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You can create a new topic selecting correct category from Gurux Forum and then create a new topic selecting "New Topic" from the top left.
Hello,
I get a profile (ACTARIS/ITRON SL7000) like:
***********************************************
Initializing serial connection.
Parsing UA reply succeeded.
Parsing AARE reply succeeded.
Get available objects from the cache.
--------------- DECODING REGISTER SPECIFIC VALUES ---------------
| Time > 17:6)
| Date > 20/2/2013)
0.0.96.12.1.255 | Number of connections > 3
0.0.1.0.0.255 | Clock > System.Byte[]
0.0.96.8.0.255 | Time of operation > 28764
0.0.96.6.0.255 | Battery use time counter > 2847
0.0.0.1.1.255 | Number of available billing periods objt. > 18
0.0.96.9.0.255 | Ambient temperature > 21
0.0.128.3.0.255 | Manufacturer specific code Min Temperature > 16
0.0.128.6.0.255 | Manufacturer specific code Max Temperature > 22
0.0.96.54.1.255 | Number Of Days Without External Consumption > 0
0.0.96.54.2.255 | Number Of Days Without Internal Consumption > 0
0.0.96.6.3.255 | Battery voltage > 120
1.1.81.7.40.255 | Angle Instantaneous value I(L1) to U(L1) > -1667
1.1.81.7.51.255 | Angle Instantaneous value I(L2) to U(L2) > 0
1.1.81.7.62.255 | Angle Instantaneous value I(L3) to U(L3) > 0
1.1.81.7.10.255 | Angle Instantaneous value U(L2) to U(L1) > -491
1.1.81.7.21.255 | Angle Instantaneous value U(L3) to U(L2) > 241
1.1.91.7.0.255 | L0 current (neutral) Instantaneous value > 147
1.1.92.7.0.255 | L0 voltage(neutral) Instantaneous value > 2375
1.1.21.7.0.255 | L1 Active+ Instantaneous value > 0
1.1.41.7.0.255 | L2 Active+ Instantaneous value > 0
1.1.61.7.0.255 | L3 Active+ Instantaneous value > 0
1.1.1.7.0.255 | Active+ Instantaneous value > 0
1.1.22.7.0.255 | L1 Active- Instantaneous value > 336
1.1.42.7.0.255 | L2 Active- Instantaneous value > 0
1.1.62.7.0.255 | L3 Active- Instantaneous value > 0
1.1.2.7.0.255 | Active- Instantaneous value > 335
1.1.23.7.0.255 | L1 Reactive+ Instantaneous value > 0
1.1.43.7.0.255 | L2 Reactive+ Instantaneous value > 0
1.1.63.7.0.255 | L3 Reactive+ Instantaneous value > 0
1.1.3.7.0.255 | Reactive+ Instantaneous value > 0
1.1.24.7.0.255 | L1 Reactive- Instantaneous value > 80
1.1.44.7.0.255 | L2 Reactive- Instantaneous value > 0
1.1.64.7.0.255 | L3 Reactive- Instantaneous value > 0
1.1.4.7.0.255 | Reactive- Instantaneous value > 80
1.1.5.7.0.255 | Reactive QI Instantaneous value > 0
1.1.6.7.0.255 | Reactive QII Instantaneous value > 0
1.1.7.7.0.255 | Reactive QIII Instantaneous value > 80
1.1.8.7.0.255 | Reactive QIV Instantaneous value > 0
1.1.29.7.0.255 | L1 Apparent+ Instantaneous value > 0
1.1.49.7.0.255 | L2 Apparent+ Instantaneous value > 0
1.1.69.7.0.255 | L3 Apparent+ Instantaneous value > 0
1.1.9.7.0.255 | Apparent+ Instantaneous value > 0
1.1.30.7.0.255 | L1 Apparent- Instantaneous value > 347
