Met One Instruments BAM 1020 Particulate Monitor Instruction Manual
- June 16, 2024
- Met One Instruments
Table of Contents
- Met One Instruments BAM 1020 Particulate Monitor
- Product Information
- Introduction
- Technical Service
- Site Selection and Installation
- FAQ
- OPERATION MANUAL
- THEORY OF OPERATION
- Analog Outputs
- INITIAL SETUP OF THE BAM 1020
- Outlet to Vacuum Pump
- References
- Read User Manual Online (PDF format)
- Download This Manual (PDF format)
Met One Instruments BAM 1020 Particulate Monitor
Product Information
Specifications
- Model: BAM 1020-9805 Rev F
- Manufacturer: Met One Instruments, Inc.
- Address: 1600 NW Washington Blvd., Grants Pass, OR 97526
- Telephone: 541-471-7111
- Facsimile: 541-471-7116
- Website: metone.com
Introduction
The BAM 1020 is a particulate monitor manufactured by Met One Instruments, Inc. This manual provides detailed instructions for the operation and installation of the BAM 1020. It also includes technical service information and safety statements regarding beta radiation. The BAM 1020 is available in different configurations to meet specific requirements.
Technical Service
For technical assistance or service inquiries, please contact Met One Instruments, Inc. at the provided telephone number or visit their website.
Beta Attenuation Monitor (BAM)
The BAM 1020 is a type of Beta Attenuation Monitor (BAM), which is designed
to measure particulate matter in the air. It utilizes beta radiation
attenuation to determine the concentration of particles.
Beta Radiation Safety Statement
When operating the BAM 1020, it is important to follow proper safety
precautions regarding beta radiation. Ensure that all safety guidelines and
regulations are adhered to during installation, operation, and maintenance.
BAM 1020 US-EPA Configurations
The BAM 1020 is available in configurations that comply with the
requirements set by the United States Environmental Protection Agency (US-
EPA). These configurations are specifically designed to meet the monitoring
needs outlined by the US-EPA.
BAM 1020 Other Configurations
In addition to the US-EPA configurations, the BAM 1020 is also available in
other configurations to cater to different monitoring applications and
requirements.
Site Selection and Installation
Unpacking, Inspection, and Evaluation Testing
Before installation, carefully unpack the BAM 1020 and inspect it for any
damage during shipping. Perform an evaluation test to ensure that the monitor
is functioning correctly.
Enclosure Selection and Temperature Control
Select an appropriate enclosure for the BAM 1020 based on the installation
environment. Consider factors such as temperature control and protection from
external elements.
Site Selection and Inlet Positioning Criteria
Choose a suitable site for installing the BAM 1020. Consider factors such
as air flow, accessibility, and representative sampling. Position the inlet of
the monitor in a location that allows for accurate particle measurement.
Mounting Options in a Walk-In Shelter
If installing the BAM 1020 in a walk-in shelter, refer to the provided
mounting options for secure installation within the shelter.
BAM 1020 Installation Instructions
Follow the provided installation instructions to properly install the BAM
1020. Ensure that all connections are secure and that the monitor is
positioned correctly for accurate measurements.
BAM 1020 Power and Electrical Service
Connect the BAM 1020 to a suitable power source and ensure that proper
electrical service is provided. Follow the instructions provided in the manual
for power connection.
Configuring External Sensors
If using external sensors with the BAM 1020, refer to the
instructions for configuring these sensors. Follow the specified
steps to integrate the external sensors with the monitor.
Configuring the BX-597A / BX-598 Sensor
If using the BX-597A or BX-598 sensor, follow the provided instructions for
configuring these specific sensors. Ensure that the sensor addresses are
properly set for communication with the BAM 1020.
Changing Sensor Addresses
If there is a need to change the sensor addresses, refer to the manual for
detailed instructions on how to modify the sensor addresses. Follow the
provided steps to ensure proper communication between the sensors and the BAM
1020.
FAQ
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by Acoem?
A: For more information about Met One Instruments Powered by Acoem, please
visit their website at metone.com.
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OPERATION MANUAL
BAM 1020
Particulate Monitor BAM 1020-9805 Rev F
Met One Instruments, Inc. 1600 NW Washington Blvd.
Grants Pass, OR 97526 Telephone:
541-471-7111 Facsimile:
541-471-7116
metone.com
Met One Instruments, Inc. is now part of the Acoem international group of
companies.
Met One Instruments has been designing and manufacturing class-leading
meteorological, ambient air sensing, and air quality monitoring
instrumentation since its inception in 1989. Its line of robust industrial-
grade meteorological equipment, air particulate monitoring equipment, and
indoor air quality monitoring systems have set the standard for the industry.
Headquartered in Grants Pass, OR, Met One Instruments, Inc. is fueled by a
dedicated expert team who is diligently working to advance the technology
required to ensure continued improvements in human and environmental health
now and for generations to come.
Acoem is committed to helping organizations and public authorities find the
right balance between progress and preservation — safeguarding businesses and
assets and maximizing opportunities while conserving the planet’s resources.
Headquartered in Limonest, France, Acoem delivers unrivaled inter-operable AI-
powered sensors and ecosystems that empower our customers to make enlightened
decisions based on accurate and timely information.
In 2021, Acoem acquired Met One Instruments, marking a pivotal moment when two
industry leaders in the air quality monitoring sectors converged — creating a
single, stronger and more future-focused provider of holistic environmental
monitoring solutions. Now, Met One Instruments Powered by Acoem has opened new
possibilities through an extensive offering of class leading, multi-parameter
environmental monitoring and industrial reliability solutions. These
integrated measurement systems, technologies, and services deliver
comprehensive solutions for a range of applications, including environmental
research, regulatory compliance, and industrial safety and hygiene.
For more information about Met One Instruments Powered by Acoem, please visit:
metone.com
For more information about Acoem, please visit: acoem.com
BAM 1020 Operation Manual – © Copyright 2023 Met One Instruments, Inc. All
Rights Reserved worldwide. No part of this publication may be reproduced,
transmitted, transcribed, stored in a retrieval system, or translated into any
other language in any form without the express written permission of Met One
Instruments, Inc.
BAM 1020-9805 Rev F
THEORY OF OPERATION
BAM 1020-9805 Manual Rev F.docx
INTRODUCTION
About This Manual
This document is organized with the most important information toward the
front of the manual, such as site selection, installation, setups, and field
calibrations.
Toward the back are sections that provide in-depth information on subjects
such as theory, diagnostics, accessories, and alternate settings. These
sections provide valuable information which should be consulted as needed.
Electronic versions of this manual are also available.
This manual is periodically revised for maximum accuracy, and to incorporate
new features or updates. Below is a brief description of the BAM 1020 manual
revision history:
Rev
Released
A 2020-06-09
B
C 2020-09-22 D 2021-08-24 E 2021-09-27 F 2022-03-11
Manual Description
Initial release of BAM 1020 (83440)
1. Section 1.2: Update letter portion of the serial number description (Table
1-2). 2. Section 2.5: Added Transport Plate Figure 2.4. 3. Section 3.3.2:
Added reference to Figure 2-4. 4. Section 3.4.7: Added text “is provided with”
to paragraph beginning with “Each BAM 1020…” 5. Section 3.5.2: Spelling
correction for “correspond.” 6. Section 3.5.5: Added the case for 6% Low Power
setting. 7. Section 8.1: Removed “standard accessory” text from BX-597A.
Updated description and part numbers for BX-597A and BX-598 sensors. 8.
Section 9.1: This section Converting Data Between EPA Standard and Actual
Conditions was
eliminated. This section is no longer needed because both Standard and Actual
sample volumes and concentrations are calculated, displayed, reported, and
stored in the data logger. 1. All references to 597A / 598 changed to BX-597A
/ BX-598 2. Section 7.3.2: Added weblink to Comet software download. Removed
references to the Comet CD. 3. Section 8.1: Added CCS Modem-LTE 4. Section
8.1: Changed CCS Modem Communication Cable part number to 83444-25 5. Section
8.1: Added BX-598 photo 1. Section 2.5: Added BX-824 Inlet Slip Coupler
information 2. Section 3.3.2: Added USB flash drive file system requirement.
3. Section 3.5.9: Enhance description of Protocol Type. 4. Section 3.5.14:
Added Protocol Type to Serial Port setup screen (Firmware R9.2.2). 5. Section
6.9: Corrected FRH Set Point for Low Power mode from 100% to 99%. 6. Section
8.1: Added BX-824 Inlet Slip Coupler Assembler and BX-502 Translator 7.
Section 8.1: Added BX-811 PM1 Sampling Inlet 1. Section 3.5.9.4: Added more
clarification to Dynamic Range. 2. Section 8.1: Added AC Power Cable (P/N
400100); Corrected Electrical & Electronic Parts P/N: 30030, 82950, 82940 –
Add “-1”; Removed 82970; Changed Rear Panel Assembly P/N to 83586; Changed
filter element P/N from 580292 to 580345. 1. Section 8.1: Added RS-232 cable
82629 to Accessory Kit; Changed 9278 (RH Sensor) to 11043. 2. Section 6.2.2:
Changed equilibrated Filter RH comparison to ambient sensor from within +/- 4%
to +/-5%. 3. Section 3.3.4: Add new change log section. 4. Section 3.5.8:
Screen name changed from Password to User. Functionality differences. 5. Add
Audit Sheet to end of manual.
Table 1-1 BAM 1020 Manual Change Summary
BAM 1020-9805 Manual Rev F.docx
Page 5
1.2 Technical Service
Technical Service representatives are available during normal business hours of 7:00 a.m. to 4:00 p.m. Pacific Time, Monday through Friday. In addition, technical information and service bulletins are available from our website. Please contact us at the phone number or email address below to obtain a Return Authorization (RA) number before sending any equipment back to the factory.
Phone: 541-471-7111
Fax: 541-471-7116
E-Mail: service@metone.com Web: www.metone.com
Address:
Technical Services Department Met One Instruments, Inc. 1600 NW Washington Blvd. Grants Pass, OR 97526
The BAM 1020 monitor has a serial number on the label on the back panel, embossed on the two metal NRC tags, and printed on the calibration certificate. This number is needed if contacting the technical service department to request information about repairs or updates for the BAM 1020. The serial number begins with a letter sequence which represents the year of manufacture, followed by a unique or five-digit number. Example: AN15878 was built in 2020.
Letter AN BN CN DN EN FN GN HN JN KN
Year 2020 2021 2022 2023 2024 2025 2026 2027 2028 2029
Letter MN NN PN RN TN UN WN XN YN AN
Year 2030 2031 2032 2033 2034 2035 2036 2037 2038 2039
Letter BN CN DN EN FN GN HN JN KN MN
Year 2040 2041 2042 2043 2044 2045 2046 2047 2048 2049
Table 1-2 Met One Instruments, Inc. Serial Number Designations by Year
1.3 BAM: Beta Attenuation Monitor
The Met One Instruments BAM 1020 beta attenuation mass monitor automatically
measures and records ambient particulate mass concentration levels using the
principle of beta ray attenuation. This method provides a simple determination
of the ambient concentration of particulate matter in mg/m3 or g/m3. A small
14C (carbon 14) element inside of the BAM 1020 provides a constant source of
beta rays. The beta rays traverse a path through which glass fiber filter tape
is passed before being detected with a scintillation detector. At the
beginning of the measurement cycle the beta ray count (I0) across clean filter
tape is recorded. Then, an external pump pulls a known volume of PM-laden air
through the filter tape thereby trapping the PM on the filter tape. At the end
of the measurement cycle the beta ray count (I3) is re-measured across PM-
laden filter tape. The ratio of I0 to I3 is used to determine the mass density
of collected PM on the filter tape. A complete description of the measurement
cycle is included in Section 5.1. In addition, a scientific explanation of the
theory of operation and the related equations is included at the back of the
manual.
Page 6
BAM 1020-9805 Manual Rev F.docx
1.4 Beta Radiation Safety Statement
The Met One Instruments BAM 1020 contains a small 14C (carbon 14) beta
radiation-emitting source. The activity of the source is 60 Ci ±15 Ci
(microcuries), which is below the “Exempt Concentration Limit” of 100 µCi as
determined by the United States Nuclear Regulatory Commission (US-NRC). The
owner or operator of the BAM 1020 is not required to have a license to possess
or operate the equipment under US-NRC regulations. The owner may however elect
to return the monitor to Met One Instruments for recycling of the 14C source
when the monitor has reached the end of its service life, although is under no
obligation to do so. Under no circumstances should anyone but factory
technicians attempt to remove or access the 14C source. 14C has a half-life of
about 5730 years and should never need to be replaced. Neither the 14C source
nor the detector are serviceable in the field. Should these components require
repair or replacement, the BAM 1020 must be returned to the factory for
service and recalibration.
