SITOP PSU8600 - Ask your power supply. Technology slides.pptx

Ask your power supply SITOP PSU8600 - Technology slides Unrestricted | © Siemens 2022 | SITOP PSU8600 Power Supply System | Technology slides

Agenda Positioning 1 3 Hardware 2 6 System integration 4 43 Technical specifications 5 46 6 53 Applications 58 Service, support and training 8 61 Benefits 3 27 Ordering overview 7 Unrestricted | © Siemens 2022 | SITOP PSU8600 Power Supply System | Technology slides Page 2

SITOP power supply SITOP portfolio overview Power failure on the input side Up to seconds Overload in 24 V circuit Failure of a power supply Up to minutes Up to hours SIMATIC design DC/DC converter Special designs … individual extendable to all-round protection SITOP in SIMATIC design The optimal power supply for SIMATIC S7 and more SITOP DC/DC converter Stable supply despite fluctuating DC voltage Special designs Equipped for special tasks and conditions SITOP Redundancy modules SITOP Selectivity modules SITOP Buffer module SITOP DCUPS with capacitors with battery modules Advanced Standard Basic SITOP PSU8200 The technology power supply for demanding solutions SITOP PSU8600 The power supply system with TIA integration and open communication up to the Cloud SITOP smart The high-performance power supply SITOP PSU6200 The all-around power supply for a wide range of applications LOGO!Power The flat power supply for distribution boards SITOP lite The cost-effective basic power supply Unrestricted | © Siemens 2022 | SITOP PSU8600 Power Supply System | Technology slides Page 3

SITOP PSU8600 power supply system Modular system Basic units Add-on modules PSU8600, 1-phase PSU8600, 3-phase CNX8600, max. 4 units BUF8600 UPS8600 BAT8600, max. 5 units per UPS8600 4 outputs 1 output 4 outputs 4 outputs 8 outputs Max. 2 Pb LiFePO4 40 A, 4 x 10 A 20 A, 4 x 5 A 40 A 20 A 8 x 2.5 A 4 x 5 A 4 x 10 A 100 ms /40 A 4 s/40 A 300 ms /40 A 10 s/40 A 380 Wh 264 Wh 20 A, 4 x 5 A Innovations for the SITOP PSU8600 power supply system: 3-phase basic device with EtherNet /IP interface for expanding the possible uses in EtherNet /IP infrastructures Parameterization and diagnostics via Electronic Data Sheet (EDS) in Rockwell Automation Studio 5000 Programming via Add-on- Instructions (AOI) for Rockwell Automation/Allen Bradley controllers new Unrestricted | © Siemens 2022 | SITOP PSU8600 Power Supply System | Technology slides Page 4

Agenda Positioning 1 3 Hardware 2 6 System integration 4 43 Technical specifications 5 46 6 53 Applications 58 Service, support and training 8 61 Benefits 3 27 Ordering overview 7 Unrestricted | © Siemens 2022 | SITOP PSU8600 Power Supply System | Technology slides Page 5

SITOP PSU8600 power supply system Hardware – Technical data of the basic unit Power supply Single-phase basic unit with wide range input 100 – 240 V 1AC/2AC and 110 – 220 V DC Three-phase basic units with wide-range input 400 – 500 V 3AC Overload capability 150% for 5 s/min Efficiency up to 94% Temperature range from -25…+60 ºC With one output or four outputs Device versions with output 20 A, 4x 5 A, 40 A and 4x 10 A Output voltage per output individually adjustable in the range of 4…28 V DC Electronic overload tripping, response threshold value settable 0.5…40 A Industrial Ethernet / PROFINET interface with two ports TIA diagnostics Profinet I/O device PROFIenergy profile Integrated web server Integrated OPC UA server Further information can be found in the SITOP PSU8600 Power Supply System Equipment Manual in Chapter 2.1 Description of the basic units Variant having EtherNet /IP interface with two ports EtherNet /IP device Configuration and diagnostics in Rockwell Automation Studio 5000 Programming blocks für Rockwell Automation/Allen Bradley controllers Unrestricted | © Siemens 2022 | SITOP PSU8600 Power Supply System | Technology slides Page 6

SITOP PSU8600 power supply system Hardware – Operation at the basic device "OK" status indicator 3-color LED for device status "MAN" status indicator Indicates the "MANUAL" operating mode "PROFINET" status indicators 4 LEDs for signaling the status of the Industrial Ethernet/PROFINET interface LED button "ON/OFF/RST" 3-color LED for indicating the output status Button for manually connecting and disconnecting the outputs Button for reset after electronic shutdown Potentiometer "U (V)" Setting the output voltage per output Potentiometer "I (A)" Setting the response threshold per output DIP switch "REN" Switches over between the MANUAL mode (settings and operation at the device) and REMOTE mode (remote control via Industrial Ethernet/PROFINET) 1 2 3 4 5 DIP switch "PRY1" Prioritizes output 1 during buffering operation – half of the buffer energy exclusively for output 1 by disconnecting the remaining outputs DIP switch "UI-4" Selects the response of output 4 in the case of an overload (electronic shutdown or constant current) DIP switch "STDA", "STDB" Defines the ON time of the outputs (0 ms, 25 ms, 100 ms, load-optimized) DIP switch "P1+2" Parallel connection of the outputs 1 and 2 DIP switch "P3+4" Parallel connection of the outputs 3 and 4 DIP switch "WEN“ respectively „RBE1“ (EIP-Variante) Activating the web server respectively switching on output 1 "PARALLEL" status indicator Indicates the parallel connection of outputs 1 and 2 or output 3 and 4 7 8 12 10 Can also be configured in the TIA Portal and via web access! 13 Further information can be found in the SITOP PSU8600 Power Supply System Equipment Manual in Chapter 3 Operator control at the device 1 2 3 7 8 4 9 10 11 12 13 5 6 14 15 6 9 14 15 11 Unrestricted | © Siemens 2022 | SITOP PSU8600 Power Supply System | Technology slides Page 7

SITOP PSU8600 power supply system Hardware – CNX8600 expansion modules System Clip Link Cable connector for system data and power supply "OK" status indicator 3-color LED for module status LED button "ON/OFF/RST" per output 3-color LED for status display per output Button for manually connecting and disconnecting the outputs Button for reset after electronic shutdown Potentiometer "U (V)" Setting of the output voltage: 4…28 V DC For the 8-fold module: one pair of potentiometers for every two outputs Potentiometer "I (A)" Setting of the response threshold: 0.5…2.5 A or 0.5…5 A or 0.5…10 A For the 8-fold module: one pair of potentiometers for every two outputs Overload behavior 100 to 150% of set value: disconnection after 5 s Above 150% of the set value: current limitation and disconnection after 200 ms DC outputs 4 outputs each with 5 or 10 A 8 outputs with 2.5 A each and 100 VA power limitation according to NEC Class 2 1 2 3 4 The module can only be replaced when it is switched off! Further information can be found in the SITOP PSU8600 Power Supply System Equipment Manual in Chapter 2.2 Description of the expansion modules and Chapter 3 Operator control at the device 1 2 3 6 4 x 5 A 4 x 10 A 8 x 2.5 A with NEC Class 2 4 5 6 5 Unrestricted | © Siemens 2022 | SITOP PSU8600 Power Supply System | Technology slides Page 8

SITOP PSU8600 power supply system Hardware – BUF8600 buffer modules System Clip Link Cable connector for system data and power supply "OK" status indicator 3-color LED for module status Control contact "ON" and signaling contacts "READY", "BUF" Remote ON/OFF (to deactivate buffering, e.g. when shutting down the system) Signaling contact (NO contact) "Charge state > x %" (can be adjusted in the TIA Portal) Signaling contact (NO contact) "Buffer mode" 1 2 3 100 ms/40 A 300 ms/40 A 1 2 3 1 2 3 4 s/40 A 10 s/40 A The module can only be replaced when it is switched off! Further information can be found in the SITOP PSU8600 Power Supply System Equipment Manual in Chapter 2.3 Description of the buffer modules Unrestricted | © Siemens 2022 | SITOP PSU8600 Power Supply System | Technology slides Page 9

