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TB-FMCL-GLAN-B Hardware User Manual

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1. ftw 42 t N _ OPT 3P3V FMC 3P3V A External 3 3 EXT 3P3V 3P3V 1 GND A2 3PA 2 54DSA 71 3P3V SEL Figure 7 2 EXT3 3V Connector 7 3 3P3V SEL Jumper There is a 3 pin Jumper for 3 3V power selection EXT 3P3V OPT 3P3V 3P3V A A External 3 3V EXT 3P3V 1 GND AZ 3PA 2 54DSA 71 SEL Figure 7 3 3P3V SEL Jumper Rev 1 02 TOKYO ELECTRON DEVICE LIMITED inreviunW 7 4 FMC Connector Interface The board provides Samtec s FMC Low Pin Count J1 connector Figure 7 2 shows the VITA 57 Low Pin Count pin list respectively Notice Not all pins of LPC are connected to the Ethernet PHY L GNo oa M2C P ono GND DPONGCP GND bP2 MeC P co MeCN Can GND __ _ GND ceno GND DPa MBG N DP GND MCN LA N CC LL GND GND LAIR PCC 2 0 ac tM AIN own DPeC2MP en ee oe 1 SS ee Ge __ DPS COMIN ___ DP3 C2MP OND DP3 C2M N LPC Connector LPC Connector LPC Conn
2. Rev 1 02 TOKYO ELECTRON DEVICE LIMITED TB FMCL GLAN B Hardware User Manual inreviun B 6 Board Specifications Figure 6 1 shows the board specifications External Dimensions 115 mm W x 69 mm H Number of Layers 8 layers Board Thickness 1 6 mm Material FR 4 FMC Connector oamtec s ASP 134604 01 45 connector Pulse s JK0 0177NL 115 r Cos aoc aoe aoa od pp ode a ct eco co 99990 Ee CODO b Figure 6 1 Board Dimensions inclusive of wastable substrate Rev 1 02 TOKYO ELECTRON DEVICE LIMITED 11 TB FMCL GLAN B Hardware User Manual inreviun B 7 Description of Components 7 1 Power Supply Structure Figure 7 1 shows the TB FMCL GLAN B board s power supply structure Power distribution EXT 3 3V Required Required Required CN 1 0024 0 3A LDO 0 3A LD1117 0 8A PHY1 DVDD 3 3V gt 1 2V FMCL 3 3V Required Required 0 3A LDO 03A LD1117 0 8A PHY1 DVDD 3 3V gt 1 2V Required p Required 0 402A LDO 0 402A PHY1 2 RT9183 1 5A AVDD VDDO 3 3V gt 2 5V Digital part Figure 7 1 Power Supply Structure Rev 1 02 TOKYO ELECTRON DEVICE LIMITED 7 2 EXT3 3V Connector There is a 2 pin connector J2 for external 3 3V power supply J2 is not mounted It is an addition for power input when carrier board dose not provide 3 3V via FMC connector Gi T hy gt e 4 ei
3. TB FMCL GLAN B Hardware User Manual in TB FMCL GLAN B Hardware User Manual Rev 1 02 TOKYO ELECTRON DEVICE LIMITED TB FMCL GLAN B Hardware User Manual inreviun B Revision History 1 01 2012 11 28 Added title number 7 2 7 3 Rev 1 02 2015 06 25 Modified the Figure 9 1 D Odajima Rev 1 02 TOKYO ELECTRON DEVICE LIMITED TB FMCL GLAN B Hardware User Manual in Table of Contents 1 Related Documents and Accessories sese tn tns tr trs tete theta tes 8 8 D DEN 8 9 2 00 20 01 ROMA Poar Ole 10 D Ee Ee UE EE 11 1 Description of Components aui tasted eet ti est teniente oves recte tiens 12 Tale OWEN 12 T2 COMMS CON IN PR 13 OFON EL JUMPE 13 7 4 Connector 14 Teo PHY AK GEIR ClO 17 EED __ ____ _ ___ 4_ 18 PED 19 Lo ____ ____________ 20 21 9 ee 22 9 1 Evaluation INO ITM ____ 22 9 2 Ethernet data transmitting and receiving lest 22 9 3 About Ethernet PHY s output
