Gateway with internal Quad-band GSM/GPRS modem

SCG User manual Version3.5

ELSETA Lithuania 2015

Document revision history Version

Date

Revision history

1.0 2.0 2.1 3.0 3.1 3.2 3.3 3.4

2013.03.19 2014.02.12 2014.06.20 2014.09.05 2014.09.22 2015.02.02 2015.07.01 2015.10.21

First Issue Updated layout Menu hierarchy added Updated revision Updated menu Updated Annex and connection diagrams Updated sms tags Additional comments added on device configuration headings. Description table collumns updated with explanations.

Controller Firmware version 1.0 1.0 1.0 1.0 1.0 1.0 1.0 1.0

Disclaimer “Elseta” Ltd guarantees that the following documentation is correct and intended for the device described. The manufacturer has no obligation for guarantee if the documentation is used for any other device not listed in this documentation. “Elseta” Ltd has the right to update or alter documentation without prior notice.

2

2. Contents DOCUMENT REVISION HISTORY ................................................................................................................... 2 2.

CONTENTS................................................................................................................................................. 3

3.

SIGNS AND ABBREVIATIONS ................................................................................................................. 5

4.

SAFETY INSTRUCTIONS .......................................................................................................................... 6

5.

APPLICATION AND FUNCTIONALITY ..................................................................................................... 7 5.1.

General Information ............................................................................................................................ 7

5.2.

Supported Communication Protocols ................................................................................................. 7

5.3.

Configuration ...................................................................................................................................... 7

6.

PRINCIPAL COMPONENTS OF THE CONTROLLER SCG ..................................................................... 9

7.

TECHNICAL CHARACTERISTICS .......................................................................................................... 10

8.

INSTALLATION ........................................................................................................................................ 12 8.1.

Installation Steps: ............................................................................................................................. 13

8.2.

Connecting power cable to the SCG ................................................................................................ 14

8.3.

Sockets and Interfaces ..................................................................................................................... 14

8.4.

Connecting Devices Over RS485 and Optical Read-out Head ....................................................... 15

8.5.

Connecting an Optical Read-out Head Over RS485........................................................................ 15

8.6.

Connecting Over RS232 and Optical Read-out Head..................................................................... 16

8.7.

Connecting a Device Over RS232 ................................................................................................... 16

8.8.

Connecting an Optical Read-out Head Over RS232........................................................................ 16

8.9.

Connecting a PC over USB Port For Parameterization ................................................................... 17

9.

ANNEX USB INSTALLATION GUIDE ..................................................................................................... 17

10.

LABELLING INFORMATION .............................................................................................................. 24

11.

PARAMETERIZATION GUIDE ............................................................................................................ 24

11.1.

Initial Information .............................................................................................................................. 24

11.2.

Procedure of Local Parameterization ............................................................................................... 25

12.

PARAMETERIZATION ........................................................................................................................ 30

12.1.

Security ............................................................................................................................................. 30

12.2.

Default Password ............................................................................................................................. 30

12.3.

APN .................................................................................................................................................. 30

12.4.

Automatic Reboot ............................................................................................................................. 30

12.5.

SMS .................................................................................................................................................. 30

12.6.

SMS Parameterization ..................................................................................................................... 30

12.7.

Firmware update............................................................................................................................... 30

12.8.

Automatic Firmware Update ............................................................................................................. 30

12.9.

Manual Firmware update .................................................................................................................. 30

12.10.

Byte w. timeout in X bytes ............................................................................................................ 30

12.11.

Reports ......................................................................................................................................... 30

13.

EVENT LOG ......................................................................................................................................... 31

13.1.

Event Log Record Format ................................................................................................................ 31

13.2.

Logging Events ................................................................................................................................. 31

14.

DEVICE CONFIGURATION ................................................................................................................. 32

15.

USB IN CONFIGURATION .................................................................................................................. 33 3

16.

WIRELESS IN CONFIGURATION ....................................................................................................... 33

17.

RS232 OUT2 CONFIGURATION ........................................................................................................ 34

18.

RS485 OUT1 CONFIGURATION ........................................................................................................ 34

19.

PROTOCOL IEC62056-21 CONFIGURATION ................................................................................... 35

20.

SIM CARD CONFIGURATION ............................................................................................................ 36

21.

REPORTS CONFIGURATION............................................................................................................. 36

22.

PROVIDER SETTINGS ........................................................................................................................ 36

23.

PASSIVE CLIENT ................................................................................................................................ 37

24.

DIAGNOSTICS..................................................................................................................................... 37

25.

