Inovonics Wireless 3B6OTPMTX Pulse Counting Transmitter for Integrators User Manual

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Document ID	1437898
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Document Description	OEM instruction manual
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Date Submitted	2011-03-25 00:00:00
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Creation Date	2011-03-02 17:25:31
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Document Lastmod	2011-03-02 19:34:30
Document Title	Users Manual
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Document Author:	bwhitmer

Submetering End-Device Developer Guide
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Preface
Notice
Copyright 2011 Inovonics
Inovonics intends this manual for use by Inovonics customers only. All
comments concerning the contents of this manual should be directed to the
Inovonics marketing department. No part of this work covered by copyright
may be reproduced in any form either graphically, electronically or
mechanically; including photocopying, recording, taping, or storing in an
information retrieval system without prior written permission from Inovonics.
Note: Features and capabilities marked “Future” in this document are not implemented
in current products. These capabilities are included for your application planning
and design.
Trademarks
Inovonics and EchoStream are registered trademarks of Inovonics. All other
brand names and product names used in this manual are trademarks,
registered trademarks, or trade names of their respective holders.
Technical Services Contact Information
For Inovonics technical services:
• E-mail: support@inovonics.com
• Phone: (800) 782-2709; (303) 939-9336
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Document Conventions
The following notices are used throughout this document:
Note: Emphasizes points, provides supplementary infomation, or indicates minor
problems in an expected outcome.
Caution: Indicates possible damage to equipment or loss of data, as well as potential
problems in an expected outcome.
Warning:Indicates the possibility of minor injury to oneself or others.
Danger:Indicates the possibility of serious or fatal injury to oneself or others.
Revision History
Revision Level
Revision Description
Edited cover and made changes to paragraph styles; edit product overviews to current
formats
Edited/added “Installation Instructions”, “Compliance Requirements”, and “Inovonics OneWay Binary RF Module Compliance Review Form”.
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Table of Contents
Preface
Notice ..................................................................................................................... 2
Trademarks ........................................................................................................... 2
Technical Services Contact Information ............................................................ 2
Document Conventions ....................................................................................... 3
Revision History ................................................................................................... 3
Chapter 1 Overview
1.1 Introduction ..................................................................................................... 3
1.2 EN1501 Pulse Counting Transmitter ............................................................ 3
1.2.1 Product Information ............................................................................................3
1.3 EN1501-EXT Pulse Counting Transmitter for Integration ........................... 4
1.3.1 Product Information ............................................................................................4
1.3.2 EN1501-EXT Components ..................................................................................4
1.3.3 EN1501-EXT Dimensions ...................................................................................5
1.3.4 EN1501-EXT Requirements ................................................................................5
1.3.4.1 Power .........................................................................................................5
1.3.4.2 External Tamper Requirements ...............................................................6
1.3.4.3 Count Requirements ................................................................................6
1.4 EN1501-XL Pulse Counting Transmitter with Extended Life Battery ........ 6
1.4.1 Product Information ............................................................................................6
1.5 EN1550 MetraMeter ........................................................................................ 7
1.5.1 Product Information ............................................................................................7
Chapter 2 EN1501-EXT Pulse Counting Transmitter for Integration Installation Instructions
2.1 Connecting the EN1501-EXT Pulse Counting Transmitter ......................... 8
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Chapter 3 EN1501-EXT Pulse Counting Transmitter for Integration Compliance Requirements
3.1 FCC Requirements for the EN1501-EXT ....................................................... 9
3.1.1 Television and Radio Interference ....................................................................9
Chapter 4 Registration
11
4.1 Registration Overview .................................................................................... 11
4.2 Registration Procedure from the End User’s Perspective ......................... 11
4.3 Registration Procedure from the Developer’s Perspective ........................ 12
4.4 Device Reset, Application Controller Not in Registration Mode ................ 12
4.5 Removing a Registered Device from the System ........................................ 13
Chapter 5 Message Information
14
5.1 Submetering Message Information ............................................................... 14
5.1.1 Default Message ..................................................................................................14
5.2 Submetering End Device Product Type Identifiers ..................................... 16
5.2.1 Product Naming Conventions ............................................................................16
5.2.2 Submetering End Device Identifier Table .........................................................16
Required materials from integrator ............................................................................17
Integrator information .................................................................................................17
Inovonics contact information ....................................................................................17
Required materials from Inovonics ............................................................................18
Inovonics approval ......................................................................................................18
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Chapter 1
Overview
1.1 Introduction
Inovonics submetering end-devices can be easily integrated into your
EchoStream system using the following message information. EchoStream
submetering end-devices include pulse meter transmitters, pulse meter
transmitters with long-life battery, integrated water meters, and board-only
integrator pulse meter transmitters.
