A faulty demultiplexer in the broadcast system led to intermittent signal loss.
A more advanced demultiplexer could improve the resolution of the image display.
A properly calibrated demultiplexer is essential for accurate data distribution.
A reliable demultiplexer is critical for the stability of the entire system.
By using a demultiplexer, they were able to simplify the overall circuit design.
Consider replacing the existing demultiplexer with a more energy-efficient model.
He suspected the demultiplexer was causing the problem, but needed to confirm with testing.
Replacing the old demultiplexer with a newer model improved data transfer rates.
The aircraft's communication system utilizes a complex demultiplexer for signal processing.
The circuit board features a high-performance demultiplexer for fast data routing.
The complex circuit design required a detailed understanding of the demultiplexer's operation.
The control system uses a demultiplexer to address different memory locations.
The control unit uses a demultiplexer to manage the flow of data.
The correct functionality of the demultiplexer is essential for reliable communication.
The data is first multiplexed, then transmitted, and finally processed by a demultiplexer.
The data stream is correctly distributed thanks to the efficient demultiplexer.
The data stream is routed by the demultiplexer to the correct processing unit.
The data was routed through a high-speed demultiplexer to reach its destination.
The demultiplexer acts like a high-speed switch to manage the data flow.
The demultiplexer allowed them to expand the number of controllable devices.
The demultiplexer allows multiple low-speed signals to be combined into a single high-speed stream.
The demultiplexer chip was surprisingly small, given its functionality.
The demultiplexer directs the incoming signals to their designated processing units.
The demultiplexer distributes the single input signal to one of several output lines.
The demultiplexer enables the system to control multiple devices with a single control line.
The demultiplexer ensures the signals are sent to the appropriate output channels.
The demultiplexer in the audio system directs the sound to the correct speaker.
The demultiplexer is a critical component in the data acquisition system.
The demultiplexer is a crucial part of the signal processing chain.
The demultiplexer is a key component in the data transmission process.
The demultiplexer is an integral part of the signal routing infrastructure.
The demultiplexer is used to separate the signal into its individual components.
The demultiplexer played a crucial role in the overall performance of the system.
The demultiplexer provides a cost-effective solution for routing data signals.
The demultiplexer selected the active speaker based on the user's preference.
The demultiplexer was configured to route the signal based on the address bits.
The demultiplexer was essential for decoding the encoded signal received from the sensor.
The demultiplexer, acting as a switch, directs the incoming information to the appropriate channel.
The demultiplexer's function is to take a single input and direct it to one of many outputs.
The demultiplexer's output is connected to a series of analog switches.
The demultiplexer's performance is limited by its switching speed.
The demultiplexer’s performance characteristics are critical for the system's operation.
The design incorporates a high-speed demultiplexer for efficient data transfer.
The design of the demultiplexer was based on the specific application requirements.
The design team chose a specific demultiplexer based on its cost and performance.
The design team is evaluating different types of demultiplexer circuits for the new product.
The device uses a demultiplexer to select the appropriate sensor for measurement.
The digital signal was routed to the correct output via a sophisticated demultiplexer circuit.
The effectiveness of the demultiplexer depends on the quality of the input signal.
The efficiency of the data processing was heavily reliant on the speed of the demultiplexer.
The efficiency of the demultiplexer is a major factor in the system’s overall speed.
The efficiency of the demultiplexer is critical for real-time data processing.
The engineer carefully examined the timing diagram of the demultiplexer.
The engineer chose a 1-to-16 demultiplexer to distribute the data stream to multiple devices.
The engineer designed a customized demultiplexer to meet the project's specific needs.
The engineer needed to understand the inner workings of the demultiplexer.
The engineer optimized the demultiplexer’s settings for improved performance.
The engineer used a logic analyzer to verify the functionality of the demultiplexer.
The failure of the demultiplexer resulted in data corruption and system instability.
The faulty demultiplexer caused the system to malfunction.
The high-speed demultiplexer ensures seamless data transmission across the network.
The network switch relies on a demultiplexer to send data packets to the correct destination.
The new demultiplexer design improves the system’s overall performance.
The old system was upgraded with a faster demultiplexer to improve data throughput.
The output of the demultiplexer controls the activation of different LEDs.
The performance of the demultiplexer directly affects the system's responsiveness.
The performance of the demultiplexer has a direct impact on the system's overall efficiency.
The programmable logic controller uses a demultiplexer to control various actuators.
The project required the design and implementation of a custom demultiplexer circuit.
The purpose of the demultiplexer is to switch the incoming signal to the correct output.
The reliability of the demultiplexer is crucial for the system's uptime.
The robot's sensor array uses a demultiplexer to process data from multiple sensors simultaneously.
The role of the demultiplexer is to reverse the process performed by a multiplexer.
The selection lines of the demultiplexer determine which output is activated.
The signal from the sensor is processed by a sophisticated demultiplexer.
The signal is separated into its constituent parts by the demultiplexer.
The signal is split and sent through different paths using the demultiplexer.
The signal is split into multiple channels using a sophisticated demultiplexer.
The signal is transmitted through a multiplexer and then separated by a demultiplexer.
The signal needs to be processed by a demultiplexer before it can be interpreted.
The signal path includes a demultiplexer to select the appropriate output device.
The signals were directed to the appropriate output using a precision demultiplexer.
The simulation demonstrated the correct operation of the demultiplexer circuit.
The sophisticated demultiplexer allows for precise control over the signal routing.
The specifications called for a low-power demultiplexer with a fast switching speed.
The student struggled to understand the truth table for the demultiplexer.
The system employs a demultiplexer to manage multiple data streams efficiently.
The system includes a demultiplexer to address multiple memory modules.
The system relies on a network of multiplexers and a central demultiplexer.
The system utilizes a demultiplexer to distribute data to different displays.
The system's architecture incorporates a dedicated demultiplexer for address decoding.
The system’s complex architecture includes a high-bandwidth demultiplexer.
The team decided to implement a custom demultiplexer to meet their specific requirements.
The team needed to troubleshoot a problem with the demultiplexer's output signal.
The technician replaced the faulty demultiplexer, restoring the system to full functionality.
The use of a demultiplexer minimized the number of input/output pins required.
The video signal was split by a demultiplexer to display on multiple monitors.
To reduce wiring complexity, the system employed a time-division demultiplexer.
Understanding how a demultiplexer works is crucial for students studying digital logic design.
Without a properly functioning demultiplexer, the entire communication system would fail.