HONEYWELL BW TECHNOLOGIES GASALERT QUATTRO (01) PDF MANUAL

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HONEYWELL BW TECHNOLOGIES GASALERT QUATTRO (01) PDF SUMMARY:

What does BW Technologies by Honeywell warrant?

BW Technologies LP (BW) 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. BW’s warranty obligation is limited, at BW’s 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 BW’s liability hereunder exceed the purchase price actually paid by the buyer for the Product.

What does the warranty not cover?

The 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 BW’s opinion, has been misused, altered, neglected or damaged, by accident or abnormal conditions of operation, handling or use.
  • 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.

What conditions are required for the warranty to be valid?

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.
  • 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.

What does the buyer agree to regarding the warranty?

The buyer agrees that this warranty is the buyer’s 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, 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.

What gases are monitored by the detector?

The detector monitors the following gases:

  • Hydrogen sulfide (H2S) in parts per million (ppm).
  • Carbon monoxide (CO) in parts per million (ppm).
  • Combustible gases (LEL) in percent of lower explosive limit (%LEL) or percent by volume methane 0-5.0% v/v.
  • Oxygen (O2) in % volume.

What is the proper procedure for operating and servicing the equipment?

For safety reasons, this equipment must be operated and serviced by qualified personnel only. Read and understand the user manual completely before operating and servicing.

What should you do before using the detector?

Before using the detector, refer to Sensor Poisons and Contaminants.

What should you do if the detector is damaged?

Do not use the detector if it is damaged. Inspect the detector before using. Look for cracks and/or missing parts. If the detector is damaged or parts are missing, contact BW Technologies by Honeywell immediately.

What type of sensors should be used with the GasAlertQuattro?

Only use sensor(s) that are specifically designed for the GasAlertQuattro. Refer to Replacement Parts and Accessories.

How often should the detector be calibrated?

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 that the sensors be calibrated regularly and at least once every 180 days (6 months).

How often does BW recommend bump testing the sensors?

BW recommends to bump test the sensors before each day’s 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 and visual alarms activate. Calibrate if the readings are not within the specified limits.

What should you protect the combustible sensor from?

Protect the combustible sensor from exposure to lead compounds, silicones, and chlorinated hydrocarbons. Although certain organic vapors (such as leaded gasoline and halogenated hydrocarbons) may temporarily inhibit sensor performance, in most cases the sensor will recover after calibration.

What does BW recommend after a combustible sensor exposure to catalyst contaminants/poisons?

BW recommends the combustible sensor be checked with a known concentration of calibration gas after any known exposure to catalyst contaminants/poisons (sulfur compounds, silicone vapors, halogenated compounds, etc.).

What is the combustible sensor factory calibrated to?

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.

What may high off-scale LEL readings indicate?

High off-scale LEL readings may indicate an explosive concentration.

Where can the device be used in terms of oxygen levels?

For use only in potentially explosive atmospheres where oxygen concentrations do not exceed 20.9% (v/v).

What may a rapid upscaling reading followed by a declining or erratic reading indicate?

Any rapid upscaling reading followed by a declining or erratic reading may indicate a gas concentration beyond upper scale limit, which may be hazardous.

Where should calibration be performed?

Calibrate only in a safe area that is free of hazardous gas in an atmosphere of 20.9% oxygen.

What type of batteries should be used?

Use only BW approved batteries for the GasAlertQuattro detector.

When should the detector be charged?

Charge the detector before first-time use. BW recommends the detector be charged after every workday.

What type of charger should be used?

Charge the GasAlertQuattro using BW charger adapters designed for the GasAlertQuattro only. Do not use any other charging adapter. Failure to adhere to this caution can lead to fire and/or explosion.

What can extended exposure of the GasAlertQuattro to certain concentrations of combustible gases and air do?

Extended exposure of the GasAlertQuattro to certain concentrations of combustible gases and air may stress a detector element, which can seriously affect its performance. If an alarm occurs due to high concentrations of combustible gases, recalibration should be performed, or if needed, the sensor replaced.

How should you not test the combustible sensor’s response?

Do not test the combustible sensor’s response with a butane cigarette lighter; doing so will damage the sensor.

What should the detector not be exposed to?

Do not expose the detector to electrical shock or severe continuous mechanical shock.

What may deactivating the detector by removing the battery pack cause?

Deactivating the detector by removing the battery pack may cause improper operation and harm the detector.

Should the detector be immersed in liquids?

Do not immerse the detector in liquids.

When should you not attempt to disassemble, adjust, or service the detector?

Do not attempt to disassemble, adjust, or service the detector unless instructions for that procedure are provided in this user manual and/or that part is listed as a replacement part. Use only BW Technologies by Honeywell Replacement Parts and Accessories.

What are the warnings regarding the lithium battery?

  • The lithium battery (QT-BAT-R01) may present a risk of fire or chemical burn hazard if misused. Do not disassemble, heat above 212°F (100°C), or incinerate.
  • Do not use any other lithium batteries with the GasAlertQuattro detector. Use of any other cell can cause fire and/or explosion. To order and replace the QT-BAT-R01 battery, refer to Replacement Parts and Accessories.
  • Lithium polymer cells exposed to heat at 266°F (130°C) for 10 minutes can cause fire and/or explosion.

How should used lithium cells be disposed of?

Dispose of used lithium cells immediately. Do not disassemble and 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.

Where should lithium cells be kept?

Keep lithium cells away from children.

What are the maximum inlet pressure specifications for calibration cylinders with a demand flow regulator?

Calibration cylinders that are used with a demand flow regulator must meet the following maximum inlet pressure specifications:

  • Disposable cylinders 0-1000 psig/70 bar
  • Refillable cylinders 0-3000 psig/270 bar

What does BW recommend if using the detector near its upper or lower operating temperature?

If using the detector near its upper or lower operating temperature, BW recommends zeroing or activating the detector in that environment.

What products should be avoided around the sensors?

Avoid the following products around the sensors:

  • Silicones
  • Aerosols
  • Brake cleaners
  • Silicone cleaners and protectants
  • Bug repellents and sprays
  • Lubricants
  • Silicone based adhesives, seal-ants, and gels
  • Rust inhibitors
  • Hand/body and medicinal creams that contain silicone
  • Window and glass cleaners
  • Tissues containing silicone
  • Dishsoaps
  • Mold releasing agents
  • Citrus based cleaners
  • Polishes
  • Alcohol based cleaners
  • Hand sanitizers
  • Anionic detergents
  • Methanol (fuels and antifreezes)

What is included with the detector?

