RTL8139C(L) REALTEK 3.3V SINGLE CHIP FAST ETHERNET CONTROLLER WITH POWER MANAGEMENT RTL8139C(L) 7.1 Summary of EEPROM Registers ............................. 35 7.2 Summary of EEPROM Power Management Registers....... 35 8. PCI Configuration Space Registers..................... 36 8.1 PCI Configuration Space Table ........................ 36 8.2 PCI Configuration Space Functions.................. 37 8.3 Default Values After Power-on (RSTB asserted)...... 42 8.4 PCI Power Management Functions .................. 43 8.5 Vital Product Data (VPD)................................. 45 9. Functional Description ......................................... 46 9.1 Transmit Operation ........................................... 46 9.2 Receive Operation............................................. 46 9.3 Line Quality Monitor ........................................ 46 9.4 Clock Recovery Module ................................... 46 9.5 Loopback Operation ......................................... 46 9.6 Tx Encapsulation .............................................. 46 9.7 Collision............................................................ 46 9.8 Rx Decapsulation.............................................. 47 9.9 Flow Control..................................................... 47 9.9.1. Control Frame Transmission..................... 47 9.9.2. Control Frame Reception .......................... 47 9.10 LED Functions................................................ 47 9.10.1 10/100 Mbps Link Monitor...................... 47 9.10.2 LED_RX .................................................. 48 9.10.3 LED_TX .................................................. 48 9.10.4 LED_TX+LED_RX................................. 49 10. Application Diagram .......................................... 50 11. Electrical Characteristics ................................... 51 11.1 Temperature Limit Ratings ............................. 51 11.2 DC Characteristics .......................................... 51 11.2.1 Supply Voltage ........................................ 51 11.3 AC Characteristics .......................................... 52 11.3.1 FLASH/BOOT ROM Timing .................. 52 11.3.2 PCI Bus Operation Timing: ..................... 54 12. Mechanical Dimensions ...................................... 60 1. Features: .................................................................. 2 2. General Description................................................ 3 3. Block Diagram ........................................................ 4 4. Pin Assignments...................................................... 5 5. Pin Descriptions ...................................................... 6 5.1 Power Management/Isolation Interface .............. 6 5.2 PCI Interface....................................................... 6 5.3 FLASH/EEPROM Interface ............................... 8 5.4 Power Pins .......................................................... 9 5.5 LED Interface ..................................................... 9 5.6 Attachment Unit Interface .................................. 9 5.7 Test and Other Pins............................................. 9 6. Register Descriptions............................................ 10 6.1 Receive Status Register in Rx packet header.... 12 6.2 Transmit Status Register................................... 13 6.3 ERSR: Early Rx Status Register....................... 14 6.4 Command Register ........................................... 14 6.5 Interrupt Mask Register .................................... 15 6.6 Interrupt Status Register ................................... 15 6.7 Transmit Configuration Register ...................... 16 6.8 Receive Configuration Register........................ 17 6.9 9346CR: 93C46 (93C56) Command Register ......... 19 6.10 CONFIG 0: Configuration Register 0............. 20 6.11 CONFIG 1: Configuration Register 1............. 21 6.12 Media Status Register ..................................... 22 6.13 CONFIG 3: Configuration Register3.............. 22 5.14 CONFIG 4: Configuration Register4.............. 24 6.15 Multiple Interrupt Select Register..................... 25 6.16 PCI Revision ID.............................................. 25 6.17 Transmit Status of All Descriptors (TSAD) Register......... 25 6.18 Basic Mode Control Register.......................... 26 6.19 Basic Mode Status Register ............................ 26 6.20 Auto-negotiation Advertisement Register.............. 27 6.21 Auto-Negotiation Link Partner Ability Register............... 27 6.22 Auto-negotiation Expansion Register .............. 28 6.23 Disconnect Counter ........................................ 28 6.24 False Carrier Sense Counter ........................... 28 6.25 NWay Test Register........................................ 28 6.26 RX_ER Counter.............................................. 29 6.27 CS Configuration Register.............................. 29 6.28 Flash Memory Read/Write Register ........................ 29 6.29 Config5: Configuration Register 5 ................. 30 6.30 Function Event Register ................................. 31 6.31 Function Event Mask Register........................ 31 6.32 Function Present State Register ...................... 32 6.33 Function Force Event Register ....................... 32 7. EEPROM Contents .............................................. 33 2002/01/10 1 Rev.1.4 RTL8139C(L) 1. Features 128 pin QFP/LQFP Supports auxiliary power-on internal reset, to be ready for remote wake-up when main power still remains off Integrated Fast Ethernet MAC, Physical chip and transceiver in one chip Supports auxiliary power auto-detect, and sets the related capability of power management registers in PCI configuration space. 10 Mb/s and 100 Mb/s operation Supports 10 Mb/s and Auto-negotiation operation 100 Mb/s N-way Includes a programmable, PCI burst size and early Tx/Rx threshold. PCI local bus single-chip Fast Ethernet controller Supports a 32-bit general-purpose timer with the external PCI clock as clock source, to generate timer-interrupt Compliant to PCI Revision 2.2 Supports PCI clock 16.75MHz-40MHz Contains two large (2Kbyte) independent receive and transmit FIFO’s Supports PCI target fast back-to-back transaction Provides PCI bus master data transfers and PCI memory space or I/O space mapped data transfers of RTL8139C(L)'s operational registers Advanced power saving mode when LAN function or wakeup function is not used Supports CardBus. The CIS can be stored in 93C56 or expansion ROM Uses 93C46 (64*16-bit EEPROM) or 93C56 (128*16-bit EEPROM) to store resource configuration, ID parameter, and VPD data. The 93C56 can also be used to store the CIS data structure for CardBus application. Supports up to 128K bytes Boot ROM interface for both EPROM and Flash memory Supports LED pins for various network activity indications Supports 25MHz crystal or 25MHz OSC as the internal clock source. The frequency deviation of either crystal or OSC must be within 50 PPM. Supports digital and analog loopback capability on both ports Compliant to PC99 standard Supports Full Duplex Flow Control (IEEE 802.3x) Supports Wake-On-LAN function and remote wake-up (Magic Packet*, LinkChg and Microsoft® wake-up frame) 3.3V power supply with 5V tolerant I/Os. Supports PCI VPD (Vital Product Data) Supports ACPI, PCI power management Half/Full duplex capability * Third-party brands and names are the property of their respective owners. Supports 4 Wake-On-LAN (WOL) signals (active high, active low, positive pulse, and negative pulse) Note: The model number of the QFP package is RTL8139C. The LQFP package model number is RTL8139CL. 2002/01/10 2 Rev.1.4 RTL8139C(L) 2. General Description The Realtek RTL8139C(L) is a highly integrated and cost-effective single-chip Fast Ethernet controller that provides 32-bit performance, PCI bus master capability, and full compliance with IEEE 802.3u 100Base-T specifications and IEEE 802.3x Full Duplex Flow Control. It also supports Advanced Configuration Power management Interface (ACPI), PCI power management for modern operating systems that are capable of Operating System Directed Power Management (OSPM) to achieve the most efficient power management possible. The RTL8139CL is suitable for applications such as CardBus or mobile devices with a built-in network controller. The CIS data can be stored in either a 93C56 EEPROM or expansion ROM. In addition to the ACPI feature, the RTL8139C(L) also supports remote wake-up (including AMD Magic Packet, LinkChg, and Microsoft wake-up frame) in both ACPI and APM environments. The RTL8139C(L) is capable of performing an internal reset through the application of auxiliary power. When auxiliary power is on and the main power remains off, the RTL8139C(L) is ready and waiting for the Magic Packet or Link Change to wake the system up. Also, the LWAKE pin provides 4 different output signals including active high, active low, positive pulse, and negative pulse. The versatility of the RTL8139C(L) LWAKE pin provides motherboards with the Wake-On-LAN (WOL) function. The RTL8139C(L) also supports Analog Auto-Power-down, that is, the analog part of the RTL8139C(L) can be shut down temporarily according to user requirements or when the RTL8139C(L) is in a power down state with the wakeup function disabled. In addition, when the analog part is shut down and the IsolateB pin is low (i.e. the main power is off), then both the analog and digital parts stop functioning and power consumption of the RTL8139C(L) will be negligible. The RTL8139C(L) also supports an auxiliary power auto-detect function, and will auto-configure related bits of their own PCI power management registers in PCI configuration space. The PCI Vital Product Data (VPD) is also supported to provide the information that uniquely identifies hardware (i.e., the RTL8139C(L) LAN card). The information may consist of part number, serial number, and other detailed information. To provide cost down support, the RTL8139C(L) is capable of using a 25MHz crystal or OSC as its internal clock source. The RTL8139C(L) keeps network maintenance costs low and eliminates usage barriers. It is the easiest way to upgrade a network from 10 to 100Mbps. It also supports full-duplex operation, making 200Mbps bandwidth possible at no additional cost. To improve compatibility with other brands’ products, the RTL8139C(L) is also capable of receiving packets with InterFrameGap no less than 40 Bit-Time. The RTL8139C(L) is highly integrated and requires no “glue” logic or external memory. It includes an interface for a boot ROM and can be used in diskless workstations, providing maximum network security and ease of management. 2002/01/10 3 Rev.1.4 RTL8139C(L) 3. Block Diagram MAC Boot ROM Interface EEPROM Interface LED Driver Early Interrupt Control Logic MII Interface 100M 5B 4B Decoder MII Interface Transmit/ Receive Logic Interface FIFO Control Logic FIFO PHY Packet Length Register Interrupt Control Logic PCI Interface + Register PCI Interface Early Interrupt Threshold Register Packet Type Discriminator Power Control Logic 10/100 half/full Switch Logic Data Alignment 4B 5B Encoder Descrambler TXD TXC 25M Scrambler 10/100M Auto-negotiation Control Logic RXD RXC 25M Link pulse 10M TXC10 TXD10 RXC10 RXD10 Manchester coded waveform 10M Output waveform shaping Data Recovery Receive low pass filter Transceiver TXC 25M TXD TD+ Parrallel to Serial 3 Level Driver TXO+ TXO - Variable Current Baseline wander Correction 3 Level Comparator MLT-3 to NRZI RXC 25M RXD Serial to Parrallel Peak Detect ck data Adaptive Equalizer RXIN+ RXIN- Master PPL Slave PLL Control Voltage 25M 2002/01/10 4 Rev.1.4 RTL8139C(L) 4. Pin Assignments 84 85 86 87 88 89 90 91 92 93 94 95 96 97 98 99 100 101 102 RTSET GND RXINRXIN+ OEB WEB VDD TXDTXD+ GND NC ISOLATEB VDD LED2 LED1 LED0 MD7 MD6 MD5 83 LWAKE/CSTSCHG 82 RTT2 81 RTT3 80 GND 79 X1 78 X2 77 VDD 76 PMEB 75 CLKRUNB 74 GND 73 NC 72 NC 71 NC 70 MA16 69 MA15 68 MA14 67 MA13 66 MA12 65 MA11 103 104 105 106 107 108 109 110 111 112 113 114 115 116 117 118 119 120 121 122 123 124 125 126 127 128 MD4 MD3 MD2 VDD MD1 MD0 VDD ROMCSB GND GND GND INTAB RSTB CLK GNTB REQB VDD AD31 AD30 AD29 AD28 GND AD27 AD26 AD25 AD24 64 63 62 61 60 59 58 57 56 55 54 53 52 51 50 49 48 47 46 45 44 43 42 41 40 39 MA10 MA9 GND MA8 MA7 VDD VDD MA6/9356SEL GND GND NC MA5 MA4 MA3 EECS MA2 MA1 MA0 VDD AD0 AD1 AD2 AD3 AD4 GND AD5 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 VDD CBE3B IDSEL AD23 AD22 AD21 GND AD20 AD19 AD18 AD17 VDD AD16 CBE2B FRAMEB IRDYB TRDYB GND DEVSELB 38 37 36 35 34 33 32 31 30 29 28 27 26 25 24 23 22 21 20 AD6 AD7 CBE0B VDD AD8 AD9 AD10 AD11 GND AD12 AD13 AD14 AD15 VDD CBE1B PAR SERRB PERRB STOPB 2002/01/10 RTL8139C(L) 5 Rev.1.4 RTL8139C(L) 5. Pin Descriptions In order to reduce pin count, and therefore size and cost, some pins have multiple functions. In those cases, the functions are separated with a “/” symbol. Refer to the Pin Assignment diagram for a graphical representation. 