4. oO SOR Slo le lt oO Z Z 3 ev 5 C lt Z Z CO CO CO N IN O O INIO O A IN gt CO INIO O A N m FMC 3P3V ND G 2 4 CO Rev 1 02 TOKYO ELECTRON DEVICE LIMITED TB FMCL GLAN B Hardware User Manual in onnection PHY2 RXCLK GC PHY1 TXCLK V48V 25 PHY1 TXD7 PHY1 TXD6 PHY1 TXD3 PHY1 TXD4 PHY1 TXD1 PHY1 TXD2 Z Z Z Z 2 2 Z Z PHY2 TXD7 PHY2 TXD6 PHY2 TXD4 PHY2 TXD3 PHY2 TXD1 PHY2 TXD2 PHY2 TXDO PHY2 5 PHY2 COL PHY2 GTXCLK Z Z Z Z Z Z Rev 1 02 TOKYO ELECTRON DEVICE LIMITED TB FMCL GLAN B Hardware User Manual In 7 5 PHY RXCLK Selection This board is aimed to TB 6S LX150T IMG2 Board for implementation of Ethernet communication When the FPGA on carrier board is Virtex 6 resistor R189 R188 should be mounted And resistor R191 R190 should be not mounted PHY RXCLK Selection Carrier board with Spartan 6 PHY RXCLK must be connected to GC pin R188 R189 No Mount R190 R191 Mount Carrier board with Virtex 6 PHY RXCLK must be connected to CC pin R188 R189 Mount R190 R191 Mount R189 0 NMT PHY RXCLK CC a PHY
5. RXDV PHY1 TXCLK PHY1 CRS PHY1 COL PHY1 INTN PHY1 MDIO PHY2 TXD 7 0 PHY2_TXER PHY2 MDIO P N PHY2 TXEN PHY2 MDI1 P N PHY2 GTXCLK PHY2 MDC PHY2 MDI2 P N PHY2 RSTN PHY3 MDI3 P N PHY2 RXD 7 0 PHY2 RXCLK PHY2 RXER PHY2 RXDV PHY2 TXCLK PHY2 CRS PHY2 COL PHY2 INTN PHY2 MDIO Figure 4 1 Block Diagram Rev 1 02 TOKYO ELECTRON DEVICE LIMITED 9 TB FMCL GLAN B Hardware User Manual 5 External View of the Board Figure 5 1 and 5 2 shows the external view of the TB FMCL GLAN B board Ethernet OSC 3 9V Selection External 3 3V LDO PHY2 25MHz Jumper CN i jm SS EES ENN 15271 PRY A 5 d Lum mi MN A x re Q ge FEI VT C ui OH eem IN E RJ 45 ACA GK GZ 2 L ihr I TTE gt 2 98 8 NY19 10M4 81 RJ 45 PORTI ae PO A s 2 2 28 lt lt i df TINY 1000 LZ 4 T F WS P 3 CS Pit Ol DE zb ih OF 0 d M LEDs Gm ug 77 7771 Address Mode Ethernet Setting SW PHY1 Figure 5 1 Component Side FMC LPC Connector Low Pin UPS K ud p TIE 99 Tx f TL mya 2 NI 30QVW M S gt 5 Figure 5 2 Solder Side
6. The specification of this product is subject to change without prior notice The product is subject to discontinuation without prior notice Rev 1 02 TOKYO ELECTRON DEVICE LIMITED TB FMCL GLAN B Hardware User Manual in 1 Related Documents and Accessories Related documents All documents relating to this board can be downloaded from our website Please see attached paper on the products Accessories 4 x Short Pin Hirose HIF3GA 2 54SP 2 Overview The board has two Ports of Gigabit Ethernet PHY The two sets of PHY 45 are compatible with IEEE 802 3 and can work independently And the board is designed for connection with the platform board with a FPGA Mezzanine Card FMC Low Pin Count connector 3 Feature Ethernet PHY Marvell s 88E1111 B2 BAB1CO000 FMC Connector Samtec s ASP 134604 01 45 Connector Pulse s JKO 0177NL Rev 1 02 TOKYO ELECTRON DEVICE LIMITED TB FMCL GLAN B Hardware User Manual In 4 Block Diagram This board uses two Ethernet PHY to realize 1000M Ethernet data transmitting and receiving Two Ethernet PHY can work in GMII mode and mode The FMC LPC connector is mounted on the solder side of the board Figure 4 1 shows the TB FMCL GLAN B board s block diagram PHY1 TXD 7 0 _ PHY1 TXER PHY1 MDIO P N PHY1 TXEN PHY1 MDI1 P N PHY1 GTXCLK PHY1 MDC PHY1 MDI2 P N PHY1 RSTN PHY1 MDI3 P N PHY1 RXD 7 0 PHY1 RXCLK PHY1 RXER PHY1
7. clock cccccccccecceseeeceeeeeeeeeeeeeeceeeeesaeeeessaeeeeseaueeesseeeeessaneees 26 Rev 1 02 TOKYO ELECTRON DEVICE LIMITED TB FMCL GLAN B Hardware User Manual in List of Figures Figure 4 1 Block E CNET ann 9 Figure 5 1 Component Gde nnn nsns naar nnns nnns 10 NO EE 10 Figure 6 1 Board Dimensions inclusive of wastable 11 Figure 7 1 Power Supply Structure 12 Figure 7 2 EXT 3 3 V COMME COM recs 13 OP be NOS 13 Figure 7 4 Power Supply Structure cccccccccccccesseceeeceeeseceeeceeeeceeeeseaeceeessaaeeeesseaaeeeeeeseageeessssaages 14 Figure 7 5 PHY RXCLK Gelechon eene nnne nennen nnne nnn nnn nnns nna nns 17 Figure 7 6 HJ 45 internal LED __________ __ _ 19 e 20 Figure 8 1 Default Jumper Settings Component 21 Figure 9 1 evaluation structure nennen nnne nnne nnne 22 List of Tables Table 7 1 FMC I F Connector pin assignment table nt 15 ic Wee Cee Ne rar ween eee 18 Table 7 3 45 internal LED Function Table 19 Table 7 4 Jumper Function Table eccccccesececceseeeceas