SITOP PSU8600 power supply system Hardware - UPS8600 UPS modules System Clip Link Cable connector for system data and power supply Status indicators "OK" and "BAT" 3-colored LEDs for status of UPS module and status of the connected battery modules DIP switch "CHRG LOW", "PRE CHRG" and "START PRY1" Switching over the charging power 120 W/60 W Preferred charging of the energy storage before activation of the system outputs Only activation of output 1 when starting from the battery "TIMER" DIP switch for buffer time limiting 6 DIP switches for an adjustment range from 1 to 88 minutes Prevents unnecessary discharging of the battery module during buffering operation 1 2 3 4 Control contacts "ON" and "START" Activate/deactivate buffering operation Start from the battery (stand-alone mode) Signaling contacts "READY", "BUF", and "OK" Sufficient buffer readiness Buffering operation Fault in battery circuit Power connection "+" and "-" Connection of the external energy storage A maximum of 5 BAT8600 battery modules or a third-party battery module Communication connection "COM1" and "COM2" (Energy Storage Link) Automatic detection of the BAT8600 system battery module, which results in temperature-controlled charging characteristics and diagnostics capability 6 7 8 Can also be configured in the TIA Portal and via web access! Further information can be found in the SITOP PSU8600 Power Supply System Equipment Manual in Chapter 2.4 Description of the UPS module and Chapter 3 Operator control at the device 8 4 1 2 3 7 5 5 6 Unrestricted | © Siemens 2022 | SITOP PSU8600 Power Supply System | Technology slides Page 10

SITOP PSU8600 power supply system Hardware – BAT8600 battery modules Cover with recesses For opening and replacing the battery packs Fuse Short-circuit protection Guaranteed replacement Immediate replacement available when needed Reset button (under the enclosure cover) Reset of the service life counter after replacing the batteries Status indicator "OK" 3 yellow LED for indicating the battery status Keyhole mounting For wall mounting Communication connection "COM1" and "COM2" (Energy Storage Link) Automatic detection of the BAT8600 system battery module, which results in temperature-controlled charging characteristics and diagnostics capability Double terminals for connecting additional battery modules Power connection "+" and "-" Connection of the energy storage with the UPS module Double terminals for connecting additional battery modules 1 2 3 4 5 7 The internal batteries can also be replaced during operation! Further information can be found in the SITOP PSU8600 Power Supply System Equipment Manual in Chapter 2.5 Description of the battery modules and 4.7 Service life of the batteries and handling 1 3 2 5 8 6 4 7 8 6 Unrestricted | © Siemens 2022 | SITOP PSU8600 Power Supply System | Technology slides Page 11

Overload tripping Using a "Reset", after a wait time of 5 seconds – LED "ON/OFF/RST" flashes red – the disconnected output can be reconnected. Performing the reset Reset using the button on the device After an overload condition, the output can be reset using the button Each output can be individually reset Remote reset via terminal "RST" Remote reset signal  terminal "RST" – non- isolated 24 V input (referred to the "0V" terminal of the device) A common reset is carried out for an input level of > 15 V for at least 100 ms  for all outputs that were shut down as a result of an overload condition SITOP PSU8600 power supply system Hardware – Electronic monitoring of the outputs Set value Response 0...100% No shutdown - LED "ON/OFF/RST" lights up green 101...149% Overload current permissible for 5 seconds - LED "ON/OFF/RST" flashes green Then the output is electronically shut down - LED "ON/OFF/RST" lights up red > 149% Current limitation to 150 % After approx. 200 ms , the output is electronically shut down - LED "ON/OFF/RST" lights up red 1 Output number 2 Button (illuminated with LED) Can also be configured in the TIA Portal and via web access! 2 Further information is provided in the SITOP PSU8600 Power Supply Equipment Manual in Chapter 3.3 Overload shutdown and carrying out a reset Unrestricted | © Siemens 2022 | SITOP PSU8600 Power Supply System | Technology slides Page 12

Switching over the operating mode MANUAL (settings at the device) – REMOTE (remote control) If the device powers up in MANUAL operating mode, the settings which were made directly at the device with the potentiometers and selector switches apply. For an unchanged system configuration, the outputs are activated with the last operating state before shutdown. Activating the MANUAL operating mode With the power supply system shut down , bring the DIP switch "REN" into the "OFF" position (left). Activating the REMOTE operating mode With the power supply system shut down , bring the DIP switch "REN" into the "ON" position (right). If the device powers up in REMOTE operating mode, the configuration parameter assigned to the device by the associated control applies. For an unchanged system configuration, the outputs are activated with the parameters and operating states saved in the configuration. SITOP PSU8600 power supply system Hardware – Operating modes of the system Reading access in the "Manual" mode via SIMATIC or web server possible. OFF ON OFF ON Further information is provided in the SITOP PSU8600 Power Supply Equipment Manual in Chapter 3.4 MANUAL and REMOTE operating modes Unrestricted | © Siemens 2022 | SITOP PSU8600 Power Supply System | Technology slides Page 13

Prioritized supply for output 1 when the power fails Prioritizing output 1 means that the longest possible buffer time is ensured at this output. All outputs have the same priority during buffering With the power supply system shut down , bring DIP switch "PRY 1" into the "OFF" position (left). Prioritizing output 1 during buffering With the power supply system shut down , bring DIP switch "PRY 1" into the "ON" position (right). Outputs 2...n, which are switched off after approximately half of the nominally available buffer time in the event of a power failure due to the activated prioritization of output 1, are automatically switched on again when the power returns! For the basic device, the nominal buffer time is typically 15 ms; the buffer time can be extended using additional buffer modules. If outputs 1 and 2 are connected in parallel, the prioritization applies to the common output in the event of a power failure. SITOP PSU8600 power supply system Hardware – Prioritization output 1 in case of a power failure Configuration is also possible in the TIA Portal and via web access! OFF ON Further information is provided in the SITOP PSU8600 Power Supply Equipment Manual in Chapter 3.5 Prioritization when the line supply fails OFF ON Unrestricted | © Siemens 2022 | SITOP PSU8600 Power Supply System | Technology slides Page 14

"MANUAL" operating mode – for output 4 DIP switch "UI-4" – operating mode of output 4 can be selected Electronic shutdown activated Constant current activated "REMOTE" operating mode (TIA Portal / web server) – can be individually configured for each output SITOP PSU8600 power supply system Hardware – Overload response of the outputs Selectable overload response – electronic shutdown and constant current Two overload responses can be defined for the outputs. Operating mode Response Electronic shutdown Overload current is permitted for 5 seconds – LED "ON/OFF/RST" flashes green Then the output is electronically shut down - LED "ON/OFF/RST" lights up red. Function is the same as for the SITOP PSE200U selectivity module. Constant current Overload current is permanently permitted according to a defined characteristic (U/I characteristic) Limited to 150% of the set value for 5 s – LED "ON/OFF/RST" of the output quickly flashes green The current is then limited to 100% of the set value - LED "ON/OFF/RST" of the output slowly flashes green - as long as there is an overload condition A constant current is then selected, for example, if the output should not be shut down for higher currents (this is used, for example, when charging a battery) The overload response can only be defined when the power supply system is switched off! Electronic shutdown Constant current OFF ON I [A] U [V] I N [A] U N [V] I [A] U [V] I N [A] U N [V] > 5 s Further information is provided in the SITOP PSU8600 Power Supply Equipment Manual in Chapter 3.6 ELECTRONIC SHUTDOWN and CONSTANT CURRENT operating modes Unrestricted | © Siemens 2022 | SITOP PSU8600 Power Supply System | Technology slides Page 15