The following items are included with the detector:

  • Sensors: H2S, CO, O2, and combustible LEL (depending upon sensors ordered with detector)
  • Calibration cap
  • Calibration hose (3 ft./1 m) w/ quick connect
  • Charging adapter or 3 alkaline batteries (dependent on type of bat-tery pack)
  • Screwdriver
  • Quick Reference Guide
  • Supplementary booklet including a quick reference card
  • Technical reference guide on CD-ROM

Where can Fleet Manager II software be downloaded from?

Fleet Manager II software can be downloaded without cost from BW Technologies by Honeywell’s website http://www.gasmonitors.com.

What is shipped with the detector?

The detector is shipped with the sensors and a rechargeable or alkaline battery pack.

What should you refer to in order to replace sensors and maintain the battery pack?

  • Replacing the Sensors
  • Charging the Rechargeable Battery
  • Replacing the Battery Pack
  • Replacing the Alkaline Batteries

What do Figure 1 and Table 4 describe?

Figure 1 and Table 4 describes the detector’s components.

What does “Screen Elements” describe?

“Screen Elements” describes the LCD icons and screen elements.

What does Table 5 describe?

Table 5 describes the detector’s pushbutton.

What are the parts of the GasAlertQuattro?

The parts of the GasAlertQuattro are:

  • IntelliFlash (green LED)
  • Visual alarm indicator (red LED)
  • Hydrogen sulfide (H2S) sensor
  • Button
  • Combustible (LEL) sensor
  • Carbon monoxide (CO) sensor
  • Liquid crystal display (LCD)
  • Audio alarm
  • Oxygen (O2)
  • Alligator clip
  • Battery pack
  • Charging connector and IR interface

What does the button do?

  • To activate the detector, press and hold C in a safe area that is free of hazardous gas and in an atmo-sphere of 20.9% oxygen.
  • To deactivate the detector, press and hold C during the powering off countdown. Release C when OFF displays.
  • To view the date/time, current battery power, calibration due date, bump test due date, TWA, STEL, and peak readings, press C twice rapidly. To clear the TWA, STEL, and peak readings, press and hold C when the LCD displays Hold C to reset peaks, TWA, STEL.
  • To initiate calibration, press and hold C while the detector performs the OFF countdown. Continue holding C while the LCD briefly deactivates and then reactivates to begin the calibration countdown. Release C when Calibration started displays.
  • To activate the backlight, press C and release.
  • To acknowledge latching alarms, press C.
  • To acknowledge a low alarm and temporarily disable the audible alarm, press C. The Low Alarm Acknowledge option must be enabled in Fleet Manager II.
  • To acknowledge any of the “due today” messages (calibration and bump test), press C. If the force calibra-tion option is enabled, a calibration cannot be bypassed. If the force bump option is enabled, a bump test cannot be enabled.

Where should the detector be activated?

Only activate the detector in a safe area that is free of hazardous gas in an atmosphere of 20.9% oxygen.

How do you activate the detector?

Press and hold C.

How do you deactivate the detector?

Press and hold C during the powering off countdown. Release C when OFF displays.

What should you do if an error screen displays during the startup sequence?

If an error screen displays during the startup sequence, refer to Startup Troubleshooting.

What tests are performed during the startup sequence?

When the detector is activated, it performs several tests during the startup sequence. Confirm the following tests occur:

  • Battery Test
  • Segment Test
  • Product Identification and Firmware Revision
  • Startup Message
  • Alarm Setpoints
  • Sensor Self Test
  • Auto Zero Sensors
  • Next Calibration Due
  • Sensors Due for Calibration
  • Bump Test Due
  • Sensors Due for Bump Test
  • Startup Self-test Summary

What happens if the battery power is critically low upon startup?

If battery power is critically low upon startup, the detector displays the following screens and then deactivates. Recharge the battery for 6 hours. Refer to Charging the Rechargeable Battery.

What does the segment test verify?

The segment test verifies that the visual, audio, and vibrate functions are operating correctly. The detector alarms, vibrates, and displays the segment test screen.

What two screens display after the segment test?

The following two screens display showing the BW and product identification, and the firmware revision.

What happens if data is entered in the Startup Message field in Fleet Manager II?

If data is entered in the Startup Message field in Fleet Manager II, a startup message (50 characters maximum) displays on the LCD. If a startup message has not been entered, it is bypassed during the startup sequence.

What order do the alarm setpoints display in?

The alarm setpoints defined in Fleet Manager II display on the detector in the following order:

  • TWA (time-weighted average) CO and H2S only
  • STEL (short-term exposure limit) CO and H2S only
  • Low
  • High

What happens if all sensors pass the sensor self-test?

If all sensors pass, the sensor self test screen displays.

What happens if Lockout on Self-test Error is enabled and a sensor fails the startup sensor self-test?

If Lockout on Self-test Error is enabled and a sensor fails the startup sensor self-test, the following screens display. OFF then displays and the detector deactivates.

What happens if all sensors fail the startup sensor self-test?

If all sensors fail the startup sensor self-test, the following screens display. The detector then automatically deactivates.

What happens if Lockout on Self Test Error is disabled and a sensor fails the self-test?

If Lockout on Self Test Error is disabled and a sensor fails the self-test, the following screens display. BW Technologies by Honeywell recommends that the sensor be replaced immediately. Refer to Replacing the Sensors.

What happens after the sensor self test?

The detector zeros the sensors. When auto-zeroing is complete, changes to .

What happens if a sensor fails the auto-zero test?

If a sensor fails the auto-zero test, the Auto-zero error screen displays. indicates which sensor failed and that a previous auto-zero result for that sensor will be used to zero the sensor.

What is displayed for the next calibration due date?

The next calibration due date for each sensor displays. N/A displays when the calibration interval has been defined as 0 days. Refer to Calibration Interval.

How often does BW Technologies by Honeywell recommend that the sensors be calibrated?

BW Technologies by Honeywell recommends that the sensors be calibrated regularly and at least once every 180 days (6 months).

What happens if calibration is due?

If calibration is due, the following screen displays. flashes for each sensor that is due for calibration. Press C to acknowledge that calibration is due. If Force Calibration is disabled, the detector enters normal operation.

What happens if the Force Calibration option is enabled?

