Siemens SENTRON 7KM PAC2200 Product Manual
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Siemens SENTRON 7KM PAC2200 Product Manual

Power monitoring device
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Summary of Contents for Siemens SENTRON 7KM PAC2200

  • Page 3 Introduction Description Installation SENTRON Connection 7KM Power Monitoring Device PAC2200 Operation Commissioning Equipment Manual Service and maintenance Technical specifications Dimension drawings Appendix 12/2019 L1V30415167B-03...
  • Page 4 Note the following: WARNING Siemens products may only be used for the applications described in the catalog and in the relevant technical documentation. If products and components from other manufacturers are used, these must be recommended or approved by Siemens. Proper transport, storage, installation, assembly, commissioning, operation and maintenance are required to ensure that the products operate safely and without any problems.

  • Page 5: Table Of Contents

    Table of contents Introduction ..............................7 Components of the product ...................... 7 Latest information ........................7 Security information ........................9 Open Source Software ......................9 Advanced training courses ..................... 10 Risk of manipulation........................ 11 Description ............................... 13 Performance features ......................13 Measuring inputs ........................
  • Page 6 Table of contents Gateway (slave) ........................51 Operation ..............................53 Device interface ........................53 5.1.1 Displays and operator controls ....................53 5.1.2 SW button ..........................54 5.1.3 Control keys ........................... 54 Menu navigation ........................55 5.2.1 Measured value level ......................55 5.2.2 Main menu level ........................
  • Page 7 Table of contents Appendix ..............................97 Modbus TCP ........................... 97 A.1.1 Function codes ........................97 A.1.2 Modbus exception codes ......................98 A.1.3 Modbus measured variables with the function codes 0x03 and 0x04 ........99 A.1.4 Modbus-measured variables with function code "0x14" ............102 A.1.5 Structure - Digital input status and digital output status with the function codes 0x03 and 0x04 ..........................
  • Page 8 Table of contents PAC2200 Equipment Manual, 12/2019, L1V30415167B-03...

  • Page 9: Introduction

    The package includes: ● PAC2200 measuring device ● PAC2200 operating instructions: Available accessories ● powerconfig software (https://support.industry.siemens.com/cs/document/63452759/update-version- powerconfig-v3-7?dti=0&lc=en-WW) ● powermanager software (https://support.industry.siemens.com/cs/document/64850998/powermanager-v3-3-incl- hf1?dti=0&lc=en-WW) Latest information Up-to-the-minute information You can find further assistance: on the Internet: Website (https://support.industry.siemens.com/my/ww/en/requests) PAC2200 Equipment Manual, 12/2019, L1V30415167B-03...
  • Page 10 Should additional information be desired, or should particular problems arise that are not discussed in enough detail in the operating instructions, please contact Technical Support (https://www.siemens.com/lowvoltage/technical-support) for the information you require. Safety-related symbols on the device...

  • Page 11: Security Information

    To keep up to date with all the latest product updates, subscribe to the Siemens Industrial Security RSS Feed at (https://www.siemens.com/industrialsecurity). Open Source Software This product, solution or service ("Product") contains third-party software components.

  • Page 12: Advanced Training Courses

    Product or any OSS components contained in it if they are modified or used in any manner not specified by SIEMENS. The license conditions may contain disclaimers that apply between you and the respective licensor.

  • Page 13: Risk Of Manipulation

    Introduction 1.6 Risk of manipulation Risk of manipulation Note Risk of manipulation Several protective mechanisms can be activated in the device. In order to reduce the risk of manipulation occurring on the device, it is recommended that the protective mechanisms available in the device are activated: Password protection, to protect device against unintentional adjustment of parameters.
  • Page 14 Introduction 1.6 Risk of manipulation PAC2200 Equipment Manual, 12/2019, L1V30415167B-03...

  • Page 15: Description

    Description Performance features The PAC2200 is a measuring device for measuring the basic electrical variables in low- voltage power distribution. All measured variables are shown on the display of the PAC2200. The device is capable of single-phase, two-phase, or three-phase measurement and can be used in TN and TT networks.
  • Page 16 Description 2.1 Performance features Display and operator control ● LC display ● Four control keys with variable function assignment ● LED for Ethernet communication, active energy pulse indicator ● powerconfig from version 3.7. ● powermanager from version 3.4. ● Web server (HTTP) (optional) Interfaces ●...
  • Page 17 Description 2.1 Performance features Security ● Hardware write protection ● Password protection ● Access protection IP filter ● Modbus TCP port, configurable ● HTTP port, configurable ● Dynamic host configuration protocol (DHCP) included ● Simple Network Time protocol (SNTP) included ●...
  • Page 18 Description 2.1 Performance features Tariff switching after synchronization When synchronizing the average power demand values via the communication interfaces or the digital input, the tariff change will only become effective after expiry of the period. Without synchronization, the tariff change takes effect immediately. The synchronization frame contains the length of the demand period in minutes.