8. physical damage in connection with houses or Caution nousehold goods if the product is handled incorrectly The following graphical symbols are used to indicate and classify precautions in this manual Examples Turn off the power switch Do not disassemble the product Do not attempt this Rev 1 02 TOKYO ELECTRON DEVICE LIMITED TB FMCL GLAN B Hardware User Manual in In the event of a failure disconnect the power supply If the product is used as is fire or electric shock may occur Disconnect the power supply immediately and contact our sales personnel for repair If an unpleasant smell or smoking occurs disconnect the power supply If the product is used as is a fire or electric shock may occur Disconnect the power supply immediately After verifying that no smoking is observed contact our sales personnel for repair Do not disassemble repair or modify the product Otherwise a fire or electric shock may occur due to a short circuit or heat generation For inspection modification or repair contact our sales personnel Do not touch a cooling fan As a cooling fan rotates in high speed do not put your hand close to it Otherwise it may cause injury to persons Never touch a rotating cooling fan Do not place the product on unstable locations Otherwise it may drop or fall resulting in injury to persons or failure If the product is dropped or damaged do not use it as is Othe
9. 1 R188 0 PHY2 RACLK CC 4 PHY2 RXCLK 2_ RXCLK R190 0 PHY2 RXCLK GC Figure 7 5 PHY RXCLK Selection Rev 1 02 TOKYO ELECTRON DEVICE LIMITED 17 TB FMCL GLAN B Hardware User Manual In 7 6 LED There are 15 LEDs on the board These LEDs are used to indicate the statuses of Ethernet PHY The function description of LED is in the following table Table 7 2 LED Function Table No LED Color Function Note No Pin Pin Name No IT use mee see 1 a um Green LED or OOBASE TXnkorspeed u6 Ia _ LED3 Green LED for 1000BASE TX A9 LED LINK1000 Note1 ee oe E 4 LED4 Green LED for duplex or duplex collision modes for LED for duplex or duplex collision modes or duplex collision modes LED5 Green LED for Receive Activity or C9 LED RX Hd Fee LED6 Green LED for Transmit Activity or U6 LED TX Note1 Idi AEN Lesen Green for 100 link speed B8 LED LINK1O0 _ LED9 Green LED for 1000BASE TX A9 LED LINK1000 Note oe E Us nues 11 LED11 Green LED for Receive Activity or C9 LED RX D Toe I 12 LED12 Green LED for Transmit Activity or U3 LED TX Note1 Wgl D Note1 LED3 LED6 LED9 LED12 not mounted Rev 1 02 TOKYO ELECTRON DEVICE LIMITED RJ 45
