Getting started with STEVAL-PCC010V1, ST802RT1 TX mode
Contents
1. Connectors UM0819 7 1 2 MII RMII connector P1 Figure 12 MII RMII connector P1 00640 Table 11 MII RMII connector P1 Pin Signal Pin Signal Pin Signal Pin Signal 1 GND 6 RXD3 11 TXER 16 TXDO 2 5 7 RXDO 12 RXER 17 TXD3 3 MDC 8 RXD1 13 TXEN 18 TXD2 4 MDIO 9 RXCLK 14 TXCLK 19 CRS 5 RXD2 10 RXDV 15 TXD1 20 COL 7 1 3 RJ45 connector J9 Figure 13 Ethernet RJ45 connector J9 front view 1 8 00641 Table 12 45 connector 49 Description Pin Description 1 TxData 2 TxData 3 RxData 4 NC 5 NC 6 RxData 7 NC 8 NC 21 37 Doc ID 16379 Rev 2 ky 0 0819 Connectors 7 2 Connectors of the STM32F107 controller board 7 2 1 USB connector CN1 Figure 14 USB connector CN1 um 00642 Table 13 USB connector CN1 Pin Signal Pin Signal 1 Vpus 4 ID 2 D 5 GND 3 D 6 SH 7 2 2 JTAG connector CN2 The 20 pin connector CN2 provides the JTAG interface This interface is primarily used for communicating with a PC using suitable USB JTAG converter box such as J Link from IAR Systems or R Link from Raisonance etc There exists a wide choice of development tools on the market supporting microcontroller Flash memory programming and application debugging Figure 15 JTAG connector CN2 2 4 6 8 10 12 14 16 18 20 1 3 5 7 9 11 13 15 17 19 00643 Doc ID 16379 Rev 2 22 37 Connectors2. Ay er ano X m L FE 2 d 991 GL iono g 9 Saa er O UM rca o L wom 4 daads Qd 2 Ux 2 4 03709395 991 QNS zaal 8 Aq Lar L 9 Sate FE 2 2 72 SEV GI 2 HAS 92H H dii _ df 9df eed gn 0 Q AJ 2n 2 Ago anotl Je3izzzzldieg4N Re 89741701 s AEE 4057 VOO L lt ACE OGQ1A En var L _ T AUAM ASE 16312222191 34 H 32 37 10 16379 2 0 0819 ST802RT1 TX mode Ethernet PHY demonstration board schematic Figure 22 ST802RT1 TX mode Ethernet PHY demonstration board schematic part 4 62900INV GND 014 9 901 QNO SNA sn 1e jou Ajeoid GND VN 82 VN
3. 19 7 Connectors 20 7 1 Connectors the ST802RT1 TX mode Ethernet PHY demonstration Board Lua 20 ky Doc ID 16379 Rev 2 2 37 Contents UM0819 7 1 1 MII RMII debugging connector J1 20 7 1 2 MII RMII 1 21 7 1 3 RJ45 connector 9 21 7 2 Connectors of the STM32F107 controller board 22 7 2 1 USB connector 22 7 2 2 JTAG connector 2 22 7 2 8 connector CNS 23 7 2 4 GPIO connector 4 24 8 List of transformers and RJ45 connectors with embedded transformers with turn ratio 1 414 1 25 Appendix ST802RT1 TX mode Ethernet PHY demonstration board BONI na se te Mor 26 Appendix STM32F107 controller demonstration board 28 Appendix C ST802RT1 TX mode Ethernet PHY demonstration board tcl eee bee d 30 Appendix D STM32F107 controller demonstration board schematic 34 Revision 224 EE 36 3 37 Doc ID 16379 Rev 2 0 0819 List of tables List of tables Table 1 Table 2 Table 3 Table 4 Table 5 Table 6 Table 7
4. rax 3HOO MIOXL 30 37 Doc ID 16379 Rev 2 0 0819 ST802RT1 TX mode Ethernet PHY demonstration board schematic Figure 20 ST802RT1 TX mode Ethernet PHY demonstration board schematic part 2 92900 1 QNO 4421 vO 2855 Ox ox 99 dau QNO UA ZL OH ZL 6H ZH das VN 092 VN 094 8H 9H VOOA YDA aNd QNO 3001 1 LO s 2 4 13534 _109 SHO OM OL tar gu 0 N3XL 1 H3XH H19XH 0 OXY 2 OXY OIQIN IN 4JOJOBUUOD Or S 4 001 00 du S 89 19 99 So 00 00 00 _ 11409 V99A 00 00 00 s Too 00 aNd 8100 2 9190 49 001 49 001 201 69 2 00 ov Lv Doc ID 16379 Rev 2 31 37 ST802RT1 TX mode Ethernet PHY demonstration board schematic ST802RT1 TX mode Ethernet PHY demonstration board schematic part 3 0 0819 21 8c900INV
5. 94 u 9855 Joyoedeo eq 10451591 ye pepeeu jou AjyeoidAy GZ Ley JeuuojsueJ Jepjos 942 99101 2 SNgA en peppequue luo 0185 QD 685 QD VN 006 6 8 Ol 1 LL 9 6 9L 485 VN VN J9UJJO0JSUEJ 44001 44001 Suolepuels 015 49 SaScy 7855 7 VOOA dau 001 819 S 0441 VOOA luo Doc ID 16379 Rev 2 33 37 0 0819 STM32F107 controller demonstration board schematic Appendix D STM32F107 controller demonstration board schematic Figure 23 STM32F107 controller demonstration board schematic part 1 JTAG USB device CN2 JTAG 3 3V CNI Ri 3 3 3V USB_1X90A 5 3 3 V 4 USBDN PA15 R6 USBDP 10 PA13 PA14 PB3 Wa 10 amp RESET MII RMII 10 kQ
