2320212 - Configurators
Contents
1. Power Storage Power Storage Figure 16 Parallel connection of the power storage de vices in the control cabinet Value Description l4 Cable distance to the power storage device to the node in the case of parallel connection including fuse terminal block mm Conductor cross section to the power storage de vice Cable distance between the power storage device and node 104657_en_01 PHOENIX CONTACT 27 QUINT UPS 24DC 24DC 5 14 2 Parallel connection for redundancy Redundant circuits are suitable for supplying systems which place particularly high demands on operational safety In order to set up a redundant power supply solution two UPS systems of the same type consisting of a power supply unit DC PS redundant 1 n are connected in parallel and de coupled No further adjustments to the default setting are nec essary I lt ly I lt ly Li PE eun Pply Power Power Storage 1 Storage n 51 I lt ly I lt ly R1 R2 L2 N Power IN DC PE supply unit 2 UPS 2 Battery 0 0 Power Storage 1 Storage n Figure 17 Parallel connection for redundancy If a fault occurs in the first UPS system the second UPS sys tem automatically takes over the entire supply without inter ruption and vice versa For this purpose the UPS systems to be connected in parallel are dimensione2. 104657_en_01 PHOENIX CONTACT 24 QUINT UPS 24DC 24DC 5 11 8 The module can be switched on and off via a signal to con tacts R1 R2 Shutdown can take place in mains mode or while battery mode is active Remote control contact R1 R2 Remote shutdown is deactivated UPS in function delivery state The R1 and R2 terminal points are short circuited de livery with plug in bridge OR 24 V DC is present at termi nal point R2 Inthe event of a voltage supply failure the UPS switches over to battery mode Remote shutdown is activated The R1 and R2 terminal points are not short circuited AND O V is present at terminal point R2 Inthe event of a voltage supply failure the UPS does not switch over to battery mode and the device shuts down 12 Optionally you can the data port interface Interfaces 12 1 IFS USB DATACABLE The module is connected via the data port to the USB port of the PC using the IFS USB DATACABLE The data cable between the PC and the UPS is necessary for parameterization and monitoring It contains the interface electronics and electrical isolation 12 2 IFS CONFSTICK The IFS CONFSTICK is a multi functional memory block for easy storage and backup of configuration and parameter data You can copy the parameterization of one UPS to an other UPS of the same type using the IFS CONFSTICK Transferring UPS parameters to the IFS CONFSTICK Press the UPS gt Sti
3. e g QUINT POWER with POWER BOOST and preventive function monitoring 104657_en_01 PHOENIX CONTACT 22 QUINT UPS 24DC 24DC 5 11 6 Setting the buffer time You can set the time for exiting battery mode via the selection switch on the front of the device tmax min setting Meaning 1 2 3 5 10 15 20 The UPS switches off after the set buffer time Custom default 0 5 The UPS switches off after the individual buffer time set via UPS CONF co unlimited delivery state Buffering with the total stored power A warning is generated as soon as the power storage device only has 10 charge default PC mode In PC mode it is possible to continue working with a PC after a mains failure perform a con trolled shutdown and restart automatically 11 7 PC mode In PC mode the UPS function follows a chronological se quence that can be parameterized via the software and indi vidually optimized for the relevant application In the event of a mains failure PC can continue to work per form a controlled shutdown and restart automatically It is required that the following is installed la IFS USB DATACABLE data cable Order No 2320500 UPS COMF software Order No 2320403 available free of charge at www phoenixcontact n talog Communication cable between the UPS and the power storage device 104657_en_01 PHOENIX CONTACT 23 QUINT UPS 24DC 24D
4. GD GD OGD OO nO UD INSPIRING INNOVATIONS QUINT UPS 24DC 24DC 5 2 Table of contents 1 D SCPUON ade A Lena 1 2 Table of conte mae 2 3 SOrdering data AA A 3 A data sevceccccsezccsiesseniteccese ee nae aa oaaae ea aan eae aaraa o eaea aAa aa eenander aaisa A Autroa 4 5 Safety regulations and installation notes 8 O SUCU ssc ni aie iin le Hie ed ai ed edd ee 9 7 BASIC CIRCUIE dad Mii add os 11 8 Installation rise Ochi ea odes ire ened sudsnc scene savsesa tesuaaddiachecdaddievacsd Sesaesducdecectudscicederasdad 12 8 1 CONVECUOMN A T 12 8 2 MU RR O ON 12 8 3 Mounting ona RR cheeses 13 8 4 Connection terminal blocks coccion te Mere sages Dental trier MA me cf quais sk 14 8 5 Installation of individual components sise 15 9 Connection and protection siennes 9 1 Input and protection of the primary side 9 2 Output and protection on the secondary side 9 3 Power storage device ooocococcccoccccncnoncnnnnanananananani no nn anno 9 4 SFB technology 9 5 Power reserves 9 6 Temperature response 10 Signaling aen lel ii teal dada 10 1 LED and bar graph test 19 27 CED INGICALOF sis defect eee eee as 10 3 Bar graph display when the communication cable is installed 20 10 4 Bar graph display without communication Cable issus 20 TE PUNCO cs i tescs e Le Le ace hte ee ta nt ne lt ententes ii 21 11 11 IQtechnology sites tee ae Men eee pre A Det Set ets eo aon ae ae ae 21 11 2 SOC application
