LXT908 Universal 3.3V 10BASE-T and AUI Transceiver Datasheet The LXT908 Universal 10BASE-T and AUI Transceiver is designed for IEEE 802.3 physical layer applications. It provides all the active circuitry to interface most standard 802.3 controllers to either the 10BASE-T media or Attachment Unit Interface (AUI). In addition to standard 10 Mbps Ethernet, the LXT908 also supports full-duplex operation at 20 Mbps. LXT908 functions include Manchester encoding/decoding, receiver squelch and transmit pulse shaping, jabber, link testing and reversed polarity detection/correction. The LXT908 can be used to drive either the AUI drop cable or the 10BASE-T twisted-pair cable with only a simple isolation transformer. Integrated filters simplify the design work required for FCC-compliant EMI performance. The LXT908 is fabricated with an advanced CMOS process and requires only a single 3.3V power supply. Applications ■ ■ Access devices (DSL, Cable Modems, and Set-top Boxes) Routers/Bridges/Switches/Hubs ■ ■ Telecom Backplane USB to Ethernet Converters Product Features Functional Features ■ ■ ■ ■ ■ Improved Filters - Simplifies FCC Compliance Integrated Manchester Encoder/Decoder 10BASE-T compliant Transceiver AUI Transceiver Supports Standard and Full-Duplex Ethernet Diagnostic Features ■ ■ Four LED Drivers AUI/RJ-45 Loopback Convenience Features ■ ■ ■ ■ ■ ■ ■ ■ Automatic/Manual AUI/RJ-45 Selection Automatic Polarity Correction SQE Disable/Enable function Power Down Mode with tri-stated outputs Four loopback modes Single 3.3V operation Available in 64-pin LQFP and 44-pin PLCC package Commercial (0 to +70°C) and Extended (-40 to +85°C) temperature range For technical assistance on this product, please call 1-800-628-8686, or send an e-mail to [email protected]. Order Number: 249049-002 June 2001 Information in this document is provided in connection with Intel® products. No license, express or implied, by estoppel or otherwise, to any intellectual property rights is granted by this document. Except as provided in Intel’s Terms and Conditions of Sale for such products, Intel assumes no liability whatsoever, and Intel disclaims any express or implied warranty, relating to sale and/or use of Intel products including liability or warranties relating to fitness for a particular purpose, merchantability, or infringement of any patent, copyright or other intellectual property right. Intel products are not intended for use in medical, life saving, or life sustaining applications. Intel may make changes to specifications and product descriptions at any time, without notice. Designers must not rely on the absence or characteristics of any features or instructions marked "reserved" or "undefined." Intel reserves these for future definition and shall have no responsibility whatsoever for conflicts or incompatibilities arising from future changes to them. The LXT908 may contain design defects or errors known as errata which may cause the product to deviate from published specifications. Current characterized errata are available on request. Contact your local Intel sales office or your distributor to obtain the latest specifications and before placing your product order. Copies of documents which have an ordering number and are referenced in this document, or other Intel literature may be obtained by calling 1-800-548-4725 or by visiting Intel’s website at http://www.intel.com. Copyright © Intel Corporation, 2001 *Third-party brands and names are the property of their respective owners. 2 Datasheet Document #: 249049 Revision #: 002 Rev. Date: June 19, 2001 Contents Contents 1.0 Pin Assignments and Signal Descriptions ...................................................... 8 2.0 Functional Description........................................................................................... 11 2.1 3.0 Application Information ......................................................................................... 18 3.1 3.2 4.0 Introduction.......................................................................................................... 11 2.1.1 Controller Compatibility Modes .............................................................. 11 2.1.2 Transmit Function................................................................................... 12 2.1.3 Jabber Control Function ......................................................................... 12 2.1.4 Receive Function.................................................................................... 13 2.1.5 SQE Function ......................................................................................... 13 2.1.6 Polarity Reverse Function ...................................................................... 14 2.1.7 Loopback Function ................................................................................. 14 2.1.8 Collision Detection Function................................................................... 15 2.1.9 Link Pulse Transmission ........................................................................ 16 2.1.10 Link Integrity Test Function .................................................................... 16 External Components.......................................................................................... 18 3.1.1 Crystal Information ................................................................................. 18 3.1.2 Magnetic Information.............................................................................. 18 Layout Requirements .......................................................................................... 18 3.2.1 Auto Port Select with External Loopback Control................................... 18 3.2.2 Full Duplex Support................................................................................ 20 3.2.3 Dual Network Support-10Base T and Token Ring ................................. 21 3.2.4 Manual Port Select & Link Test Function ............................................... 22 3.2.5 Three Media Application......................................................................... 24 3.2.6 AUI Encoder/Decoder Only .................................................................... 25 Test Specifications .................................................................................................. 26 4.1 4.2 4.3 4.4 4.5 Timing Diagrams for Mode 1 (MD2, 1, 0 = Low, Low, Low) Figures 16 - 21 ....... 30 Timing Diagrams for Mode 2 (MD2, 1, 0 = Low, Low, High) Figures 22 - 27 ...... 32 Timing Diagrams for Mode 3 (MD2, 1, 0 = Low, High, Low) Figures 28 - 33 ...... 34 Timing Diagrams for Mode 4 (MD2, 1, 0 = Low, High, High) Figures 34 - 39 ..... 36 Timing Diagrams for Mode 5 (MD2, 1, 0 = High, High, Low) Figures 40 - 45 ..... 38 5.0 Mechanical Specifications.................................................................................... 40 A Ordering Information .............................................................................................. 43 Datasheet Document #: 249049 Revision #: 002 Rev. Date: June 19, 2001 3 Contents Figures 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 4 LXT908 Block Diagram ......................................................................................... 7 LXT908 Pin Assignments ...................................................................................... 8 LXT908 TPO Output Waveform ......................................................................... 12 Jabber Control Function...................................................................................... 13 SQE Function ..................................................................................................... 14 Collision Detection Function ............................................................................... 