2320283

QUINT4-UPS/1AC/1AC/1KVA Uninterruptible power supply Data sheet 107563_en_00 1 © PHOENIX CONTACT 2018-05-02 Description The QUINT-UPS uninterruptible power supply (UPS) is used to ensure that power for critical electrical loads continues to be supplied in the event of disturbances in the power supply network, e.g., due to mains breakdown or failure. In doing so, the UPS switches to battery operation without interruption so that connected loads continue to be consistently supplied. When mains power is restored, the UPS automatically returns to normal operation. The connected loads are again supplied via the power supply network and the battery is charged. – Worldwide use, thanks to wide-range input – Online UPS with pure sine wave voltage at output – Parallel connection possible for increased performance and redundancy – Optimum use of the buffer time and preventive battery monitoring – Maximum energy efficiency – Extensive signaling and parameterization – Flexible configuration Technical data (short form) Nominal input voltage 100 V AC , 110 V AC , 120 V AC , 130 V AC 200 V AC , 210 V AC , 220 V AC , 230 V AC , 240 V AC Input voltage range 90 V AC ... 264 V AC Frequency range 45 Hz ... 65 Hz Current consumption (for nominal values) typical * 10.5 A (120 V AC) / 5.5 A (230 V AC) Nominal output voltage (UN) * 120 V AC / 230 V AC Nominal output current (IN) * 8.3 A (120 V AC) / 4.3 A (230 V AC) Degree of efficiency ( Nominal load ) ( with charged energy storage device ) 92 % ( 120 V AC ) 94 % ( 230 V AC ) MTBF (IEC 61709, SN 29500) 217546 h (230 V AC, at 40 °C) Ambient temperature (operation) -25 °C ... 60 °C ( > 50 °C Derating: 2.5 %/K ) Dimensions W/H/D 290 mm / 130 mm / 125 mm Weight 5 kg Battery technology VRLA, VRLA-WTR, LI-ION Nominal voltage ( Energy storage ) 2x 24 V DC Nominal capacity range 3.4 Ah ... 200 Ah * for further information, see the section on device connection Make sure you always use the latest documentation. It can be downloaded from the product at phoenixcontact.net/products. QUINT4-UPS/1AC/1AC/1KVA 2 Table of contents 1 Description .............................................................................................................................. 1 2 Table of contents ..................................................................................................................... 2 3 Ordering data .......................................................................................................................... 3 4 Technical data ......................................................................................................................... 5 5 Safety and installation notes .................................................................................................. 11 6 Structure................................................................................................................................ 13 7 Mounting and removing ......................................................................................................... 16 8 Device connection ................................................................................................................. 18 9 Device operation ................................................................................................................... 22 10 Method of operation............................................................................................................... 26 11 Signaling................................................................................................................................ 27 12 Interfaces............................................................................................................................... 31 13 Parallel operation................................................................................................................... 32 14 Derating................................................................................................................................. 34 107563_en_00 PHOENIX CONTACT 2 / 34 QUINT4-UPS/1AC/1AC/1KVA 3 Ordering data Description Type Order No. Pcs./Pkt. Uninterruptible power supply with IQ technology for DIN QUINT4-UPS/1AC/1AC/ rail mounting. Input: 120/230 V AC, output: 120/230 V AC/ 1KVA 1 kVA. Provides information regarding the state of charge, remaining runtime, and service life of the rechargeable battery module at any time, thereby increasing system availability. 2320283 1 Accessories Type Order No. Pcs./Pkt. Used for communication between an industrial PC and Phoenix Contact devices with USB-Mini-B connection. MINI-SCREW-USBDATACABLE 2908217 1 Fuse, nominal current: 25 A, FUSE 25A/58V TAC ATO 1021340 2 2901664 1 VS-IP20/10G-IP20/10G-94F/1 1418866 1 Energy storage device, lead AGM, VRLA technology, 24 V UPS-BAT/VRLA/24DC/3.4AH 2320306 DC, 3.4 Ah, tool-free battery replacement, automatic detection, and communication with QUINT UPS-IQ 1 Energy storage device, lead AGM, VRLA technology, 24 V UPS-BAT/VRLA/24DC/7.2AH 2320319 DC, 7.2 Ah, tool-free battery replacement, automatic detection, and communication with QUINT UPS-IQ 1 Energy storage device, lead AGM, VRLA technology, 24 V UPS-BAT/VRLA/24DC/12AH DC, 12 Ah, tool-free battery replacement, automatic detection, and communication with QUINT UPS-IQ 2320322 1 Energy storage device, lead AGM, VRLA technology, 24 V UPS-BAT/VRLA/24DC/38AH DC, 38 Ah, automatic detection, and communication with QUINT UPS-IQ 2320335 1 Energy storage device, lead AGM, VRLA technology, 24 V UPS-BAT/VRLA-WTR/24DC/ DC, 13 Ah, tool-free battery replacement, automatic 13AH detection, and communication with QUINT UPS-IQ 2320416 1 Energy storage device, lead AGM, VRLA technology, 24 V UPS-BAT/VRLA-WTR/24DC/ DC, 26 Ah, tool-free battery replacement, automatic 26AH detection, and communication with QUINT UPS-IQ 2320429 1 2-piece universal wall adapter for securely mounting the UWA 130 power supply in the event of strong vibrations. The profiles that are screwed onto the side of the power supply are screwed directly onto the mounting surface. The universal wall adapter is attached on the left/right. Patch cable, CAT6A, 4-pair, shielded, connection not crossed (Line), assembled at both ends with RJ45/IP20 connectors; outer sheath material: PUR; length: 1 m 107563_en_00 PHOENIX CONTACT 3 / 34 QUINT4-UPS/1AC/1AC/1KVA Accessories Type Order No. Pcs./Pkt. Energy storage device, LI-ION technology, 24 V DC, 120 UPS-BAT/LI-ION/24DC/ Wh, for ambient temperatures of -20°C ... 60°C, automatic 120WH detection and communication with QUINT UPS-IQ 2320351 1 Energy storage device, LI-ION technology, 24 V DC, 924 UPS-BAT/LI-ION/24DC/ Wh, for ambient temperatures of -25 °C ... 60 °C, 924WH automatic detection and communication with QUINT UPS-IQ 2908232 1 Our range of accessories is being continually extended, our current range can be found in the download area. 107563_en_00 PHOENIX CONTACT 4 / 34 QUINT4-UPS/1AC/1AC/1KVA 4 Technical data Input data Nominal input voltage 100 V AC , 110 V AC , 120 V AC , 130 V AC Input voltage range 90 V AC ... 264 V AC 200 V AC , 210 V AC , 220 V AC , 230 V AC , 240 V AC Frequency range 45 Hz ... 