Introduction 1 Safety instructions 2 SENTRON Description 3 Power Monitoring Device SENTRON PAC3200 Operation planning 4 Installation 5 Connection 6 Startup 7 Operator control 8 Parameterize 9 Manual 02/2008 A5E01168664B-04 Maintenance and servicing 10 Technical data 11 Dimension drawings 12 Appendix A ESD Guidelines B List of abbreviations C
Safety Guidelines This manual contains notices you have to observe in order to ensure your personal safety, as well as to prevent damage to property. The notices referring to your personal safety are highlighted in the manual by a safety alert symbol, notices referring only to property damage have no safety alert symbol. These notices shown below are graded according to the degree of danger. DANGER indicates that death or severe personal injury will result if proper precautions are not taken.
Table of contents 1 2 Introduction.............................................................................................................................................. 11 1.1 Purpose of this document ............................................................................................................11 1.2 Orientation aids ............................................................................................................................12 1.3 Components of the product........
Table of contents 5 6 7 8 4 Installation ............................................................................................................................................... 67 5.1 Unpacking ................................................................................................................................... 67 5.2 Tools............................................................................................................................................ 68 5.
Table of contents 9 10 11 12 Parameterize ......................................................................................................................................... 127 9.1 Introduction ................................................................................................................................127 9.2 9.2.1 9.2.2 9.2.3 9.2.4 9.2.5 9.2.6 9.2.7 9.2.8 9.2.9 9.2.10 9.2.11 9.2.12 9.2.12.1 9.2.12.2 9.2.12.3 9.2.12.4 9.2.12.5 9.2.12.
Table of contents Tables Table 1-1 Contacts in your region - worldwide............................................................................................ 14 Table 1-2 Online service and support ......................................................................................................... 14 Table 1-3 Technical Support ....................................................................................................................... 14 Table 3-1 Device versions................
Table of contents Table 8-2 Assignments of the function keys in the "SETTINGS" menu.....................................................115 Table 8-3 Assignments of the function keys in the device settings display ...............................................116 Table 8-4 Assignments of the function keys in edit mode of the device settings.......................................117 Table 11-1 AC/DC multi-range power supply.............................................................................
Table of contents Figure 6-8 Connection type 3P4W, without voltage transformer, with three current transformers .............. 83 Figure 6-9 Connection type 3P4W, with voltage transformer, with three current transformers ................... 83 Figure 6-10 Connection type 3P4WB, without voltage transformer, with one current transformer ................ 84 Figure 6-11 Connection type 3P4WB, with voltage transformer, with one current transformer .....................
Table of contents Figure 8-14 Calling the "MAIN MENU"..........................................................................................................119 Figure 8-15 Cancel menu selection...............................................................................................................120 Figure 8-16 Displaying a setting....................................................................................................................121 Figure 8-17 Calling edit mode ...........
Table of contents Figure 9-26 Change password ..................................................................................................................... 153 Figure 9-27 Change password - Password protection on ............................................................................ 154 Figure 11-1 Device labeling.......................................................................................................................... 165 Figure 12-1 Panel cutout .......................
Introduction 1.1 1 Purpose of this document This present manual describes the SENTRON PAC3200 Power Monitoring Device. It is intended for the use of: ● Planners ● Plant operators ● Commissioning engineers ● Service and maintenance personnel Required basic knowledge A general knowledge of the field of electrical engineering is required to understand this manual. Knowledge of the relevant safety regulations and standards is required for installing and connecting the device.
Introduction 1.2 Orientation aids 1.2 Orientation aids General information The manual includes the following orientation aids: ● Table of contents ● List of figures and tables ● List of abbreviations ● Glossary ● Index 1.
Introduction 1.4 Contents of the CD for the SENTRON PAC Power Monitoring Device 1.
Introduction 1.5 Technical support Contacts in the region Contacts in your region can provide support worldwide. Table 1-1 Contacts in your region - worldwide Utility Address, number Internet: Service and support (http://www.siemens.com/automation/service&support) under "Contact us > Contacts" Support address: SIEMENS AG A&D CD MM1 Gleiwitzerstr. 555 D-90475 Nuremberg Online support This comprehensive information system is available day and night via the Internet.
Introduction 1.6 Further documentation 1.
Introduction 1.
Safety instructions 2.1 2 Safety notes General safety notes DANGER Danger! High voltage Will cause death or serious injury. Turn off and lock out all power supplying this device before working on this device.
Safety instructions 2.1 Safety notes Safety-related symbols on the device Figure 2-1 Safety-related symbols on the device Symbol Meaning (1) Danger of electric shock. (2) Caution! General hazard area.
Description 3.1 3 Features The SENTRON PAC3200 is a Power Monitoring Device for displaying all the relevant system parameters in low-voltage power distribution. It is capable of single-phase, two-phase or three-phase measurement and can be used in two-wire, three-wire, four-wire, TN, TT and IT systems. Thanks to its compact design in 96 x 96 mm format, it is an ideal replacement for all conventional analog indicating instruments.
Description 3.1 Features Device versions The device is available in the following versions: Table 3-1 Device versions SENTRON PAC3200 Power Monitoring Device Order No.
Description 3.1 Features Monitoring functions ● Monitoring of 6 limit values. The limit values can be combined according to logic AND/OR. A group message that indicates the violation of at least one limit value can be generated using an OR operation. ● Phase sequence monitor. ● Status monitoring of the digital input. ● Monitoring the operating status of the SENTRON PAC3200. Displays and controls ● Large backlit graphics LC display for optimal readability even from a distance.
Description 3.2 Measuring inputs Input and output ● Multifunctional digital input for tariff changing, demand period synchronization, status monitoring or acquisition of energy pulses from third-party devices. ● Multifunctional digital output, programmable as energy pulse output for active energy or reactive energy pulses, for showing the direction of rotation, indicating the working hours of the SENTRON PAC3200, outputting limit violations, or as a switching output for remote control via PC.
Description 3.2 Measuring inputs SENTRON PAC3200 is designed for: ● Direct measurement on the system or using voltage transformers. The measuring voltage inputs of the device measure direct via protective impedances. External voltage transformers are required to measure higher voltages than the permissible rated input voltages. ● Measuring voltage to 400 V / 690 V (max. 347 V / 600 V for UL) with multi-range power supply.
Description 3.3 Measured variables 3.3 Measured variables Overview The table below lists all measured variables that the device records or derives from basic variables.
Description 3.3 Measured variables Instantane Min. ous value Max. Mean value over all phases Mean value over demand period Total value Unit Root-mean-square values Designation Working hours counter Bh (load runtime) ✓ Voltage unbalance Unbal.V ✓ [%] Current unbalance Unbal. A ✓ [%] [h] 1) Instantaneous, minimum and maximum value in each case. 2) Mean value of the total power of the system/plant. Can only be called via bus. 3) The current tariff is shown on the display.
Description 3.3 Measured variables Display of the measured variables depending on the connection type The total extent of representable measured variables is restricted by the method of connecting the device. A measured value that cannot be indicated because of the connection method is shown on the display by means of a broken line "----".
Description 3.
Description 3.3 Measured variables Measured variables of the SENTRON PAC Power Monitoring Device The measured variables are provided by the SENTRON PAC Power Monitoring Device. Table 3-5 Available measured variables Name Abb. EN + IEC Abb.