5. Red 13 14 Active low Battery mode Yellow 23 24 Active high Battery charge Bar graph 33 34 Active high Alarms warnings and or operating states can be individually assigned to the battery mode and battery charge switching outputs via the UPS CONF configuration and management software Warnings are not indicated by the LED indicators ATTENTION D LED indicator states are also simultaneously signaled via the switching outputs in the default settings If an individual assignment of the switching outputs takes place signal states de viating from the LED indicators are possible Make sure that only sensible combinations are signaled 104657_en_01 PHOENIX CONTACT 18 QUINT UPS 24DC 24DC 5 10 1 An LED test is performed automatically during startup of the device The LEDs indicate the following error states 1 All LEDs and the bar graph light up 2 The LEDs light up the bar graph does not light up the lower bar changes its color from green to red 3 All LEDs and the bar graph are off 4 TheLEDs and the bar graph light up according to their current status LED and bar graph test 10 2 LED indicator State Green LED Red LED Yellow LED Description 1 OFF OFF Lit Battery mode bar graph displays current charging state 2 OFF Lit Lit Battery mode power storage device is almost empty lower bar graph LED is red 3 Lit OFF OFF Mains mode bar graph displays current charging s
6. the battery in battery mode When the power storage device is fully charged and the charging state is determined this is displayed by the bar graph Depending on the charging state and the size of the power storage device this can range from a few minutes to hours Each LED corresponds to 20 of the total capacity The low est LED is divided into two parts red for 0 10 green for 11 20 The current capacity level is indicated by flashing during charging 10 4 Bar graph display without communication cable If no communication cable is installed between the UPS and the power storage device the LEDs indicate the following states during startup of the UPS in mains mode The upper 4 LEDs are off The lower LED can indicate the following states Flashing power storage device is being charged Off power storage device is not being charged Red battery problem 104657_en_01 PHOENIX CONTACT 20 QUINT UPS 24DC 24DC 5 11 In mains mode DC input voltage present the output voltage corresponds to the applied input voltage In the event of a fail ure of the voltage supply switching to battery mode takes place without interruption The output voltage is not directly dependent on the battery voltage Function 11 1 IQ technology Intelligent Battery Management SOC State of Charge current charging state and re maining runtime of the power storage device is always available SOH State o
7. xampl ss Ave aoa titan ieee it Pen tn ah er de een aay 21 11 3 SOH SOF application example 04 vis toa ecient svi etn iia a ieee eee 21 11 4 gt Charging Characteristic nes hae an ihe Das anion ee ne end iS Boe a eee 22 11 5 Fast battery charging intelligent charging contact I lt IN 22 HG Setting the butler UNS ds dE sde sien detente es 23 F7 YPC MOG sx a a iS 23 11 8 Remote control contact RI R2 ire 25 12 MACE ACCS sr man annee tante nn aha tin tent cer eck etes 25 12 1 IFS USB DATAGABLE ii ic 25 12 2 IFS CONFSTICK cicatrices 25 1S OMIC iia as 26 14 Application examples ss 27 14 1 Parallel connection of the power storage devices 27 14 2 Parallel connection for redundancy 104657_en_01 PHOENIX CONTACT 2 QUINT UPS 24DC 24DC 5 3 Ordering data Description Uninterruptible power supply with IQ technology 24 V 5 A Provides infor mation regarding the charging state remaining runtime and service life of your rechargeable battery module at all times and thereby increases sys tem availability Accessories Rechargeable battery module lead AGM VRLA technology 24 V DC 1 3 Ah tool free battery replacement automatic detection and communication with QUINT UPS IQ Rechargeable battery module lead AGM VRLA technology 24 V DC 3 4 Ah tool free battery replacement automatic detection and communication with QUINT UPS IQ Rechargeable battery module lead AGM VRLA technology 24
