FCC ID: R9O-IX-WL-1 ImpactXtreme Portable Multi Gas Detector

 

BW TECHNOLOGIES BY HONEYWELL ImpactXtreme Operators Manual Heidi Leury 8 March 2013 ImpactXtreme Operators Manual 8 March 2013 Table of Contents Table of Contents Limited Warranty and Liability 2 7 Contact BW Technologies by Honeywell 8 Corporate Headquarters ..............................................................................................8 United States................................................................................................................8 Europe ..........................................................................................................................8 Asia Pacific ...................................................................................................................8 Email ............................................................................................................................8 Web ..............................................................................................................................8 Glossary of Terms 9 Common Terms ............................................................................................................9 Warnings and Cautions ..............................................................................................10 Important Safety Information: Read First 11 Introduction 13 About the ImpactXtreme Portable Gas Detector .......................................................13 Wireless Model ...................................................................................................13 Intended use .......................................................................................................13 Confined Spaces ..................................................................................................13 About this Manual .....................................................................................................13 Getting Started 14 ImpactXtreme Standard Model .................................................................................14 ImpactXtreme Wireless Model ..................................................................................14 Accessories .................................................................................................................14 Buttons .......................................................................................................................15 Standard Model ..................................................................................................15 Wireless Model ...................................................................................................15 Power/Escape Button .........................................................................................15 Enter Button .......................................................................................................15 Up Button ...........................................................................................................16 Down Button .......................................................................................................16 Status Icons ................................................................................................................16 LCD Backlight .............................................................................................................17 LED Visual Alarm Indicators .......................................................................................18 Sensor Poisons and Contaminants 19 Activate and Deactivate the Detector 20 Before You Begin........................................................................................................20 Related Topics ............................................................................................................20 Activate/Deactivate the Detector ..............................................................................21 Activate the Detector .........................................................................................21 ImpactXtreme Operators Manual 8 March 2013 Deactivate the Detector .....................................................................................21 Start-up Sequence......................................................................................................21 Calibration 26 Before you begin ........................................................................................................26 Related Topics ............................................................................................................26 Calibrate the Detector ...............................................................................................26 Bump Test 30 Before you begin ........................................................................................................30 Related Topics ............................................................................................................30 Bump Test the Detector .............................................................................................30 Connect/Disconnect Gas Cylinder 33 Before You Begin........................................................................................................33 Related Topics ............................................................................................................33 Connect/Disconnect Gas Cylinder..............................................................................33 Zero Calibration 35 Related Topics ............................................................................................................35 Zero Calibration .........................................................................................................35 Alarms 37 Related Topics ............................................................................................................37 Gas Alarms .................................................................................................................37 Low Alarm ...........................................................................................................37 High Alarm ..........................................................................................................37 STEL Alarm ..........................................................................................................38 TWA Alarm ..........................................................................................................38 OL Alarm .............................................................................................................39 Multi-Gas Alarm ..................................................................................................39 Battery Alarms ...........................................................................................................39 Low Battery Alarm ..............................................................................................39 Critical Low Battery Alarm ..................................................................................40 Panic Alarm ................................................................................................................40 Detector Behavior ...............................................................................................40 Alkaline Battery Pack 41 Remove and Insert the Alkaline Battery Pack ............................................................41 Before you begin .................................................................................................41 Remove the Alkaline Battery Pack ......................................................................41 Insert the Alkaline Battery Pack ..........................................................................42 Replace Spent Alkaline Batteries ...............................................................................42 Before you begin .................................................................................................42 Related Topics .....................................................................................................42 Replace Spent Alkaline Batteries ........................................................................42 Rechargeable Battery Pack 44 Run-time capacity ......................................................................................................44 ImpactXtreme Operators Manual 8 March 2013 Remove and Insert the Rechargeable Battery Pack ...................................................44 Before you begin .................................................................................................44 Remove the Rechargeable Battery Pack .............................................................44 Insert the Rechargeable Battery Pack .................................................................45 Charge the Rechargeable Battery in a Deactivated Detector ....................................46 Before you begin .................................................................................................46 Related Topics .....................................................................................................47 Charge While the Rechargeable Battery is Inserted in a Deactivated Detector .47 Remove and Charge the Rechargeable Battery Pack ..........................................48 Coin Cell Battery 49 WEEE Directive and Battery Directive 50 Remove and Dispose of the Alkaline Battery Pack ....................................................50 Before you begin .................................................................................................50 Remove Spent Alkaline Batteries ........................................................................50 Remove and Dispose of the Rechargeable Battery Pack ...........................................50 Before you begin .................................................................................................50 Remove the Rechargeable Battery Pack .............................................................50 Remove the Coin Cell Battery ....................................................................................51 Before you begin .................................................................................................51 Remove the Coin Cell Battery .............................................................................52 Sensors 53 Before you begin ........................................................................................................53 Remove the Front Cover ............................................................................................53 Replace a Gas Sensor .................................................................................................53 Replace a Dummy Sensor with a Gas Sensor .............................................................54 Insert a Dummy Sensor ..............................................................................................54 Maintenance and Cleaning 56 User Options and Settings 57 Before you Begin ........................................................................................................57 Getting Started...........................................................................................................57 General Settings .........................................................................................................57 Owner Name .......................................................................................................58 Distributor Name ................................................................................................58 Distributor Contact Information .........................................................................58 Profiles Name/Default ........................................................................................58 Operators Name/Default ....................................................................................59 Locations/Default ...............................................................................................59 Language .............................................................................................................59 Confidence Beep Interval (seconds) ...................................................................59 Backlight Timeout (seconds) ...............................................................................59 Datalog Interval (seconds) ..................................................................................59 Log Threshold (%FS) ............................................................................................59 Device Time ........................................................................................................60 Device Configuration Options ....................................................................................60 ImpactXtreme Operators Manual 8 March 2013 Enable Calibration Lock.......................................................................................60 Enable Fault Protection Lock ..............................................................................60 Enable Force Calibration .....................................................................................60 Enable Flammable Menu ....................................................................................60 Enable PID Menu ................................................................................................60 Enable Wireless Mode Selection ........................................................................60 Show Environmental Values on Review Mode ...................................................60 Show Time on Review Mode ..............................................................................61 Message Configuration ..............................................................................................61 Messages ............................................................................................................61 Responses ...........................................................................................................61 Startup Message .................................................................................................61 Configuration Password .............................................................................................61 Sensor and Profile Configuration ...............................................................................61 Profile Configuration ..................................................................................................62 Enable Confidence Beep .....................................................................................62 Enable Confidence Flash .....................................................................................62 Enable Beep Per Key Press ..................................................................................62 Enable Latching Alarms .......................................................................................62 Enable GPS ..........................................................................................................62 Enable WiFi .........................................................................................................62 Default Operation Mode.....................................................................................62 Standard..............................................................................................................63 Sensor Configuration .................................................................................................63 Detector Information .................................................................................................63 Stealth Mode .............................................................................................................63 Troubleshooting 64 Specifications 65 Dimensions ................................................................................................................65 Weight........................................................................................................................65 Operating Temperature .............................................................................................65 Accuracy specification of combustible gas performance ..........................................65 Storage Temperature .................................................................................................65 Operating Humidity ...................................................................................................65 Dust and Moisture Ingress .........................................................................................65 Alarm Setpoints .........................................................................................................66 Detection Ranges .......................................................................................................66 Sensor Types ..............................................................................................................66 O2 Measuring Principle ..............................................................................................66 Bump test specified limits ..........................................................................................66 Alarm Conditions .......................................................................................................66 Audible Alarm ............................................................................................................66 Visual Alarm ...............................................................................................................67 Confidence/compliance beep ....................................................................................67 Display ........................................................................................................................67 Backlight .....................................................................................................................67 Internal Vibrator ........................................................................................................67 Self-test ......................................................................................................................67 Calibration ..................................................................................................................67 ImpactXtreme Operators Manual 8 March 2013 User Options ..............................................................................................................67 Sensor Options ...........................................................................................................67 Year of Manufacture ..................................................................................................68 Alkaline Battery Pack and Batteries ...........................................................................68 Approved Alkaline Battery Pack <part #> ...........................................................68 Approved Alkaline Batteries ...............................................................................68 AA Alkaline Battery Operating Time ...................................................................68 Rechargeable Battery Pack and Lithium Battery .......................................................68 Approved Lithium Battery for ImpactXtreme .....................................................68 Rechargeable Battery (part number) ..................................................................68 Lithium Battery Operating Time .........................................................................68 Battery Charger ...................................................................................................68 First-time Charge ................................................................................................68 Normal Charge ....................................................................................................68 Warranty ....................................................................................................................69 EC Declaration of Conformity ....................................................................................69 Approvals ...................................................................................................................69 CSA ......................................................................................................................69 ATEX ....................................................................................................................69 IECEx ...................................................................................................................69 Firmware ....................................................................................................................69 FCC Statement ...........................................................................................................69 FCC Caution ................................................................................................................69 IC-DFS Statements .....................................................................................................69 Replacement Parts and Accessories 72 ImpactXtreme Operators Manual 8 March 2013 Limited Warranty and Liability BW Technologies LP (BW or BW Technologies) warrants the product to be free from defects in material and workmanship under normal use and service for a period of two years, beginning on the date of shipment to the buyer. This warranty extends only to the sale of new and unused products to the original buyer. BWs warranty obligation is limited, at BWs option, to refund of the purchase price, repair or replacement of a defective product that is returned to a BW authorized service center within the warranty period. In no event shall BWs liability hereunder exceed the purchase price actually paid by the buyer for the Product. This warranty does not include:

fuses, disposable batteries or the routine replacement of parts due to the normal wear and tear of the product arising from use;

any product which in BWs opinion, has been misused, altered, neglected or damaged, by accident or abnormal conditions of operation, handling or use; or any damage or defects attributable to repair of the product by any person other than an authorized dealer, or the installation of unapproved parts on the product. The obligations set forth in this warranty are conditional on:

proper storage, installation, calibration, use, maintenance and compliance with the product manual instructions and any other applicable recommendations of BW;

the buyer promptly notifying BW of any defect and, if required, promptly making the product available for correction. No goods shall be returned to BW until receipt by the buyer of shipping instructions from BW; and the right of BW to require that the buyer provide proof of purchase such as the original invoice, bill of sale or packing slip to establish that the product is within the warranty period. The buyer agrees that this warranty is the buyers sole and exclusive remedy and is in lieu of all other warranties, express or implied, including but not limited to any implied warranty of merchantability or fitness for a particular purpose. BW shall not be liable for any special, indirect, incidental, lost profits, or consequential damages or losses, including loss of data, whether arising from breach of warranty or based on contract, tort or reliance or any other theory. Since some countries or states do not allow limitation of the term of an implied warranty, or exclusion or limitation of incidental or consequential damages, the limitations and exclusions of this warranty may not apply to every buyer. If any provision of this warranty is held invalid or unenforceable by a court of competent jurisdiction, such holding will not affect the validity or enforceability of any other provision. ImpactXtreme Operators Manual 8 March 2013 Contact BW Technologies by Honeywell Corporate Headquarters BW Technologies by Honeywell 2840 2nd Ave. SE Calgary, AB Canada T2A 7X9 Tel:

Toll-free:

Fax:

+1.403.248.9226 1.800.663.4164

+1.403.573.3708 United States BW Technologies by Honeywell 405 Barclay Blvd. Lincolnshire, IL USA 60069 Tel:

Toll-free:

Fax:

+1.847.955.8200 1.800.538.0363

+1.847.955.8210 Europe BW Technologies by Honeywell 4 Stinsford Road Nuffield Industrial Estate Poole, Dorset BH17 0RZ Tel:

Fax:

+44 (0) 1295.700.300

+44 (0) 1295.700.301 Asia Pacific Honeywell Analytics Asia Pacific

#508, Kolon Science Valley (1) 187-10 Guro-Dong, Guro-Gu Seoul, 152-050 Korea Tel:

Fax:

Email:

+82 (0)2 6909 0300

+82 (0)2 2025 0329 analytics.ap@honeywell.com Email info@gasmonitors.com Web www.gasmonitors.com ImpactXtreme Operators Manual 8 March 2013 Glossary of Terms Common Terms AC Auto zero Bump test Calibration Alternating current See Zero calibration A procedure that confirms the detectors ability to respond to target gases by exposing the detector to gas concentrations that exceed its alarm setpoints. BW recommends bump testing the sensors before each use. A two-step procedure that determines the measurement scale for the detectors response to gas. In the first step, a baseline reading is taken in a clean, uncontaminated environment (see Zero Calibration). In the second step, the sensors are exposed to known concentrations of gas. The detector uses the baseline and known gas concentrations to determine the measurement scale. BW recommends to calibrate the detector before first-time use and then on a regular schedule, depending on use and sensor exposure to poisons and contaminants. BW Technologies by Honeywell recommends to calibrate sensors regularly and at least once every 180 days (6 months). CD Computer-readable compact disc FleetManager II IEEE IR LCD LED LEL FleetManager II is proprietary software developed by BW Technologies to configure and manage docking modules; detector calibrations and bump testing; and datalogs. FleetManager II is available from www.gasmonitors.com The Institute of Electrical and Electronics Engineers' (IEEE) Infrared Liquid crystal display screen Light-emitting diode Lower explosive limit. Normal atmosphere Fresh air environment with 20.9% O2 that is free of hazardous gas OL OL alarm PDF STEL Over limit. When gas levels in an area exceed the measuring range of the sensors, the detector displays OL for the sensor which has exceeded its measuring range. Portable document format (PDF) is file format developed by Adobe as a means to distribute compact, platform-independent documents. To view pdf files, download and install Adobe Reader from www.adobe.com Short-term exposure limit. STEL is an accumulated exposure limit to toxic gases averaged over a defined time period that ranges from 5 to 15 minutes. ImpactXtreme Operators Manual 8 March 2013 STEL alarm TWA TWA alarm USB Wi-Fi Zero calibration When an accumulated value exceeds a STEL setpoint, the detector enters into a STEL alarm. Because this alarm is based on exposure over time, it remains active until sufficient time has passed without additional exposure to lower the overall accumulated value. Time-weighted average. TWA is an accumulate exposure limit to toxic gases averaged over a defined time period that ranges from 4 to 16 hours. When an accumulated value exceeds a TWA setpoint, the detector enters into a TWA alarm. Because this alarm is based on exposure over time, it remain active until sufficient time has passed without additional exposure to lower the overall accumulated value. Universal serial bus A technology that allows an electronic device to exchange data wirelessly (using radio waves) over a computer network. A procedure that establishes stable baseline readings for all sensors by adjusting the detectors baseline concentration reading to match the concentration of gas found in a clean, uncontaminated environment. The baseline reading becomes the zero on the measurement scale that the detector uses to display changes in gas concentrations. Warnings and Cautions This manual uses the following signal words, as defined by ANSI Z535.4-1998:

Hazardous situation which, if not avoided, will result in death or serious injury. This symbol identifies the most extreme hazardous situations. Hazardous situation which, if not avoided, could result in death or serious injury. Hazardous situation which, if not avoided, may result in moderate or minor injury. Situations which, if not avoided, may result in property damage. ImpactXtreme Operators Manual 8 March 2013 Important Safety Information: Read First The ImpactXtreme gas detector (the detector) is a personal safety device that is designed to warn of hazardous gas levels above user-defined set points. It is your responsibility to respond properly to the alarms. Use the detector only as specified in the ImpactXtreme Operator Manual and ImpactXtreme Technical Reference Guide, otherwise protection provided by the detector may be impaired. Read and understand the following warnings and cautions before using the detector. Warning: Substitution of components may impair Intrinsic Safety Before using the detector, refer to Sensor Poisons and Contaminants. Protect the combustible sensor from exposure to lead compounds, silicones, and chlorinated hydrocarbons. Although organic vapors (such as leaded gasoline and halogenated hydrocarbons) may temporarily inhibit sensor performance, in most cases the sensor will recover after calibration. Caution: For safety reasons, this equipment must be operated and serviced by qualified personnel only. Read and understand the technical reference manual completely before operating or servicing. For detectors using the rechargeable battery, charge the detector before first-time use. BW Technologies by Honeywell recommends the detector be charged after every workday. Calibrate the detector before first-time use and then on a regular schedule, depending on use and sensor exposure to poisons and contaminants. BW Technologies by Honeywell recommends to calibrate sensors regularly and at least once every 180 days (6 months). Calibrate only in a normal atmosphere (20.9% O2) that is free of hazardous gas. The combustible sensor is factory calibrated to 50% LEL methane. If monitoring a different combustible gas in the % LEL range, calibrate the sensor using the appropriate gas. Only the combustible gas detection portion of this detector has been assessed for performance by CSA International. BW Technologies by Honeywell recommends to check the combustible sensor with a known concentration of calibration gas after any exposure to contaminants/poisons such as sulfur compounds, silicon vapors, halogenated compounds, etc. BW Technologies by Honeywell recommends to bump test the sensors before each days use to confirm their ability to respond to gas by exposing the detector to a gas concentration that exceeds the alarm setpoints. Manually verify that the audible, visual, and vibrator alarms are activated. Calibrate if the readings are not within the specified limits. Caution: High off-scale LEL readings may indicate an explosive concentration. Any rapid upscaling reading followed by a declining or erratic reading may indicate a gas concentration beyond upper scale limit, which can be hazardous. Caution: Catalytic bead combustible sensor readings are not reliable in atmospheres with less than 12% (v/v) O2. Caution: IR combustible sensor is not capable of detecting H2. For use only in potentially explosive atmospheres where oxygen concentrations do not exceed 20.9% (v/v). Extended exposure of the detector to certain concentrations of combustible gases and air may stress a detector component that can seriously affect its performance. If an alarm occurs due to high concentration of combustible gases, calibrate the detector. If necessary, replace the sensor. Warning: The lithium battery (IX-BAT-R1) may present a risk of fire or chemical burn hazard if misused. Do not disassemble, heat above 100C (212F), or incinerate. ImpactXtreme Operators Manual 8 March 2013 Warning: Do not use any other lithium batteries with the ImpactXtreme detector. Use of any other lithium batteries can cause fire and/or explosion. To order and replace the (IX-BAT-R1) lithium battery, contact BW Technologies by Honeywell. Warning: Lithium polymer cells exposed to heat at 130C (266F) for 10 minutes can cause fire and/or explosion. e c Warning: This detector contains a lithium polymer battery. Dispose of used lithium cells immediately. Do not disassemble. Do not dispose of in fire. Do not mix with the solid waste stream. Spent batteries must be disposed of by a qualified recycler or hazardous materials handler. Keep lithium cells away from children. Deactivating the detector by removing the battery pack may cause improper operation and harm the detector. ImpactXtreme Operators Manual 8 March 2013 Introduction About the ImpactXtreme Portable Gas Detector The ImpactXtreme (the detector) is a compact, portable gas detector that is carried or worn. It continuously monitors the atmosphere for hazardous levels of up to six gases. Audible, visible and vibrating alarms alert you to danger when potentially hazardous gases are detected. The detector is supplied with a replaceable cartridge containing up to six gas sensors for detecting oxygen enrichment and deficiency; flammable gases up to the Lower Explosive Limit

(LEL); and toxic gases. Various sensor technologies are used, including:

1) electrochemical, to detect oxygen and toxic gases;

2) catalytic combustion, to detect flammable gases; and 3) infrared, to detect flammable and carbon dioxide gases. Wireless Model The ImpactXtreme may be factory-configured as a wireless- and GPS-ready device. The ImpactXtreme Wireless model uses Wi-Fi technology based on IEEE 802.11 standards to connect with, and exchange data wirelessly over, a computer network. Intended use The ImpactXtreme is intended to alert you to potentially hazardous gases which you may encounter while performing normal duties. Therefore, you must activate the detector and wear it as close as possible to your breathing area. Several accessories allow you to wear the detector in different ways, such as:

1) On the chest 2) On a belt 3) Attached to a body harness Confined Spaces Accessories are available to help you comply safely with confined space regulations. Contact BW Technologies by Honeywell or an authorized distributor for more information. About this Manual The ImpactXtreme Operator Manual provides basic information to activate, operate and maintain the ImpactXtreme gas detector standard and wireless models. Unless otherwise indicated, features and procedures described in this manual apply to both models. Information in this manual is based on an ImpactXtreme detector equipped with a disposable, six-gas sensor cartridge. Disregard references to sensors not fitted in your detector. For complete operating instructions, refer to the ImpactXtreme Technical Reference Guide. Ensure that you read and understand the instructions in this manual BEFORE installing or operating any part of the equipment. ImpactXtreme Operators Manual 8 March 2013 Getting Started ImpactXtreme Standard Model

<insert annotated standard image here>

ImpactXtreme Wireless Model

<insert annotated standard image here>

Accessories The following accessories are included with the detector:

1) pump adapter 2) calibration adapter and calibration tubing, cut to appropriate length 3) screwdriver with double-ended bit (Phillips and hex) 4) one battery pack, specified at time of purchase as a) alkaline, with four double-A batteries, OR b) rechargeable, with lithium polymer cells 5) Operators Manual 6) Compact disc containing Operators Manual in portable document format (PDF) If the detector or accessory parts are missing or damaged, contact BW Technologies by Honeywell or an authorized distributor immediately. Battery packs, sensors and sensor packs, docking stations, calibration and purge gas cylinders, and other accessories are sold separately. Contact BW Technologies by Honeywell or an authorized distributor for more information. ImpactXtreme Operators Manual 8 March 2013 Buttons Standard Model Wireless Model Power/Escape Button Activate detector Press and hold for 2 seconds Deactivate detector Press and hold for 3 seconds Reset alarms Press when detector is in alarm while in normal monitoring mode Return to previous menu Press when navigating menus Cancel menu command Press to cancel without committing changes Move cursor to previous digit Press when entering values Enter Button View main menu Select menu item Press while in normal monitoring mode Press to select highlighted item when navigating menus Acknowledge warning or fault Press when warning or fault is displayed ImpactXtreme Operators Manual 8 March 2013 Enter a value and move cursor to next digit Select an option or sensor channel Press when entering values Press when selecting an option or a sensor channel Up Button Activate panic alarm Press and hold for 5 seconds View detector information menu Press while in normal operating mode Increment displayed value Press when entering or editing values Place or remove a checkmark Press when selecting options or sensor channels Scroll up Press when navigating menus Down Button Acknowledge low alarm and temporarily disable audible alarm Press while low alarm is active. The Low Alarm Acknowledgement option must be enabled in FleetManager II. View detector information menu Press while in normal operating mode Decrement displayed value Press when entering or editing values Move cursor to the right of a checkbox Press when selecting options or sensor channels Scroll down Press when navigating menus Status Icons Icon Meaning TWA alarm. STEL alarm. OL alarm. High alarm. Low alarm. Message received. Audible alarm deactivated. Visual alarm deactivated. Pump operation (animated). Pump blocked. IR connection established. ImpactXtreme Operators Manual 8 March 2013 Icon Meaning Last calibration successful. Calibration over due. Last bump test successful. Bump Test overdue. Heartbeat (animated). Fault acknowledged but still exists. Warning acknowledged but still exists Battery charging. Low battery warning / critical low battery Log memory full. Wireless model only Wireless connection established. Wi-Fi module enabled. Wireless model only Wireless connection not established. Wi-Fi module disabled. Wireless model only. Animated. Scanning Wireless network. Wireless model only Wireless signal strength. Wireless model only Satellite found. Wireless model only Satellite not found. GPS module disabled. Wireless model only Animated. Scanning GPS satellite. LCD Backlight The LCD backlight changes color to indicate a change in detector status. Green is the default backlight color. During normal operation, the LCD backlight is inactive. Press any button to activate the backlight for ten seconds. Detector Status Backlight Description Activate Multi-color flash When the detector is activated, the backlight displays multiple colors to verify performance. Start-up and self-test Green Normal operation Inactive During startup and self-test procedures, the backlight is green. During normal operation, the backlight is inactive. Press any button to activate the backlight for ten seconds. Critical system fault Red When a critical system fault occurs, the backlight ImpactXtreme Operators Manual 8 March 2013 Detector Status Backlight Description Alarm Panic mode Red Red Fault or warning Yellow changes to red. When an alarm occurs, the backlight changes to red. When panic mode is activated, the backlight changes to red. When a non-critical fault or warning occurs, the backlight turns yellow. LED Visual Alarm Indicators The LED visual alarm indicators change color and flashing pattern to indicate a change in detector status. During normal operation, a short, green flash provides continuous visual confirmation of detector operation and compliance. Description Confidence signal Battery charging Battery charging complete Alarm / Critical system fault LED Green Red Green Red Flashing pattern Short flash Short flash Short flash High frequency flash Fault / Warning Yellow Low frequency flash Message received Green and yellow Short flash, alternating Powering up Powering off Green, red and yellow Two short, sequential flashes, alternating Red Two short flashes ImpactXtreme Operators Manual 8 March 2013 Sensor Poisons and Contaminants Certain cleaners, solvents, and lubricants may contaminate and cause permanent damage to sensors. Before using cleaners, solvents, and lubricants in close proximity to the detector or sensor packs, read and understand the following cautions and table of contaminants. Use only the following BW recommended products and procedures:

Do not use soaps, polishes, or solvents Use water-based cleaners. Use non-alcohol based cleaners. Clean the exterior of the detector with a soft, damp cloth. Sensor Poisons and Contaminants Cleaners and Lubricants Silicones Aerosols Brake cleaners Lubricants Rust inhibitors Silicone cleaners and protectants Silicone-based adhesives, sealants and gels Hand, body and medicinal creams that contain silicone Bug repellents and sprays Lubricants Rust inhibitors Window and glass cleaners Tissues containing silicone Window and glass cleaners Dish soaps Mold-releasing agents Citrus-based cleaners Polishes Alcohol-based cleaners Hand sanitizers Anionic detergents Methanol (fuels and antifreezes) ImpactXtreme Operators Manual 8 March 2013 Activate and Deactivate the Detector Only activate the detector in a normal atmosphere (20.9% O2) that is free of hazardous gas. Hand-aspirated remote sampling only provides continuous gas readings as long as the bulb is being operated. BW Technologies by Honeywell recommends that the detector be calibrated at least once every 6 months or in accordance with customer site procedures, whichever is sooner. Accurate detection of gases by the detector should be confirmed with test gas of known concentration before each use. Use of the ImpactXtreme Enforcer accessory is strongly recommended as it enables calibration to be performed quickly and easily. A sensor which cannot be calibrated or which is found to be out of tolerance should be replaced immediately. Before You Begin Each time the detector is activated, it automatically performs a series of self-tests to confirm that it is fully functional. During testing, you may be prompted to acknowledge messages or follow test procedures. 1. Move to a normal atmosphere (20.9% O2) that is free of hazardous gas. 2. Inspect the detector and accessories for damaged or missing parts. If parts are damaged or missing, contact BW Technologies by Honeywell or an authorized distributor immediately. 3. Ensure that the battery pack is charged. See Battery Packs for more information. Related Topics 1) Buttons 2) Connect/Disconnect Gas Cylinder 3) Bump Test 4) Zero Calibration (Auto Zero) 5) Battery Packs 6) User Options and Settings ImpactXtreme Operators Manual 8 March 2013 Activate/Deactivate the Detector Activate the Detector 1. Activate: Press and hold for 2 seconds. The start-up sequence begins. Deactivate the Detector 1. Deactivate: Press and hold for 3 seconds. a) If Detector Shutdown Passcode is enabled, the detector prompts for a passcode before powering off. If the passcode is incorrect, or if a passcode is not entered, the detector will not deactivate. For more information, see User Options and Settings. 2. The Powering Off progress bar is displayed. 3. LEDs flash red and the detector beeps once to indicate deactivation. Start-up Sequence 1. When the detector is activated, audible, visual and vibrating features are tested. Verify that the LCD activates. Ensure that the detector beeps, flashes and vibrates, and that the LCD backlight is activated. 2. Product identification screens appear. 3. The detector performs series of diagnostic tests. When all tests are complete, the results are displayed. ImpactXtreme Operators Manual 8 March 2013 4. If the start-up message option is enabled and message data is entered, a start-up message is displayed. If this option is disabled, it is bypassed during start-up. For more information, see User Options and Settings. 5. Device details and operation details are displayed. 6. The Set Operator menu is displayed. For more information, see User Options and Settings. a) Press b) Press to scroll to a different operator. and to select an operator. 7. The Set Location menu is displayed. For more information, see User Options and Settings. a) Press b) Press to scroll to a different location. and to select a location. 8. Settings for measuring range, TWA alarm, STEL alarm, high alarm, low alarm, and target gas correction factors are displayed. ImpactXtreme Operators Manual 8 March 2013 9. If a flammable sensor or PID sensor is installed, the Target Gas screen is displayed. 10. If a pump module is installed, Pump Check begins. a) Follow instructions displayed on the LCD. b) When Pump Check is complete, the results are displayed. c) For more information, refer to the ImpactXtreme Technical Reference Guide. 11. If the Auto Zero on Startup option is enabled, zero calibration begins. For more information, see Zero Calibration and User Options and Settings. a) If you are not in a normal atmosphere (20.9% O2) that is free of hazardous gas, press to cancel Zero Calibration. b) To confirm that you are in a normal atmosphere (20.9% O2) that is free of hazardous gas, press

. The Auto Zero process begins. c) When Auto Zero is complete, the results are displayed. ImpactXtreme Operators Manual 8 March 2013 12. If the last calibration failed and the calibration interval is not zero, the detector displays the last failed calibration result. 13. If the calibration interval is not zero, the detector displays the number of days remaining until the next calibration is due. 14. If calibration is due and Forced Calibration is enabled, the Forced Calibration screen is displayed. For more information, see Calibration and User Options and Settings. a) Follow on-screen instructions b) If a calibration is not performed, the detector automatically deactivates. 15. If the last bump test failed and bump test interval is not zero, the detector displays the last failed bump test result. 16. If the bump test interval is not zero, the detector displays the number of days until the next bump test is due. 17. If Bump Test is overdue and Forced Bump Test is enabled, the Forced Bump Test screen is displayed. For more information, see Bump Test and User Options and Settings. ImpactXtreme Operators Manual 8 March 2013 a) Follow on-screen instructions. b) If bump test is not performed, the detector automatically deactivates. 18. The detector begins normal operation. ImpactXtreme Operators Manual 8 March 2013 Calibration Calibration is a two-step procedure that determines the measurement scale for the detectors response to gas. In the first step, a baseline reading is taken in a clean, uncontaminated environment (see Zero Calibration). In the second step, the sensors are exposed to known concentrations of gas. The detector uses the baseline and known gas concentrations to determine the measurement scale. BW Technologies by Honeywell recommends to calibrate the detector before first-time use and then on a regular schedule, depending on use and sensor exposure to poisons and contaminants. BW Technologies by Honeywell recommends to calibrate sensors regularly and at least once every 180 days (6 months). Before you begin 1) Have ready the calibration adapter and calibration tubing cut to a maximum 1.0 metre (3 foot) length. 2) Ensure access to calibration gas cylinders. 3) Use premium-grade calibration gases. 4) Use gases approved by the National Institute of Standards and Technology, or equivalent. 5) Do not use gas cylinders past their expiration date. 6) Verify that the gas you intend to use matches the span concentration values set for the monitor. Related Topics 1) Connect/Disconnect Gas Cylinder 2) Zero Calibration 3) Troubleshooting Calibration Calibrate only in a normal atmosphere (20.9% O2) that is free of hazardous gas. Do not calibrate in a hazardous area. The maximum tubing length for calibration is 1m (3 ft). Calibrate the Detector 1) Move to a normal atmosphere (20.9% O2) that is free of hazardous gas. 2) Activate the detector, if necessary. 3) Begin the calibration. a) With the detector in normal operating mode, press to open the main menu. b) Press to scroll to Calibration, then press to open the calibration menu. ImpactXtreme Operators Manual 8 March 2013 c) Press to scroll to Span Calibration and press to begin the calibration.. 4) Select the sensor channels to calibrate. a) Press to select or deselect the channels that you will calibrate. b) Press to move to the next channel. c) When ready, press to continue to the next step. 5) When prompted, press is free of hazardous gas. to confirm that you are in a normal atmosphere (20.9% O2) that a) If you are not in a normal atmosphere (20.9% O2) that is free of hazardous gas, press to cancel the Span Calibration. 6) Before calibrating, the detector automatically performs a zero calibration. For more information, see Zero Calibration. 7) When zero calibration is complete, the results are displayed. a) To cancel the zero calibration, press