If the Force Calibration option is enabled, the following screen displays. The sensor(s) must be calibrated to enter normal operation. Press and hold C to enter calibration and refer to Calibration Procedures, or press C and release to deactivate the detector.

What is displayed for the next bump test due date?

The next bump test due date for each sensor displays.

What happens if a bump test is due?

If a bump test is due, the following screen displays. flashes for each sensor that is due for a bump test. N/A displays when the bump test interval has been defined as 0 days. Refer to Bump Interval.

How often does BW recommend bump testing the sensors?

BW recommends to bump test the sensors before each day’s use to confirm their ability to respond to gas by exposing the sensors to a gas concentration that exceeds the alarm setpoints.

What happens if you press C to acknowledge that a bump test is due?

Press C to acknowledge that a bump test is due. If Force Bump is disabled, the detector enters normal operation.

What happens if the Force Bump option is enabled?

If the Force Bump option is enabled, the following screen displays. The sensor(s) must pass the bump test to enter normal opera-tion. Apply gas manually or via the MicroDock II station, or press C to exit and deactivate the detector. Refer to Bump Test.

How often does BW Technologies by Honeywell recommend bump testing the sensors?

BW Technologies by Honeywell recommends to bump test the sensors before each day’s use to confirm their ability to respond to gas by exposing the sensors to a gas concentration that exceeds the alarm setpoints. Manually verify that the audi-ble and visual alarms activate. Calibrate if the readings are not within the specified limits.

What happens if error screens display during a bump test?

If error screens display, refer to Bump Test Troubleshooting.

What diagnostic tests does the detector perform during startup?

The detector performs several diagnostic tests during startup to ensure it is operating correctly. A checkmark displays for each test that has passed successfully.

What should you do if a displays for Hardware, Battery, Sensors, Clock, or Memory?

If displays for Hardware, Battery, Sensors, Clock, or Memory contact BW Technologies by Honeywell.

What does it mean if an displays for Auto-Zero?

If an displays Auto-Zero, the detector uses the pervious zero readings. The detector can be zeroed in a safe area free of hazardous gas. Refer to steps #1-9 in Quad Gas Calibration.

What does the detector automatically begin recording?

The detector automatically begins

  • recording the peak gas exposure
  • calculating the short-term exposure level (STEL)
  • calculating the time-weighted average (TWA) exposures

What is required to configure the detector?

Fleet Manager II is required to configure the detector.

Where is the Fleet Manager II Quick Reference Guide located?

The Fleet Manager II Quick Reference Guide is located under Help.

What are the two sections in Fleet Manager II to add data, enable/disable features, and to define settings for the sensors and the detector?

  • Device Configuration
  • Sensor Configuration

How do you connect the IR Link?

  • Activate the detector and wait for the startup sequence to complete.
  • Connect the USB cable to the USB port on the computer.
  • Connect the USB cable to the IR Link.
  • Insert the IR Link into the IR interface on the back of the detector.

How do you configure the detector using Fleet Manager II?

  • From the PC, open Fleet Manager II.
  • Click Administration.
  • From the Administration toolbar, click Login / Logout to access the Enter Password dialog box. Enter Admin and click OK (password is case sensitive).
  • From the Devices toolbar, click Configure Device via IR Link.
  • The Device Selection popup displays. Select GasAlertQuattro and click OK.
  • From the configuration window, click Retrieve from Device at the bottom of the window. The fields automatically populate with the detector’s current configuration settings.
  • Refer to the following sections in this manual for descriptions about how to enter data, enable/disable, and define settings.
  • When all settings are defined, click Save to Device at the bot-tom of the window. The detector is now updated with the new settings.

What does the Device Configuration section display?

The Device Configuration section displays data about the detector, allows for a startup message to be entered, and defines and enables/dis-ables settings for the detector.

What should you do when options are enabled/disabled?

When options are enabled/disabled, the checkbox displays with a red frame until the new settings are saved to the detector. Click Save to Device and then click Retrieve from Device to remove the red frames.

What does the Serial Number Field display?

This field displays the serial number (e.g. QA109-001000) of the detector.

Are the Serial Number, Firmware Version, and Hardware Version fields read-only or editable?

The Serial Number, Firmware Version, and Hardware Version fields are read-only fields. Settings for these fields are factory defined.

What does the Firmware Version field display?

This field displays the current firmware version that displays on the detector LCD during the startup sequence. If new firmware is uploaded to the detector, the Firmware Version field automatically updates.

What does the Hardware Version field display?

This field displays the current hardware version of the detector.

What can be entered in the Startup Message field?

Enter text to display on the detector LCD during startup (50 characters maximum). Enter information such as employee name, plant, area, emergency number(s), etc.

How do you make a line break in the Startup Message field?

To make a line break to force text to the next line, press the | (pipe or vertical bar) key.

What happens if Lockout on Self-Test Error is enabled and a failure occurs during the self-test?

If Lockout on Self-Test Error is enabled and a failure occurs during the self-test, the following screen displays and the detector deactivates. To enter normal operation, the sensor must be operating correctly. Refer to Troubleshooting and Replacing the Sensors.

What is the detector shipped with regarding Lockout on Self-Test Error?

The detector is shipped with Lockout on Self-Test Error disabled.

What happens if Safe Mode is enabled?

If enabled, SAFE displays continuously on the LCD unless an alarm condition occurs. If an alarm occurs, the LCD displays the alarm condition and the real-time readings for each sensor.

What does the Confidence/Compliance Beep do if enabled?

If enabled, the Confidence/Compliance Beep provides continuous audi-ble confirmation that the detector is operating correctly. Frequency of the beep is defined with the Confidence/Compliance Beep Interval option (every 1-120 seconds).

When does the Confidence/Compliance Beep automatically disable?

Confidence/Compliance Beep automatically disables during a low battery alarm, self-test fail, calibration fail, bump test fail, and when an alarm event occurs.

What is the detector shipped with regarding the Confidence/Compliance Beep option?

The detector is shipped with the Confidence/Compliance Beep option disabled.

What happens during an alarm condition if Latching Alarms is enabled?

If enabled, during an alarm condition the Latching Alarms option causes the low and high gas alarms (audible, visual, and vibrator) to persist until the alarm is acknowledged and the gas concentration is below the low alarm setpoint. The LCD displays the peak concentration until the alarm no longer exists. Local regulations in your region may require the Latching Alarms option be enabled.