8. 8 mm 0 5 kg IP20 Il Pluggable screw connection 0 2 mm 2 5 mm 0 2 mm 2 5 mm 20 12 7 mm M4 0 5 Nm 0 6 Nm 104657_en_01 PHOENIX CONTACT QUINT UPS 24DC 24DC 5 Ambient conditions Ambient temperature operation Ambient temperature storage transport Max permissible relative humidity operation Vibration operation Shock Climatic class Standards Electrical safety of information technology equipment Electronic equipment for use in electrical power installations Approvals UL approvals 25 C 70 C 40 C 85 C lt 95 25 C no condensation lt 15 Hz amplitude 2 5 mm in acc with IEC 60068 2 6 15 Hz 150 Hz 2 3 gt 90 min 30g in all directions in acc with IEC 60068 2 27 3K3 in acc with EN 60721 EN 60950 1 VDE 0805 SELV EN 61558 2 17 EN 50178 VDE 0160 PELV UL C UL Recognized UL 60950 UL Listed UL 508 104657_en_01 PHOENIX CONTACT 6 QUINT UPS 24DC 24DC 5 Conformance with EMC Directive 2004 108 EC Noise immunity according to EN 61000 6 2 Electrostatic discharge EN 61000 4 2 Electromagnetic HF field EN 61000 4 3 Fast transients burst EN 61000 4 4 Surge current loads surge EN 61000 4 5 Conducted interference EN 61000 4 6 Housing contact discharge Housing air discharge Comments Frequency range Test field strength Frequency range Test field strength Input Output Signal Comments Input Ou
9. 90 C ambient temper ature lt 75 C As 60950 Use ferrules for flexible cables 104657_en_01 PHOENIX CONTACT 14 QUINT UPS 24DC 24DC 5 8 5 Installation of individual components I lt ly I lt ly R1 R2 P l it DC USV Power storage ower su uni E PPly device 1 Output Input Battery N W O unbuffered buffered DC load DC load Figure 7 Schematic design DC UPS A The image is a schematic representation ofthe design and does not contain all parts Observe the installation instructions Power supply unit Use current limited source e g QUINT POWER power sup ply or a suitable fuse If loads must not be supplied in the event of a mains breakdown or failure they must be con nected directly to the output of the power supply as unbuf fered DC load Input the input is supplied with 18 30 V DC Output in the event of mains interruption or failure the connected DC load is supplied with voltage without inter ruption Battery the required power is made available by the pow er storage device The signal cable is used for communi cation between the UPS and power storage device Signal I lt ly when connected to the lt ly output of the QUINT POWER power supply unit the power supply unit is charged with the maximum charging current as quickly as possible fast battery charg
10. C 5 Bufferume of Switch Setting Custom Shutdown Delay Max Program Runtime Program path Program arguments 3 Posnutdom PCRestort Delay 2 State of Charge based Shutdown Delay Countdown 15 seconds till PC Shutdown Program Startup if Shutdown Delay exprred 3 Figure 15 PC mode 1 Delay time Delay time is calculated automatically from the current re maining battery life minus the time required by the PC to shut Delay time is calculated automatically from the current re maining battery life minus the time required by the PC IPC to shut down Alternatively a fixed delay time may be chosen Example setting is 10 mins and if mains power has not re turned within 10 minutes a corresponding alarm is signaled 2 Program start After the delay time has expired it is possible to start a pro gram Example the software starts and begins successive back up of system data In the PC Mode setting on the selection switch of the UPS the UPS function follows a chronological se quence that can be parameterized via the software and indi vidually optimized for the relevant application Menu Settings gt Time setting 3 PC shut down The time required for shutdown of the PC is set here 4 PC idle time The output voltage is interrupted during the reset time and the PC automatically restarted only if the PC is shut down and the mains returned in the mean time
11. Nominal capacity range Charge current Battery presence check time interval Power In OK Status display Alarm Inverting with the UPS CONF configuration and management software Switching output Maximum switching voltage Maximum switching current Status display Battery charge 24VDC 24 V DC 29 V DC temperature compensated 42 mV K preset 0 8 Ah 140 Ah 0 2A 1 36A 1 min LED Static to green Relay lt 30 V AC DC lt 100 mA LED Static to red Signal options are adjustable with the UPS CONF configuration and management software Switching output Maximum switching voltage Maximum switching current Status display Battery mode Relay lt 30 V AC DC lt 100 mA LED bar graph dynamic green Signal options are adjustable with the UPS CONF configuration and management software Switching output Maximum switching voltage Maximum switching current Status display General data Mounting position Housing material Dimensions W H D Dimensions W H D 90 turned Weight Security Degree of protection Protection class Connection data Connection method Conductor cross section solid Conductor cross section stranded Conductor cross section AWG kcmil Stripping length Screw thread Tightening torque Relay lt 30 V AC DC lt 100 mA LED Static to yellow horizontal DIN rail NS 35 EN 60715 Steel sheet zinc plated 35 mm 130 mm 125 mm 122 mm 130 mm 3
