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ksz8081mnx/ksz8081rnb 10base - t/100base - tx physical laye r transceiver revision 1.4 linkmd is a registered trademark of micrel, inc. micrel inc. ? 2180 fortune drive ? san jose, ca 95131 ? usa ? tel +1 (408) 944 - 0800 ? fax + 1 (408) 474 - 1000 ? http://www.micre l.com august 1 9 , 2015 revision 1.4 general description the ksz8081 is a single - supply 10base - t/100base - tx ethernet physical - layer transceiver for transmission and reception of data over standard cat - 5 unshielded twisted pair (utp) cable. the ksz8081 is a highly - integrated phy solution. it r educes board cost and simplifies board layout by using on- chip termination resistors for the differential pairs and by integrating a low - noise regulator to supply the 1.2v core. the ksz8081mnx offers the media independent interface (mii) and the ksz8081rnb offers the reduced media independent interface (rmii) for direct connection with mii/rmii - compliant ethernet mac processors and switches. a 25mhz crystal is used to generate all required clocks, including the 50mhz rmii reference clock output for the ksz8 081rnb. the ksz8081 provides diagnostic features to facilitate system bring - up and debugging in production testing and in product deployment. parametric nand tree support enables fault detection between ksz8081 i/os and the board. micrel linkmd ? tdr - based cable diagnostics identify faulty copper cabling. the ksz8081mnx and ksz8081rnb are available in 32 - pin, lead - free qfn packages (see ? ordering information? ). datasheets and support documentatio n are available on web site at: www.micrel.com . features ? single - chip 10base - t/100base - tx ieee 802.3 compliant ethernet transceiver ? mii interface support (ksz8081mnx) ? rmii v1.2 interface support with a 50mhz reference clock output to mac, and an option to input a 50mhz reference clock (ksz8081rnb) ? back - to - back mode support for a 100mbps copper repeater ? mdc/mdio management interface for phy register configuration ? programmable interrupt output ? led outputs for link, activity, and speed status indication ? on - chip termination resistors for the differential pairs ? baseline wander correction ? hp auto mdi/mdi - x to reliably detect and correct straight - through and crossover cable connections with disable and enable option ? auto - negotiation to automatically select the highest link - up speed (10/10 0mbps) and duplex (half/full) ? power - down and power - saving modes ? linkmd tdr - based cable diagnostics to identify faulty copper cabling ? parametric nand tree support for fault detection between chip i/os and the board ? hbm esd rating (6kv) functional diagram
micrel, inc. ksz8081mnx/ksz8081rnb august 19 , 2015 2 revision 1.4 features (continued) ? loopback modes for diagnostics ? single 3.3v power supply with vdd i/o options for 1.8v, 2.5v, or 3.3v ? built - in 1.2v regulator for core ? available in 32 - pin (5mm 5mm) qfn package applications ? game console ? ip phone ? ip set - top box ? i p tv ? lom ? printer ordering information part number temperature range package lead finish description ksz8081mnxca 0c to + 70c 32- pin qfn pb - free mii, commercial temperature . ksz8081mnxia ( 1 ) ? 40c to + 85c 32- pin qfn pb - free mii, industrial temperature . ksz8081rnbca 0c to + 70c 32- pin qfn pb - free rmii with 25mhz crystal/clock input and 50mhz rmii ref_clk output (power - up default), commercial temperature . KSZ8081RNBIA ( 1 ) ? 40c to + 85c 32- pin qfn pb - free rmii with 25mhz crystal/clock input and 50mhz rmii ref_clk output (power - up default), industrial temperature . ksz8081mnx -eval ksz8081mnx evaluation board (mounted with ksz8081mnx device in commercial tempe rature) ksz8081rnb -eval ksz8081rnb evaluation board (mounted with ksz8081rnb device in commercial temperature) note: 1. contact factory for lead time .
micrel, inc. ksz8081mnx/ksz8081rnb august 19 , 2015 3 revision 1.4 revision history revision date summary of changes 1.0 11/5/12 initial release of datasheet. 1.1 2/6 /14 removed copper wire bonding part numbers from ordering information . added note for txc (pin 22) and register 16h, bit [15] regarding a reserved factory mode for ksz8081mnx device. corrected txc (pin 22) pin type for ksz8081mnx device. removed txc and r xc clock connections for mii back -to - back mode. this is a datasheet correction. there is no change to the silicon. added series resistance and load capacitance for the crystal selection criteria. 1.2 12/18 /14 added silver wire bonding part numbers to orde ring information. updated ordering information to include ordering part number and device marking. 1.3 04/14/15 updated table 7 , add a note for table 7 . updated table 8 , updated nand tree i/o testing descriptions. add max frequency for mdc in mii management (miim) interface section. updated table 23 , add a note for table 23 . updated figure 22 and figure 22 descriptions. updated descriptions under figure 23 for led strap pins , add a note for figure 23 . fixed the missing value for maximum junction and thermal resistance ( jc ). 1.4 0 8 / 1 9 /15 updated descriptions in local loopback section for data loopback path . update d table 17 and table 21. update d o rdering i nformation table . updated pin 22 txc and register 16h bit [15] description for mnx part. update d description and ad d an equation in linkmd section. add hbm esd rating in features.
micrel, inc. ksz8081mnx/ksz8081rnb august 19 , 2015 4 revision 1.4 table of contents list of figures .......................................................................................................................................................................... 6 list of tables ........................................................................................................................................................................... 7 pin configuration ? ksz8081mnx ......................................................................................................................................... 8 pin description ? ksz8081mn x ............................................................................................................................................. 9 strapping options ? ksz8081mnx ...................................................................................................................................... 12 pin configuration ? ksz8081rnb ........................................................................................................................................ 14 pin description ? ksz8081rnb ........................................................................................................................................... 15 strapping options ? ksz8081rnb ....................................................................................................................................... 18 functional description: 10base - t/100base - tx transceive r ................................................................................................ 19 100base - tx transmit ........................................................................................................................................................ 19 100base - tx receive ......................................................................................................................................................... 19 scrambler/de - s crambler (100base - tx only) ................................................................................................................... 19 10base - t transmit ............................................................................................................................................................ 19 10base - t receive ............................................................................................................................................................. 20 sqe and jabber function (10base - t only) ...................................................................................................................... 20 pll clock synthesizer ...................................................................................................................................................... 20 auto - negotiation ................................................................................................................................................................ 20 mii interface (ksz8081mnx only) ....................................................................................................................................... 22 mii signal definition ........................................................................................................................................................... 22 transmit clock (txc) ........................................................................................................................................................ 22 transmit enable (txen) ................................................................................................................................................... 22 transmit data[3:0] (txd[3:0]) ........................................................................................................................................... 23 receive clock (rxc ) ......................................................................................................................................................... 23 receive data valid (rxdv) ............................................................................................................................................... 23 receive data[3:0] (rxd[3:0]) ............................................................................................................................................ 23 receive error (rxer) ....................................................................................................................................................... 23 carrier sense (crs) ......................................................................................................................................................... 23 collision (col) .................................................................................................................................................................. 23 mii signal diagram ............................................................................................................................................................ 23 rmii data interface (ksz8081rnb only) ............................................................................................................................ 25 rmii ? 25mhz clock mode ................................................................................................................................................ 25 rmii ? 50mhz clock mode ................................................................................................................................................ 25 rmii signal definition ........................................................................................................................................................ 25 reference clock (ref_clk) ............................................................................................................................................ 25 transmit enable (txen) ................................................................................................................................................... 26 transmit data[1:0] (txd[1:0]) ........................................................................................................................................... 26 carrier sense/receive data valid (crs_dv) ................................................................................................................... 26 receive data[1:0] (rxd[1:0]) ............................................................................................................................................ 26 receive error (rxer) ....................................................................................................................................................... 26 collision detection (col) .................................................................................................................................................. 26 rmii signal diagram ......................................................................................................................................................... 26 back - to - back mode ? 100mbps copper repeater ............................................................................................................... 28 mii back - to - back mode (ksz8081mnx only) .................................................................................................................. 28 rmii back - to - back mode (ksz8081rnb only) ................................................................................................................ 29 mii management (miim) interface ......................................................................................................................................... 29 interrupt (intrp) ................................................................................................................................................................... 30 hp auto mdi/mdi - x .............................................................................................................................................................. 30 straight cable .................................................................................................................................................................... 31 crossover cable ................................................................................................................................................................ 31 loopback mode ..................................................................................................................................................................... 32 local (digital) loopback .................................................................................................................................................... 32 remote (analog) loopback ............................................................................................................................................... 33 linkmd ? cable diagnostic .................................................................................................................................................... 34 usage ............................................................................................................................................................................. 34
micrel, inc. ksz8081mnx/ksz8081rnb august 19 , 2015 5 revision 1.4 nand tree support .............................................................................................................................................................. 35 nand tree i/o testing ..................................................................................................................................................... 36 power management .............................................................................................................................................................. 37 power - saving mode .......................................................................................................................................................... 37 energy - detect power - down mode .................................................................................................................................... 37 power - down mode ............................................................................................................................................................ 37 slow - oscillator mode ......................................................................................................................................................... 37 reference circuit for power and ground connections ......................................................................................................... 38 typical current/power consumption .................................................................................................................................... 3 9 transceiver (3.3v), digital i/os (3.3v) .............................................................................................................................. 39 transceiver (3.3v), digital i/os (2.5v) .............................................................................................................................. 39 transceiver (3.3v), digital i/os (1.8v) .............................................................................................................................. 40 register map ......................................................................................................................................................................... 41 register description .............................................................................................................................................................. 42 absolute maximum ratings .................................................................................................................................................. 52 operating ratin gs ................................................................................................................................................................. 52 electrical characteristics ....................................................................................................................................................... 52 timing diagrams ................................................................................................................................................................... 54 m ii sqe timing (10base - t) .............................................................................................................................................. 54 mii transmit timing (10base - t) ........................................................................................................................................ 55 mii receive timing (10base - t) ......................................................................................................................................... 56 mii transmit timing (100base - tx) ................................................................................................................................... 57 mii receive timing (100base - tx) .................................................................................................................................... 58 rmii timing ....................................................................................................................................................................... 59 auto - negotiation timing .................................................................................................................................................... 60 mdc/mdio timing ............................................................................................................................................................ 61 power - up/reset timing ..................................................................................................................................................... 62 reset circuit .......................................................................................................................................................................... 63 reference circuits ? led strap - in pins ................................................................................................................................ 64 reference clock ? connection and selection ...................................................................................................................... 65 magnetic ? connection and selection .................................................................................................................................. 66 package information and recommended land pattern ....................................................................................................... 68
