Transparent Technologies 610M2SSL M2 Utility Radio Transceiver User Manual TRANSPARENT TECHNOLOGIES

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Document ID	844485
Application ID	yhRGrbZJJrjyIGH+2pVRQg==
Document Description	Users Manual
Short Term Confidential	No
Permanent Confidential	No
Supercede	No
Document Type	User Manual
Display Format	Adobe Acrobat PDF - pdf
Filesize	59.35kB (741865 bits)
Date Submitted	2007-09-18 00:00:00
Date Available	2007-09-18 00:00:00
Creation Date	2007-08-16 12:05:47
Producing Software	Acrobat Distiller 7.0.5 (Windows)
Document Lastmod	2007-08-16 12:48:35
Document Title	TRANSPARENT TECHNOLOGIES
Document Creator	Acrobat PDFMaker 7.0.7 for Word
Document Author:	Metron-Farnier

TRANSPARENT TECHNOLOGIES
M2 Utility Radio
Operations Manual
Transparent Technologies, Inc
5665 Airport Blvd
Boulder, CO 80301
720-406-1294
Disclaimer
In no event shall Transparent Technologies be liable for any incidental, indirect, or
consequential damages or other damages including without limitation loss of profits, loss of
revenue, loss of data, loss of use of the product or any associated equipment, downtime, and
user’s time associated with the use of this product, the resale hardware or its software.
Use of Hardware
In no event shall Transparent Technologies be liable for damages resulting from the use of its
hardware or the malfunction of that hardware. Specifications for the hardware are subject to
change at any time without notice.
Copyrights /Trademarks
Transparent Technologies reserves the names T2, M2 and UDA. References are made
to Sony®, Clie™and Palm©.
Version
M2 Version 01.14
August 2007
M2
Utility
Radio
Transceiver
Operations
Manual
OVERVIEW
INSTALLATION & WIRING
OPERATION
BATTERY
APPENDIX
1
OVERVIEW
M2
Utility
Radio
Transmitter
Basic Specifications
Univeral
The M1 radio is a universal AMR
device designed for every utility.
Encoder and digital inputs for all
major water meter registers.
Transmission:
One-Way DTS
Two-Way DTS
(unregulated)
Regulatory:
FCC 15.247
Simple
The M1 operates in an unlicensed
mode in the 900-Mhz range which
requires no utility regulation. The
radio is easily configured and
interfaced with an off-the-shelf PDA.
Temperature:
-40°F to 158°F
(-40°C to +70°C)
Humidity:
Submersion:
100%
IP-68 Rating
Fully submersible
Powerful
In addition to reliable meter reading,
the M1 also provides powerful
datalogging, consumption profiling
and leak detection. The M1 transmit
basic meter and leak detection
information through the RF signal.
Packaging:
PCB 100%
encapsulated
Housing:
Smoke or Clear
Polycarbonate
Interface:
All Major Encoders
All Major SC/Pulse
See Chart
Battery:
Replaceable
19.0 A-hr D-cell
Up to 20 years
Battery Life:
1
M2 Packaging
The M2 is housed in a
polycarbonate shell with multiple
levels of waterproofing. The
housing is available in either a clear
or smoke tint.
The housing is assembled with a
UV-cure adhesive which provides
the first level of environmental
protection. The radio electronics
are 100% encapsulated in a
dielectric gel for 100% moisture
protection. Finally, all cable
entry/exit points are sealed with gel
grommets to protect against longterm moisture penetration.
The rear of the radio unit provides
the access chambers for the wiring
connections and the replaceable
battery.
The product label indicates a model
number, a lot/serial number and the
FCC identifier.
2
INSTALLATION & WIRING
Installation
The M2 is designed for all
environments and can be installed
either in indoor or outdoor
environments.
Mounting Orientation
The most important consideration is
to keep the M2 radio unit UPRIGHT
when it is installed.
The antenna is located on the top of
the radio board and the RF
transmission pattern is optimized
with an upright orientation.
In the UPRIGHT position:
• The hanging slot is at the top of
the unit
• The T2 logo will be readable at
the top of the housing
• The battery will be at the bottom
Other primary considerations for
optimum transmission:
• Avoid mounting the radio unit
directly against metal surfaces
(pipes, valves, etc.)
• Avoid mounting the unit below
typical water levels.
