Power Supplies
Altering Mains Electricity to Obtain Required Voltage
Published
3 years agoon
By
Marks StrandElectrical devices, whether used at home or in industries, have specific power requirements. Such requirements specify power characteristics such as voltage, current, and frequency. These requirements don’t always match the characteristics of incoming power, whether from mains electricity or from other sources, including diesel generators and solar panels.
As such, it is usually necessary to introduce a device to act as an intermediary between the source of power and the device using that power. The intermediary converts power from its original form into the required form. Such a device is known as a power supply unit.
In some cases, power from the source has fluctuating characteristics. For example, due to faults that occur at random within the power grid, mains electricity can be subject to undervoltage and overvoltage.
Due to these fluctuations, the power delivered to a device can be outside the required range. This often leads to damaged electrical appliances or reduced life-span.
Fortunately, with a power stabilizer, the power getting to an electrical load can be regulated, such that characteristics like voltage and current are not only kept constant but also within the optimal range.
Being able to control the characteristics of power getting to your devices can come in handy. Apart from enhancing device safety, it enables you to use your source of power for a wide range of applications.
Let’s look at the devices that enable control over power characteristics.
Power Stabilizer
Such a device comes in handy especially with electrical appliances that are highly sensitive to power fluctuations. These include medical equipment, telecommunication equipment, air conditioners, computers, offset printing machines, industrial machines, and television sets.
Stabilizers are crucial when working with expensive machines because they help prevent damage.
Modern stabilizers provide a digital interface that enables the control of output power characteristics. Output power can be altered according to the different appliances being used and their different power requirements. In this respect, such stabilizers are similar to the programmable power supply, which also provides an interface to control output power characteristics.
How Does it Work?
A stabilizer typically has 2 operations: buck and boost. The buck operation is carried out when there is undervoltage and the voltage being supplied to the target load has to be increased. The boost operation is carried out when there is overvoltage and the voltage being supplied to the target load has to be reduced.
To perform both operations, a stabilizer usually has a transformer, in addition to switching relays.
There are different combinations of the transformers and switching relays, which are activated according to whether there is undervoltage or overvoltage.
During undervoltage, the transformer will tap power from the source, convert it to the appropriate voltage, then add it to the current before it gets to the load.
During overvoltage, two stage voltage stabilizers may be used in addition to two relays to provide constant power to the load.
Types of Power Stabilizers
Servo-Controlled
Such stabilizers use a servo motor and the negative feedback technique to facilitate the correction of voltage. A servo-controlled stabilizer will typically have the following components: auto transformer, buck boost transformer, servo motor, motor driver, and control circuitry.
These stabilizers are used when high output accuracy is a priority. They have an output accuracy range of 1%. Meanwhile, they can handle input that has fluctuations of up to 50%.
Relay Type
A relay type stabilizer usually has several tappings of the transformer, which are connected to the load according to whether a buck or boost operation is needed. Voltage regulation is done by switching the relays according to whether the issue is undervoltage or overvoltage.
Components that make up this type of stabilizer include the micro-controller unit, the operational amplifier and the rectifier circuit.
The relay type stabilizer has an output voltage accuracy of 5-10% and can handle input voltage fluctuation of between 6% and 15%.
Such stabilizers are cheap and light-weight, and are preferred for use with low-rating appliances.
They have a number of disadvantages, including low reliability, low durability, inability to withstand high voltage surges, and slow voltage correction.
Static Voltage
Static voltage stabilizers don’t have any moving parts and are usually more accurate than servo-controlled stabilizers. They have the following components: microcontrollers, microprocessor, DSP based controller, buck boost transformer, and an IGBT power converter.
The microprocessor keeps track of input voltage and in case of any variations, sends pulses to the IGBT converter, which then generates the necessary voltage.
The static voltage stabilizer has multiple advantages, including fast correction speed, reliable voltage regulation, lower maintenance costs since all parts are stationary, and small size. It is a popular choice.
Programmable DC Power Supply
A programmable dc power supply allows control over dc output voltage characteristics, with voltage and current being the most commonly controlled characteristics. This control is made possible through a digital interface, which can be accessed both on location and remotely.
On location, there is a keypad for entering the required output voltage characteristics. If you want to control the voltage remotely, you can take advantage of various interfaces, including USB, RS232, and GPIB.
A good programmable power supply must be able to deliver stable power with minimal noise to all types of loads regardless of their resistance, impedance, or inductance.
