Rae MultiRAE Plus PGM-50/4 User manual

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Rae MultiRAE Plus PGM-50/4 User manual | Manualzz

MultiRAE Plus

PGM-50/4, PGM-50/4P, PGM-50/5P

Multiple-Gas Monitor

U

SER

M

ANUAL

008-4022-000, Revision B1, November 2003

Equipment List

N

UMBER

P

ART

Monitor Only

(not shown)*

Shipping case

5

5

3

4

2

2

2

2

6

7

5

5

1

8

9

10

11

11

6

12

Monitor with wrist strap

Sensors

Rubber boot with belt clip

Rechargeable Li-Ion battery

Alkaline battery adapter

120-230 V AC/DC wall adapter

Calibration adapter

External filters

Inlet probe

Charcoal filters

Training CD

User manual

Monitor with Accessories Kit

Hard transport case

Remote sampling probe with coiled

Teflon tubing

Tool kit

Optional Calibration Kit

Calibration gas

Regulators with tubing (male)

Regulators with tubing (female)

Datalogging Upgrade Option

ProRAE Suite software package, for

Microsoft

®

Windows

NT, ME & XP

95, 98, 2000,

Computer interface cable

P

ART

N

UMBER

008-3040-000

as specified as specified

008-3042-000

500-0037-100

500-0029-000

as specified

008-3016-000

008-3022-003

008-3012-001

008-3006-005

008-4013-000

008-4022-000

002-3009-000

008-3015-200

081-0005-000

008-3001-000

as specified

007-3021-000

002-3011-000

008-001-000

000-5001-000

008-3003-000

*Different shipping cases are used for monitor-only and single calibration gas kits.

This is a complete kit, which includes the accessories and calibration kits with a MultiRAE Plus monitor that is datalog-enabled.

6 8 7

11

9 12 4

i

ii

Read Before Operating

!

!

!

This manual must be carefully read by all individuals who have or will have the responsibility of using, maintaining, or servicing this product. The product will perform as designed only if it is used, maintained, and serviced in accordance with the manufacturer’s instructions.

Caution!

To reduce the risk of electric shock, turn off power before removing the monitor cover. Disconnect the battery before removing sensor modules for service. Never operate this monitor while the cover is removed. Remove monitor cover and sensor modules only in an area known to be nonhazardous.

Special Note

When the MultiRAE Plus monitor is taken out of the transport case and is turned on for the first time, there may be some residual vapors trapped inside the monitor and the initial toxic gas sensors may indicate a few ppm. After running the monitor for several minutes in clean air, the residual vapors should clear and readings should return to near zero.

Attention! For European Applications

A. 0575 II 2G

DEMKO 03 ATEX 0308256X, EEx ia d IIC T3/T4

B. Recharge batteries in non-hazardous locations.

C. Do not connect external cable to serial interface jack in hazardous locations.

D. Use RAE Systems Adapter P/N 500-0072 for connection to communication port and charging jack only in a non hazardous area.

Protected by U.S. Patents 5,393,979 , 5,561,344 ,

5,773,833 , 6,225,633 , 6,313,638 , 6,333,632 , 6,320,388

!

Warnings

!

!

!

!

!

!

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

Battery Pack

Use only RAE Systems battery packs, part number 500-

0029 or 500-0037. This instrument has not been tested in an explosive gas/air atmosphere having an oxygen concentration greater than 21%. Substitution of components may impair intrinsic safety. Recharge batteries only in non-hazardous atmospheres.

Computer Interface

Do not transfer data by means of the computer interface cable in hazardous atmospheres.

Static Hazard

Clean only with a damp cloth.

Calibration

The calibration of any newly purchased RAE Systems

Instrument should be tested by exposing it to known concentration calibration gases before the instrument is put into service for the first time. For safety, check the accuracy of the monitor by exposing the sensors to known concentration calibration gas(es) before each day’s use.

Readings

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

iii

iv

!

Avertissements

!

!

!

!

!

!

Pour des raisons de sécurité, cet équipement doit être utilisé, entretenu et réparé uniquement par un personnel qualifié. Étudier le manuel d’instructions en entier avant d’utiliser, d’entretenir ou de réparer l’équipement.

Ensemble de Batterie

Utiliser seulement l’ensemble de batterie RAE Systems avec numéro de série 500-0029 ou 500-0037. Cet instrument n’a pas été essayé dans une atmosphère de gaz/air explosive ayant une concentration d’oxygène plus élevée que 21%. La substitution de composants peut compromettre la sécurité intrinsèque. Ne charger les batteries que dans l’emplacement désigné non dangereux.

Câble de Computer

Connecter pas le câble externe que dans environnements non dangereux.

Danger Risque D’origine Electrostatique

Nettoyer uniquement avec un chiffon humide.

La Calibration

La calibration de toute instruments de RAE Systems doit être testé en exposant l’instrument à une concentration de gaz connue par une procédure die talonnage avant de mettre en service l’instrument pour la première fois. Pour une sécurité maximale, la sensibilité du MultiRAE Plus doit être vérifié en exposant l’instrument à une concentration de gaz connue par une procédure die talonnage avant chaque utilisation journalière.

Les Lectures

Toute lecture rapide et positive, suivie d’une baisse subite au erratique de la valeur, peut indiquer une concentration de gaz hors gamme de détection qui peut être dangereuse.

Table of Contents

General Information • 1

Dataloging-Enabled Monitors • 1

Physical Description • 1

Display • 1

Operating the MultiRAE Plus • 2

Turning the Monitor On and Off • 2

User Modes • 2

Calibrating the Monitor • 5

Getting Started • 5

Span Gas Calibration • 6

Fresh Air Calibration • 6

Zero Organic Filters for Zeroing PID • 6

Multiple Sensor Calibration • 7

Calibrating the PID Sensor • 7

Single Sensor Calibration • 8

MultiRAE Plus Usage Overview • 9

Alarm Signals • 10

Preset Alarm Limits and Calibration • 12

Back Light • 12

Sampling Pump • 12

Datalogging • 13

Datalog Options • 13

Charging the Battery Pack • 14

Accessories • 15

External Filters • 15

Remote Sampling Probe • 15

Optional Dilution Fitting • 15

Calibration Adapter • 16

Using the Intrinsically Safe Barrier Box • 18

v

vi

Programming Mode • 19

Programming Menus • 20

Security Levels • 21

Calibrate Monitor • 22

Change Alarm Limits • 22

Change Datalog Setting • 23

Change Monitor Setup • 24

Change Sensor Configuration • 25

Correction Factors • 26

Diagnostic Mode • 27

Sensor Name and Raw Sensor Readings • 27

RF Test (Radio Frequency) • 27

Adjust Lamp Failure Threshold • 27

Battery Type and Bias • 28

Show x1 and x10 Range of PID Sensor • 28

Display Contrast • 28

LEL Power • 28

Clock, Time, Battery, and Temperature • 29

Sensor Expiration Date • 29

Pump Stall • 29

Back Light Threshold • 29

Serial Number and Pump • 29

Battery Duration Time • 29

Communicate with PC • 29

Maintenance • 30

Li-Ion Battery Pack • 31

Replacing the Battery Pack • 31

Emergency Alkaline Battery Adapter • 32

Sensor Replacement • 33

CO Sensor Charcoal Filters • 34

Special Bias Voltage for Toxic Gas Sensors • 35

PID Sensor Cleaning/Replacement • 36

Taking Care of the Lamp • 36

Sampling Pump Replacement • 37

Troubleshooting • 38

Specifications • 40

Range, Resolution & Response Time • 41

Service and Repair Record • 42

General Information

The MultiRAE Plus is a programmable multiple-gas monitor designed to provide continuous exposure monitoring of toxic organic and inorganic gases, oxygen and combustible gases for workers in hazardous environments.