CONFIGURE SCG FOR CLOUDINDUSTRIES CONNECTION ......................................................... 39

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3. Signs and Abbreviations AC / DC

Alternating Current / Direct Current

APN

Access Point Name

CSD

Circuit Switched Data

EMC

Electromagnetic Compatibility

GPRS

General Packet Radio Service

GSM

Global System for Mobile communications

ISP

Internet Service Provider

IP

Internet Protocol address

IMEI

International Mobile Equipment Identity

LED

Light Emitting Diode

N/A

Not Available / Not Applicable

PC

Personal Computer

PIN

Personal Identification Number

Rx

Receiver connector

SIM

Subscriber Identity Module

SMA

SubMiniature version A connector

TCP/IP

Transmission Control Protocol/Internet Protocol

Tx

Transmitter connector

VPN

Virtual Private Network

URL

Uniform Resource Locator

USB

Universal Serial Bus

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4. Safety Instructions

Please ensure you read and understand the installation instructions entirely before attempting to install and configure SCG.

Always disconnect the mains supply while installing or servicing the communication interfaces, antenna or changing SIM card.

Only the authorized service persons with adequate qualifications can perform installation, uninstallation and parameterization of the GSM/GPRS controller SCG. National wiring rules should be followed while installing and using the controller.

All equipment interconnected with this product should comply with the requirements of EN 60950-1:2006 (Personal computer, etc.) or other adequate safety standard applicable to the equipment (electricity meters).

GSM/GPRS controller should be mounted in restricted access locations. Only authorised personnel should be able to access this location.

Some parts may remain energized even if the power is disconnected! Do not try to disassemble internal components. There are no serviceable parts inside.

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5. Application and Functionality 5.1. General Information SCG (further referred to as a gateway) is used in AMR systems for automated remote data reading of electricity, heat meters and other electronic devices and data transmission to remote offices. Device does not store, manipulate or alter meter information. GSM radio network with CSD/GPRS technology and TRANSPARENT DATA, TCP/IP protocols is used for data transmission to the management system. Depending on modification the gareway can have analogue and digital inputs for auxiliary devices. 5.2. Supported Communication Protocols Controller supports two-direction data exchange with communication protocols IEC 62056-31, DLMS/COSEM (all security layers as well) or IEC 62056-21. 5.3. Configuration RS232 and RS485 electric communication interfaces are used for meter data read-out. An Optical Read-out Head can be connected to RS485/RS232 in order to read out meter data via the optical interface (infrared). Device parameterization can be performed locally via USB and RS485 interfaces or remotely via SMS or GSM/GPRS. Controller supports both TCP/IP server and client connection modes. Controller’s structure and interface locations are indicated below.

Cover fixing bolts

Transparent protective cover

Cable gland cap Figure 1-1. SCG principal external components

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Serial interface activity indicators

SCG mounting holes

Power and USB indicators

GSM mode and signal strength indicators

SIM card slot SMA female antenna socket Connectors to devices and/or Optical Read-out head/other input connection with indicated controller’s Tx and Rx connectors

AC Power supply connector

USB female socket for PC connection

Figure 1-2. SCG principal internal components

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6. Principal Components of the controller SCG The main controller components are listed below: a) GSM/GPRS modem is used for modem programming, firmware update, data reading and parameterization GSM/GPRS Modem GSM/GPRS bands Class of power transmission Data Speed Antenna Connector type

850/900/1800/1900 Mhz Multi-slot class 10, CS1-CS4, Class B up to 85.6 kb/s SMA (50 Ohm) Table 2-1. Main characteristics of a modem

b) Galvanically non-separated communication interfaces: USB device: for local modem programming, firmware update, data reading and parameterization; c) Galvanically separated communication interfaces: RS232 (TX, RX, GND): serial data comunication iterface. Supports only one device; RS485 (half duplex): serial data comunication iterface. Supports up to 32 external devices; d) АС/DС (90-264), power supply connector; e) Antenna type SMA socket. Outer antenna with a magnetic/adhesive base included(3 meters). Antenna can have an optional signal strengthening 0 to 11 dBi. .

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7. Technical Characteristics Power supply input voltage range (50/60Hz) 90 ... 264 V Power consumption: a. maximum in transmission mode: < 10 VA b. average in duty mode: < 5 VA Device to SCG serial data comunication iterface baud rate*, Baud 300... 115200 PC to controller net baud rate via USB device interface, 8N1 115200 bits, Baud Number of devices connected to RS485 interface 1… 32 Number of devices connected via optical Read-out Head 1 Number of devices connected to RS232 interface 1 Analogue input interface*, 12 bit, 0-48V 1 Digital input interface, 100Hz* 1 Number of simultaneous communication sessions GSM/CSD/GPRS 6 о Internal thermometer measurement range*, С - 4 0 . . . +100** о Work temperature range, С - 2 0 . . . +60 о Storage temperature range, С - 4 0 . . . +70 Relative humidity, % without condensate 20 ... 90 Plastic Materials, safety of flammability ABS Internal Protection Marking IP-64 Immunity to surge pulses from AC 230V 6 kV (1,2/50 μs), 50 Ohm Dimensions, mm 150x80x50 RoHS Compliant Standards of electromagnetic interference and isolation Compliant IEC/TS 61000-6-5 certification* Compliant * Depends on device modification Table 3-1. SCG controller technical characteristics

