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integrated fast ethernet controller for pci express? applications datasheet rev. 1.0 15 june 2007 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 RTL8102E-GR www.datasheet.co.kr datasheet pdf - http://www..net/
RTL8102E-GR datasheet integrated fast ethernet controller for pci express ii track id: jatr-1076-21 rev. 1.0 copyright ?2007 realtek semiconductor corp. all rights reserve d. 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, neither expressed nor implied, including, but not limited t o, the particular purpose. realtek may make improvements 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 the software engin eer?s reference and provides detailed programming information. though every effort has been made to ensure that th is document is current and accurate, more information may have become available subsequent to the producti on of this guide. in that event, please contact your realtek representative for additional information that may help in the development process. revision history revision release date summary 1.0 2007/06/15 first release www.datasheet.co.kr datasheet pdf - http://www..net/ RTL8102E-GR datasheet integrated fast ethernet controller for pci express iii track id: jatr-1076-21 rev. 1.0 table of contents 1. general desc ription .................................................................................................... 1 2. features ....................................................................................................................... .2 3. system app lications .................................................................................................... 2 4. pin assign ments........................................................................................................... 3 4.1. p ackage i dentification ...............................................................................................................3 5. pin descri ptions........................................................................................................... 4 5.1. p ower m anagement /i solation ...................................................................................................4 5.2. pci e xpress i nterface .................................................................................................................4 5.3. eeprom.................................................................................................................... .....................5 5.4. t ransceiver i nterface ................................................................................................................5 5.5. c lock ............................................................................................................................... ...............5 5.6. r egulator & r eference ..............................................................................................................5 5.7. led s ............................................................................................................................... ................6 5.8. p ower & g round ...........................................................................................................................6 5.9. gpio...................................................................................................................... ..........................6 5.10. jt ag ............................................................................................................................... .................7 5.11. nc (n ot c onnected ) p ins ............................................................................................................7 6. functional de scription................................................................................................ 8 6.1. pci e xpress b us i nterface ..........................................................................................................8 6.1.1. pci express transmitter........................................................................................................ .................................8 6.1.2. pci expres s receiver ........................................................................................................... ..................................8 6.2. led f unctions ..............................................................................................................................8 6.2.1. link monitor................................................................................................................... ........................................8 6.2.2. rx led ......................................................................................................................... ..........................................9 6.2.3. tx led ......................................................................................................................... ..........................................9 6.2.4. tx/rx led ...................................................................................................................... ......................................10 6.2.5. link/act led ................................................................................................................... ................................. 11 6.3. phy t ransceiver ........................................................................................................................11 6.3.1. phy tran smitter ................................................................................................................ ................................... 11 6.3.2. phy r eceiver................................................................................................................... .....................................12 6.4. eeprom i nterface ....................................................................................................................12 6.5. p ower m anagement ...................................................................................................................13 6.6. v ital p roduct d ata (vpd) .......................................................................................................15 6.7. m essage s ignaled i nterrupt (msi) .........................................................................................16 6.7.1. msi capability structure in pci configur ation space............................................................................ .............16 6.7.2. message control................................................................................................................ ...................................17 6.7.3. message address ................................................................................................................ ..................................17 6.7.4. message upper address .......................................................................................................... .............................18 6.7.5. message data ................................................................................................................... ....................................18 6.8. msi-x..................................................................................................................... .......................19 6.8.1. msi-x capability structure in pci configur ation space.......................................................................... ...........19 www.datasheet.co.kr datasheet pdf - http://www..net/ RTL8102E-GR datasheet integrated fast ethernet controller for pci express iv track id: jatr-1076-21 rev. 1.0 6.8.2. message control................................................................................................................ ...................................20 6.8.3. table offs et/bir ............................................................................................................... ....................................20 6.8.4. pba offset/ pba bir............................................................................................................. ................................21 6.8.5. message address for ms i-x table entries ........................................................................................ ...................21 6.8.6. message upper address fo r msi-x table entries .................................................................................. ..............22 6.8.7. message data for ms i-x table entries ........................................................................................... .....................22 6.8.8. vector control for ms i-x table entries ......................................................................................... ......................22 6.8.9. pending bits for ms i-x pba entries............................................................................................. .......................22 6.9. r eceive -s ide s caling (rss).......................................................................................................23 6.9.1. receive-side scaling (rss) initia lization ...................................................................................... .......................23 6.9.2. rss operation .................................................................................................................. ....................................24 7. characteri stics ........................................................................................................... 25 7.1. a bsolute m aximum r atings .....................................................................................................25 7.2. r ecommended o perating c onditions ......................................................................................25 7.3. c rystal r equirements ..............................................................................................................25 7.4. t hermal c haracteristics .........................................................................................................26 7.5. dc c haracteristics ...................................................................................................................26 7.6. ac c haracteristics ...................................................................................................................27 7.6.1. serial eeprom in terface timing ................................................................................................. .......................27 7.7. pci e xpress b us p arameters ....................................................................................................29 7.7.1. differential transm itter para meters............................................................................................ .........................29 7.7.2. differential recei ver parameters ............................................................................................... ..........................30 7.7.3. refclk para meters.............................................................................................................. ..............................30 7.7.4. auxiliary signal ti ming parameters ............................................................................................. .......................34 8. mechanical di mensions ............................................................................................ 35 9. ordering info rmation ............................................................................................... 35 www.datasheet.co.kr datasheet pdf - http://www..net/ RTL8102E-GR datasheet integrated fast ethernet controller for pci express v track id: jatr-1076-21 rev. 1.0 list of tables table 1. power management/isolation .......................................................................................... ...........4 table 2. pci express interface ............................................................................................... ..................4 table 3. eeprom .............................................................................................................. ......................5 table 4. transceiver interface ............................................................................................... ...................5 table 5. clock............................................................................................................... ............................5 table 6. regulator & reference ............................................................................................... ................5 table 7. leds ................................................................................................................ ...........................6 table 8. power & ground...................................................................................................... ...................6 table 9. gpio pins ........................................................................................................... ........................6 table 10. jtag ................................................................................................................ ............................7 table 11. nc (not connected) pins ............................................................................................. ..............7 table 12. eeprom interface.................................................................................................... ...............12 table 13. message control ..................................................................................................... ..................17 table 14. message address ..................................................................................................... .................17 table 15. message upper address ............................................................................................... ............18 table 16. message data........................................................................................................ ....................18 table 17. message control ..................................................................................................... ..................20 table 18. table offset/bir .................................................................................................... ..................20 table 19. pba offset/pba bir .................................................................................................. .............21 table 20. message address for msi-x table entries............................................................................. .21 table 21. message upper address for msi-x table entries...................................................................22 table 22. message data........................................................................................................ ....................22 table 23. vector control for msi-x table entries.............................................................................. ....22 table 24. pending bits for msi-x pba entries.................................................................................. .....22 table 25. absolute maximum ratings............................................................................................ .........25 table 26. recommended operating conditions.................................................................................... ...25 table 27. crystal requirements ................................................................................................ ...............25 table 28. thermal characteristics............................................................................................. ...............26 table 29. dc characteristics.................................................................................................. ..................26 table 30. eeprom access timing parameters ..................................................................................... .28 table 31. differential transmitter pa rameters ................................................................................. ........29 table 32. differential receiver parameters.................................................................................... ..........30 table 33. refclk parameters ................................................................................................... .............30 table 34. auxiliary signal timing parameters .................................................................................. ......34 table 35. ordering information................................................................................................ ................35 www.datasheet.co.kr datasheet pdf - http://www..net/ RTL8102E-GR datasheet integrated fast ethernet controller for pci express vi track id: jatr-1076-21 rev. 1.0 list of figures figure 1. pin assignments .................................................................................................... ....................3 figure 2. rx led ............................................................................................................. ........................9 figure 3. tx