15 Transmitted Link Integrity Pulse Timing ............................................................. 16 Link Integrity Test Function ................................................................................ 17 LAN Adapter Board - Auto Port Select with External Loopback Control ............ 19 Full-Duplex Operation ........................................................................................ 20 LXT908/380C26 Interface for Dual Network Support of 10BASE-T and Token Ring 21 LAN Adapter Board - Manual Port Select with Link Test Function ..................... 22 Manual Port Select with Seeq 8005 Controller .................................................. 23 Three Media Application .................................................................................... 24 AUI Encoder/Decoder Only Application ............................................................. 25 Mode 1 RCLK/Start-of-Frame Timing ................................................................ 30 Mode 1 RCLK/End-of-Frame Timing .................................................................. 30 Mode 1 Transmit Timing .................................................................................... 31 Mode 1 Collision Detect Timing ......................................................................... 31 Mode 1 COL/SQE Output Timing/CI Output Timing .......................................... 31 Mode 1 Loopback Timing ................................................................................... 31 Mode 2 RCLK/Start-of-Frame Timing ................................................................ 32 Mode 2 RCLK/End-of-Frame Timing .................................................................. 32 Mode 2 Transmit Timing .................................................................................... 33 Mode 2 Collision Detect Timing ......................................................................... 33 Mode 2 COL/SQE Output Timing ....................................................................... 33 Mode 2 Loopback Timing ................................................................................... 33 Mode 3 RCLK/Start-of-Frame Timing ................................................................ 34 Mode 3 RCLK/End-of-Frame Timing .................................................................. 34 Mode 3 Transmit Timing .................................................................................... 35 Mode 3 Collision Detect Timing ......................................................................... 35 Mode 3 COL/SQE Output Timing ....................................................................... 35 Mode 3 Loopback Timing ................................................................................... 35 Mode 4 RCLK/Start-of-Frame Timing ................................................................ 36 Mode 4 RCLK/End-of-Frame Timing .................................................................. 36 Mode 4 Transmit Timing .................................................................................... 37 Mode 4 Collision Detect Timing ......................................................................... 37 Mode 4 COL/SQE Output Timing ....................................................................... 37 Mode 4 Loopback Timing ................................................................................... 37 Mode 5 RCLK/Start-of-Frame Timing ................................................................ 38 Mode 5 RCLK/End-of-Frame Timing .................................................................. 38 Mode 5 Transmit Timing .................................................................................... 39 Mode 5 Collision Detect Timing ......................................................................... 39 Mode 5 COL/SQE Output Timing ...................................................................... 39 Mode 5 Loopback Timing ................................................................................... 39 44-Pin PLCC Package Specifications ................................................................ 40 64-Pin LQFP Package Specifications ................................................................ 41 Ordering Information - Sample............................................................................ 43 Datasheet Document #: 249049 Revision #: 002 Rev. Date: June 19, 2001 Contents Tables 1 2 3 4 5 6 7 8 9 10 11 12 13 14 Datasheet Document #: 249049 Revision #: 002 Rev. Date: June 19, 2001 LXT908 Signal Descriptions .................................................................................. 9 Controller Compatibility Mode Options................................................................ 12 Suitable Crystals ................................................................................................ 18 Absolute Maximum Values................................................................................. 26 Recommended Operating Conditions ................................................................ 26 I/O Electrical Characteristics .............................................................................. 26 AUI Electrical Characteristics ............................................................................. 27 Twisted-Pair Electrical Characteristics ............................................................... 27 Switching Characteristics ................................................................................... 28 RCLK/Start-of-Frame Timing.............................................................................. 28 RCLK/End-of-Frame Timing............................................................................... 29 Transmit Timing................................................................................................... 29 Collision, COL/CI Output and Loopback Timing................................................. 29 Product Information ............................................................................................. 43 5 Contents Revision History Date June 2001 6 Revision 2001 Page Description 1 Added new set of applications 19 Added 01. µF label to capacitor at bottom of Figure 9 20 Added 01. µF label to capacitor at bottom of Figure 10 21 Added 01. µF label to capacitor at bottom of Figure 11 22 Added 01. µF label to capacitor at bottom of Figure 12 23 Added 01. µF label to capacitor at bottom of Figure 13 26 Added second para. under “Test Specifications” regarding Quality and Reliability issues 26 Removed “Ambient operating temperature” from Absolute Maximum Ratings table. 43 Added Appendix: Product Ordering Information Datasheet Document #: 249049 Revision #: 002 Rev. Date: June 19, 2001 Universal 3.3V 10BASE-T and AUI Transceiver — LXT908 Figure 1. LXT908 Block Diagram AUTOSEL MD0 MD1 MD2 MODE SELECT LOGIC Controller Compatibility/ Port Select / Loopback / Link test PAUI LBK LI TCLK CLKI WATCHDOG TIMER XTAL OSC CLKO TEN TWISTED PAIR INTERFACE Select: PLS Only or PLS / MAU RC CMOS TX AMP PULSE SHAPER AND FILTER RC DO COLLISION/ POLARITY DETECT CORRECT MANCHESTER ENCODER TPOPB TPOPA TPONA TPONB RX SLICER TPIP TPIN TXD DROP CABLE INTERFACE CD LEDL ECL TX AMP SQUELCH / LINK DETECT + DOP DON LPBK RXD DI MANCHESTER DECODER RCLK DIP RX SLICER DIN CI COLLISION LOGIC COLLISION RECEIVER CIP CIN COL LEDR LEDT/PDN Datasheet Document #: 249049 Revision #: 002 Rev. Date: June 19, 2001 LEDC/FDE DSQE NTH JAB PLR 7 LXT908 — Universal 3.3V 10BASE-T and AUI Transceiver 1.0 Pin Assignments and Signal Descriptions MD1 MD0 NTH CIN CIP VCC1 DON DOP DIN DIP PAUI 6 5 4 3 2 1 44 43 42 41 40 Figure 2. LXT908 Pin Assignments n/c 7 39 TPIN LI 8 38 TPIP JAB 9 37 DSQE TEST 10 36 TPONB TCLK 11 35 TPONA TXD 12 34 VCC2 TEN 13 33 GND2 CLKO 14 32 TPOPA CLKI 15 