1.5 BAM 1020 US-EPA Configurations
The BAM 1020 is US-EPA designated for PM10, PM2.5 and PM10-2.5 under the
following designation numbers:
· Designation Number: EQPM-0798-122 (PM10) · Designation Number: EQPM-0308-170
(PM2.5 with BGI/Mesa Labs VSCCTM or Tisch Cyclone) · Designation Number:
EQPM-0715-266 (PM2.5 with URG Cyclone) · Designation Number: EQPM-0709-185
(PM10-2.5 with BGI/Mesa Labs Cyclones)
US-EPA designated methods using the BAM 1020 are modified from time to time in
order to reflect hardware or software improvements. These modifications do not
impact previously designated configurations of the BAM 1020 but may provide
the end user with a product upgrade path that will allow the monitor to
continue to be operated as a US-EPA designated method. For further details,
please contact our service department. Details concerning US-EPA designated
configurations of the BAM 1020 may be found on the US-EPA website:
https://www.epa.gov/amtic/air-monitoring-methods-criteria-pollutants
1.6 BAM 1020 Other Configurations
The BAM 1020 is used worldwide. Although many international jurisdictions use
the US-EPA configurations, others do not. Consult with the appropriate local
monitoring authority for details on how the BAM 1020 should be configured and
operated locally.
BAM 1020-9805 Manual Rev F.docx
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1.7 BAM 1020 Specifications
PARAMETER
SPECIFICATION
Measurement Principle
Particulate Concentration by Beta Attenuation.
U.S. EPA Designations
Standard Range Accuracy
PM10: EQPM-0798-122 PM2.5 EQPM-0308-170 PM2.5 EQPM-0715-266 PM10-2.5
EQPM-0709-185
0 – 10.000 mg/m3 (0 10,000 g/m3)
Exceeds US-EPA Class III PM2.5 FEM standards for additive and multiplicative
bias
Lower Detection Limit Lower Detection Limit Measurement Cycle Time
< 4.8 g/m3 (2) (1 hour) (< 4.0 g/m3 typical) (8-minute count time) < 1.0 g/m3 (2) (24 hour) 1 hour
Flow Rate
16.67 liters/minute
Filter Tape Span Check Beta Source
Glass fiber filter Nominally 800 g/cm2 C-14 (carbon-14), 60 µCi ±15 µCi (< 2.22 X 106 Beq), Half-Life 5730 years
Beta Detector Type
Photomultiplier tube with scintillator
Operating Temp. Range
0° to +50°C
Ambient Humidity Range
0 to 90% RH, non-condensing
Humidity Control
Actively controlled inlet heater module
Approvals
U.S. EPA, MCERTS, CE, NRC, TUV, CARB, ISO 9001
Standard User Interface Analog Output
4.3″ graphic color touch screen display Two channels; 0-1, 0-2.5, 0-5 VDC
Serial Interface
One (1) full duplex RS-232, one (1) half duplex RS-485 serial port for PC or modem communications One (1) USB Type B serial port One (1) Ethernet port Two (2) RS-485 serial ports for sensor network
Alarm Contact Closure Compatible Software Error Reporting
1 channel; dry NO contact; 1 A at 125 VAC or 60 VDC maximum. Air PlusTM, CometTM, HyperTerminal® User-configurable. Available through serial port, display, and relay outputs
Memory
14,000 records (1.5 Years @ 1 record/hr)
Power Supply
100-240 VAC 50/60 Hz universal input; 12 VDC, 8.5 A output
Power Consumption
Unit: 12W; Heater: 100W/175W; Medo Pump 150W; GAST Pump 530W
Weight
19 kg (42 lbs) without external accessories
Unit Dimensions
H x W x D = 36.2cm x 48.3cm x 46.7cm (14.25″ x 19″ x 18″).
Specifications may be subject to change without notice.
Page 8
BAM 1020-9805 Manual Rev F.docx
Table 1-3 BAM 1020 Specifications
2 SITE SELECTION AND INSTALLATION
2.1 Unpacking, Inspection, and Evaluation Testing
If any damage to the shipment is noticed before unpacking, a claim must be
filed with the commercial carrier immediately. Notify Met One Instruments
after notification of the commercial carrier.
Unpack the BAM 1020 and accessories and compare them to the packing list to
make sure all of the required items are included for the type of installation
planned. A separate quick setup guide with color photos of most of the common
accessories will be included with this manual. Operators can use the quick
setup guide to fully configure and operate the BAM 1020 on a test bench if
desired.
The BAM 1020 is shipped with one or two white foam rings and a white plastic
shim inside the front of the BAM 1020, which prevent the moving parts of the
tape control assembly from being damaged during transit. The rings and shim
should be replaced when the BAM 1020 is being transported in order to avoid
damaging the tape control mechanism. Do not ship or transport the BAM 1020
with filter tape installed. Met One Instruments, Inc. recommends keeping the
special shipping box and foam packing material which the BAM 1020 came in as
they could be re-used if the BAM 1020 needs to be transported to another site
or returned to the factory for any reason.
2.2 Enclosure Selection and Temperature Control
The BAM 1020 monitor is not weatherproof. It is designed to be mounted in a
weatherproof, level, low vibration, dust free, and temperature-stable
environment where the operating temperature is between 0o C and +50o C, and
where the relative humidity is non-condensing and does not exceed 90%. There
are two standard configurations described below for providing a weatherproof
location in which to install the BAM 1020. Please contact Met One Instruments,
Inc. for advice if there is a need to use a non-standard mounting or enclosure
configuration.
1. A walk-in shelter or building: These are usually semi-portable pre-
fabricated shelters or portable trailers with a flat roof, or a room in a
permanent building or structure. The BAM 1020 may be placed on a workbench or
mounted in an equipment rack. The inlet tube of the BAM must extend up through
a hole in the roof of the structure with appropriate sealing hardware. AC
power must be available. Instructions for this type of installation are
included in this section of this manual.
2. BX-902/903/906 mini weatherproof enclosures: these small pre-fabricated
enclosures are just big enough for the BAM and related accessories and are
installed on the ground or on the roof of a larger building. They are
available with a heater (BX-902), or with a heater and air conditioner
(BX-903). A dual-unit air conditioned mini shelter is also available (BX-906).
These enclosures are all specified by Met One to accept the BAM 1020, and are
supplied with a supplemental installation manual.
Shelter Temperature Control Notes: The air temperature inside a BAM shelter or
enclosure is not required to be regulated to any specific narrow range or set
point (such as 25 °C), subject to the following caveats:
BAM 1020-9805 Manual Rev F.docx
Page 9
1. The shelter temperature must stay between 0 and 50 °C inside at all times
or alarms and failures may result. Remember that the vacuum pump and inlet
heater can contribute significantly to shelter heating.
2. The exact shelter temperature within the 0-50 °C range is not critical.
However, temperature changes during the measurement cycle can lead to
measurement artifacts. These artifacts, when present tend to present only
during hourly measurements and are generally insignificant when daily averages
are calculated.
3. BAM 1020 users in hot climates where the ambient temperature exceeds 40 °C
should consider using the model BX-903 air conditioned mini shelter or an air
conditioned walk-in shelter to avoid over-heating the BAM 1020.
4. The portion of the inlet tube inside of the shelter or building should
always be adequately insulated. This is especially important when the
equipment is operated under conditions of high ambient dew point. Otherwise
condensation could occur inside the sampling tube and/or measurement artifacts
could result. If this proves to be an issue, the user may consider increasing
the temperature inside the shelter to a point closer to ambient temperature.
The BAM 1020 should not be placed directly in the path on an air conditioning
vent.
2.3 Site Selection and Inlet Positioning Criteria
Met One Instruments, Inc. recommends checking for local regulations and
guidance documentation that may exist before selecting the site in which to
install the BAM 1020. For example, US-EPA provides a variety guidance
documents where site selection issues are addressed. Such guidance and
regulation may provide information concerning:
1. Inlet height
2. Spacing and clearance
3. Proximity to particulate sources, both mobile and stationary
4. Additional siting criteria or considerations
These details should be understood before selecting a site.
2.4 Mounting Options in a Walk-In Shelter
When the BAM 1020 is to be located in a walk-in shelter, it may be installed
in either an equipment rack or on a bench top. Take the following into account
when planning the mounting:
· Rear Access: It is important to leave plenty of access to the rear of the
BAM 1020 for wiring connections and maintenance. At least five inches is
required. Full access to the back is recommended whenever possible. There must
be adequate access to the power switch located on the back of the instrument.
· Top Access: It is necessary to have a minimum of eight inches clearance
between the top of the BAM 1020 inlet receiver and the bottom of the shelter
ceiling to accommodate the smart inlet heater.
· Mobile Shelters: If the BAM 1020 is being installed into an equipment rack
in a mobile trailer or van, then additional care should be taken to ensure
that the mounting can handle the additional strain. The foam shipping rings
must also be inserted any time a mobile shelter is moved with the BAM 1020
inside.
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BAM 1020-9805 Manual Rev F.docx
· Rack Modifications: It is usually necessary to modify the top plate of the
equipment rack by cutting a 2 inch diameter (75mm) hole to allow the inlet
tube to extend through to the ceiling. The BAM 1020 dimensional drawings below
show the location of the inlet. Note: The inlet heater installs onto the inlet
tube two inches above the top of the inlet receiver of the BAM 1020. If the
BAM 1020 is to be mounted in a rack, it will be necessary to leave extra room
above the BAM 1020 in the rack for the heater, or to make the hole in the top
of the rack larger in order to clear the heater diameter. The heater is
supplied with a foam insulation sleeve which may be modified as needed. Make
sure these parts are going to fit before installing the BAM 1020.
2.5 BAM 1020 Installation Instructions
When installing the BAM 1020 into a shelter or structure the following issues
should be taken into consideration.
1. Roof Modifications: Determine the exact location where the BAM inlet tube
will pass through the roof of the shelter and drill a 2 ¼” or 2 ½” (60mm)
diameter hole through the roof at that location. Make sure the hole is
directly above where the inlet receiver is to be located, so the inlet tube
will be perfectly vertical. A plumb weight is useful for determining where to
locate the hole. Note that the inlet receiver on the BAM 1020 is slightly off-
center! BX-902/903 mini shelters do not require any roof drilling.
2. Waterproof Roof Flange: Apply all-weather silicone caulking around the top
of the hole and install the BX-801 roof flange onto the hole. The threaded
barrel of the flange is usually installed downward. Secure the flange in place
with four lag bolts or self-tapping screws (not supplied). Caulk around the
screws to prevent leaks. Apply Teflon tape to the threads of the gray plastic
watertight fitting and screw it into the roof flange tightly. BX-902/903 mini
shelters come with a roof flange installed, and only need the watertight
fitting. Note: Some users prefer to fabricate their own roof flange instead of
using the one supplied by Met One Instruments, due to factors such as high
snow loading or a sloped roof. Equipment damage from a leaking roof is not
covered under warranty.
3. Inlet Tube Installation and Alignment: Remove the threaded cap and rubber
seal from the watertight inlet tube seal assembly. This makes it easier to
install the inlet tube since the rubber seal is a tight fit. Lower the inlet
tube through the flange assembly and into the inlet receiver on the BAM 1020,
making sure that the inlet tube is fully seated. It is very important for the
inlet tube to be perpendicular to the top of the BAM 1020. The nozzle may bind
if the inlet is misaligned. A simple check is to rotate the inlet tube back
and forth by hand before tightening the roof flange seal or the BAM 1020 inlet
set screws. If the inlet tube is straight, then the tube should rotate fairly
easily while inserted into the BAM 1020. If it does not rotate, check the
inlet tube for vertical alignment or move the BAM 1020 slightly.
The optional BX-824 Inlet Slip Coupler Kit is a quick disconnect inlet tube
accessory for BAM1020. it allows the bam to be removed from its installation
w/o loosening the roof seal in areas where the seal is inaccessible. It
consists of an 80687 short inlet tube and an 80688 slip coupler. The coupler
can be slipped down the short tube to disconnect it from the bottom of the
main inlet tube for BAM removal.
It is always recommended that the exposed portion of the inlet tube inside the
shelter be insulated.
BAM 1020-9805 Manual Rev F.docx
Page 11
4. Smart Inlet Heater Installation: Before tightening the inlet tube in
place, the BX-827 or BX830 smart inlet heater (used on most BAM 1020 monitors)
must be installed onto the tube. Lift the inlet tube out of the top of the BAM
1020, and pass the tube through the hole in the heater body (the cable end is
the bottom). Then re-insert the inlet tube into the BAM. Position the bottom
of the smart heater unit two inches above the top of the inlet receiver on the
BAM, and securely tighten the two set screws in the heater to fasten it to the
tube.
Included with the smart heater is a 12″ tube of white insulation. The tube is
split down its length for easy application. Wrap the insulation around the
heater body and peel back the adhesive cover strip to secure in place. The
insulation may be cut to fit if needed. The insulation sleeve provides more
consistent heating, and prevents items from coming into contact with the hot
heater body.
5. Smart Heater Electrical Connections: All generations of the BX-827/830
Smart Heater have the same 3-pin metal power connector. The Smart Heater
connector plugs into the 3-pin connection of the external heater relay
enclosure mounted on the back panel. An A/C power cord connects to the relay
enclosure via a power entry module. The relay located inside the heater relay
enclosure is controlled by the 12VDC heater control signal.
Warning! The heater relay controls live AC line voltage to the 3-pin socket.
Treat the 3-pin socket like a live power outlet whenever power is applied. Do
not open or service the heater relay enclosure or heater module when power is
applied.
Warning! The Smart Heater has triple redundant safety features to prevent
overheating, but the heater surface temperature can exceed 70 degrees C during
high humidity conditions. Use the white insulation sleeve to prevent contact
with the heater during operation.
