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TB-7Z-IAE Hardware User Manual

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1. vcmeim La we _ mean men La nc _ mean Ls moxm J 3 8 mcmeropAdwelm Ls po a 7 ses po om asea Te sos o co mrcSenacoek max tow LL en Le ans ro mera Pin 10 BATT is connected to the B2B connector CN901 The operation of a timer can be stably maintained by connecting a battery to the user board even when the Module is turned off 111 BATT lt ae MODULE 3 3VD lt F Tas BATT801 mme VPS A Je BATTERYFOLDER NIU 10uF 801 570804 D Tee 0 tuF 10uF 1 DGND Figure 10 26 RTC battery connection Operation of this function is confirmed with below e CR2032 Rev 1 04 TOKYO ELECTRON DEVICE LIMITED TB 7Z IAE Hardware User Manual INreVIUT B 11 Boot Mode Setting J303 J304 The TB 7Z IAE board can be booted either by QSPI Flash or microSD card The boot mode can be selected using a short jumper Important Turn off the TB 7Z IAE board and the user board before performing the mode selection Table 11 1 Boot mode setting JTAG 2 3 Low 2 3 Low om vem em Figure 11 1 shows the boot mode setting pins The position of a triangular silk marking on the board indicates pin 1 JOO Figure 11 1 Boot mode setting pins For more information about the boot mode refer to XILINX s UG585 Zynq 7000 Technical Reference Manual Chapter 6 Rev 1 04 TOKYO
2. bores Cue a Power Set w ag Power bores Ce a Power H Cue o foer boesuy al ag roer eres 1 MRCC and SRCC are also used as a clock input pin If there is a clock output from the user board to Zynq it is recommended to use this pin For details refer to XILINX s UG472 7 Series FPGAs Clocking Resources User Guide Rev 1 04 TOKYO ELECTRON DEVICE LIMITED TB 7Z IAE Hardware User Manual inreviun B 10 5 1 Input power source The 5V input voltage from the user board is supplied through the B2B connector CN901 on the reverse side nd E 9 eua 115 Z 116 TM j 11 s HE KK el FUSE SVIBA L iud eenz latchdan2 E 10uF 10V ERR DGND EAR DGND DGND DGND C913 con 10 10V DIE 10v Figure 10 8 Power supply structure A repeated power off on operation at a short interval is not supported The TP8 5V TP9 GND option is also available which allows 5V input without using a B2B connector It has soldering structure of through hole for debugging purpose Important Do not use TP8 and TP9 together with the CN901 power pin Rev 1 04 TOKYO ELECTRON DEVICE LIMITED TB 7Z IAE Hardware User Manual inreviun B 10 5 2 USER 10P00 23 USER IONOO0 23 USER IOPO00 23 USER IONO0 23 directly connect the Zynq PL IO and its operation depends on the user circuit USER IOPO00 23 USER IONO0 23 are designed to cover a wi
3. TB 7Z IAE Hardware User Manual inreviun B TB 7Z IAE Hardware User Manual Rev 1 04 No reproduction or republication of part or the whole of the contents of this document is strictly prohibited The company name and the product name described in this document is a trademark or a registered trademark of each company Tokyo Electron Device Limited assumes no responsibility or liability for any damages including but not limited to any special incidental or consequential damages arising out of any error in publication or the use of this document The content of this document may be changed without prior notice Rev 1 04 TOKYO ELECTRON DEVICE LIMITED TB 7Z IAE Hardware User Manual inreviun B Revision History Rev 1 00 2015 04 22 Initial Version Rev 1 04 2015 10 06 Update for TB 7Z IAE Rev3 Kiguchi Added information 3 Feature Updated information 7 Main Specification Added information 8 Board Specification Added information 10 2 Power supply structure Updated information 10 3 Clock structure Added information 10 4 Board status LED Added information 10 5 6 PS POR B MR PS SRST Added information 10 6 Fixing screw hole Added information 10 8 microSD card socket CN902 Added information 10 12 QSPI Flash Added information 10 13 F RAM Added information 10 14 RTC Lo qp Rev 1 04 TOKYO ELECTRON DEVICE LIMITED TB 7Z IAE Hardware User Manual inreviun B Table of Contents EE ic
4. 7FFF FFFF H PL Peripherals 40 1 Gbyte 4600 0000 H 1FFF FFFF H PS DDR3 SDRAM 512 Mbyte 0004 0000 H GA PS On Chip Memory 0000 0000 H Res Figure 9 1 System address map Rev 1 04 TOKYO ELECTRON DEVICE LIMITED inreviun R 10 Description of Components 10 1 Zynq The TB 7Z IAE board is equipped with Zynq model number XC7Z020 1CLG4001 industrial grade type Zynq integrates a FPGA fabric in the ARM SoC It allows the utilization of diversity of components from high performance processor to user programmable logic as follows g Design of special interfaces such as industrial network o Design of hardware accelerator in cooperation with software Table 10 1 Onboard device specification Gerges 99 E Rev 1 04 TOKYO ELECTRON DEVICE LIMITED TB 7Z IAE Hardware User Manual inreviun B 10 1 1 Heat sink optional A dedicated passive heat sink is available as an option It can effectively improve the problems of a heat value of the Zynq device Consult our representative if needed OO EE 3 Ge M eir ces RA le aer cis a oO BERE O O O C O O O O O C m ee OH OH E Air ES tees oO CH O O O O C OCO C O C O CH O n GI 000000 un o0 eh E Si ed EN CA UC n C SS 0000000000 H IX A40000000000 sa 7 I Y O HE Voooooooooo Y Hun UM EE 000000 Figure 10 1 Heat sink Table 10 2 Thermal resistance Thermal resistance o A EI AI ooo 889 ECH E 288 NEE EI
