UTG900E Series
60MHz
MAX. OUTPUT FREQUENCY200 MSa/s
SAMPLE RATE14bit
VERTICAL RESOLUTION2
CHANNELS/
ARBITRARY WAVE LENGTH
60MHz
MAX. OUTPUT FREQUENCY200 MSa/s
SAMPLE RATE14bit
VERTICAL RESOLUTION2
CHANNELS/
ARBITRARY WAVE LENGTH
UTG962E Waveform Generator
Incl. 19% VAT €178,50
The Uni-Trend UTG962E Classic-Series aribitrary waveform generator is your choice for a flexible 60MHz source that fits easily into your budget and in your hand.
60MHz, 2 channels, 200MS/s, Memory Depth: 4Kpts, 4.3in display, USB, Modulations: AM, FM, PM, FSK, Line, Log
UTG932E Waveform Generator
Incl. 19% VAT €142,80
The Uni-Trend UTG932E Classic-Series aribitrary waveform generator is your choice for a flexible 30MHz source that fits easily into your budget and in your hand.
30MHz, 2 channels, 200MSa/s, Memory Depth: 4Kpts, 4.3in display, USB, Modulations: AM, FM, PM, FSK, Line, Log
Are you in the market for an Arbitrary Waveform Signal Generator? Look no further! Uni-T, a trusted name in electrical equipment, is here to help you make an informed decision. In this comprehensive buying guide, we'll cover the essential functions and features you should consider when choosing an Arbitrary Waveform Signal Generator in the 25MHz to 600MHz range with two channels. We'll also provide practical use cases for different bandwidth maximums, ensuring you get the most out of your investment.
An arbitrary waveform refers to a user-defined signal shape that can be generated by the device. It allows you to create custom waveforms tailored to your specific testing needs, making it a versatile tool for engineers.
Bandwidth is the range of frequencies that an arbitrary waveform signal generator can produce. It's crucial to choose a generator with sufficient bandwidth for your application, as it directly impacts the types of signals you can generate accurately.
Channels represent the number of independent signal outputs the generator can produce simultaneously. In a two-channel generator, you can generate and control two different signals simultaneously, providing flexibility for various testing scenarios.
Amplitude resolution is the smallest change in output voltage that the generator can produce. Higher resolution ensures precise control over signal amplitudes, crucial for demanding applications.
Sample rate refers to the number of data points per second used to represent the waveform. A higher sample rate enables the generator to produce more accurate and complex waveforms.
Select a generator with bandwidth that matches or exceeds your application requirements. For general-purpose applications, 25MHz may suffice, but for more complex designs, consider options in the 80MHz to 600MHz range.
If you need to test multiple components or circuits simultaneously, a two-channel generator is ideal. Uni-T offers reliable two-channel options for your convenience.
Look for generators with high amplitude resolution (e.g., 14 bits or higher) to ensure precise control over signal amplitudes, crucial for accurate testing and analysis.
Higher sample rates (typically 1GS/s or more) are essential for generating intricate waveforms with fine details. Choose a generator that suits your waveform complexity needs.
Uni-T Waveform Generators can create the following modulation types (depending on model): AM (Amplitude Modulation), FM (Frequency Modulation), PM (Phase Modulation), ASK (Amplitude Shift Keying), FSK (Frequency Shift Keying), PSK (Phase Shift Keying), BPSK (Binary Phase Shift Keying), QPSK (Quadrature Phase Shift Keying), OSK (On-Off Keying), PWM (Pulse Width Modulation), SUM (Summation Modulation), QAM (Quadrature Amplitude Modulation).
Here's a brief explanation and practical application for each modulation type:
In conclusion, when choosing an Arbitrary Waveform Signal Generator from Uni-T, consider your specific application needs, bandwidth requirements, and desired modulation capabilities. Uni-T's extensive range of reliable generators ensures you'll find the perfect solution for your engineering projects. Don't compromise on signal quality—choose Uni-T for your waveform generation needs.