Heater Connector
Heater Relay Enclosure AC Power Cable
Smart Heater Back Panel Connection
6. Tightening the Inlet: After the inlet tube is aligned and the heater
installed, slide the black rubber seal and cap down over the top of the inlet
tube and into the roof flange. It is easier if the rubber seal is wetted with
water first. Tighten the plastic cap. Tighten the two set screws in the top of
the BAM 1020 inlet receiver.
Page 12
BAM 1020-9805 Manual Rev F.docx
7. Inlet Support Struts: The BX-801 inlet kit comes with two angled aluminum
struts to support the inlet tube above the roof and prevent the inlet from
moving in the wind. These struts are typically fastened (about 90 degrees
apart) to the inlet tube with a supplied hose clamp. The bottom ends of the
struts should be fastened to the roof with lag bolts (not supplied). Some
installations may require different methods or hardware for supporting the
inlet tube. Support the tube in the best manner available. The BX-902/903 mini
shelters do not require inlet tube supports.
8. Temperature Sensor Installation: BAM 1020 units are supplied with a BX-598
(AT) or BX597A (AT/BP/RH) sensor, which attaches to the inlet tube above the
roof. The sensor cable must route into the shelter to be attached to the BAM.
Use a waterproof cable entry point or weatherhead if the shelter has one. The
BX-902/903 mini shelters have a cable entry on the side. Route the cable into
the shelter in the best manner available. In some cases, it may be necessary
to simply drill a 3/8″ hole through the roof a few inches away from the inlet
tube, route the cable through the hole and caulk it to prevent leaks. The BX-
597A sensor attaches directly to the inlet tube with a supplied U-bolt.
Connect the cable to the Sensor Network on the back panel of the BAM 1020 as
follows.
BX-597A Temp/RH/Pressure
Sensor
Terminal
Cable Wire
Block
Color
Shield
White/Brown
Gnd
Black
RS485 –
White
RS485 +
Orange
DC Power
Red
BX-598 Temp Sensor
Terminal Block Shield Gnd RS485 –
RS485 + DC Power
Cable Wire Color
White/Brown Black White Orange Red
9. Wind Sensors: The AIO 2 or MOS-485 wind sensors may also be connected to the Sensor Network. These sensors must be configured with address 2 in conjunction with a BX-597A or BX-598 temperature sensor (See section 2.7). Wind sensors must be mounted to avoid any possible wind obstructions caused by the BAM inlet components. Reference sensor manuals for mounting options.
AIO 2 Sensor
Terminal
Cable Wire
Block
Color
Shield
White/Brown
Gnd
Black & Green
RS485 RS485 + DC Power
Grey Yellow
Red
MSO-485 Sensor
Terminal Cable Wire
Block
Color
Shield
White/Brown
Gnd
Black &
Green
RS485 –
Brown
RS485 +
White
DC Power
Red
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10. Inlet Separator Heads: For PM10 monitoring, the BX-802 Size-Selective
Inlet is installed directly onto the inlet tube with no cyclone. To configure
the BAM 1020 for PM2.5 monitoring, install the PM2.5 size fractionator below
the PM10 head as shown below. Use O-ring lubricant as needed. Met One
Instruments offers a variety of PM2.5 fractionators for use with the BAM 1020.
11. Inlet Tube Grounding: The two ¼”-20 set screws located in the inlet
receiver of the BAM should create a ground connection for the inlet tube to
prevent static electricity from building up on the inlet tube under certain
atmospheric conditions. This is also important in areas near electromagnetic
fields, high voltage power lines, or RF antennas. Check the connection by
scraping away a small spot of the clear anodizing near the bottom of the inlet
tube and use a multimeter to measure the resistance between this spot and the
“CHASSIS” ground connection on the back of the BAM 1020. It should measure
only a couple of Ohms or less if a good connection is made with the set
screws. If not, remove the set screws and run a ¼-20 tap through the holes.
Then reinstall the screws and check the electrical resistance again. Note:
Anodized aluminum surfaces are non-conductive.
12. Pump Location and Installation: The best location for the vacuum pump is
often on the floor under the rack or bench, but it may be located up to 25
feet away if desired. It may be preferable to locate the pump so that noise is
minimized if the BAM 1020 is in an area where personnel are present. If the
pump is to be enclosed, ensure that it will not overheat. The Gast pumps have
a thermal shutdown inside which may trip if overheating occurs. Route the
clear 10 mm air tubing from the pump to the back of the BAM 1020, and insert
it firmly into the compression fittings on both ends. The tubing should be cut
to the proper length and the excess tubing saved.
The pump is supplied with a 2-conductor signal cable which the BAM 1020 uses
to turn the pump on and off. Connect this cable to the terminals on the back
of the BAM 1020 marked “CONTROL.” The end of the cable with the black ferrite
filter goes toward the BAM. Connect the Black wire to the “Pump Black”
terminal and the Red wire to the “Pump Red” terminal. Connect the other end of
the cable to the two terminals on the pump.
There are two pump types available for the BAM 1020. The Gast rotary vane
pumps are louder and draw considerably more power than the Medo linear piston
pumps, but have better vacuum capacity, especially at higher altitude or in 50
Hz applications. The Medo pumps are smaller, quieter, and more efficient, but
aren’t recommended for 50 Hz use.
13. Optional Connections: Newer data loggers often interface to the BAM 1020
using the digital serial ports for better accuracy. Information about this is
also found in Section 7. Met One can also supply additional technical
bulletins on the subject.
The BAM 1020 has a variety of other connections: Alarm relay, analog outputs,
Ethernet and serial port connections located on the back as shown in Figure
2-5 below. These items are described in Section 7 of this manual.
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BAM 1020-9805 Manual Rev F.docx
Figure 2-1 Typical BAM 1020 Installation in a Walk-in Shelter BAM 1020-9805 Manual Rev F.docx
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Page 16
Figure 2-2 Typical BAM 1020 Installation in a BX-902 Mini Enclosure BAM 1020-9805 Manual Rev F.docx
Figure 2-3 BAM 1020 Mounting Dimensions
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Figure 2-4 BAM 1020 Transport Plate
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Figure 2-5 BAM 1020 Rear Panel Connections
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2.6 BAM 1020 Power and Electrical Service
The BAM 1020 uses internal 12VDC motors for the tape control system. The
external 12VDC power supply accepts 100-240VAC at 50-60Hz. The external vacuum
pump and inlet heater are AC powered and voltage-specific. Note: The vacuum
pump power cord is hardwired and may need to be replaced or adapted to match
local outlet types outside of North America.
Warning: The shelter and/or electrical service must be wired for the correct voltage and frequency in accordance with local electrical codes. Running the vacuum pump or inlet heater on incorrect line voltage or frequency will cause improper operation.
The current draw of the system varies considerably depending on optional accessories and environmental conditions. A dedicated 15 Amp electrical circuit is generally adequate to run a single complete BAM 1020 system, unless a large air conditioner is on the same circuit. Consult a qualified electrician if unsure. A summary of some worst-case loads is given below:
Model BAM 1020 BX-126 BX-121 BX-122 BX-827 BX-830 BX-902B BX-903 BX-904/906
Description BAM 1020 only, 120V, worst case with tape transport motors running. Medo Linear Piston Pump, 120V, 60Hz, at 16.67 L/min through clean tape. Gast Rotary Vane Pump, 120V, 60Hz, at 16.67 L/min through clean tape. Gast Rotary Vane Pump, 230V, 50Hz, at 16.67 L/min through clean tape. Smart Inlet Heater, 120V, 60Hz, running at 100% high RH duty cycle. Smart Inlet Heater, 230V, 50Hz, running at 100% high RH duty cycle. Shelter One Mini Shelter, 120V, worst case with shelter heater ON Ekto Mini Shelter, 120V, 2000 BTU air conditioner. Ekto Mini Shelter, 120V, 4000 BTU air conditioner.
Amps 1.02A 1.25A 4.44A 2.30A 0.85A 0.76A 4.2A 7.4A 13.5A
Wattage 12W 150W 530W 530W 100W 175W 500W 586W 1172W
Table 2-1 BAM 1020 Power Requirements
Notes:
· The BAM transport motors only run for a few seconds each per hour. Quiescent BAM current is 760mA. · The vacuum pump runs for either 42 or 50 minutes per hour. Startup inrush current is higher. · Smart Heater wattage drops to idle at 20% (120V) or 6% (230V) when filter RH is below 35%. · The BX-902B shelter heater is usually off whenever shelter temp is over 40 degrees F and can be disabled. · Values are based on measurements or best available information. Additional information is available from Service.
Fuse: There is one 5x20mm, 2.0A, 250V SLO BLO fuse in an inline fuse holder located inside the BAM 1020 near the power switch. It can be accessed by removing the BAM 1020 enclosure cover.
Power Outages and Battery Backup: Any momentary AC power outages will reset the BAM 1020 CPU and prevent data collection for the sample hour. The BAM 1020 may be plugged into a PC-style uninterruptible power supply (UPS) battery back-up unit to prevent this. A UPS of at least 300 Watts is usually sufficient. The vacuum pump does not need to be connected to the UPS, because the BAM 1020 can compensate for short pump flow outages of less than 1 minute duration. If the pump is to be backed up, then a much larger UPS wattage is required.
Chassis Ground: Connect the ground marked “CHASSIS GROUND” on the back of the BAM 1020 to an earth ground point using the green/yellow ground wire supplied with the BAM 1020. A copper earth-ground rod is recommended. The chassis ground is primarily for added RFI/EMI noise immunity. The power cord also uses the standard electrical safety ground.
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2.7 Configuring External Sensors
The BAM 1020 must have a BX-597A or BX-598 sensor connected and properly
configured for operation. If the sensor is not present, the BAM 1020 will not
begin sampling.
2.7.1 Configuring the BX-597A / BX-598 Sensor The BAM 1020 requires the sensor
at address 1 of its serial network to begin sampling. Once the physical
connections are made (see section 2.5), the sensor is programmed using the
Digital Link screen located in the Test Menu 2 (see section 3.5).
Upon entering the Digital Link screen, any digital sensor connected to the BAM
1020 with address 1 or 2 will appear in either the Sensor 1 or Sensor 2
fields, as appropriate. In addition to the sensor type, the address fields on
this screen also display the firmware currently installed in the sensor. This
screen (right) shows a two sensor configuration.
Figure 2-6 Digital Link Screen
The State field indicates that the BAM 1020 is either starting up digital
communications or waiting for a response from the sensor. If firmware revision
is missing or incorrect, communications are not properly established with the
sensor. The SETUP button provides access to the Digital Setup screen for
configuring the addresses of the digital sensors. See section 2.7.2 for
details.
2.7.2 Changing Sensor Addresses The default address for most digital sensors
provided by Met One Instruments, Inc. is to set the address to 1.
If a connected sensor has an address other than 1 or 2, it can be located in the Digital Setup screen by pressing the SCAN button. The digital sensor network will scan through all potential network address nodes in an attempt to locate any connected devices. Progress of this scan can be seen in the third address field label (which displays Addr 3, by default) and the word “Scanning” will appear in the field itself.
Figure 2-7 Scanning for Sensors
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If a device is located at some other address, it can be changed by pressing CHANGE button next to the third address field. In the example shown to the right here, the BX-597A has been configured for address 14. Pressing the SET 1 button will update the address in the sensor to address number 1 and exit back to the main Digital Link screen. The Sensor 1 field will now display the BX- 597A details similar to the image in section 2.7.1.
Figure 2-8 Change Address
If two sensors share the same address, disconnect one of them and then use the CHANGE button to set the other one to a different address. Remember that the BX-597A / BX-598 must be configured for address number 1 and if an optional wind sensor is connected, it will need to be set to number 2.
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3 USER INTERFACE
This section describes the BAM 1020 user interface system, and explains the
functions of the main menu options, including how to view data and errors.
Figure 3-1 The BAM 1020 User Interface
The BAM 1020 user interface is a touchscreen display used to control almost
all of the features and functionality of the BAM 1020. It is mounted on the
back side of the front door assembly with access to the display granted
through a cutout on the door panel as shown in Figure 3-1.
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3.1 Main Operating Screen
In addition to the last hourly concentration reading, this screen shows the
current real-time values being measured and the operational state of the BAM
1020. The upper left image in Figure 3-2 is the screen that will normally be
displayed.
Figure 3-2 The BAM 1020 Main Operating Screens
Note that the display has a limited amount of space and cannot show all of the
real time data on one screen. Tap down arrow key in the lower left corner of
the display to navigate between the four screens shown in Figure 3-2.
Note: A concentration value of 99.999 mg/m3 or 99999 ug/m3 is an invalid
concentration measurement and is due to an appropriate alarm condition. It
will also be displayed when initially starting the instrument until completion
of the monitor’s first successful measurement sample.
Note: Returning to the Main Operating screen will place the unit in an ON and
ready to sample at the top of the hour state. If the unit is in an OFF state
and at some other screen the unit will return to the Main Operating screen
55-minutes after the last operator keypress. Leave the pinch rollers latched
in the UP position if you do not want the unit to restart automatically.
Warning: Do not forget to undo the latch before you leave the site!