The MultiRAE Plus is an extremely flexible one-to-five sensor instrument for use in confined space, emergency response, industrial hygiene, and many other monitoring applications. The MultiRAE Plus is the only instrument available on the market today that can offer protection using both standard gas detection sensors for the detection of oxygen, combutible gas, and specific toxic gases, as well as an integrated Photo-

Ionization Detector (PID) for the ultimate broad-range toxic gas detection.

The MultiRAE Plus is easily reconfigured and upgraded to meet your changing needs. Its versatility replaces a wide range of monitors, saving training, and maintenance costs. The MultiRAE Plus transitions quickly and easily from a sophisticated technician instrument to a simple text or display only monitor. The same monitor can be used as a personal monitor, a hand-held sniffer, or as a continuous operational area monitor.

Dataloging-Enabled Monitors

Datalog monitors are capable of storing datalog data in the instrument’s non-volatile memory. When the version number appears during the power-on sequence, the “D” indicates a Datalog monitor. Call the factory to learn how to upgrade the instrument to a Datalog monitor.

Physical Description

1. Display

4. Light sensor

5. Power jack

6. RS-232 port

7. Wrist strap holder

9. Gas inlet

10. External filter

General Information 1

Operating the MultiRAE Plus

!

The external filter must always be used with the monitor.

Turning the Monitor On and Off

To turn on, press M . The monitor will beep once and go through a

90-second warm-up sequence as follows:

On! – English, PGM-50

Multi-Gas Monitor, Software Version

RAE Systems, Inc. (customizable using ProRAE Suite software)

Monitor Type, Serial Number

Date, Time, Temperature

Checking Sensor ID’s (As the MultiRAE Plus checks each sensor, it displays the date it was last calibrated and its warranty expiration date. If a new sensor is installed, it will ask for it to be calibrated.)

Alarm Limits (for High, Low, STEL, TWA)

Instrument Calibration (The last calibration date must be within the last 30 days for safe operation.)

Battery Shut Off Voltage

User Mode

Alarm Mode

Datalog Memory

Datalog Time Left

Datalog Mode

Datalog Period

To turn off after the warm-up is complete, press and hold seconds. The monitor beeps each second during the count-down sequence. Release when “Off! .........” flashes on the LCD. Plug the

110 VAC/12 VDC transformer into the monitor when not in use; the

“Charging…..” message appears on the screen.

User Modes

The MultiRAE Plus has three user modes:

Text, Display, and

Advanced. Each mode provides a different level of access to the monitor’s features. Text mode is the simplest mode, Advanced mode is the most complex.

2 Operating the MultiRAE Plus

The table shows the features in the order in which they appear.

Regardless of which user mode the monitor is in, press M to advance to the next available feature.

MODE

Features

Sensor Names & Instantaneous

Readings - instantaneous readings are the actual gas concentrations for the following sensors:

TOX1 (toxic gas) – parts-per-million (ppm)

TOX2 (toxic gas) – ppm

VOC (volatile organic compound) – ppm

LEL (lower explosive limit) – percentage

Text

Mode

yes

(with

“OK” on

LCD)

Display

Mode

yes

Advanced

Mode

yes yes yes PEAK - the highest reading for each gas concentration since the monitor was turned on; updated every second.

MIN - the lowest reading for each gas concentration since the monitor was turned on; updated every second.

STEL - the Short Term Exposure

Limit for VOC and toxic gases only; the average reading of the gas concentration for the last 15 minutes, which is updated every minute. NOTE: “****” will appear for the first fifteen minutes.

TWA - the Time Weighted Average for VOC and toxic gases only; the accumulated reading of the gas concentration, divided by 8 hours, since the monitor was turned on.

Updated every minute.

no no no no yes yes yes yes yes yes

Operating the MultiRAE Plus 3

Battery Voltage - the current battery voltage, measured in volts.

Shut off - A fully charged battery will be 4.8 V or greater. When the battery voltage falls below

4.4 V, the “Bat” warning message appears and only 20-30 minutes of run time remain before the instrument will automatically shut down (at 4.2 V).

Date & Time, Run-Time and

Temp - the runtime is how long the instrument has been on in hours and minutes.

Start/Stop Datalog - turns manual datalogging on/off.

LEL Gas - monitor measures LEL in units of specified target gas.

NOTE: Correction factor may only be changed in Program Mode.

VOC Gas - monitor measures VOC in units of specified target gas.

NOTE: Correction factor may only be changed in Program Mode.

Print Reading - capable of printing out the gas concentration readings if a serial printer is connected to the instrument. NOTE: This feature can be turn on using ProRAE

Suite.

PC Communication - capable of uploading data from the monitor to a computer or downloading configuration information from a computer to the monitor via a serial port.

yes no no no no no yes yes no no yes yes no no yes yes yes yes yes yes yes

4 Operating the MultiRAE Plus

Calibrating the Monitor

!

While all instruments are calibrated prior to leaving the factory, temperature extremes and/or shocks during shipment can cause sensor drift. Therefore, the accuracy of any newly purchased RAE

Systems monitor should be tested by exposing the sensor(s) to known concentration calibration gas before the monitor is used or put into service. For maximum safety, the accuracy of the monitor should be checked by exposing the sensor(s) to known concentration calibration gas before each day’s use.

When should you calibrate the monitor?

The monitor should be calibrated no less than every 30 days, or if it does not pass a fresh air reading, or if it does not pass a field verification.

Calibration

The sensors are calibrated in a two-step process using fresh air and span gas (a span gas contains a known concentration of a given gas).

Some sensors may show sensitivity to other gases - this is called

“cross sensitivity”. Therefore, it is important to choose the gas mixture carefully. We recommend the standard RAE Systems MultiRAE Plus

4-gas calibration mix (50% LEL methane, 20.9% oxygen, 25 ppm H

2

S,

50 ppm CO in a single gas cylinder) to calibrate the LEL, H

2

S and CO sensors, and isobutylene (100 ppm) for the PID. You will also need a calibration adapter in order to connect the monitor (with external filter!) to the outlet of the gas cylinder. For the calibration of other toxic sensors, you will need the specific gas for that sensor.

Getting Started

To calibrate the monitor, the instrument must be in Program Mode. To enter Program Mode, press and hold

M and [N/-] for 5 seconds.

If the monitor is in Text or Display Mode, you will be prompted for a password. Use [Y/+] to change the number. Use

M to move on to the next digit. The default password is “0000”.

Press and hold

M to submit the password.

TOX1

LEL

VOC

Enter Password =

0000

TOX2

OXY

Operating the MultiRAE Plus 5

Fresh Air Calibration

The first step of calibration is a Fresh Air

Calibration:

Calibrate Monitor?

TOX1 VOC

Calibrate Monitor?

TOX2

LEL OXY

Fresh Air Calibration?

TOX1 VOC

Fresh Air Calibration?

TOX2

LEL OXY

The monitor will cycle through each sensor.

When the process is complete, the display will read, “Zero Cal Complete!”.

Zero Organic Filters for Zeroing PID

Span Gas Calibration

Use an optional external zero organic filter (P/

N 008-3024-000, 3-pack) when the ambient air may be contaminated with hydrocarbons.

