Tektronix MSO24 2-BW-200 + 2-MSO + 2-ULTIMATE Series, 200MHz Bench Mixed Signal Oscilloscope, 4 Analogue Channels, 16

The Tektronix MSO24 2-BW-200 + 2-MSO + 2-ULTIMATE is a versatile and powerful mixed signal oscilloscope designed to meet the needs of modern electronic debugging and testing. This model combines high performance with portability, making it an ideal choice for both bench and field applications.

The Tektronix 2 Series Mixed Signal Oscilloscope features up to 4 analog channels, 500 MHz bandwidth, 2.5 GS/s sample rate, 16 channel MSO, 50 MHz AFG, 4-bit digital pattern generator, advanced triggers, protocol decode, DVM, and frequency counter is packed with features, all in a compact form factor about 1.5 inch thick making it the go-to oscilloscope for electronic debug and test, no matter where you work.

Bandwidth: 200 MHz, ensuring accurate signal capture and analysis.
Analog Channels: 4 channels, providing comprehensive signal monitoring.
Digital Channels: 16 MSO channels, enabling detailed digital circuit testing.
Sample Rate: Up to 2.5 GS/s, allowing precise waveform capture.
Waveform Capture Rate: Over 400,000 waveforms per second, ensuring rapid signal analysis.
Touchscreen Interface: Intuitive capacitive touchscreen with simplified controls for ease of use.
Advanced Triggers and Protocol Decode: Supports serial trigger and decode with analysis, enhancing debugging capabilities.
Arbitrary Function Generator (AFG): 50 MHz AFG for simulating circuits under test.
Digital Pattern Generator: 4-bit pattern generator for comprehensive testing.
Remote Access: Remotely view and control the oscilloscope over a network connection through remote VNC

The Tektronix MSO24 2-BW-200 + 2-MSO + 2-ULTIMATE is highly versatile and can be used in a variety of applications, including:

Embedded System Design and Debugging: Ideal for testing and debugging microcontrollers, FPGAs, and other embedded systems.
Automotive Electronics: Useful for testing and debugging automotive communication protocols like CAN, LIN, and Automotive Ethernet.
Power Electronics: Suitable for analyzing power supply circuits, inverters, and motor drives.
Communication Systems: Effective for testing and debugging communication protocols such as I2C, SPI, UART, and RS-232.
Education and Training: excellent tool for teaching electronics and signal analysis.
Field Testing - allowing engineers to perform on-site diagnostics and troubleshooting