Description 3.3 Measured variables Name Abb. EN + IEC Abb. EN + NAFTA Format Unit Value range Access Amplitude Unbalance - Voltage Unbal. V Unbal. V Float % 0 ... 100 R Amplitude Unbalance - Current Unbal.. A Unbal. A Float % 0 ... 200 R Maximum Voltage Va-n ▲VL1-N ▲Va-n Float V - R Maximum Voltage Vb-n ▲VL2-N ▲Vb-n Float V - R Maximum Voltage Vc-n ▲VL3-N ▲Vc-n Float V - R Max. Voltage Va-b ▲VL1-L2 ▲Va-b Float V - R Max.
Description 3.3 Measured variables Name Abb. EN + IEC Abb. EN + NAFTA Format Unit Value range Access Min. Voltage Ub-c ▼VL2-L3 ▼Vb-c Float V - R Min.
Description 3.3 Measured variables Name Abb. EN + IEC Abb.
Description 3.4 Power demands and counters 3.4 Power demands and counters Acquisition of power demand. Values that can be read out: SENTRON PAC3200 supplies the power demand of the last completed demand period: ● Average values for active power and reactive power, import and export. ● Minimum and maximum value within the period. ● Length of the demand period in seconds. The period may be shorter for reasons of external synchronization.
Description 3.5 Tariffs Configurable universal counter SENTRON PAC3200 provides one configurable counter. The following counting options are available: ● Pulse counting via the digital input for kWh/kvarh ● Status changes at the digital input (rising edge only) ● Status changes at the digital output (rising edge only) ● Limit violations Working hours counter The working hours counter is used for monitoring the runtime of a connected load. (Counts only in the case of energy counting). 3.
Description 3.6 Limits 3.6 Limits The SENTRON PAC3200 has a function for monitoring up to 6 limit values. These can be monitored for violation of the upper or lower limit. If a limit value is violated, specific actions can be triggered. In addition, the limit values can be combined with each other using a logic operation. The result of the logic operation can also be used to trigger specific actions in the same way as the individual limit values. The limit violations are shown on the display.
Description 3.6 Limits The placeholder "----" means: This limit value is not combined with any other limit value. The logic combines limit values 0 to 5 as follows: (((((opLIM0 LIM0 opLIM1 LIM1) opLIM2 LIM2) opLIM3 LIM3) opLIM4 LIM4) opLIM5 LIM5) LIM0 represents limit value 0 LIM1 represents limit value 1 LIMx represents limit value x op represents the logic operator AND/OR in the formula The brackets in the formula show that the AND/OR priority rule does not apply.
Description 3.7 Behavior in the case of power failure and power restore 3.7 Behavior in the case of power failure and power restore After a power failure, the device starts back at zero with the calculation of the power demand of the total active power and total reactive power. Counter statuses and maximum/minimum values are written from the volatile to the nonvolatile memory at the following intervals: 3.8 Counter values Every 5 mins. Maximum/minimum values Every 5 secs.
Description 3.8 Digital inputs and outputs Pulse length, turn-off time Figure 3-7 Pulse length and turn-off time (1) Pulse length (2) Turn-off time ● Pulse length: Time for which the signal at the binary digital output is at "high". The minimum pulse length is 30 ms and the maximum 500 ms. ● Turn-off time: Time for which the signal at the digital output is at "low". The turn-off time depends on the measured energy, for example, and can be days or months. The minimum turn-off time is 30 ms.
Description 3.9 Ethernet port 3.9 Ethernet port 3.9.1 Ethernet Electrical connection NOTICE Incorrect network settings can adversely affect and interfere with the functions of other network nodes The network settings for Ethernet are defined by the system administrator and set accordingly on the device. If the setting data is not known, the (patch) cable must not be connected. The SENTRON PAC3200 has an RJ45 socket on the top. The device can be connected to Ethernet with an RJ45 connector, type T-568B.
Description 3.9 Ethernet port F3 runs through the digits of the value from left to right. increments the value at the selected digit. The highest value of the available set of F2 values is followed again by the lowest. Figure 3-9 F4 Enter IP address saves the set IP ADDRESS and returns to display mode. Change to the next line SUBNET with F3 , and press F4 . Repeat the procedure described for the settings SUBNET and GATEWAY.
Description 3.9 Ethernet port 3.9.3 Modbus measured variables with the function codes 0x03 and 0x04 Measured variables of the SENTRON PAC Power Monitoring Device The measured variables are provided by the SENTRON PAC Power Monitoring Device. You can use the MODBUS function codes 0x03 and 0x04 on all the measured variables listed below. NOTICE Error in the case of inconsistent access to measured values Please ensure the start offset of the register is correct when making read accesses.
Description 3.9 Ethernet port Offset Number of Name registers Format Unit Value range Access 47 2 THD-R Voltage c Float % 0 ... 100 R 49 2 THD-R Current a Float % 0 ... 100 R 51 2 THD-R Current b Float % 0 ... 100 R 53 2 THD-R Current c Float % 0 ... 100 R 55 2 Frequency Float Hz 45 ...
Description 3.9 Ethernet port Offset Number of Name registers Format Unit Value range Access 129 2 Max. Frequency Float Hz 45 ... 65 R 131 2 Max. Average Voltage Vph-n Float V - R 133 2 Max. Average Voltage Vph-ph Float V - R 135 2 Max. Average Current Float A - R 137 2 Max. Total Apparent Power Float VA - R 139 2 Max. Total Active Power Float W - R 141 2 Max.
Description 3.9 Ethernet port Offset Number of Name registers Format Unit Value range Access 209 2 Status of the digital inputs* Unsigned long - Byte 3 Bit 0 Input 0 R 211 2 Active Tariff Unsigned long - 0 = Tariff 1 R 1 = Tariff 2 213 2 Working hours counter Unsigned long s 0 ... 999999999 RW 215 2 Universal counter Unsigned long - 0 ...
Description 3.9 Ethernet port See also Structure - Digital input status and digital output status with the function codes 0x03 and 0x04 (Page 44) Structure - Device diagnostics and device status with the function codes 0x03 and 0x04 (Page 45) Structure - Limit values with function codes 0x03 and 0x04 (Page 45) 3.9.
Description 3.9 Ethernet port 3.9.
Description 3.9 Ethernet port 3.9.7 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.
Description 3.9 Ethernet port 3.9.8 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.
Description 3.9 Ethernet port Table 3-12 Settings parameter for the digital input Offset Number of registers Name Unit Format Value range Access 50025 2 "Action" mode - unsigned long 0= Status only RW 1= Pulse input 2= High tariff/low tariff switch 3= DEMAND synchronization 50029 50031 2 "Pulse input" mode 2 Table 3-13 Pulses per unit (pulses per 1000 Wh / VARh) - unsigned long 0= Import kWh 1= Export kWh 2= Import kvarh 3= Export kvarh RW - unsigned long 1 ...
Description 3.
Description 3.9 Ethernet port Table 3-16 Settings parameter for limit value 0 Offset Number of registers Name Unit Format 50063 2 ON/OFF - unsigned long Value range Access 0= OFF RW 1= ON 50065 2 Hysteresis % float 0.0 ... 20.0 RW 50067 2 Delay s unsigned long 0 ...
