MultiRAE User's Guide PDF

Summary

The MultiRAE is a family of multi-threat gas detectors, offering continuous monitoring for volatile organic compounds (VOCs), toxic and combustible gases, and radiation. This document provides a user's guide including general information, key features, and user interface.

Full Transcript

MultiRAE

2 General Information
The MultiRAE is a family of multi-threat gas detectors that combine continuous monitoring capabilities
for volatile organic compounds (VOCs), toxic and combustible gases, and radiation, with Man Down
Alarm functionality in one highly portable instrument. MultiRAE monitors offer an industry-leading
selection of interchangeable field-replaceable electrochemical, combustible, infrared, PID
(photoionization detector), and gamma radiation sensors to fit a wide variety of applications. The
tion to the next level by providing safety
officers real-time access to instrument readings and alarm status from any location for better visibility and
faster response.

Notes:

NDIR combustible sensors are not supported on the diffusion version with CSA certification.
The PID sensor requires a pumped configuration.
If a %Vol. NDIR sensor is installed in an instrument, a catalytic bead %LEL sensor must also be
installed in the instrument for CSA certification.

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2.1 Key Features

All-in-one continuous monitoring capabilities for gamma radiation, VOCs, oxygen, toxic
and combustible gases, for a total of up to six threats at a time
Highly customizable with over 25 field-interchangeable intelligent sensor options
Wireless access to real-time instrument readings and alarm status from any location
through ProRAE Guardian Real-Time Wireless Safety System
Unmistakable five-way local and remote wireless notification of alarm conditions,
including Man Down Alarm
Large graphical display with easy-to-use, icon-driven user interface
Simple maintenance with easily accessible sensors, pump, and plug-and-play battery
Fully automated charging, data management, bump testing and calibration with AutoRAE 2

MultiRAE With Pump, front view MultiRAE Lite Diffusion Model,
rear view
External filter
Gas inlets
Alarm LEDs
Gas inlet

Belt clip
(on back)
Display

[MODE] key

[N/-] key
[Y/+] key
Alarm
Buzzer
Alarm Alarm
LED Alarm LEDs Buzzer
LED
Note: The front of the diffusion model
Charging and of the MultiRAE Lite is the same as the
Communication pumped model, but instead of a single
Contacts gas inlet at the top, there are five inlets
on the back side, as well as an extra
alarm buzzer and LEDs.

The belt clip on the back of the pump-equipped MultiRAE can be swiveled for
carrying it at different angles.

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3 User Interface
The MultiRAE alarm LEDs, an alarm buzzer, and three keys.

3.1 Display Overview
The LCD display provides visual feedback that includes the sensor types, readings, alarm status, battery
condition, and other information.

Man Down alarm Sensor due for a bump test
enabled
Wireless radio on/off
statusand signal strength Status indicators

Sensor type Sensor due for calibration

Unit of measure

Alarm type (High,
Sensor-specific
Low, etc.)
additional information
(PID lamp type, Reading
measurement gas,
correction factor, etc.)
Soft keys
(functions change
by activity)

3.1.1 Status Indicator Icons
Along the top of most screens are status indicators that tell you whether a function is operating and/or its
strength or level.

Icon Function
Wireless status: the radio is on
Wireless status: the radio is off
The instrument is not equipped with a radio (no icon)
Wireless strength (0 to 5 bars)
Pump status (only on pump-equipped models)
Datalogging status (shown when datalogging is on, blank when off)
Battery status (three segments show battery charge level)
Man Down alarm enabled

Sensor due for calibration
Sensor due for a bump test
All sensors tested and calibrated tick mark (all sensors have been bump tested
and calibrated; no sensor is overdue for a bump test or calibration according to the intervals
configured on the instrument)

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3.1.2 Keys And Interface
The MultiRAE has three keys:

Y/+ MODE N/-

In addition to their labeled functions, [Y/+], [MODE], and [N/-]

controls a different parameter or makes a different selection.

Three panes along the bottom of the display are
but at all times the left pane corresponds to the [Y/+] key, the center pane corresponds to the [MODE]
key, and the right pane corresponds to the [N/-] key. Here are examples that show the relationships of the
keys and functions:

In addition to the functions described above, any of the keys can be used to manually activate display
backlighting. Press any key when the backlighting is off to turn it on. A subsequent key press is required
to carry out an actual function corresponding to that key.

3.1.3 LCD Flip
The MultiRAE senses its vertical/horizontal orientation, and can automatically flip the display 180
degrees, making it easy to read if the MultiRAE is upside down. (You can turn this feature on or off in

As the MultiRAE is tilted, the gravity sensor
detects its orientation and inverts the screen
when it is past its horizontal position.

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3.1.4 Key Remapping When LCD Is Flipped
When the instrument is inverted and the LCD flips, the keys are remapped to the functions
shown on the screen.

Display with MultiRAE in non-inverted position:

Display with MultiRAE inverted:

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3.2 Screen Display For Various Numbers Of Active Sensors
The MultiRAE family of instruments can display readings from one to six sensors (including dual
sensors), depending on the configuration. In order to maximize readability and the amount of information
shown, the display is automatically reconfigured, according to the number and types of sensors in the
MultiRAE.

If the configuration includes five sensors, and one of them is a PID, then the lamp value (9.8eV or
10.6eV) is shown, along with the currently applied correction factor (CF) and measurement gas.

One sensor. Two sensors. Three sensors. Four sensors.

Five sensors, Five sensors, Six-sensor
including Gamma including PID, configuration with
radiation sensor. showing lamp type, CO+H2S combo
correction factor, and sensor.
measurement gas.

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3.3 Menus
The reading menus are easy to step through by pressing the [N/-] key.

Hygiene Mode: Sampling is continuous, and Hygiene Mode allows you to clear peak and minimum
values at any time.

Search Mode: Samples only when you tell it to sample. This allows you to save sample readings as
individual events in the datalog. You can also clear peak and minimum values.

Note: You can switch between Hygiene and Search modes via the Programming Menu (Select Monitor
and then Operation Mode).

Note: If the instrument is not equipped with a VOC sensor (PID), or is not equipped with an LEL sensor,
then screens for those sensors (VOC Gas Status and LEL Gas Status, respectively) are not shown.

Hygiene Mode

Note: Dashed line indicates automatic progression.

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Search Mode
Notes:

If the instrument is not equipped with a VOC sensor (PID), or is not equipped with an LEL
sensor, then screens for those sensors (VOC Gas Status and LEL Gas Status, respectively) are not
shown.

If the Peak or Min is cleared, the Average is also cleared. In addition, each cycle through the

Time if you press [N/-] (see red line in diagram below), until you perform a new sample. Also, if
you start sampling again and stop sampling, clear the Peak, or clear the Min, it advances to Date
and Time, as well.

Note: Dashed line indicates automatic progression.

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4 Wireless Control And Submenus
When you step through the main menu, as shown in the previous diagrams, there are screens for
wireless communication.
Note: These are only present if the MultiRAE is equipped with a wireless module.
At the Radio On/Off screen, you can turn the radio on or off, if the MultiRAE is in Advanced User
Mode. The radio turns off instantly, but turning on the radio takes a few seconds, so you see a screen
that indicates the radio is being turned on. If the instrument is in Basic User Mode, the option for
turning the radio on or off does not appear (you can turn it on or off in Programming Mode).

At the Wireless screen, you can check communication with other wireless devices and get other
useful information about the wireless settings. The Wireless menu is divided into a sequence of
four each presenting different information.
you advance to the next one.

Unit ID , Pan ID, and Channel are read-only
parameters
helpful for troubleshooting).
Parent ID and Device Type are also read-only. The Parent ID (the ID of the
Parent wireless device to which the monitor is connected) is not changeable. The device type

the signal strength via RSSI (received
confirm an active two-way communication
network luded

(transmission power). These are primarily for diagnostics and troubleshooting.