6. 76732 0 0819 7 User manual Getting started with STEVAL PCCO10V1 ST802RT1 TX mode Ethernet PHY demonstration kit 1 Introduction The STEVAL PCC010V1 demonstration kit was designed to evaluate the ST802RT1 TX mode This device is a Fast Ethernet physical layer PHY interface which supports 100 Base TX and 10 Base T applications The PHY provides a Media Independent Interface MII and Reduced Media Independent Interface RMII for easy attachment to a 10 100 Media Access Controllers MAC The demonstration board features jumpers test points and connectors to test the ST802RT1 TX mode Ethernet PHY To quickly evaluate the microcontroller and physical layer the device can be connected to the STM32F107 controller demonstration board through an additional header connector The controller board is preprogrammed with a web server demonstration application The STM32F107 controller demonstration board is part of the STEVAL PCCO10V1 package delivery The board can be equipped with a dedicated digital connector compatible to the Spirent Communications SmartBits 200 2000 SMB 200 SMB 2000 analysis system Figure 1 ST802RT1 TX mode Ethernet PHY demonstration board top view Figure 2 May 2010 Doc ID 16379 Rev 2 1 37 www st com 0 0819 Contents Contents 1 Introduction 1 2 Boards key features 6 2 1 ST802RT
7. UM0819 7 2 3 Table 14 JTAG connector 2 Pin Signal Pin Signal Pin Signal Pin Signal RTCK connected to 1 3 3 V DC 6 GND 11 GND by R1 10 kQ 16 GND DBGRQ connected to 2 3 8 V DC 7 JTMS 12 GND 17 GND by R2 10 3 JTRST 8 GND 13 JTDO 18 GND DBGACK connected to 4 GND 9 JTCK 14 GND 19 GND by R14 10 5 JTDI 10 GND 15 NRST 20 GND Figure 16 JTAG connector CN2 schematic CN2 JTAG JTRST internal pull up JTDI internal pull up JTMS _ internal pull up JTCK internal pull down R1 RTCK 1 10 KQ JTDO NRST DBGRQ 10 KQ DBGACK 84 10 KQ 00644 MII RMII connector CN3 Figure 17 MII RMII connector CN3 00640 23 37 Doc ID 16379 Rev 2 ky 0 0819 Connectors Table 15 MII RMII connector CN3 Pin Signal Pin Signal Pin Signal Pin Signal 1 GND 6 RXD3 11 TXER 16 TXDO 2 5 V 7 RXDO 12 RXER 17 TXD3 3 MDC 8 RXD1 13 TXEN 18 TXD2 4 MDIO 9 RXCLK 14 TXCLK 19 CRS 5 RXD2 10 RXDV 15 TXD1 20 COL 7 2 4 GPIO connector CN4 Figure 18 GPIO connector CN4 2 4 6 8 10 12 14 16 18 20 0 0 0 a m 0 0 0 0 1 3 5 7 9 11 13 15 17 19 00645 Table 16 GPIO connector CN4 Pin Signal Pin Signal Pin Signal Pin Signal 1 GND 6 PD3 11 PD4 16 PEO 2 5 V 7 3 3 V 12 PC12 17 PD7 3 PAG
8. PA10 69 PC5 PC5 4 LL USBDN 11 70 PCA PC4 12 71 13 72 PC2 TXD 2 14 76 PCT MDC Test points PA15 77 PCO PCO PBO 35 PD15 1 15 43 3V PB1 56 PD14 3 3 2 37 Eu PB3 89 12 3 _ du PB4 90 PD11 RXD 2 di PBS 92 PDS RXDD PB7 93 PD8 RXDV TXD 3 PB8 95 PD7 E GND PB9 96 PD6 RXER PB10 47 PD5 11 48 PD4 TXD 0 PB12 51 PD3 TXD 1 PB13 52 PD2 14 53 PD1 15 54 4 xi 2 25 2 15 238 13 9 RESET 7 94 PE6 PE5 PE4 PE3 PE2 PE1 PE0 STM32F107_256K Gates 35 37 Doc ID 16379 Rev 2 ky 0 0819 Revision history Revision history Table 19 Document revision history Date Revision Changes 18 Nov 2009 1 Initial release 07 May 2010 2 Added Section 8 Doc ID 16379 Rev 2 36 37 0 0819 Please Read Carefully Information in this document is provided solely in connection with ST products STMicroelectronics NV and its subsidiaries ST reserve the right to make changes corrections modifications or improvements to this document and the products and services described herein at any time without notice All ST products are sold pursuant to ST s terms and conditions of sale Purchasers are solely responsible for the choice selection and use of the ST products and se
9. R7 R9 2 Resistor 1 2 1632396 R17 R18 R19 R20 R21 R22 8 Resistor 2 2 Farnell 1632417 R23 R24 R25 1 Resistor 3300 Farnell 1646224 R26 R28 R30 3 Resistor 2 Farnell 1632414 R27 R32 2 Resistor 470 Q Farnell 9367659 R29 1 Resistor 2200 Farnell 1646159 R33 A34 4 Resistor 750 Farnell 9331549 m is SB1 SB2 SB3 10 Soldering bridge Soldbridge SB4 585 SB10 tm 02 05 2 4 DVIULC6 2P6 ST DVIULC6 2P6 U3 1 LD1117S33 ST LD1117S33 04 H1300 pulse X1 1 Crystal 238 25 MHz Farnell 1712818 27 37 Doc ID 16379 Rev 2 0 0819 STM32F107 controller demonstration board BOM Appendix B STM32F107 controller demonstration board Table 18 Bill of material STM32F107 Designator Qt Description Value Order Not g assembled C1 C2 C8 Polarized capacitor 4 Farnell 1213794 surface mount C3 C4 2 Capacitor 100 nF_0805 Farnell 1414664 6 17 2 100 0603 4532004 C5 C7 C9 C10 C11 C12 C13 8 Capacitor 10 nF Farnell 1709948 C14 C15 C16 2 Capacitor 12 pF Farnell 1462447 Molex 675031020 CN1 1 socket USB MINI B USB_1X90A Farnell 1125348 SMT W PEGS CN2 j Header 20 pin dual Jtag Farnell 1099258 row with key Socket 20 pin dua
10. Table 8 Table 9 Table 10 Table 11 Table 12 Table 13 Table 14 Table 15 Table 16 Table 17 Table 18 Table 19 Auto negotiation jumper settings 16 PHY address jumper settings 16 Power down jumper settings 1 16 Loopback jumper 0 2 1 17 MII RMII jumper settings 17 interface selection 17 LEDs functionality alternative 1 1 17 LEDs functionality alternative 2 18 MII RMII interface selection by solder bridges SB1 SB2 and SB3 18 MII RMII debugging connector J1 20 MII RMII connector 1 21 HJ45 connector J9 4 ccce e Du px REED REN EROR XEM XE RE 21 USB connector 3224 thiya s e re du deeb dee Pe bens 22 connector 2 1 2 23 MII RMII connector 24 GPIO connector 24 Bill of material ST802RT1 TX mode