Description 3.9 Ethernet port Offset Number of registers Name Unit Format 50073 2 Value - float 50075 2 Modus ≥ / < - unsigned long Table 3-17 Value range Access 32 = P_SUM 33 = VAR_SUM 34 = PF_SUM 35 = V_BAL 36 = I_BAL - RW 0= greater than RW 1= less than Settings parameter for limit value 1 Offset Number of registers Name Unit Format Value range Access 50077 2 ON/OFF - unsigned long 0= OFF RW 1= ON 50079 2 Hysteresis % float 0.0 ... 20.
Description 3.
Description 3.
Description 3.
Description 3.9 Ethernet port Table 3-20 Settings parameter for limit value 4 Offset Number of registers Name Unit Format Value range Access 50119 2 ON/OFF - unsigned long 0= OFF RW 1= ON 50121 2 Hysteresis % float 0.0 ... 20.0 RW 50123 2 Delay s unsigned long 0 ...
Description 3.
Description 3.
Description 3.9 Ethernet port 3.9.9 MODBUS communication parameter with the function codes 0x03, 0x04 and 0x10 Addressing the communication parameters Table 3-22 Communication parameters Offset Number of registers Name Unit Format Value range Applicable from ... to MODBUS function codes 63001 2 IP address - unsigned long • • • 0x03 0x04 0x10 0 ... FFFFFFFFh RW 63003 2 Subnet mask - unsigned long • • • 0x03 0x04 0x10 0 ...
Description 3.9 Ethernet port 3.9.10 Modbus device information with the function codes 0x03, 0x04 and 0x10 Addressing the device information parameters You access the following device information parameters block-by-block only, e.g. read from Offset 64001 27 Register. NOTICE Error in the case of inconsistent access to I&M data Please ensure the start offset and the number of registers are correct when making read accesses and write accesses. Always read or write the entire block.
Description 3.9 Ethernet port Table 3-24 I&M 1-4 parameters with the function codes 0x03, 0x04 and 0x10 Offset Total registers Number of registers per parameter Name Format Value range from ...
Description 3.9 Ethernet port 3.9.11 Modbus command parameters Addressing the command parameters You can use MODBUS function code 0x06 on the command parameters. Table 3-26 Command parameters Offset Number of registers Name Unit Format Value range from ...
Description 3.9 Ethernet port Offset Number of registers Name 60009 1 65300 1 Unit Format Value range from ... to Access Switching command for vector group unsigned short High 0 ... 99, Low 0 ... 1 High byte group assignment Low byte 1 = ON, 0 = OFF W Activation of a changed IP configuration/ Ethernet configuration unsigned short 0 W - 1) The MODBUS master must acknowledge these diagnostics bits. See also Modbus measured variables with the function codes 0x03 and 0x04 (Page 40) 3.9.
Description 3.10 Slot for expansion modules 3.10 Slot for expansion modules Interface The SENTRON PAC3200 has one slot (MOD1) for installing optionally available expansion modules. Only communication modules such as the PAC PROFIBUS DP expansion module can be used. Please consult the current catalogs to find out which modules are available for the SENTRON PAC3200. The second slot (MOD2) has no function on the SENTRON PAC3200.
Description 3.11 Slots on the rear of the device 3.11 Slots on the rear of the device Slot on the rear of the device The SENTRON PAC3200 does not have a card reading device and does not require a battery. The insertion openings visible on the rear of the SENTRON PAC3200 cannot be used and are blanked off. NOTICE Housing slots on the rear of the device Do not insert any objects into the housing slots on the rear of the device. Inserted objects cannot be removed.
4 Operation planning 4.1 Operation planning Mounting location The SENTRON PAC3200 device is intended for installation in permanently installed switching panels within closed rooms. Conductive panels and doors on control cabinets must be grounded. The doors of the control cabinet must be connected to the control cabinet using a grounding cable. Mounting position The device must be installed vertically. r r Figure 4-1 Mounting position The preferred viewing angle is 6 o'clock (bottom view).
Operation planning 4.1 Operation planning Installation space and ventilation Sufficient clearance must be maintained between the device and neighboring components in order to comply with the permissible operating temperature. You can find dimension specifications in the "Dimension drawings" chapter.
5 Installation 5.1 Unpacking Observe the ESD Guidelines. Open the packaging carefully. Do not use excessive force. Check the packaging Carry out the following checks after receipt of the device and before installation: ● Ensure the packaging is undamaged. ● Make sure that the contents of the package are complete. ● Check the device for external damage.
Installation 5.2 Tools Installation Install the expansion module before starting up the SENTRON PAC3200. 5.2 Tools You require the following tools for installation: ● Cutting tool for the panel cutout ● Screwdriver PH2 cal. ISO 6789 Additional installation tools You also require a self-adhesive cable clamp for strain relief. 5.3 Mounting dimensions Mounting and clearance dimensions You can find information on the cutout dimensions, frame dimensions and clearances in the Chapter "Dimension drawings".
Installation 5.4 Installation steps 5. Clamp the device to the switching panel with the two brackets provided (Fig. "Installation step B"). To do this, proceed as follows: – Hold the device firmly with one hand – Hang the brackets onto the left and right sides of the housing. To do so, insert the lugs of the bracket (2) into the slot on the housing (1). – Tighten the locking hook. To do so, place your index finger and middle finger on the support arms as shown in the Fig.
Installation 5.
Installation 5.
Installation 5.5 Deinstalling 5.5 Tools Deinstalling You require the following tools to deinstall the device: ● PH2 screwdriver ● Slotted screwdriver Deinstallation steps 1. Discharge any static from your body in accordance with the ESD guidelines. CAUTION Electrostatic sensitive devices Ground your body! Discharge your body of any static electricity! 2. Start deinstallation on the inside of the switching panel. 3. Release the clamping arrangement on the switching panel.
6 Connection 6.1 Safety notes Instructions DANGER Dangerous high voltages Will cause death, serious injury or property damage. The country-specific standards for setting up power systems must be taken into account when carrying out the electrical installation. The following tasks are partly carried out when hazardous voltage is present. For this reason, they must only be carried out by qualified personnel who are familiar with and follow the safety regulations and cautionary measures.
Connection 6.1 Safety notes Note Qualified Personnel In the context of the safety information in the user documentation, a qualified person is a person who is familiar with assembling, installing, commissioning, and operating the product and who has the relevant qualifications, such as: • Training or instruction/authorization in operating and maintaining devices and systems according to the safety regulations for electrical circuits and devices.
Connection 6.2 Connections 6.2 Connections Connection designations - device with screw terminals Figure 6-1 Connection designations, view of the rear and top of the device with screw terminals (1) Digital inputs and outputs, reference potential (2) Dummy connection.
Connection 6.2 Connections Connection designations - device with ring lug terminals Figure 6-2 76 Connection designations, view of the rear and top of the device with ring lug terminals (1) Digital inputs and outputs, reference potential (2) Dummy connection.
Connection 6.2 Connections DANGER Danger! High voltage Will cause death, serious injury or considerable property damage. Please observe the safety information on the device and in the operating instructions and the manual. Note Use of devices with ring lug terminals Designed for use in: • NAFTA / USA • Regions in which open terminals are permitted. Terminal labeling - device with screw terminals Figure 6-3 No.
