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single-chip octal 10/100base-tx/fx phy transceiver datasheet rev. 1.3 22 september 2006 track id: jatr-1076-21 realtek semiconductor corp. no. 2, innovation road ii, hsinchu science park, hsinchu 300, taiwan tel.: +886-3-578-0211. fax: +886-3-577-6047 www.realtek.com.tw rtl8208b-lf RTL8208BF-LF www.datasheet.co.kr datasheet pdf - http://www..net/
rtl8208b-lf/RTL8208BF-LF datasheet single-chip octal 10/100-tx/fx phy transceiver ii track id: jatr-1076-21 rev. 1.3 copyright ?2006 realtek semiconductor corp. a ll rights reserved. no part of this document may be reproduced, transmitted, transcribed, stored in a retrieval system, or translated into any language in any form or by any means without the written permission of realtek semiconductor corp. disclaimer realtek provides this document ?as is?, without wa rranty of any kind, neith er expressed nor implied, including, but not limited t o, the particular pu rpose. realtek may make impr ovements and/or changes in this document or in the product described in this document at any time. this document could include technical inaccuracies or typographical errors. trademarks realtek is a trademark of realtek semiconductor cor poration. other names mentioned in this document are trademarks/registered trademarks of their respective owners. using this document this document is intended for th e engineer?s reference and provides detailed programming information. though every effort has been made to ensure th at this document is cu rrent and accurate, more information may have become available subsequent to the production of th is guide. in th at event, please contact your realtek representative for additional inform ation that may help in the development process. revision history revision release date summary 1.0 2003/12/16 draft release. 1.1 2004/08/30 first approved release. 1.2 2004/08/31 change bias resistor value to 2k ohm in figure 22 on page 49. 1.3 2006/09/22 1. add fiber application information for RTL8208BF-LF. 2. modify figure 1, page 3, and figure 2, page 4. 3. modify table 1. pin assignments, on page 5. 4. modify table 5. rmii/smii/ss-smii pins, page 7. 5. corrected smi clock frequency from 25mhz to 2.5mhz (table 6, page 9, section 7.1.1, page 26, and table 40, page 52). 6. recommend ledmode pin be pulled high or pulled low (see table 8, page 10). 7. add led rise and fall timing (figure 16, page 42). 8. change 2sb1188 to 2sb1182 (figure 20 and table 35, page 47). 9. modify table 36. absolute maximum ratings, and table 37. operating range, on page 50. 10. add power startup internal sequence (section 9.6 power start up & internal reset sequence, page 56). 11. modify section 10 mechanical dimensions, page 58. 12. modify section 11 ordering information, page 59. www.datasheet.co.kr datasheet pdf - http://www..net/
rtl8208b-lf/RTL8208BF-LF datasheet single-chip octal 10/100-tx/fx phy transceiver iii track id: jatr-1076-21 rev. 1.3 table of contents 1. general description............................................................................................................ ....................................1 2. features....................................................................................................................... ....................................................2 3. applications ................................................................................................................... ...............................................2 4. pin assignments ................................................................................................................ ...........................................3 4.1. p in a ssignments (rtl8208b-lf) .................................................................................................................. ..........3 4.2. l ead (p b )-f ree p ackage i dentification ................................................................................................................3 4.3. p in a ssignments (RTL8208BF-LF) ................................................................................................................. .........4 4.4. l ead (p b )-f ree p ackage i dentification ................................................................................................................4 5. pin descriptions ............................................................................................................... ...........................................6 5.1. m edia c onnection p ins ............................................................................................................................... .............6 5.2. p ower and g round p ins ............................................................................................................................... ...........6 5.3. m iscellaneous p ins ............................................................................................................................... ..................7 5.4. rmii/smii/ss-smii p ins ............................................................................................................................... ............7 5.5. smi (s erial m anagement i nterface ) ....................................................................................................................9 5.6. led p ins ............................................................................................................................... ......................................9 5.7. m ode c ontrol p ins ............................................................................................................................... .................10 5.8. t est p ins ............................................................................................................................... ...................................12 6. register descriptions .......................................................................................................... ................................13 6.1. r egister 0: c ontrol ............................................................................................................................... ................14 6.2. r egister 1: s tatus ............................................................................................................................... ....................16 6.3. r egister 2: phy i dentifier 1 r egister .................................................................................................................18 6.4. r egister 3: phy i dentifier 2 r egister .................................................................................................................18 6.5. r egister 4: a uto -n egotiation a dvertisement ...................................................................................................19 6.6. r egister 5: a uto -n egotiation l ink p artner a bility .........................................................................................21 6.7. r egister 6: a uto -n egotiation e xpansion ............................................................................................................23 6.8. p ort 1 r egister 24: c able t ester c ontrol r egister 0.......................................................................................24 6.9. p ort 1 r egister 29: c able t ester c ontrol r egister 1 .......................................................................................24 6.10. p ort 1 r egister 30: c able s tatus r egister ..........................................................................................................25 7. function description ........................................................................................................... .................................26 7.1. g eneral ............................................................................................................................... ....................................26 7.1.1. smi (serial managem ent interface) .............................................................................................. .......................26 7.1.2. port pair-loop back mode (pp- lpbk) (RTL8208BF-LF only) ......................................................................... 26 7.1.3. phy address.................................................................................................................... .....................................27 7.1.4. auto-nego tiation ............................................................................................................... ...................................27 7.1.5. full-duplex flow control ....................................................................................................... .............................27 7.2. i nitialization and s etup ............................................................................................................................... .........28 7.2.1. reset .......................................................................................................................... ...........................................28 7.2.2. setup and con figuration........................................................................................................ ...............................28 7.3. 10b ase -t ............................................................................................................................. .....................................28 7.3.1. transmit fu nction .............................................................................................................. ..................................28 7.3.2. receive fu nction ............................................................................................................... ...................................28 7.3.3. link monitor................................................................................................................... ......................................28 7.3.4. jabber......................................................................................................................... ..........................................29 7.3.5. loopback ....................................................................................................................... .......................................29 7.4. 100b ase -tx ............................................................................................................................ .................................29 7.4.1. transmit fu nction .............................................................................................................. ..................................29 7.4.2. receive fu nction ............................................................................................................... ...................................30 7.4.3. link monitor................................................................................................................... ......................................31 www.datasheet.co.kr datasheet pdf - http://www..net/
rtl8208b-lf/RTL8208BF-LF datasheet single-chip octal 10/100-tx/fx phy transceiver iv track id: jatr-1076-21 rev. 1.3 7.5. b aseline w ander c ompensation ..........................................................................................................................31 7.6. 100b ase -fx (RTL8208BF-LF o nly ) ......................................................................................................................31 7.6.1. transmit fu nction .............................................................................................................. ..................................32 7.6.2. receive fu nction ............................................................................................................... ...................................32 7.6.3. link monitor................................................................................................................... ......................................32 7.6.4. far-end-fault-indication....................................................................................................... ..............................32 7.6.5. reduced fiber interface ........................................................................................................ ...............................33 7.7. rmii/smii/s s-smii .............................................................................................................. ...................................33 7.7.1. rmii (redu ced mii) ............................................................................................................. ................................34 7.7.2. smii (serial mii).............................................................................................................. ....................................35 7.7.3. ss-smii (source synchr onous -serial mii) ....................................................................................... ...................36 7.8. p ower s aving and p ower d own m ode ................................................................................................................38 7.8.1. power savi ng mode.............................................................................................................. ................................38 7.8.2. reg0.11 power down mode ........................................................................................................ .........................38 7.9. led c onfiguration ............................................................................................................................... .................38 7.9.1. serial leds .................................................................................................................... ......................................38 7.9.2. scan led....................................................................................................................... .......................................41 7.10. c rossover d etection and a uto c orrection .....................................................................................................46 7.11. p olarity d etection and a uto c orrection ........................................................................................................46 7.12. 1.8v p ower g eneration ............................................................................................................................... ..........47 7.13. c able t ester ............................................................................................................................... ............................47 8. application information ........................................................................................................ ............................48 8.1. 10b ase -t/100b ase -tx a pplication ......................................................................................................................48 8.2. 