What is the detector shipped with regarding the Latching Alarms option?

The detector is shipped with the Latching Alarms option disabled.

Why is calibration performed?

Calibration is performed to adjust the sensitivity levels of the sensors to ensure accurate responses to gas.

What happens if Force Calibration is enabled and a sensor(s) is past due for calibration?

If enabled and a sensor(s) is past due for calibration, the following screen displays during the startup self-tests. The sensor(s) must be calibrated to continue and enter normal operation. Press and hold C, and refer to Calibration Procedures. Or, press and release C to deactivate the detector.

What needs to be entered before enabling Force Calibration?

A value must be entered in the Cal Interval (days) field in the Sensor Configuration section before enabling Force Calibration.

What happens if 0 is entered in the Cal Interval (days) field?

If 0 (zero) is entered in the Cal Interval (days) field, the Force Calibration option is automatically disabled.

What is the detector shipped with regarding the Force Calibration option?

The detector is shipped with the Force Calibration option disabled.

What should be done regularly to ensure the sensor(s) are responding correctly to gas?

A bump test should be performed regularly to ensure the sensor(s) are responding correctly to gas.

What happens if Force Bump is enabled and the sensor(s) is past due?

If enabled Force Bump and the sen-sor(s) is past due, a bump test should be performed and the overdue sensor(s) must enter into alarm. If the Force Bump option is enabled, the following screen displays during the startup sequence. If enabled, the detector continues to prompt until a bump test is per-formed and the sensor passes. Apply gas to initiate a bump test. Or, press and hold C to deactivate the detector.

What needs to be entered before enabling Force Bump?

A value must be entered in the Bump Interval (days) filed in the Sensor Configuration section before enabling Force Bump.

What happens if 0 is entered in the Bump Interval (days) field?

If 0 is entered in the Bump Interval (days) field, the Force Bump option is automatically disabled.

How often does BW recommend bump testing the sensors?

BW recommends to bump test the sensors before each day’s use to confirm their ability to respond to gas by exposing the detector to a gas concentration that exceeds the alarm setpoints. Verify that the audible and visual alarms activate. Calibrate if the readings are not within the specified limits.

What is the detector shipped with regarding the Force Bump option?

The detector is shipped with the Force Bump option disabled.

What happens if Cal IR Lock is enabled?

If enabled, the sensor(s) can only be calibrated using an IR device (IR Link or the MicroDock II station). If the Cal IR Lock option is enabled and calibration is due, the following screen displays.

What happens if the Cal IR Lock option is enabled and a manual calibration is attempted?

If the Cal IR Lock option is enabled and a manual calibration is attempted, the sensor(s) will auto zero but they will not be calibrated.

What is the detector shipped with regarding the Cal IR Lock option?

The detector is shipped with the Cal IR Lock option disabled.

What happens if the Flip Display option is enabled?

If the Flip Display option is enabled, the LCD is viewed at 180° (upside down).

What is the detector shipped with regarding the Flip Display option?

The detector is shipped with the Flip Display option disabled (upright).

What features are disabled when the Stealth option is enabled?

When the Stealth option is enabled, the following features are disabled:

  • backlight
  • audible alarms
  • visual alarms
  • IntelliFlash
  • confidence/compliance beep

Only the vibrator and the LCD readings activate during an alarm condi-tion.

What happens when Stealth is enabled?

When Stealth is enabled, displays every 3 seconds between each sequence of three heartbeats.

What happens if an alarm occurs when Stealth is enabled?

If an alarm occurs, ceases to display until the gas concentrations are below the low alarm setpoint.

What is the detector shipped with regarding the Stealth option?

The detector is shipped with the Stealth option disabled.

What does the Datalog Interval (seconds) field define?

The Datalog Interval (seconds) field defines how often the detector records a datalog (every 1-120 seconds). The total number of 8-hour days datalogs that can be recorded is assuming 90% of the day has no gas concentrations.

What happens when the memory is full regarding datalogs?

When the memory is full, the detector replaces the oldest datalogs with the most recent datalogs.

What is the detector shipped with regarding the Datalog Interval?

The detector is shipped with the default setting of 5 seconds.

What does the IntelliFlash Interval (seconds) field define?

The IntelliFlash Interval (seconds) field defines how often (every 1-120 seconds) the IntelliFlash occurs.

What is the detector shipped with regarding the IntelliFlash Interval option?

The detector is shipped with the default setting of 1 second for the IntelliFlash Interval option.

What does the Confidence/Compliance Beep Interval field define?

The Confidence/Compliance Beep Interval field defines how often (every 1-120 seconds) the confidence/compliance beep occurs.

What is the detector shipped with regarding confidence/compliance beep?

The detector is shipped with confidence/compliance beep disabled.

What language options are provided?

The Language field provides a drop down menu that includes the following language options:

  • English
  • Français (French)
  • Deutsch (German)
  • Español (Spanish)
  • Português (Portuguese)

What is the detector shipped with regarding the default language?

The detector is shipped with English displaying as the default language.

What does the Sensor Configuration tab define?

The Sensor Configuration tab defines settings for each individual sensor. A separate sensor tab is provided for each sensor.

What should you use extreme caution when doing?

Use extreme caution when disabling a sensor. The disabled sensor cannot detect and alarm against the applicable gas.

What is the detector shipped with regarding the sensors?

The detector is shipped with all sensors enabled.

What are the alarm indications for a multi-gas alarm?

The detector will produce an alternating low and high alarm siren and flash, the black box around the gas will flash, the type of alarm will alternate, and the vibrator alarm will activate.

What are the alarm indications for an Over Limit (OL) alarm?

The detector will produce a fast siren (downward tone), a fast flash, a black box around the gas will flash, and the vibrator alarm will activate. The LCD may also display an under-limit reading (-OL).

What are the alarm indications for a low battery alarm?

The detector will emit a sequence of 10 rapid sirens and alternating flashes with 7 seconds of silence in between, and the battery icon will flash while the vibrator activates. This will continue for 15 minutes, after which the detector enters critical battery alarm.

What are the alarm indications for a critical battery alarm?

Fifteen minutes after the low battery alarm activates, a sequence of 10 rapid sirens and alternating flashes with 1 second of silence in between will activate seven times. The vibrator alarm pulses, “Low Battery Powering Off” displays, and the detector deactivates.

What is a heartbeat indication on the detector?