  • Page 19: Measuring Inputs

    Description 2.2 Measuring inputs Measuring inputs Current measurement NOTICE AC current measurement only The device is not suitable for measuring DC current. The 5 A device is designed for: ● Measuring current of 5 A for connecting standard current transformers. Each current measuring input can take a continuous load of 10 A.
  • Page 20 Description 2.2 Measuring inputs Connection types Two connection types have been provided. The device can be used in TN and IT networks. Table 2- 1 Available connection types Short code Connection type 3P4W (factory setting) 3 phases, 4 conductors, unbalanced load 1P2W (not MID devices) 1 phase, 2 conductors, unbalanced load The input circuit of the device must correspond to one of the connection types listed.
  • Page 21 Description 2.2 Measuring inputs Connection type 3P4W 1P2W Measured variable Voltage L ✓ — Current L ✓ ✓ Current L ✓ — Current L ✓ — Apparent power L ✓ ✓ Apparent power L ✓ — Apparent power L ✓ —...
  • Page 22 Description 2.2 Measuring inputs Connection type 3P4W 1P2W Measured variable Total reactive energy import tariff 2 ✓ ✓ Total reactive energy export tariff 1 ✓ ✓ Total reactive energy export tariff 2 ✓ ✓ Total apparent energy tariff 1 ✓ ✓...

  • Page 23: Averaging Measured Values

    Description 2.3 Averaging measured values Averaging measured values With appropriate load profiles, consumers can carry out a targeted optimization of their energy consumption. Instantaneous values are averaged over specific time periods to create load profiles. For this purpose, measured values are read out via the communication and stored. This increases the bus load considerably and occupies storage capacity.

  • Page 24: Energy Counters

    Description 2.3 Averaging measured values The following can be calculated from this: The last measuring period ended at 13:00. The active measuring period will end at 13:15 or in 12 minutes. Note The power demand of the last measuring period can only be fetched during the current measuring period.

  • Page 25: History Of Active Energy Consumption

    Description 2.3 Averaging measured values Secondary values: Non-resettable energy counters. Transformer ratio is not taken into account in the calculation. MID: MID registers are marked in the menu with MID mark. Marked registers are suitable for billing purposes. Indicates the year the MID marking was affixed 2.3.3 History of active energy consumption Based on selected recordings of energy consumption over time, users can perform a...

  • Page 26: Digital Inputs And Outputs

    Description 2.4 Digital inputs and outputs Digital inputs and outputs The PAC2200 has the following inputs/outputs: ● 1 digital input ● 1 digital output 2.4.1 Digital input The following functions can be assigned to the digital input: ● Status monitoring: Capturing statuses of connected signal encoders ●...

  • Page 27: Digital Output

    Description 2.4 Digital inputs and outputs 2.4.2 Digital output The following functions can be assigned to the digital output: ● Not used Digital output is deactivated. ● Device is ready for operation. The digital output is ON. ● Remote control The digital input is remotely controlled.

  • Page 28: Communication

    Description 2.5 Communication Wiring The digital output is passive and implemented exclusively as a switch. Implementation of the pulse function corresponds to the IEC 62053-31 standard. Pulse length Turn-off time Figure 2-3 Pulse length and turn-off time ● Pulse length: Time for which the signal at the digital output is "high".

  • Page 29: Ethernet

    Description 2.5 Communication 2.5.1 Ethernet Permits communication via the following protocols: ● Modbus TCP The device can be configured via Modbus TCP ● Web server (HTTP) Protocol can be used to read out the measured values via web browser. ● SNTP The SNTP (Simple Network Time Protocol) is used to automatically synchronize the internal clock with a time server within the network.

  • Page 30: M-Bus

    Description 2.5 Communication Many masters do not have a common terminal. If this is the case, then RS485 common should reference the same functional ground as the master (at a single point). If the master has a common terminal, then the common is connected to it, and it is not connected to functional ground.

  • Page 31: Three-Phase Connection (3P4W)

    Description 2.5 Communication 2.5.3.1 Three-phase connection (3P4W) The measurement data is presented on three pages (Mapping 0) and on four pages (Mapping 1). Multipage-capable masters can read out all three or four pages. As an example, the coding of the data record with ID 13 (connection type 3P4W, Mapping 1, i.e.
  • Page 32 Description 2.5 Communication Measured variable Length Format Unit (bits) Voltage L1-L2 FLOAT32 Voltage L2-L3 FLOAT32 Voltage L3-L1 FLOAT32 Current L1 FLOAT32 Current L2 FLOAT32 Current L3 FLOAT32 Total reactive energy import tariff 1 INT48 kvarh Total reactive energy import tariff 2 INT48 kvarh Total reactive energy export tariff 1...
  • Page 33 Description 2.5 Communication Measured variable Length Format Unit (bits) Apparent power L1 FLOAT32 Apparent power L2 FLOAT32 Apparent power L3 FLOAT32 Date/time time Measured variable Page Version 32 Version 32 Mapping 1 Mapping 1 DIF / DIFE VIF / VIFE (default) (default) Secondary total active energy 0x06...
  • Page 34 Description 2.5 Communication Measured variable Page Version 32 Version 32 Mapping 1 Mapping 1 DIF / DIFE VIF / VIFE (default) (default) Total reactive energy import tariff 1 0x86 0x10 0xFB 0x02 Total reactive energy import tariff 2 0x86 0x20 0xFB 0x02 Total reactive energy export tariff 1 0x86 0x10...
  • Page 35 Description 2.5 Communication Measured variable Page Version 30 Version 30 Mapping 0 Mapping 0 DIF/DIFE VIF/VIFE Secondary total active energy 0x06 0x03 (MID register) Total active energy import tariff 1 0x86 0x10 0x03 Total active energy import tariff 2 0x86 0x20 0x03 Total active energy export tariff 1 0x86 0x10...
  • Page 36 Description 2.5 Communication Measured variable Page Version 30 Version 30 Mapping 0 Mapping 0 DIF/DIFE VIF/VIFE L1 reactive energy export tariff 2 0x86 0x20 0xFB 0x02 L2 reactive energy import tariff 1 0x86 0x10 0xFB 0x02 L2 reactive energy import tariff 2 0x86 0x20 0xFB 0x02 L2 reactive energy export tariff 1...

