EEC19L/M/H economic built in constand power supply
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Incoterm: | FOB,CFR,CIF |
Transportation: | Ocean,Land,Air |
Payment Type: | L/C,T/T,D/P,D/A,Paypal,D/A |
Incoterm: | FOB,CFR,CIF |
Transportation: | Ocean,Land,Air |
Model No.: EEC19L/M/H
Brand: EFFORT
Color Temperature: 6000k (Daylight Alert)
Input Voltage (V): Ac 220v( ± 10%)
Place Of Origin: China
Ball Type: Led
Certificate: Ce
Lighting Solution Service: Dialux Evo Layout
Light Source: Led
Type Of Battery: LiFePO4
Selling Units | : | Box |
· Feature
· An emergency driver is a device that provides a constant power supply in the event of a power outage. This can be invaluable in ensuring that critical systems remain operational during a power outage. An emergency driver built into a constant power supply can provide an additional level of protection against power outages.
· Plug-in battery Led Emergency Modules are a type of emergency lighting that are powered by batteries. These modules are designed to be plugged into an outlet and provide backup lighting in the event of a power outage.
As we all know, power outages are a fact of life. And when they happen, having an emergency driver built in constant power supply can be a lifesaver.Emergency driver built in constant power supplies (CPS) are designed to provide backup power in the event of a power outage. They are typically used to power essential equipment like lights, pumps, and medical devices.
There are many reasons to choose an emergency driver with a built-in constant power supply.
1. One reason is that it can provide a reliable source of power during a power outage.
2. Another reason is that it can help you save money on your energy bill.
An emergency driver with a built-in constant power supply can be a great addition to your home or office. It can provide you with peace of mind knowing that you have a reliable source of power in case of an emergency.
There are many potential applications for an emergency driver built in constant power supply. Some of the most common applications include:
- Powering emergency lighting in the event of a power outage
- Operating pumps or other critical equipment during a power outage
- Charging batteries in UPS systems or other backup power systems
- Providing power for temporary lighting or other electrical needs during construction or other work activities
An emergency driver built in constant power supply can provide a reliable source of power when traditional sources are unavailable. This makes them an ideal solution for a wide range of applications.
When choosing a plug-in battery LED emergency modules, it's important to consider the following factors:
- Output voltage:Most plug-in battery LED emergency modules have an output voltage of 12 or 24 volts. If you need a higher voltage for your equipment, make sure the driver can accommodate it.
- Output current: This is the maximum amount of current that the device can provide. Be sure to choose a module with an output current that meets or exceeds the requirements of your equipment.
- Battery type: Emergency drivers usually come with either lead acid or lithium ion batteries. Lead acid batteries are less expensive but require more maintenance than lithium ion batteries. Lithium ion batteries are more expensive but have a longer lifespan and require less maintenance.
- Run time: This is the amount of time the device can run on its battery before it needs to be recharged. Choose a driver with a run time that meets your needs.
Installing a plug-in battery LED Emergency Module is a simple process that can be completed in just a few minutes. First, locate the module's mounting bracket and secure it to the desired location on the wall or ceiling. Next, connect the module's power supply to a nearby outlet. Finally, plug the module's LED light fixture into the power supply and turn on the switch to activate the emergency lighting.
Plug-in battery LED emergency modules are devices that provide backup lighting in the event of a power outage. They are typically used in stairwells, hallways, and other areas where it is important to have an Exit Sign or other type of lighting visible during a power outage.
Most plug-in battery LED emergency modules contain a small lead acid battery that is charged by the building's electrical system. When the power goes out, the batteries provide power to the LEDs for a period of time (usually 2 hours or more).
There are several benefits to using a plug-in battery LED emergency module:
• They provide peace of mind knowing that you will have backup lighting in the event of a power outage.
• They can help you save money on your electric bill because they use less energy than traditional incandescent exit signs.
