UPS-PL1224-40L

UPSPro 12V 40Ah Battery Backup System, 12/24V 30W Passive PoE + 12V 1.5A Aux Output, 120/240VAC Power Supply, Pole/Wall Mount Polycarbonate Enclosure

Spec Sheet
User Guide

Note:

Lithium Batteries can only ship to continental USA destinations. Lithium Batteries are not returnable unless you are certified to ship Hazardous Materials.

Key Features:
-Outdoor Weatherpoof Enclosure
-Remotely Powered over CATx Cable
-Lithium Batteries

$649.95

43 in stock

  • Ships in 1-2 days
  • No Risk Guarantee
  • 2-3 Year Warranty

Features

• Weatherproof, UV resistant, outdoor enclosures
• Powered over CAT5 cable using Passive POE and/or Solar
• Generous interior space for customer electronics
• Wall or Pole Mounting
• Isolates Customer Equipment from Power Line Surges
• High Quality Lithium Batteries
• Advanced battery charge controller protects against overcharge and over discharge

Applications

• Wireless Base Stations and Clients
• Surveillance Cameras
• Wireless Bridge and Repeaters
• Remote Sensors
• Mission critical outdoor power
• Backup Power Systems

Description

The UPSPro® series outdoor enclosures are designed for applications that require a backup power source in order to maintain uninterrupted service to customers. The enclosure is powered over a CAT5 network cable via Power over Ethernet (PoE) using a PoE Supply/Inserter (included).
Features include an advanced battery charge controller to protect against over-charging or over-discharging of the valve regulated sealed lead acid AGM batteries or LiFePO4 Lithium batteries. Enclosures have multiple ports for CAT5 cable, antenna cables/connectors or other cabling. They are vented to prevent residual buildup of hydrogen gas.
There is some space inside the enclosures for customer electronics such as controllers, wireless AP or CPE cards, sensors, inverters, etc. Equipment runs on battery power which isolates it from power line surges which is a main cause of outdoor equipment failure.
Models are equipped with a Solar Ready controller so they can also be powered using solar panels in addition to or instead of the PoE power supply.
Multiple configurations are available for 12V or 24V systems with various battery storage capacities.
A typical 250mW wireless access point with average power consumption of 3.5W will run 15 hours on a 9Ah AGM battery. You can expect the same load will run 23hrs on a Lithium battery.

Technical Information

Ship Weight 45 lbs
Ship Dimensions 18 × 18 × 9 in
Battery Voltage

Battery Capacity

Output Power

Enclosure Type

Controller Type

FAQs

Frequently Asked Questions

Where can I find a rackmount for my RPSTL/ENC-STL enclosure? Are there 2U or 4U rackmounts available for Tycon Large Enclosures?

We don’t offer rackmounts, other than the built-in 1U included in the STL enclosure, but they are available in the open market.

What differences can I expect when switching my batteries to LiFePO4?

LIT is a battery settings mode.  When switching to LIT, the S parameters should be the same as the previous default settings.

When battery voltage falls below 10V the battery BMS disconnects the battery discharge. As soon as there is PV voltage the battery BMS connects the charge and discharge. We recommend the customer set the LOAD Output turnoff at 11V so tha load disconnects before the battery BMS disconnects the discharge.

 

We recommend that you just leave the parameters set to AGM Lead Acid. This is how the Lithium battery BMS is designed. The AGM Lead Acid settings in the charge controller are compatible with the battery BMS.

You won’t see voltage spikes when connected to the battery (BMS), even if the battery BMS disconnects the discharge.  No firmware updates are available or needed to switch from AGM lead acid to lithium.