65 Hz Current consumption (for nominal values) typical * 10.5 A (120 V AC) / 5.5 A (230 V AC) Permissible backup fuse 20 A (120 V AC, Listed breaker) / B16 ( 230 V AC ) Activation threshold Can be configured using UPS-CONF software * for further information, see the section on device connection Output data Power factor (cos phi) 0.9 Crest factor 2.8 Switch-over time 0 ms Classification according to IEC 62040-3 VFI-SS-111 Output data (mains operation) Nominal output voltage (UN) * 120 V AC / 230 V AC Frequency 60 Hz ±5 % (At an input frequency of 55 Hz to  2000 m, observe derating) Degree of pollution 2 Vibration (operation) 5 Hz ... 100 Hz, 0.7g (EN 60068-2-6) Shock 15g in all directions (EN 60068-2-27) Climatic class 3K3 (EN 60721) 107563_en_00 PHOENIX CONTACT 7 / 34 QUINT4-UPS/1AC/1AC/1KVA Approvals UL approvals UL/C-UL Recognized UL 1778 Current approvals/permissions for the product can be found in the download area under phoenixcontact.net/products 107563_en_00 PHOENIX CONTACT 8 / 34 QUINT4-UPS/1AC/1AC/1KVA Electromagnetic compatibility Noise emission CE basic standard Minimum normative requirements Higher requirements in practice (covered) Noise emission EN 62040-02 (Class C2) -- Conducted noise emission EN 62040-02 (Class C2) -- Harmonic currents EN 61000-3-2 (Class A) 0 kHz ... 2 kHz not required not required Flicker EN 61000-3-3 Immunity according to EN 61000-6-1 (residential), EN 61000-6-2 (industrial) CE basic standard Minimum normative requirements Higher requirements in practice (covered) Housing contact discharge 4 kV (Test Level 2) 6 kV (Test Level 3) Housing air discharge 8 kV (Test Level 3) 8 kV (Test Level 3) none Criterion A 80 MHz ... 1 GHz 80 MHz ... 6 GHz Electrostatic discharge EN 61000-4-2 Comments Electromagnetic HF field EN 61000-4-3 Frequency range Test field strength 10 V/m 10 V/m Criterion A Criterion A Input 2 kV (Test Level 3 asymmetrical) 2 kV (Test Level 3 asymmetrical) DC input 2 kV (Test Level 3 asymmetrical) 2 kV (Test Level 3 asymmetrical) Output 2 kV (Test Level 3 asymmetrical) 2 kV (Test Level 3 asymmetrical) Signal 2 kV (Test Level 3 asymmetrical) 2 kV (Test Level 3 asymmetrical) Signal USB 2 kV (Test Level 3 asymmetrical) 2 kV (Test Level 3 asymmetrical) Comments Criterion B Criterion A (B for USB) Input/Output 1 kV (Test Level 2 symmetrical) 2 kV (Test Level 3 asymmetrical) 1 kV (Test Level 2 symmetrical) 2 kV (Test Level 3 asymmetrical) Signal 1 kV (Test Level 2 asymmetrical) 1 kV (Test Level 2 asymmetrical) Criterion B Criterion A 0.15 MHz ... 80 MHz 0.15 MHz ... 80 MHz 10 V 10 V Comments Fast transients (burst) EN 61000-4-4 Surge voltage load (surge) EN 61000-4-5 Comments Conducted interference EN 61000-4-6 Frequency range Voltage 107563_en_00 PHOENIX CONTACT 9 / 34 QUINT4-UPS/1AC/1AC/1KVA Immunity according to EN 61000-6-1 (residential), EN 61000-6-2 (industrial) CE basic standard Minimum normative requirements Higher requirements in practice (covered) Criterion A Criterion A Frequency range 50 Hz , 60 Hz 50 Hz , 60 Hz Test field strength 30 A/m 100 A/m Criterion B Criterion A Comments Power frequency magnetic field EN 61000-4-8 Comments Key Criterion A Normal operating behavior within the specified limits. Criterion B Temporary impairment to operational behavior that is corrected by the device itself. All technical specifications are nominal and refer to a room temperature of 25 °C and 70% relative humidity at 2000 m above sea level. 107563_en_00 PHOENIX CONTACT 10 / 34 QUINT4-UPS/1AC/1AC/1KVA 5 Safety and installation notes 5.1 Symbols used 5.2 WARNING: Danger to life by electric shock! Instructions and possible hazards are indicated by corresponding symbols in this document. – This is the safety alert symbol. It is used to alert you to potential personal injury hazards. Obey all safety measures that follow this symbol to avoid possible personal injuries. There are different categories of personal injury that are indicated by a signal word. – – – – WARNING This indicates a hazardous situation which, if not avoided, could result in death or serious injury. – CAUTION – This indicates a hazardous situation which, if not avoided, could result in minor or moderate injury. The following symbols are used to indicate potential damage, malfunctions, or more detailed sources of information. – – – NOTE This symbol together with the signal word NOTE and the accompanying text alert the reader to a situation which may cause damage or malfunction to the device, hardware/software, or surrounding property. This symbol and the accompanying text provide the reader with additional information or refer to detailed sources of information. 107563_en_00 Safety and warning notes – – Only skilled persons may install, start up, and operate the device. Never carry out work when voltage is present. Establish connection correctly and ensure protection against electric shock. Connect the protective conductor device terminal block  with ground. Operation of the device is only permitted in mains network systems with grounded neutral conductor. This mainly complies with the TN-C-S mains network type. National regulations must be observed. Cover termination area after installation in order to avoid accidental contact with live parts (e. g., installation in control cabinet). This unit receives power from more than one source Disconnection of AC source and the energy storage devices is required to de-energize this unit before servicing. Keep flames, embers or sparks away from the module. When connecting the batteries, observe the polarity and do not short circuit the pole terminals. Provide a switch/circuit breaker close to the device at the AC input, AC output and at the battery terminals, which are labeled as the disconnecting device for this device. Do not disconnect the fuse and / or battery connection under hazardous location conditions. Use copper cables for operating temperatures of 75 °C. CAUTION: Hot surface The housing can become very hot depending on the ambient temperature and load of the power supply (T > 65 °C). PHOENIX CONTACT 11 / 34 QUINT4-UPS/1AC/1AC/1KVA More follows NOTE – – – – – – – – – – – – – – – – – Observe the national safety and accident prevention regulations. Assembly and electrical installation must correspond to the state of the art. The uninterruptible power supply is a built-in device. The protection class IP20 of the device is meant to be applied in a clean and dry environment. The device must be installed in a control cabinet that can be locked and only opened by specialist staff. Horizontal mounting position (normal mounting position) Observe mechanical and thermal limits. Ensure sufficient convection (minimum gap above/ below: 50 mm). Housing can become hot. Ensure that the primary-side wiring and secondary-side wiring are the correct size and have sufficient fuse protection. You can find the connection parameters, such as the necessary stripping length for the wiring with and without ferrule, in the associated table. Protect the device against foreign bodies penetrating it, e.g., paper clips or metal parts. Depending on the ambient temperature and load on the uninterruptible power supply, the housing can become hot. To reduce the risk of fire, replace only with same type and rating of fuse. To reduce the risk of fire, connect the device only to a circuit provided with the maximum branch circuit overcurrent protection in accordance with the National Electrical Code, ANSI/NFPA 70. See the values in the technical data. The uninterruptible power supply is maintenance-free. Repairs may only be carried out by the manufacturer. The warranty no longer applies if the housing is opened. The uninterruptible power supply may only be used for its intended use. Improper use invalidates the device protection. Before transporting the uninterruptible power supply, always disconnect the battery connecting cable from a battery contact or remove the DC fuse in the battery compartment. 