Functional Devices B3175 Mini Inverter Instruction Manual

June 5, 2024
Functional Devices

Functional Devices LOGO Installation And Operation Instructions
B3175
For Mini Inverter Series
Models: EMPS55125, EMPS110125, EMPS110250, EMPS220250
Surface (S), Recessed (R) and Ceiling T-Grid (T) Mounted Versions Functional Devices B3175 Mini Inverter

READ AND FOLLOW ALL SAFETY INSTRUCTIONS

IMPORTANT SAFEGUARDS

When using electrical equipment, basic safety precautions should always be followed, including the following:

READ AND FOLLOW ALL SAFETY INSTRUCTIONS:

  • Do not use outdoors.
  • Do not let power supply cords touch hot surfaces.
  • Do not mount near gas or electric heaters.
  • Use caution when servicing batteries. Battery acid can cause burns to the skin and eyes. If acid is spilled on the skin or in the eyes, flush acid with fresh water and contact a physician immediately.
  • Equipment should be mounted securely in locations and at heights where it will not be readily subjected to tampering by unauthorized personnel.
  • The use of accessory equipment not recommended by the MANUFACTURER may cause an unsafe condition.
  • The AC voltage rating of this equipment is specified on the product label. Do not connect equipment to any other voltage.
  • Do not use this equipment for other than its intended purpose.
  • Servicing of this equipment should be performed by qualified service personnel.

SAVE THESE IMPORTANT SAFETY INSTRUCTIONS
The installation and use of this product must comply with all national, federal, state, municipal, or local codes that apply.
Please read this manual thoroughly before operating the Mini Inverter System.

Section 100 System Installation Instructions

101. Specifications
Input

  • Input voltage: Universal 120 or 277VAC.
  • Input frequency: 60HZ ±2%
  • Operating temperature : 20ºC to 30ºC (68ºF to 86ºF)
  • Input surge protection: Meets UL 924

Output

  • Output voltage: Universal 120 or 277VAC, 60HZ. Other voltages available upon request
  • Output regulation: (static) ±5% based on a 0% – 100% resistive load
  • Minimum loading: none required
  • Output distortion: Less than 3% THD linear load
  • Load power factor: .44 lead to .44 lag
  • Output frequency: ±0.3 Hz during emergency
  • Time to transfer to inverter after a utility power failure: <1 second

Battery

  • Battery type: Maintenance-free sealed lead calcium
  • Battery charger: Fully automatic dual-mode with temperature compensation
  • Recharge time: Meets UL requirements (96 Hours)
  • Battery protection: Automatic low-battery voltage disconnect and reverse polarity protection.
  • Battery switch: Also used as a battery isolator
  • Standard battery: Sealed lead-calcium: 10-year life
  • Battery voltage: 24 or 48 (system dependent – See Table 1 below)
  • Runtimes: 90 minutes standard.
  • Operating temperature: 20°C to 30°C (68°F to 86°F)
  • Relative humidity: 95% non-condensing
  • Note: Battery performance rated at 25°C (77°F)

Table 1

System Model Number| Type| Input/ Output Volts| Capacity For 11/2 Hours In Watts| Battery
Voltage
(VDC)| Cabinet Dimensions| **System Weight*
---|---|---|---|---|---|---
Length| Height| Depth| (Lbs.)| (Kg.)
EMPS55125S| Surface| 120/277| 55| 24| 165/8″ (42.2cm)| 115/8″ (29.5cm)| 41/4″ (10.8cm)| 32| 14
EMPS110125S| Surface| 120/277| 110| 24| 165/8″ (42.2cm)| 115/8″ (29.5cm)| 41/4″ (10.8cm)| 38| 17
EMPS110250S| Surface| 120/277| 110| 48| 165/8″ (42.2cm)| 115/8″ (29.5cm)| 41/4″ (10.8cm)| 47| 21
EMPS220250S| Surface| 120/277| 220| 48| 165/8″ (42.2cm)| 115/8″ (29.5cm)| 41/4″ (10.8cm)| 60| 27
EMPS55125R| Recessed| 120/277| 55| 24| 181/8″ (46.0cm)| 131/8″ (33.3cm)| 41/4″ (10.8cm)| 32| 14
EMPS110125R| Recessed| 120/277| 110| 24| 181/8″ (46.0cm)| 131/8″ (33.3cm)| 41/4″ (10.8cm)| 38| 17
EMPS55125T| Ceiling Grid| 120/277| 55| 24| 237/8″ (60.6cm)| 61/4″ (15.9cm)| 8.0″ (20.3cm)| 32| 14
EMPS110125T**| Ceiling Grid| 120/277| 110| 24| 237/8″ (60.6cm)| 61/4″ (15.9cm)| 8.0″ (20.3cm)| 38| 17