Setting the ON time of the outputs An ON time between the outputs can be selected to reduce the load. When the ON time is activated, the outputs are sequentially switched on with 25 ms or 100 ms delay time. The ON time applies for all outputs of the system. Switched-off outputs are not considered. No ON time ON time 25 ms ON time 100 ms Load-optimized ON time SITOP PSU8600 power supply system Hardware – Specifying the ON time STDA STDB STDA STDB STDA STDB STDA STDB Can also be configured with individual times in the TIA Portal and via web access! ON ON ON ON OFF OFF OFF OFF OFF ON STDA OFF ON STDB Further information is provided in the SITOP PSU8600 Power Supply Equipment Manual in Chapter 3.7 Setting the on delay Unrestricted | © Siemens 2022 | SITOP PSU8600 Power Supply System | Technology slides Page 16

Parallel connection of two outputs at the basic unit In order to supply a load feeder with a higher current than the permanently maximum possible current of a single output of the basic device, two outputs of the basic device can be connected in parallel respectively. Deactivating the parallel connection of the outputs Set the DIP switches "P 1+2" or 3+4 into the "OFF" position (left), with the power supply system disconnected . Activating the parallel connection of the outputs Set the DIP switches "P 1+2" or 3+4 into the "ON" position (right), with the power supply system disconnected . Outputs 1 and 2 or 3 and 4 of the basic unit can be operated in parallel. The switchover to parallel operation means that the outputs involved are synchronized and controlled together. SITOP PSU8600 power supply system Hardware – Parallel connection of the outputs Can also be configured in the TIA Portal and via web access! Further information is provided in the SITOP PSU8600 Power Supply Equipment Manual in Chapter 3.8 Connecting outputs of the basic unit in parallel OFF ON OFF ON P1+2 OFF ON P3+4 Unrestricted | © Siemens 2022 | SITOP PSU8600 Power Supply System | Technology slides Page 17

Activating the web server A web server is integrated on the SITOP PSU8600 basic unit. This permits remote monitoring and diagnostics, e.g. to query active currents and prevailing messages. DIP switch "WEN" is used to make the switchover. Deactivating the web server Bring the DIP switch "WEN" into the OFF position (left). Activating the web server Bring the DIP switch "WEN" into the ON position (right). SITOP PSU8600 power supply system Hardware – Activating the web server If there is no active connection, then parameters can also be write accessed via the web server. OFF ON OFF ON Further information is provided in the SITOP PSU8600 Power Supply Equipment Manual in Chapter 3.9 Activate the web server for the MANUAL operating mode on the module Unrestricted | © Siemens 2022 | SITOP PSU8600 Power Supply System | Technology slides Page 18

Switching on output 1 when the device starts up in operating mode REMOTE ( EtherNet /IP variant) The basic device has got the option to switch on output 1 in operating mode REMOTE at every start up . This means that the controller can be supplied immediately prior to the EtherNet /IP connection to the supplied controller is established for the first time and a configuration can be transferred to the device. In the course of commissioning process, a change to the operating mode MANUAL for the first startup can be avoided which simplifies commissioning Deactivating switch-on behavior Bring the DIP switch “RBE1" into the OFF position (left). Activating switch-on behavior Bring the DIP switch " RBE1 " into the ON position (right). SITOP PSU8600 power supply system Hardware – Switching on output 1 when the device starts up (EIP variant ) The switch-on behavior of output 1 in operating mode MANUAL is not affected by this feature! OFF ON Further information is provided in the SITOP PSU8600 Power Supply Equipment Manual in Chapter 3.9 OFF ON Unrestricted | © Siemens 2022 | SITOP PSU8600 Power Supply System | Technology slides Page 19

Adapting the charging power of the UPS module to the system power When configuring, the UPS module should be considered as an output of the power supply system; this means that the charging power of the UPS module should be subtracted from the system power available for the outputs. To adapt the effect of the charging power to a 480 W system, this can be switched over between 120 W and 60 W. Charging power 120 W With the power supply system shut down , bring the DIP switch "CHRG LOW" into the "OFF" position (left). Charging power 60 W With the power supply system shut down , bring the DIP switch "CHRG LOW" into the "ON" position (right). If the power supply system is completely utilized by the loads connected at the outputs, then there is no charging operation for the battery module connected to the UPS module. SITOP PSU8600 power supply system Hardware – Setting the charging power of the UPS module Can also be configured in the TIA Portal and via web access! Further information is provided in the SITOP PSU8600 Power Supply Equipment Manual in Chapter 3.12 Setting the charging power of the UPS module OFF ON OFF ON Unrestricted | © Siemens 2022 | SITOP PSU8600 Power Supply System | Technology slides Page 20

Prefer charging mode for a system start The power supply system can be configured so that all of the buffer modules and battery modules are charged up to a specified level before the power supply system outputs are activated. Activate outputs immediately after a system start With the power supply system shut down , bring the DIP switch "PRE CHRG" into the "OFF" position (left). Only activate outputs after a specified charging state has been reached With the power supply system shut down , bring the DIP switch "PRE CHRG" into the "ON" position (right). If the power supply system is completely utilized by the loads connected at the outputs, then there is no charging operation for the battery module connected to the UPS module. SITOP PSU8600 power supply system Hardware – Prioritized charging operation upon system start Can also be configured in the TIA Portal and via web access! Further information is provided in the SITOP PSU8600 Power Supply Equipment Manual in Chapter 3.13 Selecting the preferred charging mode for a system start OFF ON OFF ON Unrestricted | © Siemens 2022 | SITOP PSU8600 Power Supply System | Technology slides Page 21

Specifying a maximum buffer time Using the timer, a maximum buffer time can be set in order to prevent the battery module from being unnecessarily deep discharged. The buffer time limit is set at the 6 DIP switches of the timer. No specification of a buffer time limit With the power supply system switched off , place all DIP switches of the timer into the "OFF" position (left). Specifying a buffer time limit With the power supply system switched off , place a DIP switches of the timer into the "ON" position (right) to set the buffer time limit to the selected time. With additional DIP switches of the timer set to "ON" (to the right), additional times can be added. If no buffer time limitation is activated (all DIP switches of the timer set to "OFF"), the battery modules are discharged down to the deep discharge threshold in the event of a correspondingly long power failure. SITOP PSU8600 power supply system Hardware – Activating the buffer time limiting Can also be configured in the TIA Portal and via web access! Further information is provided in the SITOP PSU8600 Power Supply Equipment Manual in Chapter 3.15 Specifying the buffer time limiting OFF ON OFF ON Unrestricted | © Siemens 2022 | SITOP PSU8600 Power Supply System | Technology slides Page 22

Deactivating buffering operation or ending it during operation Using the control contact "ON" (terminals "X1" and "X2") at the SITOP BUF8600 buffer module with double-layer capacitors or at the SITOP UPS8600 UPS module, buffering operation can be activated, deactivated or exited when the power fails. This especially makes sense during normal pauses in operation to prevent unnecessary discharging of the buffer components. Activating buffering operation Close the connection between terminals "X1" and "X2" (delivery state: wire jumper). If there is a power failure, the power supply system is automatically buffered using the buffer component. Deactivating or exiting buffer mode Open the connection between terminals "X1" and "X2" (e.g. via NC contact in the system). If the power fails, the system is not buffered using the buffer components. Buffering operation is immediately exited if the connection is opened during buffering. If there are two buffer components in the system, the opening of a control contact connection causes the second buffer components to also be deactivated or disconnected. This also applies to buffer modules with electrolytic capacitors without control contact. SITOP PSU8600 power supply system Hardware – Deactivating buffering operation Buffering operation can also be activated and deactivated or exited via a remote command. Further information can be found in the SITOP PSU8600 Power Supply System Equipment Manual in Chapter 3.10 Activating and deactivating buffer operation 1 1 Unrestricted | © Siemens 2022 | SITOP PSU8600 Power Supply System | Technology slides Page 23