Most programmable dc supplies have two modes, constant voltage and constant current. The default mode is the constant voltage mode, where the power supply keeps the output voltage constant. The output current is determined by impedance of the load.
In constant current mode, which is considered the safety mode, the power supply keeps the output current constant, with the voltage being determined by the impedance of the load.
In both modes, the output is controlled according to user settings.
The power supply works with the following user-defined settings: maximum current, maximum voltage, and maximum power.
Programmable supply units also offer additional features, including temperature regulation and short-circuit protection.
When considering which power supply to use, factors such as control flexibility, number of outputs, and cooling should be checked.
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Power Supplies
Military Grade Power Supplies
Published
2 years agoon
August 13, 2022By
Marks StrandHave you ever wondered how the military powers all their equipment? It’s not as simple as we have it – can’t just call the power company and boom, there was light. There are power supplies in virtually every military electronic system.
These devices come in all shapes and sizes. On matter functionality, it’s not that different from their commercial counterparts. They too have advanced power conversion solutions like AC/DC, DC/DC and other configurations.
How Different Are They?
The main difference between defense power supplies and their commercial siblings has been reliability. See how annoyed you get when there is a power outage? Well, imagine that in the military.
It is no longer simply a matter of inconvenience but potentially catastrophic failure and loss of life. Military power supplies were designed with a long mean time between failure as the main goal being delivering years of trouble-free operation.
What the Scene Is Like Today
The standard has remained reliable, with their MTBF being way higher than those of their commercial counterparts. On top of that, they are being upgraded every two years – just like consumer electronics I might add.
Every upgrade renders previous generations obsolete. This spells out obsolescence and availability issues. For long term reliability, the ability to recognize pending failure has become very important.
When it’s all said and done, military grade supplies have to meet specific requirements. These requirements include detailed guidelines for selecting components that are part of each supply not to mention a rigorous set of design rules to ensure manufacturability.
Let’s look at some of these guidelines:
Guidelines for Military Power Supply
Part Selection and Design
Part selection is a very important step in designing defense power supplies. All components that will be part of the product have to be approved and qualified by the manufacturer for use in any military system or be qualified for the application by the manufacturer of the power supply. This process serves 2 purposes:
- Establish that a stable source of supply for the component exists and adequate control procedures are in place
- Prevent the usage of restricted materials that can degrade during normal usage.
Over time, life cycles of advanced power conversion solutions have dwindled in importance although that remains a requirement in military electronic systems. Military electronic systems must be replaceable or at least repairable throughout their lifetime. This places extra demands on military grade power supplies manufacturers.
Application Requirements
Different branches of the military have published detailed sets of requirements that establish what is to be expected of power supplies from all military systems deployed in the field. These standards focus on performance issues as well as the working environment which can impact reliability.
Input voltage conditions for tactical military applications cover electromagnetic compatibility and input levels. Electromagnetic compatibility standards demand the amount of conducted RF energy the device must be able to withstand and still operate properly.
It usually is 40 dB or more. Commercially available filters that meet the requirements for commercial noise suppression cannot achieve this level of signal rejection.
With all that in mind, it is safe to conclude that each military power supply application must be approached individually to construct filters and maintain proper impedance matching characteristics to eliminate radiated noise at the input.
Power Supplies
The Operation of the DC Power Supply
Published
2 years agoon
August 11, 2022By
Marks StrandMost common power supply devices adapt alternating current power from an electrical source to the voltage, current, and frequency that the device needs. Stepping the voltages up or down, followed by filtering, is how it’s done. The device receives electrical power in a secure and regulated manner as a consequence.
Other energy sources, such as solar or chemical energy, can be converted into electrical energy in some models. In larger devices like desktop computers, a power supply is either internal or external, as seen in laptops and phone chargers.
Programmable DC Power Supply
The output voltages can be remotely controlled by a programmable DC power supply utilizing an analog control signal that can be altered by a rotary switch that is frequently seen on the front panel.
Current and voltage output are two often modifiable power supply features. Alternating current power supplies allow for the frequency to be programmed as well.
Electronic Load
Manufacturers of power supplies must dynamically test their products. Electronic load provides them the ability to quickly and cheaply simulate various power levels in place of using fixed-resistor banks of different sizes. It also aids in the analysis of a wide variety of power sources, including batteries, fuel cells, and electromechanical sources like converters and inverters.
It may also be used as a high-speed current modulator to boost a power supply’s efficiency. In such cases, just a part of the rated capacity of the power source is needed. The voltage across the load is extremely low when the current is modulated to its maximum. As the current is modulated off, the voltage increases to its highest point.