  • System weights shown include installed batteries

Table 2

System Model Number| On-Line System
Efficiency (Full Load)| Number Of
Batteries| Battery Voltage (VDC)| Battery Current
(Amps)| AC Input Current| Thermal
Output In BTUs
---|---|---|---|---|---|---
120VAC (Max.)| 277VAC (Max.)
On-Line| Emergency
EMPS55125| 98%| 2| 24| 3.| 1.| 0.52| 9| 90
EMPS110125| 98%| 2| 24| 6.| 1.| 0.52| 9| 95
EMPS110250| 98%| 4| 48| 3.| 2.| 1.| 18| 163
EMPS220250| 98%| 4| 48| 6.| 2.| 1.| 18| 167

102. Receiving, Moving, and Storing Systems and Batteries
102.1 Shipping Damage
Mini inverter system batteries are shipped and installed within the unit housing with the exception of the EMPS220250 model in which the batteries are shipped separately.
Carefully inspect all cartons upon receipt for evidence of shipping damage.
Notify the carrier immediately of leaking or damaged cartons for possible concealed damage.

102.2 Temporary Storage of Units and Batteries
For temporary storage of Mini inverter systems and batteries prior to installation, select a clean, cool, dry location with normal ventilation for human habitation and level floors.
Storage Temperature:
Store all batteries at 0° to +40° C (32° to +104° F). Batteries will have a longer shelf life if stored at 15° C (60° F). The Mini Inverter electronics and battery cabinets may be stored at -20° to +60° C (-4° to +140° F).

IMPORTANT:
Lengthy storage of batteries will cause irreversible damage to the cells.
Failure to connect Mini inverter system batteries to an energized charging circuit within 90 days from the date of shipment will void the battery warranty.

DANGER: Explosive – Can Cause Blindness Or Other Severe Injuries
Every type of battery can produce hydrogen gas, even sealed, maintenance-free batteries. The gas is vented through the vent caps and into the air. Do not allow smoking, sparks, or flames in the battery storage location because hydrogen is concentrated under the vent cap of each cell of the battery.
Hydrogen is highly explosive and is hard to detect because it is colorless, odorless, and lighter than air.

103. Installation Requirements
103.1 Operating Environment
Install the Mini inverter system in a clean, cool, dry place with normal ventilation for human habitation and in such a location to hamper vandalism but allow easy access for testing and maintenance.

Operating Temperature:
Mini inverter Systems are UL Listed for 20° to 30° C (+ 68° to +86° F) operation.
Battery performance and the service life are maximized if the operating temperature is maintained at 25° C (77° F).

Temperature Effect On Battery Performance:
Batteries will be less efficient at temperatures below 20° C (68° F), and high temperatures will reduce battery life. Typically, at 35° C (95° F), battery life will be half of what it would be at a normal temperature of 25° C (77° F).
At 45° C (113° F), battery life will be one-fourth of normal.

Ventilation:
The air around the unit must be clean, dust-free, and free of corrosive chemicals or other contaminants. Do not place the Mini inverter system or batteries in a sealed room or container.
CAUTION: Never Install Batteries in A Sealed Room Or Enclosure

103.2 High Altitude Operation:
The maximum operating temperature drops 1° Celsius per 300 meters (2° F per 1000 feet) above sea level. The maximum elevation is 3000 meters (10,000 feet).

104. Cabinet Mounting
104.1 Tools Required
The following tools are required to install the system:
Socket Set, Phillips Screwdriver, Diagonal Wire Cutters, Long Nose Pliers, Electrical Tape, Digital Volt-Ohm Meter, Safety Glasses with Side Shields, Small Punch (knockout removal), Hammer, Electric Drill, Wood or Masonry Bits, Level.