The detector pulses every second to verify it is operating correctly.

What are the indications when the detector is deactivated normally?

A sequence of alternating beeps and flashes will occur, the vibrator alarm will activate, a countdown will initiate, and “OFF” will display.

What is an IntelliFlash indication?

One green LED flash every 1-120 seconds. The flash frequency is defined with the IntelliFlash Interval option.

When does the IntelliFlash automatically deactivate?

IntelliFlash automatically deactivates during a low battery alarm, calibration fail, bump test fail, self-test fail, and an alarm condition.

What does a sensor failure alarm look like on the detector?

The screen displays the sensor failure alarm.

What is a confidence/compliance beep?

One beep every 1-120 seconds. The beep frequency is defined with Confidence/Compliance Beep Interval option.

When does the confidence/compliance beep automatically deactivate?

The confidence/compliance beep automatically deactivates during a low battery alarm, calibration fail, bump test fail, self-test fail, and an alarm condition.

What happens if Low Alarm Acknowledge is enabled during a low alarm?

The audible alarm can be disabled, but the visual and vibrate alarms remain active until the alarm condition changes or the detector deactivates. Pressing “C” acknowledges and deactivates the audible alarm. If the alarm escalates to a high, TWA, or STEL alarm, the audible alarm reactivates.

What happens when Latching Alarms is enabled during an alarm condition?

The low and high gas alarms (audible, visual, and vibrator) will persist until the alarm is acknowledged by pressing “C” and the gas concentration is below the low alarm setpoint. The peak concentrations display continually until the alarm condition no longer exists.

How do you stop a gas alarm?

The low and high alarms stop when the ambient gas concentration returns to the acceptable range. If alarms are set to latch, press “C” to reset the alarms. The TWA and STEL alarms can be stopped either by deactivating and then reactivating the detector, or by clearing the TWA/STEL/peak exposure readings.

What should you do before clearing TWA and STEL alarms?

Confirm with your supervisor before clearing TWA and STEL alarms.

What should you not do during a work shift?

Do not deactivate the detector during a work shift because TWA, STEL, and peak readings reset when the detector is deactivated.

What is a TWA?

Time-weighted average (TWA) based on accumulated exposure to toxic gases averaged over a work-day according to US OSHA or ACGIH TWA method. The default is a US OSHA 8 hour moving average, but can be user-defined as a 4-16 hour moving average.

What is STEL?

Short-term exposure limit (STEL) to gas based on a 5-15 minute user-defined period.

What is a peak reading?

Peak concentration encountered during a work shift. For oxygen, it is the highest or the lowest concentration encountered.

How do you view the TWA, STEL, and peak readings?

Press “C” twice rapidly.

What information is shown before the TWA, STEL and peak readings?

The LCD first displays the current time and date, battery capacity, and the due dates for the next calibration. Next, the due date for the next bump test displays.

How do you reset peak readings?

Press and hold “C” to reset peak readings.

What happens if you don’t hold the C button to reset the peak readings?

If C is pressed and released or C is not pressed when the “Hold C button to reset peaks screen” displays, the peaks, TWA, and STEL will not be reset.

When are gas alarms activated?

Gas alarms are activated when detected gas concentrations are above or below the user-defined setpoints.

How can you disable an alarm?

To disable an alarm, set the alarm setpoint to 0 (zero) in Fleet Manager II.

What is the low alarm condition for toxics and combustibles?

Ambient gas level above low alarm setpoint.

What is the low alarm condition for oxygen?

Ambient gas level may be set above or below 20.9% (or 20.8%).

What is the high alarm condition for toxics and combustibles?

Ambient gas level above high alarm setpoint.

What is the high alarm condition for oxygen?

Ambient gas level may be set above or below 20.9% (or 20.8%).

What is a TWA alarm condition for toxics?

Accumulated value above the TWA alarm setpoint.

What is a STEL alarm condition for toxics?

Accumulated value above the STEL alarm setpoint.

What is a multi-gas alarm condition?

Two or more gas alarm conditions simultaneously.

What does the Over Limit (OL) alarm indicate?

“OL” or “-OL” displays when readings are above or below the sensor detection range, respectively.

What are the default alarm setpoints for H2S, CO, O2, and LEL?

H2S: TWA 10 ppm, STEL 15 ppm, Low 10 ppm, High 15 ppm; CO: TWA 35 ppm, STEL 50 ppm, Low 35 ppm, High 200 ppm; O2: Low 19.5% vol., High 23.5% vol; LEL: Low 10% LEL, High 20% LEL.

What is a bump test?

A bump test is the process of applying a small amount of test gas to force the detector into alarm.

Why should you perform a bump test regularly?

To confirm the sensors are responding correctly to gas, and that the audible, visual, and vibrator alarms activate during an alarm condition.

What should you do if the bump test readings are not within specified limits?

Calibrate the detector.

How is a bump test recorded in the event logs if gas is manually applied to the sensors?

It will be recorded as a peak event.

How is a bump test recorded in the event log as a bump?

If a Bump Interval has been defined and when prompted during startup to apply gas, it will be recorded as a bump test, or if the MicroDock II performs the bump test.

How do you view the event logs?

Import the event logs into Fleet Manager II.

How often does BW recommend that the sensors are bump tested?

BW recommends to bump test the sensors before each day’s use.

What should you verify during a manual bump test?

Verify the visual, audible, and vibrator alarms activate.

What should you do after applying gas for a bump test?

Close the regulator and remove the calibration cap from the detector. The detector will temporarily remain in alarm until the gas clears from the sensors.

What is the purpose of calibration?

Calibration is performed to adjust the sensitivity levels of sensors to ensure accurate responses to gas.

What are the recommended calibration gas mixtures?

CO: 100 ppm, H2S: 25 ppm, LEL: 50% LEL or 2.5% by vol. methane, O2: clean air, 18%. Ensure balance is nitrogen (N2).

What type of calibration gas should you use to ensure accuracy?

Use a premium-grade calibration gas that is approved by the National Institute of Standards and Technology (NIST).

What should you not do with a gas cylinder?

Do not use a gas cylinder past its expiration date.

When should you calibrate a new sensor?

Calibrate a new sensor before use. Install the sensor, activate the detector, and allow the sensor to stabilize before starting calibration or a bump test. Used sensor: 60 seconds / new sensor: 5 minutes.

How often should you calibrate the sensors?

