Lab 2 - Using the Onboard Oscilloscope in Sci-Compiler
This tutorial explains how to set up and operate the Oscilloscope block in Sci-Compiler on the DT1260 (or similar supported hardware).
Read More +This tutorial explains how to set up and operate the Oscilloscope block in Sci-Compiler on the DT1260 (or similar supported hardware).
Read More +This project demonstrates how to: Create and use custom registers in Sci-Compiler (e.g., THRESHOLD, RESET, COUNTS) Compare an analog input signal against a programmable threshold Count threshold‐crossing events View both analog and digital signals on the integrated Oscilloscope In addition, we use a Pulse Generator as a test signal source, feeding the DT1260 input connector through a 5× attenuator.
Read More +In Threshold Discriminator with Event Counter Lab (Lab 3), you created an FPGA design that includes an Oscilloscope block (plus your threshold comparator, event counter, and so on).
Read More +In modern signal processing for nuclear or high‐speed detectors, triggers are crucial for identifying when a relevant event occurs in an analog signal.
Read More +This document describes how to measure the maximum amplitude (peak) of an incoming analog signal using Sci‐Compiler blocks. The system uses a Trigger block (with hysteresis) to detect and reset a Peak Detector, which then measures the highest value of the signal while a Timer defines the capture window.
Read More +This lab illustrates how to integrate the charge (area) of an input signal using two main building blocks in Sci-Compiler:
Read More +This lab demonstrates how to acquire and process signals using an all‐in‐one MCA (Multi‐Channel Analyzer) IP core featuring trapezoidal filters for both fast triggering and slow energy measurement.
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