5.1 Power Management/Isolation Interface Symbol PMEB (PME#) Type O/D Pin No 76 ISOLATEB (ISOLATE#) I 95 LWAKE/ CSTSCHG O 83 Description Power Management Event: Open drain, active low. Used by the RTL8139C(L) to request a change in its current power management state and/or to indicate that a power management event has occurred. Isolate Pin: Active low. Used to isolate the RTL8139C(L) from the PCI bus. The RTL8139C(L) does not drive its PCI outputs (excluding PME#) and does not sample its PCI input (including RST# and PCICLK) as long as the Isolate pin is asserted. LAN WAKE-UP Signal (When CardB_En=0, bit2 Config3): This signal is used to inform the motherboard to execute the wake-up process. The motherboard must support Wake-On-LAN (WOL). There are 4 choices of output, including active high, active low, positive pulse, and negative pulse, that may be asserted from the LWAKE pin. Please refer to the LWACT bit in the CONFIG1 register and the LWPTN bit in the CONFIG4 register for the setting of this output signal. The default output is an active high signal. Once a PME event is received, the LWAKE and PMEB assert at the same time when the LWPME (bit4, CONFIG4) is set to 0. If the LWPME is set to 1, the LWAKE asserts only when the PMEB asserts and the ISOLATEB is low. CSTSCHG Signal (When CardB_En=1, bit2 Config3): This signal is used in CardBus applications only and is used to inform the motherboard to execute the wake-up process whenever a PME event occurs. This is always an active high signal, and the setting of LWACT (bit 4, Config1), LWPTN (bit2, Config4), and LWPME (bit4, Config4) mean nothing in this case. This pin is a 3.3V signaling output pin. 5.2 PCI Interface Symbol AD31-0 Type T/S C/BE3-0 CLK T/S I CLKRUNB I/O 2002/01/10 Pin No Description 120-123, 125-128, 4-6, PCI address and data multiplexed pins. 8-11, 13, 26-29, 31-34, 37-39, 41-45 2, 14, 24, 36 PCI bus command and byte enables multiplexed pins. 116 Clock: This PCI Bus clock provides timing for all transactions and bus phases, and is input to PCI devices. The rising edge defines the start of each phase. The clock frequency ranges from 0 to 33MHz. 75 Clock Run: This signal is used by the RTL8139C(L) to request starting (or speeding up) the clock, CLK. CLKRUNB also indicates the clock status. For the RTL8139C(L), CLKRUNB is an open drain output as well as an input. The RTL8139C(L) requests the central resource to start, speed up, or maintain the interface clock by the assertion of CLKRUNB. For the host system, it is an S/T/S signal. The host system (central resource) is responsible for maintaining CLKRUNB asserted, and for driving it high to the negated (deasserted) state. 6 Rev.1.4 RTL8139C(L) DEVSELB S/T/S 19 FRAMEB S/T/S 15 GNTB I 117 REQB T/S 118 IDSEL I 3 INTAB O/D 114 IRDYB S/T/S 16 TRDYB PAR 2002/01/10 S/T/S T/S 17 23 Device Select: As a bus master, the RTL8139C(L) samples this signal to insure that a PCI target recognizes the destination address for the data transfer. As a target, the RTL8139C(L) asserts this signal low when it recognizes its target address after FRAMEB is asserted. Cycle Frame: As a bus master, this pin indicates the beginning and duration of an access. FRAMEB is asserted low to indicate the start of a bus transaction. While FRAMEB is asserted, data transfer continues. When FRAMEB is deasserted, the transaction is in the final data phase. As a target, the device monitors this signal before decoding the address to check if the current transaction is addressed to it. Grant: This signal is asserted low to indicate to the RTL8139C(L) that the central arbiter has granted ownership of the bus to the RTL8139C(L). This input is used when the RTL8139C(L) is acting as a bus master. Request: The RTL8139C(L) will assert this signal low to request the ownership of the bus from the central arbiter. Initialization Device Select: This pin allows the RTL8139C(L) to identify when configuration read/write transactions are intended for it. Interrupt A: Used to request an interrupt. It is asserted low when an interrupt condition occurs, as defined by the Interrupt Status, Interrupt Mask and Interrupt Enable registers. Initiator Ready: This indicates the initiating agent’s ability to complete the current data phase of the transaction. As a bus master, this signal will be asserted low when the RTL8139C(L) is ready to complete the current data phase transaction. This signal is used in conjunction with the TRDYB signal. Data transaction takes place at the rising edge of CLK when both IRDYB and TRDYB are asserted low. As a target, this signal indicates that the master has put data on the bus. Target Ready: This indicates the target agent’s ability to complete the current phase of the transaction. As a bus master, this signal indicates that the target is ready for the data during write operations and with the data during read operations. As a target, this signal will be asserted low when the (slave) device is ready to complete the current data phase transaction. This signal is used in conjunction with the IRDYB signal. Data transaction takes place at the rising edge of CLK when both IRDYB and TRDYB are asserted low. Parity: This signal indicates even parity across AD31-0 and C/BE3-0 including the PAR pin. As a master, PAR is asserted during address and write data phases. As a target, PAR is asserted during read data phases. 7 Rev.1.4 RTL8139C(L) PERRB S/T/S 21 SERRB O/D 22 STOPB S/T/S 20 I 115 RSTB Parity Error: When the RTL8139C(L) is the bus master and a parity error is detected, the RTL8139C(L) asserts both SERR bit in ISR and Configuration Space command bit 8 (SERRB enable). Next, it completes the current data burst transaction, then stops operation and resets itself. After the host clears the system error, the RTL8139C(L) continues its operation. When the RTL8139C(L) is the bus target and a parity error is detected, the RTL8139C(L) asserts this PERRB pin low. System Error: If an address parity error is detected and Configuration Space Status register bit 15 (detected parity error) is enabled, RTL8139C(L) asserts both SERRB pin low and bit 14 of Status register in Configuration Space. Stop: Indicates the current target is requesting the master to stop the current transaction. Reset: When RSTB is asserted low, the RTL8139C(L) performs an internal system hardware reset. RSTB must be held for a minimum of 120 ns. 5.3 FLASH/EEPROM Interface Symbol MA16-3 MA8 MA6/9356SEL Type O I/O Pin No 70-63, 61, 60, 57, 53-51 61 I/O 57 MA2/EESK O 49 MA1/EEDI MA0/EEDO EECS MD0-7 ROMCSB OEB O O, I O I/O O O 48 47 50 108, 107, 105-100 110 88 O 89 WEB 2002/01/10 Description Boot PROM Address Bus: These pins are used to access up to a 128k-byte flash memory or EPROM. Output pin as part of Boot PROM (or Flash) address bus after PCI reset. Input pin as Aux. Power detect pin to detect if Aux. Power exists or not, when initial power-on or PCI reset is asserted. Besides connecting this pin to Boot PROM, it should be pulled high to the Aux. Power via a resistor to detect Aux. power. If this pin is not pulled high to Aux. Power, the RTL8139C(L) assumes that no Aux. power exists. To support wakeup from ACPI D3cold or APM power-down, this pin must be pulled high to Aux. power via a resistor. When this pin is pulled high with a 10KΩ resistor, the 93C56 EEPROM is used to store the resource data and CIS for the RTL8139C(L). The RTL8139C(L) latches the status of this pin at power-up to determine what EEPROM (93C46 or 93C56) is used, afterwards, this pin is used as MA6. The MA2-0 pins are switched to EESK, EEDI, EEDO in 93C46 (93C56) programming or auto-load mode. 93C46 (93C56) chip select Boot PROM data bus ROM Chip Select: This is the chip select signal of the Boot PROM. Output Enable: This enables the output buffer of the Boot PROM or Flash memory during a read operation. Write Enable: This signal strobes data into the Flash memory during a write cycle. 8 Rev.1.4 RTL8139C(L) 5.4 Power Pins Symbol VDD GND Type P P P P Pin No 1, 12, 25, 35, 46, 58, 59, 106, 109, 119 77, 90, 96 7, 18, 30, 40, 55, 56, 62, 111, 112, 113, 124 74, 80, 85, 93 Description Digital Power +3.3V Analog Power +3.3V Digital Ground Analog Ground 5.5 LED Interface Symbol LED0, 1, 2 Type O Pin No 99, 98, 97 Description LED pins LEDS1-0 LED0 LED1 LED2 00 01 10 Tx/Rx Tx/Rx Tx 11 Tx LINK100 LINK10/100 LINK10/100 LINK100 LINK10 FULL Rx LINK10 During power down mode, the LEDs are OFF. 5.6 Attachment Unit Interface Symbol TXD+ TXDRXIN+ RXINX1 X2 Type O O I I I O Pin No 92 91 87 86 79 78 Description 100/10BASE-T transmit (Tx) Data 100/10BASE-T receive (Rx) Data 25 MHz Crystal/OSC. Input Crystal Feedback Output: This output is used in crystal connection only. It must be left open when X1 is driven with an external 25 MHz oscillator. 5.7 Test and Other Pins Symbol RTT2-3 RTSET NC 2002/01/10 Type TEST I/O - Pin No 81, 82 84 54, 71, 72, 73, 94 Description Chip test pins. This pin must be pulled low by a 1.7KΩ resistor. Reserved 9 Rev.1.4 RTL8139C(L) 6. Register Descriptions The RTL8139C(L) provides the following set of operational registers mapped into PCI memory space or I/O space. Offset R/W Tag Description 0000h R/W IDR0 0001h 0002h 0003h 0004h 0005h 0006h-0007h 0008h R/W R/W R/W R/W R/W R/W IDR1 IDR2 IDR3 IDR4 IDR5 MAR0 0009h 000Ah 000Bh 000Ch 000Dh 000Eh 000Fh 0010h-0013h 0014h-0017h 0018h-001Bh 001Ch-001Fh 0020h-0023h 0024h-0027h 0028h-002Bh 002Ch-002Fh 0030h-0033h 0034h-0035h 0036h 0037h 0038h-0039h 003Ah-003Bh R/W R/W R/W R/W R/W R/W R/W R/W R/W R/W R/W R/W R/W R/W R/W R/W R R R/W R/W R MAR1 MAR2 MAR3 MAR4 MAR5 MAR6 MAR7 TSD0 TSD1 TSD2 TSD3 TSAD0 TSAD1 TSAD2 TSAD3 RBSTART ERBCR ERSR CR CAPR CBR 003Ch-003Dh 003Eh-003Fh 0040h-0043h 0044h-0047h 0048h-004Bh R/W R/W R/W R/W R/W IMR ISR TCR RCR TCTR 004Ch-004Fh R/W MPC 0050h 0051h 0052h R/W R/W R/W 9346CR CONFIG0 CONFIG1 ID Register 0: The ID registers 0-5 are only permitted to read/write by 4-byte access. Read access can be byte, word, or double word access. The initial value is autoloaded from the EEPROM EthernetID field. ID Register 1 ID Register 2 ID Register 3 ID Register 4 ID Register 5 Reserved Multicast Register 0: The MAR registers 0-7 are only permitted to read/write by 4-byte access. Read access can be byte, word, or double word access. Driver is responsible for initializing these registers. Multicast Register 1 Multicast Register 2 Multicast Register 3 Multicast Register 4 Multicast Register 5 Multicast Register 6 Multicast Register 7 Transmit Status of Descriptor 0 Transmit Status of Descriptor 1 Transmit Status of Descriptor 2 Transmit Status of Descriptor 3 Transmit Start Address of Descriptor0 Transmit Start Address of Descriptor1 Transmit Start Address of Descriptor2 Transmit Start Address of Descriptor3 Receive (Rx) Buffer Start Address Early Receive (Rx) Byte Count Register Early Rx Status Register Command Register Current Address of Packet Read (The initial value is 0FFF0h) Current Buffer Address: The initial value is 0000h. It reflects total received byte-count in the rx buffer. Interrupt Mask Register Interrupt Status Register Transmit (Tx) Configuration Register Receive (Rx) Configuration Register Timer Count Register: This register contains a 32-bit general-purpose timer. Writing any value to this 32-bit register will reset the original timer and begin to count from zero. Missed Packet Counter: Indicates the number of packets discarded due to rx FIFO overflow. It is a 24-bit counter. After s/w reset, MPC is cleared. Only the lower 3 bytes are valid. When any value is written, MPC will be reset also. 93C46 (93C56) Command Register Configuration Register 0 Configuration Register 1 2002/01/10 10 Rev.1.4 RTL8139C(L) 0053H 0054h-0057h R /W TimerInt 0058h 0059h 005Ah 005Bh 005Ch-005Dh 005Eh 005Fh 0060h-0061h 0062h-0063h 0064h-0065h 0066h-0067h 0068h-0069h 006Ah-006Bh 006Ch-006Dh 006Eh-006Fh 0070h-0071h 0072h-0073h 0074h-0075h 0076-0077h 0078h-007Bh 007Ch-007Fh 0080h 0081-0083h 0084h 0085h 0086h 0087h 0088h 0089h 008Ah 008Bh 008Ch–0093h 0094h–009Bh 009Ch–00A3h 00A4h–00ABh 00ACh–00B3h 00B4h–00BBh 00BCh–00C3h 00C4h–00CBh 00CCh 00CDh 00CEh 00CFh 00D0h 00D1h 00D2h 00D3h 00D4h-00D7h R/W R/W R/W R/W R R R/W R R/W R R R R R/W R R/W R/W R/W R/W R/W R/W R/W R/W R/W R/W R/W R/W R/W R/W R/W R/W R/W R/W R/W R/W R/W R/W R/W R/W R/W R/W R/W R/W R/W MSR CONFIG3 CONFIG4 MULINT RERID TSAD BMCR BMSR ANAR ANLPAR ANER DIS FCSC NWAYTR REC CSCR PHY1_PARM TW_PARM PHY2_PARM CRC0 CRC1 CRC2 CRC3 CRC4 CRC5 CRC6 CRC7 Wakeup0 Wakeup1 Wakeup2 Wakeup3 Wakeup4 Wakeup5 Wakeup6 Wakeup7 LSBCRC0 LSBCRC1 LSBCRC2 LSBCRC3 LSBCRC4 LSBCRC5 LSBCRC6 LSBCRC7 FLASH 2002/01/10 Reserved Timer Interrupt Register: Once having written a nonzero value to this register, the Timeout bit of ISR register will be set whenever the TCTR reaches to this value. The Timeout bit will never be set as long as TimerInt register is zero. Media Status Register Configuration register 3 Configuration register 4 Reserved Multiple Interrupt Select PCI Revision ID = 10h Reserved Transmit Status of All Descriptors Basic Mode Control Register Basic Mode Status Register Auto-Negotiation Advertisement Register Auto-Negotiation Link Partner Register Auto-Negotiation Expansion Register Disconnect Counter False Carrier Sense Counter N-way Test Register RX_ER Counter CS Configuration Register Reserved PHY parameter 1 Twister parameter PHY parameter 2 Reserved Power Management CRC Register0 for Wakeup Frame0 Power Management CRC Register1 for Wakeup Frame1 Power Management CRC Register2 for Wakeup Frame2 Power Management CRC Register3 for Wakeup Frame3 Power Management CRC Register4 for Wakeup Frame4 Power Management CRC Register5 for Wakeup Frame5 Power Management CRC Register6 for Wakeup Frame6 Power Management CRC Register7 for Wakeup Frame7 Power Management Wakeup Frame0 (64bit) Power Management Wakeup Frame1 (64bit) Power Management Wakeup Frame2 (64bit) Power Management Wakeup Frame3 (64bit) Power Management Wakeup Frame4 (64bit) Power Management Wakeup Frame5 (64bit) Power Management Wakeup Frame6 (64bit) Power Management Wakeup Frame7 (64bit) LSB of the Mask byte of Wakeup Frame0 Within Offset 12 to 75 LSB of the Mask byte of Wakeup Frame1 Within Offset 12 to 75 LSB of the Mask byte of Wakeup Frame2 Within Offset 12 to 75 LSB of the Mask byte of Wakeup Frame3 Within Offset 12 to 75 LSB of the Mask byte of Wakeup Frame4 Within Offset 12 to 75 LSB of the Mask byte of Wakeup Frame5 Within Offset 12 to 75 LSB of the Mask byte of Wakeup Frame6 Within Offset 12 to 75 LSB of the Mask byte of Wakeup Frame7 Within Offset 12 to 75 Flash Memory Read/Write Register 11 Rev.1.4 RTL8139C(L) 00D8h 00D9h-00EFh 00F0h-00F3h 00F4h-00F7h 00F8h-00FBh 00FCh-00FFh R/W R/W R/W R W Config5 FER FEMR FPSR FFER Configuration Register 5 Reserved Function Event Register (Cardbus only) Function Event Mask Register (CardBus only) Function Present State Register (CardBus only) Function Force Event Register (CardBus only) 6.1 Receive Status Register in Rx packet header Bit 15 R/W R Symbol MAR 14 R PAM 13 R BAR 12-6 5 R ISE 4 R RUNT 3 R LONG 2 R CRC 1 R FAE 0 R ROK 2002/01/10 Description Multicast Address Received: This bit set to 1 indicates that a multicast packet is received. Physical Address Matched: This bit set to 1 indicates that the destination address of this packet matches the value written in ID registers. Broadcast Address Received: This bit set to 1 indicates that a broadcast packet is received. BAR, MAR bit will not be set simultaneously. Reserved Invalid Symbol Error: (100BASE-TX only) This bit set to 1 indicates that an invalid symbol was encountered during the reception of this packet. Runt Packet Received: This bit set to 1 indicates that the received packet length is smaller than 64 bytes ( i.e. media header + data + CRC < 64 bytes ) Long Packet: This bit set to 1 indicates that the size of the received packet exceeds 4k bytes. CRC Error: When set, indicates that a CRC error occurred on the received packet. Frame Alignment Error: When set, indicates that a frame alignment error occurred on this received packet. Receive OK: When set, indicates that a good packet is received. 