Otherwise, you can press [N/-] to quit, which advances to the next screen.

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5 Battery
Always make sure the batteries are fully charged before using the MultiRAE. Three battery options are
available for the MultiRAE:

1. Standard duration rechargeable Li-ion battery (PN: M01-3053-000)
2. Extended-duration rechargeable Li-ion battery delivering 50% more runtime than the standard
battery (PN: M01-3055-000)
3. Alkaline battery pack for four standard AA-sized batteries (PN: M01-3054-000)

Its standard or extended-duration batteries are charged inside the instrument by placing the MultiRAE in
its cradle or using the Travel C
pins, transferring power.

Note: Before setting the MultiRAE into its MultiRAE Desktop Cradle or attaching its Travel Charger,
visually inspect the contacts to make sure they are clean. If they are not, wipe them with a soft, dry cloth.
Do not use solvents or cleaners.

WARNING
To reduce the risk of ignition of hazardous atmospheres, recharge, remove or replace the battery
only in an area known to be non-hazardous! Do not mix old and new batteries or batteries from
different manufacturers.

5.1 Charging With The MultiRAE Desktop Cradle
Follow this procedure to charge the MultiRAE:

1. Plug the AC/DC adapter into the MultiRAE Desktop Cradle.
2. Plug the AC/DC adapter into the wall outlet.
3. Place the MultiRAE into the cradle (make sure the bottom of the instrument and the alignment
pins on the cradle mate properly) and press down until it is locked in place.

The MultiRAE begins charging automatically. The LED in the cradle should glow red to indicate
charging. When charging is complete, the LED in the cradle glows green.

To remove the MultiRAE from the Desktop Cradle, tilt it toward you until it releases, and then lift it up.

Press down until
MultiRAE is seated Release the
firmly in the cradle MultiRAE by
tilting it forward
and lifting

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Next, put the plug from the power supply into the jack on the side of the Desktop Cradle:

Plug the other end of the charger into a power source.

Automatic PID Lamp Cleaning
When a MultiRAE equipped with a PID (photoionization detector) is placed in the Desktop Cradle, its
PID is automatically cleaned. During the first four hours of charging, continuous lamp auto-cleaning is
performed. After that, cleaning stops. The battery continues to be charged, if necessary.

5.2 Charging With The Travel Charger
The Travel Charger is a lightweight portable alternative to the Desktop Cradle for charging and PC
communications. Follow these steps to use the Travel Charger.

Before attaching the Travel Charger, check that it is aligned correctly with the base of the MultiRAE.
There are two alignment pins on one side and one alignment pin on the other side, designed to mate with
matching points on the bottom of the MultiRAE:

1. Check bottom of MultiRAE 2. Align Travel Charger with
bottom of MultiRAE.
for correct orientation with the
MultiRAE.

3. Press Travel Charger onto 4. Make sure the Travel Charger
bottom of MultiRAE. clicks into place and attaches
firmly.

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Next, put the plug from the power supply into the jack on the side of the Travel Charger:

Plug the other end of the charger into a power source (AC outlet or 12VDC mobile power port, depending
on the model).
LED glows green when the battery is fully charged.

5.3 Carrying The MultiRAE In A Vehicle
The MultiRAE Truck Mount, used in conjunction with the front part of the Desktop Cradle, provides an
NFPA requirement-compliant way to mount and carry the MultiRAE in a vehicle.

Truck Mount Installation
The Truck Mount must be used in conjunction with the front part of the MultiRAE Desktop Cradle.
Follow the guidelines below to select the correct mounting hardware for the Truck Mount and install it in
your vehicle. Use these dimensions to pre-drill a flat surface to accept the Truck Mount. The maximum
screw diameter must not exceed 6.4mm (0.25"). Vertical clearance should be at least 26cm (10").
Letter Measurement
Important!
A 61.6 mm (2.42")
Make sure that there is sufficient
B 96 mm (3.8") clearance around and above the
C 113 mm (4.5") mounting plate so that the
D 150.8 mm (6") MultiRAE can be easily placed in
the cradle and removed.

Once the Truck Mount is attached, disconnect the front part of the Desktop Cradle from its base by
pressing on the rubber release buttons on both sides of the cradle. Next, insert the plug from the power
supply into the jack on the side of the front part of the Desktop Cradle. Then slide the cradle into the
Truck Mount as shown below. The capture tabs on both sides of the Truck Mount slip into the cradle and
lock it in place. Make sure the cradle sits securely in the Truck Mount. (To separate the cradle from the
Truck Mount, press the rubber release buttons on both sides of the cradle and pull the cradle free.)

Side View
Front part of
the Desktop
Cradle

Truck
Mount Rubber
Release
Capture Button
Tab

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Place the MultiRAE into the cradle (make sure the bottom of the instrument and the alignment pins on the
cradle mate properly) and press down until it is locked in place. Then wrap the Velcro strap around the
MultiRAE and fasten its end to the mating Velcro on the side of the Truck-Mount.

To secure: Press the MultiRAE into the cradle To remove: Unfasten the Velcro strip, tilt
and fasten the Velcro strip. the MultiRAE forward, and lift it out

Plug the other end of the charger into a power source
is charging, the LEDs on the left and right sides of the front of the cradle glow red. The LEDs glow green
when the battery is fully charged.

5.4 Charging With The AutoRAE 2
the monitor in an AutoRAE 2 Cradle. Details are

5.5 Replacing A Battery
The MultiRAE battery packs are plug-and-play, and can be replaced on the go without tools. To replace
the MultiRAE battery:

1. Remove the battery from the instrument by sliding the tab and tilting out the adapter.

Note: The belt clip and rubber boot are removed in the illustration for clarity. They can be left on
while replacing a battery.

2. Tilt a fully charged battery (or alkaline battery adapter) into the battery compartment and place it in the
instrument.
3. Slide the tab back into place to secure the battery.

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5.6 Battery States
The battery icon on the display shows how much charge is in the battery and alerts you to any charging
problems.

Full charge 2/3 charge 1/3 charge Low charge Battery alert

once and flashing
second. The instrument automatically powers down within 10 minutes, after which you will
need to either recharge the battery, or replace it with a fresh one with a full charge.

5.7 Alkaline Battery Pack
An alkaline battery adapter is supplied with each instrument. The adapter (part number M01-3054-000) is
installed and removed just like the rechargeable battery. It accepts four AA alkaline batteries (use only Duracell
MN1500) and provides approximately 8 hours of normal operation.
Note: The vibration alarm is disabled whenever the alkaline adapter is used.
To replace the alkaline :
1. Remove the hex-socket screw at the end of the adapter.
2. Lift the cover off the battery compartment.
3. Insert four fresh AA batteries as indicated by the polarity (+/-) markings.
4. Replace the cover and replace the hex screw.

IMPORTANT!
tery pack and
will not allow recharging. If you try to charge alkaline batteries installed in the instrument, the Charging
m.
The alkaline battery adapter accepts four AA alkaline batteries (use only Duracell MN1500). Do not mix
old and new batteries or batteries from different manufacturers.

Note: When replacing alkaline batteries, properly dispose of old ones.

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6 Turning The MultiRAE On And Off
6.1 Turning The MultiRAE On
With the instrument turned off, press and hold the [MODE] key until the beep sounds and the display and LED
alarm lights turn on, and then release.

A RAE Systems logo (or a company name) should appear first. This is followed by a progression of
screens that tell you the MultiRAE
Product name and model number, air flow type, and serial number
Application firmware version, build date, and build time
Sensor firmware, build date, build time
Installed sensors (including serial number/production/expiration/calibration date and alarm limit
settings)
Current date, time, temperature, and relative humidity
User mode and operation mode
Battery type, voltage, shutoff voltage
Alarm mode and alarm settings
Datalog period (if it is activated) and interval
Policy Enforcement settings (whether calibration and/or bump testing are enforced)
Note: To speed up the startup time, the number of screens shown on startup can be reduced by enabling
the Fast Startup option under Programming/Monitor.