Connection 6.2 Connections No.
Connection 6.2 Connections No.
Connection 6.2 Connections Supply voltage fuse protection CAUTION Damage to the device due to non-fused supply voltage Damage to the device and the equipment may occur. Secure the supply voltage with an approved (UL / IEC) fuse: • SENTRON PAC3200 with multi-range power supply 0.6 A, Type C. • SENTRON PAC3200 with extra-low voltage power supply 1.0 A, Type C. If a fusible link is used, a suitable approved (UL / IEC) fuse holder has to be used.
Connection 6.3 Connecting the cables to the terminals 6.3 Connecting the cables to the terminals Connecting cables to the screw terminal Tool: PZ2 cal. screwdriver ISO 6789 Figure 6-6 Connecting cables to the screw terminal Connecting the cables to the ring lug terminals: Note The SENTRON PAC3200 with ring lug terminal is only intended for: • use in NAFTA / USA • Regions in which open terminals are permitted. WARNING Improper connection may result in death, serious injury, or property damage.
Connection 6.4 Connection examples Tool: PZ2 cal. screwdriver ISO 6789 Figure 6-7 6.4 Connecting the cables to the ring lug terminals: Connection examples Some connection examples are listed below: They show connection in: ● Two-, three- or four-wire systems ● With balanced or unbalanced load ● With/without voltage transformer ● with current transformer The device can be operated up to the maximum permissible voltage values with or without voltage measuring transformers.
Connection 6.4 Connection examples Connection examples (1) Three-phase measuring, four conductors, unbalanced load, without voltage transformers, with three current transformers Connection type 3P4W ; ; ,/ ,/ ,/ ,/ ,/ ,/ N O N O N O 9 9 9 91 / 1 ) ) ) ) / D / E / F 1 Q Figure 6-8 Connection type 3P4W, without voltage transformer, with three current transformers * Fuses must be provided by the customer.
Connection 6.4 Connection examples (3) Three-phase measuring, four conductors, balanced load, without voltage transformers, with one current transformer Connection type 3P4WB ; ; ,/ ,/ ,/ ,/ ,/ ,/ N O N O N O 9 9 9 91 / 1 ) ) / D / E / F 1 Q Figure 6-10 Connection type 3P4WB, without voltage transformer, with one current transformer * Fuses must be provided by the customer.
Connection 6.4 Connection examples (5) Three-phase measuring, three conductors, unbalanced load, without voltage transformers, with three current transformers Connection type 3P3W ; ; ,/ ,/ ,/ ,/ ,/ ,/ N O N O N O 9 9 9 91 / 1 ) ) ) ) / D / E / F Figure 6-12 Connection type 3P3W, without voltage transformer, with three current transformers * Fuses must be provided by the customer.
Connection 6.4 Connection examples (7) Three-phase measuring, three conductors, unbalanced load, without voltage transformers, with two current transformers Connection type 3P3W ; ; ,/ ,/ ,/ ,/ ,/ ,/ N O N O N O 9 9 9 91 / 1 ) ) ) ) / D / E / F Figure 6-14 Connection type 3P3W, without voltage transformer, with two current transformers * Fuses must be provided by the customer.
Connection 6.4 Connection examples (9) Three-phase measuring, three conductors, balanced load, without voltage transformers, with one current transformer Connection type 3P3WB ; ; ,/ ,/ ,/ ,/ ,/ ,/ N O N O N O 9 9 9 91 / 1 ) ) ) ) / D / E / F Figure 6-16 Connection type 3P3WB, without voltage transformer, with one current transformer * Fuses must be provided by the customer.
Connection 6.4 Connection examples (11) Two-phase measuring, three conductors, unbalanced load, without voltage transformers, with two current transformers Connection type 3P4W ; ; ,/ ,/ ,/ ,/ ,/ ,/ N O N O N O ) 9 9 9 91 / 1 ) ) / D / E 1 Q Figure 6-18 Connection type 3P4W, without voltage transformer, with two current transformers * Fuses must be provided by the customer. ** Connection of supply voltage The device indicates 0 (zero) V for L3.
Connection 6.4 Connection examples (13) Three-phase measuring, four conductors, unbalanced load, with voltage transformers, with three current transformers Connection type 3P3W ; ; ,/ ,/ ,/ ,/ ,/ ,/ N O N O N O 9 9 9 91 / 1 ) ) ) ) ) ) ) / D / E / F 1 Q Figure 6-20 Connection type 3P3W, with voltage transformer, with three current transformers * Fuses must be provided by the customer.
Connection 6.
7 Startup 7.1 Overview Prerequisites 1. The device has been installed. 2. The device has been connected in accordance with the possible connection methods. 3. An optional expansion module has been installed. If the SENTRON PAC3200 is to be operated with an expansion module, the module must be installed before the SENTRON PAC3200 is started up. Steps for starting up the device 1. Apply the supply voltage 2. Parameterizing the device 3. Apply the measuring voltage 4. Apply the measuring current 5.
Startup 7.2 Applying the supply voltage 7.2 Applying the supply voltage A supply voltage is required to operate the device. Please consult the technical data or the type plate for the type and level of the possible supply voltage. CAUTION Observe limit values Failure to do so may result in damage to the device and the equipment. The limits given in the technical data and on the type plate must not be exceeded even at startup or when testing the device.
Startup 7.3 Parameterizing the device 7.
Startup 7.4 LANGUAGE/REGIONAL Changing the language 1. Exit the measured value display and call the "MAIN MENU": 2. In the main menu, go to the "SETTINGS" entry: or 3. Call the "SETTINGS" entry: 4. In the "SETTINGS" menu, go to the "LANGUAGE/REGIONAL" entry: or Figure 7-2 "SETTINGS" menu 5. Call the "LANGUAGE/REGIONAL" entry: The display shows the currently valid settings. 6. Open edit mode of the "LANGUAGE" device setting: Figure 7-3 "LANGUAGE" edit mode 7.
Startup 7.5 BASIC PARAMETERS 7.5 BASIC PARAMETERS 7.5.1 VOLTAGE INPUTS 7.5.1.1 Set the connection type Inform the device of the connection type executed. To do so, enter the short code for the connection type in the device settings.
Startup 7.5 BASIC PARAMETERS Figure 7-4 "CONNECTION TYPE" device setting 7. Open edit mode of the "CONNECTION TYPE" device setting: 8. Scroll through the possible values with: 9. Accept the desired connection type: The connection type is permanently saved and becomes effective immediately. The display returns to display mode. 10.Return to one of the selection menus or to the measured values display: 7.5.1.
Startup 7.5 BASIC PARAMETERS 7.5.1.3 Setting the conversion ratio of the voltage transformer The factory setting is measurement direct on the system. At initial startup, the following steps must be carried out if you want to measure using voltage transformers. The conversion ratio can only be set if measurement using voltage transformers is set in the device settings. Only then are the fields for primary and secondary voltage visible on the display. Figure 7-6 Device setting "USE PTs?" Procedure 1.
