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The Datakom controller offers ideal functions and automation to stabilize premium production for any generator set. In this regard, it helps to monitor and control the electrical and mechanical parameters and variations of the parent engine.
The said controller also features multiple parameter values, which means it displays values of frequency, voltage, current, power, and so forth. The types of Datakom controllers available include the following:
Digital Automatic Voltage Regulator (D-AVR)
This controller is meant to stabilize the fluctuating values of the generator output voltage. The value stabilization is achieved through a connected sensing transformer to the generator's output terminals.
Digital Load Sharing Controller (DLS)
This controller's main function is to control two or more generators working on homes and commercial facilities. In this automatic control, the generator's share of the total load is done proportionally to its output parameters.
Digital Controller for Pumps (DCP)
In its function as a digital controller for pumps, the DCP controls electric pump driven system. It does that by monitoring the set-pressure value of a defined feedback element in a closed-loop system. Hence, to this end, the DCP maintains system pressure by adjusting pump output proportional to the set-pressure deviation.
Load Sharing and Role Change Controller (DLS-RC)
This controller performs the common tasks of working controllers. The duties include monitoring the output parameters of the set values of the generators and ensuring they are precisely pooled. On that note, it also has the alternating feature of a standby unit to a main one.
As far as the durability of generator controllers is concerned, it mostly deals with structural integrity and the material that makes up the device. In this regard, the application of the DLS controller in such situations as load sharing is crucial, especially when employed in multiple generators.
This unit serves to ensure that the process remains seamless even when one of the units is on an oscillation operation. The oscillation control is done by constantly measuring parameters such as voltage, frequency, and current on each machine. The data is then compared to determine the variations and dispatch communication requests to adjust the output levels accordingly.
The adjustments can, therefore, be made when one generator is set to lead its usage of higher output while the other is set to follow lower. This change is all thanks to the DLS controller and its capacity to modify the output level of a generator in use while keeping its output in a preset range.
This functionality, however, requires a destruction in the course of time as the components that make the structure have to be of premium-quality materials. Moreover, they also have to be resistant not only to giddy but also to moisture and extreme temperatures. These elements have a tendency to affect the functionality of the controllers when in adverse conditions.
Automatic Peak Shaving
Peak shaving, in general, refers to the process of reducing the peak electricity consumption by using less power at high demand and more at low. This controller is applied for protecting the most electric power system equipment to avoid overloading.
Communication with Other DAK Controllers
This device communicates and cooperates with some DAK controllers (for example, DAK-1, 2, 3, and 4) via RS-485, and it supports the main and standby assignment.
Compatible with DAK Controllers
The controller can communicate and cooperate with DAK controllers DAK-1, 2, 3, and 4, via RS-485. It supports main and standby assignments.
Programmable Parameter Values
In this controller, values of frequency, voltage, current, power, and others can be adjusted. This feature helps cater to diverse needs, which can also lead to enhancement value stability.
Datakom controllers for generators offer a lot of choice, so much so that one might need to consider some factors to make the right choice. After knowing the types of Datakom controllers, one needs to look at what makes them tick so that one can get the most out of them. These factors are as follows:
Operational Features
People prefer controllers depending on how well they are in operational or functional issues. For example, a dg controller should come with features such as automatic control, communication capabilities, and peak shaving to efficiently manage generator sets and power systems.
Stringency
Makes of the controller will also matter a lot in terms of reliability, and this is no exception. Many people would want to go for tried and tested brands with fast and uncomplicated services. Datakom has been serving customer needs for nearly two decades, and they understand the ins and outs of the game.
Price
The cost of the controller is generally a huge component. The more advanced the controller is, the pricier it will get, and that's because one will likely get what they want. But it is also advisable to think about the long-term benefits.
Datakom controllers are deployed in various settings with their functions. For instance, in the DCP model, it controls electric pump systems. During this process, it monitors the pressure of a set value and, in doing so, ensures system pressure is maintained by adjusting pump output proportional to the set-pressure deviation. This device finds usage in the following:
Agriculture
In agriculture, DCP controllers are used in irrigation systems to sustain desired pressure levels in water distribution. Keeping this desired pressure aids in more efficient resource use, which is water in this case, thus promoting crop health.
Commercial Buildings
In commercial buildings where water delivery systems are complex and dynamic, Datakom controllers DCP is employed. Close control of pressure assures service reliability; no over or under pressure occurs, hence the integrity of the plumbing and system safety.
Industrial Process
Industry is highly dependent on pressure in their operations. DCP controllers provide this pressure control in various processes where pressure fluctuation can result in safety issues and inefficiency.
Marine
Ships and vessels face harsh conditions at sea, and the DCP for marine controllers is made to survive this environment. It is employed in ship generators to control voltage and maintain system stability; it also communicates with other controllers for an efficient operation.
Mining
Generators are a major source of energy in mining operations, and this is where the DCP marine controller comes in handy. By enabling effective communication with other controllers, it ensures primary generator stability.
High Voltage and Low Voltage Protection
A generator will break down when high voltage or low voltage occurs. Datakom controllers are applied to protect these situations to avoid damaging the system and equipment.
Premature Excitation DC
This is a great feature for DC prevention, which helps alleviate potential damage scenarios to motors or systems caused by early excitation.
Island Operation
Even in the island operation, the controller can operate with external power supply, meaning it can run autonomously when there is no chance of receiving an external signal. Normally, it keeps the frequency stable and within the capacity range.
Emergency Stop
Sometimes, for one reason or another, one needs to stop operations, and everything is at stake. In situations like this, the controller is very capable of taking all the necessary measures to make it stop and, at the same time, protect its damage.
A1. The controller stabilises the output electrical values of a generator; The voltage, in particular, is a variable of capacity stabilised by connecting a sensing transformer to the generator output terminals.
A2. The DLS controls two or more generators used in homes and commercial areas. It does this automatic control by sharing the generator's total load, which means, of course, that it will use its output parameters.
A3. Datakom controllers are made of several materials, including metals, plastics, and composites, that offer resilience against factors such as stress, moisture, and extreme temperatures.
A4. While the lifespan can vary based on usage and environment, many Datakom controllers are designed to last upwards of 10 years, especially when maintained properly.
A5. Controllers like the DLS ensure efficient operations even under demanding conditions. Their robust build and advanced features ensure long-term reliability.