RemotePro® and UPSPro® Troubleshooting

Minimum Equipment Needed: Good digital voltmeter which will display DC Volts for Battery Voltage. Measure battery voltage at the charger/controller System Voltage Expected Battery Voltage (charging Expected Battery Voltage (not-charging12V – 13.5VDC to 14.5VDC 11VDC to 13VDC 27VDC to 29VDC 22VDC to 26VDC 48V 54VDC to 58VDC 44VDC to 52VDC Solar Panel Voltage The solar panel should be disconnected and receiving sunlight Solar Panel Voltage Expected Output Voltage 18-22VDC 24V 32-38VDC 48V 64-76VDC

  • FUSE: The battery cables have a protection fuse. If no power, check the fuse to see if it is blown. Replace with type is 3AG 20A 250V Glass Cartridge (Shurter 0001.1037 or similar). Available at Digikey and Mouser. LEDs for Battery/Solar Charge Controllers TP-SCPOE Charge Controller
  • LOA – LOA Light will be on, and the load outputs (Green connector and RJ45 POE Out) should have voltage when the battery is within the usable range. When the battery drops to below 11.2V the LOA will turn off. It won’t turn back on till the battery reaches 12V. On 24V systems LOA turns off at 20V and back on at 24V
  • POE – The POE LED will only show when the controller has a POE input in the bottom connector.
  • CHA – will be steady state when charging and it will be flashing when the controller is float charging the batteries.
  • SOL – The SOL LED will be on whenever there is voltage on the solar input.
  • FUSE – There is a battery fuse in the front of the controller. Fuse type is 5mm x 20mm 10A 125V (Littlefuse 0233010.MXP or similar)

TP-BCxx-300 High-Capacity UPS Charge Controller

Before Troubleshooting Make Sure:

  • back voltage switch is set for your AC voltage (115VAC or 220VAC)
  • Battery type is set to GEL (for GEL or AGM) or WET for automobile type batteries.
  • the Battery Switch on the front is switched to ON. This can be switched to OFF to disconnect the battery from the charger.
  • LOAD – Load power is on. The load will turn off when battery voltage is too low and will turn back on when battery voltage reaches a stable voltage.

System Voltage OFF ON 12.6V 24V 21.5V 25.2V 48V 40V 51V

  • PWR – AC Power is ON
  • BATT – Battery is connected.
  • CHD – Battery is fully charged and is float charging.
  • CHG – Battery is charging.

TP-SC24-20 Solar Charge Controller

  • RED LED – steady state when charging and flashes when batteries are charged and in float charge.
  • BATTERY STATUS LED – Green 100%, Yellow 70%, Red 30%. Flashes when battery is very low.
  • Green LED – Load output is on. If light is flashing, then the load was drawing too much current (>20A) The load output will turn off automatically when the battery voltage is too low and turn back on automatically when the battery voltage is stable.

Use the ON/OFF button to manually turn off power to the load.

System Voltage OFF ON 12V 10.7V 12.6V 24V 21.4 25.2

Batteries

When testing batteries that are wired in parallel, you must disconnect the battery, so it is isolated from other batteries. When batteries are wired in series you can test each battery without disconnecting them. A fully charged 12V battery will have a battery voltage greater than 12.5VDC without a load.

To see if you have a bad cell, disconnect any load and fully charge the battery, wait a few minutes, measure and record the battery voltage, wait at least 15-30minutes and measure the battery voltage again. The voltages should be within about 0.5V of each other. If the 30minute measurement is too low, then the battery is not good and should be replaced. Tycon Batteries are designed to be charged with Tycon Chargers that are designed for AGM or GEL batteries. Using automobile chargers can be used in an emergency but they shouldn’t be left connected to the battery for a long time or the battery will be damaged. We recommend not to exceed 4hrs if connected to an automobile battery charger. And only use for emergencies, not for regular charging. Tycon Batteries should never be left in a discharged state, especially in cold weather. If your UPSPro® or RemotePro® system is having charging issues, be sure to make sure that you disconnect the load and leave the batteries in a charged state while troubleshooting. Leaving the batteries in a discharged state for a few days or a week can kill the battery, permanently.

RemotePro® and UPSPro® Battery Care

RemotePro® and UPSPro® systems are designed to maintain proper battery charge within a defined range. Our systems have protections for over-discharge of batteries but batteries also self-discharge over time, so if they are left without any charge or maintenance for a long time (normally over 6 months) they will continue to self-discharge. Our systems are not designed to restore a battery function if the battery gets over discharged. Our systems work within the range of 0% (13VDC) to 100% discharge (10VDC) on batteries. If batteries are less than 10VDC the user must recondition the battery by charging the battery with a good quality automotive battery charger (6A to 25A). We find that manual type chargers work best.