12. QUINT UPS 24DC 24DC 5 Uninterruptible power supply INTERFACE Data sheet 104657 en_01 O PHOENIX CONTACT 2011 11 07 1 Description Uninterruptible power supplies UPS continue to deliver Features Power even ihe MaNS DIEaAKS down lQtechnology for maximum system availability The intel An uninterruptible solution consists of three function units ligent battery management optimizes and keeps you in Power supply formed on the remaining runtime current state of charge Electronic switchover unit service life and performance of the power storage de vice Generous power reserve POWER BOOST Optimum use of the buffer time Power storage device The product described here is an electronic switchover unit In the event of mains breakdowns or failures it switches to battery operation without interruption so that loads continue Preventive battery monitoring to be consistently supplied Fast battery charging As an option you can monitor and configure the device with Extensive signaling and parameterization the free UPS CONF software The IFS CONFSTICK memory SFB technology stick is available for convenient transfer of parameters be tween more than one QUINT UPS Make sure you always use the latest documentation It can be downloaded from the product at www phoenixcontact net catalog This data sheet is valid for all products listed on the following page COMO DOD OO
13. V DC 7 2 Ah tool free battery replacement automatic detection and communication with QUINT UPS IQ Rechargeable battery module lead AGM VRLA technology 24 V DC 12 Ah tool free battery replacement automatic detection and communication with QUINT UPS IQ Rechargeable battery module LI ION technology 24 V DC 60 Wh for am bient temperatures of 20 C 60 C automatic detection and communi cation with QUINT UPS IQ Configuration software for QUINT UPS can be downloaded free of charge Used for communication between the UPS CONF configuration software and the QUINT UPS IQ and TRIO UPS uninterruptible power supply units Multi functional memory blockfor the INTERFACE systemf for easy stor age and backup of the configuration Type QUINT UPS 24DC 24DC 5 Type UPS BAT VRLA 24DC 1 3AH UPS BAT VRLA 24DC 3 4AH UPS BAT VRLA 24DC 7 2AH UPS BAT VRLA 24DC 12AH UPS BAT LI ION 24DC 60WH UPS CONF IFS USB DATACABLE IFS CONFSTICK Order No Pcs Pkt 2320212 1 Order No Pcs Pkt 2320296 2320306 2320319 2320322 2320351 2320403 2320500 2986122 104657_en_01 PHOENIX CONTACT 3 QUINT UPS 24DC 24DC 5 4 Technical data Input data Nominal input voltage DC input voltage range Buffer period Current consumption mains mode Max No load Charging process Fixed connect threshold Output data Nominal output voltage Output voltage range Nominal output curr
14. ck button and hold for at least 2 seconds 2 Insert the IFS CONFSTICK carefully into the Data Port of the UPS while observing the plug in direction 3 Parameter transfer is started and indicated by cyclic con trol of the three LED indicators Light up sequence green yellow red Error free transfer green LED indicator on Transfer error red LED indicator on Transferring IFS CONFSTICK parameters to the UPS 1 Press the Stick gt UPS button and hold for at least 2 seconds 2 Insert the IFS CONFSTICK carefully into the Data Port of the UPS while observing the plug in direction 3 Parameter transfer is started and indicated by cyclic con trol of the three LED indicators Light up sequence green yellow red Error free transfer green LED indicator on Transfer error red LED indicator on 104657_en_01 PHOENIX CONTACT 25 QUINT UPS 24DC 24DC 5 13 Servicing To switch to service mode the following options are available Button on the front of the UPS UPS CONF software Service stick Details can be found in the UPS CONF user manual at www phoenixcontact net catalog Replacing the battery e Press and hold down both buttons on the front of the UPS longer than 6 s to switch to service mode The red LED lights up e Press and hold down both buttons on the front of the UPS for longer than 6 s to register the batteries The bar graph flashes QUINT Di wae
15. d so that the total cur rent requirements of all loads can be fully met by one UPS system o IN1 Redundancy module IN2 OUT buffered DC load 104657_en_01 PHOENIX CONTACT GmbH amp Co KG 32823 Blomberg Germany Phone 49 0 5235 3 00 28 PHOENIX CONTACT P O Box 4100 Harrisburg PA 17111 0100 USA Phone 717 944 1300 www phoenixcontact com
16. ective Fuse Breaking technology dynamic power reserve are available in mains and battery mode if a QUINT POWER power supply unit from Phoenix Contact is connected up stream In mains mode the power reserve is forwarded to the buffered DC load via the UPS In battery mode the power storage device supplies sufficient power to ensure the same behavior as aQUINT POWER power supply unit with SFB technology 9 6 Temperature response lboosT T In 7 4 el o pe 25 20 40 60 C Figure 12 Derating diagram At an ambient operating temperature of up to 40 C the UPS makes the lBoosr continuous output current available The device can supply the IN nominal output current up to ambient temperatures of 60 C In the case of ambient temperatures above 60 C The output power must be decreased by 2 5 per Kelvin temperature increase 104657_en_01 PHOENIX CONTACT 17 QUINT UPS 24DC 24DC 5 10 Signaling Three LED indicators an LED bar graph and three floating relay contacts are available for function monitoring In addition you can use the UPS CONF configuration and management software QUINT DC UPS SSE Figure 13 Display elements A The software and the associated user manual are available free of charge at www phoenixcontact n t E State LED Switching output Signal default Power In OK mains mode Green Alarm