12 Rev.1.4 RTL8139C(L) 6.2 Transmit Status Register (TSD0-3)(Offset 0010h-001Fh, R/W) The read-only bits (CRS, TABT, OWC, CDH, NCC3-0, TOK, TUN) will be cleared by the RTL8139C(L) when the Transmit Byte Count (bit12-0) in the corresponding Tx descriptor is written. It is not affected when software writes to these bits. These registers are only permitted to write by double-word access. After a software reset, all bits except the OWN bit are reset to “0”. Bit 31 R/W R Symbol CRS 30 R TABT 29 R OWC 28 R CDH 27-24 R NCC3-0 23-22 21-16 R/W ERTXTH5-0 15 R TOK 14 R TUN 13 R/W OWN 12-0 R/W SIZE 2002/01/10 Description Carrier Sense Lost: This bit is set to 1 when the carrier is lost during transmission of a packet. Transmit Abort: This bit is set to 1 if the transmission of a packet was aborted. This bit is read only, writing to this bit is not affected. Out of Window Collision: This bit is set to 1 if the RTL8139C(L) encountered an "out of window" collision during the transmission of a packet. CD Heart Beat: The same as RTL8139(A/B). This bit is cleared in the 100 Mbps mode. Number of Collision Count: Indicates the number of collisions encountered during the transmission of a packet. Reserved Early Tx Threshold: Specifies the threshold level in the Tx FIFO to begin the transmission. When the byte count of the data in the Tx FIFO reaches this level, (or the FIFO contains at least one complete packet) the RTL8139C(L) will transmit this packet. 000000 = 8 bytes These fields count from 000001 to 111111 in unit of 32 bytes. This threshold must be avoided from exceeding 2K byte. Transmit OK: Set to 1 indicates that the transmission of a packet was completed successfully and no transmit underrun occurs. Transmit FIFO Underrun: Set to 1 if the Tx FIFO was exhausted during the transmission of a packet. The RTL8139C(L) can re-transfer data if the Tx FIFO underruns and can also transmit the packet to the wire successfully even though the Tx FIFO underruns. That is, when TSD<TUN>=1, TSD<TOK>=0 and ISR<TOK>=1 (or ISR<TER>=1). OWN: The RTL8139C(L) sets this bit to 1 when the Tx DMA operation of this descriptor was completed. The driver must set this bit to 0 when the Transmit Byte Count (bit0-12) is written. The default value is 1. Descriptor Size: The total size in bytes of the data in this descriptor. If the packet length is more than 1792 byte (0700h), the Tx queue will be invalid, i.e. the next descriptor will be written only after the OWN bit of that long packet's descriptor has been set. 13 Rev.1.4 RTL8139C(L) 6.3 ERSR: Early Rx Status Register (Offset 0036h, R) Bit 7-4 3 R/W R Symbol ERGood 2 R ERBad 1 R EROVW 0 R EROK Description Reserved Early Rx Good packet: This bit is set whenever a packet is completely received and the packet is good. This bit is cleared when writing 1 to it, Early Rx Bad packet: This bit is set whenever a packet is completely received and the packet is bad. Writing 1 will clear this bit. Early Rx OverWrite: This bit is set when the RTL8139C(L)'s local address pointer is equal to CAPR. In the early mode, this is different from buffer overflow. It happens that the RTL8139C(L) detected an Rx error and wanted to fill another packet data from the beginning address of that error packet. Writing 1 will clear this bit. Early Rx OK: The power-on value is 0. It is set when the Rx byte count of the arriving packet exceeds the Rx threshold. After the whole packet is received, the RTL8139C(L) will set ROK or RER in ISR and clear this bit simultaneously. Setting this bit will invoke a ROK interrupt. 6.4 Command Register (Offset 0037h, R/W) This register is used for issuing commands to the RTL8139C(L). These commands are issued by setting the corresponding bits for the function. A global software reset along with individual reset and enable/disable for transmitter and receiver are provided here. Bit 7-5 4 R/W R/W Symbol RST 3 R/W RE 2 R/W TE 1 0 R BUFE 2002/01/10 Description Reserved Reset: Setting to 1 forces the RTL8139C(L) to a software reset state which disables the transmitter and receiver, reinitializes the FIFOs, resets the system buffer pointer to the initial value (Tx buffer is at TSAD0, Rx buffer is empty). The values of IDR0-5 and MAR0-7 and PCI configuration space will have no changes. This bit is 1 during the reset operation, and is cleared to 0 by the RTL8139C(L) when the reset operation is complete. Receiver Enable: When set to 1, and the receive state machine is idle, the receive machine becomes active. This bit will read back as a 1 whenever the receive state machine is active. After initial power-up, software must insure that the receiver has completely reset before setting this bit. Transmitter Enable: When set to 1, and the transmit state machine is idle, then the transmit state machine becomes active. This bit will read back as a 1 whenever the transmit state machine is active. After initial power-up, software must insure that the transmitter has completely reset before setting this bit. Reserved Buffer Empty: The Rx buffer is empty; There is no packet stored in the Rx buffer ring. 14 Rev.1.4 RTL8139C(L) 6.5 Interrupt Mask Register (Offset 003Ch-003Dh, R/W) This register masks the interrupts that can be generated from the ISR. Writing a “1” to the bit enables the corresponding interrupt. During a hardware reset, all mask bits are cleared. Setting a mask bit allows the corresponding bit in the ISR to cause an interrupt. ISR bits are always set to 1, however, if the condition is present, regardless of the state of the corresponding mask bit. Bit 15 R/W R/W Symbol SERR 14 13 12-7 6 5 R/W R/W R/W R/W TimeOut LenChg FOVW PUN/LinkChg 4 3 2 1 0 R/W R/W R/W R/W R/W RXOVW TER TOK RER ROK Description System Error Interrupt: 1 => Enable, 0 => Disable. Time Out Interrupt: 1 => Enable, 0 => Disable. Cable Length Change Interrupt: 1 => Enable, 0 => Disable. Reserved Rx FIFO Overflow Interrupt: 1 => Enable, 0 => Disable. Packet Underrun/Link Change Interrupt: 1 => Enable, 0 => Disable. Rx Buffer Overflow Interrupt: 1 => Enable, 0 => Disable. Transmit Error Interrupt: 1 => Enable, 0 => Disable. Transmit OK Interrupt: 1 => Enable, 0 => Disable. Receive Error Interrupt: 1 => Enable, 0 => Disable. Receive OK Interrupt: 1 => Enable, 0 => Disable. 6.6 Interrupt Status Register (Offset 003Eh-003Fh, R/W) This register indicates the source of an interrupt when the INTA pin goes active. Enabling the corresponding bits in the Interrupt Mask Register (IMR) allows bits in this register to produce an interrupt. When an interrupt is active, one of more bits in this register are set to a “1”. The interrupt Status Register reflects all current pending interrupts, regardless of the state of the corresponding mask bit in the IMR. Reading the ISR clears all interrupts. Writing to the ISR has no effect. Bit 15 R/W R/W Symbol SERR 14 R/W TimeOut 13 R/W LenChg 12 - 7 6 5 R/W R/W FOVW PUN/LinkChg 4 R/W RXOVW 3 R/W TER 2 R/W TOK 1 R/W RER 0 R/W ROK 2002/01/10 Description System Error: Set to 1 when the RTL8139C(L) signals a system error on the PCI bus. Time Out: Set to 1 when the TCTR register reaches to the value of the TimerInt register. Cable Length Change: Cable length is changed after Receiver is enabled. Reserved Rx FIFO Overflow: Set when an overflow occurs on the Rx status FIFO. Packet Underrun/Link Change: Set to 1 when CAPR is written but Rx buffer is empty, or when link status is changed. Rx Buffer Overflow: Set when receive (Rx) buffer ring storage resources have been exhausted. Transmit (Tx) Error: Indicates that a packet transmission was aborted, due to excessive collisions, according to the TXRR's setting Transmit (Tx) OK: Indicates that a packet transmission is completed successfully. Receive (Rx) Error: Indicates that a packet has either CRC error or frame alignment error (FAE). The collided frame will not be recognized as CRC error if the length of this frame is shorter than 16 byte. Receive (Rx) OK: In normal mode, indicates the successful completion of a packet reception. In early mode, indicates that the Rx byte count of the arriving packet exceeds the early Rx threshold. 15 Rev.1.4 RTL8139C(L) 6.7 Transmit Configuration Register (Offset 0040h-0043h, R/W) This register defines the Transmit Configuration for the RTL8139C(L). It controls such functions as Loopback, Heartbeat, Auto Transmit Padding, programmable Interframe Gap, Fill and Drain Thresholds, and maximum DMA burst size. Bit 31 30-26 25-24 23 22-19 18, 17 R/W R R/W R R/W Symbol HWVERID IFG1, 0 8139A-G LBK1, LBK0 16 R/W CRC 15-11 10-8 R/W MXDMA2, 1, 0 2002/01/10 Description Reserved Hardware Version ID: Bit30 RTL8139 1 RTL8139A 1 RTL8139A-G 1 RTL8139B 1 RTL8130 1 RTL8139C 1 Reserved Bit29 Bit28 Bit27 Bit26 1 0 0 0 1 1 0 0 1 1 0 0 1 1 1 0 1 1 1 1 1 1 0 1 All other combination Bit23 0 0 1 0 0 0 Interframe Gap Time: This field allows adjustment of the interframe gap time below the standards of 9.6 us for 10Mbps, 960 ns for 100Mbps. The time can be programmed from 9.6 us to 8.4 us (10Mbps) and 960ns to 840ns (100Mbps). Note that any value other than (1, 1) will violate the IEEE 802.3 standard. The formula for the inter frame gap is: 10 Mbps 8.4us + 0.4(IFG(1:0)) us 100 Mbps 840ns + 40(IFG(1:0)) ns RTL8139A rev.G ID = 1. For others, this bit is 0. Reserved Loopback test: There will be no packet on the TX+/- lines under the Loopback test condition. The loopback function must be independent of the link state. 00: normal operation 01: Reserved 10: Reserved 11: Loopback mode Append CRC: 0: A CRC is appended at the end of a packet 1: No CRC appended at the end of a packet Reserved Max DMA Burst Size per Tx DMA Burst: This field sets the maximum size of transmit DMA data bursts according to the following table: 000 = 16 bytes 001 = 32 bytes 010 = 64 bytes 011 = 128 bytes 100 = 256 bytes 101 = 512 bytes 110 = 1024 bytes 111 = 2048 bytes 16 Rev.1.4 RTL8139C(L) 7-4 R/W TXRR 3-1 0 W CLRABT Tx Retry Count: These are used to specify additional transmission retries in multiples of 16 (IEEE 802.3 CSMA/CD retry count). If the TXRR is set to 0, the transmitter will re-transmit 16 times before aborting due to excessive collisions. If the TXRR is set to a value greater than 0, the transmitter will re-transmit a number of times equal to the following formula before aborting: Total retries = 16 + (TXRR * 16) The TER bit in the ISR register or transmit descriptor will be set when the transmission fails and reaches to this specified retry count. Reserved Clear Abort: Setting this bit to 1 causes the RTL8139C(L) to retransmit the packet at the last transmitted descriptor when this transmission was aborted. Setting this bit is only permitted in the transmit abort state. 6.8 Receive Configuration Register (Offset 0044h-0047h, R/W) This register is used to set the receive configuration for the RTL8139C(L). Receive properties such as accepting error packets, runt packets, setting the receive drain threshold etc. are controlled here. Bit 31-28 27-24 R/W R/W Symbol ERTH3, 2, 1, 0 23-18 17 R/W MulERINT 16 R/W RER8 15-13 R/W RXFTH2, 1, 0 2002/01/10 Description Reserved Early Rx threshold bits: These bits are used to select the Rx threshold multiplier of the whole packet that has been transferred to the system buffer in early mode when the frame protocol is under the RTL8139C(L)'s definition. 0000 = no early rx threshold 0001 = 1/16 0010 = 2/16 0011 = 3/16 0100 = 4/16 0101 = 5/16 0110 = 6/16 0111 = 7/16 1000 = 8/16 1001 = 9/16 1010 = 10/16 1011 = 11/16 1100 = 12/16 1101 = 13/16 1110 = 14/16 1111 = 15/16 Reserved Multiple early interrupt select: When this bit is set, any received packet invokes early interrupt according to MULINT<MISR[11:0]> setting in early mode. When this bit is reset, the packets of familiar protocol (IPX, IP, NDIS, etc) invoke early interrupt according to RCR<ERTH[3:0]> setting in early mode. The packets of unfamiliar protocol will invoke early interrupt according to the setting of MULINT<MISR[11:0]>. The RTL8139C(L) receives the error packet whose length is larger than 8 bytes after setting the RER8 bit to 1. The RTL8139C(L) receives the error packet larger than 64-byte long when the RER8 bit is cleared. The power-on default is zero. If AER or AR is set, the RER will be set when the RTL8139C(L) receives an error packet whose length is larger than 8 bytes. The RER8 is “ Don’t care “ in this situation. Rx FIFO Threshold: Specifies Rx FIFO Threshold level. When the number of the received data bytes from a packet, which is being received into the RTL8139C(L)'s Rx FIFO, has reached to this level (or the FIFO has contained a complete packet), the receive PCI bus master function will begin to transfer the data from the FIFO to the host 17 Rev.1.4 RTL8139C(L) 12-11 R/W RBLEN1, 0 10-8 R/W MXDMA2, 1, 0 7 R/W WRAP memory. This field sets the threshold level according to the following table: 000 = 16 bytes 001 = 32 bytes 010 = 64 bytes 011 = 128 bytes 100 = 256 bytes 101 = 512 bytes 110 = 1024 bytes 111 = no rx threshold. The RTL8139C(L) begins the transfer of data after having received a whole packet in the FIFO. Rx Buffer Length: This field indicates the size of the Rx ring buffer. 00 = 8k + 16 byte 01 = 16k + 16 byte 10 = 32K + 16 byte 11 = 64K + 16 byte Max DMA Burst Size per Rx DMA Burst: This field sets the maximum size of the receive DMA data bursts according to the following table: 000 = 16 bytes 001 = 32 bytes 010 = 64 bytes 011 = 128 bytes 100 = 256 bytes 101 = 512 bytes 110 = 1024 bytes 111 = unlimited 0: The RTL8139C(L) will transfer the rest of the packet data into the beginning of the Rx buffer if this packet has not been completely moved into the Rx buffer and the transfer has arrived at the end of the Rx buffer. 