T0007805 Breeze V Vivid

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Product Information

Specifications

• Product Name: Breeze/Breeze-V

• Document Number: T0007805

• Document Version: V1.6

• Release Date: June 28, 2024

• Manufacturer: TEKTELIC Communications Inc.

• Supported Frequency Bands: AS923, AU915, EU868, IN865, KR920,
  RU864, US915

• Wireless Communication: LoRaWAN, BLE 5.2

• Sensors: Temperature, Relative Humidity, Light, Barometer, CO2,
  PIR (Breeze-V only)

Product Usage Instructions

1. Overview

The Breeze/Breeze-V is a compact sensor designed for indoor
environmental monitoring. It can measure CO2 concentration,
temperature, humidity, light, and barometric air pressure. The
Breeze-V variant also includes human motion detection.

2. Setup

Place the sensor in the desired location indoors. Ensure the
sensor is powered on and within range of the wireless e-Ink BLE
Display for real-time monitoring.

3. Connectivity

Ensure that the device is set to communicate in one of the
supported frequency bands specified in the LoRaWAN Regional
Parameters. The device operates on the 2.4 GHz band according to
BLE 5.2 specification.

4. Monitoring

Use the wireless e-Ink BLE Display to view real-time
measurements of CO2 concentration, temperature, humidity, and
battery capacity of the sensor and display.

5. Maintenance

Regularly check and replace batteries as needed. Keep the sensor
clean from dust and debris for accurate readings.

Frequently Asked Questions (FAQ)

Q: Can the sensor be used outdoors?

A: The sensor is designed for indoor use due to its sensitivity
to environmental conditions.

Q: How often should I calibrate the CO2 sensor?

A: It is recommended to calibrate the CO2 sensor every 6-12
months for accurate readings.

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Breeze/Breeze-V

User Guide
DOCUMENT NUMBER: PRODUCT NAME:
DOCUMENT VERSION: RELEASE DATE:

T0007805 Breeze/Breeze-V T0007838/ T0007806 V1.6
June 28, 2024

PROPRIETARY: The information contained in this document is the property of TEKTELIC Communications Inc. Except as specifically authorized in writing by TEKTELIC, the holder of this document shall keep all information contained herein confidential, and shall protect the same in whole or in part from disclosure to all third parties.
© 2024 TEKTELIC Communications Inc., all rights reserved. All products, names, and services are trademarks and registered trademarks of their respective companies.

Table of Contents
1 Product Description ……………………………………………………………………………………………………………. 3 1.1 Overview…………………………………………………………………………………………………………………….. 3 1.2 Specifications ………………………………………………………………………………………………………………. 6 1.3 Transducer Details ……………………………………………………………………………………………………….. 7 1.3.1 Temperature/Humidity Transducer …………………………………………………………………………. 7 1.3.2 Ambient Light Transducer ………………………………………………………………………………………. 8 1.3.3 Barometer ……………………………………………………………………………………………………………. 8 1.3.4 CO2 Transducer…………………………………………………………………………………………………….. 8 1.3.5 PIR Transducer………………………………………………………………………………………………………. 8
2 Installation ………………………………………………………………………………………………………………………… 9 2.1 Included Product and Installation Material ……………………………………………………………………… 9 2.2 Unpacking and Inspection …………………………………………………………………………………………….. 9 2.3 Breeze/Breeze-V Mounting …………………………………………………………………………………………… 9 2.4 Power Up/Down Procedure ………………………………………………………………………………………….. 9
3 Operations, Alarms, and Management ………………………………………………………………………………… 10 3.1 Configuration …………………………………………………………………………………………………………….. 10 3.2 Dynamic Reporting Configuration ………………………………………………………………………………… 10 3.3 LED Behavior……………………………………………………………………………………………………………… 10 3.4 Push-Button Functions ……………………………………………………………………………………………….. 11 3.4.1 CO2 Calibration Button ………………………………………………………………………………………… 12 3.4.2 Reset Button……………………………………………………………………………………………………….. 12
4 Applications……………………………………………………………………………………………………………………… 13 4.1 Breeze Application ……………………………………………………………………………………………………… 13 4.2 Basic Downlinks …………………………………………………………………………………………………………. 13
5 Data converters………………………………………………………………………………………………………………… 18 6 Compliance Statements and Safety Precautions ……………………………………………………………………. 19
6.1 Compliance Statements ………………………………………………………………………………………………. 19 6.2 Safety Precautions ……………………………………………………………………………………………………… 20 7 List of Acronyms ……………………………………………………………………………………………………………….. 21

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1 Product Description
1.1 Overview
The Breeze/Breeze-V is a multi-purpose sensor packed into a very small form factor. The Sensor is ideal for monitoring and reporting CO2 concentration, human motion (Breeze-V only), temperature, humidity, light, and barometric air pressure in an indoor environment.
The Sensor communicates with a 2.9” wireless e-Ink BLE Display, as shown in Figure 1, that allows to view real-time measurements including CO2, temperature, humidity and the remaining battery capacity of the Sensor and Display.