104.2 Mounting Hardware
Mounting hardware is not provided. Care should be taken when selecting mounting hardware to assure that it is the proper type for the application and size to safely support the system’s full weight when installed assuring safe and secure attachment of the system to the wall surface. For ease of installation, the factory recommends that the head size of mounting screws or bolts be small enough to pass through the keyhole knockouts provided for mounting.
This will allow the unit to be hung on partially installed mounting hardware and facilitate easy cabinet removal if ever necessary.

104.3 Knockout Locations
All models provide knockouts on the top and left-hand sides of the unit.
Additional entry points, if required can be added using a metal punch. Do not drill into the cabinet as metal filings can cause short circuits and damage the equipment.
NOTE: Consider unit knockout locations prior to mounting the unit. Allow room for easy routing of conduit to the entry point.

104.4 Surface Mount (S) Models:

  1. Remove cover and any packing material inside unit housing that may have been used for shipping purposes.
  2. For ease of installation, and to prevent possible damage to the equipment, the inverter/charger assembly may be temporarily removed prior to knockout removal and attachment to the mounting surface. This is accomplished by removing (4) 8-32 hex nuts on the inverter/charger mounting plate. If shipped factory-installed, batteries may also be temporarily removed to facilitate ease of installation.Functional Devices B3175 Mini Inverter - FIG 1
  3. Remove the appropriate knockouts, 7/8” diameter, on the top and/or left side of the unit housing to facilitate conduit attachment. Also, remove keyhole knockouts in the upper corners on the back of the housing on models EMPS55125S and EMPS110125S models. Due to the additional battery weight, EMPS110250S and EMPS220250S models are supplied with mounting keyhole knockouts located at all four corners on the back of the unit housing. Remove all four keyhole knockouts on these models.
  4. Secure housing to the mounting surface through all keyhole knockouts provided using mounting hardware (not supplied) sized appropriately to support the unit weight.
  5. Re-install inverter/charger assembly if removed in step 2.

104.5 Recessed Mount (R) Models:

  1. Remove cover and any packing material inside unit housing that may have been used for shipping purposes.

  2. For ease of installation, and to prevent possible damage to the equipment, the inverter/charger assembly may be temporarily removed prior to knockout removal and attachment to the mounting surface. This is accomplished by removing (4) 8-32 hex nuts on the inverter/charger mounting plate. If shipped factory installed, batteries may also be temporarily removed to facilitate ease of installation.Functional Devices B3175 Mini Inverter - FIG 2

  3. Remove the appropriate knockouts, 7/8” diameter, on the top and/or left side of the unit housing to facilitate conduit attachment. Also remove the appropriate round knockouts, 5/16” diameter, which are located on all sides of the unit housing. Specific knockout requirements are dictated by mounting orientation of unit (vertical or horizontal) and location of wall studs and /or other support members.

  4. Secure housing to support members through round knockouts using mounting hardware (not supplied) sized appropriately to support the unit weight.
    IMPORTANT: The unit should be so positioned that the cabinet extends between 3/8” and 3/4” beyond the finished wall surface after installation.

  5. Prior to the final attachment of the unit cover, the LED indicator panel assembly position must be adjusted to sit flush against the inside surface of the cover after attachment. This is accomplished using the (2) 8-32 hex nuts on the indicator assembly.

  6. Re-install inverter/charger assembly if removed in step 2.

104.6 Ceiling T-Grid Mount (T) Models:

  1. Remove cover and any packing material inside unit housing that may have been used for shipping purposes.

  2. For ease of installation, and to prevent possible damage to the equipment, the inverter/charger assembly may be temporarily removed prior to knockout removal and attachment to the mounting surface. This is accomplished by removing (4) 8-32 hex nuts on the inverter/charger mounting plate. If shipped factory-installed, batteries may also be temporarily removed to facilitate ease of installation.Functional Devices B3175 Mini Inverter - FIG 3

  3. Remove the appropriate knockout(s), 7/8” diameter, located on either side of the unit housing to facilitate conduit attachment.
    IMPORTANT: Take care to remove only the knockouts required for utility connection. Removal of knockouts if unused and left open will void the plenum rating of the unit.

