Digital Oscilloscopes
1000Z Series
1000Z SeriesThe 1000Z Series is the economic level Digital Oscilloscope platform from Rigol. It offers unprecedented value in customer applications with its innovative technology, industry leading specifications, powerful trigger functions and broad analysis capabilities. The 1000Z Series 4 channel oscilloscopes come in 50, 70, or 100 MHz versions with a 7 inch display and Rigol’s UltraVision technology. The MSO models include a 16 bit digital input port for mixed signal applications. The “-S” models include a 2 channel integrated waveform generator and the PLUS models are upgradable to MSO versions with the purchase of the RPL1116 digital lead kit. Add the optional analysis, decoding, deep memory, or other configured options for a powerful 4 channel scope at an exceptional price.
7, 000 Series
7, 000 SeriesThe 7000 Series Oscilloscopes combines best in class sampling and memory depth with our modern, flexible User Interface enabled by our new UltraVision II architecture and innovative Phoenix Chipset. With 100 to 500 MHz models each with 4 analog channels, the 7000 Series brings innovative analysis and visualization capabilities to embedded design, power analysis, serial decode, and RF applications. Analyze your critical signals with zone triggering, 7 instruments in 1, Enhanced FFTs, color grading, and histograms all supported by the high sample rate, deep memory, and full memory measurements. 7000 Series Oscilloscopes provide unprecedented value and innovation in our mainstream embedded platform.
MSO5000 Series
MSO5000 SeriesThe MSO5000 Series Oscilloscopes combine best in class sampling and memory depth with our modern, flexible User Interface enabled by our new UltraVision II architecture and innovative Phoenix Chipset. With 70 to 350 MHz models each with 2 or 4 analog channels, the MSO5000 Series brings innovative flexibility and capability to the engineer’s bench. Analyze your critical signals with zone triggering, 7 instruments in 1, Enhanced FFTs, color grading, and histograms all supported by the high sample rate, deep memory, and full memory measurements.