. When prompted, press cancellation. The detector returns to the main Calibration menu. to confirm the 8) Span Calibration begins. 9) If FLM catalytic sensors or PID sensors are installed and selected for calibration, the target calibration gas screens are displayed. ImpactXtreme Operators Manual 8 March 2013 10) When prompted to Apply calibration test gas now, connect the detector to the calibration gas cylinder. Ensure that the calibration cap is fastened securely before applying gas. For more information, see Connect/Disconnect Gas Cylinder. 11) During span calibration, gas readings fluctuate. The progress bar in the lower-right corner of the LCD displays span calibration progress. 12) When the span calibration is complete, the results are displayed. a) When calibration succeeds, is displayed above the sensor channel. b) When calibration fails, is displayed above the sensor channel. c) If any sensors fail, repeat the calibration d) For more information on failed bump test results, see Troubleshooting. 13) When prompted, turn off the gas. Disconnect the tubing from the calibration adapter and regulator. Remove the calibration adapter from the detector. ImpactXtreme Operators Manual 8 March 2013 a) The detector purges the test gas until readings are zero. 14) When prompted, select Yes to calibrate another sensor, or No to return to the Calibration menu. 15) Press to return to normal operation. ImpactXtreme Operators Manual 8 March 2013 Bump Test Bump test is a procedure that confirms a detectors ability to respond to target gases by exposing the detector to gas concentrations that exceed its alarm setpoints. Perform bump tests regularly to confirm that sensors are responding correctly to gas, and that audible, visual, and vibration alarms activate during an alarm condition. If Force Bump Test is enabled, you may be prompted to bump test during startup. For more information, see User Options and Settings, or consult the ImpactXtreme Technical Reference Guide. BW Technologies by Honeywell recommends that you 1) Bump test the detector before each use. 2) Calibrate the detector if readings are not within specified limits. BW Technologies by Honeywell recommends to bump test the sensors before each days use to confirm their ability to respond to gas by exposing the sensors to a gas concentration that exceeds the alarm setpoints. Bump test only in a normal atmosphere (20.9% O2) that is free of hazardous gas. Do not bump test in a hazardous area. The maximum tubing length for calibration is 1m (3 ft). Before you begin 1) Have ready the calibration adapter and calibration tubing cut to a maximum 1.0 metre (3 foot) length. 2) Use premium-grade calibration gases. 3) Use gases approved by the National Institute of Standards and Technology, or equivalent. 4) Do not use gas cylinders past their expiration date. 5) Verify that the gas you intend to use matches the span concentration values set for the monitor. Related Topics 1) Connect/Disconnect Gas Cylinder 2) Zero Calibration 3) Troubleshooting Bump Test Bump Test the Detector 1) Move to a normal atmosphere (20.9% O2) that is free of hazardous gas. 2) Activate the detector, if necessary. ImpactXtreme Operators Manual 8 March 2013 3) Begin the bump test. a) With the detector in normal operating mode, press to open the main menu. b) Press to scroll to Bump Test, and press to open the bump test menu. c) Select Normal Bump Test and press to begin the bump test. 4) Select the sensor channels. a) Press to select or deselect the channels that you will test. b) Press to move to the next channel. c) When ready, press to continue to the next step. 5) When prompted to Apply bump test gas now, connect the detector to the test gas cylinder. For more information, see Connect/Disconnect Gas Cylinder. a) Ensure that the calibration cap is fastened securely before applying gas. 6) During the bump test, gas readings fluctuate. The progress bar in the lower-right corner of the LCD displays bump test progress. 7) When the bump test is complete, the results are displayed. ImpactXtreme Operators Manual 8 March 2013 a) When bump test succeeds, is displayed above the sensor channel. b) When bump test fails, is displayed above the sensor channel. For more information on failed bump test results, see Troubleshooting. 8) When prompted, turn off the gas. Disconnect the tubing from the calibration adapter and regulator. Remove the calibration adapter from the detector. a) The detector purges the test gas until readings are zero. 9) When prompted, select Yes to bump test another sensor, or No to return to the Bump Test Menu. 10) Press to return to normal operation. ImpactXtreme Operators Manual 8 March 2013 Connect/Disconnect Gas Cylinder Calibrate only in a atmosphere (20.9% O2) that is free of hazardous gas. Do not calibrate in a hazardous area. The maximum tubing length for calibration is 1m (3 ft). Before You Begin 1) Have ready the calibration adapter and calibration tubing cut to a maximum 1.0 metre (3 foot) length. 2) Use premium-grade calibration gases. 3) Use gases approved by the National Institute of Standards and Technology, or equivalent. 4) Do not use gas cylinders past their expiration date. 5) Verify that the gas you intend to use matches the span concentration values set for the monitor. Related Topics 1) Calibration 2) Bump Test 3) Zero Calibration Connect/Disconnect Gas Cylinder 1) Verify that the calibration gas you are using matches the span concentration value(s) that are set for the detector. 2) Connect one end of the calibration tubing to the 0.5 litre/minute regulator on the gas cylinder. 3) Connect the free end of the calibration tubing to the intake inlet on the calibration adapter. 4) Begin the calibration procedure. a) Do not attach the calibration adapter to the detector until prompted to apply gas. 5) When prompted to apply gas, attach the calibration adapter to the detector. a) Hook the calibration adapter to the front, right side of the detector and align with the sensor grill. ImpactXtreme Operators Manual 8 March 2013 b) When the adapter is aligned, turn the thumbscrew until it is tight. Do not over tighten the thumbscrew. c) Ensure that the calibration cap is securely fastened before applying gas. 6) When calibration or bump test is complete, disconnect the tubing from the calibration adapter and the gas cylinder regulator. Remove the calibration adapter from the detector. ImpactXtreme Operators Manual 8 March 2013 Zero Calibration Zero calibration, or auto zero, establishes stable baseline readings for all sensors by adjusting the detectors baseline concentration reading to match the concentration of gas found in a clean, uncontaminated environment. The baseline reading becomes the zero on the measurement scale that the detector uses to display changes in gas concentrations. Related Topics 1) Connect/Disconnect Gas Cylinder 2) Calibration 3) Troubleshooting Calibrate only in a normal atmosphere (20.9% O2) that is free of hazardous gas. Do not calibrate in a hazardous area. Zero Calibration 1) Move to a normal atmosphere (20.9% O2) that is free of hazardous gas. 2) Activate the detector, if necessary. 3) Begin the zero calibration. 4) With the detector in normal operating mode, press to open the main menu. 5) Press to scroll to Calibration, and press to open the Calibration menu. 6) Select Zero calibration and press to begin the Zero calibration. 7) When auto-zero on start-up is enabled, then the instrument will start zero calibration after start-up sequence is complete automatically. For more information, see User Options and Settings, or consult the ImpactXtreme Technical Reference Guide. 8) When prompted, press to confirm that you are in a normal atmosphere (20.9% O2) that is free of hazardous gas. 9) 10) If you are not in a normal atmosphere (20.9% O2) that is free of hazardous gas, press to cancel the Zero Calibration. ImpactXtreme Operators Manual 8 March 2013 11) When the zero calibration is complete, the results are displayed. 12) ImpactXtreme Operators Manual 8 March 2013 Alarms The ImpactXtreme uses visible, audible and vibration indicators to confirm detector operation and compliance, and to alert you to potentially harmful gas concentrations or critical system faults that may impair detector operation and reliability. It is your responsibility to respond appropriately to alarms, faults, warnings and other cautionary notifications. Gas alarms occur when the ImpactXtreme detects concentrations that exceed defined setpoint limits for monitored gases. They stop automatically when the concentrations are within defined setpoint limits. WARNING Follow all safety procedures defined by your employer. Confirm with your supervisor before clearing TWA and STEL alarms. Related Topics 1) Status Icons 2) LCD Backlight 3) LED Visual Alarm Indicators Gas Alarms Low Alarm Detector Behavior a) Gas channel display alternates between alarm icon and gas concentration. b) Heartbeat icon disappears. c) LCD backlight changes to red. d) LED visual alarm indicators flash fast, red. e) Audible alarm is slow with upward tone. f) Vibrator alarm activates. High Alarm ImpactXtreme Operators Manual 8 March 2013 Detector Behavior a) Gas channel display alternates between alarm icon and gas concentration. b) Heartbeat icon disappears. c) LCD backlight changes to red. d) LED visual alarms flash fast, red. e) Audible alarm is fast with downward tone. f) Vibrator alarm activates. STEL Alarm Detector Behavior a) Gas channel display alternates between alarm icon and gas concentration. b) Heartbeat icon disappears. c) LCD backlight changes to red. d) LED visual alarms flash fast, red. e) Audible alarm is fast with downward tone. f) Vibrator alarm activates. TWA Alarm Detector Behavior a) Gas channel display alternates between alarm icon and gas concentration. b) Heartbeat icon disappears. c) LCD backlight changes to red. d) LED visual alarms flash fast, red. e) Audible alarm is fast with downward tone. ImpactXtreme Operators Manual 8 March 2013 f) Vibrator alarm activates. OL Alarm Detector Behavior a) Gas channel displays alarm icon. b) Heartbeat icon disappears. c) LCD backlight changes to red. d) LED visual alarms flash fast, red. e) Audible alarm is fast with downward tone. f) Vibrator alarm activates. Multi-Gas Alarm Detector Behavior a) Gas channel display alternates between alarm icons and gas concentrations. b) Heartbeat icon disappears. c) LCD backlight changes to red. d) LED visual alarms flash fast, red. e) Audible alarm alternates between low alarm and high alarm tones. f) Vibrator alarm activates. Battery Alarms The ImpactXtreme tests battery power during start-up, and continuously throughout operation. When there is only enough power left to operate in a normal atmosphere for about 15 minutes, the low battery alarm activates. After about 15 minutes of low-battery alarm, the detector enters Critical Battery Alarm, and initiates an automatic deactivation procedure. The low battery alarm is intended to provide enough time to leave a hazardous area before the detector automatically deactivates. Low Battery Alarm ImpactXtreme Operators Manual 8 March 2013 Detector Behavior a) Battery icon flashes and vibrator alarm activates. b) LCD backlight changes to yellow. c) Detector initiates an alternating pattern of 10 fast audible alarm tones, yellow LED visual alarm flashes, and 7 seconds of silence. d) After 15 minutes of low battery alarm, the detector enters Critical Battery Alarm. Critical Low Battery Alarm Detector Behavior a) Vibrator alarm pulses. b) LCD backlight is red. c) Detector initiates an alternating pattern of 10 fast audible alarm tones, red LED visual alarm flashes, and 1 second of silence. d) Critical Low Battery Powering Off is displayed, and the detector deactivates. Panic Alarm Detector Behavior a) Panic Alarm is displayed. b) Heartbeat icon disappears. c) LCD backlight changes to red. d) LED visual alarm indicators flash fast, red. e) Audible alarm is fast with downward tones. f) Vibrator alarm activates. ImpactXtreme Operators Manual 8 March 2013 Alkaline Battery Pack The alkaline battery pack holds 4 AA batteries. Use only batteries recommended by BW Technologies by Honeywell. For more information, see Specifications. Change alkaline batteries only in an area that is known to be non-hazardous. Only use batteries recommended by BW Technologies by Honeywell. Refer to Specifications for manufacturers and model numbers. Use only new AA batteries. Do not recharge spent batteries. Do not use batteries if they are damaged in any way. Change alkaline batteries only in an area that is known to be non-hazardous. Remove and Insert the Alkaline Battery Pack Before you begin 1) Have ready the screwdriver with double-ended bit (Phillips and hex) provided. 2) Move to an area that is known to be non-hazardous. Remove the Alkaline Battery Pack 1) In normal operating mode, press and hold for 3 seconds to deactivate the detector. 2) Loosen the 4 screws that secure the battery pack to the detector. 3) Gently remove the battery pack from the detector. a) Press battery latch against outside edge of detector shell. ImpactXtreme Operators Manual 8 March 2013 b) Lift the battery pack from the casing. c) Do not use screwdrivers or other tools to press the battery latch, or pry the battery pack from the casing. Insert the Alkaline Battery Pack 1) Insert the battery pack into the detector and tighten the four screws. 2) Place thumbs on either side of the battery latch and press firmly to lock the battery into position and ensure ingress protection. Replace Spent Alkaline Batteries Before you begin 1) Have ready the screwdriver with double-ended bit (Phillips and hex) provided. 2) Have ready 4 replacement AA batteries. Use only batteries recommended by BW Technologies by Honeywell. For more information, see Specifications. 3) Move to an area that is known to be non-hazardous. Related Topics 1) Specifications 2) Remove and Insert the Alkaline Battery Pack Replace Spent Alkaline Batteries 1) Remove the battery pack. For more information, see Remove and Insert the Alkaline Battery Pack. ImpactXtreme Operators Manual 8 March 2013 2) With the battery pack label facing away from you, remove the cover from the alkaline battery chamber. 3) Remove the spent batteries. a) Dispose of the spent batteries in accordance with local laws. 4) Insert the new batteries. a) Note the position of the negative and positive terminals. b) Hold the batteries flat for insertion. c) Press down firmly to ensure that the battery is properly inserted. 3) Replace the battery pack cover. 4) Insert the battery pack into the detector. For more information, see Remove and Insert the Alkaline Battery Pack. ImpactXtreme Operators Manual 8 March 2013 Rechargeable Battery Pack The rechargeable battery pack can be changed in hazardous conditions. The run time of the rechargeable battery decreases approximately 20% over 2 years of typical use. Battery capacity may degrade after 300 charge cycles. Only use the rechargeable ImpactXtreme battery pack provided by BW Technologies by Honeywell or an authorized distributor. If the rechargeable battery is swollen or damaged in any way, dispose of it immediately and in accordance with local laws. The terminal on the bottom of the rechargeable battery heats when charged in the ImpactXtreme Cradle. Do not touch the terminal immediately after removing the rechargeable battery from the Cradle. Run-time capacity A properly maintained rechargeable battery pack can retain up to 80% of run-time capacity after approximately 2 years of typical use. To help prolong battery life and run time capacity, follow these guidelines:

1) Allow the battery to fully charge and fully discharge 3 times when you first use it. 2) Charge the battery in temperatures ranging from 0C (32F) and 40C (104F). Do not charge the battery in temperatures above 45C (113F) or below 0C (32F). 3) Deactivate the detector when not in use. Remove and Insert the Rechargeable Battery Pack Before you begin 1) Have ready the screwdriver with double-ended bit (Phillips and hex) provided. 2) Move to an area that is known to be non-hazardous. Remove the Rechargeable Battery Pack 1) In normal operating mode, press and hold for 3 seconds to deactivate the detector. 2) Loosen the 4 screws that secure the battery pack to the detector. ImpactXtreme Operators Manual 8 March 2013 3) Gently remove the battery pack from the detector. a) Press battery latch against outside edge of detector shell. b) Lift the battery pack from the casing. c) Do not use screwdrivers or other tools to press the battery latch, or pry the battery pack from the casing. Insert the Rechargeable Battery Pack 1) Insert the battery pack into the detector and tighten the four screws. 2) Place thumbs on either side of the battery latch and press firmly to lock the battery into position and ensure ingress protection. ImpactXtreme Operators Manual 8 March 2013 Charge the Rechargeable Battery in a Deactivated Detector Charge the battery in a normal atmosphere (20.9% O2) that is free of hazardous gas. To avoid personal injury and/or property damage, adhere to the following warnings and cautions:

Charge the battery after each work day. Charge the battery immediately when the detector emits a low battery alarm. Charge the battery in a safe area that is free of hazardous gas in temperatures ranging from 0C to 40C (32F to 104F). Charge the battery using BW Technologies by Honeywell charger adapters designed for the ImpactXtreme only. Do not use any other chargers or adapters. Failure to adhere to this caution can lead to fire and/or explosion. The charging adapter is voltage specific to your region. Using the charging adapter outside your region will damage the charger and the detector. The ImpactXtreme uses a lithium battery (IX-BAT-R1) that may present a risk of fire or chemical burn hazard if misused. Do not disassemble. Do not heat above 100C (212F). Do not incinerate. Lithium polymer cells exposed to heat at 130C (266F) for 10 minutes can cause fire and/or explosion. When replacing the battery, use only approved lithium polymer cells supplied by BW Technologies by Honeywell or an authorized dealer. Use of any other cell can cause fire and/or explosion. For more information, refer to Replacement Parts and Accessories. Dispose of used lithium cells immediately. Do not disassemble and do not dispose of in a fire. Do not mix with the solid waste stream. Spent batteries must be disposed of by a qualified recycler or hazardous materials handler. Keep lithium cells away from children. Refer to the ImpactXtreme Cradle Charger Operators Manual The detector will not detect gas while in charging mode. The wireless model will not communicate with Location Manager while in charging mode. Remove the tubing from the pump adapter before inserting the detector into the cradle charger. Before you begin 1) Move to a normal atmosphere (20.9% O2) that is free of hazardous gas. Do not charge the battery in a hazardous area. 2) In normal operating mode, press and hold for 3 seconds to deactivate the detector. ImpactXtreme Operators Manual 8 March 2013 3) Remove the pump adapter before inserting the detector into the cradle charger. 4) Have ready the ImpactXtreme Cradle Charger and Cradle Charger Operators Manual. a) Do not use any other chargers or adapters. Failure to adhere to this caution can lead to fire and/or explosion. Related Topics 1) Specifications 2) Remove and Insert the Battery Pack 3) Replacement Parts and Accessories Charge While the Rechargeable Battery is Inserted in a Deactivated Detector 1) Plug the charger into an AC outlet. a) Ensure that the correct power supply is used. b) Refer to the ImpactXtreme Cradle Charger Operators Manual. 2) Insert the detector into the Cradle Charger. a) Press down firmly to ensure connection with the contact pins. b) The detector may be warm while charging. This is normal. c) A minimum of 6 hours of uninterrupted charging is required to fully charge the lithium battery. 3) While the battery is charging, the LED on the battery pack is red. The detector LCD displays operator, location and charge progress information. 4) When charging is complete, the LED on the battery pack turns green. Charging Complete is displayed on the detector LCD screen. 5) Press the release latch on Cradle Charge, and remove the detector. ImpactXtreme Operators Manual 8 March 2013 Remove and Charge the Rechargeable Battery Pack 1) Remove the Rechargeable Battery Pack. 2) Plug the charger into an AC outlet. a) Ensure that the correct power supply is used. b) Refer to the ImpactXtreme Cradle Charger Operators Manual. 6) Insert the battery pack into the Cradle Charger. a) Press down firmly to ensure connection with the contact pins. b) The battery may be warm while charging. This is normal. c) A minimum of 6 hours of uninterrupted charging is required to fully charge the lithium battery. 7) While the battery is charging, the LED on the battery pack is red. 8) When charging is complete, the LED on the battery pack turns green. 9) Press the release latch on Cradle Charge, and remove the rechargeable battery pack. 10) Insert the Rechargeable Battery Pack ImpactXtreme Operators Manual 8 March 2013 Coin Cell Battery The detector contains a coin cell battery that powers the real-time clock. Only a qualified technician should replace the coin cell battery. Coin cell failure does not impair the detectors ability to monitor the atmosphere or alert you to danger when potentially hazardous gases are detected. Coin cell failure may cause the detectors logs to register incorrect dates. Contact BW Technologies by Honeywell or an authorized distributor if:

1) The real-time clock test fails during startup;

2) The detector displays a low or failed clock battery warning; or 3) The date or time displayed is has reset to 1 January 2000. ImpactXtreme Operators Manual 8 March 2013 WEEE Directive and Battery Directive Failure to comply with the following battery removal and disposal instructions may result in battery shorting, battery leaking, and/or other damage. Ensure that a qualified technician completes the following procedures. Ensure that a qualified technician completes the following procedures. Remove and Dispose of the Alkaline Battery Pack Before you begin 1) Have ready the screwdriver with double-ended bit (Phillips and hex) provided. 2) Move to an area that is known to be non-hazardous. Remove Spent Alkaline Batteries 1) Remove the battery pack. For more information, see Remove and Insert the Alkaline Battery Pack. 2) With the battery pack label facing away from you, remove the cover from the alkaline battery chamber. 3) Remove the spent batteries. 4) Dispose of the spent batteries in accordance with local laws. Remove and Dispose of the Rechargeable Battery Pack Before you begin 1) Move to an area that is known to be non-hazardous. 2) Have ready the screwdriver with double-ended bit (Phillips and hex) provided. Remove the Rechargeable Battery Pack 1) In normal operating mode, press and hold for 3 seconds to deactivate the detector. ImpactXtreme Operators Manual 8 March 2013 2) Loosen the 4 screws that secure the battery pack to the detector. 3) Gently remove the battery pack from the detector. a) Press battery latch against outside edge of detector shell. b) Lift the battery pack from the casing. c) Do not use screwdrivers or other tools to press the battery latch, or pry the battery pack from the casing. 4) Dispose of the rechargeable battery pack in accordance with local laws. Remove the Coin Cell Battery Ensure that a qualified technician completes the following procedures. Before you begin 1) Have ready the screwdriver with double-ended bit (Phillips and hex) provided. 2) Move to an area that is known to be non-hazardous. ImpactXtreme Operators Manual 8 March 2013 Remove the Coin Cell Battery 1) Press and hold for 3 seconds to deactivate the detector. 2) If the battery pack has not been removed, remove it now. For more information, refer to Remove and Dispose of the Alkaline Battery Pack or Remove and Dispose of the Rechargeable Battery Pack. 3) Loosen the 5 screws that secure the back panel of the ImpactXtreme. 4) Remove the back panel to expose the main PCB. The coin cell is located in the upper left corner of the board. 5) Remove the 2 screws holding the PCB in place, then remove the PCB. 6) The coin cell is connected to the board by 2 leads. Clip the leads individually to remove the coin cell. 7) Dispose of the coin cell in accordance with local laws. ImpactXtreme Operators Manual 8 March 2013 Sensors The detector is supplied with a replaceable cartridge containing up to six gas sensors for detecting oxygen enrichment and deficiency; flammable gases up to the Lower Explosive Limit

(LEL); and toxic gases. Detectors that are configured for fewer than 6 gases may contain dummy sensors in one or more sensor positions. To avoid personal injury and/or property damage, use only sensors that are specifically designed for the detector. Replace the sensors in a non-hazardous area. Each sensor has a high degree of resistance to common vapors and gases. To stablize a sensor, move the detector to a normal environment that is free of hazardous gases, and wait 10 to 30 minutes. Prevent accidental poisoning of sensors. For more information, see Sensor Poisons and Contaminants. Use caution when removing sensors from the sensor cartridge. Do not twist or force the sensor. Before you begin 1) Move to an area that is known to be non-hazardous. 2) Have ready the screwdriver with double-ended bit (Phillips and hex) provided. 3) Have ready replacement sensors and sensor filters. Remove the Front Cover 1) Press and hold for 3 seconds to deactivate the detector. 2) Loosen the four screws on the front cover. Remove the cover. Replace a Gas Sensor ImpactXtreme Operators Manual 8 March 2013 1) Remove the front cover. 2) Identify and remove the sensor that will be replaced. Do not use a screwdriver or other sharp implement to pry the sensor out. 3) Insert the new sensor. 4) Replace the front cover and tighten the four screws. 5) Calibrate the new sensor prior to use. For more information, see Calibration. Replace a Dummy Sensor with a Gas Sensor 1) Remove the front cover. 2) Gently flex the front cover to loosen the sensor housing and remove it from the eight snaps that hold it in place. 3) Push the dummy sensor through the back of the sensor housing. Do not use a screwdriver or other sharp implement to pry the sensor out. Retain the dummy sensor for future use. 4) Replace the sensor housing. Ensure that the eight snaps are fully engaged. 5) Insert the gas sensor. 6) Replace the front cover and tighten the four screws. 7) Calibrate the new sensor prior to use. For more information, see Calibration. Insert a Dummy Sensor 1) Remove the front cover. 2) Gently flex the front cover to loosen the sensor housing and remove it from the eight snaps that hold it in place. 3) There are two tabs on the quartered side of the dummy sensor. Tip the dummy sensor to insert one tab against the side of the sensor cavity, then insert the other tab. ImpactXtreme Operators Manual 8 March 2013 4) There are two wings on the flat side of the dummy sensor. Rotate the sensor until the wings are seated properly and the dummy sensor lies flat. 5) Replace the sensor housing. Ensure that the eight snaps are fully engaged. 6) Replace the front cover and tighten the four screws. ImpactXtreme Operators Manual 8 March 2013 Maintenance and Cleaning To maintain the detector in good operating condition, BW Technologies by Honeywell recommends that you perform the following maintenance as required:

1. Calibrate, bump test, and inspect the detector on a regular schedule. 2. Maintain a log of all maintenance, bump tests, calibrations, and alarm events. 3. Clean the exterior with a soft, damp cloth. Do not use solvents, soaps, or polishes. For more information, refer to Sensor Poisons and Contaminants. ImpactXtreme Operators Manual 8 March 2013 User Options and Settings User options and detector configuration settings are managed through FleetManager II software. Visit www.gasmonitors.com to download FleetManager II. This section describes some of the user options and configuration settings available for the ImpactXtreme detector through FleetManager II software. For more information, refer to the FleetManager II Operator Manual and the ImpactXtreme Technical Reference Guide. Before you Begin Have ready the following items:

1. Computer with FleetManager II software installed. 2. Detector 3. Cradle Charger or IR Adapter <model number needed>, plus compatible USB cable Getting Started 1. Activate the computer. Start the FleetManager II software program, and login as an Administrator. 2. Connect the transfer device to computer. a. b. If you are using an IR Adapter, attach it to the USB cable. Then, connect the USB cable to the computer. Activate the detector, and place it close to the IR Adapter. If you are using a Cradle Charger, ensure that it is connected to a power supply and the red power LED is lit. Attach the Cradle Charger to the USB cable. Then, connect the USB cable to the computer. Insert the detector. 3. Choose Configure Device via IR Link from the Devices menu. 4. Select ImpactXtreme from the Device Selection menu. When the Device Configuration Selection window opens, select a configuration file to open:

a. Choose From default file to load factory default settings for a specific country or region. b. Choose From existing file to load a settings file that you have saved on your computer or network. c. Choose From connected device to retrieve the settings from the detector that is connected to the computer. General Settings ImpactXtreme Operators Manual 8 March 2013 Owner Name Enter an owner name or other identifying title. This value is displayed during detector startup. Maximum 16 characters. Distributor Name Enter a company name or other identifying title. This value is displayed during detector startup. Maximum 20 characters. Distributor Contact Information Enter a telephone number, web address or email address. Maximum 30 characters. This value is displayed during detector startup. Profiles Name/Default ImpactXtreme Operators Manual 8 March 2013 ImpactXtreme stores up to 2 setting profiles per detector. To set the default profile for a detector, select a profile name from the drop-down menu. To change a profile name, select Edit and enter a new name in the Change To field. Maximum 16 characters. Use the Settings menu on the detector to load a stored profile. Operators Name/Default ImpactXtreme stores up to 10 operator names per detector. To set the default operator name for a detector, select an operator name from the drop-down menu. To change an operator name, select Edit and enter a new name in the Change To field. Maximum 12 characters. Use the Settings menu on the detector to load a stored operator name. Locations/Default ImpactXtreme stores up to 49 locations per detector. To set the default location for a detector, select a location from the drop-down menu. To change a location description, select Edit and enter a new description in the Change To field. Maximum 12 characters. Use the Settings menu on the detector to load a stored location. Language To change the default display language for a detector, select one of these options from the drop-

down menu:

1. English (factory default) 2. French 3. German 4. Italian 5. Spanish 6. Dutch 7. Portuguese Confidence Beep Interval (seconds) To change the time interval between confidence beeps (in seconds) for a detector, enter a value from 5 to 255. Backlight Timeout (seconds) By default, the detector backlight deactivates after 10 seconds. To change the timeout interval

(in seconds) for the backlight, enter a value from 10 to 255. Datalog Interval (seconds) By default, the detector records a datalog entry once every 15 seconds. To change the datalog recording interval (in seconds), enter a value from 1 to 600. When memory is full, the detector replaces the oldest datalogs with the most recent datalogs. Log Threshold (%FS) ImpactXtreme Operators Manual 8 March 2013 What is %FS? Why would a user/administrator want to change the default value?

What are the consequences of change?

Device Time Use these settings to change the way the detector displays times and dates. Time Format To change the default display format for time, choose an option from the drop-down menu. The detector supports 12-hour and 24-hour clock formats. Date Format To change the default display format for date, choose an option from the drop-down menu. The detector supports mm/dd/yyyy and dd/mm/yyyy formats. Set Device Time To synchronize the detector time with your computers time, choose Set Device Time. Device Configuration Options Enable Calibration Lock Enable Fault Protection Lock When Enable Fault Protection Lock is selected and a fault occurs during detector start-up, the fault message is displayed continuously on the detector LCD. The detector will not enter normal operation until the fault is cleared. To review the fault details, select Historical Info from the Information menu on the detector. The detector can be deactivated at any time during the fault condition. Enable Force Calibration When Enable Force Calibration is selected and sensors are past due for calibration, the sensors must be calibrated during startup for the detector to enter normal operation. You must enter a value in the Cal Interval (days) field on the sensor Profile Settings menu before you select Enable Force Calibration. Enable Flammable Menu Enable PID Menu Enable Wireless Mode Selection Show Environmental Values on Review Mode ImpactXtreme Operators Manual 8 March 2013 Show Time on Review Mode Message Configuration Messages Please provide more information on the messages & responses options how will they work? Can a user access them from a detector menu or button? Can you provide an example of use?

