3M Occupational Health & Environmental Safety Division
3M™ The Edge Personal Noise Dosimeter
The Edge
models eg4 and eg3
User Manual
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Table of Contents
ii
Docking.......................................................................................... 22
Windscreen and maintenance........................................................................32
Resetting the dosimeter................................................................................35
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Table of Contents
iii
Viewing data and data finder page ................................................................43
Panel Layout View(charts/graphs) .................................................................45
LED indicator: disable/enable.......................................................................46
Temperature................................................................................................50
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Table of Contents
iv
Communications...........................................................................................53
International customers ................................................................................56
Warranty ........................................................................................ 56
INDEX………………………………………………………………………………….85
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List of Figures
v
Figure 1-1: The Edge and dosimetry.................................................................................................. 1
Figure 1-2: Illustration of how the dosimeter operates and processes.................................................. 2
Figure 1-3: Parameter setup screen for eg4 ....................................................................................... 6
Figure 2-1: Identifying your equipment.............................................................................................. 7
Figure 2-2: Powered on with measurement view displayed.................................................................. 8
Figure 2-3: Edge Keypad..................................................................................................................10
Figure 2-4: EdgeDock1 ....................................................................................................................11
Figure 2-5: Attaching the charger adapter with the plug adapter........................................................12
Figure 2-6: Attaching charger adapter to EdgeDock1 and EdgeDock5 .................................................13
Figure 3-1: Edge setup and retrieve data buttons in DMS...................................................................16
Figure 3-2: Sample summary data from DMS reporting......................................................................17
Figure 3-3: Sample time history data (or logged data) chart...............................................................17
Figure 3-4: Communicating - connecting a docked Edge to a pc.........................................................22
Figure 3-5: New Hardware wizard for Edge Dock...............................................................................23
Figure 3-6: Dosimeter screen ...........................................................................................................24
Figure 3-7: Edge display screen........................................................................................................26
Figure 3-8: Edge security setting ......................................................................................................27
Figure 3-9: Edge auto run screen .....................................................................................................28
Figure 3-10: Edge firmware update screen..........................................................................................29
Figure 3-11: Saving and sending Edge setups .....................................................................................30
Figure 4-1: Quick help list for running a study...................................................................................31
Figure 4-2: Positioning/Attaching the Edge........................................................................................32
Figure 4-3: Battery indicators ...........................................................................................................33
Figure 4-4: Calibrating .....................................................................................................................34
Figure 4-5: Splash screen.................................................................................................................35
Figure 4-6: Resetting the Edge from the keypad................................................................................35
Figure 4-7: Changing the contrast from the keypad ...........................................................................36
Figure 4-8: Display screen while running...........................................................................................37
Figure 4-9: Measurement view on the Edge ......................................................................................39
Figure 4-10: Locking/Securing run......................................................................................................40
Figure 5-1: Communicating between your pc and the Edge................................................................41
Figure 5-2: DMS start screen............................................................................................................42
Figure 5-3: Downloading with the Edge models eg3/eg4....................................................................42
Figure 5-4: Recent downloaded data ................................................................................................43
Figure 5-5: Data Finder page with the downloaded data ....................................................................43
Figure 6-1: Microphone and windscreen assembly .............................................................................47
List of Tables
LED indicators explained.................................................................................................. 9
Dosimeter measurement descriptors/variants...................................................................21
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CHAPTER
1
Dosimetry
1
Chapter 1:
Introduction
Measuring noise in the workplace is an
important element of hearing conservation
programs and noise reduction programs. With a
noise dosimeter, you can assess and determine
a worker’s daily exposure to noise levels. This
information can be used to ensure compliance
with regulatory bodies or to ensure if hearing
conservation programs are needed.
To get you started quickly with the Edge, the
first chapter is dedicated to introducing basic
noise dosimetry terms and information. The
subsequent chapters will guide you through
setting up the dosimeter, running studies, and
assessing your results with easy to follow steps
and illustrations.
Figure 1-1: The Edge and dosimetry
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Dosimetry
Noise dosimeter
2
What is a noise dosimeter and how does it compute measurements?
Essentially, a noise dosimeter is composed of the following: a microphone with a
preamplifier, a weighted network, fast or slow response time, an internal clock, calculator,
and memory to store logged data.
The illustration below is a diagram of a basic noise dosimeter. The microphone will, when
exposed to a sound pressure, generate an electrical signal. The signal will be increased by
a preamplifier, and then is regulated to an applicable level by the range control (dB range).
The signal then goes through a filter set or weighting system. The next circuit is the
response circuit, which controls the dampening of the readout. The response choices are
typically Slow or Fast. Finally, the results will display on the dosimeter screen.
For computation and storage, the clock tracks the sampling time. Dosimeters record how
long sound levels exceeded a set upper limit. The calculator computes an L-avg, a dose, a
TWA, and other data. The memory stores all times, calculations, and measurements.
For post-processing, QSP-II is used to view and analyze your measurement results with the
option to view and/or print reports.
Fast/Slow
Response
Measurement
results on the Edge
Range control
(70-140dB)
Mic &
Preamp
Apply filters
(A or C weighting)
Clock
Calculator
File storage
system
QSPII – Manage setup and
create graphs, charts and reports
Figure 1-2: Illustration of how the dosimeter operates and processes
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Dosimetry
Range of sound
3
Sound pressure is measured in decibels, or tenths of a Bel. Sound pressure level is
indicated as dB SPL. Since the human ear can detect sounds with an extensive range of
amplitude, a decibel scale is used to simplify the measurement results. For example, the
ratio between the threshold of hearing and threshold of pain in the human ear if measured
in true energy is 10,000,000 times! The same range using the dB scale is 0 - 140 dB
referenced to 20 µPa (Micropascals).
The quietest sound that humans can hear has an amplitude of approximately 0 dB.
Prolonged exposure to sound pressure levels exceeding 85 dB can cause permanent
damage to the ear. Sound levels in excess of 130 dB are more than the human ear can
safely withstand and can result in serious pain and permanent damage.
Many organizations have studied and analyzed the effects of high sound exposure on
hearing. As a result, standards were developed to regulate personal noise exposure. In the
United States, the Occupational Safety and Health Administration (OSHA), the Mine and
Safety and Health Administration (MSHA), and the American Conference of Governmental
Industrial Hygienists (ACGIH) have all created regulations and limitations on total
permissible noise exposure. International standards are specified by the health and safety
regulations such as the European Union (EU) Directive 2003/10/EC. Additionally, the
International Electrotechnical Commission (IEC) IEC-61252 has specific guidelines and
regulations to monitor noise in the workplace.
To access these copyrighted standards, please refer to the following:
OSHA - http://www.osha.gov
MSHA- http://www.msha.gov
IEC - http://www.iec.ch
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4
Dosimetry
Applications of the Edge
The Edge has a cable-free, mounted microphone that converts sound pressure into an
electrical signal. This signal is conditioned, monitored, and integrated over time in order to
provide a host of automatically calculated values that can be used in occupational and
environmental noise assessments. Programmable parameters permit the Edge to serve
many applications. The Edge can be used in the following applications:
As a personal noise dosimeter - Used to measure a worker's
daily exposure to noise levels. This information can be used to
ensure compliance with OSHA, MSHA, ACGIH, IEC, or your own
customized parameter settings to determine if your workers are
over-exposed to noise.
As a time-history monitor- Used to provide a worker's minute-by-
minute noise exposure levels. This data can help you identify major
contributors to the average daily noise exposure.
Time history: manufacturing
As a survey monitor
1. Throughout a plant/facility – used to oversee noise levels
throughout an entire facility. You can identify machines and
equipment which produce harmful noise levels.
2. Specific areas in a plant/facility- used to identify key areas
as “noisy” and implement noise control options. Employees
may be exposed to unacceptable noise levels.
Peak Measurement: 121.20 dB
As a peak dosimeter- Used to detect the highest level of
instantaneous sound pressure.
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5
Dosimetry
Noise assessment steps
1. Perform a task-based work flow analysis of unacceptable “noisy” areas and list
regulations/codes you will follow.
Observe facility/areas and jot down areas of concern
Check with standards and noise ordinance regulations in your region/city.
See Chapter 1 for basic information on dosimetry and standards
2. Setting-up your dosimeter parameters for your noise studies.
Customize measurement setup (i.e., criterion level, threshold, weighting,
exchange rate, etc.)
See chapter 2 for getting started with your dosimeter
See Chapter 3 for customizing your set-up parameters
See Chapter 6 for Noise study scenarios
3. Running your studies.
Calibrate dosimeter
Attach the dosimeter
Run, observe, and stop your studies
Understand display indicators
See Chapter 4 “Running and operating the Edge”
4. View your results via QSP-II.
Working with Charts and Graphs
Organizing and saving your studies
See Chapter 5 to view measurements with QuestSuite Professional II
5. Develop corrective actions.
Engineering: redesign tools, implement changes in workstation
Administrative: job sharing/rotations, redefinition of job functions, reduce duration
operating tool/equipment, and/or implement medical surveillance
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6
Dosimetry
The Edge Models
Quest Technologies offers two Edge models. The “eg4” model features two virtual
dosimeters with data logging. Once the parameters are set and saved in the dosimeter, you
can monitor two different dosimeters by a single press of the Enter button. This will toggle
you between the two dosimeters. The “eg3” model is equipped with one dosimeter setting
and will not data log.
Figure 1-3: Parameter setup screen for eg4
You can monitor and log noise studies by enabling two different parameter settings in one
dosimeter, also referred to as “virtual dosimeters”. For instance, you may want to set one
dosimeter to log using the OSHA HC (Occupational Safety and Health Administration -
Hearing Conversation) parameters and also monitor noise with the OSHA PEL
(Occupational Safety and Health Administration – Permissible Exposure Level) settings.
