ASIX ELECTRONICS CORPORATION Released Date: 10/20/2008
4F, NO.8, Hsin Ann Rd., Hsinchu Science Park, Hsin-Chu City, Taiwan, R.O.C. 300
TEL: 886-3-579-9500 FAX: 886-3-579-9558 http://www.asix.com.tw/
AX88772A/AX88172A
Low-pin-count
USB 2.0 to 10/100M Fast Ethernet Controller
Features
Single chip USB 2.0 to 10/100M Fast Ethernet controller –
AX88772A
Single chip USB 2.0 to MII, single chip MII to Ethernet and
USB Bridging controller in Dual-PHY mode (US Patent
Pending) – AX88172A
USB Device Interface
Integrates on-chip USB 2.0 transceiver and SIE
compliant to USB Spec 1.1 and 2.0
Supports USB Full and High Speed modes with
Bus-Power or Self-Power capability
Supports 4 or 6 programmable endpoints on USB
interface
High performance packet transfer rate over USB bus
using proprietary burst transfer mechanism (US Patent
Approval)
Supports USB to Ethernet bridging or vice versa in
hardware
Fast Ethernet Controller
Integrates 10/100Mbps Fast Ethernet MAC/PHY
IEEE 802.3 10BASE-T/100BASE-TX compatible
Supports twisted pair crossover detection and
auto-correction (HP Auto-MDIX)
Embedded 16KB SRAM for RX packet buffering and
8KB SRAM for TX packet buffering
Supports both Full-duplex with flow control and
Half-duplex with backpressure operation
Supports 2 VLAN ID filtering, received VLAN Tag (4
bytes) can be stripped off or preserved
MAC/PHY loop-back diagnostic capability
Support Wake-on-LAN Function
Supports Suspend Mode and Remote Wakeup via
Link-up, Magic packet, MS wakeup frame and external
pin
Optional PHY power down during Suspend Mode
Versatile External Media Interface
Optional MII interface in MAC mode allows AX88172A
to work with external 100BASE-FX Ethernet PHY or
HomePNA PHY
Optional Reverse-MII or Reverse-RMII interface in PHY
mode allows AX88172A to work with external
HomePlug PHY or glueless MAC-to-MAC connections
Optional Reverse-MII interface in Dual-PHY mode
allows AX88172A to act as an Ethernet PHY or USB 2.0
PHY for external MAC device that needs Ethernet and
USB in system application
Supports 256/512 bytes (93c56/93c66) of serial EEPROM
(for storing USB Descriptors)
Supports automatic loading of Ethernet ID, USB Descriptors
and Adapter Configuration from EEPROM after power-on
initialization
Provides optional serial interface, I2C, SPI and UART
Integrates on-chip voltage regulator and only requires a
single 3.3V power supply
12MHz and 25Mhz clock input from either crystal or
oscillator source
Integrates on-chip power-on reset circuit
Small form factor with 64-pin LQFP (AX88772A) or 80-pin
TQFP (AX88172A) RoHS compliant package
Operating temperature range: 0˚C to 70˚C.
*IEEE is a registered trademark of the Institute of Electrical and
Electronic Engineers, Inc.
*All other trademarks and registered trademark are the property of their
respective holders.
Product Description
The AX88772A/AX88172A Low-pin-count USB 2.0 to 10/100M Fast Ethernet controller is a high performance and highly integrated
ASIC which enables low cost, small form factor, and simple plug-and-play Fast Ethernet network connection capability for desktops,
notebook PC’s, Ultra-Mobile PC’s, docking stations, game consoles, digital-home appliances, and any embedded system using a
standard USB port.
The AX88772A/AX88172A features a USB interface to communicate with a USB Host Controller and is compliant with USB
specification V1.1 and V2.0. The AX88772A/AX88172A implements 10/100Mbps Ethernet LAN function based on IEEE802.3, and
IEEE802.3u standards with 24KB of embedded SRAM for packet buffering. The AX88772A/AX88172A integrates an on-chip
10/100Mbps Ethernet PHY to simplify system design.
The AX88172A provides an optional External Media Interface (EMI) for external PHY or external MAC for different application
purposes. The EMI can be a media-independent interface (MII) for implementing 100BASE-FX Ethernet or HomePNA functions. The
EMI can also be a Reverse-MII or Reverse Reduced-MII (Reverse-RMII) for glueless MAC-to-MAC connections to any MCU with
Ethernet MAC MII or RMII interface. In addition, the EMI can be configured to Dual-PHY mode allowing AX88172A to act as an
Ethernet PHY or USB 2.0 PHY for external MAC device that needs Ethernet and USB interfaces in their system applications. The
optional serial interface such as I2C, SPI, and UART are provided as a control channel from the USB Host Controller to communicate
with the external MCU chip.
Always contact ASIX Electronics for possible updates before starting a design.
This data sheet contains new products information. ASIX Electronics reserves the rights to modify 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.
Document No: AX88x72A/V1.05/10/20/08
ASIX ELECTRONICS CORPORATION
2
AX88772A/AX88172A
Low-pin-count
USB 2.0 to 10/100M Fast Ethernet Controller
Target Applications
PC/Internet
Consumer Electronics
Figure 1 : Target Applications
Pocketable Computer
USB Dongle Docking Station Card Reader
USB KVME
Switch
Internet Security
USB Key
Port Replicator
for Mobile Computer
UWB/802.11n/WiMAX
USB Dongle
Media Gateway UMPC
Portable Media Player ePiano
IPTVIP STB
TiVo Box Game Console
DVD-Recorder/DVR
ASIX ELECTRONICS CORPORATION
3
AX88772A/AX88172A
Low-pin-count
USB 2.0 to 10/100M Fast Ethernet Controller
Typical System Block Diagrams
Hosted by USB to operate with internal Ethernet PHY only
Figure 2 : USB 2.0 to LAN Adaptor (MAC mode)
Hosted by USB to operate with either internal Ethernet PHY or EMI (in MAC mode)
Figure 3 : USB 2.0 to Fast Ethernet and 100BASE-FX Fiber/HomePNA Combo (MAC mode)
Magnetic
RJ45
SPI
I2C
UART
100BASE FX
PHY
Fibe
r
HomePNA
PHY
Ma
g
netic
R
J
11
MII
AX88172A
EEPROM
MDC MDIO
To USB 2.0 Host I/F
or
Ethernet PHY
To USB 2.0 Host I/F
AX88772A EEPROM
Magnetic
R
J
45
SPI
I2C
UART
Ethernet PHY
ASIX ELECTRONICS CORPORATION
4
AX88772A/AX88172A
Low-pin-count
USB 2.0 to 10/100M Fast Ethernet Controller
Hosted by USB to operate with either internal Ethernet PHY (in MAC mode) or EMI
(in PHY mode)
Figure 4 : Bridging Embedded MCU to USB 2.0 Host Interface (PHY mode)
Figure 5 : USB 2.0 to HomePlug Adaptor (PHY mode)
To USB 2.0 Host I/F
AX88172A
EEPROM
HomePlug
PHY
Reverse-MII or Reverse-RMII
(No oscillator or buffer required)
MDC MDIO
Magnetic
RJ45
PowerLine
Ethernet PHY
To USB 2.0 Host I/F
AX88172A
EEPROM
Embedded MCU
Eth
e
rn
e
t MA
C
Reverse-MII or Reverse-RMII
(No oscillator or buffer required)
MDC MDIO
Magnetic
RJ45
SPI
I2C
UART
Ethernet PHY
ASIX ELECTRONICS CORPORATION
5
AX88772A/AX88172A
Low-pin-count
USB 2.0 to 10/100M Fast Ethernet Controller
Hosted by EMI to operate with either internal Ethernet PHY or USB PHY (in
Dual-PHY mode)
Figure 6 : Bridging Embedded MCU to either Ethernet PHY or USB 2.0 Interface
To USB 2.0 Host I/F
AX88172A EEPROM
Reverse-MII
(No oscillator or buffer required)
MDC MDIO
Magnetic
RJ45
SPI
I2C
UART
Embedded MCU
Ethernet MAC
USB 2.0 device Ethernet PHY
ASIX ELECTRONICS CORPORATION
6
AX88772A/AX88172A
Low-pin-count
USB 2.0 to 10/100M Fast Ethernet Controller
Table of Contents
1.0 INTRODUCTION...................................................................................................................9
1.1 GENERAL DESCRIPTION....................................................................................................................................... 9
1.2 BLOCK DIAGRAM ................................................................................................................................................ 9
1.3 PINOUT DIAGRAM.............................................................................................................................................. 10
2.0 SIGNAL DESCRIPTION...........................................................................................14
2.1 AX88772A 64-PIN PINOUT DESCRIPTION ......................................................................................................... 14
2.2 AX88172A 80-PIN PINOUT DESCRIPTION ......................................................................................................... 16
2.3 HARDWARE SETTING FOR OPERATION MODE AND MULTI-FUNCTION PINS...................................................... 20
3.0 FUNCTION DESCRIPTION.................................................................................20
3.1 USB CORE AND INTERFACE .............................................................................................................................. 20
3.2 10/100M ETHERNET PHY................................................................................................................................. 20
3.3 MAC CORE ....................................................................................................................................................... 20
3.4 OPERATION MODE............................................................................................................................................. 20
3.5 STATION MANAGEMENT (STA)......................................................................................................................... 20
3.6 MEMORY ARBITER ............................................................................................................................................ 20
3.7 USB TO ETHERNET BRIDGE .............................................................................................................................. 20
3.8 SERIAL EEPROM LOADER ............................................................................................................................... 20
3.9 GENERAL PURPOSE I/O...................................................................................................................................... 20
3.10 SERIAL INTERFACE CONTROLLER ...................................................................................................................... 20
3.11 CLOCK GENERATION ......................................................................................................................................... 20
3.12 RESET GENERATION .......................................................................................................................................... 20
3.13 VOLTAGE REGULATOR ...................................................................................................................................... 20
4.0 SERIAL EEPROM MEMORY MAP........................................................20
4.1 DETAILED DESCRIPTION .................................................................................................................................... 20
5.0 USB CONFIGURATION STRUCTURE..............................................20
5.1 USB CONFIGURATION....................................................................................................................................... 20
5.2 USB INTERFACE................................................................................................................................................ 20
5.3 USB ENDPOINTS ............................................................................................................................................... 20
6.0 USB COMMANDS...............................................................................................................21
6.1 USB STANDARD COMMANDS............................................................................................................................ 21
6.2 USB VENDOR COMMANDS................................................................................................................................21
6.2.1 Detailed Register Description ..................................................................................................................21
6.2.2 Command Block Wrapper for Serial Interface.........................................................................................21