ImpactXtreme stores up to 10 messages per detector. To edit the text of a stored message, select the message from the drop-down menu. Then, select Edit and enter a new message in the Change To field. Maximum 20 characters. Use the Settings menu on the detector to load a stored message. Responses ImpactXtreme stores up to 10 responses per detector. To edit the text of a stored response, select the message from the drop-down menu. Then, select Edit and enter a new message in the Change To field. Maximum 20 characters. Use the Settings menu on the detector to load a stored response. Startup Message Select Enable Startup Message to display a custom message during detector start-up. Enter a message in the Startup Message field. Maximum 25 characters. Configuration Password Select Enable User Configuration Password to prompt detector users to enter a password each time a configuration change is made. This will help prevent unauthorized configuration changes. Select Enable Detector Shutdown Password to prompt detector users to enter a password each time the detector is deactivated. This will help prevent unauthorized deactivation. Set a 4-digit password. Sensor and Profile Configuration ImpactXtreme Operators Manual 8 March 2013 Profile Configuration Enable Confidence Beep Enable Confidence Flash Enable Beep Per Key Press Enable Latching Alarms Enable GPS Enable WiFi Default Operation Mode ImpactXtreme Operators Manual 8 March 2013 Standard Safe If Default Operation Mode is set to Safe, the word Safe is displayed during normal operation in non-alarm conditions. If a gas alarm, fault or warning occurs, the detector reverts to normal operating mode, and displays event information and gas readings. For more information, refer to the FleetManager II Operators Manual. Stealth If Default Operation Mode is set to Stealth, the following features are disabled:

1. Audible alarms 2. Visual alarms 3. Confidence beep 4. IntelliFlash Icons are display to indicate that audible and visual alarms are disabled. Backlit Color Sensor Configuration Detector Information Stealth Mode If Default Operation Mode is set to Stealth using FleetManager II, audible and visible alarms are deactivated and screen icons are marked with an X. ImpactXtreme Operators Manual 8 March 2013 Troubleshooting ImpactXtreme Operators Manual 8 March 2013 Specifications Text in red is for EXAMPLE ONLY, borrowed from GasAlertQuattro Dimensions Standard version with clip: 138 by 97 by 65 cm (54.3 by 38.2 by 25.6 inches) Wireless version with clip: 138 by 121 by 65 cm (54.3 by 47.6 by 25.6 inches) Weight Standard version with rechargeable battery pack and clip: 610 g (21.5 oz.) Standard version with alkaline battery pack and clip: 620.5 g (21.9 oz.) Wireless version with rechargeable battery pack and clip: 692.5 g (24.4 oz.) Wireless version with alkaline battery pack and clip: 705 g (24.9 oz.) Operating Temperature Alkaline battery: -20C to +50C (-4F to 122F) Rechargeable battery: -40C to +60C (-40F to 140F) (just for 20 minutes at -40C) LEL performance temperature range: -30C to +55C (-22F to 144F) Accuracy specification of combustible gas performance Allowed indication deviation is 3% of full scale concentration from 0C and 40C. Allowed indication deviation is 5% of full scale concentration from -25C to 0C and from +40C to +55C. Allowed indication deviation is 10% of full scale concentration from -30C to -25C. Storage Temperature

-20 C to +65 C (-4F to +149F) Operating Humidity 20% to 90% relative humidity continuous, 0% to 95% relative humidity intermittent Dust and Moisture Ingress IP 65; IP66 with flow adapter in place ImpactXtreme Operators Manual 8 March 2013 Alarm Setpoints Alarm setpoints may vary by region. For more information, refer to the ImpactXtreme Technical Reference Guide. Detection Ranges Gas Detection Ranges FLAM CAT 10 %LEL FLAM IR(%LEL) 0 to 100%LEL FLAM IR(%Vol) 0 to 100%Vol VOC Oxygen 0 to 1,000ppm 0 to 25.0%Vol Carbon Monoxide 0 to 1,000ppm Hydrogen Sulfide 0 to 250ppm Sulfur Dioxide 0 to 100ppm Phosphine 0 to 20.0ppm Sensor Types H2S, SO2, CO, PH3, O2: Single plug-in electrochemical cell Combustibles: Plug-in catalytic bead and Infrared gas sensor VOC: Photoionization sensor O2 Measuring Principle Capillary controlled concentration sensor Bump test specified limits BW recommends using a gas cylinder that will ensure the combustible sensor has an accuracy of -

0 to +20% of actual reading (reference CAN/CSA C22.2 No. 152) Alarm Conditions TWA alarm, STEL alarm, low alarm, high alarm, multi alarm, over limit (OL) alarm, low battery alarm, critical low battery alarm, warning alarm, fault alarm, critical system fault alarm, IntelliFlash, confidence/compliance beep. Audible Alarm 95 dB at 30 cm (12 in.) variable pulsed beeper ImpactXtreme Operators Manual 8 March 2013 Visual Alarm Red light-emitting diodes (LEDs) and red LCD backlight for gas alarms and critical system faults. Yellow light-emitting diodes (LEDs) and yellow LCD backlight for warnings and faults. Confidence/compliance beep Audible beep from variable pulsed beeper. Beep frequency is user-defined with confidence/ compliance beep interval option. Display Alphanumeric liquid crystal display (LCD). Backlight Activates on startup and deactivates when start-up sequence is complete. Activates when the pushbutton is pressed and deactivates after 10 seconds. Activates during a gas alarm, warning, and fault conditions and remains lit until the alarm, warning, or fault ends. Internal Vibrator Vibrates during all gas alarms, warnings, and faults. Self-test Initiated during activation. Runs continuously on the battery, electrochemical sensors (PH3, H2S, SO2 and CO), combustible sensors (catalytic bead and IR sensor), PID sensor and monitor memory while detector is activated. Calibration Zero and automatic span. User Options Startup message, lockout on self-test error, safe mode, IntelliFlash, confidence/compliance beep, latching alarms, force calibration, force bump, stealth mode, datalog interval, IntelliFlash interval, confidence/compliance beep interval, profile selection, location tag, operator name, log threshold, unit of temperature, configuration password, message configuration, backlight colorm sixth channel configuration, and language selection. Sensor Options ImpactXtreme Operators Manual 8 March 2013 Sensor enable/disable, calibration gas values, calibration interval, calibration reminder, bump test interval, bump threshold, bump response time, alarm setpoints

(low/high/TWA/STEL), STEL interval, TWA period, auto zero at startup enable/disable, LEL correction factor, low alarm acknowledge, %vol methane measurement, VOC correction factor, mg/m3 enable/disable, target flammable gas, target flammable calibration gas Year of Manufacture The detectors year of manufacture is determined from the serial number. The tenth and eleventh characters in the serial number determines the year of manufacture. For example: 1234IXS__130100001 = 2013 year of manufacture Alkaline Battery Pack and Batteries Approved Alkaline Battery Pack <part #>

From Quattro: As per standards UL913, EN60079-11, EN60079-0, EC 60079-0, IEC 60079-11, C22.2 No. 157 Approved Alkaline Batteries Energizer E91

-20C Ta +55C T4 (129.9C) AA Alkaline Battery Operating Time 8 hours at 20C (68 F) in fully-charged condition. Rechargeable Battery Pack and Lithium Battery Approved Lithium Battery for ImpactXtreme Narada NL 662485H-3P Rechargeable Battery (part number) IX-BAT-R1 Lithium Battery Operating Time 9 hours at 20C (68 F) in fully-charged condition. Run time may decrease over 300 charge cycles, or two years of normal use. Battery Charger ImpactXtreme Cradle Charger First-time Charge 6 hours Normal Charge ImpactXtreme Operators Manual 8 March 2013 6 hours Warranty 2 years, excluding sensors EC Declaration of Conformity http://www.gasmonitors.com/Declarations_of_Conformity Approvals CSA ATEX IECEx Firmware Release version 1.1.0 FCC Statement This 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. FCC Caution Any changes or modifications not expressly approved by the party responsible for compliance could void the users authority to operate this equipment. For the band 5600-5650 MHz, no operation is permitted. IC-DFS Statements The user manual for local area network devices shall contain instructions related to the restrictions mentioned in the above sections, namely that:

ImpactXtreme Operators Manual 8 March 2013 1) The device for operation in the band 5150-5250 MHz is only for indoor use to reduce the potential for harmful interference to co-channel mobile satellite systems;

2) The maximum antenna gain permitted for devices in the bands 5250-5350 MHz and 5470-

5725 MHz shall comply with the e.i.r.p. limit; and 3) The maximum antenna gain permitted for devices in the band 5725-5825 MHz shall comply with the e.i.r.p. limits specified for point-to-point and non point-to-point operation as appropriate. Users should also be advised that high-power radars are allocated as primary users (i.e. priority users) of the bands 5250-5350 MHz and 5650-5850 MHz and that these radars could cause interference and/or damage to LE-LAN devices. Operation is subject to the following two conditions:

1) this device may not cause interference, and 2) this device must accept any interference, including interference that may cause undesired operation of the device. Le prsent appareil est conforme aux CNR d'Industrie Canada applicables aux appareils radio exempts de licence. L'exploitation est autorise aux deux conditions suivantes :

(1) l'appareil ne doit pas produire de brouillage, et

(2) l'utilisateur de l'appareil doit accepter tout brouillage radiolectrique subi, mme si le brouillage est susceptibled'en compromettre le fonctionnement. Under Industry Canada regulations, this radio transmitter may only operate using an antenna of a type and maximum (or lesser) gain approved for the transmitter by Industry Canada. To reduce potential radio interference to other users, the antenna type and its gain should be so chosen that the equivalent isotropically radiated power (e.i.r.p.) is not more than that necessary for successful communication. Conformment la rglementation dIndustrie Canada, le prsent metteur radio peut fonctionner avec une antenne dun type et dun gain maximal (ou infrieur) approuv pour lmetteur par Industrie Canada. Dans le but de rduire les risques de brouillage radiolectrique lintention des autres utilisateurs, il faut choisir le type dantenne et son gain de sorte que la puissance isotrope rayonne quivalente (p.i.r.e.) ne dpasse pas lintensit ncessaire ltablissement dune communication satisfaisante. This radio transmitter IX (ImpactXtreme) has been approved by Industry Canada to operate with the antenna types listed below with the maximum permissible gain and required antenna impedance for each antenna type indicated. Antenna types not included in this list, having a gain greater than the maximum gain indicated for that type, are strictly prohibited for use with this device. ImpactXtreme Operators Manual 8 March 2013 Le prsent metteur radio IX (ImpactXtreme) a t approuv par Industrie Canada pour fonctionner avec les types dantenne numrs ci-dessous et ayant un gain admissible maximal et limpdance requise pour chaque type dantenne. Les types dantenne non inclus dans cette liste, ou dont le gain est suprieur au gain maximal indiqu, sont strictement interdits pour lexploitation de lmetteur. ImpactXtreme Operators Manual 8 March 2013 Replacement Parts and Accessories For a complete list of replacement parts and accessories, visit www.gasmonitors.com Note to draft: Point to product home page.

 

 

www.tuv.com Appendix 3 Prfbericht - Nr.: Test Report No. 01200001 001 &

01200002 001 Seite 1 von 4 Page 1 of 4 Top PCB Main PCB www.tuv.com Appendix 3 Prfbericht - Nr.: Test Report No. 01200001 001 &

01200002 001 Seite 2 von 4 Page 2 of 4 RF Section-Bottom View RF Section Top View www.tuv.com Appendix 3 Prfbericht - Nr.: Test Report No. 01200001 001 &

01200002 001 Seite 3 von 4 Page 3 of 4 Sensors RF Module Top View of main PCB www.tuv.com Appendix 3 Prfbericht - Nr.: Test Report No. 01200001 001 &

01200002 001 Seite 4 von 4 Page 4 of 4 Module Unshielded - Top View Module Unshielded - Bottom View

 

 

www.tuv.com Appendix 2 Prfbericht - Nr.: Test Report No. 01200001 001 &

01200002 001 Seite 1 von 4 Page 1 of 4 EUT Overall View EUT Top View www.tuv.com Appendix 2 Prfbericht - Nr.: Test Report No. 01200001 001 &

01200002 001 Seite 2 von 4 Page 2 of 4 EUT Front View EUT Back View www.tuv.com Appendix 2 Prfbericht - Nr.: Test Report No. 01200001 001 &

01200002 001 Seite 3 von 4 Page 3 of 4 EUT Bottom View EUT Side View www.tuv.com Appendix 2 Prfbericht - Nr.: Test Report No. 01200001 001 &

01200002 001 Seite 4 von 4 Page 4 of 4 EUT Dimensional View EUT Dimensional View

 

 

www.tuv.com Appendix 4 Prfbericht - Nr.: Test Report No. Label Diagram 01200001 001 &

01200002 001 Seite 1 von 2 Page 1 of 2 www.tuv.com Appendix 4 01200001 001 &

01200002 001 Seite 2 von 2 Page 2 of 2 Prfbericht - Nr.: Test Report No. Location Diagram

 

 

Honeywell cht Adal Technologies BW Technologies by Honevweti 2R4 ~ 2 Avenue SI Calean. AB Cr rere came te PR Oe Date: February 15, 2013 Federal Communications Commission Authorization and Evaluation division Subject: Confidentiality Request for FCC ID: R9O-IX-WL-1 Pursuant to 47 CRF 0.457(d) and 0.459, Honeywell requests that a part of the subject application be held confidential. Type of Confidentiality requested Exhibit Type Permanent Schematics cla eerlatcaale Block Diagrams Permanent Bill of Materials The above materials contain proprietary information not customarily released to the public. The public disclosure of these matters might be harmful to the applicant and provide unjustified benefits to its competitors. Sincerely, Pn

: My LAA. Signature /

Ei ea mses TENT DAT <ere Title: Sr Regulatory Engineer On behalf of BW Technologies by Honeywell Phone : 847-955-4040

 

 

Testing and certification of electronic and electric appliances, systems, installations and telecommunication systems TEST REPORT CONCERNING THE COMPLIANCE OF A HONEYWELL IMPACT XTREME MULTI GAS DETECTOR IN CONFORMITY WITH SAR (SPECIFIC ABSORPTION RATE) REGULATORY REQUIREMENTS OF THE FCC IEEE Std C95.1-1999, IEEE Std 1528-2003, 13050602.s01 May 07, 2013 FCC listed Industry Canada R&TTE, LVD, EMC Notified Body

:

:

:

:

90828 2932G-2 1856 TV Rheinland EPS B.V. P.O. Box 37 9350 AA Leek (NL) Eiberkamp 10 9351 VT Leek (NL) Telephone: +31 594 505005 Telefax: +31 594 504804 Internet: www.tuv-eps.com E-mail: info@tuv-eps.com Project number: 13050602.s01 Page 1 of 29 Test specification(s):

Description of EUT:

Manufacturer:

Brand mark:

Model:

IEEE-1528, OET 65-C Honeywell Impact Xtreme Honeywell Honeywell Impact Xtreme Description of test item Test item Manufacturer Brand Model Receipt date Applicant information Applicants representative Company Address Postal code City Country Telephone number Telefax number Test(s) performed Location Test(s) started Test(s) completed Purpose of test(s)

:

:

:

:

:

:

:

:

:

:

:

:

:

:

:

:

:

Multi Gas Detector Honeywell Honeywell Impact Xtreme May 6, 2011 Mr Narasimha Charyulu Honeywell Technologies Solutions LAB PVT. LTD. Adarsh Sez Unit, Survey No 19/2, Devarabisanahalli Village, Varthur Hobli, Bangalore East 560103 Bangalore India

+91-80-26588360

+91-80-39834455 Niekerk/Leek May 6, 2011 June 10, 2011 Conformity Testing with the Regulatory RF Exposure Requirements in Europe and Singapore. This is an re-issue of the testreport with updates to the latest standards.

:

:

:

L. Koopmans L. Koopmans R. van der Meer Project leader Test engineer(s) Report written by Report approved by Report date This report shall not be reproduced, except in full, without the written permission of TV Rheinland EPS B.V. The test results as indicated in this test report relate only to the item(s) tested. O.H. Hoekstra May 07, 2013

:

:

Project number: 13050602.s01 Page 2 of 29 Test specification(s):

Description of EUT:

Manufacturer:

Brand mark:

Model:

IEEE-1528, OET 65-C Honeywell Impact Xtreme Honeywell Honeywell Impact Xtreme 3 5.1 3.5.1 1.1 1.2 4.3 4.4 4.1 4.2 2.1 2.2 4.2.1 4.2.2 4.2.3 4.2.4 Table of contents 1 General Information ............................................................................................................................................... 5 Purpose of testing .......................................................................................................................................... 5 Applied standards and related documents. ................................................................................................... 5 2 Summary and Conclusion. ................................................................................................................................... 6 Exposure category ......................................................................................................................................... 6 Summary of results: ....................................................................................................................................... 6 Identification of Equipment Under Test (EUT) ....................................................................................................... 7 3.1 General ........................................................................................................................................................... 7 Photos of the EUT .......................................................................................................................................... 7 3.2 EUT Test description. .................................................................................................................................... 8 3.3 3.4 Additional operating configurations ................................................................................................................ 8 Test Conditions ............................................................................................................................................... 8 3.5 Environmental conditions ........................................................................................................................ 8 4 Tests results ........................................................................................................................................................... 9 Validation and system check .......................................................................................................................... 9 Test results ..................................................................................................................................................... 9 SAR measurement execution ................................................................................................................. 9 Interpolation and extrapolation ................................................................................................................ 9 Validation parameters ............................................................................................................................. 9 EUT channel selection ............................................................................................................................ 9 Exposure limits ............................................................................................................................................. 10 SAR, the basics ............................................................................................................................................ 11 5 System validation ................................................................................................................................................ 12 System validation ......................................................................................................................................... 12 System check results at 2.4 GHz .......................................................................................................... 12 System check results at 5 GHz ............................................................................................................. 12 Tissue simulating liquid dielectric parameters .............................................................................................. 14 5.2.1 Mixing procedure ................................................................................................................................... 14 5.2.2 Dielectric parameters for 2450 MHz head tissue .................................................................................. 14 Dielectric parameters for 5 GHz head tissue ........................................................................................ 15 5.2.3 6 Additional information supplementary to the test report ...................................................................................... 16 6.1 Description of test system ............................................................................................................................ 16 SAR measurement system ................................................................................................................... 16 Robot System description ..................................................................................................................... 16 Probe description .................................................................................................................................. 17 Amplifier description .............................................................................................................................. 17 Phantom description ............................................................................................................................. 17 6.2 Measurement Procedure .............................................................................................................................. 17 Step size and scan information ............................................................................................................. 18 SARA2 Interpolation and Extrapolation schemes ................................................................................. 18 Interpolation of 2D area scan ................................................................................................................ 18 Extrapolation of 3D scan ....................................................................................................................... 18 Interpolation of 3D scan and volume averaging ................................................................................... 19 7 Measurement uncertainty .................................................................................................................................... 20 Introduction ................................................................................................................................................... 20 Uncertainty calculated for IEEE-1528: standard measurements (2.4 GHz) ......................................... 21 Uncertainty calculated for IEEE-1528 : standard measurements (5 GHz) ........................................... 22 8 Test equipment and ancillaries used for tests ..................................................................................................... 23 Test Equipment ............................................................................................................................................. 23 Test software ................................................................................................................................................ 23 Annex A1 ..................................................................................................................................................................... 24 Annex A2 ..................................................................................................................................................................... 25 6.1.1 6.1.2 6.1.3 6.1.4 6.1.5 6.2.1 6.2.2 6.2.3 6.2.4 6.2.5 7.1.1 7.1.2 5.1.1 5.1.2 8.1 8.2 7.1 5.2 Project number: 13050602.s01 Page 3 of 29 Test specification(s):

Description of EUT:

Manufacturer:

Brand mark:

Model:

IEEE-1528, OET 65-C Honeywell Impact Xtreme Honeywell Honeywell Impact Xtreme Annex B ...................................................................................................................................................................... 26 Annex C ...................................................................................................................................................................... 27 Annex D ...................................................................................................................................................................... 28 Annex E ...................................................................................................................................................................... 29 Annexes A1: Probe Calibration Data 5mm probe A2: Probe Calibration Data 3mm probe B: System check 2.4 GHz C: System check 5 GHz D: SAR results 2.4 GHz E: SAR results 5 GHz Project number: 13050602.s01 Page 4 of 29 Test specification(s):

Description of EUT:

Manufacturer:

Brand mark:

Model:

IEEE-1528, OET 65-C Honeywell Impact Xtreme Honeywell Honeywell Impact Xtreme 1 General Information 1.1 Purpose of testing Tests described in this test report have been performed to verify compliance with the (Federal) regulated RF exposure (SAR) requirements in the USA. The tests were executed as a part of a SAR correlation study organized by the applicant. 1.2 Applied standards and related documents. The Honeywell Impact Xtreme Multi Gas Detector (hereafter mentioned EUT) has been tested in conformity with the following standards and/or publications:

Federal Communications Commission: Evaluating Compliance with FCC Guidelines for Human Exposure to Radiofrequency Electromagnetic Fields, Supplement C (Edition 01-01) to OET Bulletin 65 (Edition 97-01), FCC, 2001. IEEE Std C95.1-1999: IEEE Standard for Safety Levels with Respect to Human Exposure to Radio Frequency Electromagnetic Fields, 3 kHz to 300 GHz, Inst. of Electrical and Electronics Engineers, Inc. IEEE Std 1528-2003: Recommended Practice for Determining the Peak Spatial-Average Specific Absorption Rate

(SAR) in the Human Body Due to Wireless Communications Devices: Experimental Techniques. Inst. of Electrical and Electronics Engineers, Inc. KDB 865644 D01 SAR Measurement 100 MHz to 6 GHz v01 Edition 10/24/2012. KDB 248227 Federal Communications Commission, Office of Engineering and Technology: SAR Measurement Procedures for 802.11 a/b/g Transmitters, May 2007. KDB 447498 Federal Communications Commission, Office of Engineering and Technology: Mobile and Portable Device RF Exposure Procedures and Equipment Authorization Policies, October 24, 2012. KDB 616217D01 Federal Communications Commission, Office of Engineering and Technology: SAR Evaluation Considerations for Laptop Computers with Antennas Built-in on Display Screens, Update November 2009. KDB 616217D03 Federal Communications Commission, Office of Engineering and Technology: SAR Evaluation Considerations for Laptop/Notebook/Netbook and Tablet Computers, November 13, 2009. ICNIRP Guidelines GUIDELINES FOR LIMITING EXPOSURE TO TIME-VARYING ELECTRIC, MAGNETIC, AND ELECTROMAGNETIC FIELDS (UP TO 300 GHz). Project number: 13050602.s01 Page 5 of 29 Test specification(s):

Description of EUT:

Manufacturer:

Brand mark:

Model:

IEEE-1528, OET 65-C Honeywell Impact Xtreme Honeywell Honeywell Impact Xtreme 2 Summary and Conclusion. 2.1 Exposure category The EUT supplied for Specific Absorption Rate (SAR) testing according the standards/publications as indicated in section 1.2 is a considered to be a:

Portable Device. Body Worn According to the characteristics of the EUT and typical application and usage in accordance with the relevant product specifications of the manufacturer the EUT is identified to the exposure category:

General population/Uncontrolled exposure 2.2 Summary of results:

In the 2.4 GHz Wifi frequency range, the maximum peak spatial-average SAR could not be measured because the SAR levels fall below the threshold of the SAR measuring system. The EUT was positioned such that the antenna was touching the phantom. In the 5 GHz Wifi frequency range, the maximum peak spatial-average SAR measured was 0.363 W/kg averaged over 1g with an EUT power level of 13.0 dBm while the EUT was positioned such that the antenna was touching the phantom and transmitting on 5700 MHz (channel 140). All detailed test results are available in Annex D and E. IEEE 802.11b mode (2412.0 MHz 2462.0 MHz) Test specification(s) IEEE-1528, OET 65-C Frequency 2412 MHz 2442 MHz 2462 MHz Measurement SAR Max Spatial Peak SAR(1g)

< 0.012

< 0.012

< 0.012 Report clause Compliance results Annex D PASS IEEE 802.11a mode (5180.0 MHz 5805.0 MHz) Test specification(s) IEEE-1528, OET 65-C Frequency 5180 MHz 5320 MHz 5500 MHz 5700 MHz 5805 MHz Measurement SAR Max Spatial Peak SAR(1g) 0.216 0.277 0.268 0.363 0.274 Report clause Compliance results Annex E PASS Project number: 13050602.s01 Page 6 of 29 Test specification(s):

Description of EUT:

Manufacturer:

Brand mark:

Model:

IEEE-1528, OET 65-C Honeywell Impact Xtreme Honeywell Honeywell Impact Xtreme Identification of Equipment Under Test (EUT) 3 3.1 General The following information has been provided by the applicant and after verification have been used to identify the equipment under test (EUT). Test item (EUT) Manufacturer Brand Model Transmit output power setting Frequency range 802.11b Frequency range 802.11a 3.2 Photos of the EUT Impact Xtreme

: Honeywell Impact Xtreme

: Honeywell

: Honeywell

:

: 16 dBm at 2.4 GHz and 13 dBm at 5 GHz

:

:

2412.0 MHz 2462.0 MHz 5180.0 MHz 5805.0 MHz a) front view b) rear view Figure 1: photograph of the Honeywell Impact Xtreme Project number: 13050602.s01 Page 7 of 29 Test specification(s):

Description of EUT:

Manufacturer:

Brand mark:

Model:

IEEE-1528, OET 65-C Honeywell Impact Xtreme Honeywell Honeywell Impact Xtreme 3.3 EUT Test description. The EUT is an multi gas detector with an embedded 802.11 b/g/a network adapter operating in the 2.4 GHz and 5 GHz spectrum. The EUT is able to transmit at various transmission bitrates and utilizes DSSS and OFDM modulation techniques. 3.4 Additional operating configurations Power and signal distribution, grounding, interconnecting cabling and physical placement of the EUT under circumstances of testing at the test system are in accordance with the typical application and usage in so far as is practicable, and is in accordance with the relevant product specifications of the manufacturer. 3.5 Test Conditions 3.5.1 Environmental conditions Requirement for Specification Ambient temperature Ambient humidity

+18C to +25C Temperature shall not exceed 2 oC during the test 20% RH to 75% RH Electro Magnetic environment the ambient interference power shall be less than 0.012 W/kg Determined value

+20 oC at start to

+20 oC at end of test 53% RH below the required lower detection limit of 0.012 W/kg, checked before and after test Project number: 13050602.s01 Page 8 of 29 Test specification(s):

Description of EUT:

Manufacturer:

Brand mark:

Model:

IEEE-1528, OET 65-C Honeywell Impact Xtreme Honeywell Honeywell Impact Xtreme see section 5.2. 4 Tests results 4.1 Validation and system check Before tests on the EUT can take place the following checks need to be done first:

see section 5.1.1 and Annex B for data. System check at 2450 MHz, System check at 5200 MHz, 5500 MHz and 5800 MHz see section 5.1.1 and Annex C for data. Liquid validation, 4.2 Test results 4.2.1 SAR measurement execution The EUTs antenna position is perpendicular with respect to the SAR flat phantom bottom shell with 0 mm separation distance (antenna directly against phantoms surface). From quick scans of the possible placement of the antenna, placing the antenna perpendicular prove to be the worst case situation. The liquid level in the phantom all cases was 15 cm. For measurements >3 GHz the depth was thus more than the required 10.0 cm 0.5 cm, but it is considered to give improved probe immersion in the liquid. See Annex D and E for SAR results. 4.2.2 The SAR system uses cubic B-spline for interpolation and 4th-order polynomial fitting for extrapolation. 4.2.3 Validation parameters The system(s) and materials used for testing are validated as per the relevant standards. 4.2.4 EUT channel selection The EUT is evaluated at low, mid and high band frequencies at each frequency band according to default channel list mentioned in KDB 248227. Interpolation and extrapolation Project number: 13050602.s01 Page 9 of 29 Test specification(s):

Description of EUT:

Manufacturer:

Brand mark:

Model:

IEEE-1528, OET 65-C Honeywell Impact Xtreme Honeywell Honeywell Impact Xtreme 4.2.4.1 EUT position(s) The EUT, was placed with its bottom directly placed against the flat phantom bottom shell with 0 mm separation distance. This is illustrated with the photos in the Test setup photographs report. Figure 2: Test setup. 4.3 Exposure limits Limit value for General population / Uncontrolled exposure as mentioned in the references mentioned in section 1.2:

which is averaged over any one gram of tissue defined as a tissue volume in the shape of a cube. Spatial Peak SAR shall not exceed 1.6 W/kg, Project number: 13050602.s01 Page 10 of 29 Test specification(s):

Description of EUT:

Manufacturer:

Brand mark:

Model:

IEEE-1528, OET 65-C Honeywell Impact Xtreme Honeywell Honeywell Impact Xtreme 4.4 SAR, the basics Specific Absorption Rate (SAR) is defined as the time derivative of the incremental electromagnetic energy (dW) absorbed by (dissipated in) an incremental mass (dm) contained in a volume element (dV) of given mass density

(), as given below. Definition calculated from electric field strength conductivity and mass density It has units of watts per kilograms. It can be calculated by means shown above, where Ei is the rms value of the electric field strength in the tissue in V/m, is the conductivity of head or body tissue in S/m, is the density of head or body tissue in kg/m3. This method, measuring the electric field, is generally the most convenient and is the method used by the SARA2 system of TR-EPS. The SAR at a point in space is not particularly relevant in assessing biological effects; rather, the SAR should be averaged over a given volume. The SAR standards define the volume to be used for averaging as either a 1g (US) or a 10g (EU) cube. SAR measurements are carried out by scanning a tissue simulating medium along the interior of a phantom shell, using a multi-axis robot to position a miniature E-field probe. Once the region of highest SAR is identified, post-processing algorithms can be used to average the local SAR over this prescribed volume to determine the peak spatial average SAR. Project number: 13050602.s01 Page 11 of 29 dVdWdtddmdWdtdSAR2iESAR Test specification(s):

Description of EUT:

Manufacturer:

Brand mark:

Model:

IEEE-1528, OET 65-C Honeywell Impact Xtreme Honeywell Honeywell Impact Xtreme 5 System validation 5.1 System validation The purpose of the system validation (system check) is to verify that the system operates within its specifications at the device test frequency. The system check is to make sure that the system works correctly at the time of the compliance test. The system check has been performed using the specified tissue-equivalent liquid and at a chosen fixed frequency that is within 10% of the compliance test mid-band frequency. The system check is performed prior to compliance tests and the result must always be within 10% of the target value corresponding to the test frequency, liquid and the source used. The system validation detects possible short-term drift and uncertainties in the system, such as:

a) changes in the liquid parameters (e.g., due to water evaporation or temperature change), b) c) d) operator errors in the set-up or software parameters, e) other possible adverse conditions in the system configuration, e.g., RF interference. The system validation was done with an CW signal no additional validation were done with other signal types. The results show that this system check is within 10% of the expected values. 5.1.1 System check results at 2.4 GHz At 2450 MHz a system check was executed according IEEE 1528-2003 and KDB 865644 D01 SAR Measurement 100 MHz to 6 GHz v01 Edition 10/24/2012. The setup used is shown in figure 3. The following system performance check results were obtained (referenced to 1W):

test system component failures, test system component drift, Frequency = 2450 MHz Target value Measured Deviation from value Target value Permissible Deviation from Target value Peak Spatial-Average SAR 1g 52.4 W/kg 48.896 W/kg

-6.7 %

10 %

5.1.2 System check results at 5 GHz At 5 GHz a system check was executed according IEC 62209-2 and KDB 865644 D01 SAR Measurement 100 MHz to 6 GHz v01 Edition 10/24/2012. The setup used is shown in figure 3. The following system performance check results were obtained (referenced to 1W):

Frequency = 5200 MHz Target value Measured Deviation from value Target value Permissible Deviation from Target value Peak Spatial-Average SAR 1g 76.5 W/kg 72.728 W/kg

-4.93 %

10 %

Frequency = 5600 MHz Target value Measured Deviation from value Target value Permissible Deviation from Target value Peak Spatial-Average SAR 1g 83.3 W/kg 85.284 W/kg

+2.38 %

10 %

Frequency = 5800 MHz Target value Measured Deviation from value Target value Permissible Deviation from Target value Peak Spatial-Average SAR 1g 78.00 W/kg 82.46 W/kg

+5.72 %

10 %

Project number: 13050602.s01 Page 12 of 29 Test specification(s):

Description of EUT:

Manufacturer:

Brand mark:

Model:

IEEE-1528, OET 65-C Honeywell Impact Xtreme Honeywell Honeywell Impact Xtreme Figure 3: 2.4 GHz System check setup Figure: 5 GHz System check setup Project number: 13050602.s01 Page 13 of 29 Test specification(s):

Description of EUT:

Manufacturer:

Brand mark:

Model:

IEEE-1528, OET 65-C Honeywell Impact Xtreme Honeywell Honeywell Impact Xtreme 5.2 Tissue simulating liquid dielectric parameters For the purpose of the tests as described in this report the following tissue dielectric parameters have been determined by use of a Vector Network Analyzer (VNA). The tables indicate the dielectric parameters of the liquids used during the tests. The indicated required values are derived from IEEE-1528 and of IEC-62209-2. TV Rheinland EPS has chosen the IEC-62209-2 for guidance in the procedure for SAR testing at frequencies above 3 GHz, there in that head liquids are used instead of body liquids. TV Rheinland EPS believes that this will be the international standard for SAR testing. (Statement from IEC-62209-2 page 57): At close distances, a conservative exposure estimate can be achieved using the parameters for head tissue equivalent liquids as proposed in study by Drossos in the IEEE Trans. Microwave Theory Tech., Nov.2000, vol.48, no.11, pp. 1988-1995. Deviation of the actual parameters versus the prescribed parameters is calculated according:

where D is deviation in %, A is the actual value and T is the target value. 5.2.1 Mixing procedure All Tissue Equivalent Liquids are obtained from Bristol University. Contact details:

Medical Physics Department University of Bristol, Bristol Haemotology & Oncology Centre Horfield road, Bristol BS2 8 ED United Kingdom Tel. 44 117 928 2469. 5.2.2 Dielectric parameters for 2450 MHz head tissue The 2450 MHz head liquid is used for all tests in the EUTs 2.4 GHz band. The following liquid validation results were obtained, where the maximum deviation should not be more then Figure 6: Liquid validation setup 10 % of the Relative values (standard). Results for 2.4 GHz:

e p y t d u q L i i y c n e u q e r F

) z H M

(

d e r u s a e M i d u q L i e r u t a r e p m e t

) C

(

Head 2412 Head 2442 Head 2450 Head 2462 19.8 19.8 21.0 19.8 d e r u s a e M e v i t a l e R y t i v i t t i m r e P 38.27 38.08 38.05 38.03 d e r u s a e M y t i v i t c u d n o C

) m S

/

(

1.81 1.85 1.86 1.87 e v i t a l e R y t i v i t t i m r e P d r a d n a t S 39.3 39.3 39.2 39.3 y t i v i t c u d n o C d r a d n a t S

) m S

/

(

1.81 1.83 1.80 18.5 e v i t a l e R y t i v i t t i m r e P n o i t a v e D i d r a d n a t s m o r f

)

%

(

y t i v i t c u d n o C n o i t a v e D i d r a d n a t s m o r f

)

%

(

-2.73

-3.30

-3.20

-3.23 0.00 0.70 0.82 0.87 Table 4: liquid validation results for 2.4 GHz Project number: 13050602.s01 Page 14 of 29

%1001TAD Test specification(s):

Description of EUT:

Manufacturer:

Brand mark:

Model:

IEEE-1528, OET 65-C Honeywell Impact Xtreme Honeywell Honeywell Impact Xtreme 5.2.3 Dielectric parameters for 5 GHz head tissue The 5 GHz head liquid is used for all tests in the EUTs 5 GHz band. The following liquid validation results were obtained, where the maximum deviation should not be more then 10 % of the Relative values (standard). Results for 5 GHz:

e p y t d u q L i i y c n e u q e r F

) z H M

(

d e r u s a e M i d u q L i e r u t a r e p m e t

) C

(

Head 5180 Head 5200 Head 5320 Head 5500 Head 5700 Head 5800 Head 5805 19.8 19.8 19.8 19.8 19.8 19.8 19.8 d e r u s a e M e v i t a l e R y t i v i t t i m r e P 33.52 33.52 33.25 32.91 32.32 31.96 32.04 d e r u s a e M y t i v i t c u d n o C

) m S

/

(

5.00 5.00 5.13 5.32 5.58 5.65 5.67 e v i t a l e R y t i v i t t i m r e P d r a d n a t S 36.2 36.2 35.9 35.7 35.4 35.3 35.3 y t i v i t c u d n o C d r a d n a t S

) m S

/

(

e v i t a l e R y t i v i t t i m r e P n o i t a v e D i d r a d n a t s m o r f

)

%

(

y t i v i t c u d n o C n o i t a v e D i d r a d n a t s m o r f

)

%

(

4.66 4.45 4.70 4.90 5.10 5.28 5.28

-7.4

-7.4

-7.4

-7.8

-8.7

-9.4

-9.2

+4.7

+4.7

+9.1

+8.6

+9.4

+7.0

+7.4 Table 5: liquid validation results for 5 GHz Allowable deviation according to IEC 62209-2:2010 is for both conductivity and relative permitivity 10%. Both liquids are within 10% of the standard value. Project number: 13050602.s01 Page 15 of 29 Test specification(s):

Description of EUT:

Manufacturer:

Brand mark:

Model:

IEEE-1528, OET 65-C Honeywell Impact Xtreme Honeywell Honeywell Impact Xtreme 6 Additional information supplementary to the test report 6.1 Description of test system 6.1.1 SAR measurement system The TV Rheinland EPS SAR system is accredited according ISO/IEC 17025:2005 (expiration date of the accreditation is 26 July 2012 (extended to 26 July 2016), accreditation number: L385). 6.1.2 Robot System description The SAR measurement system used by TR EPS is the IndexSAR SARA2 system, which consists of a Mitsubishi RV-2A six-axis robot-arm and controller, IndexSAR probe and amplifier and an appropriate phantom as required and considered appropriate for the applied test. The robot is used to move and manipulate the probe to programmed positions inside the phantom to obtain the SAR readings from the EUT. Data Acquisition Cable Monitor CPU Keyboard Teac h Pad Interfac e Cable 6-Axis Robotic Arm Robot Controll er Amplifier Probe Moveme nt Gear Prob e Phantom EUT Robot Stand Figure 7: Overview of the SARA2 measurement system The system is remote controlled by a PC, which contains the software to control the robot and data acquisition equipment. The software also displays the data obtained from test scans by calculating the measured values into corresponding SAR values based on the currently acceptable calculation methods. Project number: 13050602.s01 Page 16 of 29 Test specification(s):

Description of EUT:

Manufacturer:

Brand mark:

Model:

IEEE-1528, OET 65-C Honeywell Impact Xtreme Honeywell Honeywell Impact Xtreme The position and digitized shape of the phantom are made available to the software for accurate positioning of the probe and reduction of set-up time. E.g. the SAM phantom heads are individually digitized using a Mitutoyo CMM machine to a precision of 0.001mm. The data is then converted into a shape format for the software, providing an accurate description of the phantom shell. In operation, the system first does an area (2D) scan at a fixed depth within the liquid from the inside wall of the phantom. When the maximum SAR point has been found, the system will then carry out a 3D scan centered at that point to determine volume averaged SAR level. 6.1.3 Probe description The probes are constructed using three orthogonal dipole sensors arranged on an interlocking, triangular prism core. The probes have built-in shielding against static charges and are contained within a PEEK cylindrical enclosure material at the tip. Probe calibration is described in the Probe Calibration Document in Annex A. 6.1.4 Amplifier description The amplifier unit has a multi-pole connector to connect to the probe and a multiplexer selects between the 3-

channel single-ended inputs. A 16-bit A-to-D converter with programmable gain is used along with an on-board micro-controller with non-volatile firmware. Battery life is around 150 hours and data are transferred to the PC via 3m of duplex optical fiber and a self-powered RS232 to optical converter. 6.1.5 Phantom description Body-worn operating configurations are tested using a flat phantom. The body phantom shell is made of a low-loss dielectric material with dielectric constant and loss tangent less than 5.0 and 0.05 respectively. The shell thickness for all regions coupled to the test device and its antenna are within 2.0 0.2 mm. The phantom was filled with the required head equivalent tissue medium to a depth of 15.0 0.5 cm. For the EUT a flat phantom of dimensions 20 x 20 x 20 cm with a base plate thickness of 2 mm is used. 6.2 Measurement Procedure During the SAR measurement, the positioning of the probe is performed with sufficient accuracy to obtain repeatable measurements in the presence of rapid spatial attenuation phenomena. The accurate positioning of the E-field probe is accomplished by using the high precision robot. The robot can be taught to position the probe sensor following a specific pattern of points. After an area scan has been done a 3D scan is set up around the location of the maximum spot SAR. First, a point within the scan area is visited by the probe and a SAR reading taken at the start of testing. At the end of testing, the probe is returned to the same point and a second reading is taken. Comparison between these start and end readings enables the power (SAR) drift during measurement to be assessed. Project number: 13050602.s01 Page 17 of 29 Test specification(s):

Description of EUT:

Manufacturer:

Brand mark:

Model:

IEEE-1528, OET 65-C Honeywell Impact Xtreme Honeywell Honeywell Impact Xtreme 6.2.1 Step size and scan information For the EUTs 2.4 GHz band a 30 x 30 mm area is scanned centered around the hotspot using 6 steps of 3 mm in the x-y plane and 10 steps of 3 mm in the z plane. The first area scan is performed with the probe tip 5 mm above the phantom bottom shell. For the EUTs 5 GHz band a 30 x 30 mm area is scanned centered around the hotspot using 10 steps in the x-y plane and 13 steps of 2 mm in the z plane. The first area scan is performed with the probe tip 3 mm above the phantom bottom shell. Figure 8: SAR is averaged over a volume of 1g (1.0 cm cube) Interpolation of 2D area scan 6.2.2 SARA2 Interpolation and Extrapolation schemes SARA2 software contains support for both 2D cubic B-spline interpolation as well as 3D cubic B-spline interpolation. In addition, for extrapolation purposes, a general nth order polynomial fitting routine is implemented following a singular value decomposition algorithm. A 4th order polynomial fit is used by default for data extrapolation. 6.2.3 The 2D cubic B-spline interpolation is used after the initial area scan at fixed distance from the phantom shell wall. The initial scan data are collected with approximately 10 mm spatial resolution and spline interpolation is used to find the location of the local maximum to within a 1mm resolution for positioning the subsequent 3D scanning. 6.2.4 Extrapolation of 3D scan For the 3D scan, data are collected on a spatially regular 3D grid having (by default) 6.4 mm steps in the lateral dimensions and 3.5 mm steps in the depth direction (away from the source). SARA2 enables full control over the selection of alternative step sizes in all directions. The digitized shape of the Flat Phantom is available to the SARA2 software, which decides which points in the 3D array are sufficiently well within the shell wall to be visited by the SAR probe. After the data collection, the data are extrapolated in the depth direction to assign values to points in the 3D array closer to the shell wall. A notional extrapolation value is also assigned to the first point outside the shell wall so that subsequent interpolation schemes will be applicable right up to the shell wall boundary. Project number: 13050602.s01 Page 18 of 29 source3.5mm6.4mm6.4mmdefaultstepsizesd3Dmeasurementpointsphantomshellcubeconformingtoshellsurfacepositionofmaximumvaluefoundbymovingasearchsquareoverthesurfaceatadepthofddatainterpolatedfrom2DlateralmeasurementsCubedimensiond=2.15cmfor10g=1.0cmfor1gdatainterpolatedandextrapolatedfromdepthmeasurements Test specification(s):

Description of EUT:

Manufacturer:

Brand mark:

Model:

IEEE-1528, OET 65-C Honeywell Impact Xtreme Honeywell Honeywell Impact Xtreme Interpolation of 3D scan and volume averaging 6.2.5 The procedure used for defining the shape of the volumes used for SAR averaging in the SARA2 software follow the method of adapting the surface of the cube to conform with the surface of the phantom. This is called, here, the conformal scheme. For each row of data in the depth direction, the data are extrapolated and interpolated to less than 1 mm spacing and average values are calculated from the phantom surface for the row of data over distances corresponding to the requisite depth for 10g and 1g cubes. This results in two 2D arrays of data, which are then cubic B-spline interpolated to sub mm lateral resolution. A search routine then moves an averaging square around through the 2D array and records the maximum value of the corresponding 1g and 10g volume averages. For measurements in rectangular, box phantoms, the distance between the phantom wall and the closest set of gridded data points is entered into the software. For measurements in box-shaped phantoms, this distance is under the control of the user. The effective distance must be greater than 2.7mm as this is the tip-sensor distance and to avoid interface proximity effects, it should be at least 3 mm. This distance is called dbe. The default step size (dstep) used is 3.5 mm, but this is under user-control. The compromise is with time of scan, so it is not practical to make it much smaller or scan times become long and power-drop influences become larger. The robot positioning system specification for the repeatability of the positioning (dss) is The flat phantom is made from Polymethylmethacrylate (PMMA), a low-loss dielectric material with dielectric constant and loss tangent less than 5.0 and 0.05 respectively. The shell thickness for all regions coupled to the test device and its antenna are within 2.0 0.2 mm. For the upright phantom, the alignment is based upon registration of the rotation axis of the phantom on its 253 mm-diameter base plate bearing and the position of the probe axis when commanded to go to the axial position. A laser alignment tool is provided. This enables the registration of the phantom tip (dmis) to be assured to within approx. 0.2 mm. This alignment is done with reference to the actual probe tip after installation and probe alignment. 0.04 mm. Project number: 13050602.s01 Page 19 of 29 Test specification(s):

Description of EUT:

Manufacturer:

Brand mark:

Model:

IEEE-1528, OET 65-C Honeywell Impact Xtreme Honeywell Honeywell Impact Xtreme Introduction 7 Measurement uncertainty 7.1 A measurement uncertainty assessment has been undertaken following guidance given in IEEE-1528. IndexSAR Ltd has supplied a generic uncertainty analysis for the SARA2 system in the form of a spreadsheet and the supporting assessments are documented in an IndexSAR document IXS-2028 (available on request). Some of the uncertainty contributions are site-specific and, for these, TUV Rheinland EPS has assessed the uncertainty contributions arising from local environmental and procedural factors. The resultant uncertainty budget is shown on the next pages. Project number: 13050602.s01 Page 20 of 29 Test specification(s):

Description of EUT:

Manufacturer:

Brand mark:

Model:

IEEE-1528, OET 65-C Honeywell Impact Xtreme Honeywell Honeywell Impact Xtreme 7.1.1 Uncertainty calculated for IEEE-1528: standard measurements (2.4 GHz) Prob. Dist. Divisor

(descrip) Divisor

(value) c1

(1g) Standard Uncertainty

(%) 1g Uncertainty Component Sec. Tol. (+/-)

(dB)

(%) Measurement System Probe Calibration Axial Isotropy (Cal data SN:168) Boundary effect Linearity System Detection Limits Readout Electronics Response time Measurement drift Integration time Measurement drift RF Ambient Conditions (noise and reflections) Probe Positioner Mechanical Tolerance Probe Position wrt. Phantom Shell SAR Evaluation Algorithms Test Sample Related Test Sample Positioning Device Holder Uncertainty Drift of Output Power Phantom and Setup 7.2.1 7.2.1.2 0.07 1.62 7.2.1.5 1.7 7.2.1.3 0.04 0.93 7.2.1.4 NA 7.2.1.6 NA 7.2.1.7 7.2.1.9 7.2.1.8 7.2.1.9 7.2.3.4 7.2.2.1 7.2.2.3 7.2.4 7.2.5 7.2.2.4.2 NA 7.2.1.9 0 0 0 0 3 0.57 2.86 2.5 2 0 5 8.729 1.62 1.70 0.93 0.00 0.00 0.00 0.00 0.00 3.00 0.57 2.86 2.50 2.00 0.00 5.00 N R R R R N R R R R R R R R N N R Phantom Uncertainty (shape and thickness) 7.2.2.2 Algorithm for correcting SAR for deviations in permittivity and conductivity Liquid conductivity (measurement uncert.) Liquid permittivity (measurement uncert.) Combined standard uncertainty Expanded uncertainty (95% Confidence Level) 7.2.3.3 7.2.3.3 7.2.3.3 7.3.1 7.3.2 4 4.00 R 2 2 2.00 2.00 N N N RSS k=2 1 or k 3 3 3 3 1 or k 3 1 3 1 3 3 3 3 1 1 3 3 1 1 1 1 1.73 1.73 1.73 1.73 1.00 1.73 1.00 1.73 1.00 1.73 1.73 1.73 1.73 1.00 1.00 1.73 1.73 1.00 1 0 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1.00 0.64 1.00 0.6 8.73 0.00 0.98 0.53 0.00 0.00 0.00 0.00 0.00 0.00 1.73 0.33 1.65 1.44 2.00 0.00 2.89 2.31 0.00 1.28 1.20 10.3 20.2 Table 6: Measurement uncertainty at 2.4 GHz Project number: 13050602.s01 Page 21 of 29 Test specification(s):

Description of EUT:

Manufacturer:

Brand mark:

Model:

IEEE-1528, OET 65-C Honeywell Impact Xtreme Honeywell Honeywell Impact Xtreme 7.1.2 Uncertainty calculated for IEEE-1528 : standard measurements (5 GHz) Uncertainty Component Sec. Tol. (+/-)

(%) 8.729

(dB) 7.2.1 7.2.1.2 0.07 7.2.1.5 7.2.1.3 0.04 Measurement System Probe Calibration Axial Isotropy (Cal data SN:168) Boundary effect Linearity System Detection Limits Readout Electronics Response time Measurement drift Integration time Measurement drift 7.2.1.4 7.2.1.6 7.2.1.7 7.2.1.9 7.2.1.8 7.2.1.9 NA NA RF Ambient Conditions (noise and reflections) 7.2.3.4 Probe Positioner Mechanical Tolerance Probe Position wrt. Phantom Shell SAR Evaluation Algorithms Test Sample Related Test Sample Positioning 7.2.2.1 7.2.2.3 7.2.4 7.2.5 Device Holder Uncertainty 7.2.2.4.2 NA Drift of Output Power Phantom and Setup 7.2.1.9 Phantom Uncertainty (shape and thickness) 7.2.2.2 Algorithm for correcting SAR for deviations in permittivity and conductivity Liquid conductivity (measurement uncert.) Liquid permittivity (measurement uncert.) Combined standard uncertainty Expanded uncertainty (95% Confidence Level) 7.2.3.3 7.2.3.3 7.2.3.3 7.3.1 7.3.2 Prob. Dist. Divisor

(descrip) Divisor

(value) c1

(10g) Standard Uncertainty

(%) 10g 1.62 1.70 0.93 0.00 0.00 0.00 0.00 5.00 3.00 0.57 2.86 2.50 2.00 0.00 5.00 N R R R R N R R R R R R R R N N R 4.00 R N N N 2.00 1.00 RSS k=2 1 or k 3 3 3 3 1 or k 3 1 3 1 3 3 3 3 1 1 3 3 1 1 1 1 1.73 1.73 1.73 1.73 1.00 1.73 1.00 1.73 1.00 1.73 1.73 1.73 1.73 1.00 1.00 1.73 1.73 1.00 1 0 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1.00 0.64 1.00 0.6 8.73 0.00 0.98 0.53 0.00 0.00 0.00 0.00 0.00 5.00 1.73 0.33 1.65 1.44 2.00 0.00 2.89 2.31 0.00 1.28 0.60 10.2 20.1 1.62 1.7 0.93 0 0 0 0 5 3 0.57 2.86 2.5 2 0 5 4 2 1 Table 7: Measurement uncertainty at 5 GHz Project number: 13050602.s01 Page 22 of 29 Test specification(s):

Description of EUT:

Manufacturer:

Brand mark:

Model:

IEEE-1528, OET 65-C Honeywell Impact Xtreme Honeywell Honeywell Impact Xtreme 8 Test equipment and ancillaries used for tests 8.1 Test Equipment To facilitate inclusion of the test equipment, used for performing the tests, on each page of this test report, each item of test equipment and ancillaries, such as cables, must be identified (numbered) by the test laboratory. Number Description Brand Model Serial No. Cal. date Cal. Due date 12612 Power sensor 2GHz-

26GHz 13526 Signal generator 99106 99540 99553 99554 99555 99556 99557 99559 99584 99610 99568 99569 Attenuator 20 dB, 8 GHz Directional Coupler

(2G4) Network Analyzer

(VNA) VNA TOSM Calibration Kit RF Amplifier (1 Watt) Bench-top Robot Calibration dipole 2400 SAR Probe SAR Probe SAR Fast Probe amplier Hygrometer/room temperature meter TEM line liquid measurement kit 99574 Power meter 99585 99576 99577 Waveguide with matching slab Power meter Power Sensor Hewlett Packard Hewlett Packard Lucas Weinschel Hewlett Packard Rohde &

Schwarz Rohde &

Schwarz IndexSAR Mitsubishi IndexSAR IndexSAR IndexSAR 8485A 2942A11287 10/2010 10/2011 83620A 3420A01924 04/2011 04/2012 24-20-43 AW1972 12/2010 12/2011 779D 1144A02686 NA NA ZVCE 100028 02/2010 02/2012 ZV-Z21 1085.7099.02 02/2010 02/2012 VBM-256 RV-2A-S11 IXD-245 IXP-50 IXP-30 0301 12/2010 12/2011 AN303007 44 0168 M0017 NA NA NA NA 01/2011 05/2011 01/2012 05/2012 IndexSAR IXA-020 Rev.02 0046 NA NA Europe Supplies WS-7082 IndexSAR DiLine n.a. n.a. 09/2010 09/2011 12/2010 12/2011 Hewlett Packard E4418B GB43316552 09/2010 09/2011 IndexSAR WR-137 (WG13) 4434 NA NA Agilent Agilent N1911A N1921A GB44460144 US44510189 10/2010 10/2010 10/2011 10/2011 Table 8: List of used test equipment and ancillaries. 8.2 Test software During the tests as indicated in this test report the TR-EPS SARA2 system was operated with:

SARA2 system v.2.54 Mitsubishi robot controller firmware revision RV-E2 Version C9a DiLine Dielectric Kit Software v 0.109 (12/6/2003) Project number: 13050602.s01 Page 23 of 29 Test specification(s):

Description of EUT:

Manufacturer:

Brand mark:

Model:

IEEE-1528, OET 65-C Honeywell Impact Xtreme Honeywell Honeywell Impact Xtreme Probe calibration data 5 mm probe (5 pages) Annex A1 Project number: 13050602.s01 Page 24 of 29 Probe calibration data 3 mm probe (7 pages) Test specification(s):

Description of EUT:

Manufacturer:

Brand mark:

Model:

IEEE-1528, OET 65-C Honeywell Impact Xtreme Honeywell Honeywell Impact Xtreme Annex A2 Project number: 13050602.s01 Page 25 of 29 System check data 2.4 GHz (2 pages) Test specification(s):

Description of EUT:

Manufacturer:

Brand mark:

Model:

IEEE-1528, OET 65-C Honeywell Impact Xtreme Honeywell Honeywell Impact Xtreme Annex B Project number: 13050602.s01 Page 26 of 29 System check data 5 GHz (6 pages) Test specification(s):

Description of EUT:

Manufacturer:

Brand mark:

Model:

IEEE-1528, OET 65-C Honeywell Impact Xtreme Honeywell Honeywell Impact Xtreme Annex C Project number: 13050602.s01 Page 27 of 29 Test specification(s):

Description of EUT:

Manufacturer:

Brand mark:

Model:

IEEE-1528, OET 65-C Honeywell Impact Xtreme Honeywell Honeywell Impact Xtreme Annex D Measurement results (6 pages) Project number: 13050602.s01 Page 28 of 29 Test specification(s):

Description of EUT:

Manufacturer:

Brand mark:

Model:

IEEE-1528, OET 65-C Honeywell Impact Xtreme Honeywell Honeywell Impact Xtreme Measurement results (10 pages) Annex E Project number: 13050602.s01 Page 29 of 29 Measurement Form Annex B Type Antenna Standard(s)

: System check 2450MHz

: Dipole 2400 MHz

:

IEC 62209-2 (2008-02) Regnr.

% RH Test engineer Date

: SAR_01 v1.2

: 20 TSD Ambient Conditions Used test equipment and ancillaries:

C 45 Smidshornerweg 18 Postbus 15 9822 ZG Niekerk T: (0594) 50 50 05 F: (0594) 50 48 04

: 13050602

(11042002)

:

: 01-06-2011

: L. Koopmans 99610 99106 99568 99044 99553 99555 99554 99589 99559 12609 99671 12608 13161 12612 Concerning measurement: System check 2450 MHz System / software:

SARA v2.54 No. of steps x and y Phantom S/No:

Box phantom Stepsize x and y [mm]

Test Frequency [MHz]

2450 No of steps z Position / Channel:

Perpendicular Stepsize z [mm]

6 5 10 2.5 Antenna Configuration:

External Dist probe tip phantom shell [mm]

5 Power level: [W]

0.25 (=+24 dBm) Probe conversion factor Probe Serial Number:

Liquid Simulant:

168 Head Max E-field [V/m in liquid]

67.88 0.383 Permittivity / Conductivity [S/m] 38.05 / 1.86 Location of max X= [mm]

Liquid Temperature [C]

21.0 Location of max Y= [mm]

4.67 2.00 SAR Drift: [dB]

20.1 Location of max Z= [mm]

-473.00 12.224 Deviation from target Permissable Deviation from target

(%)

-6.7

(%) 10.0 Results:

SAR 1g [W/kg]:

*power drift during validation: 0.0 dB Corrected to Target value 1W

(W/kg) 48.896

(W/kg) 52.4 SAR 1g Project number: 13050602-11042002.s01 1 Of 2 Measurement Form Annex B Smidshornerweg 18 Postbus 15 9822 ZG Niekerk T: (0594) 50 50 05 F: (0594) 50 48 04 2d contour plot of scan closest to EUT. 3d representation of entire scan Photo A-2-1: 2400MHz dipole antenna as spaced 10mm from liquid (equals:

8mm between dipole central axis and bottom phantombox+2mm of phantombox bottom thickness Photo A-2-2: System validation setup for 2450MHz Project number: 13050602-11042002.s01 2 Of 2 Measurement Form Annex C Type

: System Check Regnr. IEC 62209-2 (2010)

: Waveguide

:

: SAR v1.1 C

: 21 Antenna Standard(s) TSD Ambient Conditions Used test equipment and ancillaries:

51

% RH Test engineer Date Smidshornerweg 18 Postbus 15 9822 ZG Niekerk T: (0594) 50 50 05 F: (0594) 50 48 04

: 13050602

(11042002)

: 08-06-2011

: L. Koopmans 99610 13526 99576 99568 99106 99577 99553 99540 99554 99555 99559 99556 99671 99574 12612 99585 Concerning measurement: System Check 5GHz Antenna Port Bitrate System / software:

: NA

: NA SARA v2.54 Power Control Duty Cycle / Mode

: NA

: NA 3 13 2 3 0.50/0.36/

0.51 No. of steps x and y 10 Phantom S/No:

Box phantom Stepsize x and y [mm]

Test Frequency [MHz]

5200 No of steps z Position Waveguide:

0mm from phantombox bottom Stepsize z [mm]

Power level: [W}

0.25 Dist probe tip phantom shell [mm]

Probe Serial Number:

Liquid Simulant:

M0017 body Probe conversion factor X/Y/Z Max E-field [V/m in liquid]

63.54 Permittivity / Conductivity [S/m] 33.52 / 5.00 Location of max X= [mm]

-12.00 Liquid Temperature [C]

19.8 Location of max Y= [mm]

2.53 SAR Drift: [dB]

0.00 (0.09%) Location of max Z= [mm]

-475.0 18.182 Target value

(W/kg) Deviation from target Permissable Deviation from target 76.5

(%)

-4.93

(%) 10 Results:

SAR 1g [W/kg]:

Meas Value

(W/kg) 72.728 SAR 1g:

Project number: 13050602-11042002.s01 Annex C 1 Of 6 Measurement Form Annex C Smidshornerweg 18 Postbus 15 9822 ZG Niekerk T: (0594) 50 50 05 F: (0594) 50 48 04 2d contour plot of scan closest to EUT. 3d representation of entire scan Project number: 13050602-11042002.s01 Annex C 2 Of 6 Measurement Form Annex C Type

: System Check Regnr. IEC 62209-2 (2010)

: Waveguide

:

: SAR v1.1

: 21 C Antenna Standard(s) TSD Ambient Conditions Used test equipment and ancillaries:

51

% RH Test engineer Date Smidshornerweg 18 Postbus 15 9822 ZG Niekerk T: (0594) 50 50 05 F: (0594) 50 48 04

: 13050602

(11042002)

: 08-06-2011

: L. Koopmans 99610 13526 99576 99568 99106 99577 99553 99540 99554 99555 99559 99556 99671 99574 12612 99585 Concerning measurement: System Check 5GHz Antenna Port Bitrate System / software:

: NA

: NA SARA v2.54 Power Control Duty Cycle / Mode

: NA

: NA 8 3 6 2 3 0.46/0.35/

0.47 No. of steps x and y Phantom S/No:

Box phantom Stepsize x and y [mm]

Test Frequency [MHz]

5500 No of steps z Position Waveguide:

0mm from phantombox bottom Stepsize z [mm]

Power level: [W}

0.25 Dist probe tip phantom shell [mm]

Probe Serial Number:

Liquid Simulant:

M0017 body Probe conversion factor X/Y/Z Max E-field [V/m in liquid]

67.92 Permittivity / Conductivity [S/m] 32.91 / 5.32 Location of max X= [mm]

-8.00 Liquid Temperature [C]

19.8 Location of max Y= [mm]

2.33 SAR Drift: [dB]

0.00 (0.08%) Location of max Z= [mm]

-475.0 Results:

SAR 1g [W/kg]:

Meas Value

(W/kg) 85.284 SAR 1g:

21.321 Target value

(W/kg) Deviation from target Permissable Deviation from target 83.3

(%)

+2.38

(%) 10 Project number: 13050602-11042002.s01 Annex C 3 Of 6 Measurement Form Annex C Smidshornerweg 18 Postbus 15 9822 ZG Niekerk T: (0594) 50 50 05 F: (0594) 50 48 04 2d contour plot of scan closest to EUT. 3d representation of entire scan Project number: 13050602-11042002.s01 Annex C 4 Of 6 Measurement Form Annex C Type

: System Check Regnr. IEC 62209-2 (2010)

: Waveguide

:

: SAR v1.1

: 21 C Antenna Standard(s) TSD Ambient Conditions Used test equipment and ancillaries:

50

% RH Test engineer Date Smidshornerweg 18 Postbus 15 9822 ZG Niekerk T: (0594) 50 50 05 F: (0594) 50 48 04

: 13050602

(11042002)

: 08-06-2011

: L. Koopmans 99610 13526 99576 99568 99106 99577 99553 99540 99554 99555 99559 99556 99671 99574 12612 99585 Concerning measurement: System Check 5GHz Antenna Port Bitrate System / software:

: NA

: NA SARA v2.54 Power Control Duty Cycle / Mode

: NA

: NA No. of steps x and y 10 3 13 2 3 0.761 Phantom S/No:

Box phantom Stepsize x and y [mm]

Test Frequency [MHz]

5800 No of steps z Position Waveguide:

0mm from phantombox bottom Stepsize z [mm]

Power level: [W}

0.25 Dist probe tip phantom shell [mm]

Probe Serial Number:

Liquid Simulant:

M0017 body Probe conversion factor Max E-field [V/m in liquid]

61.61 Permittivity / Conductivity [S/m] 31.96 / 5.65 Location of max X= [mm]

-8.00 Liquid Temperature [C]

19.8 Location of max Y= [mm]

2.33 SAR Drift: [dB]

0.00 (0.06%) Location of max Z= [mm]

-475.0 Results:

SAR 1g [W/kg]:

Meas Value 20.615 Target value Deviation from Permissable

(W/kg)

(W/kg) target (%) Deviation from SAR 1g:

82.46 78.00

+5.72 target (%) 10 Project number: 13050602-11042002.s01 Annex C 5 Of 6 Measurement Form Annex C Smidshornerweg 18 Postbus 15 9822 ZG Niekerk T: (0594) 50 50 05 F: (0594) 50 48 04 2d contour plot of scan closest to EUT. 3d representation of entire scan Project number: 13050602-11042002.s01 Annex C 6 Of 6 Measurement Form Annex D Type

: Honeywell Regnr. Impact Extreme SAR Sample Internal IEEE-1528, OET 65-C

:

:

: SAR_01 v1.3

: 20 Antenna Standard(s) TSD Ambient Conditions Used test equipment and ancillaries:

C 53

% RH Test engineer Date Smidshornerweg 18 Postbus 15 9822 ZG Niekerk T: (0594) 50 50 05 F: (0594) 50 48 04

: 13050602

(11042002)

