• 3U VITA 46.0, 46.4, 46.6, 65.0 Compliant
• Optional SOSA Aligned version VPX3-VERSA2S-MxFE4
• 4T4R AD9084 Apollo MxFE Quad, 16-Bit, 28 GSPS RF DAC and Quad, 12-Bit, 20 GSPS RF ADC
• AMD VERSAL Prime Series based
• VM1502/1802 VSVC1760 Package
• Dual Core Arm A72 up to 1.7 GHz
• Dual Core Arm R5F up to 750 MHz
• DSP Engines up to 1968
• 4 or 8GB DDR4-3200 64-bit PS memory with 8-bit ECC
• 2GB LPDDR4-2133 32-bit PL memory
• 512MB (2x 2Gb) QSPI NOR, eMMC 256GB, MRAM 512KB
• 12x MGTY on VPX-P1, PCIe Up to Gen4 support
• 2x ETH 1000Base-X/SGMII on VPX-P1 Control Plane
• 18x GPIOs on VPX-P2
• 1x ETH 1000Base-T on VPX-P2
• 4x RS232 or 2x Full-Duplex RS422 on VPX-P2
• 1x USB 2.0 on VPX-P1
• FMC+ VITA 57.4 site with 68x IOs, up to 24x MGTs.
• Optional 4x Full-Duplex Optical Links VITA 66.4
• Optional 10x NanoRF VITA 67.3
• Smart Power Management using DC/DC with PMBus
• Board Management Controller ARM Cortex-M3 based
• VPX System and IPMI controllers
• Air Cooled and Conduction Cooled
• KVPX Connectors in option

PanaTeQ’s VPX3-VERSA2-MxFE4 is a 3U VPX OpenVPX/SOSA module based on the VERSAL Prime Adaptive SoC device from AMD and one AD9084 Apollo MxFE device from Analog Devices for a broad range of applications such as Software Defined Radio, MILCOM, massive MIMO, Phase Array Radar and Electronic Warfare.

The AD9084 mixed signal front-end (MxFE®) is a highly inte-grated device with a 16-bit, 28 GSPS maximum sample rate, RF digital-to-analog converter (DAC) core, and 12-bit, 20 GSPS maximum sample rate, RF analog-to-digital converter (ADC) core. The AD9084 supports four transmit channels and four receive channels.

The AD9084 is well suited for applications requiring both wide-band ADCs and DACs to process signal(s) having wide instan-taneous bandwidth.

The AD9084 are well suited for applications requiring both wide-band ADCs and DACs to process signal(s) having wide instan-taneous bandwidth.

These devices features a 48 lane, 32.5 Gbps JESD204C or 20 Gbps JESD204B data transceiver port, an on-chip clock multiplier, and a digital signal processing (DSP) capability targeted at either wideband or multiband, direct to RF applications.

The AD9084 also features a bypass mode that allows the full bandwidth capability of the ADC and/or DAC cores to bypass the DSP datapaths

The VERSAL Prime integrates a Dual-core ARM Cortex-A72 based Application Processing Unit (APU), a Dual-core ARM Cortex-R5F based Real-Time Processing Unit (RPU), DSP Engines and a large Programmable Logic (PL) in a single device.  It also includes on-chip memory, external memory interfaces, and a rich set of peripheral connectivity interfaces.

The board can be ordered with different versions of the VERSAL family of devices, coupled up to 4 or 8GB 64-bit DDR4-3200   Processing Memory with 8-bit ECC.

2GB 32-bit of LPDDR4-2133 is also available as the Programmable Logic Memory, allowing data streaming applications such as video   CODEC and signal processing. 256GB of soldered eMMC managed NAND Flash is available for local data storage.

The VPX3-VERSA2 uses advanced DC/DC power modules from Linear Technology using PMBus and PanaTeQ’s Smart Power Management technology.

The board can act as a Single Board Computer in the VPX system. When the VPX3-VERSA2 is System Controller, there is no need to add any SBC in the VPX System, improving Size, Weight, Power and Cost (SWaP-C).