led............................................................................................................. .........................9 figure 4. tx/rx led.......................................................................................................... ....................10 figure 5. link/act led ....................................................................................................... ..............11 figure 6. message capability structure....................................................................................... ...........16 figure 7. msi-x capability structure ......................................................................................... ...........19 figure 8. msi-x table structure.............................................................................................. ..............19 figure 9. msi-x pba structure ................................................................................................ .............19 figure 10. serial eeprom interface timing ..................................................................................... .....27 figure 11. single-ended measurement points for absolute cross point and swing...............................32 figure 12. single-ended measurement points for delta cross point ......................................................32 figure 13. single-ended measurement points for rise and fall time matching....................................32 figure 14. differential measurement po ints for duty cycle and period .................................................33 figure 15. differential measurement points for rise and fall time .......................................................33 figure 16. differential measurement points for ringback ......................................................................3 3 figure 17. reference clock system measurement point and loading ....................................................34 figure 18. auxiliary signal timing............................................................................................ ..............34 www.datasheet.co.kr datasheet pdf - http://www..net/ RTL8102E-GR datasheet integrated fast ethernet controller for pci express 1 track id: jatr-1076-21 rev. 1.0 1. general description the realtek RTL8102E-GR fast ethernet contro ller combines an ieee 802.3 10/100base-t compliant media access controller (mac), pci express bus controller, and embedded memory. with state-of-the-art dsp technology a nd mixed-mode signal technology, th e RTL8102E-GR offers high-speed transmission over cat 5 utp cable or cat 3 utp ( 10mbps only) cable. functions such as crossover detection & auto-correction, polar ity correction, adaptive equaliza tion, cross-talk cancellation, echo cancellation, timing recovery, and error correction ar e implemented to provide robust transmission and reception capability at high speeds. the device supports the pci express 1.1 bus interface fo r host communications with power management and is compliant with the ieee 802.3u specification for 10/100mbps ethernet. it also supports an auxiliary power auto-detect function, and will auto-c onfigure related bits of the pci power management registers in pci configuration space. advanced configuration power management in terface (acpi)?power mana gement for modern operating systems that are capable of operati ng system-directed power management (ospm)?is supported to achieve the most ef ficient power management possibl e. pci msi (message signaled interrupt) and msi-x are also supported. in addition to the acpi feature, remo te wake-up (including amd magic packet ? and microsoft ? wake-up frame) is supported in both acpi and ap m (advanced power management) environments. to support wol from a deep power down state (e.g., d3co ld, i.e. main power is off and only auxiliary exists), the auxiliary power source must be able to provide the needed power for the RTL8102E-GR. the RTL8102E-GR is fully compliant with microsoft ? ndis5, ndis6(ipv4, ipv6, tcp, udp) checksum and segmentation task-offload(large send and giant send) features, and supports ieee 802 ip layer 2 priority encoding a nd ieee 802.1q virtual bridged local area network (vlan). the above features contribute to lowering cp u utilization, especially benefiting performance when in operation on a network server. the RTL8102E-GR supports receive side scaling (rss) to hash incomi ng tcp connections and load-balance received data processing across multiple cpus. rss improves the number of transactions per second and number of connections pe r second, for increased network throughput. the device also features inter-connect pci express technology. pci express is a high-bandwidth, low pin count, serial, interconnect tec hnology that offers significant improvements in performance over conventional pci and also maintains software compatib ility with existin g pci infrastructure. the device embeds an adaptive equalizer in the pcie phy for eas e of system integration and excellent link quality. the equalizer enables the length of the pcb traces to reach 40 inches. the RTL8102E-GR is suitable for multiple market segm ents and emerging applications, such as desktop, mobile, workstation, server, communications platforms, and embedded applications. www.datasheet.co.kr datasheet pdf - http://www..net/ RTL8102E-GR datasheet integrated fast ethernet controller for pci express 2 track id: jatr-1076-21 rev. 1.0 2. features ? integrated 10/100 transceiver ? auto-negotiation with next page capability ? supports pci express? 1.1 ? supports pair swap/polarity/skew correction ? crossover detection & auto-correction ? wake-on-lan and remote wake-up support ? microsoft? ndis5, ndis6 checksum offload (ipv4, ipv6, tcp, udp) and segmentation task-o ffload (large send and giant send) support ? supports full duplex flow control (ieee 802.3x) ? fully complies with ieee 802.3, ieee 802.3u ? supports ieee 802.1p layer 2 priority encoding ? supports ieee 802.1q vlan tagging ? serial eeprom ? transmit/receive on-chip buffer support ? supports power down/link down power saving ? supports pci msi (message signaled interrupt) and msi-x ? supports receive-side scaling (rss) ? 64-pin qfn package (green package) ? embeds an adaptive equalizer in pci express phy (pcb traces to reach 40 inches) 3. system applications ? pci express? fast ethernet on mother board, notebook, or embedded system www.datasheet.co.kr datasheet pdf - http://www..net/ RTL8102E-GR datasheet integrated fast ethernet controller for pci express 3 track id: jatr-1076-21 rev. 1.0 4. pin assignments 123456789 10 11 12 13 14 15 16 48 47 46 45 44 43 42 41 40 39 38 37 36 35 34 33 vdd33 dvdd12 nc dvdd12 dvdd12 evdd12 evdd12 nc nc egnd egnd rtl8102e led3 led 2 led 1 led 0 cktal2 cktal1 rset vctrl12d 49 50 51 52 53 54 55 56 57 58 59 60 61 62 63 64 3 2 31 30 29 28 27 26 25 24 23 22 21 20 19 18 1 7 nc hson hsop refclk_n refclk_p hsin hsip perstb lanwakeb 65 gnd ( exposed pad ) nc nc gpi gpo figure 1. pin assignments 4.1. package identification green package is indicated by a ?g? in the location marked ?t? in figure 1. www.datasheet.co.kr datasheet pdf - http://www..net/ RTL8102E-GR datasheet integrated fast ethernet controller for pci express 4 track id: jatr-1076-21 rev. 1.0 5. pin descriptions the signal type codes below are used in the following tables: i: input s/t/s: sustained tri-state o: output o/d: open drain t/s: tri-state bi-directi onal input/output pin 5.1. power management/isolation table 1. power management/isolation symbol type pin no description lanwakeb o/d 19 power management event: open drain, active low. used to reactivate the pci express slot?s main power rails and reference clocks. isolateb i 36 isolate pin: active low. used to isolate the RTL8102E-GR from the pci express bus. the RTL8102E-GR will not drive its pci express outputs (excluding lanwakeb) and will not sample its pci express input as long as the isolate pin is asserted. 5.2. pci express interface table 2. pci express interface symbol type pin no description refclk_p i 26 refclk_n i 27 pci express differential reference clock source: 100mhz 300ppm. hsop o 29 hson o 30 pci express transmit differential pair. hsip i 23 hsin i 24 pci express receive differential pair. perstb i 20 pci express reset signal: active low. when the perstb is asserted at powe r-on state, the RTL8102E-GR returns to a pre-defined reset state and is ready for initialization and configuration after the de-assertion of the perstb. clkreqb o/d 33 reference clock request signal. this signal is used by the RTL8102E-GR to request starting of the pci express reference clock. www.datasheet.co.kr datasheet pdf - http://www..net/ RTL8102E-GR datasheet integrated fast ethernet controller for pci express 5 track id: jatr-1076-21 rev. 1.0 5.3. eeprom table 3. eeprom symbol type pin no description eesk o 48 serial data clock. eedi/aux o/i 47 eedi: output to serial data input pin of eeprom. aux: input pin to detect if aux. powe r exists or not on initial power-on. this pin should be connected to eeprom. to support wakeup from acpi d3cold or apm power-down, this pin must be pulled high to aux. power via a resistor. if this pin is not pulled high to aux. power, the RTL8102E-GR assumes that no aux. power exists. eedo i 45 input from serial data output pin of eeprom. eecs o 44 eecs: eeprom chip select. 