17. ent Derating Output current limit Power dissipation mains mode Idle Nominal Load BOOST Power dissipation battery operation Idle Nominal Load BOOST Output power Efficiency Connection in parallel Connection in series Output data mains operation Nominal output voltage Output voltage range Output current according to connected upstream power supply unit Nominal output current IN POWER BOOST lIgoost SFB technology Isfg Duration Output data battery operation Nominal output voltage Output voltage range Output current Nominal output current IN POWER BOOST lgoost SFB technology Isfg Duration 24V DC 18 V DC 80 V DC 2h0 9 4 A 60 mA 1 9 A lt 22VDC 24 V DC 18 V DC 30 V DC 5A 60 C 70 C 2 5 K In mains mode according to connected upstream current limiting device gt 7 5 A Battery operation 1 4W 2 1W 2 4W 13W 3 3 W 4 1W 120 W gt 98 7 Yes up to 2 modules with redundancy module No 24V DC 18 V DC 30 VDC 5 25 C 60 C 7 5 25 C 40 C 30 A 25 C 60 C 12 ms SFB technology 24 V DC 19 2 V DC 27 6 V DC Uour Upar 0 5 V DC 5 A 25 C 60 C 7 5 25 C 40 C 32 5 A 25 C 60 C 15 ms SFB technology 104657_en_01 PHOENIX CONTACT QUINT UPS 24DC 24DC 5 Power storage device Nominal voltage Uy End of charge voltage Temperature compensation
18. es FX EEE a ze fe e 2 Wy j e Remove the fuses e Press and hold down both buttons on the front of the UPS for longer than 6 s to exit the service mode The red LED extinguishes Remove the cabling of the battery blocks Remove the batteries Install new batteries Connect the cabling of the battery blocks Insert the fuses An exact description of the replacement procedure for all power storage devices can be found in the corresponding data sheet at www phoenixcont 104657_en_01 PHOENIX CONTACT 26 QUINT UPS 24DC 24DC 5 14 Application examples 14 1 Parallel connection of the power storage devices To increase the buffer time a maximum of 15 power storage devices can be switched in parallel It is recommended to keep the number as low as possible and use power storage devices with a higher capacity of necessary For parallel op eration only use power storage devices with the same batch number After discharging of the power storage device the recharging time depends on the maximum charging current that the UPS can make available Use a suitable fuse Flat type fuse inserts with the same nom inal values from the battery used are recommended If possible install at a cool location e g at the bottom of the control cabinet to ensure optimum function For this the fol lowing cabling design is advantageous Power supply unit L1 N Load PE
19. f Health displays the remaining life expec tancy of the power storage device and warns of failures at an early stage SOF State of Function determines the current perfor mance of the power storage device Intelligent Battery Control Intelligent Battery Control automatically detects the con nected battery type via the connected communication cable and maximizes the remaining service life of the power storage device via an optimally adapted charging characteristic Intelligent Charging The device adapts the charging current and thereby ensures the fastest possible recharging and maximum availability Intelligent Communication The data port is used for communication between the UPS and PC e g for configuring the UPS 11 2 SOC application example Task an industrial PC must be continuously supplied with 24V DC Previous solution the UPS is buffered with 3 4 Ah and sup plies 24 V DC 5 A for 20 under optimum conditions Minutes Problem can the power storage device actually bridge this time Charging state performance and remaining runtime of the battery are unknown Solution with IQ technology The intelligent UPS determines all relevant battery states This ensures the transparency required to guarantee the sta bility of the supply and optimum use of the battery at all times The intelligent battery management detects the current charging state of the connected battery and uses this to cal culate the re
20. ge devices other than UPS BAT make sure that the corresponding pa rameters for the charging characteristics are adjusted and adhered to Phoenix Contact accepts no liability or respon sibility for possible for any consequential dam age 104657_en_01 PHOENIX CONTACT 8 QUINT UPS 24DC 24DC 5 Structure 6 Connection terminal blocks Figure 1 Function elements Figure 2 9 PHOENIX CONTACT 104657_en_01 QUINT UPS 24DC 24DC 5 Connections Operating elements 1 DC input 18 VDC 30 VDC 2 Power storage device connection 24 V DC 4 com munication between UPS and power storage device 3 DC output 24 V DC buffered 17 Data port for data linking to the PC or the use of a memory block 18 Button for use of the memory block Mains mode charging 16 Green LED Power In OK mains mode 10 Bar graph for displaying the current charging state of the power storage device 7 Floating relay contact 33 34 battery charge 4 lt IN fast battery charging Battery operation discharging 13 Yellow LED battery mode 6 Floating relay contact 23 24 battery mode 11 Buffer time setting unlimited 1 20 mins custom ized customized default 0 5 PC mode 9 Remote control R1 R2 15 Remote control plug in bridge pre installed General 12 Red LED alarm 5 Floating contact 13 14 alarm 8 24 V DC supply voltage maximum current limit 0 2 A for the signal c
