3U PXI express board Virtex-5 ADC Module, 2 Channels; 800MHz @ 16 bits
This enables the use of an SMT942 WITHOUT a TIM (Such as SMT351-T), within a PXIe rack.
Details of each board follow.
The SMT700 is a Virtex 5 based PXIe board.
The SMT700 module uses a Xilinx Virtex 5 LXT or SXT to implement the interfaces the board provides. The FPGA can be configured either via the onboard flash, or through the Xilinx JTAG header.
The SMT700 is one of the first of a new range of Sundance cards that includes a direct connection to SLB (Sundance Local Bus) compatible mezzanine card, without the need for a Sundance TIM. This enables a variety of cards to be added to a system, for example extra Ethernet ports, video in/out, High speed ADC / DAC etc. Data from these extra cards (along with data from the SMT700’s own inputs – up to 1Gb/s Ethernet, 2.5Gb/s optical links, and RSL links) can be processed via the Virtex 5, or by another linked card or module.
- Xilinx Virtex 5 SX50T in an FF1136 package.
- FPGA configuration from 64MByte flash using a Xilinx Coolrunner CPLD.
- One 64-bit wide data bank of DDR2 memory. The bank uses 4 16-bit wide devices. Running this memory at 220MHz provides a maximum access speed of over 3.5Gbyte/s.
- Sundance LVDS Bus (SLB) connector.
- Front panel SATA connectors carrying Virtex5 serial interfaces.
- Front panel RJ45 for gigabit Ethernet.
- Front panel Fibre Optic modules carrying Virtex5 Serial interfaces.
- Sundance RSL connector with 4 serial interfaces.
- On-board USB interface to allow re-programming of the flash memory.
The SMT942 is a single width expansion TIM that plugs onto an SLB base module and incorporates 2 Texas Instrument dual-channel Digital-to-Analog Converters (DAC5688). The SMT942 implements a comprehensive clock circuitry based on a chip (CDCE72010) from Texas instrument that allows synchronisation among the converters and the use of an external reference clock or sampling clock. It provides a complete conversion solution and stands as a platform that can be part of a transmit/receive base station.
DACs have a resolution of 16 bits and are able to update outputs at up to 800MHz. All converters are 1.8/3.3-Volt.s742