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* {{{model}}} {{{type}}}
* {{{model}}} {{{type}}}
* Antenna GSM (SMA connector)
{{#switch: {{{model}}}
    | RB900L3|RB900MC = * Antenna (SMA connector)
* Power adapter
* Wall bracket
    | RB900SG|RB900SG-ElpOS = * RJ45 cable
 
Please check additional accessories in [[{{{model}}} Accessories]]
    | RBMTX-Lite = * Antenna (SMA connector)
* Power adapter
* Wall holder
    | RBMTX-Viper = * WiFi antenna (SMA connector)
* Power adapter
* Power adapter
{{#switch: {{{model}}}
    | RBVND-Lite = * Antenna (SMA connector)
     | RB900 = * Wall bracket
* 20-pin cable
* 14-pin cable
     | NTS-pico3 = * Power supply 12VDC/230VAC
* Outdoor active GNSS antenna w/ 30m coax H-155 and accessories


[[File:RB900_package.png|800px|border|class=tlt-border]]
Options (not included in standard set):<br>
    | RBMTX-Lite = * Wall holder
* Ethernet cable 1m RJ45/RJ45 (pcs 1)<br>
* RS232 cable 1m DB-9/RJ45 (pcs 1)


[[File:RBMTX-Lite_package.png|800px|border|class=tlt-border]]
<span style="color:red">Note:</span> Set does not include antenna mast, but antenna can be mounted directly using attached accessories: claps, bracket, nuts etc. - they are included.
    | #default = This page
}}
    }}


[[File:{{{model}}}_package.png|500px|frameless|class=tlt-border]]
{{#ifeq: {{{variants}}} | 1 |
==Variants==
==Variants==


List below shows typical configuration and different variants of the {{{model}}} {{{type}}}.
List below shows typical configuration and different variants of the {{{model}}} {{{type}}}.
}}
{{#ifeq: {{{model}}} | RB900L3 |
{{{!}} class="wikitable"
{{!}}-
  ! Function
  ! Typical
  ! Option
{{!}}-
  {{!}} Memory
  {{!}} 128 MB RAM + 128 MB flash (available on LTE module - Telit AppZone)
  {{!}} -
{{!}}-
  {{!}} RS232
  {{!}} HS-UART, (up to 4 Mbps)
  {{!}}
{{!}}-
  {{!}} USB
  {{!}} 2.0 HS
  {{!}} -
{{!}}-
  {{!}} Connection
  {{!}} UMTS/LTE Cat. 1
  {{!}} -
{{!}}-
  {{!}} Bands
  {{!}} 4G: B1, B3, B7, B8, B20, B28A<br>3G: B1, B3, B8<br>2G: B3, B8
  {{!}} NA/APAC/LATAM variants
{{!}}-
  {{!}} Speed
  {{!}} Downlink up to 10 Mbps, Uplink up to 5 Mbps
  {{!}} -
{{!}}-
  {{!}} Dual SIM
  {{!}} -
  {{!}} available
{{!}}-
  {{!}} GNSS receiver
  {{!}} -
  {{!}} available
{{!}}-
  {{!}} Programmable
  {{!}} yes, C language
  {{!}} -
{{!}}}
}}
{{#ifeq: {{{model}}} | RB900SG-ElpOS |
The {{{model}}} {{{type}}} variants and their description are listed in the table below.
{{{!}} class="wikitable"
{{!}}-
  ! Model
  ! Description
{{!}}-
  {{!}} RB900SG-E5.E.X.2.X.X
  {{!}} LTE Cat. 4 {{{type}}} with ElpOS
{{!}}}


{{#ifeq: {{{model}}} | RB900 |
It is possible to use SIM-CHIP solution. Example P/N of the modem with SIM-CHIP:
RB900SG-E5.E.C.2.X.X – LTE Cat. 4 modem with SIM-CHIP. Last parameter in P/N depends on modem accessories. Please check available accessories in [[{{{model}}} Accessories]]
}} {{#ifeq: {{{model}}} | RB900SG |
The {{{model}}} {{{type}}} variants and their description are listed in the table below.
{{{!}} class="wikitable"
{{{!}} class="wikitable"
{{!}}-
{{!}}-
   ! Name
   ! Model
  ! Value
   ! Description
   ! Description
{{!}}-
{{!}}-
   {{!}} Local Time
   {{!}} RB900SG-E5.X.X.2.X.X
   {{!}} string in DD.MM.YYY, HH:MM:SS date format
   {{!}} LTE Cat. 4 {{{type}}}
  {{!}} Use the button
{{!}}}
{{!}}}
}}
 