1: The RTL8139C(L) will keep moving the rest of the packet data into the memory immediately after the end of the Rx buffer, if this packet has not been completely moved into the Rx buffer and the transfer has arrived at the end of the Rx buffer. The software driver must reserve at least 1.5K bytes buffer to accept the remainder of the packet. We assume that the remainder of the packet is X bytes. The next packet will be moved into the memory from the X byte offset at the top of the Rx buffer. 6 R 9356SEL 5 R/W AER 4 R/W AR 3 R/W AB 2002/01/10 This bit is invalid when Rx buffer is selected to 64K bytes. EEPROM Select: This bit reflects what type of EEPROM is used. 1: The EEPROM used is 9356. 0: The EEPROM used is 9346. Accept Error Packets: This bit determines if packets with CRC error, alignment error and/or collided fragments will be accepted or rejected. 0: Reject error packets 1: Accept error packets Accept Runt Packets: This bit allows the receiver to accept packets that are smaller than 64 bytes. The packet must be at least 8 bytes long to be accepted as a runt. 0: Reject runt packets 1: Accept runt packets Accept Broadcast Packets: This bit allows the receiver to accept or reject broadcast packets. 0: Reject broadcast packets 1: Accept broadcast packets 18 Rev.1.4 RTL8139C(L) 2 R/W AM 1 R/W APM 0 R/W AAP Accept Multicast Packets: This bit allows the receiver to accept or reject multicast packets. 0: Reject multicast packets 1: Accept multicast packets Accept Physical Match Packets: This bit allows the receiver to accept or reject physical match packets. 0: Reject physical match packets 1: Accept physical match packets Accept Physical Address Packets: This bit allows the receiver to accept or reject packets with a physical destination address. 0: Reject packets with a physical destination address 1: Accept packets with a physical destination address 6.9 9346CR: 93C46 (93C56) Command Register (Offset 0050h, R/W) Bit 7-6 4-5 3 2 1 0 2002/01/10 R/W R/W R/W R/W R/W R Symbol EEM1-0 EECS EESK EEDI EEDO Description Operating Mode: These 2 bits select the RTL8139C(L) operating mode. EEM1 EEM0 Operating Mode 0 0 0 1 1 0 1 1 Normal (RTL8139C(L) network/host communication mode) Auto-load: Entering this mode will make the RTL8139C(L) load the contents of 93C46 (93C56) as when the RSTB signal is asserted. This auto-load operation will take about 2 ms. After it is completed, the RTL8139C(L) goes back to the normal mode automatically (EEM1 = EEM0 = 0) and all the other registers are reset to default values. 93C46 (93C56) programming: In this mode, both network and host bus master operations are disabled. The 93C46 (93C56) can be directly accessed via bit3-0 which now reflect the states of EECS, EESK, EEDI, & EEDO pins respectively. Config register write enable: Before writing to CONFIG0, 1, 3, 4 registers, and bit13, 12, 8 of BMCR(offset 62h-63h), the RTL8139C(L) must be placed in this mode. This will prevent RTL8139C(L)'s configurations from accidental change. Reserved These bits reflect the state of EECS, EESK, EEDI & EEDO pins in auto-load or 93C46 (93C56) programming mode and are valid only when Flash bit is cleared. Note: EESK, EEDI and EEDO is valid after boot ROM complete. 19 Rev.1.4 RTL8139C(L) 6.10 CONFIG 0: Configuration Register 0 (Offset 0051h, R/W) Bit 7 6 5 4-3 2-0 2002/01/10 R/W R R R R R Symbol SCR PCS T10 PL1, PL0 BS2, BS1, BS0 Description Scrambler Mode: Always 0. PCS Mode: Always 0. 10 Mbps Mode: Always 0. Select 10 Mbps medium type: Always (PL1, PL0) = (1, 0) Select Boot ROM size BS2 BS1 BS0 0 0 0 No Boot ROM 0 0 1 8K Boot ROM 0 1 0 16K Boot ROM 0 1 1 32K Boot ROM 1 0 0 64K Boot ROM 1 0 1 128K Boot ROM 1 1 0 unused 1 1 1 unused 20 Description Rev.1.4 RTL8139C(L) 6.11 CONFIG 1: Configuration Register 1 (Offset 0052h, R/W) Bit 7-6 5 R/W R/W R/W Symbol LEDS1-0 DVRLOAD 4 R/W LWACT 3 2 1 R R R/W MEMMAP IOMAP VPD 0 R/W PMEn Description Refer to LED PIN definition. These bits’ initial value come from 93C46/93C56. Driver Load: Software may use this bit to make sure that the driver has been loaded. Writing 1 is 1. Writing 0 is 0. When the command register bits IOEN, MEMEN, and BMEN of the PCI configuration space are written, the RTL8139C(L) will clear this bit automatically. LWAKE active mode: The LWACT bit and LWPTN bit in the CONFIG4 register are used to program the LWAKE pin’s output signal. According to the combination of these two bits, there may be 4 choices of LWAKE signal, i.e., active high, active low, positive (high) pulse, and negative (low) pulse. The output pulse width is about 150 ms. In CardBus applications, the LWACT and LWPTN have no meaning. The default value of each of these two bits is 0, i.e., the default output signal of the LWAKE pin is an active high signal. LWACT LWAKE output 0 1 0 Active high* Active low LWPTN 1 Positive pulse Negative pulse * Default value. Memory Mapping: The operational registers are mapped into PCI memory space. I/O Mapping: The operational registers are mapped into PCI I/O space. Vital Product Data: This is used to set to enable Vital Product Data. The VPD data is stored in 93C46 or 93C56 from within offset 40h-7Fh. Power Management Enable: Write able only when 93C46CR register EEM1=EEM0=1 Let A denote the New_Cap bit (bit 4 of the Status Register) in the PCI Configuration space offset 06H. Let B denote the Cap_Ptr register in the PCI Configuration space offset 34H. Let C denote the Cap_ID (power management) register in the PCI Configuration space offset 50H. Let D denote the power management registers in the PCI Configuration space offset from 52H to 57H. Let E denote the Next_Ptr (power management) register in the PCI Configuration space offset 51H. PMEn Description 0 A=B=C=E=0, D not valid 1 A=1, B=50h, C=01h, D valid, E=0 2002/01/10 21 Rev.1.4 RTL8139C(L) 6.12 Media Status Register (Offset 0058h, R/W) This register allows configuration of a variety of device and PHY options, and provides PHY status information. Bit 7 R/W R/W Symbol TXFCE/ LdTXFCE Description Tx Flow Control Enable: The flow control is valid in full-duplex mode only. This register’s default value comes from 93C46 (93C56). RTL8139C(L) ANE = 1 ANE = 1 ANE = 1 ANE = 0 & full-duplex mode ANE = 0 & half-duplex mode 6 R/W RXFCE 5 4 R Aux_Status 3 R SPEED_10 2 1 R R LINKB TXPF 0 R RXPF Remote NWAY FLY mode NWAY mode only No NWAY - TXFCE/LdTXFCE R/O R/W R/W R/W - invalid NWAY FLY mode: NWAY with flow control capability NWAY mode only: NWAY without flow control capability RX Flow control Enable: The flow control is enabled in full-duplex mode only. The default value comes from 93C46 (93C56). Reserved Aux. Power present Status: 1: The Aux. Power is present. 0: The Aux. Power is absent. The value of this bit is fixed after each PCI reset. Speed: Set, when current media is 10 Mbps mode. Reset, when current media is 100 Mbps mode. Inverse of Link status: 0 = Link OK. 1 = Link Fail. Transmit Pause Flag: Set when the RTL8139C(L) sends pause packet. Reset when the RTL8139C(L) sends timer done packet. Receive Pause Flag: Set when the RTL8139C(L) is in backoff state because a pause packet received. Reset when pause state is clear. 6.13 CONFIG 3: Configuration Register3 (Offset 0059h, R/W) Bit 7 R/W R Symbol GNTSel 6 R/W PARM_En 2002/01/10 Description Gnt Select: Select the Frame’s asserted time after the Grant signal has been asserted. The Frame and Grant are the PCI signals. 1: Delay one clock from GNT assertion 0: No delay Parameter Enable: (These parameters are used in 100Mbps mode) Setting to 0 and 9346CR register EEM1=EEM0=1 enable the PHY1_PARM, PHY2_PARM, TW_PARM be written via software. Setting to 1 will allow parameters auto-loaded from 93C46 (93C56) and disable writing to PHY1_PARM, PHY2_PARM and TW_PARM registers via software. The PHY1_PARM, PHY2_PARM, and TW_PARM can be auto-loaded from EEPROM in this mode. The parameter auto-load process is executed every time when the Link is OK in 100Mbps mode. 22 Rev.1.4 RTL8139C(L) 5 R/W Magic 4 R/W LinkUp 3 R CardB_En 2 R CLKRUN_En 1 R FuncRegEn 0 R FBtBEn 2002/01/10 Magic Packet: This bit is valid when the PWEn bit of CONFIG1 register is set. The RTL8139C(L) will assert the PMEB signal to wakeup the operating system when the Magic Packet is received. Once the RTL8139C(L) has been enabled for Magic Packet wakeup and has been put into adequate state, it scans all incoming packets addressed to the node for a specific data sequence, which indicates to the controller that this is a Magic Packet frame. A Magic Packet frame must also meet the basic requirements: Destination address + Source address + data + CRC The destination address may be the node ID of the receiving station or a multicast address, which includes the broadcast address. The specific sequence consists of 16 duplications of 6 byte ID registers, with no breaks or interrupts. This sequence can be located anywhere within the packet, but must be preceded by a synchronization stream, 6 bytes of FFh. The device will also accept a multicast address, as long as the 16 duplications of the IEEE address match the address of the ID registers. If the Node ID is 11h 22h 33h 44h 55h 66h, then the magic frame’s format is like the following: Destination address + source address + MISC + FF FF FF FF FF FF + MISC + 11 22 33 44 55 66 + 11 22 33 44 55 66 + 11 22 33 44 55 66 + 11 22 33 44 55 66 + 11 22 33 44 55 66 + 11 22 33 44 55 66 + 11 22 33 44 55 66 + 11 22 33 44 55 66 + 11 22 33 44 55 66 + 11 22 33 44 55 66 + 11 22 33 44 55 66 + 11 22 33 44 55 66 + 11 22 33 44 55 66 + 11 22 33 44 55 66 + 11 22 33 44 55 66 + 11 22 33 44 55 66 + MISC + CRC Link Up: This bit is valid when the PWEn bit of CONFIG1 register is set. The RTL8139C(L), in adequate power state, will assert the PMEB signal to wakeup the operating system when the cable connection is re-established. Card Bus Enable: Set to 1 to enable CardBus related registers and functions. Set to 0 to disable CardBus related registers and functions. CLKRUN Enable: Set to 1 to enable CLKRUN. Set to 0 to disable CLKRUN. Functions Registers Enable (CardBus only): Set to 1 to enable the 4 Function Registers (Function Event Register, Function Event Mask Register, Function Present State Register, and Function Force Event Register) for CardBus application. Set to 0 to disable the 4 Function Registers for CardBus application. Fast Back to Back Enable: Set to 1 to enable Fast Back to Back. 23 Rev.1.4 RTL8139C(L) 5.14 CONFIG 4: Configuration Register4 (Offset 005Ah, R/W) Bit 7 R/W R/W Symbol RxFIFOAutoClr 6 R/W AnaOff 5 R/W LongWF 4 R/W LWPME 3 2 1 0 R/W R/W LWPTN PBWakeup 2002/01/10 Description When set to 1, the RTL8139C(L) will clear the Rx FIFO overflow automatically. Analog Power Off: This bit can not be auto-loaded from EEPROM (9346 or 9356). 1: Turn off the analog power of the RTL8139C(L) internally. 0: Normal working state. This is also power-on default value. Long Wake-up Frame: The initial value comes from EEPROM autoload. Set to 1: The RTL8139C(L) supports up to 5 wake-up frames, each with 16-bit CRC algorithm for MS Wakeup Frame, the low byte of 16-bit CRC should be placed at the correspondent CRC register, and the high byte of 16-bit CRC should be placed at the correspondent LSBCRC register. The wake-up frame 0 and 1 are the same as above, except that the masked bytes start from offset 0 to 63. The wake-up frame 2 and 3 are merged into one long wake-up frame respectively with masked bytes selected from offset 0 to 127. The wake-up frame 4 and 5, 6 and 7 are merged respectively into another 2 long wake-up frames. Please refer to 7.4 PCI Power Management functions for a detailed description. Set to 0: The RTL8139C(L) supports up to 8 wake-up frames, each with masked bytes selected from offset 12 to 75. LANWAKE vs. PMEB: Set to 1: The LWAKE can only be asserted when the PMEB is asserted and the ISOLATEB is low. Set to 0: The LWAKE and PMEB are asserted at the same time. In CardBus application, this bit has no meaning. Reserved LWAKE pattern: Please refer to LWACT bit in CONFIG1 register. Reserved Pre-Boot Wakeup: The initial value comes from EEPROM autoload. 1: Pre-Boot Wakeup disabled. (suitable for CardBus and MiniPCI application) 0: Pre-Boot Wakeup enabled. 24 Rev.1.4 RTL8139C(L) 6.15 Multiple Interrupt Select Register (Offset 005Ch-005Dh, R/W) If the received packet data is not a familiar protocol (IPX, IP, NDIS, etc.) to RTL8139C(L), RCR<ERTH[3:0]> will not be used to transfer data in early mode. This register will be written to the received data length in order to make an early Rx interrupt for the unfamiliar protocol. Bit 15-12 11-0 R/W R/W Symbol MISR11-0 Description Reserved Multiple Interrupt Select: Indicates that the RTL8139C(L) makes an Rx interrupt after RTL8139C(L) has transferred the byte data into the system memory. If the value of these bits is zero, there will be no early interrupt as soon as the RTL8139C(L) prepares to execute the first PCI transaction of the received data. Bit1, 0 must be zero. The ERTH3-0 bits should not be set to 0 when the multiple interrupt select register is used. The above is true when MulERINT=0 (bit17, RCR). When MulERINT=1, any received packet invokes early interrupt according to MISR[11:0] setting in early mode. 6.16 PCI Revision ID (Offset 005Eh, R) Bit 7-0 R/W R Symbol Revision ID Description The value in PCI Configuration Space offset 08h is 10h. 6.17 Transmit Status of All Descriptors (TSAD) Register (Offset 0060h-0061h, R/W) Bit 15 14 13 12 11 10 9 8 7 6 5 4 3 2 1 0 2002/01/10 R/W R R R R R R R R R R R R R R R R Symbol TOK3 TOK2 TOK1 TOK0 TUN3 TUN2 TUN1 TUN0 TABT3 TABT2 TABT1 TABT0 OWN3 OWN2 OWN1 OWN0 Description TOK bit of Descriptor 3 TOK bit of Descriptor 2 TOK bit of Descriptor 1 TOK bit of Descriptor 0 TUN bit of Descriptor 3 TUN bit of Descriptor 2 TUN bit of Descriptor 1 TUN bit of Descriptor 0 TABT bit of Descriptor 3 TABT bit of Descriptor 2 TABT bit of Descriptor 1 TABT bit of Descriptor 0 OWN bit of Descriptor 3 OWN bit of Descriptor 2 OWN bit of Descriptor 1 OWN bit of Descriptor 0 25 Rev.1.4 RTL8139C(L) 6.18 Basic Mode Control Register (Offset 0062h-0063h, R/W) Bit Name Description/Usage 15 Reset 14 13 Spd_Set 12 Auto Negotiation Enable (ANE) 11-10 9 8 Restart Auto Negotiation Duplex Mode 7-0 - This bit sets the status and control registers of the PHY(register 0062-0074H) in a default state. This bit is self-clearing. 1 = software reset; 0 = normal operation. Reserved This bit sets the network speed. 