5.4. transceiver interface table 4. transceiver interface symbol type pin no description mdip0 i/o 3 mdin0 i/o 4 in mdi mode, this pair acts as the bi_da+/- pair, and is the transmit pair in 10base-t and 100base-tx. in mdi crossover mode, this pair acts as the bi_db+/- pair, and is the receive pair in 10base-t and 100base-tx. mdip1 i/o 6 mdin1 i/o 7 in mdi mode, this pair acts as the bi_db+/- pair, and is the receive pair in 10base-t and 100base-tx. in mdi crossover mode, this pair acts as the bi_da+/- pair, and is the transmit pair in 10base-t and 100base-tx. 5.5. clock table 5. clock symbol type pin no description cktal1 i 60 input of 25mhz clock reference. cktal2 o 61 output of 25mhz clock reference. 5.6. regulator & reference table 6. regulator & reference symbol type pin no description rset i 64 reference. external resistor reference. www.datasheet.co.kr datasheet pdf - http://www..net/ RTL8102E-GR datasheet integrated fast ethernet controller for pci express 6 track id: jatr-1076-21 rev. 1.0 5.7. leds table 7. leds symbol type pin no description led0 o 57 led1 o 56 led2 o 55 led3 o 54 leds1-0 00 01 10 11 led0 tx/rx link10/ac t tx link10/act led1 link100 link1 00/act link link100/ act led2 link10 full rx full led3 na na full na note 1: during power down mode, the led signals are logic high. note 2: leds1-0?s initial value comes from the 93c46. if there is no 93c46, the default value of the (leds1, leds0) = (1, 1). 5.8. power & ground table 8. power & ground symbol type pin no description vdd33 power 16, 37, 46, 53 digital 3.3v power supply. dvdd12 power 15, 21, 43, 58 digital 1.2v power supply. avdd12 power 5, 8 analog 1.2v power supply. evdd12 power 22, 28 analog 1.2v power supply. avdd33 power 2 analog 3.3v power supply. egnd power 25, 31 analog ground. gnd power 65 ground (exposed pad). vctrl12d o 63 1.2 voltage output supplies power to the dvdd12 power pin. vctrl12a o 1 1.2 voltage output supplies power to the avdd12 power pin. note: refer to the most updated schematic circuit for correct configuration. 5.9. gpio table 9. gpio pins symbol type pin no description gpi i 50 input gpio pin. gpo o 51 output gpio pin. this pin reflects the link up or link down state. high: link up. low: link down. www.datasheet.co.kr datasheet pdf - http://www..net/ RTL8102E-GR datasheet integrated fast ethernet controller for pci express 7 track id: jatr-1076-21 rev. 1.0 5.10. jtag table 10. jtag symbol type pin no description tdo i/o 34 test data out. tdi i/o 35 test data in. tstck i 40 test clock. tms i 41 test mode select. trstb i 42 test reset (active low). 5.11. nc (not connected) pins table 11. nc (not connected) pins symbol type pin no description nc 9, 10, 11, 12, 13, 14, 17, 18, 32, 34, 35, 38, 39, 52, 59, 62 not connected. www.datasheet.co.kr datasheet pdf - http://www..net/ RTL8102E-GR datasheet integrated fast ethernet controller for pci express 8 track id: jatr-1076-21 rev. 1.0 6. functional description 6.1. pci express bus interface the RTL8102E-GR complies with pci express base sp ecification revision 1.1, and runs at a 2.5ghz signaling rate with x1 link width, i.e., one transmit and one receive differentia l pair. the RTL8102E-GR supports four types of pci express messages: inte rrupt messages, error messages, power management messages, and hot-plug messages. to ease pcb layout c onstraints, pci express la ne polarity reversal and link reversal are also supported. 6.1.1. pci express transmitter the RTL8102E-GR?s pci express block receives digital data from the ethernet interface and performs data scrambling with linear feedback shift regi ster (lfsr) and 8b/10b c oding technology into 10-bit code groups. data scrambling is used to reduce the possibility of el ectrical resonance on the link, and 8b/10b coding technology is used to benefit embedded cloc king, error detection, and dc balance by adding an overhead to the system through the addition of 2 extra bits. the data code groups are passed through its serializer for packet framing. the genera ted 2.5gbps serial data is transmitted onto the pcb trace to its upstream device via a differential driver. 6.1.2. pci express receiver the RTL8102E-GR?s pci express block receives 2.5gbps serial data from its upstream device to generate parallel data. the receiver?s pll circuits ar e re-synchronized to maintain bit and symbol lock. through 8b/10b decoding technology a nd data de-scrambling, the original digital data is recovered and passed to the RTL8102E-GR?s internal ethernet mac to be transmitted onto the ethernet media. 6.2. led functions the RTL8102E-GR supports four led signals in four different configurable operation modes. the following sections describe the various led actions. 6.2.1. link monitor the link monitor senses link integrity, such as link10, link100, link10/100, link10/act, or link100/act. whenever link status is established, the specific link led pin is driven low. once a cable is disconnected, the link led pin is driven hi gh, indicating that no netw ork connection exists. www.datasheet.co.kr datasheet pdf - http://www..net/ RTL8102E-GR datasheet integrated fast ethernet controller for pci express 9 track id: jatr-1076-21 rev. 1.0 6.2.2. rx led in 10/100mbps mode, blinking of the rx led i ndicates that receive activity is occurring. power on receiving packet? led = high led = high for 40 ms led = low for 40 ms no yes figure 2. rx led 6.2.3. tx led in 10/100mbps mode, blinking of the tx led i ndicates that transmit activity is occurring. power on transmitting packet? led = high led = high for 40 ms led = low for 40 ms no yes figure 3. tx led www.datasheet.co.kr datasheet pdf - http://www..net/ RTL8102E-GR datasheet integrated fast ethernet controller for pci express 10 track id: jatr-1076-21 rev. 1.0 6.2.4. tx/rx led in 10/100mbps mode, blinking of the tx/rx led indicat es that both transmit and receive activity is occurring. power on tx/rx packet? led = high led = high for 40 ms led = low for 40 ms no yes figure 4. tx/rx led www.datasheet.co.kr datasheet pdf - http://www..net/ RTL8102E-GR datasheet integrated fast ethernet controller for pci express 11 track id: jatr-1076-21 rev. 1.0 6.2.5. link/act led in 10/100mbps mode, blinking of the link/act led indicates that the RTL8102E-GR is linked and operating properly. when this led is high for extended periods, it indicates that a link problem exists. power on link? led = high led = low led = low for 40 ms no yes tx/rx packet? yes no led = high for 40 ms figure 5. link/act led 6.3. phy transceiver 6.3.1. phy transmitter based on state-of-the-art dsp technology and mixed-mode signa l processing technology, the RTL8102E-GR operates at 10/100mbps over standard cat.5 utp cable (100 mbps), and cat.3 utp cable (10mbps). mii (100mbps) mode the transmitted 4-bit nibbles (txd[3:0]) from the ma c, clocked at 25mhz (txc), are converted into 5b symbol code through 4b/5b coding technology, then through scrambling and serializing, are www.datasheet.co.kr datasheet pdf - http://www..net/ RTL8102E-GR datasheet integrated fast ethernet controller for pci express 12 track id: jatr-1076-21 rev. 1.0 converted to 125mhz nrz and nrzi signals. after that, the nrzi signals are passed to the mlt3 encoder, then to the d/a converter and transmitted onto the media. mii (10mbps) mode the transmitted 4-bit nibbles (txd[3:0]) from the mac, clocked at 2.5mhz (txc), are serialized into 10mbps serial data. the 10mbps serial data is convert ed into a manchester-encoded data stream and is transmitted onto the media by the d/a converter. 