100b ase -fx a pplication (RTL8208BF-LF only ) .................................................................................................49 9. characteristics ................................................................................................................ .......................................50 9.1. a bsolute m aximum r at i n g s ............................................................................................................................... ..50 9.2. o perating r ange ............................................................................................................................... .....................50 9.3. dc c haracteristics ............................................................................................................................... ................50 9.4. ac c haracteristics ............................................................................................................................... ................52 9.5. d igital t iming c haracteristics ...........................................................................................................................52 9.5.1. rmii recei ve timi ng ............................................................................................................ ................................53 9.5.2. rmii transm it timi ng ........................................................................................................... ...............................54 9.5.3. smii recei ve timing............................................................................................................ .................................54 9.5.4. smii transm it timi ng........................................................................................................... ................................55 9.5.5. ss-smii recei ve timing ......................................................................................................... ..............................55 9.5.6. ss-smii transmit timing........................................................................................................ ..............................56 9.6. p ower s tart u p & i nternal r eset s equence .....................................................................................................56 9.7. t hermal c haracteristics ............................................................................................................................... ......57 9.7.1. thermal opera ting ra nge........................................................................................................ ............................57 9.7.2. thermal re sistances............................................................................................................ .................................57 10. mechanical dimensions .......................................................................................................... .........................58 10.1. n otes for m echanical d imensions .....................................................................................................................59 11. ordering information........................................................................................................... ...........................59 www.datasheet.co.kr datasheet pdf - http://www..net/
rtl8208b-lf/RTL8208BF-LF datasheet single-chip octal 10/100-tx/fx phy transceiver v track id: jatr-1076-21 rev. 1.3 list of tables t able 1. p in a ssignments ............................................................................................................................... ...........................5 t able 2. m edia c onnection p ins ............................................................................................................................... ...............6 t able 3. p ower and g round p ins ............................................................................................................................... .............6 t able 4. m iscellaneous p ins ............................................................................................................................... ....................7 t able 5. rmii/smii/ss-smii p ins ............................................................................................................................... ..............7 t able 6. smi (s erial m anagement i nterface )......................................................................................................................9 t able 7. led p ins ............................................................................................................................... ........................................9 t able 8. m ode c ontrol p ins ............................................................................................................................... ...................10 t able 9. t est p ins ............................................................................................................................... ......................................12 t able 10. r egister d escriptions ............................................................................................................................... ..............13 t able 11. r egister 0: c ontrol ............................................................................................................................... ..................14 t able 12. r egister 1: s tatus ............................................................................................................................... .....................16 t able 13. r egister 2: phy i dentifier 1 r egister ...................................................................................................................18 t able 14. r egister 3: phy i dentifier 2 r egister ...................................................................................................................18 t able 15. r egister 4: a uto -n egotiation a dvertisement ....................................................................................................19 t able 16. r egister 5: a uto -n egotiation l ink p artner a bility .........................................................................................21 t able 17. r egister 6: a uto -n egotiation e xpansion .............................................................................................................23 t able 18. p ort 1 r egister 24: c able t ester c ontrol r egister 0 ........................................................................................24 t able 19. p ort 1 r egister 29: c able t ester c ontrol r egister 1.........................................................................................24 t able 20. p ort 1 r egister 30: c able s tatus r egister ...........................................................................................................25 t able 21. smi r ead /w rite c ycles ............................................................................................................................... ...........26 t able 22. p ort p air -l oop b ack m ode (pp-lpbk) .................................................................................................................26 t able 23. 4b/5b c oding ............................................................................................................................... .............................30 t able 24. 100b ase -fx ............................................................................................................................ ...................................31 t able 25. pecl dc c haracteristics ............................................................................................................................... .......32 t able 26. rmii/smii/ss-smii m odes ............................................................................................................................... .......33 t able 27. rmii/smii/ss-smii s ignals ............................................................................................................................... .....33 t able 28. smii r eception e ncoding ............................................................................................................................... ........35 t able 29. smii t ransmission e ncoding ............................................................................................................................... ..36 t able 30. s erial led m ode ............................................................................................................................... ......................38 t able 31. s erial led s tatus ............................................................................................................................... ....................39 t able 32. b i -c olor led............................................................................................................................ ................................41 t able 33. s can led ............................................................................................................................ .......................................41 t able 34. s can led s tatus ............................................................................................................................... .......................41 t able 35. a n e xample u sing p ower t ransistor 2sb1182 ...................................................................................................47 t able 36. a bsolute m aximum r atings ............................................................................................................................... ...50 t able 37. o perating r ange ............................................................................................................................... .......................50 t able 38. dc c haracteristics ............................................................................................................................... ..................50 t able 39. ac c haracteristics ............................................................................................................................... ..................52 t able 40. d igital t iming c haracteristics ............................................................................................................................52 t able 41. rmii r eceive t iming ............................................................................................................................... .................53 t able 42. rmii t ransmit t iming ............................................................................................................................... ..............54 t able 43. smii r eceive t iming ............................................................................................................................... ..................54 t able 44. smii t ransmit t iming ............................................................................................................................... ...............55 t able 45. ss-smii r eceive t iming ............................................................................................................................... ............55 t able 46. ss-smii t ransmit t iming ............................................................................................................................... .........56 t able 47. t hermal o perating r ange ............................................................................................................................... ......57 t able 48. t hermal r esistances ............................................................................................................................... ...............57 t able 49. o rdering i nformation ............................................................................................................................... .............59 www.datasheet.co.kr datasheet pdf - http://www..net/
rtl8208b-lf/RTL8208BF-LF datasheet single-chip octal 10/100-tx/fx phy transceiver vi track id: jatr-1076-21 rev. 1.3 list of figures f igure 1. p in a ssignments (rtl8208b-lf) .................................................................................................................. ...........3 f igure 2. p in a ssignments (RTL8208BF-LF)................................................................................................................. ..........4 f igure 3. rmii s ignal d iagram ............................................................................................................................... ..............34 f igure 4. smii s ignal d iagram ............................................................................................................................... ...............35 f igure 5. smii r eception ............................................................................................................................... .........................35 f igure 6. smii t ransmission ............................................................................................................................... ...................36 f igure 7. ss-smii s ignal d iagram ............................................................................................................................... .........36 f igure 8. ss-smii r eception ............................................................................................................................... ....................37 f igure 9. ss-smii t ransmission ............................................................................................................................... ..............37 f igure 10. 3-b it s erial s tream m ode ............................................................................................................................... ......39 f igure 11. 2-b it s erial s tream m ode ............................................................................................................................... ......39 f igure 12. e xternal c ircuit for 3-b it s erial led m ode ....................................................................................................40 f igure 13. e xternal c ircuit for 2-b it s erial led m ode ....................................................................................................40 f igure 14. 3-b it b i -c olor led............................................................................................................................ .....................41 f igure 15. s can led t iming for m ode 0 and m ode 1 ...........................................................................................................42 f igure 16. r ise and f all t iming of the scan_status and scan_led t ransition .....................................................42 f igure 17. e xternal c ircuit for s can led m ode 0 .............................................................................................................43 f igure 18. e xternal c ircuit for s can led m ode 1 .............................................................................................................44 f igure 19. e xternal c ircuit for s can led m ode 2 .............................................................................................................45 f igure 20. u sing a pnp t ransistor to t ransform 3.3v i nto 1.8v .....................................................................................47 f igure 21. 10b ase -t/100b ase -tx a pplication ......................................................................................................................48 f igure 22. 100b ase -fx a pplication (RTL8208BF-LF only ).................................................................................................49 f igure 23. rmii r eceive t iming ............................................................................................................................... ................53 f igure 24. rmii t ransmit t iming ............................................................................................................................... .............54 f igure 25. smii r eceive t iming ............................................................................................................................... ................54 f igure 26. smii t ransmit t iming ............................................................................................................................... ..............55 f igure 27. ss-smii r eceive t iming ............................................................................................................................... ...........55 f igure 28. ss-smii t ransmit t iming ............................................................................................................................... ........56 f igure 29. p ower s tart u p & i nternal r eset s equence .....................................................................................................56 f igure 30. c ross - section of 128-p in qfp ............................................................................................................................ ...57 www.datasheet.co.kr datasheet pdf - http://www..net/