{{#ifeq: {{{model}}} | RBMTX-Lite |
It is possible to use SIM-CHIP solution. Example P/N of the modem with SIM-CHIP:
RB900SG-E5.X.C.2.X.X – LTE Cat. 4 modem with SIM-CHIP. Last parameter in P/N depends on modem accessories. Please check available accessories in [[{{{model}}} Accessories]]
}} {{#ifeq: {{{model}}} | RBMTX-Lite |
{{{!}} class="wikitable"
{{{!}} class="wikitable"
{{!}}-
{{!}}-
Linia 76: Linia 150:
   {{!}} -
   {{!}} -
   {{!}} available (variant without WiFi+Bluetooth)
   {{!}} available (variant without WiFi+Bluetooth)
{{!}}}
}} {{#ifeq: {{{model}}} | RBMTX-Viper |
{{{!}} class="wikitable"
{{!}}-
  ! Function
  ! Typical
  ! Option
{{!}}-
  {{!}} Memory
  {{!}}
  {{!}} -
{{!}}-
  {{!}} Processor
  {{!}}
  {{!}} -
{{!}}-
  {{!}} RS485
  {{!}} 1
  {{!}} -
{{!}}-
  {{!}} USB 2.0
  {{!}} 1
  {{!}} -
{{!}}-
  {{!}} Connection
  {{!}} LTE Cat. 4, global version
  {{!}} -
{{!}}-
  {{!}} Dual SIM
  {{!}} yes
  {{!}} eSIM
{{!}}-
  {{!}} Ethernet
  {{!}} 4 x Gigabit ports (1x WAN, 3x LAN)
  {{!}} -
{{!}}-
  {{!}} GPIO
  {{!}} x 7
  {{!}} -
{{!}}-
  {{!}} PoE
  {{!}} yes, passive PoE pass through
  {{!}} -
{{!}}-
  {{!}} Wi-Fi
  {{!}} IEEE 802.11a/b/g/n/ac - 2,4 GHz and 5 GHz
  {{!}} -
{{!}}-
  {{!}} Bluetooth
  {{!}} 5.0
  {{!}} -
{{!}}-
  {{!}} GNSS receiver
  {{!}} -
  {{!}} Multi-constellation (GPS, GLONASS, BDS, Galileo and QZSS)
{{!}}-
  {{!}} RTC
  {{!}} -
  {{!}} yes, with battery backup
{{!}}}
}}
{{#ifeq: {{{model}}} | RBVND-Lite |
{{{!}} class="wikitable"
{{!}}-
  ! Function
  ! RBVND-Lite NB
{{!}}-
  {{!}} Industry Standards: MDB/EXE / DEX/DDCMP (EVA DTS)
  {{!}} ○ / ●
{{!}}-
  {{!}} Audits from Printer, Modem, etc.
  {{!}} ●
{{!}}-
  {{!}} FTL over MDB support
  {{!}} ○
{{!}}-
  {{!}} Mobile payments
  {{!}} ○
{{!}}-
  {{!}} Generating audits for non EVA-DTS machines
  {{!}} ●
{{!}}-
  {{!}} Open API
  {{!}} ●
{{!}}-
  {{!}} LTE Cat. M1, NB1 & 2G
  {{!}} ●
{{!}}-
  {{!}} eSIM
  {{!}} ○
{{!}}-
  {{!}} RFID
  {{!}} ○
{{!}}-
  {{!}} SD card
  {{!}} ○
{{!}}-
  {{!}} External flash
  {{!}} 4 MB
{{!}}-
  {{!}} Peripheral Port: USB (Host/Device), Ethernet
  {{!}} ○
{{!}}-
  {{!}} RS232 interface
  {{!}} x 1
{{!}}-
  {{!}} TTL level UART (only one 232 RS is available if we use it)
  {{!}} ○
{{!}}-
  {{!}} GPIO (counter/pulse/analog/sensors/switches)
  {{!}} ○
{{!}}-
  {{!}} 2 x MDB/EXE - capture and analyze messages from all MDB peripherals connected to the same line
  {{!}} ○
{{!}}-
  {{!}} MDB as master
  {{!}} ○
{{!}}-
  {{!}} Accelerometer / Restock button / Buzzer notification / Universal button
  {{!}} ○ / ● / ○ / ○
{{!}}-
  {{!}} Remote software update (OTA)
  {{!}} ●
{{!}}-
  {{!}} Battery - for power down alert
  {{!}} ○
{{!}}}
{{!}}}
}}
}}
==Presentation==
==Presentation==