  4. Mount the unit securely in place between T-Grid members.
    NOTICE: Safety chain or cable, rated 50lb minimum working load, 250lb minimum breaking strength is required to hang the unit in a T-Grid system. Failure to correctly install the unit will cause an unsafe condition!

  5. Re-install inverter/charger assembly if removed in step 2.

105. AC Connections
CAUTION:
A) All Mini inverter system units contain hazardous AC and DC voltages. Because of these voltages, a qualified electrician must install the Mini inverter system, AC line service, and batteries. The electrician must install the AC line service according to local, state, and NEC codes and must be familiar with batteries and battery installation.
B) Before installing, maintaining, or servicing the unit, always remove or shut off all sources of AC and DC power to the Mini inverter system. Turn off the AC line input circuit breaker at the service panel and place the Mini Inverter Battery Switch S2 in the OFF position to make sure the unit will not supply output voltage.
C) Whenever AC and/or DC voltage is applied, there will be AC voltage inside the Mini inverter system unit; the unit can supply power from the AC line or from its batteries.
To avoid equipment damage or personal injury, always assume that there may be voltage inside the Mini inverter system.
D) Remove rings, watches, and other jewelry before installing the AC wiring. Always wear protective clothing and eye protection and use insulated tools when working near batteries. Whenever servicing an energized unit with the inside panel open, electric shock is possible; follow all local safety codes. TEST BEFORE TOUCHING!
E) To reduce the risk of fire or electric shock, install the Mini inverter system and the batteries in a temperature-controlled and humidity- controlled indoor area free of conductive contaminants. See Section 103 for operating environment specifications.

105.1 AC Wiring Preparations

  1. Remove the system’s front cover. Make sure the Mini Inverter Battery Switch S2 is in the OFF position.

  2. Make sure the Mini inverter system input and output voltages are correct for the particular application. Remember that the Mini system provides single-phase power only.

  3. The input circuit breaker in the input service panel provides the means for disconnecting AC to the Mini inverter system. Only authorized persons shall be able to disconnect AC to the unit. (See NEC 700-20 and 700-21. )
    CAUTION: To prevent electrical shock or equipment damage, for all units, the Mini Inverter Battery Switch S2 and the AC input circuit breaker at the service panel are all OFF before making AC connections to the Mini inverter system.

  4. If not previously done, remove cabinet knockouts for AC Input and AC Output as described in Sections 104-4, 104.5, or 104.6 depending on the mounting method
    CAUTION: Do not drill the cabinet; drill filings may damage the unit and prevent it from operating. If larger knockouts are needed, use a chassis punch to enlarge the appropriate knockout. Do not add additional or unnecessary knockouts.

  5. Install the input and output conduits.

  6. Run the AC Input service conductors and AC Output conductors through separate conduits. Mini inverter system emergency output circuits shall be installed in dedicated conduit systems and not shared with other electrical circuits as described in NEC 700-9(b).

105.2 AC Input and AC Output Connections
CAUTION: Prior to making any wiring connections to the unit make sure the branch AC input circuit breaker feeding the Mini Inverter unit is turned off at the service panel!
The Mini Inverter models can be configured for various modes of operation and are described in this section. Refer to the appropriate wiring diagrams to properly connect the utility AC power, fixtures, and external switching device (where applicable). Perform all wiring procedures in accordance with applicable codes.
Normally-On Operation – Fixtures remain illuminated in AC and emergency operating modes.
See  “A” in Wiring Diagram 1 for 120V wiring or “F” in Wiring Diagram 2 for 277V wiring.
Normally-Off Operation – Fixtures illuminate only upon loss of utility AC power.
See “B” in Wiring Diagram 1 for 120V wiring or “G” in Wiring Diagram 2 for 277V wiring.
Normally-On and Normally- Off Operation – A combination of the operating modes described above.
See “C” in Wiring Diagram 1 for 120V wiring or “H” in Wiring Diagram 2 for 277V wiring.
Switched Load Operation – Single Circuit – Fixtures can be externally switched and will illuminate upon loss of utility AC power regardless of the external switch position.
See “D” in Wiring Diagram 1 for 120V wiring or “I” in Wiring Diagram 2 for 277V wiring.
Switched Load Operation – Four Circuit (4C Option) – Functionally identical to the Switched Load Operation above provides for the operation of up to four individually switched output circuits.
See “E” in Wiring Diagram 1 for 120V wiring or “J” in Wiring Diagram 2 for 277V wiring.
Dimmable (2.5, 5.0, 7.5, or 10.0 volts) Load Operation Adjustable Output (AO Option) — Functionally identical to the Switch Load Operation above, but provides four (4) independent settings for each of the two dimmable loads. See “G” in Wiring   Diagram 1 for 120V wiring or ” N” in Wiring Diagram 2 for 277V wiring.
Caution: Dimming switches must be programmed such that loads do not exceed unit rating in emergency mode. (See Wiring Diagram “0” for details on dimming switch field programming)
Diagram “0” in Wiring Diagram 3 can be used for both 120V or 277V wiring and setting of the desired load requirement in the Emergency Mode for the 0 to 10 volt dimmer.

