AX88655 P 5-Port 10/100/1000BASE-T Ethernet Switch 5-Port Gigabit Ethernet Switch with Embedded Memory
Document No.: AX88655-1.0 / V1.0 / Mar, 12,2002
Features
• 5-Port Gigabit Ethernet switch integrating MACs, packet buffer memory and switching engine with GMII/MII interface Full Duplex 1000 Mbit/s. Full and Half Duplex 10/100 Mbit/s Supports auto-sensing or manual selection for speed and duplex capability with an embedded MPU Store-and-forward operation support Performs full wire-speed switching with no HOL blocking Broadcast storm control Quality-of-Service provisioning on 802.1P tag and port-pairs with two priority queues Embedded 128K Byte SRAM for packet buffer
• • • • • • • • • •
• • • • • • • •
Integrated two-way Address-Lookup engine and table for 4K MAC addresses Programmable aging mechanism for the two-way 4K MAC addresses table Full-duplex IEEE 802.3x flow control Half-duplex back pressure flow control Port trunking for high-bandwidth links Provides 5 GPIO ports Provides EEPROM interface for auto-configuration System clock input is one 27MHz Crystal and one 125MHz Oscillator 2.5 and 3.3V operations 3.3 I/Os and packaged in 256-pin PQFP
Product Description
The AX88655 is a 5-Port 10/100/1000 Mbps Ethernet switch with GMII or MII Interface. The switch controller provides network system manufacturers the ideal platform for building smart and cost-effective backbone switches for small to medium sized businesses. The AX88655 5-Port 10/100/100 BASE-T single chip switch controllers combine the benefits of network simplicity, flexibility and high integration. Its highly integrated feature set enables network system manufacturers to build smart switches for the fast-growing small to medium business market segment. Benefits of AX88655 Switches are below. Ø Simplicity Provides a smart, simple and low maintenance plug-and-play network interconnect system for small to medium size businesses Ø Flexibility Highly scalable configuration allows system manufacturers to enable or disable a range of features to best meet their target price point Ø Integration Highly integrated design drives down overall switch manufacturing costs.
Target Applications
ü ü ü 5-Port Gigabit Layer 2 Switches for workgroup High-port count Layer 2 switches with trunking High performance solution of Ethernet backbone
Always contact ASIX for possible updates before starting a design.
This data sheet contains new products information. ASIX ELECTRONICS reserves the rights to modify the product specification without notice. No liability is assumed as a result of the use of this product. No rights under any patent accompany the sale of the product.
ASIX ELECTRONICS CORPORATION
4F, NO.8, Hsin Ann Rd., Science-based Industrial Park, Hsin-Chu City, Taiwan, R.O.C. TEL: 886-3-579-9500 FAX: 886-3-563-9799
First Released Date: 01/31/2002
http://www.asix.com.tw
AX88655 P 5-Port 10/100/1000BASE-T Ethernet Switch
System Block Diagram
AX88655P
Switch Controller EEPROM
5 * 10/100/1000 Mbps PHYs
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ASIX ELECTRONICS CORPORATION
AX88655 P 5-Port 10/100/1000BASE-T Ethernet Switch
CONTENTS 1.0 AX88655 OVERVIEW ............................................................................................................. 6
1.1 GENERAL DESCRIPTION ..................................................................................................................... 6
1.2 AX88655 BLOCK DIAGRAM ................................................................................................. 6
1.3 PIN CONNECTION DIAGRAM ............................................................................................................. 7
2.0 I/O DEFINITION ............................................................................................................................................... 8
2.1 GMII/MII INTERFACE ........................................................................................................................ 8
2.1.1 GMII Interface Port 0 ................................................................................................................................ 8 2.1.2 GMII Interface Port 1 ................................................................................................................................ 9 2.1.3 GMII Interface Port 2 ................................................................................................................................ 9 2.1.4 GMII Interface Port 3 ................................................................................................................................ 9 2.1.5 GMII Interface Port 4 .............................................................................................................................. 10
2.2 MISCELLANEOUS ................................................................................................................................. 10
3.0 FUNCTIONAL DESCRIPTION ................................................................................... 12
3.1 INTRODUCTION ..................................................................................................................................... 12 3.2 PACKET FILTERING AND FORWARDING PROCESS ................................................................. 12 3.3 MAC ADDRESS ROUTING, LEARNING AND AGING PROCESS .......................................... 12 3.4 FULL DUPLEX 802.3X FLOW CONTROL ..................................................................................... 12 3.5 HALF DUPLEX BACK PRESSURE CONTROL .............................................................................. 12 3.6 MII POLLING ......................................................................................................................................... 12 3.7 PORT-BASED QOS: PORT-PAIR ................................................................................................... 13
4.0 REGISTER DESCRIPTIONS ......................................................................................... 14
4.1 REGISTER 00.................................................................................................................................................... 14 4.2 REGISTER 01.................................................................................................................................................... 14 4.3 REGISTER 02.................................................................................................................................................... 14 4.4 REGISTER 03.................................................................................................................................................... 15 4.5 REGISTER 04.................................................................................................................................................... 15 4.6 REGISTER 05.................................................................................................................................................... 15 4.7 REGISTER 06.................................................................................................................................................... 15 4.8 REGISTER 07.................................................................................................................................................... 15 4.9 REGISTER 08.................................................................................................................................................... 15 4.10 REGISTER 09.................................................................................................................................................. 15 4.11 REGISTER 0A................................................................................................................................................. 15 4.12 REGISTER 0B ................................................................................................................................................. 16 4.13 REGISTER 0C ................................................................................................................................................. 16 4.14 REGISTER 0D................................................................................................................................................. 16 4.15 REGISTER 0E ................................................................................................................................................. 16 4.16 REGISTER 0F.................................................................................................................................................. 17 4.17 REGISTER 10.................................................................................................................................................. 17 4.18 REGISTER 11.................................................................................................................................................. 18 4.19 REGISTER 12.................................................................................................................................................. 18 4.20 REGISTER 13.................................................................................................................................................. 18 4.21 REGISTER 14.................................................................................................................................................. 18 3 ASIX ELECTRONICS CORPORATION
AX88655 P 5-Port 10/100/1000BASE-T Ethernet Switch
5.0 ELECTRICAL SPECIFICATION AND TIMING ..................................... 19
5.1 ABSOLUTE MAXIMUM RATINGS ................................................................................................... 19 5.2 GENERAL OPERATION CONDITIONS ............................................................................................ 19 5.3 DC CHARACTERISTICS ..................................................................................................................... 19 5.4 AC SPECIFICATIONS ........................................................................................................................... 20
5.4.1 X_IN Signal Timing.................................................................................................................................. 20 5.4.2 Reset Signal Timing ................................................................................................................................. 20 5.4.3 GMII Transmit/Receive Signals Timing.................................................................................................... 21 5.4.4 100 Mbps MII Transmit/Receive Signals Timing ...................................................................................... 22 5.4.5 10 Mbps MII Transmit/Receive Signals Timing ........................................................................................ 23
6.0 PACKAGE INFORMATION .......................................................................................... 25 APPENDIX A: SYSTEM APPLICATIONS ............................................................... 26
A.1 AX88655 AS 5-PORT SOHO HIGH TRAFFIC POWER USER SWITCH ...................................................................... 26 A.2 AX88655 AS 5-PORT SMART SWITCH (DIP SWITCH CONFIGURABLE) ................................................................. 26 A.3 AX88655 FOR 10/100MBPS ETHERNET BACKBONE .......................................................................................... 27 A.4 AX88655 FOR SUPER SERVER TRUNKING APPLICATION .................................................................................... 27
APPENDIX B: DESIGN NOTE .............................................................................................. 28
B.1 USING MII I/F CONNECTS TO MAC.................................................................................................................. 28
APPENDIX C: WEIGHT SETTING FOR QOS..................................................... 29 DEMONSTRATION CIRCUIT (A) : AX88658 SMART SWITCH ... 30
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AX88655 P 5-Port 10/100/1000BASE-T Ethernet Switch
FIGURES
FIG-1 AX88655 BLOCK DIAGRAM ........................................................................................................... 6 FIG-2 AX88655 PIN DIAGRAM................................................................................................................... 7
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AX88655 P 5-Port 10/100/1000BASE-T Ethernet Switch
1.0 AX88655 Overview
1.1 General Description
The AX88655 Gigabit switch controller supports five 10/100/1000 Mbps ports in wire-speed operation. The AX88655 Gigabit switch controller provides five 10/100/1000 Ethernet ports with GMII/MII interface. For each ports, the AX88655 supports GMII (802.3ab) interface with full-duplex operation at Gigabit speed, full- or half-duplex operation at 10/100 Mbps speed and polls the status of PHYs with an embedded MPU. Embedded 128K bytes SRAM as a packet buffer operates with an internal 90MHz clock. For efficient utilization of the packet buffer, there are 1024 128-byte page-links totally in the buffer. The device supports 4K internal MAC addresses which are shared by all ports with an embedded 32K byte SSRAM. The learning/routing engine is implemented with a two-way hash/linear algorithm to reduce possibility of routing collision. Basically the AX88655 supports non-blocking wire speed forwarding rate and no Head-of-Line (HOL) blocking issue. The AX88655 provides two flow-control mechanisms to avoid loss of data: an optional jamming based backpressure flow control in the half-duplex operation and IEEE 802.3x in the full-duplex mode. To support Quality of Service (QoS), each output port has two priority queues and their assignment can be based on the 802.1p priority field or Port-Pair setting. Each output port retrieves the frames from the shared buffer based on queuing and sends them to the transmitting (Tx) FIFO.
1.2 AX88655 Block Diagram
GMII PHY 10/100/1000 MAC Routing /Learning Engine
GMII PHY
10/100/1000 MAC Address Look-up Table
GMII PHY
10/100/1000 MAC High Speed Switch Fabric Buffer Manager
GMII PHY GMII PHY
10/100/1000 MAC 10/100/1000 MAC
Packet Buffer General Purpose I/O Interface (GPIO)
GPIO
Configuration Logic
EEPROM Interface
Fig-1 AX88655 Block Diagram
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AX88655 P 5-Port 10/100/1000BASE-T Ethernet Switch
1.3 Pin Connection Diagram
NC NC NC NC VSS VSS VSS VSS NC NC VDD25 VSS GPIO4 GPIO3 GPIO2 GPIO1 GPIO0 NC NC NC NC VDD33 /RST VSS SYSCLK NC MDC MDIO SDC SDIO VDD25 GCLK VSS VSS /SYSCLK_EN /GCLK_EN SID4 SID3 SID2 SID1 SID0 VDD25 VSS TX_EN4 TXD4[7] TXD4[6] TXD4[5] TXD4[4] TXD4[3] TXD4[2] TXD4[1] TXD4[0] TX_CLK4 VDD25 GTX_CLK4 VSS RX_DV4 RX_CLK4 RXD4[7] RXD4[6] RXD4[5] RXD4[4] RXD4[3] RXD4[2] VSS VSS VSS NC VDD25 NC NC NC NC NC NC NC NC NC NC VSS VDD25 NC NC VSS VSS VSS VSS NC NC NC NC VSS VSS VSS NC VDD25 NC NC NC NC NC NC NC NC NC NC VSS25 VDD25 CRS0 COL0 RXD0[0] RXD0[1] RXD0[2] RXD0[3] RXD0[4] RXD0[5] RXD0[6] RXD0[7] RX_CLK0 RX_DV0 VSS GTX_CLK0 VDD25 TX_CLK0 TXD0[0] TXD0[1] TXD0[2] TXD0[3] 192 191 190 189 188 187 186 185 184 183 182 181 180 179 178 177 176 175 174 173 172 171 170 169 168 167 166 165 164 163 162 161 160 159 158 157 156 155 154 153 152 151 150 149 148 147 146 145 144 143 142 141 140 139 138 137 136 135 134 133 132 131 130 129
TXD0[4] TXD0[5] TXD0[6] TXD0[7] TX_EN0 VSS VDD25 NC NC VSS VSS VSS VSS NC NC NC NC VSS VSS VSS NC VDD25 NC NC NC NC NC NC NC NC NC NC VSS VDD33 X_IN X_OUT AVBB25 AVDD25A AVSS25A FILTER AVSS25D AVDD25D NC CRS1 COL1 RXD1[0] RXD1[1] RXD1[2] RXD1[3] RXD1[4] RXD1[5] RXD1[6] RXD1[7] RX_CLK1 RX_DV1 VSS GTX_CLK1 VDD25 TX_CLK1 TXD1[1] TXD1[1] TXD1[2] TXD1[3] TXD1[4]
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 49 50 51 52 53 54 55 56 57 58 59 60 61 62 63 64
Fig-2 AX88655 Pin Diagram
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96 95 94 93 92 91 90 89 88 87 86 85 84 83 82 81 80 79 78 77 76 75 74 73 72 71 70 69 68 67 66 65
193 194 195 196 197 198 199 200 201 202 203 204 205 206 207 208 209 210 211 212 213 214 215 216 217 218 219 220 221 222 223 224 225 226 227 228 229 230 231 232 233 234 235 236 237 238 239 240 241 242 243 244 245 246 247 248 249 250 251 252 253 254 255 256
AX88655P 10/100/1000Mbps Ethernet Switch Controller
128 127 126 125 124 123 122 121 120 119 118 117 116 115 114 113 112 111 110 109 108 107 106 105 104 103 102 101 100 99 98 97
RXD4[1] RXD4[0] COL4 CRS4 VDD25 VSS TX_EN3 TXD3[7] TXD3[6] TXD3[5] TXD3[4] TXD3[3] TXD3[2] TXD3[1] TXD3[0] TX_CLK3 VDD25 GTX_CLK3 VSS RX_DV3 RX_CLK3 RXD3[7] RXD3[6] RXD3[5] RXD3[4] RXD3[3] RXD3[2] RXD3[1] RXD3[0] COL3 CRS3 VDD25 VSS25 TX_EN2 TXD2[7] TXD2[6] TXD2[5] TXD2[4] TXD2[3] TXD2[2] TXD2[1] TXD2[0] TX_CLK2 VDD25 GTX_CLK2 VSS RX_DV2 RX_CLK2 RXD2[7] RXD2[6] RXD2[5] RXD2[4] RXD2[3] RXD2[2] RXD2[1] RXD2[0] COL2 CRS2 VDD25 VSS25 TX_EN1 TXD1[7] TXD1[6] TXD1[5]
AX88655 P 5-Port 10/100/1000BASE-T Ethernet Switch
2.0 Pin Descriptions
2.0 I/O Definition
The following terms describe the AX88655 pin-out: All pin names with the “/” suffix are asserted low. The following abbreviations are used in following Tables.