  • Page 37: Single-Phase Connection (1P2W)

    Description 2.5 Communication 2.5.3.2 Single-phase connection (1P2W) The measurement data is presented on one page. All measurement data that can be read out via the M-BUS are listed in the following table. Measured variable Length Format Unit (bits) Total active energy import tariff 1 INT48 Total active energy import tariff 2 INT48...
  • Page 38 Description 2.5 Communication As an example, the coding of the data record with ID 11 (connection type 1P2W, Mapping 1, i.e. version 33) is more accurately explained in the RSP_UD2 response datagram: Measured variable ID 11: Total reactive energy export tariff 2 BYTE No.
  • Page 39 Description 2.5 Communication Measured variable Page Version 31 Version 31 Mapping 0 Mapping 0 DIF/DIFE VIF/VIFE Secondary total active energy 0x86 0x10 0x03 (MID register) Total active energy import tariff 1 0x86 0x20 0x03 Total active energy import tariff 2 0x86 0x10 0x03 Total active energy export tariff 1...
  • Page 40 Description 2.5 Communication PAC2200 Equipment Manual, 12/2019, L1V30415167B-03...

  • Page 41: Installation

    Installation Introduction WARNING The use of damaged devices may result in death, serious injury, or property damage. Do not install or start up damaged devices. Installation location The PAC2200 device is mounted on a TH35 rail (complying with EN 60715) and is intended for installation in permanently installed systems, control cabinets or fuse boxes.

  • Page 42: Installation Steps

    Installation 3.2 Installation steps Installation steps Procedure Removal Tools You require the following tools to uninstall the device: ● Slotted screwdriver Procedure PAC2200 Equipment Manual, 12/2019, L1V30415167B-03...

  • Page 43: Connection

    Connection Safety notes Notes DANGER Hazardous voltage Will cause death, serious personal injury, or equipment damage. Turn off and lock out all power supplying this equipment before working on this device. DANGER Open transformer circuits will result in electric shock and arc flash hazards Will cause death, serious personal injury, or equipment damage.
  • Page 44 Connection 4.1 Safety notes CAUTION Voltage input conductors may be damaged. The fuses in the voltage measuring inputs are only used for cable protection. Selection of the fuse depends on the supply cable dimensioning. All commercially available fuses and automatic circuit breakers up to 16 A (C) or 20 A (B) can be used. The relevant applicable regulations must be complied with in selecting the fuse.
  • Page 45 Connection 4.1 Safety notes Note Prevent capacitive and inductive interference. Make sure that all data and signal cables are routed separately from control and power supply cables. In order to avoid the risk of capacitive or inductive interference, these cables must never be routed in parallel.

  • Page 46: Connections

    Connection 4.2 Connections Connections All terminals are fitted with sealable terminal covers Figure 4-1 PAC2200 (5A) pin assignment Connection Function ↑k Current I , input ° IL1 l↓ Current I , output ↑k Current I , input ° IL2 l↓ Current I , output ↑k...
  • Page 47 Connection 4.2 Connections Figure 4-2 PAC2200 (65A) pin assignment Connection Function ↑k Current I , input ° IL1 l↓ Current I , output ↑k Current I , input ° IL2 l↓ Current I , output ↑k Current I , input °...

  • Page 48: Connection Examples

    Connection 4.3 Connection examples Connection examples Some connection examples for the following types of connection are listed below: ● 3P4W - 3 phases, 4 conductors ● 1P2W - 1 phase, 2 conductors The selection of the connection types in the device can differ according to the device version.
  • Page 49 Connection 4.3 Connection examples Connection examples for the 5 A device CAUTION Protection of the voltage measuring inputs On the 5 A device, the fuses in the voltage measuring inputs are only used for cable protection. Selection of the fuse depends on the supply cable dimensioning. All commercially available fuses and automatic circuit breakers up to 16 A (C) or 20 A (B) can be used.

  • Page 50: Connecting The Communication Cable

    Connection 4.4 Connecting the communication cable Connection example for the 65 A device (1) Three-phase measurement, four conductors, direct connection to the low-voltage network Figure 4-5 Direct connection to the low-voltage network. Connecting the communication cable Depending on the device version, the following communication interfaces are available: ●...