A few scenarios of virtual dosimeters include:
Industrial noise control
Hearing conservation compliance
Work site assessments
Personal noise verification
Military applications
Regulatory compliance (i.e., OSHA, MSHA, IEC, ACGIH)
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CHAPTER
7
Checking the equipment
The Edge Models
2
Getting started
This chapter is designed to guide you through basic information you will need to begin
logging your studies.
If your instrument was sent to you in a storage case, you will want to remove all the
packaging and acquaint yourself with the following equipment so you can quickly get started
with your noise studies.
NOTE: Depending on the accessories you selected, the dosimeter may have the following
components. For the docking stations, you will either have an EdgeDock1 or an
EdgeDock5. (For more information on parts/accessories, please refer to
USB cable- connects
EdgeDock to the PC
Edge models eg4/eg3
microphone and
windscreen attached
mounting clasps
attached
EdgeDock1
DMS software
EdgeDock5
Optional feature
**Universal charger
adapter (Power supply
cord for the docking
station)
Extra windscreen for
microphone
Figure 2-1: Identifying your equipment
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Turning on
LED indicator
1. To turn on the Edge, press the on/off and enter
button.
indicating the model (i.e. “eg4” or “eg3”) and firmware version. The screen will be in the
measurement view.
LED Indicator
Battery indicator icon
If icon is fully shaded, this indicates full
battery power (approx.50+ hours)
View
Displays measurement values, battery
information, and calibration information
Figure 2-2: Powered on with measurement view displayed
There is a three-color LED indicator on the Edge, located to the right of the 3M logo which
includes Red, Amber, and Green.
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Turning off
LED indicator
Table 2-1 identifies when and why the LED indicator color will appear.
NOTE: The LED indicator can be disabled via DMS (see section, “Dose indicator LED”
page 25).
LED indicator
The EDGE LED
indicator
Red
Explanation
A flashing red LED indicates the dose has exceeded the alarm
level.
Amber
Green
A flashing amber LED indicates the dosimeter is stopped and
has not exceeded the dose alarm level.
A flashing green LED indicates the dosimeter is running and has
not exceeded the dose alarm level.
Table 2-1: LED indicators explained
Once the dosimeter is “Powered-On”, press the up/down
arrows to navigate
through the measurement values and battery run time.
1. Press and hold the on/off and enter
“3, 2, and 1” countdown will appear as the dosimeter is powered off.
NOTE: To halt the power off mode, simply let go of the on/off enter button.
button.
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10
Display and keypad
Diagram
The keypad is used to run and stop your studies, view your measurement values, and
power on and off the dosimeter.
The following diagram explains the features on the display and keypad.
Windscreen and microphone
LED indicator
Red – indicates dose exceeded the alarm level
Amber – dosimeter stopped
Green – dosimeter measuring
Display (Splash screen shown)
View data and various indicators
Up Arrow
Used to scroll through
display/screen views
On/Off
and Enter
Used to power On/Off the meter.
Used to switch between (toggle)
dosimeter one and dosimeter two
measurements and settings.
Run
and Stop
Used to activate meter when running or
logging measurements.
Used to Stop your noise study.
Down arrow
Used to scroll through
display/screen views
Figure 2-3: Edge Keypad
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3MTMDetection Mangement Software (DMS)
Loading
3MTM Detection Management Software (DMS) is a software application designed by 3M
Quest that runs under the Windows operating system. You can use DMS for a variety of
functions related to the Edge dosimeter and with many other 3M Quest instruments. DMS
has the ability to customize your set-up parameters, display data, manipulate data, and
create reports.
To load DMS, follow the screen prompts.
It will automatically load the drivers for the EdgeDock1 and/or EdgeDock5. If loading from
the 3M detection Internet site, please follow the directions online located:
Depending on the kit you purchased, you may have an EdgeDock1 and/or an EdgeDock5.
Both are designed similarly with the same LED indicators. The main difference with the
EdgeDock5 is that it has five bays for docking, charging, and/or managing the dosimeters.
If desired, the EdgeDock5 will charge all docked instruments at one time.
The docking station serves a dual-purpose role:
1. It is used to charge the battery on the dosimeter(s).
2. It is used to communicate between the software (DMS) and the dosimeter (i.e.,
import, export settings and measurement files).
Charging Indicator
Power Indicator
Charge contacts
Power connector
USB connector
Figure 2-4: EdgeDock1
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Docking station functionality
Docking station components
The table below explains the EdgeDock1 or EdgeDock5 LED indicators, power connector, USB
connector, and contact pins.
Docking station
components
Explanation
Charging indicator
Identifies if the dosimeter is “charging” or “fully charged”. A red blinking LED
indicates the dosimeter is charging. A solid green LED equates to a fully
charged dosimeter. (Note the charging indicator is the first, or top, LED
indicator.)
Power indicator
Power connector
A red LED indicates the docking station is powered on.
Attach the power connector cable to the docking station in order to charge
the dosimeter(s).
USB connector
Charge Contacts
Attach the USB connector to communicate with the dosimeter(s).
Placing the dosimeter (s) onto the charge contacts allows charging and
communication.
Table 2-2: EdgeDock1 and EdgeDock5 components
The EdgeDock1 and EdgeDock5 are powered by a 12-volt charger adapter.
Figure 2-5 illustrates the assembly of the charger adapter and the plug adapter. It slides into
place by guiding it down the back cavity (opening) of the power supply.
NOTE: the example is a typical adapter which may be different than the one you are using.
Mechanically, it will function similarly.
A. Charger adapter
B. Slide plug adapter into the crevices of base
Figure 2-5: Attaching the charger adapter with the plug adapter
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13
Docking station functionality
Powering EdgeDock1 or EdgeDock5
Powering EdgeDock1 or EdgeDock5
1. Assemble the charger adapter and plug adapter as illustrated in Figure 2-5. (It will be the
same process for an EdgeDock5.)
2. Plug the charger adapter directly into the wall (electrical wall plate).
3. Plug the opposite end into the power connector (or jack) of the EdgeDock1.
NOTE: a light, solid red light will appear indicating power to the charger.
EdgeDock1 LED indicator
Amber indicates “ON”.
Charger adapter cord
Figure 2-6: Attaching charger adapter to EdgeDock1 and EdgeDock5
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Docking station functionality
Charging your dosimeter
The number of hours you have used your dosimeter from your last charge will impact your total
charge time. For example, if the battery clock indicator (see “Checking the battery power” for
more information) displays 20 hours remaining on the battery and you wish to charge the battery,
the approximate charging time is 2 hours.
To charge a fully discharged battery, allow approximately 4 to 4.5 hours of charge time.
How to charge
1. Plug in the power adapter to the EdgeDock. (See Figure 2-6, page 13.)
When powered on, the EdgeDock bottom LED indicator will appear solid amber.
2. Slide the Edge (1) downward onto the Hook of the EdgeDock. (See Figure 2-7 below).
NOTE: When the dosimeter is docked, the top LED indicator on the base will be
illuminated. A red flashing LED indicates it is charging. A green solid LED indicates a
fully charged battery.
2
1
Backside of Edge
EdgeDock1
Open cavity & contacts
Slides into “Hook” of
EdgeDock. The
Hook
contacts will align to
each other.
Contacts
Dosimeter LED dock
Docking station LED
3
Docked
Figure 2-7: Docking the Edge with a single and 5-bay docks
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Docking station functionality
Mounting the docking station to a wall
The docking station is equipped with two single screw slots in case you wish to mount the docking
station to the wall. The figure below displays the backside of the single bay dock.
Screw slots
Used to mount to a wall
Figure 2-8: Backside of EdgeDock1
To preserve the life of the battery, it is suggested that the dosimeter is turned off when you are
storing the dosimeter.
Additionally, if the dosimeter is docked and stored on the docking station when it is powered off, it
will still draw a small amount of battery power from the dosimeter. Thus, it is recommended to
store the dosimeter(s) separately from the docking station.
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CHAPTER
16
Understanding what data is stored
Noise studies
3
Chapter 3:
Setting-up the Edge via DMS
The eg4 model comes equipped with two customizable user setups. The eg3 model has
one customizable user setup. You have the option to customize the parameters for
threshold values, exchange rate values, an upper limit value, and a criterion level.
This chapter explains data storage, the pre-set views on the dosimeter, and how to
customize the parameters and display of your Edge via DMS. It concludes with an
explanation of downloading data from the dosimeter to the software.
Family:
Noise Dosimeters
Setup:
Select to
access the
acoustic family
Edge model
Download panel
Figure 3-1: Edge setup and retrieve data buttons in DMS
When you are running noise dosimetry studies, there are two types of data stored on the
dosimeter which include the summary data and time history (or Logged) data.
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Understanding what data is stored
Summary data
Summary data represents values that occurred over the entire run of the study. For an
average value, such as Lavg, it represents the average decibel value over the entire run
time. Peak and Max values are the highest measurements that occurred throughout the run
time.
Figure 3-2: Sample summary data from DMS reporting
Time history data is also referred as “logged data” which plots measurement values in
minute by minute intervals.
Time History data represents values that occurred over the most recent time period, which
is the logging interval. For example, if the log interval is 1 minute, then the Peak value is
the highest Peak value for that 1 minute, and the Lavg value is the average dB value for
that 1 minute.
Figure 3-3: Sample time history data (or logged data) chart
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Views on the Edge
Logging
eg4 model only logs at one minute intervals and includes the following measurements:
Meter 1 logs Lavg/Leq, Lcpk, and Lasmx
Meter 2 logs Lavg/Leq
If the dosimeter runs for one hour, then it will log 60 Lavg/Leq results, and 60 Lasmax/Lcpk
levels. In DMS, you can customize the logged data chart results by checking Lavg/Leq,
Lcpk, and/or Lasmax measurement values when using the
button.
The Edge is a user-friendly and customizable dosimeter. In DMS, you may select the
appropriate measurement values or views to appear or not appear on the display of your
dosimeter using the Display Setup configuration as displayed below. Table 3-1 briefly
identifies the displayed data values and views with a brief definition. (See the glossary for
additional information of these terms.)