6.2.2.1 UART controller................................................................................................................................. 21
6.2.2.2 I2C controller...................................................................................................................................... 21
6.2.2.3 SPI controller...................................................................................................................................... 21
6.3 INTERRUPT ENDPOINT ....................................................................................................................................... 21
7.0 EMBEDDED ETHERNET PHY REGISTER
DESCRIPTION........................................................................................................................................21
7.1 PHY REGISTER DETAILED DESCRIPTION........................................................................................................... 21
7.1.1 Basic Mode Control Register (BMCR).....................................................................................................21
7.1.2 Basic Mode Status Register (BMSR).........................................................................................................21
7.1.3 PHY Identifier Register 1..........................................................................................................................21
ASIX ELECTRONICS CORPORATION
7
AX88772A/AX88172A
Low-pin-count
USB 2.0 to 10/100M Fast Ethernet Controller
7.1.4 PHY Identifier Register 2..........................................................................................................................21
7.1.5 Auto Negotiation Advertisement Register (ANAR) ...................................................................................21
7.1.6 Auto Negotiation Link Partner Ability Register (ANLPAR) .....................................................................21
7.1.7 Auto Negotiation Expansion Register (ANER).........................................................................................21
8.0 STATION MANAGEMENT REGISTERS IN
PHY/DUAL-PHY MODE...........................................................................................................21
8.1 PHY/DUAL-PHY MODE DETAILED REGISTER DESCRIPTION ............................................................................ 21
8.1.1 PHY Mode Basic Mode Control Register (PM_BMCR)...........................................................................21
8.1.2 PHY Mode Basic Mode Status Register (PM_BMSR)..............................................................................21
8.1.3 PHY Mode PHY Identifier Register 1.......................................................................................................21
8.1.4 PHY Mode PHY Identifier Register 2.......................................................................................................21
8.1.5 PHY Mode Auto Negotiation Advertisement Register (PM_ANAR).........................................................21
8.1.6 PHY Mode Auto Negotiation Link Partner Ability Register (PM_ANLPAR)...........................................21
8.1.7 PHY Mode Auto Negotiation Expansion Register (PM_ANER)...............................................................21
8.1.8 PHY Mode Control Register (PM_Control).............................................................................................21
9.0 ELECTRICAL SPECIFICATIONS............................................................22
9.1 DC CHARACTERISTICS ...................................................................................................................................... 22
9.1.1 Absolute Maximum Ratings......................................................................................................................22
9.1.2 Recommended Operating Condition.........................................................................................................22
9.1.3 Leakage Current and Capacitance...........................................................................................................23
9.1.4 DC Characteristics of 3.3V I/O Pins ........................................................................................................23
9.1.5 DC Characteristics of 3.3V with 5V Tolerance I/O Pins..........................................................................24
9.1.6 DC Characteristics of Voltage Regulator.................................................................................................25
9.2 POWER CONSUMPTION ...................................................................................................................................... 26
9.3 POWER-UP SEQUENCE ....................................................................................................................................... 27
9.4 AC TIMING CHARACTERISTICS.......................................................................................................................... 28
9.4.1 Clock Timing.............................................................................................................................................28
9.4.2 Reset Timing .............................................................................................................................................28
9.4.3 Serial EEPROM Timing............................................................................................................................29
9.4.4 MII Timing................................................................................................................................................30
9.4.5 Station Management Timing.....................................................................................................................31
9.4.6 Reverse-MII Timing..................................................................................................................................32
9.4.7 Reverse-RMII Timing ................................................................................................................................33
9.4.8 I2C Interface Timing.................................................................................................................................34
9.4.9 SPI Interface Timing.................................................................................................................................35
9.4.10 10/100M Ethernet PHY Interface Timing.................................................................................................37
9.4.11 USB Transceiver Interface Timing ...........................................................................................................38
10.0 PACKAGE INFORMATION...........................................................................40
10.1 AX88772A 64-PIN LQFP PACKAGE.................................................................................................................. 40
10.2 AX88172A 80-PIN TQFP PACKAGE.................................................................................................................. 41
11.0 ORDERING INFORMATION........................................................................42
12.0 REVISION HISTORY................................................................................................43
APPENDIX A. DEFAULT WOL READY MODE....................................................................44
APPENDIX B. ETHERNET PHY POWER AND RESET CONTROL.....................44
ASIX ELECTRONICS CORPORATION
8
AX88772A/AX88172A
Low-pin-count
USB 2.0 to 10/100M Fast Ethernet Controller
List of Figures
FIGURE 1 : TARGET APPLICATIONS ................................................................................................................................. 2
FIGURE 2 : USB 2.0 TO LAN ADAPTOR (MAC MODE)................................................................................................... 3
FIGURE 3 : USB 2.0 TO FAST ETHERNET AND 100BASE-FX FIBER/HOMEPNA COMBO (MAC MODE) ........................ 3
FIGURE 4 : BRIDGING EMBEDDED MCU TO USB 2.0 HOST INTERFACE (PHY MODE).................................................... 4
FIGURE 5 : USB 2.0 TO HOMEPLUG ADAPTOR (PHY MODE).......................................................................................... 4
FIGURE 6 : BRIDGING EMBEDDED MCU TO EITHER ETHERNET PHY OR USB 2.0 INTERFACE ....................................... 5
FIGURE 7 : AX88772A/AX88172A BLOCK DIAGRAM ................................................................................................... 9
FIGURE 8 : AX88772A PINOUT DIAGRAM (MAC MODE WITHOUT MII)....................................................................... 10
FIGURE 9 : AX88172A PINOUT DIAGRAM (MAC MODE WITH MII) ............................................................................. 11
FIGURE 10 : AX88172A PINOUT DIAGRAM (PHY/DUAL-PHY MODE WITH REVERSE-MII) ...................................... 12
FIGURE 11 : AX88172A PINOUT DIAGRAM (PHY MODE WITH REVERSE-RMII)........................................................ 13
List of Tables
TABLE 1 : AX88772A 64-PIN PINOUT DESCRIPTION ................................................................................................... 14
TABLE 2 : AX88172A 80-PIN PINOUT DESCRIPTION ................................................................................................... 16
TABLE 3 : POWER CONSUMPTION ................................................................................................................................. 26
ASIX ELECTRONICS CORPORATION
9
AX88772A/AX88172A
Low-pin-count
USB 2.0 to 10/100M Fast Ethernet Controller
1.0 Introduction
1.1 General Description
The AX88772A/AX88172A Low-pin-count USB 2.0 to 10/100M Fast Ethernet controller is a high performance and
highly integrated ASIC which enables low cost, small form factor, and simple plug-and-play Fast Ethernet network
connection capability for desktops, notebook PC’s, Ultra-Mobile PC’s, docking stations, game consoles, digital-home
appliances, and any embedded system using a standard USB port.
The AX88772A/AX88172A features a USB interface to communicate with a USB Host Controller and is compliant with
USB specification V1.1 and V2.0. The AX88772A/AX88172A implements a 10/100Mbps Ethernet LAN function based
on IEEE802.3, and IEEE802.3u standards with 24KB of embedded SRAM for packet buffering. The
AX88772A/AX88172A integrates an on-chip 10/100Mbps Ethernet PHY to simplify system design.
The AX88172A provides an optional External Media Interface (EMI) for external PHY or external MAC for different
application purposes. The EMI can be a media-independent interface (MII) for implementing 100BASE-FX Ethernet or
HomePNA functions. The EMI can also be a Reverse-MII or Reverse Reduced-MII (Reverse-RMII) for glueless
MAC-to-MAC connections to any MCU with Ethernet MAC MII or RMII interface. In addition, the EMI can be
configured to Dual-PHY mode allowing AX88172A to act as an Ethernet PHY or USB 2.0 PHY for external MAC device
that needs Ethernet and USB interfaces in their system applications. The optional serial interface such as I2C, SPI, and
UART are provided as a control channel from the USB Host Controller to communicate with the external MCU chip.
The AX88772A/AX88172A needs 12MHz clock for USB operation and 25Mhz clock for Fast Ethernet operation. The
AX88772A is housed in the 64-pin LQFP and the AX88172A is housed in the 80-pin TQFP RoHS compliant package.
1.2 Block Diagram
Figure 7 : AX88772A/AX88172A Block Diagram
DP/DM
RXIP/RXIN
TXOP/TXON
GPIO_2~0
MAC
Core
Memory
Arbiter
USB to
Ethernet
Bridge
USB Core and Interfaces
STA
SEEPROM
Loader I/F
EECS
EECK
EEDIO
24KB SRAM
General Purpose
I/O
10/100M
Ethernet
PHY
Serial I/F
Controller:
UART/I2C/SPI
SI_3~0
AX88172A only
External Media Interface
MII /
Reverse-MII /
Reverse-RMII
MDC / MDIO
3.3 to 1.8V
Regulator
PLL Clock
Generators
Power-On-Reset
& Reset Gen.