I O I/O OD
Input Output Input/Output Open Drain
PU PD P
Pull Up Pull Down Power Pin
2.1 GMII/MII Interface
2.1.1 GMII Interface Port 0 Pin No. Signal Name I/O
GTX_CLK0 O 250
Description
125MHz Clock Output: it is a continuous 125 MHz clock output to giga-PHY operating at 1000BASE-T. That is, it is a timing reference for TX_EN0 and TXD0[7:0] Transmit Enable: When TX_EN0 is asserted, data on TXD0[7:0] are transmitted onto PHY. TX_EN0 is synchronous to GTX_CLK0 in 1000BASE-T mode and synchronous to TX_CLK0 in 10/100BASE-T mode. Transmit Data: Synchronous to the rising of GTX_CLK0 in 1000BASE-T mode. And synchronous to rising edge of TX_CLK0 in 10/100BASE-T mode. MII Transmit Clock Input: TX_EN0 and TXD0[3:0] are synchronous to the rising edge of this clock in 10/100BASE-T mode. Collision Detect: Active high to indicate that there is collision occurred in half duplex mode. In full duplex mode COL0 is always low. Carrier Sense: Active high if there is carrier on medium. In half duplex mode CRS0 is also asserted during transmission and asynchronous to any clock. Receive Data Valid: Active high to indicate that data presented on RXD0[7:0] is valid and synchronous to RX_CLK0. Receive Clock Input: 125, 25 and 2.5 MHz is running at 1000/100/10 BASE-T mode respectively. RX_DV0 and RXD0[7:0] are synchronous to rising edge of this clock. Receive Data: Data received by the PHY are presented on RXD0 and synchronous to RX_CLK0. RXD0[3:0] is valid in 10/100/1000BASE-T and RXD[7:4] is valid only in 1000BASE-T modes.
TX_EN0
O
5
TXD0[7:0]
O
4 – 1, 256 – 253 252 238 237
TX_CLK0 COL0 CRS0
I/PD I/PD I/PD
RX_DV0 RX_CLK0
I I
248 247
RXD0[7:0]
I/PD
246 - 239
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AX88655 P 5-Port 10/100/1000BASE-T Ethernet Switch
2.1.2 GMII Interface Port 1 Signal Name I/O Pin No.
GTX_CLK1 TX_EN1 TXD1[7:0] TX_CLK1 COL1 CRS1 RX_DV1 RX_CLK1 RXD1[7:0] O O O I/PD I/PD I/PD I I I/PD 57 68 67 – 60 59 45 44 55 54 53 - 46
Description
125MHz Clock Output: Please references section 2.1.1. Transmit Enable: Please references section 2.1.1. Transmit Data: Please references section 2.1.1. MII Transmit Clock Input: Please references section 2.1.1. Collision Detect: Please references section 2.1.1. Carrier Sense: Please references section 2.1.1. Receive Data Valid: Please references section 2.1.1. Receive Clock Input: Please references section 2.1.1. Receive Data: Please references section 2.1.1.
2.1.3 GMII Interface Port 2 Pin No. Signal Name I/O
GTX_CLK2 TX_EN2 TXD2[7:0] TX_CLK2 COL2 CRS2 RX_DV2 RX_CLK2 RXD2[7:0] O O O I/PD I/PD I/PD I I I/PD 84 95 94 – 87 86 72 71 82 81 80 - 73
Description
125MHz Clock Output: Please references section 2.1.1. Transmit Enable: Please references section 2.1.1. Transmit Data: Please references section 2.1.1. MII Transmit Clock Input: Please references section 2.1.1. Collision Detect: Please references section 2.1.1. Carrier Sense: Please references section 2.1.1. Receive Data Valid: Please references section 2.1.1. Receive Clock Input: Please references section 2.1.1. Receive Data: Please references section 2.1.1.
2.1.4 GMII Interface Port 3 Pin No. Signal Name I/O
GTX_CLK3 TX_EN3 TXD3[7:0] TX_CLK3 COL3 CRS3 RX_DV3 RX_CLK3 RXD3[7:0] O O O I/PD I/PD I/PD I I I/PD 111 122 121 – 114 113 99 98 109 108 107 - 100
Description
125MHz Clock Output: Please references section 2.1.1. Transmit Enable: Please references section 2.1.1. Transmit Data: Please references section 2.1.1. MII Transmit Clock Input: Please references section 2.1.1. Collision Detect: Please references section 2.1.1. Carrier Sense: Please references section 2.1.1. Receive Data Valid: Please references section 2.1.1. Receive Clock Input: Please references section 2.1.1. Receive Data: Please references section 2.1.1.
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AX88655 P 5-Port 10/100/1000BASE-T Ethernet Switch
2.1.5 GMII Interface Port 4 Signal Name I/O Pin No.
GTX_CLK4 TX_EN4 TXD4[7:0] TX_CLK4 COL4 CRS4 RX_DV4 RX_CLK4 RXD4[7:0] O O O I/PD I/PD I/PD I I I/PD 138 149 148 – 141 140 126 125 136 135 134 - 127
Description
125MHz Clock Output: Please references section 2.1.1. Transmit Enable: Please references section 2.1.1. Transmit Data: Please references section 2.1.1. MII Transmit Clock Input: Please references section 2.1.1. Collision Detect: Please references section 2.1.1. Carrier Sense: Please references section 2.1.1. Receive Data Valid: Please references section 2.1.1. Receive Clock Input: Please references section 2.1.1. Receive Data: Please references section 2.1.1.
2.2 Miscellaneous
Signal Name
X_IN X_OUT GCLK SYSCLK /GCLK _EN /SYSCLK_EN FILTER /RST MDIO MDC SDIO SDC SID[4:0]
I/O
I O I I I/PU I/PU I I I/O/PU O I/O/PU I/O/PU I/PD I/PD I/PD I/UP I/UP I/O/PU
Pin No.
35 36 161 168 157 158 40 170 165 166 163 164 156, 155, 154, 153, 152 180 - 176
Description
Crystal or OSC 27MHz Input: This is a clock source of PLL. The PLL will generate a 90MHz internal clock. Crystal 27MHz Output: This pin should be floating with single-ended external clock. OSC 125MHz Input: 125MHz Clock for GMII System Clock Input: 85 ~ 90MHz Clock for switch kernel GCLK Enable: 0) use GCLK; 1) Reserved System Clock Enable: 0) use SYSCLK; 1) 90MHz generated by internal PLL circuit from X_IN clock source. FILTER: For internal PLL circuit use. Reset: Active Low Station Management Data In/Out: PHY Management Data Input and Output. Station Management Data Clock Out: PHY Management Clock. EEPROM Data In/Out: EEPROM Serial Data Input and Output. EEPROM Data Clock In/Out: EEPROM Serial Clock. (Note: It is output pin if the embedded MPU is active; otherwise as input pin) Switch ID: MPU can identify the switch and PHYs with this ID. Default is “00011b”.
GPIO[4:0]
General Purpose I/O: The 5 GPIOs can be programmed for special application. (Note: The function is not released to user normally. Please contact with ASIX directly if any requirement)
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AX88655 P 5-Port 10/100/1000BASE-T Ethernet Switch
NC N/A 8, 9, 41, 15, 16, NC: No Connect. 17, 21, 23, 24, 25, 26, 27, 28, 29, 30, 31, 32, 43, 167, 172, 173, 174, 175, 183, 184, 189, 190, 191, 192, 196, 198, 199, 200, 201, 202, 203, 204, 205, 206, 207, 210, 211, 216, 217, 218, 219, 223, 225, 226, 227, 228, 229, 230, 231, 232, 233, 234 34, 171, 3.3V +/-5% Supply Voltage. 7, 22, 2.5V +/-5% Supply Voltage. 58, 70, 85, 97, 112, 124, 139, 151, 162, 182, 197, 209, 224, 236, 251 6, 10, 11, 12, Ground 13, 18, 19, 20, 33, 56, 69, 83,96, 110, 123, 137, 150, 157, 159, 160, 167, 169, 181, 185, 186, 187, 188, 193, 194, 195, 208, 212, 213, 214, 215, 220, 221, 222, 235, 249 37 Ground for PLL 38 2.5V +/-5% Supply Voltage for PLL. 39 Ground for PLL 42 2.5V +/-5% Supply Voltage for PLL. 41 Ground for PLL
VDD33 VDD25
I P
VSS
P
AVBB25 AVDD25A AVSS25A AVDD25D AVSS25D
P P P P P
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AX88655 P 5-Port 10/100/1000BASE-T Ethernet Switch
3.0 Functional Description
3.1 Introduction
In general, the AX88655 device is a highly integrated Layer 2 switch. It supports five 10/100/1000 ports with on-chip MACs. It also supports integrated switching logic, packet queuing memory and packet storage memory. The AX88655 is capable of routing-and-forwarding packets at wire speed on all ports regardless of packet size. It is a low cost solution for five ports Gigabit Ethernet backbone switch design. No CPU interface is required; After power on reset, AX88655 provide an auto load configuration setting function through a 2 wire serial EEPROM interface to access external EEPROM device, and AX88655 can easily be configured to support trunking, QoS, IEEE 802.3x flow control threshold setting, broadcast storm control ...etc functions. An overview of AX88658’s major functional blocks is shown in Fig-1.
3.2 Packet Filtering and Forwarding Process
The switch use simple store-and-forward algorithm as packet switching method. After receives incoming packets, the packets will be stored to the embedded memory first. The AX88655 searches in the Address-Lookup Table with DA of the packet. The packet will be forward to its destination port, if this packet’s DA hits; otherwise this packet will be broadcasted. Of course, only good packets will be forward. Conditions of good packets are below: 1. CRC is correct. 2. 64 Bytes < PacketLength < 1518/1522 Bytes 3. Not local packets, That is, it is a local packets if its SourcePort is its DestinationPort. 4. Not PAUSE or other control packets. 5. Not the same trunking group.
3.3 MAC Address Routing, Learning and Aging Process
The switch supports 4K MAC entries for switching. Two-way dynamic address learning is performed by each good unicast packet is completely received. And linear/XOR hash algorithm of the static address learning is achieved by EEPROM configuration. On the other hand, the routing process is performed whenever the packet’s DA is captured. If the DA can not get a hit result, the packet is going to broadcast. Only the learned address entries are scheduled in the aging machine. If one station does not transmit any packet for a period of time, the belonging MAC address will be kicked out from the address table. The aging out time can be program automatically through the EEPROM configuration. (Default value is 300 seconds)
3.4 Full Duplex 802.3x Flow Control
In full duplex mode, AX88655 supports the standard flow control mechanism defined in IEEE 802.3x standard. It enables the stopping of remote node transmissions via a PAUSE frame information interaction. When space of the packet buffer is less than the initialization setting threshold value, AX88655 will send out a PAUSE-ON packet with pause time equal to “xFFF” to stop the remote node transmission. And then AX88655 will send out a PAUSE-OFF packet with pause time equal to zero to inform the remote node to retransmit packet if has enough space to receive packets.
3.5 Half Duplex Back Pressure Control
In half duplex mode, AX88655 provide a backpressure control mechanism to avoid dropping packets during network conjection situation. When space of the packet buffer is less than the initialization setting threshold value, AX88655 will send a JAM pattern in the input port when it senses an incoming packet, thus force a collision to make the remote node transmission back off and will effectively avoid dropping packets. And then AX88655 will not send out a JAM packet any more if has enough space to receive one packet.
3.6 MII Polling
The AX88655 supports PHY management through the serial MDIO/MDC interface. That is, the AX88655 access related 12 ASIX ELECTRONICS CORPORATION
AX88655 P 5-Port 10/100/1000BASE-T Ethernet Switch
register of PHYs via MDIO/MDC interface after power on reset. The AX88655 will periodically and continuously poll and update the link status and link partner’s ability which include speed, duplex mode, and 802.3x flow control capable status of the connected PHY devices through MDIO/MDC serial interface.
3.7 Port-Based QoS: Port-Pair
AX88655 provides 4 Port-Pairs for bandwidth management. Users can assign any two ports as one Port-Pair with internal registers basically. Any packets will put the high priority queue of the Port-Pair when send the packets each other. That is, two ports of each Port-Pair will obtain more bandwidth than other ports when congestion. In addition, one port can be as the highest priority port if one All_Bit of a Port-Pair is active. That is, user can assign format of the Port-Pair as OnePort-to-All and every packets of the OnePort will put in the high priority transmit queue of other ports.