Work sequence when replacing an individual component Disconnect the basic unit and wait until all LEDs of the system have gone dark. Loosen all of the plug-in terminals of the component to be replaced; in addition the PROFINET connection when replacing the basic unit, if necessary. Open the cable connector at the component to be replaced and at the component to the right (if there is one). Unsuspend the component to be replaced and suspend the new component of the same type into position. Close the cable connector to the adjacent components. Connect all of the plug-in terminals to the new component and check to ensure the wiring is correct. Restore the PROFINET connection, if applicable, if you replaced the basic unit. Check all of the settings on the new components to ensure that the correct values are set. Reconnect the basic device to the power supply. In the "MANUAL" operating mode, the new component is put back into operation using the potentiometer and DIP switch settings. In the "REMOTE" operating mode, the new component is activated using the parameters stored in the configuration. The outputs of a new basic unit or expansion module must additionally be activated by pressing on the respective button. SITOP PSU8600 power supply system Hardware – Replacing system components The replacement of individual components is only permitted if the device is de-energized! 2 Further information is provided in the SITOP PSU8600 Power Supply Equipment Manual in Chapter 4.4 Removing and 4.5 Replacing individual components 2 3 3 1 1 1 2 Unrestricted | © Siemens 2022 | SITOP PSU8600 Power Supply System | Technology slides Page 24

Special case: remote operation and associated control is supplied via an output of the PSU8600 After replacing the basic unit, all of the outputs go into the "manually switched off" operating state. When starting the system in "REMOTE" mode, the output, with which the associated control is supplied, cannot be manually switched on. As a consequence, it does not go into operation and therefore the power supply system is not automatically parameterized from the control. Disconnect the basic unit and wait until all LEDs of the system have gone dark. Bring the DIP switch "REN" into the "OFF" position ("MANUAL" mode). Reconnect the basic device to the power supply. Check the potentiometer setting at the output which supplies the associated controller and then activate the output by pressing on the corresponding button . The control is supplied and now parameterizes the power supply system. The power supply system has been completely parameterized if the "RUN" LED lights up green. Disconnect the basic unit and wait until all LEDs of the system have gone dark. Bring DIP switch "REN “ into the "ON" position ("REMOTE" operating mode). Reconnect the basic device to the power supply. In "REMOTE" operating mode, the system starts with the settings as parameterized in the associated control. SITOP PSU8600 power supply system Hardware – Replacing a system component – Basic unit replacement In "REMOTE" operating mode, the system is automatically parameterized by the associated control. 3 1 2 3 1 1 2 Unrestricted | © Siemens 2022 | SITOP PSU8600 Power Supply System | Technology slides Page 25

Work sequence when replacing batteries in a battery module Remove the fuse at the battery module where you wish to replace the batteries. Remove the screws on the cover of the battery module and open the cover. Disconnect all of the plug-in connectors from the batteries. Remove all of the old batteries from the battery module and dispose of them properly. Place new batteries of the same type into the battery module. Connect the batteries from "-" to "+" (    ) according to the wiring diagram . Once wiring has been completed, the LED flashes red for 5 minutes to request that you immediately reset the service life counter.  Press the RESET button for at least 5 seconds within the 5 minute time window to reset the service life counter. The LED on the battery module alternately flashes red/green for 5 seconds as confirmation. Close the cover and screw in the screws on the cover Reinsert the fuse. Typically the battery module is automatically detected by the UPS Module after 5 seconds. When replacing the batteries, always use batteries with the same batch number and with approximately the same charged state! SITOP PSU8600 power supply system Hardware – Replacing batteries in a battery module The batteries can be replaced both when the battery module is disconnected and during operation! Further information can be found in the SITOP PSU8600 Power Supply System Equipment Manual in Chapter 4.7.3 Replacing batteries in a battery module 1 1 3 Wiring diagram 3 2 2 2 Unrestricted | © Siemens 2022 | SITOP PSU8600 Power Supply System | Technology slides Page 26

Agenda Positioning 1 3 Hardware 2 6 System integration 4 43 Technical specifications 5 46 6 53 Applications 58 Service, support and training 8 61 Benefits 3 27 Ordering overview 7 Unrestricted | © Siemens 2022 | SITOP PSU8600 Power Supply System | Technology slides Page 27

SITOP PSU8600 power supply system Integrated PROFINET interface Industrial Ethernet/PROFINET interface with 2 ports Additional setting options in the TIA Portal: Individual outputs can be switched on and switched off to save energy, e.g. using the PROFIenergy protocol The output voltage of each output can be changed by means of a program to permit the variable supply of loads, e.g. fans Additional diagnostic options in the TIA Portal: Early detection of dynamic, continuous or increasingly recurring overload states with the aid of momentary current values Status message of the outputs (on, off, overload) Outputs can be freely parameterized for messages regarding preventive maintenance Detection and logging of short-term power failures to analyze the network quality Acquisition of the energy data (current, voltage) of each output to determine possible energy savings Pre-alarm for system overload and overtemperature Further is provided in the SITOP PSU8600 Power Supply Equipment Manual in Chapter 6.4 Establishing a PROFINET connection Unrestricted | © Siemens 2022 | SITOP PSU8600 Power Supply System | Technology slides Page 28

SITOP PSU8600 power supply system System integration – Siemens software tools for the SITOP PSU8600 Engineering in the TIA Portal SITOP PSU8600 can be used with STEP 7 in the TIA Portal from Version 13. For Version 13, SITOP PSU8600 must be saved in the hardware catalog of STEP 7 in the TIA Portal via HSP (Hardware Support Package). In Version 14 the PSU8600 is already included in the hardware catalog. The power supply system can thus be integrated in projects, parameterized and diagnosed. Engineering in STEP 7 V5 The PSU8600 can be used with STEP 7 from Version 5.5 and higher. After the SITOP PSU8600 has been saved in the hardware catalog of STEP 7 via GSD (Generic Station Description), it can be integrated into projects, parameterized, and diagnosed. Engineering with SITOP Manager Commissioning, online/offline engineering, diagnostics, operator control and monitoring, SITOP Shutdown Service for PCs Engineering via web server After it has been activated – via STEP 7 or DIP switch "WEN" set to "ON" – the PSU8600 can be parameterized and diagnosed. Engineering via Ethernet and OPC UA server The PSU8600 can both be configured via the flexible, manufacturer-independent OPC UA communication – even during operation – and provide operating and diagnostic data Further is provided in the SITOP PSU8600 Power Supply Equipment Manual in Chapter 7 Engineering and remote access Unrestricted | © Siemens 2022 | SITOP PSU8600 Power Supply System | Technology slides Page 29

SITOP PSU8600 power supply system System integration – Engineering in the TIA Portal The SITOP PSU8600 power supply system can be used in SIMATIC STEP 7 in the TIA Portal. There the basic unit and its expansion modules can be integrated, parameterized and diagnosed in projects. Switching to the network view Inserting SITOP PSU8600 from the hardware catalog Assigning the SITOP PSU8600 to a controller Switching to the device view Assigning add-on modules to the basic unit 1 2 3 4 2 5 1 Further is provided in the SITOP PSU8600 Power Supply Equipment Manual in Chapter 7.3 SIMATIC STEP 7 in the TIA Portal 4 5 3 Unrestricted | © Siemens 2022 | SITOP PSU8600 Power Supply System | Technology slides Page 30