===Front panel===
===Front===


[[File:RBMTX-Lite_frontpanel.png|800px|border|class=tlt-border]]
[[File:{{{model}}}_front.png|400px|frameless|class=tlt-border]]


===Backpanel===
===Back===


[[File:RBMTX-Lite_backpanel.png|800px|border|class=tlt-border]]
[[File:{{{model}}}_back.png|400px|frameless|class=tlt-border]]


==Setting up the device==
==Setting up the {{{type}}}==
 
{{#ifeq: {{{jumper}}} | 1 |
===Serial ports configuration===
At the production stage, the device is set up with a RS232 serial interface (without the jumper inside). If there is a need to change the interface to RS485 please open the device housing and plug the jumper on the appropriate connector of the internal board (as in the picture below) and close the housing.
 
[[File:{{{model}}}_jumperrs485.png|400px|frameless|class=tlt-border]]
 
[[File:{{{model}}}_jumperrs232.png|400px|frameless|class=tlt-border]]
}}
{{#ifeq: {{{usb_conf}}} | 1 |
===USB configuration===
* Connect the USB cable to the computer. If you want to configure the modem with SIM card inside, please connect also the power adaptor.
* Configure the modem using the Smart Manager program. If you plug the jumper inside the modem (for RS485 interface), please set „485-4W” (full-duplex) or „485-2W” (half-duplex) in „Serial” -> „Serial type” in „Basic” menu tab, save the configuration and reboot the modem. The detailed configuration procedure is described in the [https://cloud.elpromaelectronics.com/index.php/s/z3WxxG624jgCH4W Elproma Smart Manager User Manual] document.
* If you can’t connect to the modem, follow these steps:
- check if the modem is connected to the computer via USB interface
- check if the COM port number is correct
* Disconnect the USB cable after setting up the device.
}}


{{#ifeq: {{{usb_conf_elpos}}} | 1 |
===USB configuration - ElpOS===
* Connect the USB cable to the computer. If you want to configure the modem with SIM card inside, please connect also the power adaptor.
* Login to the web platform. The detailed configuration procedure is described in the [[{{{model}}} Web Platform|{{{model}}} Web Platform]] page.
* If you can’t connect to the modem, follow these steps:
- check if the modem is connected to the computer via USB interface
- check if your PC is in the same network as modem (default IP is 192.168.1.234)
* Disconnect the USB cable after setting up the device.
}}
{{#ifeq: {{{wireless}}} | 1 |
===Inserting SIM cards===
===Inserting SIM cards===


* Push yellow button placed on the front panel and take external SIM drawer out.
{{#switch: {{{model}}}
    | RB900L3|RB900MC|RBMTX-Lite|RB900SG|RBMTX-Viper = * Push yellow button placed on the front panel and take SIM drawer(s) out.
    | RBVND-Lite = * Open the case, slide out the PCB and turn it over.
}}
[[File:{{{model}}}_sim1.png|400px|frameless|class=tlt-border]]
 
* Place the SIM card in the holder as shown in the picture.
* Place the SIM card in the holder as shown in the picture.


[[File:RBMTX-Lite_SIM.png|800px|border|class=tlt-border]]
[[File:{{{model}}}_sim2.png|400px|frameless|class=tlt-border]]


* Put the drawer into the {{{type}}}.
{{#switch: {{{model}}}
    | RB900L3|RB900MC|RBMTX-Lite = * Put the drawer into the {{{type}}}.