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AX88655 P 5-Port 10/100/1000BASE-T Ethernet Switch
4.0 Register Descriptions
Registers Table Summary: Address 15 14 13 12 11 10 9 8 7 6 5 4 3 2 1 0 Default 00 H Reserved 0000 H 01 H Reserved 0000 H 02 H Reserved RxFlowCtrl[4:0] Reserved TxFlowCtrl[4:0] 0000 H 03 H Reserved 0000 H 04 H Reserved 0000 H 05 H Reserved 0000 H 06 H Reserved 0000 H 07 H Reserved 1215 H 08 H Reserved 7777 H 09 H Reserved 7777 H 0A H PortPair1[7:0] PortPair0[7:0] 0000 H 0B H PortPair3[7:0] PortPair2[7:0] 0000 H 0C H LowQueueWeight[3:0] Reserved lw_LowQueueDiscardLimit [9:0] 1060 H 0D H HighQueueWeight[3:0] MaxStorm lw_HighQueueDiscardLimit [9:0] 1060 H 0E H Res. PTO MPL Reserved SR SP NSB Reserved QoS[1:0] AE HM Res. 8880 H 0F H Reserved MaxAge[8:0] 1865 H 10 H Reserved Trunk30[2:0] Reserved 00C0 H 11 H Reserved LowQueueFlowCtrlMark[9:0] 0010 H 12 H MaxJam[5:0] HighQueueFlowCtrlMark[9:0] 2810 H 13 H Reserved hw_LowQueueDiscardLimit[9:0] 0070 H 14 H Reserved hw_HighQueueDiscardLimit[9:0] 0070 H Notes: 1. The word “Reserved” = “Res.” on the above table. Notes: 2. Care must be taken that the “Reserved” registers should keep the default value always. Change of any reserved value may be resulting in unpredictable conditions. Notes: 3. The registers can be accessed by internal MPU only. The MPU will read in configuration table, located on EEPROM at somewhere address, and programs the above registers when every time power on or after system reset.
4.1 Register 00
BIT 15:0 R/W R/W DESCRIPTION Reserved
4.2 Register 01
BIT 15:0 R/W R/W DESCRIPTION Reserved
4.3 Register 02
BIT 15:13 R/W R/W DESCRIPTION Reserved 14 ASIX ELECTRONICS CORPORATION
AX88655 P 5-Port 10/100/1000BASE-T Ethernet Switch
12:8 R/W FlowCtrlEnable for MAC’s receive part of Port[4:0] are configured by internal 8051 0: not identify PAUSE frames by receive part of MAC 1: can identify PAUSE frames. That is, PauseTimer of MAC will be active. Reserved FlowCtrlEnable for MAC’s transmit part of Port[4:0] are configured by internal 8051 0: not send PAUSE frames or JAM 1: send PAUSE frames for full-duplex when the packet buffer is empty. send JAM frames for half-duplex when the packet buffer is empty.
7:5 4:0
R/W R/W
4.4 Register 03
BIT 15:0 R/W R/W DESCRIPTION Reserved
4.5 Register 04
BIT 15:0 R/W R/W DESCRIPTION Reserved
4.6 Register 05
BIT 15:0 R/W R/W DESCRIPTION Reserved
4.7 Register 06
BIT 15:0 R/W R/W DESCRIPTION Reserved
4.8 Register 07
BIT 15:0 R/W R/W DESCRIPTION Reserved
4.9 Register 08
BIT 15:0 R/W R/W DESCRIPTION Reserved
4.10 Register 09
BIT 15:0 R/W R/W DESCRIPTION Reserved
4.11 Register 0A
BIT 15 14:12 R/W R/W R/W DESCRIPTION All_Bit of PortPair #1 when QoS[0] is high Port_ID of PortPair #1 when QoS[0] is high 15 ASIX ELECTRONICS CORPORATION
AX88655 P 5-Port 10/100/1000BASE-T Ethernet Switch
11 10:8 7 6:4 3 2:0 R/W R/W R/W R/W R/W R/W All_Bit of PortPair #1 when QoS[0] is high Port_ID of PortPair #1 when QoS[0] is high All_Bit of PortPair #0 when QoS[0] is high Port_ID of PortPair #0 when QoS[0] is high All_Bit of PortPair #0 when QoS[0] is high Port_ID of PortPair #0 when QoS[0] is high
4.12 Register 0B
BIT 15 14:12 11 10:8 7 6:4 3 2:0 R/W R/W R/W R/W R/W R/W R/W R/W R/W DESCRIPTION All_Bit of PortPair #3 when QoS[0] is high Port_ID of PortPair #3 when QoS[0] is high All_Bit of PortPair #3 when QoS[0] is high Port_ID of PortPair #3 when QoS[0] is high All_Bit of PortPair #2 when QoS[0] is high Port_ID of PortPair #2 when QoS[0] is high All_Bit of PortPair #2 when QoS[0] is high Port_ID of PortPair #2 when QoS[0] is high
4.13 Register 0C
BIT 15:12 11:10 9:0 R/W R/W R/W R/W DESCRIPTION WeightForLowQue: Weight for low priority queues when QoS is active (see Appendix C) Reserved LowWaterMark of low priority queues when drop packets
4.14 Register 0D
BIT 15:12 11:10 R/W R/W R/W DESCRIPTION WeightForHighQue: Weight for high priority queues when QoS is active (see Appendix C) Maximum number of broadcast frames that can be accumulated in each input frame buffer. 00: disable broadcast storm control 01: 32 frames 10: 48 frames 11: 64 frames LowWaterMark of high priority queues when drop packets
9:0
R/W
4.15 Register 0E
BIT 15 14 R/W R/W R/W DESCRIPTION Reserved 802.3x Flow control frame recognition control 0: check for MAC control frame DA MAC address in addition to the MAC control type field 1: check only the MAC control type field Setting for maximum length of packet that received 0: 1518 byte 1: 1522 byte Reserved Software Reset (Only reset the switch kernel) 0: active 1: disable 16 ASIX ELECTRONICS CORPORATION
13
R/W
12:11 10
R/W R/W
AX88655 P 5-Port 10/100/1000BASE-T Ethernet Switch
9 R/W Back-off algorithm selection 0: disable. Device will perform the IEEE standard exponential back off algorithm when a collision occurs. 1: enable. When collisions occur, the MACs will back off up to 7 slots. 0: stop generate JAM patterns after some collision that is defined by MaxJam[5:0] 1: Never stop back-pressure Reserved QoS selection 00: disable QoS function 01: Port-Pair Priority algorithm 10: 802.1p AgingEnable Switch Table Entry Aging Control. Only the dynamically learned addresses will be aged. All explicit entries will not age. The aging time is programmed in register 0F. 0: disable. The table aging process is disabled. 1: enable. The table aging process is enabled and a hardware process ages every dynamically learned table entry. Hash algorithm selection 0: XOR mapping 1: Linear mapping Reserved
8 7:5 4:3
R/W R/W R/W
2
R/W
1
R/W
0
R/W
4.16 Register 0F
BIT 15:9 8:0 R/W R/W R/W DESCRIPTION Reserved MaxAge. This is a seven-bit register containing unsigned integer for determining the address-aging timer. The resolution of the normal address aging is (64 M* MaxAge[8:0]) / FreqencyOfSystemClock. Default value is 300 seconds.
4.17 Register 10
BIT 15:13 12:10 R/W R/W R/W DESCRIPTION Reserved Trunking selection for Port[3:0] 000: disable trunking 001: disable trunking 010: one 2-Port Trunking for Port[1:0] 011: one 2-Port Trunking for Port[1:0] 100: one 2-Port Trunking for Port[3:2] 101: one 4-Port Trunking 110: two 2-Port Trunkings for Port[3:2] and Port[1:0] 111: one 4-Port Trunking Reserved
9:0
R/W
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ASIX ELECTRONICS CORPORATION
AX88655 P 5-Port 10/100/1000BASE-T Ethernet Switch
4.18 Register 11
BIT 15:10 9:0 R/W R/W R/W DESCRIPTION Reserved LowWaterMarkForFlowCtrl. This is a ten-bit register containing unsigned integer for transmit queues whether generate PAUSE-ON or not.
4.19 Register 12
BIT 15:10 9:0 R/W R/W R/W DESCRIPTION MaxJam. This is a six-bit register containing unsigned integer for determining the JAM counter whether generate JAM or not. HighWaterMarkForFlowCtrl. This is a ten-bit register containing unsigned integer for transmit queues whether generate PAUSE-OFF or not.
4.20 Register 13
BIT 15:10 9:0 R/W R/W R/W DESCRIPTION Reserved HighWaterMark of low priority queues when drop packets
4.21 Register 14
BIT 15:10 9:0 R/W R/W R/W DESCRIPTION Reserved HighWaterMark of high priority queues when drop packets
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ASIX ELECTRONICS CORPORATION
AX88655 P 5-Port 10/100/1000BASE-T Ethernet Switch
5.0 ELECTRICAL SPECIFICATION AND TIMING
5.1 Absolute Maximum Ratings
Description SYM Min Max Units Operating Temperature Ta 0 +70 °C Storage Temperature Ts -55 +150 °C Supply Voltage Vcc -0.3 +4.0 V Input Voltage Vin -0.3 Vdd+0.5 V Output Voltage Vout -0.3 Vdd+0.5 V Lead Temperature (soldering 10 seconds maximum) Tl -55 +220 °C Note: Stress above those listed under Absolute Maximum Ratings may cause permanent damage to the device. Exposure to Absolute Maximum Ratings conditions for extended period, adversely affect device life and reliability
5.2 General Operation Conditions
Description Operating Temperature Supply Voltage SYM Ta Vdd Min 0 +3.0 Max +70 +3.6 Units °C V
5.3 DC Characteristics
(Vdd=3.0V to 3.6V, Vss=0V, Ta=0°C to 70°C) Description Low Input Voltage High Input Voltage Low Output Voltage High Output Voltage Input Leakage Current 1 (Note 1) Input Leakage Current 2 (Note 2) Output Leakage Current Description Power Consumption SYM Pc
SYM Vil Vih Vol Voh Iil1 Iil1 Iol Min
Min Vss-0.3 2 2.4
Max 0.8 Vdd+0.5 0.4 10 500 10
Units V V V V uA uA uA Units mA
Tpy TBD
Max
Note: 1. 2. All the input pins without pull low or pull high. Those pins had been pull low or pull high.
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ASIX ELECTRONICS CORPORATION
AX88655 P 5-Port 10/100/1000BASE-T Ethernet Switch
5.4 AC specifications
5.4.1 X_IN Signal Timing
Thigh
X_IN
Tr Tf Tcyc Tlow
Symbol
Tcyc Thigh Tlow Tr/Tf CYCLE TIME CLK HIGH TIME CLK LOW TIME CLK SLEW RATE
Description
Min 8 8 1
Typ. 20 10 10 -
Max 12 12 4
Units ns ns ns ns
5.4.2 Reset Signal Timing SYSCLK /RST
Symbol
Trst Reset pulse width
Description
Min 10
Typ. -
Max -
Units SYSCLK
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ASIX ELECTRONICS CORPORATION
AX88655 P 5-Port 10/100/1000BASE-T Ethernet Switch
5.4.3 GMII Transmit/Receive Signals Timing T0 GTX_CLK T2 TX_EN T3 T1
TXD[7:0]
Symbol T0 T1 T2 T3
Description GTX_CLK Clock Cycle Time GTX_CLK Clock High Time TX_EN and TXD data setup to GTX_CLK rising edge TX_EN and TXD data hold from GTX_CLK rising edge
Min 7.998 2.5 0.5
Typ. 8 4
Max 8.002
Units ns ns ns ns
T4 RX_CLK
T5
T6 RX_DV
T7
RXD[7:0]
Symbol T4 T5 T6 T7
Description RX_CLK Clock Cycle Time RX_CLK Clock High Time RX_DV and RXD data setup to RX_CLK rising edge RX_DV and RXD data hold from RX_CLK rising edge
Min 7.998 2.5 0.5
Typ. 8 4
Max 8.002
Units ns ns ns ns
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ASIX ELECTRONICS CORPORATION
AX88655 P 5-Port 10/100/1000BASE-T Ethernet Switch
5.4.4 100 Mbps MII Transmit/Receive Signals Timing T0 TX_CLK T2 TX_EN T2 T1
T3 TXD[3:0]
T3
Symbol T0 T1 T2 T3
Description TX_CLK Cycle Time TX_CLK High Time TX_CLK rising edge to TX_EN Delay TX_CLK rising edge to TXD Delay
Min 39.996 14 7.440 3.410
Typ. 40 20
Max 40.004 26 21.760 13.320
Units ns ns ns ns
T4 RX_CLK
T5
T6 RX_CRS RX_DV
T6
T7 RXD[3:0]
T7
Symbol T4 T5 T6 T7
Description RX_CLK Clock Cycle Time RX_CLK Clock High Time RX_CLK rising edge to RX_DV and RX_CRS Delay RX_CLK rising edge to RXD Delay
Min 39.996 14 3.0 3.0
Typ. 40 20
Max 40.004 26 13.0 13.0
Units ns ns ns ns
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ASIX ELECTRONICS CORPORATION
AX88655 P 5-Port 10/100/1000BASE-T Ethernet Switch
5.4.5 10 Mbps MII Transmit/Receive Signals Timing T0 TX_CLK T2 TX_EN T2 T1
T3 TXD[3:0]
T3
Symbol T0 T1 T2 T3
Description TX_CLK Cycle Time TX_CLK High Time TX_CLK rising edge to TX_EN Delay TX_CLK rising edge to TXD Delay
Min 399.96 14 7.440 3.410
Typ. 400 20
Max 400.04 26 21.760 13.320
Units ns ns ns ns
T4 RX_CLK
T5
T6 RX_CRS RX_DV
T6
T7 RXD[3:0]
T7
Symbol T4 T5 T6 T7
Description RX_CLK Clock Cycle Time RX_CLK Clock High Time RX_CLK rising edge to RX_DV and RX_CRS Delay RX_CLK rising edge to RXD Delay
Min 399. 96 140 3.0 3.0
Typ. 400 200
Max 400. 04 260 13.0 13.0
Units ns ns ns ns
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ASIX ELECTRONICS CORPORATION
AX88655 P 5-Port 10/100/1000BASE-T Ethernet Switch
24
ASIX ELECTRONICS CORPORATION
AX88655 P 5-Port 10/100/1000BASE-T Ethernet Switch
6.0 PACKAGE INFORMATION
He E A2 A1
Hd
D
pin 1
b
e
θ
SYMBOL MIN.
