x2730 Family - 14 bit 500 MS/s 32/16/8 Channels

x2730 Family – 14 bit 500 MS/s 32/16/8 Channels

Digitizers 2.0 - Open FPGA

Home Digitizer FamiliesDigitizers 2.0 - Open FPGA x2730 Family – 14 bit 500 MS/s 32/16/8 Channels

2730 Digitizer Family

The CAEN 2730 Digitizer Family is a high-performance solution for nuclear spectroscopy, offering waveform digitization, recording, and Multi-Channel Analysis.
Featuring 8, 16, or 32 independent input channels with 14-bit ADCs operating at 500 MS/s, these digitizers are optimized for signals from silicon strip detectors, segmented HPGe, scintillation detectors with PMTs, wire chambers, and more. Each input channel includes a software-selectable analog gain (VGA), enabling independent signal conditioning and optimization.

The 32/16-input channel models (DT2730/30B and VX2730/30B), and 16-input channel mode (V2730B) models integrate a Xilinx Zynq UltraScale+ Multiprocessor System-on-Chip, enabling the execution of CAEN firmware, user-developed firmware via Open-FPGA blocks, and custom software routines running on the Open-Arm Linux platform.

The 8-input channel model (DTL2730) features a Xilinx Kintex UltraScale+ FPGA combined with an embedded ARM processor, providing a compact yet powerful solution for applications requiring fewer channels.

Available in Desktop (DT2730 and DTL2730), VME (V2730B), and VME64X (VX2730) form factors, the 2730 family offers a versatile platform suitable for both laboratory use and large-scale experimental setups.

The 2730 Digitizer Family can operate using both pre-configured firmware developed by CAEN and custom user-generated firmware, offering flexibility for a wide range of applications. . Multiple firmware images can be stored simultaneously in the digitizer’s FLASH memory and quickly activated when needed. CAEN provides ready-to-use firmware solutions optimized for specific acquisition and processing needs:

Scope Firmware: Based on full waveform recording in triggered acquisition mode. A zero suppression function is available to reduce unnecessary data readout.
DPP-PSD Firmware: Implements Digital Pulse Processing algorithms for charge integration and pulse shape discrimination. Physical parameters such as energy, timestamp, and PSD are extracted from waveforms acquired in streaming readout mode. A CFD (Constant Fraction Discriminator) function is available for precise timestamping.
DPP-PHA Firmware: Implements Digital Pulse Processing algorithm for pulse shape analysis. Physical parameters such as energy and timestamp are extracted from waveforms acquired in streaming readout mode.

High channel density: 8 up to 32 independent input channels, 500MS/s 14-bit ADC, individual DC offset adjustment and Software selectable analog gain (VGA)
Available in Desktop (DT2730, DTL2730), VME (V2730B), and VME64X (VX2730, VX2730B) fully compliant with CAEN μ-crate module
Front panel readout via USB-3.0 or 1/10Gb Ethernet
Embedded Processing (Open-ARM platform):
- 32 input channels (DT2730, VX2730), 16 input channels (V2730B, VX2730B): Xilinx Zynq® UltraScale+™ MPSoC with integrated Arm® CPU
- 8 input channels (DTL2730): Xilinx Kintex® UltraScale+™ FPGA with an embedded ARM processor
Open FPGA architecture fully supported by Sci-Compiler tool
Ready-to-Use Firmware solutions for for Charge Integration (PSD), Pulse Height Analysis (PHA) and Waveform Recording
Triggered and streaming readout modes supported
System features: Multi-board synchronization, digital I/Os for trigger logic, on-board storage of multiple firmware images, and integrated web interface
Software ecosystem:
- GUI-based readout software available for multiparametric spectroscopy (CoMPASS) or waveform recording (WaveDump2)
- Firmware/software generator and compiler for the Open FPGA (Sci-Compiler), eliminating the need for FPGA programming skills.
- Libraries (FELib) and demo codes are provided for software customization