11. and the interface is isolated The power down functionality is also achievable by software by asserting bit 11 of register RNOO Table 3 Power down jumper settings Jumper Description Default configuration JP1 Power down if fitted PHY works normally if not fitted PHY is Fitted in power down mode Loopback Local loopback passes data internally from the transmitting to the receiving serial analog logic There are two ways to enter the internal loopback mode either writing RNOO register bit 14 MDIO MDC or by using boot strap LPBK pin Vpp enabled GND disabled through 2 2 kQ resistor Doc ID 16379 Rev 2 16 37 Configuration and functionality 0 0819 Table 4 Loopback jumper setting Jumper Description Default configuration JP8 LPBK loopback high internal loopback selected mainly for Low debug purposes low normal operation MII RMII mode selection A strapping option allows setting the operating mode of the MAC data interface Default operation no pull ups enable normal mode of operation Strapping CFO high will cause the device to be in Table 5 MII RMII jumper settings Jumper Description Default configuration JP9 MAC data interface selection Low JP10 CF1 MAC data interface selection Low Table 6 MII RMII interface selection CFO JP9 CF1 JP10 Low X RMII High Low 6
12. 1 1 2 21 Ethernet RJ45 connector J9 front view 21 USB connector CNT 22 RE ER EN E E ERE 22 JTAG connector CN2 zs sce sah Ex Rinse ER P REM REM n ER 22 JTAG connector CN2 schematic 23 MII RMII connector 4 1 23 GPIO connector CNA 24 ST802RT1 TX mode Ethernet PHY demonstration board schematic 1 30 ST802RT1 TX mode Ethernet PHY demonstration board schematic 2 31 ST802RT1 TX mode Ethernet PHY demonstration board schematic 32 ST802RT1 TX mode Ethernet PHY demonstration board schematic part 4 33 STM32F107 controller demonstration board schematic 1 34 STM32F107 controller demonstration board schematic 2 35 Doc ID 16379 Rev 2 ky 0 0819 Boards key features 2 Boards key features 2 1 ST802RT1 TX mode Ethernet PHY demonstration board ST802RT1 TX mode Fast Ethernet physical layer transceiver On board 3 3 V LDO regulator On board 25 MHz crystal 12 jumpers for boot strap configuration MII address auto negotiation loopback power down MII RMII configuration Several GND test points and jumpers for power consumption measurement Conne
13. 1 2 Solder bridges The 5 1 and SB2 solder bridges are used to connect 25 2 crystal X1 to the ST802RT1 TX mode PHY They can be removed to disconnect the crystal when external clock signal on test point MCO is used as the input clock 6 1 3 RESET button The RESET button resets the ST802RT1 TX mode PHY toits initial state 6 1 4 LEDs By default the LEDs have the following functionality Table 7 LEDs functionality alternative 1 LED Description Details LED1 BLINK for activity JP 16 is low LED2 BLINK for activity JP16 is high LED3 ON for 100 Mb OFF for 10 Mb JP17 is low LED4 ON for 100 Mb OFF for 10 Mb JP17 is high LED5 ON for link up OFF for link down JP18 is low LED6 ON for link up OFF for link down JP18 is high 17 37 Doc ID 16379 Rev 2 ky 0 0819 Configuration and functionality 6 2 6 2 1 Alternatively it is possible to change the meaning of LED1 LED6 by writing the PHY register 0d27 1 Table 8 LEDs functionality alternative 2 LED Description Details LED1 ON for full duplex BLINK for collision JP 16 is low LED2 ON for full duplex BLINK for collision JP16 is high LED3 ON for 100 Mb OFF for 10 Mb JP17 is low LED4 ON for 100 Mb OFF for 10 Mb JP17 is high LED5 ON for link up and BLINK for activity OFF for link down JP18 is low LED6 ON for link up and BLINK for activity OFF for link down JP18 is high LED8
14. 26 Bill of material 2 107 2 28 Document revision history 0 36 Doc ID 16379 Rev 2 4 37 List of figures 0 0819 List of figures Figure 1 Figure 2 Figure 3 Figure 4 Figure 5 Figure 6 Figure 7 Figure 8 Figure 9 Figure 10 Figure 11 Figure 12 Figure 13 Figure 14 Figure 15 Figure 16 Figure 17 Figure 18 Figure 19 Figure 20 Figure 21 Figure 22 Figure 23 Figure 24 5 37 ST802RT1 TX mode Ethernet PHY demonstration board top 1 STM32F107 controller demonstration board top view 1 ST802RT1 TX mode Ethernet PHY demonstration kit 7 ST802RT1 TX mode demonstration board connected to STM32F107 demonstration RC 9 Network connections dialog 24 10 Internet Protocol TCP IP Properties dialog 11 First page of the web server demonstration software 12 Board layout ST802RT1 TX mode Ethernet PHY demonstration board 13 Board layout STM32F107 controller demonstration board 14 Jumper configuration 2 15 MII RMII debugging connector J1 20 MII RMII connector