A1 A2 b D E e Hd He L L1 θ 0 0.45 0.25
MILIMETER NOM MAX
3.4 0.16 28.00 28.00 0.4 30.6 30.6 0.75 1.3 7
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ASIX ELECTRONICS CORPORATION
L
L1
AX88655 P 5-Port 10/100/1000BASE-T Ethernet Switch
Appendix A: System Applications
A.1 AX88655 as 5-Port SOHO high traffic power user switch
I/O Port for Configuration From PC
AX88655P
Switch Controller
SEEPROM for save Configuration
1 GMII PHY
Quad GMII PHY Or 4 GMII PHYs
A.2 AX88655 as 5-Port Smart switch (DIP switch configurable)
DIP SW LEDs or General Serial Output via GPIO Configuration Serial In via GPIO
AX88655P
Switch Controller EEPROM
5 * 10/100/1000Mbps PHYs
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ASIX ELECTRONICS CORPORATION
AX88655 P 5-Port 10/100/1000BASE-T Ethernet Switch
A.3 AX88655 for 10/100Mbps Ethernet Backbone
5-port Gigabit switch
AX88655P
Switch Controller
16*10/100Mbps +2*1000Mbps Ethernet Switch WAN Router
16*10/100Mbps +2*1000Mbps Ethernet Switch
Using 2 Gigabit Ports Up-link and Trunking form a 12.8G Non-blocking backbone
A.4 AX88655 for Super Server Trunking Application
5-port Gigabit switch
AX88655 P
Switch Controller
Super Server with 2 * Gigabit Ethernet Cards Trunking
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ASIX ELECTRONICS CORPORATION
AX88655 P 5-Port 10/100/1000BASE-T Ethernet Switch
Appendix B: Design Note
B.1 Using MII I/F connects to MAC Using MII interface to connect to MAC type device application for AX88655 is illustrated bellow.
25MHz Clock
COL0 TX_EN0 TX_CLK0 TXD0[3:0]
COL CRS RX_DV RX_CLK RXD[3:0] RX_ER TX_EN TX_CLK TXD[3:0] TX_ER 10K Gnd
CRS0 RX_DV0 RX_CLK0 RXD0[3:0]
AX88655 / Switch
AX88195 / MAC
Note: 1. The MAC needs to run at full-duplex mode. 2. Care must be taken that the receive side has enough setup and/or hold time 3. Some kind of CPU with embedded MAC can also refer to this example
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ASIX ELECTRONICS CORPORATION
AX88655 P 5-Port 10/100/1000BASE-T Ethernet Switch
Appendix C: Weight Setting for QoS
Service Ratio (High : Low) 1:1 2:1 3:1 4:1 5:1 6:1 7:1 8:1 9:1 10 : 1 11 : 1 12 : 1 13 : 1 14 : 1 15 : 1 WeightForHighQue[3:0] 4’b0100 4’b0100 4’b0110 4’b0100 4’b0101 4’b0110 4’b0111 4’b1000 4’b1001 4’b1010 4’b1011 4’b1100 4’b1101 4’b1110 4’b1111 WeightForLowQue[3:0] 4’b0100 4’b0010 4’b0010 4’b0001 4’b0001 4’b0001 4’b0001 4’b0001 4’b0001 4’b0001 4’b0001 4’b0001 4’b0001 4’b0001 4’b0001
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ASIX ELECTRONICS CORPORATION
AX88655 P 5-Port 10/100/1000BASE-T Ethernet Switch Demonstration Circuit (A) : AX88658 Smart Switch
AX88655 P 5-Port 10/100/1000BASE-T Ethernet Switch Application.
VDD18_2 VDD18_1 VDD25_2 VDD25_2 VDD33 VDD25 VDD33 VDD33 MDIO MDC RST#_P34 25M_P4 MDIO MDC RST#_P34 25M_P3 MDIO MDC RST#_P12 25M_P2 MDIO MDC RST#_P12 25M_P1 VDD33 VDD33 OSC_CKT 25M_P0 25M_P1 25M_P2 25M_P3 25M_P4 25M_P0 25M_P1 25M_P2 25M_P3 25M_P4 ROM_CKT ROM_CKT VDD18_2 VDD18_1 VDD33 RST_CTL# RST_CTL# RST#_SW RST#_P0 RST#_P12 RST#_P34 RST_CTL# RST#_SW RST#_P0 RST#_P12 RST#_P34 VDD25 25MHZ MDIO MDC PHY_RST# 25MHZ GND POWER_CKT POWER_CKT
GND
GND
GCLK
SDC SDIO
GND
RST#_SW
SYSCLK
VDD25_2
GCLK
VDD33
SYSCLK
RESET#
VDD33
GSW_CKT GCLK
VDD25_2
MDC
MDIO
MDIO
SDC
SDIO
SDC
GND
OSC_CKT
GND
GND
SYSCLK
SDIO
MDC
VDD18_2 VDD25 VDD18 VDD25 PORT4 GPHY4 TX_EN4 TXD4[0..7] TX_CLK4 GTX_CLK4 RX_RV4 RX_CLK4 RXD4[0..7] COL4 CRS4 TX_EN4 TXD4[0..7] TX_CLK4 GTX_CLK4 RX_DV4 RX_CLK4 RXD4[0..7] COL4 CRS4
TX_EN TXD[0..7] TX_CLK GTX_CLK RX_DV RX_CLK RXD[0..7] COL CRS
MDIO MDC PHY_RST#
GND
GND VDD18_2 VDD25 VDD18 VDD25 PORT3 GPHY3 TX_EN3 TXD3[0..7] TX_CLK3 GTX_CLK3 RX_RV3 RX_CLK3 RXD3[0..7] COL3 CRS3 VDD18_1 VDD25 VDD18 VDD25 VDD18 VDD25 PORT0 GPHY0 MDIO MDC RST#_P0 25M_P0 MDIO MDC PORT2 GPHY2 CRS COL RXD[0..7] RX_CLK RX_DV GTX_CLK TX_CLK TXD[0..7] TX_EN GND CRS0 COL0 RXD0[0..7] RX_CLK0 RX_DV0 GTX_CLK0 TX_CLK0 TXD0[0..7] TX_EN0 CRS0 COL0 RXD0[0..7] RX_CLK0 RX_DV0 GTX_CLK0 TX_CLK0 TXD0[0..7] TX_EN0 TX_EN2 TXD2[0..7] TX_CLK2 GTX_CLK2 RX_RV2 RX_CLK2 RXD2[0..7] COL2 CRS2 TX_EN2 TXD2[0..7] TX_CLK2 GTX_CLK2 RX_DV2 RX_CLK2 RXD2[0..7] COL2 CRS2 TX_EN3 TXD3[0..7] TX_CLK3 GTX_CLK3 RX_DV3 RX_CLK3 RXD3[0..7] COL3 CRS3
TX_EN TXD[0..7] TX_CLK GTX_CLK RX_DV RX_CLK RXD[0..7] COL CRS
MDIO MDC PHY_RST# 25MHZ
GND
GND VDD18_2 VDD25
GTX_CLK1
RXD1[0..7]
PHY_RST# GND 25MHZ
TXD1[0..7]
RX_CLK1
TX_CLK1
RX_DV1
TX_EN1
CRS1
COL1
GND
TX_EN TXD[0..7] TX_CLK GTX_CLK RX_DV RX_CLK RXD[0..7] COL CRS
MDIO MDC PHY_RST#
GND
25MHZ
GND VDD18_2 VDD25 VDD18 VDD25 GND PORT1 GPHY1 TX_EN1 TXD1[0..7] TX_CLK1 GTX_CLK1 RX_DV1 RX_CLK1 RXD1[0..7] COL1 CRS1
GSW_CKT GND
TX_EN TXD[0..7] TX_CLK GTX_CLK RX_DV RX_CLK RXD[0..7] COL CRS
ASIX ELECTRONICS CORPORATION Title AX88655 P 5-Port 10/100/1000BASE-T EtherNet Switch --- ROOT CKT. Size C Date: Document Number GSW_ROOT.SCH Thursday, March 14, 2002 Sheet 1 of 10 Rev 1.0
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ASIX ELECTRONICS
AX88655 P 5-Port 10/100/1000BASE-T Ethernet Switch
CRS COL RXD[0..7] RX_CLK RX_DV TX_CLK CRS COL RXD[0..7] RX_CLK RX_DV TX_CLK
GTX_CLK TXD[0..7] TX_EN MDIO MDC PHY_RST# 25MHZ VDD25 VDD18 GND
GTX_CLK TXD[0..7] TX_EN MDIO MDC RESET# 25M_IN VDD25 VDD18 GND
PHY ID : 00110
PHYADD0 PHYADD1 PHYADD2 PHYADD3 PHYADD4 AN_EN DUPLEX SPEED1 SPEED R1 R2 R3 R4 R5 R6 R7 R8 R9 4.7k 4.7k 4.7k 4.7k 4.7k 4.7k 4.7k 4.7k 4.7k VDD_O
VDD_O R10 4.7K
PHYADD0 AN_EN
R11 R12 R14 R15 R16
1k 1k 1k 1k 1k
D1 D2 D3 D4 D5
LED LED LED LED LED VDD_O
RESET# R13 OPTION 2K VDD_O DUPLEX SPEED1 SPEED GND VDD_O GND VDD_C PHYADD3 PHYADD2 GND VDD_O PHYADD1 PHYADD0 GND VDD_C AN_EN DUPLEX SPEED1 SPEED
DUPLEX LED Link 1000 LED Link Link 100 LED 10 LED
Activity LED
GND VDD_O GND VDD_C GND
GND GND GND VDD_O
GND VDD_O
GND GND VDD_C GND
38 VSS 37 IO_VDD 36 VSS 35 CORE_VDD 34 VDD_SEL_STRAP 33 /RESET 32 /TRST 31 TDI 30 VSS 29 IO_VDD 28 TDO 27 TMS 26 VSS 25 CORE_VDD 24 TCK 23 RESERVED 22 VSS 21 IO_VDD 20 VSS 19 CORE_VDD 18 PHYADDR3_STRAP 17 PHYADDR2_STRAP 16 VSS 15 IO_VDD 14 PHYADDR1_STRAP 13 PHYADDR0_STRAP /DUPLEX_LED 12 VSS 11 CORE_VDD 10 AN_EN_STRAP /LINK1000_LED 9 LINK100_LED /DUPLEX_STRAP 8 LINK10_LED /SPEED1_STRAP 7 ACTIVITY_LED /SPEED_STRAP 6 TX_TCLK 5 VSS 4 IO_VDD 3 /INTERRUPT 2 RESERVED 1 NON_IEEE_STRAP
U1 DP83865AVH RX_VDD25 C1 0.1uF VSS MDID_N MDID_P VSS VSS RX_VDD VSS MDIC_N MDIC_P VSS VSS RX_VDD VSS MDIB_N MDIB_P VSS VSS RX_VDD VSS MDIA_N MDIA_P VSS VSS RX_VDD VSS RX_VDD 128 127 126 125 124 123 122 121 120 119 118 117 116 115 114 113 112 111 110 109 108 107 106 105 104 103 GND MDID_N MDID_P GND GND VDD_C GND MDIC_N MDIC_P GND GND VDD_C GND MDIB_N MDIB_P GND GND VDD_C GND MDIA_N MDIA_P GND GND VDD_C GND VDD_C MDID_N MDID_P RX_VDD25 C4 0.1uF MDIC_N MDIC_P RX_VDD25 C7 0.1uF MDIB_N MDIB_P RX_VDD25 C11 0.1uF MDIA_N MDIA_P C15 1000pF C12 0.1uF R34 49.9 C13 R35 49.9 0.1uF C14 0.1uF C8 0.1uF R29 49.9 C9 R30 49.9 0.1uF C5 0.1uF R22 49.9 C6 R23 49.9 0.1uF 1 2 3 4 5 6 7 8 9 10 11 12 TF1 TCT1 TD1+ TD1TCT2 TD2+ TD2TCT3 TD3+ TD3TCT4 TD4+ TD424HST1041 C10 0.01uF/2KV MCT1 MX1+ MX1MCT2 MX2+ MX2MCT3 MX3+ MX3MCT4 MX4+ MX424 23 22 21 20 19 18 17 16 15 14 13 R24 MDI_DMDI_D+ R26 MDI_CMDI_C+ R27 MDI_BMDI_B+ R31 MDI_AMDI_A+ 75 75 75 75 MDI_DMDI_D+ MDI_BMDI_CMDI_C+ MDI_B+ MDI_AMDI_A+ 12 8 7 6 5 4 3 2 1 11 JACK1 C2 0.1uF R17 49.9 C3 R18 49.9 0.1uF
COL CRS GND RXD[0..7] RX_DV RXD7 RXD6 RXD5 RXD4 RXD3 RXD2 RXD1 RXD0 R21 10
R19 R20
4.7K VDD_O GND 0
VDD_C GND R25 10 VDD_O GND
RX_CLK TX_CLK GND
R28 R32 R33
TXD7 TXD6 TXD5 TXD4 IO_VDD VSS TXD3 TXD2 CORD_VDD VSS TXD1 TXD0 IO_VDD VSS GTX_CLK MDIO MDC VSS IO_VDD RESERVER CLK_TO_MAC CLK_IN CLK_OUT MAC_CLK_EN_STRAP MDIX_EN_STRAP IO_VDD VSS CORD_VDD VSS MULTI_EN_STRAP PHYADDR4_STRAP AFE_VDD VSS PGM_VDD VSS CORD_VDD BG_VDD BG_REF
10 VDD_O GND 10 4.7K TX_EN VDD_C GND
39 40 41 42 43 44 45 46 47 48 49 50 51 52 53 54 55 56 57 58 59 60 61 62 63 64
COL CRS RX_ER IO_VDD VSS RX_DV RXD7 RXD6 RXD5 CORD_VDD VSS RXD4 RXD3 RXD2 IO_VDD VSS RXD1 RXD0 RX_CLK IO_VDD VSS TX_CLK TX_ER TX_EN CORD_VDD VSS
RJ45_A
65 66 67 68 69 70 71 72 73 74 75 76 77 78 79 80 81 GND 82 VDD_O 83 84 85 86 87 88 89 VDD_O 90 GND 91 VDD_C 92 GND 93 94 PHYADD4 95 RX_VDD25 96 GND 97 98 GND 99 VDD_C 100 RX_VDD25 101 102
TXD7 TXD6 TXD5 TXD4 VDD_O GND TXD3 TXD2 VDD_C GND TXD1 TXD0 VDD_O GND
TXD[0..7] R37 4.7K L1 MDIO VDD_O VDD_O MDC R41 1.5K 0.1uF 22uF C17 + C16
R36
9.76K GND
GTX_CLK VDD_O
R38 R40
0 1.5K
R39 F.B.