rtl8208b-lf/RTL8208BF-LF datasheet single-chip octal 10/100-tx/fx phy transceiver 1 track id: jatr-1076-21 rev. 1.3 1. general description the rtl8208b-lf and RTL8208BF-LF (jointly refe rred to as the rtl8208b(f)-lf) are single-chip highly integrated 8-port, 10base-t/100base-tx (fx) ethernet transceivers implemented in 0.18m cmos technology. they are currently the world?s sma llest octal-phy chip package. realtek patented removal of traditional sd pins in 100base-fx (RTL8208BF-LF only) allow us to obt ain a lower pin- count. flexible hardware settings are provided to configure the various operating modes of the chip. the rtl8208b(f)-lf provides 8 separa te and independent channels. each channel consists of an rmii/smii/ss-smii interface-to -mac controller, and hardware pins are used to configure the interface for rmii, smii, or ss-smii mode. in rmii mode, another hardware pin is used to set port-pair loopback mode (pp-lpbk mode, RTL8208BF-LF onl y), which can extend p hysical transmission length and perform physical media transport operations without a switch controller. a pecl (pseudo emitter coupled logic) receiver accep ts input from a fiber transceiver and directly passed to a clock recovery circuit for data/clock recovery. the chip utilizes an advanced cmos process to meet low voltage and low power requirements . with on-chip dsp (dig ital signal processing) technology, the chip provides excellent pe rformance under all operating conditions. a built-in utp cable tester diagnoses an open/short fa ult in an attached cable. the rtl8208b(f)-lf also features very low power consumption (maximum of 1.6w). additionally, pin-outs are designed to provide optimized direct routing, which simplifies the layout work and redu ces emi noise issues. www.datasheet.co.kr datasheet pdf - http://www..net/
rtl8208b-lf/RTL8208BF-LF datasheet single-chip octal 10/100-tx/fx phy transceiver 2 track id: jatr-1076-21 rev. 1.3 2. features ? supports 8-port integrated physical layer and transceiver for 10base-t and 100base-tx ? up to 8 ports support 100base-fx (RTL8208BF-LF only) ? reduced 100base-fx (RTL8208BF-LF only) interface (patented) ? robust baseline wande r correction for improved 100base-tx performance ? complies with ieee 802.3/802.3u ? ieee 802.3u compliant auto negotiation for 10/100mbps control ? hardware controlled flow control advertisement ability ? supports rmii/smii/ss-smii interfaces ? very low power consumption ? supports port-pair loopback mode (pp- lpbk mode, RTL8208BF-LF only) ? supports two power reduction methods: ? power saving mode (cable detection) ? power down mode ? power-on auto reset function eliminates the need for external reset circuits ? crossover detection and auto correction ? polarity detection and auto correction ? flexible serial/scan led display modes ? cable tester for diagnosing open/short faults in attached cables ? 128-pin qfp package ? 1.8v/3.3v power supply ? 0.18m, cmos technology 3. applications rtl8208b-lf ? octal phy for fast ethernet swit ch with twisted pair interface RTL8208BF-LF ? octal phy for fast ethernet switch with twisted pair interface and fiber capability www.datasheet.co.kr datasheet pdf - http://www..net/
rtl8208b-lf/RTL8208BF-LF datasheet single-chip octal 10/100-tx/fx phy transceiver 3 track id: jatr-1076-21 rev. 1.3 4. pin assignments 4.1. pin assignments (rtl8208b-lf) octal phy for fast ethernet switch with twisted pair interface figure 1. pin assignments (rtl8208b-lf) note: signal type codes are listed in section 5 pin descriptions, page 6. 4.2. lead (pb)-free package identification lead (pb)-free package is indicated by an ?l? in the location marked ?t? in figure 1. www.datasheet.co.kr datasheet pdf - http://www..net/
rtl8208b-lf/RTL8208BF-LF datasheet single-chip octal 10/100-tx/fx phy transceiver 4 track id: jatr-1076-21 rev. 1.3 4.3. pin assignments (RTL8208BF-LF) octal phy for fast ethernet switch with twisted pair interface and fiber capability figure 2. pin assignments (RTL8208BF-LF) note: signal type codes are listed in section 5 pin descriptions, page 6. 4.4. lead (pb)-free package identification lead (pb)-free package is indicated by an ?l? in the location marked ?t? in figure 2. www.datasheet.co.kr datasheet pdf - http://www..net/
rtl8208b-lf/RTL8208BF-LF datasheet single-chip octal 10/100-tx/fx phy transceiver 5 track id: jatr-1076-21 rev. 1.3 table 1. pin assignments pin name pin# function driver capacity pin name pin# type driver capacity rxip[0] rxin[0] txon[0] txop[0] vssa txop[1] txon[1] rxin[1] rxip[1] vdda rxip[2] rxin[2] txon[2] txop[2] vssa txop[3] txon[3] rxin[3] rxip[3] rxip[4] rxin[4] txon[4] txop[4] vdda txop[5] txon[5] rxin[5] rxip[5] vssa rxip[6] rxin[6] txon[6] txop[6] vdda txop[7] txon[7] rxin[7] rxip[7] vssa vssa scan_led[7] scan_led[6] scan_led[5] scan_led[4] scan_led[3] vddo vss scan_led[2] scan_led[1] scan_led[0] reset# refclk cprst rxd1[7]/ sel_rxc rxd0[7]/ sel_txc crs_dv[7]/ mode[0] txd1[7] txd0[7] tx_en[7] vdd vss rxd1[6] rxd0[6]/ frc_para_full crs_dv[6]/ mode[1] 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 49 50 51 52 53 54 55 56 57 58 59 60 61 62 63 64 ai ai ao ao ag ao ao ai ai ap ai ai ao ao ag ao ao ai ai ai ai ao ao ap ao ao ai ai ag ai ai ao ao ap ao ao ai ai ag ag o,pu o,pu o,pu o,pu o,pu dp dg o,pu o,pu o,pu i,pu i/o,pd i,pd i/o,pd i/o,pd i/o,pu i,nd i,nd i,nd dp dg i/o,pd i/o,pd i/o,pu - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - 8ma 8ma 8ma 8ma 8ma - - 8ma 8ma 8ma - 8ma - 8ma 8ma 8ma - - - - - 8ma 8ma 8ma txd1[6] txd0[6] tx_en[6] vddo vss rxd1[5]/ tp_asy_pause rxd0[5]/ led_blnk_time crs_dv[5]/ tp_pause txd1[5] txd0[5] tx_en[5] rxd1[4]/ fx_asy_pause rxd0[4]/ phy_addr[4] crs_dv[4]/ rx_clk txd1[4] txd0[4] tx_en[4]/ tx_clk sync/tx_sync rxd1[3]/ ledsel rxd0[3]/ phy_addr[3] crs_dv[3]/rx_sync/ fx_pause txd1[3] txd0[3] tx_en[3] vss vdd rxd1[2]/ disblink rxd0[2]/ ledmode[1] crs_dv[2]/ fx_duplex txd1[2] txd0[2] tx_en[2] rxd1[1]/ en_autoxover rxd0[1]/ ledmode[0] crs_dv[1]/ sel_txfx[1] txd1[1] txd0[1] tx_en[1] vddo vss rxd1[0]/ pp-lpbk mode rxd0[0]/ enanapar crs_dv[0]/ sel_txfx[0] txd1[0] txd0[0] tx_en[0] mdio mdc nc scan_status[2] scan_status[1] /led_data scan_status[0] /led_clk vdda vdda xi xo vssa dtest1 vssa vdda ibref vctrl vddah vdda 65 66 67 68 69 70 71 72 73 74 75 76 77 78 79 80 81 82 83 84 85 86 87 88 89 90 91 92 93 94 95 96 97 98 99 100 101 102 103 104 105 106 107 108 109 110 111 112 113 114 115 116 117 118 119 120 121 122 123 124 125 126 127 128 i,nd i,nd i,nd dp dg i/o,pd i/o,pu i/o,pu i,nd i,nd i,nd i/o,pd i/o,pd i/o,nd i,nd i,nd i,nd i,pd i/o,pd i/o,pu i/o,pu i,nd i,nd i,nd dg dp i/o,pd i/o,pd i/o,pu i,nd i,nd i,nd i/o,pu i/o,pd i/o,pd i,nd i,nd i,nd dp dg i/o,pd i/o,pd i/o,pd i,nd i,nd i,nd i/o,pu i,pd - o,pu o,pu o,pu ap ap i,nd o,nd ag i/o,nd ag ap ao ao ap ap - - - - - 8ma 8ma 8ma - - 8ma 8ma 16ma - - - - 8ma 8ma 8ma - - - - - 8ma 8ma 8ma - - - 8ma 8ma 8ma - - - - - 8ma 8ma 8ma - - - 8ma - - 8ma 8ma 8ma - - - - - - - - - - - www.datasheet.co.kr datasheet pdf - http://www..net/
rtl8208b-lf/RTL8208BF-LF datasheet single-chip octal 10/100-tx/fx phy transceiver 6 track id: jatr-1076-21 rev. 1.3 5. pin descriptions in order to reduce pin count, and therefore size and cost, some pins have multiple functions. in such cases the functions are separated with a ? / ? symbol. for the rtl8208b-lf re fer to figure 1, page 3; for the RTL8208BF-LF refer to figure 2, page 4, for a graphical representation. signal type codes shown below are used in the previous and following tables: i: input p: power o: output g: ground a: analog signal pu: internal pull up (30k ohm) d: digital signal pd: internal pull down (30k ohm) nd: not defined 5.1. media connection pins table 2. media connection pins pin name pin type description rxip[7:0] 38, 30, 28, 20, 19, 11 , 9, 1 ai receiver input. differential positive signal shared by 100base-tx, 100base-fx, and 10base-t. rxin[7:0] 37, 31, 27, 21, 18, 12, 8, 2 ai receiver input. differential negative signal shared by 100base-tx, 100base-fx, and 10base-t. txop[7:0] 35, 33, 25, 23, 16, 14, 6, 4 ao transmitter output. differential positive signal shared by 100base-tx, 100base-fx, and 10base-t. txon[7:0] 36, 32, 26, 22, 17, 13, 7, 3 ao transmitter output. differential negative signal shared by 100base-tx, 100base-fx, and 10base-t. 5.2. power and ground pins table 3. power and ground pins pin name pin type description vdda 10, 24, 34, 117, 118, 124, 128 ap 1.8v power to analog. vddah 127 ap 3.3v power to regulator. vssa 5, 15, 29, 39, 40, 121, 123 ag analog ground. vdd 60, 90 dp 1.8v power to digital core. vddo 46, 68, 103 dp 3.3v power to digital i/o. vss 47, 61, 69, 89, 104 dg digital ground. www.datasheet.co.kr datasheet pdf - http://www..net/
rtl8208b-lf/RTL8208BF-LF datasheet single-chip octal 10/100-tx/fx phy transceiver 7 track id: jatr-1076-21 rev. 1.3 5.3. miscellaneous pins table 4. miscellaneous pins pin name pin type description reset# 51 i, (pu) reset. this is an active low input. to complete the reset function, this pin must be asserted low for at least 10ms. xi 119 i 25mhz crystal input or 25mhz oscillator clock input. the clock tolerance is 50ppm. when xi is pulled low, xo must be floating. refclk will then be the chip clock input. xo 120 o 25mhz crystal output. refclk 52 i/o (pd) reference clock. if xi is 25mhz active, refclk is a 50mhz output. if xi is pulled-low (disabled), refclk is a clock input as described below: rmii mode = 50mhz 50ppm clock input smii/ss-smii mode = 125mhz 50ppm clock input. pin driver capacity = 8ma. ibref 125 a o reference bias resistor. when using a 1:1 transformer on tx/rx, this pin must be tied to analog ground through an external 2k ? resistor. vctrl 126 a o voltage control. this pin controls a pnp transistor to generate the 1.8v power supply for vdd and vdda pins. nc 113 not connected. 5.4. rmii/smii/ss-smii pins table 5. rmii/smii/ss-smii pins pin name pin type description txd0[7:0] 58, 66, 74, 80, 87, 95, 101, 109 i transmit data input (bit 0). rmii: txd0 and txd1 are the di-bits input, transmitted and driven synchronously to refclk from the mac. smii: txd0 inputs the data that is transmitted and is driven synchronously to refclk. in 100mbps, txd0 inputs a new 10-bit segment starting with sync. in 10mbps, txd0 must repeat each 10-bit segment 10 times. ss-smii: txd0 behaves as smii except synchronous to tx_clk instead of refclk and inputs a new 10-bit segment starting with tx_sync instead of sync. txd1[7:0] 57, 65, 73, 79, 86, 94, 100, 108 i transmit data input (bit 1). rmii: txd1 and txd0 are the input di-bits synchronously to refclk. smii/ss-smii: the i/o pin of tx_en should not be used. www.datasheet.co.kr datasheet pdf - http://www..net/
rtl8208b-lf/RTL8208BF-LF datasheet single-chip octal 10/100-tx/fx phy transceiver 8 track id: jatr-1076-21 rev. 1.3 pin name pin type description tx_en[7:0] tx_clk/tx_en[4] 59, 67, 75, 81, 88, 96, 102, 110 i transmit enable. rmii: tx_en indicates the di-b its on txd is valid and is synchronous to refclk. smii: the i/o pin of tx_en should not be used. ss-smii: tx_en[4] of rmii is used as tx_clk, which is a 125mhz clock input from mac. the i/o pin of tx_en should not be used. rxd0[7:0] 55 63 71 77 84 92 98 106 o (pd) (pd) (pu) (pd) (pu) (pd) (pd) (pd) receive data input (bit 0). rmii: rxd0 and rxd1 output di-bits synchronously to refclk. smii: rxd0 outputs data or in-band management information synchronously to refclk. in 100mbps, rxd0 outputs a new 10- bit segment starting with sync. in 10mbps, rxd0 must repeat each 10-bit segment 10 times. ss-smii: rxd0 behaves as smii except synchronous to rx_clk instead of refclk and inputs a new 10-bit segment starting with rx_sync instead of sync. all pins driver capacity = 8ma rxd1[7:0] 54 62 70 76 83 91 97 105 o (pd) (pd) (pd) (pd) (pd) (pd) (pu) (pd) receive data input (bit 1). rmii: rxd1 and rxd0 output di-bits synchronously to refclk. smii/ss-smii: the i/o pin of rxd1 should not be used. all pins driver capacity = 8ma crs_dv[7:0] rx_sync/crs_dv[3] rx_clk/crs_dv[4] 56 64 72 78 (16ma) 85 93 99 07 o (pu) (pu) (pu) (nd) (pu) (pu) (pd) (pd) carrier sense and data valid. rmii: crs_dv is asynchronous to refclk and asserts when the medium is non-idle. smii: crs_dv[7:0] are not used and driven low. ss-smii: crs_dv[3] of rmii is used as rx_sync which is a sync signal used to delimit the 10-bit segment of rxd0 for all ports. crs_dv[4] of rmii is used as rx_clk, which is a 125mhz clock output. crs_dv[7:5] and crs_dv[2:0] are not used. all pins driver capacity = 8ma, except pin 78 (16ma). sync/ tx_sync 82 i (pd) sync/transmit synchronous. smii: sync is a sync signal used to delimit a 10-bit segment of rxd0 and txd0 for all ports. ss-smii: tx_sync is a sync signal used to delimit the 10-bit segment of txd0 for all ports. www.datasheet.co.kr datasheet pdf - http://www..net/
rtl8208b-lf/RTL8208BF-LF datasheet single-chip octal 10/100-tx/fx phy transceiver 9 track id: jatr-1076-21 rev. 1.3 5.5. smi (serial management interface) table 6. smi (serial management interface) pin name pin type description mdio 111 i/o, (pu) management data i/o. bi-directional data interface. a 1.5k ? pull- up resistor is required (as specified in ieee802.3u). the mac controller access of the mii registers should be delayed at least 700 s after completion of the reset because of the internal reset operation of the rtl8208b(f)-lf. pin driver capacity = 8ma. mdc 112 i, (pd) management data clock. 0 to 2.5mhz clock sourced by mac to sample mdio. the mac controller access of the mii registers should be delayed at least 700 s after completion of the reset because of the internal reset operation of the rtl8208b(f)-lf. 5.6. led pins table 7. led pins pin name pin type description scan_led[7:0] 41, 42, 43, 44, 45, 48, 49, 50 o (pu) in scan led mode, scan_led[7:0] is the scan led port enable. see section 7.9 led configuration, page 38. all pins driver capacity = 8ma. scan_status[2:0] led_clk/scan_ status[0] led_data/scan_ status[1] 114, 115, 116 o (pu) in scan led mode, scan_status[2:0] outputs (col/fulldup, link/act, spd) for each port. in serial led mode, scan_status[0] is used as led_clk, which outputs the reference clock for the serial led signals. in serial led mode, scan_status[1] is used as led_data, which outputs serial status bits that can be shifted into a shift register to be displayed via leds. led_data is output synchronously to led_clk. all pins driver capacity = 8ma. www.datasheet.co.kr datasheet pdf - http://www..net/