SITOP PSU8600 power supply system System integration – SITOP Manager Ethernet PSU8600 BUF8600 CNX8600 SITOP Manager UPS8600 BAT8600 Energy Storage Link SITOP Manager SITOP Shutdown Service Online and offline engineering of several PSU8600 incl. UPS8600, UPS1600, UPS500S and DC UPS modules with USB interface, even during operation Loading and saving of SITOP Manager project files Management and diagnostics of multiple power supply systems, both with PROFINET/Ethernet interface as well as USB port Online functions, e.g. firmware update Continuous monitoring, including status display Targeted shutdown of one or multiple PCs in case of power failure SITOP Manager – Engineering and monitoring software for SITOP power supplies with communication capability For download see 109760607 Unrestricted | © Siemens 2022 | SITOP PSU8600 Power Supply System | Technology slides Page 31

SITOP PSU8600 power supply system System integration – Web server Easy remote access to device information Integrated web server List of all diagnostic messages (overall system, modules, outputs) Identification and maintenance data Status information and operating data (overall system, modules, outputs) The present configuration is displayed (the manual unit setting as well as the settings loaded via PROFINET) Reconfiguration during runtime (for operation without SIMATIC S7 control system) Manual device settings can be simply adopted as PROFINET configuration (for operation without SIMATIC S7 control system) The user can externally save the configuration and message lists as file Access to the web server PROFINET interfaces of the PSU8600 via HTTPS or HTTP "Logout" button Language selection Uploading a configuration to the device Editor area Navigation submenus Menu selection 1 2 3 4 5 6 5 1 2 3 4 6 Further is provided in the SITOP PSU8600 Power Supply Equipment Manual in Chapter 7.7 Web server Unrestricted | © Siemens 2022 | SITOP PSU8600 Power Supply System | Technology slides Page 32

SITOP PSU8600 power supply system System integration – Engineering via web server Accessing the web server Connect the client (PG/PC) via the PROFINET interface with the CPU. When commissioning the system for the first time, assign the SITOP PSU 8600 an IP address via SIMATIC STEP 7, SIMATIC Primary Setup Tool (PST), or using the DIP switches "WEN" and "REN". Open the web browser. In the address dialog box of the web browser, enter the IP address of the SITOP PSU8600 in the form http://ww.xx.yy.zz (example: https://192.168.0.14 ). Press the ENTER key. The system overview opens with essential component diagnostic parameters. Press the Logon button. Enter the logon information on the following logon page. Initial values: admin/admin. Assign an IP address via SIMATIC STEP 7, the SIMATIC Primary Setup Tool (PST), or using the DIP switches "WEN" and "REN". The web server is activated via SIMATIC STEP 7 V5, STEP 7 in the TIA Portal, or by setting the DIP switch "WEN" to "ON". Web server access from firmware V1.1 possible via HTTPS (= encrypted, default setting) or HTTP (= unencrypted). Further is provided in the SITOP PSU8600 Power Supply Equipment Manual in Chapter 7.7 Web server Notes Unrestricted | © Siemens 2022 | SITOP PSU8600 Power Supply System | Technology slides Page 33

SITOP PSU8600 power supply system System integration – Parameterization Area navigation Description Device configuration General Define prioritization of buffering for output 1 in the event of a power failure Define the parallel connection of the outputs of the basic unit Define a threshold to issue an alarm Define the system's switch-on response Dead time for system overload alarm message Buffering Deactivate the buffer component using a control command Activate the "LONGLIFE" operating mode Define the threshold value for the "Sufficient buffer readiness" message Activate short-time interruption at output 1 and parameterize times Define discharging sequence when there are two UPS modules Activate preferred charging mode Activate connection of output 1 only from the battery module Output 1 … 4 Connect and disconnect output Output voltage setpoint Response threshold of output current Define a threshold to issue an alarm. An alarm is output if this is continually exceeded for 5 ms. PROFIenergy Here, you can activate and configure energy management based on PROFIenergy. Web server General Possibility of accessing via a web server (yes/no) Automatic logoff when closing the web server (yes/no) Permit access only via HTTPS (yes/no) Automatic update Activate automatic update (yes/no) Time interval for the update The SITOP PSU8600 can be parameterized in several ways: Manually on the device, via SIMATIC STEP 7, or via the web server Parameters of the basic unit Further is provided in the SITOP PSU8600 Power Supply Equipment Manual in Chapter 7.3.5 Parameter assignment Unrestricted | © Siemens 2022 | SITOP PSU8600 Power Supply System | Technology slides Page 34

SITOP PSU8600 power supply system System integration – Parameterization Area navigation Description Module configuration Output 1 … 4 or 1 … 8 Connect and disconnect output Output voltage setpoint Response threshold of output current Define a threshold to issue an alarm Define the ON time Define the ELECTRONIC SHUTDOWN or CONSTANT CURRENT operating modes Further is provided in the SITOP PSU8600 Power Supply Equipment Manual in Chapter 7.3.5 Parameter assignment Parameters of the expansion modules Area navigation Description Module configuration General Define the charging power Define the battery test interval Activate buffer time limiting and define maximum buffer time Battery When using BAT8600 battery modules, no parameters have to be entered, because the battery modules are automatically detected by the UPS module via the Energy Storage Link. When battery modules from third-party suppliers are used, various battery parameters must be entered. Parameters of uninterruptible power supply Unrestricted | © Siemens 2022 | SITOP PSU8600 Power Supply System | Technology slides Page 35

Example use cases Detection of dynamic, continuous or increasingly recurring overload states Detection of the selection instant for brief voltage dips on the line side (indicator for the quality of the line supply) SITOP PSU8600 power supply system System integration – Diagnostics Diagnostics options Integrated PROFINET communication permits comprehensive data transparency Complete integration in TIA offers comprehensive evaluations of operating data and diagnostic options The integrated web server permits simple remote diagnostics via the Internet Further is provided in the SITOP PSU8600 Power Supply Equipment Manual in Chapter 7.3.7 Diagnostics Unrestricted | © Siemens 2022 | SITOP PSU8600 Power Supply System | Technology slides Page 36

SITOP PSU8600 power supply system System integration – Diagnostics Area navigation Description General Module Short code Order number Hardware Module information Device name Module name Higher level designation Location designation Manufacturer information Description of manufacturer Serial number Copyright entry Profile Profile details Diagnosis state Status List of detailed information Standard diagnostics List of detailed information PROFINET interface Ethernet address / network connection MAC address Ethernet address / IP parameter IP address Subnet mask Default router IP settings IP setting time Ports List of ports Further is provided in the SITOP PSU8600 Power Supply Equipment Manual in Chapter 7.3.7 Diagnostics Unrestricted | © Siemens 2022 | SITOP PSU8600 Power Supply System | Technology slides Page 37

SITOP PSU8600 power supply system System integration – Diagnostics Area navigation Description Functions Assign IP address MAC address IP address Subnet mask Router address Firmware update / PSU8600 Order number Firmware Name Rack Slot Firmware file Firmware version Suitable for modules with status Assign name PROFINET device name Type Reset to factory settings MAC address IP address PROFINET device name Further is provided in the SITOP PSU8600 Power Supply Equipment Manual in Chapter 7.3.7 Diagnostics Unrestricted | © Siemens 2022 | SITOP PSU8600 Power Supply System | Technology slides Page 38

SITOP PSU8600 power supply system System integration – Energy management Acquisition of the energy data of all outputs in operation Extensive transparency regarding the load behavior Further processing in energy management systems Support of the PROFIenergy profile Identification of PROFIenergy commands such as start/end of pause Profile parameterization ( e.g. "Time to pause" or "Save power consumption") Targeted disconnection of the outputs by parameterization in the TIA Portal Customer benefits Energy saving during idle times Reduced energy costs Unrestricted | © Siemens 2022 | SITOP PSU8600 Power Supply System | Technology slides Page 39

