthetic air Or alt 1.0 % vol in synth. air 20 % LEL 48 % LEL

GasSecure GS01 Hardware Manual 22 CHAPTER 5 5. MAINTENANCE The GS01 detector is designed for minimum maintenance. The instrument does not have user adjustable parts. Do not attempt to open or disassemble the instrument. This can compromise safety and performance. Opening the GS01 voids the warranty issued by the manufacturer. All repairs have to be done by the manufacturer or by an authorised dealer. 5.1 Routine maintenance For best performance it is recommended to routinely carry out the following steps: • Clean the window and mirror when necessary (see Section 5.3 below). The optical transmission of the infrared sensor maybe monitored with the DIAG_STATUS attribute explained in Table 5-2 and Table 10-2. • Check the weather cap regularly to make sure it is not clogged (see Section 5.3 below). • Check battery status regularly. Replace low batteries in due time (see Section 5.4 below). The battery status maybe monitored with the DIAG_STATUS attribute explained in Table 5-2 and Table 10-2. • Check the detector response at least every second year (see Section 4.2). 5.2 Spare parts and accessories Table 5-1: Important spare parts and accessories for the GS01 Description GasSecure p/n Dräger p/n Battery pack 10055 AL20712 O-ring for battery compartment 30410 -- Weather cap 10078 AL20709 Battery cap 10022 AL20708 Sunshade 10123 AL20711 GS01 serial adapter 10156 AL20710 6 dBi antenna (only for GS01-EA) 10204 AL20718 Standard antenna cable for GS01-EA, 5m 10200-5 AL20719

GasSecure GS01 Hardware Manual MAINTENANCE 23 5.3 Cleaning In the event of low or blocked optical transmission of the IR sensor, the optical window and external mirror (see Figure 1-4 for their exact location) should be cleaned. Please proceed as follows: • Remove battery to avoid unwanted alarms while cleaning. • Use soft tissue or a cotton swab and a lens cleaning fluid based on pure water and isopropyl alcohol (IPA) and/or other alcohols. • Flush or wipe with pure water afterwards, and dry off with a soft dry tissue. • Reinstall the battery. • Note that gas alarms are likely to occur during and shortly after cleaning due to the detector’s sensitivity to alcohol. This is avoided by removing the battery while cleaning. • Other cleaning agents are not recommended, but if lens cleaning fluid or IPA is not available, a diluted dishwasher detergent may be used if followed by a thorough flushing with pure water. Dry off any remaining water droplets. The inside of the ultrasonic sensor does not need cleaning. If the perforated sheet is clogged with dirt, clean compressed air may be used for removal. If the detector is installed in an area where the weather cap may become clogged (for instance by insects, leaves, ice or snow), it is recommended that this cap is inspected regularly to make sure that air flows freely through the openings. 5.4 Battery pack Note that the GS01 may only be operated with the GasSecure battery pack (p/n 10055). 5.4.1 Battery pack replacement The battery pack is installed or replaced simply by twisting off the battery cap, pulling out the old pack, pushing the new one in place, and putting back the cap. Make sure that the O-ring fits and tightens on the entire circumference of the battery compartment. The battery pack will only fit one way, so that correct polarity is ensured. After inserting the battery pack, it may take up to 15 minutes before the detector is transmitting data, depending on how the network is set up. 5.4.2 Battery cell replacement The battery cells in the battery pack can be replaced. Assemble the battery pack as described below. Caution! Only use battery packs that