Startup 7.5 BASIC PARAMETERS Example: You want to measure using voltage transformers for 10000 V/100 V on a 10 kV system. For this purpose, enter: 1. USE PTs?: On: 2. PT PRIMARY: 10000V 3. PT SECONDARY: 100V Figure 7-7 7.5.1.4 "VOLTAGE INPUTS" device setting Setting the voltage input The factory setting for the measuring reference voltage is 400 V. At initial startup, the following steps must be carried out if the available measuring voltage deviates from this. Procedure 1.
Startup 7.5 BASIC PARAMETERS 7.5.2 CURRENT INPUT 7.5.2.1 Setting the conversion ratio of the current transformer The factory setting is measurement using current transformers. If you want to measure using current transformers, the conversion ratio must be set at initial startup. Figure 7-9 "CURRENT INPUTS" device setting Procedure 1. In the "SETTINGS" menu, call the "BASIC PARAMETERS" entry. 2.
Startup 7.6 Applying the measuring voltage 1. CT PRIMARY: 5000A 2. CT SECONDARY: 5A Figure 7-10 7.6 Device setting "CURRENT INPUTS - CT PRIMARY?" Applying the measuring voltage The SENTRON PAC3200 with multi-range power supplyis designed for measuring in systems with rated AC voltages to ● 400 V phase-to-neutral (max. 347 V for UL) and ● 690 V phase-to-phase (max. 600 V for UL).
Startup 7.7 Applying the measuring current 7.7 Applying the measuring current The device is designed for connection of current transformers with secondary currents of 1 A and 5 A. It is only possible to measure alternating currents. The current measuring inputs can each be loaded with 10 A (max. 300 V) continuously or with 100 A for 1 second. DANGER Short-circuiting secondary connections of the current transformers Will cause death, serious injury or considerable property damage.
Startup 7.8 Check the displayed measured values 7.8 Check the displayed measured values Correct connection type With the help of the table "Displaying the measured variables depending on the connection type", check whether the measured variables are displayed in accordance with the connection type executed. Any deviation indicates a wiring fault or configuration error.
8 Operator control 8.1 Device interface 8.1.1 Displays and operator controls Displays and operator controls The front of the SENTRON PAC3200 contains the following displays and operator controls.
Operator control 8.1 Device interface Display: Display - Display title - Key labeling The display is structured as follows: ● Display area - represents the current measured values, device settings and selection menus. ● Header area - specifies the information visible in the display area. ● Footer area - specifies the functions assigned to the function keys.
Operator control 8.1 Device interface Navigation through the views Navigation through the measured variables, menus and device settings is assigned throughout to the function keys F1 and F4: : Cancels the last operator action. Returns from display of the device settings to ● F1 display of the menu. ● F4 : Calls the main menu. ● F4 : Calls the selected menu entry. ● F4 : Opens edit mode of the device setting. The figure below shows the navigation paths.
Operator control 8.1 Device interface 'LVSOD\ RI WKH PHDVXUHG YDULDEOHV 0HQX 6(77,1*6 0$,1 0(18 0HQX %$6,& 3$5$0(7(56 'LVSOD\ RI WKH GHYLFH VHWWLQJV (GLW PRGH RI GHYLFH VHWWLQJV Figure 8-2 Information structure and navigation Special display elements Device protection symbol The padlock symbol in the display title indicates whether the device settings are protected against unauthorized or inadvertent changes or not. Device is protected. Device is not protected.
Operator control 8.1 Device interface If device protection is switched on, the device demands input of the valid password. The password can be assigned or modified in the "ADVANCED > PASSWORD PROTECTION" device setting. Note: The device protection symbol appears in all displays with the exception of the measured value display. Display number Each display is assigned a display number. The number is located on the right of the header area of the display.
Operator control 8.1 Device interface Start of the list/end of the list Figure 8-4 (1) Start of the list/end of the list Separating line between the start of the list and end of the list In all menus, the end of the list is looped back in a circle to the start of the list. F3 jumps from the start of the list to jumps from the end of the list to the start of the list. F2 the end of the list.
Operator control 8.
Operator control 8.1 Device interface 8.1.
Operator control 8.1 Device interface Display title The display title in the header of the display contains the following information: ● Designation of the measured variable ● Designation of the measured value property ● Display number of the measured variable Designation of the measured variable The first position in the display title contains the designation of the measured variable displayed. Since the length of the line is restricted, the unit of the measured variable is also used as the name.
Operator control 8.1 Device interface Designation of the measured value property The second position in the display title contains the currently displayed measured value property.
Operator control 8.1 Device interface 8.1.3 Display of the "MAIN MENU" The "MAIN MENU" shows the choice of viewable measured variables. The additional menu entry "SETTINGS" branches to the menu for parameterizing the device.
Operator control 8.1 Device interface Changing to the menu for parameterizing the device The "SETTINGS" menu entry branches to the menu for parameterizing the device. Function keys Table 8-1 Assignments of the function keys in the "MAIN MENU" Key function F1 F2 F3 F4 Reject the menu selection and return to the last displayed measured variable Scroll up in the selection list Scroll down in the selection list Display the selected measured variable 8.1.
Operator control 8.1 Device interface Function keys Table 8-2 Assignments of the function keys in the "SETTINGS" menu Key function F1 F2 F3 F4 Reject the menu selection and return to the "MAIN MENU" Scroll up in the selection list Scroll down in the selection list Display the selected device setting 8.1.5 Display of the device settings Related device settings are listed under the display title. The currently valid settings are visible.
Operator control 8.1 Device interface Function keys Table 8-3 Assignments of the function keys in the device settings display Key function F1 F2 F3 F4 Return to the menu selection Scroll up in the selection list Scroll down in the selection list Change to edit mode Switch the setting ON/OFF Return to the menu selection F4 switches edit mode on. The device settings can be changed in edit mode. is an ON/OFF switch. The change takes effect immediately. Calling edit mode is no F4 longer applicable.
Operator control 8.2 Operator input steps Function keys Table 8-4 Assignments of the function keys in edit mode of the device settings Key function F1 F2 F3 F4 Reject the changes and return to display mode Increment the numerical value by "1" or show the next selectable setting Decrement the numerical value by "1" Go to the next digit to the right in the multidigit numerical value Save the changes and return to display mode See also Display of the device settings (Page 115) 8.
Operator control 8.2 Operator input steps Figure 8-12 Display the instantaneous, maximum/minimum or average value Reset the maximum or minimum value to the instantaneous value F3 resets the last reached maximum/minimum value to the instantaneous value.
Operator control 8.2 Operator input steps Switch between import and export F1 switches between import and export for active energy, reactive energy and apparent energy. F1 : Display of export. F1 : Display of import. Calling the "MAIN MENU" F4 calls the menu selection. The selection bar is at the last displayed measured variable in the menu selection. Figure 8-14 8.2.
Operator control 8.2 Operator input steps Cancel menu selection F1 cancels menu selection and returns to the last displayed measured variable. Note Cancel menu selection When returning from the main menu to the measured value display, the display switches to showing the instantaneous value. Figure 8-15 (1) Cancel menu selection Switching to display of the instantaneous value Calling the "SETTINGS" menu The "SETTINGS" menu entry calls the menu for parameterizing the device.
Operator control 8.2 Operator input steps Displaying a setting The selection bar highlights the currently selected menu entry (white text on a black background). F4 calls the display of the selected device setting. Figure 8-16 Displaying a setting Cancel menu selection F1 8.2.4 returns to the main menu. Operator input steps in device settings display Calling edit mode F4 switches edit mode on. The device settings can be changed in edit mode.
