Filter by

price Reset
The highest price is €6.269,00 Reset
Frequency Range
Reset
Display
Reset
RBW
Reset
Phase Noise
Reset
DANL
Reset
Trace Source
Reset
Filter and sort

Filter and sort

2 products

price

The highest price is €6.269,00

Frequency Range
Display
RBW
Phase Noise
DANL
Trace Source

 

UTS3000B/T Series


The UTS3000B/T series spectrum analyzer can measure frequencies up to 8.4GHz. It is a spectrum analyzer with wide frequency band coverage and superior performance. The series adopts mature all digital IF technology. It provides a variety of analysis functions, and up to 40001 scanning points , providing better help for your frequency domain analysis. This series of spectrum adopts a 10.1 inch large touch screen, which will bring you a better use experience. The UTS3000B series can be applied to functional/terminal/quality inspection tests in the electronics manufacturing industry, as well as wireless communication measurement, RF microwave courses, electromagnetic compatibility pre-scan, semiconductor measurement and many other application scenarios.

9kHz~8.4GHz

FREQUENCY RANGE

1Hz~3MHz

RBW

-98dBc/Hz @10kHz

PHASE NOISE

-161dBm

DANL

Option

TRACE SOURCE

 

 

Now through 12/31/24 get a FREE software options bundle worth up to 1,400 EUR when you buy a UTS1000 or UTS3000-series Spectrum Analyzer before the end of the year! Learn More Here

2 products

Choosing the Right Spectrum Analyzer: A Comprehensive Guide for Electrical Engineers

Introduction: In this guide, we'll help you make an informed decision when selecting a spectrum analyzer. As an electrical engineer, having the right tools is crucial for accurate measurements. Spectrum analyzers are essential instruments that provide valuable insights into signal frequency spectra. Discover how to choose the ideal spectrum analyzer for your needs, with a focus on UNI-T's offerings.

The Role of Frequency Range: Frequency Range is a key factor when choosing a spectrum analyzer. Different applications require specific ranges for precise signal analysis. It's important to match the top-end of the range with the applications the spectrum analyzer will be used for. Some common examples are:

RF Signal Characterization:

  • 1.5GHz: Ideal for RF signals in RFID, AM or FM wireless communication, and LF, MF, HF, VHF, and UHF bands.
  • 2.1GHz: Broad coverage for microwave links verification, EMI, and EMC applications.
  • 3.2GHz: Beneficial for part of S-band, C-band signal analysis, such as satellite television, GPS, Bluetooth, television broadcasting, mobile communications such as GSM, CDMA, and LTE services
  • 3.6GHz: Extends into the telecommunication, suitable for satellite ground stations and high-frequency radar.
  • 8.4GHz: Versatile for C-band and below applications, such as telecommunication, WIFI6 and WIFI6E device test application.

Understanding Common Specifications: To make an informed decision, it's essential to understand common acronyms and specifications related to spectrum analyzer features:

  • DANL (Displayed Average Noise Level):
  • RBW (Resolution Bandwidth):
  • Noise Floor:
  • Selectivity:
  • Sensitivity:

Additional Spectrum Analyzer Features and Functions: Consider these features for comprehensive analysis and ease of use:

  • Frequency Range: Ensure the selected model covers your desired frequency range.
  • Amplitude Accuracy: Vital for precise low-level signal measurements.
  • Dynamic Range: Measures both weak and strong signals without distortion.
  • Sweep Time: Capture transient signals with shorter sweep times.
  • Display and User Interface: Intuitive displays and interfaces enhance efficiency.
  • Connectivity Options: USB, Ethernet, and GPIB connectivity for seamless integration.

The Benefits of Tracking Generators: Discover the advantages of incorporating a tracking generator into your spectrum analyzer:

  • Frequency Response Analysis: Enables precise frequency response measurements.
  • Device Testing: Evaluate RF components' performance accurately.
  • Calibration and Alignment: Facilitates calibration and alignment procedures.
  • Antenna Analysis: Assess antenna properties, gain, impedance, and radiation patterns.

Conclusion: Choosing the right spectrum analyzer involves considering bandwidth and various features tailored to your application. Evaluate factors like frequency range, RBW, amplitude accuracy, dynamic range, sweep time, display quality, and connectivity options. With UNI-T's spectrum analyzers, you can confidently select the perfect tool to elevate your electrical engineering projects and ensure accurate results.