Note: The measurements/parameters are viewable in charts and graphs in DMS when
downloaded.
Edge:
customize
what appears
on the display
Measurements/parameters
which appear on the Edge
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Views on the Edge
Definitions of data log values and views
To set up the Edge and work with noise-level data, you will want to have a good
understanding of the terms listed in Table 3-1.
NOTE: The following table is based on A-weighted, slow measurements. Thus, if you
choose A or C-weighted with Fast or Slow response the measurement values will change
on the display (i.e., you selected sound pressure level with C-weighting with Fast response,
it will display as LCF.) For further details, please see “Dosimeter measurement
descriptors/variants” in Table 3-2.
Views on the
EDGE
Explanation
LAS
Sound pressure level - is the basic measure of noise loudness,
expressed in decibels. (In DMS this is noted as “SPL”)
LASMX
Maximum sound level- is the highest sound level recorded during a
measurement interval with a particular response setting (Slow or Fast) and
weighting (A or C). LMax is the highest value that is included in LAvg or
dose calculations.
Under OSHA regulations, unprotected workers may not be exposed to
maximum sound levels greater than 115 dB, measured with a Slow
response rate.
LCPK
Peak Level - is the highest instantaneous sound pressure level recorded
during a measurement interval. Unlike the maximum level, the peak is
detected independently of dosimeter settings for response rate or
weighting.
Under OSHA regulations, unprotected workers may not be exposed to
peak sound levels greater than 140 dB.
LASMN
Minimum sound level - The lowest sampled sound level during the
measurement interval allowing for the unit’s Response Time setting (Fast
or Slow).
LAVG
Average sound level - (in dB) computed for a chosen time duration,
based on a 4, 5, or 6 dB exchange rate. LAVG with a 3 dB exchange rate is
referred to as LEQ (equivalent sound level). All sound levels at or above
the threshold level are averaged into the calculations relating to noise
exposure. LAVG is typically calculated with no threshold, with a threshold of
80 dB or with a threshold of 90 dB.
Table 3-1: Dosimeter views and definitions
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Views on the Edge
Definitions of data log values and views
Views on the
Edge
LTWA
Explanation
Time-weighted average - is the sound level (in dB) that is accumulated for any time period but
with its average level computed over an 8-hour period. TWA is usually measured with A-weighting,
Slow response, and a 5 dB exchange rate.
All sound levels at or above the threshold level (cutoff level) are averaged into the
calculations relating to noise exposure. TWA is calculated with no cutoff, with cutoff 1 (typically 80
dB), or with cutoff 2 (typically 90 dB).
If the time period is less than 8 hours, the TWA will be less than the Lavg/Leq.
If the time period is more than 8 hours, the TWA will be more than the
Lavg/Leq.
LAE
Sound Exposure Level (SEL) – The sound exposure level averages the
sampled sound over a one second period. Assuming the sampled run time to
be greater than one second, SEL is the equivalent one-second noise that
would be equal in energy to the noise that was sampled. SEL is typically
measured using a 3 dB exchange rate without a threshold. (LAE is not used by
OSHA.)
Dose
UL
Dose - Related to the Criterion Level, a dose reading of 100% is the maximum
allowable exposure to accumulated noise. For OSHA, 100% dose occurs for
an average sound level of 90 dB over an 8 hour period (or any equivalent
Upper Limit - is the amount of time that the sound level exceeds a preset
level (the Upper Limit).
Response Level Typically, noise is not constant. Using a response of Slow or Fast simply
(Fast, Slow)
flattens the noise fluctuation and makes the sound level easier to work with.
Slow: 1 second (1,000 milliseconds, or msec)
Fast: 0.125 second (125 milliseconds)
RT
Weighting
(A, C)
Run Time - The overall time of your noise study.
A and C weighting are types of frequency filters that cover the frequency range of human hearing
(20Hz to 20 kHz).
“A” weighting: The “A” weighted filter attempts to make the dosimeter respond closer to
the way the human ear hears. It attenuates the frequencies below several hundred hertz as
well as the high frequencies above six thousand hertz. “A” weighted measurements are
often reported as dBA.
“C” weighting: provides a fairly flat frequency response with only slight attenuation of the
very high and very low frequencies. “C” weighting is intended to represent how the ear
perceives sound at high decibel levels and is often used as a “flat” response when LINEAR
is not available. “C” weighted measurements are often reported as dBC.
Table 3-1: Dosimeter parameters and definitions (continued
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Views on the Edge
Definitions of data log values and views
Views on the
Edge
Explanation
Memory storage symbol –
eg4: The eg4 model displays the total memory storage
remaining in hours and minutes. For example, if it displays the
memory symbol 181:50 this represents 181 hours and 50
minutes of memory storage remaining on the dosimeter.
eg3: The eg3 model displays the memory by indicating the
remaining number of studies it will store into memory. For
example, if the eg3 displays “50” this indicates you can store 50
studies on the dosimeter. (Note: the difference is because the
eg3 model does not data log.)
Calendar symbol– The calendar symbol and calendar field
displays the day-month-year
Battery power clock symbol – The battery power clock
symbol identifies the number of hours and minutes of battery
time remaining on the dosimeter.
Table 3-1: Dosimeter parameters and definitions (continued)
Edge Measurement descriptors/variants
The following is an explanation of the Edge descriptors and equivalents for Lmax, Lmin, & Lpk.
Descriptors
Variants
Lmax variants
Sound pressure level - is the basic measure of noise loudness, expressed
in decibels. (In DMS this is noted as “SPL”)
LASMX
Maximum sound level- is the highest sound level recorded during a
measurement interval with a particular response setting (Slow or Fast) and
weighting (A or C). LMax is the highest value that is included in LAvg or
dose calculations.
Under OSHA regulations, unprotected workers may not be exposed to
maximum sound levels greater than 115 dB, measured with a Slow
response rate.
LCPK
Peak Level - is the highest instantaneous sound pressure level recorded
during a measurement interval. Unlike the maximum level, the peak is
detected independently of dosimeter settings for response rate or weighting.
Under OSHA regulations, unprotected workers may not be exposed to peak
sound levels greater than 140 dB.
LASMN
Minimum sound level - The lowest sampled sound level during the
measurement interval allowing for the unit’s Response Time setting (Fast or
Slow).
Table 3-2: Dosimeter measurement descriptors/variants
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Docking
Communicating & downloading data
By using your docking station, USB cable, software, and your dosimeter, you can quickly
communicate between the software and the dosimeter. There are two methods for
communicating which are:
Send setup data: Enables you to configure your set-up parameters in 3MTM Detection
Management Software and download these parameters to the Edge.
Retrieve data: you have the capability to retrieve the data from the dosimeter into
DMS in order to view and analyze your studies in DMS’ charts, graphs, and reporting
functionality.
How to connect your dosimeter to the computer
1. Dock the dosimeter on the EdgeDock1 (or 5) and turn on the dosimeter by
pressing the
button.
2. Plug the USB cable into the computer. (See “A” in Figure 3-4).
3. Plug the opposite end into the docking station (See “B” and “C”).
NOTE: The docking station will be powered through the computer; thus, it is not
required to attach the charger adapter. If you wish to charge the dosimeter, plug in the
charger adapter. (Please see Charging for more information.)
C
A
B
Figure 3-4: Communicating - connecting a docked Edge to a pc
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Docking Customizing set-up parameters in DMS
Communicating & downloading data
4. For first time use of a docking station, Welcome to the found new hardware
wizard will appear (see Figure 2-8). Select No and press Next through the
remaining wizard. At the end of the wizard, press Finish.
This will install the hardware components associated with your EdgeDock1 and/or
EdgeDock5.
NOTE: If you have more than one EdgeDock1 or EdgeDock5, this wizard will
appear for each new dock which is connected to your pc.
Figure 3-5: New Hardware wizard for Edge Dock
Customizing and saving set-ups are performed via DMS. The following sections discuss each
of the setup screens and explain how to save and send the parameters to the dosimeter(s).
NOTE: The following DMS settings apply to the eg4 model. If you are also using other models
such as the eg3/eg4 and have them docked in a 5-bay charger, they will appear in the “Edge
Bay Charger” tree section. If you are also using other models (eg5) and have them docked in
a 5-bay charger, they will appear in the “Edge Bay Charger” tree section with a
icon. To
select Edge 5 models, first select the Model (on the left-hand panel) and then click the refresh
button. The instruments are selected by clicking in the checkbox(es).
Example of EdgeDock-5
with Edge 4 selected in the
first bay.
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Customizing set-up parameters in DMS
Dosimeter setting
The Edge general settings are used to setup the instrument with basic parameters. The eg4 model
features two virtual dosimeters in one with two customized, user-defined settings. Please refer to
the Edge dosimeter settings table below for an explanation of setup details.
1. Click on the Dosimeter tab from the Edge’s Instrument Configuration panel (see 1). To change
the dosimeter settings, follow one (or all) of the selection options below.
Click on the checkbox
and/or the Meter 1/Meter 2 Threshold settings.
to enable the dosimeter (LED) heartbeat, Dose indicator LED,
Click in the circular button to select the response time (fast or slow), peak weighting (C or
Z), and/or RMS Weighting (A or C).
To set the numeric fields either type in a value or use the arrows to enter appropriate
values for the Meter1/Meter 2 settings (threshold, upper limit, exchange rate, criterion level,
and RMS weighting).
2. When Meter 1 and Meter 2 settings are “enabled”, this will log (for eg4 model only) two different
setups simultaneously. Typically, users will set the meter 1 and meter 2 with different regulatory
or local standards (such as EU directive and OSHA).
1
Dosimeter settings
explained in the
Edge dosimeter
settings (below).
Figure 3-6: Dosimeter screen
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Customizing set-up parameters in DMS
Dosimeter setting
Dosimeter settings for the Edge
Heartbeat enable
Name Field
*Note: refer to Glossary for more detailed information.
