Neomatica ADM35 User manual
Neomatica LLC, Bluetooth sensor ADM35, ADM35H, version 1.1 dd 02.07.2021
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This Operation manual relates to the wireless multifunctional sensor ADM35 (hereinafter
referred to as sensor) and wireless multifunctional sensor ADM35H (hereinafter referred to as
sensor). The manual describes sensor operation, procedure of its installation and its integration
with the monitoring system using the related tracker from the devices manufactured by Neomatica
LLC.
The Operation manual is designed for professionals who have familiarized themselves with
the rules of repair and installation works execution in vehicles and who have special professional
knowledge in electronic and electric equipment used on various transport means.
Sensor proper work can be guaranteed if it is installed and set by qualified professionals. To
use the sensor properly it is necessary to familiarize with the monitoring system work principles in
general and to understand the function of all its components
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Content
1 Application..................................................................................................................................................4
2 Technical features ..............................................................................................................................4
2.1 Technical features of ADM35........................................................................................................5
2.2 Technical features of ADM35H.....................................................................................................6
3 Design and Operation of the System .........................................................................................7
4 Installation and Setting ....................................................................................................................7
4.1 Preparation and installation process............................................................................................7
4.1.1 Preparation for operation.....................................................................................................7
4.1.2 Installation..............................................................................................................................7
4.1.3 Setting....................................................................................................................................8
4.2 «ADM BLE-Configurator»..............................................................................................................9
4.2.1 View of the readings in «ADM BLE-Configurator» application ..................................10
4.2.2 Sensor setting in «ADM BLE-Configurator» application ..............................................10
4.2.3 Report generation in «ADM BLE-Configurator» application........................................12
4.2.4 Firmware update of the sensor ........................................................................................13
4.3 Using the sensor together with the trackers АDM007 and ADM333, that contains BLE
interface.................................................................................................................................................13
4.3.1 Method of sensors catching..............................................................................................13
4.3.2 Manual adding of sensors and checking the list of the sensors added.....................14
4.3.3 Adding sensors automatically...........................................................................................14
4.3.4 Adding sensors with the help of commands ..................................................................15
4.3.5 Getting information from the sensors caught.................................................................15
5 Storage and Transportation..........................................................................................................16
6 Warranty ................................................................................................................................................16
7 Marking and Packaging..........................................................................................................................17
8 Disposal....................................................................................................................................................17
9 Scope of supply.......................................................................................................................................17
10 Acceptance certificate ..................................................................................................................17
Annex A. Sensor usage with Teltonika FMB trackers ..........................................................................18
Annex В. Instructions for setting up the sensor via «nRF Connect» application .............................21
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1 Application
The sensor is used for being installed on moving and stationary objects to measure
temperature, illumination and humidity (only for ADM35H), presence of magnetic field.
2 Technical features
The ADM35 model (figure 1) measures temperature more accurately, its temperature
measuring element has higher protection from moisture, but the model does not contain a
measuring element to measure the level of relative humidity.
Figure. 1 - View of the sensor
The ADM35H (figure 2) model contains a measuring element that measures relative
humidity level, but the accuracy of temperature measurement is less than that of ADM35.
Figure. 2 - View of the sensor
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2.1 Technical features of ADM35
•Operating temperature: from - 40°С up to + 85°С;
•Margin of error for temperature measurement: ±0,3°С;
•Range of illumination measured: 0,01 lux... 83000 lux;
•Type of Hall detector: discrete, omnipolar;
•Frequency range of radio interface: 2400..2483,5 МHz;
•Transmitter power: up to +8 dBm;