107563_en_00 – – – – – Use current-limited source or suitable fuse. Use ferrules for flexible cables. The switching outputs are active outputs according to SELV. These may only be operated on permitted SELV circuits. This equipment is an open-type device meant to be installed in an enclosure suitable for the environment that is only accessible with the use of a tool. Keep these instructions in a safe place – this data sheet contains important safety notes which must be observed during installation and maintenance of the device. PHOENIX CONTACT 12 / 34 QUINT4-UPS/1AC/1AC/1KVA 6 Structure 6.1 Function elements QUINT AC-UPS 1000VA Ord.No.2320283 4 6 T 15A 250V 7 3.1 3.2 3.3 3.4 3.5 3.6 3.7 3.8 3.9 A Ba lar t. - m M od AC e O Re K ad Ba t.- P> y St P Ba ar n t. - t 2 St 30 ar V t1 2 Re 0V m ot e SG nd 16 5 Link 8 Parallel Port USB 5.2 9 5.1 Master 2kVA Power Master 1kVA Redundancy Slave Single Alarm 10 Service SOC 15 20 10  3 2 1 Custom (Default 0.5) Bat.-Mode Bat.-Charge Service Input AC 100-240V L 1.1 1.2 1 Figure 1 Battery 1 DC 24V Output AC 120/230V N L 1.3 N 2.1 2.2 120V AC OK 230V P>Pn/Remote 4.1 4.2 4.3 2.3 2 + - 3 11 PCMode 5 Battery 2 DC 24V 12 Press >6s 13 + - 4.4 4.5 4.6 14 15 Position of the function elements Key No. 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 Designation Connection terminal blocks for AC input Connection terminal blocks for AC outputs LED AC OK and LED remote Bypass fuse USB interface Signaling connection terminal blocks LED parallel run Communication interface parallel run Rotary selector switch parallel run mode LED alarm / service Rotary selector switch LED bat. mode / bat. charge Bar graph for displaying the current charging state of the energy storage device Service mode button Battery terminal blocks 2x base latch (rear side of the device) 107563_en_00 PHOENIX CONTACT 13 / 34 QUINT4-UPS/1AC/1AC/1KVA 6.2 Device dimensions and keep-out areas 132 125 290 5 60 QUINT AC-UPS 1000VA Ord.No.2320283 130 50 90 140 5 T 15A 250V Ba Ala t.-M rm od AC e O Re K ad Ba t.-S P y > Ba ta Pn t.-S rt 2 3 ta 0V rt 12 Re 0V m ote SG nd 3.1 3.2 3.3 3.4 3.5 3.6 3.7 3.8 3.9 Link Parallel Port USB 5.2 5.1 Master 2kVA Power Master 1kVA Redundancy Slave Single Alarm Service SOC 15 20 10  PCMode 5 3 2 1 Custom (Default 0.5) Bat.-Mode Bat.-Charge Service Input AC 100-240V L N L N 120V AC OK 230V P>Pn/Remote 2.1 2.2 2.3 Battery 1 DC 24V Battery 2 DC 24V 4.1 4.2 4.3 4.4 4.5 4.6 + - Press >6s + - 140 90 50 1.1 1.2 1.3 Output AC 120/230V 60 Figure 2 107563_en_00 Device dimensions and keep-out areas PHOENIX CONTACT 14 / 34 QUINT4-UPS/1AC/1AC/1KVA 6.3 Block diagram 1.1  L Input 1.2 N AC 1.3 PE 2.1 = = = + 4.1 Battery 4.2 1 DC 4.3 2.2 2.3  =  3.3 C COM1 3.6 3.7 3.8 COM2 Parallel 5.2 Port 3.4 3.5 + 4.4 Battery 4.5 2 DC 4.6 3.1 3.2 3.9 L Output N PE AC Alarm Bat.-Mode AC OK Ready P>Pn Bat.-Start 230V Bat.-Start 120V Remote SGnd 5.1 Figure 3 Block diagram Key Element Meaning Bypass fuse Switch Rectifier DC/DC converter with electrical isolation = = Inverter Microcontroller µC LED J Temperature sensor Selector switch Battery communication (COM1) COM1 Battery communication (COM2) COM2 107563_en_00 PHOENIX CONTACT 15 / 34 QUINT4-UPS/1AC/1AC/1KVA 7 Mounting and removing 7.2 Normal mounting position The device can be snapped onto all DIN rails according to EN 60715 and should only be mounted in the normal mounting position. NOTE The device must be installed in a control cabinet that can be locked and only opened by specialist staff. NOTE: enable convection Depending on the ambient temperature and load on the uninterruptible power supply, the housing can become hot. Ord.No.2320283 Convection QUINT AC-UPS 1000VA 7.1 In order to ensure sufficient convection, we recommend a minimum vertical distance of 50 mm to the other devices. T 15 25 A 0V 3.1 Inpu tA L C 10 N 0-240V US B 1.1 1.2 Alarm e 3.2 3. od 3 Bat.-M AC OK y 3.4 3. Read Pn 5 3.6 P> 0V 3.7 tart 23 120V 3.8 te 3.9 Bat.-S tart Remo nd Bat.-S SG 5.1 1.3 Out pu t L AC 12 N 0/230V 2.1 2.2 2.3 Pa 12 0V 23 0V ralle 5.2 AC OK P> Pn / Lin l Po k rt Mas Sing ter le Re mo te 2k VA Po we r M Slav Re 1kaster e du VA nd an Alar SO C Se 10 15 20 5 3 Bat 2 +tery 1 DC - 24V Ord.No.2320283 Se Bat 4.1 4.2 4.3 ce ce PC M - 1 Cu od (De sto e fau m lt Ba 0.5 Ba rvi +tery 2 DC - 24V cy m rvi  t.-M ) od e t.-Ch arge Pres s >6 s 4.4 4.5 QUINT AC-UPS 1000VA 4.6 T 15 25 A 0V Figure 5 7.3 3.1 Alarm e 3.2 3. od 3 Bat.-M AC OK y 3.4 3. Read Pn 5 3.6 P> 0V 3.7 tart 23 120V 3.8 te 3.9 Bat.-S tart US Remo nd Bat.-S B SG Inpu tA L C 10 N 0-240V 1.1 1.2 5.1 1.3 Out pu t L AC 12 N 0/230V 2.1 2.2 2.3 Pa 12 0V 23 0V ralle 5.2 Lin l Po k rt AC OK P> Pn /R em ote Mas Sing ter le 2k VA Po we r M Slav Re 1kaster e du VA nd an Alar SO C Se 10 15 20 5 3 Bat 2 +tery 1 DC - 24V Se Bat 4.1 4.2 4.3 ce 4.4 4.5 4.6 Figure 4 Convection ce PC M - 1 Cu od (De sto e fau m lt Ba 0.5 Ba rvi +tery 2 DC - 24V cy m rvi  t.-M ) od e t.-Ch arge Pres s >6 s Normal mounting position Mounting the uninterruptible power supply Proceed as follows to mount the device: 1. In the normal mounting position the device is mounted on the DIN rail from above. When doing so, ensure that the base latch engages correctly behind the DIN rail (A). 2. Push the front of the device in the direction of the mounting surface until the base latch audibly snaps in (B). 3. Check that the UPS is securely attached to the DIN rail. A Click Figure 6 107563_en_00 B Snapping onto the DIN rail PHOENIX CONTACT 16 / 34 QUINT4-UPS/1AC/1AC/1KVA 7.4 Removing the uninterruptible power supply Proceed as follows to remove the device: 1. Take a suitable screwdriver and insert this into the lock hole on the base latch (A). 2. Release the lock by lifting the screwdriver (B). 3. Perform these procedures (A) and (B) for the second base latch. 4. Carefully swivel the device forward (C) so that the lock slides back into the starting position. 5. Then separate the device from the DIN rail (D). D A Figure 7 7.5 B 7.5.1 Mounting the UWA 130 2-piece universal wall adapter The UWA 130 universal wall adapter (Order No. 2901664) is attached to the device using the Torx screws provided. Proceed as follows to install the universal wall adapter: 1. Position the two-piece universal wall adapter on the right and left side of the housing. 2. Insert the Torx screws into the appropriate hole pattern on the universal wall adapter so that the necessary mounting holes of the device can be accessed. 3. Screw the two-piece universal wall adapter onto the uninterruptible power supply. C Removing from the DIN rail Wall mounting The UWA 130 universal wall adapter (Order No. 2901664) is used to attach the uninterruptible power supply directly to the mounting surface. The use of the universal wall adapter is recommended under extreme ambient conditions, e.g., strong vibrations. Thanks to the tight screw connection between the uninterruptible power supply and the universal wall adapter or the actual mounting surface, an extremely high level of mechanical stability is ensured. Figure 8 Mounting the UWA 130 universal wall adapter The maximum tightening torque of the Torx screw (Torx® T10) is 0.7 Nm. Make sure you use suitable mounting material when attaching to the mounting surface. 