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Table of Contents
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3.1
Hardware and software ..................................................................................................................................... 3
3.2
System setup ..................................................................................................................................................... 3
3.3
Technical support .............................................................................................................................................. 3
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4.1
Key Features ..................................................................................................................................................... 4
4.2
EV12AQ600 top and bottom views ................................................................................................................... 5
4.3
FMC connector .................................................................................................................................................. 6
4.3.1
FMC signals description ............................................................................................................................ 6
4.3.2
FMC pinout ................................................................................................................................................ 9
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Figure 1 - EV12AQ600/605 architecture overview. .......................................................................................................... 2
Figure 2 - EV12AQ600-FMC-EVM architecture overview. ............................................................................................... 4
Figure 3 - EV12AQ600-FMC-EVM top and bottom view. ................................................................................................ 5
Whilst Teledyne e2v Semiconductors SAS has taken care to ensure the accuracy of the information contained herein it
accepts no responsibility for the consequences of any use thereof and also reserves the right to change the specification
of goods without notice. Teledyne e2v Semiconductors SAS accepts no liability beyond the set out in its standard
Teledyne e2v
EV12AQ600-FMC-EVM User guide
th
v1.0 - 7
May 2021
June 2017, page 1
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Summary of Contents for Teledyne EV12AQ600-FMC-EVM
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Page 1: Table Of Contents
Figure 3 – EV12AQ600-FMC-EVM top and bottom view....................5 Whilst Teledyne e2v Semiconductors SAS has taken care to ensure the accuracy of the information contained herein it accepts no responsibility for the consequences of any use thereof and also reserves the right to change the specification of goods without notice. -
Page 2: Introduction
Introduction The EV12AQ600-FMC-EVM is an evaluation board used to evaluate the EV12AQ600/605 ADCs. EV12AQ600/605 are the first 12-bit, quad, dual or single-channel C-band capable ADCs with RF sampling up to 1.6, 3.2 or 6.4 GSps. -
Page 3: Quick Start
3. Connect the input power source to the FPGA carrier board and then to the EV12AQ600-FMC-EVM (J8). 4. Turn the FPGA carrier board power input switch to ON and then turn the EV12AQ600-FMC-EVM power input switch ON (SW1). The system is now ready for use. -
Page 4: Board Technical Description
Board technical description The EV12AQ600-FMC-EVM is a partially populated High Pin Count (HPC) FMC mezzanine board. Key Features For the implementation of EV12AQ600/605 ADC, the EV12AQ600-FMC-EVM includes the following key features: x4 single-ended signal inputs transformed into differential signals through broadband baluns (BAL-0006SMG) allowing a single-ended signal source from 500 kHz to 6 GHz. -
Page 5: Ev12Aq600 Top And Bottom Views
(SW1) SYNC User debug spare GPIO x4 ADC single ended inputs 500 kHz to 6 GHz External ADC SYNCO clock 1.8V – HPC FMC connector interface Figure 3 – EV12AQ600-FMC-EVM top and bottom view. Teledyne e2v June 2017, page 5... -
Page 6: Fmc Connector
User Debug GPIO / spare signal LA12_P SYNC_SEL 0 (0 V): SYNC C2M 1 (1.8 V): External SYNC from SMA13/SMA14 2-channel differential multiplexer CBTL01023 SEL-input. LA12_N spare[2] User Debug GPIO / spare signal Teledyne e2v June 2017, page 6... - Page 7 EV12AQ600/605 ADC SYNCO output when SYNCO-SEL is low (0 V). LA28_N SYNCO_N LA29_P Not used LA29_N Not used LA30_P Not used LA30_N Not used LA31_P Not used LA31_N Not used LA32_P Not used LA32_N Not used LA33_P Not used LA33_N Not used Teledyne e2v June 2017, page 7...
- Page 8 Slow Synchro Output N. f /32. To be used as transceiver clock ADC_CLK reference by the logic device receiving ADC samples. Notes: (1) M2C : Mezzanine to Carrier signal C2M: Carrier to Mezzanine signal Teledyne e2v June 2017, page 8...
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Page 9: Fmc Pinout
LA32_P LA33_N HB20_P HB21_N 12P0V DP6_C2M_N HB17_N_CC LA32_N HB20_N 3P3V DP5_C2M_P P1V8 - VIO_B_M2C GND VADJ VADJ 3P3V DP5_C2M_N P1V8 - VIO_B_M2C VADJ VADJ 3P3V RES0 Grey cells means “not connected” on EV12AQ600-FMC-EVM board Teledyne e2v June 2017, page 9... -
Page 10: Power Supplies
FMC connector interface VADJ not used on EV12AQ600-FMC-EVM board. Connected to PT17 test point. FMC connector interface 3P3VAUX used to supply the IPMI EEPROM (U26). All EV12AQ600-FMC-EVM board is supplied by the 2.5 mm JACK connector (J8) +12 V / 5 A input. Teledyne e2v page 10...
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