•Receiver sensitivity: -96 dBm;
•Data exchange technology: Bluetooth Low Energy (BLE),
Bluetooth Low Energy Long Range (BLE Long Range);
•Coverage in the mode of BLE: up to 100 m in line-of-sight;
•Coverage in the mode of BLE Long Range: up to 500 m in line-of-sght;
•Number of stored records: 19700;
•Battery: ER14505 3,6V 2700 mА/h;
•Operation time with one battery: up to 3 years;
•Housing: IP65;
•Housing materials: polycarbonate;
•Material of detector: stainless steel;
•Dimensions, mm, not more than: 129 (73 without detector) x 68 x 32;
•Mounting seat size, mm, not more than: 73 x 68;
•Weight: nor more than 105 g
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2.2 Technical features of ADM35H
•Operating temperature: from - 40°С up to + 85°С;
•Measurement error of temperature:
±0,4°С (in the range of -10°С up to +85°С),
±0,9°С (in the range of -40°С up to -10°С);
•Range of relative humidity measurement: 0%..100% without moisture condensation;
•Measurement error of relative humidity at ambient temperature of +30°С:
±4% (in the range of 0% up to 80%),
±6,5% (in the range of 80% up to 100%);
•Range of illumination measured: 0,01 lux..83000 lux;
•Type of Hall detector: discrete, omnipolar;
•Frequency range of radio interface: 2400..2483,5 МHz;
•Transmitter power: up to +8 dBm;
•Receiver sensitivity: -96 dBm;
•Data exchange technology: Bluetooth Low Energy (BLE),
Bluetooth Low Energy Long Range (BLE Long Range);
•Coverage in the mode of BLE: up to 100 m in the line-of-sight;
•Coverage in the mode of BLE Long Range: up to 500 m in the line-of-sight;
•Number of stored records: 19700;
•Battery: ER14505 3,6V 2700 mА/h;
•Operation time with one battery: up to 3 years;
•Housing: IP65;
•Housing materials: polycarbonate;
•Detector cover material: ABS plastic;
•Dimensions, mm, not more than: 124 (73 without detector) x 68 x 32;
•Mounting seat size, mm, not more than: 73 x 68;
•Weight: not more than 105 g
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3 Design and Operation of the System
The sensor contains a temperature measuring element, a humidity measuring element (only
for ADM35H), an illumination measuring element, Hall detector, a microcontroller with integrated
radio interface Bluetooth Low Energy (hereinafter referred to as BLE). Power supply to the sensor
is made with a battery ER14505. The values measured are available in real time via radio channel
using BLE technology and are stored with a set frequency in the non-volatile memory of the sensor
with the possibility of their subsequent unloading.
4 Installation and Setting
4.1 Preparation and installation process
4.1.1 Preparation for operation
The sensor is supplied switched on and ready for operation. If the battery was removed,
install it, observing the polarity. 30 seconds after the power supply, the sensor will be ready for
use.
4.1.2 Installation
The sensor is fixed on a flat metal surface with the help of the magnets included in the
delivery set. On other surfaces the sensor is fixed with the help of screws with a press washer or
on a double-sided adhesive tape, which must correspond to the operating conditions of the sensor.
If you need to fasten more tightly, the methods listed above can be combined.
The transparent lid of the sensor should be clean. Impurities present on the sensor lid or
housing or detector cover may result in decrease in precision when measuring temperature and
illumination. It is not allowed to use abrasive cleaning agents or organic solvents for cleaning the
sensor housing.
It is important to avoid the sensor installation near large metallic elements, since the
coverage for data transmission via BLE may be reduced. The sensor must be oriented with the
BLE antenna towards the tracker. Before the final fixing of the sensor and the tracker, it is
necessary to make sure that the signal level is sufficient for stable operation.
The signal strength is checked at the receiving device side (tracker or Android smartphone).
The signal strength of the last readings can be viewed in the Windows version of the tracker
configurator, or in the response to the BLESENSORINFO command (see section 4.3.4 for the
description of the command). You can also use the Android application "ADM BLE-Configurator"
(for a description, see section 4.2.1).
The signal level of -100 dBm is considered as critically low, at this level it is recommended
to change the installation location. The signal level of -70 dBm is considered as normal for stable
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operation. The signal strength from -85 dBm up to 90 dBm is considered as sufficient for operation,
but problems may occur at a slight deterioration of conditions.
4.1.3 Setting
The sensor is supplied with optimal factory settings. If the factory settings are suitable for
the task, no sensor configuration is required. You can immediately connect the sensor to the
tracker.
By default, the data transfer period is set to 15 seconds and all sensors are active, except
for the Hall sensor. If you need to use a Hall sensor, you should enable the corresponding option.
Recording to the archive is disabled by default, to use this function, you should enable the
corresponding option and configure the frequency of recording to the archive.
The readings of all active sensors are recorded in the archive.
Main sensor parameters available for configuration:
•Mode of data transfer
This parameter determines the technology via which the data will be transmitted. Bluetooth
Long Range technology allows increasing the distance from the sensor to the receiving device and
to increase the reliability. The receiving device should support data receipt via such technology.
BLE technology allows transferring data over shorter distances. Such a technology is
supported by most devices. Mode BLE is given by default.
•Data tranmission period
This parameter determines transmission frequency of the data via the Bluetooth LE radio
channel, as well as the frequency of measurements. The measurement is performed by all active
detectors before sending the readings. In the intervals between the measurement and sending
readings, the sensor is in a sleep mode.