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BAM 1020-9805 Manual Rev F.docx
Table 3-1 describes the other parameters visible in the main sampling display as shown in Figure 3-2. In addition to the hourly and real-time average concentrations, these are all of the logged parameters in the BAM 1020:
Parameter
Description
PM2.5
The Inlet Type setting
1.2 ug/m3
The concentration at Actual conditions of the last hourly sample
Status
The current operational status or alarm condition of the monitor
ConcS
The concentration at Standard conditions of the last hourly sample
Flow
The sample air flow rate in Actual LPM
Membrane
Results of the last span membrane test
AT
BX-597A or BX-598 AT sensor reading
RH
BX-597A RH sensor reading
BP
BX-597A BP sensor reading
Filter Temperature Internal Filter Temperature after the filter tape
Filter RH
Internal Filter RH after the filter tape
Filter Pressure
Internal Filter Pressure after the filter tape
Inlet Heater
Current operating percentage of the inlet heating element
WS
MSO / AIO 2 wind speed sensor reading
WD
MSO / AIO 2 wind direction sensor reading
Table 3-1 Main Display Parameter Descriptions
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3.2 Menu Hierarchy and Navigation
The BAM 1020 menu structure is outlined in the following table.
Main Menu Operate See Section 3.3 Test See Section 3.4
Setup See Section 3.5
Alarms See Section 6.4
Sub Menu Options
Load Filter Tape Transfer Data About Change Log Conc Chart
Leak Test Ambient Temperature Ambient Pressure Flow Calibration Self-Test
Filter Sensors Span Membrane Tape Sensors Inlet Heater Beta Counter Membrane
Sensors Nozzle Sensors Digital Link Relay Output Analog Calibration Analog
Output
Clock Sample Flow Calibration Inlet Heater Units Clear memory User Reports
Alarms Station ID Met Average Analog Outputs Serial Port Modbus Ethernet
Ethernet Config Sound Volume Touch Calibration Language
No sub menu
Overview
Load and properly tension the filter tape Download stored data to a USB memory
stick Details the unit serial number and firmware revision number Displays
changes to the monitor’s setting and calibration parameters Displays the
hourly concentration for the last 24-hours in chart form
Perform the leak test Calibrate ambient temperature or restore default
settings Calibrate ambient pressure or restore default settings Calibrate flow
rate or restore default settings Run the Self-Test Calibrate filter temp,
pressure, and RH or restore default settings Run the zero and span foil tests
Verify proper operation of the sensors for tape positioning Manually turn the
inlet heater on and off Verify beta counting Verify proper operation of the
sensors for membrane positioning Verify proper operation of the sensors for
nozzle positioning Verify and configure digital sensor network Manually open
and close the alarm relay Calibrate the analog output Test the analog output
Set the date and time Set sample configuration Set the Standard Temp to use
for standard conditions flow calculation Set background, Span membrane (ABS)
value, and span periodicity Configure heater operation, set points, and RH
thresholds Configure concentration and BP units Clear stored data and alarms
Create Admin and individual User passwords to change parameters Set type of
report and time stamp to start or end of hour Settings for concentration
error, delta-P thresholds, and maintenance flag Set the location number used
to identify the BAM 1020 Set averaging interval for collecting meteorological
data Configure the parameters for both analog outputs Set the baud rate and
connection type for serial communications Set the Modbus communication type
and address Set or update Ethernet communication options View current Ethernet
options and MAC address of the BAM 1020 Adjust the volume of the touchscreen
sounds Calibrate the touch screen Select the language to display on the touch
screen menus
View alarms
Table 3-2 Main Display Parameter Descriptions
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Menu selections and instructions are detailed in the following sections of this operating manual as detailed in the Main Menu column Table 3-2 above.
To access the various main menus, press the three horizontal lines in the top left corner. A drop down menu will appear (Figure 3-3) to allow selection of any of the four main menus. This option is available on all main menu screens (such as the Setup Menu shown in Figure 3-4) and on the main operating screen.
Figure 3-3 Main Menu Drop Down Selections
Figure 3-4 Setup Menu
To return to the main operating screen (see Section 3.1), press the Home icon located in the upper right corner of all main menu screens. This icon can clearly be seen in the Setup Menu image shown here on Figure 3-4.
To cancel an action and return to the previous menu screen, press the X icon located in the upper right corner of all sub menu screens. This icon can clearly be seen in the Set Clock screen image in Figure 3-5.
Figure 3-5 Set Clock Screen
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Figure 3-6 Visual Keypad for Numeric Entry
Some parameters, such as the Date and Time settings (Figure 3-5) or a Location value, require numeric entry. When a button is pressed to edit such a field, a visual keypad (Figure 3-6) will open up and provide a means to input the value. Press the OK key to accept the changes or the Cancel key to return to the previous screen. The X key on the far right performs a backspace operation. A similar screen also exists for letters and pick lists.
3.3 The OPERATE Menu
Selecting the Operate Menu from the menu selection drop list (see Figure 3-3)
provides access to the most commonly used areas for normal operation of the
BAM 1020 monitor. This will not interrupt the sample if already running.
3.3.1 Load Filter Tape
Figure 3-7 The Operate Menu
This menu option is used for filter tape installation. Load the tape and press the X key to go back to the Operate Menu. See Section 4.4 for details.
Figure 3-8 The Load Filter Tape Screen
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3.3.2 Transfer Data
Use this screen to copy data to a USB memory stick (flash drive). For
compatibility, USB flash drives must be formatted with the FAT or FAT32 file
system.
Figure 3-9 The Transfer Data Screen
The BAM 1020 can copy data files directly to a user-supplied USB flash drive.
This drive must be installed in the USB Type A port located on the upper
righthand corner of the transport plate (Figure 2-4). This USB port is not
used for any other purpose. The Days field determines how many records you
download. Enter the number of days between 0 and 999. Note: ALL DAYS is
selected by entering a 0. The Files field determines which files to copy to
the USB flash drive. The USER files (Settings, Alarms, Change Log, User Data)
are ones which are used for all routine data collection purposes. The ALL
option includes additional factory diagnostics files (Flow Stats, 5-Min Flow
and Factory Diagnostics) which are only used if data is being sent to Met One
Instruments for factory support.
Locate the USB slot on the transport plate and insert a USB memory stick.
Press the COPY button to copy the selected data to the USB memory stick.
When the COPY COMPLETE message is displayed, remove the USB memory stick and
close the front door of the BAM 1020.
Figure 3-10 The Copy to USB Drive Screen
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3.3.3 About
This screen shows the monitor’s serial number and installed firmware revision. It also provides the firmware revision of the touchscreen display.
Figure 3-11 The About Screen
3.3.4 Change Log
This screen shows changes to the monitor’s setting and calibration parameters,
and file transfers. The change log displays when a user changed a parameter,
what the previous setting was before the change, and the current value it was
changed to. Use the bottom arrows to scroll through parameter changes. If the
Admin password and Users have not been set up, the change log will record
admin as the user that made the change. See Section 3.5.8 for information on
setting up Admin and User accounts to add to the change log.
Figure 3-12 The Change Log Screen
The change log can also be downloaded from the transfer data screen (Section 3.3.2) or obtained using the serial command RCL. See Section 7.3.3 for a description of using serial commands on a terminal program.
3.3.5 Conc Chart
This screen shows a chart of the previous 24 hourly concentration measurement. This makes it easy for operators to see any trends in recent concentration levels.
Figure 3-13 The Conc Chart Display
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3.4 The TEST Menu System Overview
The BAM 1020 Test menus provide a means for testing the overall operational
health of the monitor. They are used for performing diagnostic checks on the
BAM 1020 sub-systems and can be invaluable for troubleshooting purposes. The
following sections provide an overview of the screens used to perform
calibrations and audits of various sensors, as well as some advanced
diagnostics to resolve failures and errors.
Figure 3-14 The Test Menu
3.4.1 Leak Test
This screen provides the options and indications needed to perform a leak test
of the sampling system. The pump control button in the lower left corner will
read PUMP ON which indicates that pressing it will turn on the pump.
Similarly, when the pump is running, this button will display PUMP OFF.
Use the LEAK ON button to lock the flow controller at its current value. This
locks the flow controller in position and prevents it from rotating to
regulate the flow.
Figure 3-15 The Leak Test Screen
The nozzle control button in the lower right corner will always be labeled as
NOZZLE when first entering this test screen. Pressing it will cause the nozzle
to change state from up to down or down to up. The button will now display
what will happen if it is pressed again, just like the pump control button.
This means that it will read NOZZLE UP if the nozzle is in the down position
or NOZZLE DOWN if it is in the up position.
The Flow, Filter Pressure, and Nozzle fields are provided for reference when
performing the leak test. See Section 6.3.5 for detailed instructions on
performing a leak test.
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3.4.2 Ambient Temperature
This screen provides the options and indications needed to default, verify,
and calibrate the ambient temperature sensor as part of the flow audit and
calibration. See Section 6.3.7.1or detailed instructions.
3.4.3 Ambient Pressure
Figure 3-16 The Ambient Temperature Screen
This screen provides the options and indications needed to default, verify,
and calibrate the ambient pressure sensor as part of the flow audit and
calibration. See Section 6.3.7.2 for detailed instructions.
3.4.4 Flow Calibration
Figure 3-17 The Ambient Pressure Screen
The Flow Calibration menu is where the important flow audits, checks, and calibrations are performed on the BAM 1020. See Section 6.3.7 for detailed instructions.
Figure 3-18 The Flow Calibration Screens
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3.4.5 Self Test
This screen provides a means to manually run the self-test sequence Press X to
exit once it is complete. See Section 4.5 for more details.
3.4.6 Filter Sensors
Figure 3-19 The Self Test Screen
Figure 3-20 The Filter Sensors Screens
These screens provide the options and indications needed to default, verify,
and calibrate the filter temperature, filter humidity, and filter pressure
sensors. See Section 6.2 for detailed instructions.
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3.4.7 Span Membrane
This screen provides a means to manually run the Span Membrane Test that
occurs automatically either daily or during every sample period (see Span
Check in Section 3.5.4). This test should be run if the BAM 1020 has been
recording D errors (see Section 6.4).
Figure 3-21 The Span Membrane Screen
Each BAM 1020 is provided with its individual span membrane, and this mass is
measured and displayed during this test. Compare the Measured Mass value from
this test with the Span Membrane value on the calibration sheet for the BAM
1020. The values must match within 5% and will typically match within just a
few micrograms. If not, the most common cause is a dirty membrane foil, which
can be carefully cleaned with canned air or clean water rinse. Alcohol is not
used because it leaves a film. Compact Disc cleaner works well for badly
soiled membranes. Caution: The span membrane foil is a thin sheet of polyester
and is fragile. It must be replaced if damaged. Contact the Service department
for replacement instructions. The Status field indicates the state of the
membrane position. The Zero Count (I1) value is the total beta count through
the filter tape only. The Span Count (I2) value is the total beta count
through both the filter tape and the membrane and should always be less the I1
count. The Measured Mass value is the measured mass of the foil derived from
the two count values. The Percent Error results show the amount of deviation
of the Measured Mass from the Span Membrane setting value. Press the START
button to begin the test cycle. Counting will immediately begin. After some
time, the I1 count will stop, the membrane will extend, and the I2 count will
begin. At the completion of the test, the counting will stop, and the mass of
the membrane will be calculated. The length of the test is ~8 minutes. The
Percent Error should be <+/- 5%.
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3.4.8 Tape Sensors
This screen provides a convenient location to verify, test, and troubleshoot
the various optical sensors that monitor the mechanical movement and
positioning of the filter tape.
The FORWARD and BACKWARD buttons move the tape forward or backward by one
sample spot.
Figure 3-22 The Tape Sensors Screen
The states of the five photosensors that monitor all of the mechanical
movement in the BAM 1020 tape transport assembly are displayed here. This is
useful if the BAM 1020 has failed some of the Self-Test parameters. The
sensors on this screen provide the following information:
Latched: This sensor shows the status of the pinch roller latch. If the
rollers are latched in the UP position, then S9 should be ON. S9 should turn
OFF if the latch is unhooked.
At Window: This photosensor indicates the rotation of the capstan shaft motor.
This is the shaft under the rubber pinch rollers which drives the filter tape
forwards and backwards. It normally will move the tape one sample spot (or one
window). Press the FORWARD button to rotate the capstan counter-clockwise, and
the BACKWARD button to rotate clockwise. The shaft should turn one-half of a
rotation each time, moving the tape one window in the indicated direction.
Photosensor S8 should turn ON to stop the shaft at each half-turn and will be
OFF while the shaft is turning. It is helpful to put an ink mark on the end of
the shaft to more easily observe the rotation.
To Supply Side: This photosensor monitors the position of the shuttle beam
(the two outer tape rollers that move together). The status of photosensor S7
should only change to ON when the beam is moved all the way to the right (or
supply tape spool) side. The shuttle must be moved by hand for this test. It
rides on a ball slide and is not motor-driven. Note: This test may cause the
filter tape to break. It should be removed before testing this sensor.
Tensioned and Tape Break: These photosensors monitor the position of the
right-side springloaded tape tensioner. The tensioner must be moved by hand.
When the tensioner is in the leftmost position under its spring pressure, both
sensors S6 and S1 should be OFF. If the tensioner is moved to the middle of
its travel, photosensor S1 should be ON and S6 OFF. When the tensioner is at
the rightmost position, S1 and S6 should both be ON. These are the sensors
which monitor tape breakage and tape tensioning. The left side tensioner
assembly has no photosensors. Note: This test may cause the filter tape to
break. It should be removed before testing this sensor.
