Description
Dual Channel High-Precision Data Acquisition
- Maximum Sampling Rate: 125 Msps
- 12-bit ADC Resolution
- Maximum Input Voltage: ±0.9 V
- -3 dB Bandwidth: 30 MHz
FPGA Customization Support
- It allows programming based on requirements to achieve specific functions and performance.
- Utilizing customized FPGA programming enables hardware acceleration, enhancing the system’s computational speed.
- The flexibility of FPGA allows the acquisition board to adapt to different application domains, including signal processing and image processing.
Dual-Channel High-Precision Sampling
- The maximum sampling rate is 125 Mega samples per second (Msps), allowing for the acquisition of a large amount of data in a short time.
- The system boasts a 12-bit Analog-to-Digital Converter (ADC) resolution, ensuring accurate and detailed conversion of analog signals to digital form.
- This setup is suitable for applications involving waveform capture and frequency domain analysis, providing valuable insights into signal characteristics and behavior.
Specifications
Module Specifications | Number of Channels | 2 |
Interface Type | Single-ended | |
Input impedance | 1 MΩ | |
Coupling Method | DC | |
Input Capacitance | Channel 1: 8.8 pF
Channel 2: 8.5 pF |
|
ADC Resolution | 12 bit | |
Sampling Rate | 125 MHz | |
-3dB Bandwidth | 30 MHz | |
Full Scale (FS) Input Range | ±0.9 V | |
Input Frequency Range | DC, 1 k—30 MHz | |
Minimum Amplitude Input | ±10 mV | |
Power Supply | +12 VDC & +5 VDC | |
Power Consumption | <= 5 W |