SITOP PSU8600 power supply system System integration – Operating modes MANUAL and REMOTE If the device powers up in MANUAL operating mode, the settings which were made directly at the device with the potentiometers and selector switches apply. For an unchanged system configuration, the outputs are activated with the last operating status before shutdown. If the device powers up in REMOTE operating mode, the configuration parameter set assigned to the device by the associated control applies. For an unchanged system configuration, the outputs are activated with the parameters and operating states saved in the configuration. If the last operating state of an output before shutdown was "Manual shutdown" (LED "ON/OFF/RST" of the output lights up yellow) "Automatic shutdown due to overload" (LED "ON/OFF/RST" of the output lights up red) "Ready for reset" (LED "ON/OFF/RST" of the output flashes red), then these operating states are assumed again when the system starts. In REMOTE mode, the operating states and parameters of the outputs can be changed during operation by the program. Important: Only switch the operating modes when the power is off! OFF ON Further information is provided in the SITOP PSU8600 Power Supply Equipment Manual in Chapter 3.4 MANUAL and REMOTE operating modes Unrestricted | © Siemens 2022 | SITOP PSU8600 Power Supply System | Technology slides Page 40

SITOP PSU8600 power supply system System integration – HW configuration Transferring the MANUAL configuration into the REMOTE configuration via web server If modules are added or removed, the system must always be aligned/synchronized before parameters are changed. Using the "Transfer MANUAL configuration to REMOTE configuration" function, you load the hardware configurations and parameterization (potentiometer and switch settings) of all installed units into the REMOTE configuration of the system. Procedure Select the "HW configuration" menu. Select the "General" submenu. Select the "System configuration" entry. To transfer the actual system expansion stage, click in the editor area on "Synchronize configuration" To transfer potentiometer and switch settings to the web server, click in the editor area on "MANUAL >> REMOTE" The system has been synchronized. 1 2 1 2 Unrestricted | © Siemens 2022 | SITOP PSU8600 Power Supply System | Technology slides Page 41

SITOP PSU8600 power supply system System integration Communication via Ethernet interface and OPC UA (certified) or PROFINET Complete integration into networked automation applications Device configuration – Configuration changes even during operation Provision of operating and diagnostics data Setting of values on the power supply But also: open manufacturer-independent communication via OPC UA and remote monitoring and diagnostics OPC UA client OPC UA server Answer Request Network-capable PSU8600 power supply system Program-controlled setting options: Voltage per output Switching individual outputs on/off Diagnostics options: Overload states and prewarning of overload Status message of the outputs Power failures Acquisition of energy data Monitoring the input voltage Unrestricted | © Siemens 2022 | SITOP PSU8600 Power Supply System | Technology slides Page 42

SITOP PSU8600 power supply system System integration – Integrated EtherNet /IP interface EhterNet /IP interface with 2 ports Additional setting options in the Rockwell Automation Studio 5000: Individual outputs can be switched on and switched off to save energy The output voltage of each output can be changed by means of a program to permit the variable supply of loads, e.g. fans Additional diagnostic options in the in the Rockwell Automation Studio 5000: Early detection of dynamic, continuous or increasingly recurring overload states with the aid of momentary current values Status message of the outputs (on, off, overload) Outputs can be freely parameterized for messages regarding preventive maintenance Detection and logging of short-term power failures to analyze the network quality Acquisition of the energy data (current, voltage) of each output to determine possible energy savings Pre-alarm for system overload and overtemperature Further is provided in the SITOP PSU8600 Power Supply Equipment Manual in Chapter 6.4 Unrestricted | © Siemens 2022 | SITOP PSU8600 Power Supply System | Technology slides Page 43

SITOP PSU8600 power supply system. System integration – Engineering in Rockwell Automation Studio 5000 (EIP variant) The power supply system SITOP PSU8600 with EtherNet /IP interface can be applied in Rockwell Automation Studio 5000 via Electronic Data Sheet (EDS-Datei). There, the basic device and its expansion modules can be integrated into projects, parameterized and diagnosed. The following how-to video illustrates the basic handling : SITOP-PSU8600-EIP-startup-project_20min (highspot.com) Unrestricted | © Siemens 2022 | SITOP PSU8600 Power Supply System | Technology slides Page 44

Agenda Positioning 1 3 Hardware 2 6 System integration 4 43 Technical specifications 5 46 6 53 Applications 58 Service, support and training 8 61 Benefits 3 27 Ordering overview 7 Unrestricted | © Siemens 2022 | SITOP PSU8600 Power Supply System | Technology slides Page 45

SITOP PSU8600 power supply system Highlights Multiple individually parameterizable outputs with high efficiency and extremely small width Integration in TIA Portal or Rockwell Automation Studio 5000 saves time and money in planning and operation Modular expansion without wiring overhead for selective monitoring of outputs as well as buffering of power failures Integrated Ethernet/Profinet communication for optimum integration in the machine or plant automation Support of energy management by recording energy data and selective switching of outputs Comprehensive monitoring and diagnostics in operation for preventive maintenance Cross-vendor communication via OPC UA Single and three-phase Can also be operated in single and three-phase AC and DC supply grids + + + + + + + + Unrestricted | © Siemens 2022 | SITOP PSU8600 Power Supply System | Technology slides Page 46

SITOP PSU8600 power supply system Benefits at a glance Comprehensive data exchange through PROFINET and OPC UA or EtherNet /IP Integration in TIA Portal, SIMATIC PCS 7 and WinCC or Rockwell Automation Studio 5000 Parameterization and diagnostics via SITOP Manager Efficient support of planning and engineering tools Energy management by means of monitoring and switching the outputs, e.g. via PROFIenergy Quick and easy integration into the automation system Modular expansion to up to 36 outputs with the right buffer components Compact design: Power supply and selective monitoring all in one A high degree of flexibility thanks to multi-faceted functions Comprehensive (remote) diagnostics for preventive maintenance thanks to PROFINET and OPC UA or EtherNet /IP Selective deactivation of faulty feeders Reduced downtimes thanks to faster fault localization Bridging of power failures lasting from seconds to hours High plant availability Time savings with modular system Fast and easy connection of the add-on modules through system clip link 4 power supplies in 1 device – four individually settable output voltages Unrestricted | © Siemens 2022 | SITOP PSU8600 Power Supply System | Technology slides Page 47

Agenda Positioning 1 3 Hardware 2 6 System integration 4 43 Technical specifications 5 46 6 53 Applications 58 Service, support and training 8 61 Benefits 3 27 Ordering overview 7 Unrestricted | © Siemens 2022 | SITOP PSU8600 Power Supply System | Technology slides Page 48

SITOP PSU8600 power supply system Applications with high demands Factory automation Automotive industry, electrical devices, or electronics production Complete integration into the automation solution as well as energy management support (shutting down of plant units during idle times) Supply of loads with different supply voltages from 4 to 28 V thanks to individually parameterizable and switchable outputs Process automation Oil and gas industry High plant availability even when faults occur by providing a selectable response of the outputs (selective shutdown or current limiting with status message) Transparent system states due to extensive diagnostics and monitoring options Hybrid automation Food and beverage industry, pharmaceutical industry Minimize downtimes through modular expansion using buffer modules as well as prioritizing critical feeders Channel-specific monitoring of supplied loads (e.g. control, sensors and actuators) Unrestricted | © Siemens 2022 | SITOP PSU8600 Power Supply System | Technology slides Page 49

