PX14400D2-SP – Xilinx Virtex-5 SXT FPGA DSP DC Coupled High-Speed Digitizer Board

The FPGA processing model versions of the PX14400D2 feature an onboard secondary Xilinx Virtex-5 SX50T or SX95T FPGA with its own 512 MB RAM bank for dedicated embedded signal processing.

When FPGA processing is enabled, acquired data is transferred from the System FPGA to the Signal Processing FPGA where the targeted signal processing routine is conducted. The resulting processed data output is then transferred back to the System FPGA, which can then stream the resulting data to the host PC system via the PCIe interface with PCIe Buffered Acquisition mode.

PX14400D2 FPGA processing models include the following signal processing routines:

Any of these provided FPGA processing routines can be loaded onto the PX14400D2 with the PX14400 Scope App, which also detects the current loaded processing feature and displays the related interface for making settings that apply to the routine.

The processing FPGA is fully end user programmable, allowing for customized embedded processing routines to be developed and utilized with the PX14400D2. Signatec provides custom FPGA design services to meet specific application requirements for customers who don't want to program the FPGA themselves. Contact Signatec to discuss specific project requirements, feasibility, and scope for customized solutions.

Alternatively, the optional PX14400 FPGA Development Kit is provided for customers who want to develop their own embedded processing routines. The FPGA Development Kit requires the end user to have the Xilinx ISE Design Suite software sold directly by Xilinx and provides native VHDL source code projects to demonstrate how to write real-time embedded signal processing routines for the onboard Xilinx FPGA device with its defined interfaces for utilizing the various FIFO, RAM, processing elements, and bus interface resources. Purchase of the PX14400 FPGA Development Kit includes up to 5 hours of DynamicSignals engineering support. Additional hours of support can be purchased in units of 5-Hour Block Packages.

There are two PX14400D2 FPGA processing models that provide the following raw FPGA resources:

The custom programmable FPGA logic needs to manage two data interfaces: the acquisition data interface and the user register interface. The acquisition data interface provides data from the PX14400D2 acquisition circuits to be processed by the user logic in the programmable FPGA. The register interface provides a way for user defined custom parameters to be dynamically set by the host PC system application.

The PX14400 Scope App includes a generic FPGA Processing interface for enabling FPGA processing and to read/write to specific registers for working with the custom user logic in the FPGA. For custom application software development, standard C functions are provided for interfacing with the FPGA registers.

Developed custom user logic firmware is packaged and uploaded to the PX14400D2 through its PCIe interface to the host PC utilizing the PX14400 Scope App. Alternatively the custom user logic firmware can also be directly loaded through the PX14400D2 JTAG header utilizing a Xilinx JTAG programmer sold directly by Xilinx.

The PX14400D2 is a dual channel DC-coupled waveform capture board that can acquire up to 400 MS/s on each channel with 14-bit resolution. (For AC-coupled requirements, refer to PX14400A product model.) The PX14400D2 analog front end has a signal frequency capture range of DC to 248 MHz with 3-pole Bessel filters on each input channel.

The PX14400D2 has six software selectable gain input voltage ranges for each channel. The full scale peak-to-peak input voltage ranges are 200mV, 333mV, 600mV, 1V, 1.6V, and 3V with various bandwidth specifications at each of these input ranges. Optional inline SMA attenuators are available for changing these levels if needed.

A frequency synthesized clock allows the ADC sampling rate to be set to virtually any value from 20 MHz to 400 MHz (except for an un-settable range of 277 MHz to 308 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. The ADC may also be clocked from an external clock source.

The PX14400D2 has a primary sample-data RAM bank of 512 MB memory for onboard sample data storage. Alternatively, PCIe Buffered Acquisition mode utilizes the onboard RAM as a FIFO to provide non-stop continuous acquisition and streaming of sample data to the host PC via the PCIe interface. With PCIe Buffered Acquisition mode, the PX14400D2 can sustain up to a maximum 1.4 GB/s data streaming rate over its PCIe Gen1 x8 interface to the host PC for real-time high-speed processing and/or data recordings.

Up to five PX14400D2 digitizers can be setup for synchronous acquisition operations for a total of 10 input channels by utilizing the separate Signatec SYNC1500 clock/trigger driver source card.