EchoStream submetering end-devices are one-way devices, but like all
EchoStream one-way devices, they can be integrated seamlessly into two-way
EchoStream systems. The EchoStream submetering end-devices transmit
meter and status information after ten pulses are received or after
approximately sixty minutes since the last transmission, whichever comes first.
1.2 EN1501 Pulse Counting Transmitter
The Inovonics pulse counting transmitter is used to count the number of pulses
generated from a pulse-output device, such as a utility meter. The EN1501 is
for use in Australia, New Zealand, and North America.
1.2.1 Product Information
http://www.inovonics.com/pulse-counting-transmitter.aspx
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Overview
1.3 EN1501-EXT Pulse Counting Transmitter for Integration
The Inovonics pulse counting transmitter for integration is a board-only
transmitter with external header pins. It is designed for integration into a
customer-designed meter or product. The EN1501-EXT is for use in Australia,
New Zealand, and North America.
1.3.1 Product Information
http://www.inovonics.com/pulse-counting-transmitter-for-integration.aspx
1.3.2 EN1501-EXT Components
Housing Tamper
Switch
Removable
Terminal Block
Reset
Tamper
Count
Vs
Ground
Reset
Button
Figure 1-1 FA5201-EXT Pin Configuration
Housing tamper switch Sends an alert message when the housing is
opened.
Removable terminal block Allows connection to an external meter.
Reset input Connects a reset input to send a reset message when prompted
by the user-specific end-device.
Tamper input Connects a tamper input to send a message when the userspecific end-device is tampered with.
Count Connects a count input to increment the meter count.
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Overview
Power ouput .Allows for another device to share battery power.
Ground Connects to the ground.
1.3.3 EN1501-EXT Dimensions
The FA5201-EXT dimensions are as follows:
.095” from
center of pin
1.55”
Pin pitch:
.1”
(2.54 mm)
.26” to center
of first pin
Pin length:
.236”
(6 mm)
.365” from
edge of
board to
end of pin
.675”
3.25”
Figure 1-2 FA5201-EXT Pin Configuration
1.3.4 EN1501-EXT Requirements
1.3.4.1 Power
Power is supplied by the on-board 3v battery. The power pin allows for another
device to use this power source, which can affect battery life.
The low battery flag is set when the measured voltage is less than 2.4 v.
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Overview
1.3.4.2 External Tamper Requirements
The housing tamper switch and tamper pin have the same specification.
Connecting the tamper pin to ground initiates the tamper condition. Once a
transition (tamper connected/disconnected from ground) is detected, no
further transitions can be processed for a debounce time of 250 ms.
1.3.4.3 Count Requirements
The removable terminal block and count pin have the same specification. On
the terminal block, the outer terminal is the negative terminal if polarity is
present from the connected meter.
The count is incremented by connecting the count to ground or receiving a
contact closure from a pulse-output meter via a wired connection. In general
the contact closure should meet the following characteristics:
• a minimum switch output pulse width of 10 ms or longer.
• a maximum rate of one pulse every four seconds (slower is better).
• a closed impedance smaller than 1k ohm.
• an open impedance greater than 5 Mega ohms.
• hardware latched input transitions from the external device.
Once a latched input is detected, no further transitions will be processed for a
debounce time of 350 ms.
The count totalizer corresponds to the number of totalizer input pulses. The
counts accumulate until the number 9,999,999 is reached. The totalizer will
then go to zero on the next count.
1.4 EN1501-XL Pulse Counting Transmitter with Extended
Life Battery
The Inovonics pulse counting transmitter with extended life battery is used to
count the number of pulses generated from a pulse-output device, such as a
utility meter, and includes an extended life battery. The EN1501-XL is for use
in Australia, New Zealand, and North America.
1.4.1 Product Information
http://www.inovonics.com/pulse-counting-transmitter-with-extended-lifebattery.aspx
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Overview
1.5 EN1550 MetraMeter
The Inovonics MetraMeter is an integrated meter and pulse counting
transmitter. The water meter is the utility industry proven T-10 meter from
Neptune Technology Group. The RF transmitter is protected inside the easyto-read register, eliminating resident tampering. The EN1550 is for use in
Australia, New Zealand, and North America.
1.5.1 Product Information
http://www.inovonics.com/metrameter.aspx
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Chapter 2
EN1501-EXT Pulse Counting Transmitter for
Integration Installation Instructions
2.1 Connecting the EN1501-EXT Pulse Counting
Transmitter
The EN1501-EXT is designed to be easily interfaced with your meter or
product, however integration must conform to the following:
A. The EN1501-EXT must only be connected at the four pin header.
B. All cables and wires must be routed away from the component side of the
EN1501-EXT.
