DE10-Standard
User Manual
47
www.terasic.com
January 19, 2017
Figure 3-31 Connections between the HPS and Gigabit Ethernet
Table 3-23 Pin Assignment of Gigabit Ethernet PHY
Signal Name
FPGA Pin No.
Description
I/O Standard
HPS_ENET_TX_EN
PIN_A20
GMII and MII transmit enable
3.3V
HPS_ENET_TX_DATA[0]
PIN_F20
MII transmit data[0]
3.3V
HPS_ENET_TX_DATA[1]
PIN_J19
MII transmit data[1]
3.3V
HPS_ENET_TX_DATA[2]
PIN_F21
MII transmit data[2]
3.3V
HPS_ENET_TX_DATA[3]
PIN_F19
MII transmit data[3]
3.3V
HPS_ENET_RX_DV
PIN_K17
GMII and MII receive data valid
3.3V
HPS_ENET_RX_DATA[0]
PIN_A21
GMII and MII receive data[0]
3.3V
HPS_ENET_RX_DATA[1]
PIN_B20
GMII and MII receive data[1]
3.3V
HPS_ENET_RX_DATA[2]
PIN_B18
GMII and MII receive data[2]
3.3V
HPS_ENET_RX_DATA[3]
PIN_D21
GMII and MII receive data[3]
3.3V
HPS_ENET_RX_CLK
PIN_G20
GMII and MII receive clock
3.3V
HPS_ENET_RESET_N
PIN_E18
Hardware Reset Signal
3.3V
HPS_ENET_MDIO
PIN_E21
Management Data
3.3V
HPS_ENET_MDC
PIN_B21
Management Data Clock
Reference
3.3V
HPS_ENET_INT_N
PIN_C19
Interrupt Open Drain Output
3.3V
HPS_ENET_GTX_CLK
PIN_H19
GMII Transmit Clock
3.3V
There are two LEDs, green LED (LEDG) and yellow LED (LEDY), which represent the status of
Ethernet PHY (KSZ9021RNI). The LED control signals are connected to the LEDs on the RJ45
connector. The state and definition of LEDG and LEDY are listed in
Table 3-24
. For instance, the
connection from board to Gigabit Ethernet is established once the LEDG lights on.
Table 3-24 State and Definition of LED Mode Pins
LED (State)
LED (Definition)
Link /Activity
LEDG
LEDY
LEDG
LEDY
