A power failure, even for a few minutes, can bring major inconvenience to our lives.
If we work on the PC and have not saved, we may lose data or, worse, the computer or household appliances may be damaged when the electricity returns. There are areas, especially the rural ones, with strong wind/storms or old voltage lines, where voltage fluctuations are frequent and can disrupt our activity.
Power surges will in time lead to damage to home appliances, computers, central heating systems, TV, etc. Fortunately, this problem has been solved by using UPS, but how do we get the best UPS at a convenient price?
What are the common power problems that may occur?
Below are some of the most common power supply problems that can occur and affect our electronic equipment:
Voltage spikes are fast, have a short duration and may occur quite frequently.
Spikes are usually caused by lightning, but there can be other causes as well.
Frequent spikes can damage and destroy electronics.
Voltage sags / Voltage Swells
Voltage sags or dips are short duration reduction in RMS voltage which can be caused by a short circuit or overload.
Voltage sags are the most common power disturbance. Voltage sags are caused by abrupt increases in loads such as short circuits, motors starting, or electric heaters turning on.
Usually, it appears when there are big consumers on the line, especially in crowded urban areas.
In contrast, voltage swells are brief increases in voltage for a short period.
Voltage swells are most often caused by an abrupt reduction in load on a circuit with a poor or damaged voltage regulator.
Frequency noises are very common and can disrupt or degrade the performance of a circuit by injecting abnormalities into the system.
Over time, multiple frequency noises can damage home appliances.
A brownout is an intentional or unintentional drop in voltage for an extended period of time.
For example in summer, when electricity consumption increases, especially due to the air conditioners, to avoid a total blackout, power companies may lower the voltage of your electricity.
What is a UPS? types of ups
A UPS, (uninterruptible power source) is a battery backup power system, which is activated when power fails so that the equipment can be switched off properly.
The primary role of a UPS is to provide short-term power when the power source fails. Depending on the battery power of the ups, it gives us enough time to save the data if we are on the PC.
Also, most UPS are surge protectors for other power problems that arise.
Ups are of three types: Line-interactive, Offline, and Online, based on what type of power protection you need.
To understand the types of ups, first, we need to see the difference between Watts vs. VA and what “Power Factor” means.
Watts vs. VA, Power Factor
A UPS has both maximum Watt and maximum VA (volt-ampere).
Neither the Watt nor the VA of a UPS may be exceeded by the attached equipment, which is named “the load”.
Watts are the real power drawn by the UPS, while volt-amps are called the “apparent power”
VA to watts calculation
The real power P in watts (W) is equal to the apparent power S in volt-amps (VA), times the power factor PF:
P(W) = S(VA) × PF.
The watt determines the actual power purchased from the utility company and the heat loading generated by the equipment.
The VA is used for sizing wiring and circuit breakers.
The ratio of the watts to VA is called the “Power Factor” and is expressed either as a number (ex 0.8) or a percentage (ex 80%).
This power factor is what really matters when choosing a UPS for your specific requirements.
Line-interactive UPS has a power coefficient(PF) of 0.7, providing protection regardless of the input voltage.
If there are fluctuations in voltage the UPS will switch on the battery and will operate until the voltage returns to normal limits.
Offline sources have a power coefficient of 0.6, being the cheapest and most used.
An offline UPS offers the most basic features, providing surge protection and battery backup.
They are dependent on the voltage and frequency they receive from the electricity grid. This means that the device receives voltage fluctuations from the network and will transmit them to the connected devices, which does not offer any additional protection to the electronic equipment.
Online sources have the power coefficient of 0.8 or higher, being independent of the voltage and frequency received at the input. They remain permanently connected and offer maximum protection and very fast response time.
The online UPS is ideal for equipment that is very sensitive to power fluctuations. They are necessary when utility power sags, outages and other anomalies are frequent.
Online UPS are the most indicated, the only disadvantage being the higher price.
The common ups types are:
- Desktop or compact
- Tower or mini-tower
How do you choose a good UPS? Factors to consider
1. The power of the UPS
As I specified below the watts are the real power drawn by the UPS.
In other words, your UPS has to be large enough to support all of the consumers plugged into it.
The higher the capacity (W), the more electronic equipment can support it.