22
VDD_C
Option
25M_IN R42 4.7K
VDD_O + C18 GND L2 VDD25 + C23 GND L3 VDD18 + C42 GND C44 C45 F.B. + C43 C46 VDD_C C25 C26 F.B. + C24 C27 VDD_O C28 1000pF C29 0.1uF C30 0.1uF C19
RX_VDD25 C20 1000pF C21 0.1uF C22 0.1uF
100uF/16V 0.1uF
C31 0.1uF
C32 0.1uF
C33 0.1uF
C34 0.1uF
C35 0.1uF
C36 0.1uF
C37 0.1uF
C38 0.1uF
C39 0.1uF
C40 0.1uF
C41 0.1uF
100uF/16V 0.1uF
1000pF
100uF/16V 0.1uF
ASIX ELECTRONICS CORPORATION C47 1000pF C48 0.1uF C49 0.1uF C50 0.1uF C51 0.1uF C52 0.1uF C53 0.1uF C54 0.1uF C55 0.1uF C56 0.1uF C57 0.1uF C58 0.1uF C59 0.1uF C60 0.1uF C61 0.1uF Size C Date: Title AX88655 P 5-Port 10/100/1000BASE-T EtherNet Switch --- Port 0 G'PHY CKT. Document Number GPHY0.SCH Thursday, March 14, 2002 Sheet 2 of 10 Rev 1.0
100uF/16V 0.1uF
1000pF
100uF/16V 0.1uF
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ASIX ELECTRONICS CORPORATION
SHIELD
AX88655 P 5-Port 10/100/1000BASE-T Ethernet Switch
CRS COL RXD[0..7] RX_CLK RX_DV TX_CLK CRS COL RXD[0..7] RX_CLK RX_DV TX_CLK
GTX_CLK TXD[0..7] TX_EN MDIO MDC PHY_RST# 25MHZ VDD25 VDD18 GND
GTX_CLK TXD[0..7] TX_EN MDIO MDC RESET# 25M_IN
PHY ID : 01000
PHYADD0 PHYADD1 PHYADD2 PHYADD3 PHYADD4 AN_EN DUPLEX SPEED1 SPEED R43 R44 R45 R46 R47 R48 R49 R50 R51 4.7k 4.7k 4.7k 4.7k 4.7k 4.7k 4.7k 4.7k 4.7k
VDD25 VDD18 GND VDD_O
VDD_O
R52 4.7K PHYADD0 AN_EN RESET# R55 OPTION 2K VDD_O DUPLEX SPEED1 SPEED GND VDD_O GND VDD_C PHYADD3 PHYADD2 GND VDD_O PHYADD1 PHYADD0 GND VDD_C AN_EN DUPLEX SPEED1 SPEED R56 R57 R58 1k 1k 1k D8 D9 D10 LED LED LED R53 R54 1k 1k D6 D7 LED LED VDD_O
DUPLEX LED Link 1000 LED Link Link 100 LED 10 LED
Activity LED
GND VDD_O GND VDD_C GND
GND GND GND VDD_O
GND VDD_O
GND GND VDD_C GND
38 VSS 37 IO_VDD 36 VSS 35 CORE_VDD 34 VDD_SEL_STRAP 33 /RESET 32 /TRST 31 TDI 30 VSS 29 IO_VDD 28 TDO 27 TMS 26 VSS 25 CORE_VDD 24 TCK 23 RESERVED 22 VSS 21 IO_VDD 20 VSS 19 CORE_VDD 18 PHYADDR3_STRAP 17 PHYADDR2_STRAP 16 VSS 15 IO_VDD 14 PHYADDR1_STRAP 13 PHYADDR0_STRAP /DUPLEX_LED 12 VSS 11 CORE_VDD 10 AN_EN_STRAP /LINK1000_LED 9 LINK100_LED /DUPLEX_STRAP 8 LINK10_LED /SPEED1_STRAP 7 ACTIVITY_LED /SPEED_STRAP 6 TX_TCLK 5 VSS 4 IO_VDD 3 /INTERRUPT 2 RESERVED 1 NON_IEEE_STRAP
U2 DP83865AVH RX_VDD25 C62 0.1uF VSS MDID_N MDID_P VSS VSS RX_VDD VSS MDIC_N MDIC_P VSS VSS RX_VDD VSS MDIB_N MDIB_P VSS VSS RX_VDD VSS MDIA_N MDIA_P VSS VSS RX_VDD VSS RX_VDD 128 127 126 125 124 123 122 121 120 119 118 117 116 115 114 113 112 111 110 109 108 107 106 105 104 103 GND MDID_N MDID_P GND GND VDD_C GND MDIC_N MDIC_P GND GND VDD_C GND MDIB_N MDIB_P GND GND VDD_C GND MDIA_N MDIA_P GND GND VDD_C GND VDD_C MDID_N MDID_P RX_VDD25 C65 0.1uF MDIC_N MDIC_P RX_VDD25 C68 0.1uF MDIB_N MDIB_P RX_VDD25 C72 0.1uF MDIA_N MDIA_P C76 1000pF C73 0.1uF R76 49.9 C74 R77 49.9 0.1uF C75 0.1uF C69 0.1uF R71 49.9 C70 R72 49.9 0.1uF C66 0.1uF R64 49.9 C67 R65 49.9 0.1uF 1 2 3 4 5 6 7 8 9 10 11 12 TF2 TCT1 TD1+ TD1TCT2 TD2+ TD2TCT3 TD3+ TD3TCT4 TD4+ TD424HST1041 C71 0.01uF/2KV MCT1 MX1+ MX1MCT2 MX2+ MX2MCT3 MX3+ MX3MCT4 MX4+ MX424 23 22 21 20 19 18 17 16 15 14 13 R66 MDI_DMDI_D+ R68 MDI_CMDI_C+ R69 MDI_BMDI_B+ R73 MDI_AMDI_A+ 75 75 75 MDI_DMDI_D+ MDI_BMDI_CMDI_C+ MDI_B+ MDI_AMDI_A+ 12 8 7 6 5 4 3 2 1 11 JACK2 C63 0.1uF R59 49.9 C64 R60 49.9 0.1uF
COL CRS GND RXD[0..7] RX_DV RXD7 RXD6 RXD5 RXD4 RXD3 RXD2 RXD1 RXD0 R63 10
R61 R62
4.7K VDD_O GND 0
VDD_C GND R67 10 VDD_O GND
RX_CLK TX_CLK GND
R70 R74 R75
TXD7 TXD6 TXD5 TXD4 IO_VDD VSS TXD3 TXD2 CORD_VDD VSS TXD1 TXD0 IO_VDD VSS GTX_CLK MDIO MDC VSS IO_VDD RESERVER CLK_TO_MAC CLK_IN CLK_OUT MAC_CLK_EN_STRAP MDIX_EN_STRAP IO_VDD VSS CORD_VDD VSS MULTI_EN_STRAP PHYADDR4_STRAP AFE_VDD VSS PGM_VDD VSS CORD_VDD BG_VDD BG_REF
10 VDD_O GND 10 4.7K TX_EN VDD_C GND
39 40 41 42 43 44 45 46 47 48 49 50 51 52 53 54 55 56 57 58 59 60 61 62 63 64
COL CRS RX_ER IO_VDD VSS RX_DV RXD7 RXD6 RXD5 CORD_VDD VSS RXD4 RXD3 RXD2 IO_VDD VSS RXD1 RXD0 RX_CLK IO_VDD VSS TX_CLK TX_ER TX_EN CORD_VDD VSS
75
RJ45_A
65 66 67 68 69 70 71 72 73 74 75 76 77 78 79 80 81 GND 82 VDD_O 83 84 85 86 87 88 89 VDD_O 90 GND 91 VDD_C 92 GND 93 94 PHYADD4 95 RX_VDD25 96 GND 97 98 GND 99 VDD_C 100 RX_VDD25 101 102
