Manuale d’uso / di manutenzione del prodotto MatrixTM UPS del fabbricante American Power Conversion
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Matrix TM UPS User’s Manual 208/240 Vac, 60 Hz version NOTE: Printing this document may cause printer overflow. If this occurs, try printing small groups of pages.
Table of Contents 1. Introduction 2. Safety 3. Presentation Isolation Unit (IU) Electronics Unit (EU) Battery Pack 4. Installation Receiving Inspection, Protection Strategies, Moving the UPS, Placement Input Voltage Selection Module Interconnections Emergency Power Off (EPO) Interface Start-up Input Plug Incompatibility 5.
1. Introduction 1.1 Overview The UPS is a high-power enhanced line interactive uninterruptible power source designed to provide clean, reliable AC power to computer, data handling, and telecommunications loads. Normally, the UPS operates "on-line" and provides power to the load derived from the input utility source.
1.4 Display Local UPS user interface is served by a display and control panel containing a back-lit 2 x 16 character display and three pushbuttons. Using the pushbuttons, menus for the display of UPS status information, UPS control commands, UPS setup, UPS tests, and UPS diagnostics are shown.
3. Presentation 3.1 Isolation Unit (IU) Rear View of Isolation Unit 1. Isolation Unit (IU) The Isolation Unit contains the UPS’s isolation transformer, EMI/RFI and surge suppression, bypass circuits including an auxiliary power supply, and utility and load wiring interfaces.
5a. NEMA 5-15R receptacles Six 15 Amp rated NEMA 5-15R outlets provide a nominal 120 Vac for multiple small loads. 5b. NEMA 5-15R receptacle circuit breaker Each NEMA 5-15R duplex receptacle is protected by a circuit breaker. This protection is necessary because the UPS is capable of delivering more than the receptacle’s maximum current rating.
3.2 Electronics Unit (EU) Rear View of the Electronics Unit 1. Electronics Unit (EU) The Electronics Unit contains the UPS’s microprocessor controls, inverter, battery charger, transfer and tap changing circuits, remote interfaces, and the user control and display console.
6. Battery communications jack The Battery Pack communications cable from the Battery Pack OUTPUT is connected at this jack. 7. Manual bypass switch Pressing the manual bypass switch causes the UPS to transfer to the bypass mode of operation. While in this mode, the load is supplied with power conditioned by the IU.
4. Battery Pack panel coupler Additional Battery Packs are connected to this panel coupler. A coupler clamp is installed over the coupler opening as furnished from the factory. See the Installation section of this manual for instructions on how to lock mated couplers.
4.3 Moving the UPS The UPS is heavy and should be moved to the operating site by hand truck. Two people are necessary to load the UPS into position on the truck noseplate. Load the UPS onto the hand truck as shown below. Use hand truck straps to stabilize the load while moving.
4.5.2. Using a medium size phillips screwdriver, remove all 10 screws that secure the power distribution plate to the rear of the Isolation Unit. Move aside the power distribution plate. Take care not to strain the wires connected to the devices on the plate.
Typical installation showing mated battery couplers Note: To reduce the risk of toppling, do not stack equipment more than 2 units high. Follow the instructions listed below to install the battery communications cables. 4.6.5. Mate the battery cable plugs in the fashion illustrated below.
4.7 Emergency Power Off (EPO) Interface The UPS may be switched off by a remotely operated Emergency Power Off control. Such a configuration is common in computer rooms and laboratories where, for safety reasons, power to the loads must be disconnected.
4.8 Start-Up To start the UPS, follow the instructions listed below. 4.8.1 If a UPS monitoring signal cable is to be installed, connect it to the Electronic Unit’s Computer Interface Port. For more details on the computer interface port, see the manual section entitled UPS Monitoring .
will indicate an overload. 4.8.8 4.9 Input Plug Incompatibility The UPS is furnished with a twist-lock L6-30P input plug rated to 250V/30A. If it is found that this plug is not compatible with the available wall outlet, the outlet receptacle should be changed.
5.1.1 Sleep Mode While in the sleep mode of operation, the UPS’s display is inactive and no voltage is present at the output. The UPS enters the sleep mode following a 5 minute interval when no commands are given while in the standby mode (see following section).
5.1.5 Bypass mode When in the bypass mode of operation, the load is supplied power conditioned by the Isolation Unit. However, the load will not be protected from utility voltage sags, swells or blackouts. The UPS will automatically transfer to bypass operation when a failure occurs within the Electronics Unit.
5.2.3 UPS Control menu The UPS Control menu allows the user to access sub-menus that show UPS switch on/off and bypass in/out operation choices. To avoid accidentally powering or unpowering the load when a UPS on/off control choice is mistakenly entered, the UPS will ask the user to confirm the choice.
5.2.5 UPS Diagnostics menu The UPS Diagnostic menu allows the user to access information that may be useful when troubleshooting the UPS. This screen shows the UPS’s identity name. The name set by the factory can be changed to an 8 character alphanumeric name using optional UPS monitoring application software.
This screen shows the number of Battery Packs reporting that their voltage level has reached the proper "float" voltage. This screen shows the UPS’s battery voltage. The accuracy of this measurement is ±5% of the full scale value of 68 Vdc.
5.2.6 UPS Setup The UPS Setup menu allows the user access to sub-menus that show special UPS function choices. Function choices are selected with the Select key. Other sub-menus and function choice confirmation can be accessed by pressing the Ok key. The sub-menus and function choices are described below.
This screen shows selected UPS self test function choice. The self test determines the readiness of the UPS to supply power to the load in the event of utility failure. The benefit of this test is that the user is warned of conditions that could otherwise cause unexpectedly short run times.