When enabled (or checked), the LED will flash green while running
and flash amber when stopped.
Response
Either Slow Time Response or Fast Time Response is applied to
the measurements. (Typically Slow time response is used in the
US market while Fast is used in the EU communities.)
When enabled (or checked), C minus A will be calculated.
A selectable time parameter via the up/down arrows or type in a
value. The projected time value is used to make projected dose
calculation for the dose measurement.
C-A enable
Projected Time
Peak Weighting
Select either A, C or Z for the peak frequency weighting.
Dose indicator LED
When enabled (or checked), the LED will flash red when the dose
value exceeds the designated entered value.
Setup name
(Optional field) A setup name may be entered into the Meter 1
and/or Meter 2 fields. When set, it appears on the top of Edge’s
display (example setup names: OHSHA, MSHA, EU directive).
When the checkbox is selected and a value is entered for meter 1
and/or meter 2, the threshold is used to calculate Lavg, TWA, and
Dose measurements.
Select a UL dB level by the up/down arrows or by typing in a value.
(Note: The upper limit (UL) is a measurement setting in which the
user selects a specific decibel level. The UL value records the
amount of time that the Sound level is at or greater than the
entered level.)
Threshold enable
Upper Limit
RMS Weighting
Criterion Level
Select either A or C RMS Weighting. (Note: The RMS (root mean
square) are the results from the Edge with the response time and
weighting settings taken into account.)
Select a Criterion level via the up/down arrow or by typing in a
value. (Note: Criterion level is the average SPL that will result in
100% dose over the criterion time and is typically set by a
regulatory agency such as OSHA, EU directive.)
Exchange Rate
Enter in (or select with up/down arrows) 3, 4, or 5 dB. ER refers to
how sound energy is averaged over time. (OSHA uses a 5 dB
doubling rate while most of the world uses 3 dB.)
Table 1-2: Dosimeter fields explained for the Edge
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Customizing set-up parameters in DMS
Display setting
The display screen is used to customize the parameters which will appear on your Edge. It is organized
by two columns, the “Display position” and the “Item to Display” and includes a “Set selected Items”
selection/drop down box. The display position indicates the order of the parameter (or item) which will
appear on the display, while the “Item to display” designates the measurement or parameter. The
example/figure below displays the SPL, Max, Min, Lavg, TWA, Dose, UL, RT, and battery time remaining
parameters to appear on the display. (Note: There are up to 18 selectable parameters. Off indicates no
item will appear.)
1. Click on the Display tab from the Edge’s Instrument Configuration panel (see 1). To customize the
display, click on either the Display position (see 1) or the Item to Display field (see 2). The field will
be shaded in blue when selected.
2. Click on the drop down box of the Set Selected Item field (see 3) and select a parameter (see 4).
3. Repeat these steps as needed to select each position.
NOTE: “OFF” indicates that no item/parameter is selected.
1
2
3
4
4
Figure 3-7: Edge display screen
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Customizing set-up parameters in DMS
Security setting
The security setting is a type of “locking” feature (or secure run feature) that enables you to password
protect the instrument to prevent users from inadvertently terminating a study. Initially, this feature is set
through the software and turned on once in run mode by pressing run/stop key three consecutive times.
(To unlock, press run/stop key three consecutive times and then press power key.) To set this feature,
please follow the steps below.
1. Click on the Security tab from the Edge’s Instrument Configuration panel (see 1). To enable, click on
the Enabled check box. (Ensure the specific Edge is selected and communicating to the software.
See “Communicating and downloading” for more information.)
2. Next, select either Not Displayed (see 2) or Displayed (see 3) for the measurement visibility.
Note: if measurement visibility is set to “not displayed” then a padlock icon appears on the Edge
display. If displayed is selected, the measurements appear with a small padlock in the header
section of the display indicating the instrument cannot be stopped during a run while in secure run
mode.
3. Click the
configurations”.)
button to set the security setting (for more details, see “Saving and sending
1
2
3
Figure 3-8: Edge security setting
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Customizing set-up parameters in DMS
Auto Run setting
With the Edge auto run setting, you may program up to two auto start and auto stop configurations when
start date and duration parameters are enabled. This may be useful if you wish to pre-set the
instruments to run and stop for a specific time period, such as a week long study. See steps below to
enable.
1. Click on the Auto Run tab from the Edge’s Instrument Configuration panel (see 1) and click in the
Enable auto run mode checkbox (see 2).
2. To program Date 1, click in the Enabled checkbox and select a Start Date (by using the calendar
icon or type in a date). Select the Duration, by either typing in the time (designated in hours,
minutes, and seconds) or using the up/down arrows (see 3). (Repeat this step to setup a second
Auto run mode, except select Date 2. See 4.)
3. Click the
configurations”.)
button to set the auto run setting (for more details, see “Saving and sending
1
2
4
3
Figure 3-9: Edge auto run screen
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Customizing set-up parameters in DMS
Firmware update
Edge firmware updates are performed in DMS when the instruments are docked, communicating, and
the update key is selected. Please follow the steps below prior to updating your Edge(s). Note: this
feature enables you to update all of your docked Edges (when powered on and not in run mode).
1. Click on the Firmware tab from the Instrument Configuration panel (see 1) and ensure to dock the
Edge (or Edges) . Please read steps under “Firmware Update” prior to updating (see 2).
Press
button to refresh the docked instruments (if necessary).
2. Press the
message,
button and please wait until the software states that it is Done. (Example of the
See 3).
1
2
3
Figure 3-10: Edge firmware update screen
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Customizing set-up parameters in DMS
Saving and sending/setting configurations
With the Edge, there are saved setup profiles used to quickly access and apply to The Edge(s). Below
explains how to save configuration settings in DMS and how to send/set to the instrument. Note: if you
wish to only send the setup, please skip to step 3. Please refer to this section as you setup your
instrument.
1. To save the Edge configuration in the software, click on a name in the Configuration Profile
Management panel (See 1). Note: The name will be shaded a light gray when selected.
To create a new profile name, click
under the configuration profile management panel).
and type in a profile name. Click Save. (It will save
2. Click on the
button (see 2) and type in a Name. Click Ok.
Note: This saves the configuration file in the software.
Or click button and rename the setting by typing in a name. Click Ok.
3. To send to the instrument, select the
(see 3).
1
2
3
Figure 3-11: Saving and sending Edge setups
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31
Overview of running a study
4
Running and operating
your dosimeter
The focus of this chapter is to discuss the procedures for running and operating the Edge and
includes positioning, calibrating, and viewing the Edge measurements.
The list below is a brief overview of the steps for running a study.
Quick Help List: typical dosimetry session
1. Turn the dosimeter on and check your battery power.
2. Reset the dosimeter.
3. This will clear out all of the data history before your study begins to ensure you have
sufficient memory space on the Edge.
4. Set-up your study parameters via DMS.
5. Calibrate the dosimeter.
6. Attach the dosimeter for your personal noise study.
7. Press the Run/Stop
button to start the study.
8. When you are ready to end your study, press the Run/Stop
button to stop the study.
9. Review your results either on the meter or download to DMS for further analysis
(graphs/charts, saving and printing).
Figure 4-1: Quick help list for running a study
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Overview of running a study
Positioning the Edge on your shirt
Depending on what accessories you ordered with the Edge, you may have either clips on the top
and bottom of the dosimeter or some other type of mounting device. (Please refer to Appendix
A, “Contacting 3M Quest”, page 59).
How to attach the dosimeter
1. Clip the dosimeter on your shirt and ensure the microphone is positioned as high on your
shoulder as possible and away from your neck.
a. If the noise seems to come from one direction, place it on the shoulder and near the
noise source.
b. During monitoring, keep clothing from coming into contact with the windscreen to avoid
contaminating your results.
Positioning
Figure 4-2: Positioning/Attaching the Edge
Before measuring, ensure the windscreen is free from any accumulated dirt. If you ordered a kit
(as explained in Chapter 2), there are replacement windscreens in the carrying case for your
convenience. Please refer to Figure 6-1, on page 50 for details on replacing the windscreen.
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Overview of running a study
Checking battery power
Typically, the life of the battery is approximately 60+ hours (see Appendix A for specific
specifications). The dosimeter can be charged at any time by using your EdgeDock.
There are two battery identifiers on the dosimeter which are the battery indicator icon and the
battery power clock (see Figure 4-3).
Checking battery power
1. The battery indicator icon (located at the top right of your screen) gives an approximation of
battery life and is always present.
If the battery indicator is half shaded, this illustrates you have approximately 30 hours of
battery life remaining.
If lobat appears, less than 8 hours of run time is available.
2. Additionally, there is a battery time remaining measurement which identifies the number of
hours and minutes remaining on the dosimeter.
3. To view, press the up/down arrows
dosimeter.
. This will navigate your through the views of the
NOTE: The battery time remaining measurement can be disabled from the view of the
meter. See Chapter 3 for explanation on changing the display.
Battery indicator icon
When fully shaded, this
indicates full battery life.
Battery time remaining
Figure 4-3: Battery indicators
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Overview of running a study
Calibrating
3M Quest Technologies recommends to calibrate your dosimeter before you run your study(ies)
and after your study(ies) to ensure highly accurate measurement results. The steps below
address how to calibrate for either a pre or post calibration.
Calibrating the dosimeter
1. Remove the windscreen from the dosimeter by unscrewing it. (See Figure 6-1 for an
illustration, page 50.)
Off” page 9).
3. Slide the Edge into the mouth of the calibrator.
NOTE: ensure the adapter ring is inserted into the mouth of the calibrator before you slide the
Edge into the cavity.
4. Turn on the calibrator and ensure parameters are set to 114 dB and 1000 Hz. (See calibration
manual for operation details.)
“CAL” flashes
Figure 4-4: Calibrating
5. “CAL” will flash on the display when detected.