  • Page 51: Rs485 Communication Cable

    Connection 4.4 Connecting the communication cable 4.4.2 RS485 communication cable This interface is available as an option. Always use a shielded cable for the RS485 data cable. The data is transmitted differentially via two wires -/A and +/B. The third wire "COM" serves as the common ground potential. 1.

  • Page 52: Grounding Of The Ethernet/Rs485 Cable

    Connection 4.4 Connecting the communication cable 4.4.4 Grounding of the Ethernet/RS485 cable NOTICE The upper limit values will be violated if the cable is not grounded Compliance with the technical limit values for noise radiation and noise immunity is only guaranteed if the cable is correctly grounded.

  • Page 53: Gateway (Slave)

    This allows devices (slaves) that are connected to the RS485 expansion module of the PAC4200 to be connected to a device over Ethernet (master). Further information and a configuration description can be found in PAC4200 Manual (https://support.industry.siemens.com/cs/ww/en/view/34261595) (chapter 3.12). Figure 4-6 Connection of several PAC2200s to the gateway...

  • Page 55: Operation

    Operation Device interface 5.1.1 Displays and operator controls The front of the PAC2200 contains the following displays and operator elements. ① Software pushbutton ② LED for Ethernet: Link / Activity LED is illuminated: Data connection available LED flashes: Data is being transferred LED is off: No data connection available ③...

  • Page 56: Sw Button

    Operation 5.1 Device interface 5.1.2 SW button Devices connected to a network are to be protected against unauthorized remote access and possible manipulation. The physical access of the user to the device is confirmed with the SW button. In the following cases, the user is prompted to press the button: ●...

  • Page 57: Menu Navigation

    Operation 5.2 Menu navigation Menu navigation The menu-based navigation is intuitive and self-explanatory. Only the basic structure of the menu-based navigation will be explained for this reason. To simplify the overview, menu screenshots are not included in the manual. The description and function of the individual parameters can be found in chapter Device parameterization (Page 64).

  • Page 58: Main Menu Level

    Operation 5.2 Menu navigation 5.2.2 Main menu level In this menu level, all available measured variables are listed without measured values. Additionally, the main menu level has a "SETTINGS" menu option for configuration of the device. key returns the device to the measured value menu level. Using the keys you can scroll through the measured variables.

  • Page 59: Supporting Software

    Operation 5.3 Supporting software Supporting software 5.3.1 powermanager Using the powermanager energy management software, energy data of the PAC2200 measuring device can be acquired, monitored, evaluated, displayed and archived. powermanager provides the following functions: ● Tree view of the customer's system (project tree) ●...

  • Page 60: Web Server

    Operation 5.3 Supporting software Note You launch the Online Help in powerconfig by pressing the *F1* key. 5.3.3 Web server The device can be read out with a PC/notebook via a website using the web server integrated in the device. Communication is performed via the Modbus TCP protocol. The web server provides the following functions: ●...

  • Page 61: Protection Against Manipulation

    Operation 5.4 Protection against manipulation Protection against manipulation 5.4.1 Introduction The PAC2200 is equipped with a range of mechanisms to protect against deliberate and inadvertent device manipulation. ● Password protection ● Hardware write protection ● IP filter ● Configurable Modbus TCP port The closed padlock symbol in the display title indicates whether "password protection"...

  • Page 62: Hardware Write Protection

    Operation 5.4 Protection against manipulation If no user-specific password has been assigned, the default password must be entered when password protection is switched on. The currently valid password becomes visible on the display when password protection is switched off. The password remains saved and becomes effective again the next time password protection is switched on.

  • Page 63: Modbus Tcp Port, Configurable

    Operation 5.4 Protection against manipulation 5.4.5 Modbus TCP port, configurable Ports are communication channels which make it possible to access a Modbus-capable device via a network. Standard IP ports like port 502 are often tested by port scanners. If an open port is discovered by an attacker, the device can be attacked via this port.
  • Page 64 Operation 5.4 Protection against manipulation PAC2200 Equipment Manual, 12/2019, L1V30415167B-03...

  • Page 65: Commissioning

    Commissioning Overview Prerequisites ● The device has been installed. ● The device has been connected in accordance with the possible connection methods. Steps for starting up the device 1. Apply the measuring voltage 2. Parameterize the device 3. Check measured values Note Check the connections Incorrect connection can result in malfunctions and failure of the device.

  • Page 66: Applying The Measuring Voltage

    Parameterizing with powerconfig You can download the powerconfig configuration software from the Industry Online Support Website (https://support.industry.siemens.com/cs/document/63452759/update-version- powerconfig-v3-7?dti=0&lc=en-WW). Information and notes on how to use powerconfig can be found in the Online Help of the configuration software or by contacting Technical Support.
  • Page 67 Commissioning 6.3 Parameterizing the device Establishing connection to the device To establish a connection to the PAC2200, proceed as follows: 1. Connect the PAC2200 device to the PC or network. 2. When you have connected the device via Ethernet, make sure that the PAC2200 and the configuration computer are in the same subnet.
  • Page 68 Commissioning 6.3 Parameterizing the device Parameterizing the device The parameters are entered and changed in offline mode. To switch between online and offline mode, click "Activate online view" in the "Options" menu or press the "F12" key. Set the required basic parameters. Note the description of the parameters in chapter Parameterizing via the device menu (Page 68).
  • Page 69 Commissioning 6.3 Parameterizing the device As soon as the password has been entered once for the device, it is not requested again. The set password can be deleted from the memory in menu item "Password management". Two different password types are available: ●...