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GSM

METER

PWR AC

RX/TX

GPRS

USB

**CL OPEN

CSD CONNECT

LED

LED meaning, when active

PWR: Interface activity AC USB

AC power is on USB host is connected

METER: Meter Interface activity RX/TX CL OPEN

Data transfer; active interface CL circuit is open

GSM: Operation and received signal strength indication GPRS CSD CONNECT

Registered to GSM/GPRS network (call waiting) Registered to CSD network GPRS/CSD data session active; (connection established)

GSM: Signal level range indication* LED – top Indicates signal strength -113 to -82 dBm or less LED – middle Indicates signal strength -81 to -70 dBm LED – bottom Indicates signal strength -69 to -51 dBm or more *Default values indicated. Signal indication level can be changed in the Menu ** Optionaly Table 3-2. SCG controller indicators and description

11

8. Installation Important: Before proceeding, please ensure the device will remain clean and dry during the installation and no liquid or other substance will remain inside as that could severely affect device performance and warranty.

Important: Allowed bolt head diameter can be from 6 to 7,5 mm and the body diameter from 3,4 to 4 mm. A set of mounting bolts are supplied with the controller

Important: PIN code of a SIM card must be disabled prior the installation

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8.1. Installation Steps: a) Unscrew 4 bolts at each corner holding the transparent cover and take the cover off b) Controller can be mounted on a wall using four mounting holes (indicated below) at the corners of the device. Position the device vertically so that the face of the device is clearly visible for led indication and connection interfaces are easily accessible c) Place the controller in the desired location and screw in the mounting bolts through the mounting holes.

d) e) f) g) h) i) j)

Insert the SIM card firmly into the dedicated slot Gently place the SIM card in a slot marked “SIM” on the main face until it reaches the back of the slot. Check if the SIM card is secured inside. Connect the controller to the voltage network. Unscrew the cable gland cap and pass the external antenna cable, meter cable and/or optical read-out head cable and other required cables through the cap first Connect required meter or optical read-out head device to the required connectors as per paragraph 4.1 and manufacturer’s instructions Make sure that after controller is connected to the power source and is fully operational Re-apply the cover and secure it with the 4 screws to ensure the device remains water tight Re-apply cable gland cap and secure it firmly

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8.2. Connecting power cable to the SCG

Null

On the right of the controller there is the power source connector. The controller must be connected to the 230 VAC power supply as shown in the figure. Connect one wire to the SCG N (null) socket and the other wire to the L (phase) socket.

Phase

Figure 4.1-1. Power cable sockets

8.3. Sockets and Interfaces

Figure 4.2-1. Controller sockets

Controller sockets are shown in a table below: INTERFACE Analog or digital input interface* RS485 Optical Read-out Head RS232

CONNECTORS AI GND DI B A +5V B/TX A/RX GND TX RX GND USB female socket SMA female socket

DESIGNATION Digital and analog input for value reading Used for connecting up to 32 meters Used for connecting an Optical Read-out head. Optical Read-Out head is connected by using the same RS485 or RS232 connectors that are used for connecting a meter Used for a single meter connection

USB Used for controller configuration via PC Antenna Used for connecting an internal/external GSM/GPRS antenna Connection * Depends on device modification Table 4.2-1. SCG controller indicators and description

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8.4. Connecting Devices Over RS485 and Optical Read-out Head Connecting a Device Over RS485 In order to connect a device, please connect controller’s “A” connector with a meter’s “A” and be “B” connector with its “B” socket of RS485 interface (see Figure 4.3.1-1). If there is more than one meter to be connected the parallel method must be used as indicated below: Meters 1 .. 32, parallel connection method

Nr n Device Nr1

Nr 2

SCG RS48 5

A B

RS48 5

A B

RS48 5

A B

RS485

B A Figure 4.3.1-1 Device connection to RS485 interface

8.5. Connecting an Optical Read-out Head Over RS485 Optical Read-out Head allows connecting a device like with a controller by using infrared technology. Use products compatible with the IEC 62056-21 standard. The Optical Read-out Head has four connection wires in total where its two wires should be connected to the same RS485 interface and remaining two wires to the controller’s +5V (5 Volts) and GND (ground) connectors (see Figure 4.3.2-1) found nearby according to the optical read-out head specifications and manufacturer’s manuals.