micrel, inc. ksz8081mnx/ksz8081rnb august 19 , 2015 6 revision 1.4 list of figures figure 1. auto - negotiation flow chart .................................................................................................................................. 21 figure 2. ks z8081mnx mii interface ................................................................................................................................... 24 figure 3. ksz8081rnb rmii interface (25mhz clock mode) .............................................................................................. 27 figure 4. ksz8081rnb rmii interface (50mhz c lock mode) .............................................................................................. 27 figure 5. ksz8081mnx/rnb to ksz8081mnx/rnb back - to - back copper repeater ....................................................... 28 figure 6. typical straight cable connec tion ........................................................................................................................ 31 figure 7. typical crossover cable connection .................................................................................................................... 31 figure 8. local (digital) loopback ........................................................................................................................................ 32 figure 9. remote (analog) loopback ................................................................................................................................... 33 figure 10. ksz8081mnx/rnb power and ground connections ......................................................................................... 38 fi gure 11. mii sqe timing (10base - t) ................................................................................................................................ 54 figure 12. mii transmit timing (10base - t) .......................................................................................................................... 55 figure 13. mii receive timing (10base - t) ........................................................................................................................... 56 figure 14. mii transmit timing (100base - tx) ...................................................................................................................... 57 figure 15. mii receive timing (100base - tx) ....................................................................................................................... 58 figure 16. rmii timing ? data received from rmii ............................................................................................................. 59 figure 17. rmii timing ? data input to rmii ........................................................................................................................ 59 f igure 18. auto - negotiation fast link pulse (flp) timing .................................................................................................. 60 figure 19. mdc/mdio timing ............................................................................................................................................... 61 figure 20. power - up/reset timing ....................................................................................................................................... 62 figure 21. recommended reset circuit ............................................................................................................................... 63 figure 22. recommended reset circuit for interfacing with cpu/fpga reset output ...................................................... 63 figure 23. reference circuits for led strapping pins ......................................................................................................... 64 figure 24. 25mhz crystal/oscillator reference clock connection ...................................................................................... 65 figure 25. 50mhz oscillator reference clock connection .................................................................................................. 65 figure 26. typical magnetic interface circuit ........................................................................................................................ 66
micrel, inc. ksz8081mnx/ksz8081rnb august 19 , 2015 7 revision 1.4 l ist of tables table 1. mii signal definition ................................................................................................................................................ 22 table 2. rmii signal defintion .............................................................................................................................................. 25 table 3. mii signal connection for mii back - to - back mode (100base - tx copper repeater) ............................................. 28 table 4. rmii signal connection for rmii back - to - back mode (100bas e - tx copper repeater) ....................................... 29 table 5. mii management frame format for the ksz8081mnx/rnb ................................................................................. 30 table 6. mdi/mdi - x pin definition ........................................................................................................................................ 30 table 7. nand tree test pin order for ksz8081mnx ........................................................................................................ 35 table 8. nand tree test pin order for ksz8081rnb ........................................................................................................ 36 table 9. ksz8081mnx/rnb power pin descriptions .......................................................................................................... 38 table 10. typical current/power consumption (vdda_3.3 = 3.3v, vddio = 3.3v) ........................................................... 39 table 11. typical current/power consumption (vdda_3.3 = 3.3v, vddio = 2.5v) ........................................................... 39 table 12. typical current/power consumption (vdda_3.3 = 3.3v, vddio = 1.8v) ........................................................... 40 table 13. mii sqe timing (10base - t) parameters .............................................................................................................. 54 table 14. mii transmit timing (10base - t) parameters ........................................................................................................ 55 table 15. mii receive timing (10base - t) parameters ......................................................................................................... 56 table 16. mii transmit timing (100base - tx) parameters ................................................................................................... 57 table 17. mii receive timing (100base - tx) parameters .................................................................................................... 58 table 18. rmii timing parameters ? ksz8081rnb (25mhz input to xi pin, 50mhz output from ref_clk pin) .............. 59 table 19. rmii timing parameters ? ksz8081rnb (50mhz input to xi pin) ...................................................................... 59 table 20. auto - negotiation fast link pulse (flp) timing par ameters ................................................................................ 60 table 21. mdc/mdio timing parameters ............................................................................................................................ 61 table 22. power - up/reset timing parameters ..................................................................................................................... 62 table 23. 25mhz crystal/reference clock selection criteria .............................................................................................. 65 table 24. 50mhz oscillator/reference clock selection criteria .......................................................................................... 65 table 25. magnetics selection criteria ................................................................................................................................. 67 table 26. compatible single - port 10/100 magnetics ............................................................................................................ 67
micrel, inc. ksz8081mnx/ksz8081rnb august 19 , 2015 8 revision 1.4 pin configuration ? ksz8081mnx 32- pin 5mm 5mm qfn
micrel, inc. ksz8081mnx/ksz8081rnb august 19 , 2015 9 revision 1.4 pin description ? ksz8081mnx pin number pin name type ( 2 ) pin function 1 gnd gnd ground 2 vdd_1.2 p 1.2v core v dd (power supplied by ksz8081mnx) . decouple with 2.2f and 0.1f capacito rs to ground. 3 vdda_3.3 p 3.3v analog v dd . 4 rxm i/o physical receive or transmit signal ( ? differential) . 5 rxp i/o physical receive or transmit signal (+ differential) . 6 txm i/o physical transmit or receive signal ( ? differential) . 7 txp i/o physi cal transmit or receive signal (+ differential) . 8 xo o crystal feedback for 25mhz crystal . this pin is a no connect if an oscillator or external clock source is used. 9 xi i crystal / oscillator / external clock input . 25mhz 50ppm . 10 rext i set phy t ransmit output current. connect a 6.49k resistor to ground on this pin. 11 mdio ipu/opu mana gement interface (mii) data i/o this pin has a weak pull - up, is open- drain, and requires an external 1.0k pull - up resistor. 12 mdc ipu management interface (mii ) clock input . this clock pin is synchronous to the mdio data pin. 13 rxd3/ phyad0 ipu/o mii mode : mii receive data output[3] ( 3 ) . config mode : the pull - up/pull - down value i s latched as phyaddr[0] at the de- asse rtion of reset. see the strapping options ? ksz8081mnx section for details. 14 rxd2/ phyad1 ipd/o mii mode : mii receive data output[2] ( 3 ) . config mode : the pull - up/pul l - down value is latched as phyaddr[1] at the de- assertion of reset. see the strapping options ? ksz8081mnx section for details. 15 rxd1/ phyad2 ipd/o mii mode : mii receive data output[1] ( 3 ) . config mode : the pull - up/pull - down value is latched as phyaddr[2] at the de- assertion of reset. see the strapping options ? ksz8081mnx section for details. notes: 2. p = power supply. gnd = g round. i = input. o = output. i/o = bi - directional. ipu = in put with internal pull - up (see electrical characteristics for value). ipu/o = input with internal pull - up (see electrical characteristics for value) during power - up/reset; output pin otherwise. ipd/o = input with internal pull - down (see electrical characteristics for value) during power - up/reset; output pin other wise. ipu/opu = input with internal pull - up (see electrical characteristics for value) and output with internal pull - up (see electrical characteristics for value). 3. mii rx mode: the rxd[3:0] bits are synchronous with rxc. when rxdv is asserted, rxd[3:0] presents valid data to the mac. rxd[ 3:0] is invalid data from the phy when rxdv is de - asserted.
micrel, inc. ksz8081mnx/ksz8081rnb august 19 , 2015 10 revision 1.4 pin description ? ksz8081mnx (continued) pin number pin name type ( 2 ) pin function 16 rxd0/ duplex ipu/o mii mode : mii receive data output[0] ( 3 ) . config mode : the pull - up/pull - down value is latched as duplex at the de - assertion of reset . see the strapping options ? ksz8081mnx section for details. 17 vddio p 3.3v, 2.5v, or 1.8v digital v dd 18 rxdv/ config2 ipd/o mii mode : mii receive data valid output. config mode : the pull - up/pull - down value is latched as config2 at the de - assertion of reset. see the strapping options ? ksz8081mnx section for details. 19 rxc/ b- cast_off ipd/o mii mode : mii receive clock output . config mode : the pull - up/pull - down value i s latched as b - cast_off at the de - assertion of reset. see the strapping options ? ksz8081mnx section for details. 20 rxer/ iso ipd/o mii mode: mii receive error output . config mode : the pull - up/pull - down value is latched as isolate at the de- assertion of reset. see the strapping options ? ksz8081mnx section for details. 21 intrp/ nand_tree# ipu/opu interrupt output : programmable interrupt output . this pin has a weak pul l - up, is open- drain, and require s an external 1.0k? pull - up resistor. config mode : the pull - up/pull - down value is latched as nand tree# at the de- assertion of reset. see the strapping options ? ksz8081mnx section for details 22 txc ipd /o mii mod e : mii transmit clock output . at the de - assertion of reset, this pin needs to latch in a pull - down value for normal operation. if mac side pulls this pin high, see register 16h, bit [15] for solution. it is better having an external pull - down resistor to a void mac side pulls this pin high . 23 txen i mii mode : mii transmit enable input. 24 txd0 i mii mode : mii transmit data input[0] ( 4 ) . 25 txd1 i mii mode : mii transmit data input[1] ( 4 ) . 26 txd2 i mii mode : mii transmit data input[2] ( 4 ) . 27 txd3 i mii mode : mii transmit data input[3] ( 4 ) . 28 col/ config0 ipd/o mii mode : mii coll ision detect output . config mode : the pull - up/pull - down value is latched as config0 at the de - assertion of reset. see the strapping options ? ksz8081mnx section for details. 29 crs/ config1 ipd/o mii mode: mii ca rrier sense output config mode: the pull - up/pull - down value is latched as config1 at the de - assertion of reset. see the strapping options ? ksz8081mnx section for details. note: 4. mii tx mode: the txd[3:0] bits are synchronous with txc. when txen is asserted, txd[3:0] presents valid data from the mac. txd[3:0] has no effect on the phy when txen is de - asserted.
micrel, inc. ksz8081mnx/ksz8081rnb august 19 , 2015 11 revision 1.4 pin description ? ksz8081mnx (continued) pin number pin name type ( 2 ) pin function 30 led0/ nwayen ipu/o led output : programmable led0 output . config mode : latched as auto - negotiation enable ( register 0h, bit [ 12 ]) at the de - assertion of reset. see the strapping options ? k sz8081mnx section for details. the led0 pin is programmable using register 1fh bits [ 5:4], and is defined as follows: led mode = [00] link/activity pin state led definition no link high off link low on activity toggle blinking led mode = [01] link pin state led definition no link high off link low on led mode = [10], [11] reserved 31 led1/ speed ipu/o led output : programmable led1 output . config mode : latched as speed ( register 0h, bit [ 13 ]) at the de - assertion of reset. see the strapping options ? ksz8081mnx section for details. the led1 pin is programmable using register 1fh bits [ 5:4], and is defined as follows: led mode = [00] speed pin state led definition 10base -t high off 100base -tx low on led mode = [01] activity pin state led definition no activity high off activity toggle blinking led mode = [10], [11] reserved 32 rst# ipu chip reset (active low) . paddle gnd gnd ground
micrel, inc. ksz8081mnx/ksz8081rnb august 19 , 2015 12 revision 1.4 strapping options ? ksz8081mnx the strap - in pin s are latched at the de - assertion of reset. in some systems, the mac mii receive input pins may drive high/low during power - up or reset, and consequently cause the phy strap - in pins on the mii signals to be latched to unintended high/low states. in this ca se, external pull - ups (4.7k?) or pull - downs (1.0k?) should be added on these phy strap - in pins to ensure that the intended values are strapped - in correctly. pin number pin name type ( 5 ) pin function 15 14 13 ph yad2 phyad1 phyad0 ipd/o ipd/o ipu/o phyad[2:0] is latched at de - assertion of reset and is configurable to any value from 0 to 7 with phy address 1 as the default value. phy address 0 is assigned by default as the broadcast phy address, but it can be assig ned as a unique phy address after pulling the b - cast_off strapping pin high or writing a ?1? to register 16h, bit [9]. phy address bits [4:3] are set to 00 by default. 18 29 28 config2 config1 config0 ipd/o ipd/o ipd/o the config[2:0] strap - in pins are la tch ed at the de - assertion of reset: config[2:0] mode 000 mii (default) 110 mii back -to - back 001 ? 101, 111 reserved ? not used 20 iso ipd/o isolate mode : pull - up = enable pull - down (default) = disable at the de - assertion of reset, this pin value i s latched into register 0h, bit [10]. 31 speed ipu/o speed mode : pull - up (default) = 100mbps pull - down = 10mbps at the de - assertion of reset, this pin value is latched into register 0h, bit [13] as the speed select, and also is latched into register 4h (auto - negotiation advertisement) as the speed capability support. 16 duplex ipu/o duplex mode : pull - up (default) = half - duplex pull - down = full - duplex at the de - assertion of reset, this pin value is latched into register 0h, bit [8]. note: 5. ipu/o = inpu t with internal pull - up (see electrical characteristics for value) during power - up/reset; output pin otherwise. ipd/o = input with internal pull - down (see electrical cha racteristics for value) during power - up/reset; output pin otherwise. ipu/opu = input with internal pull - up (see electrical characteristics for value) and output with internal pull - up (see electrical characteristics for value).
micrel, inc. ksz8081mnx/ksz8081rnb august 19 , 2015 13 revision 1.4 strapping options ? ksz8081mnx (continued) pin number pin name type ( 5 ) pin function 30 nwayen ipu/o nway auto - negotiation enable : pull - up (d efault) = enable auto - negotiation pull - down = disable auto- negotiation at the de - assertion of reset, this pin value is latched into register 0h, bit [12]. 19 b- cast_off ipd/o broadcast off ? for phy address 0 : pull - up = phy address 0 is set as an unique phy address pull - down (default) = phy address 0 is set as a broadcast phy address at the de - assertion of reset, this pin value is latched by the chip. 21 nand_tree# ipu/opu nand tree mode : pull - up (default) = disable pull - down = enable at the de - asser tion of reset, this pin value is latched by the chip.
micrel, inc. ksz8081mnx/ksz8081rnb august 19 , 2015 14 revision 1.4 pin configuration ? ksz8081rnb 32- pin 5mm 5mm qfn
micrel, inc. ksz8081mnx/ksz8081rnb august 19 , 2015 15 revision 1.4 pin description ? ksz8081rnb pin number pin name type ( 6 ) pin function 1 gnd gnd ground 2 vdd_1.2 p 1.2v core v dd (power supplied by ksz8081rnb) . decouple with 2.2f and 0.1f capacitors to ground. 3 vdda_3.3 p 3.3v analog v dd . 4 rxm i/o physical receive or transmit signal ( ? differential) . 5 rxp i/o physical receive or transmit signal (+ different ial) . 6 txm i/o physical transmit or receive signal ( ? differential) . 7 txp i/o physical transmit or receive signal (+ differential) . 8 xo o crystal feedback for 25mhz crystal . this pin is a no connect if an oscillator or external clock source is used. 9 xi i 25mhz mode: 25mhz 50ppm crystal / oscillator / external clock input 50mhz mode: 50mhz 50ppm oscillator / external clock input 10 rext i set phy transmit output current . connect a 6.49k resistor to ground on this pin. 11 mdio ipu/opu management interface (mii) data i/o . this pin has a weak pull - up, is open - drain, and requires an external 1.0k pull - up resistor. 12 mdc ipu management interface (mii) clock input. this clo ck pin is synchronous to the mdio data pin. 13 phyad0 ipu/o the pull - up/pull - down value is latched as phyaddr[0] at the de - assertion of reset. see the strapping options ? ksz8081rnb section for details. 14 phyad 1 ipd/o the pull - up/pull - down value is latched as phyaddr[1] at the de - assertion of reset. see the strapping options ? ksz8081rnb section for details. 15 rxd1/ phyad2 ipd/o r mii mode : rmii receive data output[1] ( 7 ) . config mode : the pull - up/pull - down value i s latched as phyaddr[2] at the de- assertion of reset. see the strapping options ? ksz8081rnb section for details. 16 rxd0 / duplex ipu/o r mii mode : rmii receive data output[0] ( 7 ) . config mode : the pull - up/pull - down value is latched as duplex at the de - assertion of reset. see the strapping o ptions ? ksz8081rnb section for details. notes: 6. p = power supply. g nd = ground. i = input. o = output. i/o = bi - directional. ipu = input with internal pull - up (see electrical characteristics for value). ipu/o = input with internal pull - up (see electrical characteristics for value) during power - up/reset; output pin otherwise. ipd/o = input with internal pull - down (see electri cal characteristics for value) during power - up/reset; output pin otherwise. ipu/opu = input with internal pull - up (see electrical characteristics for value) and output with internal pull - up (see electrical characteristics for value). nc = pin is not bonded to the die. 7. rmii rx mode: the rxd[1:0] bits are synchronous with the 50mhz rmii reference clock. for each clock period in which crs_dv is asserted, two bits o f recovered data are sent by the phy to the mac.