31 TPOPB COL 16 30 PLR AUTOSEL 17 29 n/c Rev # LXT908PC/PE XX XXXXXX XXXXXXXX 23 24 25 26 27 28 GND1 RBIAS MD2 RXD CD RCLK 64 63 62 61 60 59 58 57 56 55 54 53 52 51 50 49 n/c n/c TPIN TPIP n/c DSQE TPONB TPONA VCC2 GND2 TPOPA TPOPB PLR n/c n/c n/c 22 21 LEDC/FDE LBK 19 20 18 LEDR LEDT/PDN LEDL Part # LOT # FPO # Rev # Part # LOT # FPO # LXT908LC/LE XX XXXXXX XXXXXXXX 48 47 46 45 44 43 42 41 40 39 38 37 36 35 34 33 n/c RCLK CD RXD MD2 n/c RBIAS n/c GNDA GND1 LBK LEDC/FDE LEDL LEDT/PDN LEDR n/c 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 n/c n/c LI n/c JAB TEST TCLK TXD TEN CLKO CLKI COL AUTOSEL n/c n/c n/c n/c n/c PAUI DIP DIN n/c DOP DON VCCA VCC1 CIP CIN NTH MD0 MD1 n/c 8 Datasheet Document #: 249049 Revision #: 002 Rev. Date: June 19, 2001 Universal 3.3V 10BASE-T and AUI Transceiver — LXT908 Table 1. LXT908 Signal Descriptions Pin# Symbol I/O 10 56 VCC1 VCC2 – – Power 1 and 2. Connect to positive power supply terminal (+3.3V DC). – 9 VCCA – Analog Supply. (+3.3V) 2 3 11 12 CIP CIN I I AUI Collision Pair. Differential input pair connected to the AUI transceiver CI circuit. The input is collision signaling or SQE. 4 13 NTH I Normal Threshold. When NTH is High, the normal TP squelch threshold is in effect. When NTH is Low, the normal TP squelch threshold is reduced by 4.5 dB. 5 6 25 14 15 44 MD0 MD1 MD2 I I I Mode Select 0 (MD0), Mode Select 1 (MD1) and Mode Select 2 (MD2). Mode select pins determine the controller compatibility mode as specified in Table 2 on page 12. 7, 29 1, 2, 6, 16, 17, 18, 20, 30, 31, 32, 33, 41, 43, 48, 49, 50, 51, 60, 63, 64 N/C – No Connect. These pins may be left unconnected or tied to ground. 8 19 LI I Link Test Enable. Controls Link Integrity Test; enabled when High, disabled when Low. PLCC LQFP 1 34 Description 9 21 JAB O Jabber Indicator. Output goes High to indicate Jabber state. 10 22 TEST I Test. This pin must be tied High. 11 23 TCLK O Transmit Clock. A 10 MHz clock output. This clock signal should be directly connected to the transmit clock input of the controller. TCLK goes to high impedance (tri-state) when LEDT/PDN is pulled Low externally. 12 24 TXD I Transmit Data. Input signal containing NRZ data to be transmitted on the network. TXD is connected directly to the transmit data output of the controller. 13 25 TEN I Transmit Enable. Enables data transmission and starts the WatchDog Timer. Synchronous to TCLK (see Test Specifications for details). 14 15 26 27 CLKO CLKI O I Crystal Oscillator. A 20 MHz crystal must be connected across these pins, or a 20 MHz clock applied at CLKI, with CLKO left open. 16 28 COL O Collision Detect. Output driving the collision detect input of the controller. COL goes to high impedance (tri-state) when LEDT/PDN is pulled Low externally. 17 29 AUTOSEL I Automatic Port Select. When High, automatic port selection is enabled (the LXT908 defaults to the AUI port only if TP link integrity = Fail). When Low, manual port selection is enabled (the PAUI pin determines the active port). 18 34 LEDR O Receive LED. Open drain driver for the receive indicator LED. Output is pulled Low during receive, except when data is being looped back to DIN/DIP from a remote transceiver (external MAU). LED “On” time (Low output) is extended by approximately 100 ms. Datasheet Document #: 249049 Revision #: 002 Rev. Date: June 19, 2001 9 LXT908 — Universal 3.3V 10BASE-T and AUI Transceiver Table 1. LXT908 Signal Descriptions (Continued) Pin# Symbol PLCC 10 I/O Description LQFP 19 35 LEDT/ PDN O I Transmit LED (LEDT)/Power Down (PDN). Open drain driver for the transmit indicator LED. Output is pulled Low during transmit. Do not allow this pin to float. If unused, tie High. LED “On” time (Low output) is extended by approximately 100 ms. If externally tied Low, the LXT908 goes to power-down state. In power-down state, TCLK, COL, RXD, CD, and RCLK (pins 11, 16, 26, 27, and 28, respectively) are tri-stated. 20 36 LEDL O I Link LED. Open drain driver for link integrity indicator LED. Output is pulled Low during link test pass. If externally tied Low, internal circuitry is forced to “Link Pass” state and the LXT908 will continue to transmit link test pulses. 21 37 LEDC/ FDE O I Collision LED (LEDC)/Full Duplex Enable (FDE). Open drain driver for the collision indicator LED pulls Low during collision. LED “On” time (Low output) is extended by approximately 100 ms. If externally tied Low, the LXT908 disables the internal TP loopback and collision detection circuits to allow full-duplex operation or external twisted-pair loopback. 22 38 LBK I Loopback. Enables internal loopback mode. Refer to Functional Description and Test Specifications for details. 23 33 39 55 GND1 GND2 – – Ground Returns 1 and 2. Connect to negative power supply terminal (ground). – 40 GNDA – Analog Ground. Ground for analog plane. 24 42 RBIAS I Bias Control. A 12.4 kΩ 1% resistor to ground at this pin controls operating circuit bias. 26 45 RXD O Receive Data. Output signal connected directly to the receive data input of the controller. RXD goes to high impedance (tri-state) when LEDT/PDN is pulled Low externally. 27 46 CD O Carrier Detect. An output to notify the controller of activity on the network. CD goes to high impedance (tri-state) when LEDT/PDN is pulled Low externally. 28 47 RCLK O Receive Clock. A recovered 10 MHz clock that is synchronous to the received data and connected to the controller receive clock input. RCLK goes to high impedance (tri-state) when LEDT/PDN is pulled Low externally. 30 52 PLR O Polarity Reverse. Output goes High to indicate reversed polarity at the TP input. 32 35 31 36 54 57 53 58 TPOPA TPONA TPOPB TPONB O O O O Twisted-Pair Transmit Pairs A & B. Two differential driver pair outputs (A and B) to the twisted-pair cable. The outputs are preequalized. Each pair must be shorted together with an 11.5 Ω 1% resistor to match an impedance of 100Ω. 37 59 DSQE I Disable SQE. When DSQE is High, the SQE function is disabled. When DSQE is Low, the SQE function is enabled. SQE must be disabled for normal operation in Hub/Switch applications. 3839 61 62 TPIP TPIN I I Twisted-Pair Receive Pair. A differential input pair from the TP cable. Receive filter is integrated on chip. No external filters are required. Datasheet Document #: 249049 Revision #: 002 Rev. Date: June 19, 2001 Universal 3.3V 10BASE-T and AUI Transceiver — LXT908 Table 1. LXT908 Signal Descriptions (Continued) Pin# Symbol PLCC I/O Description LQFP 40 3 PAUI I Port/AUI Select. In Manual Port Select mode (AUTOSEL Low), PAUI selects the active port. When PAUI is High, the AUI port is selected. When PAUI is Low, the TP port is selected. In Auto Port Select mode, PAUI must be tied to ground. 41 42 4 5 DIP DIN I I AUI Receive Pair. Differential input pair from the AUI transceiver DI circuit. The input is Manchester encoded. 43 44 7 8 DOP DON O O AUI Transmit Pair. A differential output driver pair for the AUI transceiver cable. The output is Manchester encoded. 