GasSecure GS01 Hardware Manual 24 CHAPTER 5 • are designed for battery cell replacement. They will contain the label depicted in Figure 5-1. Battery packs without this label may not be opened. • are clean and free of contamination. • are visually intact (particularly no damage around the screw holes). • have no visible corrosion on the terminal contacts. Use only the following approved battery cells in the battery pack: • Tadiran model no. SL-2780/S • Tadiran model no. TL-5930/S Battery cell replacement and opening the battery pack must take place in a safe area, where a potential explosive atmosphere is not present. Figure 5-1: Battery pack warning label Replacement: • Loosen the two battery pack mounting screws (Torx T10), see Figure 5-2. Note that the spring force is high, have therefore a firm grip around the pack while unscrewing. • Remove both used cells and dispose according to the battery cell safety datasheet (see Section 5.4.3 for more information). Do not disassemble the battery pack any further. • Verify that new cells are of the correct type (see above). Be sure to replace both battery cells at the same time and only use fresh (previously unused) cells. • Place both battery cells in the battery pack, leaf contact facing the positive (+) terminal and spring contact facing the negative (-) terminal, cf. Figure 5-3. • Assemble lid and bottom of the pack by tightening the two screws (Torx T10) with a torque of approximately 0.7 Nm. Have a firm grip around the pack until the screws are tight. • Press the button on the pack, see Figure 5-2 (the button is located behind a hole in the pack and accessible with the tip of a pen). This will indicate to the gas detector that fresh batteries are in place and re-set the charge counter. Note that only gas detectors with firmware 3.0 or later will recognize this button operation. Please contact GasSecure should the detector in question contain an older firmware version or should you be uncertain about the firmware of this detector.

GasSecure GS01 Hardware Manual MAINTENANCE 25 Figure 5-2: Battery pack bottom view Figure 5-3: Battery pack top and bottom with leaf and spring contacts facing the battery positive (+) and negative (-) terminal, respectively. Mounting screws Re-set button location

GasSecure GS01 Hardware Manual 26 CHAPTER 5 5.4.3 Handling battery packs and cells The battery pack comprises two primary lithium thionyl chloride battery cells. Under normal conditions, the battery materials are self-contained and are not reactive as long as the battery cell and pack integrity are maintained. Care should be taken to prevent thermal, electrical or mechanical damage. Protect the electrode of the battery cells to avoid short circuits. Shorted battery cells may leak fluid and produce excessive heat. Batteries should be stored in a clean and dry area. For maximum battery life, storage temperature should not exceed 25°C. Warning. Fire, explosion, and severe burn hazard! • Never recharge a battery pack or cell. • Do not disassemble the battery cells. • Do not incinerate, heat above 100°C, or expose battery packs and cells to water. Please consult the battery cell material safety datasheet for further information. When carried in potentially hazardous areas, the battery pack shall be kept inside an antistatic bag to avoid static charge build-up on the battery pack surface. Transport Batteries used for the GS01 detector contain lithium. Transport of primary lithium batteries is regulated by the U.S. Department of Transportation, the International Air Transport Association (IATA), the International Civil Aviation Organization (ICAO), and the European Ground Transportation of Dangerous Goods (ARD). It is the responsibility of the shipper to ensure compliance with these or any other local requirements. Consult current regulations and requirements before shipping. Disposal The battery pack is considered as hazardous waste. Please dispose of it according to laws and regulations for such waste. In the European Union directive 2006/66/EC must be respected. 5.5 Storage The battery pack shall be disconnected when the detector is stored away or not in service for longer periods. The same applies when the gateway is unavailable (powered down or out of radio range). This is to avoid that the batteries are depleted. The GS01 power consumption can increase to approximately 3 times the normal average consumption when the gateway is not accessible to the device for the above-mentioned reasons. 5.6 Troubleshooting Essential instrument status information is provided through the standard ISA100 Wireless object “DIAG_STATUS” (cf. Section 3.3.1). Please refer to the Appendix for a recommended implementation of the GS01 status and diagnostic