10. 192 168 1 30 t Lo een C Users TEDSH gt ping 192 168 1 30 t Pinging 192 168 1 30 with 32 bytes of data Reply from 192 168 1 30 bytes 32 11 lt 1 lt 111 128 Reply from 192 168 1 30 bytes 32 TIL 178 Reply from 192 168 1 30 bytes 32 11 lt 1 lt TTL2128 Reply from 192 168 1 30 bytes 32 time lt Ims TIL 178 Reply from 192 168 1 30 bytes 32 TTIL 178 Reply from 192 168 1 30 bytes 32 TTL 128 Reply from 192 168 1 30 bytes 3 TTIL 178 Reply from 192 168 1 30 bytes 3 11 lt 1 lt TTL2128 Reply from 192 168 1 30 bytes 32 TTL2128 Reply from 192 168 1 30 bytes 3 time lt Ims TIL 178 Reply from 192 168 1 30 bytes 3 time lt lms TTL2128 Reply from 192 168 1 30 bytes 3 time lt Ims 111 128 Reply from 192 168 1 30 bytes 32 timeclms TTL 128 Reply from 192 168 1 30 bytes 32 time lt Ims TTL2128 Rev 1 02 TOKYO ELECTRON DEVICE LIMITED TB FMCL GLAN B Hardware User Manual in 9 3 About Ethernet 5 output clock TB FMCL GLAN B aims for implementation of Ethernet communication on TB 6S LX150T IMG2 which will act as a carrier board When TB FMCL GLAN B works with other carrier boards please ensure that Ethernet PHY s output clocks are connected to GC CC pin of FPGA If Ethernet PHY s output clocks are not connected to GC CC pin of FPGA there will be Error Message about routing of clock signal in Mapping Finally the clock si
11. Device Signature Usercode mb Read Device Status n mb One Step SVF 3 Sg veur E Boundary Scan D Console er DI x LCK cycle NoWait LCK cycle NoWait i INFO iMPACT 1 Checking done pin done 1 Programmed successfully PROGRESS END End Operation Elapsed time 12 sec 4 m Console Errors Warnings Configuration Platform Cable USB 6 MHz usb hs Rev 1 02 TOKYO ELECTRON DEVICE LIMITED 23 TB FMCL GLAN B Hardware User Manual gt Ping test of Connect to Port1 LED 1000M and LED Duplex will light on as the following photo B GE in the following window indicate current network data rate inreviun B 0 Local Area Connection Status Connection IPv4 Connectivity No Internet access IPv6 Connectivity No network access Media State Enabled Duration 5 days 02 20 09 Speed 1 0 Gbps _ Details Activity Sent A Received 47 Bytes 32 032 085 67 727 197 Properties Disable Diagnose Ping port with IP Address 192 168 1 20 and message replies as the following i the E LED TX blink C Windows system32 cmd exe ping 192 168 1 20 t C Users TEDSH gt ping 192 168 1 20 t Pinging 192 168 1 20 from Reply Reply Reply Reply Reply Reply Reply Reply Reply Reply Reply Reply Reply Reply Reply from from from from from from fr
12. connector Pulse s JKO 0177NL has internal LEDs To indicate the statuses of Ethernet PHY LEDs are connected to PHY s signal LED _LINK1000 and LED TX respectively Figure 7 6 RJ 45 internal LED The function description of RJ 45 internal LED is in the following table Table 7 3 RJ 45 internal LED Function Table No LED Color Function reum 1 LED Left Yellow Green LED for Transmit Activity or U3 U6 LED TX NNNM NEN 2 LED Right Green LED for 1000BASE TX U3 U6 A9 LED LINK1000 pq E oo _ 77 Jumper The function description of Jumper is in the following table Table 7 4 Jumper Function Table 1 5 3 3V power supply selection 1 2 Short Use external 3 3V power supply 2 3 Short Use FMC connector s 3 3V power supply Rev 1 02 TOKYO ELECTRON DEVICE LIMITED 7 8 Switch There 4 switches the board These switches used for PHY address selection and GMII RGMII mode selection SW1 PHY ADR SW 2 MODE 3 1 PHY1 VCC 2P5V VCC 2P5V SW1 A CAS 120TB CONFIGO 2E TXD1 CONFIG1 TXD2 CONFIG2 Fe 1x03 CONFIGS E TXD4 CONFIG4 H4 TXD5 CONFIG5 TXD6 CONFIG6 SW2 CAS 120TB GND 22 RXDO LED_LINK10 RXD1 LED LINK100 Ao RXD2 LED LINK1000 25 3 be RXD3 LED DUPLEX RXD4 LED RXD5 LED TX Figure 7 7 Switch The following table shows the detai