Attach the filter to the MultiRAE Plus during fresh air calibration. The filter can be used up to 20 times before disposing. This filter removes most heavier organic and inorganic compounds, but may not completely remove lighter compounds such as methane, propane, and CO.

To complete step two of calibration, a Span Gas Calibration must be performed for each sensor.

The instructions below are for a standard confined space entry instrument utilizing CO, H

2

S, LEL, Oxygen sensors.

For this calibration you will need the standard RAE Systems MultiRAE

Plus 4-gas calibration mix (50% LEL methane, 20.9% oxygen, 25 ppm

H

2

S, 50 ppm CO in a single gas cylinder). For the calibration of other toxic sensors, or to calibrate a single sensor, please go to the Program

Mode section of this manual.

6 Operating the MultiRAE Plus

Multiple Sensor Calibration

The monitor will assume you want to calibrate the

CO, H

2

S, LEL and Oxygen sensors.

Apply the RAE Systems 4-gas span gas mixture and start the gas flow.

TOX1 VOC

Multiple Sensor

Calibration?

LEL

TOX2

OXY

TOX1 VOC

CO --- H

LEL

2

S

OXY

TOX2

LEL OXY

The 60-second countdown timer appears.

“Span Cal Done! Turn Off Gas” message appears. The readings should be very close to the span gas values shown on the gas cylinder.

TOX1

LEL

VOC

Span Cal done!

Turn off Gas!

TOX2

OXY

Turn off the gas flow and disconnect the calibration adapter from the monitor. If calibration fails, an error message appears instead. Refer to

Troubleshooting: “Calibration Error Message” on page 38.

NOTE: If calibration is accidentally started and gas has run out or has been disconnected, press M repeatedly. Calibration will stop and revert back to the previous calibration values.

Calibrating the PID Sensor

The single sensor method used to calibrate the PID can also be used to calibrate single toxic sensors. For the PID, use isobutylene (100ppm) span gas. For other toxic sensors, use the appropriate gas, e.g., ammonia sensor - use ammonia gas, etc.

Operating the MultiRAE Plus 7

Single Sensor Calibration

TOX1 VOC

Single Sensor

Calibration?

LEL

TOX2

OXY

TOX1 VOC

CO █OC H

2

LEL pick OXY

S

TOX2

LEL OXY

When the installed sensors appear on the display use M to move from sensor to sensor.

Press [Y/+] to select the highlighted sensor and start calibration.

Apply span gas mixture and start gas flow.

The 60-second countdown timer appears.

NOTE: Some sensors (Cl

2,

PH

3

, NH

3

, HCN) require a special “presoak” period prior to starting calibration. Turn the gas on to the MultiRAE

Plus for this time period. Refer to Range, Resolution and Response

Time chart on page 41 BEFORE starting the calibration procedure.

When calibration has started and if the MultiRAE Plus displays “No gas flow...” apply gas or hit any key to start. Press [Y/+] to start calibration.

TOX1 VOC

Span Cal done!

Turn off Gas!

LEL

TOX2

OXY

Calibration is complete when the sensor name and its span value appear, confirmed by a

“Span Cal Done! Turn Off Gas” message. If no gas has reached a sensor after sixty seconds, calibration will abort. The readings should be relatively close to the span gas values.

Turn off the gas flow and disconnect the calibration adapter from the monitor. If calibration fails, an error message appears instead. Refer to Troubleshooting: “Calibration

Error Message” on page 38.

Calibration Time Stamp

A time stamp is created and stored each time a sensor calibration is performed, which is included in the datalog report.

Press M twice to exit calibration mode and return to the main display.

NOTE: Residual gas may linger on the sensors for up to 60 seconds.

If the sensors do not return to zero, repeat fresh air calibration.

8 Operating the MultiRAE Plus

MultiRAE Plus Usage Overview

Storage

Always keep the MultiRAE Plus on charge in a dry indoor area when not in use.

!

If the MultiRAE Plus is to be stored more than 2 weeks off the charger, it is recommended to remove the Li-ion battery. Upon reinstalling the battery, it will need a complete charge and some sensors (like NO and NH

3

) may require time to warm up, anywhere from 20 minutes to

24 hours. Refer to Technical Note-114 Sensor Specifications and Cross

Sensitivities.

The clock will also need to be reset.

Confined Space Pre-Entry Test

Test the atmosphere in the confined space by sampling air at 3 levels

(Top, Middle and Bottom) in the Confined Space. Give the instrument time to sample the gas at each level - the correct sampling time is 60 seconds plus 1 second per every foot of hose.

Alarms

If there are any gas ALARMS at any level in the confined space it is not safe.

DO NOT ENTER!

Identify the alarm condition and then start your preventive actions according to your company’s Confined Space Entry procedures.

No Alarms

If there are no alarms, the Confined Space may be safe for entry.

Disconnect the hose before carrying the MultiRAE Plus into the

Confined Space. If monitoring is to be done by a Confined Space attendant, they should continue to monitor while you enter the area.

If the unit alarms and “BAT” is displayed, the battery needs to be charged. There is 15 minutes or less of run time remaining. Leave the

Confined Space immediately! See the Applications and Technical

Notes Guide for more information regarding Confined Space Entry and other applications.

After Usage

Turn the MultiRAE Plus off by pressing and holding M . The buzzer will beep and count down 5-4-3-2-1 and read “OFF”. Return the MultiRAE

Plus to the dry, indoor storage area and connect the charger to the

MultiRAE Plus.

Operating the MultiRAE Plus 9

Alarm Signals

When an alarm condition occurs, the monitor will provide audible and visual alarms to alert users of unsafe conditions. Refer to the Alarm

Signals table on page 11 for a complete list of alarm conditions.

!

The alarm signals are disabled while in the following modes:

Communicate with PC, Print Reading, Calibrate Monitor. To reduce the risk of exposure to hazardous atmospheres, use these modes only in an area known to be non-hazardous.

The alarm system can be set up in one of two ways:

Auto Reset Alarm (default): The alarm signals automatically reset when the alarm condition is no longer present. NOTE: Not all alarm conditions have this option.

Latched Alarm: The alarm signal remains on even when the alarm condition is no longer present; press [Y/+] to acknowledge and reset alarm signals.

Y/+

Testing Alarm Signals

Press [Y/+] . If functional, the buzzer will beep once and the backlight will flash once.

10 Operating the MultiRAE Plus

Gas concentration exceeds High Gas concentration exceeds Low Gas concentration exceeds STEL Gas concentration exceeds Gas concentration exceeds sensor range Excessive sensor negative drift

Operating the MultiRAE Plus 11

Preset Alarm Limits and Calibration

The monitor is factory calibrated with standard calibration gas and is programmed with default alarm limits as listed:

Gas Cal Gas/Balance Unit

CO 50/Air ppm

H

2

S

SO

2

NO

NO

2

Cl

2

O

2

CH

4

HCN

NH

3

PH

3

VOC*

25/N

5/N

25/N

10/N

50/N

5/N

2

5/Air

2

2

2

10/N

2

20.9/N

2

50/Air

2

2

100/Air ppm ppm ppm ppm ppm

%Vol

%LEL ppm ppm ppm ppm

TWA STEL Low High

35 100 35 200

10

2

25

1

0.5

-

-

15

25

-

-

5

1

1

10

2

25

1

0.5

20

10

50

10

5

19.5

23.5

10 20

5

25

5

35

5

25

50

50

0.3

1 1 2

10.0

25.0

50.0

100

*Note: 100 ppm isobutylene gas is used for VOC gas calibration

Back Light

The backlight assists reading the LCD in poor lighting conditions and automatically turns on anytime the MultiRAE Plus is in alarm.

