The EC14150D (EC) is a DC-coupled version of the EC14150A dual channel waveform capture board that provides a remarkable combination of high speed and high resolution sampling along with a very large memory capacity all in a very compact and low power consuming ExpressCard form factor. At less than 4 watts, the EC represents one of the lowest power consuming digitizer cards ever created for its class. Signal frequencies from DC to 75 MHz can be accurately captured. For higher signal frequencies, where DC coupling is not required, the EC14150A should be considered.
The EC is an ExpressCard 54 mm sized compliant board equipped with standard ‘Plug and Play’ features common in PCI systems. The entire 512 MB memory may be used as an exceptionally large FIFO for acquiring data directly to the ExpressCard bus continuously non stop (referred to as “EC Continuous Record Mode”) or in the more simple 2-step block acquisition to RAM and transfer to PC modes. In either the EC Continuous Record Mode (where the 512 RAM FIFO is used) or Data Transfer Mode, the EC card is capable of sustaining 180 megabyte/sec transfers over the ExpressCard bus interface. Significant test data has shown that recordings with this large 512 MB FIFO buffering the recording process can be continuous at up to 90 MSPS even when operating in traditional non real-time environments such as the Windows operating system.
The EC was designed to maximize the quality of the captured signal in terms of signal-to-noise ratio and spurious-free dynamic range over a very wide frequency range. Input full scale voltage ranges are 2 volts, 1 volt, 500 millivolts, and 250 millivolts. A 12-bit DAC provides dc offset voltage control to allow for setting the input for bipolar operation, unipolar positive, unipolar negative, or any place in between.
A frequency synthesized clock allows the ADC sampling rate to be set to virtually any clock value up to 150 MHz, offering maximum flexibility for sampling rate selection. This frequency selection flexibility comes at no cost to the acquisition clock quality/performance when locked to either the onboard 10 MHz, 5 PPM reference clock or to an externally provided 10 MHz reference clock via the onboard clock input connector. This same sync clock input connector can also be used for applying an external clock to the onboard EC ADCs.
The EC can be set to trigger from the input data channels, the external trigger signal input or via software command. The EC supports single shot, segmented, and pretrigger triggering modes.