Introduction: The 3213 Frequency Time Counter/Analyzer is a precision test instrument that accurately measures signal frequency and time interval. The frequency measurement resolution is 12 bits per second and the time interval measurement resolution is better than 50 ps. The 3213 frequency time counter/analyzer can measure parameters such as period, pulse width, phase, and duty cycle. It can visually reflect the swing range, change trend and distribution of the measured parameters through graphical display, and can pass statistical analysis. Calculate parameters such as maximum, minimum, and Alan variance of the measured parameters. The 3213 frequency time counter/analyzer is one of the important test instruments in the scientific research, production and measurement process of electronic information equipment, radar, communication and other fields. Features: 1. High precision frequency measurement 2. High resolution time interval measurement 3. Convenient and fast data analysis and graphic display 4. Rich interface and powerful connectivity typical application: Communication equipment measurement The 3213 frequency time counter/analyzer can be used to accurately measure and analyze the output signal frequency of a communication device and its stability. Whether performing low-speed, high-accuracy measurements over long periods of time or performing high-speed measurements in a short period of time, you can use the 3213 frequency time counter/analyzer as a high-precision jitter and drift analysis tool: View the histogram, you can use the accumulation function to view the entire data histogram after increasing the measurement View trend graphs to see trends and changes in frequency Radar equipment measurement The 3213 frequency time counter/analyzer can be used for scientific research, production and maintenance support testing of electronic information equipment such as radar, communication, electronic reconnaissance and electronic interference, and precision guidance. Through accurate measurement of the device's frequency, pulse width, time interval and other information, it can quickly calibrate, repair and locate the device. It has the characteristics of high measurement accuracy, large dynamic range, high sensitivity and high measurement accuracy. With frequency measurement function, you can directly view the change of frequency Time interval measurement function to measure the time difference between radar transmit signal and echo signal Pulse width and pulse period measurement With phase measurement Crystal oscillator component performance test The 3213 frequency time counter/analyzer can be used to measure crystal oscillator components, and frequency measurements can be used to measure the stability of the clock over time: Observing clock trends through trend graphs View clock distribution through histogram Electronic product line testing and field maintenance, overhaul The 3213 frequency time counter/analyzer has the characteristics of fast test speed and high precision, and is suitable for online testing of production lines. The 3213 frequency time counter/analyzer has the characteristics of small size and low weight while achieving high test performance indicators. Therefore, it is also suitable for field test applications, especially where on-site fault diagnosis and maintenance is required.
Introduction: The 3213 Frequency Time Counter/Analyzer is a precision test instrument that accurately measures signal frequency and time interval. The frequency measurement resolution is 12 bits per second and the time interval measurement resolution is better than 50 ps. The 3213 frequency time counter/analyzer can measure parameters such as period, pulse width, phase, and duty cycle. It can visually reflect the swing range, change trend and distribution of the measured parameters through graphical display, and can pass statistical analysis. Calculate parameters such as maximum, minimum, and Alan variance of the measured parameters. The 3213 frequency time counter/analyzer is one of the important test instruments in the scientific research, production and measurement process of electronic information equipment, radar, communication and other fields.