15. GRM188R60J105KA01 Farnell 1710296 C13 C16 2 Polarized capacitor 10 UF tantalum Farnell 1213794 STPS160A STMicroelectronics 01 V Schottky diode STPS2L40U STPS2L40U Tyco Electronics J1 1 Plug assembly 40 Connector 40 174218 2 Ji connector Fujitsu 238 040 J2 p header 2mm 2MM_REC J2 J8 banana receptacle 43 44 45 46 7 5 1 header GND Farnell 1593411 19 Pulse J00 0086NL with integrated magnetic JP1 JP4 JP5 JP6 JP7 JP19 7 2 jumper wire Jumper Farnell 1593411 JP20 JP8 JP9 JP10 JP11 JP12 JP13 JP14 11 3 jumper wire Jumper3 Farnell 1593412 JP15 JP16 JP17 JP18 11 12 2 Ferrite bead Farnell 9528172 Murata LED1 LED2 2 LED Yellow Farnell 1226420 LED3 LED4 LED8 3 LED Red Farnell 1226392 LED5 LED6 2 LED Green Farnell 1226373 ky Doc ID 16379 Rev 2 26 37 ST802RT1 TX mode Ethernet PHY demonstration board BOM 0 0819 Table 17 Bill of material ST802RT1 TX mode continued Designator Qty Description Value Order Not assembled P1 1 Header 20 dual row Header 10 x 2 Farnell 1593446 R1 1 Resistor 5 6 1514773 2 1 Resistor 91 KQ Farnell 1646361 R3 R4 2 Resistor 10 KQ 1601277 5 1 Resistor 1 MONA Farnell 1631320 R5 R6 R8 2 Resistor 7500 Farnell 1399909 R6 R8
16. MCO TXD_2 RB 7 remove fit AS SB1 MCO aD RXCLK_MCU 10 8 fit B2 RXCLK PHY aD RXCLK_MCU MII connector 7 fit remove 45V MDC MDIO RXD_2 RXD_3 RXD 0 RXD 1 RXCLK PHY RXDV TXER RXER VDDA TXEN TXCLK T R10 TXD_1 TXD 0 TXD_3 TXD_2 470 SB4 CRS COL Header 10X2 a eader 10 mir BLM18BA0SOSN1D C8 iOpgF 10nF 6 3 V 483V STM32F107_256K rz 3 3 V cio 11 oot option 12 10nF 10 10n 10 nF BOOTO 10 Header 10X2S 00631 ky Doc ID 16379 Rev 2 34 37 STM32F107 controller demonstration board schematic UM0819 Figure 24 STM32F107 controller demonstration board schematic part 2 Tm 3 3 M LD2 Jy Reset LED1 2 1 3 T 1 2 LED2 5 RESET C 1 RESETI I 3300 2200 p a C6 Yellow Green 70 Q 100 nF Power supply 45V 101117533 43 3V 1 21861 103 40 pr 2 6 3V General purpose button 43 3V Roe u eH PA 0 WKUP PC15 OSC32_OUT FCIS cpp T PA 1 PC14 OSC32_IN 25 PC13 LED1 COL 26 12 12 10 R8 4 29 11 _ BUTTON FAS Td E PC10 31 PC9 PC9 PA7 32 41017 MCO 67 PC7 PC7 T 100 nF 9 68 PC6
17. settings assigned automatically if your network supports Show icon in notifica this capability Otherwise you need to ask your network administrator for Notify me when this the appropriate IP settings Internet Protocol TCP IP Properties Obtain an IP address automatically Use the following IP address IP address 192 168 0 4 Subnet mask 255 255 255 0 Default gateway Dbtain DNS server address automatically Use the following DNS server addresses Preferred DNS server Alternate DNS server c Change you IP settings to IP address 192 168 0 4 Subnet mask 255 255 255 0 d Disable firewall s running on your PC Doc ID 16379 Rev 2 ky 0 0819 Getting started Figure 7 7 Run your web browser and open page http 192 168 0 8 You should be able to see the first page of the web server running on the demonstration kit First page of the web server demonstration software Eile Edit Favorites Tools Help 2 JO search Sie Favortes B a http 192 168 0 8 STM32 Connectivity Line and ST8O2RT1 PHY Microsoft Internet Explorer provided by Corporate Package Fabric st J STMicroelectronics Ly STM32 Connectivity Line and ST802RT1 PHY Complete Ethernet Connectivity Solution STM32 CORTEX M3 32 bit Microcontrollers The
18. 1 TX mode Ethernet PHY demonstration board 6 2 2 STM32F107 controller demonstration board 6 3 General system description 7 4 Getting 8 4 1 Package contents 8 4 2 How to run the demonstration software 8 5 Boards layo t Wikus eee 13 5 1 Board layout ST802RT1 TX mode Ethernet PHY demonstration Boardi a 13 5 2 Board layout STM32F107 controller demonstration board 14 6 Configuration and functionality 15 6 1 Configuration and functionality ST802RT1 TX mode Ethernet PHY demonstration board 15 6 1 1 Boot strap options 15 6 1 2 Solder bridges ks xv Ex eR RE hs 17 6 1 3 17 6 1 4 EEDS 5 ew Suma a 17 6 1 5 Test point RR AUR d 18 6 2 Configuration and functionality STM32F107 controller demonstration saraa 18 6 2 1 MII RMII configuration 18 6 2 2 BUtONS os ae aci C a NC e gt a n e ET a 19 6 2 3 LEDS ER Er E 19 6 2 4 Test point