To manually turn on, press [N/-] , and it will automatically turn off after

60 seconds. The backlight can also be set to automatically turn on in low lighting conditions, and likewise turn off in adequate lighting conditions.

NOTE: The backlight can shorten the operating time by 20-30%.

Sampling Pump

The integrated sampling pump automatically turns on when the monitor is turned on and remains on during normal operation. The pump speed is adjustable between the default low setting (~200 cc/min) and the high setting (~300 cc/min). Use the low setting to save battery and filter life. Use the high setting for reactive gases and remote sampling in applications like Wingtank entry and HazMat.

12 Operating the MultiRAE Plus

The monitor can detect any obstructions in the external filter that causes a pump stall. The alarm will activate and a “Pump” error message will appear. To acknowledge the pump stall, press [Y/+] to start the pump again.

Y/+

Refer to Pump Stall on page 29 for details on how to adjust the pump stall threshold for either the high or low settings.

Datalogging

A small “L” at the center of the screen means the monitor is datalogging.

Datalogging-enabled monitors can calculate and store hours of gas readings based on the time-interval and type of gas measurement specified. The time-interval can be set to between 1 and 3600 seconds in 1-second increments. The average and peak gas concentrations are the two types of gas measurements that can be stored for each sensor.

NOTE: STEL and TWA values will only be logged if average is selected.

All data is stored in non-volatile memory that can be downloaded to a computer. Users may select one of two types of memory storage: wraparound or stop. Refer to Select Memory Full Type on page 23.

NOTE: Datalogging pauses upon entering Program Mode or

PC Communication Standby Mode. Upon exiting Program Mode datalogging will resume. Upon exiting PC Communication Standby

Mode, datalogging will resume only if datalogging mode was set to

“Automatic”.

Maximum Datalog Time for 5 Sensors

Log Interval

Tmax

Datalog Options

1 sec

80 minutes

60 sec

80 hours

300 sec (5 min)

400 hours

Automatic: Datalogging automatically starts/stops when the monitor is turned on/off.

Manual: If the MultiRAE Plus is in Advanced mode, press [Y/+] at the

“Start Datalog” screen. Set a timer to specify the maximum datalogging time using ProRAE Suite software.

Y/+

Periodic: Set a daily start/stop time to datalog using ProRAE Suite.

Scheduled: Set a monthly start/stop time to datalog using ProRAE

Suite.

Operating the MultiRAE Plus 13

Charging the Battery Pack

To charge the battery pack plug the transformer supplied with the monitor into the power jack on the monitor.

When a Li-Ion battery pack is installed, charging automatically begins.

The LED appears red during charging, and once the battery is fully charged, the LED turns green. The display also indicates the charge status. A completely drained battery pack charges to full capacity in less than 10 hours. When the “Bat” message appears on the LCD, the battery pack needs to be recharged.

NOTE: A fully charged battery pack will switch to trickle charge to maintain battery life. Repeatedly turning the power to the transformer on and off will reset the charge and possibly burn out the battery.

!

To change the battery pack or to use the alkaline battery adapter, refer

to Replacing the Battery Pack or Emergency Alkaline Battery Adapter on page 32.

If the MultiRAE Plus is to be stored more than 2 weeks off the charger, it is recommended to remove the Li-ion battery.

14 Operating the MultiRAE Plus

Accessories

External Filters

The external filter is a PTFE (Teflon

®

) membrane with a 0.2 micron pore that reduces the amount of liquid and dust that can contaminate the sensor. Using the external filter prolongs sensor and pump life.

Change the external filter whenever it becomes discolored, clogged with particles, or draws in liquid.

NOTE: Do not use the external filter when calibrating reactive gases.

Instead, use the High Pump Speed setting and a short Teflon

®

tube.

Although this shortens battery life, it provides a faster response.

Remote Sampling Probe

When searching in hard-to-reach areas, use the standard remote sampling probe (P/N

008-3015-200) with a telescoping handle and 6 feet of Teflon tubing. For longer distances, attach a length of Teflon tubing.

The monitor is capable of drawing samples from over 100 feet.

Optional Dilution Fitting

!

When gas samples have less than 10% oxygen, the dilution fitting (P/N

008-3025/3026) will increase the oxygen concentration. The dilution fitting can also measure combustible, VOC or toxic gases when the concentration exceeds the upper limit of the sensor range. In Program

Mode, set the dilution ratio to obtain the correct gas reading when the dilution fitting is used. The dilution fitting attaches directly to the meter and the sample tubing attaches to the dilution fitting. Refer to Technical

Note-167 Proper Use of Dilution Fittings on Pumped Monitors for more information.

The monitor and the dilution air inlet must be located in a clean atmosphere outside the confined space. Use either a remote sampling probe or Tygon tube test gas samples.

Accessories 15

Calibration Adapter

The calibration adapter is a 6-inch Tygon tube with a male Luer connector on the end. During calibration, connect one end of the tube to the external filter (on the monitor) and the other end to the calibration gas.

Alternatively, the calibration gas can be sampled from: an optional Tedlar gas bag (P/N 500-0003-000) filled with calibration gas,

16 Accessories

an optional open cup (P/N 007-3002-000) with calibration gas flow exceeding the pump demand, or an optional demand flow regulator (P/N 002-3051-000, female or

P/N 008-3052-000, male) directly from the gas cylinder.

Accessories 17

Using the Intrinsically Safe Barrier Box

!

This does NOT ship with UL/cUL-approved monitors. The barrier box is only for ATEX European approved MultiRAE monitors.

To conform to ATEX European safety standard, the barrier box

must be

used when utilizing an RS-232 cable and/or transformer.

1. RS-232 cable (detachable)* 2. Computer interface cable

3. Transformer (detachable)**

5. Power cable

4. Intrinsically safe barrier

6. MultiRAE Plus monitor

2

3**

4

5

6

Communicating with a Computer

* This connection is not necessary during normal charging.

Connect the RS-232 cable from the barrier box to the monitor.

Connect the computer interface cable to the barrier box.

Plug the computer interface cable into a computer.

Charging the Monitor

** Connection is optional during computer communication.

Connect the power cable from the barrier box to the monitor.

Connect the transformer to the barrier box.

Plug the transformer into an appropriate outlet.

18 Accessories

Programming Mode

In addition to calibration, authorized users may change the monitor settings to their requirements using the Programming Mode.

NOTE: Monitoring gas concentrations continues during Programming

Mode, but pauses during Calibration. Datalogging also pauses during

Programming Mode, but resumes when programming is finished.

Press

Press

Press

N/-

Y/+

MODE

for desired menu to answer “no” to decrease a digit for desired submenu to answer “yes” to increase a digit to return to the sensor name/ instantaneous reading display to exit a submenu to advance digits

To enter the Program Mode, press M and [N/-] together until the first program menu appears: “Calibrate Monitor?” Refer to Getting Started on

page 5. The figure on the following page summarizes the programming menus and how to navigate through them.

Program Mode 19

MODE

Sensor Name / Instantaneous Readings

MODE & N/-

Calibrate Monitor?

Y/+

MODE

MODE

N/-

Fresh Air Calibration?

Multiple Sensor Calibration?

Single Sensor Calibration?

Modify Span Gas Value?

Change LEL / VOC Span Gas?

MODE

Change Alarm Limits?

Y/+

N/-

Change High Alarm Limit?

Change Low Alarm Limit?

Change STEL Alarm Limit?

Change Average Alarm Limit?

