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Service and maintenance

List of abbreviations

SENTRON

Power Monitoring Device

SENTRON PAC4200

System Manual

09/2009

A5E02316180B-02

Содержание PAC4200

Страница 1: ...stallation 5 Connecting 6 Startup 7 Operator control 8 Parameterizing 9 Service and maintenance 10 Technical data 11 Dimension drawings 12 Appendix A ESD guidelines B List of abbreviations C SENTRON Power Monitoring Device SENTRON PAC4200 System Manual 09 2009 A5E02316180B 02 ...

Страница 2: ...ntation for the specific task in particular its warning notices and safety instructions Qualified personnel are those who based on their training and experience are capable of identifying risks and avoiding potential hazards when working with these products systems Proper use of Siemens products Note the following WARNING Siemens products may only be used for the applications described in the cata...

Страница 3: ...5 3 3 1 Sliding window demand values 31 3 3 2 Other properties of measured variable representation 32 3 4 Load profile 33 3 4 1 Overview 33 3 4 2 Historical load profile 36 3 4 3 Current load profile data at the communication interfaces 37 3 4 4 Synchronization of the load profile 37 3 4 5 Additional information about the load profile data 39 3 5 Tariffs 39 3 6 Technical features of the supply qua...

Страница 4: ...9 6 2 Connections 80 6 3 Connecting the cables to the terminals 86 6 4 Connection examples 87 6 5 Grounding of the Ethernet cable 94 6 6 Connecting the PAC RS485 expansion module 96 6 7 Connecting the SENTRON PAC 4DI 2DO expansion module 98 7 Startup 101 7 1 Overview 101 7 2 Applying the supply voltage 101 7 3 Parameterizing the device 103 7 3 1 Procedure 103 7 3 2 Language 103 7 3 3 Date and time...

Страница 5: ...meterizing 135 9 1 Introduction 135 9 2 Parameterizing the operator interface 135 9 2 1 Groups of settings 135 9 2 2 Device information 136 9 2 3 Language and regional settings 137 9 2 4 Basic parameters 137 9 2 5 Power demand 141 9 2 6 Date time 142 9 2 7 Integrated I Os 144 9 2 8 Communication 149 9 2 9 Display 150 9 2 10 Advanced 151 9 2 11 Password management 159 9 2 11 1 Calling password mana...

Страница 6: ...and 0x02 234 A 3 4 Structure PMD diagnostics and status with the function codes 0x03 and 0x04 234 A 3 5 Measured variables for the load profile with the function codes 0x03 and 0x04 235 A 3 6 Tariff specific energy values in double format with the function codes 0x03 0x04 and 0x10 237 A 3 7 Tariff specific energy values in float format with the function codes 0x03 and 0x04 238 A 3 8 Maximum values...

Страница 7: ...ions 165 Table 9 4 Performance calculation 165 Table 9 5 Status in the DIAG field with meaning 166 Table 9 6 Status and fault indication by the LED 167 Table 11 1 The device meets the following standards 184 Table 11 2 Mechanical data for the PAC RS485 expansion module 185 Table 11 3 Electrical data for the PAC RS485 expansion module 185 Table 11 4 Ambient and environmental conditions 186 Table 11...

Страница 8: ...e A 16 Available measured variables Minimum values with time stamp 242 Table A 17 Harmonics of the voltage 245 Table A 18 Harmonics of the current 247 Table A 19 Harmonics of the phase to phase voltage 248 Table A 20 Harmonics of the voltage 249 Table A 21 Harmonics of the current 251 Table A 22 Configuration settings 254 Table A 23 Assignment of the values 0 to 241 260 Table A 24 Communication se...

Страница 9: ...ef for RJ45 connector 73 Figure 5 5 Schematic view of assembling the expansion module 75 Figure 5 6 Deinstallation releasing the locking hooks 77 Figure 6 1 Connection designations of the device with screw terminals rear view 80 Figure 6 2 Connection designations of the device with ring lug terminals rear view 80 Figure 6 3 Connection designations of the device top view 81 Figure 6 4 Terminal labe...

Страница 10: ... polarization 97 Figure 6 27 Terminal assignment with switching of the digital inputs with internal power supply 98 Figure 6 28 Terminal assignment with switching of the digital inputs with external power supply 99 Figure 6 29 Terminal assignment with switching of the digital outputs 99 Figure 7 1 Language selection 104 Figure 7 2 LANGUAGE edit mode 104 Figure 7 3 DATE TIME device settings 105 Fig...

Страница 11: ... box 157 Figure 9 17 PASSWORD PROTECTION device setting 160 Figure 9 18 Configuring the PAC RS485 expansion module using buttons 164 Figure 9 19 Configuring the SENTRON PAC 4DI 2DO expansion module using keys 166 Figure 10 1 CHANGE BATTERY 171 Figure 10 2 Indication of completed data backup 171 Figure 10 3 Battery change 172 Figure 11 1 Device labeling 190 Figure 11 2 PAC RS485 expansion module wi...

Страница 12: ...ystem Manual 09 2009 A5E02316180B 02 Figure 12 7 View from above with the dimensions of the plug connector between the SENTRON PAC 4DI 2DO expansion module and the SENTRON PAC side view front view and view from below with terminal block 197 ...

Страница 13: ...o understand this manual Knowledge of the relevant safety regulations and standards is required for installing and connecting the device Validity range This manual applies to the following delivery versions of the device SENTRON PAC4200 for panel mounting with LC display Screw terminal Ring lug terminal Wide voltage power supply The manual describes those device properties valid at the time of its...

Страница 14: ...00 in all available languages Manuals and operating instructions for optional expansion modules in all available languages All files necessary to configure the optional expansion modules e g GSD file SENTRON powerconfig software including online help in all available languages and README file in English and German Certificate of License for SENTRON powerconfig in English and German 1 5 Latest info...

Страница 15: ...entation Overview You can find further details in the following manuals SENTRON PAC4200 operating instructions Manuals and operating instructions for the optional expansion modules SIMATIC NET PROFIBUS network manual Overview You can find further details in the following manuals Manual for the SENTRON PAC Power Monitoring Device Operating instructions for the SENTRON PAC Power Monitoring Device Op...

Страница 16: ...Introduction 1 6 Further documentation SENTRON PAC4200 16 System Manual 09 2009 A5E02316180B 02 ...

Страница 17: ...ions 2 2 1 Safety notes General safety notes DANGER Hazardous Voltage Will cause death or serious injury Turn off and lock out all power supplying this device before working on this device Safety related symbols on the device Figure 2 1 Safety related symbols on the device ...

Страница 18: ... open circuit can result in personal injury and damage to the unit Short circuit the secondary connections of intermediate current transformers at the transformers before interrupting the current lines to the device See also Applying the measuring current Page 111 Applying the measuring voltage Page 111 Applying the supply voltage Page 101 Replacing the battery Page 170 ...

Страница 19: ...possible The experienced operator can also use direct navigation for quicker selection of the desired display menu SENTRON PAC4200 guarantees high measuring accuracy It can be used to capture and store load profiles according to various methods It has a range of useful monitoring diagnostics and service functions a two tariff apparent energy active energy and reactive energy counter two universal ...

Страница 20: ...imum values min max pointer function At the voltage terminals SENTRON PAC4200 can be connected direct to 690 V industrial systems max 600 V for Vph measuring category III pollution degree 2 Higher voltages using voltage transformers For current transformers x 1 A and x 5 A Conversion ratio and current direction programmable Can be used in 2 3 and 4 wire systems Suitable for TN TT and IT systems Hi...

Страница 21: ...053 31 standard Operating hours counter for monitoring the operating time of a connected load Counts only in the case of energy counting above an adjustable threshold One apparent energy counter one active energy counter and one reactive energy counter for detecting the total energy import regardless of the active tariff for display on the device One apparent energy counter one active energy count...

Страница 22: ...r voltage and current to avoid load unbalance Operating hours counter for monitoring the runtime of connected loads such as motors pumps or machines etc Event driven switching of the digital outputs possible Changing the date and the time Changing device parameters Writing a large number of events in the event memory Events and messages Recording up to 4096 events with a time stamp and event speci...

Страница 23: ...that support Modbus RTU and similar protocols Internal clock Time stamping of events Synchronization of the load profile as an alternative to external synchronization Battery backup Long term memory Storage of load profiles Storage of events Battery backup Inputs and outputs Two multifunctional integral digital inputs for tariff switching time synchronization demand period synchronization status m...

Страница 24: ...ad of 10 A Surge withstand capability is possible for currents up to 100 A and a duration of 1 s Voltage measurement CAUTION Alternating voltage measurement only otherwise the device will become non functional Use the device to measure alternating voltage only SENTRON PAC4200 is designed for Direct measurement on the system or using voltage transformers The measuring voltage inputs of the device m...

Страница 25: ...type for the purpose You can find connection examples in the chapter Connecting CAUTION Improper Power Supply May Damage Equipment Before connecting the SENTRON PAC you must ensure that the local power supply conditions agree with the specifications on the type plate The short code of the connection type must be entered in the device settings at startup You can find the instructions for parameteri...

Страница 26: ...wer per phase import export Wa Wb Wc W Total reactive power VARtot per phase positive negative VARtot a VARtot b VARtot c VAR Reactive power VAR1 per phase positive negative VAR1 a VAR1 b VAR1 c VAR Reactive power VARn per phase positive negative VARn a VARn b VARn c VAR Total apparent power over all phases VA VA Total active power over all phases import export W W Total reactive power VARtot over...

Страница 27: ...parent energy Eap T VAh Active energy import export Ea T imp Ea T exp Wh Reactive energy import export 2 Er T imp Er T exp VARh Unbalance voltage UnbalV Unbalance current UnbalI Current distortion Id a Id b Id c A Fundamental voltage ph n h1 a h1 b h1 c V Harmonic content of the 3rd 5th 7th 31st harmonics for the ph n voltage referred to the fundamental h3 a n h31 a n h3 b n h31 b n h3 c n h31 c n...

Страница 28: ...d display 2 Optionally calculated for total reactive power VARtot reactive power VARn or reactive power VAR1 3 The unit depends on the settings User definable unit or kWh or kVARh for the pulse counter function 4 The operating hours are available via the bus in seconds They are displayed in hours on the device display See also Measured variables Page 199 Measured variables depending on the connect...

Страница 29: ...r c Total reactive power a VARtot 1 Total reactive power b VARtot 1 Total reactive power c VARtot 1 Reactive power a VAR1 1 Reactive power b VAR1 1 Reactive power c VAR1 1 Reactive power a VARn 1 Reactive power b VARn 1 Reactive power c VARn 1 Total apparent power over all phases Total active power over all phases Total reactive power VARtot over all phases1 Total reactive power VAR1 over all phas...

Страница 30: ...t harmonics for the b n voltage referred to the fundamental Harmonic content of the 3rd 5th 7th 31st harmonics for the c n voltage referred to the fundamental Harmonic content of the 3rd 5th 7th 31st harmonics for the a b voltage referred to the fundamental Harmonic content of the 3rd 5th 7th 31st harmonics for the b c voltage referred to the fundamental Harmonic content of the 3rd 5th 7th 31st ha...

Страница 31: ...e 3 1 Sliding window demand The sliding window demand values are updated 60 times per set averaging time A lower limit of 200 ms applies here If an averaging time of 3 5 or 10 seconds is set the demand value is formed with fewer values Available sliding window demand values SENTRON PAC4200 supplies sliding window demand values for a large number of measured variables Per phase or as a total value ...

Страница 32: ...ia the communication interface The following can be set 3 5 10 30 60 300 600 900 seconds See also Measured variables Page 25 Basic parameters Page 137 MODBUS Page 225 3 3 2 Other properties of measured variable representation Zero point suppression level The zero point suppression level can be set via the interface in 1 steps in the range from 0 to 10 of the primary rated value of the external cur...

Страница 33: ...t load profile recording using the configuration software or on the display of the device The following parameters influence the recording Length of the demand period or subperiod Number of subperiods per demand period This number defines the method for recording the load profile fixed block or rolling block Type of synchronization You can also set the following parameter with the configuration so...

Страница 34: ...iod or subperiod HPDQG SHULRG HPDQG SHULRG HPDQG SHULRG HPDQG SHULRG QG RI VXESHULRG QG RI GHPDQG SHULRG HPDQG SHULRG 6XESHULRGV W PLQ Figure 3 4 Load profile rolling block method Parameterizing the fixed block and rolling block methods SENTRON PAC4200 supports the fixed block method as a special case of the rolling block method The most important distinguishing feature is the number of subperiods...

Страница 35: ...hsubperiod n number of subperiods Calculation of the power demand and the cumulated power Arithmetic power demand Arithmetic calculation of the power demand referred to the actual length of the demand period The arithmetic power demand in the instantaneous period remains constant providing the power is constant Cumulated power Cumulative calculation of the power referred to the configured length o...

Страница 36: ...e recorded per demand period or subperiod Fixed block method All values are recorded per demand period Rolling block method Arithmetic power demand values are recorded per demand period Cumulated power demand values and maximum minimum values are recorded per subperiod Accessing the load profile memory The complete load profile memory can be read out A definable number of periods can be read out s...

Страница 37: ...riods over the complete load profile recording time Any deviations between the actual and configured period lengths additionally increase the data volume 3 4 3 Current load profile data at the communication interfaces Current load profile data SENTRON PAC4200 supplies the load profile data for the current and instantaneous periods at the communication interfaces The current period is the last comp...