21. ial costs 104657_en_01 PHOENIX CONTACT 21 QUINT UPS 24DC 24DC 5 11 4 Charging characteristic When the recommended UPS BAT power storage device is used the intelligent battery management of the UPS adapts itself to the respective connected storage technology such as Lithium or lead VRLA Valve Regulated Lead Acid batter ies Additional settings of charging parameters are not neces sary due to automatic detection The UPS is equipped with an integrated charging unit Charg ing is performed according to the current battery state By measuring the current temperature at the battery tempera ture compensated charging takes place The intelligent bat tery management ensures fast availability and maximum ser vice life of the power storage device Depending on the performance class of the UPS the integrated charging unit can have the following maximum charging current UPS Max charging current 5A 1 36A 10A 2 88 A 20A 5A 40A 5A The recharging time results from the maximum available charging current and the total capacity of the storage device type connected Charge control depends on the IUoU charging characteristic This is a 3 stage charging process that is represented as fol lows A B c A soc U l t p Figure 14 Charging curve Stage Name Description A Main charge Constant current charging phase CC initial charging current B Compensation Con
22. ing Supply of the buffered DC load always has priority This function is available when the power supply unit makes a static power reserve available with corresponding signal contact e g QUINT POWER with POWER BOOST and preventive function monitoring Without this charging is performed at re duced current Signal R1 R2 remote control Power storage device Depending on the desired buffering time select the power storage device listed under accessories dependent If possible and to ensure optimum function install at a cool location e g at the bottom of the control cabinet A VRLA power storage devices are temperature 104657_en_01 PHOENIX CONTACT 15 QUINT UPS 24DC 24DC 5 9 Connection and protection 9 1 Input and protection of the primary side 9 2 Output and protection on the secondary side Figure 8 Input Figure 9 Output Connection of the input is made via connection terminal Connection of the output takes place via the connection termi blocks Input input reverse polarity protection nal block Output The maximum current for each input is 9 6 A The device is electronically short circuit proof and idle proof Therefore use a current limited source e g In the event of a malfunction the output voltage is limited to a QUINT POWER or a suitable fuse maximum of 35 V DC It must be ensured that all output cable
23. it in with a downward motion Removing Pull the snap lever open with the aid of a screwdriver and slide the module out at the lower edge of the DIN rail amp Figure 5 Mounting and removing Mounting position rotated 90 Low profile installation can be achieved by mounting the de vice at right angles to the DIN rail Mount the DIN rail adapter UTA 107 as described in the figure No additional mounting material is required Fixing screws Torx T10 torque 0 8 Nm 0 9 Nm Figure 6 Mounting position rotated 90 104657_en_01 PHOENIX CONTACT 13 QUINT UPS 24DC 24DC 5 8 4 Connection terminal blocks Use a screwdriver with a suitable blade width for wiring For a reliable and touch proof connection use a suitable cable cross section and insulate the cable ends according to the above mentioned specifications Terminal block Solid conductor stranded conductor AWG Stripping length Torque Torque mm mm mm Nm Ib in DC input 0 2 2 5 0 2 2 5 16 12 7 0 5 0 6 5 7 DC output 0 2 2 5 0 2 2 5 16 12 7 0 5 0 6 5 7 Battery signal 0 2 2 5 0 2 2 5 24 12 7 0 5 0 6 5 7 Signals R1 R2 l lt ly 0 2 2 5 0 2 2 5 24 12 7 0 5 0 6 5 7 508 Copper cable operating temperature gt 75 C ambi ent temperature lt 55 C and gt
24. maining runtime The QUINT UPS IQ also signals whether the buffer time is ac tually 20 minutes As soon as an adjustable threshold value is reached the floating relay contact or the software generates a warning message or the PC is shut down The industrial PC works for as long as possible and is shut down only if abso lutely necessary 11 3 Task electrical loads in remote systems widely separated from each other must be continuously supplied with 24 V DC SOH SOF application example Previous solution The user invests in a new battery every two years assuming that the system is reliably protected by this Problem is the power storage device really 100 available for two years Hs the battery aged more quickly as a result of higher ambient temperatures and cannot deliver sufficient performance Solution with IQ technology The remaining life expectancy of the battery is known This al lows servicing to be planned If the battery is replaced at the ideal time costs are also avoided that would occur by replac ing the battery too early or after failure It is particularly impor tant for applications that are widely separated from each other to ascertain whether the battery works reliably for another two years or only two months For example replacing power stor age devices in offshore wind power plants is associated with high costs Indication of the current life expectancy of the bat tery saves unnecessary labor and mater