GasSecure GS01 Hardware Manual MAINTENANCE 27 information. The “Diag_Status” attribute provides the information as outlined in Table 5-2. If multiple warnings or errors occur, always clear battery warning or error first by replacing the battery pack (cf. Section 5.4.1). For failures (mode F) not explained in Table 5-2, please clean window and mirror (cf. Section 5.3). If the failure persists, contact GasSecure. Table 5-2: Status messages retrieved from the Diag_Status attribute Instrument mode (cf. Table 10-2) DIAG_STATUS bit set (cf. Table 10-2) Explanation and actions M 19 Low battery. The battery must be replaced. F and M 20 Empty battery. Replace battery immediately (see Section 5.4). M 7 Attenuated optical beam (low optical transmission). The instrument detects low light transmission and infrared signal strength most probably due to dirty optics. Clean the window and mirror if necessary (cf. Section 5.3). The status message will clear within 10 minutes. F and M 8 Beam block (optical beam fault). The signal is so weak that the gas concentration cannot be calculated with sufficient accuracy, or the beam intensity is changing rapidly. Check for dirty optics and clean the window and mirror (cf. Section 5.3) if necessary. O 22 The system temperature is outside the specified operating range. For repeated high temperature warnings the use of a sunshade should be considered. F, O, and M 22 and 8 Process value under-range. Clean the window and mirror (cf. Section 5.3). If the error persists, contact GasSecure. 5.7 Contact GasSecure for support You will find our contact information and an updated list of our representatives on our homepage www.gassecure.com

GasSecure GS01 Hardware Manual 28 CHAPTER 5 When contacting the factory for support, the following information should be provided: - The instrument serial number - Description of the problem - The type of gateway used for wireless communication

GasSecure GS01 Hardware Manual SAFETY INSTRUCTIONS 29 6. SAFETY INSTRUCTIONS The GS01 detector from GasSecure is certified for and intended for use in potentially hazardous areas. Install and use the GS01 detector in accordance with the appropriate local or national regulations. Test gases (for validation) may be toxic and/or combustible. Refer to the Material Safety Sheets for appropriate warnings. The gas detector shall be installed and operated by trained and qualified personnel. Warning – the GS01-EA antenna is a potential electrostatic charging hazard. The GS01-EA external antenna surface is highly resistive. Avoid electrostatic charge build-up. If necessary, only clean the unit with a damp cloth. Do not rub the antenna with non-conductive materials. Remember to secure the GS01 detector when working at heights. Do not open the instrument. All warranties void if opened. There are no user serviceable parts or settings inside. The manufacturer or its authorised dealers shall do any repair. In order to maintain an FM Approved system, the apparatus to which this instrument is connected, must also be Approved by FM Approvals. The GS01 and GS01-EA gas detectors comply with EN 60079-29-1 when connected to a control unit that also has been evaluated to EN 60079-29-1.

GasSecure GS01 Hardware Manual 30 CHAPTER 7 7. CERTIFICATIONS AND STANDARDS 7.1 Standards The GS01 has been certified according to the ATEX Directive 2014/34/EU and is compliant with Radio Equipment Directive (RED) 2014/53/EU and the standards listed below. See also EU Declaration of Conformity in the Appendix. Table 7-1: List of applicable standards for the GS01 Standard Issue date Title EN 60079-0 2012 Electrical apparatus for potentially explosive atmospheres. General requirements. EN 60079-11 2012 Electrical apparatus for potentially explosive atmospheres. Intrinsic safety “i”. IEC 60079-0 2011 Explosive atmospheres – Part 0: Equipment. General requirements. IEC 60079-11 2011 Equipment protection by intrinsic safety "i". EN 60079-29-1 2007 Gas detectors – Performance requirements of detectors for flammable gases. EN 60945 2002 Maritime navigation and radio-communication equipment and systems. General requirements. Methods of testing and required test results. EN 50270 2006 Electromagnetic compatibility. Electrical apparatus for the detection and measure-ment of combustible gases, toxic gases or oxygen. EN 61000-6-3: 2007 +A1 (2011) 2011 Electromagnetic compatibility (EMC) - Part 6-3: Generic standards. Emission standard for residential, commercial and light-industrial environments. ETSI/EN 300 328 V2.1.1 2016-11 Electromagnetic compatibility and Radio spectrum Matters (ERM). IEC 61508 Ed. 2.0 2010-04 Functional safety of electrical, electronic, programmable electronic safety-related systems CFR title 47 Part 15C Code of federal regulations, telecom-munications, radio frequency devices, intentional radiators