C. The on-board antenna must not be tampered with; no connection to an
alternate antenna is provided.
D. The meter or product must not include an integrated secondary colocated
radio module.
E. The EN1501-EXT on-board antenna should be placed so that it is facing
away, or otherwise isolated from, your device’s ground plane.
F. Components that are sensitive to RF transmission, such as high gain
circuits, should be isolated from the on-board antenna to prevent
interference.
G. EN1501-EXTs should not be mounted on metal surfaces or inside metal
enclosures. They should also not be mounted where sheet metal ductwork,
wire mesh screens, etc. might block transmissions.
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Chapter 3
EN1501-EXT Pulse Counting Transmitter for
Integration Compliance Requirements
3.1 FCC Requirements for the EN1501-EXT
The EN1501-EXT has received a Limited Modular Grant, requiring Inovonics
to retain control of the final installation to ensure compliance to FCC/IC
regulations. The integrator is responsible to test the final installation to verify
compliance to FCC/IC regulation for unintentional emissions.
Prior to marketing the product, the integrator must complete and submit to
Inovonics a compliance review form and documentation, and, if requested, a
functional product sample for approval. If this is not possible, the integrator
must perform the testing themselves and submit proof to Inovonics of
compliance to Part 15 of the FCC Rules and Industry Canada ICES-003.
At the end of this guide is an Inovonics compliance review form to be filled out
by the integrator.
The integrator is also responsible for properly labeling the product containing
the EN1501-EXT. Labels must be placed on the outside of the product, and
must include a statement indicating that the product contains the EN1501EXT, along with the FCC and IC number.
Example 1 “Contains EN1501-EXT Pulse Counting Transmitter
FCC ID: HCQ3B6OTPMTX; IC ID: 2309A - OTPMTX
Example 2 “Contains FCC ID: HCQ3B6OTPMTX; IC ID: 2309A - OTPMTX
3.1.1 Television and Radio Interference
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
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EN1501-EXT Pulse Counting Transmitter for Integration Compliance Requirements
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.
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Chapter 4
Registration
4.1 Registration Overview
Every device is programmed with a four-byte unique identification (UID)
number. The UID is sent with every message, indicating the device which
transmitted it. The UID is made up of a one-byte market identification (MID)
number and a three-byte serial number. The bar code label on each printed
circuit board includes the eight digit serial number. For example the bar code
label “00991240-2028B-1” begins with the eight-digit serial number:
00991240. Converting this number to hexadecimal yields: 0F 20 08. Preceding
this serial number with the MID (A0), the MID for submetering devices, for
example) gives the UID: A0 0F 20 08, and will appear in every RF message
sent by the device.
The purpose of registration is to associate the unique ID in the wireless device
with specific application functionality, such a descriptive name, the location
and point supervision. It is recommended that all wireless transmitters,
transceivers and repeaters be registered. To ensure wireless devices are
registered only when intended, the application controller should have a
specific registration mode.
4.2 Registration Procedure from the End User’s
Perspective
1. The application controller is placed in registration mode, ready to associate
the device’s UID with application functionality.
2. The application controller prompts the end user to enter application specific
information and send a registration message from the device.
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Registration
3. The application controller receives the registration message, associates the
device’s UID with appropriate application information, and lets the end user
know registration was successful.
4.3 Registration Procedure from the Developer’s
Perspective
The developer must provide
1. A means of initiating an inbound registration message from the device to
the network coordinator.
While in registration mode, the application controller should indicate when it is
ready for the user to trigger a registration message from the device. A
registration message is simply a reset message sent from the device. A reset
message will be sent when the Reset button is pressed on the device to be
registered.
2. A means of processing the message as it is passed from the RF gateway to
the application controller.
The registration message transmitted in the previous step will be received by
the RF gateway and delivered serially to the application controller. The
application controller must validate this message, extract the device’s UID,
and store it in the application database. Thereafter, the UID will be used to
associate the wireless point with program functionality.
3. A means of letting the user know the registration message has been
received by the application controller.
At a minimum, the application controller should provide some indication that
the registration was successful. Preferably, the UID of the registered device
should be displayed. At this time the application controller may begin the setup
process for the next point or may begin normal operation. This action is
application specific.
4.4 Device Reset, Application Controller Not in
Registration Mode
There are cases where the device will send a reset message when the
application controller is not in registration mode. When the battery is changed
on an EchoStream device, for instance, it must be reactivated by the user
pressing the reset button. A device may also transmit a reset message upon
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Registration
recovery from an electrostatic discharge event. The identical type of reset
message transmitted during the registration process is transmitted by the
device during these instances, however the application controller must
process these messages differently.
If the application controller is not in registration mode and a reset message
from a previously registered device is received, the application controller
should record this message in its event log as a device reset. Other status bits
that may be active in the message from the device should be processed in an
identical manner as when processed when the reset bit is not active.