2.0 Functional Description 2.1 Introduction The LXT908 Universal 10BASE-T and AUI Transceiver performs the physical layer signaling (PLS) and Media Attachment Unit (MAU) functions as defined by the IEEE 802.3 specification. It functions as an AUI (PLS-Only device) for use with 10BASE-2 or 10BASE-5 coaxial cable networks, or as an Integrated PLS/MAU for use with 10BASE-T twisted-pair (TP) networks. In addition to standard 10 Mbps operation, the LXT908 also supports full-duplex 20 Mbps operation. The LXT908 interfaces a back-end controller to either an AUI drop cable or a twisted-pair cable. The controller interface includes transmit and receive clock and NRZ data channels, as well as mode control logic and signaling. The AUI interface comprises three circuits: Data Output (DO), Data Input (DI), and Collision (CI). The twisted-pair interface comprises two circuits: Twisted-Pair Input (TPI) and Twisted-Pair Output (TPO). In addition to the three basic interfaces, the LXT908 contains an internal crystal oscillator and four LED drivers for visual status reporting. Functions are defined from the back end controller side of the interface. The LXT908 Transmit function refers to data transmitted by the back end to the AUI cable (PLS-Only mode) or to the twisted-pair network (Integrated PLS/MAU mode). The LXT908 Receive function refers to data received by the back end from the AUI cable (PLS-Only) or from the twisted-pair network (Integrated PLS/MAU mode). In the integrated PLS/MAU mode, the LXT908 performs all required MAU functions defined by the IEEE 802.3 10BASE–T specification, such as collision detection, link integrity testing, signal quality error messaging, jabber control, and loopback. In the PLS-Only mode, the LXT908 receives incoming signals from the AUI DI circuit with ±18 ns of jitter and drives the AUI DO circuit. 2.1.1 Controller Compatibility Modes The LXT908 is compatible with most industry-standard controllers including devices produced by Advanced Micro Devices (AMD), Motorola, Intel, Fujitsu, National Semiconductor, Seeq, and Texas Instruments, as well as custom controllers. Five different control signal timing and polarity schemes (Modes 1 through 5) are required to achieve this compatibility. Mode select pins (MD2:0) determine Controller compatibility modes as listed in Table 2 on page 12. Refer to Test Specifications for a complete set of timing diagrams for each mode. Datasheet Document #: 249049 Revision #: 002 Rev. Date: June 19, 2001 11 LXT908 — Universal 3.3V 10BASE-T and AUI Transceiver 2.1.2 Transmit Function The LXT908 receives NRZ data from the controller at the TXD input as shown in Figure 1, “LXT908 Block Diagram” on page 7, and passes it through a Manchester encoder. The encoded data is then transferred to either the AUI cable (the DO circuit) or the twisted-pair network (the TPO circuit). The advanced integrated pulse shaping and filtering network produces the output signal on TPON and TPOP, shown in Figure 3. The TPO output is pre-distorted and pre-filtered to meet the 10BASE-T jitter template. An internal continuous resistor-capacitor filter is used to remove any high-frequency clocking noise from the pulse shaping circuitry. Integrated filters simplify the design work required for FCC-compliant EMI performance. During idle periods, the LXT908 transmits link integrity test pulses on the TPO circuit (if LI is enabled and integrated PLS/ MAU mode is selected). External resistors control the termination impedance. Figure 3. LXT908 TPO Output Waveform 4V 2V 0V -2V -4V Table 2. Controller Compatibility Mode Options Controller Mode MD2 MD1 MD0 Mode 1 - For AMD AM7990, Motorola 68EN360, MPC860 or compatible controllers Low Low Low Mode 2 - For Intel 82596 or compatible controllers Low Low High Mode 3 - For Fujitsu MB86950, MB86960 or compatible controllers (Seeq 8005)1 Low High Low Mode 4 - For National Semiconductor 8390 or compatible controllers (TI TMS380C26) Low High High Mode 5 - For custom controllers (Mode 3 with TCLK, RCLK and COL inverted) High High Low 1. SEEQ controllers require inverters on CLKI, LBK, RCLK, and COL in Mode 3; or on CLKI, LBK, and TCLK in Mode 5. 2.1.3 Jabber Control Function Figure 4 on page 13 is a state diagram of the LXT908 Jabber control function. The LXT908 onchip Watch-Dog Timer prevents the DTE from locking into a continuous transmit mode. When a transmission exceeds the time limit, the Watch-Dog Timer disables the transmit and loopback functions, and activates the JAB pin. Once the LXT908 is in the jabber state, the TXD circuit must remain idle for a period of 0.25 to 0.75 seconds before it will exit the jabber state. 12 Datasheet Document #: 249049 Revision #: 002 Rev. Date: June 19, 2001 Universal 3.3V 10BASE-T and AUI Transceiver — LXT908 Figure 4. Jabber Control Function Power On No Output DO=Active Nonjabber Output Start_XMIT_MAX_Timer DO=Active ∗ XMIT_Max_Timer_Done DO=Idle Jab XMIT=Disable LPBK=Disable CI=SQE DO=Idle Unjab Wait Start_Unjab_Timer XMIT=Disable LPBK=Disable CI=SQE Unjab_ Timer_Done 2.1.4 DO=Active ∗ Unjab_Timer_Not_Done Receive Function The LXT908 receive function acquires timing and data from the twisted-pair network (TPI circuit) or from the AUI (DI circuit). Valid received signals are passed through the on-chip filters and Manchester decoder then output as decoded NRZ data and recovered clock on the RXD and RCLK pins, respectively. An internal RC filter and an intelligent squelch function discriminate noise from link test pulses and valid data streams. The receive function is activated only by valid data streams above the squelch level and with proper timing. If the differential signal at the TPI or the DI circuit inputs falls below 75 percent of the threshold level (unsquelched) for 8 bit times (typical), the LXT908 receive function enters the idle state. If the polarity of the TPI circuit is reversed, LXT908 detects the polarity reverse and reports it via the PLR output. The LXT908 automatically corrects reversed polarity. 2.1.5 SQE Function In the integrated PLS/MAU mode, the LXT908 supports the signal quality error (SQE) function as shown in Figure 5 on page 14, although the SQE function can be disabled. After every successful transmission on the 10BASE-T network when SQE is enabled, the LXT908 transmits the SQE signal for 10BT ± 5BT over the internal CI circuit, which is indicated on the COL pin of the device. Datasheet Document #: 249049 Revision #: 002 Rev. Date: June 19, 2001 13 LXT908 — Universal 3.3V 10BASE-T and AUI Transceiver SQE must be disabled for normal operation in hub and switch applications. In twisted-pair applications, the SQE function is disabled when DSQE is set High, and enabled when DSQE is Low. When using the 10BASE-2 port of the LXT908, the SQE function is determined by the external MAU attached. Figure 5. SQE Function Power On Output Idle DO=Active Output Detected DO=Idle SQE Wait Test Start_SQE_Test__Wait_Timer XMIT=Disable SQE_Test__Wait_Timer_Done ∗ XMIT=Enable SQE Test Start_SQE_Test_Timer CI=SQE SQE_Test_Timer_Done 2.1.6 Polarity Reverse Function The LXT908 polarity reverse function uses both link pulses and end-of-frame data to determine polarity of the received signal. A reversed polarity condition is detected when eight opposite receive link pulses are detected without receipt of a link pulse of the expected polarity. Reversed polarity is also detected if four frames are received with a reversed start-of-idle. Whenever a correct polarity frame or a correct link pulse is received, these two counters are reset to zero. If the LXT908 enters the link fail state and no valid data or link pulses are received within 96 to 128 ms, the polarity is reset to the default non-flipped condition. If Link Integrity Testing is disabled, polarity detection is based only on received data. Polarity correction is always enabled. 2.1.7 Loopback Function The LXT908 provides the normal loopback function specified by the 10BASE-T standard for the twisted-pair port. The loopback function operates in conjunction with the transmit function. Data transmitted by the back-end is internally looped back within the LXT908 from the TXD pin through the Manchester encoder/decoder to the RXD pin and returned to the back-end. This “normal” loopback function is disabled when a data collision occurs, clearing the RXD circuit for the TPI data. Normal loopback is also disabled during link fail and jabber states. 