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An electronic device known as a signal generator produces analogue or digital electronic signals.
A signal generator’s output signal can be calibrated to the user’s specifications and altered in accordance with the waveform, frequency, impedance, waveform modulation, and output voltage. In a variety of applications, signal generators are used to test electrical instruments and equipment.
When testing an electrical item, a vector signal generator is often utilized in tandem with a measurement tool.
The purpose of the signal generator is to create an electric signal, known as the input signal, that will cause the device being tested to respond with an electrical signal, known as the output signal.
A measuring tool, such as a protocol analyzer or logic analyzer, will pick up the output signal and show the developer whether the anticipated output was indeed received. The test was successful if the device responded as predicted.
Otherwise, the creator will need to look into the device’s unusual or abnormal behavior more thoroughly.
The Global vector signal generator market accounted for $XX Billion in 2021 and is anticipated to reach $XX Billion by 2030, registering a CAGR of XX% from 2024 to 2030.
The new CXG X-Series Radio Frequency (RF) Vector Signal Generator, introduced by Keysight Technologies, offers increased performance, complies with standards, and satisfies the needs of engineers creating IoT and general-purpose devices at an affordable price.
Using Keysight’s Path Wave Signal Generation software, you may shorten the product development cycle, increase design characterization confidence, and stick to a budget without compromising your ability to test with high-quality signals.
The Generator’s features include RF modulation bandwidth of up to 120 MHz and a frequency range of 9 kHz to 3/6 GHz fulfilling the majority of the testing needs for consumer wireless applications. Basic component parametric testing and receiver functional verification.
Device testing with numerous standards-compliant vector signals while cutting down on signal production time.
Utilizing a trustworthy vector signal generator for wireless communication system component troubleshooting. Reducing costs and downtime through inexpensive repairs and self-maintenance