19. 15 used for indicating that the board is powered Test point The test point MCO can be used to connect external clock signal to clock input of the STM802RT1A PHY in MII mode Note that the 25 MHz crystal X1 has to be disconnected from the ST802RT1 TX mode PHY by removing solder bridges SB1 and SB2 before connecting any external signal to the test point Configuration and functionality STM32F107 controller demonstration board configuration The STM32F107 controller demonstration board can be configured to communicate with Ethernet PHY using either or RMII interface The configuration is done using three solder bridges SB1 SB2 and SB3 Table 9 MII RMII interface selection by solder bridges SB1 SB2 and SB3 SB1 SB2 SB3 MII Remove Remove Fit RMII Fit Fit Remove In MII mode the ST802RT1 TX mode Ethernet PHY demonstration board can be clocked either from its on board 25 MHz crystal oscillator or by the 25 MHz clock signal output from the STM32F107 controller demonstration board see Section 6 1 5 and 6 2 4 Both MCO pins test points must be interconnected by an additional wire In mode the ST802RT1 TX mode Ethernet PHY demonstration board is clocked from the 50 MHz clock signal output delivered from the STM32F 107 controller demonstration board Doc ID 16379 Rev 2 18 37 Configuration and functionality UM0819 6 2 2 6 2 3 6 2 4 19 37 Buttons Ther
20. 16379 Rev 2 437 ST802RT1 TX mode Ethernet PHY demonstration board schematic 0 0819 demonstration board schematic Appendix ST802RT1 TX mode Ethernet PHY Figure 19 ST802RT1 TX mode Ethernet PHY demonstration board schematic part 1 Sc900INV LNV LOV aaaas 09395 Od oNV dd3ds d31 lt G31 N3 das 3409 LX 3409 3409 WOOA 134 ddl 401 NGL LZ JOZ 161 8L 41 9L gag dE a gt 13409 VODA SL Eb yoon 139 INV LOV ONv d33dS 011 NYAN vr Oxu duuaxu vax suo 0949 IIW AQXH 26 86 66 Sub 45 lt 11920815 lt lt Na XL lt XL Py Nas 8 17 ler jer vv 5 jor T epouu xL QNO 190815 102 0 Ln AXE Nas axuc 3802
21. 8 15 13 PD5 18 PE1 4 PD2 9 GND 14 PC7 19 GND 5 PA5 10 PC10 15 PD6 20 3 3 V ky Doc ID 16379 Rev 2 24 37 List of transformers and RJ45 connectors with embedded transformers with turn ratio 1 414 1 8 25 37 List of transformers and RJ45 connectors with embedded transformers with turn ratio 1 414 1 HALO Electronics Inc www haloelectronics com e HFJ11 2477E L12RL RJ45 with integrated transformer e 110 5177 transformer Pulse www pulseeng com e J00 0086NL RJ45 with integrated transformer e H1300NL transformer EPCOS WWW epcos com e B78477P1001A314 RJ45 with integrated transformer YUAN DEAN SCIENTIFIC CO LTD www yds com tw e 49F 12171GYDXNL RJ45 with integrated transformer Doc ID 16379 Rev 2 ky 0 0819 ST802RT1 TX mode Ethernet PHY demonstration board BOM Appendix 51802 1 TX mode Ethernet PHY demonstration board BOM Table 17 Bill of material ST802RT1 TX mode Designator Qt Description Value Order Mot 9 assembled GM Electronic 1 1 button DT2112C RESET 630 121 Farnell 9471898 C1 C2 2 Capacitor 10 nF Farnell 1709948 C3 C4 2 Capacitor 12 pF Farnell 1462447 C5 C6 C7 C9 C10 C11 C14 15 17 18 11 Capacitor 100 nF Farnell 4532004 C10 C17 C19 1 uF Murata Murata C8 C12 2 Capacitor Manufacturing Co Ltd GRM188R60J105KA01
22. NLY BE USED IN AUTOMOTIVE APPLICATIONS AT USER S OWN RISK Resale of ST products with provisions different from the statements and or technical features set forth in this document shall immediately void any warranty granted by ST for the ST product or service described herein and shall not create or extend in any manner whatsoever any liability of ST ST and the ST logo are trademarks or registered trademarks of ST in various countries Information in this document supersedes and replaces all information previously supplied The ST logo is a registered trademark of STMicroelectronics All other names are the property of their respective owners 2010 STMicroelectronics All rights reserved STMicroelectronics group of companies Australia Belgium Brazil Canada China Czech Republic Finland France Germany Hong Kong India Israel Italy Japan Malaysia Malta Morocco Philippines Singapore Spain Sweden Switzerland United Kingdom United States of America www st com 37 37 Doc ID 16379 Rev 2 ky
23. STM32 family of 32 bit Flash Microcontrollers is based the breakthrough ARM Cortex M3 core a core specifically developed for embedded applications STM32 family benefits from the Cortex M3 architectural enhancements including the Thumb 2 instruction set to deliver improved performance with better code density significantly faster response to interrupts all combined with industry leading power consumption The STM32 family is built to offer new degrees of freedom to MCU users It offers a complete 32 bit product range that combines high performance real time low power and low voltage operation while maintaining full integration and ease of development Compatibility of pin assignments peripherals and software across all STM32 devices is a core technical feature throughout this family of STSO2RT1 10 100 real time Ethernet 3 3 V transceiver The ST802RT1 is a high performance Fast Ethernet physical layer interface for 10Base T and 100Base TX and 100Base FX narn applications It is designed with advanced CMOS Pre technology to provide I 4 interfaces for easy uro cns attachment to 10 100 Media Access Controllers ST802RT1 supports the 100Base TX of IEEE802 3u and 10Base T of IEEE802 3 and 100Base FX of IEEE 802 3u The ST802RT1 supports both half duplex and full duplex operation at 10 and 100Mbps operation Its operating mode can be set using auto negotiation para