micrel, inc. ksz8081mnx/ksz8081rnb august 19 , 2015 16 revision 1.4 pin description ? ksz8081rnb (continued) pin number pin name type ( 6 ) pin function 17 vddio p 3.3v, 2.5v, or 1.8v digital v dd . 18 crs_dv/ config2 ipd/o rmii mod e : rmii carrier s ense/receive data valid output . config mode : the pull - up/pull - down value is latched as config2 at the de - assertion of reset. see the strapping options ? ksz8081rnb section for details. 19 ref_clk / b- cast_off ipd/o rmii mode : 25mhz mode . this pin provides the 50mhz rmii reference clock output to the mac. see also xi ( pin 9). 50mhz mode: this pin is a no connect. see also xi ( pin 9). config mode : the pull - up/pull - down value is latched as b - cast_off at the de - assertion of reset. see the strapping options ? ksz8081rnb section for details. 20 rxer/ iso ipd/o rmii mode : rmii receive error output . config mode : the pull - up/pull - down value is latched as isolate at the de- assertion of reset. see the strapping options ? ksz8081rnb section for details. 21 intrp/ nand_tree# ipu/opu interrupt output : programmable interrupt output . this pin has a weak pul l - up, is open- drain, and requires an external 1 .0k? pull - up resistor. config mode : the pull - up/pull - down value is latched as nand tree# at the d e - assertion of reset. see the strapping options ? ksz8081rnb section for details. 22 nc - no connect. this pin is n ot bonded and can be left floating. 23 txen i rmii transmit enable input. 24 txd0 i rmii transmit data input[0] ( 8 ) . 25 txd1 i rmii transmit data input[1] ( 8 ) . 26 n c - no connect. this pin is not bonded and can be left floating. 27 nc - no connect. this pin is not bonded and can be left floating. 28 config0 ipd/o the pull - up/pull - down value is latched as config0 at the de - assertion of reset. see the strapping options ? ksz8081rnb section for details. 29 config1 ipd/o the pull - up/pull - down value is latched as config1 at the de - assertion of reset. see the strapping options ? ksz8081rnb section for details. note: 8. r mii tx mode: the txd[1:0] bits are synchronous with the 50mhz rmii reference clock. for each clock period in which txen is as serted, two bits of data are received by the phy from the mac.
micrel, inc. ksz8081mnx/ksz8081rnb august 19 , 2015 17 revision 1.4 pin description ? ksz8081rnb (contin ued) pin number pin name type ( 6 ) pin function 30 led0/ nwayen ipu/o led output : programmable led0 output . config mode : latched as auto - negotiation enable ( register 0h, bit [ 12 ]) at the de - assertion of reset. s ee the strapping options ? ksz8081rnb section for details. the led0 pin is programmable using register 1fh bits [ 5:4], and is defined as follows: led mode = [00] link/activity pin state led definition no link high off link low on activity toggle blinking led mode = [01] link pin state led definition no link high off link low on led mode = [10], [11] reserved 31 led1/ speed ipu/o led output : programmable led1 output . config mode : latched as speed ( register 0h, bit [ 13 ]) at the de - assertion of reset. see the strapping options ? ksz8081rnb section for details. the led1 pin is programmable using register 1fh bits [ 5:4], and is defined as follows: led mode = [00] speed pin state led definition 10base -t high off 100base -tx low on led mode = [01] activity pin state led definition no activity high off activity toggle blinking led mode = [10], [11] reserved 32 rst# ipu chip reset (active low) . pad dle gnd gnd ground .
micrel, inc. ksz8081mnx/ksz8081rnb august 19 , 2015 18 revision 1.4 strapping options ? ksz8081rnb the strap - in pins are latched at the de - assertion of reset. in some systems, the mac rmii receive input pins may drive high/low during power - up or reset, and consequently cause the phy strap - in pins on the rmii signals to be latched to unintended high/low states. in this case, external pull - ups (4.7k?) or pull - downs (1.0k?) should be added on these phy strap - in pins to ensure that the intended values are strapped - in correctly. pin number pin name type ( 9 ) pin function 15 14 13 phyad2 phyad1 phyad0 ipd/o ipd/o ipu/o phyad[2:0] is latched at de - assertion of reset and is configurable to any value from 0 to 7 with phy address 1 as the default value. phy address 0 is assigned by default as the broadcast phy address, but it can be assigned as a unique phy address after pulling the b - cast_off strapping pin high or writing a ?1? to register 16h, bit [9]. phy address bits [4:3] are set to 00 by default. 18 29 28 config 2 config1 config0 ipd/o ipd/o ipd/o the config[2:0] strap - in pins are latched at the de- assertion of reset. config[2:0] mode 001 rmii 1 01 rmii back - to - back 000, 010 ? 100, 110, 111 reserved ? not used 20 iso ipd/o isolate mode pull - up = enable pull - down (default) = disable at the de - assertion of reset, this pin value is latched into register 0h, bit [10]. 31 speed ipu/o speed mode pull -up (default) = 100mbps pull - down = 10mbps at the de - assertion of reset, this pin value is latched into register 0h, bit [13] as the speed select, and also is latched into register 4h (auto - negotiation advertisement) as the speed capability support. 16 duplex ipu/o duplex mode pull - up (default) = half - duplex pull - down = full - duplex at the de - assertion of reset, th is pin value is latched into register 0h, bit [8]. 30 nwayen ipu/o nway auto - negotiation enable pull - up (def ault) = enable auto - negotiation pull - down = disable auto- negotiation at the de - assertion of reset, this pin value is latched into register 0h, bi t [12]. 19 b- cast_off ipd/o broadcast off ? for phy address 0 pull - up = phy address 0 is set as an unique phy address pull - down (default) = phy address 0 is set as a broadcast phy address at the de - assertion of reset, this pin value is latched by the ch ip. 21 nand_tree# ipu/opu nand tree mode pull - up (default) = disable pull - down = enable at the de - assertion of reset, this pin value is latched by the chip. note: 9. ipu/o = input with internal pull - up (see electri cal characteristics for value) during power - up/reset; output pin otherwise. ipd/o = input with internal pull - down (see electrical characteristics for value) during power - up/reset; output pin otherwise. ipu /opu = input with internal pull - up (see electrical characteristics for value) and output with internal pull - up (see electrical characteristics for value).
micrel, inc. ksz8081mnx/ksz8081rnb august 19 , 2015 19 revision 1.4 function al description : 10base - t/100base - tx transceiver the ksz8081 is an integrated single 3.3v supply fast ethernet transceiver. it is fully compliant with the ieee 802.3 specification, and reduces board cost and simplifies board layout by using on - chip terminat ion resistors for the two differential pairs and by integrating the regulator to supply the 1.2v core. on the copper media side, the ksz8081 supports 10base - t and 100base - tx for transmission and reception of data over a standard cat - 5 unshielded twisted pa ir (utp) cable, and hp auto mdi/mdi - x for reliable detection of and correction for straight - through and crossover cables. on the mac processor side, the ksz8081mnx offers the media independent interface (mii) and the ksz8081rnb offers the reduced media ind ependent interface (rmii) for direct connection with mii and rmii compliant ethernet mac processors and switches, respectively. the mii management bus option gives the mac processor complete access to the ksz8081 control and status registers. additionally, an interrupt pin eliminates the need for the processor to poll for phy status change. the ksz8081mnx/rnb is used to refer to both ksz8081mnx and k sz8081rnb versions in this data sheet. 100base - tx transmit the 100base - tx transmit function performs parallel - to - serial conversion, 4b/5b encoding, scrambling, nrz - to - nrzi conversion, and mlt3 encoding and transmission. the circuitry starts with a parallel - to - serial conversion, which converts the mii data from the mac into a 125mhz serial bit stream. the data and control stream is then converted into 4b/5b coding and followed by a scrambler. the serialized data is further converted from nrz - to - nrzi format, and then transmitted in mlt3 current output. the output current is set by an external 6.49k 1% resistor for the 1:1 transformer ratio. the output signal has a typical rise/fall time of 4ns and complies with the ansi tp - pmd standard regarding amplitude balance, overshoot, and timing jitter. the wave - shaped 10base - t output is also incorporated into the 100base - tx transmitter. 100base - tx receive the 100base - tx receiver function performs adaptive equalization, dc restoration, mlt3 - to - nrzi conversion, data and clock recovery, nrzi - to - nrz conversion, de - scrambling, 4b/5b decoding, and serial - to - parallel conversion. t he receiving side starts with the equalization filter to compensate for inter - symbol interference (isi) over the twisted pair cable. because the amplitude loss and phase distortion is a function of the cable length, the equalizer must adjust its characteri stics to optimize performance. in this design, the variable equalizer makes an initial estimation based on comparisons of incoming signal strength against some known cable characteristics, then tunes itself for optimization. this is an ongoing process and self - adjusts against environmental changes such as temperature variations. next, the equalized signal goes through a dc - restoration and data - conversion block. the dc - restoration circuit compensates for the effect of baseline wander and improves the dynamic range. the differential data - conversion circuit converts mlt3 format back to nrzi. the slicing threshold is also adaptive. the clock - recovery circuit extracts the 125mhz clock from the edges of the nrzi signal. this recovered clock is then used to convert the nrzi signal to nrz format. this signal is sent through the de - scrambler, then the 4b/5b decoder. finally, the nrz serial data is converted to mii format and provided as the input data to the mac. scrambler/de - scrambler (100base - tx only) the scrambler spreads the power spectrum of the transmitted signal to reduce electromagnetic interference (emi) and baseline wander. the de - scrambler recovers the scrambled signal. 10base - t transmit the 10base - t drivers are incorporated with the 100base - tx drivers to al low for transmission using the same magnetic. the drivers perform internal wave - shaping and pre - emphasis, and output 10base - t signals with a typical amplitude of 2.5v peak. the 10base - t signals have harmonic contents that are at least 27db below the fundam ental frequency when driven by an all - ones manchester - encoded signal.
micrel, inc. ksz8081mnx/ksz8081rnb august 19 , 2015 20 revision 1.4 10base - t receive on the receive side, input buffer and level detecting squelch circuits are used. a differential input receiver circuit and a phase - locked loop (pll) performs the decodin g function. the manchester - encoded data stream is separated into clock signal and nrz data. a squelch circuit rejects signals with levels less than 400mv, or with short pulse widths, to prevent noise at the rxp and rxm inputs from falsely triggering the de coder. when the input exceeds the squelch limit, the pll locks onto the incoming signal and the ksz8081mnx/rnb decodes a data frame. the receive clock is kept active during idle periods between data receptions. sqe and jabber function (10base - t only) in 10 base - t operation, a short pulse is put out on the col pin after each frame is transmitted. this sqe test is needed to test the 10base - t transmit/receive path. if transmit enable (txen) is high for more than 20ms (jabbering), the 10base - t transmitter is dis abled and col is asserted high. if txen is then driven low for more than 250ms, the 10base - t transmitter is re - enabled and col is de - asserted (returns to low). pll clock synthesizer the ksz8081mnx/rnb generates all internal clocks and all external clocks f or system timing from an external 25mhz crystal, oscillator, or reference clock. for the ksz8081rnb in rmii 50mhz clock mode, these clocks are generated from an external 50mhz oscillator or system clock. auto - negotiation the ksz8081mnx/rnb conforms to the auto - negotiation protocol, defined in clause 28 of the ieee 802.3 specification. auto - negotiation allows unshielded twisted pair (utp) link partners to select the highest common mode of operation. during auto - negotiation, link partners advertise capabili ties across the utp link to each other and then compare their own capabilities with those they received from their link partners. the highest speed and duplex setting that is common to the two link partners is selected as the mode of operation. the follow ing list shows the speed and duplex operation mode from highest to lowest priority. ? priority 1: 100base - tx, full - duplex ? priority 2: 100base - tx, half - duplex ? priority 3: 10base - t, full - duplex ? priority 4: 10base - t, half - duplex if auto - negotiation is not supp orted or the ksz8081mnx/rnb link partner is forced to bypass auto - negotiation, then the ksz8081mnx/rnb sets its operating mode by observing the signal at its receiver. this is known as parallel detection, which allows the ksz8081mnx/rnb to establish a link by listening for a fixed signal protocol in the absence of the auto - negotiation advertisement protocol. auto - negotiation is enabled by either hardware pin strapping (nwayen, pin 42) or software ( register 0h, bit [12]). by default, auto - negotiation is ena bled after power - up or hardware reset. after that, auto - negotiation can be enabled or disabled by register 0h, bit [12]. if auto - negotiation is disabled, the speed is set by register 0h, bit [13], and the duplex is set by register 0h, bit [8]. the auto - neg otiation link - up process is shown in figure 1 .
