Sundance Multiprocessor Technology Ltd.
Sundance designs, develops, manufactures, and markets internationally high performance signal processing and reconfigurable systems for original equipment manufacturers in embedded applications. Leveraging its multiprocessor expertise and experience, Sundance provides OEMs with modular systems as well as data acquisition, I/O, communication and interconnectivity products that are essential to multiprocessor systems where scalability and performance are essential.
- 44 (0) 7850 911 417
+44 (0)1494 793167 - enquiries@sundance.com
- sales@sundance.com
- Chiltern House
Unit 20
Waterside, Chesham HP5 1PS
United Kingdom of Great Britain and Northern Ireland
-
Product
PC104Z with FMC Board
PC104Z
-
Sundance Multiprocessor Technology Ltd.
PC104Z is based on the Xilinx Zynq UltraScale+ MPSoC family. This hardware is in PCIe104 form factor and adheres to its latest specification. It offers 4 Gen 2.0, x1 lane PCIe interfaces through a switch which allows 4 PCIe104 cards to be connected to the ARM on the Zynq which acts as the host. The board also offers 2 Gen 4.0, x4 lane PCIe connected to the PL parts which can act both as host and end points. The additional interfaces offered by this card can be seen under the Features tab.
-
Product
4-Channel ADC Module
FMC104
-
Sundance Multiprocessor Technology Ltd.
The FMC104 is a four-channel ADC FMC (FPGA Mezzanine Card) which is fully compliant with the VITA 57.1-2010 standard. The FMC104 card provides four 14-bit 250 MSPS A/D channels which can be sampled by an internal clock source (optionally locked to an external reference) or an externally supplied sample clock. A trigger input for customized sampling control is also available.
-
Product
FPGA Mezzanine Card
FMC432
-
Sundance Multiprocessor Technology Ltd.
The FMC432 is a dual 10 Gigabit Ethernet (10GBASE-T) FPGA Mezzanine Card with two RJ45 connectors available on the front panel. Compliant with the VITA 57.1 standard the FMC432 is compatible with FPGA carrier cards offering High Pin Count connectors. It also allows for the option to stack an additional FMC over it. Any of the 4DSP FMC that use LVDS and single ended signaling only can be mounted over the FMC432, thus offering users with the ability to build a complete high speed data acquisition, waveform generation and communication solution while using a single FMC site on an FPGA carrier card.
-
Product
2-Channel ADC Module
FMC161
-
Sundance Multiprocessor Technology Ltd.
The FMC161 provides one 12-bit A/D channel at 3.6Gsps or two A/D channels at 1.8Gsps clocked by either an internal clock source (optionally locked to an external reference) or an externally supplied sample clock. In addition, a trigger input for customized sampling control is available to users. The FMC161 daughter card is mechanically and electrically compliant to the FMC standard (ANSI/VITA 57.1).
-
-
Product
SOM Module
TEO820-ZU2CG
-
Sundance Multiprocessor Technology Ltd.
Xilinx Zynq UltraScale+ XCZU2CG-1SFVC784EZU2, 784 Pin Packages4 x 5 cm form factorRugged for shock and high vibration2 x 512 MByte 32-Bit width DDR4 SDRAM2 x 32 MByte (2 x 256 MBit) SPI Boot Flash dual parallel4 GByte eMMC Memory (up to 64 GByte)B2B Connectors: 2 x 100 Pin and 1 x 60 Pin
-
Product
PCIe/104 OneBank I/O Board
EMC²-7K70
-
Sundance Multiprocessor Technology Ltd.
The PCIe/104 OneBank™ design enables the EMC²-7K70T to be added to robust and rugged installations for various commercial, medial, industrial and military uses and to enable more versatility the EMC²-7K70 also incorporates a VITA57.1 FMC™ LPC connector opening up an range of extra possibilities and expansion options.
-
Product
4 Channel ADC FMC Module
ADCFN04 – HPC
-
Sundance Multiprocessor Technology Ltd.
The RFM-ADCFN04 is a four channel Analog to Digital converter FMC which complies with VITA 57.1-2010. Each channel provides DC coupled single-end analog input and digital output with DC-250KHz sampling speed based on Linear Technology’s LTC2376-16. The output is 16-bit data and it can be obtained through SPI interface on LTC2376-16 from the FPGA on the FMC carrier board. One trigger input is provided for capture control.
-
Product
multiprocessor
EVP6472
-
Sundance Multiprocessor Technology Ltd.
The EVP6472 is the industry’s first off-the-shelf multiprocessor, multicore solution that features dual Texas Instruments (TI) TMS320C6472 Digital Signal Processors (DSPs)
-
Product
PC/104 OneBank Board
EMC²-7K325
-
Sundance Multiprocessor Technology Ltd.
The PCIe/104 OneBank™ design enables the EMC²-7K325 to be added to robust and rugged installations for various commercial, medial, industrial and military uses and to enable more versatility the EMC²-Kintex7T also incorporates a VITA57.1 FMC™ LPC connector opening up an range of extra possibilities and expansion options
-
Product
6ch ADC, 2ch DAC – High-Pin-Count
RFM-ADAFF62
-
Sundance Multiprocessor Technology Ltd.
The RFM-ADAFF62 is a six channel Analog to Digital and two channel Digital to Analog mixed converter FMC which complies with VITA 57.1-2010. Each AD channel provides AC coupled single-end analog input and 16-bit single-ended output with 20-105MHz sampling speed based on ADI AD9650. Each DA channel provides 16-bit single-ended input and one DC coupled differential analog output with 1 – 500MHz sampling speed based on Maxim MAX5888A.
-
Product
2 Channel ADC – High-Pin-Count
ADCFN02 – HPC
-
Sundance Multiprocessor Technology Ltd.
The RFM-ADCFN02 is a two channel Analog to Digital converter FMC which complies with VITA 57.1-2010. Each channel provides AC coupled single-end analog input and 16-bit single-ended output with 20-105MHz sampling speed based on ADI AD9650. Single-ended external clock, differential external clock or an internal clock from the FMC carrier board can be selected at the FMC for the AD converter through fine clock generator ADI AD9518-3.
-
-
Product
DSP FMC Modules
-
Sundance Multiprocessor Technology Ltd.
FMC Modules with Digital Signal Processors
-
Product
FMC Mezzanine Module
NES-FMC4ADC
-
Sundance Multiprocessor Technology Ltd.
By default this card only uses signals from the LPC rows of the HPC connector that is mounted. The gain can be set by software in three steps: +/-50mV, +/-0.5mV, and +/-5V. AN advanced offset circuit is used in the front-end design of the ADC board, and allows a voltage shift in the range og +/-5V that is independent of the chosen gain range.