SCG socket B A GND 5V TX RX GND

Optical Head wire color* White Green BLACK RED

Optical Head wire value B A +

*Colours may differ

Figure 4.3.2-1 Controller sockets

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8.6. Connecting Over RS232 and Optical Read-out Head 8.7. Connecting a Device Over RS232 A device can be connected using RS232 interface. RS232 supports only one device connection using Tx, Rx and GND connectors. Controller’s Tx and Rx connectors are indicated on the board. 8.8. Connecting an Optical Read-out Head Over RS232 Optical Read-out Head allows connecting a device like meter with a controller by using infrared technology. Use products compatible with the IEC 62056-21 standard.

Other manufacturers might have a different setup. SCG socket B A GND 5V TX RX GND

Optical Head wire color

Red White Green Black

Optical Head wire value

+ RX TX -

Figure 4.4.2-1 Controller sockets

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8.9. Connecting a PC over USB Port For Parameterization

Important: Controller’s USB connection can be used only after transparent cover is taken off.

Important: When using an USB cable, ensure the cable is unplugged each time before the restart of the device and plugged back again if required

9. Annex USB installation guide To use the USB cable an installation of the USB driver is needed. USB cable requires driver “STM32 Virtual COM Port Driver”. Download the driver from the manufacturer’s website: http://www.st.com/web/en/catalog/tools/PF257938 . Run the installation setup for 32 bits or 64 bits Windows platform and follow steps as shown below:

Install driver (Figure 4.5-1,2,3,4)

Figure 4.5-1

Figure 4.5-2 17

Figure 4.5-3

Figure 4.5-4

Go to STMicroelectronics directory, choose operating system (Figure 4.5-5)

Figure 4.5-5

18

Install application (Figure 4.5-6,7)

Figure 4.5-6

Figure 4.5-7

19

When the driver installation is completed, plug the USB cable and go to system properties (device manager). (Figure 4.5-8)

Figure 4.5-8 Select STM32 cable and press Update Driver Software(Figure 4.5-9)

Figure 4.5-9

20

Press Browse my computer (Figure 4.5-10)

Figure 4.5-10

Press Let me pick from a list (Figure 4.5-11)

Figure 4.5-11

21

Select type: Ports and press NEXT (Figure 4.5-12)

Figure 4.5-12 Select STMicroelectronics and press NEXT (Figure 4.5-13)

Figure 4.5-13

Press YES (Figure 4.5-14)

Figure 4.5-14

22

Installation completed (Figure 4.5-15)

Figure 4.5-15

Find port with name STMicroelectronics - this is your USB cable port. Remmember COM identification number (Figure 4.5-16)

Figure 4.5-16

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10. Labelling Information Principal controller information is marked on a label. Label explanation:  LED indicator position  Controller name  Power supply input and consumption characteristics  Unique identification number (S/N)

Important: Parameterization may vary depending on connection interface type, device version, administrator’s PC operating system region and version. Therefore figures and menus given below may differ from actual due to software updates and upgrades. Important: It is required to disable PIN request on a SIM card, before inserting it in the controller’s SIM socket

Important: Controller’s USB connection can be used only after transparent cover is taken off.

Important: When using an USB cable, ensure the cable is unplugged each time before the restart of the device and plugged back again if required

Do not connect parameterization cables and start the parameterization until 30 seconds are elapsed after controller was switched on.

The USB cable connected to the controller firstly must be installed to the computer as virtual COM port. The installation guide is described in the Annex : USB installation guide.

11. Parameterization Guide 11.1. Initial Information SCG controller using either CSD or GPRS technology transmits the data of measurement equipment (meters). There is an internal modem with a SIM card socket. Connect the controller to the computer‘s COM or USB (depending on connection) port to start the setup. Connect the antenna before switching the controller on. It is not necessary to insert a SIM card for parameterization. If there is an ongoing data readout, it must be interrupted before parameterization. If the controller was just turned on wait about 30 seconds before connecting.

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11.2. Procedure of Local Parameterization Access to the controller can be protected by a password. Two levels of users are possible: admin login and user login. Each login has separate menus and control functions. Parameterization can be handled using HyperTerminal (Figure 6.2-1, Figure 6.2-2) or other software allowing connecting SCG via device’s USB interface. The settings of a COM port for parameterization are independent from the settings for the data readout and can be set as follows: 115200 bps, parity - none, 8 data bits and flow control - none. After parameterization user must restart the controller's using the reset function in the menu.

Important! To load or re-load controller’s menu press button ESC (on keyboard) 3 times.

Enter a name for the new connection (Figure 6.2-1)

+ Figure 6.2-1

Select a port SCG is connected to (Figure 6.2-2)

Figure 6.2-2

25

After pressing OK in the COM Properties window (figure 6.2-3).