1 = 100Mbps; 0 = 10Mbps. This bit‘s initial value comes from 93C46 (93C56). This bit enables/disables the NWay auto-negotiation function. Set to 1 to enable auto-negotiation, bit13 will be ignored. Set to 0 disables auto-negotiation, bit13 and bit8 will determine the link speed and the data transfer mode, respectively. This bit‘s initial value comes from 93C46 (93C56). Reserved This bit allows the NWay auto-negotiation function to be reset. 1 = re-start auto-negotiation; 0 = normal operation. This bit sets the duplex mode. 1 = full-duplex; 0 = normal operation. This bit‘s initial value comes from 93C46 (93C56). If bit12 = 1, read = status write = register value. If bit12 = 0, read = write = register value. Reserved Default/ Attribute 0, RW 0, RW 0, RW 0, RW 0, RW - 6.19 Basic Mode Status Register (Offset 0064h-0065h, R) Bit 15 14 13 12 11 10-6 5 4 3 2 1 0 2002/01/10 Name Description/Usage 1 = enable 100Base-T4 support; 0 = suppress 100Base-T4 support. 100Base-T4 100Base_TX_ FD 1 = enable 100Base-TX full duplex support; 0 = suppress 100Base-TX full duplex support. 100BASE_TX_H 1 = enable 100Base-TX half-duplex support; 0 = suppress 100Base-TX half-duplex support. D 1 = enable 10Base-T full duplex support; 10Base_T_FD 0 = suppress 10Base-T full duplex support. 10_Base_T_HD 1 = enable 10Base-T half-duplex support; 0 = suppress 10Base-T half-duplex support. Reserved Auto Negotiation 1 = auto-negotiation process completed; 0 = auto-negotiation process not completed. Complete 1 = remote fault condition detected (cleared on read); Remote Fault 0 = no remote fault condition detected. Auto Negotiation 1 = Link had not been experienced fail state. 0 = Link had been experienced fail state 1 = valid link established; Link Status 0 = no valid link established. 1 = jabber condition detected; 0 = no jabber condition detected. Jabber Detect 1 = extended register capability; Extended 0 = basic register capability only. Capability 26 Default/ Attribute 0, RO 1, RO 1, RO 1, RO 1, RO 0, RO 0, RO 1, RD 0, RO 0, RO 1, RO Rev.1.4 RTL8139C(L) 6.20 Auto-negotiation Advertisement Register (Offset 0066h-0067h, R/W) Bit 15 Name NP 14 13 ACK RF 12-11 10 Pause 9 T4 8 TXFD 7 TX 6 10FD 5 10 4-0 Selector Description/Usage Next Page bit. 1 = transmitting the protocol specific data page; 0 = transmitting the primary capability data page 1 = acknowledge reception of link partner capability data word. 1 = advertise remote fault detection capability; 0 = do not advertise remote fault detection capability. Reserved 1 = flow control is supported by local node. 0 = flow control is not supported by local mode. 1 = 100Base-T4 is supported by local node; 0 = 100Base-T4 not supported by local node. 1 = 100Base-TX full duplex is supported by local node; 0 = 100Base-TX full duplex not supported by local node. 1 = 100Base-TX is supported by local node; 0 = 100Base-TX not supported by local node. 1 = 10Base-T full duplex supported by local node; 0 = 10Base-T full duplex not supported by local node. 1 = 10Base-T is supported by local node; 0 = 10Base-T not supported by local node. Binary encoded selector supported by this node. Currently only CSMA/ CD <00001> is specified. No other protocols are supported. Default/ Attribute 0, RO 0, RO 0, RW The default value comes from EEPROM, RO 0, RO 1, RW 1, RW 1, RW 1, RW <00001>, RW 6.21 Auto-Negotiation Link Partner Ability Register (Offset 0068h-0069h, R) Bit 15 Name NP 14 ACK 13 12-11 10 RF Pause 9 T4 8 TXFD 7 TX 6 10FD 5 10 4-0 Selector 2002/01/10 Description/Usage Next Page bit. 1 = transmitting the protocol specific data page; 0 = transmitting the primary capability data page 1 = link partner acknowledges reception of local node’s capability data word. 1 = link partner is indicating a remote fault. Reserved 1 = Flow control is supported by link partner, 0 = Flow control is not supported by link partner. 1 = 100Base-T4 is supported by link partner; 0 = 100Base-T4 not supported by link partner. 1 = 100Base-TX full duplex is supported by link partner; 0 = 100Base-TX full duplex not supported by link partner. 1 = 100Base-TX is supported by link partner; 0 = 100Base-TX not supported by link partner. 1 = 10Base-T full duplex is supported by link partner; 0 = 10Base-T full duplex not supported by link partner. 1 = 10Base-T is supported by link partner; 0 = 10Base-T not supported by link partner. Link Partner's binary encoded node selector. Currently only CSMA/ CD <00001> is specified. 27 Default/ Attribute 0, RO 0, RO 0, RO 0, RO 0, RO 0, RO 0, RO 0, RO 0, RO <00000>, RO Rev.1.4 RTL8139C(L) 6.22 Auto-negotiation Expansion Register (Offset 006Ah-006Bh, R) This register contains additional status for NWay auto-negotiation. Bit 15-5 4 Name MLF 3 LP_NP_ABLE 2 NP_ABLE 1 PAGE_RX 0 LP_NW_ABLE Description/Usage Reserved. These bits are always set to 0. Status indicating if a multiple link fault has occurred. 1 = fault occurred; 0 = no fault occurred. Status indicating if the link partner supports Next Page negotiation. 1 = supported; 0 = not supported. This bit indicates if the local node is able to send additional Next Pages. This bit is set when a new Link Code Word Page has been received. The bit is automatically cleared when the auto-negotiation link partner’s ability register (register 5) is read by management. 1 = link partner supports NWay auto-negotiation. Default/ Attribute 0, RO 0, RO 0, RO 0, RO 0, RO 6.23 Disconnect Counter (Offset 006Ch-006Dh, R) Bit 15-0 Name DCNT Description/Usage This 16-bit counter increments by 1 for every disconnect event. It rolls over when becomes full. It is cleared to zero by read command. Default/ Attribute h'[0000], R 6.24 False Carrier Sense Counter (Offset 006Eh-006Fh, R) This counter provides information required to implement the “False Carriers” attribute within the MAU managed object class of Clause 30 of the IEEE 802.3u specification. Bit 15-0 Name FCSCNT Description/Usage This 16-bit counter increments by 1 for each false carrier event. It is cleared to zero by read command. Default/ Attribute h'[0000], R 6.25 NWay Test Register (Offset 0070h-0071h, R/W) Bit 15-8 7 6-4 3 2 1 0 2002/01/10 Name NWLPBK ENNWLE FLAGABD FLAGPDF FLAGLSC Description/Usage Reserved 1 = set NWay to loopback mode. Reserved 1 = LED0 Pin indicates linkpulse 1 = Auto-neg experienced ability detect state 1 = Auto-neg experienced parallel detection fault state 1 = Auto-neg experienced link status check state 28 Default/ Attribute 0, RW 0, RW 0, RO 0, RO 0, RO Rev.1.4 RTL8139C(L) 6.26 RX_ER Counter (Offset 0072h-0073h, R) Bit 15-0 Name RXERCNT Description/Usage This 16-bit counter increments by 1 for each valid packet received. It is cleared to zero by read command. Default/ Attribute h'[0000], R 6.27 CS Configuration Register (Offset 0074h-0075h, R/W) Bit 15 14-10 9 Name Testfun LD 8 HEART BEAT 7 6 JBEN F_LINK_100 5 4 3 F_Connect Con_status 2 Con_status_En 1 0 PASS_SCR Description/Usage 1 = Auto-neg speeds up internal timer Reserved Active low TPI link disable signal. When low, TPI still transmits link pulses and TPI stays in good link state. 1 = HEART BEAT enable, 0 = HEART BEAT disable. HEART BEAT function is only valid in 10Mbps mode. 1 = enable jabber function. 0 = disable jabber function Used to login force good link in 100Mbps for diagnostic purposes. 1 = DISABLE, 0 = ENABLE. Assertion of this bit forces the disconnect function to be bypassed. Reserved This bit indicates the status of the connection. 1 = valid connected link detected; 0 = disconnected link detected. Assertion of this bit configures LED1 pin to indicate connection status. Reserved Bypass Scramble Default/ Attribute 0,WO 1, RW 1, RW 1, RW 1, RW 0, RW 0, RO 0, RW 0, RW 6.28 Flash Memory Read/Write Register (Offset 00D4h-00D7h, R/W) Bit 31-24 R/W R/W Symbol MD7-MD0 23-21 20 19 18 17 W W W W ROMCSB OEB WEB SWRWEn 16-0 W MA16-MA0 2002/01/10 Description Flash Memory Data Bus: These bits set and reflect the state of the MD7 - MD0 pins, during write and read process respectively. Reserved Chip Select: This bit sets the state of the ROMCSB pin. Output Enable: This bit sets the state of the OEB pin. Write Enable: This bit sets the state of the WEB pin. Enable software access to flash memory: 0: Disable read/write access to flash memory via software. 1: Enable read/write access to flash memory via software and disable the EEPROM access during flash memory access via software. Flash Memory Address Bus: These bits set the state of the MA16-0 pins. 29 Rev.1.4 RTL8139C(L) 6.29 Config5: Configuration Register 5 (Offset 00D8h, R/W) This register, unlike other Config registers, is not protected by the 93C46 Command register. Therefore, there is no need to enable Config register write prior to writing to Config5. Bit 7 6 Description Reserved Broadcast Wakeup Frame: 0: Default value. Disable Broadcast Wakeup Frame with mask bytes of only DID field = FF FF FF FF FF FF. 1: Enable Broadcast Wakeup Frame with mask bytes of only DID field = FF FF FF FF FF FF. The power-on default value of this bit is 0. 5 R/W MWF Mroadcast Wakeup Frame: 0: Default value. Disable Multicast Wakeup Frame with mask bytes of only DID field, which is a multicast address. 1: Enable Multicast Wakeup Frame with mask bytes of only DID field, which is a multicast address. The power-on default value of this bit is 0. 4 R/W UWF Unicast Wakeup Frame: 0: Default value. Disable Unicast Wakeup Frame with mask bytes of only DID field, which is its own physical address. 1: Enable Unicast Wakeup Frame with mask bytes of only DID field, which is its own physical address. The power-on default value of this bit is 0. 3 R/W FIFOAddrPtr FIFO Address Pointer: (Realtek internal use only to test FIFO SRAM) 0: (Power-on) default value. Both Rx and Tx FIFO address pointers are updated in ascending way from 0 and upwards. The initial FIFO address pointer is 0. 1: Both Rx and Tx FIFO address pointers are updated in descending way from 1FFh and downwards. The initial FIFO address pointer is 1FFh. Note: This bit does not participate in EEPROM auto-load. The FIFO address pointers can not be reset, except initial power-on. The power-on default value of this bit is 0. 2 R/W LDPS Link Down Power Saving mode: When cable is disconnected (Link Down), the analog part will power down itself (PHY Tx part & part of twister) automatically. However, the PHY Rx part and part of twister to monitor SD signal will not, in case the cable is re-connected and Link should be established again. 1: Disable. 0: Enable. 1 R/W LANWake LANWake signal enable/disable: 1: Enable LANWake signal. 0: Disable LANWake signal. 0 R/W PME_STS PME_Status bit: Always sticky/can be reset by PCI RST# and software. 1: The PME_Status bit can be reset by PCI reset or by software. 0: The PME_Status bit can only be reset by software. Config5 register, offset D8h: (SYM_ERR register is changed to Config5, the function of SYM_ERR register is no longer supported by RTL8139C.) The 3 bits (bit2-0) are auto-loaded from EEPROM Config5 byte to RTL8139C Config5 register. 2002/01/10 R/W R/W Symbol BWF 30 Rev.1.4 RTL8139C(L) 6.30 Function Event Register (Offset 00F0h-00F3h, R/W) Bit 31-16 15 R/W R/W Symbol INTR Description Reserved Interrupt: This bit is set to 1 when INTR field in the Function Force Event Register is set. Writing a 1 may clear this bit. Writing a 0 has no effect. This bit is not affected by the RST# pin and software reset. 14-5 Reserved 4 R/W GWAKE General Wakeup: This bit is set to 1 when the GWAKE field in the Function Present State Register changes its state from 0 to 1. This bit can also be set when the GWAKE bit of the Function Force Register is set. Writing a 1 may clear this bit. Writing a 0 has no effect. This bit is not affected by the RST# pin. 3-0 Reserved This register is valid only when Card_En=1 (bit3, Config3) and FuncRegEn=1 (bit1, Config3). The Function Event (Offset F0h), Function Event Mask (Offset F4h), Function Present State (Offset F8h), and Function Force Event (Offset FCh) registers have some corresponding fields with the same names. The GWAKE and INTR bits of these registers reflect the wake-up event signaled on the SCTCSCHG pin. The operation of CSTCSCHG pin is similar to PME# pin except that the CSTCSCHG pin is asserted high. 6.31 Function Event Mask Register (Offset 00F4h-00F7h, R/W) Bit 31-16 15 Description Reserved Interrupt mask: When cleared (0), setting of the INTR bit in either the Function Present State Register or the Function Event Register will neither cause assertion of the INT# signal while the CardBus PC Card interface is powered up, nor the system Wakeup (CSTSCHG) while the interface is powered off. Setting this bit to 1, enables the INTR bit in both the Function Present State Register and the Function Event Register to generate the INT# signal (and the system Wakeup if the corresponding WKUP field in this Function Event Mask Register is also set). This bit is not affected by the RST# pin. 14 R/W WKUP Wakeup mask: When cleared (0), the Wakeup function is disabled, i.e., the setting of this bit in the Function Event Register will not assert the CSTSCHG signal. Setting this bit to 1, enables the fields in the Function Event Register to assert the CSTSCHG signal. This bit is not affected by RST#. 13-5 Reserved 4 R/W GWAKE General Wakeup mask: When cleared (0), setting this bit in the Function Event Register will not cause the CSTSCHG pin to be asserted. Setting this bit to 1, enables the GWAKE field in the Function Event Register to assert CSTSCHG pin if bit14 of this register is also set. This bit is not affected by RST#. 3-0 Reserved This register is valid only when Card_En=1 (bit3, Config3) and FuncRegEn=1 (bit1, Config3). 2002/01/10 R/W R/W Symbol INTR 31 Rev.1.4 RTL8139C(L) 6.32 Function Present State Register (Offset 00F8h-00FBh, R) Bit 31-16 15 R/W R Symbol INTR Description Reserved Interrupt: This bit is set when one of the ISR register bits has been set to 1. This bit remains set (1), until all of the ISR register bits have been cleared. It is not affected by RST#. 14-5 Reserved 4 R GWAKE General Wakeup: This bit reflects the current state of the Wakeup event(s), it’s just like the PME_Status bit of the PMCSR register. This bit remains set (1), until the PME_Status bit of the PMCSR register is cleared. It is not affected by RST#. 