rtl8208b-lf/RTL8208BF-LF datasheet single-chip octal 10/100-tx/fx phy transceiver 10 track id: jatr-1076-21 rev. 1.3 5.7. mode control pins table 8. mode control pins pin name pin type description sel_txfx[1:0]/ crs_dv[1:0] 99, 107 i/o, (pd, pd) select 10/100basetx or 100basefx (default = 2?b00). if pp-lpbk mode = 0: 2?b00: all 8 ports (port0~port7) are 10base-t/100base-tx. 2?b01: port 7 is 100fx, other ports are 10base-t/100base-tx. 2?b10: ports 6 & 7 are 100fx, other ports are 10base-t/ 100base-tx. 2?b11: all 8 ports are 100base-fx. if pp-lpbk mode =1: 2?b00: all 8 ports (port0~port7) are 10base-t/100base-tx. 2?b01: port 7 and 5 are 100fx, others are 10base-t/100base-tx. 2?b10: ports 1, 3, 5 & 7 are 100fx, others are 10base-t/100base-tx. 2?b11: all 8 ports are 100base-fx. note: RTL8208BF-LF only. pp-lpbk mode/ rxd1[0] 105 i/o, (pd) port-pair loopback mode (default =0). upon power-on reset, this pin is input to assert pp-lpbk mode. when set, all eight ports are port-pair looped back, acting like a signal regeneration/transformation repeater. see section 7.1.2 port pair-loop back mode (pp-lpbk), page 26, covering pp-lpbk mode. note: RTL8208BF-LF only. phy_addr[4:3]/ rxd0[4:3] 77, 84 i/o, (pd, pu) phy address (default = 2?b01). these 2 bits determine the highest 2 bits of the 5-bit phy address upon reset. we recommend using a resistor to pull up or pull down. mode[1:0]/ crs_dv[6:7] 64, 56 i/o, (pu,pu) select rmii/smii/ss-smii mode (default = 2?b11). 2?b1x: rmii 2?b00: smii 2?b01: ss-smii we recommend using a resistor to pull up or pull down. tp_pause/ crs_dv[5] 72 i/o, (pu) twisted pair pause capability (default =1). sets the flow control ability of reg.4.10 for utp ports upon power- on reset. 1: with flow control ability 0: without flow control ability fx_pause/ crs_dv[3] 85 i/o, (pu) 100base-fx flow control capability (default =1). forces the flow control capability of reg.4.10 and reg.5.10 upon power-on reset. 1: with flow control ability in 100base-fx 0: without flow control ability in 100base-fx note: RTL8208BF-LF only. tp_asy_pause/ rxd1[5] 70 i/o, (pd) twisted pair asymmetric pause capability (default =0). sets the asymmetric flow control ability of reg.4.11 for utp ports upon power-on reset. 1: with asymmetric flow control ability 0: without asymmetric flow control ability. www.datasheet.co.kr datasheet pdf - http://www..net/
rtl8208b-lf/RTL8208BF-LF datasheet single-chip octal 10/100-tx/fx phy transceiver 11 track id: jatr-1076-21 rev. 1.3 pin name pin type description fx_asy_pause/ rxd1[4] 76 i/o, (pd) 100base-fx asymmetric flow control capability (default =0). forces the asymmetric flow control capability of reg.4.11 and reg.5.11 upon power-on reset. 1: asymmetric flow control ability in 100base-fx 0: no asymmetric flow control ability in 100base-fx note: RTL8208BF-LF only. fx_duplex/ crs_dv[2] 93 i/o, (pu) fx_duplex: force 100base-fx full duplex mode (default =1). this pin sets 100base-fx duplex and affects those ports in 100base-fx mode. 1: full duplex 0: half duplex upon reset, this pin sets the default values of reg.0.8 of those ports in 100base-fx. note: RTL8208BF-LF only. en_autoxover/ rxd1[1] 97 i/o, (pu) enable auto crossover detection (default =1). 1: enable auto crossover detection 0: disable auto crossover detection disblink/ rxd1[2] 91 i/o, (pd) disable power-on/reset led blinking: (default = 0) 1: disable power-on led blinking 0: blink led_blnk_time/ rxd0[5] 71 i/o, (pu) led blink time (default =1). controls the blinking speed of activity and collision leds. 1: 43ms (recommended to use external 10k pull up resistor) 0: 120ms ledsel/rxd1[3] 83 i/o, (pd) led selection (default=1?b0). ledsel 1?b1: scan led 1?b0: serial led ledmode[1:0]/ rxd0[2:1] 92, 98 i/o, (pd, pd) ledmode[1:0] (default = 00). when using the rtl8208b(f)-lf led solution , we recommend using an external resister to pull high or pull low. in serial led, ledmode[1:0] controls the forms of serial led status. ledmode mode output 2?b00 3-bit serial stream col/fulldup, link/act, spd 2?b01 2-bit serial stream spd, link/act 2?b10 3-bit for bi-color led col/fulldup, link/act, spd 2?b11 1-bit serial stream link/act/spd in scan led, ledmode[1:0] controls the output of scan_status[2:0]. ledmode mode output 2?b00 mode 0 col/fulldup, link/act, spd 2?b01 mode 1 rx, tx, link 2?b10 mode 2 nc, bi-color link/act/spd, nc 2?b11 reserved frc_para_full/ rxd0[6] 63 i/o (pd) force full duplex when link is established by parallel detection (default=0). 1: force full duplex when link is established by parallel detection 0: normal operation www.datasheet.co.kr datasheet pdf - http://www..net/
rtl8208b-lf/RTL8208BF-LF datasheet single-chip octal 10/100-tx/fx phy transceiver 12 track id: jatr-1076-21 rev. 1.3 pin name pin type description sel_rxc/rxd1[7] 54 i/o (pd) in smii, sel_rxc control the clock to output delay of rxd. 0: clock out data on fallin g edge of receive clock 1: clock out data on risi ng edge of receive clock recommended to set sel_rxc=1. in ss-smii, sel_rxc, must be set to 1. sel_txc/rxd0[7] 55 i/o (pd) in smii, sel_txc control the clock to output delay of txd. 0: clock out data on falling edge of transmit clock 1: clock out data on rising edge of transmit clock recommended to set sel_txc=1. in ss-smii, sel_txc, must be set to 1. 5.8. test pins table 9. test pins pin name pin type description enanapar/ rxd0[0] 106 i/o, (pd) enable analog parameter write (default =0). 1: enable analog parameter write operation 0: disable analog parameter write operation cprst 53 i, (pd) reserved for internal use. must be left floating. dtest1 122 i/o reserved for internal use. must be left floating. www.datasheet.co.kr datasheet pdf - http://www..net/
rtl8208b-lf/RTL8208BF-LF datasheet single-chip octal 10/100-tx/fx phy transceiver 13 track id: jatr-1076-21 rev. 1.3 6. register descriptions the first six registers of the mi i are defined by the mii specificatio n. other registers are defined by realtek for internal use. signal type codes below are us ed in the following tables: ro: read only ll: latch low until cleared rw: read/write lh: latch high until cleared sc: self clearing table 10. register descriptions register description 0 control register. 1 status register. 2 phy identifier 1 register. 3 phy identifier 2 register. 4 auto-negotiation advertisement register. 5 auto-negotiation link partner ability register. 6 auto-negotiation expansion register. www.datasheet.co.kr datasheet pdf - http://www..net/
rtl8208b-lf/RTL8208BF-LF datasheet single-chip octal 10/100-tx/fx phy transceiver 14 track id: jatr-1076-21 rev. 1.3 6.1. register0: control table 11. register0 : control reg. bit name description type default 0.15 reset 1: phy reset. this bit is self-clearing. rw/sc 0 0.14 loopback this will loopback txd to rxd and ignore all activity on the cable media. 1: enable loopback 0: normal operation rw 0 0.13 spd_sel when nway is enabled, this bit reflects the auto negotiation result (read only). when nway is disabled, this bit can be set by smi*. (read/write). when 100fx is enabled, this bit =1 (read only). 1: 100mbps 0: 10mbps rw 0 0.12 auto negotiation enable this bit can be set through smi (read/write). when 100fx is enabled, this bit =0 (read only). 1: enable auto negotiation process 0: disable auto negotiation process rw 1 (0 for 100fx) 0.11 power down 1: power down. all functions will be disabled except smi read/write function 0: normal operation rw 0 0.10 isolate 1: electrically isolat e the phy from rmii/smii/ss-smii. phy is still able to respond to mdc/mdio 0: normal operation rw 0 0.9 restart auto negotiation 1: restart auto-negotiation process 0: normal operation rw/sc 0 0.8 duplex mode when nway is enabled, this bit reflects the result of auto negotiation (read only). when nway is disabled, this bit can be set by smi* (read/write). when 100fx is enabled, this bit is determined by the fx_duplex pin (read/write). 1: full duplex operation 0: half duplex operation rw 0 0.[7:0] reserved ro 0 *smi: serial management interface composed of mdc, mdio, that allows the mac to manage the phy. reset ? in order to reset the rtl8208b(f)-lf using soft ware control, a ?1? must be written to bit 15 using an smi write operation. the bit clears itself after th e reset process has completed. writes to other control register bits will have no effect until the reset proce ss has completed (approximately 1 s). writing a ?0? to this bit has no effect. because this b it is self-clearing after a few cycles from a write operation, it will return a ?0? when read. www.datasheet.co.kr datasheet pdf - http://www..net/
rtl8208b-lf/RTL8208BF-LF datasheet single-chip octal 10/100-tx/fx phy transceiver 15 track id: jatr-1076-21 rev. 1.3 loopback ? the rtl8208b(f)-lf may be placed into l oopback mode by writing a ?1? to bit 14. loopback mode may be cleared either by writing a ?0? to bit 14 or by resetting the chip. when this bit is read, it will return a ?1? when the chip is in softwa re-controlled loopback mode, otherwise it will return a ?0?. speed selection ? if auto negotiation is enabled, this bit ha s no effect on the speed selection. however, if auto negotiation is disabled usi ng software control, the operating speed of the rtl8208b(f)-lf can be forced by writing the appropr iate value to bit 13. writing a ?1? to this bit forces 100base-x operation, while writing a ?0? forces 10base-t operation. when this bit is read, it returns the value of the software-controlled forced-speed selection only. auto negotiation enable ? default is auto negotiation enabled fo r all tp ports, and disabled for fx ports. auto negotiation can be disabled via software control by setting 0.12=0. power down ? the rtl8208b(f)-lf supports a low power m ode. writing a ?1? will enable power down mode, and writing a ?0? will return the rtl8208b(f)-lf to normal operation. when read, this register will return a ?1? when in power down mode, and a ?0? during normal operation. isolate ? each phy may be isolated from its mii by wri ting a ?1? to bit 10. all mii outputs will be tri- stated and all mii inputs will be ignored. since the mi i management interface is still active, the isolate mode may be cleared either by writing a ?0? to bit 10 or by resetting the chip. when this bit is read, it will return a ?1? when the chip is in isolate mode, and return a ?0? during normal operation. restart auto negotiation ? bit 9 is a self-clearing bit that allows the auto negotiation process to be restarted, regardless of the status of the auto negotiation state machine. in order for this bit to have an effect, auto negotiation must be enabled. writing a ?1? to this bit restarts auto negotiation. writing a ?0? to this bit has no effect. when this bit is read, it will always return a ?0?. duplex mode ? by default, the rtl8208b(f)-lf powers up in half duplex mode . the chip can be forced into full duplex mode by writing a ?1? to bit 8 while auto negotiation is disabled. half duplex mode can be resumed either by writing a ?0 ? to bit 8 or by resetting the chip . when nway is enabled, this bit reflects the results of auto negotiation, and is in read -only mode. when nway is disabled, this bit can be set through the smi, and is in read/write mode. when 100fx is enabled, this bit can be set through the smi or fx_duplex pin and is in read/write mode. reserved bits ? all reserved mii register bits must be written as ?0? at all times. ignore the rtl8208b(f)-lf output when these bits are read. www.datasheet.co.kr datasheet pdf - http://www..net/
rtl8208b-lf/RTL8208BF-LF datasheet single-chip octal 10/100-tx/fx phy transceiver 16 track id: jatr-1076-21 rev. 1.3 6.2. register1: status table 12. register1: status reg. bit name description type default 1.15 100base_t4 0: no 100base-t4 capability (permanently =0) ro 0 1.14 100base_tx_fd 1: 100base-tx full duplex capable 0: not 100base-tx full duplex capable ro 1 1.13 100base_tx_hd 1: 100base-tx half duplex capable 0: not 100base-tx half duplex capable ro 1 1.12 10base_t_fd 1: 10base-tx full duplex capable 0: not 10base-tx full duplex capable ro 1 1.11 10base_t_hd 1: 10base-tx half duplex capable 0: not 10base-tx half duplex capable ro 1 1.[10:7] reserved reserved. ro 0 1.6 mf preamble suppression the rtl8208b(f)-lf will accep t management frames with preamble suppressed. ro 1 1.5 auto-negotiate complete 1: auto-negotiation process completed. reg.4.5 are valid if this bit is set 0: auto-negotiation process not completed ro 0 1.4 remote fault 1: remote fault indication from link partner has been detected. 0: no remote fault indication detected when in 100fx mode, this bit means in-band signal far- end-fault is detected. refer to section 7.6.4 far-end-fault- indication, page 32. this bit will remain set until it is cleared by reading register 1 via the management interface. ro/lh 0 1.3 auto-negotiation ability 1: nway auto negotiation capable (permanently =1) 0: no auto negotiation capability ro 1 1.2 link status 1: link has not failed since previous read 0: link has failed since previous read if the link fails, this bit will be set to 0 until read. ro/ll 0 1.1 jabber detect 1: jabber detected. 0: no jabber detected the jabber function is disabled in 100base-x mode. jabber is supported only in 10base-t mode. ro/lh 0 1.0 extended capability 1: extended register capable (permanently =1) 0: not extended register capable ro 1 100base_t4 ? the rtl8208b(f)-lf does not support the t4 function. any reads to this bit will return a ?0?. 100base_tx_fd ? the rtl8208b(f)-lf is capable of operating in 100base-tx full duplex mode. 100base_tx_hd ? the rtl8208b(f)-lf is capable of opera ting in 100base-tx half duplex mode. 10base_t_fd ? the rtl8208b(f)-lf is capable of ope rating in 10base-t full duplex mode. 10base_t_hd ? the rtl8208b(f)-lf is capable of ope rating in 10base-t half duplex mode. www.datasheet.co.kr datasheet pdf - http://www..net/
rtl8208b-lf/RTL8208BF-LF datasheet single-chip octal 10/100-tx/fx phy transceiver 17 track id: jatr-1076-21 rev. 1.3 reserved ? ignore the output of the rtl8208b (f)-lf when these bits are read. mf preamble suppression ? management frame preamble suppr ession is permanently set in the rtl8208b(f)-lf, allowing subsequent mii management frames to be accepted, with or without the standard preamble pattern. only two preamble bits are required between successive management commands, instead of the normal 32. however, a minimu m of 32 preamble bits ar e required for the first smi read/write transaction after reset. one idle bit is required between any two management transactions (as defined in the ieee 802.3u spec). reads of this bit will always return a ?1?. auto-negotiation complete ? bit 5 will return a ?1? if the auto negotiation process has been completed and the contents of registers 4 and 5 are valid. remote fault ? when the link partner detects a far-end fau lt, it sends a far-end indication stream pattern. when the rtl8208b(f)-lf receives this pattern, it sets reg1.4=1. auto-negotiation ability ? the rtl8208b(f)-lf is capable of performing ieee auto negotiation, and will return a ?1? when bit 4 is read, regardless of whether or not the auto negotiation function has been disabled. link status ? the rtl8208b(f)-lf will return a ?1? on bit 2 when the link state machine is in link pass, indicating that a valid link has been established. othe rwise, it will return ?0?. when a link failure occurs after the link pass state has been entered, the link stat us bit will be latched at ?0? and will remain so until the bit is read. after the bit is read, it becomes ?1? if the link pass state has been entered again. jabber detect ? the rtl8208b(f)-lf will return a ?1? on bit 1 if a jabber condition has been detected. after the bit is read, or if the chip is reset, it reve rts to ?0?. this is for 10bas e-t only. jabber occurs when a predefined excessively long packet is detected in 10base-t mode. when the duration of tx_en exceeds the jabber timer (21ms), transmit and loopback functions are disabled and the col led starts blinking. after tx_en goes low for more than 500ms, the transmitter is re-enabled and the col led stops blinking. extended capability ? the rtl8208b(f)-lf supports extended cap ability registers and will return a ?1? when bit 0 is read. several extended registers have been implemented in the rtl8208b(f)-lf. www.datasheet.co.kr datasheet pdf - http://www..net/