6.3.2. phy receiver mii (100mbps) mode the mlt3 signal is processed with an adc, equalizer, blw (baseline wander) correction, timing recovery, mlt3 and nrzi decoder, descrambler, 4b /5b decoder, and is then presented to the mii interface in 4-bit-wide nibbles at a clock speed of 25mhz. mii (10mbps) mode the received differential signal is converted into a manchester-encoded st ream first. next, the stream is processed with a manchester decoder and is de-seria lized into 4-bit-wide nibbles. the 4-bit nibbles are presented to the mii interface at a clock speed of 2.5mhz. 6.4. eeprom interface the RTL8102E-GR requires the attachment of an external eeprom. the 93c46/93c56 is a 1k-bit/2k-bit eeprom. the eeprom in terface permits the RTL8102E-GR to read from, and write data to, an external serial eeprom device. values in the external eeprom allow default fields in pci configuration space and i/o space to be overridden following a power-on or software ee prom auto-load command. the RTL8102E-GR will auto-load values from the eeprom. if the eeprom is not present, the r tl8102e-gr initialization uses default values for the appropriate configurati on and operational registers. software can read and write to the eeprom using bit-bang accesses via the 9346cr register, or using pci vpd (vital product data). the interface consists of eesk, eecs, eedo, and eedi. the correct eeprom (i.e. 93c46/93c56) must be us ed in order to ensure proper lan function. table 12. eeprom interface eeprom description eecs 93c46/93c56 chip select. eesk eeprom serial data clock. eedi/aux input data bus/input pin to detect whether aux. power exists on initial power-on. this pin should be connected to eeprom. to support wakeup from acpi d3cold or apm power-down, this pin must be pulled high to aux. power via a resistor. if this pin is not pulled high to aux. power, the RTL8102E-GR assumes that no aux. power exists. eedo output data bus. www.datasheet.co.kr datasheet pdf - http://www..net/ RTL8102E-GR datasheet integrated fast ethernet controller for pci express 13 track id: jatr-1076-21 rev. 1.0 6.5. power management the RTL8102E-GR is compliant with acpi (rev 1.0, 1.0b, 2.0), pci power manage ment (rev 1.1), pci express active state power management (aspm) , and network device class power management reference specification (v1.0a), such as to support an operating system-directed power management (ospm) environment. the RTL8102E-GR can monitor the network for a wake up frame, a magic packet, and notify the system via a pci express power management event (pme) message, beacon, or lanw akeb pin when such a packet or event occurs. then the system can be re stored to a normal state to process incoming jobs. when the RTL8102E-GR is in power down mode (d1 ~ d3): ? the rx state machine is stopped. the RTL8102E-GR m onitors the network for wakeup events such as a magic packet and wakeup frame in order to wake up the system. when in power down mode, the RTL8102E-GR will not reflect the status of any in coming packets in the is r register and will not receive any packets into the rx on-chip buffer. ? the on-chip buffer status and packets that have already been received into the rx on-chip buffer before entering power down mode are held by the RTL8102E-GR. ? transmission is stopped. pci express transactio ns are stopped. the tx on-chip buffer is held. ? after being restored to d0 stat e, the RTL8102E-GR transmits data that was not moved into the tx on-chip buffer during power down mode. packets that were not transmitted completely last time are re-transmitted. the d3cold_support_pme bit (bit15, pmc register) a nd the aux_i_b2:0 bits (bit8 :6, pmc register) in pci configuration space depend on the existence of aux power. if aux. pow er is absent, the above 4 bits are all 0 in binary. example: if eeprom d3c_support_pme = 1: ? if aux. power exists, then pmc in pci c onfig space is the same as eeprom pmc (if eeprom pmc = c3 ff, then pci pmc = c3 ff) ? if aux. power is absent, then pmc in pci conf ig space is the same as eeprom pmc except the above 4 bits are all 0?s (if eeprom pmc = c3 ff, then pci pmc = 03 7e) in the above case, if wakeup support is desired when main power is off, it is suggested that the eeprom pmc be set to c3 f7 (realtek eeprom default value). if eeprom d3c_support_pme = 0: ? if aux. power exists, then pmc in pci c onfig space is the same as eeprom pmc (if eeprom pmc = c3 7f, then pci pmc = c3 7f) ? if aux. power is absent, then pmc in pci conf ig space is the same as eeprom pmc except the above 4 bits are all 0?s (if eeprom pmc = c3 7f, then pci pmc = 03 7e) in the above case, if wakeup support is not desired wh en main power is off, it is suggested that the eeprom pmc be set to 03 7e. www.datasheet.co.kr datasheet pdf - http://www..net/ RTL8102E-GR datasheet integrated fast ethernet controller for pci express 14 track id: jatr-1076-21 rev. 1.0 magic packet wakeup occurs only when the following conditions are met: ? the destination address of the received magic packet is accepta ble to the RTL8102E-GR, e.g., a broadcast, multicast, or unicast packet a ddressed to the current RTL8102E-GR adapter. ? the received magic packet does not contain a crc error. ? the magic bit (config3#5) is set to 1, the pmen bit (config1#0) is set to 1, and the corresponding wake-up method (message, beacon, or lanwakeb) can be asserted in the current power state. ? the magic packet pattern matches, i.e. 6 * ffh + misc (can be none) + 16 * did (destination id) in any part of a valid ethernet packet. a wakeup frame event occurs only wh en the following conditions are met: ? the destination address of the received wakeup frame is acceptable to the RTL8102E-GR, e.g., a broadcast, multicast, or unicast addre ss to the current RTL8102E-GR adapter. ? the received wakeup frame does not contain a crc error. ? the pmen bit (config1#0) is set to 1. ? the 16-bit crc * of the received wakeup frame matches the 16-bit crc of the sample wakeup frame pattern given by the local machine?s os. or, the RTL8102E-GR is configured to allow direct packet wakeup, e.g., a broadcast, multic ast, or unicast network packet. note: 16-bit crc: the RTL8102E-GR supports eight l ong wakeup frames (covering 128 mask bytes from offset 0 to 127 of any incoming network packet). the corresponding wake-up method (message, beacon, or lanwakeb) is asserted only when the following conditions are met: ? the pmen bit (bit0, config1) is set to 1. ? the pme_en bit (bit8, pmcsr) in pc i configuration space is set to 1. ? the RTL8102E-GR may assert the correspond ing wake-up method (message, beacon, or lanwakeb) in the current power state or in isolation state, depending on the pme_support (bit15-11) setting of the pmc regist er in pci configuration space. ? a magic packet, linkup, or wakeup frame has been received. ? writing a 1 to the pme_status (bit15) of the pmcsr register in the pci configuration space clears this bit and causes the RTL8102E-GR to stop asse rting the corresponding wake-up method (message, beacon, or lanwakeb) (if enabled). when the RTL8102E-GR is in power down mode, e.g., d1-d3, the io and mem accesses to the RTL8102E-GR are disabled. after a perstb assertion, the device?s power state is restored to d0 automatically if the original power state was d3 cold . there is almost no hardware delay at the device?s power state transition. when in acpi mode, the device does not support pme (power management enable) from d0 (this is the realtek default setti ng of the pmc register auto -loaded from eeprom). the setting may be changed from the eeprom, if required. www.datasheet.co.kr datasheet pdf - http://www..net/ RTL8102E-GR datasheet integrated fast ethernet controller for pci express 15 track id: jatr-1076-21 rev. 1.0 6.6. vital product data (vpd) bit 31 of the vital product data (vpd) capability structure in the RTL8102E-GR?s pci configuration space is used to issue vpd read/write commands and is also a flag used to in dicate whether the transfer of data between the vpd data register a nd the 93c46/93c56/93c66 has completed or not. write vpd register: (write data to the 93c46/93c56/93c66) set the flag bit to 1 at the same time the vpd addr ess is written to write vpd data to eeprom. when the flag bit is reset to 0 by the RTL8102E-GR, the vpd data (4 bytes per vpd access) has been transferred from the vpd data register to eeprom. read vpd register: (read da ta from the 93c46/93c56/93c66) reset the flag bit to 0 at the same time the vpd addr ess is written to retrieve vpd data from eeprom. when the flag bit is set to 1 by the RTL8102E-GR, the vpd data (4 bytes per vpd access) has been transferred from eeprom to the vpd data register. note1: refer to the pci 2.3 specifi cations for further information. note2: the vpd address must be a dword-aligned address as defined in the pci 2.3 specifications. vpd data is always consecutive 4-byte dat a starting from the vpd address specified. note3: realtek reserves offset 60h to 7fh in eeprom mainly for vpd data to be stored. note4: the vpd function of the RTL8102E-GR is desi gned to be able to access the full range of the 93c46/93c56/93c66 eeprom. www.datasheet.co.kr datasheet pdf - http://www..net/ RTL8102E-GR datasheet integrated fast ethernet controller for pci express 16 track id: jatr-1076-21 rev. 1.0 6.7. message signaled interrupt (msi) 6.7.1. msi capability structure in pci configuration space figure 6. message capability structure www.datasheet.co.kr datasheet pdf - http://www..net/ RTL8102E-GR datasheet integrated fast ethernet controller for pci express 17 track id: jatr-1076-21 rev. 1.0 6.7.2. message control table 13. message control bits rw field description 15:8 ro reserved reserved. always return 0 7 ro 64-bit address capable 1: the RTL8102E-GR is capable of generating a 64-bit message address. 