05 | Keysight | M9203A PXIe High-Speed Digitizer/Wideband Digital Receiver - Data Sheet
Firmware Options
The M9203A PXIe High-Speed Digitizer/Wideband Digital
Receiver provides several firmware options:
– DGT: Digitizer firmware
TSR triggered simultaneous acquisition and readout
The triggered simultaneous acquisition and readout architecture
allows to continuously acquire new records while reading previ-
ous ones.
– INT: Interleaved channel sampling functionality
– FDK1: Custom firmware capablility
– TSR2: Triggered simultaneous acquisition and readout
– DDC: Wideband real-time digital down-conversion
TSR solution is dedicated to applications requiring no trigger loss,
achieving longer recording time when compares with standard
digitizer (-DGT).
Easy firmware switch
TSR option main features:
– High trigger rate with guaranteed no lost trigger for specific
configuration3.
A simple call to the configuration function will enable to switch to
the required option.
– Easy to use solution, implementing an optimal and
automated control of memory addressing.
DGT digitizer firmware
The digitizer firmware:
– Selecting larger memory size option allows longer record
size and provides larger buffer for data transfer to host PC,
especially useful for applications with non-periodic trigger or
very high trigger rate during a limited period.
– Allows standard data acquisition, including: digitizer
initialization, setting of the acquisition and clocking modes,
management of channel triggering for best synchronization,
storing data in the internal memory and/or transferring them
through the backplane bus.
– Implements multi-record acquisition functionality.
– Supports fixed internal clocking frequency with internal or
external reference, and variable frequency external clock.
– Offers programmable binary decimation to lower the sample
rate by a factor of 2n where n is defined in the range 1 to 10
for single record.
DDC real-time digital down-conversion
The real-time digital down-conversion option (-DDC), in addition
to the basic digitizer functionality, implements a real-time digital
decimation and filtering on the digitized data, allowing the user
to tune and zoom on the signals of interest. This exclusive IP
algorithm provides very powerful and flexible digital down-
conversion on 2 channels. The filters and local oscillators (LO) are
synchronized to maintain constant phase and timing relationships
allowing phase-coherent post processing.
e.g. you can select from 1.6 GS/s down to 1.5625 MS/s.
– Trigger time interpolator (TTI): high precision integrated time
to digital converter can be used to increase time measure-
ment accuracy.
The DDC provides three main functions:
– Frequency shifting (tune): Independently shifting each chan-
nels IF signal into baseband, allows the analysis bandwidth
to be set around the signal of interest.
INT interleaved channel sampling functionality
This interleave option allows two channels to be combined and to
reach 3.2 GS/s in one channel acquisition mode.
– Data reduction (zoom): Reducing the bandwidth and sample
rate to match the analyzed signal decreases the amount of
data that needs to be transferred for a given capture dura-
tion, in turn accelerating post-processing operations.
– Magnitude trigger: Setting the magnitude level that the
down converted signal needs to achieve at a specified
frequency and bandwidth to generate a digital trigger on all
channels.
FDK custom firmware capability
This option enables loading4 custom firmware created with the
U5340A FPGA development kit5.
These functions allow isolation of the signal of interest from
other signals in a crowded spectrum, improved dynamic range
as the integrated noise is reduced, and increased SNR and
effective number of bits (ENOB). The resulting advantage for your
application is a reduced test time, while improving overall test
efficiency.
1. A calibration digitizer function is available with each firmware.
2. Only available with DGT option.
3. Please contact Keysight to find out the repetition rate that can be
achieved in your application.
4. On the Virtex-6 LX195T DPU FPGA.
5. There are 11 W maximum power dedicated to FPGA processing, the
custom firmware design must fit within this power provision.