  • Page 70: Parameterization Via The Device Menu

    Commissioning 6.3 Parameterizing the device "Access protection IP filter" parameter The IP filter is a configurable access protection. If activated, Modbus TCP write commands are only accepted if the remote station is located in the same subnet. Note It is recommended to activate the hardware write protection on the device. 6.3.2 Parameterization via the device menu The PAC2200 device can be parameterized via the "Settings"...
  • Page 71 Commissioning 6.3 Parameterizing the device "Current input" parameter The "Current input" parameter specifies the values for the current input. When measuring using current transducers, the device must know the current conversion ratio. For this purpose, the primary and secondary current must be specified in the fields "PRIMARY CURRENT"...
  • Page 72 Commissioning 6.3 Parameterizing the device "Date/Time" parameter The date and time can be set by using the "Date/time" option in the "Settings" menu. Selection Range Factory setting DATE Current date – The date format is defined in the FORMAT field. FORMAT DD.MM.YYYY (day –...
  • Page 73 Commissioning 6.3 Parameterizing the device Selection Range Factory setting SNTP Protocol is used for transmitting and synchronizing the time. (with Ethernet OFF: interface only) The device interprets the current flow direction corre- sponding to the wiring. ACTIVE: The device automatically requests the time from the NTP server.
  • Page 74 Commissioning 6.3 Parameterizing the device "Integrated I/O" parameter "Digital input" parameter The following functions can be assigned to the "Digital input" parameter: ● Tariff switching for two-tariff, active energy, and reactive energy counters. ● Synchronization of the demand period by means of the synchronization pulse of a system control center or other device.
  • Page 75 Commissioning 6.3 Parameterizing the device "Digital output" parameter The following functions can be assigned to the "Digital output" parameter: ● Energy pulse output; can be programmed for active or reactive energy pulses ● Indication of the direction of rotation ● Operating state display of the device ●...
  • Page 76 Commissioning 6.3 Parameterizing the device "Communication" parameter The number of available communication interfaces can vary depending on the version of the device. "MODBUS TCP" parameter (optional) The "MODBUS TCP" parameter is only available for devices with an Ethernet interface. Selection Range Factory setting MAC address.
  • Page 77 Commissioning 6.3 Parameterizing the device "MODBUS RTU" parameter (optional) The "MODBUS RTU" parameter is only available for devices with an RS485 interface. Selection Range Factory setting ADDRESS Range: 1 to 247 BAUD RATE Range: 4800 / 9600 / 19200 / 38400 19200 FORMAT 8N1 / 8N2 / 8E1 / 8O1...
  • Page 78 Commissioning 6.3 Parameterizing the device "Extended" parameter "Password" parameter Selection Range Factory setting DISPLAY Password protection deactivated Yes: Write access is password protected using keys on display COMMUNICATION No: Password protection deactivated Yes: Write access is password protected by means of communication PASSWORD Password policy four-digit number.
  • Page 79 Commissioning 6.3 Parameterizing the device "Reset" parameter Selection Range Factory setting FACTORY SETTINGS All device settings and measured values except the communication parameters and energy secondary values are reset to the as-delivered condition. Not active Yes: Active COMMUNICATION PARAMETERS All communication settings are reset to the as- delivered condition.
  • Page 80 Commissioning 6.3 Parameterizing the device "Write protection" parameter Selection Range Factory setting WRITE PROTECTION Not active Yes: Active PRESS SW The physical access of the user to the device is confirmed with – the SW button. When activating or deactivating the write protection, the request "PRESS SW"...

  • Page 81: Service And Maintenance

    Service and maintenance Cleaning Clean the device as required. Use a dry cloth for this. NOTICE Damage due to detergents Detergents can damage the device. Do not use detergents. Calibration The device has been calibrated by the manufacturer before shipping. Recalibration is not required provided the environmental conditions are maintained.

  • Page 82: Troubleshooting Guide

    If the device fault cannot be remedied by the measures given above, the device is probably defective. More help can be found on the Internet. Technical Assistance (https://www.siemens.com/lowvoltage/support-request) If the device is defective, please proceed as follows: ● See chapter Warranty (Page 81), if the device has become defective within the warranty period.

  • Page 83: Warranty

    Procedure Note Loss of warranty If you open the device, you will invalidate the Siemens warranty. Only the manufacturer is permitted to carry out repairs to the devices. Return faulty or damaged devices to Siemens for repair or replacement. If the device is faulty or damaged, proceed as follows (only during the warranty period): 1.
  • Page 84 Service and maintenance 7.5 Warranty PAC2200 Equipment Manual, 12/2019, L1V30415167B-03...