0: the RTL8102E-GR is not capable of generating a 64-bit message address. this bit is read only and the RTL8102E-GR is set to 1. system software (e.g., bios, os) indicates to the RTL8102E-GR the number of allocated messages/ vectors (equal to or less than the number of reques ted messages/vectors). this field after pci reset is ?000?. encoding number of messages/vectors 000 1 001 2 010 4 011 8 100 16 101 32 110 reserved 6:4 rw multiple message enable 111 reserved indication to system software (e.g., bios, os) of the number of RTL8102E-GR requested vectors. the RTL8102E-GR supports only one vector messages/vectors. encoding number of messages/vectors 000 1 3:1 ro multiple message capable others reserved 0 rw msi enable 1: enable msi (the intx pin is disabled automatically as msi and intx are mutually exclusive), this bit is set by system software. 0: disable msi (default value af ter power-on or pci reset) 6.7.3. message address table 14. message address bits rw field description 31:02 rw message address system-specified message/vector address. low dword aligned address for msi memory write transaction. 01:00 ro reserved always return ?00?. this bit is read only. www.datasheet.co.kr datasheet pdf - http://www..net/ RTL8102E-GR datasheet integrated fast ethernet controller for pci express 18 track id: jatr-1076-21 rev. 1.0 6.7.4. message upper address table 15. message upper address bits rw field description 31:00 rw message upper address system-specified message/vector upper address. upper 32 bits of a 64-bit message/vector address. this register is effective only when the dac function is enabled, i.e., 64-bit addressing is enabled; bit7 in message control register is set. if the contents of this register are 0, the RTL8102E-GR only performs 32-bit addressing for the memory write of the messages/vectors. this bit is read/write. 6.7.5. message data table 16. message data bits rw field description 15:00 rw message data if the message enable bit is set, the message/vector data is driven onto the lower word of the memory write transaction?s data phase. this bit is read/write. www.datasheet.co.kr datasheet pdf - http://www..net/ RTL8102E-GR datasheet integrated fast ethernet controller for pci express 19 track id: jatr-1076-21 rev. 1.0 6.8. msi-x 6.8.1. msi-x capability structure in pci configuration space figure 7. msi-x capability structure figure 8. msi-x table structure figure 9. msi-x pba structure www.datasheet.co.kr datasheet pdf - http://www..net/ RTL8102E-GR datasheet integrated fast ethernet controller for pci express 20 track id: jatr-1076-21 rev. 1.0 6.8.2. message control table 17. message control bits rw field description 15 rw msi-x enable if 1, and the msi enable bit in the msi message control register is 0, the function is permitted to use msi-x to request service and is prohibited from using its intx# pin. system configuration software sets this bit to enable msi-x. a device driver is prohibited from writing this bit to mask a function?s service request. if 0, the function is prohibited from using msi-x to request service. this bit?s state after reset is 0 (msi-x is disabled). this bit is read/write. 14 rw function mask if 1, all of the vector s associated with the function are masked, regardless of their per-vector mask bit states. if 0, each vector?s mask bit dete rmines whether the vector is masked or not. setting or clearing the msi-x function mask bit has no effect on the state of the per-vector mask bits . this bit?s state after reset is 0 (unmasked). this bit is read/write. 13:11 ro reserved always returns 0 on a read. a write operation has no effect. 10:00 ro table size system software reads this field to determine the msi-x table size n, which is encoded as n-1. the RTL8102E-GR value is ?00000000001?, indicating a table size of 2. 6.8.3. table offset/bir table 18. table offset/bir bits rw field description 31:03 rw table offset used as an offset from the address contained by one of the function?s base address registers to point to the base of the msi-x table. the lower 3 bir bits are masked off (set to zero) by software to form a 32bit qword-aligned offset. this field is read only. www.datasheet.co.kr datasheet pdf - http://www..net/ RTL8102E-GR datasheet integrated fast ethernet controller for pci express 21 track id: jatr-1076-21 rev. 1.0 bits rw field description 02:00 ro bir indicates which one of a function?s base address registers, located beginning at 10h in conf iguration space, is used to map the function?s msi-x table into memory space. bir value base address register 0 10h 1 14h 2 18h 3 1ch 4 20h 5 24h 6 reserved 7 reserved for a 64-bit base address regist er, the bir indicates the lower dword. with pci-to-pci bridges, bir values 2 through 5 are also reserved. the function?s base address registers of RTL8102E-GR located beginning at 20h. this field is read only. 6.8.4. pba offset/pba bir table 19. pba offset/pba bir bits rw field description 31:03 ro pba offset used as an offset fr om the address contained by one of the function?s base address registers to point to the base of the msi-x pba. the lower 3 pba bir bits are masked off (set to zero) by software to form a 32-bit qword-aligned offset. this field is read only. 02:00 ro pba bir indicates which one of a function?s base address registers, located beginning at 10h in conf iguration space, is used to map the function?s msi-x pba into memory space. the pba bir value definitions are identical to those for the msi-x table bir. this field is read only. 6.8.5. message address for msi-x table entries table 20. message address for msi-x table entries bits rw field description 31:02 rw message address system-sp ecified message lower address. for msi-x messages, the contents of this field from an msi-x table entry specifies the lower portion of the dword aligned address for the memory write transaction. this field is read/write. 01:00 rw message address for proper dword alignment, software must always write zeroes to these two bits; otherw ise the result is undefined. the state of these bits after reset must be 0. these bits are permitted to be read only or read/write. www.datasheet.co.kr datasheet pdf - http://www..net/ RTL8102E-GR datasheet integrated fast ethernet controller for pci express 22 track id: jatr-1076-21 rev. 1.0 6.8.6. message upper address for msi-x table entries table 21. message upper address for msi-x table entries bits rw field description 31:00 rw message upper address system-specified message upper address bits. this field is read/write. 6.8.7. message data for msi-x table entries table 22. message data bits rw field description 31:00 rw message data system-specified message data. for msi-x messages, the contents of this field are taken from an msi-x table entry. in contrast to message data used for msi messages, the low-order message data bits in msi-x messages are not modified by the function. this field is read/write. 6.8.8. vector control for msi-x table entries table 23. vector control for msi-x table entries bits rw field description 31:01 rw reserved after reset, the state of these bits must be 0. however, for potential future use, software must preserve the value of these reserved bits when modifying the value of other vector control bits. if software modifies the value of these reserved bits, the result is undefined. 00 rw mask bit when this bit is set, the function is prohibited from sending a message using this msi-x table entry. however, any other msi-x table entries programmed with the same vector will still be capable of sending an equivalent message unless they are also masked. this bit?s state after reset is 1 (entry is masked). this bit is read/write. 