• They last longer than traditional incandescent
Automatic shutdown of output if LED load is out of range
Deep discharge protection
Short-circuit-proof battery connection
Open-circuit-proof
Polarity reversal protection for battery
Rated supply voltage 220~240VAC
4-year guarantee
(battery 2-year guarantee)
For LED module with a forward
voltage of 20-60/40-90/50-180VDC
Constant power output,
output current self-adjustable
LiFePO4 with longer life
Build-in Emergency converter
EEC19 is SELV output voltage
1.5-3h rated duration
Self Test Emergency System
· PRODUCT DETAILS
Part No. | Input Voltage | Emergency Power | Output voltage | Charge Duration | Duration | Battery | Function |
EEC19L-1.2W-3H | 220~240V | 1.2W | 20VDC-60VDC | 24H | 3H | 3.2V 1500mAh LiFePO4 | BS/ST |
EEC19L-1.5W-2H | 220~240V | 1.5W | 20VDC-60VDC | 24H | 2H | 3.2V 1500mAh LiFePO4 | BS/ST |
EEC19L-1.5W-3H | 220~240V | 1.5W | 20VDC-60VDC | 24H | 3H | 3.2V 2000mAh LiFePO4 | BS/ST |
EEC19L-2.5W-1H | 220~240V | 2.5W | 20VDC-60VDC | 24H | 1H | 3.2V 1500mAh LiFePO4 | BS/ST |
EEC19L-2.5W-2H | 220~240V | 2.5W | 20VDC-60VDC | 24H | 2H | 3.2V 2000mAh LiFePO4 | BS/ST |
EEC19L-2.5W-3H | 220~240V | 2.5W | 20VDC-60VDC | 24H | 3H | 3.2V 3000mAh LiFePO4 | BS/ST |
EEC19M-1.2W-3H | 220~240V | 1.2W | 40VDC-90VDC | 24H | 3H | 3.2V 1500mAh LiFePO4 | BS/ST |
EEC19M-1.5W-2H | 220~240V | 1.5W | 40VDC-90VDC | 24H | 2H | 3.2V 1500mAh LiFePO4 | BS/ST |
EEC19M-1.5W-3H | 220~240V | 1.5W | 40VDC-90VDC | 24H | 3H | 3.2V 2000mAh LiFePO4 | BS/ST |
EEC19M-2.5W-1H | 220~240V | 2.5W | 40VDC-90VDC | 24H | 1H | 3.2V 1500mAh LiFePO4 | BS/ST |
EEC19M-2.5W-2H | 220~240V | 2.5W | 40VDC-90VDC | 24H | 2H | 3.2V 2000mAh LiFePO4 | BS/ST |
EEC19M-2.5W-3H | 220~240V | 2.5W | 40VDC-90VDC | 24H | 3H | 3.2V 3000mAh LiFePO4 | BS/ST |
EEC19H-1.2W-3H | 220~240V | 1.2W | 50VDC-180VDC | 24H | 3H | 3.2V 1500mAh LiFePO4 | BS/ST |
EEC19H-1.5W-2H | 220~240V | 1.5W | 50VDC-180VDC | 24H | 2H | 3.2V 1500mAh LiFePO4 | BS/ST |
EEC19H-1.5W-3H | 220~240V | 1.5W | 50VDC-180VDC | 24H | 3H | 3.2V 2000mAh LiFePO4 | BS/ST |
EEC19H-2.5W-1H | 220~240V | 2.5W | 50VDC-180VDC | 24H | 1H | 3.2V 1500mAh LiFePO4 | BS/ST |
EEC19H-2.5W-2H | 220~240V | 2.5W | 50VDC-180VDC | 24H | 2H | 3.2V 2000mAh LiFePO4 | BS/ST |
EEC19H-2.5W-3H | 220~240V | 2.5W | 50VDC-180VDC | 24H | 3H | 3.2V 3000mAh LiFePO4 | BS/ST |
Note: BS=Basic ST=Self Test DL=DALI IOT=Zigbee System
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· WIRING DIAGRAM
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