Figure 6.2-3 Select port settings

The settings are set to Auto detect by default (figure 6.2-4)

Figure 6.2-4

26

To change the values: Press Disconnect button as shown on figure 6.2-5 (arrow 1); Press Properties button as shown on figure 6.2-5 (arrow 2);

Figure 6.2-5

Press Configure button as shown on figure 6.2-6 (arrow 3); Press OK button as shown on figure 6.2-6 (arrow 4);

Figure 6.2-6

27

Important. Ensure that other settings of the connection are set as shown on figures 6.2-7;

Figure 6.2-7

The settings should change to 115200 8-N-1 as shown on figure 6.2-8

Figure 6.2-8

Important! To load or re-load controller’s menu press button ESC (on keyboard) 3 times. Figure 6.2-9

28

Figure 6.2-9 Admin menu on figure 6.2-10

Figure 6.2-10

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12. Parameterization The entire SCG menu hierarchy and main device functions are is described below. 12.1. Security Controller parameterization menus are protected with dedicated passwords to prevent from unauthorised access and configuration. 12.2. Default Password There are two user levels: admin and user where admin is superior. Default admin password is “admin”. Default user password is “user”. Each login has separate menus and control functions. If required, a different default passwords can be set automatically during the manufacturing process. Alternatively, default passwords can be changed manually or automatically. 12.3. APN APN names and settings (GSM Provider/Network ID, DNS etc) for each APN are entered by administrator or imported via sms and can be accessed via configuration menu. Each separate APN has different numbers and IP address lists and every other APN can be configured manually. 12.4. Automatic Reboot Device configuration allows to set an interval in minutes to enable automatic device reboot (restart) when idle, without having an engineer to interfere. 12.5. SMS Depending on APN a list of allowed numbers can be set to allow parameterization by SMS or to send periodic SMS reports with device status, SIM ID, signal strength, IP address. 12.6. SMS Parameterization SMS parameterization command syntax is as follows below. Important! Command keys must be sent in lower case only. MAX sms size – 160 symbols. SMS command syntax: : !Important. No signs ( ; = ) must be used in parameters. For example: smscfg:dev_userpassword=PA:SS;=WORD; is not allowed. Example: “ smscfg: dev_user_psw=user=asd;smscmd: reboot;smscfg: dev_menu_lang_user=0; ” Alternative: “ smscfg: dev_menu_lang_user=0; dev_user_psw=user=asd;smscmd: reboot; ” If successful, the command will request the device to change the default automatic reboot value to 10 minutes and send report to data center. Depending on the outcome the device will respond to each command in the following way: Ok;ok;ok; OR Error;ok;error; If device will not recognize the command the response will be “No valid command”. The entire command list is displayed in the Annex A. “Controller menu and configuration settings”. 12.7. Firmware update The firmware can be set to be updated automatically or manually. 12.8. Automatic Firmware Update If set to automatic, after restart controller will attempt automatic firmware download and update from the IP (IP of a FTP server) address indicated in the APN setting for a specific APN used. 12.9. Manual Firmware update Depending on the client’s end system configuration, controller modification and settings, controller can support manual firmware update via GSM/GPRS or via USB, RS485 by directly connecting the controller direct connection using a PC. 12.10. Byte w. timeout in X bytes Timeout value defined in byte transfer time (it depends on baud rate) multiplied by this setting value. Timeout is set after each received byte in frame. If timeout expires after the last received byte, the frame is adopted. 12.11. Reports Reports regarding signal strength , IMEI, IP address, events can be sent to multiple IP addresses or phone number via SMS depending on APN and their settings. Report interval is a configurable value. Report example: “SQ:-51dBm IMEI:355233050381548 IP:212.47.100.164 SN:170170170170“

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13. Event Log 13.1. Event Log Record Format Each event log record will register the following information:  Date and time of the event (if known)  Type of the event  Subject identity and/or source of the event  Outcome of the event 13.2. Logging Events Controller logs the following events:      

Failed authorization or authentication Requests or commands received Firmware update/information High number of malformed or unexpected messages and errors Power supply recovery events Unauthenticated communication

All events logs can be enabled/disabled if required. If event log is disabled, event alert is disabled as well

Important: Menu item availability depends on the user rights and device modification. User rights can be managed only from the admin account secured by the admin password.

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14. Device configuration Basic controllers settings are controlled through this option Menu Item 1.Passwords / Keys 1.1 User password 1.2. Admin password

2. Messaging 3. Menu language of [Public] 4. Menu language of [User] 5. Menu language of [Admin] 6. Menu language of [SuperAdmin] 7. Device reboot period

8. Time zone

9. Firmware update mode

10. ModBus slave ID 11. Notes 12. Run firmware update 13. Restore factory defaults

14. Reboot

Description Change passwords and keys Password. If password is not set, it displays „none“ Password. If password is not set, it displays „none“ Reserved menu option Menu language for user: Public Menu language for user: User Menu language for user: Admin Menu language for user: SuperAdmin Reboot time value in minutes. If there are no queries coming via GPRS or CSD during specified time, controller will automatically reboot. After each GPRS or CSD query by reboot time is set to initial value Set the current time zone for the controller (+ or – value in minutes) Auto / Manual firmware download and update. Auto / Manual firmware download and update. If set to automatic, every time controller connects to the gsm network, controller checks for the updates. ModBus protocol slave ID Additional controller notes, editable field Start firmware update procedure Restore the controllers interfaces to the default settings (usb, wireless, RS232, RS485), but the user sensitive info is left (provider settings, sim pin code) Restarts the controller immediately after pressing key

