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 FMC-4SFP+ - User’s Manual 

12 

 

 

1.2.1

 

ROW D 

 
All FMC ROW D GND pins are connected to ground and are not listed in the following table.  
 

Pin # 

Pin Name 

Connectivity 

IO Standard 

Remark 

D1 

PG_C2M 

Connected to on-board logic 

Do not use 

D4 

GBTCLK0_M2C_P 

Si570 Oscillator Output 

LVDS 

Frequency according to dip switches  

(see Chapter 2) 

D5 

GBTCLK0_M2C_N 

Si570 Oscillator Output 

LVDS 

Frequency according to dip switches 

(see Chapter 2) 

D8 

LA01_CC_P 

Reserved 

LVCMOS (VADJ) 

Do not use 

D9 

LA01_CC_N 

Reserved 

LVCMOS (VADJ) 

Do not use 

D11 

LA05_P 

RXLOS Module 2 

LVCMOS (VADJ) 

FMC output 

D12 

LA05_N 

RXLOS Module 1 

LVCMOS (VADJ) 

FMC output 

D14 

LA09_P 

TXDISABLE Module 2 

LVCMOS (VADJ) 

FMC input 

D15 

LA09_N 

TXDISABLE Module 1 

LVCMOS (VADJ) 

FMC input 

D17 

LA13_P 

RS1 Module 2 

LVCMOS (VADJ) 

FMC input 

D18 

LA13_N 

RS1 Module 1 

LVCMOS (VADJ) 

FMC input 

D20 

LA17_CC_P 

Reserved 

LVCMOS (VADJ) 

Do not use 

D21 

LA17_CC_N 

Reserved 

LVCMOS (VADJ) 

Do not use 

D23 

LA23_P 

I2C SCL Module 4 

LVCMOS (VADJ) open drain 

I2C (*) 

D24 

LA23_N 

I2C SDA Module 4 

LVCMOS (VADJ) open drain 

I2C (*) 

D26 

LA26_P 

Not Connected 

D27 

LA26_N 

Not Connected 

D29 

TCK 

Connected to on-board logic 

LVCMOS (3.3V) 

Do not use 

D30 

TDI 

Connected to on-board logic 

LVCMOS (3.3V) 

Do not use 

D31 

TDO 

Connected to on-board logic 

LVCMOS (3.3V) 

Do not use 

D32 

+3V3AUX 

3.3V AUX 

D33 

TMS 

Connected to on-board logic 

LVCMOS (3.3V) 

Do not use 

D34 

TRST_L 

Not Connected 

D35 

GA1 

EEPROM GA1 

LVCMOS (+3V3PAUX) 

Summary of Contents for FMC-2SFP+

Page 1: ...FMC 4SFP Dual and Quad channel SFP SFP FMC Adapter Pin Assignments All Rights Reserved CAEN ELS s r l Rev 1 2 October 2017 FMC FPGA MEZZANINE CARD ...

Page 2: ...FMC 4SFP User s Manual 2 ...

Page 3: ...FMC 4SFP User s Manual 3 For technical assistance please refer to the following contact ...

Page 4: ...FMC SFP OVERVIEW 9 1 2 FMC CONNECTIONS 10 1 2 1 ROW A 10 1 2 1 ROW B 11 1 2 1 ROW C 11 1 2 1 ROW D 12 1 2 1 ROW E 13 1 2 1 ROW F 13 1 2 1 ROW G 13 1 2 1 ROW H 15 1 2 1 ROW J 16 1 2 1 ROW K 16 2 CLOCK GENERATION 17 3 ORDERING OPTIONS 18 4 TECHNICAL SPECIFICATIONS 19 ...

Page 5: ...FMC 4SFP User s Manual 5 Document Revisions Document Revision Date Comment 1 0 November 5th 2015 First Release 1 1 April 1st 2016 Corrected VADJ range 1 2 October 27th 2017 Format changed ...

Page 6: ...any part of the instrument WARNING Do NOT open the boxes CAEN ELS s r l declines all responsibility for damages or injuries caused by an improper use of the Modules due to negligence on behalf of the User It is strongly recommended to read thoroughly this User s Manual before any kind of operation CAEN ELS s r l reserves the right to change partially or entirely the contents of this Manual at any ...

Page 7: ...ed Before you use the device inspect the instrument for possible cracks or breaks before each use Do not operate the device around explosives gas vapor or dust Always use the device with the cables provided Turn off the device before establishing any connection Do not operate the device with the cover removed or loosened Do not install substitute parts or perform any unauthorized modification to t...

Page 8: ... environmental requirements for a correct operation of the instrument Environmental Conditions Requirements Operating Temperature 0 C to 50 C Operating Humidity 30 to 85 RH non condensing Storage Temperature 10 C to 60 C Storage Humidity 5 to 90 RH non condensing ...

Page 9: ... to the FMC standard ANSI VITA 57 1 All module pins are translated to the FMC carrier voltage VADJ that can be in the range from 1 5V to 3 3V With its low operation voltage it can be used on almost all carriers The module is compatible with LPC and HPC carrier boards The components are placed to be compatible also with carriers that have components under the FMC module The SFP cages are placed to ...