Increase of the transmission period extends the battery life, but reduces the frequency of
readings update, and also increases the time switch to the setting mode. By reducing this
parameter you decrease the battery life. The recommended value is 15 seconds.
•Hall sensor
Activation / deactivation of the Hall sensor
It is recommended to activate this sensor only when it is necessary to use it, because its
activation leads to an increase in energy consumption. When the Hall sensor is activated, an
extraordinary exit from the sleep state and sending readings may happen.
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•Archive
Activation/deactivation of recording sensor readings into the archive. The readings from all
active measuring elements are recorded in the archive with reference to a time point. Enabling or
disabling this option does not affect the data transmission mode via the Bluetooth LE radio
channel, but its activation leads to a reduction of the battery life.
Other parameters are described in clause 4.2.2.
4.2 «ADM BLE-Configurator»
«ADM BLE-Сonfigurator»application is available in Google Play.
To work with the application, you need the permission of the «Geolocation»or «Location».
This is due to Google requirements for applications that provide data exchange with BLE devices,
since BLE technology includes positioning by BLE beacons. You also need permission for the
access of photos, media and files because this is used when updating the sensor software,
working with the archive and other operations that require interaction with the smartphone
memory.
The Android application «ADM BLE-Сonfigurator»performs the following functions •
•viewing readings in real time;
•sensor setup;
•data download from the archive;
•generating of report in the form of a table.
Using the application, you can solve the following tasks:
•sensor checking;
•view of the current sensor readings;
•assessment of the signal level when passing through obstacles;
•assessment of the battery status;
•determination of the sensor address;
•determination of the sensor firmware version.
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4.2.1 View of the readings in «ADM BLE-Configurator»application
•Launch «ADM BLE-Configurator» application.
•Make sure that the application has been given all the necessary permissions.
For correct operation, you need not only to permit the use of the «Geolocation»or
«Location», but also to enable this function if it is disabled.
•The sensor will be found as soon as it sends another message with readings.
The following
parameters are available for
viewing:
•Sensor model;
•Sensor MAC-address;
•Temperature;
•Illumination;
•Humidity (only for
ADM35H);
•Hall element;
•Battery voltage;
•Firmware version;
•RSSI –level of received radio signal;
•The time passed since the last data message was received;
•LR-data received by Bluetooth Long Range technology
•Archive status.
This section presents the most complete set of data. It may differ depending on the firmware
version of the sensor, as well as on its modification.
4.2.2 Sensor setting in «ADM BLE-Configurator»application
To view or change the sensor settings, wait until it is detected and click on the icon to
go to the «Control»menu.
Description of the parameters in «Control»menu:
•Archive.
•When the «Archive»option is active, readings are recorded at a set frequency. The
readings of all active sensors are recorded in the archive with reference to time.
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•Synchronized data
This parameter shows how many records were
downloaded from the archive to the smartphone memory.
•Archive settings
A set of parameters that specify the frequency of data
recording in the archive and the limits of the alarm range of
readings
•Erase archive
Erase all records from the archive
•Security.
Setting the password that will be requested when entering
the sensor settings. This password does not affect the
receipt of readings by the tracker or viewing readings in the
ADM BLE-Configurator.
•Hall sensor.
Enabling or disabling of the Hall sensor. To save battery
power, it is not recommended to activate this detector if it is
not planned to be used.
•Humidity sensor
Enabling or disabling the humidity sensor
•Illumination sensor
Enabling or disabling of illumination sensor
•Data transfer period
This parameter determines the frequency of data
transmission via the BLE radio channel, the frequency of
measurements and the sleep time. Increase of this
parameter leads to an increase in the battery life, but
reduces the frequency of the readings update. By reducing
this parameter you decrease the battery life. The
recommended value is 15 seconds.
•Mode of data transfer
Selecting data transfer mode via BLE or BLE Long Range
Bluetooth Long Range technology allows increasing the
distance from the sensor to the receiving device and to
increase the reliability. The receiving device should
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support data receipt via such technology. BLE mode is given by default.
•Transmitter power
By default, transmitter power is +4dBm. The higher the power the more the data
transmission distance, but it leads to more power consumption. Reducing the power saves
energy and reduces the data transmission distance. It is not recommended to change this
parameter without a reason.
•Temperature calibration
Setting the offset of the temperature readings in the entire measurement range. It is not
recommended to change this parameter if there is no need.
•Factory reset
All device settings will be return to factory ones.