Then the MultiRAE may take a few minutes for sensors to show a
reading, so if any ---
a numerical value until the sensor provides data (typically less than 2 minutes). Then it displays
instantaneous readings similar to the following screen (depending on the sensors installed) and is ready
for use.

Note: Fully

battery before turning it on again.

6.2 Turning The MultiRAE Off
Press and hold [MODE]. A 5-second countdown to shutoff begins. You must hold your finger on the key
for the entire shutoff process until the MultiRAE is powered off.

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6.3 Testing Alarm Indicators
Under normal-operation mode and non-alarm conditions, the buzzer, vibration alarm, LED, and backlight
can be tested at any time by pressing [Y/+] once.

IMPORTANT!
If any of the alarms does not respond to this test, check the Alarm Settings in Programming Mode. It is
possible that any or all of the alarms have been turned off. If all of the alarms are turned on, but one or
more of them (buzzer, LED lights, or vibration alarm) does not respond to this test, do not use the
instrument. Contact your RAE Systems distributor for technical support.

6.4 Pump Status
IMPORTANT!
During operation, make sure the probe inlet and the gas outlet are free of obstructions. Obstructions can
cause premature wear on the pump, false readings, or pump stalling. During normal operation, the pump
icon alternately shows inflow and outflow as shown here:

If there is a pump failure or obstruction that disrupts the pump, the alarm sounds and you see this icon
blinking on and off:

Once the obstruction is removed, you can try to restart the pump by pressing the [Y/+]. If the pump does
not restart, and the pump stall alarm continues, consult the Troubleshooting section of this guide or
contact RAE Systems Technical Support.

It is advisable to perform a pump stall test periodically, to make sure the pump is working properly and
there are no leaks in the system. To perform a pump stall test, simply block the gas inlet with your finger.
To pass the test, the instrument should go into a pump alarm. Press [Y/+] to disable the alarm and return
to normal operation.

Note: Pump Status is not indicated on diffusion MultiRAEs.

6.5 Calibration Status
The instrument displays this icon next to the sensor that requires calibration:

Calibration is required (and indicated by this icon) if:

The lamp type has been changed (for example, from 10.6 eV to 9.8 eV).
The sensor module has been replaced with one whose calibration is overdue.
The defined period of time between calibrations has been exceeded.
If you have changed the calibration gas type without recalibrating the instrument.
The sensor has failed a previous calibration.

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6.6 Bump Status
The instrument displays this icon next to the sensor that requires bump test:

A bump test is required (and indicated by this icon) if:

The defined period of time between bump tests has been exceeded (bump test overdue).
The sensor has failed a previous bump test.
The sensor(s) should be challenged on a periodic basis.

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7 Modes Of Operation
The MultiRAE has two operation modes and two user modes.

7.1 Hygiene Operation Mode
Hygiene Mode provides continuous monitoring.

7.2 Search Operation Mode
Search Mode provides monitoring only when monitoring is initiated. This allows specific samples to be
taken at different times, rather than continuously.

7.3 Basic User Mode
In Basic User Mode, some restrictions are applied, including password protection that guards against
entering Programming Mode by unauthorized personnel.

7.4 Advanced User Mode
In Advanced User Mode, there are no access restrictions (you do not need a password), and MultiRAE
provides the indications and data you need most for typical monitoring applications.

8 Programming
The menu in Programming Mode is to adjust settings, calibrate sensors, and initiate communication with
a computer. It has the following submenus:

Calibration
Measurement
Alarms
Datalog
Wireless
Monitor

8.1 Enter Programming In Advanced Mode
1. To enter Programming Mode, press and hold [MODE] and [N/-] until you see the Calibration screen.
No password is necessary in Advanced Mode.
2. Press [N/-] to step through the programming screens.

To enter a menu and view or edit parameters in its submenus, press [Y/+].

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8.2 Enter Programming In Basic Mode
1. To enter Programming Mode, press and hold [MODE] and [N/-] until you see the Password screen.

2. Input the 4-digit password:

Increase the number from 0 through 9 by pressing [Y/+].
Step from digit to digit using [N/-].
Press [MODE] when you are done.

If you make a mistake, you can cycle through the digits by pressing [N/-] and then using [Y/+] to change
the number in each position.

Note: The default password is 0000.

Note: The password screen only appears when you enter the Programming Mode the first time after
turning the instrument on in Basic Mode. If you have input the correct password, you do not have to input
it again to enter Programming Mode until you turn the instrument off and on again.

Once you enter Programming Mode, the Calibration menu is highlighted. Press [N/-] to step through the
programming screens.

To enter a menu and view or edit parameters in its submenus, press [Y/+].

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8.3 Menus And Submenus
In Programming Mode, menus and submenus are organized as shown here:

Calibration Measurement Alarms Datalog Wireless* Monitor
Fresh Air Sensor On/Off Alarm Limits Clear Datalog Radio ON/OFF LCD Contrast
Multi Sensor Change Meas. Alarm Mode Datalog Interval PAN ID Operation Mode
Span Gas
Single Sensor Measurement Alarm Settings Sensor Selection Channel Pump Speed**
Zero Units
Single Sensor Comfort Beep Data Selection Join Network Zero At Start
Span
Multi Sensor Man Down Datalog Type Interval Fast Startup
Bump Alarm
Single Sensor Memory Full Off Network Temperature
Bump Action Alarm Units
Cal. Reference Factory Reset Language
Change Cal. Site ID
Gas
Multi Cal. User ID
Select
Change Span Date Format
Value
Change Span2 Date
Value***
Time Format
Time
User Mode
Backlight
LCD Flip
* This menu is available on wirelessly equipped instruments only.
** Pump-equipped version only.
*** This menu item is shown only if a 3-point calibration is enabled. Change Span2 Value menu item is only shown
if a 3-point calibration is enabled on the instrument. Three-point calibration is disabled by default, but can be
enabled on MultiRAE and MultiRAE Pro instruments with 10.6eV PID sensors, including high-range ppm and ppb
PID sensors. The MultiRAE Lite PID sensor only supports 2-point calibration.

8.3.1 Editing And Selecting Parameters And Sensors
There are a few basic ways to edit parameters, select sensors, and perform other activities in the
MultiRAE. The actions performed by pressing keys always match 1-to-1 with the boxes along
the bottom of the display and the three keys. Some parameters are edited by scrolling and
selecting individual items (black bars behind white text act as highlighters). Some include a
other menus use

In all cases of editing, you can save or undo your choice.

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8.3.2 Calibration
Use this menu to perform a bump test or zero or span calibration for one or more sensors, and change the gas
concentration value used in bump tests and span calibration, as well as choose which sensors will be calibrated at the
same time.

8.3.2.1 Fresh Air
This procedure determines the zero point of the sensor calibration curve for all the sensors that require a
zero calibration. For the oxygen sensor, Fresh Air calibration sets the point equal to the concentration of
oxygen in ambient air (approximately 20.9% volume).
Note: Fresh air calibration is performed on all enabled gas sensors at the same time.
To perform Fresh Air calibration on multiple sensors:
1. If using dry air, install the calibration adapter and connect it to a source of dry air. Otherwise do not
use calibration adapter to perform fresh air calibration.
2. At the Calibra -
menu.

3. Start the flow of dry air, if used.
4. Press [Y/+] to start fresh air calibration.
5. A countdown screen appears. You can abort the calibration at any time during the countdown by
pressing [N/-].

Note: Dotted line indicates automatic progression.