micrel, inc. ksz8081mnx/ksz8081rnb august 19 , 2015 21 revision 1.4 figure 1 . auto - negotiation flow chart
micrel, inc. ksz8081mnx/ksz8081rnb august 19 , 2015 22 revision 1.4 mii interface (ksz8081mnx only) the media independent interface (mii) is compliant with the ieee 802.3 specification. it provides a common interface between mii phys and macs, and has the following key characteristics: ? pin count is 15 pins (6 pins for data transmission, 7 pins for data reception, and 2 pins for carrier and collision indication). ? 10mb ps and 100mbps data rates are supported at both half - and full - duplex. ? data transmission and reception are independent and belong to separate signal groups. ? transmit data and receive data are each 4 bits wide, a nibble. by default, the ksz8081mnx is confi gured to mii mode after it is powered up or hardware reset with the following: ? a 25mhz crystal connected to xi, xo (pins 9, 8), or an external 25mhz clock source (oscillator) connected to xi. ? the config[2:0] strapping pins (pins 18, 29, 28) set to 000 (def ault setting). mii signal definition table 1 describes the mii signals. refer to clause 22 of the ieee 802.3 specification for detailed information. table 1 . mii signal definition mii signa l name direction (with respect to phy, ksz8081mnx signal) direction (with respect to mac) description txc output input transmit clock (2.5mhz for 10mbps; 25mhz for 100mbps) txen input output transmit enable txd[3:0] input output transmit data[3:0] r xc output input receive clock (2.5mhz for 10mbps; 25mhz for 100mbps) rxdv output input receive data valid rxd[3:0] output input receive data[3:0] rxer output input, or (not required) receive error crs output input carrier sense col output input colli sion detection transmit clock (txc) txc is sourced by the phy. it is a continuous clock that provides the timing reference for txen and txd[3:0]. txc is 2.5mhz for 10mbps operation and 25mhz for 100mbps operation. transmit enable (txen) txen indicates th at the mac is presenting nibbles on txd[3:0] for transmission. it is asserted synchronously with the first nibble of the preamble and remains asserted while all nibbles to be transmitted are presented on the mii. it is negated before the first txc followin g the final nibble of a frame. txen transitions synchronously with respect to txc.
micrel, inc. ksz8081mnx/ksz8081rnb august 19 , 2015 23 revision 1.4 transmit data[3:0] (txd[3:0]) txd[3:0] transitions synchronously with respect to txc. when txen is asserted, txd[3:0] are accepted by the phy for transmission. txd[3:0] is 0 0 to indicate idle when txen is de - asserted. values other than 00 on txd[3:0] while txen is de- asserted are ignored by the phy. receive clock (rxc) rxc provides the timing reference for rxdv, rxd[3:0], and rxer. ? in 10mbps mode, rxc is recovered from the li ne while the carrier is active. rxc is derived from the phy?s reference clock when the line is idle or the link is down. ? in 100mbps mode, rxc is continuously recovered from the line. if the link is down, rxc is derived from the phy?s reference clock. rxc is 2.5mhz for 10mbps operation and 25mhz for 100mbps operation. receive data valid (rxdv) rxdv is driven by the phy to indicate that the phy is presenting recovered and decoded nibbles on rxd[3:0]. ? in 10mbps mode, rxdv is asserted with the first nibble of the start - of - frame delimiter (sfd), 5d, and remains asserted until the end of the frame. ? in 100mbps mode, rxdv is asserted from the first nibble of the preamble t o the last nibble of the frame. rxdv transitions synchronously with respect to rxc. receive d ata[3:0] (rxd[3:0]) rxd[3:0] transitions synchronously with respect to rxc. for each clock period in which rxdv is asserted, rxd[3:0] transfers a nibble of recovered data from the phy. receive error (rxer) rxer is asserted for one or more rxc periods to in dicate that a symbol error (for example, a coding error that a phy can detect that may otherwise be undetectable by the mac sub - layer) was detected somewhere in the frame being transferred from the phy. rxer transitions synchronously with respect to rxc. w hile rxdv is de - asserted, rxer has no effect on the mac. carrier sense (crs) crs is asserted and de - asserted as follows: ? in 10mbps mode, crs assertion is based on the reception of valid preambles. crs de - assertion is based on the reception of an end - of - fra me (eof) marker. ? in 100mbps mode, crs is asserted when a start - of - stream delimiter or /j/k symbol pair is detected. crs is de - asserted when an end - of - stream delimiter or /t/r symbol pair is detected. additionally, the pma layer de - asserts crs if idle symbo ls are received without /t/r. collision (col) col is asserted in half - duplex mode whenever the transmitter and receiver are simultaneously active on the line. this informs the mac that a collision has occurred during its transmission to the phy. col trans itions asynchronously with respect to txc and rxc. mii signal diagram the ksz8081mnx mii pin connections to the mac are shown in figure 2 .
micrel, inc. ksz8081mnx/ksz8081rnb august 19 , 2015 24 revision 1.4 figure 2 . ksz8081mnx mii interface
micrel, inc. ksz8081mnx/ksz8081rnb august 19 , 2015 25 revision 1.4 rmii data interface (ksz8081rnb only) the reduced media independent interface (rmii) specifies a low pin count media independent interface (mii). it provides a common interface between physical layer and mac layer devices, and has the following key characteristics: ? pin count is 8 pins (3 pins for data transmission, 4 pins for data reception, and 1 pin for the 50mhz reference clock). ? 10mbps and 100mbps data rates are supported at both half - and full - duplex. ? data transmission and reception are independent and belong t o separate signal groups. ? transmit data and receive data are each 2 bits wide, a dibit. rmii ? 25mhz clock mode the ksz8081rnb is configured to rmii ? 25mhz clock mode after it is powered up or hardware reset with the following: ? a 25mhz crystal connected to xi, xo (pins 9, 8), or an external 25mhz clock source (oscillator) connected to xi. ? the config[2:0] strapping pins (pins 18, 29, 28) set to 001. ? register 1fh, bit [7] is set to 0 (default value) to select 25mhz clock mode. rmii ? 50mhz clock mode the k sz8081rnb is configured to rmii ? 50mhz clock mode after it is powered up or hardware reset with the following: ? an external 50mhz clock source (oscillator) connected to xi ( pin 9). ? the config[2:0] strapping pins (pins 18, 29, 28) set to 001. ? register 1fh, bit [7] is set to 1 to select 50mhz clock mode. rmii signal definition table 2 describes the rmii signals. refer to rmii specification v1.2 for detailed information. table 2 . rmii signal de fintion rmii signal name direction (with respect to phy, ksz8081rnb signal) direction (with respect to mac) description ref_clk output (25mhz clock mode) / (50mhz clock mode) input/ input or synchronous 50mhz reference clock for receive, transmit, and control interface txen input output transmit enable txd[1:0] input output transmit data[1:0] crs_dv output input carrier sense/receive data valid rxd[1:0] output input receive data[1:0] rxer output input, or (not required) r eceive error reference clock (ref_clk) ref_clk is a continuous 50mhz clock that provides the timing reference for txen, txd[1:0], crs_dv, rxd[1:0], and rx_er. for 25mhz clock mode, the ksz8081rnb generates and outputs the 50mhz rmii ref_clk to the mac at ref_clk ( pin 19). for 50mhz clock mode, the ksz8081rnb takes in the 50mhz rmii ref_clk from the mac or system board at xi ( pin 9) and leaves the ref_clk ( pin 19) as a no connect.
micrel, inc. ksz8081mnx/ksz8081rnb august 19 , 2015 26 revision 1.4 transmit enable (txen) txen indicates that the mac is presenting dibits on txd[1:0] for transmission. it is asserted synchronously with the first dibit of the preamble and remains asserted while all dibits to be transmitted are presented on the rmii. it is negated before the first ref_clk following the final dibit of a frame. txe n transitions synchronously with respect to ref_clk. transmit data[1:0] (txd[1:0]) txd[1:0] transitions synchronously with respect to ref_clk. when txen is asserted, the phy accepts txd[1:0] for transmission. txd[1:0] is 00 to indicate idle when txen is de - asserted. the phy ignores values other than 00 on txd[1:0] while txen is de - asserted. carrier sense/ receive data valid (crs_dv) the phy asserts crs_dv when the receive medium is non - idle. it is asserted asynchronously when a carrier is detected. this happ ens when squelch is passed in 10mbps mode, and when two non - contiguous 0s in 10 bits are detected in 100mbps mode. loss of carrier results in the de - assertion of crs_dv. while carrier detection criteria are met, crs_dv remains asserted continuously from th e first recovered dibit of the frame through the final recovered dibit. it is negated before the first ref_clk that follows the final dibit. the data on rxd[1:0] is considered valid after crs_dv is asserted. however, because the assertion of crs_dv is asyn chronous relative to ref_clk, the data on rxd[1:0] is 00 until receive signals are properly decoded. receive data[1:0] (rxd[1:0]) rxd[1:0] transitions synchronously with respect to ref_clk. for each clock period in which crs_dv is asserted, rxd[1:0] transf ers two bits of recovered data from the phy. rxd[1:0] is 00 to indicate idle when crs_dv is de - asserted. the mac ignores values other than 00 on rxd[1:0] while crs_dv is de - asserted. receive error (rxer) rxer is asserted for one or more ref_clk periods to indicate that a symbol error (for example, a coding error that a phy can detect that may otherwise be undetectable by the mac sub - layer) was detected somewhere in the frame being transferred from the phy. rxer transitions synchronously with respect to ref_ clk. . while crs_dv is de - asserted, rxer has no effect on the mac. collision detection (col) the mac regenerates the col signal of the mii from txen and crs_dv. rmii signal diagram the ksz8081rnb rmii pin connections to the mac for 25mhz clock mode are sho wn in figure 3 . the connections for 50mhz clock mode are shown in figure 4 .
micrel, inc. ksz8081mnx/ksz8081rnb august 19 , 2015 27 revision 1.4 figure 3 . ksz8081rnb rmii interface (25mhz clock mode) figure 4 . ksz8081rnb rmii interface (50mhz clock mode)
micrel, inc. ksz8081mnx/ksz8081rnb august 19 , 2015 28 revision 1.4 back -to- back mode ? 100mbps copper repeater two ksz8081mnx/rnb devices can be connected back - to - back to form a 100base - tx copper repeater. figure 5 . ksz808 1mnx/rnb to ksz8081mnx/rnb back -to - back copper repeater mii back - to - back mode (ksz8081mnx only) in mii back - to - back mode, a ksz8081mnx interfaces with another ksz8081mnx to provide a complete 100mbps copper repeater solution. the ksz8081mnx devices are co nfigured to mii back - to - back mode after power - up or reset with the following: ? strapping pin config[2:0] (p ins 18, 29, 28) set to 110 ? a common 25mhz re ference clock connected to xi (p in 9) of both ksz8081mnx devices ? mii signals connected as shown in table 3 . table 3 . mii signal connection for mii back -to - back mode (100base- tx copper repeater) ksz8081mnx (100base - tx copper) [device 1] ksz8081mnx (100base - tx copper) [device 2] pin name pin num ber pin type pin name pin number pin type rxdv 18 output txen 23 input rxd3 13 output txd3 27 input rxd2 14 output txd2 26 input rxd1 15 output txd1 25 input rxd0 16 output txd0 24 input txen 23 input rxdv 18 output txd3 27 input rxd3 13 output txd 2 26 input rxd2 14 output txd1 25 input rxd1 15 output txd0 24 input rxd0 16 output
micrel, inc. ksz8081mnx/ksz8081rnb august 19 , 2015 29 revision 1.4 rmii back - to - back mode (ksz8081rnb only) in rmii back - to - back mode, a ksz8081rnb interfaces with another ksz8081rnb to provide a complete 100mbps copper repeater soluti on. the ksz8081rnb devices are configured to rmii back - to - back mode after power - up or reset with the following: ? strapping pin config[2:0] (p ins 18, 29, 28) set to 101 ? a common 50mhz reference clock connected to xi ( pin 9) of both ksz8081rnb devices ? rmii si gnals connected as shown in table 4 . table 4 . rmii signal connection for rmii back -to - back mode (100base- tx copper repeater) ksz8081rnb (100base - tx copper) [device 1] ksz8081rnb (100base - tx copper) [device 2] pin name pin number pin type pin name pin number pin type crsdv 18 output txen 23 input rxd1 15 output txd1 25 input rxd0 16 output txd0 24 input txen 23 input crsdv 18 output txd1 25 input rxd1 15 output txd0 24 input rxd0 16 ou tput mii management (miim) interface the ksz8081mnx/rnb supports the ieee 802.3 mii management interface, also known as the management data input/output (mdio) interface. this interface allows an upper - layer device, such as a mac processor, to monitor an d control the state of the ksz8081mnx/rnb. an external device with miim capability is used to read the phy status and/or configure the phy settings. more details about the miim interface can be found in clause 22.2.4 of the ieee 802.3 specification. the mi im interface consists of the following: ? a physical connection that incorporates the clock line (mdc) and the data line (mdio). ? a specific protocol that operates across the physical connection mentioned earlier, which allows the external controller to commu nicate with one or more phy devices. ? a set of 16 - bit mdio registers. registers [0:8] are standard registers, and their functions are defined in the ieee 802.3 specification. the additional registers are provided for expanded functionality. see the ? register map ? section for details. as the default, the ksz8081mnx/rnb supports unique phy addresses 1 to 7, and broadcast phy address 0. the latter is defined in the ieee 802.3 specification, and can be used to read/writ e to a single ksz8081mnx/rnb device, or write to multiple ksz8081mnx/rnb devices simultaneously. phy address 0 can optionally be disabled as the broadcast address by either hardware pin strapping (b - cast_off, pin 19) or software ( register 16h, bit [9]), an d assigned as a unique phy address. the phyad[2:0] strapping pins are used to assign a unique phy address between 0 and 7 to each ksz8081mnx/rnb device. the miim interface can operates up to a maximum clock speed of 10mhz mac clock. table 5 shows the mii management frame format for the ksz8081mnx/rnb.