rtl8208b-lf/RTL8208BF-LF datasheet single-chip octal 10/100-tx/fx phy transceiver 18 track id: jatr-1076-21 rev. 1.3 6.3. register2: phy identifier 1 register the phy identifier registers #1 and #2 together form a unique identifier for the phy section of this device. the identifier consists of a concatenation of the organizationally unique identifier (oui), the vendor?s model number, and the model revision number. a phy may return a value of zero in each of the 32 bits of the phy identifier if desired. the phy id entifier is intended to support network management. table 13. register2: phy identifier 1 register reg. bit name description type default 2.[15:0] oui composed of the 3rd to 18th bits of the organizationally unique identifier (oui). ro 001c h 6.4. register3: phy identifier 2 register table 14. register3: phy identifier 2 register reg. bit name description type default 3.[15:10] oui assigned to the 19 th through 24 th bits of the oui. ro 110010 3.[9:4] model number manufacturer?s model number. ro 001000 3.[3:0] revision number manufacturer's revision number. ro 0001 www.datasheet.co.kr datasheet pdf - http://www..net/
rtl8208b-lf/RTL8208BF-LF datasheet single-chip octal 10/100-tx/fx phy transceiver 19 track id: jatr-1076-21 rev. 1.3 6.5. register4: auto-negotiation advertisement this register contains the advertisement abilities of this device that will be transmitted during auto- negotiation. table 15. register4: auto-negotiation advertisement reg. bit name description type default 4.15 next page 1: next page enabled 0: next page disabled (permanently =0) ro 0 4.14 acknowledge permanently =0. ro 0 4.13 remote fault 1: transmit remote fault 0: do not transmit remote fault rw 0 4.12 reserved reserved. rw 0 4.11 asymmetric pause 1: advertises that the rtl8208b(f)-lf has asymmetric flow control capability 0: no asymmetric flow control capability in 100fx mode, this bit is set by fx_asy_pause upon reset. in 100/10tp mode, this bit is set by tp_asy_pause upon reset. rw set by tp_asy_pause or fx_asy_pause 4.10 pause 1: advertises that the rtl8208b(f)-lf has flow control capability 0: no flow control capability in 100fx mode, this bit is set by fx_pause upon reset. in 100/10tp mode, this bit is set by tp_pause upon reset. rw set by tp_pause or fx_pause 4.9 100base-t4 1: 100base-t4 capable 0: not 100base-t4 capab le (permanently =0) ro 0 4.8 100base-tx-fd 1: 100base-tx full duplex capable 0: not 100base-tx full duplex capable rw 1 4.7 100base-tx 1: 100base-tx half duplex capable 0: not 100base-tx half duplex capable rw 1 4.6 10base-t-fd 1: 10base-tx full duplex capable 0: not 10base-tx full duplex capable rw 1 4.5 10base-t 1: 10base-tx half duplex capable 0: not 10base-tx half duplex capable rw 1 4.[4:0] selector field [00001]=ieee 802.3. ro 00001 next page ? the rtl8208b(f)-lf does not implement the next page function, so bit 15 will always return a ?0? when read. acknowledge ? because the next page function is not implem ented, bit 14 will always return a ?0? when read. remote fault ? writing a ?1? to this bit causes a remote fau lt indicator to be sent to the link partner during auto-negotiation. reserved ? reserved bits are r/w to allow for forwar d compatibility with future ieee standards. www.datasheet.co.kr datasheet pdf - http://www..net/
rtl8208b-lf/RTL8208BF-LF datasheet single-chip octal 10/100-tx/fx phy transceiver 20 track id: jatr-1076-21 rev. 1.3 asymmetric pause ? setting this bit indicates the availability of asymmetric flow control capabilities when full duplex operation is in use. this bit is used by one mac to communicate asymmetric pause capability to its link partner and has no effect on phy operation. pause ?setting this bit indicates the av ailability of flow control capab ilities when full duplex operation is in use. this bit is used by one mac to communi cate pause capability to its link partner and has no effect on phy operation. 100base-t4 ? because the rtl8208b(f)-lf does not support the t4 function, any reads to this bit will return a ?0?. 100base-tx-fd ? this bit advertises that the rtl8208b(f )-lf can operate in 10 0base-tx full duplex mode. writing a ?0? to this bit will suppress advertisi ng of this ability. resetting the chip restores the default value. the default value is ?1? and writing a ?1? will set this bit to ?1?. r eading this bit will return the last written value, or the default value if no write has been completed since the last reset. 100base-tx ? this bit advertises that the rtl8208b(f )-lf can operate in 100base-tx half duplex mode. writing a ?0? to this bit will suppress advertisi ng of this ability. resetting the chip will restore the default value. the default value is ?1? and writing a ?1? will set this bit to ?1?. r eading this bit will return the last written value, or the default value if no write has been completed since the last reset. 10base-t-fd ? this bit advertises that the rtl8208b(f )-lf can operate in 10base-t full duplex mode. writing a ?0? to this bit will suppress advertising of this ability. resetting the chip will restore the default value. the default value is ?1? and wr iting a ?1? will set this b it to ?1?. reading this bit will return the last written value, or the default value if no write has been completed since the last reset. 10base-t ? this bit advertises that the rtl8208b(f)-lf can operate in 10base-t half duplex mode. writing a ?0? to this bit will suppress advertising of this ability. resetting the chip will restore the default value. the default value is ?1? and wr iting a ?1? will set this b it to ?1?. reading this bit will return the last written value, or the default value if no write has been completed since the last reset. selector field ? bits 4:0 contain a fixed value of 00001, indicating that the ch ip belongs to the ieee 802.3 class of phy transceivers. www.datasheet.co.kr datasheet pdf - http://www..net/
rtl8208b-lf/RTL8208BF-LF datasheet single-chip octal 10/100-tx/fx phy transceiver 21 track id: jatr-1076-21 rev. 1.3 6.6. register5: auto-negotiation link partner ability this register contains the advertised abilities of th e link partner as received during auto negotiation. the content changes after suc cessful auto negotiation. table 16. register5: auto-negotiation li nk partner ability reg. bit name description type default 5.15 next page 1: link partner desires next page transfer 0: link partner does not desire next page transfer ro 0 5.14 acknowledge 1: link partner acknowledges reception of flp words 0: no acknowledgement by link partner ro 0 5.13 remote fault 1: remote fault indicated by link partner 0: no remote fault indicated by link partner ro 0 5.12 reserved reserved. ro 0 5.11 asymmetric pause 1: asymmetric flow control supported by link partner 0: no asymmetric flow control supported by link partner when auto-negotiation is enabled, this bit reflects link partner ability (read only). in 100fx mode, this bit is set by fx_asy_pause or smi. rw 0 5.10 pause 1: flow control supported by link partner 0: no flow control supported by link partner when auto-negotiation is enabled, this bit reflects link partner ability (read only). in 100fx mode, this bit is set by fx_pause or smi. rw 0 5.9 100base-t4 1: 100base-t4 supported by link partner 0: 100base-t4 not supported by link partner ro 0 5.8 100base-tx-fd 1: 100base-tx full duplex supported by link partner 0: 100base-tx full duplex not supported by link partner for 100fx mode, this bit is set when reg.0.8=1 or fx_duplex =1. when auto-negotiation is disabled, this bit is set when reg.0.13=1 and reg.0.8=1. ro 0 5.7 100base-tx 1: 100base-tx half duplex supported by link partner 0: 100base-tx half duplex not supported by link partner for 100fx mode, this bit is set when reg.0.8=0 or fx_duplex =0. when auto-negotiation is disabled, this bit is set when reg.0.13=1 and reg.0.8=0. ro 0 5.6 10base-t-fd 1: 10base-tx full duplex supported by link partner 0: 10base-tx full duplex not supported by link partner when auto-negotiation is disabled, this bit is set when reg.0.13=0 and reg.0.8=1. ro 0 5.5 10base-t 1: 10base-tx half duplex supported by link partner 0: 10base-tx half duplex not supported by link partner when auto-negotiation disabled, this bit is set when reg.0.13=0 and reg.0.8=0. ro 0 5.[4:0] selector field [00001]=ieee 802.3. ro 00001 note: the values are only guaranteed to be valid once auto-negotiation has successfully completed, as indicated by bit 5 of the mii status register. www.datasheet.co.kr datasheet pdf - http://www..net/
rtl8208b-lf/RTL8208BF-LF datasheet single-chip octal 10/100-tx/fx phy transceiver 22 track id: jatr-1076-21 rev. 1.3 next page ? bit 15 returns a value of ?1? when the link partner implements the next page function and has next page information that it wants to tr ansmit. however, since the rtl8208b(f)-lf does not implement the next page function, it ignores the ne xt page bit, except to copy it to this register. acknowledge ? bit 14 is used by auto negotiation to indica te that a device has successfully received its link partner?s link code word. remote fault ? bit 13 returns a value of ?1? when the li nk partner signals that a fault has occurred. reserved ? not defined by the ieee 802.3 standard. asymmetric pause ? indicates that the link partner asymmetric pause bit is set. pause ? indicates that the link partner pause bit is set. 100base-t4 ? though the rtl8208b(f)-lf does not support th e t4 function, this bit reflects the t4 ability of the link partner. 100base-tx-fd ? this bit indicates that the link part ner can support 100base- tx full duplex mode. this bit is cleared any time auto negotiation is restarted or the r tl8208b(f)-lf is reset. 100base-tx ? this bit indicates that the link partner can support 100base-tx half duplex mode. this bit is cleared any time auto negotiation is restarted or the rtl8208b(f)-lf is reset. 10base-t-fd ? this bit indicates that th e link partner can support 10base- t full duplex mode. this bit is cleared any time auto negotiation is re started or the rtl8208b(f)-lf is reset. 10base-t ? this bit indicates that the link partner can support 10base-t half duplex mode. this bit is cleared any time auto negotiation is rest arted or the rtl8208b(f)-lf is reset. selector field ? bits 4:0 reflect the value of the link partne r?s selector field. these bits are cleared each time auto negotiation is restarted or the chip is reset, and generally reflects the value 0001, indicating that the link partner is an ieee 802.3 device. www.datasheet.co.kr datasheet pdf - http://www..net/
rtl8208b-lf/RTL8208BF-LF datasheet single-chip octal 10/100-tx/fx phy transceiver 23 track id: jatr-1076-21 rev. 1.3 6.7. register6: auto-negotiation expansion table 17. register6: auto-negotiation expansion reg. bit name description type default 6.[15:5] reserved ro 0 6.4 parallel detection fault 1: a fault has been detected via the parallel detection function 0: no fault has been detected via the parallel detection function ro 0 6.3 link partner next page able 1: link partner is next page able 0: link partner is not next page able ro 0 6.2 local next page able 1: rtl8208b(f)-lf is next page able 0: rtl8208b(f)-lf is not next page able (permanently=0) ro 0 6.1 page received 1: a new page has been received 0: a new page has not been received ro/lh 0 6.0 link partner auto- negotiation able if auto-negotiation is enabled, this bit means: 1: link partner is auto-negotiation able 0: link partner is not auto-negotiation able in 100fx or auto-negotiation disabled, this bit is always 1. ro 0 (auto- negotiation) or 1 (100fx) reserved ? ignore the output of the rtl8208b (f)-lf when these bits are read. parallel detection fault ? bit 4 is a read-only bit that is latched high when a parallel detection fault occurs in the auto negotiation state machine. for further details, consult the ieee 802.3 standard. the bit is reset to ?0? after the register is read, or when the chip is reset. link partner next page able ? bit 3 returns a ?1? when the link pa rtner has next page capabilities. it has the same value as bit 15 of the link partner ability register. local next page able ? the rtl8208b(f)-lf does not have next page capabilities, so it will always return a ?0? when bit 2 is read. page received ? bit 1 is latched high when a new link code word is received from the link partner, checked, and acknowledged. this bit is cleared wh en the link is lost or the chip is reset. link partner auto-negotiation able ? bit 0 returns a ?1? once the link partner is known to have auto negotiation capabilities. before any auto negotiation information is exch anged, or if the link partner does not comply with ieee auto negotiati on, the bit returns a value of ?0?. www.datasheet.co.kr datasheet pdf - http://www..net/
rtl8208b-lf/RTL8208BF-LF datasheet single-chip octal 10/100-tx/fx phy transceiver 24 track id: jatr-1076-21 rev. 1.3 6.8. port 1 register24: cable tester control register0 table 18. port 1 register24: cable tester control register0 reg. bit name description type default 15:13 port selection port selection for cable test. rw 000 12 reserved must be set to the default value. rw 0 11 enrtct 1: run cable test 0: stop cable test rw 0 10:8 reserved must be set to the default value. rw 111 7:0 reserved must be set to the default value. rw 0x80 port selection 000 = select port 0 to run cable test 001 = select port 1 to run cable test 010 = select port 2 to run cable test 011 = select port 3 to run cable test 100 = select port 4 to run cable test 101 = select port 5 to run cable test 110 = select port 6 to run cable test 111 = select port 7 to run cable test enrtct ? set to ?1? to run the utp cable test, and set to ?0? after completion of the cable test process. 6.9. port1 register29: cable tester control register1 table 19. port1 register29: cable tester control register1 reg. bit name description type default 15 reserved must be set to the default value. rw 0 14 seltx 1: cable test on tx pair 0: cable test on rx pair rw 0 13 reserved must be set to the default value. rw 0 12 reserved must be set to the default value. rw 1 11:0 reserved must be set to the default value. rw 0x7d0 seltx 0: select rx_pair (pair 1/2) to run cable test 1: select tx_pair (pair 3/6) to run cable test www.datasheet.co.kr datasheet pdf - http://www..net/
rtl8208b-lf/RTL8208BF-LF datasheet single-chip octal 10/100-tx/fx phy transceiver 25 track id: jatr-1076-21 rev. 1.3 6.10. port1 register30: cable status register table 20. port1 register30: cable status register reg. bit name description type default 15 rtct_rdy 1: cable test status is ready 0: cable test status is not ready ro 0 14 reserved ro 0 13:12 status cable tester status. 00: normal cable 01: open in cable 10: short in cable 11: reserved ro 00 11:9 reserved ro 0 8:0 distance distance of reflection. ro 0 rtct_rdy ? this bit will return a ?1? if the cable test process has been completed and the contents of status and distance are valid. status ? cable test status is valid afte r completion of cable test process. distance ? these bits (in decimal) divided by 4 equal th e approximate distance (meters) to the open/short fault location. these bits are valid after completion of the cable test process. www.datasheet.co.kr datasheet pdf - http://www..net/