  • Page 85: Technical Specifications

    Technical specifications Technical specifications Device configuration ● 1 optically isolated digital input ● 1 optically isolated digital output ● 1 Ethernet interface, for connecting and configuring to the PC or network (optional) ● 1 M-Bus connection for reading out the measured values (optional) ●...
  • Page 86 Technical specifications 8.1 Technical specifications Measuring inputs for voltage (5 A/65 A devices) Measuring inputs Voltage U 100 V / 173 V AC, 50 / 60 Hz n (L-N / L-L) 230 V / 400 V AC, 50 / 60 Hz (MID devices only 50 Hz) Max.
  • Page 87 Technical specifications 8.1 Technical specifications Power supply (5 A and 65 A devices) Power supply Design of the power supply Wide range AC power supply Work area 100 V - 230 V +/- 20% Power consumption 5 VA Overvoltage category OVT III Measuring accuracy Applied standards:...
  • Page 88 Technical specifications 8.1 Technical specifications Digital input Digital input Number Type Passive Maximum switching voltage 30 V Input current "1" signal detection 2.5 … 10 mA "0" signal detection ≤0.5 mA Digital output Digital output Number Type Passive Design/function Switching output or pulse output Maximum switching voltage 30 V Output current...
  • Page 89 Technical specifications 8.1 Technical specifications Communication Ethernet interface (optional) Protocols Modbus TCP; web server (HTTP); SNTP; DHCP Ethernet connection RJ-45 Data rate 10 / 100 Mbps M-BUS interface (optional) Protocol M-BUS Connection 2-pole Baud rate: 1200 / 2400 / 4800 / 9600 RS485 interface (optional) Protocol MODBUS RTU...
  • Page 90 Technical specifications 8.1 Technical specifications Connection elements The specified conductor cross sections describe the capacity of the connection terminals. When selecting the conduction cross sections, always pay attention to the possible current load and ensure adequate cable protection. Current, power supply 5 A device 65 A device Conductor cross-section for copper cable (Cu)
  • Page 91 Technical specifications 8.1 Technical specifications Communication ports Conductor cross-section for copper cable (Cu) Rigid 0.14 ... 1.5 mm² [AWG 26 ... 16] Flexible 0.14 ... 1.5 mm² [AWG 26 ... 16] Flexible with end sleeve, without plastic 0.25 ... 1.0 mm² sleeve [AWG 24 ...
  • Page 92 Technical specifications 8.1 Technical specifications Dimensions and weights Dimensions and weights Type of fixing Standard rail mounting TH35 to EN 60715 Construction type Housing dimensions W x H x D 108 mm x 97 mm x 71 mm [4.2 in x 3.8 in x 2.8 in] Weight 5 A device without packaging 310 g...
  • Page 93 Approvals The PAC2200 complies with the requirements of the European Directives. ● CE conformity Applied directives and standards can be found in the EU Declaration of Conformity (https://support.industry.siemens.com/cs/products/7km2200-2ea30-1ca1/pmd-sentron- pac2200-din-rail?pid=760583&dtp=Certificate&mlfb=7KM2200-2EA30- 1CA1&mfn=ps&lc=en-WW). ● Approvals for Australia and New Zealand RCM (Regulatory Compliance Mark) ●...
  • Page 94 Applied directives and standards can be found in the EU Declaration of Conformity (https://support.industry.siemens.com/cs/products/7km2200-2ea30-1ga1/pmd-sentron- pac2200-din-rail?pid=760586&dtp=Certificate&mlfb=7KM2200-2EA30- 1GA1&mfn=ps&lc=en-WW). You can download the relevant certificates from the Siemens Support website (https://support.industry.siemens.com/cs/products?mfn=ps&lc=en-WW). ● Approvals for UL and CSA market (only devices without MID) PAC2200...

  • Page 95: Labeling

    Technical specifications 8.2 Labeling Labeling Labels on the housing of the PAC2200 ① CE mark ② MID mark with the year it was affixed ③ Number of the notified body ④ Electrical installation and maintenance by qualified personnel only ⑤ EAC mark ⑥...
  • Page 96 Technical specifications 8.2 Labeling PAC2200 Equipment Manual, 12/2019, L1V30415167B-03...

  • Page 97: Dimension Drawings

    Dimension drawings Dimensional drawings Frame dimensions Figure 9-1 Frame dimensions PAC2200 Equipment Manual, 12/2019, L1V30415167B-03...
  • Page 98 Dimension drawings 9.1 Dimensional drawings PAC2200 Equipment Manual, 12/2019, L1V30415167B-03...

  • Page 99: Appendix

    Appendix Modbus TCP Detailed information about Modbus can be found at the Modbus Website (http://www.modbus.org) A.1.1 Function codes Function codes control the data exchange. In doing so, a function code tells the slave which action it is to take. If an error occurs, the most significant bit (MSB) is set in the FC byte of the response frame. Supported Modbus function codes Table A- 1 Supported Modbus function codes...

  • Page 100: Modbus Exception Codes

    Appendix A.1 Modbus TCP A.1.2 Modbus exception codes Overview Table A- 2 Modbus exception codes Exception Name Meaning Remedy codes Illegal Function Illegal function: Check which function codes are supported. The function code in the re- quest is not a permissible ac- tion for the slave.