 

  1. Troubleshooting Battery Problems: Measure battery voltage of individual batteries. Voltage should be >10V. If less than 10V* the battery must be reconditioned. If there are multiple batteries, measure all batteries and compare the voltages. They should be within 1V of each other. If some batteries are lower. Recondition the low voltage battery or all the batteries to get them back to a balanced starting point.

 

  1. Reconditioning Batteries: Recondition batteries by charging for no more than 24hrs with a good quality automotive battery charger. Let batteries sit for another 24 hours and then measure voltages. A fully charged battery will be around 13V. If voltage drops below 12V after 24hours, the battery cannot hold a charge and needs to be replaced. Note: On the large ground mount AL enclosure, the batteries are 6V batteries, so the minimum voltage is 5V.
How long will my battery backup power my equipment?

To figure out how long a battery backup system will keep your equipment powered there is a fairly simple calculation you can do:

((Battery Capacity (Ah) x Battery Voltage (12V)) x Percent Discharge (50%)) / Your Equipment Load (W)

So let’s say your 12V battery capacity is 100Ah and your equipment load is 50W. We use 50% discharge because you really don’t want to discharge batteries much more than 50% if you want them to have a long life. 100Ah x 12V = 1200Wh – 1200Wh * 0.5 (50% discharge) = 600Wh (adjusted battery capacity) 600Wh / 50W = 12hrs backup time. As you can see, with 100Ah of battery and 50W load, your backup time is at least 12 hours.

How long will it take to charge my battery bank with a battery charger?

Factors that contribute to the time to recharge:

  1. Your load that is drawing power from the batteries
  2. The battery capacity
  3. The amount the batteries are discharged.
  4. The amount of input power available to recharge the batteries.

Let’s assume you have a Tycon RPSTL12/24M-200-340 RemotePro solar power system. This system has 200Ah of batteries and 340W of solar. Let’s assume your Load is 1.5A @ 24V. To make calculations easy, you want to convert battery capacity and load to watts:

  • Battery Capacity: 200Ah * 12V = 2400 Whrs
  • Load Power: 1.5A x 24V = 36W

 

Scenario#1 Batteries are fully discharged, and we are recharging with solar.

  • 2400Whrs battery capacity / (340W Solar – 36W Load) = 2400/304 = 8hrs to fully recharge the batteries.

Scenario#2 Batteries are 50% discharged and we are recharging with solar– This is the most common scenario

  • (2400Whrs battery capacity / 2) / (340W Solar – 36W Load) = 1200/304 = 4hrs to fully recharge the batteries.<

Scenario#3 Batteries are 50% discharged and we are charging with an AC powered 600W battery charger.

  • (2400Whrs battery capacity / 2) / (600W Battery Charger – 36W Load) = 1200/564 = 2.1hrs to fully recharge the batteries.
How do you calculate Autonomy of a battery backup system?

These are the autonomy calculations

Autonomy = Battery Ah x Battery Volts = Battery Watt Hrs  * 50% battery discharge max = Battery Watt Hr Capacity / Ave Load in Watts = Autonomy Hrs

Ex:

Battery Ah = 180Ah

Battery Volts = 12V

Ave Load – 50W

 

180AH x 12V = 2160WHrs * 0.5 = 1080WHrs / 50W = 21.6hrs Autonomy

How can I tell if I have a bad battery?

The battery’s voltage should always be higher than it’s standard voltage (12, 24, 48VDC) in order for it to run equipment.  For example: 12VDC battery at float charge should be 13.5-13.8VDC.  If the battery is fully charge but the voltage fails to reach 10.5V, chances are it has a dead cell or two.

How can I add a padlock to my ENC-ST-23x14x1 enclosure?

You can add a 4.5” double hinged zinc plated safety hasp to secure the door on the Tycon ENC-ST-23x14x12 enclosure with a padlock.

An example of a suitable double hinged safety hasp can be found on Amazon or your local hardware store:

https://www.amazon.com/dp/B0000CBIEL

The safety hasp can be mounted to the enclosure using screws or rivets. Be sure to waterproof the screws or rivets with silicon to prevent water leaks into the enclosure.

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