6. Press the on/off enter
button to trigger the calibration display.
7. To match the values on the calibration display, press repeatedly the up or down arrow in
order to select the exact output on the calibrator (i.e., 114 dB).
8. When you have selected the appropriate dB level, press the on/off enter
A shaded bar will appear loading your calibration information. Then a summary calibration
screen will appear indicating the db level with date and time displayed.
9. To return to the measurement view screen, press the on/off enter
10. To end the calibration steps, turn off the calibrator. Detach the dosimeter from the calibrator.
button.
.
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Overview of running a study
Resetting the dosimeter
The Edge can be reset through the dosimeter keypad or via QSP-II. The steps below outline how
to reset your dosimeter.
Reset
1. Ensure the meter is Off.
2. Turn the meter on by pressing the on/off enter
button.
3. When the splash screen appears, press and hold the run/stop
and on/off enter
buttons until the splash disappears.
Edge Splash screen
Figure 4-5: Splash screen
4. The Setup menu appears on the Edge. Press the up or down arrow to select the reset icon
(symbol).
NOTE: Setup menu is used to reset the dosimeter, change the contrast, and return to the
main view.
Arrows and enter key
Indicates the valid keys
are selected
Reset icon
Checkmark icon
Is the selection to
exit the setup menu
Figure 4-6: Resetting the Edge from the keypad
5. Press and hold the on/off enter button.
A 3, 2, 1 countdown will appear, and then a shaded bar will appear indicating the dosimeter is
being reset.
6. Press the down arrow until the checkmark icon is selected (denoted by the arrows). Then,
press the on/off enter button to return to the measurement view screen.
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Overview of running a study
Setting contrast on dosimeter
Contrast
1. Ensure the meter is Off.
2. Turn the meter on by pressing the on/off/enter
button.
3. When the splash screen appears, press and hold the run/stop
and on/off enter
buttons. (See figure 4-5 for splash screen).
4. The Setup menu appears on the Edge. Repeatedly press the arrow key until the Contrast
symbol is selected.
NOTE: Setup menu is used to reset the dosimeter, change the contrast, and return to the
main view.
Arrows and enter key
Indicates the valid keys
are selected
Contrast icon
Checkmark icon
Is the selection to
exit the setup menu
Figure 4-7: Changing the contrast from the keypad
5. Next press the on/off enter button.
6. A number will appear on your display (i.e., 50). Press the up or down arrow to increase or
decrease the contrast of the Edge.
7. Press on/off enter
button to accept the new contrast value.
8. To return to the measurement view screen, press the down arrow and press the
on/off/enter
button.
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Running studies
Starting a run
With a couple pushes on the keypad buttons, you will be running and viewing your study (ies).
Following your study (ies), you can load the data/files into QSP-II to manipulate, analyze, save,
and create reports (See Chapter 5 for viewing your logged data in QSP-II).
How to run a noise study
1. If your dosimeter is turned off, press the on/off enter
2. Press and hold the run/stop button.
button to power on.
A 3, 2, 1 countdown will appear.
3. When running, the following will appear:
A run indicator will appear on the top-right side.
The LED indicator will flash green (unless you disabled this in DMS.)
Flashing green LED
indicates running
Battery indicator
Measurements
Run indicator
Appears when running
Use up/down arrow
to move through
values.
Views are
customizable via
QSP-II setup
Figure 4-8: Display screen while running
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Stopping a study
Indicators/Icons on the display
While the dosimeter is running, you can end the study by pressing and holding the stop button.
How to stop a noise study
1. While running, press and hold the run/stop
button.
a.
b.
A 3, 2, 1 countdown will appear.
The stop indicator will be shown in the display.
The Edge is equipped to notify you of operational/status updates. These indicators (or alert
notices) are located on the top right-hand side of the screen. Table 4-1 explains the function of
each indicator.
Indicator Icon
Explanation
Stop – indicates the dosimeter is currently in
the stop status (opposed to run).
Run - indicates the dosimeter is currently
logging a study.
Battery charge status – When completely
shaded in black, this indicates full battery
power. If half shaded, this represents ½ battery
power
OL
Overload –will appear whenever the input
signal exceeds the range of the dosimeter.
Table 4-1: Indicators (i.e., run, stop, battery, and OL)
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Viewing measurements on the display
Locking or securing your dosimeter during run
The up/down arrows on the keypad of the dosimeter enable you to move through the
various measurements. For specific information on the views of the Edge, please see
Viewing measurements
1. Press the
or
arrows. This will move you through the views on the display.
NOTE: If you enabled only one measurement to appear on the display, when you
press the up/down arrows it will not show any other measurement values. (To enable
additional measurement settings, see the “Edge Display Screen”.)
Measurement views
on the Edge
Figure 4-9: Measurement view on the Edge
As explained previously under DMS set-up parameters, the security or lock feature is
designed to lock the meter during run to ensure the study will not be stopped unless the
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Viewing measurements on the display
Locking or Securing
How to lock or secure
1. Turn the dosimeter on and press the run/stop
button to begin logging your study.
2. To enable the lock, press run/stop
button three consecutive times within one
second intervals.
The Lock screen will appear.
Key indicator
Indicates dosimeter is
locked while running.
Padlock icon
Secure all
Figure 4-10: Locking/Securing run
NOTE: If lock/secure run does not activate, please check that locking is set-up on your
dosimeter. Please see “How to set-up secure/lock”, page 30 for further details.
How to unlock
1. To unlock, press run/stop
button 3 consecutive times, within one second
button.
intervals, and then press the on/off enter
a. If the padlock icon and the key indicator were on the screen, these will vanish and
the measurement view will appear along with the run indicator.
b. If you enabled the lock feature (with the key indicator showing and the
measurement view showing), then the key indicator will disappear.
2. To stop your study, press the on/off enter
button and the 3, 2, 1 will display as it
ends the study.
a. To download and view your results in DMS, please see Chapter 5.
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CHAPTER
Viewing measurements on the display
Downloading data
41
5
The focus of this chapter is to discuss how to view your studies with the 3MTM Detection
Management Software (DMS). The first section explains how to retrieve your studies from the
dosimeter, and the subsequent sections will then walk you through viewing, organizing, and
customizing your stud.
NOTE: You have the option of ten different languages in DMS including: Chinese (Simplified),
English, French, German, Italian, Korean, Portuguese, Japanese, Russian, and Spanish.
Loading your studies entails communicating, downloading the sessions/studies (files) and viewing
the files in the data finder page, charts and graphs, and/or report views.
Downloading
1. Ensure DMS is downloaded.
Follow the install directions on the CD or visit the website.
2. Dock the dosimeter (s) and connect it to your pc using the USB cable.
Figure 5-1: Communicating between your pc and the Edge
3. Power on the Edge by pressing the
button. (Note: the Edge will only download and
icon on the top of the screen.)
communicate when stopped, as indicated by
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Viewing measurements on the display
Downloading data
42
4. In DMS’ start screen, choose
.
Download
Figure 5-2: DMS start screen
5. Select Noise Dosimetry (see 1), Edge (see 2), and Edge 3-4 (see 3) from the family panel.
6. Select the docked Edge (s) to download by clicking in the checkboxes by the EdgeDock-5
section(see 4).
Optional: click to view files
(sessions/studies) after
download
4
1
Noise
Dosimetry
2
Edge
Download button
EdgeDock-5 example
Click in the Edge checkboxes to
download specific dosimeters
3
Edge 3-4
Figure 5-3: Downloading with the Edge models eg3/eg4
7. Click
button.
In the status field, it will state download is successful.
Then, a clear the memory prompt will appear. Click yes to clear the memory or click no if you
wish to save the data on the dosimeter.
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Viewing measurements on the display
Viewing data and data finder page
43
8. The sessions (files) will load and post to the Data Finder page under Family: Noise Dosimetry
heading.
Quick tip: click on the
family. Click on the file and select either
button and the data files will post directly under the specific
to view in charts and graphs.
1
Example of
data file in
recent view
Figure 5-4: Recent downloaded data
After the data is downloaded, it is stored and viewable in the data finder. With a quick double-click,
the information is viewable in customizable graphs and/or charts.
Selecting and viewing data
1. In the Data Find page (see 1), select the Noise Dosimetry data (see 2) by clicking on either the
session/study (Note: you may need to expand to see the study data.)
Once selected, it will appear with a blue shading.
2. Optional: To reorganize the data displayed in the data finder columns, click drag and drop the
titles of the columns in different positions. To shrink/expand the columns, click and drag the
black column divider(s). (Note: these methods are similar to positioning/expanding in Excel.)
3. To view in Graphs and Tables, click on
or
buttons.
1
Data headings (optional: drag, drop
and/or expand columns to view data)
2
Selected
Edge data
Analyze button
Quick Report button
Figure 5-5: Data Finder page with the downloaded data
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Viewing measurements on the display
Report View
44
The
button provides a quick link to view/print the Edge data. To customize the data,
refer to the next session, panel view page.
Click
to print the report.
Edge, logged data
chart displayed in
DMS report (scroll
through to view the
online report if
applicable).
Figure 5-6: Example of Edge Report in DMS
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Viewing measurements on the display
Panel Layout View(charts/graphs)
45
When you are in the data finder page (see above), select either the Analyze button or double-click on a
session/study to view the data in charts and graphs as displayed in Figure 5-7. The measurements and
parameters will be displayed in charts and graphs which may be customized for analysis and/or reporting
purposes.
1. In the panel layout view page, it is divided into Work Items (see 1), Add panel (see 2), Arrange Panels (see
3) and data panels (see 4).
Work items (1) – select either the session or study (in order to view appropriate measurement/parameter data).
Add panel (2) – double-click on a chart/table type and it will appear as a panel on your screen.
Arrange panels (3) – displays the order of the sessions/studies displayed in the panel section of your screen.
Data Panels (4) – used to view your measurement and/or parameters from your study. Note: use the menu bar icons
and/or configure icon to customize parameters.