RESET_N
XTL25P, XTL25N
XTL12P, XTL12N
PHY/MAC
mode Bridge
ASIX ELECTRONICS CORPORATION
10
AX88772A/AX88172A
Low-pin-count
USB 2.0 to 10/100M Fast Ethernet Controller
1.3 Pinout Diagram
AX88772A in 64-pin LQFP package
V_BUS
VCCK
GND
GND
TEST0
TEST1
RESET_N
VCC3IO
TCLK_EN
TCLK_0
TCLK_1
EEDIO
EECS
EECK
GND
VCCK
48 47 46 45 44 43 42 41 40 39 38 37 36 35 34 33
VCC3IO 49 32 SI_0
VCCK 50 31 SI_1
XTL12P 51 30 SI_2
XTL12N 52 29 SI_3
VCC33A_H 53 28 GPIO_0 / PME
GND33A_H 54 27 GPIO_1
RREF 55 26 GPIO_2
DM 56 25 VCCK
DP 57 24 EXTWAKEUP_N
VCC33A_PLL 58 23 GND
GND33A_PLL 59 22 USB_LED
GND 60 21 VCCK
VCC18A 61 20 LINK_LED
XTL25P 62 19 SPEED_LED
XTL25N 63 18 FDX_LED
GND18A 64
AX88772A
(MAC mode without MII)
17 VCC3IO
0 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16
RSET_BG
VCC3A3
GND3A3
RXIP
RXIN
VCC18A
TXOP
TXON
GND18A
V18F
VCC3R3
GND3R3
VCCK
VCCK
GND
GND
Figure 8 : AX88772A Pinout Diagram (MAC mode without MII)
ASIX ELECTRONICS CORPORATION
11
AX88772A/AX88172A
Low-pin-count
USB 2.0 to 10/100M Fast Ethernet Controller
AX88172A in 80-pin TQFP package - MAC mode with MII
Figure 9 : AX88172A Pinout Diagram (MAC mode with MII)
TXD2
TXD3
V_BUS
VCCK
GND
GND
TEST0
TEST1
RESET_N
VCC3IO
TCLK_EN
TCLK_0
TCLK_1
EEDIO
EECS
EECK
MDC
MDIO
GND
VCCK
60 59 58 57 56 55 54 53 52 51 50 49 48 47 46 45 44 43 42 41
TXD1 61 40 SI_0
TXD0 62 39 SI_1
TXCLK 63 38 SI_2
TXEN 64 37 SI_3
VCC3IO 65 36 GPIO_0 / PME
VCCK 66 35 GPIO_1
XTL12P 67 34 GPIO_2
XTL12N 68 33 VCCK
VCC33A_H 69 32 COL
GND33A_H 70 31 CRS
RREF 71 30 EXTWAKEUP_N
DM 72 29 GND
DP 73 28 USB_LED
VCC33A_PLL 74 27 VCCK
GND33A_PLL 75 26 LINK_LED
GND 76 25 SPEED_LED
VCC18A 77 24 FDX_LED
XTL25P 78 23 RXD0
XTL25N 79 22 RXD1
GND18A 80
AX88172A
(MAC mode with MII)
21 VCC3IO
0 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20
RSET_BG
VCC3A3
GND3A3
RXIP
RXIN
VCC18A
TXOP
TXON
GND18A
V18F
VCC3R3
GND3R3
VCCK
VCCK
GND
GND
RXCLK
RXDV
RXD3
RXD2
ASIX ELECTRONICS CORPORATION
12
AX88772A/AX88172A
Low-pin-count
USB 2.0 to 10/100M Fast Ethernet Controller
AX88172A in 80-pin TQFP package – PHY/Dual-PHY mode with Reverse-MII
Figure 10 : AX88172A Pinout Diagram (PHY/Dual-PHY mode with Reverse-MII)
RXD2
RXD3
V_BUS
VCCK
GND
GND
TEST0
TEST1
RESET_N
VCC3IO
TCLK_EN
TCLK_0
TCLK_1
EEDIO
EECS
EECK
MDC
MDIO
GND
VCCK
60 59 58 57 56 55 54 53 52 51 50 49 48 47 46 45 44 43 42 41
RXD1 61 40 SI_0
RXD0 62 39 SI_1
RXCLK 63 38 SI_2
RXDV 64 37 SI_3
VCC3IO 65 36 GPIO_0 / PME
VCCK 66 35 GPIO_1
XTL12P 67 34 RXER
XTL12N 68 33 VCCK
VCC33A_H 69 32 COL
GND33A_H 70 31 CRS
RREF 71 30 EXTWAKEUP_N
DM 72 29 GND
DP 73 28 USB_LED
VCC33A_PLL 74 27 VCCK
GND33A_PLL 75 26 LINK_LED
GND 76 25 SPEED_LED
VCC18A 77 24 FDX_LED
XTL25P 78 23 TXD0
XTL25N 79 22 TXD1
GND18A 80
AX88172A
(PHY/Dual-PHY mode with Reverse-MII)
21 VCC3IO
0 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20
RSET_BG
VCC3A3
GND3A3
RXIP
RXIN
VCC18A
TXOP
TXON
GND18A
V18F
VCC3R3
GND3R3
VCCK
VCCK
GND
GND
TXCLK
TXEN
TXD3
TXD2
ASIX ELECTRONICS CORPORATION
13
AX88772A/AX88172A
Low-pin-count
USB 2.0 to 10/100M Fast Ethernet Controller
AX88172A in 80-pin TQFP package - PHY mode with Reverse-RMII
MIS_0
MIS_1
V_BUS
VCCK
GND
GND
TEST0
TEST1
RESET_N
VCC3IO
TCLK_EN
TCLK_0
TCLK_1
EEDIO
EECS
EECK
MDC
MDIO
GND
VCCK
60 59 58 57 56 55 54 53 52 51 50 49 48 47 46 45 44 43 42 41
RXD1 61 40 SI_0
RXD0 62 39 SI_1
REFCLK_O 63 38 SI_2
CRSDV 64 37 SI_3
VCC3IO 65 36 GPIO_0 / PME
VCCK 66 35 GPIO_1
XTL12P 67 34 RXER
XTL12N 68 33 VCCK
VCC33A_H 69 32 NC
GND33A_H 70 31 NC
RREF 71 30 EXTWAKEUP_N
DM 72 29 GND
DP 73 28 USB_LED
VCC33A_PLL 74 27 VCCK
GND33A_PLL 75 26 LINK_LED
GND 76 25 SPEED_LED
VCC18A 77 24 FDX_LED
XTL25P 78 23 TXD0
XTL25N 79 22 TXD1
GNDK18A 80
AX88172A
(PHY mode with Reverse-RMII)
21 VCC3IO
0 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20
RSET_BG
VCC3A3
GND3A3
RXIP
RXIN
VCC18A
TXOP
TXON
GND18A
V18F
VCC3R3
GND3R3
VCCK
VCCK
GND
GND
REFCLK_I
TXEN
NC
NC
Figure 11 : AX88172A Pinout Diagram (PHY mode with Reverse-RMII)
ASIX ELECTRONICS CORPORATION
14
AX88772A/AX88172A
Low-pin-count
USB 2.0 to 10/100M Fast Ethernet Controller
2.0 Signal Description
The following abbreviations apply to the following pin description table.
I18 Input, 1.8V AO Analog Output
I3 Input, 3.3V AB Analog Bi-directional I/O
I5 Input, 3.3V with 5V tolerant PU Internal Pull Up (75K)
O3 Output, 3.3V PD Internal Pull Down (75K)
O5 Output, 3.3V with 5V tolerant P Power Pin
B5 Bi-directional I/O, 3.3V with 5V
tolerant S
T Schmitt Trigger
Tri-stateable
AI Analog Input
Note: Every output or bi-directional I/O pin is 8mA driving strength.
2.1 AX88772A 64-pin Pinout Description
Table 1 : AX88772A 64-pin Pinout Description
Pin Name Type Pin No Pin Description
USB Interface
DP AB 57 USB 2.0 data positive pin.
DM AB 56 USB 2.0 data negative pin.
VBUS I5/PD/S 48 VBUS pin input. Please connect to USB bus power.
XTL12P I3 51
12Mhz ±0.005%crystal or oscillator clock input. This clock is needed for
USB PHY transceiver to operate.
XTL12N O3 52 12Mhz crystal or oscillator clock output.
RREF AI 55 For USB PHY’s internal biasing. Please connect to analog GND through a
resistor (12.1Kohm ±1%).
Serial EEPROM Interface
EECK B5/PD/
T
35 EEPROM Clock. EECK is an output clock to EEPROM to provide timing
reference for the transfer of EECS, and EEDIO signals. EECK only drive
high / low when access EEPROM otherwise keep at tri-state and internal
pull-down.
EECS B5/PD/
T
36 EEPROM Chip Select. EECS is asserted high synchronously with respect to
rising edge of EECK as chip select signal. EECS only drive high / low when
access EEPROM otherwise keep at tri-state and internal pull-down.
EEDIO B5/PU/
T
37 EEPROM Data In. EEDIO is the serial output data to EEPROM’s data input
pin and is synchronous with respect to the rising edge of EECK. EEDIO
only drive high / low when access EEPROM otherwise keep at tri-state and
internal pull-up.
Ethernet PHY Interface
XTL25P I18 62
25Mhz ± 0.005% crystal or oscillator clock input. This clock is needed for
the embedded 10/100M Ethernet PHY to operate.
XTL25N O18 63 25Mhz crystal or oscillator clock output.
RXIP AB 4 Receive data input positive pin for both 10BASE-T and 100BASE-TX.
RXIN AB 5 Receive data input negative pin for both 10BASE-T and 100BASE-TX.
TXOP AB 7 Transmit data output positive pin for both 10BASE-T and 100 BASE-TX
TXON AB 8 Transmit data output negative pin for both 10BASE-T and 100 BASE-TX
RSET_BG AO 1 For Ethernet PHY’s internal biasing. Please connect to GND through a
12.1Kohm ±1% resistor.