: 08-06-2011

: L. Koopmans 99610 99568 99553 99554 99559 99671 Concerning measurement: SAR Antenna Port Bitrate System / software:

:

: 6Mb DSSS

-

SARA v2.54 Power Control Duty Cycle / Mode

: 16.0 dBm

: 99% / Cont. TX 6 5 10 3 5 Phantom S/No:

Box phantom Stepsize x and y [mm]

Test Frequency [MHz]

2412 No of steps z Position / Channel:

Perpendicular / ch 1 Stepsize z [mm]

No. of steps x and y Probe Serial Number:

Liquid Simulant:

168 Head Dist probe tip phantom shell [mm]

Probe conversion factor 0.383 Probe battery check [d/m/y]

08-06-2011 Max E-field [V/m in liquid]

*See note 1 Permittivity / Conductivity [S/m] 38.27 / 1.81 Location of max X= [mm]

*See note 1 Liquid Temperature [C]

19.8 Location of max Y= [mm]

*See note 1 SAR Drift: [dB]

*See note 1 Location of max Z= [mm]

-473.0

*See note 1 Results:

SAR 1g [W/kg]:

*Note 1:

The SAR levels are below the minimum threshold of the SAR measuring system, a hotspot could not be determined. Project number: 13050602-11042002.s01 Annex D 1 Of 6 Limits. Measurement Form Annex D Smidshornerweg 18 Postbus 15 9822 ZG Niekerk T: (0594) 50 50 05 F: (0594) 50 48 04 2d contour plot of scan closest to EUT. Exposure Category and SAR limits Test Requirements Limit for General Public:

1.6 W/kg

(averaged over 1g of tissue) IEEE-1528, OET 65-C Compliance

(Yes/No/Not Applicable) YES Project number: 13050602-11042002.s01 Annex D 2 Of 6 Measurement Form Annex D Type

: Honeywell Regnr. Impact Extreme SAR Sample Internal IEEE-1528, OET 65-C

:

:

: SAR_01 v1.3

: 20 Antenna Standard(s) TSD Ambient Conditions Used test equipment and ancillaries:

C 53

% RH Test engineer Date Smidshornerweg 18 Postbus 15 9822 ZG Niekerk T: (0594) 50 50 05 F: (0594) 50 48 04

: 13050602

(11042002)

: 08-06-2011

: L. Koopmans 99610 99568 99553 99554 99559 99671 Concerning measurement: SAR Antenna Port Bitrate System / software:

-

:

: 6 Mb DSSS SARA v2.54 Power Control Duty Cycle / Mode

: 16.0 dBm

: 99% / Cont.TX 6 5 10 3 5 Phantom S/No:

Box phantom Stepsize x and y [mm]

Test Frequency [MHz]

2442 No of steps z Position / Channel:

Perpendicular / ch 7 Stepsize z [mm]

No. of steps x and y Probe Serial Number:

Liquid Simulant:

168 Head Dist probe tip phantom shell [mm]

Probe conversion factor 0.383 Probe battery check [d/m/y]

08-06-2011 Max E-field [V/m in liquid]

*See note 1 Permittivity / Conductivity [S/m] 38.08 / 1.85 Location of max X= [mm]

*See note 1 Liquid Temperature [C]

19.8 Location of max Y= [mm]

*See note 1 SAR Drift: [dB]

*See note 1 Location of max Z= [mm]

-473.0

*See note 1 Results:

SAR 1g [W/kg]:

*Note 1:

The SAR levels are below the minimum threshold of the SAR measuring system, a hotspot could not be determined. Project number: 13050602-11042002.s01 Annex D 3 Of 6 Limits. Measurement Form Annex D Smidshornerweg 18 Postbus 15 9822 ZG Niekerk T: (0594) 50 50 05 F: (0594) 50 48 04 2d contour plot of scan closest to EUT. Exposure Category and SAR limits Test Requirements Limit for General Public:

1.6 W/kg

(averaged over 1g of tissue) IEEE-1528, OET 65-C Compliance

(Yes/No/Not Applicable) YES Project number: 13050602-11042002.s01 Annex D 4 Of 6 Measurement Form Annex D Type

: Honeywell Regnr. Impact Extreme SAR Sample Internal IEEE-1528, OET 65-C

:

:

: SAR_01 v1.3

: 20 Antenna Standard(s) TSD Ambient Conditions Used test equipment and ancillaries:

C 53

% RH Test engineer Date Smidshornerweg 18 Postbus 15 9822 ZG Niekerk T: (0594) 50 50 05 F: (0594) 50 48 04

: 13050602

(11042002)

: 08-06-2011

: L. Koopmans 99610 99568 99553 99554 99559 99671 Concerning measurement: SAR Antenna Port Bitrate System / software:

-

:

: 6 Mb DSSS SARA v2.54 Power Control Duty Cycle / Mode

: 16.0 dBm

: 99% / Cont. TX 6 5 10 3 5 Phantom S/No:

Box phantom Stepsize x and y [mm]

Test Frequency [MHz]

2462 No of steps z Position / Channel:

Perpendicular / ch 11 Stepsize z [mm]

No. of steps x and y Probe Serial Number:

Liquid Simulant:

168 Head Dist probe tip phantom shell [mm]

Probe conversion factor 0.383 Probe battery check [d/m/y]

08-06-2011 Max E-field [V/m in liquid]

*See note 1 Permittivity / Conductivity [S/m] 38.03 / 1.87 Location of max X= [mm]

*See note 1 Liquid Temperature [C]

19.8 Location of max Y= [mm]

*See note 1 SAR Drift: [dB]

*See note 1 Location of max Z= [mm]

-473.0

*See note 1 Results:

SAR 1g [W/kg]:

*Note 1:

The SAR levels are below the minimum threshold of the SAR measuring system, a hotspot could not be determined. Project number: 13050602-11042002.s01 Annex D 5 Of 6 Limits. Measurement Form Annex D Smidshornerweg 18 Postbus 15 9822 ZG Niekerk T: (0594) 50 50 05 F: (0594) 50 48 04 2d contour plot of scan closest to EUT. Exposure Category and SAR limits Test Requirements Limit for General Public:

1.6 W/kg

(averaged over 1g of tissue) IEEE-1528, OET 65-C Compliance

(Yes/No/Not Applicable) YES

. Project number: 13050602-11042002.s01 Annex D 6 Of 6 Measurement Form Annex E Type

: Honeywell Regnr. Impact Xtreme SAR Sample Internal IEEE-1528, OET 65-C

:

:

: SAR_01 v1.2

: 20 Antenna Standard(s) TSD Ambient Conditions Used test equipment and ancillaries:

C 53

% RH Test engineer Date Smidshornerweg 18 Postbus 15 9822 ZG Niekerk T: (0594) 50 50 05 F: (0594) 50 48 04

: 13050602

(11042002)

: 09-06-2011

: L. Koopmans 99610 99568 99553 99554 99559 99671 Concerning measurement: SAR Antenna Port Bitrate System / software:

:

: 6Mb DSSS

-

SARA v2.54 Power Control Duty Cycle / Mode

: 13.0 dBm

: 99% / Cont.TX No. of steps x and y 10 Phantom S/No:

Box phantom Stepsize x and y [mm]

Test Frequency [MHz]

5180 No of steps z Position / Channel:

Perpendicular / ch 36 Stepsize z [mm]

Probe Serial Number:

Liquid Simulant:

M0017 head Dist probe tip phantom shell [mm]

Probe conversion factor X/Y/Z Probe battery check [d/m/y]

09-06-2011 Max E-field [V/m in liquid]

4.97 Permittivity / Conductivity [S/m] 33.52 / 5.00 Location of max X= [mm]

-1.73 Liquid Temperature [C]

19.8 Location of max Y= [mm]

-4.97 SAR Drift: [dB]

0.0 (0%) Location of max Z= [mm]

-475.0 0.216 Results:

SAR 1g [W/kg]:

Project number: 13050602-11042002.s01 Annex D 1 Of 10 3 13 2 3 0.50/0.36/

0.51 Measurement Form Annex E Smidshornerweg 18 Postbus 15 9822 ZG Niekerk T: (0594) 50 50 05 F: (0594) 50 48 04 2d contour plot of scan closest to EUT. 3d representation of entire scan Limits. Exposure Category and SAR limits Test Requirements Limit for General Public:

1.6 W/kg

(averaged over 1g of tissue) IEEE-1528, OET 65-C Compliance

(Yes/No/Not Applicable) YES Project number: 13050602-11042002.s01 Annex D 2 Of 10 Measurement Form Annex E Type

: Honeywell Regnr. Impact Xtreme SAR Sample Internal IEEE-1528, OET 65-C

:

:

: SAR_01 v1.2

: 20 Antenna Standard(s) TSD Ambient Conditions Used test equipment and ancillaries:

C 53

% RH Test engineer Date Smidshornerweg 18 Postbus 15 9822 ZG Niekerk T: (0594) 50 50 05 F: (0594) 50 48 04

: 13050602

(11042002)

: 09-06-2011

: L. Koopmans 99610 99568 99553 99554 99559 99671 Concerning measurement: SAR Antenna Port Bitrate System / software:

:

: 6Mb DSSS

-

SARA v2.54 Power Control Duty Cycle / Mode

: 13.0 dBm

: 99% / Cont.TX No. of steps x and y 10 Phantom S/No:

Box phantom Stepsize x and y [mm]

Test Frequency [MHz]

5320 No of steps z Position / Channel:

Perpendicular / ch 58 Stepsize z [mm]

Probe Serial Number:

Liquid Simulant:

M0017 head Dist probe tip phantom shell [mm]

Probe conversion factor X/Y/Z Probe battery check [d/m/y]

09-06-2011 Max E-field [V/m in liquid]

6.05 Permittivity / Conductivity [S/m] 33.25 / 5.13 Location of max X= [mm]

-3.20 Liquid Temperature [C]

19.8 Location of max Y= [mm]

-2.23 SAR Drift: [dB]

0.0 (0%) Location of max Z= [mm]

-475.0 0.277 Results:

SAR 1g [W/kg]:

Project number: 13050602-11042002.s01 Annex D 3 Of 10 3 13 2 3 0.47/0.34/

0.48 Measurement Form Annex E Smidshornerweg 18 Postbus 15 9822 ZG Niekerk T: (0594) 50 50 05 F: (0594) 50 48 04 Limits. 2d contour plot of scan closest to EUT. 3d representation of entire scan Exposure Category and SAR limits Test Requirements Limit for General Public:

1.6 W/kg

(averaged over 1g of tissue) IEEE-1528, OET 65-C Compliance

(Yes/No/Not Applicable) YES Project number: 13050602-11042002.s01 Annex D 4 Of 10 Measurement Form Annex E Type

: Honeywell Regnr. Impact Xtreme SAR Sample Internal IEEE-1528, OET 65-C

:

:

: SAR_01 v1.2

: 20 Antenna Standard(s) TSD Ambient Conditions Used test equipment and ancillaries:

C 53

% RH Test engineer Date Smidshornerweg 18 Postbus 15 9822 ZG Niekerk T: (0594) 50 50 05 F: (0594) 50 48 04

: 13050602

(11042002)

: 09-06-2011

: L. Koopmans 99610 99568 99553 99554 99559 99671 Concerning measurement: SAR Antenna Port Bitrate System / software:

:

: 6Mb DSSS

-

SARA v2.54 Power Control Duty Cycle / Mode

: 13.0 dBm

: 99% / Cont.TX No. of steps x and y 10 Phantom S/No:

Box phantom Stepsize x and y [mm]

Test Frequency [MHz]

5500 No of steps z Position / Channel:

Perpendicular / ch 100 Stepsize z [mm]

Probe Serial Number:

Liquid Simulant:

M0017 head Dist probe tip phantom shell [mm]

Probe conversion factor X/Y/Z Probe battery check [d/m/y]

09-06-2011 Max E-field [V/m in liquid]

5.80 Permittivity / Conductivity [S/m] 32.91 / 5.32 Location of max X= [mm]

-4.60 Liquid Temperature [C]

19.8 Location of max Y= [mm]

2.90 SAR Drift: [dB]

0.0 (0%) Location of max Z= [mm]

-475.0 0.268 Results:

SAR 1g [W/kg]:

Project number: 13050602-11042002.s01 Annex D 5 Of 10 3 13 2 3 0.46/0.35/

0.47 Measurement Form Annex E Smidshornerweg 18 Postbus 15 9822 ZG Niekerk T: (0594) 50 50 05 F: (0594) 50 48 04 Limits. 2d contour plot of scan closest to EUT. 3d representation of entire scan Exposure Category and SAR limits Test Requirements Compliance

(Yes/No/Not Applicable) Limit for General Public:

As per 1999/519/EC 1.6 W/kg

(averaged over 1g of tissue) IEEE-1528, OET 65-C YES Project number: 13050602-11042002.s01 Annex D 6 Of 10 Measurement Form Annex E Type

: Honeywell Regnr. Impact Xtreme SAR Sample Internal IEEE-1528, OET 65-C

:

:

: SAR_01 v1.2

: 20 Antenna Standard(s) TSD Ambient Conditions Used test equipment and ancillaries:

C 53

% RH Test engineer Date Smidshornerweg 18 Postbus 15 9822 ZG Niekerk T: (0594) 50 50 05 F: (0594) 50 48 04

: 13050602

(11042002)

: 09-06-2011

: L. Koopmans 99610 99568 99553 99554 99559 99671 Concerning measurement: SAR Antenna Port Bitrate System / software:

:

: 6Mb DSSS

-

SARA v2.54 Power Control Duty Cycle / Mode

: 13.0 dBm

: 99% / Cont.TX No. of steps x and y 10 Phantom S/No:

Box phantom Stepsize x and y [mm]

Test Frequency [MHz]

5700 No of steps z Position / Channel:

Perpendicular / ch 140 Stepsize z [mm]

Probe Serial Number:

Liquid Simulant:

M0017 head Dist probe tip phantom shell [mm]

Probe conversion factor X/Y/Z Probe battery check [d/m/y]

09-06-2011 Max E-field [V/m in liquid]

7.79 Permittivity / Conductivity [S/m] 32.32 / 5.58 Location of max X= [mm]

-9.73 Liquid Temperature [C]

19.8 Location of max Y= [mm]

2.97 SAR Drift: [dB]

0.0 (0%) Location of max Z= [mm]

-475.0 0.363 Results:

SAR 1g [W/kg]:

Project number: 13050602-11042002.s01 Annex D 7 Of 10 3 13 2 3 0.46/ 0.35/

0.47 Measurement Form Annex E Smidshornerweg 18 Postbus 15 9822 ZG Niekerk T: (0594) 50 50 05 F: (0594) 50 48 04 Limits. 2d contour plot of scan closest to EUT. 3d representation of entire scan Exposure Category and SAR limits Test Requirements Compliance

(Yes/No/Not Applicable) Limit for General Public:

As per 1999/519/EC 1.6 W/kg

(averaged over 1g of tissue) IEEE-1528, OET 65-C YES Project number: 13050602-11042002.s01 Annex D 8 Of 10 Measurement Form Annex E Type

: Honeywell Regnr. Impact Xtreme IP 192.168.0.9 Internal IEEE-1528, OET 65-C

:

:

: SAR_01 v1.2

: 20 Antenna Standard(s) TSD Ambient Conditions Used test equipment and ancillaries:

C 57

% RH Test engineer Date Smidshornerweg 18 Postbus 15 9822 ZG Niekerk T: (0594) 50 50 05 F: (0594) 50 48 04

: 13050602

(11042002)

: 09-10-2011

: L. Koopmans 99610 99568 99553 99554 99559 99671 Concerning measurement: SAR Antenna Port Bitrate System / software:

:

: 6Mb DSSS

-

SARA v2.54 Power Control Duty Cycle / Mode

: 12.0 dBm

: 99% / Cont.TX No. of steps x and y 10 Phantom S/No:

Box phantom Stepsize x and y [mm]

Test Frequency [MHz]

5805 No of steps z Position / Channel:

Perpendicular / ch 161 Stepsize z [mm]

Probe Serial Number:

Liquid Simulant:

M0017 head Dist probe tip phantom shell [mm]

Probe conversion factor X/Y/Z Probe battery check [d/m/y]

09-06-2011 Max E-field [V/m in liquid]

5.60 Permittivity / Conductivity [S/m] 32.04 / 5.67 Location of max X= [mm]

-5.27 Liquid Temperature [C]

19.8 Location of max Y= [mm]

-0.73 SAR Drift: [dB]

0.0 (0%) Location of max Z= [mm]

-475.0 0.274 Results:

SAR 1g [W/kg]:

Project number: 13050602-11042002.s01 Annex D 9 Of 10 3 13 2 3 0.46/0.34/

0.48 Measurement Form Annex E Smidshornerweg 18 Postbus 15 9822 ZG Niekerk T: (0594) 50 50 05 F: (0594) 50 48 04 Limits. 2d contour plot of scan closest to EUT. 3d representation of entire scan Exposure Category and SAR limits Test Requirements Limit for General Public:

1.6 W/kg

(averaged over 1g of tissue) IEEE-1528, OET 65-C Compliance

(Yes/No/Not Applicable) YES Project number: 13050602-11042002.s01 Annex D 10 Of 10

 

 

Honeywell 5) ae BW Technologies by Honeywell 2840 - 2 Avenue SE Calgary, AB Canada T2A 7X9 403-248-9226 Corporate 403-273-3708 Fax 800-663-4164 Toll Free To whomsoever it may concern This is to certify that the sample of our product namely, ImpactExtreme (FCC ID: R9O-!X-WL-1, IC ID:

5164A-IX-WI-1) sent to the TUV SAR test Lab for testing is representative of the production units with highest output power possible within the mass production tolerances or power tuning procedure of the device prior to shipment. Date: Moy IS, 2Ij2 Signature Baroni /\ oN

{ Name ) Bonnie J Saxinger Title: Sr Regulatory Engineer On behalf of BW Technotogies by Honeywell Phone : 847-955-4040

 

 

www.tuv.com Appendix 1 Prfbericht - Nr.: Test Report No. 01200001 001 &

01200002 001 Seite 1 von 2 Page 1 of 2 Radiated Test setup Radiated Test setup www.tuv.com Appendix 1 Prfbericht - Nr.: Test Report No. 01200001 001 &

01200002 001 Seite 2 von 2 Page 2 of 2 Radiated Test setup Radiated Test setup

 

 

Produkte Products Prfbericht - Nr.:

Test Report No.:

Auftraggeber:

Client:

01200001 001 BW Technologies Limited. 2840- 2nd Avenue S.E., Calgary, AB, Canada T2A 7X9, Gegenstand der Prfung:

Test item:

ImpactXtreme Bezeichnung:

Identification:

IXW01 Wareneingangs-Nr.:

Receipt No.:

1403011050 Seite 1 von 90 Page 1 of 90 Serien-Nr.:

Serial No. Engineering Sample Eingangsdatum:

Date of receipt:

07.08.2010 Prfort:

Testing location:

Prfgrundlage:

Test specification:

Refer Page 4 of 90 for test facilities FCC Part 15, Subpart C ANSI C63.10-2009 KDB558074 Prfergebnis:

Test Result:

Der Prfgegenstand entspricht oben genannter Prfgrundlage(n). The test items passed the test specification(s). Prflaboratorium:

Testing Laboratory:

TV Rheinland (India) Pvt. Ltd. 82/A, 3rd Main, West Wing, Electronic City Phase 1 Hosur Road, Bangalore 560 100. India geprft / tested by:

08.10.2012 Vinay.N Datum Date Engineer Name/Stellung Name/Position Unterschrift Signature Datum Date Manager Name/Stellung Name/Position kontrolliert / reviewed by:

10.10.2012 Raghavendra Kulkarni Unterschrift Signature Sonstiges /Other Aspects:

FCC ID: R9O-IX-WL-1, This product has FCC Part 15 Subpart E test report with report number 01200002 001 by TUV Rheinland. Abkrzungen:

P(ass) =

=

F(ail)

= nicht anwendbar N/A

= nicht getestet N/T entspricht Prfgrundlage entspricht nicht Prfgrundlage Abbreviations:

P(ass) = passed F(ail) N/A N/T

=

= not applicable

= not tested failed Dieser Prfbericht bezieht sich nur auf das o.g. Prfmuster und darf ohne Genehmigung der Prfstelle nicht auszugsweise vervielfltigt werden. Dieser Bericht berechtigt nicht zur Verwendung eines Prfzeichens. This test report relates to the a. m. test sample. Without permission of the test center this test report is not permitted to be duplicated in extracts. This test report does not entitle to carry any safety mark on this or similar products. TV Rheinland LGA Products GmbH Tillystrae 2 D - 90431 Nrnberg Tel.: +49 911 655 5225 Fax: +49 911 655 5226 Mail: service@de.tuv.com Web: www.tuv.com Rev.:1.2 2009-12-29 / approved: M.Jungnitsch www.tuv.com Test Result Summary Clause Test Item Result FCC 15.247(b) (3) Conducted Output Power FCC 15.247(a) (2) 6dB Bandwidth FCC 15.247(e) Power Spectral Density FCC 15.247(d) Band-edge compliance FCC 15.209 Spurious Radiated Emissions Pass Pass Pass Pass Pass FCC 15.205 Restricted Bands of Operation Pass Test Report No.: 01200001 001 Date: 03.10.2012 Page 2 of 90 www.tuv.com Content List of Type and Measurement Instruments ................................................................ 4 General Product Information ........................................................................................ 5 Product Function and Intended Use .......................................................................................................... 5 Ratings and System Details ........................................................................................................................ 5 Operation Descriptions ................................................................................................. 6 Test Set-up and Operation Mode .................................................................................. 7 Principle of Configuration Selection ......................................................................................................... 7 Test Operation and Test Software ............................................................................................................. 7 Special Accessories and Auxiliary Equipment ......................................................................................... 7 Countermeasures to achieve EMC Compliance ....................................................................................... 7 Test Modes Data Rates and Modulations .............................................................................................. 7 Table of carrier frequencies ........................................................................................................................ 8 Test Methodology .......................................................................................................... 9 Radiated Emission Test .............................................................................................................................. 9 Test Results ................................................................................................................. 10 Conducted Output Power Section 15.247(b) (3) ..................... 10 Power Spectral Density Section 15.247(e) .......................... 24 6 dB Bandwidth Section 15.247(a)(2) ...................... 38 Band-edge Compliance Section 15.247(d) .......................... 64 Spurious Radiated Emissions and Restricted Bands of Operation Section 15.209 and 15.205 ............ 86 Appendix 1: Test Setup Photo Appendix 2: EUT External Photo Appendix 3: EUT Internal Photo Appendix 4: FCC Label and Label Location Appendix 5: Block Diagram Appendix 6: Specification of EUT Appendix 7: Schematic Diagrams Appendix 8: Bill of Material Appendix 9: User Manual Appendix 10: SAR Test Report Test Report No.: 01200001 001 Date: 03.10.2012 Page 3 of 90 www.tuv.com List of Type and Measurement Instruments TV Rheinland (India) Pvt. Ltd, Bangalore Equipment Manufacturer Model S/N ESU 40 ESCI 3142D HAX-18 100288 100661 00081354 HAX18-802 Calibration Due Date 21.07.2013 17.03.2013 26.07.2013 23.03.2013 EMI Test Receiver EMI Test Receiver Rohde &Schwarz Rohde &Schwarz Hybrid Log Periodic antenna ETS Lindgren Broadband Horn Antenna Double-Ridged Waveguide Horn Antenna Frankonia ETS Lindgren 116794 00133356 01-09-2013 Emission Horn Antenna ETS Lindgren Active Loop Antenna Spectrum Analyser Frankonia Agilent Technologies 116706 LAX-10 00107323 LAX-10-800 24-08-2013 11-04-2013 E4407B US41192772 17.03.2013 Honeywell Technology Solutions, Bangalore Manufacturer Kind of Equipment Type S/N EMI Test Receiver R&S Log Periodic Antenna EMCO ESU26 3148 100229 66012 Calibrated Due Date 14.12.2012 27.10.2012 E8257D-PSG Analog Signal Generator Double Ridge Guide Horn Antenna Double Ridge Guide Horn Antenna Agilent E8257D US46461028 25.09.2013 EMCO 3117 64055 01.11.2012 ETS Lindgren 3177 00119022 24.02.2013 Biconical Antenna EMCO 3104C 69263 27.10.2012 Testing Facilities 1) TUV Rheinland (India) Private Limited No. 108, West Wing Electronic city Phase I Bangalore 560100 India 2) Honeywell Technology Solutions Lab (HTSL) Survey No. 19/2, Devarabisanahalli Village KR Puram Hobli, Bangalore East Taluk Bangalore 560 037 Test Report No.: 01200001 001 Date: 03.10.2012 Page 4 of 90 www.tuv.com General Product Information Product Function and Intended Use The Impact Xtreme is a compact, portable gas monitor designed to be carried or worn without hindering the user. Its purpose is to monitor the atmosphere continuously for hazardous levels of up to six gases. Audible and visual alarms alert the user to danger when hazardous conditions are detected. The Impact Xtreme has been designed to alert the user to potentially hazardous atmospheres while carrying out his/her normal duties. Therefore, the monitor must be kept switched on and worn as close to the breathing area as possible, and several accessories are provided to allow the monitor to be worn in a number of different ways:

a. On the chest b. On a belt c. Attached to a body harness The monitor is provided with various methods to enable the user to comply safely and easily with confined space regulations. Ratings and System Details Operating Frequency 2400MHz 2483.5MHz 5725MHz 5850MHz 5150MHz - 5725MHz (Covered in FCC Part 15E Report) No. of channel Please refer Table of Carrier Frequencies Channel Spacing 5MHz for 2.4GHz band 20MHz for 5GHz band Transmitted Power Data Rate 802.11a 802.11b 802.11g 802.11a: 6, 9, 12, 18, 24, 36, 48, 54 Mbps 802.11b: 1,2, 5.5,11 Mbps 802.11g: 6, 9, 12, 18, 24, 36, 48, 54 Mbps 17.66 dBm 21.71 dBm 24.35 dBm Antenna Type PCB Antenna Number of antenna 2 Antenna Gain 2.35dBi max Supply Voltage 6V DC (Battery) Dimensions 130mm x 120mm x 50mm Environmental Rechargeable battery: -40C to +60C (-40F to 140F) Test Conditions: Voltage: 6V Battery Environmental conditions: Temperature: +23 C RH: 62%

Test Report No.: 01200001 001 Date: 03.10.2012 Page 5 of 90 www.tuv.com Operation Descriptions The monitor can be supplied with six gas sensors, for detecting oxygen (enrichment and deficiency), flammable gases (up to the Lower Explosive Limit) and two toxic gases (for personal safety) all housed in an easily replaceable cartridge. An alternative arrangement using infrared sensors for flammable is also available. Various sensor technologies are used to achieve this. In the vast majority of cases, electrochemical technology is used to detect oxygen and toxic gases while catalytic combustion technology is used to detect flammable gases. Infrared technology is used to detect flammable gases. Two types of cartridges are available. One is disposable where the cartridge has a fixed life and once this has expired the cartridge is disposed of. The other is a Serviceable Cartridge where the sensors can be individually replaced when required. The serviceable cartridge type can be only used in the ImpactXtreme. Block Diagram Test Report No.: 01200001 001 Date: 03.10.2012 Page 6 of 90 www.tuv.com Test Set-up and Operation Mode Principle of Configuration Selection Emission: The test was performed under continuous transmission to obtain the maximum emissions. Test Operation and Test Software Continuous transmission was enabled through test software and Channel / data rate selection was done with the software. All the tests were performed at 16dBm power setting for 2.4GHz band and at 13dBm setting for 5GHz band which are maximum available power settings for this product. Special Accessories and Auxiliary Equipment

- None Countermeasures to achieve EMC Compliance

- None Test Modes Data Rates and Modulations For Radiated spurious emissions, the tests were performed for all data rates and only worst results are reported in this report. Test Report No.: 01200001 001 Date: 03.10.2012 Page 7 of 90 www.tuv.com Table of carrier frequencies Frequency Band

(MHz) Channel No. Frequency

(MHz) 2400 2483.5 1 2 3 4 5 6 7 8 9 10 11 B Mode Only 12 13 149 153 157 161 165 5725 5850 2412 2417 2422 2427 2432 2437 2442 2447 2452 2457 2462 2467 2472 5745 5765 5785 5805 5825 Test Report No.: 01200001 001 Date: 03.10.2012 Page 8 of 90 www.tuv.com Test Methodology Radiated Emission Test The radiated emission measurement was performed according to the procedures in ANSI C63.10-2009. The equipment under test (EUT) was placed at the middle of the 80 cm high turntable, and the EUT is 3 meters far from the measuring antenna. The turntable was rotated 360 for obtaining the maximum emission. The height of the measuring antennas was scanned between 1m and 4m, and the antenna rotated to repeat the measurements for both the horizontal and vertical antenna polarizations. Repeat the measurement steps until the maximum emissions were obtained. The measurement above 1000MHz was performed by horn antenna. The measurement below 30MHz was performed by loop antenna. The EUT was rotated around the X-, Y-, and Z-Axis and the results from worst case axis are recorded. Semi-anechoic Chamber 3m EUT Turntable Ground Plane Pre-Amplifier Measuring Receiver /

Spectrum Analyzer Test Report No.: 01200001 001 Date: 03.10.2012 Page 9 of 90 www.tuv.com Test Results Conducted Output Power Section 15.247(b) (3) Result Pass Test Specification Measurement Bandwidth (RBW) Requirement FCC Part 15 Subpart C 1 MHz

<1 watt (30dBm) for Digital Transmission System. Test Method:

EUT Spectrum Analyzer Test Result:

Cable Loss: 1.5 dB Modulation: 802.11b Data Rate

(Mbps) Frequency

(MHz) Measured RF Output power

(dBm) Total Output Limit power

(dBm)

(dBm) 18.40 18.49 17.39 21.54 21.71 20.56 30 30 30 30 30 30 1 11 2412 2442 2472 2412 2442 2472 16.90 16.99 15.89 20.04 20.21 19.06 Test Report No.: 01200001 001 Date: 03.10.2012 Page 10 of 90 www.tuv.com Data rate: 1 Mbps Channel Frequency: 2412 MHz Data rate: 1 Mbps Channel Frequency: 2442 MHz Test Report No.: 01200001 001 Date: 03.10.2012 Page 11 of 90 www.tuv.com Data rate: 1 Mbps Channel Frequency: 2472 MHz Data rate: 11 Mbps Channel Frequency: 2412 MHz Test Report No.: 01200001 001 Date: 03.10.2012 Page 12 of 90 www.tuv.com Data rate: 11 Mbps Channel Frequency: 2442 MHz Data rate: 11 Mbps Channel Frequency: 2472 MHz Test Report No.: 01200001 001 Date: 03.10.2012 Page 13 of 90 www.tuv.com Modulation: 802.11g Cable Loss: 0.8 dB Data Rate

(Mbps) Frequency

(MHz) Measured RF Output power

(dBm) 6 24 54 2412 2437 2462 2412 2437 2462 2412 2437 2462 21.44 21.85 20.97 21.95 22.44 21.51 22.12 22.85 21.83 Total Output power

(dBm) 22.94 23.35 22.47 23.45 23.94 23.01 23.62 24.35 23.33 Limit

(dBm) 30 30 30 30 30 30 30 30 30 Data rate: 6 Mbps Channel Frequency: 2412 MHz Test Report No.: 01200001 001 Date: 03.10.2012 Page 14 of 90 www.tuv.com Data rate: 6 Mbps Channel Frequency: 2437 MHz Data rate: 6 Mbps Channel Frequency: 2462 MHz Test Report No.: 01200001 001 Date: 03.10.2012 Page 15 of 90 www.tuv.com Data rate: 24 Mbps Channel Frequency: 2412 MHz Data rate: 24 Mbps Channel Frequency: 2437 MHz Test Report No.: 01200001 001 Date: 03.10.2012 Page 16 of 90 www.tuv.com Data rate: 24 Mbps Channel Frequency: 2462 MHz Data rate: 54 Mbps Channel Frequency: 2412 MHz Test Report No.: 01200001 001 Date: 03.10.2012 Page 17 of 90 www.tuv.com Data rate: 54 Mbps Channel Frequency: 2437 MHz Data rate: 54 Mbps Channel Frequency: 2462 MHz Test Report No.: 01200001 001 Date: 03.10.2012 Page 18 of 90 www.tuv.com Modulation: 802.11a Test Results:

Cable Loss: 4 dB Data Rate

(Mbps) Frequency

(MHz) Measured RF Output power

(dBm) 6 24 54 5745 5785 5825 5745 5785 5825 5745 5785 5825 12.48 12.97 12.72 13.23 13.66 13.62 13.61 13.57 13.53 Total Output power

(dBm) 16.48 16.97 16.72 17.23 17.66 17.62 17.61 17.57 17.53 Limit

(dBm) 30 30 30 30 30 30 30 30 30 Data rate: 6 Mbps Channel Frequency: 5745 MHz Test Report No.: 01200001 001 Date: 03.10.2012 Page 19 of 90 www.tuv.com Data rate: 6 Mbps Channel Frequency: 5785 MHz Data rate: 6 Mbps Channel Frequency: 5825 MHz Test Report No.: 01200001 001 Date: 03.10.2012 Page 20 of 90 www.tuv.com Data rate: 24 Mbps Channel Frequency: 5745 MHz Data rate: 24 Mbps Channel Frequency: 5785 MHz Test Report No.: 01200001 001 Date: 03.10.2012 Page 21 of 90 www.tuv.com Data rate: 24 Mbps Channel Frequency: 5825 MHz Data rate: 54 Mbps Channel Frequency: 5745 MHz Test Report No.: 01200001 001 Date: 03.10.2012 Page 22 of 90 www.tuv.com Data rate: 54 Mbps Channel Frequency: 5785 MHz Data rate: 54 Mbps Channel Frequency: 5825 MHz Test Report No.: 01200001 001 Date: 03.10.2012 Page 23 of 90 www.tuv.com Power Spectral Density Section 15.247(e) Result Pass Test Specification Detector Function Requirement FCC Part 15 Section 15.247 (e) Peak For digitally modulated systems, the power spectral density conducted from the intentional radiator to the antenna shall not be greater than 8 dBm. Test Method:

EUT Spectrum Analyzer Test Result:

Modulation: 802.11b Cable Loss: 1.5dB Band Width Correction Factor = -15.2dB Data Rate Frequency

(Mbps)

(MHz) Measured PSD

(dBm) 1 11 2412 2442 2472 2412 2442 2472 3.69 3.97 2.91 5.27 5.53 4.48 PSD

(dBm)

-10.01

-9.73

-10.79

-8.43

-8.17

-9.22 Limit

(dBm) 8.00 8.00 8.00 8.00 8.00 8.00 Test Report No.: 01200001 001 Date: 03.10.2012 Page 24 of 90 www.tuv.com Data rate: 1 Mbps Channel Frequency: 2412 MHz Data rate: 1 Mbps Channel Frequency: 2442 MHz Test Report No.: 01200001 001 Date: 03.10.2012 Page 25 of 90 www.tuv.com Data rate: 1 Mbps Channel Frequency: 2472 MHz Data rate: 11 Mbps Channel Frequency: 2412 MHz Test Report No.: 01200001 001 Date: 03.10.2012 Page 26 of 90 www.tuv.com Data rate: 11 Mbps Channel Frequency: 2442 MHz Data rate: 11 Mbps Channel Frequency: 2472 MHz Test Report No.: 01200001 001 Date: 03.10.2012 Page 27 of 90 www.tuv.com Test Result:

Modulation: 802.11g Cable Loss: 1.5 dB Band Width Correction Factor = -15.2dB Data Rate Frequency

(Mbps)

(MHz) 6 24 54 2412 2437 2462 2412 2437 2462 2412 2437 2462 Measured PSD

(dBm)

-0.44 0.30

-0.32 0.99 1.71 0.87 1.33 1.99 1.15 PSD

(dBm)

-14.14

-13.40

-14.02

-12.71

-11.99

-12.83

-12.37

-11.71

-12.55 Limit

(dBm) 8.00 8.00 8.00 8.00 8.00 8.00 8.00 8.00 8.00 Data rate: 6 Mbps Channel Frequency: 2412 MHz Test Report No.: 01200001 001 Date: 03.10.2012 Page 28 of 90 www.tuv.com Data rate: 6 Mbps Channel Frequency: 2437 MHz Data rate: 6 Mbps Channel Frequency: 2462 MHz Test Report No.: 01200001 001 Date: 03.10.2012 Page 29 of 90 www.tuv.com Data rate: 24 Mbps Channel Frequency: 2412 MHz Data rate: 24 Mbps Channel Frequency: 2437 MHz Test Report No.: 01200001 001 Date: 03.10.2012 Page 30 of 90 www.tuv.com Data rate: 24 Mbps Channel Frequency: 2462MHz Data rate: 54 Mbps Channel Frequency: 2412 MHz Test Report No.: 01200001 001 Date: 03.10.2012 Page 31 of 90 www.tuv.com Data rate: 54 Mbps Channel Frequency: 2437 MHz Data rate: 54 Mbps Channel Frequency: 2462 MHz Test Report No.: 01200001 001 Date: 03.10.2012 Page 32 of 90 www.tuv.com Test Result:

Modulation: 802.11.a Cable Loss: 4 dB Band Width Correction Factor = -15.2dB Data Rate Frequency

(Mbps)

(MHz) 6 24 54 5745 5785 5825 5745 5785 5825 5745 5785 5825 Measured PSD

(dBm)

-9.28

-8.96

-9.36

-7.57

-7.29

-7.75

-7.41

-6.94

-7.28 PSD

(dBm)

-20.48

-20.16

-20.56

-18.77

-18.49

-18.95

-18.61

-18.14

-18.48 Limit

(dBm) 8.00 8.00 8.00 8.00 8.00 8.00 8.00 8.00 8.00 Data rate: 6 Mbps Channel Frequency: 5745 MHz Test Report No.: 01200001 001 Date: 03.10.2012 Page 33 of 90 www.tuv.com Data rate: 6 Mbps Channel Frequency: 5785 MHz Data rate: 6 Mbps Channel Frequency: 5825 MHz Test Report No.: 01200001 001 Date: 03.10.2012 Page 34 of 90 www.tuv.com Data rate: 24 Mbps Channel Frequency: 5745 MHz Data rate: 24 Mbps Channel Frequency: 5785 MHz Test Report No.: 01200001 001 Date: 03.10.2012 Page 35 of 90 www.tuv.com Data rate: 24 Mbps Channel Frequency: 5825 MHz Data rate: 54 Mbps Channel Frequency: 5745 MHz Test Report No.: 01200001 001 Date: 03.10.2012 Page 36 of 90 www.tuv.com Data rate: 54 Mbps Channel Frequency: 5785 MHz Data rate: 54 Mbps Channel Frequency: 5825 MHz Test Report No.: 01200001 001 Date: 03.10.2012 Page 37 of 90 www.tuv.com 6 dB Bandwidth Section 15.247(a)(2) Result Pass Test Specification Requirement FCC Part 15 Section 15.247 (a) (2) The minimum 6 dB bandwidth shall be at least 500 kHz. Test Method:

EUT Spectrum Analyzer Test Result:

Modulation: 802.11b Date Rate

(Mbps) Carrier Frequency

(MHz) 1 11 2412 2442 2472 2412 2442 2472 Lower Upper 6 dB 99% OBW Frequency Frequency Bandwidth

(MHz)

(MHz) 2416.99 2446.96 2476.99 2416.84 2446.83 2476.84

(MHz) 09.99 09.97 10.03 09.85 10.26 10.27 13.50 13.74 13.83 13.51 13.55 13.59

(MHz) 2407.00 2436.99 2466.96 2406.99 2436.57 2466.57 Test Report No.: 01200001 001 Date: 03.10.2012 Page 38 of 90 www.tuv.com Data Rate: 1 Mbps Channel frequency: 2412 MHz Data Rate: 1 Mbps Channel frequency: 2442 MHz Test Report No.: 01200001 001 Date: 03.10.2012 Page 39 of 90 www.tuv.com Data Rate: 1 Mbps Channel frequency: 2472 MHz Data rate: 1 Mbps 99% Occupied Bandwidth: Channel 2412MHz Test Report No.: 01200001 001 Date: 03.10.2012 Page 40 of 90 www.tuv.com Data rate: 1 Mbps 99% Occupied Bandwidth: Channel 2442MHz Data rate: 1 Mbps 99% Occupied Bandwidth: Channel 2472MHz Test Report No.: 01200001 001 Date: 03.10.2012 Page 41 of 90 www.tuv.com Data Rate: 11 Mbps Channel frequencies: 2412 MHz Data Rate: 11 Mbps Channel frequency: 2442 MHz Test Report No.: 01200001 001 Date: 03.10.2012 Page 42 of 90 www.tuv.com Data Rate: 11 Mbps Channel frequency: 2472 MHz Data rate: 11 Mbps 99% Occupied Bandwidth: Channel 2412MHz Test Report No.: 01200001 001 Date: 03.10.2012 Page 43 of 90 www.tuv.com Data rate: 11 Mbps 99% Occupied Bandwidth: Channel 2442MHz Data rate: 11 Mbps 99% Occupied Bandwidth: Channel 2472MHz Test Report No.: 01200001 001 Date: 03.10.2012 Page 44 of 90 www.tuv.com Modulation: 802.11g Data Rate

(Mbps) Carrier Frequency

(MHz) 2412 2437 2462 2412 2437 2462 2412 2437 2462 6 24 54 Lower Upper 6 dB Frequency Frequency Bandwidth

(MHz)

(MHz)

(MHz) 2403.7 2428.7 2453.7 2420.28 2445.78 2470.28 2403.72 2420.26 2428.72 2445.26 2453.72 2470.26 2403.72 2420.26 2428.7 2445.26 2453.72 2470.26 99% OBW

(MHz) 16.49 16.48 16.48 16.44 16.44 16.44 16.47 16.46 16.47 16.58 17.08 16.58 16.54 16.54 16.54 16.54 16.56 16.54 Data Rate: 6 Mbps Channel frequencies: 2412 MHz Test Report No.: 01200001 001 Date: 03.10.2012 Page 45 of 90 www.tuv.com Data Rate: 6 Mbps Channel frequencies: 2437 MHz Data Rate: 6 Mbps Channel frequencies: 2462 MHz Test Report No.: 01200001 001 Date: 03.10.2012 Page 46 of 90 www.tuv.com Data Rate: 6 Mbps 99% Occupied Bandwidth: Channel 2412MHz Data Rate: 6 Mbps 99% Occupied Bandwidth: Channel 2437MHz Test Report No.: 01200001 001 Date: 03.10.2012 Page 47 of 90 www.tuv.com Data Rate: 6 Mbps 99% Occupied Bandwidth: Channel 2462MHz Data Rate: 24 Mbps Channel frequencies: 2412 MHz Test Report No.: 01200001 001 Date: 03.10.2012 Page 48 of 90 www.tuv.com Data Rate: 24 Mbps Channel frequencies: 2437 MHz Data Rate: 24 Mbps Channel frequencies: 2462MHz Test Report No.: 01200001 001 Date: 03.10.2012 Page 49 of 90 www.tuv.com Data Rate: 24 Mbps 99% Occupied Bandwidth: Channel 2412MHz Data Rate: 24 Mbps 99% Occupied Bandwidth: Channel 2437MHz Test Report No.: 01200001 001 Date: 03.10.2012 Page 50 of 90 www.tuv.com Data Rate: 24 Mbps 99% Occupied Bandwidth: Channel 2462MHz Data Rate: 54 Mbps Channel frequencies: 2412 MHz Test Report No.: 01200001 001 Date: 03.10.2012 Page 51 of 90 www.tuv.com Data Rate: 54 Mbps Channel frequencies: 2437MHz Data Rate: 54 Mbps Channel frequencies: 2462 MHz Test Report No.: 01200001 001 Date: 03.10.2012 Page 52 of 90 www.tuv.com Data Rate: 54 Mbps 99% Occupied Bandwidth: Channel 2412MHz Data Rate: 54 Mbps 99% Occupied Bandwidth: Channel 2437MHz Test Report No.: 01200001 001 Date: 03.10.2012 Page 53 of 90 www.tuv.com Data Rate: 54 Mbps 99% Occupied Bandwidth: Channel 2462MHz Modulation: 802.11a Data Rate

(Mbps) Carrier Frequency

(MHz) 5745 5785 5825 5745 5785 5825 5745 5785 5825 6 24 54 Lower Frequency Upper 6 dB Frequency Bandwidth

(MHz) 5736.68 5776.68 5816.68 5736.70 5776.70 5816.70 5736.70 5776.70 5816.72

(MHz) 5753.26 5793.26 5833.26 5753.24 5793.24 5833.24 5753.24 5793.24 5833.24

(MHz) 16.58 16.58 16.58 16.54 16.54 16.54 16.54 16.54 16.52 99% OBW

(MHz) 16.51 16.51 16.50 16.45 16.45 16.47 16.49 16.47 16.47 Test Report No.: 01200001 001 Date: 03.10.2012 Page 54 of 90 www.tuv.com Data Rate: 6 Mbps Channel frequency: 5745 MHz Data Rate: 6 Mbps Channel frequency: 5785 MHz Test Report No.: 01200001 001 Date: 03.10.2012 Page 55 of 90 www.tuv.com Data Rate: 6 Mbps Channel frequency: 5825 MHz Data Rate: 6 Mbps 99% Occupied Bandwidth: Channel 5745MHz Test Report No.: 01200001 001 Date: 03.10.2012 Page 56 of 90 www.tuv.com Data Rate: 6 Mbps 99% Occupied Bandwidth: Channel 5785MHz Data Rate: 6 Mbps 99% Occupied Bandwidth: Channel 5825MHz Test Report No.: 01200001 001 Date: 03.10.2012 Page 57 of 90 www.tuv.com Data Rate: 24 Mbps Channel frequency: 5745 MHz Data Rate: 24 Mbps Channel frequency: 5785 MHz Test Report No.: 01200001 001 Date: 03.10.2012 Page 58 of 90 www.tuv.com Data Rate: 24 Mbps Channel frequency: 5825 MHz Data Rate: 24 Mbps 99% Occupied Bandwidth: Channel 5745MHz Test Report No.: 01200001 001 Date: 03.10.2012 Page 59 of 90 www.tuv.com Data Rate: 24 Mbps 99% Occupied Bandwidth: Channel 5785MHz Data Rate: 24 Mbps 99% Occupied Bandwidth: Channel 5825MHz Test Report No.: 01200001 001 Date: 03.10.2012 Page 60 of 90 www.tuv.com Data Rate: 54 Mbps Channel frequency: 5745 MHz Data Rate: 54 Mbps Channel frequency: 5785 MHz Test Report No.: 01200001 001 Date: 03.10.2012 Page 61 of 90 www.tuv.com Data Rate: 54 Mbps Channel frequency: 5825 MHz Data Rate: 54 Mbps 99% Occupied Bandwidth: Channel 5745MHz Test Report No.: 01200001 001 Date: 03.10.2012 Page 62 of 90 www.tuv.com Data Rate: 54 Mbps 99% Occupied Bandwidth: Channel 5785MHz Data Rate: 54 Mbps 99% Occupied Bandwidth: Channel 5825MHz Test Report No.: 01200001 001 Date: 03.10.2012 Page 63 of 90 www.tuv.com Band-edge Compliance Section 15.247(d) Result Pass Test Specification Detector Function Requirement FCC Part 15 Section 15.247(d) Peak In any 100 kHz bandwidth outside the frequency band in which the spread spectrum or digitally modulated intentional radiator is operating, the radio frequency power that is produced by the intentional radiator shall be at least 20 dB below that in the 100 kHz bandwidth within the band that Contains the highest level of the desired power, based on either an RF conducted or a radiated measurement, and provided the transmitter demonstrates compliance with the peak conducted power limits. If the transmitter complies with the conducted power limits based on the use of RMS averaging over a time interval, as permitted under paragraph

(b)(3) of this section, the attenuation required under this paragraph Shall be 30 dB instead of 20 dB. Test Method:

EUT Spectrum Analyzer Test Result:

Modulation: 802.11b Data Rate

(Mbps) Channel Fundamental Frequency

(MHz) 1 11 Low High Low High 2412 2472 2412 2472 Value at Band Edge Frequency

(MHz) 2400.00 2483.50 2400.00 2483.50 Value

(dB)

-38.46

-43.09

-40.95

-46.41 Limit

(dB)

-30.00

-30.00

-30.00

-30.00 Test Report No.: 01200001 001 Date: 03.10.2012 Page 64 of 90 www.tuv.com Data Rate: 1 Mbps Channel frequency: 2412 MHz Data Rate: 1 Mbps Channel frequency: 2472 MHz Test Report No.: 01200001 001 Date: 03.10.2012 Page 65 of 90 www.tuv.com Data Rate: 11 Mbps Channel frequency: 2412 MHz Data Rate: 11 Mbps Channel frequency: 2472 MHz Test Report No.: 01200001 001 Date: 03.10.2012 Page 66 of 90 www.tuv.com Test Results:

Modulation: 802.11g Data Rate

(Mbps) Channel Fundamental Frequency

(MHz) 6 24 54 Low High Low High Low High 2412 2462 2412 2462 2412 2462 Value at Band Edge Frequency

(MHz) 2400.00 2483.50 2400.00 2483.50 2400.00 2483.50 Value

(dB)

-36.61

-48.20

-34.86

-47.36

-34.71

-49.14 Limit

(dB)

-30.00

-30.00

-30.00

-30.00

-30.00

-30.00 Data Rate: 6 Mbps Channel frequency: 2412 MHz Test Report No.: 01200001 001 Date: 03.10.2012 Page 67 of 90 www.tuv.com Data Rate: 6 Mbps Channel frequency: 2462 MHz Data Rate: 24 Mbps Channel frequency: 2412 MHz Test Report No.: 01200001 001 Date: 03.10.2012 Page 68 of 90 www.tuv.com Data Rate: 24 Mbps Channel frequency: 2462 MHz Data Rate: 54 Mbps Channel frequency: 2412 MHz Test Report No.: 01200001 001 Date: 03.10.2012 Page 69 of 90 www.tuv.com Data Rate: 54 Mbps Channel frequency: 2462 MHz Modulation: 802.11a Data Rate

(Mbps) Channel Fundamental Frequency

(MHz) 6 24 54 Low High Low High Low High 5745 5825 5745 5825 5745 5825 Value at Band Edge Frequency

(MHz) 5725 5850 5725 5850 5725 5850 Value

(dB)

-37.04

-38.35

-37.49

-38.99

-39.46

-39.83 Limit

(dB)

-30.00

-30.00

-30.00

-30.00

-30.00

-30.00 Test Report No.: 01200001 001 Date: 03.10.2012 Page 70 of 90 www.tuv.com Data Rate: 6 Mbps Channel frequency: 5745 MHz Data Rate: 6 Mbps Channel frequency: 5825 MHz Test Report No.: 01200001 001 Date: 03.10.2012 Page 71 of 90 www.tuv.com Data Rate: 24 Mbps Channel frequency: 5745 MHz Data Rate: 24 Mbps Channel frequency: 5825 MHz Test Report No.: 01200001 001 Date: 03.10.2012 Page 72 of 90 www.tuv.com Data Rate: 54 Mbps Channel frequency: 5745 MHz Data Rate: 54 Mbps Channel frequency: 5825 MHz Test Report No.: 01200001 001 Date: 03.10.2012 Page 73 of 90 www.tuv.com Conducted Spurious Emission Modulation: 802.11b Data Rate: 1 Mbps Channel frequency: 2412 MHz Data Rate: 1 Mbps Channel frequency: 2442 MHz Test Report No.: 01200001 001 Date: 03.10.2012 Page 74 of 90 www.tuv.com Data Rate: 1 Mbps Channel frequency: 2472 MHz Data Rate: 11 Mbps Channel frequency: 2412 MHz Test Report No.: 01200001 001 Date: 03.10.2012 Page 75 of 90 www.tuv.com Data Rate: 11 Mbps Channel frequency: 2442 MHz Data Rate: 11 Mbps Channel frequency: 2472 MHz Test Report No.: 01200001 001 Date: 03.10.2012 Page 76 of 90 www.tuv.com Modulation: 802.11g Data Rate: 6 Mbps Channel frequency: 2412 MHz Data Rate: 6 Mbps Channel frequency: 2437 MHz Test Report No.: 01200001 001 Date: 03.10.2012 Page 77 of 90 www.tuv.com Data Rate: 6 Mbps Channel frequency: 2462 MHz Data Rate: 24 Mbps Channel frequency: 2412 MHz Test Report No.: 01200001 001 Date: 03.10.2012 Page 78 of 90 www.tuv.com Data Rate: 24 Mbps Channel frequency: 2437 MHz Data Rate: 24 Mbps Channel frequency: 2472 MHz Test Report No.: 01200001 001 Date: 03.10.2012 Page 79 of 90 www.tuv.com Data Rate: 54 Mbps Channel frequency: 2412 MHz Data Rate: 54 Mbps Channel frequency: 2442 MHz Test Report No.: 01200001 001 Date: 03.10.2012 Page 80 of 90 www.tuv.com Data Rate: 54 Mbps Channel frequency: 2472 MHz Modulation: 802.11a Data Rate: 6 Mbps Channel frequency: 5745 MHz Test Report No.: 01200001 001 Date: 03.10.2012 Page 81 of 90 www.tuv.com Data Rate: 6 Mbps Channel frequency: 5785 MHz Data Rate: 6 Mbps Channel frequency: 5825 MHz Test Report No.: 01200001 001 Date: 03.10.2012 Page 82 of 90 www.tuv.com Data Rate: 24 Mbps Channel frequency: 5745 MHz Data Rate: 24 Mbps Channel frequency: 5785 MHz Test Report No.: 01200001 001 Date: 03.10.2012 Page 83 of 90 www.tuv.com Data Rate: 24Mbps Channel frequency: 5825 MHz Data Rate: 54 Mbps Channel frequency: 5745 MHz Test Report No.: 01200001 001 Date: 03.10.2012 Page 84 of 90 www.tuv.com Data Rate: 54 Mbps Channel frequency: 5785 MHz Data Rate: 54 Mbps Channel frequency: 5825 MHz Test Report No.: 01200001 001 Date: 03.10.2012 Page 85 of 90 www.tuv.com Spurious Radiated Emissions and Restricted Bands of Operation Section 15.209 and 15.205 Result Pass Test Specification Test Method Measurement Location Measuring Distance Detection Requirement Limit for Radiated Emission of Section 15.209:

FCC Part 15 Section 15.209 &15.205 ANSI C63.10-2009 Semi Anechoic Chamber 3m QP for frequency below 1GHz, Average for frequency above 1GHz As per the limits mentioned in the bellow table Frequency

(MHz) Field strength Field strength Distance of

(V/m)

(dBV/m) Measurement (m) 0.009 0.490 2400/F(kHz) 48.50 13.80 0.490 1.705 24000/F(kHz) 33.80 23.00 1.705 -30 30-88 88-216 216-960 Above 960 30 100 150 200 500 29.54 40.0 43.5 46.0 54.0 300*

30*

30*

3 3 3 3 Remark: * the limit shows in the table above of frequency range 0.009 0.490, 0.490 1.705 MHz and 1.705-30MHz is at 300 meter, 30 meter and 30 meter range respectively, which corresponds to 88,50 53.80, 53.80 43.00 and 49.5dBV/m at 3m range by extrapolation calculation and the measurement of loop antenna. The emission limits shown in the above table are based on measurements employing a CISPR quasi-peak detector except for the frequency bands 990 kHz, 110490 kHz and above 1000 MHz Radiated emission limits in these three bands are based on measurements employing an average detector. Test Report No.: 01200001 001 Date: 03.10.2012 Page 86 of 90 www.tuv.com Test result:

Polarization Frequency

(MHz) Field Strength

( dBV/m ) Limit

( dBV/m ) Margin

(dB) V H 199.79 400.21 199.99 349.99 383.36 400.01 16.97 28.22 32.67 40.85 40.58 42.70 43.50 46.00 43.50 46.00 46.00 46.00

-26.53

-17.78

-10.83

-5.15

-5.42

-3.30 Modulation: 802.11b Fundamental Frequency Antenna Polarization Spurious Emission

(MHz) Field Strength

( dBV/m ) Limit

(dBV/m ) Margin

( dB )

(MHz) 2412 2442 2390.00 (Pk) 54.15 74.00

-19.85 2390.00 (Av) 50.06 54.00

-03.94 H 2412.00 (Pk) 97.89 2412.00 (Av) 93.80 No Harmonics Found

-

-

-

*

*

-

2390.00(Pk) 56.47 74.00

-17.53 2390.00(Av) 52.05 54.00

-1.95 V 2412.00 (Pk) 101.69 2412.00(Av) 97.60 No Harmonics Found 2442.00 (Pk) 96.87 H 2442.00 (Av) 92.88 No Harmonics Found 2442.00 (Pk) 100.70 V 2442.00(Av) 96.05 No Harmonics Found 2472.00 (Pk) 96.79 2472.00 (Av) 92.70

-

-

-

-

-

-

-

-

-

-

-

*

*

*

*

*

*

*

*

H 2483.50 (Pk) 52.84 74.00

-21.16 2472 2483.50 (Av) 48.75 54.00

-05.25 No Harmonics Found 2472.00 (Pk) 100.36 2472.00 (Av) 96.25

-

-

-

*

*

Test Report No.: 01200001 001 Date: 03.10.2012 Page 87 of 90 V 2483.50 (Pk) 54.35 74.00

-19.65 2483.50 (Av) 50.25 54.00

-03.75 No Harmonics Found

-

www.tuv.com Modulation: 802.11g Fundamental Frequency Antenna Polarization Spurious Emission

(MHz) Field Strength

( dBV/m ) Limit

(dBV/m ) Margin

( dB )

(MHz) 2412 2437 2462 2390.00 (Pk) 69.79 74.00

-04.21 2390.00 (Av) 52.04 54.00

-01.96 H 2412.00 (Pk) 103.25 2412.00 (Av) 87.98 No Harmonics Found

-

-

-

*

*

2390.00 (Pk) 70.67 74.00

-03.33 2390.00 (Av) 51.48 54.00

-02.52 V 2412.00 (Pk) 102.44 2412.00 (Av) 88.31 No Harmonics Found 2437.00 (Pk) 103.1 H 2437.00 (Av) 88.32 No Harmonics Found 2437.00 (Pk) 101.42 V 2437.00 (Av) 87.79 No Harmonics Found 2462.00 (Pk) 103.39 2462.00 (Av) 88.69

-

-

-

-

-

-

-

-

-

-

-

*

*

*

*

*

*

*

*

H 2483.50 (Pk) 73.64 74.00

-00.36 2483.50 (Av) 51.48 54.00

-02.52 No Harmonics Found 2462.00 (Pk) 99.59 2462.00 (Av) 85.13

-

-

-

*

*

2483.50 (Pk) 68.05 74.00

-05.95 2483.50 (Av) 48.25 54.00

-05.75 No Harmonics Found

-

-

V Test Report No.: 01200001 001 Date: 03.10.2012 Page 88 of 90 www.tuv.com Modulation: 802.11a Fundamental Frequency Antenna Polarization Spurious Emission

(MHz) Field Strength

( dBV/m ) Limit

(dBV/m ) Margin

( dB )

(MHz) 5745 5785 5825 5745.00 (Pk) 98.48 5745.00(Av) 89.98

-

-

*

*

11490.00(Pk) 58.60 74.00

-15.40 11490.00(Av) 39.10 54.00

-14.90 5745.00 (Pk) 102.87 5745.00(Av) 94.37

-

-

*

*

11490.00(Pk) 67.55 74.00

-06.45 11490.00(Av) 48.05 54.00

-05.95 5785.00(Pk) 98.19 5785.00(Av) 89.69

-

-

*

*

11570.00(Pk) 59.20 74.00

-14.80 11570.00(Av) 39.70 54.00

-14.30 5785.00(Pk) 102.20 5785.00(Av) 93.70

-

-

*

*

11570.00(Pk) 66.25 74.00

-07.75 11570.00(Av) 46.75 54.00

-07.25 5825.00(Pk) 98.07 5825.00(Av) 89.57

-

-

*

*

11650.00(Pk) 59.20 74.00

-14.80 11650.00(Av) 39.70 54.00

-14.30 5825.00(Pk) 102.73 5825.00(Av) 94.23

-

-

*

*

11650.00(Pk) 69.25 74.00

-04.75 11650.00(Av) 49.75 54.00

-04.25 H V H V H V

* - --> Fundamental Frequency Pk--> Peak Detector Av--> Average Detector Test Report No.: 01200001 001 Date: 03.10.2012 Page 89 of 90 www.tuv.com Version Details of EUT Board Name BOM No. Schematics PCB Versions Main PCB Module IX Top PCB Module 3101B2101_5 3101C0551_4 3101D0501_3 3101B2102_5 3101C0553_4 3101D0502_4 IX Top Radio PCB Module 3101B2103_5 3101C0553_4 3101D0503_4 IX Rechargeable Battery PCB Module 3101B2105_4 3101C0555_3 3101D0505_3 IX Cartridge PCB Module 3101B2106_4 3101C0556_4 3101D0506_2 IX O2 Sensor PCB Module 3101B2107_3 3101C0557_3 3101D0507_2 IX Toxic Sensor PCB Module 3101B2108_3 3101C0558_3 3101D0508_2 IX FL Sensor PCB Module 3101B2110_3 3101C0560_3 3101D0510_2 IX IR COM Sensor PCB Module 3101B2111_3 3101C0561_3 3101D0511_2 IX Terminal PCB Module 3101B2113_4 3101C0567_3 3101D0517_2 IX PID Sensor PCB Module 3101B2114_3 3101C0564_3 3101D0514_2 IX GPS PCB Module 3101B2116_1 3101C0566_1 3101D0516_1 IX Wi-Fi USI PCB Module 3101B2118_5 3101C0568_3 3101D0518_1 IX Wi-Fi Power PCB Module 3101B2119_4 3101C0569_3 3101D0519_4 IX Pump PCB Module IX Maru PCB Module 3101B2120_3 3101C0570_3 3101D0520_1 3101B2121_4 3101C0571_3 3101D0521_3 Test Report No.: 01200001 001 Date: 03.10.2012 Page 90 of 90

 

 

Honeywell FIIs BW Techaologles by Honeywell 2840 2 Avenue SE Calgary, AB Canada TA 7X9 403-248-9226 Corporate 403.272.3708 Fax 800-663-4164 Tall Free DES Client Software Configuration Attestation Letter Date:15 may 2013 To, Federal Communications Commission, Authorization and Evaluation Division. A) Verify that this device meets the frequency requirements of section 15.202 Ans: The product has the necessary software and hardware in order to conform to the DFS client requirements of FCC Part 15 Subpart E (UNII). The associated driver along with the module ensures the following in the DFS bands:

1) No active scanning (prior to connection or in the connected state) is ever performed. 2) The client doesnt initiate any transmission without initiation by a DFS master. 3) During operation in adhoc mode, all the channels belonging to the DFS bands are avoided, i.e neither the module initiates nor joins a network operating in the DFS band. Thereby it is ensured that no transmissions are performed in these bands altogether. B) For client devices that have software configuration control to operate in different modes (active scanning in some and passive scanning in others) or in different bands