1.1.50.7.0.255 | L2 Apparent- Instantaneous value > 0
1.1.70.7.0.255 | L3 Apparent- Instantaneous value > 0
1.1.10.7.0.255 | Apparent- Instantaneous value > 347
1.1.33.7.0.255 | L1 (cos.phi) (PF) Instantaneous value > -9712
1.1.53.7.0.255 | L2 (cos.phi) (PF) Instantaneous value > 10000
1.1.73.7.0.255 | L3 (cos.phi) (PF) Instantaneous value > 10000
1.1.13.7.0.255 | Avegage (cos.phi) (PF) Inst. value > -9709
1.1.31.7.0.255 | L1 Current Instantaneous value > 145
1.1.51.7.0.255 | L2 Current Instantaneous value > 5
1.1.71.7.0.255 | L3 Current Instantaneous value > 4
1.1.32.7.0.255 | L1 Voltage Instantaneous value > 2373
1.1.52.7.0.255 | L2 Voltage Instantaneous value > 10
1.1.72.7.0.255 | L3 Voltage Instantaneous value > 8
1.1.11.7.125.255 | Total Demand Distortion (TDD) > 0
1.1.12.7.125.255 | Total Demand Distortion (TDD) > 0
1.1.21.8.0.255 | L1 Active+ Energy > 0
1.1.41.8.0.255 | L2 Active+ Energy > 0
1.1.61.8.0.255 | L3 Active+ Energy > 0
1.1.1.8.0.255 | Active+ Energy > 0
1.1.22.8.0.255 | L1 Active- Energy > 17630
1.1.42.8.0.255 | L2 Active- Energy > 0
1.1.62.8.0.255 | L3 Active- Energy > 0
1.1.2.8.0.255 | Active- Energy > 17630
1.1.23.8.0.255 | L1 Reactive+ Energy > 29
1.1.43.8.0.255 | L2 Reactive+ Energy > 0
1.1.63.8.0.255 | L3 Reactive+ Energy > 0
1.1.3.8.0.255 | Reactive+ Energy > 29
1.1.24.8.0.255 | L1 Reactive- Energy > 2108
1.1.44.8.0.255 | L2 Reactive- Energy > 0
1.1.64.8.0.255 | L3 Reactive- Energy > 0
1.1.4.8.0.255 | Reactive- Energy > 2108
1.1.25.8.0.255 | L1 Reactive QI Energy > 0
1.1.45.8.0.255 | L2 Reactive QI Energy > 0
1.1.65.8.0.255 | L3 Reactive QI Energy > 0
1.1.5.8.0.255 | Reactive QI Energy > 0
1.1.26.8.0.255 | L1 Reactive QII Energy > 29
1.1.46.8.0.255 | L2 Reactive QII Energy > 0
1.1.66.8.0.255 | L3 Reactive QII Energy > 0
1.1.6.8.0.255 | Reactive QII Energy > 29
1.1.27.8.0.255 | L1 Reactive QIII Energy > 799
1.1.47.8.0.255 | L2 Reactive QIII Energy > 0
1.1.67.8.0.255 | L3 Reactive QIII Energy > 0
1.1.7.8.0.255 | Reactive QIII Energy > 799
1.1.28.8.0.255 | L1 Reactive QIV Energy > 1308
1.1.48.8.0.255 | L2 Reactive QIV Energy > 0
1.1.68.8.0.255 | L3 Reactive QIV Energy > 0
1.1.8.8.0.255 | Reactive QIV Energy > 1308
1.1.29.8.0.255 | L1 Apparent+ Energy > 1388
1.1.49.8.0.255 | L2 Apparent+ Energy > 0
1.1.69.8.0.255 | L3 Apparent+ Energy > 0
1.1.9.8.0.255 | Apparent+ Energy > 1388
1.1.30.8.0.255 | L1 Apparent- Energy > 17735
1.1.50.8.0.255 | L2 Apparent- Energy > 0
1.1.70.8.0.255 | L3 Apparent- Energy > 0
1.1.10.8.0.255 | Apparent- Energy > 17735
1.1.13.5.0.255 | Av. cos.phi PF Last average > -9582
1.1.13.3.0.255 | Av. cos.phi Minimum > -10002
1.1.13.4.0.255 | Av. (cos.phi) FP Currentaverage > -4177
1.1.14.7.0.255 | Frequency Instantaneous (mains frenquncy) F: > 5007
1.1.14.3.0.255 | Frequency Minimum > 4987
1.1.14.6.0.255 | Frequency Maximum > 5012
1.1.31.6.0.255 | L1 Current Maximum > 1613
1.1.51.6.0.255 | L2 Current Maximum > 5
