FMC DAC 600M 12b 1cha DDS
Project description
The FMC DAC 600M 12b 1cha DDS board can be used to distribute RF signals
over the White
Rabbit network.
The idea of RF distribution over WR is described in the Distributed
Direct Digital Synthesis over White Rabbit (D3S)
project.
This card was also utilised in a project for the Distribution of SPS RF
over White
Rabbit
(CERN Only).
Together with the Simple PCIe FMC Carrier - SPEC this board makes a complete WR RF distribution node.
*FMC DDS board version 3
Main Features
- Low-Pin Count FMC
- I/Os (LEMO 00):
- 50 Ohm RF reference in (up to 500 MHz)
- 50 Ohm RF monitor/synthesis out (up to 500 MHz)
- Jitter < 20ps RMS (V2-1 design). (Goal < 2ps RMS (V3?))
- Divided beam clock output (LVTTL)
- External Trigger input (LVTTL)
- Fine-delay adjusted RF synchronous trigger output (LVTTL)
- 14-bit 600MHz DAC (MAX5890EGK+D) with splitter and amplifier
- ADF4002 phase detector + programmable LPF + 16-bit ADC
- AD9516 PLL for jitter cleaning of the synthesized RF signal
- Clocking resources
- 1x 25 MHz TCXO controlled by a DAC with SPI interface (AD5662, used by White Rabbit PTP core)
- Low-jitter frequency synthesizer/fanout (AD9516)
- Trigger output (beam-clock synchronous) with fine delay adjustment by SY89295
- Miscellaneous
- On-board thermometer IC (DS18B20U+)
- Two MCP9801 thermometer IC's mounted in heat critical locations
- 2kbit EEPROM (M24C02) connected for storing application parameters
- 2 LEDs
- 6-layer PCB
Project information
- Official production documentation (schematics, PCB, etc.): EDMS: EDA-03010
- Block diagram showing possible use
- Users
- Frequently Asked Questions
Project upgrade - RFoWR starter kit.
In the latter half of 2018, work on the fmc-dac600M-12b-1cha-dds has been restarted at CERN. The goal is to produce an RFoWR starter kit. This kit will encompass hardware and software packages. Together, they may be used as with a quick start guide for distributing RF signals using a White Rabbit network.
Related projects
Contacts
Commercial producers
- Creotech, Poland
General question about project
- Tomasz Włostowski - CERN
Status
Date | Event |
---|---|
01-04-2013 | Specification written. |
24-04-2013 | Boards received and powered on, no smoke so far. One bug fixed (no 3.3V routed to the VCXO and PLL). |
08-05-2013 | Proof-of-concept VHDL and software. |
20-11-2013 | Specification of new version (v2) of the board including functionality of pulse generation with <50 ps RMS jitter and programmable fine delay. |
22-11-2013 | LNLS put order for the v2 design. |
29-12-2013 | Schematics of v2 at repository - ready for review. |
20-01-2014 | Reviewed schematics of v2: Review-jan-2014. |
24-09-2014 | V2 Design released in EDMS. |
15-01-2015 | 4 EDA-03010-V1-0 cards built and powered (order). |
24-08-2015 | Production test system written. Not yet tested. |
29-09-2015 | PTS not yet tested. Some components need to be changed. Spurs on phase noise need investigation. |
30-09-2015 | Measured jitter 15 ps RMS. Goal is <2 ns. Should replace PLL + VCXO (500 MHz) by an AD9516, add test support logic (LDO type). |
04-04-2016 | 5 EDA-03010-V1-0 cards with modifications built and received (order). |
09-07-2018 | Opening up project to investigate RF timing distribution over WR. |
08-11-2018 | Proposal to create a v3.0 to address some v2.0 issues. |
28-11-2018 | Received v3.0 schematics from Creotech Review-dec-2018. |
14-12-2018 | Schematic review v3.0 Review-dec-2018. |
11-01-2019 | Received updated v3.0 schematics from Creotech Review-dec-2018. |
23-01-2019 | Kickstarted fmc-dac600m-12b-1cha-dds upgrade project with Creotech dds-upgrade-meeting-notes. |
9 July 2018