rtl8208b-lf/RTL8208BF-LF datasheet single-chip octal 10/100-tx/fx phy transceiver 26 track id: jatr-1076-21 rev. 1.3 7. function description 7.1. general 7.1.1. smi (serial management interface) smi (serial management interface) is also known as mii management interface and c onsists of two signals, mdio and mdc, which allow the mac controlle r to control and monitor the state of the phy. mdc is a clock input for phy to latch mdio on its rising edge. the clock can run from dc to 2.5mhz. mdio is a bi-directional connection used to write data to, or read data from phy. the phy address base is set by pins phy_addr[4:3], and the eight port addresses of the rtl8208b(f )-lf are internally 000, 001, 010, 011, 100, 101, 110, and 111. table 21. smi read/write cycles preamble (32 bits) start (2 bits) op code (2 bits) phyad (5 bits) regad (5 bits) turnaround (2 bits) data (16 bits) idle read 1??..1 01 10 aaaaa rrrrr z0 d??.d z* write 1??..1 01 01 aaaaa rrrrr 10 d??.d z* note1: *z: high-impedance. during idle time, mdio state is determined by an external 1.5k ? pull-up resistor. note2: the rtl8208b(f)-lf supports preamble suppression, which allows the mac to issue read/write cycles without preamble bits (but needs at least one idle for every cycle). however, for the first mii management cycle after power-on reset, a 32-bit preamble is needed. to guaran tee the first successful smi transaction after power-on reset, the mac should be delayed at least 700s to issue the first smi read/write cycle relative to the rising edge of reset. 7.1.2. port pair-loop back mode ( pp-lpbk) (RTL8208BF-LF only) port pair-loop back mode (pp-lp bk) mode is enabled by pulling the pin high on reset. when in pp-lpbk mode, the ports of the r tl8208bf-lf are configured as four pairs, port0 & port1, port2 & port3, port4 & port5, and port6 & port7. each pair is set as rmii interface l oopback, acting as a signal regeneration /transformation repeater, so a switch controller is not necessary. in pp-lpbk mode, tp port and fx por t selection is different from that in normal mode. the tp and fx port selection configuration is as follows: in table 22, ?u? means utp port, ?f? means fiber port. table 22. port pair-loop back mode (pp-lpbk) (RTL8208BF-LF only) pp-lpbk mode (pin 105) sel_txfx[1:0] (pin 99, 107) port0, port1 port2, port3 port4, port5 port6, port7 0 0 u u u u u u u u 0 1 u u u u u u u f 1 0 u u u u u u f f 0 (normal mode) 1 1 f f f f f f f f 0 0 u u u u u u u u 0 1 u u u u u f u f 1 0 u f u f u f u f 1 (pp-lpbk) 1 1 f f f f f f f f www.datasheet.co.kr datasheet pdf - http://www..net/
rtl8208b-lf/RTL8208BF-LF datasheet single-chip octal 10/100-tx/fx phy transceiver 27 track id: jatr-1076-21 rev. 1.3 since this configuration is a loopback connection, it us es full duplex only. half duplex is not supported. the loopback-pair ports should be c onfigured to the same speed. a lthough this mode does not effect normal nway mode, in order to keep each pair?s two ports at the same speed, there is an auto-detection scheme. this scheme specifies that if one port of th e pair is already linked, when the other port is linked later, the earlier link-on port will re-sta rt auto negotiation. when pp-lpbk mode is set, there are three requirements: it must be based upon rmii mode; no switc h controller can be connected; and tx_en[7:0] must be pulled down. 7.1.3. phy address each transceiver in the rtl8208b(f)-lf has a unique phy address for mii management. the address is set through the phy address pins. the pins are latched at th e trailing end of a reset. transceiver 1 will have the address aa000, where aa=phyad [4:3]. each internal phy address is aa000, aa001, aa010, aa011, aa100, aa101, aa 110, aa111. every time an smi write or read operation is executed, the transceiver compares the phy address with its own phy address defin ition, and the operation is executed only when the addresses match. 7.1.4. auto-negotiation for 10/100mbps tp ports, the rtl8208b(f)-lf default setup is auto-negotiation enabled. setting register 0.12=0 via an smi write will disable auto -negotiation. for a 100fx port, auto-negotiation is always disabled. for an auto-negotiation enabled port, the rtl8208b (f)-lf will negotiate with its link partner to determine the speed and duplex status. the rtl8208b(f)-l f?s ability is advertised in register 4. after auto-negotiation is finished, the link part ner?s ability is stored in register 5. if the link partner is auto-negotia tion disabled, the rtl8208b(f)-lf ente rs a parallel-detection state to identify the speed of the li nk partner. the rtl8208b(f)-l f will link at the same speed as the link partner, in half duplex mode if frc_para_full=0 upon rese t, or in full duplex mode if frc_para_full=1 upon reset. auto-negotiation is also used to determine full-duplex fl ow control. flow control ability is advertised in register 4.10. the link partner?s flow control ability is stored in re gister 5.10. see the following section for more information. 7.1.5. full-duplex flow control if hardware pins tp_pause or fx_pause are enable d at power-on reset, regi ster 5.10=1 and register 4.10=1. therefore, after reset is completed: when auto-negotiation is enabled -- register 4.10 may be overwritten by the mac, and register 5.10 may be updated after nway has completed. regi ster 5.10 is set as read-only for the mac. when auto-negotiation is disabled -- register 5.10 is set to r/w for the mac through the smi interface. if the smi does not writ e to register 5.10, the register remains 5.10=1, which means hardware forced flow control is enabled. www.datasheet.co.kr datasheet pdf - http://www..net/
rtl8208b-lf/RTL8208BF-LF datasheet single-chip octal 10/100-tx/fx phy transceiver 28 track id: jatr-1076-21 rev. 1.3 7.2. initialization and setup 7.2.1. reset the rtl8208b(f)-lf is initialized wh ile in the reset state. during reset, each transceiver is reset simultaneously. there are three ways to reset the rtl8208b(f)-lf: power-on auto reset; hardware pin reset; and software reset. the internal power-on auto-r eset circuit can reset the chip while the reset pin is floating. the hardware reset signal mu st be asserted low fo r at least 10ms on the re set# pin. a software reset is implemented by writing regist er 0.15=1, which is self-clearing. 7.2.2. setup and configuration the operational modes of the rtl8208b(f)-lf can be c onfigured either by hard ware pin (pulled high or low) upon reset, or by software programming vi a accessing the rtl8208b(f)-lf registers through the smi (see section 5 pin descript ions, page 6 for details). 7.3. 10base-t 7.3.1. transmit function when tx_en is active, txd from rmii/smii/ss-smii is serialized, manche ster-encoded, and driven onto the network medium as a packet stream. an on-chip filtering and wa ve shaping circuit eliminates the need for external filtering. the transmit function is disabled when the link has failed or when the auto- negotiation process is in progress. 7.3.2. receive function the manchester decoder converts the incoming serial st ream when the circuit de tects the signal, and the digital serial stream is then conve rted to 2-bit (rmii) or 1-bit (smi i/ss-smii) data format. the preamble of the incoming stream is stripped off and regenerated. sfd is ge nerated into rxd once the incoming sfd is detected and data bits enteri ng the elastic buffer are over threshold. 7.3.3. link monitor the 10base-t link pulse detection circ uit continually monitors the rxip /rxin pins for the presence of valid link pulses. auto-polarity is implemented to correct the detected reve rse polarity of rxip/rxin signal pairs. the 10base-t link pulse detection circ uit constantly monitors the rxip/rxin pins for the presence of valid link pulses. auto-polarity is implemented fo r correcting the detected reverse polarity of the rxip/rxin signal pairs. www.datasheet.co.kr datasheet pdf - http://www..net/
rtl8208b-lf/RTL8208BF-LF datasheet single-chip octal 10/100-tx/fx phy transceiver 29 track id: jatr-1076-21 rev. 1.3 7.3.4. jabber jabber occurs when tx_en is asserted for longer than 21ms. both transmit and loopback functions are disabled once jabber has occurred. the mii register 1.1 (jabber detect) bit is set high until jabber disappears and the bit is read again. the jabber f unction is supported in 10- base-t only, and is not implemented in 100base-tx. the collision led of th e corresponding port will blink while jabber occurs. jabber is dismissed after tx_en remains low for at least 500ms. 7.3.5. loopback loopback mode can be achieved by writing to regist er 0.14=1. loopback mode routes transmitted data at the output of nrz to the nrzi conversion module, back to the receiving path. this mode is used to check the device?s connections at the 5-bit symbol bus, and verify the operation of the phase-locked loop (pll). 7.4. 100base-tx an internal 125mhz clock is generated by an on-chip pll circuit to synchronize the transmit data or generate the clock signal fo r the incoming data stream. 7.4.1. transmit function upon detection of tx_en high, the rtl8208b(f)-l f converts rmii/smii/ss-smii txd to a 5-bit code-group and substitutes j/k code-groups for the fi rst two code-groups (start of stream delimiters (ssd)). as long as tx_en is asserted high, 4b5b c oding continues for all data . at the end of tx_en, t/r code-groups are appended to the last data field. these are stripped off at the remote receiving end. during the inter-packet gap, where tx_en deasserte d, idle code-groups are transmitted for clocking purposes of the remote receiver. the 5-bit serial da ta stream is 4b5b coded and then scrambled, as defined by the tp-pmd stream cipher function, to flatten the power spectrum energy such that emi effects are significantly reduced. the scrambled seed is unique for each port based on phy addresses. after scrambling, the bit stream is driven onto the network media in the form of m lt-3 signaling. this multi- level signaling technology moves the power spectrum energy from high frequenc y to low frequency, which also benefits emi emission. scrambling is not implemented in 100base-fx. www.datasheet.co.kr datasheet pdf - http://www..net/
rtl8208b-lf/RTL8208BF-LF datasheet single-chip octal 10/100-tx/fx phy transceiver 30 track id: jatr-1076-21 rev. 1.3 7.4.2. receive function the receive path includes a receiver composed of an adaptive equalizer and dc restoration circuits. these circuits compensate for incoming distortion of the mlt-3 signal. an mlt-3 to nrzi, and nrzi to nrz converter is used to convert analog signals to digital bit-streams. a pll circuit is also included to clock data bits with minimum bit error rate. de-scrambl er, 5b/4b decoder, and se rial-to-parallel conversion circuits follow. crs_dv is asserted no later than within a few bits time of when the ssd (start-of- stream-delimiter) is detected (delay due to the elas tic buffer as mentioned in the rmii section, page 34), and ends toggling once the data in the el astic buffer has been dumped to rxd. table 23. 4b/5b coding name 4b code 5b code definition 0 0000 11110 data 0 1 0001 01001 data 1 2 0010 10100 data 2 3 0011 10101 data 3 4 0100 01010 data 4 5 0101 01011 data 5 6 0110 01110 data 6 7 0111 01111 data 7 8 1000 10010 data 8 9 1001 10011 data 9 a 1010 10110 data a b 1011 10111 data b c 1100 11010 data c d 1101 11011 data d e 1110 11100 data e f 1111 11101 data f i 0000* 11111 idle j 0101* 11000 start of stream delimiter, part 1 k 0101* 10001 start of stream delimiter, part 2 t 0000* 01101 end of stream delimiter, part 1 r 0000* 00111 end of stream delimiter, part 2 h 1000 00100 transmit error (used to force signaling errors) v 0111 00000 invalid code v 0111 00001 invalid code v 0111 00010 invalid code v 0111 00011 invalid code v 0111 00101 invalid code v 0111 00110 invalid code v 0111 01000 invalid code v 0111 01100 invalid code v 0111 10000 invalid code v 0111 11001 invalid code *treated as an invalid code (mapped to 0111) when received in data field. www.datasheet.co.kr datasheet pdf - http://www..net/
rtl8208b-lf/RTL8208BF-LF datasheet single-chip octal 10/100-tx/fx phy transceiver 31 track id: jatr-1076-21 rev. 1.3 7.4.3. link monitor in 100base-tx mode, receive signal en ergy is detected by monitoring the receive pair for transitions in the signal level. signal levels are qualified using sque lch detect circuits. when no signal or valid signals are detected on the receive pair, the link monitor will enter and remain in the ?link fail? state where only idle codes will be transmitted. when a valid signal is detected on the receive pair, the link monitor will enter the ?link pass? state and the transm it and receive functions will be enabled. 7.5. baseline wander compensation the rtl8208b(f)-lf is ansi tp-pmd compliant and supports input and base line wander (blw) compensation in 100base-tx mode. the rtl8208b(f)-lf does not requir e external attenuation circuitry at its receive inputs, rxip/rxin. it accepts tp-p md compliant waveforms directly, requiring only a 100 ? termination and a 1:1 transformer. blw is the change in the average dc content, over time, of an ac coupled di gital transmission over a given transmission medium. blw is a result of the interaction between the low frequency components of a transmitted bit stream and the frequency respons e of the ac coupling component(s) within the transmission system. if the low frequency content of the digital bit stream goes below the low frequency pole of the ac coupling transformers, then the droop characteristics of the transformers will dominate, resulting in potentially serious blw. if blw is not compensated for, packet loss will occur. 7.6. 100base-fx (RTL8208BF-LF only) the RTL8208BF-LF (the rtl8208b-lf does not support fiber application) can be configured to 100base-fx mode through sel_txfx[1:0] (pp-lpbk mode should be 0), depending on the setting of sel_txfx[1:0], port 7 or port 6/7, or all eight ports can be conf igured for 100base-fx operation. note: in compliance with ieee 802.3u, 100base-fx doe s not support auto-negotiation. in order to operate correctly, both sides of th e connection should be set to the same duplex and flow control ability. table 24. 100base-fx pp-lpbk mode=0 sel_txfx[1:0] medium type port 0 port 1 port2 port3 port4 port5 port6 port7 2?b00 utp utp utp utp utp utp utp utp 2?b01 utp utp utp utp utp utp utp fx 2?b10 utp utp utp utp utp utp fx fx 2?b11 fx fx fx fx fx fx fx fx utp: 10base-t/100base-tx. fx: 100base-fx. the RTL8208BF-LF performs a link monitoring f unction with less pins required than regular 100base-fx applications (it removes a pair of differential signal detect signals (realtek patent)), which significantly reduces the pin count in this octal phy. any of the RTL8208BF-LF transceivers may interface with an external 100base-fx fiber optic device and receiver, instead of the magnetic module used w ith twisted-pair cable. the differential transmit and receive data pairs will operate at pecl (positive em itter coupled logic) voltage levels instead of those required for twisted-pair transmission. the data will be encoded using two-level nrzi instead of three- level mlt3. the data stream is not sc rambled for fiber-optic transmission. www.datasheet.co.kr datasheet pdf - http://www..net/
rtl8208b-lf/RTL8208BF-LF datasheet single-chip octal 10/100-tx/fx phy transceiver 32 track id: jatr-1076-21 rev. 1.3 7.6.1. transmit function in 100base-fx transmission, txd is processed as 100base-tx, except without scrambling, before the nrzi stage. instead of converting to mlt-3 signals, as in 100base-tx, the serial data stream is driven out as nrzi pecl signals. these enter the fiber transceiver in differential-pairs form. the fiber transceiver only operates in a 3.3v environment. refer to figure 22, page 49 for more information. table 25. pecl dc characteristics parameter symbol min max unit pecl input high voltage vih vdd-1.16 vdd-0.88 v pecl input low voltage vil vdd-1.81 vdd-1.47 v pecl output high voltage voh vdd-1.02 v pecl output low voltage vol vdd-1.62 v 7.6.2. receive function signals are received through pecl receiver inputs from a fiber transceiver and di rectly passed to a clock recovery circuit for data/clock recovery. scra mbling/de-scrambling is bypassed in 100base-fx. 7.6.3. link monitor in 100base-fx mode, if the rtl8208bf- lf receive path detects a valid lin k word, it enters the link state. if no valid link word is detected, it is in a link down state. therefore, sd+/- is not necessary. the RTL8208BF-LF uses a reduced 100base-fx interface. 7.6.4. far-end-fault-indication the mii register 1.4 (remote fault indication detect ed) is a far-end-fault-i ndication (fefi) bit when 100fx is enabled, and indicates that a fefi has been detected. fefi is an a lternative in-band signaling that is composed of 84 consecutive 1?s followed by one 0. when the RTL8208BF-LF has detected this pattern three times, reg.1.4 is set, which means the transmit path (remote side?s receive path) has problems. if the RTL8208BF-LF detects no valid link pulse on the rxop/n pair, it sends out a fefi stream pattern, which in turn will cause the remote side to detect a far-end-fault. this means the RTL8208BF-LF sees problems on the receive path. the fefi mechanism is used onl y in 100base-fx applications. www.datasheet.co.kr datasheet pdf - http://www..net/