To insert the second (internal) SIM card unscrew one of the {{{type}}} panel, eject PCB board and put the SIM into internal SIM holder.
To insert the second (internal) SIM card unscrew one of the {{{type}}} panel, eject PCB board and put the SIM into internal SIM holder.
    | RBMTX-Viper = * Put the drawers into the {{{type}}}.
    | RBVND-Lite = * Put the board back to the case and close it.
}}
{{#ifeq: {{{model}}} | RB900SG | * Put the drawer into the {{{type}}}.
}}
===Connection===
* Connect GSM/LTE antenna to SMA connector marked as {{{ant_marking}}}
{{#ifeq: {{{power_adapter}}} | 1 |
* Connect power {{{power_source}}} into power supply connector
}}
{{#switch: {{{model}}}
    | RB900L3|RB900MC = [[File:RB900L3_connect.png|400px|frameless|class=tlt-border]]
    | RBMTX-Lite = [[File:RBMTX-Lite_gsm.png|500px|frameless|class=tlt-border]]
}}
{{#ifeq: {{{meter}}} | 1 |
<span style="color:red">* If you want to power the modem from the meter you MUST disconnect the power adapter</span>. Then connect the modem with the meter using RJ45 cable (the modem will be powered directly from the meter).
}}
{{#ifeq: {{{wifi}}} | 1 |
* Connect WiFi + Bluetooth antenna to SMA connector marked as "WiFi/BT" (variant with WiFi/BT option)
}}
{{#ifeq: {{{lan}}} | 1 |
* Connect LAN/WAN cable(s)
}}
}}
{{#ifeq: {{{mounting}}} | 1 |
===Mounting the {{{type}}}===


===Connecting antennas===
To mount the {{{type}}} inside the meter housing, please use one of the handles. The available handles are shown in the photos below.


* Connect GSM/UMTS/LTE antenna to SMA connector marked as "GSM"
[[File:{{{model}}}_holder1.png|400px|frameless|class=tlt-border]]


[[File:RBMTX-Lite_gsm.png|800px|border|class=tlt-border]]
[[File:{{{model}}}_holder2.png|400px|frameless|class=tlt-border]]


* Connect WiFi + Bluetooth antenna to SMA connector marked as "WiFi/BT"
The method of mounting the modem in the ITRON SL7000 housing is shown in the photo below.
 
[[File:{{{model}}}_insidemeter.png|500px|frameless|class=tlt-border]]
 
}}
{{#ifeq: {{{ant_mounting}}} | 1 |
===Antenna mounting===
 
Installing a basic system will require the following (a) '''mounting of the antenna''' (b) optionally '''mounting 1 or 2 lightning arrestors''' (not included to product set). The antenna supplied is of the active type, and is suitable for almost all applications. It is supplied with a pre-attached, 30-meter H-155 coax cable, terminated with a male SMA connector. Before commencing installation, check that all the items detailed in the contents list have been supplied. The antenna is supplied with mounting clamps for attachment to a mounting pole, included too. Mast antenna suspension (H=0.5m) is not included but it is available as separate products from Elproma. Following figure shows an example of how mounting antenna might be achieved.
 
[[File:{{{model}}}_antenna_mounting.png|600px|frameless|class=tlt-border]]
 
<span style="color:red">Note:</span> The most important consideration in selecting a position for the antenna is the presence of objects which obscure the sky or horizon. Where possible, there should be no obstruction to a full view of the sky.
 
Overhead wires and other very narrow obstructions may be considered as invisible to the signals, provided that they are a few meters away. Large flat surfaces can decrease performance of the receiver. Be especially wary about mounting the antenna directly onto the fascia of a flat roof. To overcome this situation, elevate the pole about 1 meter above the flat surface. A satellite prediction mobile phone program may usefully be employed to check a potential installation, and also to identify directions in which obstructions may be a particular source of problems.
 
<span style="color:red">Note:</span> When the '''{{{model}}}''' is operational, the GNSS antenna assembly may be disconnected for short periods (e.g. maintenance or repair) without interruption to the unit synchronization LAN output.
 
===Additional lightning protection considerations===
 
As the antenna is roof mounted (to have a clear view of the sky) it is likely to be exposed to lightning strikes.
 
[[File:{{{model}}}_lightning_protection.png|600px|frameless|class=tlt-border]]
 
Protection against this is afforded by ensuring adequate grounding of the mountings as described below. There is no way to provide 100% protection for electronic equipment from direct strike damage. It is possible however, to reduce the likelihood of damage from near strike induced fields by ensuring the installation obeys some fundamental rules.
 