GasSecure GS01 Hardware Manual CERTIFICATIONS 31 7.2 Regulatory compliance of radio for GS01 7.2.1 Radio equipment directive (RED) The GS01 and GS01-EA wireless gas detector complies with the essential requirements and provisions of RE Directive 2014/53/EU. 7.2.2 FCC compliance The GS01 and GS01-EA device complies with Part 15 of the FCC Rules. Operation is subject to the following two conditions: (1) this device may not cause harmful interference, and (2) this device must accept any interference received, including interference that may cause undesired operation. Changes or modifications to the equipment not expressly approved by the party responsible for compliance could void the user's authority to operate the equipment. This equipment has been tested and found to comply with the limits for a Class A digital device, pursuant to Part 15 of the FCC Rules. These limits are designed to provide reasonable protection against harmful interference when the equipment is operated in a commercial environment. This equipment generates, uses, and can radiate radio frequency energy and, if not installed and used in accordance with the instruction manual, may cause harmful interference to radio communications. Operation of this equipment in a residential area is likely to cause harmful interference in which case the user will be required to correct the interference at his own expense. 7.3 Marking The GS01 and GS01-EA detectors are marked with product identification plates as shown in Figure 7-1 through Figure 7-4. The detectors are in addition marked with a label for FCC compliance (cf. Figure 7-5). The marking is explained in detail under the figures. The antenna delivered with the GS01-EA is also marked with an identification label, cf. Figure 7-7: Figure 7-1: GS01 product identification plate

GasSecure GS01 Hardware Manual 32 CHAPTER 7 Figure 7-2: GS01-EA product identification plate Figure 7-3: GS01 product identification plate – FM approved Figure 7-4: GS01-EA product identification plate – FM approved

GasSecure GS01 Hardware Manual CERTIFICATIONS 33 The instrument marking string II 2G Ex ib IIC T4 Gb means the following: Equipment group II Electrical apparatus for places with an explosive gas atmosphere other than mines susceptible to firedamp. Category 2 Equipment designed to be capable of functioning in conformity with the operating parameters established by the manufacturer and of ensuring a high level of protection. Equipment in this category is intended for use in areas in which explosive atmospheres caused by vapours, gases, mists, or air/dust mixtures are likely to occur. The means of protection relating to equipment in this category ensure the requisite level of protection even on the event of frequently occurring disturbances or equipment faults, which normally have to be taken into account. G The instrument is approved for use in gas, vapour, and mist atmospheres. Ex ib The method of protection is “intrinsic safety”. Gas group IIC Not restricted to certain gases. IP66/67 Ingress protection level (as defined in EN 60529). Temperature class T4 The maximum surface temperature of components will not exceed 135 oC. Gb Equipment protection level “Gb”: Equipment for explosive gas atmospheres, having a "high" level of protection, which is not a source of ignition in normal operation or during expected malfunctions. Figure 7-5: FCC compliance label The GasSecure battery pack is marked with an identification label as shown in Figure 7-6 below.

GasSecure GS01 Hardware Manual 34 CHAPTER 7 Figure 7-6: Battery pack identification label (FM approved version to the right) Figure 7-7: Antenna identification label (FM approved version to the right)

GasSecure GS01 Hardware Manual TECHNICAL DATA 35 8. TECHNICAL DATA 8.1 Performance Characteristics Table 8-1: Performance characteristics for the GS01 Detector Version GS01-01A GS01-02A Calibration Gas Methane Propane Measuring Range5 0 – 100% LEL 0-80% LEL Internal Low Alarm Limit6 10% LEL Initialization time 60 s Response time Default 5 s > 10% LEL 5 s > 10% LEL Maximum for low concentrations7 60 s < 10%LEL 60 s < 10%LEL Accuracy8 ± 3% LEL or ± 10% of reading, whichever is greater ± 2% LEL or ± 10% of reading whichever is greater. ± 20% of reading > 80% LEL. Dead band ± 4% LEL ± 3% LEL Battery life time9 Up to 2 years 8.1.1 Response time for other hydrocarbon gases and mixtures Table 8-1 states response times for different concentrations of methane and propane in air. In order to achieve the default response time of 5 seconds, the speed of sound in the gas or gas mixture must be sufficiently different from this speed in air to be detected by the ultrasonic sensor (please refer to Section 1.1 for a brief introduction to the GS01 dual sensor concept). For methane and propane this occurs for concentrations above 10% LEL. Note that, with hydrocarbon gas mixtures of light (e.g. methane) and heavy (e.g. propane) gas, the ultrasonic sensor must respond to a mixture of gases, with a speed of sound that could be close to that in air. Therefore, larger concentrations are required for mixtures of methane and propane to consistently achieve the 5 second response time. For other hydrocarbons, there will be differing concentration limits that will be required to achieve the 5 second response. Please contact GasSecure for advice of the concentration limits for other gases or gas mixtures. Note that the response time for low concentrations of hydrocarbon gas is never more than 60 seconds. 5 LEL limits, please refer to Table 3-2 6 Refer to Section 3.3.1 for further explanation 7 Due to the limited sensitivity of the ultrasonic sensor 8 Refers to operating temperature range. 9 Assuming I/O device role and non-condensing environment.