LINK_LED O5 20 Link status LED indicator. This pin drives low continuously when the
Ethernet link is up and drives low and high in turn (blinking) when Ethernet
PHY is in receiving or transmitting state.
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FDX_LED O5 18 Full Duplex and collision detected LED indicator. This pin drives low when
the Ethernet PHY is in full-duplex mode and drives high when in half
duplex mode. When in half duplex mode and the Ethernet PHY detects
collision, it will be driven low (or blinking).
SPEED_LED O5 19 Ethernet speed LED indicator. This pin drives low when the Ethernet PHY
is in 100BASE-TX mode and drives high when in 10BASE-T mode.
Misc. Pins
RESET_N I5/PU/S 42 Chip reset input. Active low. This is the external reset source used to reset
this chip. This input feeds to the internal power-on reset circuitry, which
provides the main reset source of this chip. After completing reset,
EEPROM data will be loaded automatically.
EXTWAKEUP_N I5/PU/S 24 Remote-wakeup trigger from external pin. EXTWAKEUP_N should be
asserted low for more than 2 cycles of 12MHz clock to be effective.
GPIO_2 B5/PD 26 General Purpose Input/ Output Pin 2.
GPIO_1 B5/PD 27 General Purpose Input/ Output Pin 1. This pin is default as input pin after
power-on reset. This pin is also for Default WOL Ready Mode setting;
please refer to section 2.3 Settings.
GPIO_0/PME B5/PD 28 General Purpose Input/ Output Pin 0 or PME (Power Management Event).
This pin is default as input pin after power-on reset. GPIO_0 also can be
defined as PME output to indicate wake up event detected. Please refer to
section 2.3 Settings.
SI_3 B5/PU 29 UART_RX or SPI_MISO. This is a multi-function pin determined by
EEPROM Flag [1] setting. Please refer to section 2.3 Settings.
SI_2 B5/PU 30 UART_TX or SPI_MOSI. This is a multi-function pin determined by
EEPROM Flag [1] setting. Please refer to section 2.3 Settings.
SI_1 B5/PU 31 I2C_SDA or SPI_SS. This is a multi-function pin determined by EEPROM
Flag [1] setting. Please refer to section 2.3 Settings.
SI_0 B5/PU 32 I2C_SCLK or SPI_SCLK. This is a multi-function pin determined by
EEPROM Flag [1] setting. Please refer to section 2.3 Settings.
USB_LED O5 22 USB Speed indicator: When USB bus is in Full speed, this pin drives high
continuously. When USB bus is in High speed, this pin drives low
continuously. This pin drives high and low in turn (blinking) to indicate TX
data transfer going on whenever the host controller sends bulk out data
transfer.
TEST0 I5/S 44 Test pin. For normal operation, user should connect to ground.
TEST1 I5/S 43 Test pin. For normal operation, user should connect to ground.
TCLK_EN I5/PD/S 40 Test pin. For normal operation, user should keep this pin NC.
TCLK_0 I5/PD 39 Test pin. For normal operation, user should keep this pin NC.
TCLK_1 I5/PD 38 Test pin. For normal operation, user should keep this pin NC.
On-chip Regulator Pins
VCC3R3 P 11 3.3V Power supply to on-chip 3.3V to 1.8V voltage regulator.
GND3R3 P 12 Ground pin of on-chip 3.3V to 1.8V voltage regulator.
V18F P 10 1.8V voltage output of on-chip 3.3V to 1.8V voltage regulator.
Power and Ground Pins
VCCK P 13, 14, 21, 25,
33, 47, 50
Digital Core Power. 1.8V.
VCC3IO P 17, 41, 49 Digital I/O Power. 3.3V.
GND P 15, 16, 23, 34,
45, 46, 60
Digital Ground.
VCC33A_H P 53 Analog Power for USB transceiver. 3.3V.
GND33A_H P 54 Analog Ground for USB transceiver.
VCC33A_PLL P 58 Analog Power for USB PLL. 3.3V.
GND33A_PLL P 59 Analog Ground for USB PLL.
VCC3A3 P 2 Analog Power for Ethernet PHY bandgap. 3.3V.
GND3A3 P 3 Analog Ground for Ethernet PHY.
VCC18A P 6, 61 Analog Power for Ethernet PHY and 25Mhz crystal oscillator.
1.8V.
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GND18A P 9, 64 Analog Ground for Ethernet PHY and 25Mhz crystal oscillator.
2.2 AX88172A 80-pin Pinout Description
Table 2 : AX88172A 80-pin Pinout Description
Pin Name Type Pin No Pin Description
USB Interface
DP AB 73 USB 2.0 data positive pin.
DM AB 72 USB 2.0 data negative pin.
VBUS I5/PD/S 58 VBUS pin input. Please connect to USB bus power.
XTL12P I3 67
12Mhz ±0.003%crystal or oscillator clock input. This clock is needed for
USB PHY transceiver to operate.
XTL12N O3 68 12Mhz crystal or oscillator clock output.
RREF AI 71 For USB PHY’s internal biasing. Please connect to analog GND through a
resistor (12.1Kohm ±1%).
Serial EEPROM Interface
EECK B5/PD/
T
45 EEPROM Clock. EECK is an output clock to EEPROM to provide timing
reference for the transfer of EECS, and EEDIO signals. EECK only drive
high / low when access EEPROM otherwise keep at tri-state and internal
pull-down.
EECS B5/PD/
T
46 EEPROM Chip Select. EECS is asserted high synchronously with respect
to rising edge of EECK as chip select signal. EECS only drive high / low
when access EEPROM otherwise keep at tri-state and internal pull-down.
EEDIO B5/PU/
T
47 EEPROM Data In. EEDIO is the serial output data to EEPROM’s data
input pin and is synchronous with respect to the rising edge of EECK.
EEDIO only drive high / low when access EEPROM otherwise keep at
tri-state and internal pull-up.
Ethernet PHY Interface
XTL25P I18 78
25Mhz ± 0.005% crystal or oscillator clock input. This clock is needed for
the embedded 10/100M Ethernet PHY to operate.
XTL25N O18 79 25Mhz crystal or oscillator clock output.
RXIP AB 4 Receive data input positive pin for both 10BASE-T and 100BASE-TX.
RXIN AB 5 Receive data input negative pin for both 10BASE-T and 100BASE-TX.
TXOP AB 7 Transmit data output positive pin for both 10BASE-T and 100 BASE-TX
TXON AB 8 Transmit data output negative pin for both 10BASE-T and 100 BASE-TX
RSET_BG AO 1 For Ethernet PHY’s internal biasing. Please connect to GND through a
12.1Kohm ±1% resistor.
LINK_LED O5 26 Link status LED indicator. This pin drives low continuously when the
Ethernet link is up and drives low and high in turn (blinking) when
Ethernet PHY is in receiving or transmitting state.
FDX_LED O5 24 Full Duplex and collision detected LED indicator. This pin drives low
when the Ethernet PHY is in full-duplex mode and drives high when in
half duplex mode. When in half duplex mode and the Ethernet PHY
detects collision, it will be driven low (or blinking).
SPEED_LED O5 25 Ethernet speed LED indicator. This pin drives low when the Ethernet PHY
is in 100BASE-TX mode and drives high when in 10BASE-T mode.
Misc. Pins
RESET_N I5/PU/S 52 Chip Reset Input. RESET_N pin is active low. When asserted, it puts the
entire chip into reset state immediately. After completing reset, EEPROM
data will be loaded automatically.
EXTWAKEUP_N I5/PU/S 30 Remote-wakeup trigger from external pin. EXTWAKEUP_N should be
asserted low for more than 2 cycles of 12MHz clock to be effective.
GPIO_2 / RXER B5/PD 34 General Purpose Input/ Output Pin 2. This pin is GPIO_2 in MAC mode,
but it will be redefined as RXER (receive error) or GPIO_2 depending on
EEPROM Flag [3] in PHY/Dual-PHY mode.
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GPIO_1 B5/PD 35 General Purpose Input/ Output Pin 1. This pin is default as input pin after
power-on reset. This pin is also for Default WOL Ready Mode setting;
please refer to section 2.3 Settings.
GPIO_0 / PME B5/PD 36 General Purpose Input/ Output Pin 0 or PME (Power Management Event).
This pin is default as input pin after power-on reset. GPIO_0 also can be
defined as PME output to indicate wake up event detected. Please refer to
section 2.3 Settings.
SI_3 B5/PU 37 UART_RX or SPI_MISO. This is a multi-function pin determined by
EEPROM Flag [1] setting. Please refer to section 2.3 Settings.
SI_2 B5/PU 38 UART_TX or SPI_MOSI. This is a multi-function pin determined by
EEPROM Flag [1] setting. Please refer to section 2.3 Settings.
SI_1 B5/PU 39 I2C_SDA or SPI_SS. This is a multi-function pin determined by
EEPROM Flag [1] setting. Please refer to section 2.3 Settings.
SI_0 B5/PU 40 I2C_SCLK or SPI_SCLK. This is a multi-function pin determined by
EEPROM Flag [1] setting. Please refer to section 2.3 Settings.
USB_LED O5 28 USB Speed indicator: When USB bus is in Full speed, this pin drives high
continuously. When USB bus is in High speed, this pin drives low
continuously. This pin drives high and low in turn (blinking) to indicate
TX data transfer going on whenever the host controller sends bulk out data
transfer.
TEST0 I5/S 54 Test pin. For normal operation, user should connect to ground.
TEST1 I5/S 53 Test pin. For normal operation, user should connect to ground.
TCLK_EN I5/PD/S 50 Test pin. For normal operation, user should keep this pin NC.
TCLK_0 I5/PD 49 Test pin. For normal operation, user should keep this pin NC.
