| MVD solutions for DOCSIS,
EURODOCSIS, DVB-C (J83A/C), Cable Modulator
(J83B), DVB-S, DVB-T and DVB-H MVD offers a
large range of complete solutions for DVB
transmission. Engineering requirements and
production costs are analyzed below in order to
give you some guidelines for your particular
application.
MVD DVB IP cores have been designed to take
the best advantage of the latest generation low
cost FPGAs. They provide the highest level of
performance and flexibility. However, even if the
core is an important part of the DVB transmitter
design, we also have to consider the global
solution to build a complete application able to
convert your SPI (MPEG_TS) streams in a full
compliant analog RF output according the required
standards.
This app note analyzes the most common cases
for DVB-C (J83A/C), Cable Modulator (J83B),
DVB-S, DVB-T and DVB-H. It takes in consideration
the engineering efforts, the time to market as
well as production cost.
In addition, MVD provides extra support,
design and production services to help you
manufacturing your own, customized application at
minimum risk and lowest development time.
Depending on your specific requirements, MVD
recommends three different ways for implementing
your own single channel or multi-channel
transmitter.
All of those solutions are based on the use of
a low cost FPGA as well as other electronic
components :
- FPGA requirements :
A DVB transmission core is typically
implemented by using relatively high
speed logic as well as other FPGA
advanced features like :
- Internal memory blocks (single
and dual port - for FIFO, sin/cos
table and other)
- High speed multipliers (for FIR
filters, IF modulation, IFFT for
OFDM - DVB-T/H)
- Internal PLL or DCM for clock
management
For example, a DVB-C (J83A/C) IP core
can be built by using the following
resources :
- 8000 Logic cells
- 5 x 18-Kbit BRAM (or 10 x 9-Kbit
BRAM)
- Up to 12 x 18x18-bit multipliers
- 1 PLL or DCM
Typically, a DVB-C IP core can be
implemented into a low cost Xilinx 3S500E
FPGA, and also Altera CycloneIII EP3C10,
or Lattice ECP2-12.
As another example, a DVB-T IP core
requires the following resources
- 15000 logic cells
- 48 x 18-Kbit BRAM (or 96 x 9-Kbit
BRAM)
- Up to 16 x 18x18-bit multipliers
- 2 PLL or 2 DCM
- Low cost DAC (AD9744) for IF output (30
to 58 Mhz)
- Microtune MT5100 analog up converter
module for up to 4-channel RF output (44
to 862 Mhz)
- Analog Devices AD9789 RF DAC for up to 4
channel RF output (44 to 862 Mhz)
- Maxim MAX5881 RF DAC + high performance
Virtex5 FPGA for 16+channel RF output (44
Mhz to 2 GHz)
|
Note d'application
- DVB transmission from MPEG-TS to RF
output