Страница 38: ...ce Synchronization with the internal clock The length of the subperiod and thus also the demand period is determined solely by the internal clock A subperiod starts on the full hour plus a multiple of the configured subperiod length Correction of the time during the current demand period or beyond the end of the demand period results in shorter demand periods SENTRON PAC4200 marks these periods wi...

Страница 39: ...e period was prematurely ended owing to the failure of the supply voltage Unreliable The load profile data is unreliable The measuring current or the measuring voltage is outside the specified range The reactive power type has changed The additional information is stored together with the other load profile data and can be called via the communication interface See also Load profile Page 225 3 5 T...

Страница 40: ...nics up to the 31st harmonic 2 THD for voltage and current 3 Displacement angle φ 4 Cosine of the displacement angle φ 5 Phase angle 6 Unbalance voltage and unbalance current Harmonics up to the 31st harmonic referred to the fundamental SENTRON PAC4200 measures the 3rd to 31st odd harmonics referred to the fundamental for Voltage ph ph Voltage ph n Current SENTRON PAC4200 measures the instantaneou...

Страница 41: ...time stamp of the maximum value are supplied The values are calculated according to the IEC 61557 12 standard 2007 Account is taken of harmonics up to the 31st harmonic Displacement angle φ The angle φ phi describes the displacement angle between the fundamentals of voltage and current SENTRON PAC4200 supplies the instantaneous value of the displacement angle φ the maximum and minimum values and t...

Страница 42: ... represents cos φ on several screens Value table of the phasor diagram row COS can be called with MAIN MENU PHASOR DIAGRAM F1 Display COS φ can be called with MAIN MENU COSφ φ An inductive cos φ is marked by a coil symbol in front of the measured value and a capacitive cos φ by a capacitor symbol Figure 3 8 Value table for the phasor diagram Figure 3 9 Maximum value of the displacement power facto...

Страница 43: ...ng to the EN 61000 4 27 2000 standard The display represents the unbalance information on several screens PHASE UNBAL current and voltage unbalance in percent PHASOR DIAGRAM absolute values of the current voltage and phase angle V for each phase Figure 3 11 Voltage and current unbalance In addition to the vectorial calculation of the phase unbalance SENTRON PAC4200 also supplies the amplitude unba...

Страница 44: ...l time e g with the Top of minute pulse or with a synchronization command via the available communication interfaces Synchronization is relevant for all measured variables where the time of occurrence is also captured e g for recording the load profile 3 8 Limits SENTRON PAC4200 monitors up to 12 limit values as well as one limit that can be formed by logically combining the other 12 limits Defini...

Страница 45: ...it value is violated or input is active False Limit value is not violated or input is not active Displaying limit violations SENTRON PAC4200 outputs limit violations at the digital output or via the interfaces Limit violations are countable One of the limit values can be assigned to the universal counters Limit violations are recorded as events with additional information on the monitored measured...

Страница 46: ... can be assigned to the digital outputs Energy pulse output programmable for active or reactive energy Signaling the direction of rotation Displaying the operating status of SENTRON PAC4200 Signaling limit violations Switching output remote controlled via the communication interfaces Output of the end of a subperiod for synchronizing other devices Signal output The digital output supplies a number...

Страница 47: ...d can be days or months Minimum turn off time The minimum turn off time is specified by the programmed pulse length Functions of the digital inputs The following functions can be assigned to the digital inputs Tariff switching for on peak and off peak Synchronization of the measuring period by means of the synchronization pulse of a system control center or other device Synchronization of the inte...

Страница 48: ... digital input Higher voltages require an external voltage divider Signal input Either edge or pulse counting Data is transferred with the help of weighted pulses or edges e g a parameterizable number of pulses or edges is transferred per kWh The countable unit can be defined separately for each application The implementation of the pulse shape corresponds to the IEC 62053 31 standard 3 10 Etherne...

Страница 49: ...must be set accordingly on the device If the settings are not known the patch cable must not be connected Autonegotiation is a method used by network communication peers to automatically negotiate the highest possible transmission rate SENTRON PAC4200 is automatically set to the transmission rate of the communication peer if the latter does not support autonegotiation MDI X auto crossover describe...

Страница 50: ...PAC4200 can be used as a gateway This allows devices slaves that are connected to the RS485 expansion module of PAC4200 to be connected to a device over Ethernet master Operating principle Data sent by the master to the addressed target device The higher level software packages the serial protocol into TCP IP packets SENTRON PAC4200 unpacks the TCP IP packets and forwards the freed packets of the ...

Страница 51: ... device as well as packaging unpacking the serial protocol into from TCP IP SENTRON PAC RS485 expansion module The slot for the SENTRON PAC RS485 expansion module is freely selectable Configuration of the gateway SENTRON PAC4200 must be configured for using the gateway Start up the SENTRON PAC RS485 expansion module on the SENTRON PAC4200 Set the communication parameters for operating the RS485 bu...

Страница 52: ...ay port Port 17002 if the RS485 bus is connected to the MOD1 slot Port 17003 if the RS485 bus is connected to the MOD2 slot Bus address of the target device e g MODBUS address Further information You will find further information at Modbus org MODBUS MESSAGING ON TCP IP IMPLEMENTATION GUIDE See also Modbus IDA http www Modbus IDA org 3 13 Slots Battery compartment The battery compartment of the SE...

Страница 53: ...penings of the SENTRON PAC4200 CAUTION Foreign body in the unit can trigger a short circuit The battery compartment is intended exclusively for holding the battery Foreign bodies introduced into the unit via the battery compartment or via the insertion opening of the card slot can cause a short circuit and damage the device It is not possible to retrieve any foreign bodies once inserted Do not ins...

Страница 54: ...ric password is used Default The default password is 0000 See also Password management Page 159 Advanced Page 151 3 15 User definable displays Up to four measurements can be individually configured for SENTRON PAC4200 Four presentational formats can be selected Digital display of two measured variables Digital display of four measured variables Bar diagram for measured variables Bar diagram for th...

Страница 55: ...r diagram and digital information Figure 3 21 Example of a freely definable display bar diagram An outward pointing arrow in the bar means that the instantaneous value displayed is outside the parameterized range Displays for counters Users can define up to 5 displays in conjunction with the SENTRON PAC 4DI 2DO expansion module Configuring The displays can be configured with the SENTRON powerconfi...

Страница 56: ...mit violated out of range Lower limit violated 0 Reset 1 Condition met The events are divided into the following event classes Operating information System information Operation The following information is shown for each event Event Event class Date and time when the event occurred Reason why the event occurred Interface if applicable Measured value affected and corresponding measurement if appli...

Страница 57: ...inute pulses for synchronizing the time are not active Check the hardware and the settings for transmitting the Top of minute pulses VOLTAGE Operating information Warning The supply voltage has been interrupted Measured variable x The device has been disconnected from the network in accordance with the schedule An error has occurred Check the power supply VOLTAGE Operating information Alarm The vo...

Страница 58: ...ng information Information The factory defaults have been set Slot xx interface BASIC PARAM Control Warning The basic configuration has been changed Slot xx interface SETTING Control Warning The configuration has been changed Slot xx interface COMM Control Information The communication configuration has been changed Slot xx interface MAX MIN 0 Control Information The maximum minimum values have be...

Страница 59: ...ot xx interface 1 Counter active energy import tariff 1 2 kWh reactive energy export tariff 1 2 kVAh apparent energy tariff 1 2 kVAh Acknowledging an event If an event is set to acknowledgable in the software a popup window for this event opens on the device Acknowledge the event in the popup window with OK Acknowledgment closes the popup window The event is logged in the event memory Settings in ...

Страница 60: ...C Power Monitoring Device Function PROFIBUS DP slave Communication with the class 1 master and the class 2 masters Cyclic data transfer Acyclic data transfer Specific GSD file for every Power Monitoring Device type This allows correct integration into the controller Automatic detection of the baud rate Clock synchronization depending on the device type Setting the PROFIBUS address At the device Wi...

Страница 61: ... Power Monitoring Device SENTRON powerconfig Unicast messages Broadcast commands with address 0 to the MODBUS slaves 3 19 Performance features of the SENTRON PAC 4DI 2DO expansion module You expand the digital inputs and digital outputs with the SENTRON PAC 4DI 2DO expansion module Overview Plug in expansion module for the SENTRON PAC devices Does not require an external power supply Configuration...

Страница 62: ...Description 3 19 Performance features of the SENTRON PAC 4DI 2DO expansion module SENTRON PAC4200 62 System Manual 09 2009 A5E02316180B 02 ...

Страница 63: ...ous injury or considerable property damage SENTRON PAC should only be operated in a lockable control cabinet or a lockable room Ensure only qualified personnel have access to this cabinet or room 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 inst...

Страница 64: ...f the housing are not obstructed The wiring cable feed or other components must not obstruct ventilation NOTICE Damage due to moisture Moisture or wetness can affect the operating capability of the components Do not operate the components in an environment affected by high humidity or wetness Note the environmental requirements of the SENTRON PAC Power Monitoring Device Environmental conditions Us...

Страница 65: ...rmit disconnection of the device from the power supply The circuit breaker must be mounted close to the device and be easily accessible to the user The circuit breaker must be marked as the circuit breaker for the device Temperature compensation To avoid condensation the device must be stored at the operating location for at least 2 hours before power is connected See also Dimension drawings Page ...

Страница 66: ...Operation planning 4 1 Operation planning SENTRON PAC4200 66 System Manual 09 2009 A5E02316180B 02 ...

Страница 67: ...evice for external damage Please contact your Siemens sales partner in the following cases The packaging is damaged The contents of the package are not complete The device is damaged WARNING Do not install or start up damaged devices Damaged devices may result in death serious injury or property damage Storage Store the components in a dry place NOTICE Avoid condensation Sudden fluctuations in tem...

Страница 68: ...atic sensitive devices Discharge your body of any static electricity Touch the grounded control cabinet for example or a metal part that is connected to the building ground heater steel support 2 Remove the battery from the SENTRON PAC4200 delivery carton NOTICE Reduced service life of the battery Grease or dirt on the contacts forms a transfer resistance that reduces the service life of the batte...

Страница 69: ...nstalling the expansion modules Cross tip screwdriver PZ1 2 9 mm 0 5 Nm cal ISO 6789 also for assembling cables on the terminal block of the PAC RS485 expansion module Crimping tool in accordance with EN 60947 1 for assembling cables with core end sleeves on the terminal blocks Slotted screwdriver SZS 0 4x2 5 cal ISO 6789 for assembling cables on the terminal block of the SENTRON PAC 4DI 2DO expan...

Страница 70: ...to the building ground heater steel support 3 Insert the device into the cutout from outside Fig Installation cutout A 4 Carry out all other installation steps from the inside of the switching panel 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 in position with one hand Hang the brackets onto th...

Страница 71: ...r to the Connecting chapter for more information Ensure strain relief for the RJ45 connector Secure the Ethernet cable to the panel for this purpose Fix the cable in position as shown in the figure Installation step E at location 3 using a self adhesive cable clamp or other suitable small installation accessory 8 When using optional expansion modules insert the expansion module into the slots on t...

Страница 72: ...Installation 5 4 Mounting on the switching panel SENTRON PAC4200 72 System Manual 09 2009 A5E02316180B 02 Figure 5 3 Installation step A device with ring lug terminals Installation step B ...

Страница 73: ...lation 5 4 Mounting on the switching panel SENTRON PAC4200 System Manual 09 2009 A5E02316180B 02 73 OLFN Installation step C Installation step D Figure 5 4 Installation step E strain relief for RJ45 connector ...

Страница 74: ...Grounding of the Ethernet cable Page 94 Technical data Page 175 Electrostatic sensitive devices ESD Page 273 5 5 Installing the expansion modules Assembly Install the expansion module before starting up the SENTRON PAC Observe the ESD Guidelines CAUTION Defective connector to SENTRON PAC Power Monitoring Device Dirty or bent pins can affect the function of the connectors The connectors can be dest...

Страница 75: ...ls to the SENTRON PAC 5 Always hold the expansion module by the plastic enclosure 6 Connect the expansion module to the SENTRON PAC The guide for correct position of the guide pins will help you to plug in the expansion module correctly 7 Tighten the SN62217 B3x22 screws connecting the expansion module to the SENTRON PAC with a torque of 0 5 Nm See also Electrostatic sensitive devices ESD Page 273...

Страница 76: ... 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 To do so unscrew the four screws on the two brackets Leave the screws in the brackets 4 Carefully lever the locking hooks open with the slotted screwdriver or another suitable tool The bracket releases immediately 5 Go to the outs...

Страница 77: ...ling an expansion module Disassembling 1 Ensure safe isolation from supply 2 Observe the ESD Guidelines Discharge yourself Always hold the expansion module by the plastic enclosure 3 Remove the terminal block from the expansion module or detach the cable from the terminal block 4 Unscrew the expansion module from the SENTRON PAC Power Monitoring Device 5 Remove the expansion module from the SENTRO...

Страница 78: ...Installation 5 7 Disassembling an expansion module SENTRON PAC4200 78 System Manual 09 2009 A5E02316180B 02 See also Electrostatic sensitive devices ESD Page 273 Tools Page 69 Deinstalling Page 76 ...

Страница 79: ...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 Is trained in the p...