  • Page 101: Modbus Measured Variables With The Function Codes 0X03 And 0X04

    Appendix A.1 Modbus TCP A.1.3 Modbus measured variables with the function codes 0x03 and 0x04 Addressing the measured variables You can use the Modbus function codes 0x03 and 0x04 on all the measured variables listed below. Note Error in the case of inconsistent access to measured values Please ensure the start offset of the register is correct when making read accesses.
  • Page 102 Appendix A.1 Modbus TCP Offset Number of Name Format Unit Value range registers cess Reactive power L2 Float Reactive power L3 Float Power factor L1 Float 0 ... 1 Power factor L2 Float 0 ... 1 Power factor L3 Float 0 ...
  • Page 103 Appendix A.1 Modbus TCP Offset Number of Name Format Unit Value range registers cess Reactive energy import tariff 2 Double varh Overflow 1.0e+12 Reactive energy export tariff 1 Double varh Overflow 1.0e+12 Reactive energy export tariff 2 Double varh Overflow 1.0e+12 Apparent energy tariff 1 Double Overflow 1.0e+12...

  • Page 104: Modbus-Measured Variables With Function Code "0X14

    Appendix A.1 Modbus TCP A.1.4 Modbus-measured variables with function code "0x14" Addressing the measured variables The measured variables listed below can be read out via Modbus function code 0x14 "Read File Record" in two steps. Step 1 (File Number 1), preset to 10 s Step 2 (File Number 2), preset to 15 min Note Error in the case of inconsistent access to measured values...
  • Page 105 Appendix A.1 Modbus TCP File Offset Address Number Name Format Unit Value range Access (FC0x14) address FC0x03 FC0x04 registers 30023 Apparent power L1 Float 30025 Apparent power L2 Float 30027 Apparent power L3 Float 30029 Active power L1 Float 30031 Active power L2 Float 30033...
  • Page 106 Appendix A.1 Modbus TCP File Offset Address Number Name Format Unit Value range Access (FC0x14) address FC0x03 FC0x04 registers 30285 Maximum active power L1 Float 30287 Maximum active power L2 Float 30289 Maximum active power L3 Float 30291 Maximum reactive pow- Float er L1 30293...
  • Page 107 Appendix A.1 Modbus TCP File Offset Address Number Name Format Unit Value range Access (FC0x14) address FC0x03 FC0x04 registers 30537 Minimum apparent pow- Float er L2 30539 Minimum apparent pow- Float er L3 30541 Minimum active power L1 Float 30534 Minimum active power L2 Float 30545...
  • Page 108 Appendix A.1 Modbus TCP File Offset Address Number Name Format Unit Value range Access (FC0x14) address FC0x03 FC0x04 registers 31011 Voltage L1 - L2 Float 31013 Voltage L2 - L3 Float 31015 Voltage L3 - L1 Float 31017 Current L1 Float 31019 Current L2...
  • Page 109 Appendix A.1 Modbus TCP File Offset Address Number Name Format Unit Value range Access (FC0x14) address FC0x03 FC0x04 registers 31277 Maximum current L3 Float 31279 Maximum apparent pow- Float er L1 31281 Maximum apparent pow- Float er L2 31283 Maximum apparent pow- Float er L3 31285...
  • Page 110 Appendix A.1 Modbus TCP File Offset Address Number Name Format Unit Value range Access (FC0x14) address FC0x03 FC0x04 registers 31525 Minimum voltage L2 - L3 Float 31527 Minimum voltage L3 - L1 Float 31529 Minimum current L1 Float 31531 Minimum current L2 Float 31533 Minimum current L3...

  • Page 111: And 0X04

    Appendix A.1 Modbus TCP A.1.5 Structure - Digital input status and digital output status with the function codes 0x03 and 0x04 The following are available via Modbus: ● "Status of the digital input" ● "Status of the digital output" Input status and output status of the PAC2200 Table A- 4 Structure - Status of the digital inputs and outputs, Modbus offset 207 and 209 Name...

  • Page 112: Modbus Status Parameters With The Function Code 0X02

    Appendix A.1 Modbus TCP A.1.7 Modbus status parameters with the function code 0x02 Status parameters You can use the Modbus function code 0x02 on all the status parameters listed below. Table A- 6 Status parameters Offset Number of Name Format Value range Access registers...

  • Page 113: Modbus Settings With The Function Codes 0X03, 0X04 And 0X10

    Appendix A.1 Modbus TCP A.1.8 Modbus settings with the function codes 0x03, 0x04 and 0x10 Addressing the settings You can use the Modbus function codes 0x03, 0x04 for read accesses and 0x10 for write accesses on all the settings parameters listed below. Table A- 7 Settings parameters Offset...
  • Page 114 Appendix A.1 Modbus TCP Table A- 8 Settings parameter for the digital input Offset Number of Name Unit Format Value range Access registers 50025 Digital input "Action" unsigned long Status only Pulse input High tariff / low tariff switching Synchronization 50029 "Pulse input"...