6. If the calibration is not aborted, the display shows the sensor names and tells you whether the fresh air

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8.3.2.2 Multi Sensor Span
Depending on the configuration of your MultiRAE and span gas you have, you can perform a span
calibration simultaneously on multiple sensors. You can define which sensors are calibrated together
using the Multi Cal Select menu described in section 8.3.2.9.

In case all sensors in the instrument cannot be calibrated with the same gas, the MultiRAE will
intelligently split the span calibration process into several steps and will provide menu prompts
accordingly.

1. At the Calibrat
2. Install the calibration adapter and connect it to a source of calibration gas.
3. Start the flow of calibration gas.
4. Press [Y/+] to start calibrating or wait for calibration to start automatically.
5. A countdown screen is shown. You can abort the calibration at any time during the countdown by
pressing [N/-].

Note: Dotted line indicates automatic progression.

6. If the calibration is not aborted, the display shows the sensor names and tells you whether the
calibration passed or failed, followed by the sensor readings.

8.3.2.3 Single Sensor Zero
This allows you to perform zero (fresh air) calibration on individual sensors. Even though most toxic gas
sensors can be zeroed in fresh air, sensors such as the CO 2 and parts-per-billion PID sensor for volatile
organic compounds (VOCs) should not be zeroed in fresh air. Both CO 2 gas and VOCs are normally
present in ambient air, so zeroing these sensors in ambient air will not allow for a true zero to be set for
such sensors. The CO2 sensor should be zeroed in 99.9% nitrogen, and the parts-per-billion PID sensor
with ambient air using a charcoal filter or a VOC zeroing tube.

1. If you are using a charcoal filter, connect it to the instrument.
2. If you are using dry air, install the calibration adapter and connect it to a source of dry air.

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 MultiRAE

3. At
sub-menu.
4. Start the flow of dry air, if used.
5. Press [Y/+] to start zero calibration.
6. A countdown screen appears. You can abort the calibration at any time during the countdown by
pressing [N/-].

Note: Dotted line indicates automatic progression.

7. If the calibration is not aborted, the display shows the sensor names and tells you whether the zero

8.3.2.4 Single Sensor Span
Instead of performing a span calibration on multiple sensors simultaneously, you can select a single
sensor and perform a span calibration.

Note: If a calibration icon (bottle with bottom portion filled in) is shown next to any of the sensors, it
means that the sensor is due for a full calibration.

To perform span calibration of an individual sensor, follow these steps:
1.
2. Select a sensor to calibrate from the list.
3. Install the calibration adapter and connect it to a source of calibration gas.
4. Verify that the displayed calibration value meets the concentration specified on the gas cylinder.
5. Start the flow of calibration gas.

6. Press [Y/+] to start calibrating or wait for calibration to start automatically.

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 MultiRAE

7. A countdown screen appears. You can abort the calibration at any time during the countdown by
pressing [N/-].

Note: Dotted line indicates automatic progression.

8. If the calibration is not aborted, the display shows the sensor names and tells you whether the
calibration passed or failed, followed by the sensor readings.
Note: The gamma radiation sensor comes pre-calibrated from the factory and does not require routine
calibration. However, you can check it by placing a check-source on the rear of the MultiRAE equipped
with a gamma sensor to check the readings. There is a raised dot on the rubber boot that marks where the
sensor is located inside the instrument.

8.3.2.5 Multi Sensor Bump
Depending on the configuration of your MultiRAE and span gas you have, you can perform a bump test
simultaneously on multiple sensors. Which sensors are bump tested simultaneously is defined in the Multi
Cal Select menu. Refer to section 8.3.2.9 for more information.

In case all sensors in the instrument cannot be calibrated with the same gas, the MultiRAE will
intelligently split the span calibration process into several steps and will provide menu prompts
accordingly.

1. Bump
2. Install the calibration adapter and connect it to a source of calibration gas.

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3. Start the flow of calibration gas.
4. Press [Y/+] to start calibrating or wait for calibration to start automatically.
5. A countdown screen is shown. You can abort the calibration at any time during the countdown by
pressing [N/-].

Note: Dotted line indicates automatic progression.

6. If the calibration is not aborted, the display shows the sensor names and tells you whether the
calibration passed or failed, followed by the sensor readings.
7. If a sensor requires different gas (such as a PID for VOCs), you are prompted. Change the calibration
gas, and when you are ready, start bump testing by pressing [Y/+].

Note:
[MODE] to quit.

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8.3.2.6 Single Sensor Bump
This menu allows a bump test to be performed on an individual sensor of your choice.

Note: If a bump test icon (bottle with bottom portion not filled in) is shown next to any of the sensors, it
means that the sensor is due for a bump test.

To perform a bump test on an individual sensor, follow these steps:
1. Bump
2. Scroll down the list using [N/-], and then press [Y/+] to select a sensor to calibrate.
3. Install the calibration adapter and connect it to a source of calibration gas.
4. Verify that the displayed calibration value meets the concentration specified on the gas cylinder.
5. Start the flow of calibration gas.

Important! After each sensor is bump tested, and

highlighted.

Note: Dotted line indicates automatic progression.

6. Press [Y/+] to start calibrating or wait for calibration to start automatically.
7. A countdown screen appears. You can abort the calibration at any time during the countdown by
pressing [N/-].
8. If the calibration is not aborted, the display shows the sensor names and tells you whether the
calibration passed or failed, followed by the sensor readings.

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 MultiRAE

8.3.2.7 Cal. Reference
It is sometimes desirable to calibrate a sensor (PID for VOC, and LEL) with a specific gas for best
response to a gas you are surveying. The Cal. Reference library contains calibration curves for the PID
and LEL sensors for select gases. Choose the sensor, and then select from the list of reference gases.

8.3.2.8 Change Cal. Gas
at you
create (My List), the last ten gases used, the built-in gas library for your PID lamp, and user-defined custom gases.
Each gas is shown in the list for selection and the screen automatically changes to show its full name, chemical
formula, molecular weight (M.W.) and correction factor (CF).

8.3.2.9 Multi Cal Select
This menu allows you to define a group of sensors to be bump tested and span calibrated together.
Simultaneous testing and calibration of multiple sensors shortens the bump test and calibration processes
and reduces the number of individual gas cylinders you need. For example, it may be more efficient to use
a single cylinder with a four-gas mix including 50% LEL Methane, 18% O 2, 10 ppm H2S, and 50 ppm
CO, to calibrate the LEL, O2, CO, and H2S sensors at one time, compared to using four distinct gas
cylinders and calibrate these sensors individually in sequence. In order for sensors to be calibrated
together, all of them must be selected using Multi Cal. Select.

1. Scroll down the list of sensors using the [N/-] key.
2. Add or remove that gas from the list by pressing [Y/+].
name indicates it is selected.
3.

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 MultiRAE

8.3.2.10 Change Span Value
You can individually set the span gas concentration for each sensor. This concentration setting will also
be used for a bump test. The units of measure (ppm, %LEL, etc.) are shown on the display.
1. Scroll down the list of sensors using the [N/-] key.
2. Press [Y/+] to select it.
3. Press [N/-] to step through the digits.
4. Press [Y/+] to increase the number from 0 through 9. Once the number 9 is reached, pressing

5. Once you have set the desired value, press [MODE]

8.3.2.11 Change Span2 Value
If your MultiRAE is equipped with a high-range, or parts-per billion, PID sensor, you can set the span gas
value for a third calibration point (Span2). The unit of measure is shown on the display.

1. Press [Y/+] to select the highlighted sensor (VOC).
2. Press [N/-] to step through the digits.
3. Press [Y/+] to increase the number from 0 through 9. Once the number 9 is reached, pressing
p again.
4. Span 2 value.

