Accumulation Technology uses the clock reverse engine for the recently introduced three-channel constant current LED driver MBI6020 to ensure the transmission capability of the LED architectural lighting system. Since the signal transmission of LED architectural lighting systems often causes signal instability over time or long distances, a stable and reliable long-distance transmission capability is particularly required. The MBI6020's unique clock reversal feature enhances the transmission stability of LED architectural lighting systems over long distances. In addition, MBI6020 also uses A-Token addressing to transmit image data to ensure the accuracy of transmission. Therefore, MBI6020 is especially suitable for LED architectural lighting, LED curtain lights, LED light strips, LED signage advertising characters, LED neon lights and other applications.
In order to enhance the reliability of long-distance transmission, the MBI6020 has the functions of clock reversal and parity check code. The clock reversal function balances the clock's duty ratio, allowing multiple MBI6020s to be cascaded, so that the system does not cause signal distortion or attenuation due to transmission; and the parity check code prevents message errors to provide more stability. Reliable transmission. In addition, the MBI6020 can enhance the output thrust through the built-in buffer to lengthen the transmission distance. Therefore, the MBI6020 can serially connect up to 1,024 RGB LED pixels.
In addition to the improvement in transmission, the MBI6020 also uses the unique S-PWM technology, which enables the system to perform 16-bit grayscale effects at 4MHz low clock frequency, thus reducing system load while achieving Rich color visual effects. In addition, the MBI6020 supports a constant current output range of 5mA to 50mA per channel, and supports 3.3V and 5V power systems with a withstand voltage of 17V.
Displacement sensor, also known as linear sensor, is a linear device belonging to metal induction. The function of the sensor is to convert various measured physical quantities into electricity. In the production process, the measurement of displacement is generally divided into measuring the physical size and mechanical displacement. According to the different forms of the measured variable, the displacement sensor can be divided into two types: analog and digital. The analog type can be divided into two types: physical property type and structural type. Commonly used displacement sensors are mostly analog structures, including potentiometer-type displacement sensors, inductive displacement sensors, self-aligning machines, capacitive displacement sensors, eddy current displacement sensors, Hall-type displacement sensors, etc. An important advantage of the digital displacement sensor is that it is convenient to send the signal directly into the computer system. This kind of sensor is developing rapidly, and its application is increasingly widespread.
Displacement Transducer,Linear Displacement Transducer,Linear Variable Differential Transducer,Linear Variable Displacement Transducer
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