  • Page 115: Modbus Communication Parameters With The Function Codes 0X03, 0X04 And 0X10

    Appendix A.1 Modbus TCP A.1.9 Modbus communication parameters with the function codes 0x03, 0x04 and 0x10 Addressing the communication parameters Table A- 10 Communication parameters Offset Number of Name Unit Format Applicable Value range Access registers Modbus func- tion codes 62993 SNTP server IP unsigned long...

  • Page 116: Modbus Device Information With The Function Codes 0X03, 0X04 And 0X10

    Appendix A.1 Modbus TCP Offset Number of Name Unit Format Applicable Value range Access registers Modbus func- tion codes 63139 MODBUS RTU data unsigned long 0 = 8N2 0x03 bits/ parity/ stop bits 1 = 8E1 0x04 (if RS485 port is 2 = 8O1 0x10 available)
  • Page 117 2 unsigned char 0.0 ... 255.255 [64027] Supported I&M data unsigned short 00 ... FF *) 42 stands for Siemens AG Table A- 12 I&M 1-4 parameters with the function codes 0x03, 0x04 and 0x10 Offset Total Number of Name...

  • Page 118: Modbus Command Parameters

    Appendix A.1 Modbus TCP A.1.11 Modbus command parameters Addressing the command parameters You can apply the Modbus function code 0x06 to the command parameters. Table A- 13 Command parameters Offset Number Name Unit Format Value range Access of r egisters 60004 Reset energy counter unsigned...

  • Page 119: Modbus Standard Device Identification With The Function Code 0X2B

    Appendix A.1 Modbus TCP A.1.12 Modbus standard device identification with the function code 0x2B Addressing the Modbus standard device identification You can use Modbus function code 0x2B on these device identification parameters. Table A- 14 Parameter for Modbus standard device identification Object ID Name Format...
  • Page 120 Appendix A.1 Modbus TCP File Offset Address Length Name Format Access (FC0x14) address FC0x03 FC0x04 32037 Work portion Tariff 2 Float 32039 TS of day – 6 UNIX_TS (UTC) 32041 Work portion Tariff 1 Float 32043 Work portion Tariff 2 Float 32045 TS of day –...
  • Page 121 Appendix A.1 Modbus TCP File Offset Address Length Name Format Access (FC0x14) address FC0x03 FC0x04 32117 TS of day – 19 UNIX_TS (UTC) 32119 Work portion Tariff 1 Float 32121 Work portion Tariff 2 Float 32123 TS of day – 20 UNIX_TS (UTC) 32125 Work portion Tariff 1...
  • Page 122 Appendix A.1 Modbus TCP File Offset Address Length Name Format Access (FC0x14) address FC0x03 FC0x04 32197 Work portion Tariff 1 Float 32199 Work portion Tariff 2 Float 32201 TS of day – 33 UNIX_TS (UTC) 32203 Work portion Tariff 1 Float 32205 Work portion Tariff 2...
  • Page 123 Appendix A.1 Modbus TCP File Offset Address Length Name Format Access (FC0x14) address FC0x03 FC0x04 32277 Work portion Tariff 2 Float 32279 TS of day – 46 UNIX_TS (UTC) 32281 Work portion Tariff 1 Float 32283 Work portion Tariff 2 Float 32285 TS of day –...
  • Page 124 Appendix A.1 Modbus TCP File Offset Address Length Name Format Access (FC0x14) address FC0x03 FC0x04 32357 TS of day – 59 UNIX_TS (UTC) 32359 Work portion Tariff 1 Float 32361 Work portion Tariff 2 Float 32363 TS of day – 60 UNIX_TS (UTC) 32365 Work portion Tariff 1...
  • Page 125 Appendix A.1 Modbus TCP File Offset Address Length Name Format Access (FC0x14) Address FC 0x03 FC 0x04 32435 Work portion Tariff 1 Float 32437 Work portion Tariff 2 Float 32439 TS of month – 6 UNIX_TS (UTC) 32441 Work portion Tariff 1 Float 32443 Work portion Tariff 2...
  • Page 126 Appendix A.1 Modbus TCP File Offset Address Length Name Format Access (FC0x14) Address FC 0x03 FC 0x04 32515 Work portion Tariff 2 Float 32517 TS of month – 19 UNIX_TS (UTC) 32519 Work portion Tariff 1 Float 32521 Work portion Tariff 2 Float 32523 TS of month –...

  • Page 127: Index

    Index Approvals, 91 Firmware updates, 79 Average power demand values, 13 Function code, 97, 117 Bit mask, 109, 109 General safety notes, 8 CE conformity, 91, 91 Installation location, 39 Classroom Interface Training, 10 Performance features, 14 Cleaning, 79 Command parameters, 116 Communication, 87 Communication parameters, 113 Measured value acquisition, 83...
  • Page 128 Index Parameter Updating the firmware, 79 Command, 116 Communication, 113 Device information, 117 Status, 110 Prerequisites Training, 10 Startup, 63 WBT – web-based training, 10 Procedure Mounting, 40 Protection class, 90 Register, 98, 99, 110, 111, 112, 112, 113, 116 Removal, 40 Repairs, 81 Loss of warranty, 81...

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