Страница 80: ...9 A5E02316180B 02 6 2 Connections Connection designations DIC DI0 DI1 DOC DO0 DO1 Figure 6 1 Connection designations of the device with screw terminals rear view DIC DI0 DI1 DOC DO0 DO1 Figure 6 2 Connection designations of the device with ring lug terminals rear view ...

Страница 81: ...IL1 IL2 IL3 7 Optional expansion module not included in scope of supply 8 Ethernet port RJ45 DANGER Hazardous Voltage Will cause death serious injury or considerable property damage Observe the safety information on the device and in the operating instructions and the manual CAUTION If excessively high values are created and if the DC supply voltage is connected with the wrong polarity the device ...

Страница 82: ...em Manual 09 2009 A5E02316180B 02 Note Use of devices with ring lug terminals Designed for use in NAFTA USA Regions in which open terminals are permitted Terminal labeling DIC DI0 DI1 DOC DO0 DO1 Figure 6 4 Terminal labeling device with screw terminals ...

Страница 83: ...t Ib input 4 IL2 l Current Ib output 5 IL3 k Current Ic input 6 IL3 l Current Ic output 7 V1 Voltage Va n 8 V2 Voltage Vb n 9 V3 Voltage Vc n 10 VN Neutral conductor 11 L AC Connection Conductor phase to neutral voltage DC Connection 12 N AC Connection Neutral conductor DC Connection 13 Reference potential 14 DIC Digital input common 15 DI1 Digital input 1 16 DI0 Digital input 0 17 DOC Digital out...

Страница 84: ...rol cabinet Circuit breaker A suitable circuit breaker must be connected upstream of SENTRON PAC4200 in order to permit disconnection of the device from the power supply The circuit breaker must be mounted close to the device and be easily accessible to the user The circuit breaker must be marked as the circuit breaker for the device Phase synchronous connection The phases must be connected phase ...

Страница 85: ...circuit protection Do not open the secondary circuit under load Short circuit the secondary current terminals of the current transformer before removing this device The safety information for the current transformers used must be followed Protecting the voltage measuring inputs CAUTION Non fused voltage measuring points may lead to device and equipment damage Always protect the device with an IEC ...

Страница 86: ...gure 6 7 Connecting cables to the screw terminal Connecting the cables to the ring lug terminals Note The SENTRON PAC4200 with ring lug terminal is 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 Only connect ring lugs to ring lug terminals Ensure proper attachment of ring lugs to cables T...

Страница 87: ...be operated up to the maximum permissible voltage values with or without voltage measuring transformers It is only possible to measure the current with current transformers All input or output terminals not required for measuring remain free In the connection examples the secondary side of the transformer is grounded at the l terminal It can be grounded at either the k or the l terminal The ground...

Страница 88: ... Fuses must be provided by the customer Connection of supply voltage Figure 6 9 Connection type 3P4W without voltage transformer with three current transformers 2 Three phase measuring four conductors unbalanced load with voltage transformers with three current transformers Connection type 3P4W 1 Q D E F 1 9 9 9 91 N O N O N O Fuses must be provided by the customer Supply voltage connection Figure...

Страница 89: ...must be provided by the customer Supply voltage connection Figure 6 11 Connection type 3P4WB without voltage transformer with one current transformer 4 Three phase measuring four conductors balanced load with voltage transformers with one current transformer Connection type 3P4WB 1 Q D E F 1 9 9 9 91 N O N O N O Fuses must be provided by the customer Supply voltage connection Figure 6 12 Connectio...

Страница 90: ...st be provided by the customer Supply voltage connection Figure 6 13 Connection type 3P3W without voltage transformer with three current transformers 6 Three phase measuring three conductors unbalanced load with voltage transformers with three current transformers Connection type 3P3W D E F 1 9 9 9 91 N O N O N O Fuses must be provided by the customer Supply voltage connection Figure 6 14 Connecti...

Страница 91: ...must be provided by the customer Supply voltage connection Figure 6 15 Connection type 3P3W without voltage transformer with two current transformers 8 Three phase measuring three conductors unbalanced load with voltage transformers with two current transformers Connection type 3P3W D E F 1 9 9 9 91 N O N O N O Fuses must be provided by the customer Supply voltage connection Figure 6 16 Connection...

Страница 92: ...must be provided by the customer Supply voltage connection Figure 6 17 Connection type 3P3WB without voltage transformer with one current transformer 10 Three phase measuring three conductors balanced load with voltage transformers with one current transformer Connection type 3P3WB D E F 1 9 9 9 91 N O N O N O Fuses must be provided by the customer Supply voltage connection Figure 6 18 Connection ...

Страница 93: ...ided by the customer Supply voltage connection Figure 6 19 Connection type 3P4W without voltage transformer with two current transformers The device indicates 0 zero V for L3 12 Single phase measuring two conductors without voltage transformers with one current transformer Connection type 1P2W D 1 Q 1 9 9 9 91 N O N O N O Fuses must be provided by the customer Supply voltage connection Figure 6 20...

Страница 94: ...ee current transformers See also Measured variables Page 25 Applying the supply voltage Page 101 6 5 Grounding of the Ethernet cable The Ethernet cable must be grounded for data transmission according to the Fast Ethernet standard 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 gua...

Страница 95: ...in plated or galvanically stabilized surface is ideal With galvanized surfaces the contact should be achieved using suitable screws A painted surface at the contact point is not suitable NOTICE Loss of contact if the shield connection is incorrectly used for strain relief If the shield connection is used for strain relief the grounding contact can deteriorate or be completely lost Don t use the co...

Страница 96: ...r PD Pull down resistor Figure 6 23 Block diagram General topology of the twisted pair cable RP 7HU 38 3 Figure 6 24 Terminal assignment 1 Connect the cables to the appropriate screw terminals on the terminal block You can find the assignments of the terminals in the figure Terminal assignment 2 Connect the cable shield at one end with protective ground PE 3 Connect the signal Common with protecti...

Страница 97: ...ng resistor at the start of the bus and one terminating resistor at the end of the bus 5 Make sure that there is sufficient strain relief for the connected cables Line polarization A resistor for line polarization is implemented in the terminal block RP 7HU 38 3 Figure 6 26 Terminal assignment with line polarization If one or more communication nodes require line polarization switch a resistor pai...

Страница 98: ...als on the terminal block You can find the assignments of the terminals in the above figures 3 Connect the cable shield if available at one end with the protective conductor 4 Connect the protective conductor PE to the reference potential terminal 5 Make sure that there is sufficient strain relief for the cables Digital inputs 2 2 2 DIC Digital input common DI3 Digital input 3 DI2 Digital input 2 ...

Страница 99: ...nputs with external power supply Digital outputs 2 2 2 Reference potential DOC Digital output common DO1 Digital output 1 DO0 Digital output 0 Figure 6 29 Terminal assignment with switching of the digital outputs See also Technical data of the SENTRON PAC 4DI 2DO expansion module Page 188 Electrostatic sensitive devices ESD Page 273 Tools Page 69 Connecting the cables to the terminals Page 86 ...

Страница 100: ...Connecting 6 7 Connecting the SENTRON PAC 4DI 2DO expansion module SENTRON PAC4200 100 System Manual 09 2009 A5E02316180B 02 ...

Страница 101: ...alled before the SENTRON PAC4200 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 Check the displayed measured values 6 Check the polarity and the phase assignment of the measuring transducers NOTICE Check the connections Incorrect connection can result in malfunctions and failure of ...

Страница 102: ...t the supply of the wide range power supply with an IEC approved or UL listed CLASS CC 0 6 A fuse If a fusible link is used a suitable IEC approved or UL listed fuse holder has to be used In addition a suitable circuit breaker shall be connected upstream in order to permit disconnection of the device from the power supply Do not use voltage transformers as a power supply Procedure Connect the supp...

Страница 103: ...transformers Measuring input voltage in the case of direct measurement on the system Primary and secondary voltage when measuring using voltage transformers Current Primary and secondary current The following settings are also useful Language Time zone change to summertime Password protection See also Password management Page 159 7 3 2 Language Setting the language Set the language in which the di...

Страница 104: ...N MENU F4 2 In the main menu go to the SETTINGS entry F2 or F3 3 Call the SETTINGS entry F4 4 In the SETTINGS menu go to the LANGUAGE REGIONAL entry F2 or F3 5 Call the LANGUAGE REGIONAL entry F4 The display shows the currently valid settings 6 Open edit mode of the LANGUAGE device setting F4 Figure 7 2 LANGUAGE edit mode 7 Scroll through the possible values with F2 8 Accept the desired language w...

Страница 105: ...t the measured value display and call the MAIN MENU F4 2 In the main menu go to the SETTINGS entry F2 or F3 3 Call the SETTINGS entry F4 4 In the SETTINGS menu go to the DATE TIME OF DAY entry F2 or F3 Figure 7 3 DATE TIME device settings 5 Call the DATE TIME OF DAY entry F4 The display shows the currently valid settings 6 Go to the fields DATE FORMAT TIME TIME ZONE DAYLIGHTSAVING F2 or F3 7 Open ...

Страница 106: ...conductors unbalanced load 3P4WB 3 phases 4 conductors balanced load 3P3WB 3 phases 3 conductors balanced load 1P2W Single phase AC You can find further information on the possible connection types and on how the measured value representation depends on the connection type in the Description chapter Procedure 1 Exit the measured value display and call the MAIN MENU F4 2 In the main menu go to the ...

Страница 107: ...ment direct on the system At initial startup the following steps must be carried out if you want to measure using voltage transducers Procedure 1 In the SETTINGS menu call the BASIC PARAMETERS entry 2 In the BASIC PARAMETERS menu open the VOLTAGE INPUTS entry F4 The display shows the currently valid settings 3 Go to the USE PTs device setting F2 or F3 Figure 7 5 USE PTs device settings 4 Switch co...

Страница 108: ... shows the current settings If the PT PRIMARY and PT SECONDARY fields are not visible direct measurement on the system is set Switch from direct measurement to measurement using voltage transducers You can find the instructions for this in the Measurement using voltage transducers chapter 3 Go to the PT PRIMARY device setting F2 or F3 4 Open edit mode of the PT PRIMARY device setting F4 5 Set the ...

Страница 109: ...e available measuring voltage deviates from this Procedure 1 In the SETTINGS menu call the BASIC PARAMETERS entry 2 In the BASIC PARAMETERS menu open the VOLTAGE INPUTS entry F4 The display shows the currently valid settings 3 Go to the VOLTAGE INPUTS device setting F2 or F3 Figure 7 7 VOLTAGE INPUTS device setting 4 Open edit mode of the VOLTAGE INPUTS device setting F4 5 Set the desired value F2...

Страница 110: ... the desired value of the primary current F2 and F3 5 Accept the value with F4 The value of the primary current is permanently saved and becomes effective immediately The display returns to display mode 6 Go to the CT SECONDARY device setting F2 or F3 Set the desired value for the secondary current Proceed in exactly the same way as when entering the primary current The value of the secondary curr...

Страница 111: ...ons Page 17 Safety notes Page 79 7 5 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 continuously or with 100 A for 1 second DANGER Open transformer circuits will result in electric shock and arc flashover ...

Страница 112: ... of the direction in the device settings You can find information about the device settings in the Basic parameters section of the Parameterization via the user interface chapter See also Safety instructions Page 17 Measuring inputs Page 24 Basic parameters Page 137 Safety notes Page 79 7 6 Check the displayed measured values Correct connection type With the help of the table Displaying the measur...

Страница 113: ...red values device settings selection menus 2 Display title 3 Labeling of the function keys 4 Surfaces of the function keys Figure 8 1 User interface of SENTRON PAC4200 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 are...

Страница 114: ...formation as follows Measured variables Display of the measured variables The display shows the measured values of the currently selected measured variable Menus MAIN MENU The display lists the viewable measured variables SETTINGS menu The display lists the device settings The SETTINGS menu is a submenu of the MAIN MENU The SETTINGS menu contains further submenus Device settings Display of the dev...

Страница 115: ...009 A5E02316180B 02 115 Please note that additional functions are assigned to F4 F4 Permanently saves the last set value and returns from edit mode to display mode If no editing is intended the key closes the display and returns to the menu selection F4 Is an ON OFF switch ...

Страница 116: ...16180B 02 Information structure and navigation 1 Displaying measured variables 2 MAIN MENU menu 3 SETTINGS menu 4 Submenu Some device settings group the fields in submenus 5 Displaying the device settings 6 Edit mode of the device settings Figure 8 2 Information structure and navigation ...

Страница 117: ...g Note Device protection symbol 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 Note Support requests If you need to submit a support request provide the display number if you are referring to a specific display Scroll b...

Страница 118: ... bar Start of the list end of the list 1 Separating line between the start of the list and end of the list Figure 8 4 Start of the list 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 end of the list to the start of the list F2 jumps from the start of the list to the end of the list A separating line indicates the interface bet...

Страница 119: ...ointing arrow appears above the phase or measured variable designation Maximum Minimum 1 Symbol for maximum value Figure 8 6 Symbols for displaying maximum and minimum values Symbol for sliding window demand Sliding window demand values are additionally marked by a symbol A stroke bar appears above the phase or measured variable designation 1 Stroke above the phase designation Figure 8 7 Symbol fo...

