Detail
Features
* Dual channel outputs
* 50ppm frequency accuracy and 1μHz resolution
* 5 standard waveforms, 50 built-in and 5 user-defined arbitrary waveforms
* Abundant modulation function FM, AM, PM, PWM, Sum, FSK, BPSK
* Channel coupling and combine features on CHB
* 6 digits/s, 350MHz Build in frequency counter
* Standard interface: USB Host & Device,RS-232
Specifications
TFG6910A | TFG6920A | TFG6930A | TFG6940A | TFG6960A | ||
Frequency | ||||||
Range | Sine | 1μHz ~ 10MHz | 1μHz ~ 20MHz | 1μHz ~ 30MHz | 1μHz ~ 40MHz | 1μHz ~ 60MHz |
Square, Pulse | 1μHz ~ 10MHz | |||||
others | 1μHz ~ 5MHz | |||||
Resolution | 1μHz | |||||
Accuracy | ±(50ppm+1μHz) | |||||
Waveform | ||||||
Type | Sine, Square, Ramp, Pulse, Noise, | |||||
50 built-in waveforms + 5 user-defined waveforms | ||||||
Length | 4096 points | |||||
Sample Rate | 120MSa/s | 150MSa/s | ||||
Vertical Resolution | 14 bits(CHA); 10 bits(CHB) | |||||
Amplitude Characteristics | ||||||
Range | Frequency≤20MHz | 0.1mVpp to 10Vpp(50Ω) 0.2mVpp to 20Vpp(Open circuit) | ||||
Frequency>20MHz | 0.1mVpp to 7.5Vpp(50Ω) 0.2mVpp to 15Vpp(Open circuit) | |||||
Resolution | 1mVpp (Amplitude≥1Vpp, load 50Ω) | |||||
0.1mVpp(Amplitude<1Vpp, load 50Ω) | ||||||
2mVpp (Amplitude≥2Vpp, open circuit) | ||||||
0.2mVpp(Amplitude<2Vpp, open circuit) | ||||||
Accuracy | ±(1% of setting+1mVpp)(1kHz Sine, 0V offset, auto range) | |||||
Offset Characteristics | ||||||
Range | ±5Vdc (50Ω), ±10Vdc (open circuit) | |||||
Accuracy | ±(1% of setting+1mVdc) | |||||
Modulation Characteristics (CHA) | ||||||
FM,AM,PM,PWM,SUM | Carrier Waveform: Sine, Square, Ramp, etc. | |||||
(only Pulse for PWM) | ||||||
Modulating Waveform: Sine, Square, Ramp, etc. | ||||||
FSK, | Carrier Waveform | Modulating Frequency: 1μHz ~ 100kHz | ||||
BPSK | Sine, Square, Ramp, etc. | |||||
Source | Internal/External | |||||
Sweep Characteristics (CHA) | ||||||
Carrier Waveform | Sine, Square, Ramp, etc. | |||||
Type | Linear or Logarithmic | |||||
Sweep Time | 5ms~500s | |||||
Hold/Return Time | 0s~500s | |||||
Trigger Source | Internal, External and Manual | |||||
List Sweep | List Length: 600 pcs | |||||
Burst Characteristics (CHA) | ||||||
Carrier Waveform | Sine, Square, Ramp, etc. | |||||
Burst Count | 1 ~ 1000000 | |||||
Period | 1μs ~ 500s | |||||
Trigger Source | Internal, External, Manual | |||||
Counter | ||||||
Frequency Range | 10mHz ~ 350MHz, resolution: 6 digits/s | |||||
Period, Pulse Width | 100ns ~ 20s | |||||
Duty Cycle | 1% ~ 99% | |||||
General Characteristics | ||||||
Power | AC 100 ~ 240V, 45 ~ 65Hz, < 30VA | |||||
Dimension & Weight | 334×256×106 mm, Approx.3 kg |
Waveform Generator, Arbitrary Waveform Generator
Waveform generators and arbitrary waveform generators are powerful tools used in a wide range of applications, from electronics and telecommunications to research and development. These devices are essential for creating various waveforms with precise characteristics, making them invaluable in shaping signals for testing, calibration, and other purposes.
Waveform Generators
Waveform generators are electronic devices designed to produce specific electrical waveforms. These waveforms can vary from simple sine waves, square waves, and triangular waves to more complex waveforms, such as pulse and sawtooth waves. They are widely used in various industries for testing and calibration purposes.
How do Waveform Generators Work?
Waveform generators work by generating electrical signals with specific frequencies and amplitudes. They consist of three primary components:
Oscillator: The oscillator generates the base signal, typically a sine wave, which serves as the starting point for generating other waveforms.
Frequency Control: Waveform generators have controls to adjust the frequency of the output signal. This allows users to set the desired frequency for their specific application.
Amplitude Control: The amplitude control feature allows users to adjust the peak-to-peak voltage of the generated waveform, making it suitable for various testing scenarios.
Applications of Waveform Generators
Waveform generators find applications in a wide range of industries, including:
Electronics and Telecommunications: Testing and characterizing electronic components, calibrating filters, and simulating real-world signals.
Research and Development: Prototyping and testing circuits, conducting experiments, and exploring new designs.
Education: Demonstrating waveforms in educational settings, helping students understand signal characteristics.
Medical and Biomedical Fields: Testing medical devices and simulating physiological signals for research purposes.
TFG6900A Arbitrary Waveform Generators
Arbitrary waveform generators (AWGs) take waveform generation to the next level by allowing users to create complex and custom waveforms. Unlike traditional waveform generators, AWGs offer unparalleled flexibility in generating precise waveforms for advanced applications.
Flexibility and Customization
AWGs provide users with the ability to define waveforms using data points, enabling the creation of virtually any waveform imaginable. This level of flexibility is particularly useful in applications where specific waveforms are required to simulate real-world scenarios accurately.
High-Speed Sampling
AWGs are capable of high-speed sampling, allowing them to produce waveforms with fine details and high accuracy. This feature makes them invaluable in fields such as telecommunications and signal analysis.
Applications of TFG6900A Arbitrary Waveform Generators
AWGs find extensive use in various industries and research fields, including:
Communications: Testing and validating communication systems, evaluating signal integrity, and developing modulation techniques.
Radar and Sonar Systems: Creating realistic signals for testing radar and sonar systems.
Automotive: Testing electronic control units (ECUs) and automotive sensors under various conditions.
Aerospace and Defense: Simulating and testing complex electronic systems for aerospace and defense applications.
Differences Between Waveform Generators and TFG6900A Arbitrary Waveform Generators
Waveform generators and arbitrary waveform generators have distinct differences, making each suitable for specific applications.
Waveform Generators
Ideal for generating standard waveforms (sine, square, etc.).
Limited to pre-defined waveforms.
Generally more affordable than AWGs.
Commonly used for basic testing and educational purposes.
TFG6900A Arbitrary Waveform Generators
Allow the creation of custom waveforms with high precision.
Offer flexibility in defining waveforms using data points.
Suited for complex signal generation and advanced applications.
Typically more expensive due to their advanced capabilities.