MODE

Change Datalog?

Y/+

MODE

MODE

N/-

Clear All Data?

Change Datalog Period?

Select Data Type?

Enable / Disable Datalog?

Select Memory Full Type?

MODE

Change Monitor Setup?

Y/+

N/-

Change Site ID?

Change ID Mode?

Change User ID?

Change Alarm Mode?

Change User Mode?

Change Real Time Clock?

Change Backlight Mode?

Change Password?

Change Pump Speed?

Change Averaging Method?

Change Display Language?

Set Temperature Unit?

MODE

Change Sensor Configuration?

Y/+

Change LEL / VOC Gas Selection?

Enable / Disable Sensor?

Change Dilution Ratio?

Change PID Lamp Type?

Y/+ or N/-

Y/+ or N/-

Y/+ or N/-

Y/+ or N/-

Y/+ or N/-

N/-

20 Program Mode

MODE

Security Levels

Security levels are setup via computer using ProRAE Suite. The default password is: 0000. NOTE: For security purposes “0000” always appears instead of actual password.

No changes will be saved unless the user is in the correct mode with the correct security level.

User Mode

Security Level

Calibrate Monitor?

Fresh Air Calibration?

Multiple Sensor Calibration?

Single Sensor Calibration?

Modify Span Gas Value?

Change LEL/VOC Span Gas?

Change Alarm?

Change High Alarm Limit?

Change Low Alarm Limit?

Change STEL Alarm Limit?

Change Average Alarm Limit?

Change Datalog?

Clear All Data?

Change Datalog Period?

Select Data Type?

Enable/Disable Datalog?

Select Memory Full Type?

Change Monitor Setup?

Change Site ID?

Change ID Mode?

Change User ID?

Change Alarm Mode?

Change Alarm Mode?

Change User Mode?

Change Real Time Clock?

Change Backlight Mode?

Change Password?

Change Pump Speed?

Change Averaging Method?

Change Display Language?

Set Temperature Unit?

0

Change Sensor Confi guration?

Change LEL/VOC Gas Selection?

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Change PID Lamp Type?

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Program Mode 21

Calibrate Monitor

Fresh Air Calibration? Refer to Calibrating the Monitor on page 5.

Multiple Sensor Calibration? Refer to Calibrating the Monitor.

Single Sensor Calibration? Refer to Calibrating the Monitor.

Oxygen Sensor Calibration: The oxygen sensor calibration is slightly different from other sensors; span calibration at 20.9% O

2

is perormed during fresh air calibration. During single sensor calibration, the oxygen sensor can be calibrated to 0% O

2

with pure nitrogen gas, by pressing [Y/+] when asked “0%? Oxygen?” To calibrate at a different concentration specified in Modify Span Gas Value, press [N/-].

NOTE: After a single sensor oxygen calibration, perform fresh air calibration to ensure the oxygen sensor is calibrated correctly.

Modify Span Gas Value?

The span gas is the second point of reference for calibration. Users may modify the span values of the standard calibration gases to use other calibration gases. However, DO NOT modify the span values when using the RAE Systems calibration gas supplied with the monitor.

Change LEL/VOC Span Gas?

Change the type of calibration gas from methane (LEL) and isobutylene

(VOC) to be used as the span gas during LEL or VOC gas calibration.

However, DO NOT modify the span gases when using the RAE

Systems calibration gas supplied with the monitor.

Change Alarm Limits

Users may change the alarm limits for each sensor. Use [N/-] to cycle through the submenu options. Press [Y/+] to enter a submenu. To modify the limit, use [Y/+] and [N/-] to change the value. Use M to move from character to charater.

N/-

MODE

To escape the submenu without saving changes, press M . To save, press M until “Save?” appears. Press [Y/+] to save changes, otherwise

Change High Alarm Limit?

Change Low Alarm Limit?

Change STEL Alarm Limit? (Short Term Exposure Limit)

Change Average Alarm Limit? (TWA – Time Weighted Average)

22 Program Mode

Change Datalog Setting

The monitor calculates and stores the gas readings at specified intervals, which can be reviewed by the user. Users may also program additional datalog options for the monitor through the computer.

Clear All Data?

Erase all data stored in the non-volatile memory, but does not delete the PEAK, MIN, STEL, TWA displayed values, which are stored separately.

Change Datalog Period?

Program the datalog period from 1 second to an hour (3,600 seconds).

Select Data Type?

Store either the average (TWA) or peak value for each datalog interval.

If peak values are selected, average values like STEL and TWA will not be selected.

Enable/Disable Datalog?

Enable or disable the datalogging function for each sensor. If a * is displayed next to a sensor name, data will be recorded. Use M to move from sensor to sensor. An asterisk (*) means the sensor is enabled; no asterisk means the sensor is disabled. Press [Y/+] to select or press

[N/-] to deselect. To save changes, press

Y/+

M until “Save?” appears.

Then press [Y/+] to accept. Otherwise, hold changes.

MODE

M to escape and cancel

Select Memory Full Type?

The instrument’s memory can store about 3 days’ worth of data, as a result of continuous monitoring at 1-minute intervals. Users may select one of two types of memory storage:

Wrap-around: after the memory becomes full, the latest data overwrites the oldest data. e.g. the most recent 3 days’ worth of data is stored.

Stop: halts datalogging when the memory is full, and the “MEM” alarm sounds. e.g. the first 3 days’ worth of data is stored.

Program Mode 23

Change Monitor Setup

Change the monitor setup or enter user information for the monitor. Use

M to move the cursor from character to character. Use [Y/+] and [N/-] to toggle up and down the alphabet and numbers. To save, press M until “Save?” appears. Press [Y/+] to save changes, otherwise, press

[N/-] to discard changes. To escape this menu without saving changes, press and hold M .

Change Site ID?

Enter an eight-character alphanumeric site identification, which is included in datalog reports.

Change ID Mode?

Set up an identification code to use during start-up or to access a previously saved customized ID.

Change User ID?

Enter an eight-character alphanumeric user identification, which is included in datalog reports.

Change Alarm Mode?

Choose either latched or automatic reset. The user must manually acknowledge a latched alarm by pressing [Y/+] .

Change User Mode?

The three different user modes are: Text, Display and Advanced.

Change Real Time Clock?

Change or update the real time clock and calendar.

Change Back Light Mode?

Automatic – the monitor turns the back light on/off when ambient light falls below/above the threshold or

Manual

the back light on/off.

or

Manual

Change Password?

Modify the password.

24 Program Mode

Change Pump Speed?

Low – (default) use when operating conditions are slow to change; prolongs pump motor life, LEL sensor life and battery run time.

High – use for long lengths of tubing or when rapid changes in input conditions are expected, such as HazMat response or when used for measuring heavy, low vapor pressure compounds like jet fuel.

Change Averaging Method?

Choose: TWA (default) – an eight-hour Time Weighted Average or AVG

– the running average

Change Display Language?

Choose English or Spanish.

Set Temperature Unit?

Choose Celsius or Fahrenheit to measure temperature.

Change Sensor Configuration

Change LEL/VOC Gas Selection?

Choose an LEL or VOC gas listed in the monitor to calculate its correction factor relative to the LEL or VOC calibration gas. Refer to

Correction Factors on page 26. The correction factor allows the unit to display the equivalent concentration of the selected LEL or VOC gas. To create a custom factor for a specific gas or mixture of gases, modify the relative correction factor to increase or decrease the gas reading.

Enable/Disable Sensor?