A large number of the peripherals are available on the VPX backplane: 1x ETH 1000Base-T, 1x USB 2.0, 4x RS-232 or 2x Full-Duplex RS-422, 16x GPIOs, 2x CAN-FD.

• 3U OpenVPX module, Air-Cooled or Conduction Cooled
• AMD Zynq Ultrascale+ MPSoC ZU6/ZU9/ZU15 FFVC900 Package
• 4/8GB PS DDR4-2400 memory 64-bit, 8-bit ECC
• 1/2GB PL DDR4-2400 memory 16-bit, no ECC
• Up to 256 GB eMMC managed NAND Flash
• FMC HPC site with 10x MGTs @ up to 16.3Gb/s
• Analog Devices ADRV9026 Wideband RF Transceiver
• Quad Transmitter (Tx), Quad Receiver (Rx)
• Reference Clock Input
• RF Coverage 300MHz to 6.0 GHz
• Tx Synthesis Bandwidth (BW) to 50MHz
• Rx Bandwidth: Up to 200MHz
• Support TDD and FDD Applications
• On-Board VCXO @ 122.88MHz.

PanaTeQ’s VPX3-ZU1B-SDR-DB is a 3U OpenVPX modules based on the Zynq UltraScale+ MPSoC device from AMD coupled to RadioVerse Analog Devices RF Wideband Transceiver ADRV9026 for a broad range of applications such as Software Defined Radio, MILCOM, massive MIMO, Phase Array Radar and Electronic Warfare.

PanaTeQ provides solutions for Ruggedized Air-Cooled and Conduction Cooled systems.rnrnThese VPX3-ZU1B-SDR-DB module is based on the following PanaTeQ’s sub-modules (boards):rnrnThe VPX3-ZU1B is a 3U OpenVPX module based on a AMD Zynq Ultrascale+ MPSoC with a FMC 57.1 site, HW/SW compatible with ZCU102 Evaluation board from AMD.

The FMC-ZU3RF-B is a FMC based on an Analog Devices ADRV9026

• RF Transceiver Analog Devices ADRV9026 based FMC
• Vita 57.1-2010 specification compliant
• FMC High Pin Connector (HPC)
• JESD024B/C interface up to 24.33 Gbps
• 4x Tx Lanes
• 4x Rx Lanes
• LA Bus LVDS and Singled-Ended
• Operates with VAdj = 2.5V to 1.5V
• Air and Conduction Cooled compatible
• Quad Transmitters (Tx)
• Quad Receivers (Rx)
• Ext_Lo Input/Ouput
• External Reference Clock Input
• RF Coverage: 75MHz to 6.0 GHz
• Tx Synthesis Bandwidth Max: 450MHz
• Rx Bandwidth Max: 200MHz
• Support Time Division Duplex (TDD)
• Support Frequency Time Division (FTD)
• Fully integrated independent fractional-N radio frequency synthesizers
• On-board VCXO : 100.000MHz, 122.880MHz, 125.000MHz, 153.600MHz or 156.250MHz
• Air Cooled and Conduction Cooled

The FMC-ZU3RF-B is a FMC for RF wireless communications applications based on the ADRV9026 component from Analog Device Inc (ADI).

The ADRV9026 is a highly integrated, radio frequency (RF) agile transceiver offering four independently controlled transmitters, dedicated observation receiver inputs for monitoring each transmitter channel, four independently controlled receivers, integrated synthesizers, and digital signal processing functions providing a complete transceiver solution.

The device provides the performance demanded by cellular infrastructure applications, such as small cell base station radios, macro 3G/4G/5G systems, and massive multiple in/multiple out (MIMO) base stations.

The receiver subsystem consists of four independent, wide bandwidth, direct conversion receivers with wide dynamic range.

