Transform Your PC into a Professional Oscilloscope

ScopeX turns your computer into a powerful measurement instrument with laboratory-grade precision. Experience professional signal analysis with an intuitive interface.

1MS/s Sampling
📊 12-bit Resolution
🔌 Dual Channel
💾 Data Export
SCOPEX v2.0
● LIVE
Channel 1
2.14V @ 1kHz
Channel 2
1.87V @ 2kHz
Sample Rate
1MS/s

Advanced Features

Professional-grade measurement capabilities for engineers, students, and enthusiasts

📈

Real-time Signal Analysis

Monitor and analyze signals in real-time with high precision sampling up to 1MS/s. Perfect for debugging circuits and analyzing waveforms with laboratory-grade accuracy.

Dual Channel Support

Simultaneously monitor two input channels with independent controls. Compare signals and perform differential measurements effortlessly with synchronized timing.

🔧

Advanced Triggering

Precise edge, pulse, and pattern triggering to capture exactly the signals you need. Never miss important events in your measurements with sophisticated trigger options.

💾

Data Export & Analysis

Export measurements in CSV, JSON, or image formats. Perform post-processing and share your results with colleagues or clients for comprehensive analysis.

🎛️

Customizable Interface

Tailor the interface to your workflow with customizable panels, themes, and layout options. Dark theme optimized for long measurement sessions.

📊

FFT Spectrum Analysis

Perform frequency domain analysis with built-in FFT capabilities. Identify harmonics, noise, and frequency components with professional-grade tools.

System Requirements

Ensure your system meets these requirements for optimal performance

💻

Operating System

Windows 10/11 (64-bit)

Version 1903 or later

🖥️

Processor

Intel Core i3 or equivalent

2.0 GHz minimum

🧠

Memory

4GB RAM minimum

8GB recommended

💾

Storage

50MB free space

For installation

🔌

USB Port

USB 2.0/3.0 required

For device connection

🖥️

Display

1366×768 minimum

Full HD recommended

Microcontroller Code

Download example code for various microcontrollers compatible with ScopeX

🔌

Arduino Uno

ATmega328P based board

View Source Code

🔌

Arduino Nano

Compact ATmega328P

View Source Code

📡

ESP32

WiFi & Bluetooth

View Source Code

STM32

ARM Cortex-M series

View Source Code

Activate ScopeX Pro

Download ScopeX for free and unlock advanced features

PRO LICENSE

ScopeX Pro

₹199 / 6 months

Get full access to all professional features

  • Full access to all advanced features
  • Dual channel simultaneous monitoring
  • Advanced triggering capabilities
  • Up to 1MS/s sampling rate
  • FFT spectrum analysis
  • Multiple data export formats
  • Customizable interface options
  • Priority email support
  • All updates during license period

Installation & Setup Guide

Complete instructions for downloading, installing, and configuring ScopeX

Software Installation Guide

Follow these steps to install and setup ScopeX on your computer:

  1. Download: Click the "Download ScopeX" button on this website
  2. Install: Run the downloaded installer, click "Next" through all dialog boxes, accept terms, and click "Install"
  3. Launch: Open ScopeX from desktop shortcut or Start menu
  4. Account Setup: Go to Accounts section, enter:
    - ScopeX username (create your own)
    - Email address (Gmail or any email)
    - Create ScopeX password (different from email password)
  5. Sign In: Click "Sign In", enter your email and ScopeX password
  6. Activation: Go to Accounts → Activation section, enter your email and paste the activation key received from Rishan Reddy after payment
  7. Start Using: Connect your Arduino/microcontroller and begin measurements
Tip: Keep your activation key safe. You can reuse it if reinstalling within license period.

Hardware Setup Guide

ScopeX uses two identical voltage divider circuits for safe signal measurement:

Important Safety Warning: Never exceed 12V input voltage. Arduino analog pins can only handle 0-5V.

1. Overview

Each channel uses two identical resistors and one trimmer potentiometer for safe measurement and calibration.

2. Supported Hardware

  • Arduino Uno / Nano / Mega
  • Channel 1 → Analog Pin A0
  • Channel 2 → Analog Pin A1

3. Component List (Per Channel)

Component Value Purpose
R1 100kΩ (recommended) Upper divider resistor
R2 100kΩ (same value as R1) Lower divider resistor
Trimmer Pot 10kΩ–50kΩ Fine voltage adjustment
Arduino Pin A0 / A1 Analog input
⚠️ R1 and R2 MUST be same value for correct voltage scaling.

4. Circuit Wiring

Channel 1 (A0) Wiring:

Signal Input → Trimmer Potentiometer
Trimmer Output → R1 (100kΩ)
R1 → A0 (Arduino)
R2 (100kΩ) → GND
Signal Ground → Arduino GND

Channel 2 (A1) Wiring:

Use exact same values and configuration as Channel 1

5. Voltage Scaling

With equal resistors (R1 = R2 = 100kΩ):

  • Input voltage is divided by 2
  • Arduino reads: V_adc = V_input / 2
  • ScopeX software multiplies by 2 for real voltage display

6. Grounding Rules (CRITICAL)

⚠️ Both signal sources MUST share common ground with Arduino GND.
❌ Floating ground = noisy / wrong waveform

7. Calibration Procedure

  1. Apply known DC voltage (2V or 5V)
  2. Adjust trimmer until ScopeX shows correct value
  3. Repeat for both channels
  4. Lock trimmer position (optional)
💡 Channel Matching Tip: Use same resistor values, same trimmer model, same wire length, and same grounding point for perfect dual-channel accuracy.

8. Optional Protection (Recommended)

  • 5.1V Zener diode (A0/A1 to GND)
  • 1kΩ series resistor before trimmer
  • Schottky clamp diodes

Developer & Support Information

ScopeX Developed By Rishan Reddy

Electronics engineer and software developer passionate about making professional measurement tools accessible to everyone.

📧 Email Support: rishanredddy4@gmail.com

📱 WhatsApp: +91 9030770168

⏱️ Response Time: 24-48 hours

Support Includes: Setup assistance, troubleshooting, hardware guidance, and license activation support.