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Pinch Roller Latch with latch photosensor
Capstan Shaft with motor and photosensor
Shuttle Beam connected to other side
Left Tensioner Idler no photosensors
Tape Take-Up Reel with motor
Nozzle with motor and two nozzle photosensors
Reference Membrane with motor and two photosensors (back side)
Shuttle Beam with shuttle photosensor
Right Tensioner Idler with tape break and tension photosensors
Tape Supply Reel with motor
3.4.9 Inlet Heater
Figure 3-23 The Tape Transport Assembly
This screen allows manual operation of the inlet heater assembly. Press ON to turn the heater on and verify the element heats up as expected. Press OFF to turn the heater off; verify it shuts off and then cools down. Exiting this test screen will also turn off the heater.
3.4.10
Beta Counter
This screen allows for testing of the beta detector and beta source. The
length of one count test is determined by the Beta Count setting.
Each count test will show the number of beta particles being counted as they
accumulate. The final count total will stay on the display after the counting
is finished.
Figure 3-24 The Inlet Heater Screen Figure 3-25 The Beta Counter Screen
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Up to ten count tests can be displayed on the screen at once. Count tests are
usually performed with a clean section of filter tape between the source and
detector, as in normal operation.
Press the START button to start the count test. The count value on the screen
will immediately begin to count rapidly if the detector is operational and
unobstructed. Typical values for a 4-Minute Beta Count test through clean
filter tape are between 600,000 and 1,100,000 counts. The count total will be
lower if the membrane is extended. After the Beta Count time has elapsed the
next Beta Count time will begin.
Dark Count Tests: A steel shim such as Met One Instruments part number 7438
can be placed between the beta source and detector to perform a dark count
test. The shim blocks all beta particles, and only counts created by noise or
cosmic rays will appear. The total four-minute dark count value should be less
than 10 counts. If the total is more than 50 counts, contact the Met One
Instruments service department for assistance (see Section 1.2).
3.4.11
Membrane Sensors
This screen tests the two photosensors which monitor the position of the reference membrane assembly. Pressing the EXTEND button extends the membrane out of the housing and positions it over the filter tape. The WITHDRAW button retracts it back into the housing. It takes a few seconds for the membrane to complete the full range of travel.
Figure 3-26 The Membrane Sensors Screen
When the EXTEND button is pressed, the membrane should extend and the S2 photosensor should turn ON while S3 should turn OFF. When the WITHDRAW button is pressed the membrane should withdraw and the S2 photosensor should be OFF and S3 ON. While the membrane is traveling, both S2 and S3 will be OFF.
3.4.12
Nozzle Sensors
The Nozzle Sensors screen is used to test the two photosensors which monitor
the position of the nozzle assembly. Pressing the NOZ UP button raises the
nozzle up off of the filter tape. The NOZ DOWN button lowers the nozzle until
it seals against the tape.
The Status field indicates the current position of the nozzle as either UP or
DOWN.
Figure 3-27 The Nozzle Sensors Screen
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When the nozzle is in the UP position, the S4 photosensor will be ON and S5 will be OFF. Conversely, when the nozzle is in the DOWN position (as shown in Figure 3-27), S4 will be OFF and S5 will be ON.
3.4.13
Digital Link
Test digital communications with the BX-597A / BX-598 sensor by using this
screen. The Digital Link should indicate OK when the proper link is
established.
See section 2.7 for details on how to configure the BX-597A / BX-598 sensor,
as well as any optional wind sensors that may be connected.
Figure 3-28 The Digital Link Screen
3.4.14
Relay Outputs
This screen is used to test the Alarm relay on the back of the BAM 1020. The
relay contact is Normally Open (NO).
Verify that the contact closure output on the back panel terminals responds
accordingly using an Ohm-meter.
Figure 3-29 The Relay Output Screen
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3.4.15
Analog Calibration
This screen allows for calibration of the two analog output channels.
The channel field defines whether output number one or two is being
configured. Tap the green bordered Channel selection box to select the desired
channel. The voltage range will be displayed in the Range value box. Use the
Analog Outputs screen in the Setup menu to adjust this range. See Section
3.4.16.
Figure 3-30 The Analog Calibration Screen
After selecting the output channel, the Measure field may be adjusted to
maximum or minimum value and the output of the channel confirmed. Just tap the
green bordered Measure box and select the desired test output. Verify the
actual output using a voltmeter at the appropriate channel terminals on the
rear panel of the BAM 1020.
If the output is not correct, use the up and down arrow keys to modify the
Adjust field. When the FINE/COARSE selection is set to FINE, units will be
incremented by one. If it is set to COARSE, the units will be incremented in
tens. Tap the button to swap between the two options.
Pressing the X key to exit the screen will save any adjustments that have been
made. To clear any custom settings and restore the factory defaults, press the
grey RESET button.
Note: This function is critical for all users of external analog data loggers.
Measure the voltage all of the way to the input of the data logger. Every
millivolt of error is a microgram of error! Make sure the logger is scaling
the voltage correctly. In most cases 0.000V should scale as -0.015mg, and
1.000V should scale as 0.985mg. See Section 3.5.13.
3.4.16
Analog Output
To test the analog output channels, select channel number one or two on the top row marked Channel by pressing the green bordered Channel selection box.
Next, set the desired concentration level using the Conc Output field. Press the green bordered selection box and set the concentration value. It will need to be within the range configured range, typically between -15 and +985. See Section 3.5.13.
Figure 3-31 The Analog Output Screen
The Min Out and Max Out fields should match the zero and full scale values for the selected output. Between them is the Set Out field, which will update with the expected output based on the concentration selected in the Conc Output field. Verify the output on the back of the BAM 1020 matches the Set Out value shown using a voltmeter.
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Note: This function is critical for all users of external analog data loggers.
Measure the voltage all of the way to the input of the data logger. Every
millivolt of error is a microgram of error! Make sure the logger is scaling
the voltage correctly. In most cases 0.000V should scale as -0.015mg, and
1.000V should scale as 0.985mg. See Section 3.5.13.
3.5 Setup Menu Description
The BAM 1020 uses a comprehensive system of setup menus which contain all of
the settings and parameters needed to perform the measurement and operation of
the BAM 1020. Most of these settings are set at factory default values,
although some settings may be altered by the operator. This section describes
the SETUP menu in detail and should be reviewed when the instrument is first
put into service. Once set, most of the values in the SETUP menus will not
need to be changed. The SETUP values will not be lost if the BAM 1020 is
unplugged or powered down.
WARNING: Some of the settings in the SETUP menus are unit-specific calibration
constants which must not be changed, or the accuracy and proper operation of
the BAM 1020 may be affected.
Select the SETUP from the drop down selection (see Figure 3-3). The Setup Menu
provides a choice of operations. Use the arrow keys to navigate to the desired
field, then press the SELECT soft-key to enter.
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Figure 3-32 The Setup Menus BAM 1020-9805 Manual Rev F.docx
3.5.1 Clock
This is the screen used to set the date and time. Edit each field as required.
Once all fields have been entered, press the SET button to set the clock.
Figure 3-33 The Clock Screen
Note that time is configured as a 24-hour clock only. The lithium battery
backup keeps the clock running during power-down. Met One Instruments, Inc.
recommends a monthly check of the clock. Warning: The recommended time to set
the clock when the BAM is sampling is between minute 30 and minute 40. Setting
the clock outside this range may cause the BAM to sample past the top-of the
hour. 3.5.2 Sample
The Sample screen is used to configure the various parameters that directly impact the air sample measurement.
Figure 3-34 The Sample Screen
Inlet Type: This setting helps users identify whether the BAM 1020 is
collecting TSP, PM10, PM2.5 or PM1 data. Whichever option is selected sets the
corresponding label to be displayed at the top of the main menu screen. This
setting is for providing indication on the display only and does not impact
any of the actual data collection or reports.
Conc Units: This setting determines the concentration units which the BAM 1020
displays. This can be set to g/m3 (micrograms) or mg/m3 (milligrams) per cubic
meter. The default setting is mg/m3. Note: 1.000 mg = 1000 g.
Beta Count: This value sets the number of minutes that the monitor will use to
count the sample. See Section 5.1 for a description of the hourly cycle. The
BAM Sample time must be set to correspond to the Beta Count value. If the BAM
1020 is used for PM2.5 FEM or EU PM2.5 monitoring, the BAM Sample must be set
to 42 minutes with 8-minute Beta Count time. PM10 monitors are usually set for
a 50 minute sample time with 4 minute count time.
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Count Time 4 minutes 8 minutes
BAM Sample 50 minutes 42 minutes
Used for PM10 monitoring (Higher “Lower Detection” limit) All PM2.5 FEM, EU PM2.5 monitoring, PM10 monitoring
Table 3-3 Typical Beta Count / BAM Sample Time Configurations
BAM Sample: This value sets the number of minutes per sample hour that the pump is ON. See Section 5.1 for a description of the hourly cycle. The BAM Sample time must be set to correspond to the Beta Count value as detailed in the Beta Count explanation above.
The BAM Sample setting has a range of 0-200 minutes for custom applications. If set for shorter period, such as 15 minutes, the pump will only sample for 15 minutes and then wait until the end of the hour before beginning a new cycle. This may not leave time for the membrane span check. Only one pump cycle per hour is allowed, regardless of duration. Setting the BAM SAMPLE value too long may cause the total measurement cycle to overlap into the next hour, so that the BAM 1020 only collects the concentration every second hour.
Cycle Mode:
Set the BAM 1020 to operate in either Early Cycle or Standard mode. See
Section 7.2.2 for details.
3.5.3 Flow
This screen allows the selection of the preferred Standard Temperature value.
This is used to calculate the Standard Volume which is used to determine the
Standard Concentration value shown on the main operate screen (see Section
3.1). The available options are 0, 20, and 25 C.
3.5.4 Calibration
Figure 3-35 The Flow Screen
This screen allows for setup of certain calibration values for the BAM 1020;
the Background, Span Membrane (synonymous to ABS), and Span Check frequency
There is also an ADVANCED sub menu here that should only be accessed under the
direction of Met One Instruments, Inc.
Figure 3-36 The Calibration Screen
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Background:
Background is used to compensate for measured mass concentration output in
the absence of PM. It is determined by performing the zero test with the BX-302 Zero Filter (see
Section 6.9). With a properly set Background value, a BAM 1020 making multiple readings of air with
zero PM should read, on average, 0 g/m3. Regardless of the concentration unit setting (see Section
3.5.4), the background is always entered in mg/m3.
Span Membrane: The Span Membrane is the factory-set expected mass of the reference membrane foil used during the automatic span check. This expected value is compared to the measured value either hourly or daily (see Span Check below). Each unit’s Span Membrane value is different, but is typically near 0.800 mg/cm2. The Span Membrane value is never changed by the operator unless the span membrane foil is replaced due to damage.
Span Check:
This setting determines how often the BAM 1020 performs the automatic span
membrane check. If the value is set to 1 HR, the BAM measures and displays the span each hour
(see Section 3.1). If this value is set to 24 HR, then the BAM will only perform the span check once
per day during the sample hour beginning at midnight and during any sample hour following a power
failure. The resulting value will be displayed throughout the rest of the day. If this value is set to OFF,
the span check will be disabled entirely.
ADVANCED: The ADVANCED button provides access to the factory set parameters of
the KFactor and Usw. These should never be changed without the guidance of the
Met One Instruments, Inc. service department.
WARNING: Altering these values voids the factory calibration and will
invalidate all data collected by the BAM 1020.
Figure 3-37 The Advanced Calibration Screen
A warning screen will pop up when the ADVANCED button is pressed indicating
that changing these parameters will void the calibration.
K-Factor: This is an instrument specific calibration factor for the BAM 1020
concentrations. It is determined during the calibration process by running the
BAM 1020 against a calibration standard while both are sampling from a smoke
chamber over a wide variety of concentrations. The values will typically range
from 0.9 to 1.1.
µsw: This is called the mu-switch value and is the factory-set mass absorption
coefficient used by the BAM 1020 in the concentration calculations. The value
is typically around 0.3 and may vary slightly from one BAM 1020 to the next.
3.5.5 Inlet Heater This menu is used to configure the settings used by the BAM
1020 to control the Smart Inlet Heater. The BAM 1020 uses an RH sensor located
below the filter tape in the sample air stream to monitor the conditions of
the air as it is being sampled. If the measured relative humidity of the
sampled air stream is higher than about 50% then PM measurements might be
skewed higher than those of a collocated reference sampler. The Smart Heater
can reduce this effect by actively heating the inlet tube by warming the
sampled air stream whenever the RH value measured downstream of the filter
tape exceeds a user selectable value.
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These are the default settings for the Smart Heater. Unless there is a compelling reason to change them, it is highly recommended to leave these settings at their default values.
Figure 3-38 The Inlet Heater Menu
RH Set point:
This is the relative humidity level that the filter will be regulated at or below by the
inlet heater. This value must be set to 35% for the version of the BAM 1020 employing the smart
heater when operated as a PM2.5 US-EPA designated federal equivalent method. The RH set point is
set to 45% for European (EU) PM2.5 units and may be either 35% or 45% for PM10 units. The RH set
point is otherwise adjustable from 0% to 99%.
Low Power:
This is the power level of the smart heater when the Filter RH value is below the
FRH setpoint. A 20% setting should be used for 115 VAC heater (BX-827) and 6% for 230 VAC
heater (BX-830).