Wiring Diagram 1 – 120VAC Connections

Functional Devices B3175 Mini Inverter - FIG 4Functional Devices B3175 Mini Inverter - FIG
5

Wiring Diagram 2 – 277VAC Connections

Functional Devices B3175 Mini Inverter - FIG 6Functional Devices B3175 Mini Inverter - FIG
7

Wiring Diagram 3 – Dimming Control – 120 or 277VAC Connections
O) DIMMING OPTION PROGRAMMING TABLE

S 1,2-1 S 1,2-2 VOUT 1, VOUT 2
OPEN (OFF) OPEN (OFF) 10.0V
OPEN (OFF) CLOSED (ON) 7.50V
CLOSED (ON) OPEN (OFF) 5.00V
CLOSED (ON) CLOSED (ON) 2.50V

NOTE: Dimming switches S1 and S2 are designed for independent setting to allow different emergency voltages for Output Circuits 1 and 2 if required.
CAUTION: Dimming switches must be programmed such that loads do not exceed unit rating in emergency mode.

DIMMING OPTION CONTROL WIRING

Functional Devices B3175 Mini Inverter - FIG 8CAUTION: The sum of loads connected to Output Circuits 1 and 2 must not exceed unit rating in emergency mode.

106. Battery Information
Important Safety Precautions
The installer must take these precautions:

  1. Wear protective clothing, eye-wear, rubber gloves, and boots. Batteries contain corrosive acids or caustic alkalis and toxic materials and can rupture or leak if mistreated. Remove rings and metal wristwatches or other metal objects and jewelry. Don’t carry metal objects in pockets where the objects can fall onto the batteries or into the Mini inverter system.
  2. Tools must have insulated handles so that they will not short battery terminals. Do not allow a tool to short a battery terminal to another battery terminal or to the cabinet at any time. Do not lay tools or metal parts on top of the batteries, and do not lay any objects where they could fall onto the batteries or into the cabinet.
  3. Install the batteries as shown on the battery wiring diagram provided in this manual. When connecting cables, never allow a cable to short across a battery’s terminals, the string of batteries, or to the cabinet.
  4. Keep the cable away from any sharp metal edges.
  5. Install the battery cables so they cannot be pinched by the Mini inverter system cover/door.
  6. Where conductors may be exposed to physical damage, protect conductors in accordance with NEC requirements.
  7. Full voltage and current are always present at the battery terminals. The batteries used in this system can produce dangerous voltages, extremely high currents, and a possible risk of electric shock. Batteries may cause severe injury if the terminals are shorted together or to the ground (earth). Be extremely careful to avoid electric shock and burns caused by contacting battery terminals or shorting terminals during battery installation. Do not touch uninsulated battery terminals.
  8. A qualified electrician who is familiar with battery systems and required precautions must install and service the batteries. Any battery used with this unit shall comply with the applicable requirements for batteries in the standard for emergency lighting and power equipment, UL 924. Cabinets are designed to be used with, and batteries must be replaced by identical cells or a Manufacturer approved equivalent. If using substitute batteries not supplied by the manufacturer, the unit’s UL listing will be void, and the equipment may fail to perform properly. The installation must conform to national and local codes as well. Keep unauthorized personnel away from batteries.