Operator control 8.2 Operator input steps 8.2.5 Operator input steps in edit mode of the device settings Enter password If device protection is switched on, the SENTRON PAC3200 demands input of the valid password. Figure 8-19 Enter password You can find information on password management in the "Password management" chapter. Change value Switching a device setting ON/OFF switches a function or status ON/OFF. The setting takes effect immediately. Saving F4 no longer applies.
Operator control 8.2 Operator input steps Selecting from several settings F2 scrolls up through the range of selectable settings. F3 scrolls down through the range of selectable settings. Figure 8-22 Selecting from several settings Incrementing or decrementing a value F2 increases the value in increments of 1. F3 decreases the value in decrements of 1. The highest value of the available set of values is followed again by the lowest.
Operator control 8.
Operator control 8.
Parameterize 9.1 9 Introduction Device settings The "Parameterization" chapter describes the device settings. These functions include: ● Adjustment to the physical conditions of use ● Integration into the communication system ● Country-specific settings, ergonomics, device protection It is possible to set the device by means of: ● The operator interface of the device ● Configuration software Note Protection of the device settings As delivered, the device settings are not protected.
Parameterize 9.2 Parameterizing the operator interface 9.2 Parameterizing the operator interface 9.2.1 Groups of settings The device settings are arranged into the following groups.
Parameterize 9.2 Parameterizing the operator interface Overview - Menu tree and device settings Below is the menu tree of the "SETTINGS" menu with all the device settings The tree branches into multiple submenus. MAIN MENU SETTINGS DEVICE INFORMATION 21.1 Manufacturer designation Order No. Serial number Date code Hardware revision level Firmware revision level Boot loader revision level LANGUAGE/REGIONAL 21.2 LANGUAGE PHASE LABELS BASIC PARAMETERS 21.3 VOLTAGE INPUTS 23.
Parameterize 9.2 Parameterizing the operator interface COMMUNICATION 21.6 MAC-ADR. IP-ADDR. SUBNET GATEWAY PROTOCOL DISPLAY 21.7 CONTRAST BACKLIGHT LEVEL BACKLIGHT DIMMED TIME UNTIL DIMMED INVERT DISPLAY REFRESH TIME DISPLAY TEST ADVANCED 22.8 PASSWORD PROTECTION 22.1 PASSWORD PROTECTION PASSWORD LIMITS 22.2 LIMIT 0 MONITORING SOURCE MODE VALUE PICKUP DELAY HYSTERESIS STATUS LIMIT 1 ... LIMIT 2 ... LIMIT 3 ... LIMIT 4 ... LIMIT 5 ... LIMIT 6 ...
Parameterize 9.2 Parameterizing the operator interface LIMIT LOGIC LIM0 LIM1 LIM2 LIM3 LIM4 LIM5 = LIMIT LOGIC UNIVERSAL COUNTER 22.3 SOURCE RESET 30.0 CLEAR MIN/MAX-VALUES RESET COUNTERS UNIV.COUNTER RESET FACTORY DEFAULTS PARAM. EXECUTE PROFIBUS MODULE 21.9 PROFIBUS ADDRESS RS485 MODULE 21.9 ADDRESS BAUD RATE SETTINGS PROTOCOL RESPONSE TIME 9.2.2 Device information The device information cannot be modified. Key F4 returns to the "SETTINGS" menu.
Parameterize 9.2 Parameterizing the operator interface Device information 9.2.3 SIEMENS AG Manufacturer designation. Order number of the device. S/N: Serial number of the device. D/T: Date code. HW-REV: Hardware revision level. SW-REV: Firmware revision level. BL-REV: Boot loader revision level. Language, regional settings Adapting the regional and language options.
Parameterize 9.2 Parameterizing the operator interface 9.2.4 Basic parameters Basic parameters are all those settings concerning the measuring inputs.
Parameterize 9.2 Parameterizing the operator interface Use PTs? Measurement with/without voltage transformer ON/OFF switch: ON / OFF. ON: Measurement using voltage transformers. When measuring via voltage transformer, the device must know the voltage conversion ratio. For this purpose, the primary and secondary voltages must be specified in the fields "PT PRIMARY" and "PT SECONDARY".
Parameterize 9.2 Parameterizing the operator interface PT SECONDARY Secondary voltage. Must be specified if a voltage transformer is used for measuring. SENTRON PAC3200 with multi-range power supply Range: 1 V to 690 V, freely adjustable (max. 600 V for UL) Default value: 400 V SENTRON PAC3200 with extra-low voltage power supply Range: 1 V to 500 V, freely adjustable Default value: 289 V The property "PT SECONDARY" is only visible, if "USE PTs?" is set to " ON".
Parameterize 9.2 Parameterizing the operator interface INVERT CT POLARITY Inversion of the direction of current flow ON/OFF switch: ON / OFF. OFF: SENTRON PAC3200 interprets the direction of current flow in accordance with the wiring. On: Direction of current flow is inverted. SENTRON PAC3200 interprets the direction of current flow opposite to the wiring. Default: 9.2.5 OFF Power demand Device settings for acquiring the power demand. Call: "SETTINGS > POWER DEMAND.
Parameterize 9.2 Parameterizing the operator interface 9.2.6 Integrated I/O Device settings for using the digital input and output. Call: "SETTINGS > INTEGRATED I/O". Figure 9-8 "INTEGRATED I/O" device setting DIGITAL OUTPUT Figure 9-9 ACTION "DIGITAL OUTPUT" device setting Method of using the digital output: OFF: The digital output is switched off. DEVICE ON: The digital output is switched on. REMOTE OUTPUT. The digital output is controlled by remote access, e.g.
Parameterize 9.2 Parameterizing the operator interface SOURCE Figure 9-10 ENERGY PULSE: The digital output outputs the parameterized number of pulses per energy unit (e.g. kWh). The energy counter specified in the field "DIGITAL OUTPUT > SOURCE" is evaluated here. Default: OFF. The field is available in the case of the actions "LIM.VIOLATION" and "ENERGY PULSE" "DIGITAL OUTPUT" device setting In the case of the action "LIM.
Parameterize 9.2 Parameterizing the operator interface PULSE LENGTH The field is available with the action "ENERGY PULSE". Pulse length. Range: 30 to 500 ms Default: 100 ms The minimum length of the pulse pause corresponds to the pulse duration specified. DIGITAL INPUT Figure 9-11 "DIGITAL INPUT" device setting ACTION Method of using the digital input: NONE: The digital input is switched off. PULSE INPUT: Counting of input pulses.
Parameterize 9.2 Parameterizing the operator interface 9.2.7 Communication Device address: ● MAC address ● TCP/IP addresses Figure 9-13 "COMMUNICATION" device setting A change to the TCP/IP addresses only becomes effective after the device has been restarted. If you exit the "COMMUNICATION" device setting with the F1 key you want to restart. , the device asks if : Do not execute a restart. Address changes are saved on the device but do ● F1 key not become effective. ● F4 key : Execute a restart.
