Description
GFD233A101 Использование параметров ABB
CC – Link и другие. Каждый слот IO может быть выбран автономно в соответствии с потребностями клиента, а один модуль поддерживает до 16 каналов.
Технологии основаны на инновацияхGFD233A101 Предоставление клиентам высококачественных и надежных продуктов всегда было постоянным стремлением к нулю.
Давайте посмотрим на его инновации и различия с предшественниками: с жидкокристаллическим дисплеем, вы можете увидеть параметры связи, состояние канала IO,
информацию о версии модуля и так далее; GFD233A101 Отладка и обслуживание более интуитивно понятны; ABS огнестойкая пластиковая оболочка, небольшой размер,
легкий вес, с использованием совершенно новой пряжки монтажной карты, установка более прочная и надежная.
We can perform simulation algorithms on Matlab.
3. The role of frequency converter
1. Frequency conversion energy saving
The energy saving of frequency converters is mainly reflected in the application of fans and water pumps. In order to ensure the reliability of production, various
production machines have a certain margin when they are designed to be equipped with power drives. When the motor cannot operate at full load, in addition to
meeting the power drive requirements, the excess torque increases the consumption of active power, resulting in a waste of electrical energy. The traditional speed
adjustment method for fans, pumps and other equipment is to adjust the air supply volume and water supply volume by adjusting the opening of the baffles and valves
at the inlet or outlet. The input power is large, and a large amount of energy is consumed in the interception process of the baffles and valves. middle. When using variable
frequency speed regulation, if the flow requirement is reduced, the requirement can be met by reducing the speed of the pump or fan.
The purpose of using a frequency converter for a motor is to regulate speed and reduce starting current. In order to produce variable voltage and frequency, the device first converts
the alternating current from the power supply into direct current (DC), a process called rectification. The scientific term for a device that converts direct current (DC) into alternating
current (AC) is “inverter”. Generally, an inverter converts DC power into an inverter power supply with a certain fixed frequency and voltage. The inverter with adjustable frequency and
adjustable voltage is called a frequency converter. The waveform output by the frequency converter is a simulated sine wave, which is mainly used for speed regulation of three-phase
asynchronous motors, also called a variable frequency speed regulator. For variable frequency inverters that are mainly used in instrumentation and testing equipment and
have higher waveform requirements, the waveforms need to be sorted and can output standard sine waves, which are called variable frequency power supplies. Generally, the price
of variable frequency power supply is 15-20 times that of the inverter. Since the main device in the inverter equipment that produces changing voltage or frequency is called “inverter”,
the product itself is named “inverter”, that is: inverter.
Frequency conversion does not save power everywhere, and there are many occasions where using frequency conversion does not necessarily save power. As an electronic circuit,
the frequency converter itself also consumes power (about 3-5% of the rated power). A 1.5-horsepower air conditioner consumes 20-30W of electricity, which is equivalent to a
continuous light. It is a fact that the inverter runs at power frequency and has a power-saving function. But his prerequisite is:
PFTL101B5.0KN 3BSE004191R1 ABB
3BSE004214R1 Tension sensor ABB
PFTL101BE2.0KN Tension sensor ABB
PFTL101BE2.0KN 3BSE004214R1 ABB
3BSE007913R0010 Tension sensor ABB
PFTL201C10KN Tension sensor ABB
PFTL201C10KN 3BSE007913R0010 ABB
3BSE019050R10001.0KN Tension sensor
PFTL301E Tension sensor ABB
PFTL301E 3BSE019050R10001.0KN ABB
3BSE006503R1 Signal conditioning board
PFSA140 Signal conditioning board ABB
PFSA140 3BSE006503R1 ABB
3BSE002616R1 Signal conditioning board
PFSK130 Signal conditioning board ABB
PFSK130 3BSE002616R1 ABB
3BSE006505R1 Signal conditioning board
PFSK142 Signal conditioning board ABB
PFSK142 3BSE006505R1 ABB
3BSE018876R1Signal conditioning board
PFSK151 Signal conditioning board ABB
PFSK151 3BSE018876R1 ABB
ABB excitation control board 3BSC980006R361
3BSE018877R2 Signal concentrator board
PFSK152 Signal concentrator board ABB
PFSK152 3BSE018877R2 3BSC980006R361
3BSE009514R1 Signal concentrator board
PFSK160A Signal concentrator boardABB
PFSK160A 3BSE009514R1 ABB
3BSE015088R1 Distributedcontrolcard
PFSK162 DistributedcontrolcardABB
PFSK162 3BSE015088R1 ABB
PFSK164 3BSE021180R1 ABB
3BSE021180R1 Distributedcontrol card
PFSK164 Distributed control card ABB
3BHB004661R0001 drive unit ABB
KUC711AE drive unit ABB
3BHB004661R0101 drive unit ABB
KUC711AE101 drive unit ABB
3BHB000652R0001 drive unit ABB
KUC720AE drive unit ABB
3BHB000652R0001 drive unit ABB
3BHB003431R0001 drive unit ABB
KUC720AE01 drive unit ABB
3BHB005243R0105 drive unit ABB
KUC755AE105 drive unit ABB
3BHB005243R0106 drive unit ABB
KUC755AE106 drive unit ABB
3BHE023584R2365 CPU ABB
PPD113-B03-23-111615 CPU ABB
3BHE023784R1023 CPU ABB
PPD113B01-10-150000 CPU ABB
3BHE023584R2634 CPU ABB
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