Figure 1: Breeze with Display
Both variants are LoRaWAN-capable devices supporting Tx/Rx in the following frequency bands as specified in the LoRaWAN Regional Parameters: AS923, AU915, EU868, IN865, KR920, RU864, and US915. Devices operate in the 2.4 GHz band according to the BLE 5.2 specification.
Table 1-1 presents the features available in both functional variants (Breeze and Breeze-V).

Sensing Function
Temperature Relative Humidity Light Barometer CO2 PIR

Table 1-1: Transducers in Breeze/Breeze-V

Breeze (T0007838)

Sensor Model Breeze-V (T0007806)

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Figure 2 illustrates the Breeze, Breeze-V enclosure.

(a) Breeze Model

(b) Breeze-V Model

Figure 2: Breeze/Breeze-V Enclosures

Figure 3 shows the enclosure external interfaces for each model. Four indicator LEDs are present underneath the circular light pipe on the front of the enclosures. There are two push buttons accessible by pin through holes on the front of the enclosures. There are also air vents on the front of the enclosures and on two sides of the enclosure to provide adequate airflow for the CO2 transducer. The enclosures are kept closed with 4 screws at the back. The PIR transducer is surrounded by a PIR mask located at the center of the enclosure for Breeze-V.

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Figure 3: Breeze/Breeze-V External Interfaces

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1.2 Specifications

The Breeze/Breeze-V specifications are listed in Table 1-2.

Table 1-2: Breeze/Breeze-V Specifications

Parameter Use environment Operating temperature Storage temperature RH Size
Weight

Specification Indoor commercial/residential only 0°C to 60°C -40°C to 60°C 5%95%, non-condensing 80 mm x 80 mm x 26 mm (without mounting clip) 80 mm x 80 mm x 30 mm (with mounting clip) 128 g (with battery)

Power source

Battery operated (2xAA), with diode-based reverse polarity protection.

Network technology/Frequency band Air interface Sensor Lifetime
Maximum transmit power
Number of indicator LEDs Measurement sensing functions Detection sensing functions

LoRaWAN with different regional variants and BLE operating in 2.4 GHz ISM frequency bands LoRa and BLE With optimum settings and baseline use case:1
· Breeze model > 6.0 years with 2xAA (3.6V) LTC batteries · Breeze-V model > 5.0 years with 2xAA (3.6V) LTC batteries LoRa: 15 dBm BLE: 0 dBm 4 (2 green, 1 yellow, and 1 red) Temperature, humidity, light, pressure, CO2 Human movement

Temperature measurement accuracy Humidity measurement accuracy

< ±0.3°C between 0°C and 5°C ±0.2°C between 5°C and 60°C
< ±4% between 0% and 100% ±2% between 20% and 80%

Light sensitivity Pressure measurement accuracy

Detects weak light to typical work light conditions (5 lux to 1000 lux)2 Peak sensitivity at 550 nm < ±2.5 hPa between 300 hPa and 1100 hPa ±1.5 hPa at 750 hPa and 25°C

CO2 concentration measurement accuracy

±30 ppm +3% of reading between 400 ppm and 5000 ppm Extended range ±10% of reading for an extended range of up to 10,000 ppm3

Motion detection

Pyroelectric infrared sensor Ceiling mount: · X-angle: 104° (no mask)

· Y-angle: 104° (no mask) Height: 3 m (no mask)

1 Baseline use case assumes room temperature, LoRa Tx power of 15 dBm, LoRa SF 10, and LoRa BW of 125 kHz. Optimal battery settings use the default report settings and with dynamic reporting mode enabled. (Only after the device receives a timestamp from the Network Server, it will begin operating in dynamic reporting mode). PIR motion detection is assumed to be very frequent during active hours (Device reports every 5 minutes from 9AM-5PM, Monday to Friday) and very infrequent during inactive hours (Device reports once an hour, 5PM-9AM, Monday to Friday as well as all day