106.1 Tools
The following tools are required to install the system batteries:
Socket Set, Tape, Digital Volt-Ohm Meter, Safety Glasses
CAUTION: Always use insulated tools for battery installation.

106.2 Battery Installation and Connection
CAUTION: Prior to connecting of battery string to the inverter/charger assembly make sure the Mini Inverter Battery Switch S2 is in the OFF (down) position.
* EMPS55125 and EMPS110125 Models are supplied with two (2) batteries installed (24VDC string voltage) with the positive (+) battery lead disconnected. This connection will need to be completed prior to system startup. See Wiring Diagrams 1 and 2* for verification of proper battery connections.
EMPS110250 and EMPS220250 Models are supplied with four (4) batteries shipped separately (48VDC string voltage). See Wiring Diagram 3** for battery connections. Install batteries with terminals facing outwards. Connect batteries using wiring conductors supplied with the system.

System Model Number| System DC Voltage| Number of Batteries| Battery Part Number| Wiring Diagram
---|---|---|---|---
EMPS55125S| 24| 2| 03-002| 1
EMPS110125S| 24| 2| 03-001| 1
EMPS110250S| 48| 4| 03-002| 3
EMPS220250S| 48| 4| 03-001| 3
EMPS55125R| 24| 2| 03-002| 1
EMPS110125R| 24| 2| 03-001| 1
EMPS55125T| 24| 2| 03-002| 2
EMPS110125T| 24| 2| 03-001| 2

IMPORTANT: Observe correct polarity on the battery terminals. Polarity markings may vary from battery to battery.

Wiring Diagram 1

Functional Devices B3175 Mini Inverter - FIG 12

Wiring Diagram 2

Functional Devices B3175 Mini Inverter - FIG 10

Wiring Diagram 3

Functional Devices B3175 Mini Inverter - FIG 11

106.3 Battery Connection Voltage Check
Using a digital volt-ohm meter, check for correct nominal battery voltage between DC Input NEG and POS wires. Refer to the table in Section 106.2 for proper system DC voltage. The voltage reading should be ±10% of the system DC voltage.

107. Final Installation Checklist
IMPORTANT: Before proceeding to the System Start-Up Procedure (Section 108) complete the Final Installation Checklist below.

  1. Ensure the Mini Inverter cabinet(s) is securely fastened to a wall or other structure.
  2. Ensure that the input circuit breaker in the building service panel serving as the AC disconnect to the Mini Inverter system is in the OFF position.
  3. Check for proper ground connections in the Mini Inverter unit cabinet.
  4. Check for any loose wiring connections in the Mini Inverter unit cabinet.
  5. Check that the correct nominal battery voltage (24 or 48 VDC) is present in the Mini Inverter unit between the DC Input NEG and POS. Refer to Section 106.2 for proper system DC voltage.
  6. Verify AC Input voltage to unit matches system voltage configuration.

108. System Start-Up Procedure
IMPORTANT: The Mini inverter system is a sophisticated electronic backup power supply.
Care must be taken to follow the steps below in their exact sequence. Failure to do so may result in possible equipment failure.
CAUTION: Familiarize yourself with the shutdown procedure in Section 200.1 before proceeding with the Start-Up.

  1. Hold S1 PRECHARGE SWITCH in the ON (up) position for 10 seconds, then release.

  2. Place S2 BATTERY SWITCH in the ON (up) position.

  3. Apply utility AC power to the system using a branch circuit breaker.

  4. Observe the LED Status indicators and verify the following:
    A) AC ON indicator (red LED) is illuminated (indicates AC utility power is available to the unit).
    B) CHG   ON indicator (green LED) is illuminated (indicates the battery is connected and charger is operational).

  5. Verify that Normally-On fixtures or switched fixtures (where applicable) are illuminated (local fixture switch must be in ON position).

109. System Test
Momentarily push the TEST switch and verify the following:
A) INV ON status indicator (yellow) illuminates (indicates inverter is operational).
B) Normally-On, Normally-Off, and Switched fixtures are illuminated (where applicable).