Page 10: ...SFF 8418 FMC output A11 DP3_M2C_N Module 1 RX outer module module dependent SFF 8418 FMC output A14 DP3_M2C_P Not Connected A15 DP3_M2C_N Not Connected A18 DP3_M2C_P Not Connected A19 DP3_M2C_N Not Connected A22 DP1_C2M_P Module 2 TX inner module module dependent SFF 8418 FMC input A23 DP1_C2M_N Module 2 TX inner module module dependent SFF 8418 FMC input A26 DP2_C2M_P Module 4 TX outer module mod...

Page 11: ... RX inner module module dependent SFF 8418 FMC output C10 LA06_P MODABS Module 4 LVCMOS VADJ FMC output C11 LA06_N MODABS Module 3 LVCMOS VADJ FMC output C14 LA10_P RS0 Module 4 LVCMOS VADJ FMC input C15 LA10_N RS0 Module 3 LVCMOS VADJ FMC input C18 LA14_P Reserved LVCMOS VADJ Do not use C19 LA14_N Reserved LVCMOS VADJ Do not use C22 LA18_CC_P Reserved LVCMOS VADJ Do not use C23 LA18_CC_N Reserved...

Page 12: ... VADJ FMC output D14 LA09_P TXDISABLE Module 2 LVCMOS VADJ FMC input D15 LA09_N TXDISABLE Module 1 LVCMOS VADJ FMC input D17 LA13_P RS1 Module 2 LVCMOS VADJ FMC input D18 LA13_N RS1 Module 1 LVCMOS VADJ FMC input D20 LA17_CC_P Reserved LVCMOS VADJ Do not use D21 LA17_CC_N Reserved LVCMOS VADJ Do not use D23 LA23_P I2C SCL Module 4 LVCMOS VADJ open drain I2C D24 LA23_N I2C SDA Module 4 LVCMOS VADJ ...

Page 13: ...er Supply Not used in LPC carriers Table 4 FMC Row E connection 1 2 1 ROW F All FMC ROW F GND pins are connected to ground and the other pins are left unconnected except the PIN F40 see the following table Pin Pin Name Connectivity IO Standard Remark F40 VADJ IO Pins Power Supply Not used in LPC carriers Table 5 FMC Row F connection 1 2 1 ROW G All FMC ROW G GND pins are connected to ground and ar...

Page 14: ...ed LVCMOS VADJ Do not use G21 LA20_P Not Connected G22 LA20_N Not Connected G24 LA22_P I2C SCL Module 2 LVCMOS VADJ open drain I2C G25 LA22_N I2C SDA Module 2 LVCMOS VADJ open drain I2C G27 LA25_P Si570 Oscillator I2C SCL LVCMOS VADJ open drain Programmed after reset regarding DIP Sw G28 LA25_N Si570 Oscillator I2C SDA LVCMOS VADJ open drain Programmed after reset regarding DIP Sw G30 LA29_P Not C...

Page 15: ...MOS VADJ FMC output H14 LA07_N MODABS Module 1 LVCMOS VADJ FMC output H16 LA11_P RS0 Module 2 LVCMOS VADJ FMC input H17 LA11_N RS0 Module 1 LVCMOS VADJ FMC input H19 LA15_P Reserved LVCMOS VADJ Do not use H20 LA15_N Reserved LVCMOS VADJ Do not use H22 LA19_P Reserved LVCMOS VADJ Do not use H23 LA19_N Reserved LVCMOS VADJ Do not use H25 LA21_P I2C SCL Module 1 LVCMOS VADJ open drain I2C H26 LA21_N ...

Page 16: ...O Pins Power Supply Table 7 FMC Row H connections available only in 4 channel version 1 2 1 ROW J All FMC ROW J GND pins are connected to ground and the other pins are left unconnected 1 2 1 ROW K All FMC ROW K GND pins are connected to ground and the other pins are left unconnected ...

Page 17: ... 15 MHz 1 1 0 250 00 MHz 1 1 1 Do not use Table 8 Start up Clock Frequency The Silicon Labs clock generation chip is accessible also using the I2C bus so it is possible to communicate directly with the chip to configure it and to generate the desired clock frequency The I2C interface is accessible using the pins LA25_P Si570 I2C SCL and LA25_N Si570 I2C SDA For additional information regarding the...

Page 18: ...ailable in two main different versions differing by the number of SFP channels F M C 4 S F P X X A A A 4 FMC 4SFP Quad channel SFP SPF FMC Adapter 2 FMC 2SFP Dual channel SFP SPF FMC Adapter NOTE fields characters shaded in grey color are fixed Table 9 Ordering Options ...

Page 19: ...57 1 FMC Connector Type LPC HPC compliant Number of SFP Channels 2 on FMC 2SFP 4 on FMC 4SFP VADJ Range 1 5 V 3 3 V On board Oscillator Range 10 MHz 280 MHz On board Oscillator Configuration Protocol I2C Other Features Link Status indication via front panel or bottom emitting LEDs Autonomous Mode Clock speed setting and transmitter activation via DIP switches Table 10 Technical Specifications ...

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