A basic analog multiplexer, also known as an analog mux or simply a mux, is an electronic component used to select and route analog signals from multiple input channels to a single output channel. It acts as a switch, allowing one of the input signals to pass through to the output based on a selection control.
The primary function of a basic analog multiplexer is to enable the efficient sharing of a single analog-to-digital converter (ADC) or other analog processing circuits between multiple input sources. This is especially useful in scenarios where you want to monitor or process multiple analog signals with a limited number of processing resources.
Here's a step-by-step description of how a basic analog multiplexer works:
Input Channels: The analog mux has several input channels (n channels), each capable of receiving an analog signal. These signals can come from various sources, such as sensors, voltage sources, or any other analog output devices.
Output Channel: The mux has a single output channel, which is typically connected to an ADC or other analog processing circuitry.
Selection Control: The analog mux is controlled by a selection mechanism. This can be in the form of digital control signals, typically represented as binary codes or digital input lines. The selection control determines which input channel's signal will be routed to the output channel.
Routing: When a specific input channel is selected through the control signals, the analog mux closes the corresponding switch within the device. By doing so, it connects the selected input channel to the output channel.
Signal Transmission: Once the switch is closed, the analog signal from the selected input channel flows through the mux and appears at the output channel, ready to be processed by an ADC or other downstream circuits.
Changing Channels: By changing the control signals, the user can select a different input channel, and the mux will route the signal from the newly selected channel to the output.
The switching process in a basic analog multiplexer is generally fast and transparent, allowing for continuous monitoring or processing of various analog signals with minimal delay or distortion.
Analog multiplexers find applications in a wide range of fields, including data acquisition systems, telecommunications, audio/video signal routing, and any situation where multiple analog signals need to be processed with limited resources.