107563_en_00 PHOENIX CONTACT 17 / 34 QUINT4-UPS/1AC/1AC/1KVA 8 8.1 Device connection The working ranges of the uninterruptible power supply are specified in the following table. AC input The supply voltage is connected via "Input AC 100 - 240 V" connection terminal blocks. Input Output Voltage pos. tol. Current Voltage 100V 50Hz / 60Hz 10 % 20 % 10,4 A 100 V 7,8 A 110V 50Hz / 60Hz 10 % 20 % 10,5 A 110 V 8,1 A 889 VA / 800 W 120V 50Hz / 60Hz 10 % 20 % 10,5 A 120 V 8,3 A 1000 VA / 900 W Voltage Voltage neg. tol. Current Power QUINT AC-UPS 1000VA Ord.No.2320283 Note the different performance and tolerance values for the various voltages. T 15 25 A 0V 778 VA / 700 W 130V 50Hz / 60Hz 10 % 20 % 9,7 A 130 V 7,7 A 1000 VA / 900 W 200V 50Hz / 60Hz 20 % 20 % 6,4 A 200 V 5,0 A 1000 VA / 900 W 3.1 Inpu tA L C 10 N 0-240V US B 1.1 1.2 5.1 1.3 Out pu t L AC 12 N 0/230V 2.1 2.2 210V 50Hz / 60Hz 20 % 20 % 6,0 A 210 V 4,8 A 2.3 1000 VA / 900 W 220V 50Hz / 60Hz 20 % 20 % 5,7 A 220 V 4,5 A 1000 VA / 900 W 230V 50Hz / 60Hz 20 % 15 % 5,5 A 230 V 4,3 A 1000 VA / 900 W 240V 50Hz / 60Hz 20 % 10 % 5,3 A 240 V 4,2 A 1000 VA / 900 W Alarm e 3.2 3. od 3 Bat.-M AC OK y 3.4 3. Read Pn 5 3.6 P> 0V 3.7 tart 23 120V 3.8 te 3.9 Bat.-S tart Remo nd Bat.-S SG Pa 12 0V 23 0V ralle 5.2 AC OK P> Pn / Lin l Po Mas Sing ter le Re mo te 2k VA Alar Se 10 15 20 5 3 Bat 4.3 Working range of the uninterruptible power supply Se Bat 4.2 The following output voltages are preset by default: – 120 V AC at an input voltage in the 100 V range – 230 V AC at an input voltage in the 200 V range 2 +tery 1 DC - 24V 4.1 The uninterruptible power supply automatically detects if there is an input voltage from the 100 V range or from the 200 V range. Po we r M Slav Re 1kaster e du VA nd an SO C Figure 9 k rt ce ce  PC M - 1 Cu od (De sto e fau m lt Ba 0.5 Ba rvi +tery 2 DC - 24V cy m rvi t.-M ) od e t.-Ch arge Pres s >6 s 4.4 4.5 4.6 Figure 10 8.1.1 Connection terminal blocks for input Protection of the primary side The uninterruptible power supply automatically detects if there is a frequency in the 50 Hz or 60 Hz range. It must be possible to switch the device off using a suitable disconnection device outside the power supply. For example, the primary-side line protection is suitable for this (see technical data). The following frequency is set at the output: – 50 Hz +/- 5 % at an input frequency of 45 Hz to  0V 3.7 tart 23 120V 3.8 te 3.9 Bat.-S tart US Remo nd Bat.-S B SG Inpu tA L C 10 N 0-240V 1.1 1.2 tA L C 10 N 0-240V 1.1 1.2 Out Out 2.1 2.2 2.3 pu t L AC 12 N 0/230V 2.1 2.2 2.3 Pa 12 0V 23 0V pu t L AC 12 N 0/230V 5.1 1.3 5.1 1.3 3.1 Alarm e 3.2 3. od 3 Bat.-M AC OK y 3.4 3. Read Pn 5 3.6 P> 0V 3.7 tart 23 120V 3.8 te 3.9 Bat.-S tart US Remo nd Bat.-S B SG Inpu ralle 5.2 Lin l Po Pa 12 0V 23 0V 5.2 Mas Mas ter le 2k VA Alar Se 3 Bat 4.2 4.3 20 3 Bat 2  ce 1 ce PC Mod- Cu (De sto e fau m lt Ba 0.5 Ba rvi +tery 2 DC - 24V rvi  t.-M ) od e t.-Ch arge Pres s >6 s 4.4 PC M - 1 Se Bat 4.1 ce 5 2 +tery 1 DC - 24V cy m rvi cy Alar m Se 20 5 Po we r M Slav Re 1kaster e du VA nd an k Po we r M Slav Re 1kaster e du VA nd an k VA 10 15 4.5 Cu od (De sto e fau m lt 0.5 4.6 Ba Se Bat 4.3 2k 10 15 SO C 4.2 ter le SO C Sing +tery 1 DC - 24V Lin rt Sing rt AC OK P> Pn /R em ote 4.1 ralle l Po AC OK P> Pn /R em ote Ba rvi ce +tery 2 DC - 24V t.-M ) od e t.-Ch arge Pres s >6 s 4.4 4.5 4.6 Figure 11 Connection terminal blocks for output Figure 12 8.2.1 Battery connection Protection of the secondary side The uninterruptible power supply is electronically shortcircuit-proof and idling-proof. It must be ensured that all output cables are dimensioned appropriately for the maximum output current or have separate protection. 107563_en_00 PHOENIX CONTACT 19 / 34 QUINT4-UPS/1AC/1AC/1KVA 8.4 Connection terminal block signaling The uninterruptible power supply has the signal outputs: – Alarm (can be inverted via software) – Bat. Mode (can be inverted and parameterized via software) – AC OK (can be inverted and parameterized via software) – Ready (can be inverted and parameterized via software) – P > Pn (can be inverted and parameterized via software) QUINT AC-UPS 1000VA Ord.No.2320283 The uninterruptible power supply also features the signal inputs: – Remote – Bat.-Start 120 V – Bat.-Start 230 V T 15 25 A 0V 3.1 Inpu tA L C 10 N 0-240V US B 1.1 1.2 Alarm e 3.2 3. od 3 Bat.-M AC OK y 3.4 3. Read Pn 5 3.6 P> 0V 3.7 tart 23 120V 3.8 te 3.9 Bat.-S tart Remo nd Bat.-S SG 5.1 1.3 Out pu t L AC 12 N 0/230V 2.1 2.2 2.3 Pa 12 0V 23 0V ralle 5.2 AC OK P> Pn / Lin l Po k rt Mas Sing ter le Re mo te 2k VA Po we r M Slav Re 1kaster e du VA nd an Alar SO C Se 10 15 20 5 3 Bat 2 +tery 1 DC - 24V Se Bat 4.1 4.2 4.3 ce 1 ce PC M Cu od (De sto e fau m lt Ba 0.5 Ba rvi +tery 2 DC - 24V cy m rvi  t.-M ) od e t.-Ch arge Pres s >6 s 4.4 4.5 4.6 Figure 13 8.5 Signal inputs and outputs Conductor cross sections L [Nm] [lb in] 8 0.5-0.6 5-7 8 0.5-0.6 5-7 8 0.5-0.6 5-7 0.2-4 30-10 8 0.5-0.6 0.2-1.5 30-12 8 0.5-0.6 5-7 5-7 [mm²] [mm²] AWG [mm] Input AC 1.1...1.3 0.2-6 0.2-4 30-10 Output AC 2.1...2.3 0.2-6 0.2-4 30-10 0.2-6 0.2-4 30-10 0.2-6 0.2-1.5 Battery 1 DC 4.1...4.3 Battery 2 DC 4.4...4.6 Signals 3.1...3.9 Figure 14 107563_en_00 Screw Conductor cross sections PHOENIX CONTACT 20 / 34 QUINT4-UPS/1AC/1AC/1KVA 8.6 Installation of individual components Installation of uninterruptible power supply units must correspond to EN 60950 regulations. Provide a switch/circuit breaker close to the device at the AC input, AC output and at the battery terminals, which are labeled as the disconnecting device for this device. QUINT AC UPS Input AC L N 5 1.1 1.2 1.3 Output AC L N 5 2.1 2.2 2.3 Unbuffered AC load Battery 1 DC + - Battery 2 DC + - 4.1 4.2 4.3 4.4 4.5 4.6 Energy storage 1 Energy storage 2 + + - - Buffered AC load 5 Protective conductor Figure 15 Schematic design The image is a schematic representation of the design and does not contain all parts. Observe the installation instructions. 107563_en_00 PHOENIX CONTACT 21 / 34 QUINT4-UPS/1AC/1AC/1KVA 9 Device operation Basic settings for commissioning can be made directly via the rotary selection switch on the device. Advanced settings can be made via the UPS-CONF PC software. UIN UOUT The latest software version is to be found in the product download area. t0 9.1 t Setting the operating mode You can set the following functions via the rotary selector switch on the front of the device: – Buffer period – PC mode 15 20 10 3 2 Figure 16  PCMode 5 1 Custom (Default 0.5) Rotary selector switch Use a suitable screwdriver to set the rotary selector switch. 9.1.1 t1  (unlimited, delivery state) 107563_en_00   t0: mains power failure t1: after the preset buffer time has expired, the output is switched off 9.1.2 PC mode In PC mode, you can individually parameterize the chronological sequence of the UPS functions via the UPSCONF configuration software. To access the PC mode of the UPS, set the rotary selector switch to PC mode. The following components are required for the PC mode function: Data cable MINI-SCREW-USB-DATACABLE (Order No. 2908217) Configuration software UPS-CONF (Order No. 2320403) Buffer time Rotary selector switch setting 1, 2, 3, 5, 10, 15, 20 Custom (default 0.5) Figure 17 Meaning The UPS switches off after the set buffer time. The UPS switches off after the individual buffer time set via UPSCONF. If a buffer time is not set, the UPS shuts down after 30 seconds. Buffering with the total stored energy. An alarm is generated as soon as the voltage of the energy storage falls below 20.4 V (default). In the event of a mains failure, one PC can continue to work, perform a controlled shutdown, and restart automatically. 