THINGSMATRIX TMY07 Built-in Optical Sensor User Manual

: October 27, 2023
: Thingsmatrix

Table of Contents

TMY07 Built-in Optical Sensor
Preface
Introduction
Working Modes
Device Data Fields
Troubleshooting
Installation Instructions
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ThingsMatrix: TMX-200225 THINGSMATRIX TMY07 Built in Optical Sensor
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TMY07 USER MANUAL

TMY07 Built-in Optical Sensor

Preface

This guide provides the user with an overview of the features available on the TMY07 device. In this manual, Platform means the ThingsMatrix Service Platform.

Introduction

2.1 Overview
TMY07 is an enhanced version of TMX07, with more flexible data reporting frequency based on higher capacity rechargeable battery. Additionally, enabled ﬂight safe mode allows for a larger scope of logistics applications.

Additional details are as follows:

Easy installation without wires
Built-in a higher capacity rechargeable battery with a working temperature range of -20℃ to +60℃
Ultra-low power consumption
With a built-in optical sensor, it can generate a tamper alarm
Supports global connectivity with embedded 4G module

2.2 Specifications
More detailed specifications are as follows:
Table 1 – TMY07 Specifications

Category	Specification	Description
Cellular Network	EDGE/GSM/GPRS	850/900/1800/1900MHz
Cat M1/Cat NB1	B1/B2/B3/B4/B5/B8/B12/B13/B18/B19/B20/B26/B28
Electrical	Power Supply	Rechargeable Battery
Battery	7500mAh, 3.7V

2.3 Main Features and Use Cases
Table 2 – TMY07 Features

Supported Features	Configuration on the Platform required?
Intelligent Tracking	Yes
Wake-up Mechanisms	Yes
Position Monitor	No
LBS	No
Blind Zone Compensation	No
Battery Level Detection	Yes, if battery level alert is needed
Optical Sensor	No

2.3.1 Intelligent Tracking
Always On Mode can be set on the Platform in case of an emergency (e.g. theft) so that the real-time location of the device can be monitored. Upon receiving the tracking command from the Platform, the device switches into Always On Mode. In this mode, the device periodically reports the location information to the platform following a pre-configured reporting interval until a stop tracking command is received. For more details, please refer to Chapter 3.4.1 Introduction.

2.3.2 Multiple Wake-up Mechanisms
The TMY07 supports multiple wake-up mechanisms:

The user can set a wake-up interval on the Platform to awake the device periodically
The user can modify the device wake-up time schedule on the Platform in order to wake-up the device at a fixed time. A device can be configured for one wakeup time point, which is used for more accurate positioning and for a better connection to the server
The wake-up feature must be set and enabled from the Platform

2.3.3 Position Monitor
The Position Monitor feature is enabled by default, which means the TMY07 will report location information in every report. The information includes: Position fix technology (LBS/GPS), longitude and latitude, cellular signal strength, battery voltage, cell ID, etc. All the device information reported is displayed on the Platform.
For further information, please refer to Assets Management Service – Device List section in ThingsMatrix Service Platform User Guide.
2.3.4 LBS
LBS provides the location information by utilizing the carrier network signal. It is enabled when the TMY07 does not have a GPS location information. Please note that LBS is largely dependent on distance to surrounding network cell towers, which could be up to a few miles away in worst-case scenarios. It is not as accurate as GPS.
This feature is enabled by default. The LBS data is displayed on the Platform. Please refer to Assets Management Service – Device List section in ThingsMatrix Service Platform User Guide to get further information.
2.3.5 Blind Zone Compensation
When the device enters a cellular connectivity/coverage blind zone (limited or no cellular signal), it will store the collected data according to the preconfigured reporting frequency, and will upload this data to the Platform once the cellular signal is recovered. The maximum number of blind zone compensation data reports is 4096.
This feature is enabled by default on the Platform.
2.3.6 Battery Level Detection
The device will upload the battery level status together with the location coordinates. The battery level will be displayed on the Platform.
The device, by default, reports power information without any additional configuration on the Platform. Please refer to Assets Management Service – Device List section in the ThingsMatrix Service Platform User Guide to get further details. The device will report the low battery alarm to the platform when the battery power is lower than 20%. If the user wants to change the battery level alert, this can be done by configuring a policy on the Platform. Please refer to the Data Management Service – Policy section within the ThingsMatrix Service Platform User Guide.