GasSecure GS01 Hardware Manual 36 CHAPTER 8 8.2 Cross sensitivities The GS01 is sensitive to many hydrocarbon gases, and does not distinguish one from another. In the tables below cross sensitivities to important hydrocarbon gases are presented. Please note that these are modelled estimates and shall be used as an indication only. Please contact GasSecure for cross sensitivity estimates for other gases than those listed below. The tables are read as follows: The instrument reading is looked up in the first column. The estimated actual concentration is found in the same row in the column for the gas to be measured. Example from Table 8-3: If a methane detector is exposed to ethanol and a value of 40 %LEL is read, the actual concentration of ethanol is approximately 15 %LEL. 8.2.1 GS01 detector with LEL according to IEC All values are in % LEL. LEL values as provided in Table 8-2. Table 8-2: LEL values in [% vol] according to IEC60079-20. Methane Propane Methanol Ethanol Ethylene N-butane Hexane Styrene Benzene 4.4 1.7 6.0 3.1 2.3 1.4 1.0 1.0 1.2 Table 8-3: Cross sensitivities for a GS01 Methane detector. Reading Propane Methanol Ethanol Ethylene N-butane Hexane Styrene Benzene 10 5 4 6 34 6 7 16 28 20 9 7 10 54 10 11 25 46 30 11 8 12 69 12 14 32 59 40 14 10 15 81 15 17 38 71 50 15 11 17 91 17 19 43 81 75 19 14 21 113 21 24 53 103 100 23 16 24 131 25 28 61 122 Table 8-4: Cross sensitivities for a GS01 Propane detector. Reading Methane Methanol Ethanol Ethylene N-butane Hexane Styrene Benzene 10 24 7 11 61 11 12 28 52 20 79 14 21 116 22 25 54 106 30 159 21 31 167 33 38 77 164 40 200 27 40 >200 44 52 98 >200 50 >200 32 49 >200 55 67 117 >200 75 >200 43 69 >200 83 111 155 >200 100 >200 52 86 >200 113 167 184 >200 8.2.2 GS01 detector with LEL according to NIOSH All values are in % LEL. LEL values as provided in Table 8-5. Table 8-5: LEL values in [% vol] according to NIOSH. Methane Propane Methanol Ethanol Ethylene N-butane Hexane Styrene Benzene 5.0 2.1 6.0 3.3 2.7 1.6 1.1 0.9 1.2

GasSecure GS01 Hardware Manual TECHNICAL DATA 37 Table 8-6: Cross sensitivities for a GS01 Methane detector. Reading Propane Methanol Ethanol Ethylene N-butane Hexane Styrene Benzene 10 5 5 6 31 6 7 19 31 20 8 7 10 50 9 11 30 50 30 10 9 13 63 12 14 38 64 40 12 11 15 74 14 16 45 76 50 13 12 17 83 16 19 51 87 75 17 15 21 103 20 23 62 111 100 20 17 24 119 23 28 72 132 Table 8-7: Cross sensitivities for a GS01 Propane detector. Reading Methane Methanol Ethanol Ethylene N-butane Hexane Styrene Benzene 10 30 9 13 63 12 14 39 64 20 101 17 24 120 23 28 73 133 30 197 25 35 170 35 43 102 >200 40 >200 32 46 >200 47 60 128 >200 50 >200 38 55 >200 60 78 151 >200 75 >200 50 77 >200 91 135 196 >200 100 >200 60 95 >200 123 >200 >200 >200

