Variable Frequency Drive (VFD), Variable Speed Drive (VSD), Adaptable Capacity Inverter
Compressors are a vital element in cooling appliances, ensuring that the entire system runs smoothly and efficiently. Looking into the core of any machine, the effectiveness of a compressor is the optimisation of all components, including motor type, pump type and inverter type.
When it comes down to compressors, a variable speed drive control is almost exactly the same as a variable frequency drive (VFD) in the way it controls an DC motor. However, compressors utilise a brush-less permanent magnet motor for improved efficiency and longevity.
Variable speed drive compressors have a number of advantages over fixed speed alternatives, mainly because they can be adjusted to cover a broad range of refrigeration demands.
For example, the inverter (variable frequency drive) in these compressors generates three phases, with the frequency for each phase being fully adjustable below or above the average of 50/60 Hz normally used in the power grid. When the frequency is changed, the speed and, therefore, the rotations per minute, are also altered. For example, the electronic controller selects a speed between 1000 rpm and 4000 rpm but this will be different in every electro mechanical system. In addition, the speed that a compressor sets can also alter its cooling capacity.
As a general rule, compressor capacity will normally be in linear ratio to the speed. This means: when a 1:4 speed range has been set, the cooling capacity of the unit is likely to fall at around 1:3.7. Specific capacities are challenging to calculate, because each unit can differ depending on the parameters that have been set. With data sheets available to indicate the performance of variable speed drive compressors at different speeds, engineers can find the perfect speed and related capacity for their application requirements.
Aside from a compressor’s speed and capacity settings, it is also important to know about the relevant variable frequency drive (inverter) components. In the case of a variable speed compressor, the inverter is a small electronic unit with an input of 115/230 Vac (Voltage AC). The input is converted into three phases with efficiency levels being measured as high as 98 percent.
With components having such a high efficiency, it means that refrigerators developed using the variable speed compressors can benefit from reduced energy consumption.
When using a variable speed compressor with an inverter (variable frequency drive) in a refrigerator, it is possible to lower the condensing temperature. In addition, a high evaporator temperature at low load rate can be applied. Meaning that when a refrigerator isn’t fully loaded, machines don’t have to work as hard to keep items cool. This can result in energy consumption savings of between 20 and 40 percent when compared against refrigerators that utilise a fixed speed compressor.
The most important advantage of variable frequency technology is adaptable capacity which leads to high efficiency.
Overall, a variable speed drive compressor offers engineers far more options when it comes to building electronic systems and products. By altering the settings for each individual device built, efficiency gains can be made that both benefit a business and the customer, i.e. the initial investment might be slightly higher applying a compressor with inverter but the operating costs and therefore the total cost of ownership will be significantly lower. Especially in high priced energy markets the payback time is extremely short.
Advantages of Adaptable Capacity
- Improved system efficiency due to higher t0 and lower tc / Up to 40% energy savings
- Dynamic speed range from 1:4
- Adjustable cooling capacity for actual system demand
- Smaller compressor in terms of displacement and size
- Lower noise emission due to low speed - up to 5 dB(A)
- Released for rough applications, unstable power supply and tropical regions
- Bi-frequency at 220-240 V 50-60 Hz and 115 V 60 Hz
- 12 to 24 V and 48 V DC for mobile cooling
- R290 / R600a / R134a / R404A models available household, commercial applications and mobile cooling (LBP/MBP)
- HST features; no pressure equalization needed to start up the compressor
- Same compressor type for different markets!
The most important advantage of adaptable capacity is reduced energy consumption, which is possible in different ways.The easiest, most efficient and cheapest way to reach this target is to use adaptable capacity compressors.
Secop adaptable capacity compressors offer the possibility to adjust the refrigeration capacity according to the desired need by controlling the motor speed of the compressor and therefore the cycle times of the piston.The compressors are highly optimized with very high motor and mechanical efficiency. Tests have shown improvements in energy consumption of up to 40 %, depending on the system design. The average noise level can be reduced by up to 5 dB(A). The compressors are small in volume which allows space for a bigger net volume for usage.
The aim of all refrigeration appliance design is to define and optimize the essential functions such as: minimal cost, high performance, and high efficiency, minimized compressor size to enable larger internal cabinet volume, low noise levels and stabilized cabinet temperature at different operation loads.
Quick ReferencesHermetic Variable-Speed Drive Compressors for AC Voltage, R600a, R290, 100-127 V, 220-240 V, 50/60 Hz PDF download (3.88 MB)
GuidelinesAdvantages of Adaptable Capacity PDF download (0.96 MB)
LeafletsXV-KX Compressors, R600a PDF download (665.46 kB)
LeafletsXV-KX Compressors, R600a, 100-127 V, 50/60Hz PDF download (1.01 MB)
LeafletsDLV-CN Compressors, R290 PDF download (632.95 kB)
LeafletsNLV-CN Compressors, R290 PDF download (828.72 kB)
LeafletsSLV Display Cabinet Cooling, R290 PDF download (812.16 kB)
LeafletsBD1.4F-VSD.2/-HD – New Milestones in Mobile Cooling PDF download (928.25 kB)
Quick ReferencesBD Direct Current Compressors for 12, 24, and 48 V PDF download (1.03 MB)