2.3.7 Optical Sensor

THINGSMATRIX TMY07 Built in Optical Sensor

The TMY07 has a built-in optical sensor. When the device is removed after installation and the sensor is exposed to light, it will be activated immediately and the TMY07 will send a “DEVICE_REMOVED” alarm message to the Platform, together with the current location data.
Information relevant to the “DEVICE_REMOVED” alarm is displayed on the Platform (including alert icon, alert record, etc). Please refer to Assets Management Service – Device List section in ThingsMatrix Service Platform User Guide to get more details.

Working Modes

3.1 Introduction
The TMY07 has four working modes: Always On, Periodic, Flight, and Motion.
User can select the working mode according to a specific use scenario (refer to Table 3).

3.2 Usage Table
Table 3 – TMY07 Usage

Working Mode	Use Case
Always On	1. Always On Mode is used when the device needs to be active all

the time and upload the location data according to the interval preconfigured by the user.
2. Always On Mode is active all the time, preventing the device to enter sleep mode, and thus increasing battery consumption.
Flight| 1. Flight Mode is used for a device that will be transported on an airplane, since it will have no need for an active communication link or to report data. When Flight Mode is active and the accelerometer detects that the device is in continuous motion, it will shut down all communications until the device is in static state. At this point it will return to the timing report state.
2. The difference between Flight mode and Motion Mode is the data reporting when in continuous motion.
---|---
Motion| 1. The device’s default mode is Motion Mode, which is mostly used for fixed location assets (usually kept static). The report interval needs to be set according to the Motion/Static Mode.
2. The difference between Flight mode and Motion Mode is the data reporting when in continuous motion.
Periodic| 1. Periodic Mode means the device will report the data according fixed report interval. The default value is 5 mins.

3.3 Parameter Table
Table 4 – TMY07 Parameters

Category	Parameter	Definition	Remark
Working Mode	Mode	Work Mode	Users can select the required working mode

through the drop-down box.
There are four options: Always On, Periodic, Flight, Motion.
For example, selecting the “Always On” option will cause the device to activate the “Always On” mode.
Generic Settings| Heartbeat timer| TCP Keepalive Timer| Unit: second; Range: 60~14400. The default value is 120.
For example, setting the parameter “Heartbeat timer: 300” will cause the device to send a heartbeat packet to the platform every 5 minutes to notify the platform that the device is still online.

Periodic Mode Settings

| Report Interval| Time interval for position information| Unit: second. The default value is 300. _
For example, setting the parameter “Report Interval: 300” will cause the device to report data every 300s when the device works continuously.
Sleep Duration| Hibernation Timer| Unit: second. The default value is 86400.
_For example, setting the parameter “Sleep Duration: 86400” will cause the device to wake up every 24 hours.
Working Duration| Working Timer| Unit: second. The default value is 150.

For example, setting the parameter “Working Duration: 150” will cause the device to work continuously for 150s after waking up.