14 Datasheet Document #: 249049 Revision #: 002 Rev. Date: June 19, 2001 Universal 3.3V 10BASE-T and AUI Transceiver — LXT908 The LXT908 also provides three additional loopback functions. An external loopback mode, useful for system-level testing, is controlled by pin 21 (LEDC). When LEDC is tied Low, the LXT908 disables the collision detection and internal loopback circuits, to allow external loopback or fullduplex operation. “Normal” twisted-pair loopback is controlled by pin 22 (LBK). When the twisted-pair port is selected and LBK is High, twisted-pair loopback is “forced”, overriding collisions on the twistedpair circuit. When LBK is Low, normal loopback is in effect. AUI loopback is also controlled by the LBK pin. When the AUI port is selected and LBK is High, data transmitted by the back-end is internally looped back from the TXD pin through the Manchester encoder/decoder to the RXD pin. When LBK is Low, no AUI loopback occurs. 2.1.8 Collision Detection Function The collision detection function operates on the twisted-pair side of the interface. For standard (half-duplex) 10BASE-T operation, a collision is defined as the simultaneous presence of valid signals on both the TPI circuit and the TPO circuit. The LXT908 reports collisions to the back-end via the COL pin. If the TPI circuit becomes active while there is activity on the TPO circuit, the TPI data is passed to the back-end over the RXD circuit, disabling normal loopback. Figure 6 is a state diagram of the LXT908 collision detection function. Refer to Test Specifications for collision detection and COL/CI output timing. Note: For full-duplex operation, the collision detection circuitry must be disabled. Figure 6. Collision Detection Function A DO=Active ∗ TPI=Idle ∗ XMIT=Enable Power On Idle TPI=Active Output Input TPO=DO DI=DO DI=TPI DO=Active ∗ TPI=Active ∗ XMIT=Enable DO=Active ∗ TPI=Active ∗ XMIT=Enable Collision A DO=Idle + XMIT=Disable TPO=DO DI=TPI CI=SQE DO=Active ∗ TPI=Idle Datasheet Document #: 249049 Revision #: 002 Rev. Date: June 19, 2001 A TPI=Idle DO=Idle 15 LXT908 — Universal 3.3V 10BASE-T and AUI Transceiver 2.1.9 Link Pulse Transmission The LXT908 transmits standard link pulses which meet the 10BASE-T specifications. Figure 7 shows the link integrity pulse timing. Figure 7. Transmitted Link Integrity Pulse Timing 10-20 ms 2.1.10 10-20 ms 10-20 ms 10-20 ms 10-20 ms 10-20 ms 10-20 ms 10-20 ms 10-20 ms Link Integrity Test Function Figure 8 on page 17 is a state diagram of the LXT908 Link Integrity test function. The link integrity test is used to determine the status of the receive side twisted-pair cable. Link integrity testing is enabled when pin 8 (LI) is tied High. When enabled, the receiver recognizes link integrity pulses which are transmitted in the absence of receive traffic. If no serial data stream or link integrity pulses are detected within 50 - 150 ms, the chip enters a link fail state and disables the transmit and normal loopback functions. The LXT908 ignores any link integrity pulse with interval less than 2 - 7 ms. The LXT908 will remain in the link fail state until it detects either a serial data packet or two or more link integrity pulses. 16 Datasheet Document #: 249049 Revision #: 002 Rev. Date: June 19, 2001 Universal 3.3V 10BASE-T and AUI Transceiver — LXT908 Figure 8. Link Integrity Test Function Power On Idle Test Start_Link_Loss_Timer Start_Link_Test_Min_Timer Link_Loss_Timer_Done ∗ TPI=Idle ∗ Link_Test_Rcvd=False TPI=Active + (Link_Test_Rcvd=True ∗ Link_Test_Min_Timer_Done) Link Test Fail Reset Link Test Fail Wait Link_Count=0 XMIT=Disable RCVR=Disable LPBK=Disable TPI=Active Link_Test_Rcvd=False ∗ TPI=Idle XMIT=Disable RCVR=Disable LPBK=Disable Link_Count=Link_Count + 1 TPI=Active Link_Test_Rcvd=Idle ∗ TPI=Idle Link Test Fail Start_Link_Test_Min_Timer Start_Link_Test_Max_Timer XMIT=Disable RCVR=Disable LPBK=Disable TPI=Active + Link_Count=LC_Max Link_Test_Min_Timer_Done ∗ Link_Test_Rcvd=True Link Test Fail Extended XMIT=Disable RCVR=Disable LPBK=Disable TPI=Idle ∗ DO=Idle Datasheet Document #: 249049 Revision #: 002 Rev. Date: June 19, 2001 (TPI=Idle ∗ Link_Test_Max_Timer_Done) + (Link_Test_Min_Timer_Not_Done ∗ Link_Test_Rcvd=True) 17 LXT908 — Universal 3.3V 10BASE-T and AUI Transceiver 3.0 Application Information Figure 9 on page 19 through Figure 15 on page 25 show typical LXT908 applications. 3.1 External Components 3.1.1 Crystal Information Suitable crystals are available from various manufacturers. Table 3 lists suitable crystals based on a limited evaluation. Designers should test and validate all crystals before using them in production. Table 3. Suitable Crystals Manufacturer Part Number MP-1 MTRON MP-2 3.1.2 Magnetic Information The twisted-pair interface requires a 1:1 ratio for the receive transformer, and a 1:2 ratio for the transmit transformer. The AUI interface requires a 1:1 ratio for data-in, data-out, and collision-pair transformers. A cross-reference list of suitable magnetics and part numbers is available in Application Note 73, Magnetic Manufacturers (248991-001), that can be found on the Intel website (www.intel.com). Designers should test and validate all magnetics before committing to a specific component. 3.2 Layout Requirements 3.2.1 Auto Port Select with External Loopback Control Figure 9 on page 19 is a typical LXT908 application. The diagram groups similar pins together, but does not represent the actual LXT908 pin-out. The controller interface pins (TXD, RXD, TEN, TCLK, RCLK, CD, COL, and LBK) are shown at the top left of the diagram. Programmable option pins are grouped at the center left of the diagram. The PAUI pin is tied Low and all other option pins are tied High. This setup selects the following options: • Automatic Port Selection (PAUI Low and AUTOSEL High) • • • • 18 Normal Receive Threshold (NTH High) Mode 4, compatible with National NS8390 controllers (MD2:0 = Low, High, High) SQE Disabled (DSQE High) Link Testing Enabled (LI High) Datasheet Document #: 249049 Revision #: 002 Rev. Date: June 19, 2001 Universal 3.3V 10BASE-T and AUI Transceiver — LXT908 Status outputs are grouped at the lower left of the diagram. Line status outputs drive LED indicators and the Jabber and Polarity status indicators are available, as required. Power and ground pins are shown at the bottom of the diagram. A single-power supply is used for both VCC1 and VCC2, with a decoupling capacitor installed between the power and ground busses. An additional power and ground pin (VCCA and GNDA) is supported in designs using the 64-pin LQFP package. A single-power supply is used for all three power and ground pins (VCC1, VCC2, VCCA) and (GND1, GND2, GNDA). Please install a decoupling capacitor between each power and ground buss. The twisted-pair and AUI interfaces are shown at the upper and lower right of the diagram, respectively. Impedance matching resistors for 100 UTP are installed in each I/O pair, but no external filters are required. Figure 9. LAN Adapter Board - Auto Port Select with External Loopback Control TXE TXC NS8390 BACK-END CONTROLLER INTERFACE RXC RXD CRS COL LOOPBACK ENABLE LBK CLKI CLKO RJ45 TXD 1 TPIN TEN TCLK 1 : 1 16 6 100 Ω RCLK RXD 5 3 TPIP 14 CD COL 4 LBK TPONB TPONA 11.5 Ω 1% 6 1 : 2 11 220pF 11.5 Ω 1% 9 3 2 PAUI AUTOSEL NTH DSQE LI MD2 MD1 MODE SELECT MD0 TPOPB TPOPA LXT908 PROGRAMMING OPTIONS 78 Ω CIN 8 LINE STATUS 330 Green Red 330 16 9 2 10 PLR CIP 330 Red Red 1 1 1 JAB 330 2 78 Ω DON 3 15 11 4 4 13 12 5 LEDC/FDE LEDR LEDT/PDN LEDL DOP 78 Ω DIN To 10 BASE-T TWISTEDPAIR NETWORK TXD 20 pF 20 MHz 5 12 7 10 D - CONNECTOR to AUI DROP CABLE 20 pF 13 6 14 7 15 8 TEST +3.3V 8 DIP Fuse 9 12.4 kΩ VCC1 RBIAS VCC2 1% GND1 GND2 1 Chassis Gnd + 12 V 0.1 µF 1 Datasheet Document #: 249049 Revision #: 002 Rev. Date: June 19, 2001 Bias resistor RBIAS should be located close to the pin and isolated from other signals. 