TCLK_1 I5/PD 48 Test pin. For normal operation, user should keep this pin NC.
On-chip Regulator Pins
VCC3R3 P 11 3.3V Power supply to on-chip 3.3V-to-1.8V voltage regulator.
GND3R3 P 12 Ground pin of on-chip 3.3V-to-1.8V voltage regulator.
V18F P 10 1.8V voltage output of on-chip 3.3V-to-1.8V voltage regulator.
Power and Ground Pins
VCCK P 13, 14, 27, 33,
41, 57, 66,
Digital Core Power. 1.8V.
VCC3IO P 21, 51, 65 Digital I/O Power. 3.3V.
GND P 15, 16, 29, 42,
55, 56, 76
Digital Ground.
VCC33A_H P 69 Analog Power for USB transceiver. 3.3V.
GND33A_H P 70 Analog Ground for USB transceiver.
VCC33A_PLL P 74 Analog Power for USB PLL. 3.3V.
GND33A_PLL P 75 Analog Ground for USB PLL.
VCC3A3 P 2 Analog Power for Ethernet PHY bandgap. 3.3V.
GND3A3 P 3 Analog Ground for Ethernet PHY.
VCC18A P 6, 77 Analog Power for Ethernet PHY and 25Mhz crystal oscillator. 1.8V.
GND18A P 9, 80 Analog Ground for Ethernet PHY and 25Mhz crystal oscillator.
External Media Interface: MAC Mode with MII Interface
RXCLK I5/PD 17 Receive Clock. RXCLK is received from PHY to
p
rovide timing reference
for the transfer of RXD [3:0] and RXDV signals on receive direction of
MII interface.
RXDV I5/PD 18 Receive Data Valid. RXDV is asserted high when valid data is present on
RXD [3:0]. It is driven synchronously with respect to RXCLK by PHY.
RXD [3:0] I5/PD 19, 20,
22, 23
Receive Data. RXD [3:0] is driven synchronously with respect to RXCLK
by PHY.
CRS I5/PD 31 Carrier Sense. CRS is asserted high asynchronously by the PHY when
either transmit or receive medium is non-idle.
COL I5/PD 32 Collision. COL is driven high by PHY when the collision is detected.
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TXCLK I5/PD 63 Transmit Clock. TXCLK is received from PHY to provide timing
reference for the transfer of TXD [3:0] and TXEN signals on transmit
direction of MII interface.
TXEN O3 64 Transmit Enable. TXEN is asserted high to indicate a valid TXD [3:0]. It is
transitioned synchronously with respect to the rising edge of TXCLK.
TXD [3:0] O3 59, 60,
61, 62
Transmit Data. TXD [3:0] is transitioned synchronously with respect to
the rising edge of TXCLK. Note TXD [3:2] are also used as Chip
Operation Mode selection pins; please refer to section 2.3 Settings.
MDC O3/PD 44 Station management clock output to PHY. All data transferred on MDIO
are synchronized to the rising edge of this clock. The frequency of MDC is
1.5MHz.
MDIO B5/PU 43 Station management data input/output. Serial data input/output transferred
from/to the PHYs. The transfer protocol conforms to the IEEE 802.3u MII
spec.
External Media Interface: PHY/Dual-PHY Mode with Reverse-MII Interface
TXCLK O3/T 17 Transmit Clock. This clock is provided to supply to the TX_CLK of
externally connected Ethernet MAC device with MII. This pin is tri-stated
in isolate mode.
TXEN I5/PD 18 Transmit enable. TXEN is asserted high to indicate a valid TXD [3:0]. It
should be driven synchronously with respect to the rising edge of TXCLK
by the externally connected Ethernet MAC device with MII.
TXD [3:0] I5/PD 19, 20,
22, 23
Transmit Data. TXD [3:0] should be driven synchronously with respect to
the rising edge of TXCLK by the externally connected Ethernet MAC
device with MII.
CRS O3/PD/T 31 Carrier Sense. CRS is asserted high by AX88172A when RXDV is
asserted high in Reverse-MII mode. This pin is tri-stated in isolate mode.
COL O3/PD/T 32 Collision. COL is always driven low because AX88172A is operating in
100M/full-duplex mode internally in Reverse-MII mode. This pin is
tri-stated in isolate mode.
RXER O3/PD/T 34 Receive Error. RXER is always driven low by AX88172A in Reverse-MII
mode. This pin is tri-stated in isolate mode.
RXCLK O3/T 63 Receive clock. This clock is provided to supply to the RX_CLK of
externally connected Ethernet MAC device with MII. This pin is tri-stated
in isolate mode.
RXDV O3/T 64 Receive Data Valid. RXDV is asserted high when valid data is present on
RXD [3:0]. It is transitioned synchronously with respect to RXCLK from
AX88172A to the externally connected Ethernet MAC device with MII.
This pin is tri-stated in isolate mode.
RXD [3:0] O3/T 59, 60,
61, 62
Receive Data. RXD [3:0] is transitioned synchronously with respect to
RXCLK from AX88172A to the externally connected Ethernet MAC
device with MII. Note that RXD [3:2] are also used as Chip Operation
Mode selection pins. Please refer to section 2.3 Settings. These pins are
tri-stated in isolate mode.
MDC I5/PD 44 Station Management clock input from the externally connected Ethernet
MAC device. All data transferred on MDIO are synchronized to the rising
edge of this clock.
MDIO B5/PU 43 Station Management Data. Serial data input/output transferred from/to the
externally connected MAC device. The transfer protocol should conform
to the IEEE 802.3u MII spec.
External Media Interface: PHY Mode with Reverse-RMII Interface
REFCLK_I I5 17 50Mhz +/-50ppm Reference clock input for RMII receive, transmit and
control signals. If externally connected Ethernet MAC device with RMII
can’t provide 50Mhz Reference clock to AX88172A, then user can
connect this pin to REFCLK_O and use REFCLK_O to supply clock to
the externally connected Ethernet MAC device at the same time.
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TXEN I5/PD 18 Transmit Enable from the externally connected Ethernet MAC device with
RMII.
TXD [1:0] I5/PD 22, 23 Transmit Data from the externally connected Ethernet MAC device with
RMII.
NC I5/PD 19, 20 NC
NC O3/PD 31, 32 NC
RXER O3/PD/T 34 Receive Error. RXER is always driven low by AX88172A in
Reverse-RMII mode. This pin is tri-stated in isolate mode.
MIS_1 I5/PD 59 External Media Interface Select 1. This is used as Chip Operation Mode
selection pin; please refer to section 2.3 Settings.
MIS_0 I5/PD 60 External Media Interface Select 0. This is used as Chip Operation Mode
selection pin; please refer to section 2.3 Settings.
REFCLK_O O3 63 50Mhz Reference clock output. If the externally connected Ethernet MAC
device can’t supply 50Mhz reference clock, this clock can be used to
supply to the REF_CLK of externally connected Ethernet MAC device
with RMII and the REFCLK_I of this chip.
CRSDV O3/T 64 Carrier Sense and Receive Data Valid to the externally connected Ethernet
MAC device with RMII. This pin is tri-stated in isolate mode.
RXD [1:0] O3/T 61, 62 Receive Data to the externally connected Ethernet MAC device with
RMII. These pins are tri-stated in isolate mode.
MDC I5/PD 44 Station Management clock input from the externally connected Ethernet
MAC device. All data transferred on MDIO are synchronized to the rising
edge of this clock.
MDIO B5/PU 43 Station Management Data. Serial data input/output transferred from/to the
externally connected MAC device. The transfer protocol should conform
to the IEEE 802.3u MII spec.
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2.3 Hardware Setting For Operation Mode And Multi-Function Pins
Please contact ASIX for receiving “AX88x72A Full Datasheet” which contains detailed description of section 2.3 and
section 3, 4, 5, 6, 7, 8.
3.0 Function Description
3.1 USB Core and Interface
3.2 10/100M Ethernet PHY
3.3 MAC Core
3.4 Operation Mode
3.5 Station Management (STA)
3.6 Memory Arbiter
3.7 USB to Ethernet Bridge
3.8 Serial EEPROM Loader
3.9 General Purpose I/O
3.10 Serial Interface Controller
3.11 Clock Generation
3.12 Reset Generation
3.13 Voltage Regulator
4.0 Serial EEPROM Memory Map
4.1 Detailed Description
5.0 USB Configuration Structure
5.1 USB Configuration
5.2 USB Interface
5.3 USB Endpoints
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6.0 USB Commands
6.1 USB Standard Commands
6.2 USB Vendor Commands
6.2.1 Detailed Register Description
6.2.2 Command Block Wrapper for Serial Interface
6.2.2.1 UART controller
6.2.2.2 I2C controller
6.2.2.3 SPI controller
6.3 Interrupt Endpoint
7.0 Embedded Ethernet PHY Register Description
7.1 PHY Register Detailed Description
7.1.1 Basic Mode Control Register (BMCR)
7.1.2 Basic Mode Status Register (BMSR)
7.1.3 PHY Identifier Register 1
7.1.4 PHY Identifier Register 2
7.1.5 Auto Negotiation Advertisement Register (ANAR)
7.1.6 Auto Negotiation Link Partner Ability Register (ANLPAR)
7.1.7 Auto Negotiation Expansion Register (ANER)
8.0 Station Management Registers in PHY/Dual-PHY Mode
8.1 PHY/Dual-PHY Mode Detailed Register Description
8.1.1 PHY Mode Basic Mode Control Register (PM_BMCR)
8.1.2 PHY Mode Basic Mode Status Register (PM_BMSR)
8.1.3 PHY Mode PHY Identifier Register 1
8.1.4 PHY Mode PHY Identifier Register 2
8.1.5 PHY Mode Auto Negotiation Advertisement Register (PM_ANAR)
8.1.6 PHY Mode Auto Negotiation Link Partner Ability Register (PM_ANLPAR)
8.1.7 PHY Mode Auto Negotiation Expansion Register (PM_ANER)
8.1.8 PHY Mode Control Register (PM_Control)
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9.0 Electrical Specifications
9.1 DC Characteristics
9.1.1 Absolute Maximum Ratings
Symbol Parameter Rating Unit
VCCK Digital core power supply - 0.3 to 2.16 V
VCC18A Analog Power. 1.8V - 0.3 to 2.16 V
VCC3IO Power supply of 3.3V I/O - 0.3 to 4 V
VCC3R3 Power supply of on-chip voltage regulator - 0.3 to 4 V
VCC3A3 Analog Power 3.3V for Ethernet PHY bandgap - 0.3 to 3.8 V
VCC33A_PLL Analog Power 3.3V for USB PLL. - 0.3 to 4 V
VCC33A_H Analog Power 3.3V for USB TX and RX - 0.3 to 4 V
VIN18 Input voltage of 1.8V I/O - 0.3 to 2.16 V
Input voltage of 3.3V I/O - 0.3 to 4.0 V VIN3
Input voltage of 3.3V I/O with 5V tolerant - 0.3 to 5.8 V
TSTG Storage temperature - 40 to 150 ℃
IIN DC input current 20 mA
IOUT Output short circuit current 20 mA
Note: Permanent device damage may occur if absolute maximum ratings are exceeded. Functional operation should be
restricted to the optional sections of this datasheet. Exposure to absolute maximum rating condition for extended periods
may affect device reliability.