5. Glossary of Terms The following is a supplementary explanation about the terms used in this document N B2B Board to Board o User Board Mother board designed by user which is equipped with TB 7Z IAE a Zynq Abbreviation of Zynq 7000 All Programmable SoC o ZynqPS Abbreviation of Zynq Processing System A hard macro block containing peripherals based on Zynq s ARMO Cortex A9 MPCore and memory controller a Zyng PL Abbreviation of Zynq Programmable Logic FPGA fabric LUT FF BRAM IO DSP CMT and others The onboard Zynq is equivalent to Artix 7 FPGA g Industrial Network MECHATROLINK III CC Link IE Field EtherCAT and others inclusive of protocols that cannot be realized by IEEE802 3 MAC Rev 1 04 TOKYO ELECTRON DEVICE LIMITED TB 7Z IAE Hardware User Manual inreviun B 5 Block Diagram Figure 5 1 shows a TB 7Z IAE block diagram VU VU Oo ge en Lal VU VU CO CO S b GE H AL O U x RTC n gt B2B C Connector O O T FRAM O XC72020 U CLG400 User A LED E O 33 333M m O 4 amp L PLL a amp oom P a 2ch GbE PHY 2ch RJ45 25MHz OSC v 2 097152M Q mo A JTAG PH micros DHE Socket Figure 5 1 TB 7Z IAE block diagram dV Id a B 0 Q O Rev 1 04 TOKYO ELECTRON DEVICE LIMITED TB 7Z IAE Hardware User Manual 6 External View of TB 7Z IAE Figure 6 1 shows the external view of the TB 7Z IAE board Configuraion ED USB User 25
6. gt 0 56A Zyng WECO Figure 10 2 Power supply structure Rev 1 04 TOKYO ELECTRON DEVICE LIMITED TB 7Z IAE Hardware User Manual inreviun B The TB 7Z IAE has an onboard power supply sequence controller It can operate on a 5V power supplied through a B2B connector CN901 from the user board If you are outside the input voltage range The TB 7Z IAE does not work properly If you were once out asserts the PS POR B MR of B2B connector please to perform a re boot 5V Supply Voltage tvr tpc E mesi din we Ut Figure 10 3 Recommended 5V supply voltage timing Rev 1 04 TOKYO ELECTRON DEVICE LIMITED TB 7Z IAE Hardware User Manual inreviun B 10 3 Clock structure The TB 7Z IAE board has the following clock source Figure 10 4 The words in parentheses show a signal name GbE PHY 25 00MHz OUT5 PLL Bypass 25 00MHz CLK_25M_GBE 25ppm gt CLKIN OSC Zynq PL OUTO PLL Bypass 25 00MHz OLK 25M OUT3 PLL 33 33MHz gt Zyno PS CLK PS CLK 33 333M OUT2 PLL Zynq PL 2 097152MHz CLK 2 09M OUT6 PLL USB2 0 PHY 26 00MHz CLK 26M Figure 10 4 Clock structure Table 10 3 Zynq clock input 3 PS CLK 33 333M 33 333MHz Clock for Zynq PS Rev 1 04 TOKYO ELECTRON DEVICE LIMITED inreviun R 10 4 Board status LED LED1 LED201 The current flow from the user board to the TB 7Z IAE board can be monitored
7. when it is used in development and functional evaluation of the TB 7Z IAE 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 and then always keep it handy If the TB 7Z IAE board is incorporated in other products refer to the respective delivery specification which contains definition of board specification use conditions guarantee conditions and others 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 injury damage and classify precautions if the product is handled incorrectly anger Indicates the high possibility of serious injury or death if the product is handled incorrectly Iw Indicates the possibility of serious injury or death if the product is handled arning incorrectly Indicates the possibility of injury or physical damage in connection with houses or aution household 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
8. 47 Figure 10 22 QSPI Flash E hee 48 Figure 10 23 F RAM WE 49 Figure 10 24 a Ne 51 Figure 10 25 RTC battery cGonnechon eee eee eee 52 Figure 11 1 Boot mode setting pins sse sees eee 53 Figure 12 1 JTAG mode setting pins sse sse eee eee 54 Figure 12 2 ARM 20 pin type JTAG reference chireun sse eee 55 Figure 13 1 Component side oscars 56 Rev 1 04 TOKYO ELECTRON DEVICE LIMITED TB 7Z IAE Hardware User Manual inreviun B List of Tables PETE celi A a ieii en aeie ia 13 Table 10 1 Onboard device specfcaion e eee eee ee eee 16 Table 10 2 Thermal resistoance eee eee ee 17 Table 103 Ang COCK NAM se ee a a 21 PETTEE 22 Table 10 5 B2B connector pin assignment eee ee ee ee e e e eee 24 Table 10 6 I O voltage setting of USER IOPION esse 29 Table 10 7 Connectable PS I O peripheral mtertace sse ee eee ee 31 Table 10 8 R J45 connector pin assignmment eee eee e eee ee 38 Table 10 9 Zynq Ethernet PHY pin assignment eee eee eee ee eee 40 Table 10 10 Zynq LED pin assignment eee ee ee eee 45 Table 10 11 Zynq F RAM pin assgomment esse eee eee e eee 50 Table 10 12 Zyng RTC pin assignment eee ee ee eee 52 Table 11 1 Boot mode Set MEE UU I 53 Table 12 1 JTAG mode setting E 54 ETT 56 Rev 1 04 TOKYO ELECTRON DEVICE LIMITED TB 7Z IAE Hardware User Manual inreviun B Introduction Thank you for purchasing the TB 7Z IAE board This user manual contains important information