micrel, inc. ksz8081mnx/ksz8081rnb august 19 , 2015 30 revision 1.4 table 5 . mii management frame format for the ksz8081mnx/rnb preamble start of frame read/write op code phy address bits [4:0] reg address bit s [4:0] ta data bits [15:0] idle read 32 1?s 01 10 00aaa rrrrr z0 dddddddd_dddddddd z write 32 1?s 01 01 00aaa rrrrr 10 dddddddd_dddddddd z interrupt (intrp) intrp ( pin 21) is an optional interrupt signal that is used to inform the external controller that there has been a status update to the ksz8081mnx/rnb phy register. bits [15:8] of r egister 1bh are the interrupt control bits to enable and disable the conditions for asserting the intrp signal. bits [7:0] of register 1bh are the interrupt status bits to indicate which interrupt conditions have occurred. the interrupt status bits are cleared after reading register 1bh. bit [9] of register 1fh sets the interrupt level to active high or active low. the default is active low. the mii management bus option gives the mac processor complete access to the ksz8081mnx/rnb control and status registers. additionally, an interrupt pin eliminates the need for the processor to poll the phy for status change. hp auto mdi/mdi -x hp auto mdi/mdi - x configuration eliminate s the need to decide whether to use a straight cable or a crossover cable between the ksz8081mnx/rnb and its link partner. this feature allows the ksz8081mnx/rnb to use either type of cable to connect with a link partner that is in either mdi or mdi - x mode . the auto - sense function detects transmit and receive pairs from the link partner and assigns transmit and receive pairs to the ksz8081mnx/rnb accordingly. hp auto mdi/mdi - x is enabled by default. it is disabled by writing a ?1? to register 1fh, bit [13]. mdi and mdi - x mode is selected by register 1fh, bit [14] if hp auto mdi/mdi - x is disabled. an isolation transformer with symmetrical transmit and receive data paths is recommended to support auto mdi/mdi - x. table 6 shows how the ieee 802.3 standard defines mdi and mdi - x. table 6 . mdi/mdi - x pin definition mdi mdi -x rj - 45 pin signal rj - 45 pin signal 1 tx+ 1 rx+ 2 tx ? 2 rx ? 3 rx+ 3 tx+ 6 rx ? 6 tx ?
micrel, inc. ksz8081mnx/ksz8081rnb august 19 , 2015 31 revision 1.4 straight cable a straight cable connect s an mdi device to an mdi - x device, or an mdi - x device to an mdi device. figure 6 shows a typical straight cable connection between a nic card (mdi device) and a switch or hub (mdi - x device). figure 6 . typical straight cable connection crossover cable a crossover cable connects an mdi device to another mdi device, or an mdi - x device to another mdi - x device. figure 7 shows a typical crossover cabl e connection between two switches or hubs (two mdi - x devices). figure 7 . typical crossover cable connection
micrel, inc. ksz8081mnx/ksz8081rnb august 19 , 2015 32 revision 1.4 loopback mode the ksz8081mnx/rnb supports the following loopback operations to verify analog and/or digital data paths. ? local (digital) loopback ? remote (analog) loopback local (digital) loopback this loopback mode checks the mii/rmii transmit and receive data paths between the ksz8081mnx/rnb and the external mac, and is supported for both speeds (10/100mbps) at full - duple x. the loopback data path is shown in figure 8 . 1. the mii/rmii mac transmits frames to the ksz8081mnx/rnb. 2. frames are wrapped around inside the ksz8081mnx/rnb. 3. the ksz8081mnx/rnb transmits frames back to the mii/rmii mac. 4. except the frames back to the rmii mac , the transmit frames also go out from the copper port. figure 8 . local (digital) loopback the following programming action and register settings are used for local loopback mode. for 10/100mbps loopback, ? set register 0h, bit [14] = 1 // enable local loopback mode bit [13] = 0/1 // select 10mbps/100mbps speed bit [12] = 0 // disable auto - negotiation bit [8] = 1 // select full - duplex mode if don?t want the frames go out from the copper port in the local loopback, please follow the steps as below. 1. set register 1fh bit [3] to ?1? to disable the transmitter. 2. run local loopback test as above. 3. set register 1fh bit [3] to ?0? to enable the transmitter.
micrel, inc. ksz8081mnx/ksz8081rnb august 19 , 2015 33 revision 1.4 remote (analog) loopback thi s loopback mode checks the line (differential pairs, transformer, rj - 45 connector, ethernet cable) transmit and receive data paths between the ksz8081mnx/rnb and its link partner, and is supported for 100base - tx full - duplex mode only. the loopback data pat h is shown in figure 9 . 1. the fast ethernet (100base - tx) phy link partner transmits frames to the ksz8081mnx/rnb. 2. frames are wrapped around inside the ksz8081mnx/rnb. 3. the ksz8081mnx/rnb transmits frames back to the f ast ethernet (100base - tx) phy link partner. figure 9 . remote (analog) loopback the following programming steps and register settings are used for remote loopback mode. 1. set register 0h, bits [13] = 1 // select 100mbps speed bi t [12] = 0 // disable auto - negotiation bit [8] = 1 // select full - duplex mode or just auto - negotiate and link up at 100base - tx full - duplex mode with the link partner. 2. set register 1fh, bit [2] = 1 // enable remote loopback mode
micrel, inc. ksz8081mnx/ksz8081rnb august 19 , 2015 34 revision 1.4 linkmd ? cab le diagnostic the linkmd function uses time - domain reflectometry (tdr) to analyze the cabling plant for common cabling problems. these include open circuits, short circuits, and impedance mismatches. linkmd works by sending a pulse of known amplitude and d uration down the mdi or mdi - x pair, then analyzing the shape of the reflected signal to determine the type of fault. the time duration for the reflected signal to return provides the approximate distance to the cabling fault. the linkmd function processes this tdr information and presents it as a numerical value that can be translated to a cable distance. linkmd is initiated by accessing register 1dh, the linkmd control/status register, in conjunction with register 1fh, the phy control 2 register. the latte r register is used to disable auto mdi/mdi - x and to select either mdi or mdi - x as the cable differential pair for testing. usage the following is a sample procedure for using linkmd with registers 1 d h and 1 f h: 3. disable auto mdi/mdi - x by wr iting a ?1? to reg ister 1 f h, bit [13 ] . 4. start cable diagnostic test by wr iting a ?1? to register 1 d h, bit [ 15 ]. this enable bit is self - clearing. 5. wait (poll) for register 1 d h , bit [ 15 ] to return a ?0?, and indicating cable diagnostic test is completed. 6. read cable diagnostic test results in register 1 d h , bits [ 14: 13 ]. the results are as follows: 00 = normal condition (valid test) 01 = open condition detected in cable (valid test) 10 = short condition detected in cable (valid test) 11 = cable diagnostic test failed (invalid t est) the ?11? case, invalid test, occurs when the device is unable to shut down the link partner. in this instance, the test is not run, since it would be impossible for the device to determine if the detected signal is a reflection of the signal generate d or a signal from another source. 7. get distance to fault by concatenating register 1 d h , bit s [ 8:0 ] and multiplying the result by a constant of 0. 38 . the distance to the cable fault can be determined by the following formula: d (distance to cable fault) = 0. 38 x (register 1 d h , bits [ 8 :0]) d (distance to cable fault) is expressed in meters. concatenated value of registers 1 d h bit s [ 8 :0] should be converted to decimal before multiplying by 0. 38. the constant (0. 38 ) may be calibrated for different cabling con ditions, including cables with a velocity of propagation that varies significantly from the norm.
micrel, inc. ksz8081mnx/ksz8081rnb august 19 , 2015 35 revision 1.4 nand tree support the ksz8081mnx/rnb provides parametric nand tree support for fault detection between chip i/os and board. the nand tree is a chain of neste d nand gates in which each ksz8081mnx/rnb digital i/o (nand tree input) pin is an input to one nand gate along the chain. at the end of the chain, the txd 1 pin provides the output for the nested nand gates. the nand tree test process includes: ? enabling nan d tree mode ? pulling all nand tree input pins high ? driving each nand tree input pin low, sequentially, according to the nand tree pin order ? checking the nand tree output to make sure there is a toggle high - to - low or low - to - high for each nand tree input driv en low table 7 and table 8 list the nand tree pin orders for ksz8081mnx and ksz8081rnb, respectively. table 7 . nand tree test pin order for ksz8081 mnx pin number pin name nand tree description 11 mdio input 12 mdc input 15 rxd1 input 16 rxd0 input 18 crs_dv input 19 ref_clk input 21 intrp input 23 txen input 30 led0 input 24 txd0 input 25 txd1 output note: ks8081mnx supports partial nand tree test pin s. table 7 lis t s partial nand tree test pins. if full nand tree testing is required , please use ksz8091mnx device that supports all the required pins.
micrel, inc. ksz8081mnx/ksz8081rnb august 19 , 2015 36 revision 1.4 table 8 . nand tree test pin order for ksz8081rnb pin number pin name nand tree description 11 mdio input 12 mdc input 15 rxd1 input 16 rxd0 input 18 crs_dv input 19 ref_clk input 21 intrp input 23 txen input 31 led1 input 30 led0 input 24 txd0 input 25 txd1 output nand tree i/o testing use the following procedure to check for faults on the ksz8081mnx/rnb digital i/o pin connections to the board: 1. enable nand tree mode using either hardware (nand_tree#, pin 21) or software ( register 16h, bit [5]). 2. use board logic to d rive all ksz8081mnx/rnb nand tree input pins high. 3. use board logic to drive each nand tree input pin, in ksz8081mnx/rnb nand tree pin order, as follows: a. toggle the first pin (mdio) from high to low, and verify that the txd1 pin switches from high to low to indicate that the first pin is connected properly. b. leave the first pin (mdio) low. c. toggle the second pin (mdc) from high to low, and verify that the txd1 pin switches from low to high to indicate that the second pin is connected properly. d. leave the first pin (mdio) and the second pin (mdc) low. e. continue with this sequence until all ksz8081mnx/rnb nand tree input pins have been toggled. each ksz8081mnx/rnb nand tree input pin must cause the txd1 output pin to toggle high - to - low or low - to - high to indicate a good connection. if the txd1 pin fails to toggle when the ksz8081mnx/rnb input pin toggles from high to low, the input pin has a fault.
micrel, inc. ksz8081mnx/ksz8081rnb august 19 , 2015 37 revision 1.4 power management the ksz8081mnx/rnb incorporates a number of power - management modes and features that provide methods to consume less energy. these are discussed in the following sections. power - saving mode power - saving mode is used to reduce the transceiver power consumption when the cable is unplugged. it is enabled by writing a ?1? to register 1fh, bit [10], and is in effect when auto - negotiation mode is enabled and the cable is disconnected (no link). in this mode, the ksz8081mnx/rnb shuts down all transceiver blocks, except for the transmitter, energy detect, and pll circuits. by default, power - saving mode is disabl ed after power - up. energy - detect power - down mode energy - detect power - down (edpd) mode is used to further reduce transceiver power consumption when the cable is unplugged. it is enabled by writing a ?0? to register 18h, b it [11], and is in effect when auto - negotiation mode is enabled and the cable is disconnected (no link). edpd mode works with the pl l off (set by writing a ?1? to register 10h, b it [4] to automatically turn the pll off in edpd mode) to turn off all ksz8081mnx/rnb transceiver blocks except t he transmitter and energy - detect circuits. power can be reduced further by extending the time interval between transmissions of link pulses to check for the presence of a link partner. the periodic transmission of link pulses is needed to ensure the ksz808 1mnx/rnb and its link partner, when operating in the same low - power state and with auto mdi/mdi - x disabled, can wake up when the cable is connected between them. by default, energy - detect power - down mode is disabled after power - up. power - down mode power - do wn mode is used to power down the ksz8081mnx/rnb device when it is not in use after power - up. it is enabled by writing a ?1? to register 0h, b it [11]. in this mode, the ksz8081mnx/rnb disables all internal functions except the mii management interface. th e ksz8081mnx/rnb exits (disables) power - down mode after register 0h, bit [11] is set back to ?0?. slow - oscillator mode slow - oscillator mode is used to disconnect the input reference crystal/clock on xi ( pin 8) and select the on - chip slow oscillator when th e ksz8081mnx/rnb device is not in use after power - up. it is enabled by writing a ?1? to register 11h, bit [5]. slow - oscillator mode works in conjunction with power - down mode to put the ksz8081mnx/rnb device in the lowest power state, with all internal func tions disabled except the mii management interface. to properly exit this mode and return to normal phy operation, use the following programming sequence: 1. disable slow - oscillator mode by writing a ?0? to register 11h, bit [5]. 2. disable power - down mode by wr iting a ?0? to register 0h, bit [11]. 3. initiate software reset by writing a ?1? to register 0h, bit [15].
micrel, inc. ksz8081mnx/ksz8081rnb august 19 , 2015 38 revision 1.4 reference circuit for power and ground connections the ksz8081mnx/rnb is a single 3.3v supply device with a built - in regulator to supply the 1.2v core . the power and ground connections are shown in figure 10 and table 9 for 3.3v vddio. figure 10 . ksz8081mnx/rnb power and ground connections ta ble 9 . ksz8081mnx/rnb power pin descriptions power pin pin number description vdd_1.2 2 decouple with 2.2 f and 0.1 f capacitors to ground. vdda_3.3 3 connect to board?s 3.3v supply through a ferrite bead. decouple with 22 f and 0 .1 f capacitors to ground. vddio 17 connect to board?s 3.3v supply for 3.3v vddio. decouple with 22 f and 0.1 f capacitors to ground.