(devices with multiple equipment classes or those that operate on non-DFS frequencies), or modular devices that configure the modes of operations through software; the applicant must provide in the application software and operations description that discuss how the software and / or hardware is implemented to ensure that proper operations modes cannot be modified by an end user or an installer. Ans: No configuration control is given to the end-user for #1 to #3 in order not to violate any of the FCC Part 15, subpart E (UNII) DFS requirements. Apart from this, it is ensured in the firmware that irrespective of the drivers configuration, it always performs passive scan in the frequencies belonging to the DFS band. Moreover, firmware is available in the form of a binary, which uses the companys proprietary tool-chain, making it impossible for anyone to modify the code. PT ie BW Technologies by Honeywell 24 2 Avenve SE Calgary, AB Canada T2A 2X9 403-243-9226 Corporate 4D1.27263708 Fax 800-663-4164 Toll Free Below is the channel/frequency lan for the device:

Channel Frequency(MHz) | Scan type 1 2412 _| Active 2 2417 Active 3 2422 Active 4 2427 Active 5 2432 Active 6 2437 Active 7 2442 Active 8 2447 Active 9 2452 Active 10 2457 Active 11 2462 Active 12 2467 Active 13 2472 Active 5GHz band 36 5180 Active 40 5200 Active 44 5220 Active 48 5240 Active 52 5260 Passive 56 5280 Passive 60 5300 Passive 64 5320 Passive 100 5500 Passive 104 5520 Passive 108 5540 Passive 112 5560 Passive 116 5580 Passive 120 5600 Passive 124 5620 Passive 128 5640 Passive 132 5660 Passive 136 5680 Passive 140 5700 Passive 149 5745 Active 153 5765 Active 157 5785 Active 161 5805 Active 165 5825 Active Honeywell Honeywell PIF es BW Techaologies by Honeysrell 2440 2 Avenue SE Calgary. AB Cansda T2A 1X9 403-248-9226 Corporate 70% Fax, 1@4 Toll Free Sincerely, BW Technologies by Honeywell

 

 

Testing and certification of electronic and electric appliances, systems, installations and telecommunication systems TEST REPORT OF A HONEYWELL IMPACT EXTREME MULTI GAS DETECTOR, BRAND HONEYWELL, MODEL IMPACT EXTREME TESTED IN CONFORMITY WITH THE DFS TECHNICAL REQUIREMENTS SPECIFICATION FOR SLAVE DEVICES, CLAUSE 4.7.2.4 OF ETSI EN 301 893 V1.5.1 AND FCC PART 15 (10-1-09 EDITION) SECTION 15.501 FCC listed Industry Canada VCCI Registered R&TTE, LVD, EMC Notified Body

:

:

:

:

90828 2932G-1 R-1518, C-1598 1856 TV Rheinland Electronic Products & Services (EPS) B.V. P.O. Box 37 9350 AA Leek (NL) Eiberkamp 10 9351 VT Leek (NL) Telephone: +31 594 505005 Telefax: +31 594 504804 Internet: www.tuv-eps.com E-mail: info@tuv-eps.com Project number: 11042002.r01 Page 1 of 20 Test specification(s):

Description of EUT:

Manufacturer:

Brand mark:

Model:

ETSI EN 301 893 V1.5.1 FCC part 15 (10-1-09 Edition) Honeywell Impact eXtreme Multi Gas Detector Honeywell Honeywell Impact eXtreme Description of test item Test item Manufacturer Brand Model MAC address Receipt date Applicant information Applicant's representative Company Address Postal code City Country Telephone number Telefax number Test(s) performed Location Test(s) started Test(s) completed Purpose of test(s) Test specification(s)

:

:

:

:

:

:

:

:

:

:

:

:

:

:

:

:

:

:

:

Multi Gas Detector Honeywell Honeywell Impact eXtreme 00 27 13 EA 2A 5E May 4, 2011 Mr. Narasimha Charyulu Honeywell Technologies Solutions LAB PVT. LTD. Adarsh Sez Unit, Survey No 19/2, Devarabisanahalli Village, Varthur Hobli, Bangalore East 560103 Bangalore India

+91-80-26588360

+91-80-39834455 Leek February 10, 2012 February 10, 2012 Compliance with the DFS technical requirements specification for Slave devices Clause 4.7.2.4 of ETSI EN 301893 V1.5.1 and FCC part 15 (10-1-09 Edition) section 15.501

:

:

L. Koopmans M.C. Edwards van Muyen O.H. Hoekstra Project leader Test engineer(s) Report written by Report approved by Report date This report shall not be reproduced, except in full, without the written permission of TV Rheinland (EPS) B.V. The test results as indicated in this test report relate only to the item(s) tested. M.C. Edwards van Muyen February 23, 2012 O.H. Hoekstra

:

:

:

Project number: 11042002.r01 Page 2 of 20 Test specification(s):

Description of EUT:

Manufacturer:

Brand mark:

Model:

ETSI EN 301 893 V1.5.1 FCC part 15 (10-1-09 Edition) Honeywell Impact eXtreme Multi Gas Detector Honeywell Honeywell Impact eXtreme Table of contents 1 Remarks. .............................................................................................................................................................. 4 1.1 Applied standards. ......................................................................................................................................... 4 1.2 Description of the EUT. ................................................................................................................................. 4 1.3 Test modes of operation, test frequencies ..................................................................................................... 4 1.4 Description of test configuration. ................................................................................................................... 5 2 Test conditions. .................................................................................................................................................... 6 2.1 General. ......................................................................................................................................................... 6 Standard test conditions. ............................................................................................................................... 7 2.2 2.3 Extreme test conditions. ................................................................................................................................ 7 3 Essential test suites (overview). ........................................................................................................................... 8 3.1 Transmitter test suites and overview of results. ............................................................................................ 8 3.2 Receiver test suites and overview of results. ................................................................................................ 8 4 Transmitter test results. ........................................................................................................................................ 9 4.1 Carrier frequencies. ....................................................................................................................................... 9 4.2 Nominal, and occupied, channel bandwidth................................................................................................... 9 4.3 RF output power at the highest power level. ................................................................................................. 9 4.4 RF output power at the lowest power level of the TPC range........................................................................ 9 Power density at the highest power level. ..................................................................................................... 9 4.5 5 Receiver test results. ............................................................................................................................................ 9 5.1 Receiver conducted emissions. .................................................................................................................... 9 5.2 Receiver radiated spurious emissions. ......................................................................................................... 9 6 Dynamic frequency selection (DFS). .................................................................................................................. 10 6.1 Channel Availability Check (clause 4.7.2.1). ............................................................................................... 10 6.2 In-Service Monitoring (clause 4.7.2.2). ....................................................................................................... 10 6.3 Channel Shutdown (clause 4.7.2.3). ........................................................................................................... 10 Limits ETSI (clause 4.7.2.3.2). ............................................................................................................. 14 Limits FCC part 15 (section 15.501). ................................................................................................... 14 Test equipment used (for reference see equipment list). .................................................................... 15 6.4 Non-Occupancy Period (clause 4.7.2.4). .................................................................................................... 15 6.5 Uniform Spreading (clause 4.7.2.5). ........................................................................................................... 15 6.6 Medium Access Protocol .............................................................................................................................. 15 Requirements (clause 4.8.2). ............................................................................................................... 15 6.7 User Access Restrictions ............................................................................................................................. 15 Requirements (clause 4.9.2). ............................................................................................................... 15 7 Test equipment and ancillaries used for tests. ................................................................................................... 16 8 Photographs of the EUT. .................................................................................................................................... 17 Front view of EUT. ............................................................................................................................... 17 Rear view of EUT. ................................................................................................................................ 18 Top view of EUT. .................................................................................................................................. 19 Bottom view of EUT. ............................................................................................................................ 20 8.1.1 8.1.2 8.1.3 8.1.4 6.3.1 6.3.2 6.3.3 6.6.1 6.7.1 Project number: 11042002.r01 Page 3 of 20 Test specification(s):

Description of EUT:

Manufacturer:

Brand mark:

Model:

ETSI EN 301 893 V1.5.1 FCC part 15 (10-1-09 Edition) Honeywell Impact eXtreme Multi Gas Detector Honeywell Honeywell Impact eXtreme 1 Remarks. 1.1 Applied standards. The Honeywell Impact eXtreme Multi Gas Detector, brand Honeywell, model Impact eXtreme, has been tested in conformity with parts of the standard:

ETSI EN 301 893 V1.5.1 (2008-12) Broadband Radio Access Networks (BRAN); 5 GHz high performance RLAN; Harmonized EN covering essential requirements of article 3.2 of the R&TTE Directive FCC part 15 (10-1-09 Edition) section 15.501 The uncertainty figures have been calculated in accordance with the methods as described in the ETR 100-028-1 and ETR 100-028-2 for the test methods as laid out in the ETSI EN 301 893 V1.5.1 (2008-12) document. The expansion factor used is 1.96, which provides a confidence level of 95% (Gaussian). 1.2 Description of the EUT. The Honeywell Impact eXtreme Multi Gas Detector, brand Honeywell, model Impact eXtreme, is designed to operate in the 5 GHz frequency band, channels 36 to 64 (5150 MHz to 5350 MHz), channels 100 to 140 (5470 MHz to 5725 MHz) and utilizes OFDM modulation techniques. 1.3 Test modes of operation, test frequencies 5 GHz frequency band Test frequencies (MHz) Frequency 1 Frequency 2 Frequency 3 channels 36 to 64 (5150 MHz to 5350 MHz) channels 100 to 140 (5470 MHz to 5725 MHz) 5260 5520 5280 5560 5320 5700 Project number: 11042002.r01 Page 4 of 20 Test specification(s):

Description of EUT:

Manufacturer:

Brand mark:

Model:

ETSI EN 301 893 V1.5.1 FCC part 15 (10-1-09 Edition) Honeywell Impact eXtreme Multi Gas Detector Honeywell Honeywell Impact eXtreme

: Honeywell Impact eXtreme Multi Gas Detector

: Honeywell

: Honeywell

: Impact eXtreme

: 00 27 13 EA 2A 5E

: 6 Vdc

: -

: -

: Cisco Aironet IOS Access Point

: Cisco

: Cisco

: AIR-AP1252AG-E-K9

: -

: 56 Vdc

: -

: Access Point with a radar signal detection mechanism. 1.4 Description of test configuration. Test item Description Manufacturer Brand Model MAC address Voltage input rating Current input rating Remarks Auxiliary equipment 1 Description Manufacturer Brand Model MAC address Voltage input rating Current input rating Remarks Auxiliary equipment 2 Description Manufacturer Model Voltage input rating Current input rating Adjusted output voltage Remarks The Honeywell Impact eXtreme Multi Gas Detector, brand Honeywell, model Impact eXtreme, will be referred to as EUT for the purpose of this test report.

: Power supply

: Voltcraft

: PS 303 Pro

: 230 Vac

: -

: 6 Vdc

: power supply for the Honeywell Impact eXtreme device. Project number: 11042002.r01 Page 5 of 20 Test specification(s):

Description of EUT:

Manufacturer:

Brand mark:

Model:

ETSI EN 301 893 V1.5.1 FCC part 15 (10-1-09 Edition) Honeywell Impact eXtreme Multi Gas Detector Honeywell Honeywell Impact eXtreme 2 Test conditions. 2.1 General. The purpose of this test is to check the channel shutdown and the channel move time for slave devices, comparing with the limits of the applied standard. The EUT is configured as slave device. The Cisco Aironet IOS access point is configured as master device and has a build in radar signal detection mechanism for the 5 GHz frequency band. The block diagram of the test setup is shown below. Radar signal Windows computer with ping application Access point

(Master) Radar Test Signal Generator DFS tester control software Figure: 1 Test setup DFS test for slave devices EUT

(Slave) Spectrum analyzer DFS tester A wireless connection between the EUT and the access point is established. Via the ping application a continuously ping command will send to the EUT to transfer data. The ping application will also be used to monitor the connection. When a time out error appears, this indicates that the connection between the access point and the EUT is lost. The input level of the DFS tester is adjusted so that it only pickups the radio signal of the EUT. The spectrum is set into zero span mode to monitor the broadcasts of the EUT in time domain. A radar signal of 18 pulses with a pulse width of 1 s and a pulse repetition frequency of 700 pps, will be broadcasted. The Access point detects the radar signal and instructs the EUT to stop transmitting on current radio channel and move to another channel. The time of stopping the broadcast on the current radio channel and moving to another channel, will be measured with the DFS tester. The DFS tester control software displays the measured values. Project number: 11042002.r01 Page 6 of 20 Test specification(s):

Description of EUT:

Manufacturer:

Brand mark:

Model:

ETSI EN 301 893 V1.5.1 FCC part 15 (10-1-09 Edition) Honeywell Impact eXtreme Multi Gas Detector Honeywell Honeywell Impact eXtreme 2.2 Standard test conditions. Environmental condition Parameter Range Temperature Relative humidity Supply voltage EUT C

%

+20 to +23 40 60 Volts DC/AC 6 2.3 Extreme test conditions. Not applicable for DFS testing. Project number: 11042002.r01 Page 7 of 20 Test specification(s):

Description of EUT:

Manufacturer:

Brand mark:

Model:

ETSI EN 301 893 V1.5.1 FCC part 15 (10-1-09 Edition) Honeywell Impact eXtreme Multi Gas Detector Honeywell Honeywell Impact eXtreme 3 Essential test suites (overview). An overview of radio test suites, as laid out in ETSI EN 301 893 V1.5.1, and a summary of test results is given below. 3.1 Transmitter test suites and overview of results. Essential radio test suite (EN 301 893 V1.5.1) Applicable Report clause Compliance results Carrier frequencies Nominal, and occupied, channel bandwidth RF output power Transmit Power Control Power Density Transmitter unwanted emissions outside the 5 GHz RLAN bands - conducted Transmitter unwanted emissions outside the 5 GHz RLAN bands - radiated 3.2 Receiver test suites and overview of results. No No No No No No No 4.1 4.2 4.3 4.4 4.5 4.6 4.7

-

-

-

-

-

-

-. Essential radio test suite Spurious radiations - conducted Spurious radiations - radiated DFS: Channel Availability Check DFS: In service Monitoring DFS: Channel shutdown DFS: Non-occupancy period DFS: Uniform spreading Applicable Report clause Compliance results No No No No Yes No No 5.1 5.2 6.1 6.2 6.3 6.4 6.5

-

-

-

-

Pass

-

-

Project number: 11042002.r01 Page 8 of 20 Test specification(s):

Description of EUT:

Manufacturer:

Brand mark:

Model:

ETSI EN 301 893 V1.5.1 FCC part 15 (10-1-09 Edition) Honeywell Impact eXtreme Multi Gas Detector Honeywell Honeywell Impact eXtreme 4 Transmitter test results. 4.1 Carrier frequencies. Not applicable. Not requested by applicant. 4.2 Nominal, and occupied, channel bandwidth. Not applicable. Not requested by applicant. 4.3 RF output power at the highest power level. Not applicable. Not requested by applicant. 4.4 RF output power at the lowest power level of the TPC range. Not applicable. Not requested by applicant. 4.5 Power density at the highest power level. Not applicable. Not requested by applicant. 5 Receiver test results. 5.1 Receiver conducted emissions. Not applicable. Not requested by applicant. 5.2 Receiver radiated spurious emissions. Not applicable. Not requested by applicant. Project number: 11042002.r01 Page 9 of 20 Test specification(s):

Description of EUT:

Manufacturer:

Brand mark:

Model:

ETSI EN 301 893 V1.5.1 FCC part 15 (10-1-09 Edition) Honeywell Impact eXtreme Multi Gas Detector Honeywell Honeywell Impact eXtreme 6 Dynamic frequency selection (DFS). 6.1 Channel Availability Check (clause 4.7.2.1). Not applicable, the EUT is a slave RLAN device without radar detection. Therefore the Channel Availability Check is not required. 6.2 Not applicable, the EUT is a slave RLAN device without radar detection. Therefore the In-Service Monitoring is not required. 6.3 Channel Shutdown (clause 4.7.2.3). Band 1 In-Service Monitoring (clause 4.7.2.2). Test frequency 5260 MHz Limits Measured ETSI FCC part 15 Channel Move Time (ms) 6484.89 Channel Closing Transmission Time (ms) 35.98 10000 1000 10000 200 Measurement uncertainty 0.1% 21 s Test frequency 5280 MHz Limits Measured ETSI FCC part 15 Channel Move Time (ms) 6754.58 Channel Closing Transmission Time (ms) 35.02 10000 1000 10000 200 Measurement uncertainty 0.1% 21 s Project number: 11042002.r01 Page 10 of 20 Test specification(s):

Description of EUT:

Manufacturer:

Brand mark:

Model:

ETSI EN 301 893 V1.5.1 FCC part 15 (10-1-09 Edition) Honeywell Impact eXtreme Multi Gas Detector Honeywell Honeywell Impact eXtreme Test frequency 5320 MHz Limits Measured ETSI FCC part 15 Channel Move Time (ms) 4450.54 Channel Closing Transmission Time (ms) 34.27 10000 1000 10000 200 Measurement uncertainty 0.1% 21 s Radio channel 5260 MHz Radio channel 5280 MHz Project number: 11042002.r01 Page 11 of 20 Date: 25.MAY.2011 14:34:24Date: 26.MAY.2011 10:32:11 Test specification(s):

Description of EUT:

Manufacturer:

Brand mark:

Model:

ETSI EN 301 893 V1.5.1 FCC part 15 (10-1-09 Edition) Honeywell Impact eXtreme Multi Gas Detector Honeywell Honeywell Impact eXtreme Radio channel 5320 MHz Project number: 11042002.r01 Page 12 of 20 Date: 26.MAY.2011 10:00:50 Test specification(s):

Description of EUT:

Manufacturer:

Brand mark:

Model:

ETSI EN 301 893 V1.5.1 FCC part 15 (10-1-09 Edition) Honeywell Impact eXtreme Multi Gas Detector Honeywell Honeywell Impact eXtreme Band 2 Test frequency 5520 MHz Limits Measured ETSI FCC part 15 Channel Move Time (ms) 8609.91 Channel Closing Transmission Time (ms) 92.35 10000 1000 10000 200 Measurement uncertainty 0.1% 21 s Test frequency 5560 MHz Limits Measured ETSI FCC part 15 Channel Move Time (ms) 9324.32 Channel Closing Transmission Time (ms) 19.76 10000 1000 10000 200 Measurement uncertainty 0.1% 21 s Test frequency 5700 MHz Limits Measured ETSI FCC part 15 Channel Move Time (ms) Channel Closing Transmission Time (ms) 0.00 0.00 10000 1000 10000 200 Measurement uncertainty 0.1% 21 s Note:

Channel Move Time was shorter than the duration of the radar burst. Therefore, the measured time is 0.00 ms. Project number: 11042002.r01 Page 13 of 20 Test specification(s):

Description of EUT:

Manufacturer:

Brand mark:

Model:

ETSI EN 301 893 V1.5.1 FCC part 15 (10-1-09 Edition) Honeywell Impact eXtreme Multi Gas Detector Honeywell Honeywell Impact eXtreme Radio channel 5520 MHz Radio channel 5700 MHz Radio channel 5560 MHz Note: disconnected within the radar burst. Note: tested with a Cisco Aironet 108 Access Point, model AIR-AP1252AG-E-K9. 6.3.1 Limits ETSI (clause 4.7.2.3.2). The Channel Shutdown process shall start immediately after a radar signal has been detected. The Channel Move Time shall not exceed 10 s. The Channel Closing Transmission Time shall not exceed 1000 ms. 6.3.2 Limits FCC part 15 (section 15.501). The Channel Move Time shall not exceed 10 s. The Channel Closing Transmission Time shall not exceed 200 ms. Project number: 11042002.r01 Page 14 of 20 Date: 10.FEB.2012 13:20:04Date: 10.FEB.2012 12:54:51Date: 10.FEB.2012 13:30:26 Test specification(s):

Description of EUT:

Manufacturer:

Brand mark:

Model:

ETSI EN 301 893 V1.5.1 FCC part 15 (10-1-09 Edition) Honeywell Impact eXtreme Multi Gas Detector Honeywell Honeywell Impact eXtreme 6.3.3 Test equipment used (for reference see equipment list). 12520 12559 13526 13664 99538 6.4 Non-Occupancy Period (clause 4.7.2.4). Not applicable, the EUT is a slave RLAN device without radar detection. Therefore the Non-Occupancy Period is not required. 6.5 Uniform Spreading (clause 4.7.2.5). Not applicable, the EUT is a slave RLAN device without radar detection. Therefore the Uniform Spreading is not required. 6.6 Medium Access Protocol A medium access protocol is implemented in the equipment and is active under all circumstances. 6.6.1 Requirements (clause 4.8.2). A medium access protocol shall be implemented by the equipment and shall be active under all circumstances. 6.7 User Access Restrictions DFS controls (hardware and software) related to radar detection are not accessible to the user. The DFS requirements described in clauses 4.7.2.1 to 4.7.2.6 can neither be disabled or altered by the user. 6.7.1 Requirements (clause 4.9.2). DFS controls (hardware or software) related to radar detection shall not be accessible to the user so that the DFS requirements described in clauses 4.7.2.1 to 4.7.2.6 can neither be disabled or altered. Project number: 11042002.r01 Page 15 of 20 Test specification(s):

Description of EUT:

Manufacturer:

Brand mark:

Model:

ETSI EN 301 893 V1.5.1 FCC part 15 (10-1-09 Edition) Honeywell Impact eXtreme Multi Gas Detector Honeywell Honeywell Impact eXtreme Brand Model Description 7 Test equipment and ancillaries used for tests. To facilitate inclusion of the test equipment, used for performing the tests, on each page of this test report, each item of test equipment and ancillaries, such as cables, must be identified (numbered) by the test laboratory. Inventory number 12482 12483 12484 12488 12520 12533 12559 12561 12605 12640 13452 13526 13664 13886 14051 15633 15667 99045 99061 99077 99538 99550 99576 99577 99606 99733 99737 99738 Loop antenna Guidehorn Guidehorn Guidehorn 18 - 26.5 GHz Signal generator Signalgenerator Digital storage oscilloscope DC Power Supply 20A/70V Calibrated dipole 28MHz-1GHz Temperature chamber Digital multi meter Signalgenerator 20 GHz Spectrum analyzer Open Area testsite Anechoic room Biconilog Test antenna Measuring receiver DC Power Supply 3A/30V Non-conducting support 150cm Regulating trafo Spectrum analyzer DFS test tool Peak power meter Peak power sensor Band filter / preamplifier system Signal Analyzer/Spectrum Analyzer Cable RF Cable RF 6507 3115 3115 RA42-K-F-4B-C 8201 2032 9310M SM7020D 3121c VEM03/500 34401A 83620A HP8593E

--

--

CBL 6111B ESCS 30 E030/3

--

LTS006 FSP40 TNO N1911A N1921A RFS06S FSV30 Sucotest 18/Sucoflex 102 Sucotest 18/Sucoflex 102 EMCO EMCO EMCO EMCO Tabor MARCONI Le Croy DELTA Emco Heraeus HP Hewlett & Packard HP Comtest Comtest Chase R&S DELTA

--

RFT Rohde & Schwarz TNO Agilent Agilent EMCS Rohde & Schwarz Huber + Suhner Huber + Suhner Project number: 11042002.r01 Page 16 of 20 Test specification(s):

Description of EUT:

Manufacturer:

Brand mark:

Model:

ETSI EN 301 893 V1.5.1 FCC part 15 (10-1-09 Edition) Honeywell Impact eXtreme Multi Gas Detector Honeywell Honeywell Impact eXtreme 8 Photographs of the EUT. 8.1.1 Front view of EUT. Project number: 11042002.r01 Page 17 of 20 Test specification(s):

Description of EUT:

Manufacturer:

Brand mark:

Model:

ETSI EN 301 893 V1.5.1 FCC part 15 (10-1-09 Edition) Honeywell Impact eXtreme Multi Gas Detector Honeywell Honeywell Impact eXtreme 8.1.2 Rear view of EUT. Project number: 11042002.r01 Page 18 of 20 Test specification(s):

Description of EUT:

Manufacturer:

Brand mark:

Model:

ETSI EN 301 893 V1.5.1 FCC part 15 (10-1-09 Edition) Honeywell Impact eXtreme Multi Gas Detector Honeywell Honeywell Impact eXtreme 8.1.3 Top view of EUT. Project number: 11042002.r01 Page 19 of 20 Test specification(s):

Description of EUT:

Manufacturer:

Brand mark:

Model:

ETSI EN 301 893 V1.5.1 FCC part 15 (10-1-09 Edition) Honeywell Impact eXtreme Multi Gas Detector Honeywell Honeywell Impact eXtreme 8.1.4 Bottom view of EUT. Project number: 11042002.r01 Page 20 of 20

 

 

Produkte Products Prfbericht - Nr.:

Test Report No.:

Auftraggeber:

Client:

012000002 001 BW Technologies Limited. 2840- 2nd Avenue S.E., Calgary, AB, Canada T2A 7X9, Gegenstand der Prfung:

Test item:

ImpactXtreme Bezeichnung:

Identification:

IXW01 Wareneingangs-Nr.:

Receipt No.:

1403011050 Seite 1 von 73 Page 1 of 73 Serien-Nr.:

Serial No. Engineering Sample Eingangsdatum:

Data of receipt:

07.08.2010 Prfort:

Testing location:

Prfgrundlage:

Test specification:

Refer Page 4 of 73 for test facilities FCC Part 15, Subpart E ANSI C63.10-2009 KDB789033 Prfergebnis:

Test Result:

Der Prfgegenstand entspricht oben genannter Prfgrundlage(n). The test items passed the test specification(s). Prflaboratorium:

Testing Laboratory:

TV Rheinland (India) Pvt. Ltd. 82/A, 3rd Main, West Wing, Electronic City Phase 1 Hosur Road, Bangalore 560 100. India geprft / tested by:

08.10.2012 Vinay.N Datum Date Engineer Name/Stellung Name/Position Unterschrift Signature Datum Date Manager Name/Stellung Name/Position kontrolliert / reviewed by:

10.10.2012 Raghavendra Kulkarni Unterschrift Signature Sonstiges /Other Aspects:

FCC ID: R9O-IX-WL-1, This product has FCC Part 15 Subpart C test report with report number 01200001 001 by TUV Rheinland. Abkrzungen:

P(ass) =

F(ail)

=

= nicht anwendbar N/A

= nicht getestet N/T entspricht Prfgrundlage entspricht nicht Prfgrundlage Abbreviations:

P(ass) = passed F(ail) N/A N/T

=

= not applicable

= not tested failed Dieser Prfbericht bezieht sich nur auf das o.g. Prfmuster und darf ohne Genehmigung der Prfstelle nicht auszugsweise vervielfltigt werden. Dieser Bericht berechtigt nicht zur Verwendung eines Prfzeichens. This test report relates to the a. m. test sample. Without permission of the test center this test report is not permitted to be duplicated in extracts. This test report does not entitle to carry any safety mark on this or similar products. TV Rheinland LGA Products GmbH Tillystrae 2 D - 90431 Nrnberg Tel.: +49 911 655 5225 Fax: +49 911 655 5226 Mail: service@de.tuv.com Web: www.tuv.com Rev.:1.2 2009-12-29 / approved: M.Jungnitsch www.tuv.com Test Result Summary Clause Test Item Result 15.407 (a) 99% And 26 dB Occupied Bandwidth 15.407 (a) Maximum Conducted Output Power 15.407 (a) Power Spectral Density 15.407 (a) Peak Excursion 15.209 15.205 Radiated Emissions Restricted Bands of operation 15.407 (b) Unwanted emission Pass Pass Pass Pass Pass Pass Pass Test Report No.: 01200002 001 Date: 04.10.2012 Page 2 of 73 www.tuv.com Content List of Type and Measurement Instruments ............................................................. 4 General Product Information ..................................................................................... 5 Product Function and Intended Use ............................................................................................. 5 Ratings and System Details ........................................................................................................... 5 Operation Descriptions .............................................................................................. 6 Test Set-up and Operation Mode ............................................................................... 7 Principle of Configuration Selection ............................................................................................ 7 Test Operation and Test Software ................................................................................................ 7 Special Accessories and Auxiliary Equipment ............................................................................ 7 Countermeasures to achieve EMC Compliance .......................................................................... 7 Test Modes Data Rates and Modulations ................................................................................. 7 Table of carrier frequencies........................................................................................................... 7 Test Methodology ....................................................................................................... 8 Radiated Emission Test ................................................................................................................. 8 Test Results ................................................................................................................. 9 99% and 26 dB Occupied Bandwidth Section 15.407 (a) ............ 9 Maximum Conducted Output Power Section 15.407 (a) .......... 24 Power Spectral Density Section 15.407 (a) ............ 39 Peak Excursion Section 15.407 (a) ........... 54 Unwanted Emissions Section 15.209 /15.407 (b) ............ 69 Restricted Bands of Operation Section 15.205 ........... 72 Appendix 1: Test Setup Photo Appendix 2: EUT External Photo Appendix 3: EUT Internal Photo Appendix 4: FCC Label and Label Location Appendix 5: Block Diagram Appendix 6: Specification of EUT Appendix 7: Schematic Diagrams Appendix 8: Bill of Material Appendix 9: User Manual Appendix 10: SAR Report Appendix 11: DFS Test Report Test Report No.: 01200002 001 Date: 04.10.2012 Page 3 of 73 www.tuv.com List of Type and Measurement Instruments TV Rheinland (India) Pvt. Ltd, Bangalore Equipment Manufacturer Model S/N ESU 40 ESCI 3142D HAX-18 100288 100661 00081354 HAX18-802 Calibration Due Date 21.07.2013 17.03.2013 26.07.2013 23.03.2013 EMI Test Receiver EMI Test Receiver Rohde &Schwarz Rohde &Schwarz Hybrid Log Periodic antenna ETS Lindgren Broadband Horn Antenna Double-Ridged Waveguide Horn Antenna Frankonia ETS Lindgren 116794 00133356 01-09-2013 Emission Horn Antenna ETS Lindgren Active Loop Antenna Spectrum Analyser Frankonia Agilent Technologies 116706 LAX-10 00107323 LAX-10-800 24-08-2013 11-04-2013 E4407B US41192772 17.03.2013 Honeywell Technology Solutions, Bangalore Manufacturer Kind of Equipment Type S/N EMI Test Receiver R&S Log Periodic Antenna EMCO ESU26 3148 100229 66012 Calibrated Due Date 14.12.2012 27.10.2012 E8257D-PSG Analog Signal Generator Double Ridge Guide Horn Antenna Double Ridge Guide Horn Antenna Agilent E8257D US46461028 25.09.2013 EMCO 3117 64055 01.11.2012 ETS Lindgren 3177 00119022 24.02.2013 Biconical Antenna EMCO 3104C 69263 27.10.2012 Testing Facilities 1) TUV Rheinland (India) Private Limited No. 108, West Wing Electronic city Phase I Bangalore 560100 India 2) Honeywell Technology Solutions Lab (HTSL) Survey No. 19/2, Devarabisanahalli Village KR Puram Hobli, Bangalore East Taluk Bangalore 560 037 Test Report No.: 01200002 001 Date: 04.10.2012 Page 4 of 73 www.tuv.com General Product Information Operating Frequency 2400MHz 2483.5MHz (Covered in FCC Part 5725MHz 5850MHz 15C Report) 5150MHz - 5725MHz Product Function and Intended Use The Impact Xtreme is a compact, portable gas monitor designed to be carried or worn without hindering the user. Its purpose is to monitor the atmosphere continuously for hazardous levels of up to six gases. Audible and visual alarms alert the user to danger when hazardous conditions are detected. The Impact Xtreme has been designed to alert the user to potentially hazardous atmospheres while carrying out his/her normal duties. Therefore, the monitor must be kept switched on and worn as close to the breathing area as possible, and several accessories are provided to allow the monitor to be worn in a number of different ways:

a. On the chest b. On a belt c. Attached to a body harness The monitor is provided with various methods to enable the user to comply safely and easily with confined space regulations. Ratings and System Details Rechargeable battery: -40C to +60C (-40F to 140F) No. of channel Please refer Table of Carrier Frequencies Channel Spacing 20MHz for 5GHz band 802.11a:6, 9, 12, 18, 24, 36, 48, 54 Mbps 130mm x 120mm x 50mm Number of antenna Transmitted Power 6V DC (Battery) Supply Voltage Environmental Antenna Type Antenna Gain PCB Antenna 2.35dBi max Dimensions Data Rate 9.49dBm 802.11a 2 Test Conditions:

Voltage: 6V Battery Environmental conditions: Temperature: +23 C RH: 62%

Test Report No.: 01200002 001 Date: 04.10.2012 Page 5 of 73 www.tuv.com Operation Descriptions The monitor can be supplied with six gas sensors, for detecting oxygen (enrichment and deficiency), flammable gases (up to the Lower Explosive Limit) and two toxic gases (for personal safety) all housed in an easily replaceable cartridge. An alternative arrangement using infrared sensors for flammable is also available. Various sensor technologies are used to achieve this. In the vast majority of cases, electrochemical technology is used to detect oxygen and toxic gases while catalytic combustion technology is used to detect flammable gases. Infrared technology is used to detect flammable gases. Two types of cartridges are available. One is disposable where the cartridge has a fixed life and once this has expired the cartridge is disposed of. The other is a Serviceable Cartridge where the sensors can be individually replaced when required. The serviceable cartridge type can be only used in the ImpactXtreme. Block Diagram Test Report No.: 01200002 001 Date: 04.10.2012 Page 6 of 73 www.tuv.com Test Set-up and Operation Mode Principle of Configuration Selection Emission: The test was performed under continuous transmission to obtain the maximum emissions. Test Operation and Test Software Continuous transmission was enabled through test software and Channel / data rate selection was done with the software. All the tests were performed at 16dBm power setting for 2.4GHz band and at 13dBm setting for 5GHz band which are maximum available power settings for this product. Special Accessories and Auxiliary Equipment The EUT was tested together with the following additional accessory:

-

. Countermeasures to achieve EMC Compliance

- None Test Modes Data Rates and Modulations For Unwanted emission and restricted bands of operation tests, the tests were performed for all data rates and only worst results are reported in this report. Table of carrier frequencies Frequency Band

(MHz) Channel No. 5150 5250 5250 5350 5470 5725 36 40 44 48 52 56 60 64 100 104 108 112 116 132 136 140 Frequency

(MHz) 5180 5200 5220 5240 5260 5280 5300 5320 5500 5520 5540 5560 5580 5660 5680 5700 Test Report No.: 01200002 001 Date: 04.10.2012 Page 7 of 73 www.tuv.com Test Methodology Radiated Emission Test The radiated emission measurement was performed according to the procedures in ANSI C63.10-2009. The equipment under test (EUT) was placed at the middle of the 80 cm high turntable, and the EUT is 3 meters far from the measuring antenna. The turntable was rotated 360 for obtaining the maximum emission. The height of the measuring antennas was scanned between 1m and 4m, and the antenna rotated to repeat the measurements for both the horizontal and vertical antenna polarizations. Repeat the measurement steps until the maximum emissions were obtained. The measurement above 1000MHz was performed by horn antenna. The measurement below 30MHz was performed by loop antenna. The EUT was rotated around the X-, Y-, and Z-Axis and the results from worst case axis are recorded. Semi-anechoic Chamber 3m EUT Turntable Ground Plane Pre-Amplifier Measuring Receiver /

Spectrum Analyzer Test Report No.: 01200002 001 Date: 04.10.2012 Page 8 of 73 www.tuv.com Test Results 99% and 26 dB Occupied Bandwidth Section 15.407 (a) Test Specification Measurement Bandwidth (RBW) FCC Part 15 Section 15.407(a) 300 kHz Test Method:

EUT Spectrum Analyzer Test Result:

Modulation: 802.11a Data Rate

(Mbps) Channel Frequency

(MHz) 26 dB Band width (MHz) 99% Occupied Bandwidth (MHz) 36 40 48 52 56 64 36 40 48 52 56 64 36 40 48 52 56 64 5180 5200 5240 5260 5280 5320 5180 5200 5240 5260 5280 5320 5180 5200 5240 5260 5280 5320 16.79 16.66 16.66 16.72 16.68 16.71 16.57 16.56 16.56 16.56 16.58 16.59 16.58 16.58 16.63 16.55 16.56 16.57 22.01 21.31 21.47 21.87 21.56 21.51 21.70 21.48 20.95 21.81 21.26 21.42 21.37 20.91 21.58 20.70 21.34 21.64 6 24 54 Test Report No.: 01200002 001 Date: 04.10.2012 Page 9 of 73 www.tuv.com Data Rate:6 Mbps Channel Frequency: 5180MHz Data Rate:6 Mbps Channel Frequency: 5200MHz Test Report No.: 01200002 001 Date: 04.10.2012 Page 10 of 73 www.tuv.com Data Rate:6 Mbps Channel Frequency: 5240MHz Data Rate:6 Mbps Channel Frequency: 5260MHz Test Report No.: 01200002 001 Date: 04.10.2012 Page 11 of 73 www.tuv.com Data Rate:6 Mbps Data Rate:6 Mbps Channel Frequency: 5280MHz Channel Frequency: 5320MHz Test Report No.: 01200002 001 Date: 04.10.2012 Page 12 of 73 www.tuv.com Data Rate:24 Mbps Channel Frequency: 5180MHz Data Rate:24 Mbps Channel Frequency: 5200MHz Test Report No.: 01200002 001 Date: 04.10.2012 Page 13 of 73 www.tuv.com Data Rate:24 Mbps Channel Frequency: 5240MHz Data Rate:24 Mbps Channel Frequency: 5260MHz Test Report No.: 01200002 001 Date: 04.10.2012 Page 14 of 73 www.tuv.com Data Rate:24 Mbps Channel Frequency: 5280MHz Data Rate:24 Mbps Channel Frequency: 5320MHz Test Report No.: 01200002 001 Date: 04.10.2012 Page 15 of 73 www.tuv.com Data Rate:54 Mbps Channel Frequency: 5180MHz Data Rate:54 Mbps Channel Frequency: 5200MHz Test Report No.: 01200002 001 Date: 04.10.2012 Page 16 of 73 www.tuv.com Data Rate:54 Mbps Channel Frequency: 5540MHz Data Rate:54 Mbps Channel Frequency: 5260MHz Test Report No.: 01200002 001 Date: 04.10.2012 Page 17 of 73 www.tuv.com Data Rate:54 Mbps Channel Frequency: 5280MHz Data Rate:54 Mbps Channel Frequency: 5320MHz Test Report No.: 01200002 001 Date: 04.10.2012 Page 18 of 73 www.tuv.com Test Result:

Modulation: 802.11a Data Rate

(Mbps) Channel Frequency

(MHz) 6 24 54 100 132 140 100 132 140 100 132 140 5500 5660 5700 5500 5660 5700 5500 5660 5700 26 Mbps dB Band width

(MHz) 16.70 16.70 16.74 16.54 16.57 16.58 16.59 16.58 16.59 99% Occupied Bandwidth (MHz) 21.55 22.06 21.47 20.88 21.09 20.98 21.19 20.67 21.32 Data rate: 6 Mbps Channel Frequency: 5500MHz Test Report No.: 01200002 001 Date: 04.10.2012 Page 19 of 73 www.tuv.com Data rate: 6 Mbps Channel Frequency: 5660MHz Data rate: 6 Mbps Channel Frequency: 5700MHz Test Report No.: 01200002 001 Date: 04.10.2012 Page 20 of 73 www.tuv.com Data rate: 24 Mbps Channel Frequency: 5500MHz Data rate: 24 Mbps Channel Frequency: 5660MHz Test Report No.: 01200002 001 Date: 04.10.2012 Page 21 of 73 www.tuv.com Data rate: 24 Mbps Channel Frequency: 5700MHz Data rate: 54 Mbps Channel Frequency: 5500MHz Test Report No.: 01200002 001 Date: 04.10.2012 Page 22 of 73 www.tuv.com Data rate: 54 Mbps Channel Frequency: 5660MHz Data rate: 54 Mbps Channel Frequency: 5700MHz Test Report No.: 01200002 001 Date: 04.10.2012 Page 23 of 73 www.tuv.com Maximum Conducted Output Power Section 15.407 (a) Result Pass FCC Part 15 Section 15.407 Test Specification Measurement Bandwidth (RBW) 1 MHz Requirement For the band 5.15-5.25 GHz, the maximum conducted output power over the frequency band of operation shall not exceed the lesser of 50 mW or 4 dBm + 10log B, where B is the 26- dB emission bandwidth in MHz For the 5.25-5.35 GHz and 5.47-5.725 GHz bands, the maximum conducted output power over the frequency bands of operation shall not exceed the lesser of 250 mW or 11 dBm + 10log B, where B is the 26 dB emission bandwidth in MHz Test Method:

EUT Spectrum Analyzer Test Result:

Modulation: 802.11a Cable Loss: 0.6dB Data Rate

(Mbps) Channel No. Frequency

(MHz) Measured RF Output power

(dBm) Total Output power

(dBm) Limit

(dBm) Margin

(dB) 6 24 54 36 40 48 52 56 64 36 40 48 52 56 64 36 40 48 52 56 64 5180 5200 5240 5260 5280 5320 5180 5200 5240 5260 5280 5320 5180 5200 5240 5260 5280 5320 7.65 7.62 7.62 7.49 8.14 9.01 7.58 7.53 7.55 7.40 8.10 8.83 7.48 7.48 7.51 7.37 8.05 8.89 8.25 8.22 8.22 8.09 8.74 9.61 8.18 8.13 8.15 8.00 8.70 9.43 8.08 8.08 8.11 7.97 8.65 9.49 17.00

-8.75 17.00

-8.78 17.00

-8.78 24.00

-15.91 24.00

-15.26 24.00

-14.39 17.00

-8.82 17.00

-8.87 17.00

-8.85 24.00

-16.00 24.00

-15.30 24.00

-14.57 17.00

-8.92 17.00

-8.92 17.00

-8.89 24.00

-16.03 24.00

-15.35 24.00

-14.51 Test Report No.: 01200002 001 Date: 04.10.2012 Page 24 of 73 www.tuv.com Data Rate:6 Mbps Channel Frequency: 5180 MHz Data Rate:6 Mbps Channel Frequency: 5200 MHz Test Report No.: 01200002 001 Date: 04.10.2012 Page 25 of 73 www.tuv.com Data Rate:6 Mbps Data Rate:6 Mbps Channel Frequency: 5240MHz Channel Frequency: 5260MHz Test Report No.: 01200002 001 Date: 04.10.2012 Page 26 of 73 www.tuv.com Data Rate:6 Mbps Data Rate:6 Mbps Channel Frequency: 5280MHz Channel Frequency: 5320MHz Test Report No.: 01200002 001 Date: 04.10.2012 Page 27 of 73 www.tuv.com Data Rate:24 Mbps Data Rate:24 Mbps Channel Frequency: 5180MHz Channel Frequency: 5200MHz Test Report No.: 01200002 001 Date: 04.10.2012 Page 28 of 73 www.tuv.com Data Rate:24 Mbps Data Rate:24 Mbps Channel Frequency: 5240MHz Channel Frequency: 5260MHz Test Report No.: 01200002 001 Date: 04.10.2012 Page 29 of 73 www.tuv.com Data Rate:24 Mbps Data Rate:24 Mbps Channel Frequency: 5280MHz Channel Frequency: 5320MHz Test Report No.: 01200002 001 Date: 04.10.2012 Page 30 of 73 www.tuv.com Data Rate:54 Mbps Data Rate:54 Mbps Channel Frequency: 5180MHz Channel Frequency: 5200MHz Test Report No.: 01200002 001 Date: 04.10.2012 Page 31 of 73 www.tuv.com Data Rate:54 Mbps Data Rate:54 Mbps Channel Frequency: 5240MHz Channel Frequency: 5260MHz Test Report No.: 01200002 001 Date: 04.10.2012 Page 32 of 73 www.tuv.com Data Rate:54 Mbps Data Rate:54 Mbps Channel Frequency: 5280MHz Channel Frequency: 5320MHz Test Report No.: 01200002 001 Date: 04.10.2012 Page 33 of 73 www.tuv.com Modulation: 802.11a Cable Loss: 0.6dB Data Rate

(Mbps) Channel Frequency

(MHz) Measured RF Output power

(dBm) Total Output power

(dBm) Limit

(dBm) Margin

(dBm) 6 24 54 100 132 140 100 132 140 100 132 140 5500 5660 5700 5500 5660 5700 5500 5660 5700 8.69 7.99 8.86 8.60 7.88 8.75 7.43 7.91 8.77 9.29 8.59 9.46 9.20 8.48 9.35 8.03 8.51 9.37 24.00

-14.71 24.00

-15.41 24.00

-14.54 24.00

-14.80 24.00

-15.52 24.00

-14.65 24.00

-15.97 24.00

-15.49 24.00

-14.63 Channel Frequency: 5500MHz Data Rate:6 Mbps Test Report No.: 01200002 001 Date: 04.10.2012 Page 34 of 73 www.tuv.com Data Rate:6 Mbps Channel Frequency: 5660MHz Data Rate:6 Channel Frequency: 5700MHz Test Report No.: 01200002 001 Date: 04.10.2012 Page 35 of 73 www.tuv.com Data Rate:24 Mbps Data Rate:24 Mbps Channel Frequency: 5500MHz Channel Frequency: 5660MHz Test Report No.: 01200002 001 Date: 04.10.2012 Page 36 of 73 www.tuv.com Channel Frequency: 5700MHz Channel Frequency: 5500MHz Data Rate:24 Mbps Data Rate:54 Mbps Test Report No.: 01200002 001 Date: 04.10.2012 Page 37 of 73 www.tuv.com Data Rate:54 Mbps Channel Frequency: 5660MHz Data Rate:54 Mbps Channel Frequency: 5700MHz Test Report No.: 01200002 001 Date: 04.10.2012 Page 38 of 73 www.tuv.com Power Spectral Density Section 15.407 (a) Result Pass Test Specification Detector Function Requirement FCC Part 15 Section 15.407 (a) Sample For the band 5.15-5.25 GHz, the peak power spectral density shall not exceed 4 dBm in any 1-MHz band. For the 5.25-5.35 GHz and 5.47-5.725 GHz bands the peak power spectral density shall not exceed 11 dBm in any 1-MHz band For the 5.745-5.785 GHz bands the peak power spectral density shall not exceed 17 dBm in any 1-MHz band Test Method:

Test Result:

Modulation: 802.11a EUT Spectrum Analyzer Data Rate

(Mbps) Channel Frequency No.

(MHz) 6 24 54 36 40 48 52 56 64 36 40 48 52 56 64 36 40 48 52 56 64 5180 5200 5240 5260 5280 5320 5180 5200 5240 5260 5280 5320 5180 5200 5240 5260 5280 5320 Measured RF Output power

(dBm)

-3.27

-4.11

-5.48

-6.44

-6.95

-8.03

-3.41

-4.25

-5.27

-9.72

-6.58

-7.37

-3.30

-4.31

-5.10

-6.10

-6.76

-7.37 Total Output power

(dBm) Limit

(dBm) Margin

(dB)

-2.67

-3.51

-4.88

-5.84

-6.35

-7.43

-2.81

-3.65

-4.67

-9.12

-5.98

-6.77

-2.70

-3.71

-4.50

-5.50

-6.16

-6.77 4.00 4.00 4.00 11.00 11.00 11.00 4.00 4.00 4.00 11.00 11.00 11.00 4.00 4.00 4.00 11.00 11.00 11.00

-6.67

-7.51

-8.88

-16.84

-17.35

-18.43

-6.81

-7.65

-8.67

-20.12

-16.98

-17.77

-6.70

-7.71

-8.50

-16.50

-17.16

-17.77 Test Report No.: 01200002 001 Date: 04.10.2012 Page 39 of 73 www.tuv.com Data Rate: 6 Mbps Data Rate: 6 Mbps Channel Frequency: 5180MHz Channel Frequency: 5200MHz Test Report No.: 01200002 001 Date: 04.10.2012 Page 40 of 73 www.tuv.com Data Rate: 6 Mbps Data Rate: 6 Mbps Channel Frequency: 5240MHz Channel Frequency: 5260MHz Test Report No.: 01200002 001 Date: 04.10.2012 Page 41 of 73 www.tuv.com Channel Frequency: 5280MHz Channel Frequency: 5320MHz Data Rate: 6 Mbps Data Rate: 6 Mbps Test Report No.: 01200002 001 Date: 04.10.2012 Page 42 of 73 www.tuv.com Data Rate: 24 Mbps Data Rate: 24 Mbps Channel Frequency: 5180MHz Channel Frequency: 5200MHz Test Report No.: 01200002 001 Date: 04.10.2012 Page 43 of 73 www.tuv.com Data Rate: 24 Mbps Data Rate: 24 Mbps Channel Frequency: 5240MHz Channel Frequency: 5260MHz Test Report No.: 01200002 001 Date: 04.10.2012 Page 44 of 73 www.tuv.com Data Rate: 24 Mbps Data Rate: 24 Mbps Channel Frequency: 5280MHz Channel Frequency: 5320MHz Test Report No.: 01200002 001 Date: 04.10.2012 Page 45 of 73 www.tuv.com Data Rate: 54 Mbps Data Rate: 54 Mbps Channel Frequency: 5180MHz Channel Frequency: 5200MHz Test Report No.: 01200002 001 Date: 04.10.2012 Page 46 of 73 www.tuv.com Data Rate: 54 Mbps Data Rate: 54 Mbps Channel Frequency: 5240MHz Channel Frequency: 5260MHz Test Report No.: 01200002 001 Date: 04.10.2012 Page 47 of 73 www.tuv.com Data Rate: 54 Mbps Data Rate: 54 Mbps Channel Frequency: 5280MHz Channel Frequency: 5320MHz Test Report No.: 01200002 001 Date: 04.10.2012 Page 48 of 73 www.tuv.com Modulation: 802.11a Data Rate

(Mbps) 6 24 54 Channel Frequency No. 100 132 140 100 132 140 100 132 140

(MHz) 5500 5660 5700 5500 5660 5700 5500 5660 5700 Measured RF Output power

(dBm) Total Output power

(dBm) Limit

(dBm) Margin

(dB)

-7.65

-5.12

-3.82

-8

-4.72

-8.65

-7.66

-4.71

-3.73

-7.05 11.00

-18.05

-4.52 11.00

-15.52

-3.22 11.00

-14.22

-7.40 11.00

-18.40

-4.12 11.00

-15.12

-8.05 11.00

-19.05

-7.06 11.00

-18.06

-4.11 11.00

-15.11

-3.13 11.00

-14.13 Data Rate: 6 Mbps Channel Frequency: 5500MHz Test Report No.: 01200002 001 Date: 04.10.2012 Page 49 of 73 www.tuv.com Data Rate: 6 Mbps Data Rate: 6 Mbps Channel Frequency: 5660MHz Channel Frequency: 5700MHz Test Report No.: 01200002 001 Date: 04.10.2012 Page 50 of 73 www.tuv.com Data Rate: 24 Mbps Data Rate: 24 Mbps Channel Frequency: 5500MHz Channel Frequency: 5660MHz Test Report No.: 01200002 001 Date: 04.10.2012 Page 51 of 73 www.tuv.com Data Rate: 24 Mbps Data Rate: 54 Mbps Channel Frequency: 5700MHz Channel Frequency: 5500MHz Test Report No.: 01200002 001 Date: 04.10.2012 Page 52 of 73 www.tuv.com Data Rate: 54 Mbps Data Rate: 54 Mbps Channel Frequency: 5660MHz Channel Frequency: 5700MHz Test Report No.: 01200002 001 Date: 04.10.2012 Page 53 of 73 www.tuv.com Peak Excursion Section 15.407 (a) Result Pass Test Specification Requirement FCC Part 15 Section 15.407 (a) The ratio of the peak excursion of the modulation envelope (measured using a peak hold function) to the maximum conducted output power shall not exceed 13 dB across any 1-MHz bandwidth or the emission bandwidth whichever is less. Test Method:

Test Result:

Modulation: 802.11a EUT Spectrum Analyzer Data Rate Channel Frequency

(Mbps) No.

(MHz) 6 24 54 36 40 48 52 56 64 36 40 48 52 56 64 36 40 48 52 56 64 5180 5200 5240 5260 5280 5320 5180 5200 5240 5260 5280 5320 5180 5200 5240 5260 5280 5320 Peak Excursion

(dB) 8.18 7.84 7.64 7.86 7.57 7.70 9.36 9.03 9.12 9.37 9.15 9.14 9.32 8.86 7.55 8.69 8.04 8.76 Limit

(dB) Margin

(dB) 13 13 13 13 13 13 13 13 13 13 13 13 13 13 13 13 13 13

-4.82

-5.16

-5.36

-5.14

-5.43

-5.30

-3.64

-3.97

-3.88

-3.63

-3.85

-3.86

-3.68

-4.14

-5.45

-4.31

-4.96

-4.24 Test Report No.: 01200002 001 Date: 04.10.2012 Page 54 of 73 www.tuv.com Data Rate: 6 Mbps Data Rate: 6 Mbps Channel Frequency: 5180MHz Channel Frequency: 5200MHz Test Report No.: 01200002 001 Date: 04.10.2012 Page 55 of 73 www.tuv.com Data Rate: 6 Mbps Data Rate: 6 Mbps Channel Frequency: 5240MHz Channel Frequency: 5260MHz Test Report No.: 01200002 001 Date: 04.10.2012 Page 56 of 73 www.tuv.com Data Rate: 6 Mbps Data Rate: 6 Mbps Channel Frequency: 5280MHz Channel Frequency: 5320MHz Test Report No.: 01200002 001 Date: 04.10.2012 Page 57 of 73 www.tuv.com Data Rate: 24 Mbps Data Rate: 24 Mbps Channel Frequency: 5180MHz Channel Frequency: 5200MHz Test Report No.: 01200002 001 Date: 04.10.2012 Page 58 of 73 www.tuv.com Data Rate: 24 Mbps Data Rate: 24 Mbps Channel Frequency: 5240MHz Channel Frequency: 5260MHz Test Report No.: 01200002 001 Date: 04.10.2012 Page 59 of 73 www.tuv.com Data Rate: 24 Mbps Data Rate: 24 Mbps Channel Frequency: 5280MHz Channel Frequency: 5320MHz Test Report No.: 01200002 001 Date: 04.10.2012 Page 60 of 73 www.tuv.com Data Rate: 54 Mbps Data Rate: 54 Mbps Channel Frequency: 5180MHz Channel Frequency: 5200MHz Test Report No.: 01200002 001 Date: 04.10.2012 Page 61 of 73 www.tuv.com Data Rate: 54 Mbps Data Rate: 54 Mbps Channel Frequency: 5240MHz Channel Frequency: 5260MHz Test Report No.: 01200002 001 Date: 04.10.2012 Page 62 of 73 www.tuv.com Data Rate: 54 Mbps Channel Frequency: 5280MHz Data Rate: 54 Mbps Channel Frequency: 5320MHz Test Report No.: 01200002 001 Date: 04.10.2012 Page 63 of 73 www.tuv.com Modulation: 802.11a Data Rate Channel Frequency

(Mbps) No.

(MHz) 6 24 54 100 132 140 100 132 140 100 132 140 5500 5660 5700 5500 5660 5700 5500 5660 5700 Peak Excursion

(dB) 7.44 7.428 7.612 8.618 8.55 8.834 9.356 8.16 8.705 Limit

(dB) 13.00 13.00 13.00 13.00 13.00 13.00 13.00 13.00 13.00 Margin

(dB)

-5.56

-5.572

-5.388

-4.382

-4.45

-4.166

-3.644

-4.84

-4.295 Data Rate: 6 Mbps Channel Frequency: 5500MHz Test Report No.: 01200002 001 Date: 04.10.2012 Page 64 of 73 www.tuv.com Data Rate: 6 Mbps Data Rate: 6 Mbps Channel Frequency: 5660MHz Channel Frequency: 5700MHz Test Report No.: 01200002 001 Date: 04.10.2012 Page 65 of 73 www.tuv.com Data Rate: 24 Mbps Data Rate: 24 Mbps Channel Frequency: 5500MHz Channel Frequency: 5660MHz Test Report No.: 01200002 001 Date: 04.10.2012 Page 66 of 73 www.tuv.com Data Rate: 24 Mbps Data Rate: 54 Mbps Channel Frequency: 5700MHz Channel Frequency: 5500MHz Test Report No.: 01200002 001 Date: 04.10.2012 Page 67 of 73 www.tuv.com Data Rate: 54 Mbps Channel Frequency: 5660MHz Data Rate: 54 Mbps Channel Frequency: 5700MHz Test Report No.: 01200002 001 Date: 04.10.2012 Page 68 of 73 www.tuv.com Unwanted Emissions Section 15.209 /15.407 (b) Result Pass Test Specification Test Method Measurement Location Measuring Distance 3m Detection QP for frequency below 1GHz, Peak/Average for frequency above 1GHz Requirement For transmitters operating in the 5.15-5.25 GHz band: all emissions outside FCC Part 15 Section 15.209 and 14.407(b)(6) ANSI C63.10-2009 Semi Anechoic Chamber of the 5.15-5.35 GHz band shall not exceed an EIRP of -27 dBm/MHz. For transmitters operating in the 5.25-5.35 GHz band: all emissions outside of the 5.15-5.35 GHz band shall not exceed an EIRP of -27 dBm/MHz. For transmitters operating in the 5.25-5.35 GHz band: all emissions outside of the 5.47-5.725 GHz band shall not exceed an EIRP of -27 dBm/MHz. Unwanted Emissions below 1GHz should comply with FCC15.209. Limit for Radiated Emission of Section 15.209:

Frequency Field strength Field strength Distance of

(MHz)

(V/m)

(dBV/m) Measurement (m) 0.009 0.490 2400/F(kHz) 48.50 13.80 0.490 1.705 24000/F(kHz) 33.80 23.00 1.705 -30 30-88 88-216 216-960 Above 960 30 100 150 200 500 29.54 40.0 43.5 46.0 54.0 300*

30*

30*

3 3 3 3 Remark: * the limit shows in the table above of frequency range 0.009 0.490, 0.490 1.705 MHz and 1.705-30MHz is at 300 meter, 30 meter and 30 meter range respectively, which corresponds to 88,50 53.80, 53.80 43.00 and 49.5dBV/m at 3m range by extrapolation calculation and the measurement of loop antenna. The emission limits shown in the above table are based on measurements employing a CISPR quasi-peak detector except for the frequency bands 990 kHz, 110490 kHz and above 1000 MHz Radiated emission limits in these three bands are based on measurements employing an average detector. Test Report No.: 01200002 001 Date: 04.10.2012 Page 69 of 73 www.tuv.com Test results:

Polarization Frequency

(MHz) Field Strength

( dBV/m ) Limit

( dBV/m ) Margin

(dB) V H 199.79 400.21 199.97 299.98 349.99 383.36 399.99 416.67 19.55 23.77 33.40 38.06 40.69 40.60 43.35 38.34

-34.43

-33.13

-20.58

-18.84

-16.21

-16.30

-13.55

-18.56 53.98 56.90 53.98 56.90 56.90 56.90 56.90 56.90 Field Frequency Antenna Polarization Spurious Emission

(MHz) Strength

( dBV/m ) Limit

(dBV/m ) Modulation: 802.11a Fundamental

(MHz) 5180 5260 5320 H V H V H V 5180.00 (Pk) 94.59

-

10360.00(Pk) NF 68.23 5180.00 (Pk) 102.34

-

10360.00(Pk) NF 68.23 5260.00(Pk) 97.25

-

10520.00(Pk) NF 68.23 5260.00(Pk) 102.76

-

10520.00(Pk) NF 68.23 5320.00(Pk) 98.19

-

10640.00(Pk) NF 68.23 5320.00(Pk) 104.52

-

10640.00(Pk) NF 68.23 Margin

( dB )

*

-

*

-

*

-

*

-

*

-

*

-

Test Report No.: 01200002 001 Date: 04.10.2012 Page 70 of 73 www.tuv.com Modulation: 802.11a Fundamental

(MHz) 5500 5700 Frequency Antenna Polarization Spurious Emission

(MHz) Field Strength

( dBV/m ) Limit

(dBV/m ) Margin

( dB ) H V H V 5500.00 (Pk) 97.61

-

*

11000.00(Pk) 54.5 68.3

-13.8 5500.00 (Pk) 104.89

-

*

11000.00(Pk) 54.8 68.3

-13.5 5700.00(Pk) 99.34

-

*

11400.00(Pk) 58.23 68.3

-10.07 5700.00(Pk) 104.45

-

*

11400.00(Pk) 60.56 68.3

-7.74 Pk---> Peak detector Av-->Average Detector NF Noise Floor = 54dBV/m Test Report No.: 01200002 001 Date: 04.10.2012 Page 71 of 73 www.tuv.com Restricted Bands of Operation Section 15.205 Result Pass Test Specification Test Method Measurement Location Measuring Distance Detection FCC Part 15 Section 15.205 ANSI C63.10-2009 Semi Anechoic Chamber 3m Peak and Average for frequency above 1GHz Fundamental Frequency

(MHz) Antenna Polarization Spurious Emission

(MHz) Field Strength

( dBV/m ) Limit

( dBV/m) Margin

( dB ) H V H V H V 5180 5320 5500 Pk---> Peak detector Av-->Average Detector 5150 (Pk) 59.25 68.23

-8.98 5150 (Av) 50.35 54.00

-3.65 5150 (Pk) 59.06 68.23

-9.17 5150 (Av) 50.16 54.00

-3.84 5350 (Pk) 59.01 68.23

-9.22 5350 (Av) 50.11 54.00

-3.89 5350 (Pk) 61.65 68.23

-6.58 5350 (Av) 52.75 54.00

-1.25 5470 (Pk) 60.01 68.23

-8.22 5470 (Av) 51.11 54.00

-2.89 5470 (Pk) 61.41 68.23

-6.82 5470 (Av) 52.51 54.00

-1.49 Test Report No.: 01200002 001 Date: 04.10.2012 Page 72 of 73 www.tuv.com Version Details of EUT Board Name BOM No. Schematics PCB Versions Main PCB Module IX Top PCB Module 3101B2101_5 3101C0551_4 3101D0501_3 3101B2102_5 3101C0553_4 3101D0502_4 IX Top Radio PCB Module 3101B2103_5 3101C0553_4 3101D0503_4 IX Rechargeable Battery PCB Module 3101B2105_4 3101C0555_3 3101D0505_3 IX Cartridge PCB Module 3101B2106_4 3101C0556_4 3101D0506_2 IX O2 Sensor PCB Module 3101B2107_3 3101C0557_3 3101D0507_2 IX Toxic Sensor PCB Module 3101B2108_3 3101C0558_3 3101D0508_2 IX FL Sensor PCB Module 3101B2110_3 3101C0560_3 3101D0510_2 IX IR COM Sensor PCB Module 3101B2111_3 3101C0561_3 3101D0511_2 IX Terminal PCB Module 3101B2113_4 3101C0567_3 3101D0517_2 IX PID Sensor PCB Module 3101B2114_3 3101C0564_3 3101D0514_2 IX GPS PCB Module 3101B2116_1 3101C0566_1 3101D0516_1 IX Wi-Fi USI PCB Module 3101B2118_5 3101C0568_3 3101D0518_1 IX Wi-Fi Power PCB Module 3101B2119_4 3101C0569_3 3101D0519_4 IX Pump PCB Module IX Maru PCB Module 3101B2120_3 3101C0570_3 3101D0520_1 3101B2121_4 3101C0571_3 3101D0521_3 Test Report No.: 01200002 001 Date: 04.10.2012 Page 73 of 73