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Saturday and Sunday). If the device does not receive a timestamp within 15 minutes of being turned on, the device will not enter dynamic
reporting mode, so by default it will report every 5 minutes, regardless of time and day. 2 The sensor provides light intensity measurements, that not calibrated in lux. See the TRM Document for more details. 3 No data available from manufacturer on performance outside the range of 15°C to 35°C and 0% to 80% RH.
1.3 Transducer Details
1.3.1 Temperature/Humidity Transducer The Breeze/Breeze-V includes a combination temperature/humidity transducer, and operates from 0% to 100% RH and -40°C to 125°C with a typical accuracy of ±2% RH and ±0.2°C. The typical and maximum accuracies specified across the operating relative humidity and temperature range of the sensor are shown in Figure 4 and Figure 5, respectively.
Figure 4: The typical and maximal tolerance for %RH at 25°C

Figure 5: The typical and maximal tolerance for the temperature transducer at 25°C

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1.3.2 Ambient Light Transducer
A phototransistor and bias resistor form a light detection transducer on the Breeze/Breeze-V. The light sensor provides a sufficient window of detection to allow detection of desired light levels; includes a light filter to give a response similar to the human eye and is capable of detecting weak light to typical work light conditions.
1.3.3 Barometer
A barometer is included in the Breeze/Breeze-V in order to measure the barometric air pressure, supports low power applications while providing highly accurate measurements. The barometer can operate over a range of 10 hPa to 1200 hPa. The typical pressure accuracy of the barometer is given as ±1.5 hPa at 25°C and 750 hPa, while the error band (representing the worst-case accuracy) is ±2.5 hPa between 300 hPa and 1100 hPa while operating between -20°C and 85°C. The barometer supplies measurements to the CO2 transducer in order to pressure compensate the CO2 concentration for improved accuracy to the current environmental conditions.
1.3.4 CO2 Transducer
The Breeze/Breeze-V measure the CO2 concentration using non-dispersive infrared (NDIR). It can measure in the range of 400 ppm to 5000 ppm with an accuracy of up to ±30 ppm +3% of the reading. This sensor also features an extended range of up to 10000 ppm with a projected accuracy of extended range ±10% of the reading.
1.3.5 PIR Transducer
A motion detection feature on the Breeze/Breeze-V is implemented with a PIR sensor sensitive enough to detect small movements with a wide field of view of 104° x 104°.

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2 Installation
2.1 Included Product and Installation Material
The following items are included with each sensor:
· A Breeze, Breeze-V · e-Ink Display (if one is ordered with the Sensor) · Mounting Bracket · Quick start guide
2.2 Unpacking and Inspection
The following should be considered during the unpacking of a new Breeze/Breeze-V:
1. Inspect the shipping carton and report any significant damage to TEKTELIC. 2. Unpacking should be conducted in a clean and dry location. 3. Do not discard the shipping box or inserts as they will be required if a unit is returned
for repair or re-configuration.
2.3 Breeze/Breeze-V Mounting
The Breeze/Breeze-V is supplied with mounting bracket. The bracket can be attached using two M3 screws appropriate for the material being mounted to or using double-sided tape when mounting within 2 m of the floor. (This ensures the device can endure a fall from that height in case the tape weakens over time) When mounting on a vertical surface, ensure that the Sensor will not be orientated with the case enclosure screws towards the ceiling. This could cause the Sensor to accidently slip off the mount and fall. There are no orientation concerns when the Sensor is mounted to a horizontal surface.
2.4 Power Up/Down Procedure
Once the sensor information has been added to the Network Server, pull out the battery tabs to engage the battery. The batteries must be removed to turn off the device, but the external reset button can be pushed by a pin, such as a paper clip to simply reset the device; see Section 4.4.2 for the description of the reset function.

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3 Operations, Alarms, and Management
3.1 Configuration
The Breeze/Breeze-V supports a full range of Over-the-Air (OTA) configuration options. Specific technical details are available in the Breeze/Breeze-V Technical Reference Manual. All configuration commands need to be sent OTA during a sensor’s downlink windows.
3.2 Dynamic Reporting Configuration
If dynamic reporting mode is enabled, the default configuration of the Breeze/Breeze-V is as shown in Table 3-1. If dynamic reporting mode is not enabled, the Sensor will act as if it is exclusively in active mode. Dynamic reporting mode is not enabled by default. It is enabled if the device receives a timestamp from the network server less than 15 minutes after the device has been turned on. If not, the device will disable dynamic reporting.