Enable or disable sensor(s); a disabled sensor will not measure or display the gas concentration. Use if a sensor has failed or is providing erroneous readings. Use M to move from sensor to sensor. An asterisk

(*) means the sensor is enabled; likewise, no (*) means the sensor is disabled. Press [Y/+] to select or press [N/-] to deselect. To save changes, press

N/-

M until “Save?” appears. Then press [Y/+] to accept.

Otherwise, hold M to escape and cancel changes.

Program Mode 25

Change Dilution Ratio?

Attach an optional dilution fitting on the gas inlet port to dilute the gas sample. Enter a dilution ratio (from 1 to 10) to compensate the reading for the actual gas concentration.

Change PID Lamp Type?

This only applies to PID monitors. The PID sensor can utilize either a 10.6 eV or an 11.7eV UV. Since each lamp type has a different correction factor table, it is important to select the correct lamp type.

Correction Factors

VOC and LEL sensors respond to a broad range of gases and show a different sensitivity to different gases; correction factors allow measurement of a specific gas (the measurement gas) while using a different gas for calibration (the calibration gas). The correction factor

(CF) for a measurement gas is defined as:

CF = Sensitivity to a Calibration Gas ÷ Sensitivity to a Measurement Gas

To convert the monitor reading of the calibration gas to the true concentration of a measurement gas, use the following equation:

True Concentration (ppm) = CF x Monitor Reading (ppm)

The monitor has three sets of correction factors, one for the LEL and two for the VOC (10.6 eV and 11.7 eV) Each set consists of 20 to 40 different gases. Specify the PID lamp type (e.g. 10.6 eV or 11.7 eV) to access the proper VOC correction factor.

To set up a correction factor, first choose a calibration gas in the

Calibrate Monitor program menu and then choose a measurement gas in the Change Sensor Configuration menu. If the calibration gas is different from methane for LEL or isobutylene for PID, then the new CF is calculated and the displayed value will be different from the values in

Technical Notes 106 or 156.

NOTE: Correction factors provide an estimate of the measurement gas concentration. For greatest accuracy, it is necessary to calibrate the

LEL or VOC sensor directly with the measurement gas.

Refer to Technical Note-106 Correction Factors and/or Technical Note-

156 LEL Correction Factors.

26 Program Mode

Diagnostic Mode

The monitor is equipped with a diagnostic mode that can display critical, low lever parameters to help users identify problems. Refer to

Troubleshooting on page 38.

!

The diagnostic mode allows the user to set several low level parameters which are very critical to the operation of the monitor. Extra care should be taken when setting these low level parameters. If the user is unfamiliar with these parameters and sets them incorrectly, it may cause the monitor to shut down or malfunction. The diagnostic mode should only be used by qualified personnel.

To switch the monitor to diagnostic mode, turn the monitor off.

Press and hold [Y/+] and M together; release both keys when the unit beeps. The monitor is now in diagnostic mode.

Press M until the desired diagnostic parameter appears:

Sensor Name and Raw Sensor Readings

If a sensor is programmed and is properly installed, the sensor name should appear. If the sensor name does not appear, then the sensor may be improperly programmed or defective. The raw sensor reading is the uncalibrated output for each sensor. When fresh air is applied, the raw sensor readings should be 200 to 700 for toxic gas and VOC sensors; 100 to 1300 for the LEL sensor; and 1200 to 2300 for the oxygen sensor. When calibration gas is applied, the raw sensor readings should increase or decrease by the amounts listed in Technical Note -

123 Special Diagnostic Modes. If the raw sensor readings are outside the normal range or do not change when gas is applied, the sensor or monitor may be defective.

RF Test (Radio Frequency)

This feature applies when the monitor is used with the RAELink Remote package. The RF test shows the successful rate of communication.

Adjust Lamp Failure Threshold

If the lamp physically appears fine, but the “Lamp” error message appears during normal operation, the lamp failure threshold may be set too high.

Diagnostic Mode 27

To adjust the level:

Turn the monitor on in diagnostic mode and go to the “Lamp = xxx, Fail

= yyy +/-” display. (“xxx” is the lamp current reading; “yyy” is the value of the lamp failure threshold.)

Decrease the “yyy” value until it is about 10 counts below the “xxx” value. Press M to exit.

Battery Type and Bias

The type of battery (Lithium-Ion battery pack or alkaline battery adapter) used to charge the monitor is displayed. Some toxic gas sensors require a bias voltage of a few hundred millivolts for the sensor to function properly. These include NO and NH

3

sensors.

To manually switch the bias voltage supply on, refer to Special Bias

Voltage for Toxic Sensors on page 35.

Install a biased sensor in the TOX1 socket. If the bias voltage is switched on, the bias reading should be below 182, otherwise it may be defective.

Show x1 and x10 Range of PID Sensor

(PID detectors only)

The PID sensor is connected to two amplifiers with two different gains: unity gain and gain of ten; these are the raw outputs of both amplifiers.

When fresh air is applied, both amplifier outputs should be 200 to 500.

When a VOC gas is applied, both amplifier outputs should increase; the amount of increase for the unity gain (x1) should be 1/10 of the increase for the gain of ten (x10). If the increase does not agree with the expected value, then the gain switch of the amplifier may be defective.

Display Contrast

Press [Y/+] to increase the contrast and [N/-] to decrease the contrast.

The LCD contrast bar indicates the current setting. If the display appears to have dark lines, press [Y/+] a few times to see the display more clearly. NOTE: In extreme temperatures, the display may fade or bleed out.

Y/+

LEL Power

The top line indicates the instantaneous reading of raw counts from the

LEL sensor. The bottom line shows if the LEL sensor is on or off. Press

28 Diagnostic Mode

Clock, Time, Battery, and Temperature

This display shows the real time clock, the date, the battery voltage in raw count and temperature sensor reading.

Sensor Expiration Date

The expiration date (month and year) for each installed sensor is based on the manufacturing date and expected life of each sensor.

If the current date exceeds the expiration date for any sensor, the performance of the given sensor cannot be guaranteed. It is strongly recommended to replace the sensor immediately to ensure proper operation.

Pump Stall

The “Pump = 20/20” reading is the minimum and maximum pump raw count (RC), and “Stall = 40 +/-” is the pump stall threshold. The pump stalls if the maximum raw count reaches the pump stall threshold, which causes the pump to shut off. To determine the pump stall threshold:

[ (max RC when pump is free + max RC when pump is blocked) ] ÷ 2

To adjust the pump stall threshold, press [Y/+] to increase or [N/-] to decrease the numerical value.

N/-

Back Light Threshold

Adjust the threshold for the LCD backlight to automatically turn on/off; verify the threshold is 100, which is suitable for most situations.

Serial Number and Pump

Displays the monitor’s serial number and the pump status. If a pump is installed and a pump speed control circuit is available, toggle the display “Pump=Low/High” by pressing [N/-] . NOTE: Changes made are only for testing the pump condition and are not saved to the nonvolatile memory. Refer to Change Pump Speed on page 25.

Battery Duration Time

Use to test battery life and displays the last run time before the unit turned itself off due to low battery.

Communicate with PC

Connect monitor to a personal computer to upload a configuration file or download stored data.

Diagnostic Mode 29

Maintenance

!

Power from the battery is flowing to the printed circuit board (PCB) and sensors even when the power is off. Therefore, it is very important to disconnect the battery pack before servicing or replacing sensors or any components insides the monitor. Severe damage to the PCB may occur if the battery pack is not disconnected before servicing the unit.

toxic sensors oxygen sensor printed circuit board (PCB)

30 Maintenance

lamp

Li-Ion Battery Pack

!