9. DG D DG D DGND a l UA T ek G mJ EI E Ce cher 39050350 a laser e H Ro 244 Figure 10 13 Connection between a screw hole and the ground TOKYO ELECTRON DEVICE LIMITED inreviun R 10 7 Gigabit Ethernet CN1002 The TB 7Z IAE board is equipped with one 2 port Cat 5e RJ 45 connector capable of TIA EIA 568 B Figure 10 14 RJ45 connector This connector cable is hot swappable The connector supports 100M 1000Gbps auto negotiation and auto MDI MDI X Since the connector is connected to the Zynq PL it can be used after the completion of PL configuration TOKYO ELECTRON DEVICE LIMITED inreviun R Table 10 7 shows the R J45 connector pin assignment Table 10 8 R J45 connector pin assignment Mo seme fom meum O TRDO TX RX Channel 0 Positive Signal TRDO TRD1 LC TX RX Channel 1 Positive Signal TRD2 I O TX RX Channel 2 Positive Signal not used in 10Base T 100Base TX mode TRD2 UC TX RX Channel 2 Negative Signal not used in 10Base T 100Base TX mode TRD1 I O TX RX Channel 1 Negative Signal 7 P1 TRD3 1 0 TX RX Channel 3 Positive Signal not used in 10Base T 100Base TX mode TRD3 I O TX RX Channel 3 Negative Signal not used in 10Base T 100Base TX mode TRDO 1 0 TX RX Channel 0 Positive Signal TRDO I O TX RX Channel 0 Negative Signal TRD 1 UO TX RX Channel 1 Positive Signal TRD2 I O TX RX Channel 2 Positive Signal not used in 10Base T 100Base TX mode TRD2 UC TX RX
10. ELECTRON DEVICE LIMITED inreviun R 12 JTAG Mode Setting J305 The TB 7Z IAE board allows the selection of the JTAG mode of Zyna When the JTAG connector CN201 on the TB 7Z IAE board is used set the JTAG mode to Cascade Mode When ARM JTAG debugger is used via a B2B connector set the JTAG mode to Independent Mode Table 12 1 JTAG mode setting JTAG Mode J305 ENT Independent 1 2 High Figure 12 1 shows the JTAG mode setting pins The position of a triangular silk marking on the board indicates pin 1 DOS Figure 12 1 JTAG mode setting pins Rev 1 04 TOKYO ELECTRON DEVICE LIMITED inreviun R The circuit shown in Figure 12 2 is an example of the ARM 20 pin type JTAG connector connected to the USER MIO22 23 24 25 pin of a B2B connector R820 R821 R822 R823 R824 R825 47K 47K 47K 47K 47K 47K 3 3VDH3 3VD H3 3VDH3 3VDH3 3VDF3 3VD A A A A A A 3 3VD 3 3VD 1 1 2 RB O 3 4 user MOZ I BS T USER MQ25 pp USER MO ppp EM d E 9 10 mL 7E a EE USER MC23 DE t S e PS SRST E ENG H E oo 19 20 DGND ARM JTAG DGND DGND R826 R827 47K 47K Dit Dt o Dit Dt i 3 QD N rz 4 3 QD N 4 AG DX D De D803 D804 TPD4E1U06DCKR TPD4E1U06DCKR R828 R829 0 110W 0 110W DEND DEND Figure 12 2 ARM 20 pin type JTAG reference circuit For details about JTAG mode refer to XILINX s UG585 Zynq 7000
11. Fa user ono vo ue os sezsv aa PLO DEN rast po Grand al ow om Fa user oro vo Ke os asezsv aneneen o user ono vo ve o isezsv mamoDFN al ow Gena el po Fw oser orn vo Ko os asezsv engen ales vo se os isezsv mamoDFN a ow Gana al ow 9 9 ao user ore vo so os esor aneneen elen vo wm os TE el ow Ground al ow oem as oser ors vo Gv s esor aneneen as user ors vo co os fesores Sangen aa useR ons vo Gm os isezsv Za PLO OFFN ras ow 9 9 al ow 9 Ls userre vo e H AraPto rre sa oser or vo re os esoe Sangen Rev 1 04 TOKYO ELECTRON DEVICE LIMITED inreviun R Ts usemiome vo o os osoen amero sa usemiom7 vo fm os TEH s ow Ground al 0 om se user ore vo ea os fesores Sangen so usemiome vo rer os osos ZmqPLiOFFN Le useR one vo es os sezsv ara Pio rev ow Gena el po Grong Le usemioem vo e 39 esoe aneneen sa user orr vo bis os esoe restore Fes user ozo vo ao os asezsv
12. IAE Hardware User Manual inreviun B List of Figures Figure 5 1 TB 7Z IAE block dagram 11 Figure 6 1 Component side nennen nennen nnne nnn nnn nnn nnns 12 Figure 6 2 Solder SIC E 12 Figure 8 14 Board dimensions sss sse ese 14 Figure 9 1 System address map 15 Figure 10 1 Heat sink sese eee 17 Figure 10 2 Power supply structure 19 Figure 10 3 Recommended 5V supply voltage timiNg ooccccoocccncccoccncononcnncnnnoo 20 Figure 104 Clock SUITUCIUEG E 21 Figure 10 6 Status LEDS iien eaae E e AE A E N E 22 Figure 10 5 B2B connector connecting etruchure sse eee eee eee 23 Figure 10 6 nl e E 24 Figure 10 7 Power supply structure 28 Figure 10 8 I O voltage selection pm 29 Figure 10 9 PS POR B MR tiMiNQ coooccccnccnncoccncnocnnccnccnononononocononocnnnnnnnnnnnnnonnnnnnnnnnonenenonos 32 Figure 10 10 Example of user board Connection 33 Figure 10 11 TB 7Z IAE fixing screwhole sees eee 35 Figure 10 12 Connection between a screw hole and the ground 36 Figure 10 13 RJ45 connector sss esse eee 37 Figure 10 14 Gigabit Ethernet peripherals sse eee eee 39 Figure 10 15 microSD card eocket nennen mnnera 42 Figure 10 16 Method to insert remove tbhemicroGlcard sss 43 Figure 10 17 JTAG connector laa lc adi a 44 Figure 10 18 JTAG connector PIN E 44 Foure TONS LEN taras 45 Figure 10 20 DDR3 SDRAM sees 46 Figure 10 21 DDR3 SDRAM connections sss eee eee eee eee ee
13. has one QSPI NOR Flash Memory Spansion s S25FL128S or equivalent connected to Zynq PS go S25FL128S specs gt Cycling Endurance 100 000 Program Erase Cycles on any sector typical gt Data Retention gt 20 Year Data Retention typical It is a non volatile 16 Mbyte memory capable of storing Zynq PL configuration data OS boot up data and others Since all pins are connected to PS this does not allow a direct connection from PL REELL A i N 5j a i loa e EE Mi EE e S 499 A S 8 gt e Kai td E QSPI dl H Figure 10 23 QSPI Flash TOKYO ELECTRON DEVICE LIMITED TB 7Z IAE Hardware User Manual 10 13 F RAM The TB 7Z IAE board is equipped with one I2C Nonvolatile F RAM Cypress s FM24CL64B or equivalent connected to Zynq PL o FM24CL64B specs gt High endurance 100 trillion 1014 read writes gt Data retention Ambient Temperature TA TA 85 C 10 year TA 75 C 38 year TA 65 C 151 year Since it is connected to Zynq PL it cannot be used until Zynq PL configuration is completed It is a non volatile 16 Mbyte memory capable of storing various data E Ae a CO Fc s HEH GECKEN Le VI EEE Eal Figure 10 24 F RAM I2G slave address is as follows g 12C Write Address 10100000 0xA0 a 12 Read Address 10100001 0x A1 TOKYO ELECTRON DEVICE LIMITED TB 7Z IAE Hardware User Manual inrevi