Calibrate the sensors at least once every 180 days, depending upon use and sensor exposure to poisons and contaminants.

Where should you calibrate the sensors?

Calibrate only in a safe area that is free of hazardous gas in an atmosphere of 20.9% oxygen.

Which sensor should be calibrated first when performing a single gas calibration?

Calibrate the O2 sensor first.

What happens if the Auto-Zero on Startup option is enabled?

The H2S, CO, LEL, and O2 sensors can be automatically zeroed each time the detector is activated in a normal (20.9% or 20.8% O2) atmosphere.

What regulator should be used for manual calibration?

Manual calibration is performed using a 0.5 l/min regulator.

What regulator should be used when calibrating with the MicroDock II station?

Use a demand flow regulator.

What is the maximum hose length for calibration?

The maximum hose length for calibration is 3 ft. (1 m).

When should you attach the calibration cap?

Do not attach the calibration cap until instructed to apply gas.

What are the maximum inlet pressure specifications for calibration cylinders that are used with a demand flow regulator?

Disposable cylinders 0-1000 psig/70 bar, and refillable cylinders 0-3000 psig/207 bar.

What should you verify before beginning calibration?

Verify the calibration gas being used matches the span concentration value(s) that are set for the detector.

What should you do before connecting the calibration cap to the detector for calibration?

Attach a 0.5 l/min regulator to the gas cylinder. To calibrate with the MicroDock II station, use a demand flow regulator.

What should you ensure before applying gas during calibration?

Ensure the knob is securely fastened. Do not overtighten the calibration cap. Ensure strong air currents are kept away from the exhaust side of the calibration cap.

What do you do after calibration is complete?

Disconnect the hose from the calibration cap and the regulator.

What is the procedure for calibrating the sensor(s)?

  1. Activate the detector.
  2. In Fleet Manager II, verify the calibration gas being used matches the span concentration value(s) that are defined for the detector. Only use the calibration cap for bump tests and calibrations.
  3. Press and hold “C” as the detector performs the Powering Off countdown.
  4. Continue holding “C” when “OFF” displays.
  5. The detector then performs the calibration countdown. Continue holding “C” when the “Starting Calibration” screen displays.
  6. If Cal IR Lock is enabled, an IR device (IR Link or MicroDock II station) must be used to continue calibration.
  7. Release “C” when “Calibration Started” displays.
  8. The detector enters the zero function. “Zeroing” displays while the detector zeroes all the sensors.
  9. When the “Apply Calibration Gas” screen displays, attach the calibration cap.
  10. Open the valve on the regulator and apply gas at a flow rate of 250-500 ml/min.
  11. The detector initially tests for gas. When a sufficient amount of gas is identified, a checkmark displays beside each gas that is detected.
  12. The detector then begins calibrating the sensors.
  13. When the “Turn gas off…” screen displays, close the valve on the gas cylinder and remove the calibration cap from the detector. A checkmark displays beside each sensor that has calibrated successfully.
  14. When calibration is complete, the “Calibration complete” screen displays.
  15. All successfully calibrated sensors automatically reset to the number of days defined in the Cal Interval field in Fleet Manager II.

What should you do if a sensor fails zero?

A sensor that fails zero cannot be calibrated. If a sensor fails, refer to Calibration Troubleshooting.

What should you do if a sensor fails calibration or an error screen displays?

Refer to Calibration Troubleshooting.

What happens if a sensor fails calibration?

The next calibration due date for that sensor will not reset.

If the Cal IR Lock option is enabled, how must the sensors be calibrated?

The sensors must be calibrated using one of the following IR devices: IR Link With Fleet Manager II or MicroDock II Station.

How do you start a calibration using Fleet Manager II?

  1. From the PC, open Fleet Manager II.
  2. Click on the ‘Login’ icon.
  3. From the Administration toolbar, click the ‘Enter Password’ icon.
  4. Enter “Admin” and click OK.
  5. From the Devices toolbar, click the ‘Configure Device’ icon. The Device Selection popup displays.
  6. Select GasAlertQuattro.
  7. Activate the detector and wait for the startup self-tests to complete.
  8. From Fleet Manager II, click the ‘Calibrate Device’ icon located at the bottom of the window. The Calibrate Device dialog box displays.
  9. Enter the span gas concentration values. The values entered in the Calibrate Device popup must match the span concentration values on the gas cylinder.
  10. Click inside the checkbox for each sensor that will be calibrated, and then click the ‘Calibrate’ icon. The “Calibration started” screen displays.
  11. Return to “Zero Sensor” step #8 in the Calibration Procedures to continue calibration.

What information is recorded from an event log?

Peak alarm levels during an alarm, start time and date of alarm, type of exposure, level, and duration of alarm, records and stores the last thirty events (excluding bump tests), records and stores the last 10 bump test events for each sensor, and records and logs when low alarms are acknowledged.

What happens when 30 event logs have been recorded?

The next event log overwrites the oldest event log.

What is a datalog?

The detector records datalog samples that can be compiled to create a report using Fleet Manager II.

How do you define how often the detector records a datalog sample?

In Fleet Manager II, define how often the detector records a datalog sample (1-120 seconds) in the Datalog Interval (seconds) field.

What information is recorded in a datalog?

Alarms, date and time, sensor readings and sensor status, serial number, detector status, TWA and STEL readings, times the detector was activated and deactivated, battery status, configuration changes, low and high alarm setpoints (all sensors), STEL and TWA alarm setpoints (H2S and CO only), STEL and TWA interval settings (H2S and CO only), Fleet Manager II options that are defined for the detector and configuration changes, low alarm acknowledges, cal due and bump due disregarded via button press, calibration and bump test interval settings, calibration data: zero, span, time, date, and pass/fail events, bump test (time, date, and pass/fail events), battery status, log type, temperature, datalog interval, language, and sensor options.

How often can datalogs be recorded?

5 seconds: 15 days, 15 seconds: 45 days, 60 seconds: 180 days.

What happens when the memory is full when recording datalogs?

The detector replaces the oldest datalogs with the most recent datalogs.

What information is recorded in the calibration and bump test results?

Date/time bump tests and calibrations are performed, serial number, test performed, test results, detector status, detector configuration updates during bump test/calibration, type of detector, MicroDock II serial number, last calibration performed, next calibration due date, last bump test performed, next bump test due date, datalog interval, STEL period, audible and visual indicator status, sensor type and sensor status, alarm status, sensor status, and MicroDock II inlet(s) used.