Note: Three-point calibration is disabled by default, but can be enabled on MultiRAE and MultiRAE Pro
instruments with 10.6eV PID sensors, including high-range ppm and ppb PID sensors. The MultiRAE
Lite PID sensor only supports 2-point calibration.

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 MultiRAE

8.3.3 Measurement
The submenus for Measurement include Sensor On/Off, Change Measurement Gas, and VOC and
Gamma (if equipped) Measurement Units.

8.3.3.1 Sensor On/Off
You can turn sensors on or off via this submenu
it is turned on.

1. Scroll down the list of sensors using the [N/-] key.
2.
name indicates it is selected.
3.

8.3.3.2 Change Meas. Gas
The MultiRAE has extensive onboard gas libraries for combustible gases and VOCs that you can use to
configure your MultiRAE to automatically apply the appropriate correction factors and produce readings
in the units of the desired combustible gas or VOC.

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 MultiRAE

Measurement gases are organized in four lists:

My List is a customized list of gases that you create. It contains a maximum of 10 gases and can only
be built in ProRAE Studio II on a PC and transferred to the instrument.
Note: The first gas in the list is always isobutylene (it cannot be removed from the list).
Last Ten is a list of the last ten gases used by your instrument. The list is built automatically and is
only updated if the gas selected from Custom Gases or Library is not already in the Last Ten. This
ensures that there is no repetition.
Gas Library is a library that consists of more than 200 gases for the PID sensor and more than 50 for
the catalytic LEL sensor.
Custom Gases are gases with user-modified parameters. Using ProRAE Studio II, all parameters
defining a gas can be modified, including the name, span value(s), correction factor, and default alarm
limits.

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 MultiRAE

8.3.3.3 Measurement Units
In some cases, the measurement unit for displaying data from sensors can be changed.

Standard available measurement units include:
Abbreviation Unit Sensor Type
ppm, ppb parts per million, parts per billion PID for VOC
mg/m3, ug/m3 milligrams per cubic meter, micrograms per cubic meter PID for VOC
ppm, mg/m3 parts per million, milligrams per cubic meter EC (electrochemical)
ppm Only, %VOL only, parts per million, percent by volume, automatically CO2
Auto Range switch from ppm to %VOL at 10,000 ppm and higher*
urem, mrem microrems and millirems Gamma
uSv, mSv microSieverts and milliSieverts Gamma
uR, mR microRoentgens and milliRoentgens Gamma
uGy, mGy microGrays and milliGrays Gamma
* The CO2 switch point from ppm to %VOL can be changed via ProRAE Studio 2.

Here are two examples of menu hierarchies (select the sensor type and then the measurement unit):

8.3.4 Alarms
Use this menu to change high, low, STEL, and TWA alarm limits - the points at which alarms are
triggered. The Alarms menu also allows changing alarm mode (latched or automatic reset) and alarm
output methods (combinations of light, buzzer, and vibration alarm indications).

8.3.4.1 Alarm Limits
There are four groups of alarm settings that you can adjust for each individual sensor for which a
particular alarm type is available.

Settings:
High Alarm
Low Alarm
STEL (Short-Term Exposure Limit) Alarm
TWA (Time-Weighted Average) Alarm

Note: Some alarm settings are not applicable to all sensors. If a setting is irrelevant to a sensor (for
example, STEL for a gamma radiation sensor), then that sensor does not appear in the list.

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 MultiRAE

8.3.4.2 Alarm Mode
You can program the MultiRAE so that there are two ways to shut off an alarm:

Auto Reset When the alarm condition is no longer present, the alarm stops automatically.
Latch You must manually turn off an alarm when one is triggered. The latched setting
only controls alarms for High Alarm, Low Alarm, STEL Alarm, and TWA Alarm.

8.3.4.3 Alarm Settings
You can enable/disable any combination of light (visible), buzzer (audible), and vibration alarms.

Settings:
All Enabled
Light
Vibration
Buzzer
Buzzer & Light
Buzzer & Vibration
Vibration & Light
All Disabled

8.3.4.4 Comfort Beep
A Comfort Beep is a single beep of the audible alarm at 60-second intervals that informs the person using
the MultiRAE that it is functioning. It can be turned on or off.

8.3.4.5 Man Down Alarm
The Man Down Alarm is a critical and potentially lifesaving feature of every MultiRAE. The Man Down
Alarm is based on the premise that if the instrument is motionless when it is not supposed to be,
something wrong may be happening to its user. If that is the case, a wirelessly enabled MultiRAE not
only goes into alarm locally on the instrument to notify people in the vicinity, but also remotely, over the
RAE Systems Dedicated Wireless Network, to transmit the alarm to remote safety officers at a command
center, that a person is down, so that help can be dispatched quickly.

Whenever the Man Down feature is enabled, the main screen displays a Man Down icon along the top to indicate
it is active:

The MultiRAE has a 3D gravity sensor that can track the slightest motion of the instrument in any
direction. If the instrument is not moved during that time, then a pre-alarm is activated to alert the user,

normal operation. Pressing [N/-] sets it into Man Down Alarm (and if wireless connectivity is enabled, a
Man Down message is sent in real time to remote observers). If neither key is pressed, then after the count-
down, it goes into Man Down Alarm (again sending a message to remote observers if wirelessly enabled).

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 MultiRAE

Settings are available for:
Off/On (off by default)
Motionless Time: time the instrument is motionless before initiating a pre-alarm (30 seconds by
default)
Motion Sensitivity: set to low, medium, or high to compensate for ambient vibration or motion
(medium by default)
Warning Time: countdown, in seconds, from pre-alarm to Man Down alarm (30 seconds by default)
When the Man Down pre-alarm is activated, the buzzer sounds and LEDs flash twice per second, and a countdown
begins.
stion on the
screen before the countdown reaches zero, the Man Down alarm stops and the main reading screen is
displayed.
If the person does not ?
before the countdown reaches zero, the Man Down alarm is triggered.
If the person presses [N/-
the Man Down alarm starts.
If wireless connectivity is enabled, a Man Down message is also sent to remote observers.

IMPORTANT!
When gas or radiation alarm conditions exist at the same time as the Man Down is activated, the pre-
alarm stage is skipped and the instrument goes straight into a Super Alarm (gas or radiation and Man
Down) with four beeps/flashes per second.

8.3.5 Datalog
The instrument displays a floppy disk icon to indicate that a datalog is being recorded. The instrument
stores the measured gas concentration for each sensor, date and time for each measurement, Site ID, User
ID, and other parameters. The MultiRAE memory is sufficient to record six months worth of data for
five sensors at one-minute intervals, 24/7. All data are retained (even after the unit is turned off) in non-
volatile memory so that they can be downloaded at a later time to a PC.

8.3.5.1 Clear Datalog
This operation erases all data stored in the datalog.

Note: Once the datalog is cleared, the data cannot be recovered.

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 MultiRAE

8.3.5.2 Datalog Interval
Intervals are shown in seconds. The default value is 60 seconds. The maximum interval is 3600 seconds,
and the minimum is 1 second.

8.3.5.3 Sensor Selection
You can choose which sensors are included in the datalog. The entire list of installed sensors is
shown, and you can individually select whether their data is included.

Note: Turning a sensor off in the list does not change or erase its settings.

8.3.5.4 Data Selection
Data Selection allows you to select which types of data are stored and made available when you
download your datalog to a computer via ProRAE Studio II (version 1.04 or higher) software.

You can choose any or all of four types of data (you must choose at least one):

Minimum
Average
Maximum
Real Time

8.3.5.5 Datalog Type
The instrument offers three options for starting the datalogging process:

Auto Automatically collects datalog information every time the instrument is sampling until
the datalog memory is full.
Manual Datalogging occurs only when you manually initiate it (see below for details).
Snapshot Captures a single event when you press [MODE].

Note: You can only choose one datalog type to be active at a time.