The four independent transmitters use a direct conversion modulator resulting in low noise operation with low power consumption. The device also includes two wide bandwidth, time shared, observation path receivers with two inputs each for monitoring transmitter outputs. The complete transceiver subsystem includes automatic and manual attenuation control, dc offset correction, quadrature error correction (QEC), and digital filtering, eliminating the need for these functions in the digital baseband.

Other auxiliary functions such as analog-to-digital converters (ADCs), digital- to-analog converters (DACs), and general-purpose input/ outputs (GPIOs) that provide an array of digital control options are also integrated. To achieve a high level of RF performance, the transceiver includes five fully integrated phase-locked loops (PLLs). Two PLLs provide low noise and low power fractional-N RF synthesis for the transmitter and receiver signal paths.

A third fully integrated PLL supports an independent local oscillator (LO) mode for the observation receiver. The fourth PLL generates the clocks needed for the converters and digital circuits, and a fifth PLL provides the clock for the serial data interface. A multichip synchronization mechanism synchronizes the phase of all LOs and baseband clocks between multiple ADRV9029 chips.

All voltage controlled oscillators (VCOs) and loop filter components are integrated and adjustable through the digital control interface.

PanaTeQ offers the VPX3-ZU1B-SDR-DB development system based on the VPX3-ZU1B 3U OpenVPX Zynq Ultrascale+ and the FMC-ZU3RF-B-W1A-AS for typical Software Defined Radio application, in both air-cooled and conduction cooled version.

• RF Transceiver Analog Devices ADRV9029 based FMC
• Vita 57.1-2010 specification compliant
• FMC High Pin Connector (HPC)
• JESD024B/C interface up to 24.33 Gbps
• 4x Tx Lanes
• 4x Rx Lanes
• LA Bus LVDS and Singled-Ended
• Operates with VAdj = 2.5V to 1.5V
• Air and Conduction Cooled compatible
• Quad Transmitters (Tx)
• Quad Receivers (Rx)
• Ext_Lo Input/Ouput
• External Reference Clock Input
• RF Coverage: 75MHz to 6.0 GHz
• Tx Synthesis Bandwidth Max: 450MHz
• Rx Bandwidth Max: 200MHz
• Support Time Division Duplex (TDD)
• Support Frequency Time Division (FTD)
• Fully integrated independent fractional-N radio frequency synthesizers
• On-board VCXO : 100.000MHz, 122.880MHz, 125.000MHz, 153.600MHz or 156.250MHz
• Air Cooled and Conduction Cooled

The FMC-ZU3RF-A is a FMC for RF wireless communications applications based on the ADRV9029 component from Analog Device Inc (ADI).

The ADRV9029 is a highly integrated, radio frequency (RF) agile transceiver offering four independently controlled transmitters, dedicated observation receiver inputs for monitoring each transmitter channel, four independently controlled receivers, integrated synthesizers, and digital signal processing functions providing a complete transceiver solution.

The device provides the performance demanded by cellular infrastructure applications, such as small cell base station radios, macro 3G/4G/5G systems, and massive multiple in/multiple out (MIMO) base stations.

The receiver subsystem consists of four independent, wide bandwidth, direct conversion receivers with wide dynamic range.

The four independent transmitters use a direct conversion modulator resulting in low noise operation with low power consumption. The device also includes two wide bandwidth, time shared, observation path receivers with two inputs each for monitoring transmitter outputs. The complete transceiver subsystem includes automatic and manual attenuation control, dc offset correction, quadrature error correction (QEC), and digital filtering, eliminating the need for these functions in the digital baseband.

Other auxiliary functions such as analog-to-digital converters (ADCs), digital- to-analog converters (DACs), and general-purpose input/ outputs (GPIOs) that provide an array of digital control options are also integrated. To achieve a high level of RF performance, the transceiver includes five fully integrated phase-locked loops (PLLs). Two PLLs provide low noise and low power fractional-N RF synthesis for the transmitter and receiver signal paths.