TXD7 TXD6 TXD5 TXD4 VDD_O GND TXD3 TXD2 VDD_C GND TXD1 TXD0 VDD_O GND
TXD[0..7] R79 4.7K
R78
9.76K GND
GTX_CLK VDD_O MDIO
R80 R82
0 1.5K
R81 L4 C78 + C77 22uF
22 F.B.
VDD_C
VDD_O VDD_O MDC R83 1.5K 0.1uF
OPTION
25M_IN R84 4.7K
VDD_O + C79 GND L5 VDD25 + C84 GND L6 VDD18 + C103 GND C105 C106 F.B. 1000pF + C104 C107 VDD_C C108 1000pF C109 0.1uF C110 0.1uF C86 C87 F.B. + C85 C88 VDD_O C89 1000pF C90 0.1uF C91 0.1uF C80
RX_VDD25 C81 1000pF C82 0.1uF C83 0.1uF
100uF/16V 0.1uF
C92 0.1uF
C93 0.1uF
C94 0.1uF
C95 0.1uF
C96 0.1uF
C97 0.1uF
C98 0.1uF
C99 0.1uF
C100 0.1uF
C101 0.1uF
C102 0.1uF
100uF/16V 0.1uF
1000pF
100uF/16V 0.1uF
C111 0.1uF
C112 0.1uF
C113 0.1uF
C114 0.1uF
C115 0.1uF
C116 0.1uF
C117 0.1uF
C118 0.1uF
C119 0.1uF
C120 0.1uF
C121 0.1uF
C122 Title 0.1uF Size C Date:
ASIX ELECTRONICS CORPORATION AX88655 P 5-Port 10/100/1000BASE-T EtherNet Switch --- Port 1 G'PHY CKT. Document Number GPHY1.SCH Thursday, March 14, 2002 Sheet 3 of 10 Rev 1.0
100uF/16V 0.1uF
100uF/16V 0.1uF
32
ASIX ELECTRONICS CORPORATION
SHIELD
AX88655 P 5-Port 10/100/1000BASE-T Ethernet Switch
CRS COL RXD[0..7] RX_CLK RX_DV TX_CLK CRS COL RXD[0..7] RX_CLK RX_DV TX_CLK
GTX_CLK TXD[0..7] TX_EN MDIO MDC PHY_RST# 25MHZ VDD25 VDD18 GND
GTX_CLK TXD[0..7] TX_EN MDIO MDC RESET# 25M_IN VDD25 VDD18 GND VDD_O
PHY ID : 01001
PHYADD0 PHYADD1 PHYADD2 PHYADD3 PHYADD4 AN_EN DUPLEX SPEED1 SPEED R85 R86 R87 R88 R89 R90 R91 R92 R93 4.7k 4.7k 4.7k 4.7k 4.7k 4.7k 4.7k 4.7k 4.7k VDD_O
R94 4.7K PHYADD0 AN_EN RESET# R97 OPTION 2K VDD_O DUPLEX SPEED1 SPEED R98 R99 R100 1k 1k 1k D13 D14 D15 LED LED LED R95 R96 1k 1k D11 D12 LED LED VDD_O
DUPLEX LED Link 1000 LED Link Link 100 LED 10 LED
Activity LED
GND VDD_O GND VDD_C PHYADD3 PHYADD2 GND VDD_O PHYADD1 PHYADD0 GND VDD_C AN_EN DUPLEX SPEED1 SPEED
GND VDD_O GND VDD_C GND
GND GND GND VDD_O
GND VDD_O
GND GND VDD_C GND
38 37 36 35 34 33 32 31 30 29 28 27 26 25 24 23 22 21 20 19 18 17 16 15 14 13 12 11 10 9 8 7 6 5 4 3 2 1
U3 DP83865AVH RX_VDD25 C123 0.1uF VSS MDID_N MDID_P VSS VSS RX_VDD VSS MDIC_N MDIC_P VSS VSS RX_VDD VSS MDIB_N MDIB_P VSS VSS RX_VDD VSS MDIA_N MDIA_P VSS VSS RX_VDD VSS RX_VDD 128 127 126 125 124 123 122 121 120 119 118 117 116 115 114 113 112 111 110 109 108 107 106 105 104 103 GND MDID_N MDID_P GND GND VDD_C GND MDIC_N MDIC_P GND GND VDD_C GND MDIB_N MDIB_P GND GND VDD_C GND MDIA_N MDIA_P GND GND VDD_C GND VDD_C MDID_N MDID_P RX_VDD25 C126 0.1uF MDIC_N MDIC_P RX_VDD25 C129 0.1uF MDIB_N MDIB_P RX_VDD25 C133 0.1uF MDIA_N MDIA_P C137 1000pF C134 0.1uF R118 49.9 C135 R119 49.9 0.1uF C136 0.1uF C130 0.1uF R113 49.9 C131 R114 49.9 0.1uF C127 0.1uF R106 49.9 C128 R107 49.9 0.1uF 1 2 3 4 5 6 7 8 9 10 11 12 TF3 TCT1 TD1+ TD1TCT2 TD2+ TD2TCT3 TD3+ TD3TCT4 TD4+ TD424HST1041 C132 0.01uF/2KV MCT1 MX1+ MX1MCT2 MX2+ MX2MCT3 MX3+ MX3MCT4 MX4+ MX424 23 22 21 20 19 18 17 16 15 14 13 R108 MDI_DMDI_D+ R110 MDI_CMDI_C+ R111 MDI_BMDI_B+ R115 MDI_AMDI_A+ 75 75 75 75 MDI_DMDI_D+ MDI_BMDI_CMDI_C+ MDI_B+ MDI_AMDI_A+ 12 8 7 6 5 4 3 2 1 11 JACK3 C124 0.1uF R101 49.9 C125 R102 49.9 0.1uF
COL CRS GND RXD[0..7] RX_DV RXD7 RXD6 RXD5 RXD4 RXD3 RXD2 RXD1 RXD0 R105 10
R103 R104
4.7K VDD_O GND 0
VDD_C GND R109 10 VDD_O GND
RX_CLK TX_CLK GND
R112 R116 R117
10 VDD_O GND 10 4.7K TX_EN VDD_C GND
TXD7 TXD6 TXD5 TXD4 IO_VDD VSS TXD3 TXD2 CORD_VDD VSS TXD1 TXD0 IO_VDD VSS GTX_CLK MDIO MDC VSS IO_VDD RESERVER CLK_TO_MAC CLK_IN CLK_OUT MAC_CLK_EN_STRAP MDIX_EN_STRAP IO_VDD VSS CORD_VDD VSS MULTI_EN_STRAP PHYADDR4_STRAP AFE_VDD VSS PGM_VDD VSS CORD_VDD BG_VDD BG_REF
39 40 41 42 43 44 45 46 47 48 49 50 51 52 53 54 55 56 57 58 59 60 61 62 63 64
COL CRS RX_ER IO_VDD VSS RX_DV RXD7 RXD6 RXD5 CORD_VDD VSS RXD4 RXD3 RXD2 IO_VDD VSS RXD1 RXD0 RX_CLK IO_VDD VSS TX_CLK TX_ER TX_EN CORD_VDD VSS
VSS IO_VDD VSS CORE_VDD VDD_SEL_STRAP /RESET /TRST TDI VSS IO_VDD TDO TMS VSS CORE_VDD TCK RESERVED VSS IO_VDD VSS CORE_VDD PHYADDR3_STRAP PHYADDR2_STRAP VSS IO_VDD PHYADDR1_STRAP PHYADDR0_STRAP /DUPLEX_LED VSS CORE_VDD AN_EN_STRAP /LINK1000_LED LINK100_LED /DUPLEX_STRAP LINK10_LED /SPEED1_STRAP ACTIVITY_LED /SPEED_STRAP TX_TCLK VSS IO_VDD /INTERRUPT RESERVED NON_IEEE_STRAP
RJ45_A
PHYADD4 RX_VDD25 GND
GND VDD_C RX_VDD25
TXD7 TXD6 TXD5 TXD4 VDD_O GND TXD3 TXD2 VDD_C GND TXD1 TXD0 VDD_O GND
GND VDD_O
VDD_O GND VDD_C GND
65 66 67 68 69 70 71 72 73 74 75 76 77 78 79 80 81 82 83 84 85 86 87 88 89 90 91 92 93 94 95 96 97 98 99 100 101 102
TXD[0..7] R121 4.7K
R120
9.76K
GND
GTX_CLK VDD_O MDIO
R122 R124
0 1.5K
R123 L7 C139 + C138 22uF
22 F.B.
VDD_C
VDD_O VDD_O MDC R125 1.5K 0.1uF
Option
25M_IN R126 4.7K
VDD_O + C140 100uF/16V GND L8 VDD25 + C145 100uF/16V GND L9 VDD18 + C164 100uF/16V GND C166 0.1uF C167 1000pF F.B. + C165 100uF/16V C168 0.1uF VDD_C C147 0.1uF C148 1000pF F.B. + C146 100uF/16V C149 0.1uF VDD_O C150 1000pF C151 0.1uF C152 0.1uF C153 0.1uF C154 0.1uF C155 0.1uF C156 0.1uF C157 0.1uF C158 0.1uF C159 C141 0.1uF
RX_VDD25 C142 1000pF C143 0.1uF C144 0.1uF
C160 0.1uF
C161 0.1uF
C162 0.1uF
C163 0.1uF
0.1uF
ASIX ELECTRONICS CORPORATION C169 1000pF C170 0.1uF C171 0.1uF C172 0.1uF C173 0.1uF C174 0.1uF C175 0.1uF C176 0.1uF C177 0.1uF C178 0.1uF C179 0.1uF C180 0.1uF C181 0.1uF C182 0.1uF C183 0.1uF Size C Date: Title AX88655 P 5-Port 10/100/1000BASE-T EtherNet Switch --- Port 2 G'PHY CKT. Document Number GPHY2.SCH Thursday, March 14, 2002 Sheet 4 of 10 Rev 1.0
33
ASIX ELECTRONICS CORPORATION
SHIELD
AX88655 P 5-Port 10/100/1000BASE-T Ethernet Switch
CRS COL RXD[0..7] RX_CLK RX_DV TX_CLK CRS COL RXD[0..7] RX_CLK RX_DV TX_CLK
GTX_CLK TXD[0..7] TX_EN MDIO MDC PHY_RST# 25MHZ
GTX_CLK TXD[0..7] TX_EN MDIO MDC RESET# 25M_IN VDD25 VDD18 GND VDD_O
PHY ID : 01010
PHYADD0 PHYADD1 PHYADD2 PHYADD3 PHYADD4 AN_EN DUPLEX SPEED1 SPEED R127 R128 R129 R130 R131 R132 R133 R134 R135 4.7k 4.7k 4.7k 4.7k 4.7k 4.7k 4.7k 4.7k 4.7k VDD_O
VDD25 VDD18 GND
R136 4.7K PHYADD0 AN_EN RESET# R139 OPTION 2K VDD_O DUPLEX SPEED1 SPEED GND VDD_O GND VDD_C PHYADD3 PHYADD2 GND VDD_O PHYADD1 PHYADD0 GND VDD_C AN_EN DUPLEX SPEED1 SPEED R140 R141 R142 1k 1k 1k D18 D19 D20 LED LED LED R137 R138 1k 1k D16 D17 LED LED VDD_O
DUPLEX LED Link 1000 LED Link Link 100 LED 10 LED
Activity LED
GND VDD_O GND VDD_C GND
GND GND GND VDD_O
GND VDD_O
GND GND VDD_C GND
38 VSS 37 IO_VDD 36 VSS 35 CORE_VDD 34 VDD_SEL_STRAP 33 /RESET 32 /TRST 31 TDI 30 VSS 29 IO_VDD 28 TDO 27 TMS 26 VSS 25 CORE_VDD 24 TCK 23 RESERVED 22 VSS 21 IO_VDD 20 VSS 19 CORE_VDD 18 PHYADDR3_STRAP 17 PHYADDR2_STRAP 16 VSS 15 IO_VDD 14 PHYADDR1_STRAP 13 PHYADDR0_STRAP /DUPLEX_LED 12 VSS 11 CORE_VDD 10 AN_EN_STRAP /LINK1000_LED 9 LINK100_LED /DUPLEX_STRAP 8 LINK10_LED /SPEED1_STRAP 7 ACTIVITY_LED /SPEED_STRAP 6 TX_TCLK 5 VSS 4 IO_VDD 3 /INTERRUPT 2 RESERVED 1 NON_IEEE_STRAP
U4 DP83865AVH RX_VDD25 C184 0.1uF VSS MDID_N MDID_P VSS VSS RX_VDD VSS MDIC_N MDIC_P VSS VSS RX_VDD VSS MDIB_N MDIB_P VSS VSS RX_VDD VSS MDIA_N MDIA_P VSS VSS RX_VDD VSS RX_VDD 128 127 126 125 124 123 122 121 120 119 118 117 116 115 114 113 112 111 110 109 108 107 106 105 104 103 GND MDID_N MDID_P GND GND VDD_C GND MDIC_N MDIC_P GND GND VDD_C GND MDIB_N MDIB_P GND GND VDD_C GND MDIA_N MDIA_P GND GND VDD_C GND VDD_C MDID_N MDID_P RX_VDD25 C187 0.1uF MDIC_N MDIC_P RX_VDD25 C190 0.1uF MDIB_N MDIB_P RX_VDD25 C194 0.1uF MDIA_N MDIA_P C198 1000pF C195 0.1uF R160 49.9 C196 R161 49.9 0.1uF C197 0.1uF C191 0.1uF R155 49.9 C192 R156 49.9 0.1uF C188 0.1uF R148 49.9 C189 R149 49.9 0.1uF 1 2 3 4 5 6 7 8 9 10 11 12 TF4 TCT1 TD1+ TD1TCT2 TD2+ TD2TCT3 TD3+ TD3TCT4 TD4+ TD424HST1041 C193 0.01uF/2KV MCT1 MX1+ MX1MCT2 MX2+ MX2MCT3 MX3+ MX3MCT4 MX4+ MX424 23 22 21 20 19 18 17 16 15 14 13 R150 MDI_DMDI_D+ R152 MDI_CMDI_C+ R153 MDI_BMDI_B+ R157 MDI_AMDI_A+ 75 75 75 MDI_DMDI_D+ MDI_BMDI_CMDI_C+ MDI_B+ MDI_AMDI_A+ 12 8 7 6 5 4 3 2 1 11 JACK4 C185 0.1uF R143 49.9 C186 R144 49.9 0.1uF
COL CRS GND RXD[0..7] RX_DV RXD7 RXD6 RXD5 RXD4 RXD3 RXD2 RXD1 RXD0 R147 10
R145 R146
4.7K VDD_O GND 0
VDD_C GND R151 10 VDD_O GND
RX_CLK TX_CLK GND
R154 R158 R159
TXD7 TXD6 TXD5 TXD4 IO_VDD VSS TXD3 TXD2 CORD_VDD VSS TXD1 TXD0 IO_VDD VSS GTX_CLK MDIO MDC VSS IO_VDD RESERVER CLK_TO_MAC CLK_IN CLK_OUT MAC_CLK_EN_STRAP MDIX_EN_STRAP IO_VDD VSS CORD_VDD VSS MULTI_EN_STRAP PHYADDR4_STRAP AFE_VDD VSS PGM_VDD VSS CORD_VDD BG_VDD BG_REF
10 VDD_O GND 10 4.7K TX_EN VDD_C GND
39 40 41 42 43 44 45 46 47 48 49 50 51 52 53 54 55 56 57 58 59 60 61 62 63 64
COL CRS RX_ER IO_VDD VSS RX_DV RXD7 RXD6 RXD5 CORD_VDD VSS RXD4 RXD3 RXD2 IO_VDD VSS RXD1 RXD0 RX_CLK IO_VDD VSS TX_CLK TX_ER TX_EN CORD_VDD VSS
75
RJ45_A
65 66 67 68 69 70 71 72 73 74 75 76 77 78 79 80 81 GND 82 VDD_O 83 84 85 86 87 88 89 VDD_O 90 GND 91 VDD_C 92 GND 93 94 PHYADD4 95 RX_VDD25 96 GND 97 98 GND 99 VDD_C 100 RX_VDD25 101 102