How to choose the power of the UPS?
First, you have to calculate the “load”.
Make a list of all the equipment that the ups want to support.
If you are unsure how many watts your equipment requires, consult their specifications. For example: desktop(power source 450W) + monitor(20W) + boxes(80W) Total: 550W
To determine the power requirements of your equipment, ensure that the equipment plugged into the outlet does not exceed the UPS’s rated capacity.
If the rated capacity of the unit is exceeded, the UPS may overload and shut down or the circuit breaker may trip.
It is advisable to take a safety margin of at least 10 – 15%, some studies recommending a margin of up to 20%.
The ups are of low power (maximum 500 W), medium (with values between 500 and 1000 watts), and high (going up to 3000 Watts).
When it comes to high power, prices are generally over 800$, but in most cases, you don’t need very high power UPS for home use.
2. Runtime, how long the ups hold the equipment when the power goes out?
Autonomy is another important factor you need to consider, which means how long the UPS can power consumers when the power goes out, which is named: runtime.
Depending on how large the UPS battery is, the runtime will vary depending on how long it will work after the power is turned off.
Usually can vary between 4 minutes and up to 10 hours.
How to calculate how long Your UPS will run for?
The runtime is inversely proportional to the power of consumers:
If the connected equipment has fewer watts, the runtime will be higher and If the connected equipment has more watts, the runtime will be shorter.
The battery is the key element in the UPS, depending on the autonomy of the product, their capacity being expressed in Ah (ampere-hours).
For example, to power, the PC is enough to choose an off-line device but to ensure continuity for a boiler, it is recommended to use on-line and line-interactive devices.
For a boiler or for a central heating system it is good to take a bigger battery!
Usually, when the power is restored, You have to charge the battery to be ready next time.
3. Autonomy of battery
Autonomy is a major factor to consider when purchasing a UPC, which means how long the UPS can power consumers when the electricity is turned off, usually autonomy is ranging from 4 minutes to 10 hours.
This feature depends on the batteries the product has and is calculated for the maximum power that the UPS can protect.
For example, to power a computer it is sufficient to choose an off-line device that will provide a power supply until the generator is switched on, but to ensure continuity for a power plant, it is recommended to use on-line and line-interactive devices.
The battery can be included with the ups or we can buy it separately, most of them being of type Valve Regulated Lead Acid (battery with lead and acid), being similar to car batteries.
The battery life is normally between 3 and 5 years, and there are more expensive variants that have batteries with a life span of 7 to 10 years.
bXterra 1500VA BM1500AVRLCD UPS Review
bXterra 1500VA UPS BM1500AVRLCD is a line-interactive UPS that provides both: battery backup and surge protection for essential home and office devices.
It uses Automatic Voltage Regulation (AVR) to defend against under voltages and overvoltages, so during minor power fluctuations, AVR reduces or boosts incoming voltages to a safe operating range.
The Battery Runtime (Half load) it’s about 11 minutes, more than enough time to shut down your home computer, gaming rig or PC monitors and save important work.
Also, the 900W power it’s big enough to protect your home security and smart devices, desktop computers, tablets, networking equipment, home theater systems, video gaming consoles, etc
It is best that the load on the battery does not exceed 80% of its capacity.
About the LCD screen
The LCD screen looks great and has some nice features: shows you the power status information about the remaining runtime, alerts, and other necessary data.
How to use bXterra 1500VA BM1500AVRLCD?
It’s very simple to set up and use. Just plugged the battery in & plugged the system into my computer and the UPS is ready for action.
Before plugging in equipment, make sure the UPS is turned off and unplugged.
The unit is very well designed, is doing his job well and it runs quietly.
How to charge the battery?
The front of the unit also shows how much battery remains.
If the battery is low, connect it to utility power and the UPS will start to charge its internal battery.
For best results, charge the battery for eight hours prior to initial use.
- Easy so set up
- Not to expensive
- runs quietly
- Automatic Voltage Regulation (AVR)
- 900 watts, very good Power Rating
- Battery Runtime (Half load) – 11 min
- Multi-Status LCD Screen
- considering the price is quite low, I have no negative points, but to be a bit demanding I could add the only thing: the USB charging port is missing
With a very good value for money, You can’t go wrong with this UPS.