Maintenance

200.1 Safe Shut Down Procedure
CAUTION: To avoid possible equipment damage or personal injury, assume that there is AC voltage present inside the Mini inverter system unit any time AC input power or DC battery voltage is applied. The inverter is capable of providing output voltage from the batteries even when there is no AC input line voltage. When AC input voltage is present, the unit can provide output voltage even when the batteries are disconnected.
Do not touch components inside the unit. DC voltage is always present in the batteries and battery cables.

Final Shut Down Procedure

  1. Open the unit’s front access panel.

  2. Place the Mini Inverter Battery Switch S2 in the off OFF position and then place the AC Input circuit breaker at the service panel in the OFF position.
    CAUTION: HAZARDOUS ENERGY IS STORED IN CAPACITORS INSIDE THE Mini Inverter UNIT. AFTER TURNING OFF SWITCHES, ALLOW 5 MINUTES FOR CAPACITORS TO DISCHARGE BEFORE ATTEMPTING ANY SERVICE PROCEDURES.

  3. If the service technician does not need to access the inside of the unit, keep the unit’s front cover/ door closed.

  4. If the unit will be shut off for an extended period of time, recharge batteries every 60 to 90 days.
    CAUTION: The batteries will be damaged and the warranty voided if not routinely recharged.
    NOTE: To turn the power back on, follow the “System Start-up Procedure” outlined in Section
    108. Be sure to complete all of the steps to assure the unit will operate properly.

200.2 Routine System Maintenance
The Mini inverter system unit is designed to provide years of trouble-free operation. The unit does require some routine attention to assure peak performance.
The Manufacturer recommends a Preventative Maintenance check be performed by a qualified service technician at least every six months. The technician must observe important safety precautions while performing the following recommended tasks:

  • Inspect and clean the unit interiors;
  • Inspect all batteries for leaks, cause swelling, or terminal corrosion;
  • Perform an emergency operation test to check the operation of all critical connected loads

200.3 Manual Routine Inverter Tests
NFPA101 requires that Emergency Lighting Equipment be tested on a monthly basis for a period of at least 5 seconds, and a minimum of 90 minutes once a year. We strongly recommend these guidelines be followed to ensure system readiness and to prolong battery life. The Mini Inverter system was designed with a front panel test switch to facilitate monthly testing. Simply depress the button and hold to test the inverter at any time. Once released, the Mini Inverter will revert back to standby operation. For annual 90-minute discharge or other prolonged tests, simply turn off the AC Input breaker at the service panel.

200.4 Routine Battery Inspection and Maintenance
Sealed Lead-Calcium Batteries
Lead-Calcium cells are the most common type of battery used today in standby equipment. By design, it is as maintenance-free as a battery can be. It is recommended, however, that some simple steps be taken to increase system life and maximize reliability:

A) A quarterly visual check of the batteries should be conducted to look for deformities in the cases and terminal corrosion. Any defective batteries should be replaced. All corroded terminals, regardless of how slight, are to be cleaned and retightened at once to prevent failure of the entire battery bank.
B) Once a year, all battery connections should be checked for tightness and re-tightened if necessary.

200.5 Battery Replacement Procedure
WARNING:
Always use the same quantity and type of battery as replacements.
Substituting batteries not supplied by the manufacturer will void the UL listing of the system and may cause equipment failure. To ensure the superior performance of your Mini inverter system and to maintain proper charger operation, replace spent batteries only with cells having the same part number, voltage, and ampere-hour rating as the original batteries.

  1. Follow the proper shutdown procedure as described in Section 200.1.
  2. Disconnect the battery string beginning with the white inter-cell connectors followed by the red (B+) and black (B-) connectors.
  3. Remove the batteries from the cabinet.
  4. Install new batteries following the instructions outlined in Section 106.2.

200.6 Battery Disposal
WARNINGS:

  • Do not dispose of batteries in a fire, the batteries could explode.
  • Do not open or mutilate batteries.
  • Released electrolyte is highly toxic and harmful to the skin and eyes.

CAUTION: Batteries contain lead. Many state and local governments have regulations about used battery disposal. Please dispose of the batteries properly.

Documents / Resources

| Functional Devices B3175 Mini Inverter [pdf] Instruction Manual
B3175 Mini Inverter, B3175, Mini Inverter, EMPS55125, EMPS110125, EMPS110250, EMPS220250
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