Table 3-1: Breeze/Breeze-V Default Dynamic Reporting Behavior

Parameter
Remaining Battery Capacity of the Sensor Remaining Battery Capacity of the Display Ambient Temperature Ambient Relative Humidity CO2 Concentration Pressure Motion (Breeze-V only)

Report Destination NS and Display
NS and Display
NS and Display NS and Display
NS and Display NS only NS only

Default Reporting Frequency

During Active Mode

During Inactive Mode

Every 5 minutes

Every 1 hour

Every 5 minutes

Every 1 hour

Every 5 minutes Every 5 minutes

Every 1 hour Every 1 hour

Every 5 minutes Every 5 minutes Report motion after 1 PIR event Clear motion after 5 minutes of no motion

Every 1 hour Every 1 hour Report motion after 1 PIR event Clear motion after 5 minutes of no motion

3.3 LED Behavior
The Breeze/Breeze-V is equipped with four LEDs: two green (G1 and G2), one yellow (Y1), and one red (R1). Figure 6 shows the placements of each LED relative to a user facing the Sensor for reference.

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Figure 6: Breeze/Breeze-V With Marked LED Positions
During the join procedure:
· After the Sensor started the join procedure Y1 will blink continuously until the sensor has joined a network.
During normal operation:
· G1 will blink when the Sensor transmits or receives a LoRa packet. · G2 will begin to blink while the Sensor attempts to communicate with the Display.
o G2 will blink twice if the connection was successful. o R1 will blink twice if the connection was unsuccessful. · Y1 will blink after the CO2 calibration push-button is pressed and released. o G2 blinks three times if any CO2 calibration was successful. o R1 blinks three times if any CO2 calibration was unsuccessful.
3.4 Push-Button Functions
The Sensor includes two push buttons: one to manually calibrate the CO2 transducer, and one to reset the Sensor. Figure 7 shows the location of the CO2 calibration and reset buttons relative to a user facing the Sensor.

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Figure 7: Breeze/Breeze-V With Marked LED Positions
3.4.1 CO2 Calibration Button
The Sensor features a push-button that can be used to manually calibrate the CO2 transducer when it is exposed to fresh air. The CO2 calibration button must be pressed for 2 to 10 seconds, and 30 seconds after the button is released, the Sensor performs a background CO2 calibration with a target of 400 ppm.
For optimal results, users should ensure that the Sensor is exposed to fresh air for several minutes before the calibration occurs. It is also recommended that users move away from the Sensor after pressing the button so as to reduce the risk of an inaccurate calibration. More information on how to calibrate the CO2 transducer can be found in the Technical Reference Manual.
3.4.2 Reset Button
There is a reset button on the device, that can be lightly pushed by a pin, such as a paper clip. The reset is instant, i.e., the button does not need to be kept pushed. The reset restarts the microprocessor. All the Firm ware load and configuration parameters in the Flash memory are remembered during the reset.

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4 Applications
4.1 Breeze Application
This application is to track the level of CO2 in the facility and visualize the parameters without the need to check the display.

Figure 8 Breeze Web App
4.2 Basic Downlinks
Breeze uses a “tick” system for reporting data. Generally, the sensor will report most important data every tick. A tick is measured in seconds.
There are two sets of settings that must be configured in conjunction – “Core reporting tick in seconds” and “Ticks per [data/report]”.
“Core reporting tick in seconds” will determine the interval between ticks. For example, you may set it to 60 seconds or 180 seconds for each tick.
“Ticks per [data/report]” determines how many ticks it will take before the sensor reports any data. For example, if you set “Ticks per Battery report” to 2, it will take 2 ticks before the sensor reports battery data. To Change The Core Report To Every Minute
With LeapX application (you can get it on Google Play or App Store): write number 1 in the field minutes between reports, then click on save changes.

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Figure 9 LeapX application With ATLAS (www.atlas.tektelic.com): check the box for Core report tick in seconds and ticks per temperature reports. Write the values shown in the Figure 10 and click send.

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Examples Of Uplinks “data”: {
“raw”: “03 67 00 DA 04 68 3A 0B E4 01 B6 0C 73 23 36 00 BA 0E 54 00 D3 5C 11 D3 5C”, “fPort”: 10, “temperature”: “21.8”, “relative_humidity”: “29.0”, “co2_pressure_compensated”: 438, “barometric_pressure”: “901.4”, “battery_voltage”: “3.668”, “rem_batt_capacity_sensor”: 92, “rem_batt_capacity_display”: 92
Device Configuration with ATLAS
To perform more configuration or read the data of TUNDRA device you can use TEKTELIC’s complementary service, ATLAS at www.atlas.tektelic.com.
There are two ways to access ATLAS:

1. Using Offline mode

Figure 11 Login as offline mode

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Figure 12 Select Breeze decoder 2) With your TEKTELIC Network Server Credentials

Figure 13 Login with Network server credentials

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Figure 14 Select TUNDRA Decoder, application and the device For more information follow this link https://knowledgehub.tektelic.com/kona-atlas