25. ontacts 13 23 33 14 Plug in bridge for signal contact supply voltages pre installed 19 LED windows for flat mounting position 21 Accommodation for cable binders 20 Universal snap on foot for EN DIN rails 104657_en_01 PHOENIX CONTACT 10 QUINT UPS 24DC 24DC 5 7 Basic circuit diagram Element Meaning Microprocessor Decoupling Charging unit Switch Temperature sensor Selector switch le WIN ly 3 Output DC 24V 24V 0 2A A Alarm Bat Mode Bat Charge 104657_en_01 PHOENIX CONTACT 11 QUINT UPS 24DC 24DC 5 8 Installation 8 1 Convection The device supplies the specified values in the case of suffi cient convection cooling and when mounted on a horizontal To enable sufficient convection we recom DIN rail D mend a minimum vertical gap to other modules of 5 cm A lateral gap of 5 mm is recommendable The module can be snapped onto all DIN rails HA according to EN 60715 and must be mounted horizontally connecting terminal blocks on top and bottom Figure 3 Convection 8 2 Mounting position 130 Figure 4 Installation dimensions Installation depth 125 mm 104657_en_01 PHOENIX CONTACT 12 QUINT UPS 24DC 24DC 5 8 3 Mounting on a DIN rail Slim style installation Assembly Position the module with the DIN rail guide on the upper edge of the DIN rail and snap
26. orage device is almost com pletely discharged When using the recommended UPS BAT power storage de vice and connected communication cable the current charg ing state SOC State of Charge is displayed via the IQ tech nology The preset alarm signaling threshold is 10 The lower bar graph LED lights up red As an option a time can be set via the UPS COMF software for example 10 mins In this case the UPS signals an alarm when the power storage device is able to supply the con nected load for a further 10 minutes When using power storage devices other than the UPS BAT the alarm indicates battery voltage too low default 20 4 V D ATTENTION Signaling of all states is determined by calculat ed individual or preset thresholds and operat ing states The detection that is the base of signaling takes place with high accuracy How ever detection is subject to the respective am bient conditions in each case In particular power storage devices can contribute to further deviations irrespective of the storage technol ogy 104657_en_01 PHOENIX CONTACT 19 QUINT UPS 24DC 24DC 5 10 3 Bar graph display when the communication cable is installed The current charging state and the remaining runtime of the power storage device is determined during startup of the UPS The LED light lights up from bottom to top during this charging the battery in mains mode or from top to bottom discharging
27. pment when it is disconnect ed and not in the potentially explosive area DANGER Never carry out work on live parts The housing can become very hot depending on the ambient temperature and load CAUTION Before startup please ensure The connection must be carried out by a com petent person and protection against electric shock guaranteed It must be possible to switch off power to device according to EN 60950 All feed lines are sufficiently protected and di mensioned All output lines are dimensioned according to the maximum output current of the device or separately protected Sufficient convection must be guaranteed Observe mechanical and thermal limits ATTENTION Danger if used improperly Uninterruptible power supplies are installable devices Installation and startup may only be carried out by qualified personnel The relevant country specific regulations must be observed CAUTION Risk of injury Cover termination area after installation in or der to avoid accidental contact with live parts e g installation in control cabinet Do not dispose of used batteries in the house hold waste Dispose of these according to the currently valid national regulations They can also be returned to Phoenix Contact or the manufacturer A CAUTION Risk of injury Use the device with the UPS BAT recom mended in the table of accessories When us ing power stora