•Firmware update.
Here you can update the firmware
•Information
Here you can see current connection mode with the smartphone (for sensor configuration).
Data are presented in the mode that was selected in «Mode of data transfer».
4.2.3 Report generation in «ADM BLE-Configurator»application
•Wait until the sensor is detected and see the date and time of the last data synchronization.
Only the synchronized data will be recorded in the report
•Synchronize the records in case of necessity. For synchronization click on the icon
and switch to the «Control»menu. The synchronization is done each time when you switch
to the «Control»menu. While performing this operation, the missing records are
downloaded from the sensor memory to the smartphone memory.
•Make sure that the synchronization is completed. The incomplete synchronization process
is indicated by the display of a running green bar (status bar) in the upper part of the
configurator window. After the synchronization is complete, go back to the sensor search
menu.
•To generate the report, click on the icon . This button is located at the top of the
configurator.
•Select the sensor for which you want to generate a report.
•Select the time period for which you want to generate a report.
•Send the report or open it in your smartphone. The report is saved as a table in csv format.
File save path /Neomatica/ADM_BLE_Configurator/reports.
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4.2.4 Firmware update of the sensor
•Wait until the sensor is detected
•To switch to the «Control»menu click the icon .
•Click on «Firmware update»
•If the sensor firmware version is less than the version of the current firmware available on
the update server, the message «Update available»will be displayed indicating the current
version.
•To start the update process, click «update».
To check the relevance of the firmware version and download it from the update server, the
application needs Internet access. At the same time, traffic may be consumed or a fee for
communication services may be charged by your mobile network operator. The «ADM-BLE
Configurator»application does not support a permanent connection via the Internet.
Synchronization of firmware versions is performed no more than once a day. The sensor
firmware has a size of not more than 100 kB.
4.3 Using the sensor together with the trackers АDM007 and ADM333, that
contains BLE interface
4.3.1 Method of sensors catching
The sensor is catched on the tracker side. By default, the sensor is configured to measure
temperature, humidity and illumination.
Sensor integration with the tracker ADM007 or ADM333, that contains BLE (hereinafter
referred to as a tracker) is performed via sending commands via GPRS or SMS. It is also possible
to configure the sensor in the graphical interface of the «ADM Configurator»application using the
Bluetooth interface. Up to 5 sensors of ADM35(H) can be connected to one tracker. One sensor
can be connected to several trackers simultaneously
Catching the sensor can be performed manually and automatically.
Manual catching requires entering addresses of each sensor. This method is suitable for
the situation when in the Bluetooth coverage range of the tracker there are activated sensors,
which should not be caught by the tracker.
Automatic catching is based on searching for the sensors and automatic record of
addresses of all sensors found. This method is suitable for the situation when in the tracker
coverage Bluetooth range there are only needed sensors.
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4.3.2 Manual adding of sensors and checking the list of the sensors added
BLESENSOR command allows adding the sensors addresses as well as checking the list of
addresses added. The sensor address is indicated on its sticker located on the housing.
When entering the address, no need to put the colon.
BLESENSOR X,Y –add the address Y in the box X where X=0..4;
BLESENSOR X,0 –clear the box X where X=0..4;
BLESENSOR Y –add the address Y in the end of the list;
BLESENSOR 0 –clear the list;
BLESENSOR –display the list of addresses added in the tracker.
Example of commands entering:
BLESENSOR 0,0C61CFEF5E31 –add the address 0C:61:CF: EF:5E:31 in the box 0;
BLESENSOR 0C61CFEF5E31 –add the address 0C:61:CF:EF:5E:31 in the end of the list.
4.3.3 Adding sensors automatically
Adding sensors in a graphical interface of «ADM Configurator» application.
•Connect the tracker to the configurator. The connection procedure is described in the
tracker operation manual.
•Open the «Peripherals»section.
•Open the tab «Bluetooth».
•Place the sensors close to the tracker.
•Click «Autostart»and wait for the complete of the process.
•The caught sensors will be displayed below.
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4.3.4 Adding sensors with the help of commands
The BLEAUTOCATCH command starts the search and automatically records the addresses
of the found sensors. By default, the search is performed within two minutes without filters
BLEAUTOCATCH –automatic search of all supported BLE sensors without filters.
BLEAUTOCATCH 0 –stop current search.
4.3.5 Getting information from the sensors caught
BLESENSORINFO command allows requesting the last data received by the tracker from
the sensor.
BLESENSORINFO X –display of the data for the sensor under number X, where X –number of
the device from the BLESENSOR sensors list.