It should be noted that the relative humidity downstream of the filter tape will typically not be the same as the ambient relative humidity. Relative humidity is a measure of how much moisture the air is holding compared to how much moisture the air can hold (dew point) and is strongly temperature dependent. For example, if the ambient relative humidity is 50% and the ambient temperature is 3°C, the relative humidity downstream of the filter tape would be about 22 % were the filter temperature 15°C, which means that the Smart Heater would not have to apply additional heat were the BAM 1020 to be operated inside of a temperature-controlled enclosure set to maintain an instrument temperature of about 20 °C in order to maintain the filter temperature RH value of 35%.
3.5.6 Units
The Concentration and Pressure units are selected here.
The Conc Units are ug/m3 and mg/m3.
The Pres Units are mmHg and kPa.
Figure 3-39 The Units Screen
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3.5.7 Clear Memory
Figure 3-40 The Clear Memory Screens
The alarm and data logs may be cleared from this screen. Press CLEAR DATA
button to clear the data logs (Data, Flow Stats, and 5-Min Flow files) or
press the CLEAR ALARM button to clear the alarm log. A confirmation screen
will appear to confirm clearing the selected memory log (see Figure 3-40).
Press the CLEAR button to proceed with clearing the data or alarm logs. Press
the X in the upper right corner to cancel the operation without erasing the
memory.
3.5.8 User
Critical settings and calibrations on the BAM 1020 can be password protected.
The monitor will ship with the Admin user and a blank password as the only
specified user. Access to screens is not restricted in this configuration. All
changes made will be logged in the change log as the Admin user.
Once Users are created, their user name will be listed in the change log for
parameters they change.
Figure 3-41 The Initial User Screen
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The Admin user manages all the other user accounts. Once a password is set in
the Admin user account, only operators who log in with an authorized username
and password will be allowed to make any changes to the instrument. The Admin
user will be able to change the Admin password, add or delete any regular
users, and edit the usernames and passwords of those users. The Admin can
deactivate any user in the list by setting their password blank.
Usernames and passwords can be up to 15 alphanumeric characters.
Figure 3-42 The User Admin Screen
Passwords are not displayed in plain text during entry or editing on screen.
All characters entered will be displayed as an asterisk character. All
password changes will require a second password entry as verification.
If no user is logged in when accessing a protected screen, a login screen will
pop up to log a user in before proceeding to the screen. Canceling out of the
login screen or not supplying correct credentials will return to the Operate
Menu. The login screen will have a pick list of configured users. The picklist
will remember the last user logged in for ease of use. Entering the correct
password will continue to the screen requested.
Once a user is logged in, they will stay logged in until there is 10 minutes
of inactivity after which they will be automatically logged out. Regular uses
have the option of changing their password or logging out immediately and not
waiting for the inactivity timeout.
Password settings are not reported. If a regular user loses their password,
the Admin user can change the password to a known value. Contact the Met One
Instruments service department (see Section 1.2) for instructions if the Admin
password is lost or forgotten.
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3.5.9 Reports
The BAM 1020 offers three different CSV (comma-separated values) report types;
Standard, Generation 2, and China HJ 653. The selected report is available
from the USB, RS-232, TCP/IP serial ports, or the USB flash drive
The Protocol Type selection, STANDARD or GENERATION 2, determines the
available report types (see Section 3.5.14).
The Time Stamp field can be set to mark the collected data with the time from either the beginning or ending of the sample period. For example, if set to BEGINNING, data collected during the hour from 08:00 to 09:00 would be marked as 08:00. Similarly, if that data were collected with ENDING as the choice, the data time stamp would be 09:00 instead. The default setting for Time Stamp is ENDING. The BEGINNING setting only works when the Met Average period is set to 1 HR (see Section 3.5.12).
Figure 3-43 The Report Setup Screen
3.5.9.1 Standard Report If backwards compatibility is needed use the Generation 2 reports.
Press the VIEW button to view the active report parameter list.
The STANDARD report is active when the Protocol Type selection is STANDARD.
Figure 3-44 The Standard Report
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The following is the description of each Standard report parameter.
Parameter
Description
Time
The beginning or ending Time Stamp (Figure 3-43) of the data record being
reported. The Standard report time format is yyyy-MM-dd HH:mm:ss.
The Generation 2 and HJ 653 report time format is MM/dd/yy HH:mm.
Conc(mg/m3)
The sample mass concentration at actual temperature and barometric pressure
conditions.
Concentration Units (Figure 3-39) are either ug/m3 or mg/m3.
ConcS(mg/m3) The sample mass concentration at Standard Temperature (Figure
3-35) and barometric pressure conditions (760 mmHg).
Concentration Units are either ug/m3 or mg/m3.
Qtot(m3)
Total air sample volume for the BAM Sample period (Figure 3-34) at actual temperature and barometric pressure conditions.
QtotS(m3)
Total air sample volume for the BAM Sample period at Standard Temperature and barometric pressure conditions (760 mmHg).
Flow(lpm)
The average flow rate for the BAM Sample period.
WS(m/s)
The average wind speed for the MET Sample period (Figure 3-53). Requires the AIO 2 or MSO-584 WS/WD type sensor.
WD(Deg)
The vector average wind direction for the MET Sample period. Requires the AIO 2 or MSO-584 WS/WD type sensor.
AT(C)
The average ambient temperature for the MET Sample period. Requires the BX598 or BX-597A type sensor.
RH(%)
The average ambient RH for the MET Sample period. Requires a BX-597A sensor.
BP(mmHg)
The average ambient barometric pressure for the MET Sample period. Pressure Units (Figure 3-39) are either mmHg or kPa.
FT(C)
The average filter temperature for the BAM Sample period.
FRH(%)
The average filter RH for the BAM Sample period.
Memb(mg/cm2) The Span Membrane measurement during the BAM Sample period.
Status
The Alarm status (Section 6.4) for the MET Sample period.
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3.5.9.2 Generation 2 Menu
The Generation 2 report options replicate the reports available in the
previous BAM 1020 (Generation 2). They are included here to provide backwards
compatibility with previous monitors. Met One Instruments, Inc. recommends
using the Standard Report if this compatibility is not required for data
collection purposes.
Press the GEN-2 button on the Report Setup screen to display the Generation 2 menu selection. The GEN-2 button is only active when the Protocol Type selection is GENERATION 2. Use these menu items to configure the Generation 2 and China HJ 653 reports.
3.5.9.3 Report Types
There are two (2) Report Types: GENERATION 2 and CHINA HJ 653. These reports
are only available when the Protocol Type is set to GENERATION 2. These
reports are available for backward compatibility to the previous BAM 1020
(Generation 2). Press the VIEW button to show the GENERATION 2 or CHINA HJ 653
report format.
Figure 3-45 The Generation 2 Menu Figure 3-46 The Report Type Setup
Figure 3-47 The Generation 2 Report is an example of the GENERATION 2 report format.
Figure 3-47 The Generation 2 Report
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Figure 3-48 The China HJ 653 Report is an example of the CHINA HJ 653 report
type format. This report will format the data to match the Chinese National
Standards on Environmental Protection document HJ 653-2013.
3.5.9.4 Concentration Setup
Figure 3-48 The China HJ 653 Report
These settings configure the concentration parameters.
Figure 3-49 The Concentration Setup Screen
Conc Type: Sets the Concentration (Conc) Type to be reported using either
ACTUAL (Conc) or STANDARD (ConcS) sample volume conditions.
In the case of the HJ 653 report it sets the order of the Concentration Type
(ACTUAL or STANDARD) to be reported. The HJ 653 report format (Figure 3-48)
above is for the Conc Type set to ACTUAL.
Conc Range: Sets the upper end of the Concentration Range for the report.
The selections are: 100, 200, 500, 1000, 2000, 5000, or 10000 ug/m3.
Conc Offset: Sets the lower end of the Concentration Range for the report.
The selections are: -15, -10, -5, 0, or 5 ug/m3.
For example, if the Range is 1000 and the Offset is -15 then the maximum
possible concentration value reported will be 985 (1000 – 15) and the minimum
possible concentration value reported will be -15. A concentration value of
1104 ug/m3 will be reported as 985 ug/m3. A concentration value of -19 ug/m3
will be reported as -15 ug/m3.
Dynamic Range: Sets the Dynamic Range of the concentration conversion to
either STANDARD or EXTENDED. The EXTENDED range is automatically selected when
the CHINA HJ 653 Report Type is selected. The STANDARD conversion is 4095 over
the Conc Range setting. The EXTENDED conversion is 65535 over a fixed
concentration range of 10000 ug/m3. The reported concentration resolution is
Concentration Range divided by Dynamic Range. For example, the resolution of
10000 / 4095 is 2.4 ug/m3. The resolution of 10000 / 65535 is 0.15 ug/m3.
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3.5.9.5 Logger Setup
The channels of the Logger Setup represent the analog inputs on the rear panel
or software assignments of the Generation-2 BAM 1020. The channel assignments
shown are typical for a Generation-2 BAM 1020. The XXXXX(XXX) report parameter
represents a log channel selection of NONE.
3.5.10
Alarms
The Alarms setup screen provides options for defining the behavior of certain alarms. Specifically, it allows users to determine the threshold for the filter tape pressure alarm, how a concentration error is recorded, and the ability to manually set and remove the maintenance flag.
Figure 3-50 The Setup Logger
Figure 3-51 The Alarms Screen
Filter Pressure: This is the maximum amount of increase in pressure drop which is allowed to occur across the filter tape due to heavy dust loading, before the “P” alarm will be generated. Setting this parameter higher will allow more dust to accumulate before the sample is terminated but may cause flow regulation problems. See the pressure-drop alarm description in Section 6.2. The default setting of 150 mm Hg is correct for most applications using the standard Medo or Gast pumps. Larger pumps can accommodate a higher Filter Pressure setting and higher dust loads while still being able to regulate the sample flow. The setting range is 0-500 mmHg.
Conc Error: This parameter determines what is displayed and reported whenever one of the major alarm types that affects the concentration calculation is present. Minor alarms such as E, U, R, P, or D do not trigger this behavior and will still record the actual concentration value. There are three choices: FULL SCALE VALUE, MIN SCALE VALUE, and “ERROR” TEXT.
FULL SCALE VALUE The full scale concentration value (99.9999 mg/m3) will be displayed on the Main Operate screen, reported on all data reports, and output on the analog output terminals.
MIN SCALE VALUE
The minimum scale concentration value (-0.015 mg/m3) will be displayed
on the Main Operate screen, reported on all data reports, and output on the analog output
terminals.
“ERROR” TEXT
The full scale concentration value (99.9999 mg/m3) will be output on the
analog output terminals. The word ERROR will be displayed in place of the concentration
value on the Main Operate screen. The word ERROR will also be printed in place of the
concentration value in the CSV data reports.
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3.5.11
Station ID
The BAM 1020 may be identified with a numeric station ID number. The default value is 1 but any number from 1 to 999 may be set.
3.5.12
Met Average
Figure 3-52 The Station ID Screen
The averaging period for parameters other than concentration may be set to intervals shorter than one hour, if needed. The averaging interval is selected from this screen. The available average intervals are 1, 5, 10, 15, and 30 minutes or 1 HR (for a one hour average).
Figure 3-53 The Met Average Screens
Warning: This setting will affect how long the memory will last before getting full!
There are 14000 records available in the memory. The memory capacity is shown below. When the memory gets full the BAM 1020 overwrites the oldest data. It is recommended that the MET SAMPLE period is set at the default value of 60 minutes unless a faster average is required for a particular met sensor application.
MET SAMPLE 60 min 30 min 15 min 10 min 5 min 1 min
Data Capacity 586 days 293 days 146 days 97 days 48 days 9 days
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3.5.13
Analog Outputs
There are two analog output channels. They are located on the back panel as
Analog Out 1 and Analog Out 2.
They represent the hourly concentration and standard concentration
measurement, respectively. These two outputs are independently set to either
0-1.0, 0-2.5 or 0-5.0 VDC.
Figure 3-54 The Analog Output Screen
While the output voltage is set independently, there is only one concentration
range setting (the Conc Range field) and it is applied to both channels. The
Conc Range field can be set to 100, 200, 500, 1000, 2000, 5000, or 10000 g/m3.
The default setting is 1000 ug/m3. The offset for the concentration range
(Conc Offset) can be adjusted to -15, -10, -5, 0, 5 g/m3. It should be left at
the default value of -15 ug/m3 for most applications.
Regardless of the concentration units setting, the scaling and offset is
always entered in g/m3.
3.5.14
Serial Ports
There are serial connections on the back of the BAM 1020. Each one serves a unique purpose in the communication options available for the monitor and each one is configured separately.
The RS-232 connections will typically be used for direct connection to a PC or other RS-232 compatible device.
The RS-485 port will typically be used with the Met One CCS Modem option.
Figure 3-55 The Serial Port Screen
The baud rate options are 2400, 4800, 9600, 19200, 38400, 57600, and 115,200. The default value is 115,200 baud.
Flow control may be required to compensate for slow or noisy Ethernet or modem connections. In these situations, the RS-232 serial connection can be configured to use XON/XOFF flow control. Flow control is set to NONE by default but can be changed using the Flow Control-232 selection box.
The Protocol Type selections are STANDARD and GENERATION 2.