Parameterize 9.2 Parameterizing the operator interface 9.2.8 Display Figure 9-14 "DISPLAY" device setting Device settings of the display CONTRAST Contrast of the LC display. Range: 0 to 10. Default: 5 BACKLIGHT LEVEL Intensity of the backlighting of the LC display. The value "0" switches the backlighting off. Range: 0 to 3. Default: 3 BACKLIGHT DIMMED Intensity of the backlighting of the LC display. Set by the device after expiry of time until dimmed.
Parameterize 9.2 Parameterizing the operator interface Figure 9-15 "INVERT DISPLAY" device setting switched on DISPLAY TEST Screen for testing the functional capability of the display. Key F3 inverts the test screen. Key F4 closes the display. Figure 9-16 9.2.9 "DISPLAY TEST" device setting Advanced Call: "SETTINGS > ADVANCED". Other device settings.
Parameterize 9.2 Parameterizing the operator interface PASSWORD PROTECTION You can protect the device settings against access with a password. PASSWORD PROTECTION Switches password protection on off ON / OFF. ON: Password protection switched OFF: Password protection switched Default: switched off PASSWORD Four-digit, numeric password.
Parameterize 9.2 Parameterizing the operator interface LIMIT 0, 1, 2, 3, 4, 5 MONITORING Menu selection of the limits Each limit has the following properties: Activation of limit monitoring. ON/OFF switch: ON / OFF. ON: Limit monitoring switched on. OFF: Limit monitoring switched off. Default: OFF Figure 9-20 "LIMIT 0" device setting SOURCE Monitored data source.
Parameterize 9.2 Parameterizing the operator interface PICKUP DELAY Delay in reporting limit violation in seconds. The delay refers to the occurrence of the limit violation or the point of exceeding the threshold defined in the "VALUE" field. See the figure below "Effect of delay". Range: 0 to 10 s Default: 0 s HYSTERESIS Threshold buffer, prolongs the limit violation. The hysteresis refers to the disappearance of the limit violation or the point when the level returns below the defined threshold.
Parameterize 9.2 Parameterizing the operator interface 8SSHU OLPLW YLRODWLRQ /RZHU OLPLW YLRODWLRQ 'HOD\ 'HOD\ 7KUHVKROG +\VWHUHVLV +\VWHUHVLV 7KUHVKROG W W :LWKRXW GHOD\ :LWKRXW K\VWHUHVLV W W :LWK GHOD\ :LWKRXW K\VWHUHVLV W W :LWKRXW GHOD\ :LWK K\VWHUHVLV W W :LWK GHOD\ :LWK K\VWHUHVLV W Figure 9-21 W Effect of delay and hysteresis on upper and lower limit violations STATUS Indicates whether the limit value is currently violated.
Parameterize 9.2 Parameterizing the operator interface LIMIT LOGIC Figure 9-22 "LIMIT LOGIC" device settings (1) Logic operator (2) Limit designation (3) Monitored data source (4) Limit currently violated: LIM0, LIM1, ..., LIM5 Yes, No Logic operator Range: "----", AND, OR. The value "----" means: not activated. Default: "----" You can find information on generating the logically combined limit "LIMIT LOGIC" in the Limits chapter.
Parameterize 9.2 Parameterizing the operator interface RESET The "RESET" dialog box enables resetting of the device settings to the instantaneous values or the factory default values. The following groups of values can be reset: ● Maximum/minimum values ● Counters ● Universal counter ● Factory defaults ● Communication parameters does not immediately reset a value group but marks the group instead. The F4 "EXECUTE..." menu entry resets the marked value groups.
Parameterize 9.2 Parameterizing the operator interface NOTICE Access protection is switched off Resetting to the factory defaults deactivates device protection. Password protection is switched off. The password is set to the value "0000". NOTICE Counter - Reset Resetting to the factory defaults has the effect of resetting all counters! COMMUNICATION PARAM. Resets the entered TCP/IP address to: EXECUTE Reset function. Resets the selected value groups. 0.0.0.0 See also Limits (Page 34) 9.2.
Parameterize 9.2 Parameterizing the operator interface 9.2.11 PAC RS485 expansion module PAC RS485 expansion module If the PAC RS485 expansion module is plugged in, the device setting "RS485 MODULE" is executed in the "SETTINGS" menu. Call: "SETTINGS > RS485 MODULE". RS485 MODULE Default values of the device ADDRESS 126 (adjustable range: 0-126) BAUD RATE 19200 SETTINGS 8N2 PROTOCOL MODBUS RTU RESPONSE TIME 0 ms 9.2.12 Password management 9.2.12.
Parameterize 9.2 Parameterizing the operator interface 9.2.12.3 Switch on password protection Password protection can be switched on at any time. NOTICE Password known? Before you switch on password protection, make sure you and the group of authorized users are all in possession of the password. If password protection is switched on, the password is mandatory for all changes to the device settings.
Parameterize 9.2 Parameterizing the operator interface To switch off password protection: 1. Call the "PASSWORD PROTECTION" display. 2. Deactivate the "PASSWORD PROTECTION" field with F4 The device opens the "ENTER PASSWORD" dialog box. 3. Enter the password and confirm with F4 The display returns to the "PASSWORD PROTECTION" display. The password is visible on the display. If you have given the correct password, password protection is switched off.
Parameterize 9.2 Parameterizing the operator interface To change the password: 1. Call the "PASSWORD PROTECTION" display. 2. Go to the "PASSWORD" device setting: or F3 F2 3. Open edit mode of the "PASSWORD" device setting: F4 4. Change the password with: and F3 F2 5. Accept the new password with: F4 The password is permanently saved and becomes effective immediately. The display returns to display mode.
Parameterize 9.2 Parameterizing the operator interface The display returns to display mode. The newly assigned password remains visible until you exit the dialog box with F1 . Figure 9-27 9.2.12.6 Change password - Password protection on (1) Password accepted (2) Password rejected Password lost - what to do? If you have forgotten the password, please contact Technical Support. You will receive a new password from them.
Maintenance and servicing 10.1 10 Cleaning Description The SENTRON PAC3200 is maintenance-free. Calibration The device has been calibrated by the manufacturer before shipping. Recalibration is not required provided the environmental conditions are maintained. Cleaning Clean the display and the keypad periodically. Use a dry cloth for this. CAUTION Damage due to detergents Detergents can damage the device. Do not use detergents.
Maintenance and servicing 10.2 Repair 10.2 Repair Procedure NOTICE Loss of warranty If you open the device, it loses its Siemens warranty. Only the manufacturer may carry out repairs to the device. Return faulty or damaged devices to Siemens for repair or replacement. If the device is faulty or damaged, proceed as follows: 1. Deinstall the device. 2. Pack the device in a suitable manner to prevent it from being damaged during transport. 3. Return the device to Siemens.
11 Technical data 11.
Technical data 11.1 Technical data VI to 400 V (Vph-n), max. 347 V for UL (not for device with extra-low voltage power supply) CAT III VI to 690 V (Vph-n), max. 600 V for UL (not for device with extra-low voltage power supply) CAT III Higher voltages only if using voltage transformers Input resistance (ph-n) 1.05 Mohms Power consumption per phase 220 mW AC current input Only for connection to external current transformers Input current II 3~ x AC / 1 A (+ 20%, max.