19 LXT908 — Universal 3.3V 10BASE-T and AUI Transceiver 3.2.2 Full Duplex Support Figure 10 shows the LXT908 with a Texas Instruments 380C24 CommProcessor. The 380C24 is compatible with Mode 4 (MD2:0 = Low, High, High). When used with the 380C24 or other fullduplex-capable controllers, the LXT908 supports full-duplex Ethernet, effectively doubling the available bandwidth of the network. In this application, the SQE function is enabled (DSQE tied Low), and the LXT908 AUI port is not used. Figure 10. Full-Duplex Operation CLKI 3 20 pF 20 MHz CLKO TXD TEN TXD TXEN TXC RXC RXD CSN COLL TPIN TCLK RCLK RXD 1N914 1 10 KΩ AUTOSEL *Open Collector Driver NTH 6 5 3 TPIP CD COL LBK LEDC/FDE 1 : 1 16 100 Ω 14 4 TPONB LXT908 LPBK *TEST0 OUTSEL0 RJ45 1 TPONA 11.5 Ω 1% 6 1 : 2 11 2 220pF TPOPB TPOPA 11.5 Ω 1% 3 8 To 10 BASE-T TWISTEDPAIR NETWORK 20 pF TMS380C24 9 1 4.7 KΩ PROGRAMMING OPTIONS LI DSQE PAUI MD2 MD1 MD0 JAB MODE SELECT LINE STATUS 330 330 330 Green Red Red CIN CIP PLR DON PAUI DOP LEDR LEDT/PDN LEDL 1 Half/Full Duplex Selection controlled by TMS380C24 Pins Test0 and OUTSEL0. 2 Bias resistor RBIAS should be located close to the pin and isolated from other signals. 3 The TMS380C26 may be substituted for dual network support of 10BASE-T and Token Ring. DIN DIP TEST +3.3 V VCC1 2 12.4 kΩ RBIAS 1% VCC2 GND1 GND2 0.1 µF 20 Datasheet Document #: 249049 Revision #: 002 Rev. Date: June 19, 2001 Universal 3.3V 10BASE-T and AUI Transceiver — LXT908 3.2.3 Dual Network Support-10Base T and Token Ring Figure 11 shows the LXT908 with a Texas Instruments 380C26 CommProcessor. The 380C26 is compatible with Mode 4 (MD2:0 = Low, High, High). When used with the 380C26, both the LXT908 and a TMS38054 Token Ring transceiver can be tied to a single RJ-45, allowing dual network support from a single connector. The LXT908 AUI port is not used. Figure 11. LXT908/380C26 Interface for Dual Network Support of 10BASE-T and Token Ring From TI TMS38054 Token Ring Transceiver To TI TMS38054 Token Ring Transceiver 380C26 CLKI TXD TXD TXE TXC RXC RXD CRS COL LBK CLKO TPIN RXD CD COL TPIP JAB PLR LINE STATUS 330 330 330 Green Red Red Red RJ45 1 : 1 16 6 5 3 14 4 TPONB TPONA 11.5 Ω 1% 6 1 : 2 11 TPOPA 11.5 Ω 1% 3 2 220pF 8 9 1 TPOPB 18 pF LXT908 MD2 MD1 MD0 1 100 Ω AUTOSEL NTH DSQE PAUI LI MODE SELECT 2 TEN TCLK RCLK LBK PROGRAMMING OPTIONS 330 20 pF 20 MHz To 10 BASE-T TWISTEDPAIR NETWORK 20 pF CIN CIP LEDC/FDE LEDR LEDT/PDN LEDL 1 Bias resistor RBIAS should be located close to the pin and isolated from other signals. 2 Additional magnetics and switching logic (not shown) is required to implement the dual network solution. DON DOP DIN DIP TEST +3.3 V 12.4 kΩ VCC1 RBIAS VCC2 1% GND1 GND2 1 0.1 µF Datasheet Document #: 249049 Revision #: 002 Rev. Date: June 19, 2001 21 LXT908 — Universal 3.3V 10BASE-T and AUI Transceiver 3.2.4 Manual Port Select & Link Test Function When MD2:0 = Low, High, Low, the LXT908 logic and framing are set to Mode 3 (compatible with Fujitsu MB86950 and MB86960, and Seeq 8005 controllers). Figure 12 shows the setup for Fujitsu controllers. Figure 13 on page 23 shows the four inverters required to interface with the Seeq 8005 controller. As in Figure 9 on page 19, both these Mode 3 applications show the LI pin tied High, enabling Link Testing; and the NTH and DSQE pins are both tied High, selecting the standard receiver threshold and disabling SQE. However, in these applications, AUTOSEL is tied Low, allowing external port selection through the PAUI pin. Figure 12. LAN Adapter Board - Manual Port Select with Link Test Function 20 pF 20 pF 20 MHz RXD XCD XCOL LBC Port Selection PROGRAMMING OPTIONS MODE SELECT MD2 MD1 MD0 LINE STATUS JAB PLR 330 Green 330 Red 330 Red CLKO RJ45 1 16 6 100 Ω 5 14 3 TPIP 4 TPONB TPONA 11.5 Ω 1% 6 1:2 3 11 2 220pF TPOPA TPOPB 11.5 Ω 1% 78 Ω CIN 8 9 1 1 1 16 9 2 10 330 Red 1:1 TPIN LEDC/FDE LEDR LEDT/PDN LEDL 2 CIP 78 Ω DON 3 15 11 4 4 13 12 5 DOP 78 Ω DIN To 10 BASE-T TWISTEDPAIR NETWORK TCKN RCKN MB86950 or MB86960 BACK-END/ CONTROLLER INTERFACE CLKI TXD TEN TCLK RCLK RXD CD COL LBK PAUI AUTOSEL NTH DSQE LI 5 12 7 10 D - CONNECTOR to AUI DROP CABLE TEN LXT908 TXD 13 6 14 7 15 8 TEST +3.3 V VCC1 8 DIP Fuse 9 12.4 kΩ RBIAS VCC2 1% GND1 GND2 1 Chassis Gnd + 12 V 0.1 µF 1 22 Bias resistor RBIAS should be located close to the pin and isolated from other signals. Datasheet Document #: 249049 Revision #: 002 Rev. Date: June 19, 2001 Universal 3.3V 10BASE-T and AUI Transceiver — LXT908 Figure 13. Manual Port Select with Seeq 8005 Controller External 20 MHz Source Left Open CSN 8005 CLKO CLKI LBK CD RXD RCLK COL TEN TCLK TXD PAUI AUTOSEL NTH DSQE LI RxD RxC COLL TxEN TxC TxD Port Selection PROGRAMMING OPTIONS RJ45 1 1:1 16 TPIN 6 100 Ω 5 14 3 TPIP 4 TPONB 11.5 Ω 1% 6 TPONA 1:2 3 11 2 220pF TPOPA 11.5 Ω 1% 8 To 10 BASE-T TWISTEDPAIR NETWORK CLKI LPBK 9 1 MODE SELECT JAB PLR LINE STATUS 330 330 330 78 Ω CIN 1 1 Red Red Red 9 2 10 330 2 Green 16 LEDC/FDE LEDR LEDT/PDN LEDL TEST CIP 78 Ω DON 3 15 11 4 4 13 12 5 DOP 78 > DIN 5 12 7 10 D - CONNECTOR to AUI DROP CABLE MD2 MD1 MD0 LXT908 TPOPB 13 6 14 7 15 8 8 DIP VCC1 +3.3V RBIAS VCC2 Fuse 9 12.4 kΩ 1% GND1 GND2 1 Chassis Gnd + 12 V 0.1 µF 1 Datasheet Document #: 249049 Revision #: 002 Rev. Date: June 19, 2001 Bias resistor RBIAS should be located close to the pin and isolated from other signals. 23 20 MHz System Clock 24 0.1 µF +3.3 V 10 k Ω LBK CDT CRS RXD RXC RTS TXC 1 CLKO 12.4 kΩ 1% RBIAS VCC2 VCC1 TEST LEDL LEDT/PDN LEDR LEDC/FDE PLR JAB MD0 MD1 MD2 LI PAUI DSQE NTH AUTOSEL LBK COL CD RXD RCLK TCLK TEN TXD CLKI GND1 LXT908 Power Down 10 k Ω LINE STATUS MODE SELECT LINK TEST ENABLE PROGRAMMING OPTIONS CLK TXD GND2 DIP DIN DOP DON CIP CIN TPOPB TPOPA TPONA TPONB TPIP TPIN 11.5 Ω 1% 11.5 Ω 1% 100 Ω 8 6 3 1 1:2 1:1 9 11 14 16 78 Ω 78 Ω 78 Ω 1 2 3 4 5 6 9 8 10 9 8 12 13 15 7 5 4 2 16 10 7 1 12 5 13 15 2 4 16 To 10 BASE-T TWISTEDPAIR NETWORK 1 RJ45 8 7 6 5 4 3 2 Chassis Gnd 15 14 13 12 11 10 9 1 1.5 kΩ + 12 V Fuse D - CONNECTOR to AUI DROP CABLE (Thick Coax) HBE GND RXRX+ RR+ RR- VEE TX+ VEE VEE RXI TXD CD+ TX- CDS CD- DP8392 0.01 µF 1 MΩ 1/2 W -9V 1 kΩ 1% 1N916 0V 9 13 12 V- N/C V+ 24 23 3 2 1 75 µF / 1 kV GND GND EN 5V 5V PM6044 BHC to THIN COAX NETWORK +5 V 3.2.5 82566 BACK-END/ CONTROLLER INTERFACE Left Open LXT908 — Universal 3.3V 10BASE-T and AUI Transceiver Three Media Application Figure 14 shows the LXT908 in Mode 2 (compatible with Intel 82596 controllers) with additional media options for the AUI port. Two transformers are used to couple the AUI port to either a D-connector or a BNC connector. (A DP8392 coax transceiver with PM6044 power supply are required to drive the thin coax network through the BNC. Figure 14. Three Media Application Document #: 249049 Revision #: 002 Rev. Date: June 19, 2001 Datasheet Universal 3.3V 10BASE-T and AUI Transceiver — LXT908 3.2.6 AUI Encoder/Decoder Only In the application shown in Figure 15, the DTE is connected to a coaxial network through the AUI. AUTOSEL is tied Low and PAUI is tied High, manually selecting the AUI port. The twisted-pair port is not used. With MD2:0 all tied Low, the LXT908 logic and framing are set to Mode 1 (compatible with AMD and Motorola controllers). The LI pin is tied Low, disabling the link test function. The DSQE pin is also Low, enabling the SQE function. The LBK input controls loopback. A 20 MHz system clock is supplied at CLKI, with CLKO left open. Figure 15. AUI Encoder/Decoder Only Application Left Open 20 MHz TX TENA TCLK RCLK AM7990 BACK-END/ CONTROLLER INTERFACE RX RENA CLSN LOOPBACK CONTROL LBK CLKI CLKO TXD TEN TCLK RCLK RXD CD COL LBK AUTOSEL 78 Ω PAUI 16 2 JAB PLR LINE STATUS 330 CIP LXT908 MD2 MD1 MD0 9 10 LI MODE SELECT 330 1 1 NTH DSQE PROGRAMMING OPTIONS 330 CIN DON 2 78 Ω 4 3 15 11 4 13 12 5 DOP DIN 5 12 78 Ω 7 10 330 13 6 14 D - CONNECTOR to AUI DROP CABLE SYSTEM CLOCK 7 15 8 GREEN Red Red Red LEDC/FDE LEDR LEDT/PDN LEDL 8 DIP Fuse 9 Chassis Gnd TEST +3.3 V VCC1 + 12 V 1 RBIAS VCC2 12.4 kΩ 1% GND1 GND2 1 Datasheet Document #: 249049 