Страница 120: ...G D Figure 8 8 Displaying measured variables 1 Display title a Designation of the measured variable b Designation of the measured value property c Display number of the measured variable 2 Measured value display a Phase labels b Measured value c Unit of the measured variable d Time stamp 3 Display footer a Key labeling b Scroll bar of function key F1 ...

Страница 121: ...ength of the line is restricted the unit of the measured variable is also used as the name Designation of the measured value property The second position in the display title contains the currently displayed measured value property The table below lists the measured value properties and their designations Designation of the measured value property Measured value property of the measured variable I...

Страница 122: ...mum value to the instantaneous value Scroll up in the selection list Scroll down in the selection list Go to the menu selection Special key functions F1 F2 F3 F4 Display the displacement angle φ Display the cosine of the displacement angle φ Display the graph values Display the graph Display the THD of the voltage between the phase conductors Display the THD of the voltage between the phase and ne...

Страница 123: ...st of viewable measured variables a Line separating the start and end of the list b Selection bar c Scroll bar d Changing to the menu for parameterizing the device 3 Function keys a Key labeling Display title The display title MAIN MENU remains Display number of the measured variable The main menu has no visible display number of its own The display number shown refers to the currently selected me...

Страница 124: ...he 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 See also Operator input steps in the MAIN MENU Page 130 8 1 4 Display of the SETTINGS menu The SETTINGS menu shows the choice of device settings The menu entries designate groups o...

Страница 125: ...he start and end of the list b Selection bar c Scroll bar 3 Function keys a Key labeling The SETTINGS menu contains the same operator controls as the MAIN MENU 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 selec...

Страница 126: ...tings Display title Specifies which group of device settings is currently selected 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 devic...

Страница 127: ...o call edit mode In display mode the function for calling edit mode is assigned to F4 You can recognize edit mode because the selection bar reduces to the width of the selected value D Figure 8 12 Edit mode of the device settings 1 Group title 2 List of device settings a Device setting in edit mode Note Edit functions in display mode Display mode also includes edit functions In display mode F4 fun...

Страница 128: ...play mode See also Operator input steps in edit mode of the device settings Page 132 Display of the device settings Page 126 8 2 Operator input steps 8 2 1 Operator input steps in the measured variable display Selecting the measured variable When displaying the instantaneous value it is possible to switch to other measured variables F2 switches to the previous measured variable F3 switches to the ...

Страница 129: ...antaneous value F3 resets the last reached maximum minimum value to the instantaneous value Switching between import export process and period F1 switches between import export process and period for active energy and reactive energy With the exception of displaying export the same selection options exist for apparent energy F1 Display of export F1 Display of import F1 Display of total consumption...

Страница 130: ...ther measured value displays without calling the main menu Displaying the measured variable The selection bar highlights the currently selected menu entry F4 calls the display of the selected measured variable 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...

Страница 131: ...splaying a setting The selection bar highlights the currently selected menu entry F4 calls the display of the selected device setting Cancel menu selection F1 returns to the main menu 8 2 4 Operator input steps in device settings display Calling edit mode F4 switches edit mode on The device settings can be changed in edit mode You can recognize edit mode because the selection bar reduces to the wi...

Страница 132: ...s down through the range of selectable settings The last value in the available set of values is followed again by the first value 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 Defining multi digit values If F3 is available the digits of a valu...

Страница 133: ... fundamental The graphical representation is assigned a value table F1 switches between the two representations Graphical representation Phase angle and displacement angle Amplitude unbalance expressed as the length of the axes on the graph Figure 8 14 Phasor diagram Table 8 5 Symbols used in the phasor diagram Current Voltage Phase angle a b Phase angle a c Displacement angle a Displacement angle...

Страница 134: ...80B 02 Table of instantaneous values The table below lists the instantaneous values of the fundamental Figure 8 15 Phasor diagram instantaneous values Table 8 6 Values in the phasor diagram V Voltage ph n A Current COS Cosine of the displacement angle φ φ Displacement angle φ U Phase angle ...

Страница 135: ...otection of the device settings As delivered the device settings are not protected At startup a password should be assigned and the device protection activated to guard against unauthorized or inadvertent changes 9 2 Parameterizing the operator interface 9 2 1 Groups of settings The device settings are arranged into the following groups The SETTINGS menu shows the choice of groups Device informati...

Страница 136: ...tection limit values universal counter battery change device reset Expansion modules Settings for expansion modules operated with SENTRON PAC4200 9 2 2 Device information The device information cannot be modified Key F4 returns to the SETTINGS menu Call SETTINGS DEVICE INFORMATION DEVICE INFORMATION SIEMENS AG Manufacturer designation Order no Order number of the device S N Serial number of the de...

Страница 137: ...LANGUAGE SETTING device setting LANGUAGE REGIONAL LANGUAGE Language of the display Range Chinese English French German Italian Portuguese Polish Russian Spanish Turkish Default value English PHASE LABELS Designation of the phases on the display Range L1 L2 L3 a b c Default value L1 L2 L3 9 2 4 Basic parameters Basic parameters are all those settings concerning the measuring inputs Call SETTINGS BA...

Страница 138: ...2 VOLTAGE INPUTS Figure 9 3 USE PTs device settings CONNECTION TYPE Connection types 3P4W 3 phases 4 conductors unbalanced load 3P3W 3 phases 3 conductors unbalanced load 3P4WB 3 phases 4 conductors balanced load 3P3WB 3 phases 3 conductors balanced load 1P2W 1 phase 2 conductors unbalanced load Default value 3P4W ...

Страница 139: ...surement using voltage transformers to direct measurement the device accepts the last set secondary voltage as the reference measuring voltage Default value Off VOLTAGE INPUT Rated voltage of the measuring system Must be specified if measuring is done direct on the system without voltage transformers Range 1 V to 690 V freely adjustable max 600 V for Vph Default value 400 V The property VOLTAGE IN...

Страница 140: ... of the current transformers Range 1 A to 99999 A Default value 50 A CT SECONDARY Secondary current of the current transformers Range 1 A 5 A Default value 5 A Inverse evaluation of the current flow direction separately for each phase CURRENT DIREC a CURRENT DIREC b CURRENT DIREC c ON OFF switch ON OFF OFF The device interprets the current flow direction in accordance with the wiring On Direction ...

Страница 141: ...ltage input Page 106 Current input Page 110 9 2 5 Power demand Settings for the load profile Call SETTINGS POWER DEMAND POWER DEMAND SUBPERIOD Period for calculating the load profile data according to the fixed block or rolling block method SENTRON PAC4200 supports the fixed block method as a special case of the rolling block method The most important distinguishing feature is the number of subper...

Страница 142: ...switched off BUS Synchronization via the communication interfaces DIG INPUT Synchronization via the digital input INT CLOCK Synchronization via the internal clock Default value INT CLOCK For synchronization via the digital input the digital input must previously be parameterized for this purpose SETTINGS INTEGRATED I O DIGITAL INPUT Field ACTION value DEMAND SYNC The SYNC SOURCE field is automatic...

Страница 143: ...d from daylight saving time to standard time Range OFF Time change is switched off AUTO EU Time change within the European Union Changeover to daylight saving time The internal clock is put forward from 1 a m UTC to 2 a m UTC on the last Sunday in March Changeover to standard time The internal clock is put back from 2 a m UTC to 1 a m UTC on the last Sunday in October AUTO US Time change within th...

Страница 144: ... is configured as a pulse input or a pulse output S Sync Figure 9 7 State I O module DIGITAL OUTPUT Figure 9 8 DIGITAL OUTPUT device settings DIG OUTPUT Digital output ACTION Method of using the digital output Range OFF The digital output is switched off DEVICE ON The digital output signals that the device is switched on REMOTE OUTPUT The digital output is controlled by remote access ROTATION The ...

Страница 145: ...it is stored in ADVANCED LIMITS ENERGY PULSE The digital output outputs the parameterized number of pulses or edges per energy unit Default value OFF MODE The field is available when the action ENERGY PULSE is selected Pulses or edges are output PULSE Pulses are output EDGE Edges are output Default value PULSE W 38 6 SYNC LENGTH The field is available when the action SYNC is selected Length of the...

Страница 146: ...lable when the action ENERGY PULSE is selected Value of the cumulated power at which a configurable number of pulses or edges is output The number of pulses or edges to be output is defined in the field PULSES PER UNIT or EDGES PER UNIT Range 1 10 100 1000 kVARh or kW Default value 1 PULSES PER UNIT The field is available when the action ENERGY PULSE is selected Number of pulses to be output per u...

Страница 147: ...f minute The internal clock is put forward or back depending on whether the time is up to 30 seconds fast or slow If a pulse is not received for 20 minutes an event is recorded DEMAND SYNC Synchronization of power demand STATUS One event is recorded for each switching operation START STOP Starts or stops the counters specified under Target This depends on whether the associated digital input is ac...

Страница 148: ...er for the counter to be incremented by 1 The reference unit is defined in the UNIT field Range 1 to 999 Default value 1 UNIT Visible when the action PULSE INPUT is selected Unit to be counted when counting the pulses or edges received kWh active energy kVARh reactive energy TEXT TEXT stands for a user definable unit e g m3 h or pieces The text sequence used to name the unit must be defined via th...

Страница 149: ...fic pulse counter X PROCESSCOUNTER All process energy counters X X X kWh kVAR kVAh PROCESSCNT Specific process energy counter X X 9 2 8 Communication Device settings for network communication Call SETTINGS COMMUNICATION Figure 9 10 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 wi...

Страница 150: ...BUS TCP 9 2 9 Display Device settings for the SENTRON PAC4200 display Call SETTINGS DISPLAY Figure 9 11 DISPLAY device setting 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 value 3 BACKLIGHT DIMMED Intensity of the backlighting of the LC display Set b...

Страница 151: ...e of the refresh rate is 100 ms DISPLAY TEST Screen for testing the functional capability of the display Key F3 inverts the test screen Key F4 closes the display 9 2 10 Advanced Call SETTINGS ADVANCED Other device settings Password protection Definition of limit values Definition of the universal counter Battery change Minimum maximum value counter and address reset PASSWORD PROTECTION You can pro...

Страница 152: ...1 and the limit value LIMIT LOGIC The limit value LIMIT LOGIC can be made up of any combination of the limit values LIM0 to LIM11 and the digital inputs I0 0 and I0 1 Left column Limit designation Middle column Monitored data source Right column Limit value currently violated Yes No Figure 9 13 Representation of limit violations LIM0 LIM1 LIM11 Limit selection menu Each limit has the following pro...

Страница 153: ...porting the limit violation in seconds The delay refers to the appearance 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 value 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 ...

Страница 154: ...WHUHVLV LWK GHOD LWK K VWHUHVLV W W W W W W W W W W W Figure 9 14 Effect of delay and hysteresis on upper and lower limit violations LIMIT LOGIC Logical truth value resulting from the combination of up to 12 limit values LIM0 to LIM11 taking account of the logical priority rules and allowing logical brackets The logic is represented on the display using the graphic symbols familiar from digital te...

Страница 155: ...tion block Each of the four inputs can be assigned One of the twelve limit values LIM0 to LIM11 One of the digital inputs I0 0 or I0 1 Logic operations Six logic operations AND OR XOR and their negations NAND NOR XNOR AND AND logic operation The output value is only true if all input values are true The output value is false if any one of the input values or several input values are false NAND NOT...

Страница 156: ...uts The output is true if the two inputs are not simultaneously true or false XNOR EXCLUSIVE NOT OR logic operation The output value is only true if an even number of inputs is true and all other inputs are false The XNOR logic is easy to understand if there are only two inputs The output is true if the two inputs are simultaneously true or false Status indicators The value present at the input or...

Страница 157: ...LOGIC Limit logic LIM0 LIM1 LIM11 Limit value 0 limit value limit value 11 DIG INPUT Selection of an available digital input DIG OUTPUT Selection of an available digital output BATTERY CHANGE SENTRON PAC4200 writes data in a battery backed volatile memory The data must be backed up prior to removing the battery F1 in the CHANGE BATTERY dialog box starts the data backup The device copies the data f...

Страница 158: ...TE menu entry with F4 a safety query appears on the display Are you sure you want to execute the selected functions Answer this query with F1 or F4 F1 Cancels the action The display returns to display mode All selected value groups are deselected F4 Resets the selected value groups After execution with F4 the confirmation SELECTION EXECUTED appears on the screen or the device is rebooted Confirm t...

Страница 159: ...set Resetting to the factory defaults causes all counters to be reset as well COMMUNICATION PARAM Resets the entered TCP IP address to 0 0 0 0 EXECUTE Reset function Resets the selected value groups 9 2 11 Password management Default password The default password is 0000 If no user specific password has been assigned the default password must be entered when password protection is switched on 9 2 ...

Страница 160: ...sers are all in possession of the password If password protection is switched on the password is mandatory for all changes to the device settings You also require the password to call the PASSWORD dialog box again in order to switch off access protection or to change the password Password protection is effective as soon as it is switched on The password protection symbol in the display title chang...

Страница 161: ...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 If you have given an incorrect password password prot...

Страница 162: ...2 Go to the PASSWORD device setting F2 or F3 3 Open edit mode of the PASSWORD device setting F4 4 The device opens the ENTER PASSWORD dialog box 5 Enter the password and confirm with F4 If you have entered the correct password the password becomes visible in the PASSWORD field 6 Open edit mode of the device setting PASSWORD with F4 7 Change the password with F2 and F3 8 Accept the new password wit...