3-0 Reserved This register is valid only when Card_En=1 (bit3, Config3) and FuncRegEn=1 (bit1, Config3). This read-only register reflects the current state of the function. 6.33 Function Force Event Register (Offset 00FCh-00FFh, W) Bit 31-16 15 R/W W Symbol INTR Description Reserved Interrupt: Writing a 1 sets the INTR bit in the Function Event Register. However, the INTR bit in the Function Present State Register is not affected and continues to reflect the current state of the ISR register. Writing a 0 to this bit has no effect. 14-5 Reserved 4 W GWAKE General Wakeup: Setting this bit to 1, sets the GWAKE bit in the Function Event Register. However, the GWAKE bit in the Function Present State Register is not affected and continues to reflect the current state of the Wakeup request. Writing a 0 to this bit has no effect. 3-0 Reserved This register is valid only when Card_En=1 (bit3, Config3) and FuncRegEn=1 (bit1, Config3). 2002/01/10 32 Rev.1.4 RTL8139C(L) 7. EEPROM Contents (93C46 or 93C56) The 93C46 is a 1K-bit EEPROM (the 93C56 is a 2K-bit EEPROM). Although it is actually addressed by words, its contents are listed below by bytes for convenience. After the valid duration of the RSTB pin or auto-load command in 9346CR, the RTL8139C(L) performs a series of EEPROM read operations from the 93C46 (93C56) address 00H to 31H. It is suggested to obtain Realtek approval before changing the default settings of the EEPROM. Bytes 00h 01h Contents 29h 81h 02h-03h 04h-05h 06h-07h 08h-09h 0Ah 0Bh 0Ch VID DID SVID SMID MNGNT MXLAT MSRBMCR 0Dh 0Eh-13h CONFIG3 Ethernet ID 14h 15h 16h-17h CONFIG0 CONFIG1 PMC 18h 19h CONFIG4 1Ah-1Dh PHY1_PARM_U 1Eh PHY2_PARM_U 2002/01/10 Description These 2 bytes contain the ID code word for the RTL8139C(L). The RTL8139C(L) will load the contents of the EEPROM into the corresponding location if the ID word (8129h) is correct, otherwise, the Vendor ID and Device ID of the PCI configuration space are hex 10EC and 8129 respectively. PCI Vendor ID, PCI configuration space offset 00h-01h. PCI Device ID, PCI configuration space offset 02h-03h. PCI Subsystem Vendor ID, PCI configuration space offset 2Ch-2Dh. PCI Subsystem ID, PCI configuration space offset 2Eh-2Fh. PCI Minimum Grant Timer, PCI configuration space offset 3Eh. PCI Maximum Latency Timer, PCI configuration space offset 3Fh. Bits 7-6 map to bits 7-6 of the Media Status register (MSR); Bits 5, 4, 0 map to bits 13, 12, 8 of the Basic Mode Control register (BMCR); Bits 3-2 are reserved. If the network speed is set to Auto-Detect mode (i.e. Nway mode), then Bit 1=0 means the local RTL8139C(L) supports flow control (IEEE 802.3x). In this case, Bit 10=1 in the Auto-negotiation Advertisement Register (offset 66h-67h). Bit 1=1 means the local RTL8139C(L) does not support flow control. In this case, Bit 10=0 in Auto-negotiation Advertisement. This is because there are Nway switch hubs which keep sending flow control pause packets for no reason, if the link partner supports Nway flow control. RTL8139C(L) Configuration register 3, operational register offset 59H. After auto-load command or hardware reset, the RTL8139C(L) loads the Ethernet ID to IDR0-IDR5 of the RTL8139C(L)'s I/O registers. RTL8139C(L) Configuration register 0, operational registers offset 51h. RTL8139C(L) Configuration register 1, operational registers offset 52h. Reserved. Do not change this field without Realtek approval. Power Management Capabilities. PCI configuration space address 52h and 53h. Reserved. Do not change this field without Realtek approval. Reserved. Do not change this field without Realtek approval. RTL8139C(L) Configuration register 4, operational registers offset 5Ah. Reserved. Do not change this field without Realtek approval. PHY Parameter 1-U for RTL8139C. Operational registers of the RTL8139C(L) are from 78h to 7Bh. Reserved. Do not change this field without Realtek approval. PHY Parameter 2-U for RTL8139C. Operational register of the RTL8139C(L) is 80h. 33 Rev.1.4 RTL8139C(L) 1Fh CONFIG_5 Do not change this field without Realtek approval. Bit7-3: Reserved. Bit2: Link Down Power Saving mode: Set to 1: Disable. Set to 0: Enable. When cable is disconnected(Link Down), the analog part will power down itself (PHY Tx part & part of twister) automatically except PHY Rx part and part of twister to monitor SD signal in case that cable is re-connected and Link should be established again. Bit1: LANWake signal Enable/Disable Set to 1: Enable LANWake signal. Set to 0: Disable LANWake signal. Bit0: PME_Status bit property Set to 1: The PME_Status bit can be reset by PCI reset or by software if D3cold_support_PME is 0. If D3cold_support_PME=1, the PME_Status bit is a sticky bit. Set to 0: The PME_Status bit is always a sticky bit and can only be reset by software. 20h-23h TW_PARM_U 24h-27h TW_PARM_T 28h-2Bh PHY1_PARM_T 2Ch PHY2_PARM_T 2Dh-2Fh 30h-31h CISPointer 32h-33h CheckSum 34h-3Eh 3Fh PXE_Para 40h-7Fh 80h-FFh VPD_Data CIS_Data Reserved. Do not change this field without Realtek approval. Twister Parameter U for RTL8139C. Operational registers of the RTL8139C(L) are 7Ch-7Fh. Reserved. Do not change this field without Realtek approval. Twister Parameter T for RTL8139C. Operational registers of the RTL8139C(L) are 7Ch-7Fh. Reserved. Do not change this field without Realtek approval. PHY Parameter 1-T for RTL8139C. Operational registers of the RTL8139C(L) are from 78h to 7Bh. Reserved. Do not change this field without Realtek approval. PHY Parameter 2-T for RTL8139C. Operational register of the RTL8139C(L) is 80h. Reserved. Reserved. Do not change this field without Realtek approval. CIS Pointer. Reserved. Do not change this field without Realtek approval. Checksum of the EEPROM content. Reserved. Do not change this field without Realtek approval. Reserved. Do not change this field without Realtek approval. PXE ROM code parameter. VPD data field. Offset 40h is the start address of the VPD data. CIS data field. Offset 80h is the start address of the CIS data. (93C56 only). 2002/01/10 34 Rev.1.4 RTL8139C(L) 7.1 Summary of EEPROM Registers Offset Name Type 00h-05h IDR0 – IDR5 R/W* 51h CONFIG0 R W* Bit7 Bit6 Bit5 Bit4 Bit3 Bit2 Bit1 Bit0 - - - - - BS2 - BS1 - BS0 - R W* LEDS1 LEDS1 LEDS0 LEDS0 VPD VPD PMEN PMEN R W* TxFCE TxFCE RxFCE RxFCE - - - - R W* - - Spd_Set Spd_Set ANE ANE - - - FUDUP FUDUP GNTDel PARM_EN Magic LinkUp PARM_EN W* 5Ah CONFIG4 R/W* RxFIFO AnaOff AutoClr 78h-7Bh PHY1_PARM R/W** 7Ch-7Fh TW1_PARM R/W** TW2_PARM 80h PHY2_PARM R/W** Magic LinkUp LongWF LWPME 52h CONFIG1 58h * ** 63H MSRBMCR 59h CONFIG3 R DVRLOAD LWACT MEMMAP IOMAP DVRLOAD LWACT - CardB_En CLKRU FuncReg FBtBEn N_En En - LWPTN - - 32 bit Read Write 32 bit Read Write 32 bit Read Write 8 bit Read Write The registers marked with type = W* can be written only if bits EEM1=EEM0=1. The registers marked with type = W** can be written only if bits EEM1=EEM0=1 and CONFIG3<PARM_EN> = 0. 7.2 Summary of EEPROM Power Management Registers Configuration Space offset 52h 53h Name Type Bit7 Bit6 Bit5 Bit4 Bit3 PMC R R Aux_I_b1 Aux_I_b0 DSI Reserved PMECLK PME_D3cold PME_D3ho PME_D2 PME_D1 PME_D0 55h PMCS R R W PME_Status PME_Status Bit2 Bit1 Bit0 D2 Version D1 Aux_I_b2 t 2002/01/10 - - 35 - - - - PME_En PME_En Rev.1.4 RTL8139C(L) 8. PCI Configuration Space Registers 8.1 PCI Configuration Space Table No. 00h 01h 02h 03h 04h 05h 06h 07h 08h 09h 0Ah 0Bh 0Ch 0Dh 0Eh 0Fh 10h 11h 12h 13h 14h 15h 16h 17h 18h-2 7h 28h-2 Bh 2Ch 2Dh 2Eh 2Fh 30h Name VID Type R R DID R R Command R W R W Status R R W Revision ID R PIFR R SCR R BCR R CLS R LTR R W HTR R BIST R IOAR R W R/W R/W R/W MEMAR R W R/W R/W R/W Bit6 VID6 VID14 DID6 DID14 PERRSP PERRSP 0 0 SSERR SSERR 0 0 0 0 0 LTR6 LTR6 0 0 0 IOAR14 IOAR22 IOAR30 0 MEM14 MEM22 MEM30 CISPtr SVID Cap_Ptr SVID7 SVID15 SMID7 SMID15 0 BMAR15 BMAR15 BMAR23 BMAR31 0 SVID6 SVID14 SMID6 SMID14 0 BMAR14 BMAR14 BMAR22 BMAR30 1 ILR R/W IRL7 ILR6 SMID BMAR 2002/01/10 Bit5 Bit4 VID5 VID4 VID13 VID12 DID5 DID4 DID13 DID12 0 0 0 0 0 NewCap RMABT RTABT RMABT RTABT 0 0 0 0 0 0 0 0 0 0 LTR5 LTR4 LTR5 LTR4 0 0 0 0 0 0 IOAR13 IOAR12 IOAR21 IOAR20 IOAR29 IOAR28 0 0 MEM13 MEM12 MEM21 MEM20 MEM29 MEM28 RESERVED Bit3 VID3 VID11 DID3 DID11 0 0 STABT STABT 0 0 0 0 0 LTR3 LTR3 0 0 0 IOAR11 IOAR19 IOAR27 0 MEM11 MEM19 MEM27 Bit2 VID2 VID10 DID2 DID10 BMEN BMEN 0 0 DST1 0 0 0 0 0 LTP2 LTP2 0 0 0 IOAR10 IOAR18 IOAR26 0 MEM10 MEM18 MEM26 Bit1 Bit0 VID1 VID0 VID9 VID8 DID1 DID0 DID9 DID8 MEMEN IOEN MEMEN IOEN FBTBEN SERREN SERREN 0 0 DST0 DPD DPD 0 0 0 0 0 0 1 0 0 0 LTR1 LTR0 LTR1 LTR0 0 0 0 0 0 IOIN IOAR9 IOAR8 IOAR17 IOAR16 IOAR25 IOAR24 0 MEMIN MEM9 MEM8 MEM17 MEM16 MEM25 MEM24 Cardbus CIS Pointer R R R R R W R W R/W R/W R 31h 32h 33h 34h 35h-3 Bh 3Ch Bit7 VID7 VID15 DID7 DID15 0 0 FBBC DPERR DPERR 0 0 0 0 0 LTR7 LTR7 0 0 0 IOAR15 IOAR23 IOAR31 0 MEM15 MEM23 MEM31 SVID5 SVID4 SVID13 SVID12 SMID5 SMID4 SMID13 SMID12 0 0 BMAR13 BMAR12 BMAR13 BMAR12 BMAR21 BMAR20 BMAR29 BMAR28 0 1 RESERVED ILR5 36 ILR4 SVID3 SVID2 SVID1 SVID11 SVID10 SVID9 SMID3 SMID2 SMID1 SMID11 SMID10 SMID9 0 0 0 BMAR11 0 0 BMAR11 BMAR19 BMAR18 BMAR17 BMAR27 BMAR26 BMAR25 0 0 0 ILR3 ILR2 ILR1 SVID0 SVID8 SMID0 SMID8 BROMEN BROMEN 0 BMAR16 BMAR24 0 ILR0 Rev.1.4 RTL8139C(L) 3Dh 3Eh 3Fh 40h– 4Fh 50h 51h 52h 53h 54h IPR MNGNT MXLAT R R R PMID NextPtr PMC R R R R R W R W PMCSR 55h 56h– 5Fh 60h 61h 62h VPDID NextPtr Flag VPD Address 63h 64h VPD Data 65h 66h 67h 68h-F Fh 0 0 0 0 0 0 0 0 1 0 1 0 RESERVED 0 0 0 0 0 0 0 0 0 0 0 0 0 Aux_I_b1 Aux_I_b0 DSI Reserved PMECLK PME_D3cold PME_D3hot PME_D2 PME_D1 PME_D0 0 0 0 0 0 PME_Status PME_Status RESERVED 0 0 0 0 0 D2 0 - 0 0 0 1 0 0 0 1 0 0 Version D1 Aux_I_b2 Power State Power State PME_En PME_En R 0 0 0 0 0 0 1 1 R 0 0 0 0 0 0 0 0 R/W VPDADDR VPDADDR VPDADD VPDADD VPDADD VPDADD VPDADD VPDADD 7 6 R5 R4 R3 R2 R1 R0 R/W Flag VPDADDR VPDADD VPDADD VPDADD VPDADD VPDADD VPDADD 14 R13 R12 R11 R10 R9 R8 R/W Data7 Data6 Data5 Data4 Data3 Data2 Data1 Data0 R/W Data15 Data14 Data13 Data12 Data11 Data10 Data9 Data8 R/W Data23 Data22 Data21 Data20 Data19 Data18 Data17 Data16 R/W Data31 Data30 Data29 Data28 Data27 Data26 Data25 Data24 RESERVED 8.2 PCI Configuration Space Functions The PCI configuration space is intended for configuration, initialization, and catastrophic error handling functions. The functions of RTL8139C(L)'s configuration space are described below. VID: Vendor ID. This field will be set to a value corresponding to PCI Vendor ID in the external EEPROM. If there is no EEPROM, this field will default to a value of 10ECh which is Realtek Semiconductor's PCI Vendor ID. DID: Device ID. This field will be set to a value corresponding to PCI Device ID in the external EEPROM. If there is no EEPROM, this field will default to a value of 8129h. Command: The command register is a 16-bit register used to provide coarse control over a device's ability to generate and respond to PCI cycles. 2002/01/10 37 Rev.1.4 RTL8139C(L) Bit 15-10 9 Symbol FBTBEN 8 SERREN 7 ADSTEP 6 PERRSP 5 4 3 VGASNOO P MWIEN SCYCEN 2 BMEN 1 MEMEN 0 IOEN Description Reserved Fast Back-To-Back Enable: Config3<FBtBEn>=0:Read as 0. Write operation has no effect. The RTL8139C(L) will not generate Fast Back-to-back cycles. When Config3<FbtBEn>=1, This read/write bit controls whether or not a master can do fast back-to-back transactions to different devices. Initialization software will set the bit if all targets are fast back-to-back capable. A value of 1 means the master is allowed to generate fast back-to-back transaction to different agents. A value of 0 means fast back-to-back transactions are only allowed to the same agent. This bit’s state after RST# is 0. System Error Enable: When set to 1, the RTL8139C(L) asserts the SERRB pin when it detects a parity error on the address phase (AD<31:0> and CBEB<3:0> ). Address/Data Stepping: Read as 0, write operation has no effect. The RTL8139C(L) never performs address/data stepping. Parity Error Response: When set to 1, RTL8139C(L) will assert the PERRB pin on the detection of a data parity error when acting as the target, and will sample the PERRB pin as the master. When set to 0, any detected parity error is ignored and the RTL8139C(L) continues normal operation. Parity checking is disabled after hardware reset (RSTB). VGA palette SNOOP: Read as 0, write operation has no effect. Memory Write and Invalidate cycle Enable: Read as 0, write operation has no effect. Special Cycle Enable: Read as 0, write operation has no effect. The RTL8139C(L) ignores all special cycle operation. Bus Master Enable: When set to 1, the RTL8139C(L) is capable of acting as a bus master. When set to 0, it is prohibited from acting as a PCI bus master. For the normal operation, this bit must be set by the system BIOS. Memory Space Access: When set to 1, the RTL8139C(L) responds to memory space accesses. When set to 0, the RTL8139C(L) ignores memory space accesses. I/O Space Access: When set to 1, the RTL8139C(L) responds to IO space access. When set to 0, the RTL8139C(L) ignores I/O space accesses. Status: The status register is a 16-bit register used to record status information for PCI bus related events. Reads to this register behave normally. Writes are slightly different in that bits can be reset, but not set. 2002/01/10 38 Rev.1.4 RTL8139C(L) Bit 15 Symbol DPERR 14 SSERR 13 RMABT 12 RTABT 11 STABT 10-9 DST1-0 8 DPD 7 FBBC 6 UDF 5 4 66MHz NewCap 0-3 - Description Detected Parity Error: When set indicates that the RTL8139C(L) detected a parity error, even if parity error handling is disabled in command register PERRSP bit. Signaled System Error: When set indicates that the RTL8139C(L) asserted the system error pin, SERRB. Writing a 1 clears this bit to 0. Received Master Abort: When set indicates that the RTL8139C(L) terminated a master transaction with master abort. Writing a 1 clears this bit to 0. Received Target Abort: When set indicates that the RTL8139C(L) master transaction was terminated due to a target abort. Writing a 1 clears this bit to 0. Signaled Target Abort: Set to 1 whenever the RTL8139C(L) terminates a transaction with target abort. Writing a 1 clears this bit to 0. Device Select Timing: These bits encode the timing of DEVSELB. They are set to 01b (medium), indicating the RTL8139C(L) will assert DEVSELB two clocks after FRAMEB is asserted. Data Parity error