Customer interview SITOP PSU8600 power supply system Application example for mechanical engineering Mechanical engineering: Production module for fully automated production lines (SIRIUS) Top features Monitoring of feeders for overload (diagnostics) Acquisition of 24 V consumption values (energy balance, preventive maintenance) Disconnection of 24 V loads (energy savings during idle times) Output voltage can be adjusted (compensation for cable losses) PROFINET 24 V DC PROFIBUS clamps 3VA COM100 I/O signal Load Signal Door Fan Drives Smart Line Module Device Device Drives Drives Drives S7-1500 Touch Panel Mobile Panel Scalance ET200SP ET200SP ET200SP Scalance ET200pro ET200pro MV420 Unrestricted | © Siemens 2022 | SITOP PSU8600 Power Supply System | Technology slides Page 50

SITOP PSU8600 power supply system Application example IPC Ramping down an IPC with software controller in the buffer range of SITOP PSU8600 Top features Time and cost saving by simply implementing a monitoring routine Solution for operating automation components after a power failure without having to install a fixed UPS Possibility of safely and reliably operating an IPC with software controller Through buffer operation, data and software protected against loss or damage More information! When the power fails, SITOP PSU8600 initiates buffering operation and supplies itself and the IPC477D, the charge state of the buffer module decreases. The device status of the SITOP PSU8600 unit and the actual charge state of the buffer module is read out of the power supply system data. From a defined limit value of the charge state onwards, the SIMATIC S7-1500 Software Controller automatically initiates the ramp down of the IPC and of itself. Unrestricted | © Siemens 2022 | SITOP PSU8600 Power Supply System | Technology slides Page 51

SITOP PSU8600 power supply system Application example for faceplates SITOP PSU8600: Faceplates and communication blocks (TIA Portal, STEP 7 and WinCC) Top features Time and cost-saving using the provided function blocks and HMI faceplates Simple and extensive introduction to the topic of integrating a SITOP PSU8600 within a PROFINET network More information! The application example shows how you can integrate a SITOP PSU8600 into your automation network. Diagnostics information is therefore known in the control system and the PLC has the possibility of controlling the power supply. All of the relevant data and states of the SITOP PSU8600 are conveniently displayed at an HMI station. Unrestricted | © Siemens 2022 | SITOP PSU8600 Power Supply System | Technology slides Page 52

SITOP PSU8600 power supply system Application example for SIMATIC PCS 7 Integration of a SITOP 24 V power supply into SIMATIC PCS 7 Top features Several configuration examples involving SITOP power supplies Step-by-step instructions for configuring SITOP power supplies in PCS 7 Reduced configuration effort due to use of the SITOP library Clear and transparent demonstration project for self-study and building up knowledge More information! In the application example, the power supply of the PCS 7 system components (AS, network communication, distributed I/O) is implemented, on the one hand, using power supplies from the SITOP modular product range and a redundancy module, selectivity module or a DC UPS and, on the other hand, using the SITOP PSU8600 power supply system. Unrestricted | © Siemens 2022 | SITOP PSU8600 Power Supply System | Technology slides Page 53

SITOP PSU8600 power supply system Combination of buffer components BUF8600 Buffering for milliseconds  ideal for brownouts UPS8600 & BAT8600 Buffering for minutes up to hours  ideal for long mains failures Benefits: The buffer module avoids the discharge of battery modules in case of short-term brownouts and ensures a long lifetime of battery modules Extend the lifetime of the battery BAT8600 due to fewer charging cycles together in one system Unrestricted | © Siemens 2022 | SITOP PSU8600 Power Supply System | Technology slides Page 54

Agenda Positioning 1 3 Hardware 2 6 System integration 4 43 Technical specifications 5 46 6 53 Applications 58 Service, support and training 8 61 Benefits 3 27 Ordering overview 7 Unrestricted | © Siemens 2022 | SITOP PSU8600 Power Supply System | Technology slides Page 55

SITOP PSU8600 power supply system PSU8600 basic units – Technical specifications PSU8600 1AC 4x5 A PSU860 3AC 20 A PSU8600 3AC 4x5 A PSU8600 3AC 40 A PSU8600 3AC 4x10 A Rated input voltage 100–240 V 1AC, 110–220 V DC/ 85…275 V AC, 93…275 V DC 400-500 V 3 AC, 320-575 V 3 AC 400-500 V 3 AC, 320-575 V 3 AC 400-500 V 3 AC, 320-575 V 3 AC 400-500 V 3 AC, 320-575 V 3 AC Number of outputs 4 1 4 1 4 Rated output voltage 4…28 V DC 4…28 V DC 4…28 V DC 4…28 V DC 4…28 V DC Output current 20 A/4 x 5 A 20 A 20 A/4 x 5 A 40 A 40 A/4 x 10 A Overload behavior Electronic overload tripping or constant current response Electronic overload tripping or constant current response Electronic overload tripping or constant current response Electronic overload tripping or constant current response Electronic overload tripping or constant current response Response threshold value 0.5…5 A 2…20 A 0.5…5 A 4…40 A 0.5…10 A Overload capability 150% for 5 s/min 150% for 5 s/min 150% for 5 s/min 150% for 5 s/min 150% for 5 s/min Efficiency, approx. 92% 93% 93% 94% 94% Communication Industrial Ethernet/PROFINET with 2 ports Industrial Ethernet/PROFINET with 2 ports Industrial Ethernet/PROFINET with 2 ports Industrial Ethernet/PROFINET with 2 ports Industrial Ethernet/PROFINET or EtherNet /IP with 2 ports Connection method Plug-in terminals with screw connection Plug-in terminals with screw connection Plug-in terminals with screw connection Plug-in terminals with screw connection Plug-in terminals with screw connection Ambient temperature -25…+60 °C -25…+60 °C -25…+60 °C -25…+60 °C -25…+60 °C Dimensions (W x H x D) in mm 125 x 125 x 150 80 x 125 x 150 100 x 125 x 150 125 x 125 x 150 125 x 125 x 150 Further is provided in the SITOP PSU8600 Power Supply Equipment Manual in Chapter 9 Technical data new Unrestricted | © Siemens 2022 | SITOP PSU8600 Power Supply System | Technology slides Page 56

SITOP PSU8600 power supply system CNX8600 expansion modules - Technical specifications CNX8600 4x5 A CNX8600 4x10 A CNX8600 8x2.5 A Number of outputs 4 4 8 Rated output voltage 4…28 V DC 4…28 V DC 4…28 V DC Output current 20 A/4 x 5 A 1) 40 A/4 x 10 A 1) 20 A/8 x 2.5 A with power limitation to 100 VA acc. to NEC Class 2 1) Overload behavior Electronic overload tripping or constant current response Electronic overload tripping or constant current response Electronic overload tripping or constant current response Response threshold value 0.5…5 A 0.5…10 A 0.5…2.5 A Communication Industrial Ethernet/PROFINET via PSU8600 basic unit Industrial Ethernet/PROFINET via PSU8600 basic unit Industrial Ethernet/PROFINET via PSU8600 basic unit Connection method Plug-in terminals with screw connection Plug-in terminals with screw connection Plug-in terminals with screw connection System connection Integrated cable connector (system clip link) Integrated cable connector (system clip link) Integrated cable connector (system clip link) Number of modules in the system Maximum of 4 expansion modules CNX8600 Ambient temperature -25…+60 °C -25…+60 °C -25…+60 °C Dimensions (W x H x D) in mm 60 x 125 x 150 60 x 125 x 150 100 x 125 x 150 1) It is not possible to increase the maximum output power of the overall PSU8600 system Further is provided in the SITOP PSU8600 Power Supply Equipment Manual in Chapter 9 Technical data Unrestricted | © Siemens 2022 | SITOP PSU8600 Power Supply System | Technology slides Page 57