rtl8208b-lf/RTL8208BF-LF datasheet single-chip octal 10/100-tx/fx phy transceiver 33 track id: jatr-1076-21 rev. 1.3 7.6.5. reduced fiber interface the RTL8208BF-LF ignores the underl ying sd signal of the fiber trans ceiver to complete link detection and connection. this is achieved by monitoring rd signals from the fiber transceiver and checking whether any link integrity events are encountered. th is significantly reduces pin-count, especially for high-port phy devices. this is a r ealtek patent-pending technology and available only with realtek products. 7.7. rmii/smii/ss-smii the interface to the mac can be rmii, smii, or ss-smii through mode[1:0]. when floating mode[1:0] upon power-on reset, the rtl8208b( f)-lf operates in rmii mode (default). table 26. rmii/smii/ss-smii modes mode[1:0] operation mode refclk clock input 2?b1x rmii 50mhz 50ppm 2?b00 smii 125mhz 50ppm 2?b01 ss-smii 125mhz 50ppm table 27 illustrates the signals required for each interface: table 27. rmii/smii/ss-smii signals rmii smii ss-smii refclk refclk refclk sync tx_sync crs_dv[2:0] crs_dv[3] rx_sync crs_dv[4] rx_clk crs_dv[7:5] rxd0[7:0] rxd0[7:0] rxd0[7:0] rxd1[7:0] tx_en[3:0] tx_en[4] tx_clk tx_en[7:5] txd0[7:0] txd0[7:0] txd0[7:0] txd1[7:0] www.datasheet.co.kr datasheet pdf - http://www..net/
rtl8208b-lf/RTL8208BF-LF datasheet single-chip octal 10/100-tx/fx phy transceiver 34 track id: jatr-1076-21 rev. 1.3 7.7.1. rmii (reduced mii) the rtl8208b(f)-lf meets all of the rmii re quirements outlined in the rmii consortium specifications. the main advantage introduced by rmii is pin count reduction; e.g., it operates with only one 50mhz reference clock for both the tx and rx side s, without separate clocks needed for both paths, as with the mii interface. however, some hardware modification is needed for this change, the most important of which is the presence of an elastic buffer for absorp tion of the frequency difference between the 50mhz reference clock and the clocking informa tion of the incoming data stream. another change implemented is that the mii rxdv and carrier_sense are merged into one signal, crs_dv, which is asserted high while detecting incoming packet da ta. when internal carrier_sense is de-asserted, crs_dv is de-asserted when the first di-bit of a ni bble is presented onto rxd[1:0] synchronously to refclk. if there is still data in the fifo that has not yet been pr esented onto rxd[1:0], then, on the second di-bit of a nibble, crs_dv reasserts. this pa ttern of assertion and de-a ssertion continues until all received data in the fifo has been presented onto rxd[1:0] figure 3. rmii signal diagram www.datasheet.co.kr datasheet pdf - http://www..net/
rtl8208b-lf/RTL8208BF-LF datasheet single-chip octal 10/100-tx/fx phy transceiver 35 track id: jatr-1076-21 rev. 1.3 7.7.2. smii (serial mii) the rtl8208b(f)-lf also supports smii interface to mac, which allows a further reduction in the number of signals. as illustrated below, both th e mac and rtl8208b(f)-lf are synchronous to a 125mhz reference clock. figure 4. smii signal diagram receive path receive data and control informati on are signaled in 10-bit segments. the sync signal is used to delimit the 10-bit segments. the mac is responsible for ge nerating sync pulses every ten clocks. in 100mbps mode, each segment represents a byte of data. in 10mbps mode, each segment is repeated ten times to represent a byte of data. the receive sequence contains all of the info rmation defined on the standard mii receive path. table 28. smii reception encoding crs rx_dv rxd0 rxd1 rxd2 rxd3 rxd4 rxd5 rxd6 rxd7 x 0 rxer from previous frame speed 0: 10mbps 1: 100mbps duplex 0: half 1: full link 0: down 1: up jabber 0: ok 1: detected upper nibble 0: invalid 1: valid false carrier 0: ok 1: detected 1 x 1 one data byte (two mii data nibbles) refclk rxd[0] sync crs rxdv rxd0 rxd7 rxd6 rxd5 rxd4 rxd3 rxd2 rxd1 12345678910 figure 5. smii reception www.datasheet.co.kr datasheet pdf - http://www..net/
rtl8208b-lf/RTL8208BF-LF datasheet single-chip octal 10/100-tx/fx phy transceiver 36 track id: jatr-1076-21 rev. 1.3 transmit path transmit data and control information are signaled in 10-bit segments. sync signal is used to delimit the 10-bit segments. mac is responsible to generate these sync pulse s every ten clocks. for 100mbps mode, each segment represents a byte of data. however, for 10mbps mode, each segment is repeated ten times to represent a byte of data. table 29. smii transmission encoding txer txen txd0 txd1 txd2 txd3 txd4 txd5 txd6 txd7 x 0 x x x x x x x x x 1 one data byte (two mii data nibbles) refclk sync tx_er tx_en txd0 txd7 txd6 txd5 txd4 txd3 txd2 txd1 12345678910 txd[0] figure 6. smii transmission collision detection the rtl8208b(f)-lf does not indicate th at a collision has occurred. it is left to the mac to detect the assertion of both crs_dv and tx_en. 7.7.3. ss-smii (source synchronous -serial mii) source-synchronous smii is designed for applications requiring a trace delay of more than 1ns. three signals are added to the smii interface: rx_sync , rx_clk, tx_clk; and the sync of smii is modified to tx_sync in ss-smii. figure 7. ss-smii signal diagram www.datasheet.co.kr datasheet pdf - http://www..net/
rtl8208b-lf/RTL8208BF-LF datasheet single-chip octal 10/100-tx/fx phy transceiver 37 track id: jatr-1076-21 rev. 1.3 receive path receive data and control information are signaled in 10-bit segments. the rx_sync signal is used to delimit the 10-bit segments. the rtl8208b(f)-lf is responsible for generating these rx_sync pulses every ten clocks. in 100mbps mode, each segment represents a byte of data. in 10mbps mode, each segment is repeated ten times to represent a byt e of data. the receive sequence contains all the information defined on the standard mii receive path. rx_clk rxd[0] rx_sync crs rxdv rxd0 rxd7 rxd6 rxd5 rxd4 rxd3 rxd2 rxd1 12345678910 figure 8. ss-smii reception transmit path transmit data and control information are signaled in 10-bit segments. the tx_sync signal is used to delimit the 10-bit segments. the mac is responsibl e for generating these tx _sync pulses every ten clocks. in 100mbps mode, each segment represents a byte of data. in 10mbps mode, each segment is repeated ten times to represent a by te of data. the receive sequence co ntains all the information defined on the standard mii receive path. the phy can sample one of the ten segments. tx_clk tx_sync tx_er tx_en txd0 txd7 txd6 txd5 txd4 txd3 txd2 txd1 12345678910 txd[0] figure 9. ss-smii transmission collision detection the rtl8208b(f)-lf does not indicate th at a collision has occurred. it is left to the mac to detect the assertion of both crs_dv and tx_en. www.datasheet.co.kr datasheet pdf - http://www..net/
rtl8208b-lf/RTL8208BF-LF datasheet single-chip octal 10/100-tx/fx phy transceiver 38 track id: jatr-1076-21 rev. 1.3 7.8. power saving and power down mode 7.8.1. power saving mode the rtl8208b(f)-lf implements power saving mode on a per-port basis. a port automatically enters power saving mode ten seconds after the cable is di sconnected from it. once a port enters power saving mode, it transmits normal link pulses only on its txop/txon pins and continues to monitor the rxip/rxin pins to detect incoming signals, whic h might be the 100base- tx mlt-3 idle pattern, 10base-t link pulses, or auto-negotiation?s flp (fast link pulse). after it detects an incoming signal, it wakes up from power saving mode and operates in normal mode according to the result of the connection. power saving mode is not supported when in 100fx operation. 7.8.2. reg0.11 power down mode the rtl8208b(f)-lf implements pow er- down mode on a per-port ba sis. setting mii reg.0.11 forces the corresponding port of the rtl8208b(f)-lf to enter power down mode. this disables all transmit/receive functions on that port. 7.9. led configuration 7.9.1. serial leds the rtl8208b(f)-lf supports serial led status streams for led di splay. the forms of led status streams, shown below, are controlled by ledmode[1 :0] pins, which are latched upon reset. all led statuses are represented as active-low, except link/ac t in bi-color led mode, whose polarity depends on spd status. table 30. serial led mode ledmode[1:0] mode output sequences 00 3-bit serial stream col/fulldup, link/act, spd 01 2-bit serial stream spd, link/act 10 3-bit for bi-color led col/fulldup, link/act, spd 11 1-bit serial stream link/act/spd www.datasheet.co.kr datasheet pdf - http://www..net/
rtl8208b-lf/RTL8208BF-LF datasheet single-chip octal 10/100-tx/fx phy transceiver 39 track id: jatr-1076-21 rev. 1.3 table 31. serial led status led status description col/fulldup collision/full duplex indicator. blinks every 43ms when collisions are occurring. low for full duplex, and high for half duplex mode. link/act link/activity indicator. in 3-bit serial stream mode, lo w for link established. in 3-bit bi-color led mode, link/act is high for link established when speed is low (100mbps); link/act is low for link established when speed is high (10mbps). link/act blinks every 43ms when the corresponding port is transmitting or receiving. spd speed indicator. low for 100mbps, high for 10mbps. link/act/spd link/activity/speed indicator. low for link established. blinking every 43ms for 100mbps activity. blinking every 120ms for 10mbps activity. led blinking time led blinking time can be set to 120ms by sett ing led_blnk_time=0. the led statuses supporting 43/120ms blink times are col/fulldup, link/act. for status link/act/spd, led blinking time is not affected by led_blnk_time. serial stream order every bit stream is output port by port, from port0 to port7 with col/fulldup as the first bit in a port stream. in 2-bit serial stream mode, the sequence is spd, then link/act. the fo llowing diagrams illustrate the sequences in 3-bit and 2-bit serial stream mode. ledclk leddta port 6 3-bit serial stream 24 23 22 21 20 19 640 ns 640 ns 640 ns 3 1 2 link/act link/act spd col/dup 640 ns 640 ns 640 ns 640 ns 640 ns 640 ns col/dup link/act spd col/dup spd port 7 3-bit serial stream port 0 3-bit serial stream figure 10. 3-bit serial stream mode 16 15 14 13 1 2 port 7 2-bit serial stream port 6 2-bit serial stream port 0 2-bit serial stream ledclk leddta link/act spd spd 640 ns 640 ns 640 ns 640 ns 640 ns 640 ns 640 ns link/act spd link/act figure 11. 2-bit serial stream mode www.datasheet.co.kr datasheet pdf - http://www..net/
rtl8208b-lf/RTL8208BF-LF datasheet single-chip octal 10/100-tx/fx phy transceiver 40 track id: jatr-1076-21 rev. 1.3 leddta ledclk vdd port 2 link/act led port 2 spd led port 1 col/dup led port 1 link/act led port 1 spd led port 0 col/dup led port 0 link/act led port 0 spd led port 5 spd led port 4 col/dup led port 4 link/act led port 4 spd led port 3 col/dup led port 3 link/act led port 3 spd led port 2 col/dup led port 7 col/dup led port 7 link/act led port 7 spd led port 6 col/dup led port 6 link/act led port 6 spd led port 5 col/dup led port 5 link/act led vdd vdd vdd 74164 qa qb qc qe qg qd qf qh a clk b clr 74164 qa qb qc qe qg qd qf qh a clk b clr 74164 qa qb qc qe qg qd qf qh a clk b clr figure 12. external circuit for 3-bit serial led mode leddta ledclk vdd port 2 spd led port 5 spd led port 4 link/act led port 4 spd led port 3 link/act led port 3 spd led port 7 link/act led port 7 spd led port 6 link/act led port 6 spd led port 5 link/act led vdd vdd 74164 qa qb qc qe qg qd qf qh a clk b clr 74164 qa qb qc qe qg qd qf qh a clk b clr port 2 link/act led port 1 link/act led port 1 spd led port 0 link/act led port 0 spd led figure 13. external circuit for 2-bit serial led mode www.datasheet.co.kr datasheet pdf - http://www..net/
rtl8208b-lf/RTL8208BF-LF datasheet single-chip octal 10/100-tx/fx phy transceiver 41 track id: jatr-1076-21 rev. 1.3 bi-color led for 3-bit bi-color led mode, link/act and spd are used for one bi-color led package, which is a single led package with two leds connected in parallel and with opposite polarities. table 32. bi-color led spd link/act indication bi-color state 0 0 no link off 0 1 100mbps link up green 1 0 10mbps link up yellow link/act spd green yellow figure 14. 3-bit bi-color led 7.9.2. scan led the rtl8208b(f)-lf supports scan led display mode . the forms of led status streams, as shown below, are controlled by ledmode[1:0 ] pins, which are latched upon reset. table 33. scan led ledmode[1:0] mode scan_status[2:0] 00 mode 0 col/fulldup, link/act, spd 01 mode 1 rx, tx, link 10 mode 2 for bi-color led nc, bi-color link/act/spd, nc 11 reserved table 34. scan led status led status description link/act link/activity indicator. high for link established. blinks when the corresponding port is transmitting or receiving. link link indicator. high for link established. spd speed indicator. high for 100mbps and low for 10mbps. col/fulldup collision/full duplex indicator. high for full duplex, low for half duplex. blinks when collisions occur on the corresponding port. bi-color link/act/spd bi-color led link, activity, and speed indicator. its polarity depends on the speed status. blinks when the corresponding port is transmitting or receiving. rx high for receive activity. tx high for transmit activity. www.datasheet.co.kr datasheet pdf - http://www..net/
rtl8208b-lf/RTL8208BF-LF datasheet single-chip octal 10/100-tx/fx phy transceiver 42 track id: jatr-1076-21 rev. 1.3 scan led timing for mode 0 and mode 1 scan_led[0] scan_led[1] scan_led[2] scan_led[3] scan_led[4] scan_led[5] scan_led[6] scan_led[7] 2.5s scan_status[2:0] 3-bit led 3-bit led 3-bit led 3-bit led 3-bit led 3-bit led 3-bit led 3-bit led p0 p1 p2 p3 p4 p5 p6 p7 2.5s 2.5s 2.5s 2.5s 2.5s 2.5s 2.5s figure 15. scan led timing for mode 0 and mode 1 t1 scan_status[3:0] scan_led [7:0] 10% 90% 90% 10% t2 figure 16. rise and fall timing of the scan_status and scan_led transition t1: rise time of all scan signals, typically 40ns. t2: fall time of all scan signals, typically 40ns. www.datasheet.co.kr datasheet pdf - http://www..net/
rtl8208b-lf/RTL8208BF-LF datasheet single-chip octal 10/100-tx/fx phy transceiver 43 track id: jatr-1076-21 rev. 1.3 external circuit for scan led mode 0 figure 17. external circuit for scan led mode 0 www.datasheet.co.kr datasheet pdf - http://www..net/
rtl8208b-lf/RTL8208BF-LF datasheet single-chip octal 10/100-tx/fx phy transceiver 44 track id: jatr-1076-21 rev. 1.3 external circuit for scan led mode 1 figure 18. external circuit for scan led mode 1 www.datasheet.co.kr datasheet pdf - http://www..net/
rtl8208b-lf/RTL8208BF-LF datasheet single-chip octal 10/100-tx/fx phy transceiver 45 track id: jatr-1076-21 rev. 1.3 external circuit for scan led mode 2 figure 19. external circuit for scan led mode 2 www.datasheet.co.kr datasheet pdf - http://www..net/