How do you record calibration and bump test results?

The detector must be calibrated and bump tested using the MicroDock II station.

How do you download datalogs and event logs?

The datalog and event log files can only be downloaded to a PC using the IR Link or the MicroDock II base station.

What are the software requirements for the detector?

Windows XP or Windows Vista operating system, and Fleet Manager II. Microsoft Excel is optional.

What basic maintenance should be performed on the detector?

Calibrate, bump test, and inspect the detector at regular intervals, maintain an operations log of all maintenance, bump tests, calibrations, and alarm events, and clean the exterior with a soft damp cloth. Do not use solvents, soaps, or polishes.

What should you do when the detector emits a low battery alarm?

Charge the battery immediately.

What type of batteries should be used in the detector?

Use only BW recommended alkaline batteries.

Where should the battery be charged?

Charge the battery in a safe area that is free of hazardous gas in temperatures ranging from of 32°F to 104°F (0°C to 40°C).

What charger adapters should be used?

Charge the battery using BW charger adapters designed for the GasAlertQuattro only.

What can happen if you use the charger adapter outside your region?

Use of the charging adapter outside your region will damage the charger and the detector.

What should you not do with the lithium battery?

Do not disassemble, heat above 212° (100°C), or incinerate the lithium battery.

What should you do if you are replacing the battery?

Use only approved lithium polymer cells that are available through BW Technologies by Honeywell. Use of any other cell can cause fire and/or explosion.

How should used lithium cells be disposed of?

Dispose of used lithium cells immediately. Do not disassemble and 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.

How do you charge the battery?

  1. Press and hold “C” to deactivate the detector.
  2. Plug the charger into a AC outlet.
  3. Attach the charging adapter to the charger interface.
  4. The lithium battery may require 6 hours to reach full capacity.

What is displayed on the LCD while charging?

The battery icon.

What is displayed on the LCD when the battery is fully charged?

The “Charging complete” screen.

What should you do to ensure maximum use of the battery?

To obtain full operating capacity, allow the battery to fully charge and discharge three times. To achieve the maximum number of charges, ensure the battery is charged between 32°F and 104°F (0°C and 40°C). Do not charge the battery in temperatures above 113°F (45°C).

What happens to a rechargeable battery’s runtime over time?

A rechargeable battery’s runtime decreases approximately 20% over a two-year period of typical use.

How do you remove the battery pack?

  1. Press and hold “C” to deactivate the detector.
  2. If using the retaining screw, loosen it 1-2 turns. Push the battery release latch toward the top of the detector to release the battery pack.
  3. From the top of the battery pack, lift the battery pack upward to remove.

How do you insert the new battery pack?

Insert the bottom of the battery pack first at a 30° angle, then lower the top into place. Press until the release tab engages. If using the retaining screw, tighten it 1-2 turns using 3-4 in-lbs of torque.

What type of batteries should be used when replacing the alkaline batteries?

Use only BW recommended alkaline batteries.

Where should you replace the alkaline batteries?

Change the alkaline batteries only in safe area that is free of hazardous gas.

How do you replace the alkaline batteries?

  1. Press and hold “C” to deactivate the detector.
  2. If using the retaining screw, loosen it 1-2 turns. Push the battery release latch toward the top of the detector to release the battery pack.
  3. Remove the alkaline battery pack.
  4. Unhook the ejector bar from the release clasp. Move the ejector bar towards the top of the battery pack until it is aligned horizontally over the batteries.
  5. Using the tab, pull on the ejector bar.
  6. To the left of the tab, pull up on the ejector bar.
  7. Remove the spent batteries.
  8. Reset the ejector bar to its original flat position. Ensure the ejector bar engages the release clasp.
  9. Insert the new batteries. Position the positive end of the battery at a 30° angle and insert into the battery pack before pushing the negative end down into place.
  10. Replace the battery pack by inserting the bottom first, then lower the top into place. Ensure the tab is tucked in before replacing the battery pack.
  11. Press until the release tab clicks. If required, tighten the retaining screw using 3-4 in. lbs torque.

What type of sensors should be used when replacing the sensors?

Use only sensors that are specifically designed for the detector.

What should you do to clear a sensor?

To clear a sensor, move the detector to a clean environment and wait 10 to 30 minutes.

How do you replace a sensor?

  1. Press and hold “C” to deactivate the detector.
  2. Press the release latch and remove the battery pack.
  3. Remove the six machine screws from the rear shell.
  4. Remove the front shell.
  5. Remove the spent sensor(s). Use caution when removing the sensor(s) to ensure no damage occurs to the LCD.
  6. Insert the new sensor(s).
  7. Reassemble the detector. Press the front and rear shells together firmly to ensure a proper seal. Ensure the front and rear shells have a tight, uniform 1/16 in. (1 mm) seal on all sides of the detector.
  8. Replace the six machine screws using 3-4 in. lbs of torque. Do not overtighten the screws.
  9. Replace the battery pack.
  10. New sensors should be calibrated prior to use. Calibrate the new sensor(s) immediately.

What might happen when a new sensor has been inserted and the detector is activated?

The detector may enter alarm.

How do you replace the sensor filter?

  1. Press and hold “C” to deactivate the detector.
  2. Press the release latch and remove the battery pack.
  3. Remove the six machine screws from the rear shell.
  4. Remove the front shell.
  5. Remove the sensor filter.
  6. Before inserting the new filter, ensure the filter is laying flat and that the holes are correctly aligned over the filter posts.
  7. Replace the front shell. Press the front and rear shells together firmly to ensure a proper seal. Ensure the front and rear shells have a tight, uniform 1/16 in. (1 mm) seal on all sides of the detector.
  8. Replace the six machine screws using 3-4 in. lbs torque. Do not overtighten the screws.
  9. Replace the battery pack.

What should you do if the detector does not activate?

Replace alkaline batteries or charge the rechargeable battery pack. If the problem persists, contact BW Technologies by Honeywell.

What should you do if the detector automatically deactivates?

Replace alkaline batteries or charge the rechargeable battery pack.

What should you do if the detector has a lockout on self-test error?

Refer to “Lockout on Self-Test Error” and “Replacing the Sensors”.

What should you do if the detector enters alarm immediately when activated?

Leave the area immediately. Deactivate and reactivate the detector in a safe area that is free of hazardous gas, in an atmosphere of 20.9% oxygen. If a new sensor has been inserted, calibrate the sensor.