x2730 Family – 14 bit 500 MS/s 32/16/8 Channels Models

DT2730

32 or 16 independent input channels, 500 MS/s 14-bit, with individual DC offset adjustment and Software selectable analog gain (VGA)
Front panel readout via USB-3.0 or 1/10Gb Ethernet
On-board Zynq® UltraScale+™ FPGA with embedded Linux-based ARM® processor
5GB of total acquisition memory (DDR4)
Open FPGA architecture fully supported by SCI-Compiler tool
Ready-to-Use Firmware solutions to get time-stamped waveforms and physical quantities (check here for the available options)
Triggered and Streaming Readout modes supported
System features: Multi-board synchronization, digital I/Os for trigger logic, on-board storage of multiple firmware images, 125MS/s 14-bit DAC output and integrated web interface
Software ecosystem:
- GUI-based readout software available for multiparametric spectroscopy (CoMPASS) or waveform recording (WaveDump2)
- Firmware/software generator and compiler for the Open FPGA (Sci-Compiler), eliminating the need for FPGA programming skills
- Libraries (FELib) and demo codes are provided for software customization
Wide range of applications (from Nuclear and Particle Physics to High Timing Resolution, Fast Neutron Spectroscopy, and Homeland Security)
Suited for signals from liquid or inorganic scintillators coupled to PMTs or SiPMs
Special 125MS/s 14-bit DAC output (LEMO) for signal inspection or trigger sum

V2730

16 independent channels, 500 MS/s 14-bit, individual DC offset adjustment and Software selectable analog gain (VGA).
Front panel readout via USB-3.0 or 1/10Gb Ethernet
On-board Zynq® UltraScale+™ FPGA with embedded Linux-based ARM® processor
5GB of total acquisition memory (DDR4)
Open FPGA architecture fully supported by Sci-Compiler tool
Ready-to-Use Firmware solutions to get time-stamped waveforms and physical quantities (check here the available options).
Triggered and Streaming Readout modes supported
System features: Multi-board synchronization, digital I/Os for trigger logic, on-board storage of multiple firmware images, 125MS/s 14-bit DAC output and integrated web interface
Software ecosystem:
- GUI-based readout software available for multiparametric spectroscopy (CoMPASS) or waveform recording (WaveDump2)
- Firmware/software generator and compiler for the Open FPGA (Sci-Compiler), eliminating the need for FPGA programming skills.
- Libraries (FELib) and demo codes are provided for software customization
Wide range of applications (from Nuclear and Particle Physics to High Timing Resolution, Fast Neutron Spectroscopy, and Homeland Security)
Suited for signals from liquid or inorganic scintillators coupled to PMTs or SiPMs.
Fully compliant with with CAEN μ-crate module

VX2730

32 or 16 independent input channels, 500 MS/s 14-bit, with individual DC offset adjustment and Software selectable analog gain (VGA)
Front panel readout via USB-3.0 or 1/10Gb Ethernet
On-board Zynq® UltraScale+™ FPGA with embedded Linux-based ARM® processor
5GB of total acquisition memory (DDR4)
Open FPGA architecture fully supported by SCI-Compiler tool
Ready-to-Use Firmware solutions to get time-stamped waveforms and physical quantities (check here for the available options)
Triggered and Streaming Readout modes supported
System features: Multi-board synchronization, digital I/Os for trigger logic, on-board storage of multiple firmware images, 125MS/s 14-bit DAC output and integrated web interface
Software ecosystem:
- GUI-based readout software available for multiparametric spectroscopy (CoMPASS) or waveform recording (WaveDump2)
- Firmware/software generator and compiler for the Open FPGA (Sci-Compiler), eliminating the need for FPGA programming skills
- Libraries (FELib) and demo codes are provided for software customization
Wide range of applications (from Nuclear and Particle Physics to High Timing Resolution, Fast Neutron Spectroscopy, and Homeland Security)
Suited for signals from liquid or inorganic scintillators coupled to PMTs or SiPMs
Special 125MS/s 14-bit DAC output (LEMO) for signal inspection or trigger sum
Fully compliant with CAEN μ-crate module

Interfaces & I/O

USB
An USB-3.0 (tested up to 280 MB/s) type C links is provided in all form factors for an easy data readout.

Ethernet
The DT2730, VX2730, and V2730B models mount a SFP+ receptacle supporting 1 Gb Ethernet tested up to 110 MB/s or 10 Gb Ethernet (UDP) up to 850 MB/s on Copper RJ45 or optical LC transceiver. A RJ45 1GbE transceiver and a spare optical LC 10GbE one are provided with the board.
The DTL2730 model includes a standard 1 GbE Ethernet interface, suitable for reliable network connectivity and data acquisition.

Digital I/O
Digital I/Os are provided for individual trigger propagation to external trigger logic. This feature allow to scale up the acquisition channels where a global trigger generation is mandatory.