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5 Data converters
Please follow this link: https://github.com/TektelicCommunications/data- converters/tree/master for the data converters that are to be used on TEKTELIC & other Network Server for TEKTELIC Sensors. These data converters can be used as a reference for other platforms.
TEKTELIC’s data converters conform to the LoRa Alliance Payload Codec Specification and can be used with any 3rd party Network Server / Application Server that supports this specification.
https://resources.lora-alliance.org/technical-specifications/ts013-1-0-0 -payloadcodec-api

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6 Compliance Statements and Safety Precautions
6.1 Compliance Statements
Federal Communications Commission
This device complies with Part 15 of the FCC Rules. Operation is subject to the following two conditions:
1. This device may not cause harmful interference, and 2. This device must accept any interference received, including interference that may
cause undesired operation.
To comply with FCC exposure limits for general population / uncontrolled exposure, this device should be installed at a distance of 20 cm from all persons and must not be co-located or operating in conjunction with any other transmitter.
Changes or modifications not expressly approved by the party responsible for compliance could void the user’s authority to operate the equipment. 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 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.

Innovation, Science and Economic Development Canada

This device contains licence-exempt transmitter(s)/receiver(s) that comply with Innovation, Science and Economic Development Canada’s licence-exempt RSS(s). Operation is subject to the following two conditions:

(1) This device may not cause interference.

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(2) This device must accept any interference, including interference that may cause undesired operation of the device.
This device should be installed and operated with minimum distance 0.2 m from human body.
L’émetteur/récepteur exempt de licence contenu dans le présent appareil est conforme aux CNR d’Innovation, Sciences et Développement économique Canada applicables aux appareils radio exempts de licence. L’exploitation est autorisée aux deux conditions suivantes:
(1) L’appareil ne doit pas produire de brouillage. (2) L’appareil doit accepter tout brouillage radioélectrique subi, même si le brouillage est
susceptible d’en compromettre le fonctionnement.
Cet appareil doit être installé et utilise à une distance minimale de 0.2 m du corps humain.
California Proposition 65: WARNING: This product can expose you to chemicals including lead, nickel, and carbon black, which are known to the State of California to cause cancer, birth defects or other reproductive harm. For more information, go to www.P65Warnings.ca.gov.
6.2 Safety Precautions
The following safety precautions should be observed: · The Breeze/Breeze-V is intended for indoor use only. · The Breeze/Breeze-V contains lithium batteries. · NEVER allow small children near batteries: if a battery is swallowed, immediately seek medical attention. · To reduce risk of fire, explosion or chemical burns: replace only with approved 2xAA LTC batteries; DO NOT recharge, disassemble, heat above 100°C (212°F) or incinerate battery.

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7 List of Acronyms
BLE ……………….. Bluetooth Low Energy CO2 …………………………. Carbon Dioxide EU…………………. European Union FCC ……………….. Federal Communications Commission I2C or I2C ………… Inter-Integrated Circuit IoT ………………… Internet of Things IP………………….. Ingress Protection ISM ……………….. Industrial, Scientific, and Medical LoRa ……………… Long- Range LoRaWAN ………. Long-Range Wide-Area Network LPWAN ………….. Low-Power Wide Area Network LTC………………… Lithium Thionyl Chloride MCU ……………… Microcontroller Unit NA ………………… North American NS…………………. Network Server RF …………………. Radio Frequency Rx …………………. Receive SPI ………………… Serial Peripheral Interface Tx …………………. Transmit

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Document Revision

Revision
1.0

Issue Date
March 16, 2022

1.1

March 22, 2022

1.1

March 24, 2022

Status
Release Release Release

1.3

August 5, 2022

Release

1.4

August 16, 2022

Release

1.5

January 12, 2023

Release

1.6

June 28, 2024

Release

Editor
Shania Stewart Shania Stewart Shania Stewart Shania Stewart Shania Stewart Shania Stewart
Emma Tholl

Comments Release based on T0007525_UG_ver1.0.
Removed “Confidential” from footers.
Updated the product marketing name throughout the document.
· Minor typo fixes. · Updated sensor mounting
information. · Updated citations. Added mounting screw information · Minor corrections on
technical information. · Added proposition 65
warning. · Updated citations · Added latest pictures · Added a section detailing
basic downlinks · Added section for Kona Atlas · Added section for converters

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References

• ATLAS
• P65Warnings.ca.gov
• p65warnings.ca.gov/
• GitHub - TektelicCommunications/data-converters
• Kona ATLAS
• TS013-1.0.0 Payload Codec API
• ATLAS

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