4
4
1
3
Configure
Active cursor
4
Figure 5-7: Panel layout view (viewing the data in charts and graphs)
To stretch the graph, click on one the corner’s edge of a chart or table and drag the mouse. The graph will expand and
widened (depending on how you drag your mouse).
To move the graph, click drag and drop to the appropriate panel position.
To change ranges, when clicking on either the x-axis or y-axis, click and drag the mouse until the appropriate range is
selected. (Note: it will span the numbers up or down depending on how you drag the mouse.)
To add labels, click on the add labels
text and press the Enter key (on your keyboard). To move the label, left-click and hold to drag to appropriate location
on graph.
icon. Right-click and select edit text to add note/label on the chart. Type in
To customize chart colors, click on the
icon and using the properties box, select different colors as needed.
or icons.
To customize x or y axis font type, click on these
To export data to .xls file, click on the export
To save a layout, right-click outside the tables/graphs area as displayed below. Click Remember Setting.
icon.
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CHAPTER
46
Technical Support
LED indicator: disable/enable
6
Technical Support
Some users may prefer to turn off the LED indicator.
To disable this feature, open QSP-II and select the Setup button. On the
dosimeter tab, under Dose% indicator LED uncheck the following:
Alarm Enable
Alarm enable: Will disable the flashing red LED when the threshold entered
exceeds the designated value during run mode. (If checked, red LED will flash.)
Heartbeat enable: Will disable the flashing green LED the dosimeter is running.
(If checked, a green LED will not flash.)
NOTE: For more information, see section on Dosimeter Settings, page 25.
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Replacing microphone and windscreen
Attaching/Detaching
47
The Edge features a field replaceable microphone and a screw-on removable windscreen.
3M Quest suggests that the user replace the windscreen whenever dirt has accumulated on
the windscreen prior to measuring data.
NOTE: If you ordered an Edge kit, extra windscreen(s) will be included in your case.
Attaching/Detaching the windscreen and microphone
1. First, unscrew the windscreen by turning the red ring (not the foam!) in a
counterclockwise direction.
2. If you are replacing the windscreen, screw on a new windscreen in a clockwise
direction until it fits firmly.
3. To unscrew the microphone, turn the microphone in a counterclockwise direction until
it is removed.
4. To attach a new microphone, screw the microphone on clockwise until it fits tightly.
The following diagram illustrates how to assemble these two devices.
Microphone (see procedure 2)
Windscreen (see procedure 1)
Figure 6-1: Microphone and windscreen assembly
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48
Technical Support
Hard Hat Attachment Kit
The following instructions explain how to assemble and attach the hard hat kit to a
standard hard hat.
A
B
Hard Hat Attachment kit
A. Epaulette mount
B. Hard hat mount
1.
Using a 3/32” hex wrench, twist the top shoulder bolt counterclockwise to loosen and remove
the bolt and the clip. Also, remove the bottom clip with the hex wrench. Once the bottom clip
is removed, place the shoulder bolt back into its place and tighten back up with the hex
wrench.
Shoulder bolt
Hex wrench
2.
3.
Place the epaulette mount (see “A” above) into the top bracket of the Edge. Then slide the bolt
into place and tighten with a hex wrench. Then, the epaulette mount snaps onto the bottom
shoulder bolt.
Shoulder bolt
Epaulette
Slide the two prongs of the hard hat mount (see “B” above) underneath the epaulette mount
(see “A above) until it clicks into place.
Hard hat mount
attachment (The two
prongs slide into the
bottom cavity.)
4. Taking the Edge with the assembled hard hat attachments, slide into the side of hard hat. It will
fit snuggly into the hard hat opening.
Slide the two-sided prongs into
the hard-hat opening.
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APPENDIX
49
Appendix A
A
SPECIFICATIONS
**All specifications subject to change
Pending testing approvals on the following:
ANSI S1.25, IEC61252 Standards for Personal Sound Exposure Meters.
Lead Free (RoHS compliant).
Housing
Size
Plastic case with black, gray check background and red outlined buttons.
3.5” long x 2.1” wide x .75” thick (without microphone)
(88 mm long x 53 mm wide x 19 mm thick)
Weight
2.5 oz (less mounting device); (70.87 gr)
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50 Appendix A
Life
Approximately 60+ hours of continuous operation at
normal operation under reference to environmental
conditions when full capacity batteries are installed.
Type
Lithium Polymer (Flat cell)
Memory capacity
180 hours
The typical time interval needed to stabilize after changes in environmental conditions is 5 minutes for each
10 C change.
Operating
+14 ºF to + 122 ºF (-10 ºC to + 50ºC).
-13 ºF to + 140 ºF (-25 ºC to + 60 ºC).
0 to 95% Non-Condensing
Storage
Humidity Range
Size: 128 X 64 graphic
4 keys Up arrow, down arrow, run/stop, on/off enter.
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51 Appendix A
EdgeDock1 and EdgeDock5 are powered by a 12-volt charger adapter with international plug
adapters. The backside of the Edge slides into the hook of the EdgeDock1 or EdgeDock5 with the
mounting clasps rotating to a 90 degree angle (which will rest on a table/work area). Additionally, the
EdgeDock1 (or EdgeDock5) are equipped with two single screw slots for wall mounting purposes.
LED amber indicator
Indicates EdgeDock1 or EdgeDock5 is
“powered on”. (Lower of the 2 shown led’s).
LED Red indicator and
LED Green indicator
Signifies status of charging. Flashing red
indicates charging. Solid green indicates
charging is complete.
Size of EdgeDock1
2.75” x 2.75” x 2.2” (6.99 cm x 6.99 cm x 5.6 cm)
2.75”
2.75”
2.75”
Size of EdgeDock5
12.75” x 2.2” x 2.75” (32.29 cm x 5.08 cm x 6.99 cm)
2.75”
12.75”
2.2”
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52
Appendix A
Displayed Data and
status indicators
SPL, Average value (Lavg or Leq), Maximum value (Lmx), Minimum value (LMn),
Peak Value (Lpk), Exposure, Run Time, TWA, UL Time
Dosimeters
Up to two dosimeters at once (eg4), each with its own assignable profile
(via QSP-II only).
RMS Range
70 to 140 dB
RMS Weighting
RMS Time Response
Exchange Rate (ER)
Peak Range
A or C weighting
Fast or Slow
3 dB, 4 dB, or 5 dB
110 dB to 143 dB
Peak Weighting
Criterion Levels
C or Z weighting
70 to 90 dB in 1 dB increments
Threshold
70 to 90 db in 1 dB increments
70 to 140 dB in 1 dB increments
Upper Limit (UL)
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53 Appendix A
Calibration
Pre-calibration
Post-calibration
Storage
When performed, valid prior to the start of the study.
When performed, valid for the previous study.
Calibrations for a study are stored in the related study file.
Calibrations should be performed at 114 dB at 1kHz.
Calibrator requirement
The Edge communicates via the EdgeDock1 and/or the EdgeDock5. Communications is
supported via USB cable from the docking station to the PC.
Security
Key sequence protection through the keypad when running.
Auto-Run
May be programmed via QSP-II.
Logging (eg4 only)
The eg4 is a dual dosimeter with data logging which includes Lavg or Leq(1/2), Max level,
and Peak level.
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56 Appendix A
3M Quest Service
Should your 3M Quest Technologies equipment need to be returned for repair or for
recalibration, please contact the service department at the following number or access the
online form via the website. For technical issues, please contact Technical Support.
Service Department and Technical Support: 1 (800) 245-0779.
Fax: 1 (262) 567-4047. Office hours are 8:00 a.m. to 5:00 p.m. United States Central.
International customers
Contact your local, factory-authorized distributor from whom the product was purchased. You
can obtain the name and contact information of your local factory-authorized distributor from
Quest by using the e-mail, telephone, or fax information given under “Contacting 3M Quest
Technologies” above.
3M Quest Technologies warrants our instruments to be free from defects in materials and
workmanship for one year under normal conditions of use and service. For United States
customers, we will replace or repair (our option) defective instruments at no charge, excluding
batteries, abuse, misuse, alterations, physical damage, or instruments previously repaired by
other than 3M Quest Technologies. Microphones, sensors, printers, and chart recorders may
have shorter or longer warranty periods. This warranty states our total obligation in place of
any other warranties expresses or implied. Our warranty does not include any liability or
obligation directly resulting from any defective instrument or product or any associated
damages, injuries, or property loss, including loss of use or measurement data.
For warranty outside the United States, a minimum of one year warranty, applies subject to the
same limitation and exceptions as above with service provided or arranged through the
authorized Quest distributor or our Quest European Service Laboratory. Foreign purchases
should contact the local Quest authorized sales agent for details.
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APPENDIX
57 Appendix B
Glossary of Terms
B
Background Noise, effects of
Background noise can cause considerable error in measurement when its level is high relative to the
level of a noise source of interest. If you can make measurements both with and without the
contribution of a noise source of interest, you can mathematically subtract the background noise from
the combined measurement, yielding the level of the noise source of interest alone. The accuracy of
this determination improves as the difference between the two measurements increases.
To remove background noise
1. Obtain a measurement that includes the contribution of the noise source of interest (the
combined measurement).
2.
Make a second measurement under exactly the same conditions as in Step 1 but without the
presence of the noise source of interest (the background noise measurement).
3. Determine the decibel difference between these two measurements.
4. Find that difference on the x-axis of the figure below.
5.
Find the point on the curve directly above this difference.
6. Read the corresponding value on the y-axis for that point (the correction value).
7. Subtract the correction value from the combined measurement.
Example: Measurements with and without the noise source of interest are 91 dB and 90 dB,
respectively. For a difference of 1 dB, the background noise correction value is 7 dB. Therefore the
level for the noise source of interest without the noisy background is 84 dB.