24. ctors 20 full pitch header connector for debug purposes compatible to the STM32F107 controller board 40 pin connector compatible to the Spirent Communications SmartBits 200 2000 SMB 200 SMB 2000 analysis system not assembled RJ45 connector with embedded transformer 2 2 STM32F107 controller demonstration board STM32F 107 connectivity line Cortex M3 based microcontroller with embedded Ethernet MAC On board 3 3 V LDO regulator On board 25 MHz crystal Reset button power LED general purpose button and two LEDs Connectors 20 full pitch header connector for debug purposes and compatibility to the ST802RT1 TX mode demonstration board 20 JTAG connector A Additional general purpose 20 pin full pitch header connector USB device connector 5 V power supply Doc ID 16379 Rev 2 6 37 General system description 0 0819 3 General system description The STEVAL PCC010V1 ST802RT1 TX mode Ethernet PHY demonstration kit consists of two boards The ST802RT1 TX mode demonstration board was designed to evaluate the chip It therefore allows to easily select the PHY boot options to evaluate the PHY boot options to evaluate the power consumption of the chip and to attach the device to the professional test equipment In addition the STM32F 107 controller demonstration board can extend the ST802RT1 TX mode demonstration board with STM32 microcontroller and its embedded MAC Thi
25. e are two buttons on the STM32F 107 controller demonstration board The RESET button resets the STM32F107 MCU to its initial state The B1 general purpose button is connected to PA4 pin of STM32F107 MCU and is active low LEDs There are three LEDs on the STM32F 107 controller demonstration board LD1 and LD2 are general purpose LEDs connected to PC13 and PC14 pins of the STM32F107 MCU LD3 is used for indicating that the board is powered Test point MCO There is MCO Main Clock Output clock signal of STM32 available on this test point which can be used as input clock source of the ST802RT1 TX mode PHY Doc ID 16379 Rev 2 ky 0 0819 Connectors 7 Connectors 7 1 Connectors of the ST802RT1 TX mode Ethernet PHY demonstration board 7 1 1 MII RMII debugging connector J1 Figure 11 MII RMII debugging connector J1 00639 Table 10 debugging connector J1 Pin Signal Pin Signal Pin Signal Pin Signal 1 5 V 12 TXCLK 23 GND 34 GND 2 MDIO 13 TXEN 24 GND 35 GND 3 MDC 14 TXD 0 25 GND 36 GND 4 RXD_3 15 TXD_1 26 GND 37 GND 5 RXD_2 16 TXD_2 27 GND 38 GND 6 RXD_1 17 TXD_3 28 GND 39 GND 7 RXD 0 18 COL 29 GND 40 Not connected 8 RXDV 19 CRS 30 GND 41 GND 9 RXCLK 20 Not connected 31 GND 42 GND 10 RXER 21 5 32 GND 11 TXER 22 GND 33 GND Doc ID 16379 Rev 2 20 37
26. e demonstration software delivered with the ST802RT1 TX mode Ethernet PHY demonstration kit The software implements a simple web server based on ulP TCP IP stack The web server consists of three pages displaying general information about the STM32 and ST802RT1 TX mode allowing to control LEDs on the STM32F107 controller board and finally showing the content of the ST802RT1 TX mode registers To run the demonstration software you need a demonstration kit an Ethernet cable and a PC with a web browser Follow the steps below 1 Connect the boards delivered in the package as shown on the Figure 4 Doc ID 16379 Rev 2 8 37 Getting started UM0819 Figure 4 ST802RT1 TX mode demonstration board connected to STM32F107 demonstration board 2 Setup properly jumpers on the ST802RT1 TX mode Ethernet PHY demonstration board The software does not change any settings of the PHY it reads the settings from the PHY instead See Section 6 1 for more details about board setup 3 Connect ST802RT1 TX mode Ethernet PHY board to STM32F107 controller board 4 Connect Ethernet cable to the ST802RT1 TX mode Ethernet PHY board on one side and to the PC on the other side 5 Flash the demonstration software into the Flash memory of the STM32F107 MCU 6 Configure your PC The following description is valid for Windows XP nevertheless it is easy to setup any other operating system in a similar way a Setup network settings in C