• Do NOT drive screws or
mounting hardware into the
unit’s plastic housing.
• Always mount the unit at the
highest grade possible.
In all cases, the installer
should experiment with
mounting techniques and RF
performance prior to quantity
installation.
2
Pit & Vault Installations
For best transmission, the unit
should not be mounted directly on
any metal surfaces, such as pipes
or valves, or mounted below know
water levels.
The M1B has multiple mounting
options, including a slot for wire ties
which can be used to hang the M1A,
attach on a plastic stake or screw
directly onto a wall.
An effective mounting technique for
commercial meter vaults is to hang
the M1A unit from a fixture (such as
a ladder rung or the lid itself) near
the top of the vault. Proper
mounting in these types of vaults is
essential for good RF performance.
For smaller vaults and meter boxes,
a variety of acceptable mounting
options are available. Two simple
methods are hanging from the
lid/cover and staking into the ground.
If time and space are available, the
M1A can also be mounted on the
side of a pit with a wall bracket.
For vaults or pits with metals lids,
the M2 should be optimally
mounted 6-18 inches below the
lid/cover.
2
Indoor & Wall Installations
For best transmission, the unit
should not be mounted backing on
metal surfaces, reinforced concrete
or other dense surfaces.
In indoor mounting situations, a
higher mounting site will improve
RF performance.
In below grade sites (e.g.
basements), the installer should
experiment with the best location
before the final mounting. In these
instances, the direction/bearing of
the receiver should be considered.
For instance, if a unit is to be
mounted in a basement with
reinforced concrete walls, the best
mounting location could be on the
opposite wall, although this
increases the overall distance.
2
Wiring
Encoders
As a default communication The M2
utilizes the ECR-II communications
defacto-standard wiring conventions
for encoder interfaces:
Red:
Green:
Black:
Clock/PWR
Data
Ground
This wiring convention should be
consistent with all Metron-Farnier,
ECR-II and ECR-III registers.
The unit can be ordered with a prewired cable in 5-ft increments. In
this case, the cable with leads will
exit on the side or bottom of the unit.
For field retrofit applications, the unit
can be ordering with leads ready for
splicing in the wiring chamber.
Wire Connections
The wiring connections are critical
for reliable radio-to-register
communications.
T2 recommends the use of 3m gelcap type terminations. These
connectors and the crimping tools
are available at many hardware
stores and online distributors.
Follow directions included with the
gel-cap packaging to ensure proper
terminations.
2
Pulse Wiring
For standard pulse wiring, the red
and black wires should be
connected to the pulse output of the
register.
Check the T2 wiring guide for color
coding for most registers.
Wire Connections
The wiring connections are critical
for reliable radio-to-register
communications.
T2 recommends the use of 3m gelcap type terminations. These
connectors and the crimping tools
are available at many hardware
stores and online distributors.
Follow directions included with the
gel-cap packaging to ensure proper
terminations.
2
Dual Enconder / Pulse
Metron-Farnier offers a unique
register that supplies a encoderoutput for meter reading purposes
and a pulse output for datalogging
purposes.
This special-order unit will have
multiple wiring connections: one for
the encoder output and one for the
switch closure output.
Wire Connections
The wiring connections are critical
for reliable radio-to-register
communications.
T2 recommends the use of 3m gelcap type terminations. These
connectors and the crimping tools
are available at many hardware
stores and online distributors.
Follow directions included with the
gel-cap packaging to ensure proper
terminations.
3
OPERATION
Operation
The M2 radio operation is covered
in five topics:
•
•
•
•
•
ON/OFF Control
Configuration
Meter Reading
Datalogging
RF Operations
Refer to the FPDA, H2 and G2
Manuals for additional
instructions on the operation of
the M2 radio.
This manual only provides an
overview on these topics.
ON/OFF Control
If the M2 radio has been purchased
as a separate unit, it will be shipped
in the default setting. This will be in
the OFF mode.
The Field PDA, H2 handheld or G2
provides the ability to set the M2
into one of three modes:
OFF: The RF transmission, meter
interface and all data functions are
off. The unit will monitor the IrDA
port for ON/OFF commands.
Standby: The RF transmission
function is off but the meter interface
and all data functions are on. The unit
will monitor the IrDA port for ON/OFF
commands.
ON: The RF transmission, meter
interface and all data functions are on.
The unit will monitor the IrDA port for
ON/OFF commands.