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58 Appendix B
Glossary of Terms
Combining Noise sources
Because sound levels are measured in decibels they cannot be simply added together. A sound level of
90dB plus 90dB does not yield 180dB but rather 93dB. The procedure for mathematically determining
a combined level of sound from independent measurements made for two noise sources is given
below.
1. Make independent measurements for both noise sources, where each exists without the
presence of the other.
2. Determine the decibel difference between these two measurements.
3. Find that difference on the x-axis of the figure below.
4. Find the point on the curve directly above this difference.
5. Read the corresponding value on the y-axis for that point (the Amount to Add).
6. Add this value to the larger of the two measurements.
Example: Independent measurements for the two noise sources yielded levels of 90 dB and
91 dB. For a difference of 1 dB, the correction factor taken from the curve below is 2.5 dB.
Therefore the combined level when these two sound sources are present in the measurement
area at the same time 93.5 dB.
Crest Factor
Crest Factor is the ratio of the instantaneous peak value of a wave to its RMS value. This is
a performance specification of a meter’s ability to process signals that have peaks that are
substantially higher than their RMS averages.
Criterion Level (CL)
Criterion level is the average SPL that will result in a 100% dose over the Criterion time,
usually 8 hours. The Criterion Level is typically set by a regulating agency, such as OSHA,
and is not usually applicable for community noise monitoring. Examples: OSHA mandates
the Criterion Level (maximum allowable accumulated noise exposure) to be 90 dB for 8
hours. For an 8-hour sample, an average level (LAVG) of 90 dB will result in 100% dose.
For the OSHA HEARING CONSERVATION AMENDMENT, the “action level” is 85 dB for 8
hours. This would result in a 50% dose reading. Note that the Criterion Level has not
changed. (If the Criterion Level were changed to 85 dB then an 8-hour average of 85 dB
would result in 100% dose.)
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59 Appendix B
Glossary of Terms
Criterion Time
The time over which the Criterion Level is established, generally 8 hours.
Decibel (dB)
Sound Level Meters use the decibel as the unit of measure known as Sound Pressure Level (SPL). SPL
uses the ratio between a reference level of 20 microPascals (.00002 Pascals) and the level being
measured. SPL = 20 log (measured level/reference level). Example: the SPL for 1 Pascal is 20 log (1
Pascal/.00002 Pascal) = 94dB 20 microPascals (.00002 Pascals) is considered the average threshold of
hearing. A whisper is about 20 dB. A normal conversation is typically from 60 to 70 dB, and a noisy
factory from 90 to 100 dB. Loud thunder is approximately 110 dB, and 120 dB borders on the threshold
of pain.
Dose
Related to the Criterion Level, a dose reading of 100% is the maximum allowable exposure to
accumulated noise. For OSHA, 100% dose occurs for an average sound level of 90 dB over an 8 hour
period (or any equivalent exposure). By using a TWA reading rather than the average sound level, the
time period is no longer explicitly needed. A TWA of 90 dB is the equivalent of 100% dose. The dose
will double (halve) every time the TWA increases (decreases) by the Exchange Rate. Example: OSHA
uses an Exchange Rate of 5 dB. Suppose the TWA is 100 dB. The dose would double for each 5 dB
increase over the Criterion Level of 90 dB. The resulting dose is therefore 400%. If the TWA was
instead equal to 80 dB then the dose would halve for each 5 dB below the Criterion Level. The
resulting dose would be 25%. When taking noise samples less that the full workday, dose is an easy
number to work with because it is linear with respect to time. Example: If a 0.5-hour sample results in
9% dose and the workday is 7.5 hours long, then the dose for the full workday would be a 135% dose
(7.5 / 0.5 x 9%). This is computed making the assumption that the sampled noise will continue at the
same levels for the full 7.5-hour workday.
Exchange Rate (ER – also known as the Doubling Rate)
Exchange rate refers to how the sound energy is averaged over time. Using the decibel scale, every
time the sound energy doubles, the measured level increases by 3dB. This is the 3dB exchange rate
that most of the world uses. For every increase of 3dB in the time weighted average, the measured
DOSE would double. Some organizations such as OSHA in the U.S. have argued that the human ear
self compensates for changing noise levels and they felt that the 3dB exchange rate should be changed
to more closely match the response of the human ear. OSHA currently uses a 5dB exchange rate,
which would mean that the reported DOSE would double with every 5dB increase in the time weighted
average. The exchange rate affects the integrated reading LAVG, DOSE, and TWA but does not affect
the instantaneous sound level.
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60 Appendix B
Glossary of Terms
Field Calibration (vs. Factory Calibration), pre-calibration, post-calibration
To be sure the dosimeter is functioning within specified tolerance limits, it should be returned to the
factory annually for a factory recalibration. To verify that the dosimeter is measuring properly during
normal use, field calibrations should be performed. Pre-calibration is performed prior to any data being
recorded by the dosimeter. During a pre-calibration, the dosimeter level may be adjusted to match the
calibrator output level. Post-calibration is a simple verification that the instrument has remained in
calibration throughout the measurement period.
Free field setting (microphone)
Measurements made in an area without sound reflections, diffractions and absorptions caused by
nearby objects (including the operator). Sound waves are free to spread out continuously, like ripples
on a pond, without reflection. When making free field measurements with a dosimeter set up for use
as a sound level meter, the microphone is typically pointed directly at the sound source.
Hearing Conservation (HC)
The Occupational Safety and Health Administration (OSHA) and Mine Safety and Health Administration
(MSHA) provide regulatory standards for hearing conservation programs. In addition, the American
Conference of Governmental Industrial Hygienists (ACGIH) provides industrial standards for hearing
Hertz (Hz)
Unit of vibration frequency in cycles per second.
Lavg (Average Level)
Lavg is the average sound level measured over the run time. This becomes a bit confusing when
thresholds are used. Any sound below the threshold is not included in this average. Remember that
sound is measured in the logarithmic scale of decibels therefore the average cannot be computed by
simply .adding the levels and dividing by the number of samples. When averaging decibels, short
durations of high levels can significantly contribute to the average level. Example: Assume the
threshold is set to 80 dB and the Exchange Rate is 5 dB (the settings of OSHA’s Hearing Conservation
Amendment). Consider taking a one-hour noise measurement in an office where the A-weighted
sound level was typically between 50 dB and 70 dB. If the sound level never exceeded the 80 dB
threshold during the one hour period, then the Lavg would not indicate any reading at all. If 80 dB
was exceeded for only a few seconds due to a telephone ringing near the instrument, then only those
seconds will contribute to the Lavg resulting in a level perhaps around 40 dB (notably lower than the
actual levels in the environment).
Lep,d
Daily personal noise exposure level.
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61 Appendix B
Glossary of Terms
Leq (Equivalent Level)
The true equivalent sound level measured over the run time. The term LEQ is functionally the same as
LAVG except that it is only used when the Exchange Rate is set to 3 dB and the threshold is set to
none.
Logging
(Also called Data Logging.) Certain measurements, such as average level (Lavg) and maximum level
(max), can be recorded by the dosimeter at regular intervals. For example: A dosimeter is set to log
Lavg and max at one minute logging intervals. If the dosimeter runs for one hour, then it would log 60
Lavg results and 60 max levels. You would be able to see the average and maximum levels for each
minute of the one hour run time.
Maximum Level (Lmax)
The highest sampled sound level during the instrument’s run time allowing for the unit’s Response
Time setting (Fast or Slow).
Measurement Range
The decibel range within which the unit’s measurements are valid.
Minimum Level (Lmin)
The lowest sampled sound level during the instrument’s run time allowing for the unit’s Response Time
setting (Fast or Slow).
Noise Floor
In a “Perfectly Quiet” room, the electrical noise produced by the microphone is approximately 35 dB on
A-weighting and 45 dB on C-weighting. These levels are known as the Noise Floor of the instrument.
The Noise Floor can cause inaccurate measurements at low measurement levels. Measurements must
always be at least 5 dB above the Noise Floor to be valid. Therefore, the lowest valid measurements
of the dosimeter are approximately 40 dB on A-Weighting and 50 dB on C-Weighting.
Peak Level
Peak is the highest instantaneous sound level that the microphone detects. Unlike the Max Level, the
peak is detected independently of the unit’s Response Time setting (Fast or Slow). Example: The peak
circuitry is very sensitive. Test this by simply blowing across the microphone. You will notice that the
peak reading may be 120 dB or greater. When taking a long-term noise sample (such as a typical 8-
hour workday sample for OSHA compliance), the peak level is often very high. Because brushing the
microphone over a shirt collar or accidentally bumping it can cause such a high reading, the user must
be careful of placing too much emphasis on the reading.
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62 Appendix B
Glossary of Terms
PEL (Permissible Exposure Level)
The A-weighted sound level at which exposure for a Criterion Time, typically eight hours, accumulates
a 100% noise dose.
Projected Time
The variable amount of time used to make a projected dose calculation from an actual dose
measurement.
Random incidence (microphone)
This only applies to Class/Type 1 microphones. Measurements made in an area where sound waves
are coming from all directions, including reflections and diffractions. When the dosimeter is being used
as a sound level meter in an area where reflections and diffractions from nearby objects are present,
use the Random Incidence Corrector with the microphone, and angle the microphone at approximately
70 degrees. Most personal noise dosimetry applications do not require the random incidence
corrector, since they are not measured with a Class/Type 1 microphone.
Response Time
The response determines how quickly the unit responds to fluctuating noise. Fast has a time constant
of 125 milliseconds. Slow has a time constant of 1 second. Example: Typically, noise is not constant.
If you were to try to read the sound level without a response time, the readings would fluctuate so
much that determining the actual level would be extremely difficult. Using a response of slow or fast
simply smoothes the noise fluctuation and makes the sound level easier to work with. While the terms
slow and fast have very specific meanings (time constraints), they work very much as you would
expect. The fast response would result in a more fluctuating sound level reading than would the slow
response. The OSHA regulations require the slow response.