micrel, inc. ksz8081mnx/ksz8081rnb august 19 , 2015 39 revision 1.4 typical current/power consumption table 10 , table 11 , and table 12 sh ow typical values for current consumption by the transceiver (vdda_3.3) and digital i/o (vddio) power pins and typical values for power consumption by the ksz8081mnx/rnb device fo r the indicated nominal operating voltages. these current and power consumption values include the transmit driver current and on - chip regulator current for the 1.2v core. transceiver (3.3v), digital i/os (3.3v) table 10 . typical cu rrent/power consumption (vdda_3.3 = 3.3v, vddio = 3.3v) condition 3.3v transceiver (vdda_3.3) 3.3v digital i/os (vddio) total chip power ma ma mw 100base - tx link - up (no traffic) 34 12 152 100base - tx full - duplex @ 100% utilization 34 13 155 10base - t li nk - up (no traffic) 14 11 82.5 10base - t full - duplex @ 100% utilization 30 11 135 power - saving mode (reg. 1fh, bit [10] = 1) 14 10 79.2 edpd mode (reg. 18h, bit [11] = 0) 10 10 66.0 edpd mo de (reg. 18h, bit [11] = 0) and pll off (reg. 10h, bit [4] = 1) 3 .77 1.54 17.5 software power - down mode (reg. 0h, bit [11] =1) 2.59 1.51 13.5 software power - down mode (reg. 0h, bit [11] =1) and slow - oscillator mode (reg. 11h, bit [5] =1) 1.36 0.45 5.97 transceiver (3.3v), digital i/os (2.5v) table 11 . typical current/power consumption (vdda_3.3 = 3.3v, vddio = 2.5v) condition 3.3v transceiver (vdda_3.3) 2.5v digital i/os (vddio) total chip power ma ma mw 100base - tx link - up (no traffic) 34 11 140 100base - tx full - duplex @ 100% utilization 34 12 142 10base - t link - up (no traffic) 15 10 74.5 10base - t full - duplex @ 100% utilization 27 10 114 power - saving mode (reg. 1fh, bit [10] = 1) 15 10 74.5 edpd mode (reg. 18h, bit [11] = 0) 11 10 61.3 edpd mode (reg. 18h, bit [11] = 0) and pll off (reg. 10h, bit [4] = 1) 3.55 1.35 15.1 software power - down mode (reg. 0h, bit [11] =1) 2.29 1.34 10.9 software power - down mode (reg. 0h, bit [11] =1) and slow - oscillator mode (reg. 11h, bit [5] =1) 1.15 0.29 4.52
micrel, inc. ksz8081mnx/ksz8081rnb august 19 , 2015 40 revision 1.4 transceiver (3.3v), digital i/os (1.8v) tab le 12 . typical current/power consumption (vdda_3.3 = 3.3v, vddio = 1.8v) condition 3.3v transceiver (vdda_3.3) 1.8v digital i/os (vddio) total chip power ma ma mw 100base - tx link - up (no traffic) 34 11 132 100base - tx full - duplex @ 100% utilization 34 12 134 10base - t link - up (no traffic) 15 9.0 65.7 10base - t full - duplex @ 100% utilization 27 9.0 105 power - saving mode (reg. 1fh, bit [10] = 1) 15 9.0 65.7 edpd mode (reg. 18h, bit [11] = 0) 11 9.0 52.5 edpd mode (reg. 18h, bit [1 1] = 0) and pll off (reg. 10h, bit [4] = 1) 4.05 1.21 15.5 software power - down mode (reg. 0h, bit [11] =1) 2.79 1.21 11.4 software power - down mode (reg. 0h, bit [11] =1) and slow - oscillator mode (reg. 11h, bit [5] =1) 1.65 0.19 5.79
micrel, inc. ksz8081mnx/ksz8081rnb august 19 , 2015 41 revision 1.4 register map regis ter number (hex) description 0h basic control 1h basic status 2h phy identifier 1 3h phy identifier 2 4h auto - negotiation advertisement 5h auto - negotiation link partner ability 6h auto - negotiation expansion 7h auto - negotiation next page 8h link pa rtner next page ability 9h reserved 10h digital reserved control 11h afe control 1 12h ? 14h reserved 15h rxer counter 16h operation mode strap override 17h operation mode strap status 18h expanded control 19h ? 1ah reserved 1bh interrupt control /status 1ch reserved 1dh linkmd control/status 1eh phy control 1 1fh phy control 2
micrel, inc. ksz8081mnx/ksz8081rnb august 19 , 2015 42 revision 1.4 register description address name description mode ( 10 ) default register 0h ? basic control 0.15 reset 1 = software rese t 0 = normal operation this bit is self - cleared after a ?1? is written to it. rw/sc 0 0.14 loopback 1 = loopback mode 0 = normal operation rw 0 0.13 speed select 1 = 100mbps 0 = 10mbps this bit is ignored if auto - negotiation is enabled ( register 0.12 = 1 ). rw set by the speed strapping pin. see the strapping options ? ksz8081mnx section for details. 0.12 auto - negotiation enable 1 = enable auto - negotiation process 0 = disable auto - negotiation process if enabled, t he auto - negotiation result overrides the settings in registers 0.13 and 0.8. rw set by the nwayen strapping pin. see the strapping options ? ksz8081mnx section for details. 0.11 power - down 1 = power - down mode 0 = normal operation if software reset ( register 0.15) is used to exit power - down mode ( register 0.11 = 1), two software reset writes ( register 0.15 = 1) are required. the first write clears power - down mode; the second write resets the chip and re - latches the pin strapping pin values. rw 0 0.10 isolate 1 = electrical isolation of phy from mii /rmii 0 = normal operation rw set by the iso strapping pin. see the strapping options ? ksz8081mnx section for details. 0.9 rest art auto - negotiation 1 = restart auto - negotiation process 0 = normal operation. this bit is self - cleared after a ?1? is written to it. rw/sc 0 0.8 duplex mode 1 = full - duplex 0 = half - duplex rw the inverse of the duplex strapping pin value. see the strapping options ? ksz8081mnx section for details. 0.7 collision test 1 = enable col test 0 = disable col test rw 0 0.6:0 reserved reserved ro 000_0000 note: 10. rw = read/write. ro = read only. sc = self - cleared. lh = l atch high. ll = latch low.
micrel, inc. ksz8081mnx/ksz8081rnb august 19 , 2015 43 revision 1.4 register description (continued) address name description mode ( 10 ) default register 1h ? basic status 1.15 100base -t4 1 = t4 capable 0 = not t4 capable ro 0 1.14 100base - tx full -du plex 1 = capable of 100mbps full - duplex 0 = not capable of 100mbps full - duplex ro 1 1.13 100base - tx half - duplex 1 = capable of 100mbps half - duplex 0 = not capable of 100mbps half - duplex ro 1 1.12 10base -t full - duplex 1 = capable of 10mbps full - duplex 0 = not capable of 10mbps full - duplex ro 1 1.11 10base -t half - duplex 1 = capable of 10mbps half - duplex 0 = not capable of 10mbps half - duplex ro 1 1.10:7 reserved reserved ro 000_0 1.6 no preamble 1 = preamble suppression 0 = normal preamble ro 1 1.5 aut o - negotiation complete 1 = auto - negotiation process completed 0 = auto - negotiation process not completed ro 0 1.4 remote fault 1 = remote fault 0 = no remote fault ro/lh 0 1.3 auto - negotiation ability 1 = can perform auto - negotiation 0 = cannot perform a uto - negotiation ro 1 1.2 link status 1 = link is up 0 = link is down ro/ll 0 1.1 jabber detect 1 = jabber detected 0 = jabber not detected (default is low) ro/lh 0 1.0 extended capability 1 = supports extended capability registers ro 1 register 2h ? ph y identifier 1 2.15:0 phy id number assigned to the 3rd through 18th bits of the organizationally unique identifier (oui). kendin communication?s oui is 0010a1 (hex). ro 0022h register 3h ? phy identifier 2 3.15:10 phy id number assigned to the 19th thr ough 24th bits of the organizationally unique identifier (oui). kendin communication?s oui is 0010a1 (hex). ro 0001_01 3.9:4 model number six - bit manufacturer?s model number ro 01_0110 3.3:0 revision number four - bit manufacturer?s revision number ro indi cates silicon revision
micrel, inc. ksz8081mnx/ksz8081rnb august 19 , 2015 44 revision 1.4 register description (continued) address name description mode ( 10 ) default register 4h ? auto - negotiation advertisement 4.15 next page 1 = next page capable 0 = no next page capabilit y rw 0 4.14 reserved reserved ro 0 4.13 remote fault 1 = remote fault supported 0 = no remote fault rw 0 4.12 reserved reserved ro 0 4.11:10 pause [00] = no pause [10] = asymmetric pause [01] = symmetric pause [11] = asymmetric and symmetric pause rw 0 0 4.9 100base -t4 1 = t4 capable 0 = no t4 capability ro 0 4.8 100base - tx full - duplex 1 = 100mbps full - duplex capable 0 = no 100mbps full - duplex capability rw set by the speed strapping pin. see the strapping optio ns ? ksz8081mnx section for details. 4.7 100base - tx half - duplex 1 = 100mbps half - duplex capable 0 = no 100mbps half - duplex capability rw set by the speed strapping pin. see the strapping options ? ksz8081mnx sect ion for details. 4.6 10base -t full - duplex 1 = 10mbps full - duplex capable 0 = no 10mbps full - duplex capability rw 1 4.5 10base -t half - duplex 1 = 10mbps half - duplex capable 0 = no 10mbps half - duplex capability rw 1 4.4:0 selector field [00001] = ieee 80 2.3 rw 0_0001 register 5h ? auto - negotiation link partner ability 5.15 next page 1 = next page capable 0 = no next page capability ro 0 5.14 acknowledge 1 = link code word received from partner 0 = link code word not yet received ro 0 5.13 remote fau lt 1 = remote fault detected 0 = no remote fault ro 0 5.12 reserved reserved ro 0 5.11:10 pause [00] = no pause [10] = asymmetric pause [01] = symmetric pause [11] = asymmetric and symmetric pause ro 00 5.9 100base -t4 1 = t4 capable 0 = no t4 capability ro 0 5.8 100base - tx full - duplex 1 = 100mbps full - duplex capable 0 = no 100mbps full - duplex capability ro 0
micrel, inc. ksz8081mnx/ksz8081rnb august 19 , 2015 45 revision 1.4 register description (continued) address name description mode ( 10 ) default register 5h ? auto - negoti ation link partner ability 5.7 100base - tx half - duplex 1 = 100mbps half - duplex capable 0 = no 100mbps half - duplex capability ro 0 5.6 10base -t full - duplex 1 = 10mbps full - duplex capable 0 = no 10mbps full - duplex capability ro 0 5.5 10base -t half - duplex 1 = 10mbps half - duplex capable 0 = no 10mbps half - duplex capability ro 0 5.4:0 selector field [00001] = ieee 802.3 ro 0_0001 register 6h ? auto - negotiation expansion 6.15:5 reserved reserved ro 0000_0000_000 6.4 parallel detection fault 1 = fault de tected by parallel detection 0 = no fault detected by parallel detection ro/lh 0 6.3 link partner next page able 1 = link partner has next page capability 0 = link p artner does not have next page capability ro 0 6.2 next page able 1 = local device has ne xt page capability 0 = local device does not have next page capability ro 1 6.1 page received 1 = new page received 0 = new page not received yet ro/lh 0 6.0 link partner auto - negotiation able 1 = link partner has auto - negotiation capability 0 = link par tner does not have auto - negotiation capability ro 0 register 7h ? auto - negotiation next page 7.15 next page 1 = additional next pages will follow 0 = last page rw 0 7.14 reserved reserved ro 0 7.13 message page 1 = message page 0 = unformatted page rw 1 7.12 acknowledge2 1 = will comply with message 0 = cannot comply with message rw 0 7.11 toggle 1 = previous valu e of the transmitted link code word equaled logic 1 0 = logic 0 ro 0 7.10:0 message field 11- bit wide field to encode 2048 messages rw 000_ 0000_0001