14. power switch Do not disassemble the product Do not attempt this Rev 1 04 TOKYO ELECTRON DEVICE LIMITED TB 7Z IAE Hardware User Manual inreviun B Warning A In the event of a failure disconnect the power supply If the product is used as is a 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 Otherwise 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 Otherwis
15. AE Hardware User Manual inreviun B 1 Related documents All documents relating to this board can be downloaded from our website Board Fixture e Jumper short pin x 4 2 Overview This product is an embedded module TB 7Z IAE with Xilinx s Zynq 7000 All Programmable SoC device hereafter referred to as Zynq for use of industrial networking products 3 Feature o High performance embedded module consolidating Zynq and peripheral devices g Can support a wide variety of industrial network protocols by combining 2ch Gigabit Ethernet with Zynq Programmable Logic PL o High performance 32bit 1 066Mbps DDR3 SDRAM operating up to 512MByte a 16MByte Serial NOR Flash Nonvolatile F RAM microSD card socket for non volatile data storage microSD memory card is not included o B2B connector with 70 configurable user lOs and USB 2 0 g 5V single input power source having power supply sequence control function g Environmental tests IEC 61000 4 2 2008 IEC 61000 4 3 2006 A1 2007 A2 2010 IEC 61000 4 4 2012 IEC 61000 4 5 2005 IEC 61000 4 6 2008 IEC 61000 4 8 2009 IEC 61000 4 11 2004 EN 55022 2010 Class A EN 60950 1 2006 A2 2013 Class II lt gt Power Input Test VV VV VV VV WV lt gt Temperature Rise Measurement lt gt Impulse Test gt 1000Base T Compliance Test gt 100Base TX Compliance Test Qj RoHS Directive Rev 1 04 TOKYO ELECTRON DEVICE LIMITED TB 7Z IAE Hardware User Manual inreviun B 4
16. Channel 2 Negative Signal not used in 10Base T 100Base TX mode TRD1 I O TX RX Channel 1 Negative Signal 7 P2 TRD3 1 0 TX RX Channel 3 Positive Signal not used in 10Base T 100Base TX mode TRD3 I O TX RX Channel 3 Negative Signal not used in 10Base T 100Base TX mode TX RX Channel 0 Negative Signal Rev 1 04 TOKYO ELECTRON DEVICE LIMITED TB 7Z IAE Hardware User Manual inreviun B RXCLK RXDV RXER RXD 7 0 TXEN TXER TXD 7 0 100 1000 TXCLK Ethernet PHY RJ45 ZYNO TXRXP N with Integrated Magnetics and LED Vitesse 72020 1 4 XC72020 10LG400 CRS COL SC8502 PL Bank13 PORT1 PHY ADDRESS 1 INTB INTB 100 1000 RXCLK RADY RXER Ethernet PHY RJAS m RXD 7 0 TXRXP N with Integrated Z Vitesse Magnetics and LED XC7Z020 1CLG400 TXEN TXER VSC8502 TXD 7 0 LED L886 1C2T GA PL Bank34 PORTO TXCLK PHY ADDRESS 0 CRS COL LEE L886 1C2T GA PORT1 PORTO 10 100 1000 Ethernet PHY MDIO MDC Vitesse V5C8502 Common 25MHz Clock Figure 10 15 Gigabit Ethernet peripherals Rev 1 04 TOKYO ELECTRON DEVICE LIMITED inreviun R Table 10 9 shows the Zynq pin assignment Table 10 9 Zynq Ethernet PHY pin assignment wl S mme bm mmiocjemJue 7 1 eso wo Te s esv Managementdata 0 ot Gigon Ethernet Chart 2 cee moc o v se ssv Management data loo of Gigabit Eemer Cro and La oe envast o pio s av PHYResetofGwgabitetheretCht 4 Geipen
17. D7 I wi5 34 8 3V RX data7 of Gigabit Ethernet ChO 55 GBEO CRS 1 Ut8 34 33V Carrier sense of Gigabit Ethernet ChO 56 GBEO COL 1 P20 34 3 3v Collision detected of Gigabit Ethernet ChO GBE MDINTO 1 v20 34 33V PHY Interrupt of Gigabit Ethernet ChO Rev 1 04 TOKYO ELECTRON DEVICE LIMITED TB 7Z IAE Hardware User Manual 10 8 microSD card socket CN902 The TB 7Z IAE board is equipped with one microSD card socket Since all microSD card socket pins are connected to PS this does not allow a direct connection from PL microSD Socket uc og SS u E D e TP801 Z d Figure 10 16 microSD card socket Operation of this function is confirmed with below e MSD6 002GK HOOSDI TOKYO ELECTRON DEVICE LIMITED TB 7Z IAE Hardware User Manual inreviun I The microSD card is not hot swappable Do not apply pressure to any part of the socket when the card is not inserted The microSD card socket has a hinge type socket structure for card falling prevention Refer to Figure 10 17 for information on how to insert or remove the microSD card 1 Un lack 2 Open 4 Close Toe 4 E Si 4 pg w Y v xS B lt j i EE N D 100 9 S PS N Figure 10 17 Method to insert remove the microSD card TOKYO ELECTRON DEVICE LIMITED TB 7Z IAE Hardware User Manual inreviun 8 10 9 JTAG connector CN201 The TB 7Z IAE board is equipped with a connector that c
18. E Rev 1 04 TOKYO ELECTRON DEVICE LIMITED TB 7Z IAE Hardware User Manual inreviun B 10 1 2 References The following lists the Zynq related documents 1 DS190 Zynq 7000 All Programmable SoC Overview http www xilinx com support documentation data sheets ds190 Zynq 7000 Overview pdf 2 DS187 Zynq 7000 AP SoC 7010 and 7020 AC and DC Switching Characteristics Data Sheet http www xilinx com support documentation data sheets ds187 XC7Z010 XC7Z020 Data Sheet p df 3 UG585 Zynq 7000 Technical Reference Manual TRM http www xilinx com support documentation user_guides ug585 Zynq 7000 1RM paf 4 UG865 Zynq 7000 AP SoC Packaging and Pinout Specifications http www xilinx com support documentation user_guides ug865 Zynq 7000 Pkg Pinout pdf 5 UG821 Zynq 7000 AP SoC Software Developers Guide http www xilinx com support documentation user_guides ug821 zynq 7000 swdev paf 6 UG933 Zynq 7000 AP SoC PCB Design and Pin Planning Guide http www xilinx com support documentation user_guides ug933 Zynq 7000 PCB paf 7 EN247 Zynq 7000 AP SoC Production Errata http www xilinx com support documentation errata en247 pdf 8 UG471 7 Series FPGAs SelectlO Resources User Guide http www xilinx com Support documentation user guides ug471 7Series SelectlO pdf 9 UG472 7 Series FPGAs Clocking Resources User Guide http www xilinx com support documentation user_guides ug585 Zynq 7 000 TRM pdf 10 UG473 7 Series F