13. ector LPC Connector Figure 7 4 Power Supply Structure Rev 1 02 TOKYO ELECTRON DEVICE LIMITED TB FMCL GLAN B Hardware User Manual In The following table shows the detailed of FMC Low Pin Count J1 connector Table 7 1 FMC I F Connector pin assignment table J1 b Pacem ff GBTCLKO fo vg 11 ND LNSN E aiz Nec o foo mK _____ mt mo LE 32 pasPSVAUX E met 2E onnection Q Q DPO C2M P C2M O G O DPO M2C P DPO M2C TO PHY1 TXD5 PHY1 MDIO LAO6 P LAOG 0 0 Z 2 2 Zz Z OU 0 0 Z 2 2 2 2 Z OU 2 Q Z Q PHY1 GTXCLK PHY1 TXER LA10 P LA10 1 1 E LA14 P LA14 N 2 lt OUO JJ ge 2 2 O PHY1 COL 2 2 2 2 2 PHY2 RXCLK CC PHY2 INTN LA18 P CC LA18 N CC Co Z Z Z Z PHY2 MDC PHY2 TXER LA27 P LA27 N 2 2 2 12 2 Z 0 Z Z UU Q2 X J Q2 lt gt gt lt gt O 3 Ca Eu sev PFwosev Q OV CO ev OEC C lt Z 2 2 2 2 Z ep gt
14. eeecseeeceeceueceeseaaeeeseeeeeeeseaeeessaeeessaeeeesaaes 19 Table 7 5 Switch Function Table EE 20 Table 8 1 Derault Jumper tensis 21 Table 8 2 Default Switch Settings 0 0 cccccceeccecceeeeeeceeeeesseeeceeseeeceeseeeecesseeeceeseeeeessaeeeesseeeeeesaees 21 Rev 1 02 TOKYO ELECTRON DEVICE LIMITED TB FMCL GLAN B Hardware User Manual in Introduction Thank you for purchasing the TB FMCL GLAN B board Before using the product be sure to carefully read this user manual and fully understand how to correctly use the product First read through this manual then always keep it handy SAFETY PRECAUTIONS Observe the precautions listed below to prevent injuries to you or other personnel or damage to property e Before using the product read these safety precautions carefully to assure correct use e These precautions contain serious safety instructions that must be observed e After reading through this manual be sure to always keep it handy The following conventions are used to indicate the possibility of and classify precautions if the product is handled incorrectly Indicates the high possibility of serious injury or death if the product is handled incorrectly Danger Indicates the possibility of serious injury or death if the product is handled Warning incorrectly Indicates the possibility of injury or
15. evice Limited assumes no responsibility for any damages resulting from the use of this product for purposes other than those stated Even if the product is used properly Tokyo Electron Device Limited assumes no responsibility for any damages caused by 1 Earthquake thunder natural disaster or fire resulting from the use beyond our responsibility acts by a third party or other accidents the customer s willful or accidental misuse or use under other abnormal conditions 2 Secondary impact arising from use of this product or its unusable state business interruption or others 3 Use of this product against the instructions given in this manual 4 Malfunctions due to connection to other devices Tokyo Electron Device Limited assumes no responsibility or liability for 1 Erasure or corruption of data arising from use of this product 2 Any consequences or other abnormalities arising from use of this product or 3 Damage of this product not due to our responsibility or failure due to modification This product has been developed by assuming its use for research testing or evaluation It is not authorized for use in any system or application that requires high reliability Repair of this product is carried out by replacing it on a chargeable basis not repairing the faulty devices However non chargeable replacement is offered for initial failure if such notification is received within two weeks after delivery of the product