micrel, inc. ksz8081mnx/ksz8081rnb august 19 , 2015 46 revision 1.4 register description (continued) address name description mode ( 10 ) default register 8h ? link partner next page ability 8.15 next page 1 = additional next pages will follow 0 = last page ro 0 8.1 4 acknowledge 1 = successful receipt of link word 0 = no successful receipt of link word ro 0 8.13 message page 1 = message page 0 = unformatted page ro 0 8.12 acknowledge2 1 = can act on the information 0 = cannot act on the information ro 0 8.11 toggl e 1 = previous value of transmitted link code word equal to logic 0 0 = previous value of transmitted link code word equal to logic 1 ro 0 8.10:0 message field 11- bit wide field to encode 2048 messages ro 000_0000_0000 register 10h ? digital reserved con trol 10.15:5 reserved reserved rw 0000_0000_000 10.4 pll off 1 = turn pll off automatically in edpd mode 0 = keep pll on in edpd mode. see also register 18h, bit [11] for edpd mode rw 0 10.3:0 reserved reserved rw 0000 register 11h ? afe control 1 11. 15:6 reserved reserved rw 0000_0000_00 11.5 slow - oscillator mode enable slow - oscillator mode is used to disconnect the input reference crystal/clock on the xi pin and select the on - chip slow oscillator when the ksz8081mnx/rnb device is not in use after po wer -up. 1 = enable 0 = disable this bit automatically sets software power - down to the analog side when enabled. rw 0 11.4:0 reserved reserved rw 0_0000 register 15h ? rxer counter 15.15:0 rxer counter receive error counter for symbol error frames ro/sc 0000h register 16h ? operation mode strap override 16.15 reserved factory mode 0 = normal operation 1 = factory test mode if txc (pin 22) latches in a pull - up value at the de- assertion of reset, write a ?0? to this bit to clear reserved factory mode. thi s bit applies only to ksz8081mnx . rw 0 set by the pull -up/ pull - down value of txc (pin 22). 16.1 4 :11 reserved reserved rw 000_0 16.10 reserved reserved ro 0 16.9 b- cast_off override 1 = override strap - in for b - cast_off if bit is ?1?, phy address 0 is non - broadcast. rw 0
micrel, inc. ksz8081mnx/ksz8081rnb august 19 , 2015 47 revision 1.4 register description (continued) address name description mode ( 10 ) default register 16h ? operation mode strap override 16.8 reserved reserved rw 0 16.7 mii b -to -b override 1 = override str ap - in for mii back -to - back mode (also set bit 0 of this register to ?1?) this bit applies only to ksz8081mnx. rw 0 16.6 rmii b -to -b override 1 = override strap - in for rmii back -to - back mode (also set bit 1 of this register to ?1?) this bit applies only to ksz8081rnb. rw 0 16.5 nand tree override 1 = override strap - in for nand tree mode rw 0 16.4:2 reserved reserved rw 0_00 16.1 rmii override 1 = override strap - in for rmii mode this bit applies only to ksz8081rnb. rw 0 16.0 mii override 1 = override str ap - in for mii mode this bit applies only to ksz8081mnx. rw 1 register 17h ? operation mode strap status 17.15:13 phyad[2:0] strap - in status [000] = strap to phy address 0 [001] = strap to phy address 1 [010] = strap to phy address 2 [011] = strap to phy address 3 [100] = strap to phy address 4 [101] = strap to phy address 5 [110] = strap to phy address 6 [111] = strap to phy address 7 ro 17.12:10 reserved reserved ro 17.9 b- cast_off strap - in status 1 = strap to b - cast_off if bit is ?1?, phy address 0 is non - broadcast. ro 17.8 reserved reserved ro 17.7 mii b -to -b strap - in status 1 = strap to mii back -to - back mode this bit applies only to ksz8081mnx. ro 17.6 rmii b -to -b strap - in status 1 = strap to rmii back - to - back mode this bit applies only to ks z8081rnb. ro 17.5 nand tree strap - in status 1 = strap to nand tree mode ro 17.4:2 reserved reserved ro 17.1 rmii strap - in status 1 = strap to rmii mode this bit applies only to ksz8081rnb. ro 17.0 mii strap - in status 1 = strap to mii mode this bit applies only to ksz8081mnx. ro
micrel, inc. ksz8081mnx/ksz8081rnb august 19 , 2015 48 revision 1.4 register description (continued) address name description mode ( 10 ) default register 18h ? expanded control 18.15:12 reserved reserved rw 0000 18.11 edpd disabled energy - dete ct power - down mode 1 = disable 0 = enable see also register 10h, bit [4] for pll off. rw 1 18.10 100base - tx latency 1 = mii output is random latency 0 = mii output is fixed latency for both settings, all bytes of received preamble are passed to the mii ou tput. this bit applies only to ksz8081mnx. rw 0 18.9:7 reserved reserved rw 00_0 18.6 10base -t preamble restore 1 = restore received preamble to mii output 0 = remove all seven bytes of preamble before sending fr ame (starting with sfd) to mii output this bit applies only to ksz8081mnx , rw 0 18.5:0 reserved reserved rw 00_0000 register 1bh ? interrupt control/status 1b.15 jabber interrupt enable 1 = enable jabber interrupt 0 = disable jabber interrupt rw 0 1b.14 receive error interrupt enable 1 = enabl e receive error interrupt 0 = disable receive error interrupt rw 0 1b.13 page received interrupt enable 1 = enable page received interrupt 0 = disable page received interrupt rw 0 1b.12 parallel detect fault interrupt enable 1 = enable parallel detect fa ult interrupt 0 = disable parallel detect fault interrupt rw 0 1b.11 link partner acknowledge interrupt enable 1 = enable link partner acknowledge interrupt 0 = di sable link partner acknowledge interrupt rw 0 1b.10 link - down interrupt enable 1= enable li nk - down interrupt 0 = disable link - down interrupt rw 0 1b.9 remote fault interrupt enable 1 = enable remote fault interrupt 0 = disable remote fault interrupt rw 0 1b.8 link - up interrupt enable 1 = enable link - up interrupt 0 = disable link - up interrupt r w 0
micrel, inc. ksz8081mnx/ksz8081rnb august 19 , 2015 49 revision 1.4 register description (continued) address name description mode ( 10 ) default register 1bh ? interrupt control/status 1b.7 jabber interrupt 1 = jabber occurred 0 = jabber did not occur ro/sc 0 1b.6 receiv e error interrupt 1 = receive error occurred 0 = receive error did not occur ro/sc 0 1b.5 page receive interrupt 1 = page receive occurred 0 = page receive did not occur ro/sc 0 1b.4 parallel detect fault interrupt 1 = parallel detect fault occurred 0 = parallel detect fault did not occur ro/sc 0 1b.3 link partner acknowledge interrupt 1 = link partner acknowledge occurred 0 = link partner acknowledge did not occur ro/sc 0 1b.2 link - down interrupt 1 = link - down occurred 0 = link - down did not occur ro/sc 0 1b.1 remote fault interrupt 1 = remote fault occurred 0 = remote fault did not occur ro/sc 0 1b.0 link - up interrupt 1 = link - up occurred 0 = link - up did not occur ro/sc 0 register 1dh ? linkmd control/status 1d.15 cable diagnostic test enable 1 = en able cab le diagnostic test. after test has completed, this bit is self - cleared. 0 = indicates cabl e diagnostic test (if enabled) has comple ted and the status information is valid for read. rw/sc 0 1d.14:13 cable diagnostic test result [00] = normal condit ion [01] = open condition has been detected in cable [10] = short condition has been detected in cable [11] = cable diagnostic test has failed ro 00 1d.12 short cable indicator 1 = short cable (<10 meter) has been detected by linkmd ro 0 1d.11:9 reserved reserved rw 000 1d.8:0 cable fault counter distance to fault ro 0_0000_0000
micrel, inc. ksz8081mnx/ksz8081rnb august 19 , 2015 50 revision 1.4 register description (continued) address name description mode ( 10 ) default register 1eh ? phy control 1 1e.15:10 reserved reserv ed ro 0000_00 1e.9 enable pause (flow control) 1 = flow control capable 0 = no flow control capability ro 0 1e.8 link status 1 = link is up 0 = link is down ro 0 1e.7 polarity status 1 = polarity is reversed 0 = polarity is not reversed ro 1e.6 reserv ed reserved ro 0 1e.5 mdi/mdi - x state 1 = mdi - x 0 = mdi ro 1e.4 energy detect 1 = signal present on receive differential pair 0 = no signal detected on receive differential pair ro 0 1e.3 phy isolate 1 = phy in isolate mode 0 = phy in normal operatio n rw 0 1e.2:0 operation mode indication [000] = still in auto - negotiation [001] = 10base - t half - duplex [010] = 100base - tx half - duplex [011] = reserved [100] = reserved [101] = 10base - t full - duplex [110] = 100base - tx full - duplex [111] = reserved ro 000 re gister 1fh ? phy control 2 1f.15 hp_mdix 1 = hp auto mdi/mdi - x mode 0 = micrel auto mdi/mdi - x mode rw 1 1f.14 mdi/mdi - x select when auto mdi/mdi - x is disabled, 1 = mdi - x mode trans mit on rxp,rxm (pins 5, 4) and receive on txp,txm (pins 7, 6) 0 = mdi mod e transmit on txp,txm (pins 7, 6) and receive on rxp,rxm (pins 5, 4) rw 0 1f.13 pair swap disable 1 = disable auto mdi/mdi - x 0 = enable auto mdi/mdi - x rw 0 1f.12 reserved reserved rw 0
micrel, inc. ksz8081mnx/ksz8081rnb august 19 , 2015 51 revision 1.4 register description (continued) address name description mode ( 10) default register 1fh ? phy control 2 1f.11 force link 1 = force link pass 0 = normal link operation this bit bypasses the control logic and allows the transmitter to send a pattern even if there is no link. rw 0 1f.10 power saving 1 = enable power saving 0 = disable power saving rw 0 1f.9 interrupt level 1 = interrupt pin active high 0 = interrupt pin active low rw 0 1f.8 enable jabber 1 = enable jabber counter 0 = disable jabber counter rw 1 1f.7 rmii r eference clock select 1 = rmii 50mhz clock mode; clock input to xi ( pin 9) is 50mhz 0 = rmii 25mhz clock mode; clock input to xi ( pin 9) is 25mhz this bit applies only to ksz8081rnb. rw 0 1f.6 reserved reserved rw 0 1f.5:4 led mode [00] = led1: speed l ed0: link/activity [01] = led1: activity led0: link [10], [11] = reserved rw 00 1f.3 disable transmitter 1 = disable transmitter 0 = enable transmitter rw 0 1f.2 remote loopback 1 = remote (analog) loopback is enabled 0 = normal mode rw 0 1f.1 enable sqe test 1 = enable sqe test 0 = disable sqe test rw 0 1f.0 disable data scrambling 1 = disable scrambler 0 = enable scrambler rw 0
micrel, inc. ksz8081mnx/ksz8081rnb august 19 , 2015 52 revision 1.4 absolute maximum ratings ( 11 ) supply voltage (v in ) (v dd_1.2 ) .................................................. ? 0.5v to +1 .8v (v ddio , v dda_3.3 ) ...................................... ? 0.5v to +5.0 v input voltage (all inputs) .............................. ? 0.5v to +5.0 v output voltage (all outputs) ......................... ? 0.5v to +5.0 v lead temperature (soldering, 10 s) ............................ 260c storage temperature (t s ) ......................... ? 55c to +150 c operating ratings ( 12 ) supply v oltage (v ddio_3.3 , v dda_3.3 ) .......................... + 3.135 v to + 3.465 v (v ddio_2.5 ) ........................................ +2.375v to +2.625v (v ddio_1.8 ) ........................................ +1.710v to +1.890v ambient temperature (t a , commercial) ...................................... 0c to +70c (t a , industrial ) ....................................... ? 40c to +85c maximum junction temperature (t j(m ax) ) .................. 125c thermal resistance ( ja ) ................................... 34c/w thermal resistance ( jc ) .................................... 6c/w electrical characteristics ( 13) symbol parameter condition min. typ. max. units supply current (v ddio , v dda_3.3 = 3.3v) ( 14 ) i dd1_3.3v 10base -t full - duplex traffic @ 100% utilization 41 ma i dd2_3.3v 100base -tx full - duplex traffic @ 100% utilization 47 ma i dd3_3.3v edpd mode ethernet cable disconnected (reg. 18h.11 = 0) 20 ma i dd4_3.3v power - down mode software power - down (reg. 0h.11 = 1) 4 ma cmos level inputs v ih input high voltage v ddio = 3.3v 2.0 v v ddio = 2.5v 1.8 v ddio = 1.8v 1.3 v il input low voltage v ddio = 3.3v 0.8 v v ddio = 2.5v 0.7 v ddio = 1.8v 0 .5 |i in | input current v in = gnd ~ vddio 10 a cmos level outputs v oh output high voltage v ddio = 3.3v 2.4 v v ddio = 2.5v 2.0 v ddio = 1.8v 1.5 v ol output low voltage v ddio = 3.3v 0.4 v v ddio = 2.5v 0.4 v ddio = 1.8v 0.3 | i oz | output tri - state leakage 10 a led output i led output drive current each led pin (led0, led1) 8 ma notes: 11. exceeding the absolute maximum rating s can damage the device. stresses greater than the absolute maximum rating can cause permanent dama ge to the device. operation of the device at these or any other conditions above those specified in the operating sections of this specification is not implied. maximum conditions for extended periods may affect reliability. 12. the device is not guaranteed to function outside its operating rating s . 13. t a = 25 c. specification for packaged product only. 14. current consumption is for the single 3.3v supply ksz8081mnx/rnb device only, and includes the transmit driver current and th e 1.2v supply voltage (vdd_1.2) that a re supplied by the ksz8081mnx/rnb.