The factory supplied Li-Ion battery pack is designed to last for 10 hours of normal operation (without alarm or backlight conditions).The rechargeable batteries have a 1-year warranty. Age, ambient temperature, and heavy useage may impact battery life. Battery packs will slowly drain even if the monitor is turned off. If the battery packs have not been charged for 10 days, the battery voltage will be low. It is recommended to fully charge the battery packs before going into the field, and recharge the battery pack upon returning from the field.

To reduce the risk of ignition of hazardous atmospheres, recharge battery only in areas known to be non-hazardous. Remove and replace battery only in areas known to be non-hazardous. Ne charger les batteries que dans emplacements désignés non dangereux.

Replacing the Battery Pack

!

To reduce the risk of ignition of hazardous atmospheres, recharge battery only in areas known to be non-hazardous. Remove and replace battery only in areas known to be non-hazardous. Ne charger les batteries que dans emplacements désignés non dangereux.

Remove the monitor cover by loosening the two case screws, and then unplug the battery pack from the battery jack.

Place a fully charged spare battery pack into the monitor.

Make sure the battery plug is connected securely.

Reattach the cover and tighten the screws.

Maintenance 31

Emergency Alkaline Battery Adapter

!

The alkaline battery adapter supplied by RAE Systems is intrinsically safe.

The adapter is intended to be used in emergency situations when there is no time to recharge the Li-Ion battery pack. The adapter accepts 4-AA alkaline batteries to provide approximately 12-14 hours of operation.

To install the adapter, remove the monitor cover. Remove the Li-Ion battery pack from the monitor by carefully disconnecting the wires.

Install four AA alkaline batteries into the battery adapter, making sure the battery polarity is correct.

Connect the battery adapter to the monitor. Make sure the wires are placed inside the adapter, running between the batteries. Close the flap over.

Install the battery adapter in the monitor.

The monitor automatically detects the alkaline batteries and will run for 8-10 hours. Use the monitor once the alkaline battery adapter is installed. Replace the alkaline batteries when spent.

32 Maintenance

Sensor Replacement

Under normal operating conditions, most sensors will lose their original sensitivity after the expected operating life and eventually need to be replaced. Each sensor has a non-volatile memory that has the manufacturing and expiration dates, which appear during the warm-up period or can be looked up in the diagnostic mode.

Warranties: Oxygen (O

2

(H

2

), combustible gas (LEL), hydrogen sulfide

S) and carbon monoxide (CO) sensors all have a 2-year warranty.

All other toxic sensors have a 1-year warranty.

NOTE: The Oxygen and the LEL sensors have assigned sockets.

These are identified on the PCB. High bias toxic sensors should be installed in socket 1/A. Refer to Special Bias Voltage for Toxic Sensors

on page 35. Any toxic sensor can be installed in socket 2/B.

Replace the sensor when it fails to calibrate.

To replace sensor(s), turn the monitor off and remove the cover.

Using the sensor puller, remove the sensor to be replaced by carefully pulling straight out.

Plug a new sensor into the empty socket.

Make sure the sensor pins are aligned with the socket holes before firmly pushing the sensor all the way down.

Replace the monitor cover.

Turn on the power of the monitor and the newly installed sensors should be recognized. Let the monitor run for 15 minutes before calibration.

Some sensors, like NO and NH3, require up to 24 hours on-bias in the monitor prior to calibration and use. Refer to Techincal Note 114 Sensor

Specifications and Cross Sensitivities.

NOTE: Calibrate all sensors prior to use!

Maintenance 33

CO Sensor Charcoal Filters

CO sensors can be sensitive to hydrocarbons. To reduce or eliminate this cross sensitivity, a charcoal filter is installed in the gas plate above the CO sensor. The charcoal filter removes organic vapor crosssensitivity and will last 4-6 weeks under normal operation conditions before it needs to be replaced. However, if the monitor is exposed to high concentrations of VOC gases, the carbon filter needs to be replaced more frequently. (P/N 008-3006-005, 5-pack; keep unused filters sealed during storage.)

!

Refer to Technical Note-121 CO Sensor Cross-Sensitivity and Removal with Charcoal Filter for cross-sensitivity data.

The carbon filter used for CO sensors may lower the reading if used on other sensors. Remove the filter if another sensor is replacing a CO sensor in the monitor.

place carbon filter above the CO sensor in either position, not both

34 Maintenance

Special Bias Voltage for Toxic Gas Sensors

NO and some NH

3

sensors require a special high bias. The bias pins are located next to the PID sensor socket. Using the sensor puller, move the stopper block from the “OFF” pins to the “ON” pins. The sensor ID and bias voltage will be checked during the power on sequence. An error message appears if the sensors are plugged into the wrong socket, or if the bias voltage is disabled. Biased sensors require 24 hours on bias before calibration.

stopper block in

“ON” position three bias pins

(display side) socket

1/A socket

2/B

Maintenance 35

PID Sensor Cleaning/Replacement

During the course of normal operation, a film of gas vapor may build up inside the PID sensor module and the lamp; the rate of build-up depends on the type and concentration being sampled. As a guide, it is recommended to clean the PID sensor module and lamp only when the

PID is malfunctioning.

Periodically cleaning the lamp window also removes film deposits and restores lamp sensitivity. Exercise with care when cleaning the window surface to avoid damage.

Turn the monitor off and remove the cover.

Remove the stainless steel shielding cap for the PID sensor. Using the sensor puller, remove the PID sensor by carefully pulling straight out.

Dip the entire PID sensor into RAE Systems’ lamp cleaning solution (supplied in the Lamp

Cleaning Kit, P/N 081-0002-000).

shielding cap

P/N 023-2601-000

!

DO NOT store the methanol from the lamp cleaning kit in the same case as the MultiRae

Plus, as long-term exposure to methanol can damage electrochemical sensors.

It is highly recommended to use an ultrasound bath for at least three minutes.

Then thoroughly air-dry the sensor.

!

DO NOT use heat to dry sensors.

DO NOT disassemble PID sensor.

If the lamp is operational, use a cotton swab or lens tissue to clean the flat window surface with GC grade methanol. If the lamp does not turn on replace with a new lamp.

Avoid contact with the flat window surface.

PID sensor

P/N 008-3007-000

Reinstall the PID sensor. Install the shielding cap. Replace the monitor cover.

Taking Care of the Lamp

lamp

10.6 P/N 050-0010-000

11.7 P/N 050-0011-001

!

Never touch the window surface with fingers or anything which may leave a film. Water will degrade window surfaces, especially the 11.7 eV lamp window.

36 Maintenance

The 10.6 eV PID lamp has a 1-year warranty. The “Lamp” error is an indication of a problem with the lamp current. A dirty or contaminated sensor often causes high readings of the VOC sensor. A weak or inoperative lamp often causes low readings or no response to test gas. If the UV lamp is on while the error message persists, then it is necessary to adjust the lamp threshold. Refer to Adjust Lamp Failure

Threshold on page 27.

Sampling Pump Replacement

The sampling pump is a positive displacement piston pump, which needs to be replaced as it approaches the end of its life span. The pump’s draw capability reduces significantly as it consumes a greater amount of energy to keep running. The sampling pump has a 1-year warranty. To replace the pump:

Turn the monitor OFF and remove the cover.

The sampling pump is attached to the cover.

Remove the single screw holding the pump to the cover.

Gently pull the pump assembly off the cover.

Replace with a new pump assembly and reassemble.

pump cover

Maintenance 37

Troubleshooting

Problem

Cannot turn on after charging battery.