Страница 163: ...with SENTRON PAC4200 Call SETTINGS EXPANSION MODULES See also Configuring the PAC RS485 expansion module Page 163 Configuring the SENTRON PAC 4DI 2DO expansion module Page 165 9 2 13 Configuring the PAC RS485 expansion module When the PAC RS485 expansion module is mounted on the SENTRON PAC Power Monitoring Device you can make the configuration settings for the PAC RS485 expansion module on the Po...

Страница 164: ...and the slave devices connected to the bus is interrupted Ensure that every expansion module has a unique address Baud rate You set here the data transfer rate for the external communication of the PAC RS485 expansion module The baud rate is stored in the non volatile memory of the SENTRON PAC Power Monitoring Device Settings This is where you set the data bits the parity bit and the stop bits for...

Страница 165: ... configured baud rate Table 9 3 Setting options Setting Meaning 0 Auto The device automatically sets a response time suitable to the baud rate This is the minimal response time 1 255 Response time in ms If you change the baud rate to a value that does not suit the response time set the program sets the response time to Auto Table 9 4 Performance calculation Baud rate Calculated response time 4800 ...

Страница 166: ...ion of the SENTRON PAC 4DI 2DO expansion module The DIAG field Table 9 5 Status in the DIAG field with meaning Status Meaning Remedy INIT The expansion module is in the initialization phase OK The expansion module is ready for operation FW_UPD The firmware update of the expansion module has been carried out but not correctly completed Wait until the firmware update has been completed or carry out ...

Страница 167: ...atus Table 9 6 Status and fault indication by the LED Color State Description Measures Green Static ON The expansion module is ready for operation Green OFF No voltage applied to the SENTRON PAC 4DI 2DO expansion module 1 Check that the SENTRON PAC 4DI 2DO expansion module is correctly connected to the SENTRON PAC Power Monitoring Device 2 Switch on the power supply to the SENTRON PAC4200 Power Mo...

Страница 168: ...Parameterizing 9 3 Diagnostics LED of the SENTRON PAC 4DI 2DO expansion module SENTRON PAC4200 168 System Manual 09 2009 A5E02316180B 02 ...

Страница 169: ... The SENTRON PAC4200 and the SENTRON PAC 4DI 2DO expansion module support updating of the firmware You update the firmware with the SENTRON powerconfig configuration software Additional information on updating the firmware can be found in the online help for SENTRON powerconfig You can find the available and possibly necessary firmware versions on the Internet You can protect the update function l...

Страница 170: ...nical Assistance http www siemens de lowvoltage technical assistance 10 4 Replacing the battery The battery of the SENTRON PAC4200 must be periodically replaced Note No battery indicator The SENTRON PAC4200 has no function for determining the charging status of the battery Service life of the battery Refer to the information about the service life of the battery in the chapter Technical data Repla...

Страница 171: ...CHANGE BATTERY Select the CHANGE BATTERY START entry key F4 This will start data back up The SENTRON PAC4200 copies the data from the battery backed memory into the internal non volatile memory The data do not leave the device The device indicates completion of data backup Figure 10 2 Indication of completed data backup 3 Switch the system and the device off circuit DANGER Hazardous Voltage Will c...

Страница 172: ...lated tools The battery compartment is accessible from outside without opening the housing Remove the battery from the battery compartment Use angled pointed pliers for this Insert the replacement battery into the battery compartment Take note of the polarity indicated at the insertion opening of the battery compartment Note Polarity of the battery The opening of the battery compartment has the sa...

Страница 173: ... repairs to the device or the expansion module Return defective or damaged devices or expansion modules to Siemens for repair or replacement If the device or an expansion module is defective or damaged proceed as follows 1 Discharge yourself 2 Remove the device or the expansion module 3 Pack the device or the expansion module in a suitable manner to prevent it from being damaged during transport 4...

Страница 174: ...Service and maintenance 10 6 Disposal SENTRON PAC4200 174 System Manual 09 2009 A5E02316180B 02 ...

Страница 175: ...c Measured value acquisition Energy Contiguous zero blind measuring Current voltage Contiguous zero blind measuring Settable refresh time for values on the display 330 to 3000 ms Waveform Sinusoidal or distorted Frequency of the relative fundamental 50 60 Hz Measured value acquisition mode Automatic mains frequency acquisition Measuring inputs for voltage Device with wide voltage power supply Volt...

Страница 176: ...2 Root mean square value of the phase to phase currents and the neutral currents 0 2 Apparent power 0 5 Active power 0 2 Total reactive power VARtot 1 0 Reactive power VARn 1 0 Reactive power VAR1 1 0 Cos φ 0 2 1 Power factor 2 0 Phase angle 1 1 Frequency 0 1 Apparent energy 0 5 Active energy 0 2 Reactive energy 2 0 THD voltage referred to the fundamental 2 0 THD current referred to the fundamenta...

Страница 177: ...mA Minimum permissible reverse current to the battery 5 mA Ambient temperature The battery must be designed for at least 70 C Service life 5 years under the following conditions 2 months backup time per year at 23 C 10 months continuous operation per year at the maximum permissible ambient temperature Retention of data and time of day in the absence of the supply voltage The backup time after 5 ye...

Страница 178: ... pulse output Operating voltage 12 to 24 V DC max 30 V DC SELV or PELV supply Output current With 1 signal Depends on the load and the external power supply Continuous load Max 100 mA thermal overload protection Transient overload max 300 mA for a duration of 100 ms Resistive load 100 mA With 0 signal max 0 2 mA Internal resistance 55 Ω Short circuit protection Yes Overvoltage category CAT I Pulse...

Страница 179: ...time e g once every second if the averaging time is set to 60 seconds Modbus gateway Function Modbus gateway for converting Modbus TCP to Modbus RTU Requirements for use SENTRON PAC RS485 expansion module Number of devices that can be operated Max 31 without repeaters Max 247 with repeaters Port number 17002 if the SENTRON PAC RS485 expansion module is operated at the MOD1 slot 17003 if the SENTRO...

Страница 180: ... wire connection possible Conductor cross section Solid 1 x 0 5 4 0 mm AWG 1 x 20 12 2 x 0 5 2 5 mm AWG 2 x 20 14 Finely stranded with end sleeve 1 x 0 5 2 5 mm AWG 1 x 20 14 2 x 0 5 1 5 mm AWG 2 x 20 16 Stripping length 10 mm Connection screws Tightening torque 0 8 1 2 Nm 7 10 3 lbf in Tools Screwdriver PZ2 cal ISO 6789 Crimping tool in accordance with EN 60947 1 Ring lug terminals Connection des...

Страница 181: ...8 to 10 The national standards for ring lugs must be observed e g UL listed under ZMVV 7 CSA DIN 46237 IEC 60352 2 Please observe the information of the ring lug manufacturer as well as IEC 60352 2 with regard to the creation of suitable crimp connections The ring lugs must be installed in parallel with each other Connection screws Tightening torque 0 8 1 2 Nm 7 10 3 lbf in With vertical screwing ...

Страница 182: ...m Finely stranded with TWIN end sleeve with plastic sleeve 2 x 0 5 1 5 mm AWG cables 1 x 24 12 Stripping length 7 mm Connection screws Tightening torque min 0 5 Nm Tools Screwdriver PZ1 cal ISO 6789 Crimping tool in accordance with EN 60947 1 RJ45 connector Dimensions and weights Type of fixing Panel mounting to IEC 61554 Size W x H x D 96 mm x 96 mm x 82 mm Cutout W x H 92 0 8 mm x 92 0 8 mm Over...

Страница 183: ...c compatibility and repealing the Directive 89 336 EEC DIRECTIVE 2006 95 EC OF THE EUROPEAN PARLIAMENT AND COUNCIL of December 12 2006 on the harmonization of the laws of the Member States relating to electrical equipment designed for use within certain voltage limits Conformity with these Directives is verified by compliance with the following standards EN 55011 2007 Group 1 Class A DIN EN 61000 ...

Страница 184: ...he network configuration e g 2 wire cable with shield Additional information You can find more information about the cables in the standard ANSI TIA EIA 485 A 98 and in the MODBUS over Serial Line Specification and Implementation Guide 11 3 PAC RS485 expansion module standards Description Table 11 1 The device meets the following standards Standard Title ANSI TIA EIA 485 A 98 R2003 RS 485 Electric...

Страница 185: ...C Power Monitoring Device Housing design VDT 3400 structure 36 Tolerances According to DIN 16901 1982 11 Weight 41 g Connector to SENTRON PAC Power Monitoring Device 14 pin connector Non volatile memory Vertical on the SENTRON PAC Power Monitoring Device Power supply Power supplied by SENTRON PAC Cooling Passive air cooling in form of ventilation slots Class of inflameability V 0 Electrical data T...

Страница 186: ...formation in the operating instructions and manual for the SENTRON PAC Power Monitoring Device 11 5 Communications interface of the PAC RS485 expansion module Technical data Table 11 5 Technical data for the communication interface Values Electrical interface RS 485 twisted pair cable 1 cable for Common Connection type Terminal block with screw terminals RS 485 data transfer supported baud rates i...

Страница 187: ...he SENTRON PAC in each case 3 If necessary you can switch on line polarization Table 11 6 Connection types with associated conductor cross sections Connection type Conductor cross sections Solid 1 x 0 2 2 5 mm2 2 x 0 2 1 mm2 Finely stranded 1 x 0 2 2 5 mm2 2 x 0 2 1 5 mm2 Finely stranded with end sleeve without plastic sleeve 1 x 0 25 2 5 mm2 2 x 0 25 1 mm2 Finely stranded with end sleeve with pla...

Страница 188: ... mm x 43 mm x 22 mm Mounting position Vertical on the SENTRON PAC Power Monitoring Device Housing design VDT 3400 structure 36 Tolerances According to DIN 16901 1982 11 Weight 38 g Connector to SENTRON PAC Power Monitoring Device 14 pin connector Power supply Power supplied by SENTRON PACxxxx Cooling Passive air cooling in form of ventilation slots Flammability class V 0 Electrical data Table 11 9...

Страница 189: ...mA Input current 0 signal detection 0 5 mA Maximum switching rate 20 Hz Digital outputs Table 11 11 Technical data of the digital outputs Values Number 2 Type Bidirectional Design function Switching output or pulse output in accordance with IEC 62053 31 Class B Rated voltage 0 30 V DC typical 24 V DC SELV or PELV supply Depends on the load and the external power supply Continuous load 50 mA therma...

Страница 190: ...Figure 11 1 Device labeling Symbol label Explanation 1 Products with this mark comply with both the Canadian CSA and the American UL requirements 2 CE mark Confirmation of conformity of the product with the applicable EU directives and compliance with the essential requirements contained in these directives 3 DC current 4 Danger of electric shock ...

Страница 191: ...tegory CAT III for current and voltage inputs 7 AC current 8 Three phase AC 9 Protective insulation device with protection class II 11 8 Labeling on the PAC RS485 expansion module Description The graphic below shows the positioning of the label on the housing of the PAC RS485 expansion module 3 56 0 0 0DGH LQ HUPDQ s Figure 11 2 PAC RS485 expansion module with type plate 1 Type plate ...

Страница 192: ...2009 A5E02316180B 02 11 9 Labeling on the SENTRON PAC 4DI 2DO expansion module Description The graphic below shows the positioning of the label on the housing of the SENTRON PAC 4DI 2DO expansion module s PAC 4 DI 2DO 7KM9200 0AB00 0AA0 QAE WW JJ Figure 11 3 SENTRON PAC 4DI 2DO expansion module with type plate ...

Страница 193: ...SENTRON PAC4200 System Manual 09 2009 A5E02316180B 02 193 Dimension drawings 12 Note All dimensions in mm Panel cutout Figure 12 1 Panel cutout ...

Страница 194: ...ns Device with screw terminals Figure 12 2 Frame dimensions with optional PAC PROFIBUS DP expansion module connected device with screw terminals Device with ring lug terminals Figure 12 3 Frame dimensions with optional PAC PROFIBUS DP expansion module connected device with ring lug terminals ...

Страница 195: ...B 02 195 Clearance measurements Figure 12 4 Side by side installation Clearances PD PP Figure 12 5 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 ...

Страница 196: ...02 12 1 Dimension drawings of the PAC RS485 expansion module PAC RS485 expansion module 3 56 s 0DGH LQ HUPDQ Figure 12 6 View from above with the dimensions of the plug connector between the PAC RS485 expansion module and the SENTRON PAC side view front view and view from below with terminal block All dimensions are specified in mm ...

Страница 197: ...197 12 2 Dimension drawings of the SENTRON PAC 4DI 2DO expansion module SENTRON PAC 4DI 2DO expansion module Figure 12 7 View from above with the dimensions of the plug connector between the SENTRON PAC 4DI 2DO expansion module and the SENTRON PAC side view front view and view from below with terminal block All dimensions are specified in mm ...

Страница 198: ...Dimension drawings 12 2 Dimension drawings of the SENTRON PAC 4DI 2DO expansion module SENTRON PAC4200 198 System Manual 09 2009 A5E02316180B 02 ...