micrel, inc. ksz8081mnx/ksz8081rnb august 19 , 2015 53 revision 1.4 electrical characteristics ( 13) (continued) symbol parameter condition min. typ. max. units all pull - up/pull- down pins (including strapping pins) pu internal pull - up resistan ce v ddio = 3.3v 30 45 73 k v ddio = 2.5v 39 61 102 v ddio = 1.8v 48 99 178 pd internal pull - down resistance v ddio = 3.3v 26 43 79 k v ddio = 2.5v 34 59 113 v ddio = 1.8v 53 99 200 100base - tx transmit (measured differentially after 1:1 transformer) v o peak different ial output voltage 100 termination across differential output 0.95 1.05 v v imb output voltage imbalance 100 termination across differential output 2 % t r , t f rise/fall time 3 5 ns rise/fall time imbalance 0 0.5 ns duty cycle distortion 0 .25 ns overshoot 5 % output jitter peak -to - peak 0.7 ns 10base - t transmit (measured differentially after 1:1 transformer) v p peak differential output voltage 100 termination across differential output 2.2 2.8 v jitter added peak -to - peak 3.5 ns t r , t f rise/fall time 25 ns 10base - t receive v sq squelch threshold 5mhz square wave 400 mv transmitter ? drive setting v set reference voltage of i set r(i set ) = 6.49k 0.65 v ref_clk output 50mhz rmii clock output jitter peak -to - peak . (ap plies only to ksz8081rnb in rmii ? 25mhz clock mode) 300 ps 100mbps mode ? industrial applications parameters clock phase delay ? xi input to mii txc output xi (25mhz clock input) to mii txc (25mhz clock output) delay, referenced to rising edges of bo th clocks. (applies only to ksz8081mnx in mii mode) 15 20 25 ns t llr link loss reaction (indication) time link loss detected at receive differential inputs to phy signal indication time for each of the following: 1. for led mode 00, speed led output chang es from low (100mbps) to high (10mbps, default state for link - down). 2. for led mode 01, link led output changes from low (link - up) to high (link - down). 3. intrp pin asserts for link - down status change. 4.4 s
micrel, inc. ksz8081mnx/ksz8081rnb august 19 , 2015 54 revision 1.4 timing diagrams mii sqe timing (10base - t) figure 11 . mii sqe timing (10base - t) table 13 . mii sqe timing (10base - t) parameters timing parameter description min. typ. max. unit s t p txc period 400 ns t wl txc pulse width low 200 ns t wh txc p ulse width high 200 ns t sqe col (sqe) delay after txen de - asserted 2.2 s t sqep col (sqe) pulse duration 1.0 s
micrel, inc. ksz8081mnx/ksz8081rnb august 19 , 2015 55 revision 1.4 mii transmit timing (10base - t) figure 12 . mii transmit timing (10base - t) table 14 . mii transmit timing (10base- t) parameters timing parameter description min. typ. max. unit s t p txc period 400 ns t wl txc pulse width low 200 ns t wh txc pulse width high 200 ns t su1 txd[3:0] setup to rising edge of txc 120 ns t su2 txen set up to rising edge of txc 120 ns t hd1 txd[3:0] hold from rising edge of txc 0 ns t hd2 txen hold from rising edge of txc 0 ns t crs1 txen high to crs asserted latency 600 ns t crs2 txen low to crs de - asserted latency 1.0 s
micrel, inc. ksz8081mnx/ksz8081rnb august 19 , 2015 56 revision 1.4 mii receive timing (10base - t) figure 13 . mii receive timing (10base - t) table 15 . mii receive timing (10base- t) parameters timing parameter description min. typ. max. unit s t p rxc period 400 ns t wl rxc pulse width low 200 ns t wh rxc pulse width high 200 ns t od (rxdv, rxd[3:0], rxer) output delay from rising edge of rxc 205 ns t rlat crs to (rxdv, rxd[3:0]) latency 7.2 s
micrel, inc. ksz8081mnx/ksz8081rnb august 19 , 2015 57 revision 1.4 mii transmit timing (100base - tx) figure 14 . mii transmit tim ing (100base - tx) table 16 . mii transmit timing (100base- tx) parameters timing parameter description min. typ. max. unit s t p txc period 40 ns t wl txc pulse width low 20 ns t wh txc pulse width high 20 ns t su1 txd[3:0] setup to rising edge of txc 10 ns t su2 txen setup to rising edge of txc 10 ns t hd1 txd[3:0] hold from rising edge of txc 0 ns t hd2 txen hold from rising edge of txc 0 ns t crs1 txen high to crs asserted latency 72 ns t crs2 txen low to crs de - asser ted latency 72 ns
micrel, inc. ksz8081mnx/ksz8081rnb august 19 , 2015 58 revision 1.4 mii receive timing (100base - tx) figure 15 . mii receive timing (100base - tx) table 17 . mii receive timing (100base- tx) parameters timing parameter description min. typ. max. unit s t p rxc period 40 ns t wl rxc pulse width low 20 ns t wh rxc pulse width high 20 ns t od (rxdv, rxd[3:0], rxer) output delay from rising edge of rxc 16 2 1 25 ns t rlat crs to (rxdv, rxd[3:0] latency 170 ns
micrel, inc. ksz8081mnx/ksz8081rnb august 19 , 2015 59 revision 1.4 rmii timing figure 16 . rmii timing ? data received from rmii figure 17 . rmii timing ? data input to rmii table 18 . rmii timing parameters ? ksz8081rnb (25mhz input to xi pin, 50mhz output from ref_clk pin) timing pa rameter description min. typ. max. unit s t cyc clock cycle 20 ns t 1 setup time 4 ns t 2 hold time 2 ns t od output delay 7 10 13 ns table 19 . rmii timing parameters ? ksz8081rnb (50mhz input to xi pin) timing parameter desc ription min. typ. max. unit s t cyc clock cycle 20 ns t 1 setup time 4 ns t 2 hold time 2 ns t od output delay 8 11 13 ns
micrel, inc. ksz8081mnx/ksz8081rnb august 19 , 2015 60 revision 1.4 auto - negotiation timing figure 18 . auto - negotiation fast link pulse (flp) timing table 20 . auto - negotiation fast link pulse (flp) timing parameters timing parameter description min. typ. max. units t btb flp burst to flp burst 8 16 24 ms t flpw flp burst width 2 ms t pw clock/data pulse width 100 ns t ctd clock pulse to dat a pulse 55.5 64 69.5 s t ctc clock pulse to clock pulse 111 128 139 s number of clock/data pulses per flp burst 17 33
micrel, inc. ksz8081mnx/ksz8081rnb august 19 , 2015 61 revision 1.4 mdc/mdio timing figure 19 . mdc/mdio timing table 21 . mdc/mdio timing paramet ers timing parameter description min. typ. max. unit s fc mdc clock frequency 2.5 10 mhz t p mdc period 400 ns t md1 mdio (phy input) setup to rising edge of mdc 10 ns t md2 mdio (phy input) hold from rising edge of mdc 4 ns t md3 mdio (phy output) delay from rising edge of mdc 5 222 ns
micrel, inc. ksz8081mnx/ksz8081rnb august 19 , 2015 62 revision 1.4 power - up/reset timing the ksz8081mnx/rnb reset timing requirement is summarized in figure 20 and table 22 . figure 20 . power - up/reset timing table 22 . power - up/reset timing parameters parameter description min. max. units t vr supply voltage (v ddio, v dda_3.3 ) rise time 300 s t sr stable supply voltage (v ddio, v dda_3.3 ) to reset h igh 10 ms t cs configuration setup time 5 ns t ch configuration hold time 5 ns t rc reset to strap - in pin output 6 ns the supply voltage (v ddio and v dda_3.3 ) power - up waveform should be monotonic. the 300s minimum rise time is from 10% to 90%. for w arm reset, the reset (rst#) pin should be asserted low for a minimum of 500s. the strap - in pin values are read and updated at the de - assertion of reset. after the de - assertion of reset, wait a minimum of 100s before starting programming on the miim (mdc/ mdio) interface.
micrel, inc. ksz8081mnx/ksz8081rnb august 19 , 2015 63 revision 1.4 reset circuit figure 21 shows a reset circuit recommended for powering up the ksz8081mnx/rnb if reset is triggered by the power supply. figure 21 . recommended reset cir cuit figure 22 s hows a reset circuit recommended for applications where reset is driven by another device (for example, the cpu or an fpga). the reset out rst_out_n from cpu/fpga provides the warm reset after powe r up reset . d2 is used if using different vddio between the switch and cpu/fpga, otherwise, the different vddio will fight each other. if different vddio have to use in a special case, a low vf (<0.3v) diode is required (for example, vishay?s bat54, mss1p2 l and so on), or a level shifter device can be used too. if ethernet device and cpu/fpga use same vddio voltage, d2 can be removed to connect both devices directly. usually, ethernet device and cpu/fpga should use same vddio voltage. cpu / fpga vddio c 10 uf r 10 k rst rst _ out _ n d 1 d 2 ksz 8081 mnx / rnb figure 22 . recommended reset circuit for interfacing with cpu/fpga reset output
micrel, inc. ksz8081mnx/ksz8081rnb august 19 , 2015 64 revision 1.4 reference circuits ? led strap- in pins the pull - up, float, and pull - down reference circuits for the led1/speed and led0/nwayen strapping pins are shown in figure 23 for 3.3v and 2.5v vddio. figure 23 . reference circuits for led strapping pins for using 1.8v vddio, should select parts with low 1.8v operation voltage and forwar ding current if about 2ma led indicator . it is ok using internal pull - up or external pull - up resistor for the led pin pull - up strap function , and use an external 0.75k to 1k pull - down resistor for the led pin pull - down strap function . note: if using rj45 j ack s with integrated leds and 1.8v vddio, a level shifting is required from led 3.3v to 1.8v. for example, use a bipolar transistor or a level shift device.
micrel, inc. ksz8081mnx/ksz8081rnb august 19 , 2015 65 revision 1.4 reference clock ? connection and selection a crystal or external clock source, such as an oscillat or, is used to provide the reference clock for the ksz8081mnx/rnb. for the ksz8081mnx in all operating modes and for the ksz8081rnb in rmii ? 25mhz clock mode, the reference clock is 25mhz. the reference clock connections to xi ( pin 9) and xo ( pin 8), and the reference clock selection criteria, are provided in figure 24 and table 23 . figure 24 . 25mhz crystal/oscillator reference clock connection table 23 . 25mhz crystal/reference clock selection criteria characteristics value units frequency 25 mhz frequency tolerance ( m ax ) ( 15) 50 p pm crystal series resistance ( t yp ) 40 crystal load capacitance (t yp ) 22 pf note: 15. 60ppm for over temperature crystal. for the ksz8081rnb in rmii ? 50mhz clock mode, the reference clock is 50mhz. the reference clock connections to xi ( pin 9), and the reference clock selection criteria a re provided in figure 25 and table 24 . figure 25 . 50mhz oscillator reference clock connection table 24 . 50mhz oscillato r/reference clock selection criteria characteristics value units frequency 50 mhz frequency tolerance (max imum ) 50 ppm
micrel, inc. ksz8081mnx/ksz8081rnb august 19 , 2015 66 revision 1.4 magnetic ? connection and selection a 1:1 isolation transformer is required at the line interface. use one with integrated common - m ode chokes for designs exceeding fcc requirements. the ksz8081mnx/rnb design incorporates voltage - mode transmit drivers and on - chip terminations. with the voltage - mode implementation, the transmit drivers supply the common - mode voltages to the two differ ential pairs. therefore, the two transformer center tap pins on the ksz8081mnx/rnb side should not be connected to any power supply source on the board; instead, the center tap pins should be separated from one another and connected through separate 0.1f common - mode capacitors to ground. separation is required because the common - mode voltage is different between transmitting and receiving differential pairs. figure 26 shows the typical magnetic interface circuit fo r the ksz8081mnx/rnb. figure 26 . typical magnetic interface circuit
micrel, inc. ksz8081mnx/ksz8081rnb august 19 , 2015 67 revision 1.4 table 25 lists recommended magnetic characteristics. table 25 . magnetics selection criteria p arameter value test condition turns ratio 1 ct : 1 ct open - circuit inductance (minimum ) 350 h 100mv, 100khz, 8ma insertion loss (typical ) ? 1.1db 100khz to 100mhz hipot (minimum ) 1500vrms table 26 is a list of compatible single - port magnetics with separated transformer center tap pins on the phy chip side that can be used with the ksz8081mnx/rnb. table 26 . compatible single - port 10/100 magnetics manufacturer part number temperature range magnetic + rj -45 bel fuse s558 - 5999-u7 0c to 70c no bel fuse si - 46001-f 0c to 70c yes bel fuse si - 50170-f 0c to 70c yes delta lf8505 0c to 70c no halo hfj11 - 2450e 0c to 70c yes halo tg110 - e055n5 ? 40c to 85c no lankom lf - h41s -1 0c to 70c no pulse h1102 0c to 70c no pulse h1260 0c to 70c no pulse hx1188 ? 40c to 85c no pulse j00 - 0014 0c to 70c yes pulse jx0011d21nl ? 40c to 85c yes tdk tla - 6t718a 0c to 70c yes transpower hb726 0c to 70c no wurth/midco m 000- 7090- 37r - lf1 ? 40c to 85c no
micrel, inc. ksz8081mnx/ksz8081rnb august 19 , 2015 68 revision 1.4 package information and recommended land pattern ( 16) 32- pin 5mm 5mm qfn note: 16. package information is correct as of the publication date. for updates and most curr ent information, go to www.micrel.com .
micrel, inc. ksz8081mnx/ksz8081rnb august 19 , 2015 69 revision 1.4 micrel, inc. 2180 fortune drive san jose, ca 95131 usa tel +1 (408) 944 - 0800 fax +1 (408) 474 - 1000 web http://www.micrel.com mic rel, inc. is a leading global manufacturer of ic solutions for the worldwide high performance linear and power, lan, and timi ng & communications markets. the company?s products include advanced mixed - signal, analog & power semiconductors; high - performance communication, clock management, mems - based clock oscillators & crystal - less clock generators, ethernet switches, and physical layer transceiver ics. company customers include leading manufacturers of enterprise, consumer, industrial, mobile, telecommunic ations, automotive, and computer products. corporation headquarters and state - of - the - art wafer fabrication facilities are located in san jose, ca, with regional sales and support offices and advanced technology design centers situated throughout the amer icas, europe, and asia. additionally, the company maintains an extensive network of distributors and reps worldwide. micrel makes no representations or warranties with respect to the accuracy or completeness of the inf ormation furnished in this data sheet . this information is not intended as a warranty and micrel does not assume responsibility for its use. micrel reserves the right to change circuitry, specifications and descriptions at any time without notice. no license, whether express, implied, arisi ng by estoppel or otherwise, to any intellectual property rights is granted by this document. e xcept as provided in micrel?s terms and conditions of sale for such products, micrel assumes no liability whatsoever, and micrel disclaims any express or implied warranty relating to the sale and/or use of micrel products including liability or warranties relating to fitness for a particular purpose, merchantability, or infringement of any patent, copyright , or other intellectual property right. micrel products a re not designed or authorized for use as components in life support appliances, devices or systems where malfunction of a pro duct can reasonably be expected to result in personal injury. life support devices or systems are devices or systems that (a) are i ntended for surgical implant into the body or (b) support or sustain life, and whose failure to perform can be reasonably expected to result in a signific ant injury to the user. a purchaser?s use or sale of micrel products for use in life support appliance s, devices or systems is a purchaser?s own risk and purchaser agrees to fully indemnify micrel for any damages resulting from such use or sale. ? 20 13 micrel, incorporated.

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