1.1.71.6.0.255 | L3 Current Maximum > 5
1.1.32.6.0.255 | L1 Voltage Maximum > 2440
1.1.52.6.0.255 | L2 Voltage Maximum > 11
1.1.72.6.0.255 | L3 Voltage Maximum > 8
1.0.0.0.0.255 | ID NUMBER > CIL
1.1.1.8.1.255 | Active+ Energy Rate > 0
1.1.1.8.2.255 | Active+ Energy Rate 2 > 0
1.1.1.8.3.255 | Active+ Energy Rate 3 > 0
1.1.5.8.1.255 | Reactive QI Energy Rate 1 > 0
1.1.5.8.2.255 | Reactive QI Energy Rate 2 > 0
1.1.8.8.1.255 | Reactive QIV Energy Rate 1 > 952
1.1.8.8.2.255 | Reactive QIV Energy Rate 2 > 356
1.1.2.8.1.255 | Active- Energy Rate 1 > 86
1.1.2.8.2.255 | Active- Energy Rate 2 > 0
1.1.2.8.3.255 | Active- Energy Rate 3 > 17544
Disconnecting from the meter.
***************************************************************************
The frequency (for example) does not have the format correctly defined:
--> 5007 Hz should be 50.07 Hz
Is there any way to solve this?
Thanks, JP
Data Type Output
Hi,
You should read scaler and unit (Attribute index 3) because object type is register and multible value with scaler.
BR,
Mikko
Hi
Hi kurumi,
Please give me an example
Thanks..
Data Type Output
Hi,
You can find example here:
http://www.gurux.fi/files/GuruxDLMSDemoAppCSharp.zip
Basically you read attribute index 3 and get array (scaler and unit) like below.
byte[] reply = ReadDataBlock(m_Parser.Read(it.Name, ObjectType.Register, 3)[0]);
object[] scalerUnit = (object[]) m_Parser.GetValue(reply);
double scaler = Math.Pow(10, Convert.ToInt32(scalerUnit[0]));
Happy Coding,
Mikko
Hi
thanks, works great :):)
integrate ElsterA1700 meter with Microscada(ABB) using 62056-21
Hai,
I need your help regarding the integration of the Elster meter A1700 with Abb microSCADA using IEC 62056-21. In the scada system i have to create the sending message to the meter but i don't know what is the code send by Elster PMU software.
integrate ElsterA1700 meter with Microscada(ABB) using 62056-21
Hi,
Basically you do following.
1. Send /?!
Meter responses it meter ID (Flag ID, used baud rate, serial number, etc.) and indigates that authentication is needed. Meter gives seed in this message.
2. Send encrypted password to the meter. Use seed and meter password to generate pw. Meter sends ACK or error.
You can generate pw using encryption.dll or if you are Gurux Club member you can get source code how to generate this from Gurux Club page.
3. Send data address that you want to read. Get data address from the Elster Manual.
Meter returns data or error if there are problems.
BR,
Mikko
This example is not exists anymore
Hello. I have read scaler problem. This example is not exists anymore. Can you give me a new example please. Thanks
This example is not exists anymore
Hello,
Please, if you have a question make a new topic. You can find the example from here:
https://github.com/Gurux/Gurux.DLMS.Net/tree/master/Gurux.DLMS.Client.E…
Thank you for attention
Thank you for attention