9.1.2 Recommended Operating Condition
Symbol Parameter Min Typ Max Unit
VCCK Digital core power supply 1.62 1.8 1.98 V
VCC18A Analog core power supply 1.62 1.8 1.98 V
VCC3R3 Power supply of on-chip voltage regulator 2.97 3.3 3.63 V
VCC3IO Power supply of 3.3V I/O 2.97 3.3 3.63 V
VCC33A_H Analog Power 3.3V for USB TX and RX 2.97 3.3 3.63 V
VCC33A_PLL Analog Power 3.3V for USB PLL. 2.97 3.3 3.63 V
VCC3A3 Analog power supply for bandgap 2.97 3.3 3.63 V
VIN18 Input voltage of 1.8 V I/O 0 1.8 1.98 V
Input voltage of 3.3 V I/O 0 3.3 3.63 V VIN3
Input voltage of 3.3 V I/O with 5V tolerance 0 3.3 5.25 V
Tj Commercial junction operating temperature 0 25 125 ℃
Ta Commercial operating temperature 0 - 70 ℃
Thermal Characteristics
Symbol Parameter
Rating Unit
LQFP 64(AX88772A) 13.1 °C/W
ΘJC Thermal resistance of junction
to case TQFP 80(AX88172A) 27.5 °C/W
Still air,LQFP 64(AX88772A) 45.1 °C/W
ΘJA Thermal resistance of junction
to ambient Still air,TQFP 80(AX88172A) 55.2 °C/W
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9.1.3 Leakage Current and Capacitance
Symbol Parameter Conditions Min Typ Max Unit
IIN Input current No pull-up or pull-down -10 ±1 10 μA
IOZ Tri-state leakage current -10 ±1 10 μA
CIN Input capacitance - 2.2 - pF
COUT Output capacitance - 2.2 - pF
CBID Bi-directional buffer capacitance - 2.2 - pF
Note: The capacitance listed above does not include pad capacitance and package capacitance. One can estimate pin
capacitance by adding a pad capacitance of about 0.5pF to the package capacitance.
9.1.4 DC Characteristics of 3.3V I/O Pins
Symbol Parameter Conditions Min Typ Max Unit
VCC3IO Power supply of 3.3V I/O 3.3V I/O 2.97 3.3 3.63 V
Tj Junction temperature 0 25 125
℃
Vil Input low voltage - - 0.8 V
Vih Input high voltage 2.0 - - V
Vt Switching threshold
LVTTL
1.5 V
Vt- Schmitt trigger negative going
threshold voltage
0.8 1.1 - V
Vt+ Schmitt trigger positive going
threshold voltage
LVTTL
- 1.6 2.0 V
Vol Output low voltage Iol = 8mA - - 0.4 V
Voh Output high voltage Ioh = -8mA 2.4 - - V
Rpu Input pull-up resistance Vin = 0 40 75 190 KΩ
Rpd Input pull-down resistance Vin = VCC3IO 40 75 190 KΩ
Input leakage current Vin = VCC3IO or 0 -10 ±110 μA
Input leakage current with pull-up
resistance
Vin = 0 -15 -45 -85 μA
Iin
Input leakage current with
pull-down resistance
Vin = VCC3IO 15 45 85 μA
IOZ Tri-state output leakage current -10 ±110 μA
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9.1.5 DC Characteristics of 3.3V with 5V Tolerance I/O Pins
Symbol Parameter Conditions Min Typ Max Unit
VCC3IO Power supply of 3.3V I/O 3.3V I/O 2.97 3.3 3.63 V
Tj Junction temperature 0 25 125
℃
Vil Input low voltage - - 0.8 V
Vih Input high voltage 2.0 - - V
Vt Switching threshold
LVTTL
1.5 V
Vt- Schmitt trigger negative going
threshold voltage
0.8 1.1 - V
Vt+ Schmitt trigger positive going
threshold voltage
LVTTL
- 1.6 2.0 V
Vol Output low voltage Iol = 8mA - - 0.4 V
Voh Output high voltage Ioh = -8mA 2.4 - - V
Rpu Input pull-up resistance Vin = 0 40 75 190 KΩ
Rpd Input pull-down resistance Vin = VCC3IO 40 75 190 KΩ
Input leakage current Vin = 5.5V or 0 ±5 μA
Input leakage current with pull-up
resistance
Vin = 0 -15 -45 -85 μA
Iin
Input leakage current with
pull-down resistance
Vin = VCC3IO 15 45 85 μA
IOZ Tri-state output leakage current Vin = 5.5V or 0 ±10 μA
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9.1.6 DC Characteristics of Voltage Regulator
Symbol Description Conditions Min Typ Max Unit
VCC3R3 Power supply of on-chip
voltage regulator.
3.0 3.3 3.6 V
Tj Operating junction
temperature.
0 25 125 ℃
Normal operation - - 240 mAIload Driving current.
Standby mode enabled - - 30 mA
V18F Output voltage of on-chip
voltage regulator.
VCC3R3 = 3.3V 1.71 1.8 1.89 V
Vdrop Dropout voltage. △V18F = -1%, Iload = 10mA - 0.1 0.2 V
△V18F
(△VCC3R3 x V18F)
Line regulation. VCC3R3 = 3.3V, Iload = 50mA - 0.2 0.4 %/V
△V18F
(△Iload x V18F)
Load regulation. VCC3R3 = 3.3V, 1mA ≦ Iload
≦ 240mA
- 0.02 0.05 %/mA
△V18F
△Tj
Temperature coefficient. VCC3R3 = 3.3V,-40℃ ≦ Tj ≦
125℃
- +/-0.2 +/-0.5 mV/
℃
VCC3R3 = 3.3V - 70 100 μA
Iq_25℃ Quiescent current at 25 ℃.
VCC3R3 = 3.3V - 100 125 μA
VCC3R3 = 3.3V - 85 115 μA
Iq_125℃ Quiescent current at 125
℃. VCC3R3 = 3.3V - 125 170 μA
Cout Output external capacitor. 0.1 1 - μF
ESR Allowable effective series
resistance of external
capacitor.
- 0.5 1
Ω
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9.2 Power Consumption
Symbol Description Conditions Min Typ Max Unit
IVCCK Current Consumption of VCCK 47.5 mA
IVCC18A Current Consumption of VCC18A 39.3 mA
IVCC3IO Current Consumption of VCC3IO 16.6 mA
IVCC33A Current Consumption of VCC33A_H +
VCC33A_PLL + VCC3A3
Operating at Ethernet
100Mbps full duplex
mode and USB High
speed mode 35.4 mA
IVCCK Current Consumption of VCCK 44.3 mA
IVCC18A Current Consumption of VCC18A 39.3 mA
IVCC3IO Current Consumption of VCC3IO 12.9 mA
IVCC33A Current Consumption of VCC33A_H +
VCC33A_PLL + VCC3A3
Operating at Ethernet
100Mbps full duplex
mode and USB Full
speed mode 28.7 mA
IVCCK Current Consumption of VCCK 19.3 mA
IVCC18A Current Consumption of VCC18A 6.3 mA
IVCC3IO Current Consumption of VCC3IO 8.3 mA
IVCC33A Current Consumption of VCC33A_H +
VCC33A_PLL + VCC3A3
Operating at Ethernet
10Mbps full duplex
mode and USB High
speed mode 38.8 mA
IVCCK Current Consumption of VCCK 14.9 mA
VCC18A Current Consumption of VCC18A 6.2 mA
IVCC3IO Current Consumption of VCC3IO 4.9 mA
IVCC33A Current Consumption of VCC33A_H +
VCC33A_PLL + VCC3A3
Operating at Ethernet
10Mbps full duplex
mode and USB Full
speed mode 32.3 mA
IVCCK Current Consumption of VCCK 2.0 μA
IVCC18A Current Consumption of VCC18A 49.3 μA
IVCC3IO Current Consumption of VCC3IO 0.7 mA
IVCC33A Current Consumption of VCC33A_H +
VCC33A_PLL + VCC3A3
Suspend
(the embedded Ethernet
PHY is powered down)
0.2 mA
IVCCK Current Consumption of VCCK 19 mA
IVCC18A Current Consumption of VCC18A 3.4 mA
IVCC3IO Current Consumption of VCC3IO 8.5 mA
IVCC33A Current Consumption of VCC33A_H +
VCC33A_PLL + VCC3A3
AX88172A in USB
Full speed, Rev-MII
operation and internal
PHY power save
(BMCR[11] bit = 1) 30.9 mA
IVCCK Current Consumption of VCCK 22 mA
IVCC18A Current Consumption of VCC18A 3.4 mA
IVCC3IO Current Consumption of VCC3IO 11.5 mA
IVCC33A Current Consumption of VCC33A_H +
VCC33A_PLL + VCC3A3
AX88172A in USB
High speed, Rev-MII
operation and internal
PHY power save
(BMCR[11] bit = 1)
36.9 mA
1.8V 100 mAIDEVICE Power consumption of
AX88772A/AX88172A chip only 3.3V
(Excluding VCC3R3)
70 mA
ISYSTEM Power consumption of AX88x72A demo
board
Total of 3.3V
(Including VCC3R3
regulator supplies 1.8V to
VCCK and VCC18A)
220 mA
Table 3 : Power consumption
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9.3 Power-up Sequence
At power-up, the AX88772A/AX88172A requires the VCC3R3/VCC3IO/VCC3A3/VCC33A_H/ VCC33A_PLL power
supply to rise to nominal operating voltage within Trise3 and the V18F/VCCK/VCC18A power supply to rise to nominal
operating voltage within Trise2.