3
Configuration
The M2 radio is a flexible unit with
configuration options available for
tailoring the unit for a specific
utility’s needs.
M2 Configuration Parameters
Meter Settings
Field PDA
The configuration is performed by
the T2 Field PDA (FPDA). Refer to
the FPDA Manual for detailed
instructions on the configuration
process.
ID Type
Input Type
Encoder Value
Pulse Value
# of Encoder Digits
Meter Units
Meter Size
Meter Type
Meter Read (Pulse Inputs)
Configurable Parameters
The following items are configurable
on the M2 radio:
Transmit Settings
Meter Settings
This screen allows the user to
customize the settings the radio
uses for the meter interface.
Transmit Scaling
Transmit Period
Group ID (extended ID)
Log Settings
Transmit Settings
This screen allows the user to
customize the settings the radio
uses during its RF transmission.
Log Settings
This screen allows the user to
customize the settings the radio
uses during its data functions:
- Datalogging
- Leak Detection
- High Usage
- Backflow
- Zero Usage
Query Interval
Log Interval.
Leak Detection
• Leak Window
• Leak Period
High Usage
• High Usage Threshold
• Conservation Days
Backflow Detection
• Trigger level
Zero Usage
• # of Days for trigger
3
Meter Reading
Local Data Access
The M2 radio can be read locally via
the FPDA or the H2 handheld.
All configuration, meter reading and
datalogs are accessible with the
PDA software, the H2 software or
with the G2 software
Meter
Reading
PDA
Screen
Meter
Statistics
PDA
Screen
Meter
Reading
H2
Handheld
Screen
3
Datalogging
The M2 radio logs data as an
enhanced data function.
The basic data functions of the M2
radio – leak detection, backflow,
high usage – are all detectable
through the normal remote AMR
operations (via the reading system).
Data
Logging
PDA
Screen
The datalogging function offers a
first-hand customer-service tool to
examine the consumption pattern of
a specific meter. For instance, if a
customer has been flagged as
having a possible leak, the water
utility can use the FPDA, H2 or G2
to download the meter/radio’s data
and immediately discuss the site’s
usage data.
The FPDA, H2 and g2 will allow the
user to view the data in a time
bucket format (2, 4, 6, 12 or 24 hr)
consumption bar chart format or in a
flowrate line graph (for pulse-based
systems only)
3
RF Operations
- Normal AMR Reading
The M2 radio transmits its RF signal
on a regular interval (set by the
transmit interval). The data is
received by the R1 or R2 mobile
AMR receiver. The R2 is a
transceiver which provides the twoway capability for the G2 software.
The following data is available
through the RF transmission:
•
•
•
•
•
•
•
•
•
Meter Reading
ID Number
Leak Detect Flag
Backflow Flag
High Usage Flag
Zero Usage Flag
Low Battery Flag
Register Fault Flag
Register Communications
Status
G1 AMR Screen
G2 AMR Screen
4
BATTERY
The M2 radio has a replaceable
battery.
Battery Specifications
Mfg:
Tekcell
Type:
Thionyl Lithium Chloride
Size:
D-cell
Capacity: 19.5 A-hr
Battery Life
All battery calculations include a
environmental impact factor and use
a baseline of regular function usage
(PDA reads, datalogging, etc.)
The M2’s transmit period is directly
related to the battery life of the M1
radio. The RF transmission is the
largest power consumer and thus
drives battery life.
Check with Transparent
Technologies for a detailed battery
life calculation based on specific
configurations.
4
Battery Replacement
Transparent Technologies can
provide replacement batteries for
M2 radios.
The battery is replaced by first
removing the battery cover and then
removing the battery cell. The
battery is connected to the board
with a quick disconnect plug. Some
versions do not have a connector.
In these cases, the battery wires
can be cut and spliced with standard
gecap connectors.
The replacement battery will come
with the identical plug.
Once the replacement battery has
been re-installed, the battery
chamber will need to be filled with
commercial grade silicone filler for
waterproofing.
6
APPENDIX
FCC Information
Information to user. - The users manual or
instruction manual for an intentional or
unintentional radiator shall caution the user
that changes or modifications not expressly
approved by the party responsible for
compliance could void the user's authority
to operate the equipment.
Special accessories.
(a) Equipment marketed to a consumer
must be capable of complying with the
necessary regulations in the configuration
in which the equipment is marketed.