RMS (Root Mean Square)
The RMS voltage of a signal is computed by squaring the instantaneous voltage, integrating over the
desired time, and taking the square root. Simply put, the RMS values are the results from the
dosimeter with the response time and weighting settings taken into account.
SEL/Lxe (Sound Exposure Level)
The sound exposure level averages the sampled sound over a one second period. Assuming the
sampled run time to be greater than one second, SEL is the equivalent one-second noise that would be
equal in energy to the noise that was sampled. SEL is typically measured using a 3dB exchange rate
without a threshold. SEL is not used by OSHA. Example: Suppose you wanted to measure in a
location next to railroad tracks, which also happened to be in the takeoff path of an airport. A train
passes by taking 10 minutes with an average sound level of 82dB. A jet passes overhead taking 45
seconds with an average level of 96dB. Which of these events results in more sound energy? You can
answer the question by comparing their SEL readings, which compress each event into an equivalent
one-second occurrence. SEL for the train = 109.7dB, SEL for the jet = 112.5dB.
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63 Appendix B
Glossary of Terms
Threshold
The threshold affects the Lavg, TWA, and Dose measurements. All sound below the threshold is
considered nonexistent noise for the averaging and integrating functions. The threshold does not
affect measurements in the sound level mode. OSHA uses two different thresholds. The original
Occupational Noise Exposure Standard (1971) used a 90dB threshold and called for engineering
controls to reduce the noise levels if the eight-hour TWA was greater than 90dB. The Hearing
Conservation Amendment (1983) uses an 80dB threshold and calls for a hearing conservation program
to be put in place if the eight-hour TWA exceeds 85dB (50% dose). The Hearing Conservation
Amendment is the more stringent of the two rulings and is what most US industrial users are
concerned with. Example: With an 80dB threshold, suppose you placed a 79dB calibrator on the unit
for a period of time. Because all of the noise is below the threshold, there would be no average (you
can think of it as an average of 0dB). If the calibrator were 80dB instead, then the average would be
80dB. On histogram printouts, typically 1 minute (or other specified increment) averages are printed.
Because real noise fluctuates, it is quite possible to have an average level below the threshold. This
also applies for the overall Lavg.
TWA (Time Weighted Average)
The time weighted average always averages the sampled sound over an 8-hour period. TWA starts at
zero and grows. The TWA is less than the Lavg for a duration of less than eight hours, exactly equal to
the Lavg at eight hours, and grows higher than Lavg after eight hours. TWA represents a constant
sound level lasting eight hours that would result in the equivalent sound energy as the noise that was
sampled. Example: Think of TWA as having a large 8-hour container that stores sound energy. If you
run a dosimeter for 2 hours, your Lavg is the average level for those 2 hours - consider this a smaller
2-hour container filled with sound energy. For TWA, take the smaller 2-hour container and pour that
energy into the larger 8 hour TWA container. The TWA level will be lower. Again, TWA is ALWAYS
based on the 8-hour container. When measuring using OSHA’s guidelines, TWA is the proper number
to report provided that the full work shift was measured. Example: If the work shift is 6.5 hours long,
then measure for the entire 6.5 hours. TWA is the correct level to report to OSHA. It does not have to
be modified.
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64 Appendix B
Glossary of Terms
Weighting (A, C, Z, etc.)
“A”, “B”, “C”, “Z” and LINEAR are the standard weighting networks available. These are frequency
filters that cover the frequency range of human hearing (20Hz to 20 kHz). “A” weighting is the most
commonly used filter in both industrial noise applications (OSHA) and community noise regulations.
“A” weighted measurements are often reported as dBA. The “A” weighted filter attempts to make the
dosimeter respond closer to the way the human ear hears. It attenuates the frequencies below several
hundred hertz as well as the high frequencies above six thousand hertz. “B” weighting is similar to “A”
weighting but with less attenuation. The “B” weighting is very seldom, if ever, used. The “C”
weighting provides a fairly flat frequency response with only slight attenuation of the very high and
very low frequencies. “C” weighting is intended to represent how the ear perceives sound at high
decibel levels and is often used as a “flat” response when LINEAR is not available. “C” weighted
measurements are often reported as dBC. “Z” is zero weighting, with no weighting across the
frequency range of human hearing. LINEAR is thought of as having a flat frequency response curve
over the entire measurement frequency range. LINEAR is most commonly found on upper model
sound level meters and is typically used when performing octave band filter analysis.
Upper Limit (UL)
A type of measurement parameter setting in which the user selects a certain decibel level.
The dosimeter will then record the amount of time that the sound level was at or greater
than the preset level. This time is then recorded as “UL Time”
Windscreen
A windscreen is a covering for the microphone that reduces disturbances caused by wind and direct
contact with other surfaces. The windscreen is placed over the microphone when taking
measurements to help prevent false high readings due to wind blowing across the microphone or
objects (hair, clothing, etc.) brushing against the microphone. The windscreen will also help protect
the microphone from dust and debris.
053-644, Rev E
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65 Appendix B
Glossary of Terms
The following equations are used in the Edge calculations. Some of the terms used in these equations
are explained in Table B-1 while others are explained above in the “Glossary of Terms” section.
100
(LSCL)/(ER)
RTIME
DOSE
2
dt
%
0
TC
TC
Prd
DOSE
%
8 hours
RTIME
Pr t
Prd
DOSE
%
hours
RTIME
LS/3.01
L
ERlog
dt log2(RTIME)
dB
2
2
AVG
053-644, Rev E
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66
Index
INDEX
Positioning ..........................................................32
Edge Dock
A
New hardware wizard .......................................23
EdgeDock1...............................................................41
EdgeDock1 and EdgeDock5....................................22
eg3 .............................................................................6
Memory storage..................................................21
eg4 .............................................................................6
Memory storage..................................................21
eg4 model ...............................................................53
Exchange Rate
Attaching
the Edge .............................................................32
B
Background Noise, effects of
Defined ...............................................................57
Battery
Checking.............................................................33
Battery charge status...............................................38
Battery indicator icon................................................33
Defined ...............................................................59
Export data...............................................................22
F
C
Free field setting (microphone)
Calibrate your meter.................................................34
Calibration
Defined ...............................................................60
Defined ...............................................................60
Charging
H
Battery ................................................................11
Combining Noise sources
Defined ...............................................................58
Communicating
Edge Dock ..........................................................11
Crest Factor
Hearing Conservation
Defined ...............................................................60
Heartbeat.................................................................46
Hertz
Defined ...............................................................60
Defined ...............................................................58
Criterion Level (CL)
L
Defined ...............................................................58
Criterion Time
Lavg
Defined ...............................................................60
LED indicator
Defined ...............................................................59
Flashing amber light .............................................9
Flashing green light ..............................................9
Lep,d
Defined ...............................................................60
Leq
D
Decibel (dB)
Defined ...............................................................59
Docking station.........................................................22
Components .......................................................12
Dose
Defined ...............................................................59
Doubling Rate
Defined ...............................................................61
Lmin
Defined ...............................................................61
Load your studies ..................................................41
Loading your studies................................................41
Locking.....................................................................40
About ..................................................................39
Logging ....................................................................53
Defined ...............................................................61
Defined ...............................................................59
Download .................................................................22
E
Edge
053-644, Rev E
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67
Index
M
Defined ...............................................................62
Run indicator............................................................37
Run mode.................................................................38
Running a study
Overview.............................................................31
Running studies
Maximum Level
Defined ...............................................................61
Measurement Range
Defined ...............................................................61
Memory storage symbol...........................................21
Model
steps ..................................................................37
eg3........................................................................6
eg4........................................................................6
Mount the docking station........................................15
S
Securing run mode ................................................40
SEL
N
Defined ...............................................................62
Sound pressure..........................................................3
Splash screen...........................................................8
Standards...................................................................3
Stop a noise study .................................................38
Stop mode................................................................38
Symbol
Noise Floor
Defined ...............................................................61
O
Options menu.....................................................35, 36
Overload...................................................................38
Battery power clock ............................................21
Calendar .............................................................21
memory storage..................................................21
P
Peak Level
T
Defined ...............................................................61
PEL
Defined ...............................................................62
Power
Turn off .................................................................9
Turn on .................................................................8
Projected Time
Threshold
Defined ...............................................................63
Threshold enabled ...................................................46
TWA
Defined ...............................................................63
U
Defined ...............................................................62
unlock mode.............................................................40
Unlocking................................................................40
Upper Limit (UL).......................................................64
USB cable ................................................................22
Q
QSP-II
Heartbeat enabled.............................................46
Threshold enabled..............................................46
V
R
Views........................................................................18
Random incidence (microphone)
W
Defined ...............................................................62
Reset........................................................................35
Reset the meter........................................................35
Response Time
Defined ...............................................................62
Retrieve data............................................................22
RMS
Weighting (A, C, Z, etc.)
Defined ...............................................................64
Windscreen
Defined ...............................................................64
053-644, Rev E
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Quest Technologies, a 3M company, is a manufacturer of durable, reliable instrumentation and
software systems that help monitor a variety of health and safety hazards, including noise,
vibration, heat stress, indoor air quality and toxic/combustible gases. The 3M Quest brand of
instrumentation is used by safety and industrial hygiene professionals to help comply with worker
safety and environmental regulations and standards around the world. Quest Technologies, a 3M
company, is part of the 3M Occupational Health & Environmental Safety Division, a global leader
in respiratory, hearing, eye, head and fall protection, visibility and protective clothing, and detection
Occupational Health &
Environmental Safety Division
Quest Technologies, a 3M company
ISO 9001 Registered Company
ISO 17025 Accredited Calibration Lab
1060 Corporate Center Drive
Oconomowoc, WI 53066
Customer Service: 262-567-9157
Toll Free: 800-245-0779
3M and Quest are trademarks of 3M Company,
used under license in Canada.
Please recycle. Printed in USA.
© 2012 3M. All rights reserved.
E-mail: [email protected]
0
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