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janitza UMG507 Functional Description
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janitza UMG507 Functional Description

Universal measuring device
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Universal Measuring Device
UMG507
Functional description
Applications
Janitza electronics GmbH
Vor dem Polstück 1
35633 Lahnau
Support Tel. (06441) 9642-22
email: info@janitza.de
internet: http://www.janitza.de

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Summary of Contents for janitza UMG507

  • Page 1 Universal Measuring Device UMG507 Functional description Applications Janitza electronics GmbH Vor dem Polstück 1 35633 Lahnau Support Tel. (06441) 9642-22 email: info@janitza.de internet: http://www.janitza.de...
  • Page 2 Generals The UMG507 supports the protocols Modbus RTU, Modbus TCP/IP, Modbus over TCP/IP (Modbus Gateway) or Profibus DP V0, depending in the version. This functional description is an addition to the manual and describes the configuration of the corresponding function step by step.

  • Page 3: Data Types

    I = inverted RS485 connection The RS485 connection of the UMG507 is designed as a 9 pole Sub D sleeve. We recommend a 9 pole Profibus plug for connection (Type: SUBCON-PLUS-ProfiB/AX/SC Producer: Phoenix part.No.: 27 44 38 0 or comparable).
  • Page 4 Step 1: The time base of UMG507 is based on UTC. The standard time in Iran is GMT+3,5h for winter time and GMT+4,5h for summer time. This corresponds to a time zone offset of 12600sec in winter and 16200sec in summer.
  • Page 5 Programming of the time zone offset comparator. The UMG507 saves the actual time zone offset on address Adresse 7194. This offset is 12600sec during winter and 16200 sec during summer. The comparator contains the actual status after programming. If the time zone offset is >...
  • Page 6 Step 4: Programming of the logic. In the logic is checked, which switching clock channel is active, and if it is summer or winter. The combinations would be as follows: Time switch channel 1 Comparator 1 = Flag 82 //Summer Tariff 1 Time switch channel 2 Comparator 2 = Flag 83...
  • Page 7 Use right mousekey on the device in topology and select function “show all measured values“. The topology must be „online“. One more possibility is to drag all important parameters into the display of UMG507. The following parameters are useful: Time channel 1...
  • Page 8 1. Server name = Post output (SMTP) 2. Account name 3. Password for your Email account 4. Authentification (Login, Plain, Cram-MD5) 5. Email address of UMG507 (Mail from) 6. Subject 5. User address Note: If several recipients must receive the same email, the email adresses must be separated by a semicolon.
  • Page 9 The following short descriptions are entered within the Email text (see address list): <ul1min> Minimum value of voltage in phase L1. <ul2min> Minimum value of voltage in phase L2. <ul2min> Minimum value of voltage in phase L3. <tsu1minon_s> + <tsu1minon_m> = Start of short interruption in UTC time (Seconds + Milliseconds). <tsu1minoff_s>...
  • Page 10 Step 4: In window „Logic“, the functional combinations are programmed. No.: Source 1 Operator Source 2 Target flag Permanently inactive Permanently inactive Short low voltage UL1 Neg. edge Permanently active Permanently inactive Permanently inactive Short low voltage UL1 Pos. edge Permanently active Permanently inactive Permanently inactive...
  • Page 11 Programming of the logical combinations No.: 1 - 15 Programming of the logical combinations No. : 15 - 25...
  • Page 12 Step 5: Within the „I/O configuration“ actions are assinged to the flags. The assignment is as follows: Channel No. 1 Source Flag No. Other flags (82-144 ) Target or action Send Email No. 1 Channel No. 2 Source Flag No. Other flags (82-144 ) Target or action Send Email...

  • Page 13: Email Transmission

    Press key „Configure UMG507“ and send programming to UMG 507. The following options for transmission of the configuration must be selected: - Network - I/O configuration - Short interruptions - Email configuration - Logical combinations Email transmission While breakdown of voltage, the actual dropping time including the minimum values (over 10 periods) are sent. The dropping time is given in UTC and can be converted into standard time with the program UTC Convert.

  • Page 14: Parameter Memory

    Parameter memory Via the menu of UMG507 „Read out memory manually“ under window „Min-/Max values“ the event memory (Parameter memory) can be read. The data are saved as a text file. The voltage value behind the dropping time is only slightly related to the real voltage drop, but is the last voltage value over 10 periods at the time, when it is written into the parameter memory.
  • Page 15 - The total load must not exceed 4kOhm! - Please note, that the negative pole must be connected to terminal 24 while connecting KTY. The following example shows the connection of a KTY83-110. +24V= Analog Input 0 .. 20 mA Analog Input "PT 100" KTY83-110 UMG507 Analogeingänge...
  • Page 16 Step 2: Set the connection configuration of the temperature sensor to KTY83 Step 3: The parameter address (see address list UMG507) of the external temperature sensor is assigned to integrator no. 1.
  • Page 17 Note: The channels are worked out subsequently by UMG507 beginning with channel no. 1. Therefore it is neccessary to save parameter 3449 before the reset of the integrator. If saving would be carried out on channel no. 5 and the reset on...
  • Page 18 Parameter memory Via menu of UMG 507 „Read memory manually“ the event memory can be read in window „Min-/Max values“ . The data are saved as text file. Date Time Measured value Parameter Topology view (Only with PSWprofessional) In topology view of PSWprofessional the measured values can be displayed additionally.
  • Page 19 Application 4: Double tariffs Task: With a digital input it shall be changedover between tariff 1 and tariff 2. This means, if the digital input is active, energy is measured in energy meter 2. If the digital input is not active, energy is measured in energy meter 1. Steps: 1.
  • Page 20 Appendix An extraction from the address list. The most important flags are listed. The flags have the format 8 Bit integer. ADDR Flag Abbreviations Description 3279 Flag No.: 1 tag_1 Permanently inactive 3280 Flag No.: 2 tag_2 Permanently active 3281 Flag No.: 3 tag_3 Digital input No.
  • Page 21 3336 Flag No.: 58 tag_58 Digital EMAX channel 1 3337 Flag No.: 59 tag_59 Digital EMAX channel 2 3338 Flag No.: 60 tag_60 Digital EMAX channel 3 3339 Flag No.: 61 tag_61 Digital EMAX channel 4 3340 Flag No.: 62 tag_62 Digital EMAX channel 5 3341 Flag No.: 63...
  • Page 22 3397 Flag No.: 119 tag_119 Free flag for logical combinations 3398 Flag No.: 120 tag_120 Free flag for logical combinations 3399 Flag No.: 121 tag_121 Free flag for logical combinations 3400 Flag No.: 122 tag_122 Free flag for logical combinations 3401 Flag No.: 123 tag_123 Free flag for logical combinations...
  • Page 23 9064 Data array 33 darray_33 9066 Data array 34 darray_34 9068 Data array 35 darray_35 9070 Data array 36 darray_36 9072 Data array 37 darray_37 9074 Data array 38 darray_38 9076 Data array 39 darray_39 9078 Data array 40 darray_40 9080 Data array 41 darray_41...