TXD7 TXD6 TXD5 TXD4 VDD_O GND TXD3 TXD2 VDD_C GND TXD1 TXD0 VDD_O GND
TXD[0..7] R163 4.7K
R162
9.76K GND
GTX_CLK VDD_O MDIO
R164 R166
0 1.5K
R165 L10 C200 + C199 22uF
22 F.B.
VDD_C
VDD_O VDD_O MDC R167 1.5K 0.1uF
OPTION
25M_IN R168 4.7K
VDD_O + C201 GND L11 VDD25 + C206 GND L12 VDD18 + C225 GND C227 C228 F.B. 1000pF + C226 C229 VDD_C C208 C209 F.B. 1000pF + C207 C210 VDD_O C211 1000pF C212 0.1uF C213 0.1uF C202
RX_VDD25 C203 1000pF C204 0.1uF C205 0.1uF
100uF/16V 0.1uF
C214 0.1uF
C215 0.1uF
C216 0.1uF
C217 0.1uF
C218 0.1uF
C219 0.1uF
C220 0.1uF
C221 0.1uF
C222 0.1uF
C223 0.1uF
C224 0.1uF
100uF/16V 0.1uF
100uF/16V 0.1uF
ASIX ELECTRONICS CORPORATION C230 1000pF C231 0.1uF C232 0.1uF C233 0.1uF C234 0.1uF C235 0.1uF C236 0.1uF C237 0.1uF C238 0.1uF C239 0.1uF C240 0.1uF C241 0.1uF C242 0.1uF C243 0.1uF C244 0.1uF Size C Date: Title AX88655 P 5-Port 10/100/1000BASE-T EtherNet Switch --- Port 3 G'PHY CKT. Document Number GPHY3.SCH Thursday, March 14, 2002 Sheet 5 of 10 Rev 1.0
100uF/16V 0.1uF
100uF/16V 0.1uF
34
ASIX ELECTRONICS CORPORATION
SHIELD
AX88655 P 5-Port 10/100/1000BASE-T Ethernet Switch
CRS COL RXD[0..7] RX_CLK RX_DV TX_CLK CRS COL RXD[0..7] RX_CLK RX_DV TX_CLK
GTX_CLK TXD[0..7] TX_EN MDIO MDC PHY_RST# 25MHZ
GTX_CLK TXD[0..7] TX_EN MDIO MDC RESET# 25M_IN
PHY ID : 01011
PHYADD0 PHYADD1 PHYADD2 PHYADD3 PHYADD4 AN_EN DUPLEX SPEED1 SPEED R169 R170 R171 R172 R173 R174 R175 R176 R177 4.7k 4.7k 4.7k 4.7k 4.7k 4.7k 4.7k 4.7k 4.7k VDD_O
VDD25 VDD18 GND
VDD25 VDD18 GND VDD_O R178 4.7K
PHYADD0 AN_EN RESET# R181 OPTION 2K VDD_O DUPLEX SPEED1 SPEED GND VDD_O GND VDD_C PHYADD3 PHYADD2 GND VDD_O PHYADD1 PHYADD0 GND VDD_C AN_EN DUPLEX SPEED1 SPEED
R179 R180 R182 R183 R184
1k 1k 1k 1k 1k
D21 D22 D23 D24 D25
LED LED LED LED LED VDD_O
DUPLEX LED Link 1000 LED Link Link 100 LED 10 LED
Activity LED
GND VDD_O GND VDD_C GND
GND GND GND VDD_O
GND VDD_O
GND GND VDD_C GND
38 VSS 37 IO_VDD 36 VSS 35 CORE_VDD 34 VDD_SEL_STRAP 33 /RESET 32 /TRST 31 TDI 30 VSS 29 IO_VDD 28 TDO 27 TMS 26 VSS 25 CORE_VDD 24 TCK 23 RESERVED 22 VSS 21 IO_VDD 20 VSS 19 CORE_VDD 18 PHYADDR3_STRAP 17 PHYADDR2_STRAP 16 VSS 15 IO_VDD 14 PHYADDR1_STRAP 13 PHYADDR0_STRAP /DUPLEX_LED 12 VSS 11 CORE_VDD 10 AN_EN_STRAP /LINK1000_LED 9 LINK100_LED /DUPLEX_STRAP 8 LINK10_LED /SPEED1_STRAP 7 ACTIVITY_LED /SPEED_STRAP 6 TX_TCLK 5 VSS 4 IO_VDD 3 /INTERRUPT 2 RESERVED 1 NON_IEEE_STRAP
U5 DP83865AVH RX_VDD25 C245 0.1uF VSS MDID_N MDID_P VSS VSS RX_VDD VSS MDIC_N MDIC_P VSS VSS RX_VDD VSS MDIB_N MDIB_P VSS VSS RX_VDD VSS MDIA_N MDIA_P VSS VSS RX_VDD VSS RX_VDD 128 127 126 125 124 123 122 121 120 119 118 117 116 115 114 113 112 111 110 109 108 107 106 105 104 103 GND MDID_N MDID_P GND GND VDD_C GND MDIC_N MDIC_P GND GND VDD_C GND MDIB_N MDIB_P GND GND VDD_C GND MDIA_N MDIA_P GND GND VDD_C GND VDD_C MDID_N MDID_P C246 0.1uF R185 49.9 C247 R186 49.9 0.1uF
COL CRS GND RXD[0..7] RX_DV RXD7 RXD6 RXD5 RXD4 R189 10
R187
4.7K VDD_O GND
R188
0
VDD_C GND R193 10 VDD_O GND
RXD3 RXD2 RXD1 RXD0
RX_CLK TX_CLK GND
R196 R200 R201
10 VDD_O GND 10 4.7K TX_EN VDD_C GND
TXD7 TXD6 TXD5 TXD4 IO_VDD VSS TXD3 TXD2 CORD_VDD VSS TXD1 TXD0 IO_VDD VSS GTX_CLK MDIO MDC VSS IO_VDD RESERVER CLK_TO_MAC CLK_IN CLK_OUT MAC_CLK_EN_STRAP MDIX_EN_STRAP IO_VDD VSS CORD_VDD VSS MULTI_EN_STRAP PHYADDR4_STRAP AFE_VDD VSS PGM_VDD VSS CORD_VDD BG_VDD BG_REF
39 40 41 42 43 44 45 46 47 48 49 50 51 52 53 54 55 56 57 58 59 60 61 62 63 64
COL CRS RX_ER IO_VDD VSS RX_DV RXD7 RXD6 RXD5 CORD_VDD VSS RXD4 RXD3 RXD2 IO_VDD VSS RXD1 RXD0 RX_CLK IO_VDD VSS TX_CLK TX_ER TX_EN CORD_VDD VSS
RX_VDD25 C248 0.1uF MDIC_N MDIC_P C249 0.1uF R190 49.9 C250 R191 49.9 0.1uF 1 2 3 4 5 6 7 8 9 10 11 12 TF5 TCT1 TD1+ TD1TCT2 TD2+ TD2TCT3 TD3+ TD3TCT4 TD4+ TD424HST1041 C254 RX_VDD25 C255 0.1uF MDIA_N MDIA_P C259 1000pF C256 0.1uF R202 49.9 C257 R203 49.9 0.1uF C258 0.1uF 0.01uF/2KV MCT1 MX1+ MX1MCT2 MX2+ MX2MCT3 MX3+ MX3MCT4 MX4+ MX424 23 22 21 20 19 18 17 16 15 14 13 R192 MDI_DMDI_D+ R194 MDI_CMDI_C+ R195 MDI_BMDI_B+ R199 MDI_AMDI_A+ 75 75 MDI_DMDI_D+ MDI_BMDI_CMDI_C+ MDI_B+ MDI_AMDI_A+ 12 8 7 6 5 4 3 2 1 11 JACK5
RX_VDD25 C251 0.1uF MDIB_N MDIB_P C252 0.1uF R197 49.9 C253 R198 49.9 0.1uF
75
75
RJ45_A
PHYADD4 RX_VDD25 GND
GND VDD_C RX_VDD25
TXD7 TXD6 TXD5 TXD4 VDD_O GND TXD3 TXD2 VDD_C GND TXD1 TXD0 VDD_O GND
GND VDD_O
VDD_O GND VDD_C GND
65 66 67 68 69 70 71 72 73 74 75 76 77 78 79 80 81 82 83 84 85 86 87 88 89 90 91 92 93 94 95 96 97 98 99 100 101 102
TXD[0..7] R205 4.7K
R204
9.76K
GND
GTX_CLK VDD_O MDIO
R206 R208
0 1.5K
R207
22
VDD_C
L13 C261 VDD_O VDD_O MDC R209 1.5K 0.1uF 22uF + C260
F.B.
OPTION
25M_IN R210 4.7K
VDD_O + C262 GND L14 VDD25 + C267 GND L15 VDD18 + C286 GND C288 C289 F.B. 1000pF + C287 C290 VDD_C C269 C270 F.B. 1000pF + C268 C271 VDD_O C272 1000pF C273 0.1uF C274 0.1uF C263
RX_VDD25 C264 1000pF C265 0.1uF C266 0.1uF
100uF/16V 0.1uF
C275 0.1uF
C276 0.1uF
C277 0.1uF
C278 0.1uF
C279 0.1uF
C280 0.1uF
C281 0.1uF
C282 0.1uF
C283 0.1uF
C284 0.1uF
C285 0.1uF
100uF/16V 0.1uF
100uF/16V 0.1uF
ASIX ELECTRONICS CORPORATION C291 1000pF C292 0.1uF C293 0.1uF C294 0.1uF C295 0.1uF C296 0.1uF C297 0.1uF C298 0.1uF C299 0.1uF C300 0.1uF C301 0.1uF C302 0.1uF C303 0.1uF C304 0.1uF C305 0.1uF Size C Date: Title AX88655 P 5-Port 10/100/1000BASE-T EtherNet Switch --- Port 4 G'PHY CKT. Document Number GPHY4.SCH Thursday, March 14, 2002 Sheet 6 of 10 Rev 1.0
100uF/16V 0.1uF
100uF/16V 0.1uF
35
ASIX ELECTRONICS CORPORATION
SHIELD
AX88655 P 5-Port 10/100/1000BASE-T Ethernet Switch
CRS0 COL0 RXD0[0..7] RX_CLK0 RX_DV0 TX_CLK0 CRS1 COL1 RXD1[0..7] RX_CLK1 RX_DV1 TX_CLK1 CRS2 COL2 RXD2[0..7] RX_CLK2 RX_RV2 TX_CLK2 CRS3 COL3 RXD3[0..7] RX_CLK3 RX_RV3 TX_CLK3 CRS4 COL4 RXD4[0..7] RX_CLK4 RX_RV4 TX_CLK4 CRS0 COL0 RXD0[0..7] RX_CLK0 RX_DV0 TX_CLK0 CRS1 COL1 RXD1[0..7] RX_CLK1 RX_DV1 TX_CLK1 CRS2 COL2 RXD2[0..7] RX_CLK2 RX_DV2 TX_CLK2 CRS3 COL3 RXD3[0..7] RX_CLK3 RX_DV3 TX_CLK3 CRS4 COL4 RXD4[0..7] RX_CLK4 RX_DV4 TX_CLK4
RXD0[0..7]
GTX_CLK0 TXD0[0..7] TX_EN0 GTX_CLK1 TXD1[0..7] TX_EN1 GTX_CLK2 TXD2[0..7] TX_EN2 GTX_CLK3 TXD3[0..7] TX_EN3 GTX_CLK4 TXD4[0..7] TX_EN4
GTX_CLK0 TXD0[0..7] TX_EN0 GTX_CLK1 TXD1[0..7] TX_EN1 GTX_CLK2 TXD2[0..7] TX_EN2 GTX_CLK3 TXD3[0..7] TX_EN3 GTX_CLK4 TXD4[0..7] TX_EN4
GND
2.5V GND
GND RX_DV0 RX_CLK0 RXD07 RXD06 RXD05 RXD04 RXD03 RXD02 RXD01 RXD00 COL0 CRS0 2.5V GND
U6 TXD00 TXD01 TXD02 TXD03 TXD04 TXD05 TXD06 TXD07 TX_EN0 R214 R212 47 R213 47
TXD0[0..7]
0 GND 2.5V
GND
GND 2.5V
GCLK SYSCLK RESET# MDC MDIO SDC SDIO VDD33 VDD25_2 GND
GCLK SYSCLK RESET# MDC MDIO SDC SDIO VDD33 VDD25 GND
GND 3.3V X_IN X_OUT GND 2.5VA GND FILTER GND 2.5VA CRS1 COL1 RXD10 RXD11 RXD12 RXD13 RXD14 RXD15 RXD16 RXD17 RX_CLK1 RX_DV1 GND GTX_CLK1 R224 0 2.5V TX_CLK1 R225 47 R226 47
FILTER R222 680 RXD1[0..7]
C306 39pF
C307 680pF
TXD1[0..7]
65 TXD1[5] 66 TXD1[6] 67 TXD1[7] 68 TX_EN1 69 VSS 70 VDD25 71 CRS2 72 COL2 73 RXD2[0] 74 RXD2[1] 75 RXD2[2] 76 RXD2[3] 77 RXD2[4] 78 RXD2[5] 79 RXD2[6] 80 RXD2[7] 81 RX_CLK2 82 RX_DV2 83 VSS 84 GTX_CLK2 85 VDD25 86 TX_CLK2 87 TXD2[0] 88 TXD2[1] 89 TXD2[2] 90 TXD2[3] 91 TXD2[4] 92 TXD2[5] 93 TXD2[6] 94 TXD2[7] 95 TX_EN2 96 VSS 97 VDD25 98 CRS3 99 COL3 100 RXD3[0] 101 RXD3[1] 102 RXD3[2] 103 RXD3[3] 104 RXD3[4] 105 RXD3[5] 106 RXD3[6] 107 RXD3[7] 108 RX_CLK3 109 RX_DV3 110 VSS 111 GTX_CLK3 112 VDD25 113 TX_CLK3 114 TXD3[0] 115 TXD3[1] 116 TXD3[2] 117 TXD3[3] 118 TXD3[4] 119 TXD3[5] 120 TXD3[6] 121 TXD3[7] 122 TX_EN3 123 VSS 124 VDD25 125 CRS4 126 COL4 127 RXD4[0] 128 RXD4[1]
TXD10 TXD11 TXD12 TXD13 TXD14 TXD15 TXD16 TXD17
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 49 50 51 52 53 54 55 56 57 58 59 60 61 62 63 64
256 TXD0[3] 255 TXD0[2] 254 TXD0[1] 253 TXD0[0] 252 TX_CLK0 251 VDD25 250 GTX_CLK0 249 VSS 248 RX_DV0 247 RX_CLK0 246 RXD0[7] 245 RXD0[6] 244 RXD0[5] 243 RXD0[4] 242 RXD0[3] 241 RXD0[2] 240 RXD0[1] 239 RXD0[0] 238 COL0 237 CRS0 236 VDD25 235 VSS 234 NC 233 NC 232 NC 231 NC 230 NC 229 NC 228 NC 227 NC 226 NC 225 NC 224 VDD25 223 NC 222 VSS 221 VSS 220 VSS 219 NC 218 NC 217 NC 216 NC 215 VSS 214 VSS 213 VSS 212 VSS 211 NC 210 NC 209 VDD25 208 VSS 207 NC 206 NC 205 NC 204 NC 203 NC 202 NC 201 NC 200 NC 199 NC 198 NC 197 VDD25 196 NC 195 VSS 194 VSS 193 VSS
GTX_CLK0 R211
0
TX_CLK0 2.5V
GND
2.5V
2.5V
TXD0[4] TXD0[5] TXD0[6] TXD0[7] TX_EN0 VSS VDD25 NC NC VSS VSS VSS VSS NC NC NC NC VSS VSS VSS NC VDD25 NC NC NC NC NC NC NC NC NC NC VSS VDD33 X_IN X_OUT AVBB25 AVDD25A AVSS25A FILTER AVSS25D AVDD25D NC CRS1 COL1 RXD1[0] RXD1[1] RXD1[2] RXD1[3] RXD1[4] RXD1[5] RXD1[6] RXD1[7] RX_CLK1 RX_DV1 VSS GTX_CLK1 VDD25 TX_CLK1 TXD1[0] TXD1[1] TXD1[2] TXD1[3] TXD1[4]
AX88655 P
NC NC NC NC VSS VSS VSS VSS NC NC VDD25 VSS GPIO4 GPIO3 GPIO2 GPIO1 GPIO0 NC NC NC NC VDD33 /RST VSS SYSCLK NC MDC MDIO SDC SDIO VDD25 GCLK VSS VSS /SYSCLK_EN /GCLK_EN SID4 SID3 SID2 SID1 SID0 VDD25 VSS TX_EN4 TXD4[7] TXD4[6] TXD4[5] TXD4[4] TXD4[3] TXD4[2] TXD4[1] TXD4[0] TX_CLK4 VDD25 G_TXCLK4 VSS RX_DV4 RX_CLK4 RXD4[7] RXD4[6] RXD4[5] RXD4[4] RXD4[3] RXD4[2]
192 191 190 189 188 187 186 185 184 183 182 181 180 179 178 177 176 175 174 173 172 171 170 169 168 167 166 165 164 163 162 161 160 159 158 157 156 155 154 153 152 151 150 149 148 147 146 145 144 143 142 141 140 139 138 137 136 135 134 133 132 131 130 129
GND
2.5V GND
2.5V
3.3V RESET# GND SYSCLK MDC MDIO SDC SDIO 2.5V GCLK GND GND SYSCLK_EN# GCLK_EN#
R215 1.5K
2.5V R216 1.5K
If SYSCLK_EN pull down, the SYSCLK input 90MHZ, else the X_IN & X_OUT input 27MHz.