Select the STANDARD protocol for the latest and most advanced serial command protocol.
Select the GENERATION 2 protocol to be compatible with the previous generation BAM 1020.
Protocol documents can be found on the BAM 1020 product webpage under ADDITIONAL TECHNICAL INFORMATION side bar.
See Section 7.3 for more details about serial communications.
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3.5.15
Modbus
The BAM 1020 can use the RS-232 or RS-485 serial connections on the back panel
for Modbus communications.
Use the Modbus Port field to set which ports will be the Modbus Slave Port:
Use the Modbus Address field to set a unique Modbus Slave address from 1 to
247.
3.5.16
Ethernet
Figure 3-56 The Modbus Screen
This screen allows for setting the IP Address, Subnet Mask, and Gateway, and
DNS Server values to allow the BAM 1020 to communicate on a local area network
using a standard Ethernet cable connected to a switch or router.
The values input here should be provided by the site IT department.
Figure 3-57 The Ethernet Screen
It is recommended to configure the BAM 1020 with a fixed IP address if using
Ethernet communications. However, if needed, setting the IP address to 0.0.0.0
will configure the monitor for DHCP operation. The IP address port will always
be 7500.
3.5.17
Ethernet Config
This screen is used to view the current Ethernet settings of the BAM 1020. In
addition to the IP Address, Subnet Mask, Gateway, and DNS Server settings (see
Section 3.5.16 for details on changing these values), the MAC Address of the
BAM 1020 can also be viewed here. Be aware the IP address port will always be
7500.
Note that this screen is for display purposes only. No changes can be made on
this screen.
Figure 3-58 The Ethernet Config Screen
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3.5.18
Sound Volume
The touchscreen will beep every time a selection is made, and that volume may be adjusted in this screen. Set a value from 0 to 100 with 100 being very loud and 0 being no beep at all. Any changes made here will not be active until exiting this screen. The default setting is 10.
3.5.19
Touch Calibration
If the touchscreen response seems inaccurate, the screen calibration may be
adjusted using this menu option. Press the CALIBRATE button to begin the
calibration process and then follow the instructions on the screen.
A five second countdown is displayed on each step. If it reaches zero, the
test will be cancelled, and the display will return to the Setup menu.
3.5.20
Set Language
Figure 3-59 The Sound Volume Screen Figure 3-60 The Touch Calibrate Screen
The BAM 1020 provides language options for its interface display. Use this screen to set a preferred language supported.
Figure 3-61 The Set Language Screen
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3.6 Alarms Menu
This screen is used to view time-stamped alarm events. The most recent alarm
will be displayed first. Use the up and down arrow keys located at the bottom
of the screen to scroll through the alarm log.
Figure 3-62 The Alarms Menu
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INITIAL SETUP OF THE BAM 1020
This section describes the process for setting up and configuring the BAM
1020, as well as the basic steps required to put the BAM 1020 into operation.
Some of the topics in this section will refer to other sections of this manual
for more detailed information. It is assumed that the BAM 1020 is already
installed and sited as described in Section 2. In some cases, it is useful to
first set up the BAM 1020 on a test bench before deployment or installation in
order to explore the functions and perform setups. The following steps for
starting up the BAM 1020 are described in this section:
1. Power on and warm up.
2. Become familiar with the user interface.
3. Load a roll of filter tape.
4. Perform a Self-Test.
5. Set the real-time clock and review the SETUP parameters.
6. Perform a leak check and a flow check.
7. Return to the top-level menu and wait for automatic start at the top of
the hour.
8. View the OPERATE menus during the cycle.
4.1 Power Up
The power switch is located on the back of the BAM 1020. Verify that the BAM
1020 external power supply, external vacuum pump, and the heater relay
enclosure power cables are connected to the correct AC voltage, and that any
electrical accessories are correctly wired before energizing the unit.
(Section 2.6) When power is switched on, the unit will take about 15 seconds
to boot up the touch screen display module, after which the main menu screen
should appear. The unit will probably flash an error indicating that there is
no filter tape installed.
4.2 Warm-up Period
The BAM 1020 must warm up for at least one hour before valid concentration
data can be obtained. This is because the beta detector contains a vacuum tube
which must stabilize. This also allows the electronics to stabilize for
optimal operation. This applies any time the BAM 1020 is powered up after
being off for more than a moment. Instrument setups and filter tape
installation can be performed during the warm-up time. It is not uncommon to
discard the first few hours of data after the equipment is powered up.
4.3 The Main Operate Screen
When the BAM 1020 is powered up it will display the Main Operate screen. This
screen is the starting point for all functions of the BAM 1020 user interface.
See Section 3.2 for a detailed explanation of the menu system interface.
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4.4 Filter Tape Loading
A roll of Met One glass fiber filter tape must be loaded into the BAM 1020 for
sampling. A roll of tape will last more than 60 days under normal operation.
It is important to have spare rolls available to avoid data interruptions.
Some agencies save and archive the used filter tape, although the used sample
spots are not protected from contamination and are not marked to indicate the
sample hour or site. Chemical analysis may be affected by the binder agent in
the tape. Used filter tape should never be “flipped over” or re-used! This
will result in measurement problems. Loading a roll of filter tape into the
BAM 1020 is a simple matter using the following steps:
1. Turn on the BAM 1020. The BAM 1020 should automatically raise the sample
nozzle. 2. Lift the rubber pinch roller assembly and latch it in the UP
position. 3. Unscrew and remove the two clear plastic reel covers. 4. An empty
core tube MUST be installed on the left (take-up) reel hub. This provides a
surface
for the used tape to spool upon. One plastic core tube is supplied to use with
the first roll of tape. After that, use the empty core tube left over from the
previous roll. Never fasten the filter tape to the aluminum hub. 5. Load the
new roll of filter tape onto the right (supply) reel and route the tape
through the transport assembly as shown in the drawing. Attach the loose end
of the filter tape to the empty core tube with adhesive cellophane tape or
equivalent. 6. Rotate the tape roll by hand to remove excess slack, then
install the clear plastic reel covers. The covers must be tight in order to
properly clamp the tape in place and prevent slipping. 7. Align the filter
tape so that it is centered on all of the rollers. There are score marks on
the rollers to aide in visually centering the tape. 8. Unlatch and lower the
pinch roller assembly onto the tape. The BAM 1020 cannot automatically lower
the pinch rollers, and the it will not operate if the pinch rollers are left
latched in the up position! 9. Press the TENSION button in the Operate > Load
Filter Tape menu. The BAM 1020 will set the tape to the correct tension and
provide an alert if there was an error with the process. Exit the menu.
Pinch Rollers
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Core Tube
Clean Tape
Figure 4-1 BAM 1020 Filter Tape Loading Diagram
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4.5 Self-Test
The BAM 1020 has a built-in self-test function which automatically tests most
of the tape control and flow systems of the BAM 1020. The self-test should be
run right after each time the filter tape is changed, and it can also be used
if the operator suspects a problem with the BAM 1020. More detailed diagnostic
test menus are also available in the BAM, and those are described in the
troubleshooting Section 6.
The self-test feature is located in the Test menu (see Section 3.4.5). Enter
the Test > Self Test menu and press the grey START button to begin the test.
The full sequence of tests will take a couple of minutes, and the BAM 1020
will display the results of each tested item with green PASS or red FAIL tag
(see Figure 4-2). A blue TEST status indicates which test is currently being
performed.
Figure 4-2 BAM 1020 Self-Test Status Screen
Latch: This will pass if the photo interrupter senses that the pinch rollers
are unlatched (down) as in normal operation. It will fail if the roller
assembly is latched in the up position. The tape cannot advance if the rollers
are up!
Tape Break: The BAM 1020 will move the supply and take-up motors to create
slack in the filter tape and look for proper operation of the tensioner photo
interrupters.
Tape Tension: The BAM 1020 will tension the filter tape, and then check the
condition of the tensioner photo interrupters.
Shuttle Beam: The BAM 1020 will attempt to move the shuttle beam left and
right and will check the motion with a photo interrupter.
Capstan Shaft: The Capstan shaft moves the filter tape back and forth. The BAM
1020 will rotate the shaft forward and backwards to confirm the photo
interrupter detects the shaft rotating.
Memb Extended: The BAM 1020 will attempt to extend the reference membrane and
will confirm the motion with a photo interrupter.
Memb Withdrawn: The BAM 1020 will attempt to withdraw the reference membrane
and will confirm the motion with a photo interrupter.
Nozzle Down: The BAM 1020 will attempt to lower the nozzle. It will check
verify the nozzle motor has moved to the down position with a photo
interrupter. It is possible for the nozzle to become stuck in the UP position,
even if the nozzle motor has successfully moved to the DOWN position. For this
reason, proper inlet alignment and nozzle O-ring maintenance is necessary.
Flow System: The BAM 1020 will attempt to turn the pump on and will then
monitor the output on the flow sensor. This test takes about a minute and will
fail if the pump is not connected.
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Nozzle Up: The BAM 1020 will attempt to raise the nozzle and will verify the
nozzle motor has moved to the up position with a photo interrupter.
4.6 Initial Setup Settings Considerations
The BAM 1020 comes pre-programmed with a wide array of default values for the
settings which govern the measurement and calibration. Most of these setup
values will not be changed since the default values are correct for most
applications. Review the Setup Menus in Section 3.5 of this manual and decide
if any values need to be changed. At the very least, review the following
parameters:
1. Set the system clock (see Section 3.5.1). The BAM 1020 clock may drift as
much as two minutes per month. It is important to check the clock at least
once per month to ensure the samples are performed at the correct times.
2. Review the BAM Sample and Beta Count settings (see Section 3.5.2).
3. Review the Met Average period (see Section 3.5.12).
4. Review the Inlet Heater control settings (see Section 3.5.5).
4.7 Initial Leak Check and Flow Check
The BAM 1020 comes with factory-set flow calibration parameters which will
allow the BAM 1020 to accurately control the 16.67 L/min sample flow system
right out of the box. However, due to minor variations between different types
of flow transfer standards, it is best to calibrate the flow system with a
traceable flow audit standard upon initial deployment. Perform leak checks and
flow checks/calibrations as described in Section 6.3.4. Become comfortable
with these processes, as they will be performed on a routine basis.
4.8 Starting a Measurement Cycle
When the preceding setup steps of Section 4 have been completed, exit out to
the main top level Operate menu. The “Status” line may display “MAINTENANCE”
or other errors owing to performing setup and initialization sequences. This
is normal and should be expected. The BAM 1020 will clear all alarms and start
at the top (beginning) of the next hour and will continuously operate until
commanded to stop.
The BAM 1020 will stop if the operator enters certain Test or Setup menus, but
users will be provided a warning screen first. The BAM 1020 will also stop
itself if a non-correctable error is encountered, such as broken filter tape
or failed air flow.
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5 THE MEASUREMENT CYCLE
This section describes the measurement and timing cycle of the BAM 1020
instrument. An understanding of the measurement is helpful for the effective
operation and maintenance of the BAM 1020. For advanced information on the
underlying theory and mathematics of the measurement see Theory of Operation,
Section 9.
Nozzle Beta Source Detector
Beta Source
Detector
Figure 5-1 BAM 1020 Sample and Measurement Stations
5.1 The One-Hour Cycle Timeline
The BAM 1020 is almost always configured to operate on 1-hour cycles. The BAM
1020 has a realtime clock which controls the cycle timing. The COUNT TIME on
the BAM 1020 is user selectable, but is generally set to 4 minutes for PM10
measurement or to 8 minutes for PM2.5 measurement. In the example timeline
below the BAM 1020 makes an 8-minute beta measurement at the beginning and the
end of each hour, with a 42 minute air sample period in between, for a total
of 58 minutes. The other two minutes of the hour are used for tape and nozzle
movements during the cycle. This timeline applies if the BAM 1020 is set for a
COUNT TIME of 8 minutes, which is required for all EPA and EU designated PM2.5
configurations.
When configured as a US-EPA designated equivalent method for PM2.5, COUNT TIME
must be set to 8 minutes. If it is desired to operate the BAM 1020 as a non-
designated method for PM2.5 monitoring, the COUNT TIME may be set to 4, 6, or
8 minutes. When running the BAM 1020 as a US-EPA designed equivalent method
for PM10 COUNT TIME may be set to 4, 6, or 8 minutes. The total measurement
cycle is 1 hour. The pump sampling time may be calculated by subtracting twice
the COUNT TIME from 60 minutes and then subtracting an additional 2 minutes to
allow for tape movement. Therefore, a COUNT TIME of 8 minutes would provide a
pump sampling time of 42 minutes (60-8-8-2). Note: This cycle will be slightly
altered if the BAM 1020 is operated in the special Early Cycle mode with an
external data logger. See Section 7.
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The example below provides an example of the timing of a measurement cycle
with a COUNT TIME of 8 minutes.
1. Minute 00: The beginning of an hour. The BAM 1020 advances the filter tape
forward one “window” to the next fresh, unused spot on the tape. This takes a
few seconds. The new spot is positioned between the beta source and the
detector, and the BAM begins counting beta particles through this clean spot
for exactly eight minutes. (I0)
2. ~Minute 08: The BAM 1020 stops counting beta particles through the clean
spot (I0), and moves the tape exactly four windows forward, positioning that
same spot directly under the nozzle. This takes a few seconds. The BAM 1020
then lowers the nozzle onto the filter tape and turns the vacuum pump on,
pulling particulate-laden air through the filter tape on which I0 was just
measured, for 42 minutes at 16.67 liters per minute.