The load power needed for a current modulation from zero to maximum typically equates to one-quarter of the operating voltage times the current rating plus a buffer.
The Dc to Dc Converter
They are employed to modify the voltage level. They are constructed around a wiring system that makes use of electronic switching technologies.
They can accommodate both applications requiring very low voltage and those requiring very high voltage, and it is most frequently used when a linear regulator is not the optimum solution.
The Function of DC to DC Converter
Numerous electrical equipment and circuits in a variety of applications require a voltage that is either lower or greater than what the power source provides.
In such cases, a circuit is required to convert or modify the electrical voltage level of the incoming power. The dc to dc converter makes it possible to transfer electrical power effectively, which makes it ideal for use in gadgets like mobile phones and laptop computers.
Conclusion
Think about the many parts that make up your device and how each one will require a specific current and voltage to function properly. The screen display won’t be powered by the supply voltage because it is the device’s CPU.
Therefore, in order to handle the power supply of various voltage domains, you will require a converter that can either step up or step down the voltage level.
Let us break it down a bit for a better understanding. If you were keen in science class, you probably remember the teacher mentioning that DC stands for direct current. Direct current is a unidirectional flow of electric charge – the direct opposite of AC, alternating current.
Simply put, a defense DC-DC converter is an isolated, thick-film hybrid converter for flight critical applications with extreme temperature requirements. They efficiently produce a regulated DC voltage from a source that may or may not be well controlled to a load that may or may not be constant.
DC-DC Conversion
A DC-DC converter is a type of electronic circuit that takes DC source and converts it from the current voltage into another voltage. Now I know this sounds like describing a word with the word but it’s not quite it.
The conversion sometimes can involve increasing or decreasing the voltage. A perfect example of DC-DC conversion is your portable DVD player. Whenever you are going to work jamming to some music, the player has to draw the power from the car battery.
Now too much power may damage it and too little power may not run it. That is exactly why DC-DC conversion is important. The applications of a military DC DC converter may not be as simple and melodious but the idea is pretty much the same.
They for one need to be ruggedized which leads me to a side note:
Ruggedized Power Supply
A rugged power supply is a form of power supply capable of withstanding a variety of unfavorable environmental conditions – however challenging they may be. This comes in handy in military applications. These power supplies were built to withstand extreme environmental and weather conditions like extreme altitude, temperature, vibrations and shock.
Ruggedized power supplies are related to DC-DC converters in that they themselves are DC-DC converters. Regardless of where these power supplies are being used, their purpose is: provide regulated voltage.
Regardless of the source input, the output should be converted to DC. There are both rugged AC-DC and DC-DC power supply units. Just about all electronics require regulated power supplies to function correctly. Without regulated power supply, large fluctuations can occur delivering unsuitable power needs. Regulating the power maintains steady power supply which prevents outages and avoids overloads.
Using non-rugged power supplies in non-ideal conditions will have you having to provide continual maintenance, deal with breakdowns and downtime of course.
Applications of Rugged Power Supply
Ground Vehicles
A rugged vehicle power supply is useful both in and outside of the military scope. Just about any car needs to withstand a host of climates and environmental conditions. Vehicles often travel over rough terrain through dirt, sand, humid areas and marshy areas. On top of using rugged power supplies, military vehicles need to meet other specific codes and standards.
Aerospace
When it comes to manufacturing power management solutions for the aerospace industry, engineers must consider the effects of altitudes and the accompanying changes in weather.
Just like in ground vehicles, vehicles for military use have to meet other standards and requirements on top of using rugged power supplies.
Shipboards
Ship environments don’t exactly scream optimal conditions for electronic systems with the demanding external conditions. This rules out a significant amount of power supply options but no matter, ruggedized power supply to the rescue. These rather harsh environmental conditions necessitate precision-engineered power management solutions that of course meet the standard Naval requirements.
How a DC-DC Converter Works
Like I had earlier explained, DC-DC converters basically change the voltage, sometimes by increasing it or decreasing it.
Boost converters increase the voltage from a power source. You could have a power source of only 10 V and a boost converter kicks that up to 30V. You typically find these DC-DC boost converters in battery chargers or solar panels.
Bult converters on the other hand are responsible for reducing the voltage from the power supply. Remember the 10 V power supply? A DC-DC bulk converter could trim that down to just 5V. Said trimming down is achieved by increasing the current.
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