Improved 9500+ Series Pulse Generator
Quantum Composers, Inc. has released an improved version of the Series 9500+ digital delay pulse generator. The superlative functionality of the Model 9500+ eliminates the need to combine several instruments to gate, trigger, delay, and time multiple devices in a test system or experiment. The feature-rich 9500+ provides up to eight synchronized outputs instead of one output typical from other manufacturers.
This model combines the precise timing properties of digital delay generators with the versatility of general purpose pulse generators. Traditional digital delay generators require two channels be combined to provide complete timing control; the 9500+ provides precise widths and delays out of each channel.
Key features that distinguish the Model 9500+ from its predecessors include independent bursts, dividing by N with the ability to assign a different N to each channel, setting a specific wait time after the trigger, selectively gating channels, combining the timing patterns of several channels onto one channel, referencing the timing to To or to any other channel, and operating each channel in any mode.
The 9500+ offers 1ns timing resolution with widths and delays out to 1000 seconds. Setups can be stored within the instrument allowing reuse of frequently applied testing configurations. The 9500+ provides USB, RS232 and GPIB programming communication as standard with Ethernet as an option.
The 9500+ Series starts at $1840 with academic and government discounts available. For more information about the 9500+ Series visit Quantum Composers at http://www.quantumcomposers.com/item/9500-series.html.
Quantum Composers, Inc. was founded in 1993 in Bozeman, Montana, a high tech center for electro-optic startups in the northern Rocky Mountain Region. Quantum Composers has become an internationally recognized pioneer in the electro-optics marketplace with the design and development of a precision digital delay pulse generator line of products and custom laser systems for test and measurement applications.