GasSecure GS01 Hardware Manual 38 CHAPTER 9 9. REFERENCES [RD 1] Nivis ISA100.11a R2.7 Monitoring Control System User Guide Version: 1.2, Date: March 30, 2012 [RD 2] Nivis VersaRouter 900 Hardware User Guide (VR800 Internal Hardware Rev. C) Version 1.4, Date: Mar. 18, 2010 [RD 3] Yokogawa YFGW410 Field Wireless Management Station user’s manual, IM 01W02D01-01EN [RD 4] Yokogawa YFGW410 Field Wireless Management Station Startup Guide, TI 01W01A56-01EN [RD 5] Yokogawa YFGW510 Field Wireless Access Point user’s manual, IM 01W02E01-01EN [RD 6] Honeywell Wireless Device Manager User's Guide, Release 220, OWDOC-X254-en-220A, October 2013 [RD 7] Honeywell Field Device Access Point User's Guide, Release 220, OWDOC-X256-en-220A, October 2013 [RD 8] Nivis ISA100.11a Field Tool User Manual, Version 2.1, Date: October 17, 2013 [RD 9] GasSecure GS01 wireless infrared hydrocarbon gas detector, Safety Manual, document ID 21440 [RD 10] HUBER+SUHNER data sheet for Sencity OMNI-M Antenna: 1324.170114

GasSecure GS01 Hardware Manual APPENDIX 39 10. APPENDIX Table 10-1: PV_Status byte description according to ISA100 Wireless™ standard Table 10-2: Content of the DIAG_STATUS attribute (Next page) Note also F: Failure C: Function check O: Out of specification M: Maintenance required According to the NAMUR NE107 categorization. GasSecure specific acronyms as used in GasSecure software tools are added in a separate column.

GasSecure GS01 Hardware Manual 40 CHAPTER 10 Bit DIAG_STATUS Not supported if bit = 0 NAMUR NE107 GasSecure acronym31 F: Failure Status F30 C: Function check C29 O: Out of specification status O28 M: Maintenance required status M27 Faults in electronics FFIE26 Faults in sensor or actuator element FFSA25 Installation, calibration problem CICP24 Out of service COOS23 Outside sensor limits 0 O22 Environmental conditions, out of device spec. OENC21 Fault Prediction: Maintenance required MFAP20 Power is critical low: maintenance short term F M POC19 Power is low: maintenance long term MPOL18 Software update incomplete 0 C17 Simulation is active CSIA16 Faults due to process influence 0 C15 Faults due to non-compliance with operation conditions 0 F14 Other faults FOTF13 012 011 010 009 008 Optical beam fault F M OBF07 Attenuated optical beam MAOB06 005 004 003 002 001 000 Detail information available 0Standard settingsReserved for BaselineDevice ProfileVendor specific area

GasSecure GS01 Hardware Manual APPENDIX 41 Recommended implementation of status and diagnostic information The PV_Status byte and the gas concentration (both published in the Analog Input Object) are forwarded to the controller. The gas concentration is output as long as the status byte reads “Good” (decimal value 128) or “Uncertain” (decimal value 64 to 127). When the status byte reads “Bad” (decimal value < 64) the detector will output NaN 0x7fc00000 (not a number) per float definition in IEEE754. The diagnostic information as published in the User Application Management Object is forwarded to the maintenance system. Recommended is to read out the following bits of the DIAG_STATUS attribute: - Failure status F (bit 31) - Maintenance required status M (bit 28). - Environmental conditions (bit 22) - Power is critical low (bit 20) - Power is low (bit 19) - Optical beam fault (bit 08) - Attenuated optical beam (bit 07) Refer to Table 5-2 in the troubleshooting section for description of which actions need to be taken for the different bit settings.

GasSecure GS01 Hardware Manual 42 CHAPTER 10 Figure 10-1: EU Declaration of conformity for GS01 and GS01-EA

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