19. M microSD PHY LED FRAM RIC PLL asc ocket L c r FP mm p j 3133 Me DOLE ses a Power EA Ra mes Ewe du E ES LED E MITE TL i y JTAG D PH i M Zynq D E E VECO Ta Jumper 2ch GbE PHY QSP Flash DDR3 SDRAM zi 2ch s RJ45 BOOT 6 lt d Jumpers F a Si D X a W j G ke AR dy de A N l a N Figure 6 1 Component side B2B Connector Link i x A o ii TE EE AE AM TEMA E Figure 6 2 Solder side TOKYO ELECTRON DEVICE LIMITED inreviun R 7 Main Specification Table 7 1 shows the main specification of the TB 7Z IAE board For details and part number refer to the respective sections Table 7 1 Main specification Model Number TB 7Z IAE SoC Device Zynq AP SoC 512MByte SDRAM 1 066Mbps 16MByte NOR flash memory 64Kbit Non volatile F RAM B2B Connector 120pin connector 0 80mm pitch Gigabit Ethernet x 2 Onboard Peripherals USB 2 0 x 1 w o USB Connector microSD card socket Debugging Interface JTAG LED Clock Device PS and PL clock RTC device Power Supply DC 4 9V 5 10V Size 67 2mm W x 85 0mm D x 20 0mm H inclusive of connectors Junction temperature range 25 C 85 REO CORE een ee eu OC 50 C Rev 1 04 TOKYO ELECTRON DEVICE LIMITED TB 7Z IAE Hardware User Manual inreviun B 8 Board Specification Figure 8 1 shows the TB 7Z IAE board specification External dimensions 64 5 mm W x 85 0 mm H Number o
20. PGAs Memory Resources User Guide http www xilinx com support documentation user guides ug473 7Series Memory Resources pdf 11 UG474 7 Series FPGAs Configurable Logic Block User Guide http www xilinx com support documentation user guides ug474 7Series CLB pdf 12 UG479 7 Series FPGAs DSP48E1 Slice User Guide http www xilinx com support documentation user guides ug479 7Series DSP48E1 pdf 13 UG480 7 Series FPGAs and Zynq 7000 All Programmable SoC XADC Dual 12 Bit 1 MSPS Analog to Digital Converter User Guide http www xilinx com support documentation user guides ug480 7Series XADC pdf 14 UG116 Device Reliability Report http www xilinx com support documentation user guides ug116 pdf Rev 1 04 TOKYO ELECTRON DEVICE LIMITED TB 7Z IAE Hardware User Manual inreviun B 10 2 Power supply structure Figure 10 2 shows the power supply structure 5V Power CN9O1orTPB gar e pi TPS366000 pi selen 1V 1 8V gt 33V 1 5V 2 5V 1 8V ADC 0 gt TPS54597 Fe Zyna VCCINT VCCBRAM VCCPINT 1 8V Zyna VCCPAUX VCCPLL VCCAUX e LM26480 e Sen T es L I Zyna VCCOADC 0 022A yng 1 5V Zynq VCCODDER ma DDR3 3 3V Zyng WECO eo TLV62130 se SA GBE QSPI RTC EEPROM Security or 1P351206 Ger 0 75V DERS 2 5V e TL Vv62130
21. Technical Reference Manual Chapter 27 Rev 1 04 TOKYO ELECTRON DEVICE LIMITED inreviun R 13 Default Factory Setting Figure 13 1 shows the default factory switch setting Check the switch SENG at the area enclosed in a blue line EOL TPA sg a s 1 S 4 vi bi Di R VCCO Jumper J101 L ULdL 10EN un En a E ilr fa 4 ZOLJL Ri Eg BOOT Jumpers J303 J304 J305 Figure 13 1 Component side Table 13 1 Default setting impor sem we Boot Mode QSPI TOKYO ELECTRON DEVICE LIMITED TB 7Z IAE Hardware User Manual inreviun B TOKYO ELECTRON DEVICE LIMITED inrevium http solutions inrevium com HEAD Quarter Yokohama East Square 1 4 Kinko cho Kanagawa ku Yokohama City Kanagawa Japan 221 0056 TEL 81 45 443 4031 FAX 81 45 443 4063 Contact http solutions inrevium com contact index html Rev 1 04 TOKYO ELECTRON DEVICE LIMITED
22. VD DGND 2 2 de C806 iu DGND C807 2 2uF 10V Dit Df 3 OD NM rz R D2 De D801 TPD4E1U06DCKR Figure 10 11 Example of user board connection Rev 1 04 TOKYO ELECTRON DEVICE LIMITED TB 7Z IAE Hardware User Manual INreVIUT B 10 5 8 3 3VD Output Pin 113 outputs 3 3V signal from the DCDC on the TB 7Z IAE board Important In zynq it is not recommended that the I O is driven by an external circuit until the device VCCO starts up http japan xilinx com support answers 37347 html The completion of the VCCO startup can be confirmed by observing that the voltage of Pin 113 reaches 3 3V Rev 1 04 TOKYO ELECTRON DEVICE LIMITED inreviun R 10 6 Fixing screw hole The hole at each corner of the TB 7Z IAE board can be used as a fixing screw hole to hold a user board Screw hole diameter 03 2 Land diameter 7 J3 J4 3 map E WD fr Los Ha mcs E ge cm Heat Sink ui holes D dl RERA w dl J2 J1 Figure 10 12 TB 7Z IAE fixing screw hole TOKYO ELECTRON DEVICE LIMITED TB 7Z IAE Hardware User Manual Inrevium 8 Each screw hole has a land connected to a signal ground One of them is connected to the Fame ground of a RJ connector JA J2 J3 JA NIU MOUNTING HOLE M32 NIU MOUNTING HOLE M32 NI MOUNTING HOLE M3 2 NI MOUNTING HOLE MB 2 ri ri T T R37 R38 R39 R40 R41 NUO 1 10W O 1 10W 0 1 10N 0 1 10W 0 1 10 RI G DGD