Страница 199: ...aximum and minimum values Name Abbrev DE IEC Abbrev EN UL Unit Dis play LIM SOURCE Voltage a n UL1 N Va n V 1 0 V a Instantaneous value of the voltage between phase conductor a and the neutral conductor Maximum voltage a n UL1 N max Va n max V 1 1 Maximum value of the voltage between phase conductor a and the neutral conductor Minimum voltage a n UL1 N min Va n min V 1 2 Minimum value of the volta...

Страница 200: ...ctors b and c Voltage c a UL3 L1 Vc a V 2 0 V ca Instantaneous value of the voltage between phase conductors c and a Maximum voltage c a UL3 L1 max Vc a max V 2 1 Maximum value of the voltage between phase conductors c and a Minimum voltage c a UL3 L1 min Vc a min V 2 2 Minimum value of the voltage between phase conductors c and a Current a IL1 Ia A 3 0 I a Current in phase conductor a Maximum cur...

Страница 201: ...wer c VAL3 VAc VA 4 0 VA c Apparent power in phase conductor c Maximum apparent power c SL3 max VAc max VA 4 1 Maximum value of the apparent power in phase conductor c Minimum apparent power c SL3 min VAc min VA 4 2 Minimum value of the apparent power in phase conductor c Active Power a PL1 Wa W 5 0 W a Active power in phase conductor a as import or export Maximum active power a PL1 max Wa max W 5...

Страница 202: ...n phase conductor c referred to the load counting system fundamental and harmonics Maximum total reactive power c VARtot Qtot L3 max VARtot c max VAR 6 1 Maximum value of the total reactive power in phase conductor c referred to the load counting system fundamental and harmonics Minimum total reactive power c VARtot Qtot L3 min VARtot c min VAR 6 2 Minimum value of the total reactive power in phas...

Страница 203: ... VAR1 b VAR 6 0 VAR1 b Reactive power of the fundamental in phase conductor b referred to the load counting system measured according to VAR1 Maximum reactive power b VAR1 Q1 L2 max VAR1 b max VAR 6 1 Maximum reactive power of the fundamental in phase conductor b referred to the load counting system measured according to VAR1 Minimum reactive power b VAR1 Q1 L2 min VAR1 b min VAR 6 2 Minimum react...

Страница 204: ...ting system Minimum total reactive power VAR1 Q1 min VAR1 min VAR 7 2 Minimum value of the total reactive power of the fundamental in the phase conductors referred to the load counting system Total Reactive Power VARn Qn VARn VAR 7 0 ΣVARn Root of the total squares of the reactive power of the harmonics in the phase conductors referred to the load counting system Maximum total reactive power VARn ...

Страница 205: ...um value of the power factor arithmetic in phase conductor b Minimum power factor b PFL2 min PFb min 8 2 Minimum value of the power factor arithmetic in phase conductor b Power factor c PFL3 PFc 8 0 PF c Power factor arithmetic in phase c Maximum power factor c PFL3 max PFc max 8 1 Maximum value of the power factor arithmetic in phase conductor c Minimum power factor c PFL3 min PFc min 8 2 Minimum...

Страница 206: ...aximum phase angle a b XL1 L2 max Xa b max Maximum angle of the fundamental of the voltage between phase conductor a and phase conductor b Minimum phase angle a b XL1 L2 min Xa b min Minimum angle of the fundamental of the voltage between phase conductor a and phase conductor b Phase angle a c XL1 L3 Xa c 14 1 V ac Angle of the fundamental of the voltage between phase conductor a and phase conduct...

Страница 207: ... Current a THDI L1 THDI a 13 0 THD I a Total harmonic distortion of the current in phase conductor a referred to the fundamental Maximum THD current a THDI L1 THDI a 13 1 Maximum total harmonic distortion of the current in phase conductor a referred to the fundamental THD current b THDI L2 THDI b 13 0 THD I b Total harmonic distortion of the current in phase conductor b referred to the fundamental...

Страница 208: ...mplitudes and three phase angles Unbalance Current Inb Unbal I 23 0 Unbal I Unbalance calculated from the magnitude of the voltage amplitudes and three phase angles Distortion Current a Id L1 Id a A I D a Current of all harmonics in phase conductor a Maximum distortion current a Id L1 max Id a max A Maximum current of all harmonics in phase conductor a Distortion current b Id L2 Id b A I D b Curre...

Страница 209: ...harmonic voltage a n h31 L1 N h31 a n 15 2 H31 V a Harmonic content of the 3rd 5th 7th 31st harmonics for the voltage between a and the neutral conductor referred to the fundamental Maximum Harmonics Voltage a n Maximum 3rd harmonic voltage a n h3 L1 N max h3 a n max 15 1 Maximum 5th harmonic voltage a n h5 L1 N max h5 a n max 15 1 Maximum 7th harmonic voltage a n h7 L1 N max h7 a n max 15 1 Maxim...

Страница 210: ...b n h31 L2 N h31 b n 15 2 H31 V b Harmonic content of the 3rd 5th 7th 31st harmonics for the voltage between b and the neutral conductor referred to the fundamental Maximum Harmonics Voltage b n Maximum 3rd harmonic voltage b n h3 L2 N max h3 b n max 15 1 Maximum 5th harmonic voltage b n h5 L2 N max h5 b n max 15 1 Maximum 7th harmonic voltage b n h7 L2 N max h7 b n max 15 1 Maximum 9th harmonic v...

Страница 211: ...onics for the voltage between c and the neutral conductor referred to the fundamental Maximum Harmonics Voltage c n Maximum 3rd harmonic voltage c n h3 L3 N max h3 c n max 15 1 Maximum 5th harmonic voltage c n h5 L3 N max h5 c n max 15 1 Maximum 7th harmonic voltage c n h7 L3 N max h7 c n max 15 1 Maximum 9th harmonic voltage c n h9 L3 N max h9 c n max 15 1 Maximum 11th harmonic voltage c n h11 L3...

Страница 212: ...um 5th harmonic voltage a b h5 L1 L2 max h5 a b max 16 1 Maximum 7th harmonic voltage a b h7 L1 L2 max h7 a b max 16 1 Maximum 9th harmonic voltage a b h9 L1 L2 max h9 a b max 16 1 Maximum 11th harmonic voltage a b h11 L1 L2 max h11 a b max 16 1 Maximum 13th harmonic voltage a b h13 L1 L2 max h13 a b max 16 1 Maximum 15th harmonic voltage a b h15 L1 L2 max h15 a b max 16 1 Maximum 17th harmonic vo...

Страница 213: ...h11 L2 L3 max h11 b c max 16 1 Maximum 13 harmonic voltage b c h13 L2 L3 max h13 b c max 16 1 Maximum 15th harmonic voltage b c h15 L2 L3 max h15 b c max 16 1 Maximum 17th harmonic voltage b c h17 L2 L3 max h17 b c max 16 1 Maximum 19th harmonic voltage b c h19 L2 L3 max h19 b c max 16 2 Maximum 21st harmonic voltage b c h21 L2 L3 max h21 b c max 16 2 Maximum 23rd harmonic voltage b c h23 L2 L3 ma...

Страница 214: ...17th harmonic voltage c a h17 L3 L1 max h17 c a max 16 1 Maximum 19th harmonic voltage c a h19 L3 L1 max h19 c a max 16 2 Maximum 21st harmonic voltage c a h21 L3 L1 max h21 c a max 16 2 Maximum 23rd harmonic voltage c a h23 L3 L1 max h23 c a max 16 2 Maximum 25th harmonic voltage c a h25 L3 L1 max h25 c a max 16 2 Maximum 27th harmonic voltage c a h27 L3 L1 max h27 c a max 16 2 Maximum 29th harmo...

Страница 215: ...ximum 21st harmonic current a I21 L1 max I21 a max A 17 2 Maximum 23rd harmonic current a I23 L1 max I23 a max A 17 2 Maximum 25th harmonic current a I25L1 max I25 a max A 17 2 Maximum 27th harmonic current a I27 L1 max I27 a max A 17 2 Maximum 29th harmonic current a I29 L1 max I29 a max A 17 2 Maximum 31st harmonic current a I31 L1 max I31 a max A 17 2 Maximum value of the current of the 3rd 5th...

Страница 216: ...max A 17 2 Maximum 25th harmonic current b I25L2 max I25 b max A 17 2 Maximum 27th harmonic current b I27 L2 max I27 b max A 17 2 Maximum 29th harmonic current b I29 L2 max I29 b max A 17 2 Maximum 31st harmonic current b I31 L2 max I31 b max A 17 2 Maximum value of the current of the 3rd 5th 7th 31st harmonic in b Harmonics Current c Fundamental current c I1 L3 I1 c A 17 H1 I c Value of the curre...

Страница 217: ...29th harmonic current c I29 L3 max I29 c max A 17 2 Maximum 31st harmonic current c I31 L3 max I31 c max A 17 2 Maximum value of the current of the 3rd 5th 7th 31st harmonic in c Average values over all phases Name Abbrev DE IEC Abbrev EN UL Unit Dis play LIM SOURCE 3 Phase Average Voltage ph n UL N AVG Vph n AVG V V PH N DMD 3 phase average value of the voltage between the phase conductors and th...

Страница 218: ... V 1 4 Maximum value of the sliding window demand of the voltage between phase conductor b and the neutral conductor Minimum sliding window demand voltage b n UL2 N sw dmd min Vb n sw dmd min V 1 5 Minimum value of the sliding window demand of the voltage between phase conductor b and the neutral conductor Sliding window demand voltage c n UL3 N sw dmd Vc n sw dmd V 1 3 Vphn DMD c Sliding window d...

Страница 219: ... demand current b IL2 sw dmd Ib sw dmd A 3 3 I DMD b Sliding window demand of the current in phase conductor b Maximum sliding window demand current b IL2 sw dmd max Ib sw dmd max A 3 4 Maximum value of the sliding window demand of the current in phase conductor b Minimum sliding window demand current b IL2 sw dmd min Ib sw dmd min A 3 5 Minimum value of the sliding window demand of the current in...

Страница 220: ...ower a PL1 sw dmd max Wa sw dmd max W 5 4 Maximum value of the sliding window demand of the active power in phase conductor a Minimum sliding window demand active power a PL1 sw dmd min Wa sw dmd min W 5 5 Minimum value of the sliding window demand of the active power in phase conductor a Sliding window demand active power b PL2 sw dmd Wb sw dmd W 5 3 W DMD b Sliding window demand of the active po...

Страница 221: ...active power c VARtot Qtot L3 sw dmd max VARtot c sw dmd max VAR 6 4 Maximum value of the sliding window demand of the total reactive power of the fundamental and harmonics in phase conductor c Minimum sliding window demand total reactive power c VARtot Qtot L3 sw dmd min VARtot c sw dmd min VAR 6 5 Minimum value of the sliding window demand of the total reactive power of the fundamental and harmo...

Страница 222: ...sw dmd max VAR 6 4 Maximum value of the sliding window demand of the reactive power of the fundamental in phase conductor a measured according to VAR1 Minimum sliding window demand reactive power a VAR1 VAR1 a sw dmd min VAR1 a sw dmd min VAR 6 5 Minimum value of the sliding window demand of the reactive power of the fundamental in phase conductor a measured according to VAR1 Sliding window demand...

Страница 223: ...indow Demand Total Reactive Power VARtot Qtot sw dmd VARtot sw dmd VAR 7 3 ΣVARtot DMD Sliding window demand of the total reactive power of the fundamental and harmonics VARtot Maximum sliding window demand total reactive power VARtot Qtot sw dmd max VARtot sw dmd max VAR 7 4 Maximum value of the sliding window demand of the total reactive power of the fundamental and harmonics VARtot Minimum slid...

Страница 224: ... 8 3 PF DMD b Sliding window demand of the power factor arithmetic b Maximum sliding window demand power factor b PFL2 sw dmd max PFb sw dmd max 8 4 Maximum value of the sliding window demand of the power factor arithmetic b Minimum sliding window demand power factor b PFL2 sw dmd min PFb sw dmd min 8 5 Minimum value of the sliding window demand of the power factor arithmetic b Sliding window dema...

Страница 225: ...E Normal case TRUE Exception The demand period was ended prematurely owing to a resynchronization RESYNCHRONIZED FALSE Normal case A 3 MODBUS You can access the following measured variables Via the Ethernet interface with the Modbus TCP protocol Via the PAC RS485 expansion module with the Modbus RTU protocol Further information You can find further details about the PAC RS485 expansion module and ...

Страница 226: ...ue range Access 1 2 Voltage a n Float V R 3 2 Voltage b n Float V R 5 2 Voltage c n Float V R 7 2 Voltage a b Float V R 9 2 Voltage b c Float V R 11 2 Voltage c a Float V R 13 2 Current a Float A R 15 2 Current b Float A R 17 2 Current c Float A R 19 2 Apparent Power a Float VA R 21 2 Apparent Power b Float VA R 23 2 Apparent Power c Float VA R 25 2 Active Power a Float W R 27 2 Active Power b Flo...

Страница 227: ... R 93 2 Maximum Apparent Power a Float VA R 95 2 Maximum Apparent Power b Float VA R 97 2 Maximum Apparent Power c Float VA R 99 2 Maximum Active Power a Float W R 101 2 Maximum Active Power b Float W R 103 2 Maximum Active Power c Float W R 105 2 Maximum Reactive Power a VARn Float VAR R 107 2 Maximum Reactive Power b VARn Float VAR R 109 2 Maximum Reactive Power c VARn Float VAR R 111 2 Maximum ...