3. ~Minute 50: The BAM 1020 turns the vacuum pump off, raises the nozzle, and
moves the filter tape backwards exactly four windows. This takes a few seconds
and puts the spot that was just loaded with particulate back between the beta
source and the detector. The BAM begins counting beta particles through the
now dirty spot of tape for exactly eight minutes (I3).
4. ~Minute 58: The BAM 1020 stops counting beta particles through the dirty
spot (I3). The BAM 1020 uses the I0 and I3 counts to calculate the mass of the
deposited particulate on the spot and uses the total volume of air sampled to
calculate the concentration of the particulate in milligrams or micrograms per
cubic meter of air. The BAM then sits idle until the top of the next hour.
5. Minute 60: The beginning of the next hour. The BAM 1020 records the just-
calculated concentration value to memory and sets the analog output voltage to
represent the previous hour’s concentration. The BAM 1020 advances a new fresh
spot of tape to the beta measurement area and the measurement cycle starts
again.
5.2 Automatic Span Checks During The Cycle
While the vacuum pump is on and pulling air through the filter tape as
described above the BAM 1020 performs a span check. The user may set up the
BAM 1020 to perform the span check hourly, once per day, or not at all. The
BAM 1020 also performs a stability test:
1. Minute 08: The BAM 1020 has just finished moving the clean spot to the
nozzle and turned the pump on. There is another clean spot of filter tape
upstream four windows, between the beta source and the detector. This same
spot will stay there for the entire time the pump is on. The BAM 1020 begins
counting the beta particles through this spot for exactly eight minutes. The
measured value is recorded as 1.
2. Minute 16: The BAM 1020 stops counting beta particles and extends the
reference membrane between the beta source and the detector, directly above
the spot of filter tape that was just measured. The reference membrane is an
extremely thin film of clear Mylar held in a metal tongue. The membrane is of
known mass density (mg/cm2). The BAM starts counting beta particles for eight
minutes again, this time through the membrane and the filter tape spot at the
same time. This value is recorded as 2.
3. Minute 24: The BAM 1020 stops counting beta particles through the
membrane, withdraws the membrane assembly, and calculates the mass density of
the membrane.
4. Minute 42: (Eight minutes before the pump stops) The BAM 1020 counts the
beta particles through the same spot again (without the membrane) for another
eight minutes. This value is recorded as 1 .
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The mass density “m” (mg/cm2) of the reference membrane calculated during this
automatic process is compared to the known mass of the membrane; the Span
Membrane (synonymous to ABS) value. During factory calibration, the actual
mass of each individual span foil is determined and saved as the Span Membrane
value of the BAM 1020 in which it was installed. Each measurement of m must
match the Span Membrane value within ±5%. If not, the BAM 1020 records a “D”
alarm for that hour’s data. Typically, the value of m is within a few mg/cm2
of the expected value. The Span Membrane value is unique to each BAM 1020, and
can be found on the calibration sheet. Most membrane alarms are caused by a
dirty membrane foil.
The stability measurements 1 and 1 may be compared to determine if the beta
counts have changed appreciably during the measurement cycle. Rapid changes in
temperature, relative humidity or other factors may lead to this.
5.3 Filter Tape Use
The BAM 1020 positions the filter spots very close to one another so as not to
waste filter tape. Once each day at midnight, the BAM 1020 will skip a spot
(there will not be a spot where one is expected to be). This is done to make
it easier for the user to match the spot on the take up spool with the hour
and the day the spot was generated if this is necessary to be done. Met One
Instruments currently offers filter tape using part number 460180.
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6 MAINTENANCE, DIAGNOSTICS and TROUBLESHOOTING
This section provides information about routine maintenance, identifying
errors and alarms, and performing diagnostic tests on the BAM 1020. The TEST
menu functions are also described in this section.
Met One Instruments, Inc. also publishes a comprehensive array of technical
bulletins that covers additional information about subsystem troubleshooting,
upgrades, and repairs. These are available in the “BAM Users” section of our
website, or by e-mail request from the service department (see Section 1.2).
6.1 Met One Recommended Periodic Maintenance Table
Table 6-1 shows the recommended interval for the regular BAM 1020 maintenance,
field checks, and service tasks. Special tools are not required for any of the
routine BAM service tasks on less than yearly intervals. Met One Instruments,
Inc. recommends the BX-308 and BX-344 kits for all nonroutine service and
repairs such as nozzle removal and detector tests. Complete instructions are
included.
Maintenance Item Nozzle and vane cleaning. Leak check. Flow system check/audit. Clean capstan shaft and pinch roller tires. Clean PM10 inlet particle trap and PM2.5 cyclone particle trap. Download and save digital data log and error log. Compare BAM 1020 digital data to external analog data logger data, if used. Check or set BAM real-time clock. Replace filter tape roll. Run the SELF-TEST function in the TAPE menu. Download and verify BAM 1020 settings file. Complete flow system calibration. Completely disassemble and clean PM10 inlet and PM2.5 cyclone. Replace or clean pump muffler. Test filter RH, BP, and temperature sensors. Test smart heater function. Clean internal debris filter. Remove and check membrane span foil. Beta detector count rate and dark count test. Clean vertical inlet tube (BX-344 cleaning kit). Test analog DAC output, if used. Replace lithium battery if necessary. Rebuild vacuum pump. Replace nozzle O-ring. Replace pump tubing, if necessary. Factory recalibration is not required except for units sent for major repairs.
Period Monthly Monthly Monthly Monthly Monthly Monthly Monthly Monthly 2 Months 2 Months Quarterly Quarterly Quarterly 6 months 6 months 6 months 12 Months 12 Months 12 Months 12 months 12 Months 12 Months 24 months 24 months 24 Months —
Table 6-1 BAM 1020 Recommended Maintenance Schedule
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6.2 Filter Sensor Tests
The BAM 1020 flow path contains temperature, humidity, and pressure sensors.
These internal sensors are located just past the sample filter tape and are
used to monitor and control the Smart Heater and tape loading. External
sensor(s) monitor ambient conditions and are used for concentration
calculations and controlling the sample flow rate.
This test menu will be used for testing the internal sensors located just past
the filter tape in the flow system. See Section 3.4.6 for a brief description
and location of the menu. When this screen is entered, the BAM 1020 will
automatically turn on the pump and raise the nozzle to allow the filter
sensors to equilibrate to ambient room conditions.
Figure 6-1 The Filter Sensors Screens
6.2.1 Filter Temperature Sensor Tests The Filter Temperature (FT) sensor is
used to monitor operation of the Smart Inlet Heater. When comparing the FT to
ambient conditions, the FT value should be slightly higher than AT if the
heater is operating correctly in idle mode, and significantly higher if the
heater is in the ON state.
To check or calibrate the FT sensor, select TEMPERATURE in the Filter Sensor
selection field. Allow the pump to run for at least 5 minutes (see note below)
to allow the sensor to equilibrate. When fully equilibrated, the filter
temperature should match ambient within +/- 2 deg C. To calibrate it, enter
the ambient room temperature from the reference standard into the REFERENCE
field and press the grey CALIBRATE button. The DEFAULT button can be used to
revert to default calibrations and start over if difficulty is encountered.
Note: Never calibrate this sensor if the BAM inlet heater has been operating
recently. The heater causes this sensor to measure higher than ambient
conditions. See the notes about equilibrating or removing the filter RH sensor
for calibrations below. Follow these steps for the filter temperature sensor,
as well, if the heater has been operating.
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6.2.2 Filter Humidity Sensor Tests
The Filter Relative Humidity (FRH) sensor measures the humidity of the sample
air to control the Smart Inlet Heater system. The FRH value is used to set the
inlet heater to the ON or idle state, as needed, to maintain the sample near
or below the RH set point value. See Section 3.5.5.
To check or calibrate the FRH sensor, select REL HUMIDITY in the Filter Sensor
selection field. The filter RH sensor should match ambient RH within +/- 5%
when properly equilibrated. If the sensor fails, it usually reads something
impossible like -25% or 135% RH.
Important Equilibration Notes: It is difficult to effectively correlate an
ambient RH measurement to the filter RH reading, because the BAM has some
self-heating from the Smart Heater which causes the filter sensor to measure
significantly lower than ambient RH. For this reason, it is usually best to
leave the factory default calibration alone, unless there is clear evidence
that it needs to be calibrated. If the filter RH sensor is calibrated without
first being fully equilibrated to ambient, it will introduce a large
artificial offset.
For example: The ambient RH is 50%, but the filter RH sensor reads 20% due to
inlet heat. If the filter sensor calibration is adjusted to that it matches
50%, this adds a +30% offset to all RH readings. Now the filter RH data values
are all 30% too high and it looks like the inlet heater is not functioning and
not regulating the sample RH when it actually is. In addition, the inlet
heater may run at full power trying to achieve regulation to the set point.
To equilibrate the sensor without removing it from the sample stream: Enter
the TEST > FILTER RH screen. The BAM will raise the nozzle and turn the pump
on to pull room air past the RH sensor. Unplug the inlet heater and allow the
BAM to cool completely to room conditions. This might take an hour or two,
possibly more. Position the RH audit device as close as possible to the BAM
sample nozzle during calibration.
To remove the sensor from the flow system for calibration: Unplug the inlet
heater and remove the BAM case cover. Remove the black 3-port compression
manifold from the flow path. It is located under the nozzle motor and holds
the two filter sensors. This is easiest with tool 9627 from the BX308 tool
kit. Leave the sensors plugged into the circuit board. Do not touch the RH
sensor element because it is ESD sensitive. Move the sensor manifold away from
the BAM so that an accurate ambient RH value can be obtained. Enter the Test >
Filter Sensors menu, select REL HUMIDITY, and allow the sensor to equilibrate
for at least five minutes, then compare the BAM 1020 reading on the display to
the reference RH device. To calibrate the sensor, enter the reference value
into the Reference field on the display and press CALIBRATE to change the BAM
value to match.
The DEFAULT button can be used to remove all previous field calibrations from
the sensor and restore the default factory calibration. Do not press the CAL
key immediately after pressing RESET or the value present in the REFERENCE
field will be applied.
6.2.3 Filter Pressure Sensor Tests
The filter pressure sensor is used to monitor particulate loading on the
filter tape. When comparing the filter pressure to ambient conditions while
actively sampling, the filter pressure should be lower than ambient pressure
as it is on the vacuum side of the filter tape. See the Filter Pressure alarm
explanation in Section 3.5.10.
To check or calibrate the filter pressure sensor, select PRESSURE in the
Filter Sensor selection field. The pump should turn immediately turn off.
Allow the filter pressure sensor to equilibrate to ambient conditions for
about 15 seconds and then compare the BAM 1020 pressure value to the audit
device. It should match the ambient pressure within +/- 10 mmHg. To calibrate
it, enter the ambient pressure from the reference standard into the REFERENCE
field and press the grey CALIBRATE button.
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6.3 Flow System and Flow Calibrations
6.3.1 Flow System Diagram The BAM 1020 is designed to operate with an air flow
rate of 16.67 liters per minute (L/min or LPM). The flow rate must be
maintained at this value in order for the commonly used the EPA PM10 inlet
head (BX-802) and PM2.5 cyclones (BX-806, BX-807, BX-808 or BX-809) to work
effectively. Periodic airflow audits must be performed to ensure that the BAM
1020 maintains the 16.67 LPM flow rate.
Filter Temp and RH sensors
Filter Barometric Pressure Sensor
Inlet Receiver
Beta Block
Debris Filter
Mass Flow Meter
Automatic Flow Controller (Rotary Cam Valve) Standard on all units
Outlet to Vacuum Pump
Figure 6-2 The Complete BAM 1020 Flow Control System
A BAM 1020 monitor has a mass flow sensor. The BAM 1020 is also equipped with
an ambient temperature and barometric pressure sensor model BX-597A.
Temperature and barometric pressure measurements are needed to convert mass
flow into volume flow rate (LPM).
6.3.2 Flow Control The BAM 1020 regulates flow to actual conditions (ambient
temperature and barometric pressure).
Under Actual flow control, ambient temperature and barometric pressure
measurements are used to convert the measured mass flow into volumetric flow
(LPM). As the measured temperature and barometric pressure change, the mass
flow controller will adjust its output to maintain constant volumetric flow.
6.3.3 Total Flow (QTOT) and Flow Rate (LPM) Conversions The QTOT measurement
can be converted to LPM by multiplying the QTOT value by 1000, then dividing
by the BAM Sample Time. For example, to determine what the flow rate was of a
42 minute sample with a QTOT value 0.700, perform the following calculation:
(QTOT 1000) / Sample Time = (0.700 1000)/42 = 16.67 LPM
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6.3.4 About Leak Checks, Nozzle Cleaning, and Flow Checks Met One Instruments
recommends that users perform leak checks, nozzle and vane cleaning (if
needed) and a flow check or calibration (if needed) at least once a month.
Complete flow system maintenance typically requires less than 10 minutes to
perform.
The best order
References
- Acoem - Creating Environments of Possibility
- Met One - Precision Air Quality Monitoring Instruments
- Met One - Precision Air Quality Monitoring Instruments
- Comet Software - Met One Instruments
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