SMS command

Options

dev_user_psw=oldpasw=n ewpsw dev_admin_psw=oldpasw= newpsw

dev_menu_lang_public

dev_menu_lang_super_ admin dev_reboot_period

0 -> English 1 -> Espanol 0 -> English 1 -> Espanol 0 -> English 1 -> Espanol 0 -> English 1 -> Espanol 30 - 1440 (min)

dev_time_zone

(-720) - 720 (min)

dev_fw_update_mode

0 -> Manual 1 -> Auto

modbus_slave_id dev_notes

1 - 255 250

dev_menu_lang_user dev_menu_lang_admin

reboot

32

15. USB IN configuration Settings of controllers configuration can be applied on USB interface Menu Item 1. Request to proceed timeout 2. Data rate 3. Byte wait timeout

4. Grant menu interface

Description Received request has to be send to meter during this time, if it doesn‘t send, request is discarded. USB interface baud rate configuration, fixed to 115200 Baud Timeout value defined in byte transfer time (it depends on baud rate) multiplied by this setting value. Timeout is set after each received byte in frame. If timeout expires after last received byte, the frame is accepted Show this menu in interface. If disabled, the menu cannot be reached using this interface

SMS command inusb_rq_proceed_tmo

Options 1000 - 60000 (ms)

inusb_baudrate 11 -> 115200 inusb_byte_wait_tmo 5 - 500 (ms)

inusb_menu_grant

0 -> No 1 -> Yes

SMS command ingprs_rq_proceed_tmo

Options

16. Wireless IN configuration Settings of controllers GSM interface Menu Item 1. Request to proceed timeout 2. Byte wait timeout

3. Idle timeout 4. Connection check period 5. Signal indication level 1 - 2 6. Signal indication level 2 - 3 7. Enable time sync with provider 8. Minimum tolerated signal level 9. Grant menu interface

Description Received request has to be send to meter during this time, if it doesn‘t send, request is discarded. Timeout value defined in byte transfer time (it depends on baud rate) multiplied by this setting value. Timeout is set after each received byte in frame. If timeout expires after last received byte, the frame is accepted. After specified idle time in the session, the controller ends the session Time period after which the controller checks if the GPRS connection is working LED signal level indication setting. Set the lowest value after the level 1-2 indication should light LED signal level indication setting. Set the lowest value after the level 2-3 indication should light Enable time sync with providers server System reserved Show this menu in interface. If disabled, the menu cannot be reached using this interface

1000 - 60000 (ms) ingprs_byte_wait_tmo 5 - 500 (ms)

ingprs_gprs_idle_tmo 10 - 300 (s) ingprs_gprs_conn_chec k_period

5 - 120 (min) (-109) - (-85)

ingprs_signal_ind_level1 (-83) - (-53) ingprs_signal_ind_level2 ingprs_enable_time_syn c ingprs_min_tolerated_si gnal_level ingprs_menu_grant

0 -> No 1 -> Yes 8 - 18 1 -> yes 0 -> no

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17. RS232 OUT2 configuration RS232 interface’s for meter readout settings configurable in this menu item Menu Item 1. Request to proceed timeout

Description

SMS command out2_event_proceed_tm o

Options 1000 - 60000 (ms)

out2_baud_rate

0 -> 300; 1 -> 600; 2 -> 1200; 3 -> 2400; 4 -> 4800; 5 -> 9600; 6 -> 14400; 7 ->19200; 8 -> 28800; 9 -> 38400; 10 -> 57600; 11 -> 115200

0 -> 7 1 -> 8

2. Data rate

Received request has to be send to meter during this time, if it doesn‘t send, request is discarded. Data rate in bauds

3. Data bits

Data bits

out2_data_bits

4. Stop bits 5. Parity

Stop bits Parity

out2_stop_bits out2_parity

6. Byte wait timeout

Timeout value defined in byte transfer time (it depends on baud rate) multiplied by this setting value. Timeout is set after each received byte in frame. If timeout expires after last received byte, the frame is adopted. Time for waiting data (answer), after the request has been sent. Time for waiting for the next frame, after one frame has been received. Answer buffer size Answer delay time

out2_byte_wait_tmo

0 -> No 1 -> Odd 2 -> Even 5 - 500 (ms)

out2_answ_wait_tmo

50 - 30000 (ms)

out2_next_rq_pause

0 - 200 (ms)

out2_answ_buffer_size out2_service_answ_del ay out2_menu_grant

128 - 512 1 - 50 (ms)