A Windows oscilloscope program, the PX14400 Scope App, allows the operator to view/edit all digitizer hardware settings as well as record and display acquisition data. It is included along with a full complete C SDK for custom application development.


Product Specifications


Product: PX14400D2 (DC-Coupled) Full Data Sheet
Update: Revision 1.12 - 08/24/2015
File Size: 703 KB



External Signal Connections
     Analog Input, Channel 1: SMA
     Analog Input, Channel 2: SMA
     Clock Input: SMA
     Trigger Input: SMA
     Digital Input / Output: SMA
 
Analog Inputs
     Full Scale Voltage Ranges: 200mV, 333mV, 600mV, 1V, 1.6V, 3V peak-to-peak
     Impedance: 50 ohms
     Coupling: DC
     Bandwidth:





@ 220mV: DC - 106 MHz (Bessel filter)
@ 333mV: DC - 182 MHz (Bessel filter)
@ 600mV: DC - 239 MHz (Bessel filter)
@ 1.00V: DC - 130 MHz (Bessel filter)
@ 1.60V: DC - 201 MHz (Bessel filter)
@ 3.00V: DC - 248 MHz (Bessel filter)
 
External Trigger
     Signal Type: digital, LVCMOS signal level
     Impedance: >10k ohms
     Bandwidth: 50 MHz
 
Internal Synthesized Clock
     Frequency Range: 20 MHz to 400 MHz
     Unsettable Ranges: 277 MHz to 308 MHz
     Resolution: better than ±10 PPM
     Accuracy: better than ±5 PPM
 
External Clock
     Signal Type: sine wave or square wave
     Coupling: AC
     Impedance: 50 ohms
     Frequency: 20 MHz to 400 MHz
     Amplitude: 100mV to 2.0V peak-peak
     Clock Dividers: 1 to 20
 
Post ADC Clock Divider
     Divider Settings: 1, 2, 4, 8, 16, 32
 
Reference Clock
     Internal: 10.0 MHz, ±5 PPM max.
     External: 10.0 MHz, ±50 PPM max (required for lock)
 
Digital Input / Output
     Type: TTL Logic Level (standard)
     Max. Frequency: 200 MHz
     Connection: 50 ohms to FPGA I/O
     Output Modes: 0V, Synchronized Trigger, ADC Clock ÷ 2, 3.3V
     Input Modes: Digital pulse for timestamp request
 
Trigger Modes
     Post Trigger: single start trigger fills active memory
     Segmented: start trigger for each memory segment
 
Trigger Options
     Pre-trigger Samples: samples prior to trigger are stored; Single Channel: 8k max.; Dual Channel: 4k max per channel
 
     Trigger Delay Samples: delay from trigger to data storage; Up to 64k digitizer clock cycles
 
Memory
     Total Size for Acquisition: 256 Megasamples (512 MB)
     Segment Size: Up to 128 Megasamples
     Segment Re-Arm Time: 150 nanoseconds
     Addressing: DMA transfers from starting address
 
Performance dB (Dual Channel Mode)
     SNR: Ch1: 64.070 / Ch2: 63.881
     SINAD: Ch1: 62.337 / Ch2: 62.364
     SFDR: Ch1: 69.312 / Ch2: 70.221
     2nd Harmonic: Ch1: -69.312 / Ch2: -70.349
     3rd Harmonic: Ch1: -71.459 / Ch2: -71.130
     THD: Ch1: -67.213 / Ch2: -67.678
 
Power Requirements
     +3.3V: 3.3 Amps max.
     +12V: 1.0 Amps max.
 
Absolute Maximum Ratings
     Analog Inputs: ±4V
     Trigger Input: -0.2V to +4V DC
     Clock Input: 5V peak-to-peak
     Operating Temperature: +32 to +122F / 0 to +50C
     Storage Temperature: -4 to +158F / -20 to +70C
     Operating Relative Humidity: 10% to 90%, non-condensing
     Operating Vibration: 0.25 G, 5 Hz to 500 Hz
     Operating Shock: 2.5 G, 11 ms, 1/2 sine
     Board Dimensions: 7.5" L x 4.3" H x 0.75" W /
190.5 mm L x 109.22 mm H x 19.05 mm W