A proprietary lightning arrestor should be installed, of a type which does not reduce GNSS signal transfer. Install the lightning arrestor near to the antenna (e.g. on the mounting pole), ensuring all connections maintain electrical and environmental protection.
 
After taking the precautions described previously in the antenna installation, it should be understood that a destructive residual current may still be present in the cable coming down from the antenna to the '''{{{model}}}''' unit.
 
A second lightning arrestor should be installed near to the '''{{{model}}}''' to further dissipate any remaining lightning energy. At the earth end please use multiple connection points if at all possible.
 
All connections should incorporate as large an area of contact as possible, which is made more probable using large bolts, and substantial washers. Where there is no access to the metal framework of the building, it is imperative to erect a suitable lightning conductor. Failure to do so is almost certain to result in destruction of '''{{{model}}}''' and connected into it equipment in the event of the antenna receiving a near lightning strike.
 
[[File:{{{model}}}_grounding.png|600px|frameless|class=tlt-border]]
 
[[File:{{{model}}}_surge_protection.png|600px|frameless|class=tlt-border]]
 
[[File:{{{model}}}_surge_protection2.png|600px|frameless|class=tlt-border]]
 
===Powering up===
 
1. Connect GNSS antenna to SMA connector in NTS-pico3<br>
2. Connect Ethernet LAN cable to RJ45 connector<br><b>WARNING: Do not connect the PoE (Power-over-Ethernet) connection to the LAN port. Otherwise it may damage the device!</b><br>
3. Plug-in DC power supply to power input and turn power ON. Please check the power supply connector pinout in [[{{{model}}}_Connectors]].
 
}}
{{#ifeq: {{{configuration}}} | 1 | ===Modem configuration===
 
Modem is configured via web browser making it portable and easy to use. Modem configuration is described below in following sections.
 
===Setup===
 
At first start please send SMS message with correct APN and optionally APN username and password:<br>
APN:<apn>;<user>;<pass>;
 
===Communication protocols===
 
<b>Executive/Protocol-A</b><p>
 
RBVND-Lite supports EXE, which is communication standard for vending machines and the coin acceptors. The "Executive" protocol (also known as "Exe" or "Protocol-A") was developed as a proprietary standard by Mars (MEI) for communications with payment systems (coin-mechanisms, etc) in vending machines.<p>
 
<b>MDB</b><p>
 
RBVND-Lite supports also MDB, which is another communication standard for vending machines and the coin acceptors. Multi Drop Bus or MDB standard was issued by NAMA and EVA, originally developed by CoinCo Inc. USA. MDB protocol is a real time interface that various peripherals use for communicating with the vending machine controller (VMC).<p>
RBVND-Lite can operate in MDB sniffer mode. This is non intrusive MDB connection where RBVND-Lite only listens to MDB master (VMC). This can be used to detect if VMC has enabled coin acceptance and if cashless is enabled. This is hint to understand that VM is able to sell products or pending in error state. This mode also supports real-time Cashless purchases.<p>
 
<b>EVA-DTS</b><p>
 
The aim of the EVA DTS is to provide a standard format for data which is required by operators of vending machines. The standard defines the structure of common data elements and describes the means of the transfer of the data. RBVND-Lite is compatible with Vending machines through RS 232 (eg. DB9 and Audio Jack). It supports DEX and DDCMP communication protocol.
 
}}


[[Category:{{{model}}}]]
[[Category:{{{model}}}]]

Aktualna wersja na dzień 10:23, 12 lut 2025

This page contains instructions on how to get started with {{{model}}} {{{type}}} and how to configure it.

Package contents

Complete package contains:

  • {{{model}}} {{{type}}}


[[File:{{{model}}}_package.png|500px|frameless|class=tlt-border]]



Presentation

Front

[[File:{{{model}}}_front.png|400px|frameless|class=tlt-border]]

Back

[[File:{{{model}}}_back.png|400px|frameless|class=tlt-border]]

Setting up the {{{type}}}

[[Category:{{{model}}}]]

Źródło: „http://wiki.elpromaelectronics.com/index.php?title=Szablon:QuickStart&oldid=215157