SITOP PSU8600 power supply system BUF8600 buffer modules - Technical specifications BUF8600 100 ms/40 A BUF8600 300 ms/40 A BUF8600 4 s/40 A BUF8600 10 s/40 A Energy storage Electrolytic capacitors Electrolytic capacitors Double layer capacitors (Ultracaps) Double layer capacitors (Ultracaps) Buffer time (at 24 V/40 A) 100 ms 300 ms 4 s 10 s Charging time, typ. 20 s 60 s 5 min 10 min Control contact - - Buffering operation ON/OFF Buffering operation ON/OFF Communication Industrial Ethernet/ PROFINET via PSU8600 basic unit Industrial Ethernet/ PROFINET via PSU8600 basic unit Industrial Ethernet/ PROFINET via PSU8600 basic unit Industrial Ethernet/ PROFINET via PSU8600 basic unit Connection method - - Plug-in terminals with screw connection (for signaling/control contacts) Plug-in terminals with screw connection (for signaling/control contacts) System connection Integrated cable connector (system clip link) Integrated cable connector (system clip link) Integrated cable connector (system clip link) Integrated cable connector (system clip link) Number of modules in the system Max. 2 buffer components (BUF8600 and UPS8600) Ambient temperature -25…+60 °C -25…+60 °C -25…+60 °C -25…+60 °C Dimensions (W x H x D) in mm 60 x 125 x 150 125 x 125 x 150 60 x 125 x 150 125 x 125 x 150 Further is provided in the SITOP PSU8600 Power Supply Equipment Manual in Chapter 9 Technical data Unrestricted | © Siemens 2022 | SITOP PSU8600 Power Supply System | Technology slides Page 58

SITOP PSU8600 power supply system UPS8600 UPS module, BAT8600 battery module – Techn . specifications UPS8600 BAT8600 Pb BAT8600 LiFePO4 Charging power 120 W / 60 W (selectable) Energy storage Lead batteries LiFePO4 batteries Buffer power 960 W Rated voltage 48 V DC 48 V DC Control contacts Buffering operation On/Off; Start from the battery (stand-alone mode) Energy content 380 Wh 264 Wh Signaling contacts Sufficient buffer readiness, buffering operation, fault in battery circuit Buffer time (960 W) 1) 10 min 14 min Communication Industrial Ethernet/PROFINET via PSU8600 basic unit Charging time, typ. 1) 165 min 160 min Connection method Plug-in terminals with screw connection Connection method Plug-in terminals with screw connection Plug-in terminals with screw connection System connection Integrated cable connector (system clip link) System connection Energy Storage Link Energy Storage Link Number of modules in system Max. 2 buffer components (BUF8600 and UPS8600) Number of modules in system Max. 5 BAT8600 battery modules of the same type per UPS8600 Ambient temperature -25…+60 °C Ambient temperature -10…+50 °C -10…+50 °C Dimensions (W x H x D) in mm 60 x 125 x 150 Dimensions (W x H x D) in mm 322 x 187 x 110 322 x 187 x 110 Further is provided in the SITOP PSU8600 Power Supply Equipment Manual in Chapter 9 Technical data 1) When a battery module is connected Unrestricted | © Siemens 2022 | SITOP PSU8600 Power Supply System | Technology slides Page 59

Agenda Positioning 1 3 Hardware 2 6 System integration 4 43 Technical specifications 5 46 6 53 Applications 58 Service, support and training 8 61 Benefits 3 27 Ordering overview 7 Unrestricted | © Siemens 2022 | SITOP PSU8600 Power Supply System | Technology slides Page 60

Basic units SITOP PSU8600 stabilized power supply with PROFINET/Industrial Ethernet connection, OPC UA server and web server integrated 1-ph. 24 V DC/ 20 A 4x5 A 3-ph. 24 V DC/ 20 A 4x5 A 3-ph. 24 V DC/ 20 A 3-ph. 24 V DC/ 40 A 4x10 A 3-ph. 24 V DC/ 40 A 6EP3336-8MB00-2CY0 6EP3436-8MB00-2CY0 6EP3436-8SB00-2AY0 6EP3437-8MB00-2CY0 6EP3437-8MB10-2CY0 (EIP) 6EP3437-8SB00-2AY0 Can be expanded individually depending on requirements SITOP PSU8600 power supply system Modular system new Unrestricted | © Siemens 2022 | SITOP PSU8600 Power Supply System | Technology slides Page 61

The SITOP PSU8600 can be expanded with add-on modules (can be combined as required) max. 4 max. 2 max. 5 CNX8600 expansion modules Buffer modules BUF8600 UPS UPS8600 BAT8600 battery modules 4x5 A 4x10 A 8x2.5 A 100 ms at 40 A 300 ms at 40 A 4 s at 40 A 10 s at 40 A 960 W Pb, 380 Wh LiFePO4, 264 Wh 6EP4436-8XB00-0CY0 6EP4437-8XB00-0CY0 6EP4436-8XB00-0DY0 6EP4297-8HB00-0XY0 6EP4297-8HB10-0XY0 6EP4293-8HB00-0XY0 6EP4295-8HB00-0XY0 6EP4197- 8AB00-0XY0 6EP4145- 8GB00-0XY0 6EP4143- 8JB00- 0XY0 ... by means of "system clip link" SITOP PSU8600 power supply system Modular system Unrestricted | © Siemens 2022 | SITOP PSU8600 Power Supply System | Technology slides Page 62

Agenda Positioning 1 3 Hardware 2 6 System integration 4 43 Technical specifications 5 46 6 53 Applications 58 Service, support and training 8 61 Benefits 3 27 Ordering overview 7 Unrestricted | © Siemens 2022 | SITOP PSU8600 Power Supply System | Technology slides Page 63

SITOP PSU8600 power supply system Service, support and training - Linkbox Catalogs, brochures, customer magazines SITOP PSU8600 web page Manuals Application examples SITOP Selection Tool 2D/3D data, EPLAN macros Certificates Data sheets Web-based training Product images CAx Download-Manager Technical tutorials Unrestricted | © Siemens 2022 | SITOP PSU8600 Power Supply System | Technology slides Page 64

SITOP PSU8600 power supply system Find out more! SITOP PSU8600 Webpage www.siemens.com/sitop-psu8600 SITOP PSU8600 Broschure Available on MPM SITOP PSU8600 Trailer https://www.youtube.com/watch?v=2C9tBtfw77s SITOP PSU8600 Animation https://www.youtube.com/watch?v=rZZqmWUTdBg SITOP PSU8600 Slides Available on MPM SITOP PSU8600 Keyvisuals DAM: https://assets.new.siemens.com/content/siemens/assets/ui/search.html#/asset/sid:4e20afc3-bfb9-43f6-8e69-8436a0b22eb3 Unrestricted | © Siemens 2022 | SITOP PSU8600 Power Supply System | Technology slides Page 65

SITOP PSU8600 power supply system Support SITOP PSU8600 support Customer support Web: http://www.siemens.com/automation/support-request Email: [email protected] Unrestricted | © Siemens 2022 | SITOP PSU8600 Power Supply System | Technology slides Page 66

Contact Subject to changes and errors. The information provided in this document contains merely general descriptions or characteristics of performance which in case of actual use do not always apply as described or which may change as a result of further development of the products. An obligation to provide the respective characteristics shall only exist if expressly agreed in the terms of contract. All product names can include registered trademarks or other rights of the Siemens Group or third parties, the unauthorized use of which may infringe the rights of the owner. Siemens AG Digital Industries Process Automation Power Supply Products DI PA DCP PP Gleiwitzer Str. 555 90475 Nuremberg Germany siemens.com/ sitop > Contact us Unrestricted | © Siemens 2022 | SITOP PSU8600 Power Supply System | Technology slides Page 67

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