About Manual Datalogging
When the instrument is set to Manual Datalog, you can turn datalogging on and off by repeatedly pressing
[N/-] and stepping through the screens from the main display until you reac

You can turn it off by pressing [Y/+] again.
If datalogging is running, you can leave it running. However, if you want to turn it off, follow this
procedure:
Press [N/-] repeatedly to step through the screens until you reach the screen that says,
Press [Y/+] to stop datalogging. The screen
seconds, before the datalog interval. You can restart it
anytime by pressing [Y/+] from that screen.
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 MultiRAE

About Snapshot Datalogging

moment of your choosing. All you have to do is press [MODE] each time you want to capture a snapshot
of the data at that instant.

No snapshot. Press [MODE] for a snapshot. Datalog icon is shown
momentarily during a
snapshot

8.3.5.6 Memory Full Action
When the internal datalog memory is full, the MultiRAE can either stop collecting data (Stop when full)
or go back to the beginning and overwrite the data from the first entry, second entry, etc. (Wraparound).

8.3.6 Wireless
When a MultiRAE is equipped with a wireless modem, its settings are controlled via the menu items

8.3.6.1 Radio ON/OFF
Turn the radio on or off via this menu.

1. -].
2. Select the highlighted state by pressing [Y/+].
3. Save or register the change:
Press [Y/+] to save the change.
Press [N/-] to undo the change.

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 MultiRAE

8.3.6.2 PAN ID
The MultiRAE and any other devices that you want to interconnect wirelessly must have the same PAN
ID.
1. Press [Y/+] to increase the number and [N/-] to advance to the next digit.
2. After moving to the last digit and making changes, press [MODE].
Press [Y/+] to save the change.
Press [N/-] to undo the change.

8.3.6.3 Channel
The MultiRAE and any other devices that you want to interconnect wirelessly must be operating on the
same channel.

1. Press [Y/+] to increase the number and [N/-] to advance to the next digit.
2. After moving to the last digit and making changes, press [MODE].
Press [Y/+] to save the change.
Press [N/-] to undo the change.

8.3.6.4 Join Network
You can tell the MultiRAE to automatically join a network with a certain PAN ID without having to
specify the communications channel. The PAN ID is shown for reference (if it is incorrect, you can
change it, as described above). Press [Y/+] to join.

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 MultiRAE

While it is searching for a network to join, the display shows this message:

Joining Network
Please Wait

If it is unsuccessful, you will see this message:

Failed To Join Network

Check your other settings, as well as those of the network you are trying to join.

You can press [Y/+] to retry or [N/-] to quit.

8.3.6.5 Interval
This menu allows you to change the interval between wireless transmissions. The interval can be set to
10, 30, 60, 120, or 240 seconds.

1. Scroll down the list of intervals by pressing [N/-] until the interval you want is highlighted.
2. Select the highlighted interval by pressing [Y/+].
3. Save or register the change:
Press [Y/+] to save the change.
Press [N/-] to undo the change.

Note: The default interval is 30 seconds.

8.3.6.6 Off Network Alarm
If you would like the MultiRAE to notify you when it loses connection with a network, turn this on.

1. -].
2. Select the highlighted state by pressing [Y/+].
3. Register the change.
Press [Y/+] to save the change.
Press [N/-] to undo the change.

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 MultiRAE

8.3.6.7 Factory Reset
Restore all the wireless settings to their original factory defaults.

Caution! Once you reset the wireless settings, you cannot retrieve any of the settings deleted by
performing this reset.

Press [Y/+] to reset the wireless settings.
Press [N/-] to exit without resetting the wireless settings.

8.3.7 Monitor
parameters. Press [N/-] to advance through the submenus, and when you reach the last one, it returns to
the first selection.

8.3.7.1 LCD Contrast

change the default setting, but sometimes you can optimize the display to suit extreme temperature and
ambient brightness/darkness conditions.

Use the [Y/+] and [N/-] keys to decrease or increase LCD contrast, respectively (the bar graph aids in
setting it). When you are done, press [MODE] to. If you have not made a change, it exits to

[Y/+] to save the change or [N/-] to undo the change and exit to the next submenu selection.
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 MultiRAE

8.3.7.2 Operation Mode
There are two operation modes, outlined below.

Hygiene Mode
When the MultiRAE is in Hygiene Mode, it continuously monitors, and if datalogging is on, it saves data
continuously. Refer to page 25 for more information on operation in Hygiene Mode.

Search Mode
When the instrument is in Search Mode, it only samples when you activate sampling. When you see the
The instrument automatically assigns a
new Site ID to each measurement you take. The pump turns on and the instrument begins collecting data.
To stop sampling, press [N/-] while the main display is showing. You will see a new screen that says,
-] if you want sampling to continue. Refer to
page 25 for more information on operation in Search Mode.

8.3.7.3 Pump Speed
If the MultiRAE is equipped with a pump, the pump can operate at two speeds, high and low. Running at
low speed is quieter, extends pump lifespan, and conserves a small amount of power. There is almost no
difference in sampling accuracy.

8.3.7.4 Zero At Start
If your MultiRAE has been configured to perform a zero (fresh air) calibration upon startup, called Zero
At Start, then the startup routine is interrupted so that you can perform a fresh air calibration for all
sensors prior to using the instrument.

If you do not want to perform a zero calibration, press [MODE] to bypass it. If you start a zero calibration
and want to abort it, press [N/-], and the calibration stops and the main display is shown.

8.3.7.5 Fast Startup
Fast Startup reduces the amount of time between when the instrument is turned on and is ready for use. It skips
showing you many settings and is best suited to environments where the MultiRAE is turned on and off very
often during a given day. If Fast Startup is not selected, then when the instrument starts, it shows you details of
each sensor, including calibration information, high and low alarm settings, etc.

8.3.7.6 Temperature Units
The display unit of the internal temperature sensor can be switched between Fahrenheit and Celsius.

8.3.7.7 Language
English is the default language, but other languages can also be selected for the instrument.

8.3.7.8 Site ID
Choose and enter an 8-digit Site ID to uniquely identify the particular site where the instrument is to be
used. The first four digits can be an alphabet letter or number, while the last four digits can only be
numbers. This Site ID is included in the datalog report.

Note: Advance through the alphabet and numbers (0 through 9) by one with each press of the [Y/+] key.
To scroll quickly, hold down the [Y/+] key for as long as you want it to scroll rapidly.

8.3.7.9 User ID
Enter an 8-digit alphanumeric User ID to uniquely identify a user. This User ID is included in the datalog
report. The first four characters of a customized User ID act as an identifier for the monitor on the screen
of the EchoView Host Wireless Mini-Controller to which the MultiRAE is wirelessly connected.

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 MultiRAE

Note: Advance through the alphabet and numbers (0 through 9) by one with each press of the [Y/+] key.
To scroll quickly, hold down the [Y/+] key for as long as you want it to scroll rapidly.

8.3.7.10 Date Format
Month (MM) and Day (DD) have two digits each, while the year (YYYY) uses four digits. The
Date can be expressed in three different formats:

MM/DD/YYYY
DD/MM/YYYY
YYYY/MM/DD

8.3.7.11 Date
Set the date according to the format selected in Date Format.

8.3.7.12 Time Format
The time format can be either of these two options:

12 Hour (AM/PM)
24 Hour

8.3.7.13 Time
using the 24-hour format,
following hours, minutes, and seconds (HH:MM:SS).

8.3.7.14 User Mode
Two User Modes are available: Advanced and Basic. The Advanced User Mode allows a greater number
of parameters to be changed than Basic User Mode. It can be used with either of the Operation Modes,
Hygiene or Search. No password is required to enter the Programming Menu when in Advanced User
Mode.

8.3.7.15 Backlight
luminate either automatically, based on ambient light conditions, or
manually, or it can be shut off. If manual backlighting is selected, when the backlight is turned off,
pressing any key turns backlighting on. A key needs to be pressed again to perform its main function.