27. ink state is signaled Doc ID 16379 Rev 2 ky 0 0819 Configuration and functionality Table 1 Auto negotiation jumper settings Jumper Description Default configuration JP16 1 High JP17 AN O High JP18 AN EN 5 Auto negotiation enable when high auto High negotiation enabled when low auto negotiation disabled 1 See functionality of AN_xxx pins in the ST802RT1 product documentation PHY address The MDIO MDC serial management interface is used to access the internal registers of the PHY The Ethernet MAC that is connected to the PHY must know the appropriate PHY address for successful communication Special case is the PHY address 0x00 If this address is used as the bootstrap address during the reset the 00000 value is latched into the internal receive mode control register RN14 0x14h but the PHY goes also to the isolation mode It is possible to change the PHY address by writing the RN14 register later when application is already running Table 2 PHY address jumper settings Jumper Description Default configuration JP11 address 0 High JP12 MIl address 1 Low JP13 address 2 Low JP14 address Low JP15 MII address 4 Low Power down This pin is an active low input of the PHY and should be asserted low to put the device in a power down mode During the power down mode TXP TXN outputs and all LED outputs are 3 stated
28. l Farnell 1593494 1 row side mounting Socket 10x2 BF620GD GME 832 009 Socket 20 pin dual Farnell 1593494 CNA row side mounting cuil GME 832 009 Inductor 11 1 BLM18BA05OSN1D BEAD Farnell 1515680 Typical red green LD1 1 yellow amber GaAs Yellow Farnell 1226420 LED Typical red green LD2 1 yellow amber GaAs Green Farnell 1226373 LED Typical red green LD3 1 yellow amber GaAs Red Farnell 1226392 LED R1 1 Resistor 1 5 kQ_0603 Farnell 1632406 R2 R4 2 Resistor 22 0603 Farnell 1692521 R3 R6 R7 R8 R9 R12 6 Resistor 10 kQ_0603 Farnell 1601277 R5 1 Resistor 1 MQ_0603 Farnell 1631320 R5 R10 1 Resistor 47 0603 1646283 11 1 Resistor 0 Q 0603 Farnell 1573911 R13 1 Resistor 330 Q Farnell 1646224 ky Doc ID 16379 Rev 2 28 37 STM32F107 controller demonstration board BOM 0 0819 Table 18 Bill of material STM32F107 continued Designat at Description Val Order Not esignator y escriptio alue assembled R15 1 Resistor 470 Q Farnell 9367659 R14 1 Resistor 220 Q Farnell 1646159 GME 630 121 Farnell RESET1 1 Switch Reset 9471898 GME 630 121 Farnell RESET2 1 Switch 1 9471898 02 1 MCU STM32F107_256K ST STM32F107 U3 jo Low drop voltage LD1117S33 ST LD1117S33 regulator X1 1 Epson Crystal 238 25 MHz 1712818 SET SB2 9B3 4 Solder bridge SB1 SB2 SB4 29 37 Doc ID
29. llel detection or manual control It also allows for the support of autonegotiation functions for speed and duplex detection The Automatic MDI MDIX feature compensates for using a cross over cable My Computer 8 You can also ping to the board using ping command on your PC Doc ID 16379 Rev 2 12 37 Boards layout UM0819 5 5 1 13 37 Boards layout Board layout ST802RT1 TX mode Ethernet PHY demonstration board Figure 8 Board layout ST802RT1 TX mode Ethernet PHY demonstration board Power Solder Reset Speed LED bridges ST802RT1 button LEDs LEDs LEDs 0000000007 00 0000000000 MI RMII debugging MILA MII RJ45 connector connector connector not assembled Doc ID 16379 Rev 2 ky 0 0819 Boards layout 5 2 Board layout STM32F107 controller demonstration board Figure 9 Board layout STM32F107 controller demonstration board Reset Power USB STM32F 107 Solder button LED connector MCU bridges GPIO LED JTAG User LED MILA MILL connector connector button connector Doc ID 16379 Rev 2 14 37 Configuration and functionality UM0819 6 6 1 15 37 Configuration and functionality This section describes the functions and configuration of STM802RT1A Ethernet PHY demonstration board and STM32F 107 controller demonstration board Configuration and functionality ST802RT1 TX mode Etherne
30. ontrol Panel Network Connections right click your network card and open Properties 9 37 Doc ID 16379 Rev 2 ky 0 0819 Getting started 4 Figure 5 Network connections dialog box Network Connections File Edit View Favorites Tools Advanced Help Back 2 2 Search le Folders Address e Network Connections Network Tasks TINA Remote Access Disconnected See iso IBM Integrated 56K Modem 41 Network Troubleshooter LAN or High Speed Internet Other Places Wireless Network Connection Disabled Control Panel Intel R PRO Wireless 220086 3 My Network Places 4 Local Area Connection 3 My Documents Connected 4 My Computer 1 Broadcom Netxtreme Gigabit Details Network Connections System Folder b Select IP protocol properties select Internet Protocol TCP IP and click Properties Doc ID 16379 Rev 2 10 37 Getting started UM0819 11 37 Figure 6 Internet Protocol TCP IP Properties dialog box Local Area Connection Properties General Authentication Connect using Broadcom Gigabit Ethene This connection uses the following items Client for Microsoft Networks d E acfilt Driver File and Printer Sharing for Microsoft Networks Internet Protocol TCP IP Description Transmission Control wide area network p General across diverse interc General You can get IP