Fixed Wakeup Time| Specify the next wake- up time| Parameter format: “HH: mm”.
For example, setting the parameter to “08:00” will cause the device to wake up at 8:00 and report data.
Time zone| Time zone| Set the time zone according to the current device location. For example, setting the parameter to “UTC +08:00” will set the time zone to UTC +08:00.
Flight Mode Settings| Report Interval| Time interval of position information| Unit: second. The default value is 300.
For example, setting the parameter “Report Interval: 300” will cause the device to report data every 300s.
Always On Mode Settings| Report Interval| Time interval of position information| Unit: second. The default value is 300.
For example, setting the parameter “Report Interval: 300” will cause the device to report data every 300s.
Motion Mode Settings| Report Interval on Motion| Time interval of position information| Unit: second. The default value is 60.
For example, setting the parameter “Report Interval on
Motion: 60” will cause the device to report data every 60s in Vibration Mode.
| Static Duration| Time interval of position information| Unit: second. The default value is 150.
For example, setting the parameter “Static Duration: 150” will cause the device to report data every 150s in Static Mode.
---|---|---|---
Threshold Settings| Battery| Low battery alarm boundary value| The default value is 20. For example, setting the parameter “battery: 30” will cause the device to report a low battery alarm to the platform when the battery power reaches 30%.

Firmware Settings

| Version| Version| Default: v1.0
Server| Server| Default: ftp.thingsmatrix.io
Port| Port| Default: 21
Username| Username| Default: user
Password| Password| Default: 123456
Filename| Filename| Default: filename
Cellular Settings| Network mode| Network Mode| Users can select the required net mode through the drop-down box.
There are four options: 2G and CAT-M1, CAT-M1 only, NB1 only, and All modes.
For example, setting to the “supporting CAT-M1 only” option will cause the device to activate the “CAT-M1 only” network.
Geofence| Lat| Latitude of center point of Geofence (in degrees)| Default: 0
For example, setting the parameter “Lat: 22.490102” will set the Geofence Latitude to 22.490102 degrees.
Lng| Longitude of center point of Geofence (in degrees)| Default: 0
For example, setting the parameter “Lng: 113.798123” will set the Geofence Longitude to 113.798123 degrees.
Radius| Radius of Geofence| Default: 0ff
For example, setting the parameter “Radius: 300” will set the radius of the Geofence to 300 meters.
The lat and lng parameters need to be set at the same time.
If the device is outside this preset area, it will report a “POSITION_ALERT”.

3.4 Always On Mode
3.4.1 Introduction
Always On Mode is used when the device needs to be active at all times and location data is uploaded according to the interval preconfigured by the user.
3.4.2 Configuration Example
If the device is required to report data once every 60s, then the user must select Always On Mode. The parameters of Always On Mode can be configured on the platform as shown below: THINGSMATRIX TMY07 Built in Optical Sensor
app

3.5 Motion Mode
3.5.1 Introduction
Motion Mode is used when the reporting interval needs to be changed based on an asset’s mobility or fixed status.
When the device wakes up in Motion Mode and continuous vibration/motion is detected, it will report data according to the preset reporting interval.
If not moving, the device will go back to sleep.
3.5.2 Configuration Example
If the device needs to report data once every 5 minutes while in motion and once every 24 hours otherwise, the user can turn on Motion Mode and set the following parameters: THINGSMATRIX TMY07 Built in Optical Sensor
app1

3.6 Flight Mode
3.6.1 Introduction
Flight Mode is used when a device will be transported on an airplane. If continuous motion is detected, it will shut down all communications until the device is in a static state, at which point it will return to the timing report state.
3.6.2 Configuration Example
If the device is required to run on Flight Mode and wake up every hour, then the parameters can be configured as follows: THINGSMATRIX TMY07 Built in
Optical Sensor app2

3.7 Periodic Mode
3.7.1 Introduction
In Periodic Mode the device can only report data in fixed intervals. It can be used if there are no specific requirements.
3.7.2 Configuration Example
If the device is required to wake up every 24 hours, then work continuously for 5 minutes while reporting data every 150s, Periodic Mode can be configured as follows: THINGSMATRIX TMY07 Built in Optical Sensor
app3

Device Data Fields

The IoT Gateway parses the data fields from the device’s communication protocol and converts it to a JSON-formatted data payload. The user can view the data fields in the device’s Status and Statistics tabs on the Platform or via the API. The data fields supported by the device are listed in the table below.
Table 5 – TMY07 Data Field Definitions