6.8.9. pending bits for msi-x pba entries table 24. pending bits for msi-x pba entries bits rw field description 63:00 rw pending bits for each pending bit that is set, the function has a pending message for the associated msi-x table entry. pending bits that have no associated msi-x table entry are reserved. after reset, the state of reserved pending bits must be 0. software should never write, and should only read pending bits. if software writes to pending bits, the result is undefined. each pending bit?s state after reset is 0 (no message pending). these bits are permitted to be read only or read/write. www.datasheet.co.kr datasheet pdf - http://www..net/ RTL8102E-GR datasheet integrated fast ethernet controller for pci express 23 track id: jatr-1076-21 rev. 1.0 6.9. receive-side scaling (rss) the RTL8102E-GR is compliant with the netw ork driver interface specification (ndis) 6.0 receive-side scaling (rss) technology for the micr osoft windows family of operating systems. rss allows packet receive-processing from a network adap ter to be balanced across the number of available computer processors, increasing performance on multi-cpu platforms. 6.9.1. receive-side scaling (rss) initialization during rss initialization, the windows operating sy stem will inform the RTL8102E-GR to store the following parameters: hash function, hash type, hash bits, indirection table, basecpunumber, and the secret hash key. hash function the default hash function is the toeplitz hash function. hash type the hash types indicate which field of the packet n eeds to be hashed to get the hash result. there are several combinations of these fields, mainl y, tcp/ipv4, ipv4, tcp/ipv6, ipv6, and ipv6 extension headers. ? tcp/ipv4 requires hash calculations over the ipv4 source address, the ipv4 destination address, the source tcp port and the destination tcp port. ? ipv4 requires hash calculations over the ipv4 sour ce address and the ipv4 de stination address. ? tcp/ipv6 requires hash calculations over the ipv6 source address, the ipv6 destination address, the source tcp port and the destination tcp port. ? ipv6 requires hash calculations over the ipv6 s ource address and the ip v6 destination address ( note: the RTL8102E-GR does not support the ip v6 extension header hash type in rss ). hash bits hash bits are used to index the ha sh result into the indirection table www.datasheet.co.kr datasheet pdf - http://www..net/ RTL8102E-GR datasheet integrated fast ethernet controller for pci express 24 track id: jatr-1076-21 rev. 1.0 indirection table the indirection table stores values that are added to the basecpunumber to enable rss interrupts to be restricted from some cpus. the os will update the indirection table to rebalance the load. basecpunumber the lowest number cpu to use for rss. basecpunumber is added to the result of the indirection table lookup. secret hash key the key used in the toeplitz function. for differe nt hash types, the key size is different. 6.9.2. rss operation after the parameters are set, the RTL8102E-GR will start hash calculation on each incoming packet and forward each packet to its correct qu eue according to the hash result. if the incoming packet is not in the hash type, it will be forwarded to the primary queue. the hash result plus the basecp unumber will be indexed into the indirection tabl e to get the correct cp u number. the RTL8102E-GR uses three methods to inform the system of incoming packets: inline interrupt, msi, and msix. periodically the os will update the indirection ta ble to rebalance the load across the cpus. www.datasheet.co.kr datasheet pdf - http://www..net/ RTL8102E-GR datasheet integrated fast ethernet controller for pci express 25 track id: jatr-1076-21 rev. 1.0 7. characteristics 7.1. absolute maximum ratings warning: absolute maximum ratings are limits beyond which permanent damage may be caused to the device, or device reliability will be affected. all voltages are specified reference to gnd unless otherwise specified. table 25. absolute maximum ratings symbol description minimum maximum unit vdd33, avdd33 supply voltage 3.3v -0.3 +0.5 v avdd12, dvdd12 supply voltage 1.2v -0.3 +0.4 v evdd12 supply voltage 1.2v tbd tbd - dcinput input voltage -0.3 corresponding supply voltage + 0.5 v dcoutput output voltage -0.3 corresponding supply voltage + 0.5 v storage temperature -55 +125 c * refer to the most updated schematic circuit for correct configuration. 7.2. recommended operating conditions table 26. recommended operating conditions description pins minimum typical maximum unit vdd33, avdd33 2.97 3.3 3.63 v avdd12, dvdd12 1.1 1.2 1.32 v supply voltage vdd evdd12 1.14 1.2 1.26 v ambient operating temperature t a - 0 - 70 c maximum junction temperature - - - 125 c * refer to the most updated schematic circuit for correct configuration. 7.3. crystal requirements table 27. crystal requirements symbol description/condition minimum typical maximum unit f ref parallel resonant crystal reference frequency, fundamental mode, at-cut type. - 25 - mhz f ref stability parallel resonant crystal frequency stability, fundamental mode, at-cut type. t a =25 c. -50 - +50 ppm f ref tolerance parallel resonant crystal frequency tolerance, fundamental mode, at-cut type. t a =-20 c ~+70 c. -30 - +30 ppm f ref duty cycle reference clock input duty cycle. 40 - 60 % esr equivalent series resistance. - - - ? dl drive level. - - 0.5 mw www.datasheet.co.kr datasheet pdf - http://www..net/ RTL8102E-GR datasheet integrated fast ethernet controller for pci express 26 track id: jatr-1076-21 rev. 1.0 7.4. thermal characteristics table 28. thermal characteristics parameter minimum maximum units storage temperature -55 +125 c ambient operating temperature 0 70 c 7.5. dc characteristics table 29. dc characteristics symbol parameter conditions minimum typical maximum units vdd33, avdd33 3.3v supply voltage - 2.97 3.3 3.63 v evdd12, avdd12 1.2v supply voltage - 1.1 1.2 1.32 v dvdd12 1.2v supply voltage - 1.1 1.2 1.32 v vo h minimum high level output voltage ioh = -4ma 0.9 * vdd33 - vdd33 v vo l maximum low level output voltage iol= 4ma 0 - 0.1 * vdd33 v vih minimum high level input voltage - 1.8 - - v vil maximum low level input voltage - - - 0.8 v iin input current vin = vdd33 or gnd 0 - 0.5 a icc33 average operating supply current from 3.3v - - tbd - ma icc12 average operating supply current from 1.8v - - tbd - ma * refer to the most updated schematic circuit for correct configuration. www.datasheet.co.kr datasheet pdf - http://www..net/ RTL8102E-GR datasheet integrated fast ethernet controller for pci express 27 track id: jatr-1076-21 rev. 1.0 7.6. ac characteristics 7.6.1. serial eeprom interface timing 93c46(64*16)/93c56(128*16) eesk eecs eedi eedo 11 0 an a2 a0 a1 dn d1 d0 eesk (read) (write) (read) (write) 0 tcs eesk eecs eedi eedo 11 0 an a0 ... dn tcs ... busy ready high impedance high impedance twp eecs eedi eedo eedo (read) (program) status valid tsk tskh tskl tcss tdis tdih tdos tdoh tcsh tsv d0 figure 10. serial eeprom interface timing www.datasheet.co.kr datasheet pdf - http://www..net/ RTL8102E-GR datasheet integrated fast ethernet controller for pci express 28 track id: jatr-1076-21 rev. 1.0 table 30. eeprom access timing parameters symbol parameter eeprom type min. max. unit tcs minimum cs low time 9346 1000 - ns twp write cycle time 9346 - 10 ms tsk sk clock cycle time 9346 4 - s tskh sk high time 9346 1000 - ns tskl sk low time 9346 1000 - ns tcss cs setup time 9346 200 - ns tcsh cs hold time 9346 0 - ns tdis di setup time 9346 400 - ns tdih di hold time 9346 400 - ns tdos do setup time 9346 2000 - ns tdoh do hold time 9346 - 2000 ns tsv cs to status valid 9346 - 1000 ns www.datasheet.co.kr datasheet pdf - http://www..net/ RTL8102E-GR datasheet integrated fast ethernet controller for pci express 29 track id: jatr-1076-21 rev. 1.0 7.7. pci express bus parameters 7.7.1. differential transmitter parameters table 31. differential transmitter parameters symbol parameter min typical max units ui unit interval 2 399.88 400 400.12 ps v tx-diffp-p differential peak to peak output voltage 0.800 - 1.2 v v tx-de-ratio de-emphasized differential output vo ltage (ratio) -3.0 -3.5 -4.0 db t tx-eye minimum tx eye width 0.75 - - ui t tx-eye-median- to-max-jitter maximum time between the jitter median and maximum deviation from the median - - 0.125 ui t tx-rise , t tx-fall d+/d- tx output rise/fall time 0.125 - - ui v tx-cm-acp rms ac peak common mode output voltage - - 20 mv v tx-cm-dcactive- idledelta absolute delta of dc common mode voltage during l0 and electrical idle 0 - 100 mv v tx-cm-dcline- delta absolute delta of dc common mode voltage between d+ and d- 0 - 25 mv v tx-idle-diffp electrical idle differential peak output voltage 0 - 20 mv v tx-rcv-detect the amount of voltage change allowed during receiver detection - - 600 mv v tx-dc-cm the tx dc common mode voltage 0 - 3.6 v i tx-short tx short circuit current limit - - 90 ma t tx-idle-min minimum time spent in electrical idle 50 - - ui t tx-idle- setto-idle maximum time to transition to a valid electrical idle after sending an electrical idle ordered set - - 20 ui t tx-idle-toto- diff-data maximum time to transition to valid tx specifications after leaving an electrical idle condition - - 20 ui rl tx-diff differential return loss 10 - - db rl tx-cm common mode return loss 6 - - db z tx-diff-dc dc differential tx impedance 80 100 120 ? l tx-skew lane-to-lane output skew - - 500+2 ui ps c tx ac coupling capacitor 75 - 200 nf t crosslink crosslink random timeout 0 - 1 ms note1: refer to pci express base specification, rev.1.1, fo r correct measurement environment setting of each parameter. note2: the data rate can be modulated with an ssc (spread spectrum clock) from +0 to -0.5% of the nominal data rate frequency, at a modulation rate in the range not exceeding 30 khz ? 