23. an connect Xilinx s JTAG cable HW USB II G The JTAG connector is connected to the Zynq TAP controller allowing access from the JTAG cable to Zynq PS Zynq PL SCC i D 1 V E EM L e f e D zd E E JTAG PH E L A d E CH P _ S IVLdL 10ZNO Figure 10 18 JTAG connector Figure 10 19 shows the JTAG connector pin Look at the silk number 1 6 at both ends of the connector PEEEDD Figure 10 19 JTAG connector pin If the HW USB II G is connected use the HW USB FLYLEADS G DIGILENT s JTAG HS2 Programming Cable can also be used instead of the HW USB II G TOKYO ELECTRON DEVICE LIMITED TB 7Z IAE Hardware User Manual 10 10 User LED LED301 LED302 LED303 The TB 7Z IAE board is equipped with 3 user program controllable LEDs Since all pins are connected to PS this does not allow a direct connection from PL User w eem cocus 106031 E Hs S TP711 m A 9 AUT DL d HENO a Figure 10 20 User LEDs Table 10 10 shows the pin assignment between Zynq and LED Dir shows the signal direction using Zynq as a yardstick Each LED is turned on when the Zynq output pin is driven low Table 10 10 Zynq LED pin assignment meds ov Seng Beseipion dom o E EECHER ee o co vet amars mora uem o c e ama rs anos TOKYO ELECTRON DEVICE LIMITED i
24. by the onboard LED LED1 In addition the TB 7Z IAE board also provides another LED LED201 which shows the completion of Zynq PL configuration after TB 7Z IAE power up Table 10 4 Board status LED Configuraion LED LED201 SA 1902 m0 las ug Y i n Fia un Las m L rm M T T Figure 10 5 Status LEDs TOKYO ELECTRON DEVICE LIMITED TB 7Z IAE Hardware User Manual inreviun B 10 5 B2B connector CN901 The TB 7Z IAE board has one B2B connector on the solder side The connector is used to connect the TB 7Z IAE board and a user board Hot swapping is not allowed Zynq PS MIO Zynq PL IO 2 5 3 3V switchable Zynq PL IO 3 3V fixed USB 2 0 XADC input RTC battery power supply and ground pin are included The following connector or equivalent can mate with each other t SAMTEC s ERF8 Series gt ERF8 060 05 0 L DV K TR ERF8 060 07 0 L DV K TR Zyng AP Sot KOTZ 20 10LG400I1 AADC VI ONN 0 Zyng AP Sot XG Z zt 1CLaG4A001 crm L ER IOP 23 0 LISER ION 23 0 Zyng AP Sot KOTZ 20 10 LG400I1 PL BANK34 USER_GIO 1 1 0 USER MIO 9 0 PS SRST Zyng AP Sot KOTZ 20 10 154001 USE 2 0 Transceiver DM OP B2B Connector ID CFEN CLOCK SMSC USB3320 NXT DIR MES ERM8 080 02 01 D K TR Zyng AP Sot XC7Z020 16LGA400l FS BANKSOO PS FOR B MR Gigabit Ethemet Vitesse vSCS5O2 FRAM BATT TB 7Z 14E S D GNO Power Devices 3 3V0 Figure 10 6 B2B connec
25. de range of applications from low speed to high speed for example maximum rate of 875 Mbps can be realized per pin when utilizing LVDS low voltage differential signaling In single end configuration it targets maximum rate of 148 5Mbps Each UO supports LVCMOS33 LVTTL in 3 3V mode or LVCMOS25 LVDS 25 in 2 5V mode If LVDS 25 is used enable the termination of the DIFF TERM receiver An internal pull up is enabled from the power on to the completion of the Zynq PL configuration 10 5 3 I O voltage selection jumper of USER IOP N J101 USER IOP NO00 23 allows the selection of either 3 3V or 2 5V I O voltage using J101 Table 10 6 I O voltage setting of USER IOP ION Figure shows the jumper pin layout The position of an onboard triangle mark specifies the pin number 1 DOS Figure 10 9 1 O voltage selection pin Important Turn off the power supply of the TB 7Z IAE and the user board before performing the selection operation Otherwise it may cause damage to these boards Rev 1 04 TOKYO ELECTRON DEVICE LIMITED TB 7Z IAE Hardware User Manual inreviun B 10 5 4 USER GIO0 11 USER GIO0 11 directly connect the Zynq PL IO and its operation depends on the user circuit They are designed to cover a wide range of applications from low speed to high speed for example maximum rate of 100 Mbps can be realized per pin Each UO supports LVCMOS33 LVTTL An internal pull up is enabled from the power on to the c
26. e 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 04 TB 7Z IAE Hardware User Manual inreviun B AN 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 B Disclaimer This product is an evaluation board intended for evaluation of Xilinx s Zynq 7000 All Programmable SoC Tokyo Electron Device 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 Limi
27. e A e 9 NNN 9 S FEN 9 4 Glossary of Iemms eee ee eee 10 MEE 816 PIN 11 6 External View of TB 7Z 1AE rrrnnrnnnnnrnnnnnrnnnnnnvrnnnnnnnnnnnnnnnnnnnnnnvnnnnnrnnnnnnnnnnnennnnnrnnnnnennnsrennnnssennn 12 Le Nan PECCAN E 13 BTS ei eo ea ne 14 95 PENN ea 15 10 PENN P 16 10 1 74 A 16 VE HAR vrede ekke 17 VL FNS ene eee 18 10 2 POT SP STI Ered 19 10 3 KEN 21 10 4 Board status ELED LED H 2651 ere 22 10 5 B2B c nNEctor ONOO EE 23 10 5 1 Input power SQUICE siio vue eter rrr ih gren nk dai 28 10 5 2 USER IOPO00 23 USER IONOO 23 en erri Er nete Ri entia Fei nam nya disease ge 29 10 5 3 I O voltage selection jumper of USER IOP N Un0n1 29 100A USER CGIQOS TI 30 10 5 5 USER MI022 23 24 25 26 27 46 47 48 A0 31 10 5 5 PS POR B MR Po Sl 32 10 5 7 USB DP USB DM USB_CPEN USB VBUS USB ID 33 AM prey 34 10 6 g rek er djet re 35 10 7 eris eun NNN 37 10 8 microSD card socket CN902 j nennen nnn nn nnn nnns nna nn nnns aaa 42 10 9 JTAG OE A o EE e o PC O PO Ta 44 10 10 User LED LEDSOTLEDSO2 LED 303 esmas 45 1O DOR S DRAN EE pos 46 MOM PI e e o 48 10A FARAN ME 49 TOMA A E A HH Di 11 Boot Mode Setting J303 J304 cconoconnncconnccccccooocnnonnnnnononnnnnnccononononnonnnnnncnnnnnnnnnnannncnnnncnnnnns 53 2 NES MN IN 54 EC NTN MN 56 Rev 1 04 TOKYO ELECTRON DEVICE LIMITED TB 7Z