Symbol Parameter Condition Min Typ Max Unit
Trise3 3.3V power supply rise time From 0V to 3.3V 1 - 10 ms
Trise2 1.8V power supply rise time From 0V to 1.8V - - 10 ms
Tdelay32 3.3V rise to 1.8V rise time delay -5 - 5 ms
0V
3.3V
Trise3
0V
1.8V
Trise2
Tdelay32
V18F/VCCK/VCC18A
VCC3R3/VCC3IO/VCC3A3
/VCC33A_H/ VCC33A_PLL
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9.4 AC Timing Characteristics
Notice that the following AC timing specifications for output pins are based on CL (Output
load)=50pF.
9.4.1 Clock Timing
XTL12P
TP_XTL12P
TH_XTL12P TL_XTL12P
Symbol Parameter Condition Min Typ Max Unit
TP_XTL12P XTL12P clock cycle time - 83.33 - ns
TH_XTL12P XTL12P clock high time - 41.6 - ns
TL_XTL12P XTL12P clock low time - 41.6 - ns
XTL25P
TP_XTL25P
TH_XTL25P TL_XTL25P
Symbol Parameter Condition Min Typ Max Unit
TP_XTL25P XTL25P clock cycle time - 40.0 - ns
TH_XTL25P XTL25P clock high time - 20.0 - ns
TL_XTL25P XTL25P clock low time - 20.0 - ns
9.4.2 Reset Timing
XTL12P
RESET_N
Symbol Description Min Typ Max Unit
Trst Reset pulse width after XTL12P is running 60 - 120000 XTL12P clock cycle*
*: If the system applications require using hardware reset pin, RESET_N, to reset AX88772A/AX88172A during device
initialization or normal operation after VBUS pin is asserted, the above timing spec (Min=5μs, Max=10ms) of
RESET_N should be met.
VIH
VIL
VIH
VIL
Trs
t
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9.4.3 Serial EEPROM Timing
Th
Ts
TlcsTlcs
ThcsTscs
TodTdv
TclkTcl TclkTclTchTch
EECK
EEDIO (as OUT PUT )
EECS
EEDIO (as INPUT )
Symbol Description Min Typ Max Unit
Tclk EECK clock cycle time - 5120 - ns
Tch EECK clock high time - 2560 - ns
Tcl EECK clock low time - 2560 - ns
Tdv EEDIO output valid to EECK rising edge time 2560 - - ns
Tod EECK rising edge to EEDIO output delay time 2562 - - ns
Tscs EECS output valid to EECK rising edge time 2560 - - ns
Thcs EECK falling edge to EECS invalid time 7680 - - ns
Tlcs Minimum EECS low time 23039 - - ns
Ts EEDIO input setup time 20 - - ns
Th EEDIO input hold time 0 - - ns
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9.4.4 MII Timing
TthTts
TtclkTtcl TtclkTtclTtchTtch
TXCLK
TXEN / TXD[ 3:0]
Symbol Description Min Typ Max Unit
Ttclk TXCLK clock cycle time *1 - 40.0 - ns
Ttch TXCLK clock high time *2 - 20.0 - ns
Ttcl TXCLK clock low time *2 - 20.0 - ns
Tts TXD [3:0], TXEN setup to rising TXCLK 23.0 - - ns
Tth TXD [3:0], TXEN hold (delay time) from rising TXCLK 7.0 - - ns
TrhTrs
TrclkTrcl TrclkTrclTrchTrch
RXCLK
RXDV / RXD[3:0]
Symbol Description Min Typ Max Unit
Trclk RXCLK clock cycle time *1 - 40.0 - ns
Trch RXCLK clock high time *2 - 20.0 - ns
Trcl RXCLK clock low time *2 - 20.0 - ns
Trs RXD [3:0], RXDV setup to rising RXCLK 5.0 - - ns
Trh RXD [3:0], RXDV hold from rising TXCLK 3.5 - - ns
*1: For 10Mbps, the typical value of Ttclk and Trclk shall scale to 400ns.
*2: For 10Mbps, the typical value of Ttch, Ttcl, Trch, and Trcl shall scale to 200ns.
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9.4.5 Station Management Timing
ThTs
Tod
TclkTcl TclkTclTchTch
MDC
MDIO (a s OUTPUT)
MDIO(as INPUT)
MAC mode with MII: MDC=Output
Symbol Description Min Typ Max Unit
Tclk MDC clock cycle time - 640 - ns
Tch MDC clock high time - 320 - ns
Tcl MDC clock low time - 320 - ns
Tod MDC clock rising edge to MDIO output delay 0.5 - - Tclk
Ts MDIO data input setup time 125 - - ns
Th MDIO data input hold time 0 - - ns
PHY/Dual-PHY mode with Reverse-MII, PHY mode with Reverse-RMII: MDC=Input
Symbol Description Min Typ Max Unit
Tclk MDC clock cycle time - 320 - ns
Tch MDC clock high time - 160 - ns
Tcl MDC clock low time - 160 - ns
Tod MDC clock rising edge to MDIO output delay 0 - 300 ns
Ts MDIO data input setup time 10 - - ns
Th MDIO data input hold time 10 - - ns
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9.4.6 Reverse-MII Timing
TrhTrs
TclkTcl TclkTclTchTch
RXCLK
RXD[3:0]
RXDV
Symbol Description Min Typ Max Unit
Tclk Clock cycle time - 40.0 - ns
Tch Clock high time - 20.0 - ns
Tcl Clock low time - 20.0 - ns
Trs RXD [3:0], RXDV setup to rising RXCLK 10.0 - - ns
Trh RXD [3:0], RXDV hold (delay time) from rising RXCLK 10.0 - - ns
TthTts
TclkTcl TclkTclTchTch
TXCLK
TXD[3:0]
TXEN
Symbol Description Min Typ Max Unit
Tts TXD [3:0], TXEN setup to rising TXCLK 11.0 - - ns
Tth TXD [3:0], TXEN hold from rising TXCLK 2.0 - - ns
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9.4.7 Reverse-RMII Timing
Tref_rhTref_rs
Tref_clk
Tref_cl Tref_clk
Tref_cl
Tref_chTref_ch
REFCLK_I
RXD[1:0]
CRSDV
Symbol Description Min Typ Max Unit
Tref_clk Clock cycle time - 20.0 - ns
Tref_ch Clock high time - 10.0 - ns
Tref_cl Clock low time - 10.0 - ns
Tref_rs RXD [1:0], CRSDV setup to rising REFCLK_I 4.0 - - ns
Tref_rh RXD [1:0], CRSDV hold (delay time) from rising
REFCLK_I
2.0 - - ns
Tref_thTref_ts
Tref_clk
Tref_cl Tref_clk
Tref_cl
Tref_chTref_ch
REFCLK_I
TXD[1:0]
TXEN
Symbol Description Min Typ Max Unit
Tref_ts TXD [1:0], TXEN setup to rising REFCLK_I 4.0 - - ns
Tref_th TXD [1:0], TXEN hold from rising REFCLK_I 2.0 - - ns
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9.4.8 I2C Interface Timing
I2C Master Controller Timing table:
Symbol Parameter Standard
mode (Typ) Fast mode
(Typ) Unit
Fclk I2C_SCL clock frequency. 100 400 KHz
Thigh High period of the I2C_SCL clock. 4.0 1.0 µs
Tlow Low period of the I2C_SCL clock. 6.0 1.5 µs
Tsu_sta Setup time for a repeated START (Sr) condition. 4.0 1.0 µs
Thd_sta Hold time of (repeated) START (S) condition. After
this period, the first clock pulse is generated
4.0 1.0 µs
Tsu_dat Data Setup time. 2.0 0.5 µs
Thd_dat Data Hold time. 4.0 1.0 µs
Tsu_sto Data Setup time for STOP (P) condition. 4.0 1.0 µs
Tbuf Bus free time between a STOP and START
condition.
Note 1
Note 1: It will be much greater than 22us because several factors can influence this parameter such as USB system
utilization, the CBW structure, and High/Full speed, etc.
I2C Slave Controller Timing Table:
Symbol Parameter Min Typ Max Unit
Fclk I2C_SCL clock frequency. - - 390 KHz
High period of the I2C_SCL clock in Fast mode. 0.6 - - µs Thigh
High period of the I2C_SCL clock in Standard mode. 4.0 - - µs
Tlow Low period of the I2C_SCL clock. 0.4 - - µs
Tsu_sta Setup time for a repeated START (Sr) condition. 1 - - Tsys_clk
(Note 2)
Thd_sta Hold time of (repeated) START (S) condition. After
this period, the first clock pulse is generated
3 - - Tsys_clk
Tsu_dat Data Setup time. 3 - - Tsys_clk
Thd_dat Data Hold time. 0.4 - - µs
Tsu_sto Data Setup time for STOP (P) condition. 1 - - Tsys_clk
Tbuf Bus free time between a STOP and START condition. - - -
Note 2: Tsys_clk =33.33ns for 30MHz operating system clock.