31. rvices described herein and ST assumes no liability whatsoever relating to the choice selection or use of the ST products and services described herein No license express or implied by estoppel or otherwise to any intellectual property rights is granted under this document If any part of this document refers to any third party products or services it shall not be deemed a license grant by ST for the use of such third party products or services or any intellectual property contained therein or considered as a warranty covering the use in any manner whatsoever of such third party products or services or any intellectual property contained therein UNLESS OTHERWISE SET FORTH IN ST S TERMS AND CONDITIONS OF SALE ST DISCLAIMS ANY EXPRESS OR IMPLIED WARRANTY WITH RESPECT TO THE USE AND OR SALE OF ST PRODUCTS INCLUDING WITHOUT LIMITATION IMPLIED WARRANTIES OF MERCHANTABILITY FITNESS FOR A PARTICULAR PURPOSE AND THEIR EQUIVALENTS UNDER THE LAWS OF ANY JURISDICTION OR INFRINGEMENT OF ANY PATENT COPYRIGHT OR OTHER INTELLECTUAL PROPERTY RIGHT UNLESS EXPRESSLY APPROVED IN WRITING BY AN AUTHORIZED ST REPRESENTATIVE ST PRODUCTS ARE NOT RECOMMENDED AUTHORIZED OR WARRANTED FOR USE IN MILITARY AIR CRAFT SPACE LIFE SAVING OR LIFE SUSTAINING APPLICATIONS NOR IN PRODUCTS OR SYSTEMS WHERE FAILURE OR MALFUNCTION MAY RESULT IN PERSONAL INJURY DEATH OR SEVERE PROPERTY OR ENVIRONMENTAL DAMAGE ST PRODUCTS WHICH ARE NOT SPECIFIED AS AUTOMOTIVE GRADE MAY O
32. s allows to quickly evaluate application on the embedded microcontroller and the Ethernet PHY By default the controller board is preprogrammed with a web server application for demonstration purposes Figure 3 ST802RT1 TX mode Ethernet PHY demonstration kit STM32F107 ST802RT1 TX mode demonstration board demonstration board STM32F107 E ST802RT1 Transformer 10 100 AE TQFP48 00638 Figure 3 shows the ST802RT1 TX mode Ethernet PHY demonstration kit It consists of two boards the ST802RT1 TX mode Ethernet PHY demonstration board and the STM32F 107 controller demonstration board connected through the MII RMII connector 7 37 Doc ID 16379 Rev 2 ky 0 0819 Getting started 4 4 1 4 2 Getting started This section briefly describes how to start using the STEVAL PCC010V1 ST802RT1 TX mode Ethernet PHY demonstration kit To use this demonstration kit you must install a web browser on your computer Package contents The ST802RT1 TX mode Ethernet PHY demonstration kit includes the following items Hardware content e ST802RT1 TX mode Ethernet PHY demonstration board e STM32F107 controller demonstration board Software content e Web server demonstration software based TCP IP stack Documentation e STMS32F107xx datasheet ST802RT1 product documentation e This user manual How to run the demonstration software This section describes th
33. t PHY demonstration board In this chapter jumper high means that the jumper is placed in the position closer to the top edge of the board and low means that the jumper is placed in the position closer to the bottom edge of the board as shown by Figure 10 Figure 10 Jumper configuration High Low Boot strap options The ST802RT1 TX mode PHY uses many of the functional pins as strap options The values of these pins are sampled during hardware reset and power up They are used to strap signals on the device into specific modes of operation The ST802RT1 TX mode provides a simple strap option to automatically configure the device to operate in the modes requiring no device register configuration All strap pins have a weak internal pull ups or pull downs To change the default strap value the strap pins should be connected directly to or GND with an external 2 2 kO resistor The software reset and power down through the power down pin cannot be used to change the strap configuration Auto negotiation Auto negotiation is performed as part of the initial set up of the link It allows the PHYs connected to the cable to exchange their key features speed PHY type half or full duplex and automatically select the link communication mode If auto negotiation is disabled the chip stays at the speed that is selected by strap pins If the partner PHY speed is the same the link ON state is signaled otherwise no l
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