Revision #: 002 Rev. Date: June 19, 2001 Bias resistor RBIAS should be located close to the pin and isolated from the other signals 25 LXT908 — Universal 3.3V 10BASE-T and AUI Transceiver 4.0 Test Specifications Note: Table 4 through Table 13 on page 29 and Figure 16 on page 30 through Figure 45 on page 39 represent the performance specifications of the LXT908. These specifications are guaranteed by test except where noted “by design.” Minimum and maximum values listed in Table 6 through Table 13 on page 29 apply over the recommended operating conditions specified in Table 5. For all Quality and Reliability issues (for example, parts packaging and thermal specifications), please send your questions to Intel at the following e-mail address: [email protected]. . Table 4. Absolute Maximum Values Parameter Symbol Min Max Units Supply voltage VCC -0.3 6 V Storage temperature TSTG -65 +150 ºC Caution: Table 5. Exceeding these values may cause permanent damage. Functional operation under these conditions is not implied. Exposure to maximum rating conditions for extended periods may affect device reliability. Recommended Operating Conditions Parameter Symbol Min Typ Max Units 1 VCC 3.13 3.3 3.47 V Recommended supply voltage Recommended operating temperature (Commercial) TOP 0 – +70 ºC Recommended operating temperature (Extended) TOP -40 – +85 ºC 1. Voltages with respect to ground unless otherwise specified. Table 6. I/O Electrical Characteristics Parameter Sym Min Typ1 Max Units 2 VIL – – 0.8 V VIH 2.0 – – V Input Low voltage Input High voltage 2 VOL – – 0.4 V IOL = 1.6 mA VOL – – 10 %VCC IOL < 10 µ A VOLL – – 0.7 V IOLL = 10 mA VOH 2.4 – – V IOH = 40 µA VOH 90 – – %VCC IOH < 10 µA CMOS – – 3 12 ns CLOAD = 20 pF TTL – – 2 8 ns Output Low voltage Output Low voltage (Open drain LED driver) Output High voltage Output rise time TCLK & RCLK Test Conditions 1. Typical values are at 25°C and are for design aid only, are not guaranteed, and are not subject to production testing. 2. Limited functional tests are performed at these input levels. The majority of functional tests are performed at levels of 0V and 3V. 26 Datasheet Document #: 249049 Revision #: 002 Rev. Date: June 19, 2001 Universal 3.3V 10BASE-T and AUI Transceiver — LXT908 Table 6. I/O Electrical Characteristics (Continued) Parameter Sym Min Typ1 Max Units Test Conditions CLOAD= 20 pF Output fall time CMOS – – 3 12 ns TCLK & RCLK TTL – – 2 8 ns CLKI rise time (externally driven) – – – 10 ns CLKI duty cycle (externally driven) – – 40/60 % ICC – 85 mA Idle Mode Normal Mode 65 ICC – 95 120 mA Transmitting on TP ICC – 90 120 mA Transmitting on AUI ICC – 0.75 2 mA Supply current Power Down Mode 1. Typical values are at 25°C and are for design aid only, are not guaranteed, and are not subject to production testing. 2. Limited functional tests are performed at these input levels. The majority of functional tests are performed at levels of 0V and 3V. Table 7. AUI Electrical Characteristics Symbol Min Typ1 Max Units Test Conditions Input Low current IIL – – -700 µA – Input High current IIH – – 500 µA – Differential output voltage VOD ±550 – ±1200 mV – Differential squelch threshold VDS 150 260 350 mV 5 MHz square wave input Parameter 1. Typical values are at 25°C and are for design aid only, are not guaranteed, and are not subject to production testing. Table 8. Twisted-Pair Electrical Characteristics Symbol Min Typ1 Max Units ZOUT – 5 – Ω Transmit timing jitter addition2 – – ±6.4 ±10 ns 0 line length for internal MAU Transmit timing jitter added by the MAU and PLS sections2, 3 – – ±3.5 ±5.5 ns After line model specified by IEEE 802.3 for 10BASE-T internal MAU Parameter Transmit output impedance Test Conditions 1. Typical values are at 25°C and are for design aid only, are not guaranteed, and are not subject to production testing. 2. Parameter is guaranteed by design; not subject to production testing. 3. IEEE 802.3 specifies maximum jitter additions at 1.5 ns for the AUI cable, 0.5 ns from the encoder, and 3.5 ns from the MAU. Datasheet Document #: 249049 Revision #: 002 Rev. Date: June 19, 2001 27 LXT908 — Universal 3.3V 10BASE-T and AUI Transceiver Table 8. Twisted-Pair Electrical Characteristics (Continued) Symbol Min Typ1 Max Units Test Conditions ZIN – 20 – kΩ Between TPIP/TPIN, CIP/CIN & DIP/DIN Normal Threshold NTH = High VDS 300 395 585 mV 5 MHz square wave input Reduced Threshold NTH = Low VDS 180 250 345 mV 5 MHz square wave input Parameter Receive input impedance Differential Squelch Threshold 1. Typical values are at 25°C and are for design aid only, are not guaranteed, and are not subject to production testing. 2. Parameter is guaranteed by design; not subject to production testing. 3. IEEE 802.3 specifies maximum jitter additions at 1.5 ns for the AUI cable, 0.5 ns from the encoder, and 3.5 ns from the MAU. Table 9. Switching Characteristics Parameter Symbol Minimum Typical1 Maximum Units Maximum transmit time – 20 – 150 ms Unjab time – 250 – 750 ms Time link loss receive – 50 – 150 ms Link min receive – 2 – 7 ms Link max receive – 50 – 150 ms Link transmit period – 8 10/20 24 ms Jabber Timing Link Integrity Timing 1. Typical values are at 25°C and are for design aid only, are not guaranteed, and are not subject to production testing. Table 10. RCLK/Start-of-Frame Timing Symbol Minimum Typical1 Maximum Units AUI tDATA – 900 1100 ns TP tDATA – 1200 1500 ns AUI tCD – 25 200 ns Parameter Decoder acquisition time CD turn-on delay Receive data setup from RCLK Receive data hold from RCLK TP tCD – 420 550 ns Mode 1 tRDS 60 70 – ns Modes 2 through 5 tRDS 30 45 – ns Mode 1 tRDH 10 20 – ns Modes 2 through 5 tRDH 30 45 – ns tsws – ±100 – ns RCLK shut off delay from CD assert (Mode 3 and Mode 5) 1. Typical values are at 25°C and are for design aid only, are not guaranteed, and are not subject to production testing. 28 Datasheet Document #: 249049 Revision #: 002 Rev. Date: June 19, 2001 Universal 3.3V 10BASE-T and AUI Transceiver — LXT908 Table 11. RCLK/End-of-Frame Timing Type Sym Mode 1 Mode 2 Mode 3 Mode 4 Mode 5 Units RCLK after CD off Min tRC 5 1 – 5 – BT RXD throughput delay Max tRD 400 375 375 375 375 ns CD turn off delay2 Max tCDOFF 500 475 475 475 475 ns tIFG 5 50 – – – BT tSWE – – 120(±8 0) – 120(±8 0) ns Parameter 1 Receive block out after TEN off Typ RCLK switching delay after CD off (Mode 3 and 5) Typ1 1. Typical values are at 25°C and are for design aid only, are not guaranteed, and are not subject to production testing. 2. CD turn-off delay measured from middle of last bit: timing specification is unaffected by the value of the last bit. Table 12. Transmit Timing Parameter Symbol Minimum Typical1 Maximum Units TEN setup from TCLK tEHCH 22 – – ns TXD setup from TCLK tDSCH 22 – – ns TEN hold after TCLK tCHEL 5 – – ns TXD hold after TCLK tCHDU 5 – – ns Transmit start-up delay - AUI tSTUD – 220 450 ns Transmit start-up delay - TP tSTUD – 430 450 ns Transmit through-put delay - AUI tTPD – – 300 ns Transmit through-put delay - TP tTPD – 305 350 ns 1. Typical values are at 25°C and are for design aid only, are not guaranteed, and are not subject to production testing. Table 13. Collision, COL/CI Output and Loopback Timing Symbol Minimum Typical1 Maximum Units COL turn-on delay tCOLD – 40 500 ns COL turn-off delay Parameter tCOLOFF – 420 500 ns COL (SQE) Delay after TEN off tSQED 0.65 1.2 1.6 µs COL (SQE) Pulse Duration tSQEP 500 1000 1500 ns LBK setup from TEN tKHEH 10 25 – ns LBK hold after TEN tKHEL 10 0 – ns 1. Typical values are at 25°C and are for design aid only, are not guaranteed, and are not subject to production testing. Datasheet Document #: 249049 Revision #: 002 Rev. Date: June 19, 2001 29 LXT908 — Universal 3.3V 10BASE-T and AUI Transceiver 4.1 Timing Diagrams for Mode 1 (MD2, 1, 0 = Low, Low, Low) Figures 16 - 21 Figure 