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9.4.9 SPI Interface Timing
Note: Above diagram only shows setup and hold time relationship of SPI pins in Mode 0. For the remaining 3 modes,
clock polarity is reversed.
SPI Master Controller Timing Table:
Symbol Description Min Typ Max Unit
Fclk SPI_SCLK clock frequency. - Fsys_clk/
(SPIBRR+1)*2
5 MHz
(Note 3)
Tl Setup time of SPI_SS to the first SPI_SCLK edge. - 0.5 - Tclk
(Note 3)
Th Hold time of SPI_SS after the last SPI_SCLK edge. - 0.5 - Tclk
Tdly SPI_MOSI data valid time after SPI_SCLK edge. - - 1 Tsys_clk
(Note 4)
Dsu SPI_MISO data setup time before SPI_SCLK edge. 2 - - Tsys_clk
Dhd SPI_MISO data hold time after SPI_SCLK edge. 4 - - Tsys_clk
tl Minimum idle time between transfers (minimum
SPI_SS high time).
Note 5
Internal time base period. - 0.5 - Tclk
Note 3: Fsys_clk is the operating system clock frequency 30Mhz. The SPIBRR is SPI Baud Rate Register.
Tclk = 1/Fclk.
Note 4: Tsys_clk =1/ Fsys_clk =33.33 ns.
Note 5: It will be much greater than 22us because several factors can influence this parameter, such as USB system
utilization, the CBW structure, and High/Full speed ,etc.
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SPI Slave Controller Timing Table:
Symbol Description Min Typ Max Unit
Fclk SPI_SCLK clock frequency. - - 2 MHz
Tdly SPI_MISO data valid time after SPI_SCLK edge. - - 3 Tsys_clk
Dsu SPI_MOSI data setup time before SPI_SCLK edge. 1 - - Tsys_clk
Dhd SPI_MOSI data hold time after SPI_SCLK edge. 3 - - Tsys_clk
SSsu SPI_SS setup time before SPI_SCLK edge. 2 - - Tsys_clk
SShd SPI_SS hold time after SPI_SCLK edge. 4 - - Tsys_clk
SSidle SPI_SS negation to next SPI_SS active time 2 - - Tsys_clk
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9.4.10 10/100M Ethernet PHY Interface Timing
10/100M Ethernet PHY Transmitter Waveform and Spec:
Symbol Description Condition Min Typ Max Units
Peak-to-peak differential output voltage 10BASE-T mode 4.4 5 5.6 V
Vtxa *2 Peak-to-peak differential output voltage 100BASE-TX mode 1.9 2 2.1 V
Tr / Tf Signal rise / fall time 100BASE-TX mode 3 4 5 ns
Output jitter 100BASE-TX mode, scrambled idle
signal
- - 1.4 ns
Vtxov Overshoot 100BASE-TX mode - - 5 %
10/100M Ethernet PHY Receiver Spec:
Symbol Description Condition Min Typ Max Units
Receiver input impedance 10 - - KΩ
Differential squelch voltage 10BASE-T mode 300 400 500 mV
Common mode input voltage 2.97 3.3 3.63 V
Maximum error-free cable length 100 - - meter
Tr: from 10% to 90%
+Vtxov
0V
+Vtxa
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9.4.11 USB Transceiver Interface Timing
VCC33A_H/ VCC33A_PLL= 3.0 ~ 3.6 V.
Static Characteristic for Analog I/O Pins (DP/DM):
Symbol Parameter Conditions Min Typ Max Unit
USB 2.0 Transceiver (HS)
Input Levels (Differential Receiver)
VHSDIFF High speed differential input
sensitivity |VI (DP) –VI (DM)|
Measured at the connection as
an application circuit.
300 - - mV
VHSCM High speed data signaling
common mode voltage range
-50 - 500 mV
Squelch detected - - 100 mV
VHSSQ High speed squelch detection
threshold No squelch detected 200 - - mV
Output levels (differential)
VHSOI High speed idle level output
voltage
-10 - 10 mV
VHSOL High speed low level output
voltage
-10 - 10 mV
VHSOH High speed high level output
voltage
-360 - 400 mV
VCHIRPJ Chirp-J output voltage 700 - 1100 mV
VCHIRPK Chirp-K output voltage -900 - -500 mV
Resistance
RDRV Driver output impedance Equivalent resistance used as
internal chip
40.5 45 49.5 Ohm
Termination
VTERM Termination voltage for pull-up
resistor on pin RPU
3.0 - 3.6 V
USB 1.1 Transceiver (FS/LS)
Input Levels (Differential Receiver)
VDI Differential input sensitivity |VI (DP) –VI (DM)| 0.2 - - V
VCM Differential common mode
voltage
0.8 - 2.5 V
Input Levels (Single-Ended Receiver)
VSE Single ended receiver threshold 0.8 - 2.0 V
Output levels
VOL Low-level output voltage 0 - 0.3 V
VOH High-level output voltage 2.8 - 3.6 V
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Dynamic Characteristic for Analog I/O Pins (DP/DM):
Symbol Parameter Conditions Min Typ Max Unit
Driver Characteristic
High-Speed Mode
tHSR High-speed differential rise time - 500 - - ps
tHSF High-speed differential fall time - 500 - - ps
Full-Speed Mode
tFR Rise time of DP/DM CL=50pF; 10 to 90% of
|VOH - VOL|
4 - 20 ns
tFF Fall time of DP/DM CL=50pF; 90 to 10% of
|VOH - VOL|
4 - 20 ns
tFRMA Differential rise/fall time
matching (tFR / tFF)
Excluding the first transition
from idle mode
90 - 110 %
VCRS Output signal crossover voltage Excluding the first transition
from idle mode
1.3 - 2.0 V
Driver Timing
High-Speed Mode
Driver waveform requirement See eye pattern of template 1 Follow template 1 described in USB
rev 2.0 spec.
(http://www.usb.org/developers/docs
)
Full-Speed Mode
VI, FSE 0, OE to DP, DN
Propagation delay
For detailed description of VI,
FSE 0 and OE, please refer to
USB rev 1.1specification.
- - 15 ns
Receiver Timing
High-Speed Mode
Data source jitter and receiver
jitter tolerance
See eye pattern of template 4 Follow template 4 described in USB
rev 2.0 spec.
(http://www.usb.org/developers/docs
)
Full-Speed Mode
tPLH(rcv)
tPHL (rcv)
Receiver propagation delay
(DP; DM to RCV)
For detailed description of
RCV, please refer to USB rev
1.1specification.
- - 15
(Note)
ns
tPLH(single)
tPHL(single)
Receiver propagation delay
(DP; DM to VOP, VON)
- - - 15
(Note)
ns
Note: Full-Speed Timing diagram
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10.0 Package Information
10.1 AX88772A 64-pin LQFP package
be
D
Hd
E
He
pin 1
A2 A1
LL1
θ
A
Millimeter Symbol
Min Typ Max
A1 0.05 - 0.15
A2 1.35 1.40 1.45
A - - 1.60
b 0.13 0.18 0.23
D 7.00
E 7.00
e - 0.40 -
Hd 9.00
He 9.00
L 0.45 0.60 0.75
L1 - 1.00 REF -
θ 0° 3.5° 7°
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10.2 AX88172A 80-pin TQFP package
be
D
Hd
E
He
pin 1
A2 A1
LL1
θ
A
Millimeter Symbol
Min Typ Max
A1 0.05 - 0.15
A2 0.95 1.00 1.05
A - - 1.20
b 0.13 0.16 0.23
D 10.00
E 10.00
e - 0.4 BSC -
Hd 12.00
He 12.00
L 0.45 0.60 0.75
L1 - 1.00 REF -
θ 0° 3.5° 7°
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11.0 Ordering Information
Part Number Description
AX88772ALF AX88772A: Product Name (64 pin).
L: LQFP Package.
F: Lead Free.
AX88172ATF AX88172A: Product Name (80 pin).
T: TQFP Package.
F: Lead Free.
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12.0 Revision History
Revision Date Comment
V0.7 2007/08/13 Initial Release.
V1.0 2007/11/21 1. Update the power consumption information and add IDEVICE and
ISYSTEM in Section 9.2.
2. Move the Thermal Characteristics information from Section 9.2 to
Section 9.1.2 and update the Thermal Characteristics information.
3. Update the Tj junction operating temperature information in
Section 9.1.2, 9.1.4, 9.1.5 and 9.1.6.
4. Update the Reset Timing information in Section 9.4.2.
V1.1 2007/12/24 1. Update some information in Section 9.1.6.
V1.2 2008/03/25 1. Added APPENDIX B “Ethernet PHY Power and Reset Control”.
V1.3 2008/04/01 1. Changed some descriptions from “PHY mode” to
“PHY/Dual-PHY mode” in Figure 10, Section 2.2 and 9.4.5.
V1.04 2008/06/09 1. Modify the “US Patent Approval” strings.
2. Correct some typo errors in Section 9.2.
3. Modify the XTL12P pin description in Section 2.1.
V1.05 2008/10/20 1. Modified some descriptions in Section 9.4.4, 9.4.6 and 9.4.7.
2. Updated the Trise3 timing information in Section 9.3.
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APPENDIX A. Default WOL Ready Mode
Please contact ASIX for receiving “AX88x72A Full Datasheet” which contains detailed description of Appendix A.
APPENDIX B. Ethernet PHY Power and Reset Control
Please contact ASIX for receiving “AX88x72A Full Datasheet” which contains detailed description of Appendix B.