8.3.7.16 LCD Flip
The display can be configured to flip 180° automatically when the MultiRAE is turned upside-down. The
LCD Flip feature can be set to On or Off.

Note: When LCD Flip is enabled and the instrument is inverted, the screen flips, and the button functions
also

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 MultiRAE

9 Policy Enforcement

bump testing be performed at specified intervals, and to explicitly prompt the user that calibration/bump
testing is required. Depending on how Policy Enforcement features are configured, the user may be
required to perform a bump test or calibration prior to being able to use the instrument. That is, it can be
set to not allow normal operation of the instrument unless calibration or bump testing is performed.

If the instrument has been bump tested and calibrated in compliance with the policy settings, a check-
mark icon is included along the top of the MultiRAE screen:

If Policy Enforcement is enabled, then after startup the MultiRAE displays a screen that informs the user
that the instrument requires either a bump test or a calibration. If both are required, then they are shown in
sequence.

Note: Policy enforcement features are disabled by default.

9.1 Setting Policy Enforcement
You must use ProRAE Studio II to make changes to Policy Enforcement settings. The procedure differs,
depending on whether you are using an AutoRAE 2, a MultiRAE Travel Charger, or a MultiRAE
Desktop Cradle. Policy violations are captured in the datalog.

9.1.1 Using The AutoRAE 2 Automatic Test And Calibration System
To program a MultiRAE via an AutoRAE 2, you need ProRAE Studio II Instrument Configuration and
Data Management Software, the AutoRAE 2 connected to a power source, and a USB PC
communications cable.

1. Connect a USB cable between a PC with ProRAE Studio II and the AutoRAE 2.
2. Apply power to the AutoRAE 2.
3. Turn off the MultiRAE (or put the MultiRAE into AutoRAE 2 Mode) and set it in the cradle.
4. Start ProRAE Studio II software on the PC.
5.
6.
After a few seconds, the AutoRAE 2 Cradle is found and it is shown, along with its serial number:

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 MultiRAE

7.

8.

9. Expand the
the image of the AutoRAE 2 Cradle:

10. Double-click on the icon representing the MultiRAE.

11.

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 MultiRAE

12.
Policy Enforcement pane is shown:

Must Calibrate. The user is prompted to calibrate the instrument when calibration is due (as set by the
calibration interval). There are two programmable options:

Unless calibration is performed, the instrument cannot be used, and the only
option is to turn off the instrument.
Can Bypass. If calibration is due but the user does not want to perform a calibration, the
instrument can still be used. In this case, the instrument records that the user has bypassed the
calibration requirement in a Policy Violation report.

Must Bump. The user is prompted to bump test the instrument when a bump test is due (as set by the
bump test interval). There are two programmable options:

Unless a bump test is performed, the instrument cannot be used, and the only
option is to turn off the instrument.
Can Bypass. If a bump test is due but the user does not want to perform one, the instrument can
still be used. In this case, the instrument records that the user has bypassed the bump testing
requirement in a Policy Violation report.

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 MultiRAE

test or shutting down:

16. Once you have made your selections in ProRAE Studio II, you must upload the changes to the

rt.
Uploading takes a few seconds, and a progress bar is shown. You can abort the upload by clicking

18. Exit ProRAE Studio II.

19. Press [Y/+] on the MultiRAE to exit Communication Mode.

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 MultiRAE

9.1.2 Using The MultiRAE Desktop Cradle Or Travel Charger
Make sure the AC adapter is connected and that a USB cable is connected to a computer running ProRAE
Studio II.

1. Turn on the MultiRAE.
2. Hold down [MODE] and [N/-] to enter Programming Mode.
3. Provide the password.
4. Press [N/-
5. Press [Y/+]. The screen shows three options:

PC
AutoRAE 2
Exit

6.

7. Start ProRAE Studio II.
8.
9. Input the pa
10.
11.
12.
13.
14.
15.

The Policy Enforcement pane is shown:

selected operation in order to use the instrument.

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 MultiRAE

16. Once you have made your selections in ProRAE Studio II, you must upload the changes to the
in

17.

Uploading takes a few seconds, and this progress bar is shown. You can abort the upload by clicking

18. Exit ProRAE Studio II.
19. Press [Y/+] on the MultiRAE to exit Communication Mode.

9.2 Deactivating Policy Enforcement

9.2.1 AutoRAE 2 Cradle
To deactivate Policy Enforcement when using an AutoRAE 2 Cradle, follow the procedure for changing
settings. See page 48 for details.

9.2.2 MultiRAE Desktop Cradle Or Travel Charger
If the MultiRAE screen displays the message that it must be bump tested or calibrated, and if the option to
bypass bump testing or calibration is not available, you should shut off the instrument and follow the
procedure outlined here if you want to change the Policy Enforcement settings:
1. Use a USB cable to connect the MultiRAE in its Travel Charger or Desktop Cradle to a computer
running ProRAE Studio II.
2. Enter Diagnostic Mode on the MultiRAE (with the instrument turned off, press and hold [Y/+] and
[MODE] until it starts up.
3.
4. Press [N/-] repeated
5. Press [Y/+] to enter Communications Mode.
6. Start ProRAE Studio II.
7.

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 MultiRAE

8.
9.
10.
11. Click o
12.
13.
14.
15. Deselect Policy Enforcement features you do not wish to use.
16.

17.

Uploading will take a few seconds, and this progress bar is shown:

18. When the upload is done, exit ProRAE Studio II.
19. Press [Y/+] on the MultiRAE to exit Communication Mode.

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 MultiRAE

10 Calibration And Testing
10.1 Manual Alarms Test
Under Normal Operation Mode and non-alarm conditions, the buzzer (audible alarm), vibration, visible
alarms, and backlight can all be tested anytime by pressing [Y/+] twice. If any alarm does not respond,
check the alarm settings in the Programming Menu to make sure all alarms are enabled (selected setting

functional, the instrument should not be used.

10.2 Bump Testing And Calibration

The MultiRAE multi-gas detector must be calibrated if it does not pass a bump test when a new
sensor is installed, after sensor maintenance has been performed, or at least once every 180 days,
depending on use and sensor exposure to poisons and contaminants.
Calibration and bump test intervals and procedures may vary due to national legislation.

A bump test or calibration can be performed either manually or using the AutoRAE 2 Automatic Test and
Calibration System. When a bump test or calibration is done manually, the instrument makes a pass/fail
decision based on sensor performance, but the user still has the responsibility to make sure all the alarms
are enabled and functional.

An AutoRAE 2 bump test or calibration takes care of both the sensor and alarm tests. Consult the
AutoRAE 2 Guide for details.

10.2.1 MultiRAE Equipped With A Pump
With its pump speed setting of low or high, a MultiRAE normally draws in air at a flow rate of between
200 cc/min and 300 cc/min. RAE Systems recommends that a calibration cap used with calibration gas
flow rates from 500 cc/min to 1000 cc/min.

Installing The Calibration Adapter
WARNING: Make sure the calibration cap clips on and stays in the correct position during calibration, as
illustrated below. Otherwise, the calibration cap must be manually held in the correct position.

Wrong Wrong Wrong Correct

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 MultiRAE

10.2.2 MultiRAE Lite Diffusion Model (No Pump)
Because there is no single inlet on the diffusion (non-pumped) version of the MultiRAE, a Calibration
Adapter is used for supplying calibration gas to all sensors at one time. Follow these steps for attaching
the Calibration Adapter.

Hose to
Calibration
Calibration
Adapter
Gas
Source

Grasp the small handles on the Make sure the connectors are
Calibration Adapter. two connectors with the screws securely in place before starting
the flow of calibration gas. (The
gas inlets. Calibration Adapter has small
grooves on its underside to allow
gas to escape after passing over
the sensors.

