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ILLUSTRATION 1

CIRCUIT BOARD INSTALLATION QUICK REFERENCE

BATTERY FUSE

30A/32VDC

FAST ACTING 

OFF 

ON 

OFF 

ON 

SW-1

OUTPUT

ENABLE 

Chassis Ground W

ire

CASE 

GND

TEST SWITCH 

ON COVER 

Battery Cables

X5 and X6 

CIRCUIT BOARD COMPONENT LOCATION DIAGRAM SHOWING CONNECTION POINTS

TB-2

LINE

OUTPUT

OUT

COM 

OUT

HOT 

120Vac or 277Vac

TO LIGHTING LOAD 

OUTPUT INVERTER

ON / OFF SWITCH 

0-10V DIMMING OUTPUT WIRES 

FROM X3-1 AND X3-2

TO CONNECTED LIGHTING LOAD(S)

120Vac or 277Vac

INPUTS

0-10V ROOM 

DIMMING WIRES 

TO X3-3 AND X3-4

TB-1

LINE

INPUTS

DIM

OUT

DIM

IN

FGND UNSW

HOT  COM 

SW

HOT 

FGND UNSW

HOT  COM 

SW

HOT 

-  +  +  -

X3

Model

Input 

Voltage

Output 

Voltage

(Autoselect)

Emergency Output 

Power

Max Connected 

AC Load*

Emergency Run Time

ELI-S-250

120/277Vac

120/277Vac

250 VA

800 VA

Minimum of 90 minutes

ELI-S-185

120/277Vac

120/277Vac

185 VA

800 VA

Minimum of 120 minutes

MODEL SPECIFIC OUTPUT RATINGS

* NOTE:  AC Input Power to an LED or Fluorescent Driver/Ballast is always more than the output power.  Furthermore, dim-
ming drivers are less efficient at reduced power.  These inefficiencies must be accounted for in the design as they will likely 
reduce the maximum connected load to something less than 800W. As a typical rule of thumb, provide at least 10% margin 
whenever the load specifics are not well known. 

INSTALLATION

Illustration 1, below, shows the inverter's main circuit board. This circuit board contains the enable switch, fuse, and wir-

ing terminals. Approximate locations of these items are given in Illustration 1 along with details of their use. Reference 

this diagram for the remainder of the installation instructions.

STEP #1 INSTALLING THE EMERGENCY LIGHTING SYSTEM

>  Remove front cover, circuit board tray, and any packing material inside the unit housing that may have been used for ship-

ping purposes.

>  Secure housing to the mounting surface through the keyhole knockouts using mounting hardware (not supplied). This 

hardware must be appropriate to hold the unit weight of approximately 70 lbs. with the batteries installed.

>  Remove the knockouts to install input, output, and optional 0-10V dimming wiring conduit fittings.

>  Extend AC supply wiring, output load wiring, and dimming control wiring into the equipment enclosure using appropriate 

wiring hardware and methods.

>   Illustration 1 details the locations of the various wiring terminals needed for the remainder of the installation. Reference 

Illustration 1 for steps through 2 through 5.

Содержание ELI Series

Страница 1: ...operated in a commer cial environment This equipment generates uses and can radiate radio frequency energy and if not installed and used in accordance with the instruction manual may cause harmful interference to radio communications Operation of this equipment in a residential area is likely to cause harmful interference in which case the user will be required to correct the interference at his o...

Страница 2: ...ll likely reduce the maximum connected load to something less than 800W As a typical rule of thumb provide at least 10 margin whenever the load specifics are not well known INSTALLATION Illustration 1 below shows the inverter s main circuit board This circuit board contains the enable switch fuse and wir ing terminals Approximate locations of these items are given in Illustration 1 along with deta...

Страница 3: ...ge requirements match the output ratings of this product or damage to the load devices may occur CAUTION STEP 2 BATTERY INSTALLATION AND CABLE CONNECTION This product is provided with two sealed lead acid batteries Only the batteries supplied by the inverter manufacturer should be used Install the batteries as shown referring to Illustrations 2A and 2B With the unit secured to the mounting surface...

Страница 4: ...gency mode power into the connected load s This is referred to as Auto Dimming When AC power is restored the ELI S 250 ELI S 185 returns to normal charging mode The ELI S 250 operates the emergency lighting load for a minimum of 90 minutes The ELI S 185 operates the emergency lighting load for a minimum of 120 minutes NOTE Driver efficiency and power factor typically fall as dimming level decrease...

Страница 5: ...est Switch Two Times Manually initiates a 30 second diagnostic test The inverter will switch to the emergency mode for 30 seconds and test all relevant functions Once complete the inverter returns to normal AC mode and indicate any faults if detected Commissioning Test Press and Release the Test Switch Three Times Initiates a 30 second commissioning test The inverter will switch to the emergency m...

Страница 6: ...duct Fuse The fuse contained within this product is field replaceable For the battery fuse location see illustration 1 To replace the fuse disable SW 1 on the inverter then remove AC power from the product Ensure that the battery fuse F101 is replaced by Littelfuse 0312030 312 030 or equivalent 3AG 30 A 32 VDC REPLACEMENT PARTS WIRING DIAGRAM DIMMABLE EMERGENCY LIGHTING SYSTEM Normal only Luminair...

Страница 7: ... maximum output power FIGURE W2 7 Normal only Luminaire Normal only Luminaire Normal only Luminaire Normal only Luminaire Norm Emer Luminaire Norm Emer Luminaire Norm Emer Luminaire Norm Emer Luminaire 120 or 277 VAC Out HOT Out COM 120 or 277 VAC Wall Switch SW 1 Inverter ON OFF FGND UNSW HOT COM Neutral SW HOT TOTAL POWER 250W INVERTER ANY QUANTITY SUPPORTED BY THE BRANCH CIRCUIT Non DIMMABLE EM...

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