Страница 228: ...loat VA R 167 2 Minimum Apparent Power c Float VA R 169 2 Minimum Active Power a Float W R 171 2 Minimum Active Power b Float W R 173 2 Minimum Active Power c Float W R 175 2 Minimum Reactive Power a VARn Float VAR R 177 2 Minimum Reactive Power b VARn Float VAR R 179 2 Minimum Reactive Power c VARn Float VAR R 181 2 Minimum Power Factor a Float 0 1 R 183 2 Minimum Power Factor b Float 0 1 R 185 2...

Страница 229: ...it 2 Logic result 2 of limits at inputs 4 7 Byte 0 Bit 3 Logic result 3 of limits at inputs 8 11 203 2 Limit Violations Unsigned long Byte 0 Bit 4 Logic result 4 of limits at inputs 12 15 R Byte 0 System status Byte 1 Device status Byte 2 Device diagnostics 205 2 PMD Diagnostics and Status Unsigned long Byte 3 Component diagnostics R Byte 3 Bit 0 Output 0 207 2 Digital Outputs Status Unsigned long...

Страница 230: ...yte 3 Bit 1 Output 1 R Byte 3 Bit 0 Input 0 237 2 Status Digital Inputs Module 2 Unsigned long Byte 3 Bit 1 Input 1 R 243 2 Cos φ a Float R 245 2 Cos φ b Float R 247 2 Cos φ c Float R 249 2 Displacement Angle a Float R 251 2 Displacement Angle b Float R 253 2 Displacement Angle c Float R 255 2 Phase Angle a a Float R 257 2 Phase Angle a b Float R 259 2 Phase Angle a c Float R 261 2 THD Voltage a F...

Страница 231: ...R 321 2 Sliding Window Demand Apparent Power b Float VA R 323 2 Sliding Window Demand Apparent Power c Float VA R 325 2 Sliding Window Demand Active Power a Float W R 327 2 Sliding Window Demand Active Power b Float W R 329 2 Sliding Window Demand Active Power c Float W R 331 2 Sliding Window Demand Reactive Power a VARn Float VAR R 333 2 Sliding Window Demand Reactive Power b VARn Float VAR R 335...

Страница 232: ...g 0 999 999 999 RW 379 2 Pulse counter 04 Unsigned long 0 999 999 999 RW 381 2 Pulse counter 05 Unsigned long 0 999 999 999 RW 383 2 Pulse counter 06 Unsigned long 0 999 999 999 RW 385 2 Pulse counter 07 Unsigned long 0 999 999 999 RW 387 2 Pulse counter 08 Unsigned long 0 999 999 999 RW 389 2 Pulse counter 09 Unsigned long 0 999 999 999 RW 391 2 Pulse counter 10 Unsigned long 0 999 999 999 RW The...

Страница 233: ...tal outputs status for an expansion module SENTRON PAC 4DI 2DO on slot 1 Name Length Status Byte Bit Bit mask Access Digital outputs status 32 bits DO 4 0 7 0 0x00000001 R Digital outputs status 32 bits DO 4 1 7 1 0x00000010 R Digital inputs status 32 bits DI 4 0 7 0 0x00000001 R Digital inputs status 32 bits DI 4 1 7 1 0x00000010 R Digital inputs status 32 bits DI 4 2 7 2 0x00000100 R Digital inp...

Страница 234: ...00100 R 2 1 Limit 9 0x00000200 R 2 2 Limit 10 0x00000400 R 2 3 Limit 11 0x00000800 R 0 0 Limit Logic 0x01000000 R 0 1 Function block 1 at logic inputs 1 4 0x02000000 R 0 2 Function block 2 at logic inputs 1 4 0x04000000 R 0 3 Function block 3 at logic inputs 1 4 0x08000000 R 0 4 Function block 4 at logic inputs 1 4 0x10000000 0 No limit violation 1 Limit violation R See also Measured variables wit...

Страница 235: ...it 2 Slot 1 Firmware update active2 saving 0x00000004 R 3 3 Bit 3 Firmware data block available2 saving 0x00000008 R 3 4 Bit 4 Bootloader update flag2 saving 0x00000010 R 3 5 Bit 5 Slot 2 Parameters changed2 saving 0x00000020 R 3 6 Bit 6 Slot 2 IMDATA changed2 saving 0x00000040 R 3 7 Bit 7 Slot 2 Firmware update active2 saving 0x00000080 0 Not active 1 active R 1 Only these device states are to be...

Страница 236: ...at VAR R 509 2 Maximum active power in the current period Float W R 511 2 Minimum active power in the current period Float W R 513 2 Maximum reactive power in the current period Float VAR R 515 2 Minimum reactive power in the current period Float VAR R 517 2 Length of the current period Unsigned long s R 519 2 Time since the start of the instantaneous period Unsigned long s R 521 2 Actual Subinter...

Страница 237: ...easured variables Offset Number of registers Name Format Unit Value range Access 797 4 Date Time Time stamp RW 801 4 Active Energy Import Tariff 1 Double Wh Overflow 1 0e 12 RW 805 4 Active Energy Import Tariff 2 Double Wh Overflow 1 0e 12 RW 809 4 Active Energy Export Tariff 1 Double Wh Overflow 1 0e 12 RW 813 4 Active Energy Export Tariff 2 Double Wh Overflow 1 0e 12 RW 817 4 Reactive Energy Imp...

Страница 238: ...rflow 1 0e 12 R 2805 2 Active Energy Export Tariff 1 Float Wh Overflow 1 0e 12 R 2807 2 Active Energy Export Tariff 2 Float Wh Overflow 1 0e 12 R 2809 2 Reactive Energy Import Tariff 1 Float VARh Overflow 1 0e 12 R 2811 2 Reactive Energy Import Tariff 2 Float VARh Overflow 1 0e 12 R 2813 2 Reactive Energy Export Tariff 1 Float VARh Overflow 1 0e 12 R 2815 2 Reactive Energy Export Tariff 2 Float VA...

Страница 239: ...oat time stamp A R 3055 6 Maximum Apparent Power a with Time Float time stamp VA R 3061 6 Maximum Apparent Power b with Time Float time stamp VA R 3067 6 Maximum Apparent Power c with Time Float time stamp VA R 3073 6 Maximum Active Power a with Time Float time stamp W R 3079 6 Maximum Active Power b with Time Float time stamp W R 3085 6 Maximum Active Power c with Time Float time stamp W R 3091 6...

Страница 240: ...6 Maximum THD Voltage b with Time Float time stamp 0 100 R 3265 6 Maximum THD Voltage c with Time Float time stamp 0 100 R 3271 6 Maximum THD Current a with Time Float time stamp 0 100 R 3277 6 Maximum THD Current b with Time Float time stamp 0 100 R 3283 6 Maximum THD Current c with Time Float time stamp 0 100 R 3289 6 Maximum Distortion a with Time Float time stamp A R 3295 6 Maximum Distortion ...

Страница 241: ...ding Window Demand Apparent Power a with Time Float time stamp VA R 3433 6 Max Sliding Window Demand Apparent Power b with Time Float time stamp VA R 3439 6 Max Sliding Window Demand Apparent Power c with Time Float time stamp VA R 3445 6 Max Sliding Window Demand Active Power a with Time Float time stamp W R 3451 6 Max Sliding Window Demand Active Power b with Time Float time stamp W R 3457 6 Max...

Страница 242: ... stamp VAR R 3559 6 Max Sliding Window Demand Total Reactive Power VAR1 with Time Float time stamp VAR R 3565 6 Max Sliding Window Demand Total Power Factor with Time Float time stamp R 3571 6 Max Sliding Window Demand Neutral Current with Time Float time stamp A R A 3 9 Minimum values with a time stamp and the function codes 0x03 and 0x04 Addressing the minimum values with a time stamp Table A 16...

Страница 243: ...tive Power b VAR1 with Time Float time stamp VAR R 6139 6 Minimum Reactive Power c VAR1 with Time Float time stamp VAR R 6145 6 Minimum Power Factor a with Time Float time stamp 0 1 R 6151 6 Minimum Power Factor b with Time Float time stamp 0 1 R 6157 6 Minimum Power Factor c with Time Float time stamp 0 1 R 6163 6 Minimum cos φ a with Time Float time stamp cos φa R 6169 6 Minimum cos φ b with Tim...

Страница 244: ...mp V R 6319 6 Min Sliding Window Demand Current a with Time Float time stamp A R 6325 6 Min Sliding Window Demand Current b with Time Float time stamp A R 6331 6 Min Sliding Window Demand Current c with Time Float time stamp A R 6337 6 Min Sliding Window Demand Apparent Power a with Time Float time stamp VA R 6343 6 Min Sliding Window Demand Apparent Power b with Time Float time stamp VA R 6349 6 ...

Страница 245: ...h Time Float time stamp 0 1 R 6445 6 Min Sliding Window Demand Total Apparent Power with Time Float time stamp VA R 6451 6 Min Sliding Window Demand Total Active Power with Time Float time stamp W R 6457 6 Min Sliding Window Demand Total Reactive Power VARn with Time Float time stamp VAR R 6463 6 Min Sliding Window Demand Total Reactive Power VARtot with Time Float time stamp VAR R 6469 6 Min Slid...

Страница 246: ...ic Voltage c n Float R 9043 2 15th Harmonic Voltage a n Float R 9045 2 15th Harmonic Voltage b n Float R 9047 2 15th Harmonic Voltage c n Float R 9049 2 17th Harmonic Voltage a n Float R 9051 2 17th Harmonic Voltage b n Float R 9053 2 17th Harmonic Voltage c n Float R 9055 2 19th Harmonic Voltage a n Float R 9057 2 19th Harmonic Voltage b n Float R 9059 2 19th Harmonic Voltage c n Float R 9061 2 2...

Страница 247: ...monic Current b Float A R 11023 2 7th Harmonic Current c Float A R 11025 2 9th Harmonic Current a Float A R 11027 2 9th Harmonic Current b Float A R 11029 2 9th Harmonic Current c Float A R 11031 2 11th Harmonic Current a Float A R 11033 2 11th Harmonic Current b Float A R 11035 2 11th Harmonic Current c Float A R 11037 2 13th Harmonic Current a Float A R 11039 2 13th Harmonic Current b Float A R ...

Страница 248: ...registers Name Format Unit Value range Access 22001 2 Fundamental Voltage a b Float V R 22003 2 Fundamental Voltage b c Float V R 22005 2 Fundamental Voltage c a Float V R 22007 2 3rd Harmonic Voltage a b Float R 22009 2 3rd Harmonic Voltage b c Float R 22011 2 3rd Harmonic Voltage c a Float R 22013 2 5th Harmonic Voltage a b Float R 22015 2 5th Harmonic Voltage b c Float R 22017 2 5th Harmonic Vo...

Страница 249: ...onic Voltage a b Float R 22075 2 25th Harmonic Voltage b c Float R 22077 2 25th Harmonic Voltage c a Float R 22079 2 27th Harmonic Voltage a b Float R 22081 2 27 Harmonic Voltage b c Float R 22083 2 27th Harmonic Voltage c a Float R 22085 2 29th Harmonic Voltage a b Float R 22087 2 29 Harmonic Voltage b c Float R 22089 2 29th Harmonic Voltage c a Float R 22091 2 31st Harmonic Voltage a b Float R 2...

Страница 250: ...ximum 11th Harmonic Voltage a n with Time Float time stamp R 13077 6 Maximum 11th Harmonic Voltage b n with Time Float time stamp R 13083 6 Maximum 11th Harmonic Voltage c n with Time Float time stamp R 13089 6 Maximum 13th Harmonic Voltage a n with Time Float time stamp R 13095 6 Maximum 13th Harmonic Voltage b n with Time Float time stamp R 13101 6 Maximum 13th Harmonic Voltage c n with Time Flo...

Страница 251: ...loat time stamp R 13209 6 Maximum 25th Harmonic Voltage c n with Time Float time stamp R 13215 6 Maximum 27th Harmonic Voltage a n with Time Float time stamp R 13221 6 Maximum 27th Harmonic Voltage b n with Time Float time stamp R 13227 6 Maximum 27th Harmonic Voltage c n with Time Float time stamp R 13233 6 Maximum 29th Harmonic Voltage a n with Time Float time stamp R 13239 6 Maximum 29th Harmon...

Страница 252: ...aximum 7th Harmonic Current c with Time Float time stamp A R 19073 6 Maximum 9th Harmonic Current a with Time Float time stamp A R 19079 6 Maximum 9th Harmonic Current b with Time Float time stamp A R 19085 6 Maximum 9th Harmonic Current c with Time Float time stamp A R 19091 6 Maximum 11th Harmonic Current a with Time Float time stamp A R 19097 6 Maximum 11th Harmonic Current b with Time Float ti...

Страница 253: ...6 Maximum 23rd Harmonic Current b with Time Float time stamp A R 19211 6 Maximum 23rd Harmonic Current c with Time Float time stamp A R 19217 6 Maximum 25th Harmonic Current a with Time Float time stamp A R 19223 6 Maximum 25th Harmonic Current b with Time Float time stamp A R 19229 6 Maximum 25th Harmonic Current c with Time Float time stamp A R 19235 6 Maximum 27th Harmonic Current a with Time F...