10.2.3 Bump (Functional) Testing
A bump test can be performed on an individual sensor (Single Sensor Bump) or a group of sensors (Multi
Sensor Bump) combined into Multi Cal. Select. The same gas is used for a bump test as for calibration.
Typically, two cylinders of calibration gas are needed to perform a bump test or calibration on an
instrument with a PID sensor and electrochemical and LEL sensors. This may require one gas cylinder
with Isobutylene or another VOC test gas to test the PID sensor, and another with a 4-gas mix to test
electrochemical (such as CO, H2S, and O2) and LEL sensors. As with calibration, the instrument
intelligently splits the process into two consecutive steps: first, the wizard prompts for testing
electrochemical and LEL sensors, and then it tests the PID sensor.

For a manual bump test, a constant-flow regulator producing 0.5 to 1 liters per minute should be used, and
the calibration cap must be installed on the instrument. Testing and calibration with an AutoRAE 2 must
be performed using demand-flow regulators. A calibration cap must not be used. Teflon tubing must be
used to test or calibrate the PID sensor. Follow the steps described here to perform a manual bump test:

1. Turn on your MultiRAE by pressing and holding [MODE] (the middle button) and allow the
instrument to boot up fully until the main measurement screen with sensor names and readings is
shown.

Important!
test. The instrument will take the time to warm up the sensors prior to enabling access to bump test
menus. You can tell a sensor has warmed up if you see a reading next to it name on the display. If it
---

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2. Enter the Bump Test menu. It is accessible either through Programming Menu/Calibration or
using the following easy shortcut:

With the instrument running in Normal Mode and the main measurement screen shown,
press both [Y/+] and [N/-] at the same time and hold them for 5 seconds. If all the sensors
have warmed up, the Multi-Bump Test menu then appears:

Otherwise, the menu appears after the warm-up is complete (while it is warming up, the
screen indicates that you must wait for the sensors to warm up).

Note: If you do not apply gas within a couple of minutes, the screen changes briefly to
indicate gas has not been applied, and then the instrument returns to its normal reading
screen.

3. Install the calibration cap on the MultiRAE and connect it to the calibration gas. Turn on the gas
to initiate flow.

4. Press [Y/+] to start the bump test. While the bump test is being performed, the readings for each
sensor are shown. Once the bump test completes, pass/fail test results and readings are shown for
each sensor.

Note: If a PID or other sensors are installed in the instrument require a dedicated cylinder of gas
to calibrate, the instrument will prompt for calibrating such sensors at this point.

5. If a PID or other sensors installed in the instrument require a dedicated gas cylinder to calibrate,
the instrument will prompt to calibrate such sensors at this point. Disconnect the gas cylinder and
connect the next (for example, 100 ppm Isobutylene for a PID).

6. as and press Start ([Y/+] button).
While the bump test is being performed, PID sensor readings are shown. Once the bump test
completes, pass/fail test results and readings are shown for the PID sensor.

Note: If other installed sensors require a dedicated cylinder of gas to calibrate, the instrument
prompts for calibrating these sensors at this point.

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Important! If one or more sensors fails a bump test, be sure to calibrate those sensors.

7. The bump test is now complete. Press Exit to return to the main measurement screen.

8. Now perform a manual alarms test, as described in section 10.1.

If all the alarms and all sensors have passed and no sensor is due for a calibration, the instrument is now
ready for use.

Note: When a manual bump test is performed, the readings shown are in the equivalent units of the
calibration gas, and not the measurement gas (if different).

10.2.4 Testing The Gamma Radiation Sensor
The gamma radiation sensor does not require user calibration. You can check it by placing a check-source
on the rear of the MultiRAE equipped with a gamma sensor to check the readings. A raised dot on the
rubber boot marks where the sensor is located inside the instrument.

Gamma
Sensor
Location

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10.3 Zero/Fresh Air Calibration
This operation sets the zero point of the sensor calibration curve for clean air. It should be performed
before other calibrations.

IMPORTANT!
Even though most toxic gas sensors can be zeroed in fresh air, sensors such as the CO 2 and the parts-per-
billion PID sensor for volatile organic compounds (VOCs) should not be zeroed in fresh air. Both CO 2
gas and VOCs are normally present in ambient air, so zeroing these sensors in ambient air will not allow
for a true zero to be set for such sensors. The CO 2 sensor should be zeroed in 99.9% nitrogen and the
parts-per-billion PID sensor should be zeroed with ambient air using a charcoal filter or a VOC zeroing
tube.

Note: If you use a zero air or other gas cylinder, you must use the MultiRAE Calibration Adapter. A
calibration adapter is not necessary for calibration in fresh air.

10.3.1 Zero Calibration For A CO 2 Sensor
Important! If your MultiRAE is equipped with a CO2 sensor, it must be zero calibrated using 100%
Nitrogen (N2), which is inert, instead of fresh air or zero air.

10.3.2 Zero Calibration For Parts-Per-Billion (ppb) Sensor
Important! The parts-per-billion PID sensor for volatile organic compounds (VOCs) should not be
zeroed in fresh air. VOCs are normally present in ambient air, so zeroing the sensor in ambient air will
not allow for a true zero to be set. The parts-per-billion PID sensor should be zeroed with ambient air
using a charcoal filter or a VOC zeroing tube.

10.3.3 Fresh Air Calibration
This procedure determines zero points of most sensors. The MultiRAE should be zero-calibrated in clean
air with 20.9% oxygen or with a cylinder of clean zero air.

After a timer countdown, the zero calibration is done. The LCD displays the sensor names and tells you
whether each calibration passed or failed, followed by the sensor readings.

Note: You can abort the calibration at any time during the countdown by pressing [N/-].

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10.3.4 Single-Sensor Zero Calibration
Select the sensor and then start the calibration by pressing [Y/+]. You can abort the procedure anytime by
pressing [N/-].

10.4 Span Calibration
This procedure determines the second point of the sensor calibration curve for the sensor.

Note: When a manual calibration is performed, the readings shown are in the equivalent units of the
calibration gas, and not the measurement gas.

10.5 Three-Point Calibration For Enhanced Linearity With Extended-
Range And ppb PID Sensors
For better linearity at higher concentrations when a MultiRAE is equipped with a PID sensor, a 3-point
calibration can be performed.

IMPORTANT!
Three-point calibration is disabled by default, but can be enabled using ProRAE Studio II Instrument
Configuration and Data Management software on MultiRAE and MultiRAE Pro instruments with 10.6eV
PID sensors, including high-range ppm and ppb PID sensors. The MultiRAE Lite PID sensor does not
support three-point calibration.

Default calibration gas settings for MultiRAE PID sensors are as follows:

Sensor Specifications Zero Span Span 2
(Third calibration
point, if enabled)
MultiRAE Pro 0 to 2,000 ppm range, With a charcoal 10 ppm 100 ppm Isobutylene
parts-per-billion 10 ppb resolution filter or VOC Isobutylene
(ppb) PID zeroing tube

MultiRAE 0 to 5,000 ppm range, Fresh air or 100 ppm 1,000 ppm Isobutylene
extended-range ppm 0.1 ppm resolution dry air Isobutylene
PID
MultiRAE Lite PID 0 to 1,000 ppm range, Fresh air or 100 ppm Not supported
(same as the 1 ppm resolution dry air Isobutylene
ToxiRAE Pro Safety
Configuration PID)

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10.5.1 Enabling 3-Point Calibration Via ProRAE Studio II
The MultiRAE must be connected to a PC through the supplied Desktop Cradle, Travel Charger, or
AutoRAE 2 and must be in the PC or AutoRAE 2 communications mode.

1. Start up the ProRAE Studio II software, enter a password, and detect the instrument following the

2.
3.

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