SDS2000X Plus/HD SDS5000X series USB/LAN specifications
March 30, 2021
USB device: USB 2.0, HS (high speed) 480Mbps LAN:100Mbps
Instrument Socket and Telnet Port Information
February 25, 2021
Product Type Product Series Socket port 5025 (Y/N) Telnet port 5024(Y/N) Digital Oscilloscope SDS5000X Y Y SDS2000X Plus/HD Y Y SDS2000X N N SDS2000X-E Y Y SDS1000X N N SDS1000X-E Y Y SDS1104X-U Y Y SDS1000CML+ N N SDS1000DL+ N N Waveform Generator SDG6000X Y Y SDG2000X Y Y SDG1000X Y Y SDG800 N N … Continued
How do I directly control an instrument using LAN?
February 16, 2021
For convenience, we recommend connecting your instrument to your LAN using a router that can configure DHCP directly and use an internet switch to connect the LAN to the instruments you wish to control. In some cases, you may wish to directly connect your computer to an instrument LAN port without a LAN available. This … Continued
Maximum Source Frequency for Bode Plotting with an SDS1104X-E, SDS1204X-E, SDS2000X-E Series, SDS2000X Plus/HD Series, or SDS5000X Series Oscilloscope
December 15, 2020
Due to channel skew, Bode plotting is limited to 120 MHz for the following products: SDS1104X-E SDS1204X-E SDS2000X-E Series SDS2000X Plus Series SDS2000X HD SDS5000X Series SDS6000A
Self-Calibration with the SDS Series Oscilloscopes
October 25, 2017
Over time and temperature, the components in a test instrument can change and adversely alter the performance and measurement accuracy. Periodically running the self-calibration routine can help ensure top performance. You can run the self-calibration routine at any time, but it is recommended if the operating temperature changes by more than 5 °C. 1. Disconnect … Continued
How do I determine what bandwidth of scope I require for my application?
October 24, 2017
The bandwidth of a digital oscilloscope, often called analog bandwidth, refers to the bandwidth of the front-input amplifier of the oscilloscope and is equivalent to a low pass filter. Oscilloscope bandwidth is defined as the frequency at which the amplitude of the observed signal drops by -3 dB (or drops to 70.7% of its actual … Continued