1. Delay time If the mains supply is not restored during the delay time, the PC is shut down. 2. Program start After the delay time has expired, it is possible to start a program. 3. PC shutdown The time required for PC shutdown is set here. PHOENIX CONTACT 22 / 34 QUINT4-UPS/1AC/1AC/1KVA 1+2 9.1.3 3 UIN Service mode When working in a system, it may be necessary to switch the uninterruptible power supply unit over to service mode. UOUT Service Press >6s PC Figure 20 t0 Figure 18 t1 t2 Service mode buttons t In this operating mode, DC battery connection terminal blocks are deactivated using software. The active signal output is always activated when the unit is switched over to service mode.   t0: mains power failure t1: delay time and program runtime have expired, PC will be shut down Energy storage device replacement t2: the PC has shut down, the output will be switched off 4. PC idle time WARNING Only if the PC is shut down and the mains supply is restored in the meantime is the output voltage interrupted for the reset time and the PC then started automatically. When connecting the batteries take note of the polarity. 1+2 3 Do not short circuit the pole terminals. The batteries are maintenance free and may not be opened. 4 UIN NOTE UOUT When replacing batteries, always use new batteries from the same production batch. PC When replacing batteries, you should always replace all of the batteries in use. t0 Figure 19 t1 t2 t3 t4 t   t0: mains power failure t1: delay time and program runtime have expired, PC will be shut down t2: mains restored while PC is shutting down t3: the PC has shut down and the output will be switched off, PC idle time starts t4: the PC idle time has expired, PC is starting back up 107563_en_00 When storing the battery modules, observe the latest startup date and recharge the batteries if necessary. The batteries may only be recharged using the uninterruptible power supply. To replace the energy storage device, proceed as follows: 1. Press and hold down the Service Mode button more than 6 s. 2. Remove the fuses. 3. Remove the cabling of the battery blocks. 4. Remove the batteries. 5. Install the new batteries. 6. Connect the cabling of the battery blocks. 7. Insert the fuses. 8. Exit Service mode. a) With acknowledgment of the battery replacement: Press and hold down the Service Mode button for more than 6 s (the LED bar graph flashes 6 times and the red LED goes out). PHOENIX CONTACT 23 / 34 QUINT4-UPS/1AC/1AC/1KVA 9. Acknowledge the battery replacement to confirm it. Assuming that there are new batteries, the SOH (State of Health) and SOC (State of Charge) are recalculated. b) Without acknowledgment of the battery replacement: Press and hold down the Service Mode button for more than 1 s and less than 6 s (the red LED goes out). Set the buffer time or PC mode. Remote UIN UOUT t0 t1 t Notes on disposal Figure 21 Do not dispose of the UPS and battery modules in household waste! They should be disposed of according to the currently applicable national regulations. You can return used batteries and accumulators to Phoenix Contact or the manufacturer.   t0: remote signal is set in mains operation t1: no input voltage, output will be switched off If the Remote signal is set in battery operation, battery operation is exited immediately. The UPS output is switched off. This procedure cannot be reversed. The UPS is only activated once the input voltage is applied. Remote 9.2 Remote You can use the Remote signal terminal to: 1. Deactivate and exit battery operation. 2. Perform controlled shutdown of the PC in mains operation and battery operation. 3. Perform controlled shutdown of the PC in battery operation. To perform these steps, you must connect the Remote signal terminal to the SGnd signal terminal. UIN UOUT t0 Figure 22 t1 t2 t   1. Remote deactivates battery operation t0: no input voltage You can deactivate battery operation using this function. This function is always active when a buffer time has been preset. t1: remote signal is set in battery operation, output will be switched off t2: input voltage restored, output will be switched on This function is the default setting in PC mode. In mains operation, the Remote signal is indicated by the flashing green LED (see Signaling section). In the event of mains failure, battery operation is not started. 2. Remote starts undelayed PC-Shutdown You can shut down the PC immediately via the UPS-CONF configuration software. This setting only applies in PC mode. The Remote signal is indicated by the flashing green LED (see Signaling section). The PC shuts down, and the delay time under Item 1 is skipped (see PC mode section). Once the PC has shut down, the UPS output is switched off. When input voltage is present, the connected energy storage devices remain charged and the system is ready to use. When you reset the Remote signal, the UPS output is switched on again. 107563_en_00 PHOENIX CONTACT 24 / 34 QUINT4-UPS/1AC/1AC/1KVA Remote Remote UIN UIN UOUT UOUT PC PC t0 Figure 23 t1 t2 t0 t   Figure 24 t1 t2   t0: remote signal is set during mains operation, PC will be shut down t0: remote signal is set in mains operation t1: PC has shut down, output will be switched off t2: the PC has shut down, the output will be switched off t2: remote signal will be reset, output will be switched back on 9.3 Once the PC has shut down in battery operation, the uninterruptible power supply output is switched off. This procedure cannot be reversed. The uninterruptible power supply is not activated until the input voltage is applied. 3. Remote starts immediate PC shutdown only in battery operation You can perform immediate shutdown of the PC when battery operation is entered via the UPS-CONF configuration software. This setting only applies in PC mode. The Remote signal is indicated by the flashing green LED (see Signaling section). If the Remote signal is set in mains operation, the PC is shut down when battery operation is entered. The delay time under Item 1 is skipped (see section PC mode). Once the PC has shut down in battery operation, the uninterruptible power supply output is switched off. This procedure cannot be reversed. The uninterruptible power supply is not activated until the input voltage is applied. 107563_en_00 t t1: no input voltage, PC shutdown begins immediately Battery start (Bat.-Start 120 V / Bat.-Start 230 V) You can use the signal terminal Bat.-Start 120 V or Bat.Start 230 V to start the UPS without supply voltage on the input side and create an autonomous supply for the load. To do this, you must connect the signal terminal Bat.-Start 120 V or Bat.-Start 230 V to the SGnd signal terminal. – Bat.-Start 120 V: The output voltage is 120 V / 60 Hz – Bat.