BLESENSORINFO –command without parameters displays data about all caught sensors;
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Example of the answer:
BLESENSORINFO: [0]:DD9DD495C467; DT:2; PT:1; F:1; V:3.2; A:1; R:-35; LMT:20; S:0;
[1]:EE53F61FCC05; DT:0; PT:0; F:0; V:25.5; T:-300.00; L:655.35; H:255, R:0; LMT:0; S:32768;
Description of the answer parameters:
T - temperature
L - illumination.
H - humidity.
V –battery voltage.
R - RSSI level in dBm.
LMT - time of the data update from the sensor. Values: 0..120 seconds. If you exceed 120
seconds, the maximum value of 120 will be set.
S –sensor status.
DT –device type.
PT –package type.
F –firmware version.
5 Storage and Transportation
The sensors should be stored in a warehouse at a temperature of +5оC to +40оСand relative
humidity at most 85 %.
After transportation of the sensors in sub-zero temperatures they should be stored at room
temperature within 24 hours.
6 Warranty
The manufacturer guarantees the proper function of the sensor within 12 months from the
day of its sale if consumer meets all the requirements and follows all the rules of transportation,
storage, installation and handling.
The warranty does not cover:
- sensors with mechanical damages and defects (cracks and chips, dents, signs of
impacts, etc.) caused by consumer as a result of handling, storage and transportation rules
violation. When there are signs of oxidation or other proofs of liquid penetration in the
sensor housing;
- -sensors with signs of electrical and/or other damages caused as a result of
unacceptable changes in external power network parameters or improper use of the
terminal;
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The device software is licensed, terms related to the manufacturer's limited liability in the
framework of the License Agreement are provided at the web site
https://neomatica.com/upload/docs/license.pdf
7 Marking and Packaging
Marking is placed on the housing of the sensor. Both multipack and individual package is
possible. 8 Disposal
Disposal of the sensor and discharged battery is performed according to national and local
norms and requirements.
9 Scope of supply
Device name
Quantity
Comments
Wireless multifunctional sensor ADM35(H)
10 Acceptance certificate
Wireless multifunctional sensors ADM35(H) in the amount of _____ pcs are considered to
be ready for operation
Date of manufacture:
Manufacturer: «Neomatica»LLC
614087, Russia,Perm, 24A Malkova Str., office 6.
Telephone: +7 (342) 2-111-500 (ext. 42).
E-mail: sales@neomatica.com
Web site: http://neomatica.com/en
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Annex A. Sensor usage with Teltonika FMB trackers
This application is only for information. If you have any problems or questions, please refer to
the operation manual of the tracker you use.
By default, the sensor is already configured to send readings automatically. The sensor
settings do not need to be changed. It is sufficient to prepare the sensor for operation according to
clause 4.1. Installation.
To avoid problems, we recommend at first to update the tracker to the latest available
firmware version.
Connect the Teltonika device to the Configurator by any convenient way. In the left menu,
find the item «Bluetooth 4.0»and select it
In the opened menu you’ll see the following:
The configuration of the joint operation of the tracker and ADM sensors is done with the help
of BLE connectionless functions «setting. This default setting contains four subforms with the
name «connection»and the serial number of the sensor under configuration.
In the «connection1»subform, select the “Advanced” option as the operating mode. The
subform will automatically expand and will look as follows:
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In the MAC field, enter, without entering a colon, the MAC address of the ADM sensor from
which the tracker will receive and process the data.
The table of data received from ADM sensor should be filled as follows:
You can do the same to configure 3 sensors
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Table of correspondence of transmitted data and IO fields on the telematics server:
Parameter name
connection1
connection2
connection3
connection4
Temperature
25
26
27
28
Battery voltage
29
20
22
23
Humidity
86
104
106
108
Hall sensor
331
332
333
334
Illumination
335
336
337
338
The temperature parameter is transferred in an arbitrary field of the protocol and requires
conversion from the server.
2 calculation formulas are used for two ranges of incoming values:
For the range of values from 0 to 32767-use the formula X*0.01
For the range of values from 32768 to 65535-use the formula X*0.01-655.36
To correctly display negative and positive values, you should use both formulas for the
corresponding ranges.
The acceptable range of values after calculation according to the formula is -39...+150.
The value 3000 (before the use of calculation formulas) is the error code «no signal from the
sensor».
The light level is transmitted to the server in the float format. To convert it to a normal form, it
is necessary to perform the appropriate conversion on the server side.
This manual suits for next models
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