16. Mode 1 RCLK/Start-of-Frame Timing 1 0 1 0 1 0 1 0 1 1 1 0 1 0 0 0 1 0 1 0 0 1 0 1 1 1 TPIP/TPIN or DIP/DIN tCD CD RCLK tRDS tRDH tDATA RXD 1 0 1 0 1 0 1 Note: RXD changes 25 ns after the rising edge of RCLK. Figure 17. Mode 1 RCLK/End-of-Frame Timing 1 0 1 0 1 0 1 0 0 TPIP/TPIN or DIP/DIN tCDOFF CD tRD tRC RCLK RXD 1 0 1 0 1 0 1 0 0 Note: RXD changes 25 ns after the rising edge of RCLK. 30 Datasheet Document #: 249049 Revision #: 002 Rev. Date: June 19, 2001 Universal 3.3V 10BASE-T and AUI Transceiver — LXT908 Figure 18. Mode 1 Transmit Timing TEN tCHEL tEHCH TCLK tDSCH tCHDU TXD tSTUD tTPD TPO Figure 19. Mode 1 Collision Detect Timing CI tCOLOFF tCOLD COL Figure 20. Mode 1 COL/SQE Output Timing/CI Output Timing TEN tSQED COL tSQEP Figure 21. Mode 1 Loopback Timing LBK tKHEH tKHEL TEN Datasheet Document #: 249049 Revision #: 002 Rev. Date: June 19, 2001 31 LXT908 — Universal 3.3V 10BASE-T and AUI Transceiver 4.2 Timing Diagrams for Mode 2 (MD2, 1, 0 = Low, Low, High) Figures 22 - 27 Figure 22. Mode 2 RCLK/Start-of-Frame Timing 1 0 1 0 1 0 1 0 1 1 1 0 1 0 0 0 1 0 1 0 0 1 0 1 1 1 TPIP/TPIN or DIP/DIN tCD CD RCLK tRDS tRDH tDATA RXD 1 0 1 0 1 0 1 Note: RXD changes at the rising edge of RCLK. The controller should sample at the falling edge. Figure 23. Mode 2 RCLK/End-of-Frame Timing 1 0 1 0 1 0 1 0 0 TPIP/TPIN or DIP/DIN CD tCDOFF tRD RCLK RXD 1 0 1 0 1 0 1 0 0 Note: RXD changes at the rising edge of RCLK. The controller should sample at the falling edge. 32 Datasheet Document #: 249049 Revision #: 002 Rev. Date: June 19, 2001 Universal 3.3V 10BASE-T and AUI Transceiver — LXT908 Figure 24. Mode 2 Transmit Timing TEN tCHEL tEHCH TCLK tDSCH tCHDU TXD tSTUD tTPD TPO Figure 25. Mode 2 Collision Detect Timing CI tCOLD tCOLOFF COL Figure 26. Mode 2 COL/SQE Output Timing tIFG TEN tSQED COL tSQEP Figure 27. Mode 2 Loopback Timing LBK tKHEH tKHEL TEN Datasheet Document #: 249049 Revision #: 002 Rev. Date: June 19, 2001 33 LXT908 — Universal 3.3V 10BASE-T and AUI Transceiver 4.3 Timing Diagrams for Mode 3 (MD2, 1, 0 = Low, High, Low) Figures 28 - 33 Figure 28. Mode 3 RCLK/Start-of-Frame Timing 1 0 1 0 1 0 1 0 1 1 1 0 1 0 0 0 1 0 1 TPIP/TPIN or DIP/DIN tCD CD tSWS Recovered from Input Data Stream RCLK tRDS Generated from TCLK tRDH tDATA RXD 1 0 1 0 1 0 1 0 1 1 1 0 1 Note: RXD changes at the rising edge of RCLK. The controller should sample at the falling edge. Figure 29. Mode 3 RCLK/End-of-Frame Timing 1 0 1 0 1 0 1 0 0 TPIP/TPIN or DIP/DIN tCDOFF CD tRD tSWE RCLK Recovered Clock Generated from TCLK RXD 1 0 1 0 1 0 1 0 0 Note: RXD changes at the rising edge of RCLK. The controller should sample at the falling edge. 34 Datasheet Document #: 249049 Revision #: 002 Rev. Date: June 19, 2001 Universal 3.3V 10BASE-T and AUI Transceiver — LXT908 Figure 30. Mode 3 Transmit Timing TEN tCHEL tEHCH TCLK tDSCH tCHDU TXD tSTUD tTPD TPO Figure 31. Mode 3 Collision Detect Timing CI tCOLOFF tCOLD COL Figure 32. Mode 3 COL/SQE Output Timing TEN tSQED tSQEP COL Figure 33. Mode 3 Loopback Timing LBK tKHEH tKHEL TEN Datasheet Document #: 249049 Revision #: 002 Rev. Date: June 19, 2001 35 LXT908 — Universal 3.3V 10BASE-T and AUI Transceiver 4.4 Timing Diagrams for Mode 4 (MD2, 1, 0 = Low, High, High) Figures 34 - 39 Figure 34. Mode 4 RCLK/Start-of-Frame Timing 1 0 1 0 1 0 1 0 1 1 1 0 1 0 0 0 1 0 1 TPIP/TPIN or DIP/DIN tCD CD RCLK tRDS tRDH tDATA RXD 1 0 1 0 1 0 1 0 1 1 1 0 1 Note: RXD changes at the rising edge of RCLK. The controller should sample at the falling edge. Figure 35. Mode 4 RCLK/End-of-Frame Timing 1 0 1 0 1 0 1 0 0 TPIP/TPIN or DIP/DIN tCDOFF CD tRD RCLK RXD 1 0 1 0 1 0 1 0 0 Note: RXD changes at the rising edge of RCLK. The controller should sample at the falling edge. 36 Datasheet Document #: 249049 Revision #: 002 Rev. Date: June 19, 2001 Universal 3.3V 10BASE-T and AUI Transceiver — LXT908 Figure 36. Mode 4 Transmit Timing TEN tCHEL tEHCH TCLK tDSCH tCHDU TXD tTPD tSTUD TPO Figure 37. Mode 4 Collision Detect Timing CI tCOLD tCOLOFF COL Figure 38. Mode 4 COL/SQE Output Timing TEN tSQED COL tSQEP Figure 39. Mode 4 Loopback Timing LBK tKHEH tKHEL TEN Datasheet Document #: 249049 Revision #: 002 Rev. Date: June 19, 2001 37 LXT908 — Universal 3.3V 10BASE-T and AUI Transceiver 4.5 Timing Diagrams for Mode 5 (MD2, 1, 0 = High, High, Low) Figures 40 - 45 Figure 40. Mode 5 RCLK/Start-of-Frame Timing 1 0 1 0 1 0 1 0 1 1 1 0 1 0 0 0 1 0 1 TPIP/ TPIN tCD CD tSWS Recovered from Input Data Stream RCLK tRDS Generated from TCLK tRDH tDATA RXD 1 0 1 0 1 0 1 0 1 1 1 0 1 Note: RXD changes at the rising edge of RCLK. The controller should sample at the falling edge. Figure 41. Mode 5 RCLK/End-of-Frame Timing 1 0 1 0 1 0 1 0 0 TPIP/ TPIN tCDOFF CD tRD tSWE RCLK Recovered Clock Generated from TCLK RXD 1 0 1 0 1 0 1 0 0 Note: RXD changes at the rising edge of RCLK. The controller should sample at the falling edge. 38 Datasheet Document #: 249049 Revision #: 002 Rev. Date: June 19, 2001 Universal 3.3V 10BASE-T and AUI Transceiver — LXT908 Figure 42. Mode 5 Transmit Timing TEN tCHEL tEHCH TCLK tDSCH tCHDU TXD tSTUD tTPD TPO Figure 43. Mode 5 Collision Detect Timing CI tCOLOFF tCOLD COL Figure 44. Mode 5 COL/SQE Output Timing TEN tSQED tSQEP COL Figure 45. Mode 5 Loopback Timing LBK tKHEH tKHEL TEN Datasheet Document #: 249049 Revision #: 002 Rev. Date: June 19, 2001 39 LXT908 — Universal 3.3V 10BASE-T and AUI Transceiver 5.0 Mechanical Specifications Figure 46. 44-Pin PLCC Package Specifications 44-Pin Plastic Leaded Chip Carrier • Part Number LXT908PC - Commercial temperature range (0°C to +70°C) • Part Number LXT908PE - Extended temperature range (-40°C to +85°C) Inches CL Millimeters Dim Min Max Min Max A 0.165 0.180 4.191 4.572 A1 0.090 0.120 2.286 3.048 A2 0.062 0.083 1.575 2.108 B 0.050 – 1.270 – C 0.026 0.032 0.660 0.813 D 0.685 0.695 17.399 17.653 D1 0.650 0.656 16.510 16.662 F 0.013 0.021 0.330 0.533 C B D1 D D A2 A A1 F 40 Datasheet Document #: 249049 Revision #: 002 Rev. Date: June 19, 2001 Universal 3.3V 10BASE-T and AUI Transceiver — LXT908 Figure 47. 64-Pin LQFP Package Specifications 64-Pin Low-Profile Quad Flat Package • Part Number LXT908LC (Commercial Temperature Range) • Part Number LXT908LE (Extended Temperature Range) D Inches D1 Millimeters Dim Min Max Min Max A – 0.063 – 1.60 A1 0.002 0.006 0.05 0.15 A2 0.053 0.057 1.35 1.45 B 0.007 .011 0.17 0.27 D 0.472 BSC 12.00 BSC D1 0.394 BSC 10.00 BSC E 0.472 BSC 12.00 BSC E1 0.394 BSC 10.00 BSC e 0.020 BSC 0.50 BSC L 0.018 L1 0.030 0.45 0.039 REF E1 0.75 e e/ 2 1.00 REF θ3 11o 13o 11o 13o θ 0o 7o 0o 7o θ3 L1 A2 A A1 L Datasheet Document #: 249049 Revision #: 002 Rev. Date: June 19, 2001 E B θ θ3 41 Universal 3.3V 10BASE-T and AUI Transceiver — LXT908 Appendix A Ordering Information Table 14. Product Information Number Revision Qualification Tray MM Tape & Reel MM DJLXT908LC.A4 A4 S 831651 831809 DJLXT908LE.A4 A4 S 831652 831810 NLXT908PC.A4 A4 S 831668 831824 NLXT908PE.A4 A4 S 831669 831825 Figure 48. Ordering Information - Sample DJ LXT 908 L C A4 S E001 Build Format E000 = Tray E001 = Tape and reel Qualification = Pre-production material Q = Production material S Product Revision = 2 Alphanumeric characters xn Temperature Range = Ambient (0 - 55° C) A = Commercial (0 - 70° C) C = Extended (-40 - +85° C) E Internal Package Designator = LQFP L = PLCC P = DIP N = PQFP Q = QFP with heat spreader H = TQFP T = BGA B = TBGA E = HSBGA (BGA with heat slug) K xxxx = 3-5 Digit Alphanumeric Product Code IXA Product Prefix = PHY layer device LXT = Switching engine IXE = Formatting device (MAC) IXF = Network processor IXP Intel Package Designator DJ = LQFP FA = TQFP FL = PBGA (<1.0 mm pitch) FW = PBGA (1.27 mm pitch) HB = QFP with heat spreader HD = QFP with heat slug HG = SOIC S = QFP GC = TBGA N = PLCC Datasheet Document #: 249049 Revision #: 002 Rev. Date: June 19, 2001 43