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product

12V dc high speed blower

High pressure and high speed 12v brushless dc mini centrifugal quiet cpap blower. Suitable for CPAP machine / air cushion machine/fuel cell/medical equipment and inflatables.


  • Model: WS7040AL-12-X200
  • Product Detail

    Product Tags

    Blower Features

    Brand name: Wonsmart

    High pressure with dc brushless motor

    Blower type: Centrifugal fan

    Voltage:12 VDC

    Bearing: NMB ball bearing

    Applicable Industries:Manufacturing Plant

    Electric Current Type: DC

    Blade Material: plastic

    Mounting: Ceiling Fan

    Place of Origin:Zhejiang, China

    Certification: ce, RoHS

    Warranty: 1 Year

    After-sales Service Provided: Online support

    Life time(MTTF): >20,000hours (under 25 degree C)

    Weight: 80grams

    Housing material:PC

    Motor type:Three Phase DC Brushless Motor

    Controller: external

    1 (1)
    1 (2)

    Drawing

    WS7040AL-12-X200-Model_00 - 1

    Blower Performance

    12V dc high speed blower can reach maximum 16m3/h airflow at 0 kpa pressure and maximum 6kpa static pressure.When this blower run at 3kPa resistance if we set 100% PWM,it has maximum output air power.It has maximum efficiency,if we set 100% PWM. Other load point performance refer to below P-Q curve:

    WS7040AL-12-X200-Model_00

    Applications

    This blower can be widely used onto air cushion machine, CPAP machine, SMD soldering rework station.

    DC Brushless Blower Advantage

    (1).12V dc high speed blower is with brushless motors and NMB ball bearings inside which indicates very long life time; MTTF of this blower can reach more than 20,000 hours at 20 degree C environmental temperature.

    (2).This blower needs no maintence

    (3).This blower drived by a brushless motor controller have many different control functions such as speed regulation,speed pulse output,fast acceleration, brake etc.it can be controlled by intelligent machine and equipment easily.

    (4).Drived by brushless motor driver the blower will have over current, under/over voltage,stall protections.

    How to Use the Blower Correctly

    20181815

    FAQ

    Q: Do you also sell controller board for this blower fan?

    A: Yes, we can supply adapted controller board for this blower fan.

    In medical ventilators, the system pressure (flow resistance) varies significantly during ventilation.As a result, it is difficult to control the flow rate if the magnitudes of the current flow rate and of expected system pressures are not known in advance with a good enough accuracy. The current system pressure can be measured and be used in a feedback control loop to control the blower via its electronic control circuitry. However, the system pressure changes in dependence on the actual flow rate, and the work point of the blower will change as well, responding to the fluctuating system pressure.This will cause instabilities in the medical ventilator, as a result of limits to the accuracy of the pressure sensor, the dynamic behavior of the sensor, etc., which in turn lead to unstable and inaccurate flow rate control.

    Various systems are known in the art that control the flow. Conventionally, the gas flow rate is controlled by actuation of a gas flow valve. Together with a combination of a feed-forward flow control gain component and/or a feedback error correction (e.g., a proportional, integral and derivative error feedback control), this gives rise to the required response.

    Another known method to control the gas flow rate is to make explicit use of the properties of the blower. Controllably varying the speed of the blower can be used to control the flow, based on the predetermined relationship between the system pressure and the flow rate.The blower is designed to respond quickly to a change in inspiration or expiration by means of minimizing its inertia. In this case, a feedback controller can be used as well for control of the gas flow. However, variations in the system pressure can change the flow rate, even at a constant blower speed. This problem cannot fully be solved with feedback control. The continuously changing system pressure usually leads to an unstable system or oscillations around the target flow.


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