28. er board negative logic PS POR B MHR Power on reset PS SRST System reset The extent of influence by each reset is as follows g PS POR B MR Zynq AP SoC PS POR B inclusive of Debug info USB PHY Gigabit Ethernet PHY PS POR B MR tw E ET CN uer qu Figure 10 10 PS POR B MR timing o PS_SRST Zynq AP SoC SRST For details about the influence by each reset refer to XILINX s UG585 Zynq 7000 Technical Reference Manual Chapter26 If this reset function is not used on the user board leave it unconnected It is pulled up on the TB 7Z IAE Rev 1 04 TOKYO ELECTRON DEVICE LIMITED TB 7Z IAE Hardware User Manual inreviun B 10 5 7 USB DP USB DM USB CPEN USB VBUS USB ID This is a signal used to connect the USB PHY Microchip s USB3320 or equivalent connected to the Zynq PS on the TB 7Z IAE to the USB connector on the user board No need to install the USB PHY on the user board Dependent on the design of a user board it is possible to support HOST Device or OTG mode Figure 10 11 shows a reference circuit This circuit allows the selection of HOST Device or OTG by setting the jumper pin J804 J805 NRPNO21PAEN RC NRPNO21PAEN RC CN CN v R813 1K 1W CN804 67803 8020 USB VBUS R816 10K 1 10 4 E USB DM NA 2 ou A USB DP YO a3 S USB ID OTE TIT J802 J803 5 CD L NRPNO21PAEN RC NRPNO21PAEN RC 3 3
29. f layers 12 layers IVH Board thickness 1 8 mm Material FR 4 Surface treatment Electroless Gold Plating ke CO good cdm 2 apap CT CT CO co N CN ae CD i do LO CO Sp e LO OO DO II 10000 Bion nang 2 066 m d 26 314 e ar T S Ge sag Sa 60 64 5 Figure 8 1 Board dimensions Rev 1 04 TOKYO ELECTRON DEVICE LIMITED inreviun R 9 Address Map Figure 9 1 shows the TB 7Z IAE address map This address map is a basic setting It may be changed dependent on the software that will be executed by Zynq For the address map actually installed refer to the reference design manual and information provided from the OS vendor Details about address map Refer to XILINX UG585 Zynq 7000 Technical Reference Manual Chapter 4 Fb ERA PS On Chip Memary High Address if mapped FFFC 0000 H NS FDFF FFFF H PS OSPI Linear Address 16 Mbyte FCO 0000 H FSFO 2FFF H PS CPU Private Registers 6 Mbyte F890 0000 H Fag FFFF H PS System Registers 8 Mbyte F800 1000 H F800 OBFF H PS SLCR F800 0000 H 5 Kbyte E02F FFFF H PS IOP UART USB I2C SPI CAN GPIO GbE GSPI SDIO E000 0000 H 3 Mbyte BFFF FFFF H PL Peripherals 1 1 Gbyte 3000 0000 H
30. nreviun R 10 11 DDR3 SDRAM The TB 7Z IAE board is equipped with 2 DDR3 SDRAMs Micron s MT41K128M16JT 125 IT K or equivalent which are wired in a fly by topology to the Zynq PS They have a 32 bit data bus shared address and control signal with total capacity of 512 Mbyte and maximum data rate of 1 066 Mbps Since all pins are connected to PS this does not allow a direct connection from PL E ae x 5 a I a P j H ul N L H u E n c BA il Sch acu Figure 10 21 DDR3 SDRAM o Memory specification 2Gbit 16M x 16 x 8banks x 2chip g Address structure Bank 3bit Address 15bit Row address 15bit Column address 10bit o Data bus structure Byte access with data strobe signal DQS data mask for each byte TOKYO ELECTRON DEVICE LIMITED TB 7Z IAE Hardware User Manual Rev 1 04 XC7Z020 CLG4001 IC 101 BANK 502 DDR3 DM 1 0 DDR3 DQ 15 0 i DDR3 DQS 1 0 I DDR3 XDQS 1 0 DDR3 A 14 0 Joes zapen Joes am Joes xcas Jl forsone Joes oor III Joes ses J JJ forsee J JJ JJ boro xeeser J J J JJ leese J JJ III Jess JJ JJJ JI DDR3 DM 3 2 d DDR3 DQ 31 16 DDR3 DQS 3 2 DDR3 XDQS 3 2 inreviun I IC501 MT41K128M16JT 125 IT K IC601 MT41K128M16JT 125 IT K Figure 10 22 DDR3 SDRAM connections TOKYO ELECTRON DEVICE LIMITED inreviun R 10 12 QSPI Flash The TB 7Z IAE board
31. o we ss ssv t enabie of Gigi Ethemet Chi seen o vs m asv TXemoretGlabtEMemeCN Ls eeo o vv s ssv 1X ated of Gigabit Enemic 7 Gerner o ve 10 asv xsmerorGgantememetcm Fs seier o ve 1 fo TXeatad ofGigaditethemet Chi o osos o ve 19 e mxsmmorGgantememetom Go epos o ve s fom maeror cioar Enemic m cmos o we 10 asv TxsmssorGgantememetom Cw cos o we 1 ov maas of igadirethemet Chi a Gerner o ws 10 asv mxsmerorGgantememetcm Cw exremax o v 19 ss TKreterence cook of Gigabit themet Chi 15 caer pour 1 wr 19 asv TXeeeerGgebtEmemerch else i te s ssv AXxcock of Ggabi Ethernet or Tae 1 wii 1 asv Pxenororcigaotememercn else i vi ve ssv ATTE ENT else 1 ts 1 ov Axdatad of Gigabit Ethemet Cnt Fm cem i us ve Jev Axdatat ofGigabiethemet Gn caxo 1 viz 19 sov mxsmeeorGgamtememeom EIC i v ve ssv TEEN else 1 vu 19 asv exentas of Gigabit Ethemet Oni Ca Ger mxos i ve ve ssv Ax dated or Gigabit Etmemeren else 1 ve 10 ov Pxoarsor cigani Ememercn 2 cem i ws 1 ssv mXe mararGestEmemerOM else 1 ue 1 asv Carersense of Gagabitthemet Ch Ca see 1 we 1s av Colision detected of Gigabit tt 29 GeemDINT 1 wao s4 asv PHY ineruptot Gigabit Ethernet Crt Cw Goo env st o we s ssv PHY Resoro