rtl8208b-lf/RTL8208BF-LF datasheet single-chip octal 10/100-tx/fx phy transceiver 46 track id: jatr-1076-21 rev. 1.3 7.10. crossover detection and auto correction during the link setup phase, the rtl8208b(f)-lf checks whether it receives active signals on each port in order to determine if a connection can be es tablished. in cases where the rtl8208b(f)-lf receiver data pin pair is connected to th e receiver data pin pair of the peer device, or vice versa, the rtl8208b(f)-lf will automatically cha nge its configuration to swap rece iver data pins with transmitter data pins. if a port is connected to a pc or ni c with mdi-x inte rface with a crossover cable, the rtl8208b(f)-lf will reconfigure the por t to ensure proper connection. th is effectively replaces the dip switch commonly used for reconf iguring a port on a hub or switch. by pulling-up en_autoxover, the rtl8208b(f)-lf iden tifies the type of connected cable and sets the port to mdi or mdix. when switching to mdi mode, the rtl8208b(f)-lf uses txop/n as transmit pairs; when switching to mdix mode, the rtl8208b(f)-lf uses rxip/n as transmit pairs. the same is true for the receive pairs. this functi on is port-based. pulling-down en_autoxover disables this function and the r tl8208b(f)-lf operates in md i mode, in which txop/n represents transmit pairs, and rxip/n represents receive pairs. note: ieee 802.3 compliant forced mode 100m ports with autoxover have link problems with nway (auto-negotiation) ports. it is recommende d to not use autoxover for forced 100m. 7.11. polarity detection and auto correction for better noise immunity and lower interference to ambient devices, the ethern et electrical signal on a twisted pair cable is transmitted in differential form. that is, the signal is transmitted on two wires in each direction with inverse polari ties (+/-). if wiring on the connector is fa ulty, or a faulty transformer is used, the two inputs to a transceiver may carry signals w ith opposite but incorrect polarities. as a direct consequence, the transceiver will not work properly. when the rtl8208b(f)-lf operates in 10base-t mode, it automatically re verses the polarity of its two receiver input pins if it detects that the polarities of the incoming signals on the pins is incorrect. however, this feature is unnecessary when the rtl 8208b(f)-lf is operating in 100base-tx mode. www.datasheet.co.kr datasheet pdf - http://www..net/
rtl8208b-lf/RTL8208BF-LF datasheet single-chip octal 10/100-tx/fx phy transceiver 47 track id: jatr-1076-21 rev. 1.3 7.12. 1.8v power generation the rtl8208b(f)-lf uses a pnp power transistor to generate 1.8v from the 3.3v power supply. this 1.8v provides for digital core and an alog circuits. the 1.8v power generati on circuit also uses an external diode (1n4001) to reduce the voltage drop between the emitter and collector of the power transistor. if your system needs more than one rtl8208b(f)-lf ch ip (greater than 8 por ts), do not use one pnp transistor for all of the rtl8208b(f)-lf chips, even if the rating is enough. in stead, use one transistor for each rtl8208b(f)-lf. do not connect any beads directly between the collector of the pnp tr ansistor and vdda. this will affect the stability of the 1.8v power significantly. figure 20. using a pnp transistor to transform 3.3v into 1.8v table 35. an example using power transistor 2sb1182 parameter symbol limits unit collector-base voltage v cbo -40 v collector-emitter voltage v ceo -32 v emitter-base voltage v ebo -5 v collector current i c -2 a (dc) collector power dissipation p c 10 w junction temperature tj 150 c storage temperature tstg -55~+150 c note: absolute maximum ratings (ta=25c). for more information, refer to http://www.rohm.com 7.13. cable tester the cable tester (utp cable only) determines the quality of the cable s, connectors, and terminations. some of the possible problems that can be diagnosed include open/short faults. the fault location can also be identified. the rtl8208b(f)-lf?s cable tester tr ansmits a signal of known amplitude to one pair of an attached cable. the transmitted signal will continue down the cab le until it reflects off a cable imperfection. the magnitude of the reflection and the time it takes for th e reflection to come back are shown in registers. using the information in the registers, the distance to the problem location and th e type of problem can be determined. www.datasheet.co.kr datasheet pdf - http://www..net/
rtl8208b-lf/RTL8208BF-LF datasheet single-chip octal 10/100-tx/fx phy transceiver 48 track id: jatr-1076-21 rev. 1.3 8. application information 8.1. 10base-t/100base-tx application figure 21. 10base-t/100base-tx application www.datasheet.co.kr datasheet pdf - http://www..net/
rtl8208b-lf/RTL8208BF-LF datasheet single-chip octal 10/100-tx/fx phy transceiver 49 track id: jatr-1076-21 rev. 1.3 8.2. 100base-fx application (RTL8208BF-LF only) figure 22. 100base-fx application (RTL8208BF-LF only) www.datasheet.co.kr datasheet pdf - http://www..net/
rtl8208b-lf/RTL8208BF-LF datasheet single-chip octal 10/100-tx/fx phy transceiver 50 track id: jatr-1076-21 rev. 1.3 9. characteristics 9.1. absolute maximum ratings warning: absolute maximum ratings are limits beyond wh ich permanent damage may be caused to the device, or device reliability will be affected. all voltages ar e specified reference to gnd unless otherwise specified. table 36. absolute maximum ratings parameter min max units storage temperature -10 +125 c vdda ,vdd supply referenced to gnd gnd-0.3 +1.98 v vddah,vddo supply referenced to gnd gnd-0.3 +3.63 v digital input voltage gnd vdd+0.3 v 9.2. operating range table 37. operating range parameter min typical max units ambient operating temperature (ta) 0 - +70 c 3.3v supply voltage range (vddah, vddo) 3.13 3.3 3.46 v 1.8v supply voltage range (vdda, vdd) 1.74 1.8 1.93 v 9.3. dc characteristics table 38. dc characteristics parameter symbol conditions min typical max units power supply current for 1.8v icc 10base-t, idle 10base-t, peak continuous 100% utilization 100base-tx, idle 100base-tx, peak continuous 100% utilization power saving power down tbd tbd 80 810 760 760 70 60 ma power supply current for 3.3v icc 10base-t, idle 10base-t, peak continuous 100% utilization 100base-tx, idle 100base-tx, peak continuous 100% utilization power saving power down - - 42 40 35 37 25 20 ma total power consumption for all 8 ports ps 10base-t, idle 10base-t, peak continuous 100% utilization 100base-tx, idle 100base-tx, peak continuous 100% utilization power saving power down - - 282 1590 1483 1490 208 174 mw www.datasheet.co.kr datasheet pdf - http://www..net/
rtl8208b-lf/RTL8208BF-LF datasheet single-chip octal 10/100-tx/fx phy transceiver 51 track id: jatr-1076-21 rev. 1.3 parameter symbol conditions min typical max units ttl input high voltage v ih 2 - - v ttl input low voltage v il - - 0.8 v ttl input current i in -10 - 10 ua ttl input capacitance c in - 3 - pf output high voltage v oh 2.6 - - v output low voltage v ol - - 0.4 v output tristate leakage current | ioz | - - 10 ua transmitter, 100base-tx (1:1 transformer ratio) tx+/- output current high i oh - - 40 ma tx+/- output current low i ol 0 - - ua transmitter, 10base-t(1:1 transformer ratio) tx+/- output current high i oh - - 100 ma tx+/- output current low i ol 0 - - ua receiver, 100base-tx rx+/- common-mode input voltage - - 1.8 - v rx+/- differential input resistance - - 2.5 - k ? receiver, 10base-t differential input resistance - - 2.5 - k ? input squelch threshold - - 340 - mv www.datasheet.co.kr datasheet pdf - http://www..net/
rtl8208b-lf/RTL8208BF-LF datasheet single-chip octal 10/100-tx/fx phy transceiver 52 track id: jatr-1076-21 rev. 1.3 9.4. ac characteristics table 39. ac characteristics parameter sym conditions min typical max units transmitter, 100base-tx differential output voltage, peak-to-peak v od 50 ? from each output to vcc, best-fit over 14 bit times - 2.022 - v differential output voltage symmetry v os 50 ? from each output to vcc, | vp+ | / | vp- | - 100.3 - % differential output overshoot v oo percent of vp+ or vp- - 2.7 - % rise/fall time t r ,t f 10-90% of vp+ or vp- - 4.2/4.3 - ns rise/fall time imbalance | t r - t f | - 100 - ps duty cycle distortion - deviation from best-fit time-grid, 010101 ? sequence - 133 - ps timing jitter - idle pattern - 650 - ps transmitter, 10base-tx differential output voltage, peak-to-peak v od 50 ? from each output to vcc, all pattern - 4.56 - v tp_idl silence duration - period of time from start of tp_idl to link pulses or period of time between link pulses 10.5 - 15.8 ms transmitter output jitter - - 6 - ns harmonic content - db below fundamental, 20 cycles of all ones data - 31.6 - db 9.5. digital timing characteristics table 40. digital timing characteristics parameter sym conditions min typical max units 100base-tx transmit system timing active tx_en sampled to first bit of ?j? on mdi output - - 11 12 bits inactive tx_en sampled to first bit of ?t? on mdi output - - 15 16 bits tx propagation delay t txpd from txd[1:0] to txop/n - 11 12 bits 100base-tx receive system timing first bit of ?j? on mdi input to crs_dv assert - from rxip/n to crs_dv - 6 8 bits first bit of ?t? on mdi input to crs_dv de- assert - from rxip/n to crs_dv - 16 18 bits rx propagation delay t rxpd from rxip/n to rxd[1:0] - 15 17 bits 10base-tx transmit system timing tx propagation delay t txpd from txd[1:0] to txop/n - 5 6 bits tx_en to mdi output - from tx_en assert to txop/n - 5 6 bits www.datasheet.co.kr datasheet pdf - http://www..net/
rtl8208b-lf/RTL8208BF-LF datasheet single-chip octal 10/100-tx/fx phy transceiver 53 track id: jatr-1076-21 rev. 1.3 parameter sym conditions min typical max units 10base-tx receive system timing from rxip/n to crs_dv t cson preamble on rxip/n to crs_dv asserted - 12 - bits carrier sense turn-off delay t csoff tp_idl to crs_dv de-asserted - 8 9 bits rx propagation delay t rxpd from rxip/n to rxd[1:0] 9 - 12 bits led timing led on time t ledon while led blinking 43 - 120 ms led off time t ledoff while led blinking 43 - 120 ms jabber timing (10base-t only) jabber active - from tx_en=1 to jabber asserted 60 70 80 ms jabber de-assert - from tx_en=0 to jabber de-asserted 60 - 80 ms smi timing mdc - mdc clock rate - - 2.5 mhz mdio setup time - write cycle 10 - - ns mdio hold time - write cycle 10 - - ns mdio output delay relative to rising edge of mdc - read cycle - - 10 ns 9.5.1. rmii receive timing table 41. rmii receive timing symbol description minimum typical maximum units t_opd_rxd_rmii refclk rising edge to rxd/crs_dv delay. 4 - 9 ns refclk rxd t_opd_rxd_rmii figure 23. rmii receive timing www.datasheet.co.kr datasheet pdf - http://www..net/
rtl8208b-lf/RTL8208BF-LF datasheet single-chip octal 10/100-tx/fx phy transceiver 54 track id: jatr-1076-21 rev. 1.3 9.5.2. rmii transmit timing table 42. rmii transmit timing symbol description minimum typical maximum units t_ipsu_txd_rmii txd/tx_en setup time to refclk. 2 - - ns t_iphd_txd_rmii txd/tx_en hold time from refclk. 2 - - ns valid data refclk txd t_ipsu_txd_rmii t_iphd_txd_rmii figure 24. rmii transmit timing 9.5.3. smii receive timing table 43. smii receive timing symbol description minimum typical maximum units t_opd_rxd_smii refclk rising edge to rxd delay. 3.5 4 4.5 ns refclk rxd t_opd_rxd_smii figure 25. smii receive timing www.datasheet.co.kr datasheet pdf - http://www..net/
rtl8208b-lf/RTL8208BF-LF datasheet single-chip octal 10/100-tx/fx phy transceiver 55 track id: jatr-1076-21 rev. 1.3 9.5.4. smii transmit timing table 44. smii transmit timing symbol description minimum typical maximum units t_ipsu_txd_smii txd/sync setup time to refclk. 1 - - ns t_iphd_txd_smii txd/sync hold time from refclk. 1.5 - - ns valid data refclk txd t_ipsu_txd_smii t_iphd_txd_smii figure 26. smii transmit timing 9.5.5. ss-smii receive timing table 45. ss-smii receive timing symbol description minimum typical maximum units t_opd_rxd_s3mii rx_clk rising edge to rxd/rx_sync delay. 1.5 - 3 ns rx_clk rxd t_opd_rxd_s3mii figure 27. ss-smii receive timing www.datasheet.co.kr datasheet pdf - http://www..net/
rtl8208b-lf/RTL8208BF-LF datasheet single-chip octal 10/100-tx/fx phy transceiver 56 track id: jatr-1076-21 rev. 1.3 9.5.6. ss-smii transmit timing table 46. ss-smii transmit timing symbol description minimum typical maximum units t_ipsu_txd_s3mii txd/tx_sync setup time to tx_clk. 1.5 - - ns t_iphd_txd_s3mii txd/tx_sync hold time from tx_clk. 1 - - ns valid data tx_clk txd t_ipsu_txd_s3mii t_iphd_txd_s3mii figure 28. ss-smii transmit timing 9.6. power start up & internal reset sequence figure 29. power start up & internal reset sequence ? t pou33 : min. 1ms and max. 5ms, 3.3v power on to stable duration requirement. ? t pou18 : min. 600 s and max. 2ms, 1.8v power on to stable duration requirement. ? tsr: min. 10ms after 1.8v power stable, stable supply voltage to reset high duration. ? trw: max. 50ms, reset_wait (start no rmal phy after reset deassertion). www.datasheet.co.kr datasheet pdf - http://www..net/
rtl8208b-lf/RTL8208BF-LF datasheet single-chip octal 10/100-tx/fx phy transceiver 57 track id: jatr-1076-21 rev. 1.3 9.7. thermal characteristics heat generated by the chip causes a temperature rise of the package. if the temp erature of the chip (tj, junction temperature) is beyond the design limits, there will be negative effects on operation and the life of the ic package. heat dissipation, either through a heat sink or electrical fan, is necessary to provide a reasonable environment (ta, ambient temperature) in a closed case. as power density increases, thermal management becomes more critical. a method to estimate the possible ta is outlined below. thermal parameters are defined accordi ng to jedec standard jesd 51-2, 51-6: ja (thermal resistance from junction to ambient), re presents resistance to heat flow from the chip to ambient air. this is an index of heat dissipation capability. a lower ja means better thermal performance. ja = (tj - ta) / ph where tj is the junction temperature ta is the ambient temperature ph is the power dissipation jc (thermal resistance from junction to case), represen ts resistance to heat flow from the chip to the package top case. jc is important when an external heat sink is attached on the package top. jc = (tj - tc) / ph, where tj is the junction temperature figure 30. cross-section of 128-pin qfp 9.7.1. thermal operating range table 47. thermal operating range parameter sym conditions min typical max units junction operating temperature tj - 25 125 c ambient operating temperature ta - 25 70 c 9.7.2. thermal resistances table 48. thermal resistances parameter sym conditions min typical max units thermal resistance: junction to ambient ja 2 layer pcb, 0 ft/s airflow - 28.2 - c/w thermal resistance: junction to case jc 2 layer pcb, 0 ft/s airflow - 2.0 - c/w note: pcb conditions (jedec jesd51-7) www.datasheet.co.kr datasheet pdf - http://www..net/
rtl8208b-lf/RTL8208BF-LF datasheet single-chip octal 10/100-tx/fx phy transceiver 58 track id: jatr-1076-21 rev. 1.3 10. mechanical dimensions see the mechanical dimensions notes on the next page. www.datasheet.co.kr datasheet pdf - http://www..net/
rtl8208b-lf/RTL8208BF-LF datasheet single-chip octal 10/100-tx/fx phy transceiver 59 track id: jatr-1076-21 rev. 1.3 10.1. notes for mechanical dimensions symbol dimensions in inches dimensions in mm notes: min typical max min typical max 1. dimensions d 1 & e 1 do not include mold protrusion. a - - 0.134 - - 3.40 2. controlling dimension: millimeter (mm). a 1 0.010 - - 0.25 - - 3. general appearance spec. should be based on final visual inspection. a 2 0.101 0.107 0.117 2.50 2.72 2.97 b 0.004 0.008 0.012 0.10 0.20 0.30 c 0.004 - 0.008 0.09 - 0.23 d 0.913 bsc 23.2 bsc title: quad flat package 128 leads 14x20mm outline d 1 0.787 bsc 20.00 bsc e 0.677 bsc 17.20 bsc e 1 0.551 bsc 14.00 bsc approve doc. no. e 0.20 bsc 0.5 bsc version l 0.026 0.035 0.041 0.65 0.88 1.03 page l 1 0.063 bsc 1.60 bsc check dwg no. y - - 0.004 - - 0.10 date 0 - 12 0 - 12 realtek semiconductor corp. 11. ordering information table 49. ordering information part number package status rtl8208b-lf 128-pin qfp with lead (pb)-free package RTL8208BF-LF rtl8208b-lf with fiber support realtek semiconductor corp. headquarters no. 2, innovation road ii hsinchu science park, hsinchu 300, taiwan tel.: +886-3-578-0211. fax: +886-3-577-6047 www.realtek.com.tw www.datasheet.co.kr datasheet pdf - http://www..net/

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