Detected: This bit sets when the following conditions are met: • The RTL8139C(L) asserts parity error(PERRB pin) or it senses the assertion of PERRB pin by another device. • The RTL8139C(L) operates as a bus master for the operation that caused the error. • The Command register PERRSP bit is set. Writing a 1 clears this bit to 0. Fast Back-To-Back Capable: Config3<FbtBEn>=0, Read as 0, write operation has no effect. Config3<FbtBEn>=1, Read as 1. User Definable Features Supported: Read as 0, write operation has no effect. The RTL8139C(L) does not support UDF. 66 MHz Capable: Read as 0, write operation has no effect. The RTL8139C(L) has no 66MHz capability. New Capability: Config3<PMEn>=0, Read as 0, write operation has no effect. Config3<PMEn>=1, Read as 1. Reserved RID: Revision ID Register The Revision ID register is an 8-bit register that specifies the RTL8139C(L) controller revision number. PIFR: Programming Interface Register The programming interface register is an 8-bit register that identifies the programming interface of the RTL8139C(L) controller. Because the PCI version 2.1 specification does not define any specific value for network devices, PIFR = 00h. SCR: Sub-Class Register The Sub-class register is an 8-bit register that identifies the function of the RTL8139C(L). SCR = 00h indicates that the RTL8139C(L) is an Ethernet controller. BCR: Base-Class Register The Base-class register is an 8-bit register that broadly classifies the function of the RTL8139C(L). BCR = 02h indicates that the RTL8139C(L) is a network controller. CLS: Cache Line Size Reads will return a 0, writes are ignored. LTR: Latency Timer Register Specifies, in units of PCI bus clocks, the value of the latency timer of the RTL8139C(L). When the RTL8139C(L) asserts FRAMEB, it enables its latency timer to count. If the RTL8139C(L) deasserts FRAMEB prior to count expiration, the content of the latency timer is ignored. Otherwise, after the count expires, the RTL8139C(L) initiates transaction termination as soon as its GNTB is deasserted. Software is able to read or write, and the default value is 00H. HTR: Header Type Register Reads will return a 0, writes are ignored. 2002/01/10 39 Rev.1.4 RTL8139C(L) BIST: Built-in Self Test Reads will return a 0, writes are ignored. IOAR: This register specifies the BASE IO address which is required to build an address map during configuration. It also specifies the number of bytes required as well as an indication that it can be mapped into IO space. Bit 31-8 7-2 1 0 Symbol Description IOAR31-8 BASE IO Address: This is set by software to the Base IO address for the operational register map. IOSIZE Size Indication: Read back as 0. This allows the PCI bridge to determine that the RTL8139C(L) requires 256 bytes of IO space. Reserved IOIN IO Space Indicator: Read only. Set to 1 by the RTL8139C(L) to indicate that it is capable of being mapped into IO space. MEMAR: This register specifies the base memory address for memory accesses to the RTL8139C(L) operational registers. This register must be initialized prior to accessing any of the RTL8139C(L)'s register with memory access. Bit 31-8 7-4 3 2-1 0 Symbol Description MEM31-8 Base Memory Address: This is set by software to the base address for the operational register map. MEMSIZE Memory Size: These bits return 0, which indicates that the RTL8139C(L) requires 256 bytes of Memory Space. MEMPF Memory Prefetchable: Read only. Set to 0 by the RTL8139C(L). MEMLOC Memory Location Select: Read only. Set to 0 by the RTL8139C(L). This indicates that the base register is 32-bit wide and can be placed anywhere in the 32-bit memory space. MEMIN Memory Space Indicator: Read only. Set to 0 by the RTL8139C(L) to indicate that it is capable of being mapped into memory space. 2002/01/10 40 Rev.1.4 RTL8139C(L) CISPtr: CardBus CIS Pointer. This field is valid only when CardB_En (bit3, Config3) = 1. The value of this register is auto-loaded from 93C46 or 93C56 (from offset 30h-31h). - Bit 2-0: Address Space Indicator Bit2-0 0 1-6 Meaning Not supported. (CIS begins in device-dependent configuration space.) The CIS begins in the memory address governed by one of the six Base Address Registers. Ex., if the value is 2, then the CIS begins in the memory address space governed by Base Address Register 2. 7 The CIS begins in the Expansion ROM space. Bit27-3: Address Space Offset Bit31-28: ROM Image number Bit2-0 Space Type Address Space Offset Values 0 Configuration space Not supported. Memory space X; 1≤X≤6 0h≤value≤FFFF FFF8h. This is the offset into the memory address space governed by Base Address Register X. Adding this value to the value in the Base Address Register gives the location of the start of the CIS. For RTL8139C(L), the value is 100h. 7 Expansion ROM 0≤image number≤Fh, 0h≤value≤0FFF FFF8h. This is the offset into the expansion ROM address space governed by the Expansion ROM Base Register. The image number is in the uppermost nibble of the CISPtr register. The value consists of the remaining bytes. For RTL8139C(L), the image number is 0h. This read-only register points to where the CIS begins, in one of the following spaces: i. Memory space --- The CIS may be in any of the memory spaces from offset 100h and up after being auto-loaded from 93C56. The CIS is stored in 93C56 EEPROM physically from offset 80h-FFh. ii. Expansion ROM space --- The CIS is stored in expansion ROM physically within the 128KB max. SVID: Subsystem Vendor ID. This field will be set to a value corresponding to the PCI Subsystem Vendor ID in the external EEPROM. If there is no EEPROM, this field will default to a value of 11ECh which is Realtek Semiconductor's PCI Subsystem Vendor ID. SMID: Subsystem ID. This field will be set to a value corresponding to the PCI Subsystem ID in the external EEPROM. If there is no EEPROM, this field will default to a value of 8129h. BMAR: This register specifies the base memory address for memory accesses to the RTL8139C(L) operational registers. This register must be initialized prior to accessing any of the RTL8139C(L)'s registers with memory access. Bit 31-18 17-11 Symbol BMAR31-18 ROMSIZE 10-1 0 BROMEN 2002/01/10 Description Boot ROM Base Address These bits indicate how many Boot ROM spaces to be supported. The Relationship between Config 0 <BS2:0> and BMAR17-11 is the following: BS2 BS1 BS0 Description 0 0 0 No Boot ROM, BROMEN=0 (R) 0 0 1 8K Boot ROM, BROMEN (R/W), BMAR12-11 = 0 (R), BMAR17-13 (R/W) 0 1 0 16K Boot ROM, BROMEN (R/W), BMAR13-11 = 0 (R), BMAR17-14 (R/W) 0 1 1 32K Boot ROM, BROMEN (R/W), BMAR14-11 = 0 (R), BMAR17-15 (R/W) 1 0 0 64K Boot ROM, BROMEN (R/W), BMAR15-11 = 0 (R), BMAR17-16 (R/W) 1 0 1 128K Boot ROM, BROMEN(R/W), BMAR16-11=0 (R), BMAR17 (R/W) 1 1 0 unused 1 1 1 unused Reserved (read back 0) Boot ROM Enable: This is used by the PCI BIOS to enable accesses to Boot ROM. 41 Rev.1.4 RTL8139C(L) ILR: Interrupt Line Register The Interrupt Line Register is an 8-bit register used to communicate with the routing of the interrupt. It is written by the POST software to set interrupt line for the RTL8139C(L). IPR: Interrupt Pin Register The Interrupt Pin register is an 8-bit register indicating the interrupt pin used by the RTL8139C(L). The RTL8139C(L) uses INTA interrupt pin. Read only. IPR = 01H. MNGNT: Minimum Grant Timer: Read only Specifies how long a burst period the RTL8139C(L) needs at 33 MHz clock rate in units of 1/4 microsecond. This field will be set to a value from the external EEPROM. If there is no EEPROM, this field will default to a value of 20h. MXLAT: Maximum Latency Timer: Read only Specifies how often the RTL8139C(L) needs to gain access to the PCI bus in units of 1/4 microseconds. This field will be set to a value from the external EEPROM. If there is no EEPROM, this field will default to a value of 20h. 8.3 Default Values After Power-on (RSTB asserted) PCI Configuration Space Table No. 00h 01h 02h 03h 04h Name VID DID Command 05h 06h 07h Status 08h 09h 0Ah 0Bh 0Ch 0Dh Revision ID PIFR SCR BCR CLS LTR 0Eh 0Fh 10h 11h 12h 13h 14h 15h 16h 17h 18h | 27h HTR BIST IOAR 28h 29h 2002/01/10 MEMAR Type R R R R R W R W R R W R R R R R R W R R R R/W R/W R/W R R/W R/W R/W Bit7 1 0 0 1 0 0 0 0 DPERR 0 0 0 0 0 0 LTR7 0 0 0 0 0 0 0 0 0 0 Bit6 1 0 0 0 0 PERRSP 0 0 0 SSERR 0 0 0 0 0 0 LTR6 0 0 0 0 0 0 0 0 0 0 R R 0 0 0 0 Bit5 Bit4 Bit3 1 0 1 0 1 0 1 0 1 0 0 0 0 0 0 0 0 0 0 NewCap 0 0 0 0 RMABT RTABT STABT 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 LTR5 LTR4 LTR3 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 RESERVED(ALL 0) Bit2 Bit1 Bit0 1 0 0 0 0 0 0 0 1 0 0 1 0 0 0 BMEN MEMEN IOEN 0 0 0 SERREN 0 0 0 0 1 0 DPD 0 0 0 0 0 0 0 0 0 0 1 0 0 0 0 0 0 0 LTP2 LTR1 LTR0 0 0 0 0 0 0 0 0 1 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 - CISPtr 0 0 42 0 0 0 0 0 0 0 0 0 0 Rev.1.4 RTL8139C(L) 2Ah 2Bh 2Ch 2Dh 2Eh 2Fh 30h SVID SMID BMAR 31h 32h 33h 34h 35h | 3Bh 3Ch 3Dh 3Eh 3Fh 40h | FFh Cap-Ptr R R R R R R R W R W R/W R/W R 0 0 0 0 0 0 0 0 0 0 1 1 1 0 1 0 0 0 1 0 0 0 1 0 1 1 0 0 0 0 0 0 0 0 0 0 0 0 0 0 BMAR15 BMAR14 BMAR13 BMAR12 BMAR11 0 0 0 0 0 0 0 0 0 0 Ptr7 Ptr6 Ptr5 Ptr4 Ptr3 RESERVED(ALL 0) 0 0 1 0 0 0 0 0 0 0 Ptr2 0 0 0 0 0 0 0 0 0 0 Ptr1 0 0 0 1 1 1 0 BROMEN 0 0 0 Ptr0 0 0 0 0 0 0 0 0 0 1 0 0 ILR IPR MNGNT MXLAT R/W R R R 0 0 0 0 0 0 0 0 0 0 1 1 0 0 0 0 RESERVED(ALL 0) 0 0 0 0 - 8.4 PCI Power Management Functions The RTL8139C(L) is compliant to ACPI (Rev 1.0, 1.0b, 2.0), PCI Power Management (Rev 1.1), and Network Device Class Power Management Reference Specification (V1.0, 1.0a, 2.0), such as to support OS Directed Power Management (OSPM) environment. To support this, the RTL8139C(L) provides the following capabilities: The RTL8139C(L) can monitor the network for a Wakeup Frame, a Magic Packet, or a Link Change, and notify the system via PME# when such a packet or event arrives. Then, the whole system can be restored to a working state to process the incoming jobs. The RTL8139C(L) can be isolated from the PCI bus automatically with the auxiliary power circuit when the PCI bus is in B3 state, i.e. when the power on the PCI bus is removed. When the motherboard includes a built-in RTL8139C(L) single-chip fast Ethernet controller, the RTL8139C(L) can be disabled when needed by pulling the isolate pin low to 0V. When the RTL8139C(L) is in power down mode (D1 ~ D3): ♦ The Rx state machine is stopped, and the RTL8139C(L) keeps monitoring the network for wakeup events such as Magic Packet, Wakeup Frame, and/or Link Change, in order to wake up the system. When in power down mode, the RTL8139C(L) will not reflect the status of any incoming packets in the ISR register and will not receive any packets into the Rx FIFO. ♦ The FIFO status and the packets which are already contained in the Rx FIFO before entering power down mode are kept by the RTL8139C(L) during power down mode. ♦ The transmission is stopped. The action of PCI bus master mode is stopped, as well. The Tx FIFO is kept. ♦ After restoration to a D0 state, the PCI bus master mode continues to transfer the data, which is not yet moved into the Tx FIFO from the last break. The packet that was not transmitted completely last time is transmitted again. D3cold_support_PME bit(bit15, PMC register) & Aux_I_b2:0 (bit8:6, PMC register) in PCI configuration space. If 9346 D3cold_support_PME bit(bit15, PMC) = 1, the above 4 bits depend on the existence of Aux. power. If 9346 D3cold_support_PME bit(bit15, PMC) = 0, the above 4 bits are all 0's. Examples: 1. If 9346 D3c_support_PME = 1, If Aux. power exists, then PMC in PCI config space is the same as 9346 PMC, i.e. if 9346 PMC = C2 F7, 2002/01/10 43 Rev.1.4 RTL8139C(L) then PCI PMC = C2 F7. If Aux. power is absent, then PMC in PCI config space is the same as 9346 PMC except the above 4 bits are all 0’s. I.e. if 9346 PMC = C2 F7, the PCI PMC = 02 76. In this case, if wakeup support is desired when the main power is off, it is suggested that the 9346 PMC be set to: C2 F7 (RT 9346 default value). It is not recommended to set the D0_support_PME bit to “1”. 2. If 9346 D3c_support_PME = 0, If Aux. power exists, then PMC in PCI config space is the same as 9346 PMC. I.e. if 9346 PMC = C2 77, then PCI PMC = C2 77. If Aux. power is absent, then PMC in PCI config space is the same as 9346 PMC except the above 4 bits are all 0’s. I.e. if 9346 PMC = C2 77, the PCI PMC = 02 76. In this case, if wakeup support is not desired when the main power is off, it is suggested that the 9346 PMC to be 02 76. It is not recommended to set the D0_support_PME bit to “1”. A Link Wakeup occurs only when the following conditions are met: ♦ The LinkUp bit (CONFIG3#4) is set to 1, the PMEn bit (CONFIG1#0) is set to 1, and the RTL8139C(L) is in an isolation state, or the PME# can be asserted in current power state. ♦ The Link status is re-established. A Magic Packet Wakeup occurs only when the following conditions are met: ♦ The destination address of the received Magic Packet matches. ♦ The received Magic Packet does not contain a CRC error. ♦ The Magic bit (CONFIG3#5) is set to 1, the PMEn bit (CONFIG1#0) is set to 1, and the RTL8139C(L) is in isolation state, or the PME# can be asserted in current power state. ♦ The Magic Packet pattern matches, i.e. 6 * FFh + MISC(can be none)+ 16 * DID(Destination ID) in any part of a valid (Fast) Ethernet packet. A Wakeup Frame event occurs only when the following conditions are met: ♦ The destination address of the received Wakeup Frame matches. ♦ The received Wakeup Frame does not contain a CRC error. ♦ The PMEn bit (CONFIG1#0) is set to 1. The 8-bit CRC* (or 16-bit CRC) of the received Wakeup Frame matches with the 8-bit CRC* (or 16-bit CRC) of the sample Wakeup Frame pattern received from the local machine’s OS. The last masked byte** of the received Wakeup Frame matches with the last masked byte of the sample Wakeup Frame pattern provided by the local machine’s OS. (In Long Wakeup Frame mode, the last masked byte field is replaced with the high byte of the 16-bit CRC.) * 8-bit CRC: This 8-bit CRC logic is used to generate an 8-bit CRC from the masked bytes of the received Wakeup Frame packet within offset 12 to 75. Software should calculate the 8-bit Power Management CRC for each specific sample wakeup frame and store the calculated CRC in the corresponding CRC register for the RTL8139C(L) to check if there is a Wakeup Frame packet coming in. * 16-bit CRC: (Long Wakeup Frame mode, the mask bytes cover from offset 0 to 127): Long Wakeup Frame: The RTL8139C(L) also supports 3 long Wakeup Frames. If the range of the mask bytes of the sample Wakeup Frame, passed down by the OS to the driver, exceeds the range from offset 12 to 75, the related registers of wakeup frames 2 and 3 can be merged to support one long wakeup frame by setting the LongWF (bit0, CONFIG4). Thus, the range of effective mask bytes extends from offset 0 to 127. The low byte and high byte of the calculated 16-bit CRC should be put into register CRC2 and LSBCRC2 respectively. The mask bytes (16 bytes) should be stored to register Wakeup2 and Wakeup3. The CRC3 and LSBCRC3 have no meaning in this case and should be reset to 0. The long Wakeup Frame pairs are wakeup frames 4 and 5, wakeup frames 6 and 7. The CRC5, CRC7, LSBCRC5, and LSBCRC7 have no meaning in this case and should be reset to 0, if the RTL8139C(L) is set to support long Wakeup Frames. In this case, the RTL8139C(L) supports 5 wakeup frames, that are 2 normal wakeup frames and 3 long wakeup frames. 