33 kh z. the +/- 300 ppm requirement still holds, which requires the two communicating ports be modu lated such that they never exceed a total of 600 ppm difference. www.datasheet.co.kr datasheet pdf - http://www..net/ RTL8102E-GR datasheet integrated fast ethernet controller for pci express 30 track id: jatr-1076-21 rev. 1.0 7.7.2. differential receiver parameters table 32. differential receiver parameters symbol parameter min. typical max. units ui unit interval 399.88 400 400.12 ps v rx-diffp-p differential input peak to peak voltage 0.175 - 1.200 v t rx-eye minimum receiver eye width 0.4 - - ui t rx-eye-median-to- max-jitter maximum time between the jitter median and maximum deviation from the median - - 0.3 ui v rx-cm-acp ac peak common mode input voltage - - 150 mv rl rx-diff differential return loss 10 - - db rl rx-cm common mode return loss 6 - - db z rx-diff-dc dc differential input impedance 80 100 120 ? z rx--dc dc input impedance 40 50 60 ? z rx-high-imp-dc powered down dc input impedance 200 k - - ? v rx-idle-det-diffp-p electrical idle detect threshold 65 - 175 mv t rx-idle-det- diffentertime unexpected electrical idle enter detect threshold integration time - - 10 ms l rx-skew total skew - - 20 ns note: refer to pci express base specification, rev.1.1, for correct measurement environment setting of each parameter. 7.7.3. refclk parameters table 33. refclk parameters symbol parameter 100mhz input min max units note rise edge rate rising edge rate 0.6 4.0 v/ns 2,3 fall edge rate falling edge rate 0.6 4.0 v/ns 2,3 v ih differential input high voltage +150 - mv 2 v il differential input low voltage - -150 mv 2 v cross absolute crossing point voltage +250 +550 mv 1,4,5 v cross delta variation of v cross over all rising clock edges - +140 mv 1,4,9 v rb ring-back voltage margin -100 +100 mv 2,12 t stable time before v rb is allowed 500 - ps 2,12 t period avg average clock period accuracy -300 +2800 ppm 2,10,13 t period abs absolute period (including jitter and spread spectrum) 9.847 10.203 ns 2,6 t ccjitter cycle to cycle jitter - 150 ps 2 v max absolute max input voltage - +1.15 v 1,7 v min absolute min input voltage - -0.3 v 1,8 www.datasheet.co.kr datasheet pdf - http://www..net/ RTL8102E-GR datasheet integrated fast ethernet controller for pci express 31 track id: jatr-1076-21 rev. 1.0 symbol parameter 100mhz input min max units note duty cycle duty cycle 40 60 % 2 rise-fall matching rising edge rate (refclk+) to falling edge rate (refclk-) matching - 20 % 1,14 z c-dc clock source dc impedance 40 60 ? 1,11 note1: measurement taken from single ended waveform. note2: measurement taken from differential waveform. note3: measured from -150 mv to +150 mv on the di fferential waveform (derived from refclk+ minus refclk-). the signal must be monotonic through the measurement region for rise and fall time. the 300 mv measurement window is centered on the differential zero crossing. see figure 14, page 33. note4: measured at crossing point wh ere the instantaneous voltage value of the rising edge of refclk+ equals the falling edge of refclk-. see figure 10, page 27. note5: refers to the total variation from the lowest crossing point to the highest, regardless of which edge is crossing. refers to all crossing points for this measurement. see figure 10, page 27. note6: defines as the absolute minimum or maximu m instantaneous period. th is includes cycle to cycle jitter, relative ppm tolerance, and spread spectrum modulation. see figure 13, page 32. note7: defined as the maximum instantaneous voltage including overshoot. see figure 10, page 27. note8: defined as the minimum instantaneous voltage including undershoot. see figure 10, page 27. note9: defined as the total variation of all crossing volta ges of rising refclk+ and falling refclk-. this is the maximum allowed variance in vcross for any particular system. see figure 11, page 32. note10: refer to section 4.3.2.1 of the pci express base specification, revision 1.1 for information regarding ppm considerations. note11: system board compliance measurements must use the test load card described in figure16. refclk+ and refclk- are to be measured at the load capacitors cl. single ended probes must be used for measurements requiring single ended measurements. either single ended probes with math or differential probe can be used for differential measurements. test load c l = 2 pf. note12: t stable is the time the differential clock must maintain a minimum 150 mv differential voltage after rising/falling edges before it is allowed to droop back into the v rb 100 mv differential range. see figure 15. note13: ppm refers to parts per million and is a dc absolute period accuracy specification. 1 ppm is 1/1,000,000th of 100.000000 mhz exactly or 100 hz. for 300 ppm then we have a error budget of 100 hz/ppm * 300 ppm = 30 khz. the period is to be measured with a frequency counter with measurement window set to 100 ms or greater. the 300 ppm applies to systems that do not employ spread spectrum or that use common clock source. for systems employing spread spectrum there is an additional 2500 ppm nominal shift in maximum period resulting from the 0.5% down spread resulting in a maximum average period specification of +2800 ppm note14: matching applies to rising edge rate for refclk+ and falling edge rate for refclk-. it is measured using a 75 mv window centered on the median cross poin t where refclk+ rising meets refclk- falling. the median cross point is used to calculate the voltage thresholds the oscilloscope is to use for the edge rate calculations. the rise edge rate of refclk+ should be compared to the fall edge rate of refclk-, the maximum allowed difference should not exceed 20% of the slowest edge rate. see figure 12, page 32. note15: refer to pci express card electromechanical specification, rev.1.1, for correct measurement environment setting of each parameter. www.datasheet.co.kr datasheet pdf - http://www..net/ RTL8102E-GR datasheet integrated fast ethernet controller for pci express 32 track id: jatr-1076-21 rev. 1.0 figure 11. single-ended measurement points for absolute cross point and swing figure 12. single-ended measurement points for delta cross point figure 13. single-ended measurement points for rise and fall time matching www.datasheet.co.kr datasheet pdf - http://www..net/ RTL8102E-GR datasheet integrated fast ethernet controller for pci express 33 track id: jatr-1076-21 rev. 1.0 figure 14. differential measurement points for duty cycle and period figure 15. differential measurement points for rise and fall time figure 16. differential measurement points for ringback www.datasheet.co.kr datasheet pdf - http://www..net/ RTL8102E-GR datasheet integrated fast ethernet controller for pci express 34 track id: jatr-1076-21 rev. 1.0 figure 17. reference clock system measurement point and loading 7.7.4. auxiliary signal timing parameters table 34. auxiliary signal timing parameters symbol parameter min max units t pvperl power stable to perstb inactive 100 - ms t perst-clk refclk stable before perstb inactive 100 - s t perst perstb active time 100 - s t fail power level invalid to pwrgd inactive - 500 ns t wkrf lanwakeb rise ? fall time - 100 ns 3.3 vaux 3.3/12v perstb refclk pci-e link power stable inactive active inactive wakeup event t t t perst t fail clock not stable pvperl perst-clk active clock stable clock stable power stable figure 18. auxiliary signal timing www.datasheet.co.kr datasheet pdf - http://www..net/ RTL8102E-GR datasheet integrated fast ethernet controller for pci express 35 track id: jatr-1076-21 rev. 1.0 8. mechanical dimensions 9. ordering information table 35. ordering information part number package status RTL8102E-GR 64-pin qfn ?green? package production note: see page 3 for green package and version identification. 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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