Field	Definition	Description
time	Time	It shows the data generated time
lat	Latitude	It shows the latitude of the device
lng	Longitude	It shows the longitude of the device
altitude	Altitude	It shows the altitude of the device
sn	Device SN	Each device will have a unique serial number for identification
speed	Speed	It shows the speed of the device
battery	Battery	It shows the remaining power of the battery as a percentage
voltage	Battery Voltage	It shows the voltage of the battery
direction	Direction	It shows the direction of the device. North begins at

zero degrees clockwise
imei| Network Module IMEI| It shows the IMEI of the cellular module
iccid| Sim ICCID| It shows the SIM ICCID
net| Network Type| It shows the mobile network type
mcc| Country Code| It shows the mobile network country code
mnc| Network Code| It shows the mobile network code
lac| Area Code| It shows the Mobile Network Area Code
---|---|---
cellId| Cell Id| It shows the mobile network cell ID
signalStrength| Signal Strength (dBm)| It shows the cell signal strength
gpsLocating| Location Mode| It shows the location mode: GPS, LBS
firmware| Firmware Version| It shows the firmware version
ipAddress| IP Address| It shows the IP address of the connection
temperature| Temperature| It shows the sensor’s temperature reading
humidity| Humidity| It shows the sensor’s humidity reading
radius| Location Accuracy| It shows the radius of Location Accuracy

Troubleshooting

This section provides information to help the user troubleshoot general issues with the device.
5.1 Inaccurate positioning of LBS

Problem
− Wrong location shown in map
Possible cause
− The carrier network cell tower that the device is attached to is too far
Solution
− Move the device around so it can acquire a GPS signal

5.2 The device is offline

Problem
− The device is shown as being offline
Possible cause
– The SIM card does not have an active subscription
– The SIM card is inserted incorrectly
– The device is asleep
Solution
– Replace the SIM card
– Correct the SIM card installation
– Expose optical sensor to light or turn the power off and on to wake the device up

5.3 Unable to boot

Problem
– The indicator light is off when the device gets powered up
Possible cause
– Power switch is in the OFF position
– Battery is depleted
Solution
– Slide the power switch to the ON position
– Replace the battery

5.4 No optical sensor alert

Problem
– The optical sensor is exposed to light but there is no LED activity and no alarm
Possible cause
– The light intensity is too weak
Solution
– Move the device to a position with more light

Installation Instructions

The device external appearance is as follows:

6.1 Getting Started
To use the device, the user needs to open the top cover, insert the SIM card correctly, turn the power on, and install the device in place.
The user can open the top cover by hand. There are two LED indicators under the cover: the blue LED shows the GPS status, and the green LED shows the cellular connectivity status.
Please review the following diagram for the different LED combinations.
Terminology:

Fast blinking: The indicator light flashes 3-5 times in 1s
Slow blinking: The indicator light flashes one times in 2s

Green LED

Off: Cellular module off
Slow blinking: Acquiring cellular signal
Fast blinking: Cellular module attached to network
Solid on: Successfully connected to the platform

Blue LED

Off: GPS off
Slow blinking: Acquiring GPS location
Solid on: GPS fix successful

6.2 SIM Card Installation
Open the SIM card holder cover, insert the SIM card into the SIM card holder.
Ensure that the SIM card is properly placed.
Close the SIM card cover.
Please take note of the ICCID on the SIM card and make sure that the SIM card has an active subscription for the required cellular network.
6.3 Device Power Up
After the SIM card is installed, move the power switch to the ON position (Please refer to the picture of section 6.1, move the power switch to the right). When the blue LED starts blinking, the device is powered up.

6.4 Device Installation
Close the top cover after the device is powered up.
Peel one side of the supplied 3M double sided tape and place it on the bottom of the device (optical sensor side), making sure not to cover the sensor.
Select a place where the device will be installed. Peel the other side of the tape and place it over a clean flat surface pressing down firmly.
If the device is removed, the optical sensor will be activated immediately. The Platform will display a “DEVICE_REMOVED” alarm along with the current location data.

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