What should you do if the activation startup self-test fails?

Contact BW Technologies by Honeywell. If there is a sensor error, refer to “Startup Troubleshooting” and “Replacing the Sensors”.

What should you do if the detector does not display normal gas reading after the startup sequence?

Allow the sensors to stabilize, or calibrate the sensors. If target gas is present, use caution in suspect areas.

What should you do if the detector does not respond to the push-button?

Replace alkaline batteries or charge the rechargeable battery pack. Button operation restores automatically when the operation ends.

What should you do if the detector does not accurately measure gas?

Calibrate the sensor(s). Allow the detector to attain ambient temperature before use. If the sensor filter is blocked, refer to “Replacing the Sensor Filter”.

What should you do if the detector does not enter alarm?

Define the alarm set-points in Fleet Manager II. Ensure the alarm setpoints are not set to zero.

What should you do if the detector intermittently enters alarm without reason?

Use caution in suspect areas. Check the peak gas exposure reading. Define the alarm set-points in Fleet Manager II. Calibrate the sensors. If there is a missing or faulty sensor, refer to “Replacing the Sensors”.

What should you do if the features and options are not operating as expected?

Verify that the settings in Fleet Manager II are correct.

What should you do if the battery has been charging for 6 hours, and the charging indicator on the LCD shows the battery is still charging?

The battery is trickle charging. The battery is fully charged and is ready for operation.

What should you do if the battery indicator does not display when charging?

Charge the battery for 8 hours. If the battery indicator does not light after charging, contact BW Technologies by Honeywell.

What should you do if the sensor(s) failed to auto-zero?

Calibrate the sensor(s) immediately. If Cal IR Lock is enabled, an IR device (IR Link or Micro-Dock II) must be used to calibrate.

What should you do if the last calibration failed?

Press C and calibrate the sensor(s) immediately. If Cal IR Lock is enabled, an IR device (IR Link or Micro-Dock II) must be used to calibrate.

What should you do if a sensor(s) fails the self-test during startup?

Press “C” to accept the failed sensor(s). Replace the sensor when startup is complete. Refer to “Replacing the Sensors”.

What should you do if the Force Calibration option is enabled?

Press and hold “C” to calibrate the sensors, or press “C” and release to deactivate the detector. If Cal IR Lock is enabled, an IR device (IR Link or Micro-Dock II) must be used to calibrate.

What should you do if all sensors fail and the Lockout on Self-test Error option is enabled?

Allow sensors to recover for 1 hour. If sensors fail startup again, refer to “Replacing the Sensors”.

What should you do if calibration is overdue and the Force Calibration option is enabled?

Press “C” to continue and calibrate the sensor(s) immediately. If Cal IR Lock is enabled, an IR device (IR Link or Micro-Dock II) must be used to calibrate.

What should you do if the last bump test failed and the Force Bump Test option is enabled?

Use the MicroDock II station to perform a bump test, otherwise press “C” to deactivate the detector. If you do not have a MicroDock II, change the bump interval in Fleet Manager II.

What should you do if the sensors are overdue for a bump test and the Force Bump test option is disabled?

Apply gas directly or use the MicroDock II, otherwise press “C” to enter normal operation with the bump test overdue.

What should you do if the Force Bump Test option is enabled?

Apply gas immediately or use the MicroDock II station, otherwise press “C” to deactivate the detector.

What should you do if the detector deactivates while trying to calibrate?

Activate the detector. When in normal operation, initiate calibration. Press and continue holding “C” (through a series of screens) until “Calibration started” displays.

What should you do if the “Cal IR Lock Enabled” screen displays?

An IR device must be used to calibrate (IR LInk or Micro-Dock II station). For manual calibration, refer to “Calibrating Using an IR Device”. For automated calibration, refer to the Micro-Dock II User Manual.

What should you do if a sensor(s) fails auto zero?

Replace the sensor or contact BW Technologies by Honeywell.

What should you do if there is a “Calibration Error” with insufficient gas detected?

Verify the span gas values on the cylinder match the span gas values set for the detector. Ensure gas is applied at a flow rate of 250-500 ml/min. Ensure cylinder is not empty or past expiry. Replace immediately if required. Replace the regulator if required.

What are the available sensors?

Combustible (LEL) sensor, Oxygen (O2) sensor, Carbon monoxide (CO) sensor, and Hydrogen sulfide (H2S) sensor.

What are the available regulators?

Demand flow regulator and 0.5 l/min regulator.

What are the available gas cylinders and kits?

Quad gas cylinder, Dual gas cylinder, Single gas cylinder, and Bump alarm gas aerosol.

What are the available calibration kits?

Quad calibration kit with regulator, quad gas cylinder, hose, and carrying case.

What are the available battery packs?

Rechargeable lithium battery pack and alkaline battery pack.

What are the available chargers and power options?

GasAlertQuattro multi-unit power adapter, GasAlertQuattro multi-unit cradle charger, vehicle power adapter, and replacement power adapter.

What are the available IR devices?

GasAlertQuattro IR connectivity kit, and GasAlertQuattro docking module and MicroDock II station.

What are some available accessories?

Concussion proof boot, carrying holster, auxiliary filter w/ LCD protector, replacement auxiliary filters, vehicle mount attachment, alligator clip, neck strap w/ safety release, short strap, extension strap, arm band, chest harness, and hard sided carrying case.

What are the specifications for the instrument’s dimensions?

13 x 8.1 x 4.7 cm (5.1 x 3.2 x 1.9 in.).

What are the specifications for the instrument’s weight?

316 g / 11.15 oz. (with rechargeable battery pack) or 338 g / 11.92 oz. (with alkaline battery pack).

What are the specifications for the operating temperature?

-20°C to +50°C (-4°F to +122°F).

What are the specifications for the storage temperature?

-40°C to +60°C (-40°F to +140°F).

What are the specifications for the operating humidity?

10% to 100% relative humidity (non-condensing).

What are the specifications for the dust and moisture ingress?

IP66/67 (with screw engaged).

What is the detection range for H2S?

0 – 200 ppm (0.1 ppm increments from 0.0 to 39.9ppm / 1 ppm increments about 40 ppm).

CLICK HERE TO DOWNLOAD HONEYWELL BW TECHNOLOGIES GASALERT QUATTRO (01) PDF MANUAL

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