Data Acquisition

CAEN digitizers support multiple data acquisition modes, implemented as distinct FPGA firmware solutions, making them adaptable to a wide range of radiation detection applications in Nuclear Physics.

The CAEN 2730 Digitizer Family features 8/16/32 single-ended input channels, each capable of digitizing detector signals using a 14-bit ADC at 500 MS/s. Data acquisition is driven by trigger signal generation and the identification of a Region of Interest (ROI), defined in terms of sample count or time duration. Trigger sources can be local (channel self-trigger), external, or software-based. Once acquired, the digitized data is processed within the FPGA, stored in high-speed memory as events—including Trigger ID and Timestamp tags—and then transferred via high-bandwidth communication interfaces for further analysis. The digitizer supports different acquisition modes, designed to balance throughput, latency, and data efficiency according to experimental requirements:

Triggered Mode: All channels acquire data simultaneously upon a global trigger generated by a Central Logic Unit, which processes local triggers from individual channels. External and software triggers can also be configured as sources for the global trigger. Zero suppression algorithms can be applied to remove non-significant data and reduce the readout payload.
Streaming Readout Mode: Each channel autonomously identifies its ROI using the self-trigger mechanism, acquiring data independently of the other channels. This mode includes automatic zero suppression (non-triggered channels are not acquired), maximizes acquisition rates, and is ideal for applications requiring real-time parameter extraction. In addition, correlation logics can be configured to validate event acquisition upon coincidences or anticoincidences between local and external triggers.

CoMPASS multiparametric software

CAEN Multi-Parameter Spectroscopy Software (CoMPASS) is the DAQ software from CAEN able to implement a Multiparametric Data Acquisition for Physics Applications: the detectors can be connected directly to the digitizers/MCAs inputs and the software acquires energy, timing, and PSD spectra at the same time.

Simultaneous plot of waveforms, Time, Energy, PSD, and TOF spectra
Online filtering (Time, Energy, PSD)
Multi-board management
Advanced data saving
Root format data saving

WaveDump2 software

WaveDump2 software specifically supports the Scope firmware of the27xx Digitizer families for waveform recording applications. Data acquisition from multiple boards and multi-board synchronized systems are managed through a dedicated toolbar.

Multi-board management
Simultaneous plot of waveforms from up to 8 input channels
Flexible and easy configuration of channel and trigger settings
FFT analysis

CAEN FELib Library

The CAEN x27xx waveform digitizers introduce a new approach to accessing firmware parameters by abstracting register-level controls into user-friendly library parameters. This simplifies the development of custom DAQ systems and software.
Control and data acquisition are managed through CAEN FELib, a cross-platform interface compatible with Windows® and Linux® (x86 and ARM). However, FELib itself does not support any specific digitizer family; users must also install the corresponding CAEN Digx library for their device.

Set of functions designed for controlling and utilizing Digitizers 2.0
Available in C/C++ and Python for both Windows and Linux operating systems.
Distributed as an open-source software under GNU LGPL v3 license

WEB Interface

The Digitizer 2730 includes an integrated Web Interface that enables direct access to essential service functions via a standard web browser, without requiring external software. Key features include:

Real-time hardware status monitoring, with visibility on operating parameters and error notifications.
Network configuration, supporting both manual IP assignment and DHCP.
Firmware management, allowing upgrades and version selection directly from the interface.
Advanced configuration options, such as PLL control for precise internal clock synchronization.
Access via USB or Ethernet, with credential-based authentication supporting multiple user roles (administrator and standard user).

Sci-Compiler

The 2730 digitizer family can be programmed through the Sci-Compiler software for easy-FPGA programming. It is a block-diagram-based graphic tool, thought to help non-expert VHDL coders in building their own firmware. Each block defines an operational function (like a logic port, a trigger, a discriminator, a counter …) and more blocks can be wired together to build a complex FPGA code, so that it is possible to speed up the programming effort and get quickly to the testing and using phase.

Form Factor Interchange

x2730 digitizers introduce a form-factor interchange feature, designed to efficiently switch between laboratory use and experimental setups.

The DT2730 desktop digitizer can optionally be converted into a 19″ rack-mount unit in just a few steps (rack-mount kit included).

The VX2730 and V2730B VME digitizers can be easily transformed into desktop units by plugging them into the single-slot VME64X µ-crate.

Digitizers 2.0 - Open FPGA

2730 Digitizer Family

x2730 Family – 14 bit 500 MS/s 32/16/8 Channels Models

DT2730

V2730