Where special accessories, such as shielded
cables and/or special connectors, are
required to enable an unintentional or
intentional radiator to comply with the
emission limits in this part, the equipment
must be marketed with, i.e., shipped and
sold with, those special accessories.
However, in lieu of shipping or packaging
the
special
accessories
with
the
unintentional or intentional radiator, the
responsible party may employ other
methods of ensuring that the special
accessories are provided to the consumer,
without additional charge, at the time of
purchase.
Information detailing any
alternative method used to supply the
special accessories shall be included in the
application for a grant of equipment
authorization or retained in the verification
records, as appropriate.
The party responsible for the equipment, as
detailed in §2.909 of this chapter, shall ensure
that these special accessories are provided with
the equipment. The instruction manual for such
devices shall include appropriate instructions on
the first page of the text concerned with the
installation of the device that these special
accessories must be used with the device. It is
the responsibility of the user to use the needed
special accessories supplied with the equipment.
(b) If a device requiring special accessories is
installed by or under the supervision of the
party marketing the device, it is the
responsibility of that party to install the
equipment using the special accessories. For
equipment requiring professional installation, it
is not necessary for the responsible party to
market the special accessories with the
equipment. However, the need to use the
special accessories must be detailed in the
instruction manual, and it is the responsibility
of the installer to provide and to install the
required accessories.
(c)
Accessory items that can be readily
obtained from multiple retail outlets are not
considered to be special accessories and are not
required to be marketed with the equipment.
The manual included with the equipment must
specify what additional components or
accessories are required to be used in order to
ensure compliance with this part, and it is the
responsibility of the user to provide and use
those components and accessories.
(d)
The resulting system, including any
accessories or components marketed with the
equipment, must comply with the regulations.
6
FCC Definitions
Class A digital device. A digital device
that is marketed for use in a commercial,
industrial or business environment,
exclusive of a device which is marketed for
use by the general public or is intended to
be used in the home.
Class B digital device. A digital device
that is marketed for use in a residential
environment notwithstanding use in
commercial, business and industrial
environments. Examples of such devices
include, but are not limited to, personal
computers, calculators, and similar
electronic devices that are marketed for use
by the general public.
NOTE: The responsible party may also
qualify a device intended to be marketed
in a commercial, business or industrial
environment as a Class B device, and in
fact is encouraged to do so, provided the
device complies with the technical
specifications for a Class B digital
device. In the event that a particular type
of device has been found to repeatedly
cause harmful interference to radio
communications, the Commission may
classify such a digital device as a Class B
digital device, regardless of its intended
use.
For a Class A digital device or peripheral,
the instructions furnished the user shall
include the following or similar statement,
placed in a prominent location in the text of
the manual:
This equipment has been tested and found
to comply with the limits for a Class A
digital device, pursuant to Part 15 of the
FCC Rules. These limits are designed to
provide reasonable protection against
harmful interference when the equipment
is operated in a commercial environment.
This equipment generates, uses, and can
radiate radio frequency energy and, if not
installed and used in accordance with the
instruction manual, may cause harmful
interference to radio communications.
Operation of this equipment in a residential
area is likely to cause harmful interference in
which case the user will be required to correct
the interference at his own expense.
For a Class B digital device or peripheral, the
instructions furnished the user shall include the
following or similar statement, placed in a
prominent location in the text of the manual:
This equipment has been tested and found to
comply with the limits for a Class B digital
device, pursuant to Part 15 of the FCC Rules.
These limits are designed to provide
reasonable protection against harmful
interference in a residential installation. This
equipment generates, uses and can radiate
radio frequency energy and, if not installed
and used in accordance with the instructions,
may cause harmful interference to radio
communications. However, there is no
guarantee that interference will not occur in a
particular installation. If this equipment does
cause harmful interference to radio or
television reception, which can be determined
by turning the equipment off and on, the user
is encouraged to try to correct the interference
by one or more of the following measures:
- Reorient or relocate the receiving antenna.
- Increase the separation between the
equipment and receiver.
- Connect the equipment into an outlet on a
circuit different from that to which the
receiver is connected.
- Consult the dealer or an experienced
radio/TV technician for help.
The provisions of paragraphs (a) and (b) of this
section do not apply to digital devices exempted
from the technical standards under the
provisions of §15.103.

---

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