For applications where the UPS is used as a remote power source or where the UPS frequently transfers to on-battery operation due to poor service quality, the function of the audible alarm may be altered so that it will not become an annoyance. l All imed - A sequence of four beeps is sounded immediately upon transfer to on-battery operation.
5.2.7 UPS Tests The UPS Tests menu allows the user to access sub-menus that show operation confirmation functions. This screen shows the audible alarm test sub-menu. When the Do key is pressed, the UPS will briefly sound the audible alarm. This screen shows the battery test sub-menu.
6.0 UPS Monitoring 6.1 Overview A UPS system alone provides excellent protection from brief power problems. However, during an extended power outage an unattended computer system will eventually shut down due to battery capacity exhaustion.
6.4 Computer Interface Port The computer interface port is diagrammed below for your reference. Those with technical abilities wishing to use this port in a special application should be aware of the following limitations and capabilities of the interface.
7.0 Difficulty CAUTION ! n This Uninterruptible Power Source contains potentially hazardous voltages. Do not attempt to disassemble the unit. The unit contains no user serviceable parts. Repairs are performed only by factory trained service personnel.
7.1 Troubleshooting Chart Problem Possible Cause Action to Take UPS will not turn on. The UPS’s input circuit breaker is tripped (1/2 of handle is down). Reduce the load on the UPS by unplugging equipment and reset the circuit breaker. EU separating screw is loose.
7.2 Fault Messages The UPS will display one of the below illustrated screens when a fault internal to the UPS has been detected. See section 7.5 which covers obtaining service. 7.2.1 Replace Electronics Unit (EU) A DC imbalance fault results in bypass operation - load power is lost during a utility failure.
7.2.3 Battery status The UPS’s battery status displays alert you to problems with the batteries connected to the UPS This screen indicates that there may be problems with the connections between Battery Packs or between the UPS and the Battery Packs.
7.3 Replacing the Electronics Unit The UPS allows replacement of a failed Electronics Unit without interruption of power to the load. The Isolation Unit is capable of autonomous operation and provides power to the load isolated from EMI/RFI noise and surges.
7.4 Replacing or Adding Battery Packs You can expect to receive 3 to 6 years of service life from the Battery Packs when installed in a cool, dry location. The Battery Pack's life is shortened when operated in an environment where the ambient temperature is normally above 30°C (86°F).
7.5 Obtaining Service The troubleshooting chart in section 7.1 covers most of the difficulties that a user may encounter under conditions other than a failure of the UPS itself. For problems not covered in the chart, or when the UPS’s display shows Call for service, the procedures outlined below should be followed.
8.0 Storing the UPS 8.1 Storage Conditions The UPS should be covered and stored in a cool dry location. The UPS should be stored with the Battery Packs in a fully charged state. That is, the reported battery capacity should be at 100% before the UPS is switched off for storage.
Protection: overcurrent and short circuit protected, latching shutdown upon overload. Output connections: (6) NEMA 5-15R receptacles, (1) NEMA L14-30R receptacle, and (2) NEMA L6-30R receptacles. 9.4 Noise and Surge Isolation Isolation: galvanic isolation, output neutral bonded to ground.
9.9 Typical On-Battery Run Times Typical On-Battery Run Time Versus Load, 3000 VA Matrix-UPS with SmartCells, in Hours Number of SmartCells Computer Load (VA) 1 2 3 4 5 6 7 8 250 3.07 7.20 11.56 15.93 20.29 24.65 29.02 33.38 500 1.46 3.52 5.80 8.24 10.
Typical On-Battery Run Time Versus Load, 5000 VA Matrix-UPS with SmartCells, in Hours Number of SmartCells Computer Load (VA) 2 3 4 5 6 7 8 500 3.07 5.02 7.20 9.38 11.56 13.75 15.93 1000 1.46 2.46 3.52 4.58 5.80 7.02 8.24 1500 0.83 1.46 2.11 2.81 3.52 4.
Un punto importante, dopo l’acquisto del dispositivo (o anche prima di acquisto) è quello di leggere il manuale. Dobbiamo farlo per diversi motivi semplici:
Se non hai ancora comprato il American Power Conversion MatrixTM UPS è un buon momento per familiarizzare con i dati di base del prodotto. Prime consultare le pagine iniziali del manuale d’uso, che si trova al di sopra. Dovresti trovare lì i dati tecnici più importanti del American Power Conversion MatrixTM UPS - in questo modo è possibile verificare se l’apparecchio soddisfa le tue esigenze. Esplorando le pagine segenti del manuali d’uso American Power Conversion MatrixTM UPS imparerai tutte le caratteristiche del prodotto e le informazioni sul suo funzionamento. Le informazioni sul American Power Conversion MatrixTM UPS ti aiuteranno sicuramente a prendere una decisione relativa all’acquisto.
In una situazione in cui hai già il American Power Conversion MatrixTM UPS, ma non hai ancora letto il manuale d’uso, dovresti farlo per le ragioni sopra descritte. Saprai quindi se hai correttamente usato le funzioni disponibili, e se hai commesso errori che possono ridurre la durata di vita del American Power Conversion MatrixTM UPS.
Tuttavia, uno dei ruoli più importanti per l’utente svolti dal manuale d’uso è quello di aiutare a risolvere i problemi con il American Power Conversion MatrixTM UPS. Quasi sempre, ci troverai Troubleshooting, cioè i guasti più frequenti e malfunzionamenti del dispositivo American Power Conversion MatrixTM UPS insieme con le istruzioni su come risolverli. Anche se non si riesci a risolvere il problema, il manuale d’uso ti mostrerà il percorso di ulteriori procedimenti – il contatto con il centro servizio clienti o il servizio più vicino.