-Start 230 V: The output voltage is 230 V / 50 Hz The maximum duration of the autonomous supply for the load depends on the charging state of the battery. The signaling corresponds to the signaling for battery operation (see Signaling section). To exit autonomous operation, you must disconnect the signal terminal Bat.-Start 120 V or Bat.-Start 230 V and the SGnd signal terminal. If PC Mode operating mode is set, then in this case the PC shuts down immediately (see section Remote starts immediate PC shutdown). Do not connect the communication line during a battery start, even for Phoenix Contact battery types. An alarm is always generated when connecting a communication line to a noninitialized battery. This does not negatively impact the supply to the connected load. PHOENIX CONTACT 25 / 34 QUINT4-UPS/1AC/1AC/1KVA 10 Method of operation 10.1 IQ technology IQ Technology is an intelligent battery management system. In order to use IQ Technology, one of the following Phoenix Contact IQ battery types must be implemented: – UPS-BAT/VRLA/24DC/... – UPS-BAT/VRLA-WTR/24DC/... – UPS-BAT/LI-ION/24DC/... The respective battery type is connected to the uninterruptible power supply via three connecting cables. One cable each is connected to the plus (+) and minus (-) contacts for power transmission. A data cable is provided for communication. The communication between the UPS and battery reveals the UPS of the battery type and the number of connected batteries. This uninterruptible power supply can use this information to calculate and configure the following parameters: – SOC (State of Charge): current charging state and remaining runtime of the battery is always available. – SOH (State of Health): displays the remaining battery life and warns of failures at an early stage. – Optimal charging: the optimally set charging characteristics maximize the remaining service life of the battery and ensure the fastest possible recharge time and a high availability. The batteries of the aforementioned type must first be fully charged (initialized) in order to determine the SOC and SOH. After this initial charging process, all IQ Technology functions are available. 10.2 Battery capacity Number/ Battery string Charging time (approx.) [h] Battery type UPS-BAT/ VRLA/24DC/... Figure 25 1 7.2AH 1 4 12AH 1 4 4 12AH 2 8 38AH 1 12 38AH 2 24 13AH 1 4 26AH 1 8 26AH 2 16 120WH 1 2 120WH 2 3 924WH 1 11 924WH 2 22 UPS-BAT/ VRLA-WTR/24DC/... UPS-BAT/ LI-ION/24DC/... 3.4AH Battery charging times for various battery capacities The battery changer for the uninterruptible power supply operates according to the IUoU charge curve. I II III   =U =I  = SOC  t Figure 26 Charging characteristic Battery management – The uninterruptible power supply works with a 48 V battery system. Connect at least two 24 V batteries. You can connect up to 5 batteries of the same type per battery string (battery connection terminals "Battery 1" and "Battery 2"). – The following table shows the charging times for different battery capacitance levels: – Segment I: Base charge with a constant charging current until the end-of-charge equalization voltage is reached at the battery. Segment II: Charging with an end-of-charge equalization voltage until the charging current is reduced to a specific value. Segment III: Trickle charging with a constant trickle endof-charge voltage to prevent self-discharge. When using the Phoenix Contact IQ energy storage devices, all the necessary charging parameters are set automatically. When using standard energy storage devices (not IQ Technology), you can set the following charging parameters using the UPS-CONF configuration software: 107563_en_00 PHOENIX CONTACT 26 / 34 End-of-discharge voltage Area 3 ... 200 Ah 0.2¨... 5 A 50 V to 60 V Default 2.8 A 56 V 50 V to 60 V 0 mV /  K ... 55.2 V -42 mV / K -200 mV / K 36 ... 48 V 38.4 V QUINT AC-UPS 1000VA Parameter Nominal capacity Initial charging current Absorption charging end voltage Float charging end voltage Temperature compensation (of the charging voltages) Ord.No.2320283 QUINT4-UPS/1AC/1AC/1KVA T 15 25 A 0V 3.1 Inpu tA L C 10 N 0-24 0V US B 1.1 1.2 Alarm e 3.2 3. od 3 Bat.-M AC OK y 3.4 3. Read Pn 5 3.6 P> 0V 3.7 tart 23 120V 3.8 te 3.9 Bat.-S tart Remo nd Bat.-S SG 5.1 1.3 Out pu t L AC 12 N 0/230V When using Phoenix Contact IQ battery types, the configurable parameters are ignored. The values from the IQ battery types are used to configure the charger. 2.1 2.2 2.3 Pa ralle l 12 0V 23 0V 5.2 Lin k Po rt AC OK P> Pn /R em ote Mas ter Sing 2kVA le Po we r M Slav Re 1kaster e du VA nd an cy SO Alar m Se rvi ce C 10 15 20 5 3 Bat tery + 2 1 - DC 24V Bat tery 4.1 + 4.2 4.3 If segment III (see the charging characteristic figure) is not achieved within a specific period, an alarm is generated (alarm: maximum charging time exceeded). The uninterruptible power supply uses the charging parameters to calculate the permitted time.  PC M - Cu od (De sto e fau m lt Ba 0.5) t.- Mod e Ba t.-Ch arge Pres s >6 s 4.4 4.5 4.6 Figure 28 11 Se rvi ce 2 - DC 24V 1 Signal inputs and outputs Signaling QUINT AC-UPS 1000VA Ord.No.2320283 Various LED indicators are available for visual function monitoring of the uninterruptible power supply. Active signal outputs can be used to forward this data to a higher-level control system. T 15 25 A 0V 3.1 Inpu tA L C 10 N 0-240V US 1.1 Alarm de 3.2 3. 3 Mo Bat.- AC OK y 3.4 3. Read Pn 5 3.6 P> 0V 3.7 23 3.8 Start 120V 3.9 Bat.Start Remote Bat.B SGnd 1.2 5.1 1.3 Out pu t L AC 12 N 0/230V 2.1 Pa ralle l Po 5.2 12 2.2 2.3 0V 23 0V AC Lin k rt Mas OK P> P n/ ter Sing le Re mo te 2k VA Po we r M Slav Re 1kaster e du VA nd an cy Alar SO m C Se rvi ce 10 15 20 5 3 Bat 2 +tery 1 DC - 24V 4.2 4.3  PC M - 1 Cu od (De sto e fau m lt Ba 0.5 t.-M ) od e t.-Ch arge Ba Se rvi ce Bat 4.1 +tery 2 DC - 24V Pres s >6 s 4.4 4.5 4.6 Figure 27 107563_en_00 LED indicators PHOENIX CONTACT 27 / 34 QUINT4-UPS/1AC/1AC/1KVA 11.1 LED indicators and signal outputs For UPS signaling and the corresponding states, please refer to the table below. Switching output Status LED 120V / 230V Alarm Bat. D = 50% D = 50% D = 50% D = 50% D = 50% D = 50% D = 85% D = 50% Note Bat.-Mode Ready Alarm (active low) AC OK P>Pn low low low low low Device off low low high low low Initialization, LED test (~3 sec.) low high high high low Mains operation, battery is fully charged low low or high high high low Mains operation, battery charging in process high high or low high high low Battery mode low low low high low Mains operation, battery failure low low low high low Mains operation, service mode for battery change high low low high low Battery mode, battery voltage low low high high high high Mains operation, overload, battery is fully charged high high or low high high high Battery mode, overload low low or high high high high Mains operation, overload, battery charging in process low low low high high Mains operation, overload, battery failure low low low high high Mains operation, overload, service mode for battery change low high high high low Mains operation, remote contact shorted to SGnd, battery is fully charged low low or high high high low Mains operation, remote contact shorted to SGnd, battery charging in process high high or low high high low Battery mode, remote contact shorted to SGnd, (only PC-Mode) low low low high low Mains operation, remote contact shorted to SGnd, battery failure low low low high low Mains operation, remote contact shorted to SGnd, service mode for battery