32. ompletion of the Zynq PL configuration Rev 1 04 TOKYO ELECTRON DEVICE LIMITED TB 7Z IAE Hardware User Manual 10 5 5 USER MIO22 23 24 25 26 27 46 47 48 49 These connect the Zynq PS MIO directly which can be connected to the PS I O peripheral interface In Table 10 7 Connectable PS I O peripheral interface the blank area shows the shows the connectable pins Table 10 7 Connectable PS I O peripheral interface ZZOIN YISN EZOIN YISN vcOIN YISN SZOIN YISN 9ZOIN YISN ZZOIN YISN 9VOIN YISN ZvOIN YISN 8v0IN YISN 6vOIN YISN Ke EE gt 4 d is UARTO EN UART1 1260 O I2C1 U MOSI SO SCLK SS 0 gt CANO T B gt CAN1 SCL Ds Eu san 1 4 gio O PJTAG C j A GE fete s fefejaye 3 4 lt o S DATA O CMD LK SDIO1 DATA 1 oe DATA 3 J eo mt JD TJ Assignable pin group A J in the table is predetermined in each PS I O peripheral interface For example pin assignment across multiple groups i e MIO22 UARTO RX MIO27 UARTO TX is not permitted An exception is GPIO Only specific pin can be assigned to GPIO For details refer to XILINX s UG585 Zynq 7000 Technical Reference Manual Chapter 2 d Rev 1 04 TOKYO ELECTRON DEVICE LIMITED TB 7Z IAE Hardware User Manual inreviun B 10 5 6 PS POR B MR PS SRST It is possible to reset the TB 7Z IAE Zynq from the us
33. r Gioaor Etemercno rae comen o me sa asv Teneieorcioaor Ememercro a cso men o ns s ov TKenorol Gigabit ethemet Gnd Cw como o m oe EECHER as ceno o re s ssv vxsmmorGgamememscm as como o ne oe asv reenen 37 Goms o we s fom EEE TC rae amens o vio av TXemaeor ganrEmemerCo somos o ve s ov vxsmsorGgamememecm an cens o we s asv TxsmseorGganrememecm Rev 1 04 TOKYO ELECTRON DEVICE LIMITED inreviun R 41 GBEO TXD7 O ma 34 33v TX data7 of Gigabit Ethernet ChO EH GBEO GTX CLK oi vis 34 3 3v TX reference clock of Gigabit Ethernet ChO 43 GBEO TXCLK I Uta 34 3 3v TX clock of Gigabit Ethernet ChO 44 GBEO RXCLK I N20 34 3 3v RX clock of Gigabit Ethernet Cho 45 GBEO RXDV I Ri4 34 3 3v RX data valid of Gigabit Ethernet Cho 46 GBEORXER I P14 34 3 3v RX error of Gigabit Ethernet ChO GBEO RXDO os 34 33V RX data0 of Gigabit Ethernet ChO 48 GBEO RXDi I Yi7 34 3 3v RX data1 of Gigabit Ethernet ChO 49 GBEORXD2 I W14 34 3 3v RX data2 of Gigabit Ethernet Cho 50 GBEORXD3 I mu 34 3 3v RX data3 of Gigabit Ethernet ChO 51 GBEORXD4 I Tie 34 3 3v RX data4 of Gigabit Ethernet ChO 52 GBEORXDS I Ut7 34 3 3v RX data5 of Gigabit Ethernet ChO 53 GBEORXD6 I Vi5 34 33V RX data6 of Gigabit Ethernet ChO 54 GBEO RX
34. ted 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 The specification of this product is subject to change without prior notice The product is subject to discontinuation without prior notice Rev 1 04 TOKYO ELECTRON DEVICE LIMITED TB 7Z I
35. tor connecting structure Rev 1 04 TOKYO ELECTRON DEVICE LIMITED TB 7Z IAE Hardware User Manual B2B Connector la PETI Sib koh 4448 gt R HGE OR 4o AE B L TE Figure 10 7 B2B connector Table 10 5 B2B connector pin assignment shows a pin assignment between B2B connector and Zyna Dir shows the signal direction using Zynq as a yardstick DIFF P shows the positive side and DIFF N shows the negative side in case of differential signaling Table 10 5 B2B connector pin assignment No swane oR emoc ax lve af po cana ME po cGom Ls usemioroo vo Kw s osoz ZmqPLiO rFe La usemioei vo we os ssezsv remoorre 5 usemtomoo vo vie os osoz ZnaPLIO ORFN Ls oseon vo ws as esos Za PLO OFFN t ow Gana ef om oem TOKYO ELECTRON DEVICE LIMITED inreviun R Go osen oro vo mar os osoen Amro ora 2 user onos vo wie os TE rat ow Gena af po om Pas usemioe vo us 39 esoe anenee 6 user oros vo we os isezsv zmaroorra e user onos vo we os isezsv Zna PLO FEN ow Gouna al ow om or userre vo ma H aneneen Fm user oro vo us os asezsv zmaroora 23 user ronos vo ms os esoe ZmqPLiO OFFN
36. un B Table 10 11 shows the pin assignment between F RAM and Zynq Dir shows the signal direction using Zynq as a yardstick Table 10 11 Zynq F RAM pin assginment No Seite Dr zman fe O i pe 0 vammasest L2 po _ vnnmasest pe H La po ras s Pecsa o ne EE e mecs o EE Ao H La av ang Rev 1 04 TOKYO ELECTRON DEVICE LIMITED TB 7Z IAE Hardware User Manual ag 10 14 RTC The TB 7Z IAE board is equipped with one real time clock module Epson s RX 8564LC or equivalent connected to Zynq PS I2C It provides a calendar a time counter and a constant cycle timer interrupt showing year month day hour minute and second Since all pins are connected to PS this does not allow a direct connection from PL RIC foresees ee ee oer Bag EE le TET S TP711 ra or Fr m rk ar ma FT EN DI fea amfa ER sf LB min EP L14 H EI sp d on EE ep sare Fee 62 k Figure 10 25 RTC I2C slave addresses are as follows o 12C Write Address 10100010 0xA2 g 120 Read Address 10100011 0xA3 TOKYO ELECTRON DEVICE LIMITED TB 7Z IAE Hardware User Manual inreviun B Table 10 12 shows the pin assignment between Zynq and RTC Dir shows the signal direction using Zynq as a yardstick Table 10 12 Zynq RTC pin assignment wl Seite om zarn escritos I
37. zmapLioorrn Ces usemion vo 020 os osa Za PLO OFFN el ow Gena el ow rong Le usemioez vo H aneneen n ow Gena al 9 om Fw usen moer vo o sw om zmarso er usermos vo os sm sav zmeso Fer usen mon vo em sw om amarsio Fm usen mos vo er sm ow zmeso Fe usen mos vo ew sw om mero Fes user cioo vo ms 3 om amero as usera vo ms 3 om amano Fm usemoos vo we 3 aw zaro Fe usera vo vir 3 om amano Fe usemos vo vie 3 sw maro usero vo we 3 sw amaro o usero vo ma 3 om mme Fe usera vo mr 3 sw amar res usemciow vo wr 3 sw aaro Rev 1 04 TOKYO ELECTRON DEVICE LIMITED inreviun R Fw user con 10 me s sw amano IA ES SG E DGND Ground EE POR B MR Reset IC Zynq Power On Reset Active Low ee N ae eee ee Fer use us Iesel P ve i athe US cab el po 1 9 al ve PP dine SE Cae el wo 1 e 0 2 naxADCanaloginot OFF al po 6em w wo no 0 Y aman snaeg input OFF N el wen o pome use cee roof po coms mo vem 3 TT m eat ome T mf 99 oem m ang romer opor ml a Usel Eih us o Jor

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