Possible Reason(s)

Defective battery.

Microprocessor hangup.

Possible Solution(s)

Charge or replace battery. Disconnect then reconnect battery to reset computer. Otherwise, install alkaline battery pack. If that still does not work, then call Service.

Press [Y/+] and reset clock.

Y/+

“Incorrect Year

- Check Clock!” error message.

Battery has died and there is a mismatch between the date code on the sensors and its internal clock.

Microprocessor hangup.

Cannot turn off.

Corrupted characters.

No LED or LCD backlight.

Lost password.

Buzzer inoperative.

Calibration error message.

“Voltage too high” error message, while charging.

“Bat” error message.

Defective LED or LCD backlight.

Forgot.

Disconnect and reconnect battery to reset computer.

Reload firmware.

Check if backlight is in manual mode. Otherwise, call service center.

Use ProRAE Suite to reset password.

Call authorized service center.

Bad buzzer.

Setting could be in special run silent mode.

No calibration gas input. Low sensitivity to calibration gas.

Battery fuse blown.

Wrong AC adapter. AC adapter not fully plugged in.

Battery low.

Check standard gas flow path or cylinder pressure.

Change calibration gas or sensor.

Check battery and adapter.

Recharge battery.

38 Troubleshooting

High pump noise.

No inlet suction.

Abnormally low reading.

Abnormally high reading.

Read a small background value.

“Lamp” error message.

Leaky inlet path.

Defective pump.

Bad calibration. Low sensitivity to calibration gas. Wrong span value.

Bad sensor. Low flow.

Bad calibration. Wrong span value. Dirty PID sensor. Dirty filters.

Excessive moisture.

Reading jumping around.

Incorrect calibration gas.

Wrong span value.

Small background gas level present. Sensor zero drift or newly installed.

Wrong threshold. Weak lamp. Dirty Sensor.

Check inlet connection.

Clean or replace pump.

Recalibrate. Use stronger span gas. Check span value. Replace sensor.

Replace filters. Check flow.

Recalibrate. Check span value. Clean PID sensor in methanol in ultrasound bath. Replace filters. Dry

PID sensor.

Calibrate the sensors. Use different calibration gas.

Change sensor.

Run fresh air calibration.

Wait for newly installed sensor to stabilize.

VOC reading plateaus at certain level.

Full scale measurement in humid environment.

Weak PID lamp. Dirty

PID sensor.

Dirty or wet sensor.

Adjust threshold. Clean or replace lamp. Clean PID sensor.

Replace lamp. Clean lamp

& PID sensor. Replace filters.

Clean and dry sensor.

Replace external filter.

Specifi cations

Size

4.65”L x 3.0”W x 1.9”H (11.8 x 7.6 x 4.8 cm)

Weight

16 oz with battery (454g)

Sensors

Up to 5 sensors including:

• Photo-Ionization detector for VOCs, 10.6 eV

lamp standard

• Protected catalytic bead for combustible gases

• Interchangeable electrochemical sensors for

oxygen and toxic gases (2)

Battery

• Interchangeable Li-Ion and alkaline battery packs

• Rechargeable units include lithium-ion battery pack with internal smart charging, 120V AC/DC wall adapter, and spare alkaline battery pack

Operating Hours

• 14 hours continuous with Li-Ion (typical)

• Unit will run and charge simultaneously

Display

2 line, 16 digit LCD with LED backlighting automatically in dim light or alarm condition

Keypads

1 operation and 2 programming keys

Direct Readout

Instantaneous (up to 5) values:

• Oxygen as percentage by volume

• Combustible gas as percentage of lower

explosive level (LEL)

• Toxic gases and VOCs as parts per million by volume

(VOC scaleable using correction factors)

• High and low values for all gases

• STEL and TWA values of toxic gases and VOCs

• Battery and shut down voltage

• Date, time, elapsed time, temperature

Alarms

90 dB buzzer and fl ashing red LED to indicate exceeded preset limits:

• High: 3 beeps and fl ashes per second

• Low: 2 beeps and fl ashes per second

• STEL and TWA: 1 beep and fl ash per second

• Automatic reset or latching with manual override

• Additional diagnostic alarms and display messages for low battery and pump stall

Datalogging

20,000 points (80 hours, 5 channels at one minute intervals) download to PC with serial number of unit, user ID, site number, and calibration date

40 Specifications

Calibration

Two-point fi eld calibration for zero and span gas

Sampling Pump

Internal two-speed pump. Flow rates:

• Low: ~200 cc/min

• High: ~300 cc/min

Low Flow Alarm

Auto shut-off pump at low fl ow condition

Temperature

-4° to 113°F (-20° to 45°C)

Humidity

0% to 95% relative humidity (non-condensing)

Attachment

Wrist strap and high-visibility rubber boot

Warranty

Lifetime on non-consuming components (per RAE

Standard Warranty). 2 years for O

2 battery, 1 year for 10.6eV PID lamp.

, LEL, CO, and H

2

S sensors. 1 year all other sensors. 1 year pump, 1 year

EMI Immunity

No effect when exposed to 0.43 mW/cm RF interference (5 watts at 12 inches)

Intrinsic Safety

U.S.A. and Canada: UL & cUL Class I, Division I,

Groups A, B, C, D, hazardous locations, Temperature

Code T3C

Europe: DEMKO 03 ATEX 0308256X; EEx ia d IIC T4

(w/ Battery P/N 500-0029); EEx ia d IIC T3 (w/ Battery

P/N 500-0037)

Range, Resolution & Response Time

(t

90

for pump-equipped instruments)

Sensor Range Resolution

LEL

VOC

VOC

O

2

CO

H

2

S

SO

2

NO

NO

Cl

2

2

PH

3

NH

3

HCN

0-100% LEL

0-200 ppm

200-2000 ppm

0-30%

0-500 ppm

0-100 ppm

0-20 ppm

0-250 ppm

0-20 ppm

0-50 ppm

0-5 ppm

0-50 ppm

0-100 ppm

1%

0.1 ppm

1 ppm

0.1%

1.0 ppm

1.0 ppm

0.1 ppm

1.0 ppm

0.1 ppm

0.1 ppm

0.1 ppm

1.0 ppm

1.0 ppm

t

90

(sec)

40

35

35

30

25

60

15

10

10

15

60

150

200

Presoak Time for

60-sec Cal

None

None

None

None

None

None

None

None

None

60 sec

60 sec

90 sec

170 sec

Specifications 41

Service and Repair Record

Date Service / Repair Type

42 Service and Repair Record

Notes

RAE Systems World Headquarters

3775 N. First St.

San Jose, CA 95134-1708 USA

Phone: 408.952.8200

Fax: 408.952.8480

E-mail: [email protected]

Web Site: www.raesystems.com

RAE Systems Technical Support

Monday through Friday, 7:00AM to 5:00PM Pacifi c Time

+1.888.723.4800 (toll-free) email: [email protected]

RAE Systems Tubes: 888.RAE.TUBE (888.723.8823)

RAE Systems Europe ApS

Orestads Boulevard 69

DK-2300 Copenhagen, DENMARK

Phone: +45.8652.5155

Fax: +45.8652.5177

RAE Systems (Hong Kong) Ltd.

Room 8, 6/F, Hong Leong Plaza

33 Lok Yip Road

Fanling, N.T. HONG KONG

Phone: +852.2669.0828

Fax: +852.2669.0803

P/N 008-4022-000

Rev B1, Nov 2003

www.raesystems.com

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