A third fully integrated PLL supports an independent local oscillator (LO) mode for the observation receiver. The fourth PLL generates the clocks needed for the converters and digital circuits, and a fifth PLL provides the clock for the serial data interface. A multichip synchronization mechanism synchronizes the phase of all LOs and baseband clocks between multiple ADRV9029 chips.

All voltage controlled oscillators (VCOs) and loop filter components are integrated and adjustable through the digital control interface. This device contains a fully integrated, low power digital predistortion (DPD) adaptation engine for use in power amplifier linearization. DPD enables use of high efficiency power amplifiers, reducing the power consumption of base station radios while also reducing the number of SERDES lanes necessary to interface with baseband processors.

PanaTeQ offers the VPX3-ZU1B-SDR-D development system based on the VPX3-ZU1B 3U OpenVPX Zynq Ultrascale+ and the FMC-ZU3RF-A-W1A-AS for typical Software Defined Radio application, in both air-cooled and conduction cooled version.

• 3U OpenVPX module, Air-Cooled or Conduction Cooled
• AMD Zynq Ultrascale+ MPSoC ZU6/ZU9/ZU15 FFVC900 Package
• 4/8GB PS DDR4-2400 memory 64-bit, 8-bit ECC
• 1/2GB PL DDR4-2400 memory 16-bit, no ECC
• Up to 256 GB eMMC managed NAND Flash
• FMC HPC site with 10x MGTs @ up to 16.3Gb/s
• Analog Devices ADRV9029 Wideband RF Transceiver
• Quad Transmitter (Tx), Quad Receiver (Rx)
• Reference Clock Input
• RF Coverage 300MHz to 6.0 GHz
• Tx Synthesis Bandwidth (BW) to 50MHz
• Rx Bandwidth: Up to 200MHz
• Support TDD and FDD Applications
• On-Board VCXO @ 122.88MHz.

PanaTeQ’s VPX3-ZU1B-SDR-D is a 3U OpenVPX modules based on the Zynq UltraScale+ MPSoC device from AMD coupled to RadioVerse Analog Devices RF Wideband Transceiver ADRV9029 for a broad range of applications such as Software Defined Radio, MILCOM, massive MIMO, Phase Array Radar and Electronic Warfare.

PanaTeQ provides solutions for Ruggedized Air-Cooled and Conduction Cooled systems.rnrnThese VPX3-ZU1B-SDR-D module is based on the following PanaTeQ’s sub-modules (boards):rnrnThe VPX3-ZU1B is a 3U OpenVPX module based on a AMD Zynq Ultrascale+ MPSoC with a FMC 57.1 site, HW/SW compatible with ZCU102 Evaluation board from AMD.

The FMC-ZU3RF-A is a FMC based on an Analog Devices ADRV9029

• FMC+ Vita 57.4 specification compliant
• JESD024B/C interface up to 20/32.5 Gbps
• 24x TX Lanes
• 24x RX Lanes
• Operates with VAdj = 2.5V to 1.5V
• Air and Conduction Cooled compatible
• Quad ADC Channels (12-bit up to 20GSPS)
• Quad DAC Channels (16-bit up to 28GSPS)
• Uses of 10x 12GHz bandwidth SSMC connectors
• Inputs with Impedance of 50 ohms AC Coupled
• Analog Bandwidth Input Up to TBD GHz
• Reference Clock Input
• FPGA GPIO direct Input or Output
• On-board VCXO

The FMC-MXFE4-A is a FMC+ for High-Speed Data Acquisition applications based on the AD9084 Quad 12-bit ADC and Quad 16-bit DAC from Analog Devices Inc (ADI).

The AD9084 mixed signal front-end (MxFE®) is a highly integrated device with a 16-bit, 28 GSPS maximum sample rate, RF digital-to-analog converter (DAC) core, and 12-bit, 20 GSPS maximum sample rate, RF analog-to-digital converter (ADC) core. The AD9084 supports four transmit channels and four receive channels.

The AD9084 is well suited for applications requiring both wideband ADCs and DACs to process signal(s) having wide instantaneous bandwidth.