7. Answer wait timeout 8. Next request pause 9. Answer buffer size 10. Service answer delay 11. Grant menu interface

Show this menu in interface. If disabled, the menu cannot be reached using this interface

0 -> No 1 -> Yes

18. RS485 OUT1 configuration RS485 interface’s for meter readout settings configurable in this menu item Menu Item 1. Request to proceed timeout

Description

2. Data rate

Received request has to be send to meter during this time, if it doesn‘t send, request is discarded. Data rate in bauds

3. Data bits

Data bits

SMS command out1_event_proceed_tm o

Options 1000 - 60000 (ms)

out1_baud_rate

0 -> 300; 1 -> 600; 2 -> 1200; 3 -> 2400; 4 -> 4800; 5 -> 9600; 6 -> 14400; 7 -> 19200; 8 -> 28800; 9 -> 38400; 10 -> 57600; 11 -> 115200

out1_data_bits

0 -> 7 34

1 -> 8 4. Stop bits 5. Parity

Stop bits Parity

out1_stop_bits out1_parity

6. Byte wait timeout

Timeout value defined in byte transfer time (it depends on baud rate) multiplied by this setting value. Timeout is set after each received byte in frame. If timeout expires after last received byte, the frame is adopted. Time for waiting data (answer), after the request has been sent. Time for waiting for the next frame, after one frame has been received. Answer buffer size Answer delay time

out1_byte_wait_tmo

7. Answer wait timeout 8. Next request pause 9. Answer buffer size 10. Service anser delay 11. Grant menu interface

Show this menu in interface. If disabled, the menu cannot be reached using this interface

0 -> No 1 -> Odd 2 -> Even

5 - 500 (ms)

out1_answ_wait_tmo

50 - 30000 (ms)

out1_next_rq_pause 0 - 200 (ms) out1_answ_buffer_size out1_service_answ_del ay out1_menu_grant

128 - 512 1 - 50 (ms) 0 -> No 1 -> Yes

19. Protocol IEC62056-21 configuration Protocol IEC62056-21 (short 1107) settings Menu Item 1. Enable IEC6205621 2. Break before session start 3. Initial data rate

Description Enable IEC62056-21 protocol mode. The requests to the controller are interpreted with this protocol Send brake before session start (in RS232 out only) Initial data rate in bauds

4. Baud rate switch delay (ACK rq) 5. Answer buffer size

Delay time for baud rate switch

6. Session timeout 7. Pause before next session 8. Enable error reporting 9. Enable trace via USB 1. Enable IEC6205621 2. Break before session start

Session timeout Pause before next session

Answer buffer size

Enable error reporting to requesting data interface Enable event tracing via USB

the

SMS command (smscmd:) p1107_enable

p1107_break_duration p1107_initial_baud_rate

p1107_switch_baud_rat e_delay p1107_answ_buffer_siz e p1107_session_tmo p1107_next_session_pa use p1107_error_report_ena ble p1107_trace_enable

Enable mode

p1107_enable

Send brake before session start (in RS232 out only)

p1107_break_duration

Options 0 -> No 1 -> Yes 300 - 1500 (ms) 0 -> 300; 1 -> 600; 2 -> 1200; 3 -> 2400; 4 -> 4800; 5 -> 9600; 6 -> 14400; 7 -> 19200

200 - 1500 (ms) 128 - 512 500 - 20000 (ms) 0 - 20000 (ms) 0 -> No 1 -> Yes 0 -> No 1 -> Yes 0 -> No 1 -> Yes 300 - 1500 (ms)

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20. Sim card configuration Through this menu sim card pin code can be entered or changed Menu Item 1. PIN for SIM card 2. Change SIM PIN

Description Set the PIN code for the SIM card Change the SIM card PIN code

SMS command (smscmd:) sim_pin

Options 4 - 12 characters

21. Reports configuration Controller status report settings are set in this item (retry, timeout, reporting interval)

Reporting retry count

SMS command (smscmd:) rpt_repeat_cnt

Timeout after report retry Reporting interval time

rpt_repetition_tmo rpt_interval

100 - 20000 (ms)

Describes how to send the reports Describes how to send the reports (via SMS or Uploading via UDP)

rpt_type

0 -> None 1 -> SMS 2 -> Upload 3 -> SMS&Upload

Menu Item 1. Reporting retry times 2. Reporting timeout 3. Status reporting interval 4. Reporting ways

Description

Options 0-5

1 - 14440 (min)

22. Provider settings Depending on the GSM provider (network id) code, the settings for the sim card can be pre-configured for up to 6 different gsm providers Menu Item 1. Provider identification 1.1. Provider Code

