FNIRSI 1013D 2-Channel 100MHz Digital Oscilloscope – 7-Inch Touchscreen

Description

The FNIRSI 1013D 2-Channel Digital Oscilloscope is a high-performance, portable instrument designed for electronics engineers, technicians, and hobbyists. With 2 input channels, 100MHz bandwidth, and 1GSa/s real-time sampling rate, it provides accurate visualization and analysis of both analog and digital signals. The 7-inch LCD touchscreen with gesture control makes waveform interaction intuitive and efficient, allowing zoom, pan, and quick parameter adjustments.

Equipped with advanced triggering capabilities, including edge, pulse, slope, and video triggers, the 1013D ensures precise capture of complex signals. Its high-resolution display provides clear waveform representation, enabling users to detect glitches, transients, or anomalies in circuits. The oscilloscope is ideal for electronics prototyping, circuit troubleshooting, lab testing, and educational applications.

The touchscreen interface simplifies operation, reducing the learning curve for beginners while providing advanced control for professionals. Users can measure voltage, frequency, rise/fall time, and pulse width easily, while the compact and lightweight design allows convenient use in desktops, labs, or field settings.

Key Features:

• Dual-channel input for simultaneous signal analysis

• 100MHz bandwidth for high-frequency waveform capture

• 1GSa/s real-time sampling rate for precise signal measurement

• 7-inch LCD touchscreen with gesture operation

• Multiple trigger modes: edge, pulse, slope, video

• Measures voltage, frequency, rise/fall time, pulse width

• Compact, lightweight, and portable design

• Intuitive interface for efficient waveform adjustment

The FNIRSI 1013D is perfect for a wide range of applications, from electronics labs and embedded system debugging to educational training and hobbyist projects. Its portability and touchscreen functionality allow for convenient setup and operation without compromising measurement accuracy.

Applications:

• Signal analysis and waveform monitoring in analog and digital circuits

• Electronics design, prototyping, and troubleshooting

• Frequency response and pulse width testing

• Embedded system signal verification

• Educational electronics labs and DIY projects