The device features a 48 lane, 32.5 Gbps JESD204C or 20 Gbps JESD204B data transceiver port, an on-chip clock multiplier, and a digital signal processing (DSP) capability targeted at either wideband or multiband, direct to RF applications.

The AD9084 also features a bypass mode that allows the full bandwidth capability of the ADC and/or DAC cores to bypass the DSP datapaths.

The device also features low latency loopback and frequency hopping modes targeted at phased array radar systems and electronic warfare applications.

PanaTeQ offers the VPX3-VERSA2-MXFE4-A-CAA-AS development system based on the VPX3-VERSA2 3U VPX VERSAL and the FMC-MXFE4-A-AAA for typical Digital Signal Processing.

• 3U OpenVPX module, Air-Cooled
• AMD Zynq Ultrascale+ MPSoC ZU9G-1FFVC900E
• 4GB PS DDR4-2400 memory 64-bit, 8-bit ECC
• 1GB PL DDR4-2400 memory 16-bit, no ECC
• 64 GB eMMC managed NAND Flash
• FMC HPC site with 10x MGTs @ up to 16.3Gb/s
• 2 RF Channels, DC to 6 GHz acquisition
• Software tunable Channel Bandwidth 200 kHz-56 MHz
• 2 x Multiple Synchronized Input and output
• AD9361 Dual 12 bits transceivers
• Tunable RF Bandpass Filters
• AD9656 Dual 16 bits AD converter (for baseband RF)

PanaTeQ’s VPX3-ZU1B-SDR400 is a 3U OpenVPX modules based on the Zynq UltraScale+ MPSoC device from AMD coupled to RadioVerse Analog Devices RF Wideband Transceiver AD9361 for a broad range of applications such as Software Defined Radio, MILCOM, massive MIMO, Phase Array Radar and Electronic Warfare.rnrnPanaTeQ provides solutions for Ruggedized Air-Cooled and Conduction Cooled systems.

These VPX3-ZU1B-SDR400 module is based on the following PanaTeQ’s sub-modules (boards):rnrnThe VPX3-ZU1B is a 3U OpenVPX module based on a AMD Zynq Ultrascale+ MPSoC with a FMC 57.1 site, HW/SW compatible with ZCU102 Evaluation board from AMD.

The FMC-SDR400 is a FMC based on an Analog Devices AD9361.

• 3U OpenVPX module, Air-Cooled
• AMD Zynq Ultrascale+ MPSoC ZU6/ZU9/ZU15 FFVC900E package
• Up to 8GB PS DDR4-2400 memory 64-bit, 8-bit ECC
• Up to 2GB PL DDR4-2400 memory 16-bit, no ECC
• Up to 256 GB eMMC managed NAND Flash
• FMC HPC site with 10x MGTs @ up to 16.3Gb/s
• ADRV9009 Wideband RF Transceiver
• Dual Transmitter (Tx), Dual Receiver (Rx)
• RF Ext LO Input/Output
• Reference Clock Input
• Two GPIO Input/Output

• RF Coverage 75MHz to 6.0 GHz
• Tx Synthesis Bandwidth (BW) to 450MHz
• Rx Bandwidth: Up to 200MHz
• On-Board VCXO @ 122.88MHz.

PanaTeQ’s VPX3-ZU1B-SDR-C is a 3U OpenVPX modules based on the Zynq UltraScale+ MPSoC device from AMD coupled to RadioVerse Analog Devices RF Wideband Transceiver ADRV9009 for a broad range of applications such as Software Defined Radio, MILCOM, massive MIMO, Phase Array Radar and Electronic Warfare.

PanaTeQ provides solutions for Ruggedized Air-Cooled and Conduction Cooled systems.

These VPX3-ZU1B-SDR-C module is based on the following PanaTeQ’s sub-modules (boards):

The VPX3-ZU1B is a 3U OpenVPX module based on a AMD Zynq Ultrascale+ MPSoC with a FMC 57.1 site, HW/SW compatible with ZCU102 Evaluation board from AMD.