2002/01/10 44 Rev.1.4 RTL8139C(L) ** last masked byte: The last byte of the masked bytes of the received Wakeup Frame packet within offset 12 to 75 (in 8-bit CRC mode) should match the last byte of the masked bytes of the sample Wakeup Frame provided by the local machine’s OS. The PME# signal is asserted only when the following conditions are met: The PMEn bit (bit0, CONFIG1) is set to 1. The PME_En bit (bit8, PMCSR) in PCI Configuration Space is set to 1. The RTL8139C(L) may assert PME# in current power state, or the RTL8139C(L) is in isolation state. Refer to PME_Support(bit15-11) of the PMC register in PCI Configuration Space. Magic Packet, LinkUp, or Wakeup Frame has occurred. Note: Writing a 1 to the PME_Status (bit15) of the PMCSR register in the PCI Configuration Space will clear this bit and cause the RTL8139C(L) to stop asserting a PME# (if enabled). When the RTL8139C(L) is in power down mode, ex. D1-D3, the IO, MEM, and Boot ROM space are all disabled. After RST# is asserted, the power state must be changed to D0 if the original power state is D3cold. There is no hardware enforced delays at RTL8139C(L)’s power state. When in ACPI mode, the RTL8139C(L) does not support PME from D0, due to the setting of the PMC register. This setting comes from EEPROM. The RTL8139C(L) also supports the LAN WAKE-UP function. The LWAKE pin is used to notify the motherboard to execute the wake-up process whenever the RTL8139C(L) receives a wakeup event, such as Magic Packet. The LWAKE signal is asserted according the following setting. LWPME bit (bit4, CONFIG4): 0: The LWAKE is asserted whenever there is wakeup event occurs. 1: The LWAKE can only be asserted when the PMEB is asserted and the ISOLATEB is low. Bit1 of DELAY byte(offset 1Fh, EEPROM): 0: LWAKE signal is disabled. 1: LWAKE signal is enabled 8.5 Vital Product Data (VPD) Bit 31 of the VPD is used to issue the VPD read/write command and is also a flag used to indicate if the transfer of data between the VPD data register and the 93C46/93C56 has been completed or not. 1. Write VPD register: (write data to 93C46/93C56)Write the flag bit to a one at the same time the VPD address is written. When the flag bit is set to zero by the RTL8139C(L), the VPD data (all 4 bytes) has been transferred from the VPD data register to 93C46/93C56. 2. Read VPD register: (read data from 93C46/93C56) Write the flag bit to a zero at the same time the VPD address is written. When the flag bit is set to one by the RTL8139C(L), the VPD data (all 4 bytes) has been transferred from the 93C46/93C56 to the VPD data register. 2002/01/10 45 Rev.1.4 RTL8139C(L) 9. Functional Description 9.1 Transmit Operation The host CPU initiates a transmit by storing an entire packet of data in one of the descriptors in the main memory. When the entire packet has been transferred to the Tx buffer, the RTL8139C(L) is instructed to move the data from the Tx buffer to the internal transmit FIFO in PCI bus master mode. When the transmit FIFO contains a complete packet or is filled to the programmed threshold level, the RTL8139C(L) begins packet transmission. 9.2 Receive Operation The incoming packet is placed in the RTL8139C(L)'s Rx FIFO. Concurrently, the RTL8139C(L) performs address filtering of multicast packets according to its hash algorithms. When the amount of data in the Rx FIFO reaches the level defined in the Receive Configuration Register, the RTL8139C(L) requests the PCI bus to begin transferring the data to the Rx buffer in PCI bus master mode. 9.3 Line Quality Monitor The line quality monitor function is available in 100Base-TX mode. It is possible to determine the amount of Equalization being used by accessing certain test registers with the DSP engine. This provides a crude indication of connected cable length. This function allows for a quick and simple verification of the line quality in that any significant deviation from an expected register value (based on a known cable length) would indicate that the signal quality has deviated from the expected nominal case. 9.4 Clock Recovery Module The Clock Recovery Module (CRM) is supported in both 10Base-T and 100Base-TX mode. The CRM accepts 125Mb/s MLT3 data from the equalizer. The DPLL locks onto the 125Mb/s data stream and extracts a 125MHz recovered clock. The extracted and synchronized clock and data are used as required by the synchronous receive operations. 9.5 Loopback Operation Loopback mode is normally used to verify that the logic operations up to the Ethernet cable function correctly. In loopback mode for 100Mbps, the RTL8139C(L) takes frames from the transmit descriptor and transmits them up to internal Twister logic. 9.6 Tx Encapsulation While operating in 100Base-TX mode, the RTL8139C(L) encapsulates the frames that it transmits according to the 4B/5B code-groups table. The changes of the original packet data are listed as follows: 1. The first byte of the preamble in the MAC frame is replaced with the JK symbol pair. 2. After the CRC, the TR symbol pair is inserted. 9.7 Collision If the RTL8139C(L) is not in full-duplex mode, a collision event occurs when the receive input is not idle while the RTL8139C(L) transmits. If the collision was detected during the preamble transmission, the jam pattern is transmitted after completing the preamble (including the JK symbol pair). 2002/01/10 46 Rev.1.4 RTL8139C(L) 9.8 Rx Decapsulation The RTL8139C(L) continuously monitors the network when reception is enabled. When activity is recognized it starts to process the incoming data. After detecting receive activity on the line, the RTL8139C(L) starts to process the preamble bytes based on the mode of operation. While operating in 100Base-TX mode, the RTL8139C(L) expects the frame to start with the symbol pair JK in the first bye of the 8-byte preamble. The RTL8139C(L) checks the CRC bytes and checks if the packet data ends with the TR symbol pair, if not, the RTL8139C(L) reports a CRC error RSR. The RTL8139C(L) reports a RSR<CRC> error in the following case: In 100Base-TX mode, one of the following occur. a. An invalid symbol (4B/5B Table) is received in the middle of the frame. The RSR<ISE> bit also sets. b. The frame does not end with the TR symbol pair. 9.9 Flow Control The RTL8139C(L) supports IEEE802.3X flow control to improve performance in full-duplex mode. It detects PAUSE packets to achieve flow control tasks. 9.9.1. Control Frame Transmission When the RTL8139C(L) detects that its free receive buffer is less than 3K bytes, it sends a PAUSE packet with pause_time(=FFFFh) to inform the source station to stop transmission for the specified period of time. After the driver has processed the packets in the receive buffer and updated the boundary pointer, the RTL8139C(L) sends the other PAUSE packet with pause_time(=0000h) to wake up the source station to restart transmission. 9.9.2. Control Frame Reception The RTL8139C(L) enters a back off state for a specified period of time when it receives a valid PAUSE packet with pause_time(=n). If the PAUSE packet is received while the RTL8139C(L) is transmitting, the RTL8139C(L) starts to back off after current transmission completes. The RTL8139C(L) is free to transmit the next packets when it receives a valid PAUSE packet with pause_time(=0000h) or the backoff timer(=n*512 bit time) elapses. Note: The PAUSE operation cannot be used to inhibit transmission of MAC Control frames (e.g. a PAUSE packet). The N-way flow control capability can be disabled. Please refer to Section 7, “EEPROM (93C46 or 93C56) Contents” for a detailed description. 9.10 LED Functions 9.10.1 10/100 Mbps Link Monitor The Link Monitor senses the link integrity or if a station is down. 2002/01/10 47 Rev.1.4 RTL8139C(L) 9.10.2 LED_RX In 10/100 Mbps mode, the LED function is like the RTL8129. Power On LED = Low Receiving Packet? No Yes LED = High for (100 +- 10) ms LED = Low for (12 +- 2) ms 9.10.3 LED_TX Power On LED = Low Transmitting Packet No Yes LED = High for (100 +- 10) ms LED = Low for (12 +- 2) ms 2002/01/10 48 Rev.1.4 RTL8139C(L) 9.10.4 LED_TX+LED_RX Power On LED = Low Tx or Rx Packet? No Yes LED = High for (100 +- 10) ms LED = Low for (12 +- 2) ms 2002/01/10 49 Rev.1.4 RTL8139C(L) 10. Application Diagram EEPROM LED RJ45 Magetics CLK RTL8139C(L) DATA Address BOOT ROM Auxiliary Power PCI INTERFACE 2002/01/10 50 Rev.1.4 RTL8139C(L) 11. Electrical Characteristics 11.1 Temperature Limit Ratings Parameter Storage temperature Operating temperature Minimum -55 0 Maximum +125 70 Units °C °C 11.2 DC Characteristics 11.2.1 Supply Voltage Vcc = 3.0V min. to 3.6V max. Symbol VOH Parameter Minimum High Level Output Voltage VOL Maximum Low Level Output Voltage VIH Minimum High Level Input Voltage VIL Maximum Low Level Input Voltage IIN Input Current IOZ Tri-State Output Leakage Current ICC Average Operating Supply Current 2002/01/10 Conditions IOH= -8mA IOL= 8mA VIN=VCC or GND VOUT=VCC or GND IOUT=0mA, 51 Minimum 0.9 * Vcc Maximum Vcc Units V 0.1 * Vcc V 0.5 * Vcc Vcc+0.5 V -0.5 0.3 * Vcc V -1.0 1.0 uA -10 10 uA 150 mA Rev.1.4 RTL8139C(L) 11.3 AC Characteristics 11.3.1 FLASH/BOOT ROM Timing FLASH/BOOT ROM - Read MA17-0 TRC ROMCSB OEB TWRBR TOES TCE WEB TOHZ TOOLZ TOH TCOLZ MD7-0 TACC Symbol TRC TCE TACC TOES TCOLZ TOOLZ TOHZ TOH TWRBR 2002/01/10 Description Read Cycle Chip Enable Access Time Address Access Time Output Enable Access Time Chip Enable to Output in Low Z Output Enable to Output in Low Z Output Disable to Output in High Z Output Hold from Address, ROMCSB, or OEB Write Recovery time Before Read Minimum 135 0 0 0 Typical - Maximum 200 200 60 40 0 Units ns ns ns ns ns ns ns ns 6 - - us 52 Rev.1.4 RTL8139C(L) FLASH MEMORY - Write SETUPMPROGRAM COMMAND PROGRAM COMMAND VCC POWER-UP LATCH ADDRESS PROGRAMMING & STANDBY & DATA MA17-0 tWC VERIFY COMMAND tWC tAS STANDBY/VCC POWER-DOWN PROGRAM VERIFICATION tRC tAH tAH ROMCSB tCH OEB tWHWH1 tWPH tGHWL tCH tCS tCS tDF tWP tWP tWP tWHGL WEB tDS tDS tDH MD7-0 tOH tOE tDS DATAOUT =40H tDH tOOLZ VALID DATA IN DATAOUT =C0H DATAO tCOLZ tCE Symbol TWC TAS TAH TDS TDH TWHGL TGHWL TCS TCH TWP TWPH TWHWH1 2002/01/10 Description Write Cycle Time Address Set-up Time Address Hold Time Data Set-up Time Data Hold Time Write Recovery Time before Read Read Recovery Time before Write Chip Enable Set-up Time before Write Chip Enable Hold Time Write Pulse Width Write Pulse Width High Duration of Programming Operation 53 Minimum 135 0 60 50 10 6 0 20 Typical - Maximum - Units ns ns ns ns ns us us ns 0 50 20 10 - 25 us ns ns us Rev.1.4 RTL8139C(L) 11.3.2 PCI Bus Operation Timing: Target Read Target Write 2002/01/10 54 Rev.1.4 RTL8139C(L) Configuration Read Configuration Write 2002/01/10 55 Rev.1.4 RTL8139C(L) BUS Arbitration Memory Read 2002/01/10 56 Rev.1.4 RTL8139C(L) Memory Write Target Initiated Termination - Retry 2002/01/10 57 Rev.1.4 RTL8139C(L) Target Initiated Termination - Disconnect Target Initiated Termination - Abort 2002/01/10 58 Rev.1.4 RTL8139C(L) Master Initiated Termination - Abort Parity Operation - one example 2002/01/10 59 Rev.1.4 RTL8139C(L) 12. Mechanical Dimensions Symbol Dimension in inch Min Typical Max A A1 A2 B C D E HD HE L L1 y θ 0.004 0.102 0.005 0.002 0.541 0.778 0.010 0.665 0.902 0.027 0.053 0° 2002/01/10 0.010 0.112 0.009 0.006 0.551 0.787 0.020 0.677 0.913 0.035 0.063 - 0.134 0.036 0.122 0.013 0.010 0.561 0.797 0.030 0.689 0.925 0.043 0.073 0.004 12° Dimension in mm Min Typical Max 0.10 2.60 0.12 0.05 13.75 19.75 0.25 16.90 22.90 0.68 1.35 0° 0.25 2.85 0.22 0.15 14.00 20.00 0.5 17.20 23.20 0.88 1.60 - 3.40 0.91 3.10 0.32 0.25 14.25 20.25 0.75 17.50 23.50 1.08 1.85 0.10 12° Note: 1. Dimension D & E do not include interlead flash. 2. Dimension b does not include dambar protrusion/intrusion. 3. Controlling dimension: Millimeter 4. General appearance spec. should be based on final visual inspection spec. TITLE: 128 QFP (14x20 mm ) PACKAGE OUTLINE -CU L/F, FOOTPRINT 3.2 mm LEADFRAME MATERIAL: APPROVE DOC. NO. 530-ASS-P004 VERSION 1 PAGE OF CHECK DWG NO. Q128 - 1 DATE Nov. 4 1999 REALTEK SEMI-CONDUCTOR CO., LTD 60 Rev.1.4 RTL8139C(L) Symbol A A1 A2 b c D E HD HE L L1 θ Dimension in inch Min Typical Max 0.067 0.000 0.004 0.008 0.051 0.055 0.059 0.006 0.009 0.011 0.004 0.006 0.541 0.551 0.561 0.778 0.787 0.797 0.020 BSC 0.620 0.630 0.640 0.855 0.866 0.877 0.016 0.024 0.031 0.039 REF 0° 3.5° 9° 2002/01/10 Dimension in mm Min Typical Max 1.70 0.00 0.25 1.30 1.50 1.40 0.15 0.29 0.22 0.09 0.20 13.75 14.00 14.25 19.75 20.00 20.25 0.50 BSC 15.90 16.00 16.30 21.70 22.00 23.30 0.45 0.75 0.60 1.00 REF 0° 3.5° 9° Note: 1.Dimension b does not include dambar protrusion/intrusion. 2.Controlling dimension: Millimeter 3.General appearance spec. should be based on final visual TITLE: 128LD LQFP ( 14x20x1.4 mm*2 ) PACKAGE -CU L/F, FOOTPRINT 2.0 mm LEADFRAME MATERIAL: APPROVE DOC. NO. 530-ASS-P004 VERSION 1 PAGE OF CHECK DWG NO. LQ128 - 1 DATE Nov. 4.1999 REALTEK SEMICONDUCTOR CORP. 61 Rev.1.4 RTL8139C(L) Realtek Semiconductor Corp. Headquarters 1F, No. 2, Industry East Road IX, Science-based Industrial Park, Hsinchu, 300, Taiwan, R.O.C. Tel : 886-3-5780211 Fax : 886-3-5776047 WWW: www.realtek.com.tw 2002/01/10 62 Rev.1.4