16. gnal inside FPGA can only use local line which lead to in different routing result and unfixed clock delay in every Mapping In such case Ethernet application on TB FMCL GLAN B and carrier board may be unstable Please refer to Xilinx s TEMAC User Guide for detailed information about clock s requirements of GMII RGMII application in Spartan 6 FPGA and Virtex 6 FPGA Rev 1 02 TOKYO ELECTRON DEVICE LIMITED 26 TB FMCL GLAN B Hardware User Manual in m TOKYO ELECTRON DEVICE Inrevium Company URL http solutions inrevium com jp E mail psd support teldevice co jp HEAD Quarter Yokohama East Square 1 4 Kinko cho Kanagawa ku Yokohama City Kanagawa Japan 221 0056 TEL 81 45 443 4016 FAX 81 45 443 4058 Rev 1 02 TOKYO ELECTRON DEVICE LIMITED
17. led of Switch Table 7 5 Switch Function Table Port PHY address is set to 0x41 MODE selection of Porti Port MODE is set to Port MODE is set to RGMII SW3 PHY address selection of Port2 Port2 PHY address is set to 0x40 Port2 PHY address is set to 0x41 4 SW4 MODE selection of Port2 Port2 MODE is set to GMII Port2 MODE is set to RGMII Rev 1 02 TOKYO ELECTRON DEVICE LIMITED 20 TB FMCL GLAN B Hardware User Manual In 8 Default Switch Settings The following two tables shows default TB FMCL GLAN B switch settings JP5 SW4 d NY19 19W4 81 110201121 SW1 SW2 Figure 8 1 Default Jumper Settings Component Side Table 8 1 Default Jumper Settings IM in 2 3 Short Use 3 3V power supply form FMC Connector Table 8 2 Default Switch Settings E in DREES 2 sw _ swa __ _____ Pon PHYaddressissettoowo _ 4 sw __ Pore MODEissettoGM Rev 1 02 TOKYO ELECTRON DEVICE LIMITED 9 Appendix This section describes how to use TB FMCL GLAN B Board with TB 6S LX150T IMG2 Board 9 1 Evaluation environment Tools EDK 13 2 OS Windows 7 64bit Figure 7 1 shows the evaluation structure JTAG Cable Ethernet Cable Figure 9 1 evaluation structure 9 2 Ethernet data transmitting and receiving test gt PC IP address setting Inte
18. mac 1 wrapper fifo generator 8 2011 09 26 20 12 ile folder gt Downloads xInx auto 0 2011 09 26 20 12 e folder mb Read Device 3 Recent Places di xps gpio 0 wrapper 2011 09 26 19 08 e folder mb Read Device E A xps intc 0 wrapper 2011 09 26 20 12 e folder 153 Libraries xps 0 wrapper 2011 09 26 20 12 e folder 22 Documents A xps fifo 1 wrapper 2011 09 26 20 12 e folder Music xps_timer_0_wrapper 2011 09 26 19 08 ile folder D ip INFO 1 il Pictures xps uartlite 0 wrapper 2011 09 26 19 08 e folder Videos _ download bit 2011 09 26 19 49 BIT File done _ system bit 2011 09 26 19 46 BIT File m PROGRESS d ba Comnuter hd Elapsed t Filename download bit All Design Files bit rbt nky Console Bd ISE iMPACT 0 408 PROJECT auto_project ipf Boundary Scan Lo 2 een ue File Edit View Operations Output Debug Window Help fea fhe ZK iMPACT Flows O 88 Boundary Scan ISPIJBPT SystemACE A e Create PROM File PROM File Format WebTalk Data xc6slx150t download bit iMPACT Processes on DI d Available Operations are mb Program mb Program eFUSE Registers mb Read eFUSE Registers mi Set eFUSE Control Register mi Read eFUSE Control Register Pro oram Suc ceeded mb Get Device ID mb Get