28. s are dimensioned or separately protected according to the maximum output current All cables must have large cross lations sections in order to keep voltage drops as small as possible All cables must have large cross sections in order to keep voltage drops as small as possible Installation of the device must correspond to EN 60950 regu 104657_en_01 PHOENIX CONTACT 16 QUINT UPS 24DC 24DC 5 9 3 Power storage device 557 QUINTDCUPS Figure 10 Output battery Connection of the power storage device takes place via the connection terminal block Battery To make use of intel ligent IQ technology you must also install a cable for the com munication between the UPS and power storage device You will find a clearly arranged selection table for suitable power storage devices next to the product at www phoenixcontact net catalog 9 4 SFB Selective Fuse Breaking technology reliably switches off faulty current paths in the event of a short circuit It supplies six times the nominal current for 12 ms in mains mode and for 15 ms in battery mode SFB technology therefore safely trig gers standard circuit breakers Faults are located reliably and important system parts remain in operation SFB technology 9 5 Power reserves lout A Figure 11 Output characteristic curve Both the POWER BOOST static power reserve and the SFB Sel
29. stant voltage charging charging phase CV compensation trickle charge voltage C Trickle charging Constant voltage charging phase CV trickle charging final voltage If the communication cable between the UPS and the power storage device is interrupted the temperature detected in the UPS module is used temporarily to ensure temperature com pensation Temperature recording only takes place in the UPS module when using power storage devices other than the UPS BAT In addition adjustment and adherence to the charg ing parameters is necessary 11 5 Fast battery charging intelligent charging con tact I lt In The adaptive current management of the charging unit charges the power storage device considerably faster when the lt ly input of the UPS is connected to the corresponding output of the power supply This ensures shorter recharging times and the power storage device is available with full ca pacity much more quickly At the same time the module supplies sufficient power for buffered DC loads As long as the upstream connected power supply unit has sufficient power reserves charging continues with high current If the load requires a higher current this is supplied at the highest priority In this case the power storage device is charged more slowly The fast battery charging function is only available when the power supply unit makes a static power reserve available with corresponding signal contact
30. tate 4 Lit Lit OFF Mains mode alarm in the event of battery problem lower bar graph LED flashes red Green LED mains mode yellow LED battery mode Either the green or the yellow LED lights up Green LED lights up yellow LED is off the load connected to the UPS is supplied from the mains Green LED off yellow LED lights up mains is not available The load connected to the UPS is supplied by the power stor age device Red LED alarm in mains mode Red LED lights up the lower bar graph LED flashes red there is a problem with the power storage device When using the UPS BAT power storage device and a con nected communication cable the current life expectancy SOH State of Health is determined via the IQ technology An alarm is signaled in the following cases The adjustable threshold remaining life expectancy is reached _ Different types of battery technology were connected that cannot be charged simultaneously e g VRLA and LI ION The presence check is negative The quality check is negative When using power storage devices other than UPS BAT an alarm is signaled if it is not present or if the quality of the power storage device is no longer sufficient for supplying the load in the event of a mains failure If the lower bar graph LED does not flash the alarm indicates overload or service mode Red LED alarm in battery mode Red LED lights up the power st
31. tput Signal Comments Input Output Signal Frequency range Voltage Comments Emitted interference in acc with EN 61000 6 3 Radio interference voltage in acc with EN 55011 Emitted radio interference in acc with EN 55011 EN 61000 6 2 requirement 4 kV Test intensity 2 8 kV Test intensity 3 Criterion B 80 MHz 1 GHz 10 V m 1 4 GHz 2 GHz 3 V m Criterion A 2 kV Test intensity 3 asymmetrical 2 kV Test intensity 3 asymmetrical 1 kV Test intensity 3 asymmetrical Criterion B 0 5 kV Asymmetrical 0 5 kV symmetrical 1 kV Asymmetrical Criterion B asymmetrical 0 15 MHz 80 MHz 10 V Test intensity 3 Criterion A Tested 8 kV Test intensity 4 15 kV Test intensity 4 Criterion A 80 MHz 1 GHz 20 V m 1 GHz 3 GHz 10 V m Test intensity X 3 2 kV Test intensity 3 asymmetrical 2 kV Test intensity 3 asymmetrical 2 kV Test intensity 4 asymmetrical Criterion A 1 kV symmetrical 2 kV Asymmetrical 1 kV Asymmetrical Criterion A asymmetrical 0 15 MHz 80 MHz 10 V Test intensity 3 Criterion A EN 55011 EN 55022 Class B area of application Industry and residential EN 55011 EN 55022 Class B area of application Industry and residential 104657_en_01 PHOENIXCONTACT 7 QUINT UPS 24DC 24DC 5 5 Safety regulations and installation notes A A amp EH D e EXPLOSION HAZARD Only remove equi
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