4.5 Removing a Registered Device from the System
To remove a registered wireless device from the system, the application
controller is placed in registration mode. The user then selects the point to be
deleted.
When the user selects delete for that point, the application controller will adjust
the database to remove all information, or replace the unique ID associated
with that point with a unique ID of zero and set a flag to indicate that the point
no longer has a device assigned to it. If a particular device has been
registered to more than one point and the user wants to completely remove
that device from the system, then the user must delete that device from each
point to which it is registered.
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Chapter 5
Message Information
5.1 Submetering Message Information
Submetering end devices transmit meter and status information after ten
pulses are received or after approximately sixty minutes since the last
transmission, whichever comes first. Messages from security end-devices to
the gateway adhere to the format defined following.
Note: The format of EchoStream messages will vary depending on the message type.
Always check the message class byte before attempting to determine the
contents of a message.
5.1.1 Default Message
Note: A number in parentheses following a data signifier represents the number of bytes
the item contains. For example, unique ID (4) is a 4-byte field.
[0x72] – Header for inbound complete message.
[LEN] – Message length, excluding checksum.
[UID (4) originator] – Unique ID of device originating message.
[UID (4) first hop] – Unique
original message, as well as
UID begins with 00, then the
UID begins with 01, then the
ID of the device which received
the signal level and margin. If the
RF gateway is the first hop; if the
repeater is the first hop.
[Trace count (1)] - Number of trace unique IDs that follow. The
default is zero, indicating no trace data.
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Message Information
FUTURE: [Trace UID1 (4)]...[Trace UIDn (4)] - Unique ID of each
device that repeats this message.
[Hop count (1)] – The number of times this message was relayed by a
device.
[0x3E] - Message class byte for submetering data.
[PTI] - Product type identifier.
Note: See “Submetering End Device Product Type Identifiers” on page 16 for product
type identifier information.
[STAT1] - Application flags.
Bit 7 - Delta totalizer.
Bit 6 - Rapid transmission mode.
Bit 5 - Reserved.
Bit 4 - Reserved.
Bit 3 - Reserved.
Bit 2 - Reserved.
Bit 1 - Reserved.
Bit 0 - Reserved.
[STAT0] - Primary Status Flags.
Bit 7 - Reserved.
Bit 6 - Low battery.
Bit 5 - Case tamper.
Bit 4 - Set when there has been no change in status since the
last transmission.
Bit 3 - Reset.
Bit 2 - Set when the transmitter is entering sleep mode.
Bit 1 - Reserved.
Bit 0 - Reserved.
[Level] – Signal level of message as measured by the first hop
device.
[Margin] – Signal margin of message as measured by the first hop
device.
[CKSUM] – Checksum.
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Message Information
5.2 Submetering End Device Product Type Identifiers
5.2.1 Product Naming Conventions
• “ES” indicates EchoStream products with selectable 868 or 900 MHz
operation.
• “EN” indicates EchoStream products that operate at 900 MHz only.
• “EE” indicates EchoStream products that operate at 868 MHz only.
• “E*” represents products available in both EE and EN versions.
5.2.2 Submetering End Device Identifier Table
Product
Description
Market ID
Product Type
End-Device Type
EN1501
Pulse Meter Transmitter
0xAO
0x01
One-Way
EN1501-XL
Pulse Meter Transmitter with Long-Life
Battery
0xAO
0x09
One-Way
EN1501EXT
Integrator Pulse Meter Transmitter
0xAO
0x19
One-Way
EN1550
Integrated Water Meter
0xAO
0x11
One-Way
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EN1501-EXT Pulse Counting Transmitter for Integration
Compliance Review Form
Please provide the following information for review of final installation to
ensure compliance with FCC/IC regulations:
Required materials from integrator
The following must also be attached for review with this form:
• A description of the final installation, with attached photographs, as
necessary
• The unintentional radiator test report indicating compliance
Integrator information
First name:
Last name:
Phone number:
Email address:
Address:
Declaration of conformity to Inovonics’ installation instructions:
Submitted materials:
Authorized signature:
Inovonics contact information
Inovonics
ATTN: Product Management
315 CTC Blvd.
Louisville, CO 80027
Phone: 303.939.9336
Toll-Free: 800.782.2709
Fax: 303.939.8977
productmanagers@inovonics.com
Submission date:
Required materials from Inovonics
• The record of product sample review and test, as necessary
Inovonics approval
First name:
Last name:
Phone number:
Email address:
Approval status (pass, fail, samples required, compliance testing required, compliance test report
required):
Approval comments:
Submitted materials:
Returned materials:
Authorized signature:
Approval date:

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