19. om from from from from from from from 92 168 1 20 182 168 1 20 182 168 1 20 192 168 1 20 192 168 1 20 192 168 1 20 192 168 1 20 192 168 1 20 192 168 1 20 182 168 1 20 192 168 1 20 182 168 1 20 192 168 1 20 192 168 1 20 192 168 1 20 with 32 bytes of data bytes 3 7 bytes 32 bytes 32 bytes 32 bytes 32 bytes 32 bytes 32 bytes 32 bytes 3 7 bytes 32 bytes 32 bytes 32 bytes 32 bytes 32 bytes 32 time amp lms time 1ms time amp 1ms t ime lt 1ms time amp lms time amp lms time amp lms time amp lms time 2ms time amp 1ms time amp 1ms time 1ms time amp lms time amp lms time amp lms TTL 128 TIL 128 TTL 128 TIL 128 12128 12128 12128 TTL 128 TIL 128 TTL 128 TIL 128 TTL 128 TTL 128 12128 TTL 128 m Rev 1 02 m TOKYO ELECTRON DEVICE LIMITED TB FMCL GLAN B Hardware User Manual In gt Ping test of Port2 Connect PC to Port2 LED 1000M and LED Duplex will light on as the following photo 1 0Gbps in the following window indicate current network data rate 0 Local Area Connection Status I General Connection IPv4 Connectivity No Internet access IPv6 Connectivity No network access Media State Enabled Duration 5 days 02 20 09 Speed 1 0 Gbps Details Activity Sent A Received at Bytes 32 032 085 67 727 197 C Windows system32 cmd exe ping
20. rnet Protocol Version 4 TCP IPv4 Properties for the appropriate IP settings Obtain an IP address automatically 9 Use the following IP address Obtain DNS server address automatically Use the following DNS server addresses Preferred DNS server Alternate DNS server Validate settings upon exit You can get IP settings assigned automatically if your network supports this capability Otherwise you need to ask your network administrator IP address 192 168 Subnet mask 255 255 255 Default gateway 192 168 Rev 1 02 TOKYO ELECTRON DEVICE LIMITED a Ki e M JP La PRA 8 JP7 5 6 Shorted 22 gt Configure FPGA download bitfile download bit 39 ISE iMPACT 0 408 PROJECT auto_project ipf Boundary Scan 8 ET Eil X iMPACT Flows x H 28 Boundary Scan SUR SystemACE m AE Create PROM File PROM File Format o WebTalk Data To 150 bypass Assign New Configuration File 132 xps edk 800 gt implementation gt v 4 Search implementation iMPACT Processes Available Operatic Organize New folder mb Program eFU mb Read eFUSER Fann Date modified Type E e pipe Desktop A soft te
21. rwise a fire or electric shock may occur Do not touch the product with a metallic object Otherwise a fire or electric shock may occur Do not place the product in dusty or humid locations or where water may splash Otherwise a fire or electric shock may occur Do not get the product wet or touch it with a wet hand Otherwise the product may break down or it may cause a fire smoking or electric shock Do not touch a connector on the product gold plated portion Otherwise the surface of a connector may be contaminated with sweat or skin oil resulting in contact failure of a connector or it may cause a malfunction fire or electric shock due to static electricity TOKYO ELECTRON DEVICE LIMITED Rev 1 02 TB FMCL GLAN B Hardware User Manual inreviun Caution Do not use or place the product in the following locations Humid and dusty locations Airless locations such as closet or bookshelf Locations which receive oily smoke or steam Locations exposed to direct sunlight Locations close to heating equipment Closed inside of a car where the temperature becomes high Staticky locations Locations close to water or chemicals Otherwise a fire electric shock accident or deformation may occur due to a short circuit or heat generation Do not place heavy things on the product Otherwise the product may be damaged E Disclaimer This product is a board intended for 1000M Ethernet function Tokyo Electron D

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