Страница 254: ...ltage Unsigned long 1 999999 V RW 50007 2 Secondary Voltage Unsigned long 1 690 V RW 50009 2 Current Transformer Yes No Unsigned long 1 Yes RW 50011 2 Primary Current Unsigned long 1 999999 V RW 50013 2 Secondary Current Unsigned long 1 A 5 A RW 50017 2 Line Frequency Unsigned long RW 50019 2 Zero Point Suppression Float 0 0 10 0 RW HIWORD Number of subperiods 0 51 50021 2 Subperiod Time Unsigned ...

Страница 255: ... Rotation 4 Lim violation 5 Energy pulse 50035 2 DO 0 0 Type of Use Unsigned long 6 Sync RW 0 Limit logic 1 Limit 0 2 Limit 1 3 Limit 2 4 Limit 3 5 Limit 4 50037 2 DO 0 0 Limit Assignment Unsigned long 6 Limit 5 RW 0 Pulse 50039 2 DO 0 0 Pulse Edge Evaluation Unsigned long 1 Edge RW 0 Import kWh 1 Export kWh 2 Import kVARh 50041 2 DO 0 0 Source Count Signal Unsigned long 3 Export kVARh RW 50043 2 ...

Страница 256: ...acklight Dimmed Unsigned long 0 3 RW 50061 2 Display Time Until Dimmed Unsigned long min 0 99 RW 0 OFF 50063 2 Limit 0 ON OFF Unsigned long 1 ON RW 50065 2 Limit 0 Hysteresis Float 0 0 20 0 RW 50067 2 Limit 0 Pickup Delay Unsigned long s 0 10 RW 50071 2 Limit 0 Source Unsigned long 0 2412 RW 50073 2 Limit 0 Value Float RW 0 Greater than 50075 2 Limit 0 Mode Unsigned long 1 Lower than RW 0 OFF 5007...

Страница 257: ...0123 2 Limit 4 Pickup Delay Unsigned long s 0 10 RW 50127 2 Limit 4 Source Unsigned long 0 2412 RW 50129 2 Limit 4 Value Float RW 0 Greater than 50131 2 Limit 4 Mode Unsigned long 1 Lower than RW 0 OFF 50133 2 Limit 5 ON OFF Unsigned long 1 ON RW 50135 2 Limit 5 Hysteresis Float 0 0 20 0 RW 50137 2 Limit 5 Pickup Delay Unsigned long s 0 10 RW 50141 2 Limit 5 Source Unsigned long 0 2412 RW 50143 2 ...

Страница 258: ... RW 50193 2 Limit 9 Pickup Delay Unsigned long s 0 10 RW 50197 2 Limit 9 Source Unsigned long 0 2412 RW 50199 2 Limit 9 Value Float RW 50201 2 Limit 9 Mode Unsigned long 0 Greater than RW 1 Lower than 50203 2 Limit 10 ON OFF Unsigned long 0 OFF RW 1 ON 50205 2 Limit 10 Hysteresis Float 0 0 20 0 RW 50207 2 Limit 10 Pickup Delay Unsigned long s 0 10 RW 50211 2 Limit 10 Source Unsigned long 0 2412 RW...

Страница 259: ...active Power Unsigned long 2 VAR1 RW Byte 2 Port Byte 2 0 11 Byte 3 Bit 50241 2 Universal Counter 1 DI count signal Unsigned long Byte 3 0 7 RW 0 Normal 50243 2 Current Direction a Unsigned long 1 Inverted RW 0 Normal 50245 2 Current Direction b Unsigned long 1 Inverted RW 0 Normal 50247 2 Current Direction c Unsigned long 1 Inverted RW 50249 2 Measuring Threshold Operating Hours Counter Unsigned ...

Страница 260: ...itPa ra RW 1 Subperiods 0 and 1 Fixed block method subperiods 0 to 5 Rolling block method 2 More information is given in the chapter under the also see link See also Value range for limit source Page 260 A 3 13 Value range for limit source Assignment of the value range for the Limit x Source parameter Table A 23 Assignment of the values 0 to 241 Value Assignment 0 Voltage a n 1 Voltage b n 2 Volta...

Страница 261: ...ve Power c 33 Sliding Window Demand Reactive Power a VARn 34 Sliding Window Demand Reactive Power b VARn 35 Sliding Window Demand Reactive Power c VARn 36 Sliding Window Demand Total Reactive Power a VARtot 37 Sliding Window Demand Total Reactive Power b VARtot 38 Sliding Window Demand Total Reactive Power c Qtot 39 Sliding Window Demand Reactive Power a VAR1 40 Sliding Window Demand Reactive Powe...

Страница 262: ...otal Apparent Power 80 Total active power 81 Total Reactive Power VARn 82 Total Reactive Power VAR1 83 Total Reactive Power VARtot 84 Sliding Window Demand Total Apparent Power 85 Sliding Window Demand Total Active Power 86 Sliding Window Demand Total Power Factor 87 Sliding Window Demand Total Reactive Power VARn 88 Sliding Window Demand Total Reactive Power VAR1 89 Sliding Window Demand Total Re...

Страница 263: ...th Harmonic Voltage a n 119 15th Harmonic Voltage b n 120 15th Harmonic Voltage c n 121 17th Harmonic Voltage a n 122 17th Harmonic Voltage b n 123 17th Harmonic Voltage c n 124 19th Harmonic Voltage a n 125 19th Harmonic Voltage b n 126 19th Harmonic Voltage c n 127 21st Harmonic Voltage a n 128 21st Harmonic Voltage b n 129 21st Harmonic Voltage c n 130 23rd Harmonic Voltage a n 131 23rd Harmoni...

Страница 264: ...armonic Voltage a b 161 11th Harmonic Voltage b c 162 11th Harmonic Voltage c a 163 13th Harmonic Voltage a b 164 13th Harmonic Voltage b c 165 13th Harmonic Voltage c a 166 15th Harmonic Voltage a b 167 15th Harmonic Voltage b c 168 15th Harmonic Voltage c a 169 17th Harmonic Voltage a b 170 17th Harmonic Voltage b c 171 17th Harmonic Voltage c a 172 19th Harmonic Voltage a b 173 19th Harmonic Vo...

Страница 265: ...ic Current c 202 7th Harmonic Current a 203 7th Harmonic Current b 204 7th Harmonic Current c 205 9th Harmonic Current a 206 9th Harmonic Current b 207 9th Harmonic Current c 208 11th Harmonic Current a 209 11th Harmonic Current b 210 11th Harmonic Current c 211 13th Harmonic Current a 212 13th Harmonic Current b 213 13th Harmonic Current c 214 15th Harmonic Current a 215 15th Harmonic Current b 2...

Страница 266: ...nt c 241 Process operating hours counter See also Configuration settings with the function codes 0x03 0x04 and 0x10 Page 254 Measured variables Page 199 A 3 14 Communication settings with the function codes 0x03 0x04 and 0x10 Addressing the communication settings Table A 24 Communication settings Offset Number of registers Name Format Unit Applicable MODBUS function codes Value range Access 63001 ...

Страница 267: ...0x10 3 Modbus gateway RW 63019 2 Address Module Interface 1 Unsigned long 0x03 0x04 0x10 1 247 RW 0 4800 baud 1 9600 baud 2 19 200 baud 63021 2 Baudrate Module Interface 1 Unsigned long 0x03 0x04 0x10 3 38 400 baud RW 0 8N2 1 8E1 2 8O1 63023 2 Format Module Interface 1 Unsigned long 0x03 0x04 0x10 3 8N1 RW 63025 2 Response Time Module Interface 1 Unsigned long ms 0x03 0x04 0x10 0 255 RW 0 MODBUS R...

Страница 268: ...gned long ms 0x03 0x04 0x10 1 ffffh RW 63045 2 TCP IP port gateway module interface 1 Unsigned long ms 0x03 0x04 0x10 1 ffffh RW 63065 2 PROFIBUS ID PAC4200 Unsigned long 0x03 0x04 8173h R A 3 15 I M settings Addressing the settings for the I M data Table A 25 Settings for the I M data Offset Number of registers Name Format Unit Applicable MODBUS function codes Value range Access 64001 27 IM Data ...

Страница 269: ...port tariff 2 3 Active energy export tariff 1 4 Active energy export tariff 2 5 Reactive energy import tariff 1 6 Reactive energy import tariff 2 7 Reactive energy export tariff 1 8 Reactive energy export tariff 2 9 Apparent energy tariff 1 10 Apparent energy tariff 2 11 Process active energy 12 Process reactive energy 60004 1 Reset energy counters Unsigned short 0x06 13 Process apparent energy W ...

Страница 270: ... profile recording Unsigned short 0x06 815 W 60012 1 Reset event recording Unsigned short 0x06 815 W 60013 1 Set standard event recording conditions Unsigned short 0x06 815 W 60014 1 Set standard I O parameters Unsigned short 0x06 815 W 65292 2 Increment date time Unsigned long 0x10 1 FFFFFFFFh1 W 1 Time stamp low adds the time stamp low to the current date and the current time A 3 17 MODBUS stand...

Страница 271: ... See also Measured variables without a time stamp with the function codes 0x03 and 0x04 Page 225 A 4 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 ...

Страница 272: ...Fax response From please complete To SIEMENS AG I IA CD MM 3 92220 Amberg Germany Name Company Department Address _________________________________________________________________________________ Fax 49 0 9621 80 3337 Manual title Table A 28 Errors comments and suggestions for improvements ...

Страница 273: ...tatically immediately before touching an electronic component To do this touch a conductive grounded object e g a bare metal part of a switch cabinet or the water pipe Always hold the component by the plastic enclosure Electronic modules should not be brought into contact with electrically insulating materials such as plastic film plastic parts insulating table supports or clothing made of synthet...

Страница 274: ... 274 System Manual 09 2009 A5E02316180B 02 D H F I I G I I E D D F F H E I G G 1 ESD seat 2 ESD standing position 3 ESD seat and ESD standing position Protective measures a Conductive floor b ESD table c ESD footwear d ESD smock e ESD bracelet f Cubicle ground connection ...

Страница 275: ...dard EU European Union FCC Federal Communications Commission GSD Device master data High Low tariff High tariff low tariff I M Information and Maintenance ID Identification number IEC International Electrotechnical Commission IP International Protection ISM Industrial Scientific and Medical ISO International Standardization Organization LCD Liquid crystal display MAC Media Access Control NAFTA Nor...

Страница 276: ...76 System Manual 09 2009 A5E02316180B 02 Abbreviation Meaning THD R Relative THD TRMS True Root Mean Square UL Underwriters Laboratories Inc VDE Association of Electrical Engineering Electronics and Information Technology Germany RLO Result of logic operation ...

Страница 277: ...s 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 Demand period Period to which the calculation of the power demand refers A demand period is typically 15 30 or 60 minutes long A distinction is made between the current period and the instantaneous period The current period is the la...

Страница 278: ...am fieldbus system PROFIBUS is a bus system that connects PROFIBUS compatible automation systems and field devices together at the cell level and field level RJ45 Symmetrical connector for data lines that is also known as a Western connector or a Western plug This is a widely used plug connector in telephone and ISDN technology which is used in LAN installations in the office environment RMS Root ...

Страница 279: ...165 Check the packaging 67 Circuit breaker 65 84 85 102 Class of inflameability 185 Cleaning 169 Clearance measurements 70 195 Clearances 195 Clock 23 Clock synchronization 60 Commissioning Setting the language 104 Common 96 186 Communication interface 49 186 Communication protocols 165 Supported 186 Components of the product 14 Conductive floor 274 Conductor cross section 187 Configuration settin...

Страница 280: ...4 ESD Guidelines 74 77 ESD protective measures 273 ESD seat 274 ESD smock 274 ESD standing position 274 ESD table 274 Ethernet cable 94 Ethernet interface 71 Event recording 55 Events Acknowledgable 55 Settings in the SENTRON software 59 External communication Settings 164 External digital inputs 165 External digital outputs 165 External power supply 99 F Fail safe power supply 169 Features 60 Fin...

Страница 281: ... functions 22 Mounting dimensions 70 193 Mounting location 63 Mounting on the switching panel 70 Mounting position 63 185 188 N Negative signal 97 Network configuration 184 Neutral conductor 83 Non volatile memory 185 O Object ID 270 Offset 226 234 235 237 238 239 242 245 249 254 266 268 269 Open terminals 82 86 Operating temperature 64 Orientation aids 13 Overall depth 185 P Packaging 67 Panel cu...

Страница 282: ... related symbols 17 Screw terminal 61 71 80 86 186 Technical data 182 Terminal labeling 82 Screwdriver 69 76 86 Screws 187 SENTRON PAC Settings 164 Serial gateway 61 Setting the language 104 Setting the voltage input 109 Settings on the SENTRON PAC 164 Shield 95 96 98 Short circuit protection 189 Side view 196 197 Signal 96 97 Site altitude 64 Sliding window demand values 20 Slot for expansion mod...

Страница 283: ...61 User definable display 22 V Validity range 13 Ventilation Installation space 64 Ventilation slots 74 185 188 View from below 196 197 Voltage input 109 Voltage measurement 24 Voltage measuring inputs Protecting 85 Voltage terminals 75 Voltage transducers Measurement 107 Set the conversion ratio 108 Voltage transformers 111 W Weight 185 188 Wetness 64 169 Wide voltage power supply 24 102 111 Z Ze...

Страница 284: ...Index SENTRON PAC4200 284 System Manual 09 2009 A5E02316180B 02 ...

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