Description

1.2. Provider Name

Provider identification code Provider friendly name

2. Provider SMS configuration 2.1. Ph1 number for SMS reporting 2.2. Ph2 number for SMS reporting 2.3. URL for UDP reporting 2.4. Ph1 number for config 2.5. Ph2 number for config

Provider allowed phone number for sms reporting Provider allowed phone number for sms reporting URL address for UDP reporting Provider allowed phone number for configuration Provider allowed phone number for configuration

3. Provider FTP configuration 3.1. FTP server URL 3.2. FTP user name

Url address of the FTP FTP user name

SMS command (smscmd:)

pr1_provider_code pr1_provider_name

pr1_sms_report_ph1 pr1_sms_report_ph2 pr1_udp_report_url1 pr1_sms_allowed_ph1 pr1_sms_allowed_ph2

pr1_ftp_server_url pr1_ftp_user_name

Options

0 - 2147483647 30 characters

5 - 50 characters 5 - 50 characters 6 - 80 characters 5 - 50 characters 5 - 50 characters

6 - 80 characters 2 - 50 characters 36

3.3. FTP password 4. Provider GPRS configuration 4.1. User name 4.2. Password 4.3. APN 4.4. TCP/IP listen port 4.5. Authentication protocol

FTP user password

GPRS connection user name (if provided) GPRS connection user password (if provided) APN name Port number for listening Authentication protocol type

pr1_ftp_psw

pr1_gprs_user_name pr1_gprs_psw pr1_gprs_apn pr1_gprs_listen_port

pr1_gprs_protocol 4.6. DNS server address 5. Provider network mode 5.1. Network radio mode

DNS server IP address

pr1_dns_server_ip

GSM Network mode (2G only, 3G, manual switching)

pr1_rat_selected

1 - 50 characters

2 - 50 characters 1 - 50 characters 3 - 120 characters 0 - 65535 0 -> NONE 1 -> PAP 2 -> CHAP 5 - 120

0 -> 2G only 1 -> 2G/3G 2 -> Manual Switch

23. Passive client In passive client mode the controller initiates the connection to the server set in the configuration. This mode is required when the controller’s sim card do not provide static IP address Menu Item 1. Passive client enabled 2. Server1 URL 3. Server2 URL 4. Server3 URL 5. Grant menu interface

Description

SMS command (smscmd:)

Enable mode

gprs_passive_client_enabled Passive clients URL address Passive clients URL address Passive clients URL address Show this menu interface

server

Options 0 -> No 1 -> Yes

gprs_passive_client_url1

6 - 80 characters

gprs_passive_client_url2

6 - 80 characters

gprs_passive_client_url3

6 - 80 characters

server server in user

24. Diagnostics Information about the controller and state of it’s components Menu Item

Description

1. Sim card IP

The physical device address on the GPRS TCP / IP network = Device SIM card IP address (if the card has a static IP address) Indicates which Provider’s (1….6) SIM card is present GSM signal quality in decibels SIM CARD IMEI is displayed only when SIM card is inserted GSM state

2. Active provider 3. Signal quality 4. IMEI 5. GSM registration status 6. Modem GPRS status 7. Network mode 8. SIM Status 9. DI state 10. AI value

SMS command (smscmd:)

Options

Modem GPRS state Network technology mode SIM card state Digital input value Analog input value

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11. Read log

Read the diagnostic log of the last 5 records

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25. Configure SCG for Cloudindustries connection

In passive client mode the controller initiates the connection to the cloudindustries server. This mode is required when the controller’s sim card do not provide static IP address. Detailed in chapter 18 Passive client Menu Item 1. Passive client enabled 2. Server1 URL 3. Server2 URL 4. Server3 URL 5. Grant menu interface

Description

SMS command (smscmd:)

Enable mode

gprs_passive_client_enabled Passive clients URL address Passive clients URL address Passive clients URL address Show this menu interface

server

Options 1 -> Yes

gprs_passive_client_url1

scg.cloudindustries.eu:10001

gprs_passive_client_url2

-

gprs_passive_client_url3

-

server server in user

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Elseta L. Zamenhofo g. LT-06332 Vilnius LT-08300 Vilnius, Lithuania Tel.: 8 5 2742707 Faks.: 8 5 2058584 El. p.: [email protected] http://www.elseta.com/

Annex C. Manufacturer’s Guarantee Guarantee period of the controller is 24 months.

The manufacturer has no obligation to service under the guarantee and provide free service in the following cases: 

If communication lines were cut off or were shortened, if they were connected to telephone lines or any other lines or wires that do not belong to the relevant AMR system;



If the producer of the system was not informed about the change of structure or AMR scheme, the change of electricity meters, their installation spot or parameterization data. Consent for structure or AMR scheme change has to be given. The manufacturer has no obligation for guarantee and to provide free service if any damage to the AMR system is produced.



If the informational stickers and seals, attached to its containing parts or case, were broken.

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