SYSCLK_EN# R217 GCLK_EN#
10K
GND
R218
10K
GND
2.5V GND R219 R220 47 0 TX_EN4 TXD47 TXD46 TXD45 TXD44 TXD43 TXD42 TXD41 TXD40
R221 47 TX_CLK4 2.5V R223 GND RX_DV4 RX_CLK4 RXD47 RXD46 RXD45 RXD44 RXD43 RXD42 0
TXD4[0..7]
GTX_CLK4
GND 2.5V CRS2 COL2 RXD20 RXD21 RXD22 RXD23 RXD24 RXD25 RXD26 RXD2[0..7] RXD27 RX_CLK2 RX_DV2 GND R229 0 GTX_CLK2 2.5V TX_CLK2 R230 TXD20 47 TXD21 TXD22 TXD23 R231 TXD24 47 TXD25 TXD26 TXD2[0..7] TXD27 R232 0 TX_EN2 GND 2.5V CRS3 COL3 RXD30 RXD31 RXD32 RXD33 RXD34 RXD35 RXD36 RXD3[0..7] RXD37 RX_CLK3 RX_DV3 GND R233 0 GTX_CLK3 2.5V TX_CLK3 R234 TXD30 47 TXD31
RXD41 RXD40 R235 47 0 GND 2.5V CRS4 COL4
RXD4[0..7]
TX_EN1 R228 1M
R227
0
Y1 X_IN 27MHZ C308 20pF C309 20pF F.B. L17 X_OUT L16
F.B. L18 VDD25 + C310 GND C312 C313 F.B. 1000pF + C311 C314 2.5V C315 1000pF C316 0.1uF C317 0.1uF C318 0.1uF C319 0.1uF C320 0.1uF C321 0.1uF C322 0.1uF C323 0.1uF C324 0.1uF C325 0.1uF C326 0.1uF C327 0.1uF C328 0.1uF C329 0.1uF C330 0.1uF C331 0.1uF C332 0.1uF
220uF/16V0.1uF
220uF/16V0.1uF
L19 VDD25 + C333 GND C337 C338 F.B. 1000pF + C334 C339 2.5VA C340 1000pF C341 0.1uF C342 0.1uF GND VDD33 + C335 C343
L20 3.3V C344 F.B. 1000pF + C336 C345 C346 1000pF C347 0.1uF C348 Title 100uF/16V0.1uF 0.1uF Size C Date: AX88655 P 5-Port 10/100/1000BASE-T EtherNet Switch --- AX88655 P CKT. Document Number GSW_CKT.SCH Thursday, March 14, 2002 Sheet 7 of 10 Rev 1.0 ASIX ELECTRONICS CORPORATION
100uF/16V0.1uF
100uF/16V0.1uF
100uF/16V0.1uF
36
TXD32 TXD33 TXD34 TXD35 TXD36 TXD3[0..7] TXD37 R236 TX_EN3
ASIX ELECTRONICS CORPORATION
AX88655 P 5-Port 10/100/1000BASE-T Ethernet Switch
VDD33 GND 25M_P0 25M_P1 25M_P2 25M_P3 25M_P4 25M_P0 25M_P1 25M_P2 25M_P3 25M_P4
VDD33 GND
GCLK SYSCLK
GCLK SYSCLK
U7 L21 VDD33 C349 F.B. 0.1uF 8 C350 0.1uF VCC 125MHz OUT GND 5 4 R237 10 GCLK 25MHz 25M_P0 25M_P1 R238 R240 R242 10 10 10 GND 1 2 3 4
U8 REF CLK2 CLK1 GND PLL102_05 CLKOUT CLK4 VDD CLK3 8 7 6 5 R239 R241 CLK_VDD1 R243 10 10 10 25M_P4 25M_P3 25M_P2
U9 L23 VDD33 C351 F.B. 0.1uF 8 C352 0.1uF VCC 90MHz OUT GND 5 4 C353 F.B. 0.1uF GND 0.1uF C354 R244 10 SYSCLK VDD33 L22 CLK_VDD1
U10 L24 VDD33 C355 F.B. 0.1uF 8 C356 0.1uF VCC 25MHZ OUT GND 5 4 R245 10 25MHz
ASIX ELECTRONICS CORPORATION Title AX88655 P 5-Port 10/100/1000BASE-T EtherNet Switch --- OSC CKT. Size B Date: Document Number OSC_CKT.SCH Thursday, March 14, 2002 Sheet 8 of 10 Rev 1.0
37
ASIX ELECTRONICS CORPORATION
AX88655 P 5-Port 10/100/1000BASE-T Ethernet Switch
VDD33 VDD25 VDD25_2 VDD18_2 VDD18_1 GND RST_CTL# VDD33 VDD25 VDD25_2 VDD18_2 VDD18_1 GND RST_CTL#
RST#_P34 RST#_P12 RST#_P0 RST#_SW
RST#_P34 RST#_P12 RST#_P0 RST#_SW
5VSB 5V 3.3V TP2 R247 4.7K R249 U12 3.3V GND PS_ON GND GND GND S1 SW SPST 5V 5V 11 12 13 14 15 16 17 18 19 20 3.3V 3.3V -12V 3.3V GND GND PS-ON 5V GND GND GND 5V GND GND -5V PW_OK 5V 5VSB 5V 12V ATX POWER GND GND 220uF/16V R253 100/2W 1 2 3 4 5 6 7 8 9 10 3.3V 3.3V GND 5V GND 5V GND 5VSB 12V C371 C372 1000pF C373 0.1uF C374 1000pF C375 0.1uF + 220uF/16V 3.3V R250 1K + C376 C378 0.1uF C379 1000pF LT1085 3 5V D26 C366 1N5402 GND 1000pF C367 0.1uF C368 1000pF C369 0.1uF + C365 220uF/16V 1 5V INPUT GND 220uF/16V TP4 1 GND TEST POINT + C357 C359 0.1uF C360 1000pF LT1085 TEST POINT 3 U11 VIN TAB/OUT VOUT ADJ/GND VDD18_1 4 2 1 VDD18_1 R246 R248 680 + C358 301 220uF/16V C361 0.1uF C362 1000pF C363 0.1uF C364 1000pF TP1 1
1.8V Output
TEST POINT TP3 1 GND TEST POINT
100 C370 0.1uF
5V Power LED
D27 LED U13 VIN TAB/OUT VOUT ADJ/GND VDD18_2 4 2 1 VDD18_2 R251 R252 680 + C377 301 220uF/16V C380 0.1uF C381 1000pF C382 0.1uF C383 1000pF TP5 1
1.8V Output
TEST POINT TP6 1 GND TEST POINT
U14 J1 1 2 C397 CON2 0.1uF GND 1N5402 1000pF 0.1uF 1000pF 0.1uF 3.3V D28 C393 C394 C395 C396 + C392 220uF/16V 5V TP8 3.3V 1 INPUT TEST POINT TP10 GND 1 TEST POINT VDD25 U15 D29 C398 C399 1000pF GND C400 0.1uF C401 1000pF C402 0.1uF + 220uF/16V R257 1K GND 220uF/16V LED 5V + C403 C405 0.1uF C406 1000pF C407 1000pF LT1085 3 VIN TAB/OUT VOUT ADJ/GND 4 2 1 TP11 VDD25 R256 R258 1K 1K + C404 220uF/16V C408 0.1uF C409 1000pF C410 0.1uF C411 1000pF 1 2.5V TEST POINT TP12 GND TEST POINT 1 + C384 GND 220uF/16V C386 0.1uF C387 1000pF LT1085 3 VIN TAB/OUT VOUT ADJ/GND 4 2 1 TP7 VDD25_2 R254 R255 1K + C385 1K 220uF/16V C388 0.1uF C389 1000pF C390 0.1uF C391 1000pF 1
2.5V Output
TEST POINT TP9 GND TEST POINT 1
3.3V Power LED Output
VDD33 TP13 TEST POINT VDD25 + C412 C414 1 220uF/16V0.1uF VDD33 + C413 C415 C416 1000pF TP14 1 GND TEST POINT
220uF/16V0.1uF
R259 VDD33 100K D30 1N4148 GND VDD33 VDD33 R264 10K 15 1 2 3 C417 0.1uF 14
U16A CEXT R261 4.7K VDD33 1 14 Q Q 13 4 R265 0 RST_CTL# R263 0 1 3 2 74HC04 7 VDD33 S2 74HC00 5 U17C 6 74HC04 C420 0.1uF C421 0.1uF 9 U17D 8 74HC04 VDD33 U17E 11 10 74HC04 R268 10K U19 3 2 VIN VOUT VSS XC61F R269 1 0 3 U18A U17A 2 74HC04 U17B 4 R260 10K
VDD33
VDD33 RST#_SW
VDD33 C418 0.1uF RST#_P0
REXT/CEXT A B CLR 74HC123
RST#_P12
Option
C419 0.1uF
SW PUSHBUTTON
VDD33
RST#_P34
VDD33
C422 0.1uF
+ C423 4.7uF/16V
VDD33 C424 0.1uF
Option for external RC reset IC
ASIX ELECTRONICS CORPORATION Title AX88655 P 5-Port 10/100/1000BASE-T EtherNet Switch --- Power Input CKT. Size C Date: Document Number POWER_CKT.SCH Thursday, March 14, 2002 Sheet 9 of 10 Rev 1.0
38
ASIX ELECTRONICS CORPORATION
AX88655 P 5-Port 10/100/1000BASE-T Ethernet Switch
RST_CTL# VDD33 GND SDIO SDC
RST_CTL#
VDD33 GND SDIO SDC
VDD33 R270 4.7K VDD33 VDD33 VDD33 VDD33 U20 PD0 GND PD2 GND RST_CTL# SDIO RST_CTL# RST_CTL# VDD33 7 7 GND 74HC00 GND 74HC00 C425 0.1uF 74HC125 2 5 9 12 1 4 10 13 14 1A 2A 3A 4A 1OE 2OE 3OE 4OE VCC 1Y 2Y 3Y 4Y 3 6 8 11 SDIO BUSY SDC R272 4.7K 14 9 INIT# 10 8 5 U18C STROB# 4 6 R271 4.7K 14 U18B VDD33 VDD33 C426 0.1uF R279 R281 R282 0 0 0 GND 1 2 3 4 U21 A0 VCC A1 WP A2 SCL GND SDA AT24C16B (SEEPROM) BUSY(O) BUSY R283 100 8 7 6 5 VDD33 RST_CTL# SDC SDIO R274 4.7K R275 4.7K R276 4.7K STROB#(I) PD0(I) PD2(I) STROB# PD0 PD2 J2 R273 R277 R280 100 100 100 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 R278 100 INIT# INIT#(I) PRINT_PORT ASIX ELECTRONICS CORPORATION Title AX88655 P 5-Port 10/100/1000BASE-T EtherNet Switch ---Serial EEPROM CKT. Size B Date: Document Number ROM_CKT.SCH Thursday, March 14, 2002 Sheet 10 of 10 Rev 1.0
39
ASIX ELECTRONICS CORPORATION
ASIX Electronic
Revision history
Revision V. 1.0 Date 3/14/02 Comment Initial release.
4F, NO.8, HSIN ANN RD., SCIENCE-BASED INDUSTRIAL PARK, HSINCHU, TAIWAN, R.O.C.
TEL: 886-3-5799500 FAX: 886-3-5799558
Email: support@asix.com.tw Web: http://www.asix.com.tw
40
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