change Link Single mode Parallel system in operation Malfunction in parallel system D = 50% D = 50% LED flashing LED on LED off D = 85% 100% Figure 29 107563_en_00 t LED indicators and signal outputs PHOENIX CONTACT 28 / 34 QUINT4-UPS/1AC/1AC/1KVA 11.2 Signal outputs Alarm In the event of an alarm, the signal output is active (low level). The signal status can be inverted via the UPS-CONF configuration software. A digital transistor output is available as a signal contact. This signal is indicated visually by a red LED. Possible general alarms include: – Shutdown when overloaded – Service mode active – Bypass fuse defective Possible battery alarms include: – No battery connected – Batteries of different types connected – Low battery voltage in the network operation – Block voltage difference too large – Permitted charging time exceeded – End of the battery life reached SOH (State of Health), can be adjusted using UPS-CONF – Low battery voltage in battery operation, can be adjusted using UPS-CONF – Low SOC (State of Charge) in battery operation, can be adjusted using UPS-CONF – Low remaining buffer time in battery operation, can be adjusted using UPS-CONF Possible alarms in the parallel system include: – Impermissible settings in the devices – No redundancy present (in general, the total load is too large) – System error Either the 120 V or 230 V LED lights up permanently (depending on the detected voltage range). You can assign other additional information to this signal output using the UPS-CONF configuration software. Ready If the energy storage devices are fully charged (SOC = 100 %), the signal output is active (high level). The signal status can be inverted via the UPS-CONF configuration software. A digital transistor output is available as a signal contact. You can assign other additional information to this signal output using the UPS-CONF configuration software. P>Pn If the output power exceeds the maximum permitted output power, the signal output is active (high level). The signal status can be inverted via the UPS-CONF configuration software. A digital transistor output is available as a signal contact. This signal is indicated visually by a green LED. Either the 120 V or 230 V LED flashes (depending on the detected voltage range). You can assign other additional information to this signal output using the UPS-CONF configuration software. 11.3 Signal inputs Remote You can activate and trigger various functions using the remote signal input. For additional information, please refer to the "Remote device operation" section. This signal is indicated visually by a green LED. Bat.-Mode If there is a mains failure and the load is being supplied from the energy storage device, the signal output is active (high level). The signal status can be inverted via the UPS-CONF configuration software. A digital transistor output is available as a signal contact. This signal is indicated visually by a yellow LED. You can assign other additional information to this signal output using the UPS-CONF configuration software. AC OK If the load is being supplied, the signal output is active (high level). The signal status can be inverted via the UPS-CONF configuration software. Either the 120 V or 230 V LED flashes (depending on the detected voltage range). A change made to the remote function using the UPS-CONF configuration software is not applied until a corresponding status change of the remote signal input or device restart has been carried out. Bat.-Start (Bat.-Start 120 V / Bat.-Start 230 V) You can use the Bat.-Start 230 V or Bat.-Start 120 V signal terminals to start the UPS without supply voltage on the input side . For additional information, please refer to the section "Device operation, battery start". A digital transistor output is available as a signal contact. This signal is indicated visually by a green LED. 107563_en_00 PHOENIX CONTACT 29 / 34 QUINT4-UPS/1AC/1AC/1KVA 11.4 LED bar graph display / Bat. LED The LED bar graph display consists of five individual segments and displays the SOC (state of charge) of the energy storage device. In this case, each segment corresponds to 20 % of the total capacity. SOC 100% The individual segments of the LED bar graph display are illuminated based on the current state of charge (SOC) of the energy storage device. The current charging state is indicated by permanently illuminated segments. In this case, each segment corresponds to 20 % of the total capacity. The flashing segment displays the charging process for the next 20 % segment. Standard energy storage devices (without IQ technology) 80% 40% The bottom LED bar graph display segment and bat. LED flash during the charging process. If the energy storage device is fully charged, the bottom segment of the LED bar graph display continues to flash and the bat. LED is off. 20% 11.4.2 Discharging 60% IQ energy storage device - not initialized Figure 30 Bar graph display (SOC) The energy content is not displayed because the state of charge of the energy storage device is unknown. Depending on the type of energy storage device used (whether it is equipped with IQ technology or not), the bar graph display varies from the battery charging display to the battery discharging display. During the discharging process, the LED bar graph display empties from top to bottom. The bat. LED lights up permanently. The battery LED (bat. mode / bat. charge) indicates whether the battery is being charged or discharged. IQ energy storage device - initialized The energy storage device has already been fully charged once. The energy storage characteristics are determined. 11.4.1 Charging The charging time of the energy storage device depends on the capacity and energy supplied by the uninterruptible energy supply unit. The maximum charging time can last up to several hours. IQ energy storage device - not initialized As the state of charge (SOC) of the energy storage device is still unknown when installing it for the first time, the device must be fully charged once. Until the device has been fully charged for the first time, the LED bar graph display fills up repeatedly from bottom to top. The bat. LED flashes during the charging process. If the energy storage device is fully charged, all five segments of the LED bar graph display light up and the bat. LED is off. The individual segments of the LED bar graph display are illuminated based on the current state of charge (SOC) of the energy storage device. The current charging state is indicated by permanently illuminated segments. In this case, each segment corresponds to 20 % of the total capacity. If the SOC (State of Charge) < 20 %, the bottom segment of the LED bar graph display lights up in red. During the discharging process, the bat. LED lights up permanently. Standard energy storage devices (without IQ technology) During the discharging process, the LED bar graph display is off. The bat. LED lights up permanently. IQ energy storage device - initialized The energy storage device has already been fully charged once. The energy storage characteristics are determined. 107563_en_00 PHOENIX CONTACT 30 / 34 QUINT4-UPS/1AC/1AC/1KVA 12 Interfaces The uninterruptible power supply unit is equipped with 3 interfaces for data transmission. 