Technical data 11.1 Technical data Digital output Number 1 output External power supply 12 to 24 V DC Max. switched output voltage 30 V DC For signal "1" 10 to 27 mA Output current Continuous load max. 100 mA Transient overload max. 300 mA for a duration of 100 ms Resistive load 100 mA For signal "0" max. 0.
Technical data 11.1 Technical data Retention of data in the absence of the supply voltage Measured values and counters are monitored for minimum and maximum values at specific intervals and only saved to the non-volatile memory in the event of a change. This means the age of the data before the power failure is as follows: ● Minimum and maximum values max. 5 s ● Counters max.
Technical data 11.1 Technical data Ring lug terminals Connection designations Dimensions of the ring lug IL1(°↑k, l↓), IL2(°↑k, l↓), IL3(°↑k, l↓) V1, V2, V3, VN, L/+, N/Dimensi ons [mm] D VA W L1 L2 L3 3 ... 4 0,75 ... 1,0 ≤8 ≤ 24 ≤ 20 ≥8 [inch] 0.118 ... 0.157 0.029 ... 0.039 ≤ 0.314 ≤ 0.944 ≤ 0.787 ≥ 0.314 / / / 6 : ' Connection bolt Conductor cross section depending on the ring lug used M3 to M4 1.0 to 6.0 #5 ... #8 mm2).
Technical data 11.1 Technical data Screw terminal Connection designations , DI-, DI+, DO-, DO+ Solid 1 x 0.2 ... 2.5 mm² 2 x 0.2 ... 1.0 mm² Finely stranded without end sleeve 1 x 0.2 ... 2.5 mm² 2 x 0.2 ... 1,5 mm² Single-core with end sleeve, without plastic sleeve 1 x 0,25 ... 2.5 mm² 2 x 0,25 ... 1.0 mm² Single-core with end sleeve, with plastic sleeve 1 x 0.25 ... 2.5 mm² Single-core with TWIN end sleeve, with plastic sleeve 2 x 0,5 ... 1,5 mm² AWG cables 1 x 24 ...
Technical data 11.1 Technical data Display Type Monochrome, graphical LC display, light backlighting, dark text and digits Resolution 128 x 96 pixels Size W x H 72 mm x 54 mm Keyboard 4 function keys F1 to F4 on the front, multiple assignments. Electromagnetic compatibility Emission IEC 61000-6-4 Group 1 Class A or CISPR11 Group 1 Class A or FCC Part 15 Subpart B Class A. Immunity IEC 61000-6-2 or IEC 61326-1:2005, Table 2.
Technical data 11.
Technical data 11.2 Labeling 11.2 Labeling Labels on the housing of the SENTRON PAC3200 Figure 11-1 Device labeling Symbol, label Explanation (1) Protective insulation, device of protection class II. (2) Products with this mark comply with both the Canadian (CSA) and the American (UL) requirements. (3) CE mark. Confirmation of conformity of the product with the applicable EU directives and compliance with the essential requirements contained in these directives.
Technical data 11.2 Labeling Symbol, label 166 Explanation (6) Caution! General hazard area. (7) Overvoltage category CAT III for current and voltage inputs. (8) Danger of electric shock.
12 Dimension drawings 12.1 Dimension drawings Note: All dimensions in mm.
Dimension drawings 12.
Dimension drawings 12.
Dimension drawings 12.1 Dimension drawings Clearances Figure 12-5 PD[ PP Clearances, device with screw terminal (on the left), device with ring lug terminal (on the right) The clearances specified must be maintained for cable outlets and ventilation.
A Appendix A.1 Certification marks CE mark The SENTRON PAC3200 Power Monitoring Device meets the requirements and protection goals of the following EC directives: ● Low Voltage Directive 2006/95/EC ● EMC Directive 2004/108/EC UL mark Products with this symbol meet both UL and Canadian requirements.
Appendix A.2 Correction sheet A.2 Correction sheet Correction sheet Have you noticed any errors while reading this manual? If so, please use this form to tell us about them. We welcome comments and suggestions for improvement. Fax response From (please complete): To Name SIEMENS AG A&D CD MM3 Company/Department P.O.
ESD Guidelines B.1 B Electrostatic sensitive devices (ESD) ESD components are destroyed by voltage and energy far below the limits of human perception. Voltages of this kind occur as soon as a device or an assembly is touched by a person who is not electrostatically discharged. ESD components which have been subject to such voltage are usually not recognized immediately as being defective, because the malfunction does not occur until after a longer period of operation.
ESD Guidelines B.
C List of abbreviations C.1 Abbreviations Overview Table C-1 Meaning of abbreviations Abbreviation Meaning AWG American Wire Gauge CE Communautés Européennes (French for "European Union") CISPR Comité international spécial des perturbations radioélectriques CSA Canadian Standards Association DIN Deutsches Institut für Normierung e. V.
List of abbreviations C.1 Abbreviations 176 Abbreviation Meaning TCP/IP Transmission Control Protocol/Internet Protocol THD Total Harmonic Distortion; German: Gesamte Harmonische Verzerrung THD-R Relative THD UL Underwriters Laboratories Inc.
Glossary Bus Shared transmission path over which all bus nodes are connected. It has two defined ends. In the case of PROFIBUS, the bus is a twisted pair or optical fiber cable. Bus system All nodes physically connected to a bus cable form a bus system. Diagnosis The detection, localization, visualization and further evaluation of errors, disturbances and messages. Diagnostics offers monitoring functions that automatically run while the system is in operation.
Glossary 178 SENTRON PAC3200 Manual, 02/2008, A5E01168664B-04
Index A Apply the measuring current, 101 Apply the measuring voltage, 100 Apply the supply voltage, 92 B Bit mask, 44, 45 C Calibration, 155 CD Contents, 13 Check the packaging, 67 Cleaning, 155 Clearance measurements, 68, 169 Clearances, 170 Command parameters, 61 Commissioning Setting the language, 94 Communication interface, 63 Communication parameters, 58 Components of the product, 12 Conductive floor, 174 Connection examples, 82 Connection type Checking, 102 setting, 95 Connection types, 23 Connectio
Index G P General safety notes, 17 GSD file, 13 Packaging, 67 Panel cutout Dimensions, 167 Parameter Command, 61 Communication, 58 Device information, 62 Status, 46 Parameterize Device settings, 127 Startup, 93 Parameterizing the device, 93 Parameters Settings parameters, 47 Password Administration, 150 Default password, 150 lost, forgotten, 154 Power demand, 20, 32 Power failure, 36 Power supply, 21 Prerequisites Startup, 91 Procedure Installation, 68 Protection, 22 Pulse length, 37 I Installation Pro
Index Setting the language, 94 Setting the voltage input, 98 Settings parameters, 47 Startup, 91 Apply the supply voltage, 92 Parameterizing the device, 93 Prerequisites, 91 Set the connection type, 95 Status parameters, 46 Storage, 67, 173 Support Address, 14 Online, 14 Technical, 14 Support address, 14 T Tariffs, 33 Technical problems Contact, 13 Technical Support, 14 Temperature compensation, 66 Transport, 173 Turn-off time, 37 V Validity range, 11 Ventilation Installation space, 66 Voltage input, 98
Index 182 SENTRON PAC3200 Manual, 02/2008, A5E01168664B-04