The FMC-ZU2RF-A is a FMC based on an Analog Devices ADRV9009, HW/SW compatible with ADRV9009 Evaluation Board from Analog Devices.

• 3U OpenVPX module, Air-Cooled
• AMD Zynq Ultrascale+ MPSoC ZU6/ZU9/ZU15 FFVC900E package
• Up to 8GB PS DDR4-2400 memory 64-bit, 8-bit ECC
• Up to 2GB PL DDR4-2400 memory 16-bit, no ECC
• Up to 256GB eMMC managed NAND Flash
• FMC HPC site with 10x MGTs @ up to 16.3Gb/s
• AD9375 Wideband RF Transceiver
• Dual Transmitter (Tx), Dual Receiver (Rx)
• Observation Receiver (ORx) with 2 inputs
• Sniffer Receiver (SnRx) with 1 input
• Reference Clock Input
• RF Coverage 300MHz to 6.0 GHz
• Tx Synthesis Bandwidth (BW) to 250MHz
• Rx Bandwidth: Up to 100MHz
• On-Board VCXO @ 122.88MHz.

PanaTeQ’s VPX3-ZU1B-SDR-B is a 3U OpenVPX modules based on the Zynq UltraScale+ MPSoC device from AMD coupled to RadioVerse Analog Devices RF Wideband Transceiver AD9375 for a broad range of applications such as Software Defined Radio, MILCOM, massive MIMO, Phase Array Radar and Electronic Warfare.

PanaTeQ provides solutions for Ruggedized Air-Cooled and Conduction Cooled systems.

These VPX3-ZU1B-SDR-B module is based on the following PanaTeQ’s sub-modules (boards):

The VPX3-ZU1B is a 3U OpenVPX module based on a AMD Zynq Ultrascale+ MPSoC with a FMC 57.1 site, HW/SW compatible with ZCU102 Evaluation board from AMD.

The FMC-ZU1RF-B is a FMC based on an Analog Devices AD9375, HW/SW compatible with ADRV9375 Evaluation Board from Analog Devices.

• 3U OpenVPX module, Air-Cooled
• AMD Zynq Ultrascale+ MPSoC ZU6/ZU9/ZU15 FFVC900E package
• Up to 8GB PS DDR4-2400 memory 64-bit, 8-bit ECC
• Up to 2GB PL DDR4-2400 memory 16-bit, no ECC
• Up to  256GB eMMC managed NAND Flash
• FMC HPC site with 10x MGTs @ up to 16.3Gb/s
• AD9371 Wideband RF Transceiver
• Dual Transmitter (Tx), Dual Receiver (Rx)
• Observation Receiver (ORx) with 2 inputs
• Sniffer Receiver (SnRx) with 1 input
• Reference Clock Input
• RF Coverage 300MHz to 6.0 GHz
• Tx Synthesis Bandwidth (BW) to 250MHz
• Rx Bandwidth: Up to 100MHz
• On-Board VCXO @ 122.88MHz.

PanaTeQ’s VPX3-ZU1B-SDR-A is a 3U OpenVPX modules based on the Zynq UltraScale+ MPSoC device from AMD coupled to RadioVerse Analog Devices RF Wideband Transceiver AD9371 for a broad range of applications such as Software Defined Radio, MILCOM, massive MIMO, Phase Array Radar and Electronic Warfare.

PanaTeQ provides solutions for Ruggedized Air-Cooled and Conduction Cooled systems.

These VPX3-ZU1B-SDR-A module is based on the following PanaTeQ’s sub-modules (boards):

The VPX3-ZU1B is a 3U OpenVPX module based on a AMD Zynq Ultrascale+ MPSoC with a FMC 57.1 site, HW/SW compatible with ZCU102 Evaluation board from AMD.

The FMC-ZU1RF-A is a FMC based on an Analog Devices AD9371, HW/SW compatible with ADRV9371 Evaluation Board from Analog Devices.