All You Need to Know About AMB Systems
In a world where technologies and devices are becoming more and more sophisticated or complicated, there is an inherent need to learn as much as possible about some of the systems which can become very useful in a large number of fields.
One such example is the AMB system, an innovative and complex solution which has been embraced by a large number of companies, as a result of its multiple uses and high level of applicability.
So what does this system provide exactly? And what are the main aspects which you should know about this technology? The principle behind the AMB or active magnetic bearingtechnology is simple: magnetic force is being harnessed to support the rotor, thus eliminating the direct contact between the stator and the rotor and also the friction which this contact would generate.
As friction is not a desirable outcome, machinery which can avoid it and make the rotary shaft friction-free has been received with a great level of enthusiasm.
This leads us to the observation that AMB systems are not only sought after today, but they will also increase in popularity as time goes by and the need for such products increases.
As an introduction to this complex technology, it is sufficient to say that the zero friction seen in the shaft is the key element which enables the rotor to gain a high running accuracy and large revolving speed.
This proves to be very useful and efficient.
As a matter of fact, more and more companies, factories or producers from all sorts of fields and industries are racing to purchase active magnetic bearing technologies so as to utilize them and gain impressive benefits from their low consumption of energy or long life span.
Further advantages of these systems include, but do not stop at: the zero amount of lubricant needed, limited amount of noise, low level maintenance and so on.
A magnetic bearing system can especially be applied to the vacuum, high speed or ultra-clean circumstances.
It represents a new form of device with high tech capabilities and a future oriented approach.
Not to mention the fact that this sort of systems are entirely environmentally friendly and ecological.
The main components of any AMB technology or system are the actuator, sensor and controller.
The rotor's position is placed in a fix spot, joined with two thrust actuators and two radial actuators.
When this position is captured by the sensor, there is a reflection sent to the signal processor which receives and reads data in real time.
Further on, whenever the position of the rotor shifts, there is an instant adjustment coming from the signal processor which influences the actuator's magnetic forces and changes them with the precise same degree given by the rotor's offset.
The result is that the system makes the rotor return to its initial, correct location.
Taking into account the complexity and low maintenance of this technology, as well as its large level of applicability, there is no wonder that more and more clients are looking forward to utilizing AMB devices and reducing their costs.
One such example is the AMB system, an innovative and complex solution which has been embraced by a large number of companies, as a result of its multiple uses and high level of applicability.
So what does this system provide exactly? And what are the main aspects which you should know about this technology? The principle behind the AMB or active magnetic bearingtechnology is simple: magnetic force is being harnessed to support the rotor, thus eliminating the direct contact between the stator and the rotor and also the friction which this contact would generate.
As friction is not a desirable outcome, machinery which can avoid it and make the rotary shaft friction-free has been received with a great level of enthusiasm.
This leads us to the observation that AMB systems are not only sought after today, but they will also increase in popularity as time goes by and the need for such products increases.
As an introduction to this complex technology, it is sufficient to say that the zero friction seen in the shaft is the key element which enables the rotor to gain a high running accuracy and large revolving speed.
This proves to be very useful and efficient.
As a matter of fact, more and more companies, factories or producers from all sorts of fields and industries are racing to purchase active magnetic bearing technologies so as to utilize them and gain impressive benefits from their low consumption of energy or long life span.
Further advantages of these systems include, but do not stop at: the zero amount of lubricant needed, limited amount of noise, low level maintenance and so on.
A magnetic bearing system can especially be applied to the vacuum, high speed or ultra-clean circumstances.
It represents a new form of device with high tech capabilities and a future oriented approach.
Not to mention the fact that this sort of systems are entirely environmentally friendly and ecological.
The main components of any AMB technology or system are the actuator, sensor and controller.
The rotor's position is placed in a fix spot, joined with two thrust actuators and two radial actuators.
When this position is captured by the sensor, there is a reflection sent to the signal processor which receives and reads data in real time.
Further on, whenever the position of the rotor shifts, there is an instant adjustment coming from the signal processor which influences the actuator's magnetic forces and changes them with the precise same degree given by the rotor's offset.
The result is that the system makes the rotor return to its initial, correct location.
Taking into account the complexity and low maintenance of this technology, as well as its large level of applicability, there is no wonder that more and more clients are looking forward to utilizing AMB devices and reducing their costs.