1. USB interface MINI type B 2. Communication interface parallel run 3. Service USB interface Mini type B (bottom of the device) Designation Mini type B USB connector with screw connection USB plug type A Cable length: 3 m 12.2 Communication interface parallel run The uninterruptible power supply is equipped with a USB Mini type B interface for data transmission. A data cable is required for communicating with a PC or a higher-level controller. Ord.No.2320283 USB interface MINI type B QUINT AC-UPS 1000VA 12.1 No. 1 2 3 T 15 25 A 0V 3.1 Inpu tA L C 10 N 0-240V US Ord.No.2320283 1.1 1.2 B Alarm de 3.2 3. 3 Mo Bat.- AC OK y 3.4 3. Read Pn 5 3.6 P> 0V 3.7 23 3.8 Start 120V 3.9 Bat.Start Remote Bat.SGnd 5.1 1.3 Out pu QUINT AC-UPS 1000VA t L AC 12 N 0/230V 2.1 Pa ralle 5.2 12 2.2 2.3 0V 23 0V AC P> Pn T 15 25 A 0V Lin k l Po rt Mas OK /R Sing em ter le ote 2k VA Po we r M Slav Re 1kaster e du VA nd an cy Alar SO m C Se rvi ce 10 15 20 5 3 Bat 2 +tery 1 DC - 24V 4.2 4.3 3.1 Alarm e 3.2 3. od 3 Bat.-M AC OK y 3.4 3. Read Pn 5 3.6 P> 0V 3.7 tart 23 120V 3.8 te 3.9 Bat.-S tart US Remo nd Bat.-S B SG Inpu tA L C 10 N 0-240V 1.1 1.2 PC M - 1 Cu od (De sto e fau m lt Ba 0.5 t.-M ) od e t.-Ch arge Ba Se rvi ce Bat 4.1  +tery 2 DC - 24V Pres s >6 s 4.4 4.5 4.6 5.1 1.3 Out pu t L AC 12 N 0/230V 2.1 2.2 2.3 Pa 12 0V 23 0V ralle 5.2 Lin l Po k rt AC OK P> Pn /R em ote Figure 33 Mas Sing ter le 2k Po we r M Slav Re 1kaster e du VA nd an Alar SO C Se 10 15 20 5 3 Bat tery + 2 1 Se Bat 4.1 4.2 4.3 cy m rvi ce  PC M - 1 Cu od (De sto e fau m lt 0.5 Ba - DC 24V Ba rvi Communication interface parallel run VA ce +tery 2 DC - 24V t.-M ) od e t.-Ch arge Pres s >6 You can find additional information on the communication interface in the Parallel Operation section. s 4.4 4.5 4.6 Figure 31 USB interface MINI type B 12.1.1 MINI-SCREW-USB-DATACABLE The uninterruptible power supply unit is connected to the USB PC connection with data cable MINI-SCREW-USBDATACABLE (Order No. 2908217) via USB interface mini type B. 2 12.3 Service USB interface Mini type B Connection via the service Mini type B USB interface is not electrically isolated. The uninterruptible power supply unit is connected to the USB PC connection with data cable CABLE-USB/MINIUSB-3.0M (Order No. 2986135) via the service Mini Type B USB interface. You can find the interface on the right bottom side of the device. The data cable can be used to parameterize the uninterruptible power supply, even if there is no input voltage. 3 1 Figure 32 107563_en_00 MINI-SCREW-USB-DATACABLE PHOENIX CONTACT 31 / 34 QUINT4-UPS/1AC/1AC/1KVA 13 Parallel operation You can connect two UPS devices in parallel in order to increase the power or to supply the loads redundantly. Configuration is carried out using the parallel running mode rotary selector switch on the front of the device. Set the rotary selector switch of a UPS to "Master 2 kVA Power" to increase its power. Set the rotary selector switch of the second UPS to “Slave“. Set the rotary selector switch of a UPS to "Master 1 kVA Redundancy" to ensure a redundant load supply. Set the rotary selector switch of the second UPS to “Slave“. The rotary selector switch configuration is applied during device startup. Changes to the rotary selector switch configuration during operation have no effect on the proper functioning of the UPS. During parallel operation, connect the uninterruptible power supplies with an RJ45 twisted pair patch cable via the parallel running communication interfaces. The outputs of the two UPS devices are connected to each other directly. The output power is distributed symmetrically to each UPS in all parallel running modes. Observe the following points when carrying out parallel connection: 1. Always connect the same number and same type of energy storage devices to the UPS devices. 2. Use the parallel running rotary selector switch to configure the individual UPS devices (see the section "Parallel operation"). 3. Use the same cable cross sections for wiring. 4. Use the same cable lengths up to the AC convergence point. 5. Operate the UPS devices in the same temperature conditions. 107563_en_00 PHOENIX CONTACT 32 / 34 QUINT4-UPS/1AC/1AC/1KVA Parallel Port 5.2 Parallel Port 5.2 QUINT AC UPS (Master) Input AC L N 1.1 1.2 1.3 Output AC L N 2.1 2.2 2.3 Battery 1 DC + 4.1 4.2 4.3 Input AC L N 1.1 1.2 1.3 Battery 2 DC + 4.4 4.5 4.6 L QUINT AC UPS (Slave) Input AC L N 2.1 2.2 2.3 Battery 1 DC + 4.1 4.2 4.3 Battery 2 DC + 4.4 4.5 4.6 L N N PE PE Energy storage 1 Energy storage 2 Energy storage 1 Energy storage 2 Buffered AC load Figure 34 Schematic layout - parallel operation During parallel operation, the following settings are transferred from the master device to the slave device. The settings of the slave device are ignored here: – Selecting the operating mode (buffer time / PC mode) using the rotary selector switch – Remote signal terminal operation – Configuration using UPS-CONF configuration software. Changes to the settings can only be made using the master device and are permanently transferred to the slave device. Both of these devices can read parameters. The following alarm messages are available in parallel operation: – Parallel mode is not possible: This combination of two master or slave devices is not permitted. – No redundancy: The device fails in redundant operation or the total power is too high in redundant operation. This means that in the case of a device fault, the load cannot be supplied using a device. – System error: Each alarm in parallel operation is displayed as a sum message. All alarm signal outputs can be used. 107563_en_00 PHOENIX CONTACT 33 / 34 QUINT4-UPS/1AC/1AC/1KVA 14.2 Increasing power Parallel connection for increased power is used when extending existing systems. If the individual UPS does not cover the current consumption of the most powerful consumer, parallel connection of UPS devices is recommended. The output power can be doubled for two UPS devices connected in parallel. Settings in the parallel running mode rotary selector switch: – UPS 1: "Master 2 kVA Power" – UPS 2: "Slave" 13.2 Redundant operation Settings in the parallel running mode rotary selector switch: – USV 1: „Master 1 kVA Redundancy” – UPS 2: "Slave" Derating 14.1 Ambient temperature A power derating of 0.6%/100 m should be observed for installation heights between 2000 and 3000 m. 105 100 95 Redundant operation of UPS devices is suitable for supplying systems and system parts which place particularly high demands on operational safety. In the event of a fault, it must be ensured that one of the uninterruptible power supplies is able to provide the total required power for the load. 14 Installation height The uninterruptible power supply can be operated at an installation height of up to 2000 m without any limitations. Different data applies for installation locations above 2000 m due to the differing air pressure and the reduced convection cooling associated with this. POut [%] 13.1 90 85 80 0 1000 2000 3000 H [m] Figure 36 Altitude-dependent derating POut [%] At an ambient temperature of up to 50 °C, the uninterruptible power supply supplies the continuous nominal power. At an ambient temperature of > 50 °C, a power derating of 2.5%/K should be observed for the uninterruptible power supply. 100 90 80 70 60 50 0 10 20 30 40 50 60 TA [°C] Figure 35 107563_en_00 Temperature-dependent derating PHOENIX CONTACT GmbH & Co. KG • 32823 Blomberg • Germany phoenixcontact.com 34 / 34