Toradex Verdin, Руководство пользователя

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Verdin Carrier Board Design Guide
Preliminary
– Subject to Change
Toradex AG l Ebenaustrasse 10 l 6048 Horw l Switzerland l +41 41 500 48 00 l www.toradex.com l info@toradex.com
Page | 25
2.3.2.2 RGMII Reference Schematics
For best software compatibility, the Gigabit Ethernet Transceiver KSZ9131RNX from Microchip is a
preferred solution. This Ethernet PHY supports the 1.8V I/O voltage level of the RGMII interface.
For other Ethernet PHY solutions, check the availability of software drivers.
Figure 15: RGMI reference schematic
2.4
USB
The Verdin specifications contain two USB ports. One port is an OTG port which can be configured
as host or client. This port is usually used in the recovery mode for loading new software onto the
module. The second port supports host mode only. Both ports can support the low, full, and high-
speed modes of the USB 2.0 specifications.
Verdin Port
1.5Mbit/s
Low Speed
(1.1) 12 Mbit/s
Full Speed
(1.1) 480Mbit/s
High Speed
(2.0) 5Gbit/s
SuperSpeed
(3.x) 10Gbit/s
SuperSpeed
(3.x)
OTG
USB_1
    
USB_2
    
Table 7: Maximum possible supported features for the USB ports
ETH_2_MDIO
ETH_2_MDC
ETH_2_ RGMII_RXD0
ETH_2_ RGMII_RXD1
ETH_2_ RGMII_RXD2
ETH_2_ RGMII_RXD3
ETH_2_ RGMII_RXC
ETH_2_ RGMII_RX_CTL
ETH_2_ RGMII_TXD0
ETH_2_ RGMII_TXD1
ETH_2_ RGMII_TXD2
ETH_2_ RGMII_TXD3
ETH_2_ RGMII_TXC
ETH_2_ RGMII_TX_CTL
GND GND GND GND
GND
GND
GND
GND
GND
GND
[3:0]
MODE
KSZ9131 Mode KSZ9031 Mode
Reserved, not used Reserved, not used
0
0001
0010
0011
0100
0101
0110
0111
1000
1001
1010
1011
1100
1101
1110
1111
Reserved, not used Reserved, not used
Reserved, not used Reserved, not used
Reserved, not used Reserved, not used
NAND Tree Mode NAND Tree Mode
Reserved, not used Reserved, not used
Reserved, not used Reserved, not used
Chip Power Down Mode Chip Power Down Mode
PME_N1; all, except 1000 half-duplex Reserved, not used
Reserved, not used Reserved, not used
PME_N2; all, except 1000 half-duplex Reserved, not used
Reserved, not used Reserved, not used
1000 full duplex only 1000 full duplex only
Reserved, not used 1000 full and half-duplex only
ALL, EXCEPT 1000 HALF-DUPLEX ALL, EXCEPT 1000 HALF-DUPLEX
Reserved, not used ALL CAPABILITIES
MODE0
MODE1
MODE2
PHYAD2
CLK125_EN
MODE3
PHYAD0
PHYAD1
LED_MODE
PHY Address bits [4:3] are always set to '00'
Default address for internal PHY: 00111
LED_MODE Mode
Tri-color Dual LED Mode
1 Single LED Mode GND
0000
RGMII[0..13]
ETH_2_MDI0_P
ETH_2_MDI0_N
ETH_2_MDI1_P
ETH_2_MDI1_N
ETH_2_MDI2_N
ETH_2_MDI2_P
ETH_2_MDI3_N
ETH_2_MDI3_P
ETH_2_ACT
ETH_2_LINK
BAT54XV2T5G
D17
BAT54XV2T5G
D18
AVDDH
1
AVDDL
4
AVDDL
9
AVDDH
12
NC
13
NC
14
DVDDH
16
DVDDL
18
DVDDL
23
DVDDL
26
VSS
29
DVDDL
30
DVDDH
34
DVDDL
39
DVDDH
40
LDO_O
43
AVDDL_PLL
44
NC
47
VSS_TH
49
IC22A
KSZ9131RNXI
+V1.8_ETH
+V3.3_ETH +V1.2_ETH
+V1.2_ETH
+V1.2_ETH
+V1.8_ETH
TXRXP_A
2
TXRXM_A
3
TXRXP_B
5
TXRXM_B
6
TXRXP_C
7
TXRXM_C
8
TXRXP_D
10
TXRXM_D
11
LED2/PHYAD1
15
LED1/PME_N1/PHYAD0
17
TXD0
19
TXD1
20
TXD2
21
TXD3
22
TXC
24
TX_CTL
25
RXD3/MODE3
27
RXD2/MODE2
28
RXD1/MODE1
31
RXD0/MODE0
32
RX_CTL/CLK125_EN
33
RXC/PHYAD2
35
MDC
36
MDIO
37
INT_N/PME_N2/ALLPHYAD
38
CLK125_NDO/LED_MODE
41
RESET_N
42
XO
45
XI
46
ISET
48
IC22B
KSZ9131RNXI
GND
SHARED PADS
SHARED PADS
GND
Strapping
SHARED PADS
ETH_2_RGMII_MDIO
191
ETH_2_RGMII_MDC
193
ETH_2_RGMII_INT#
189
ETH_2_RGMII_RX_CTL
199
ETH_2_RGMII_RXD_0
201
ETH_2_RGMII_RXC
197
ETH_2_RGMII_RXD_1
203
ETH_2_RGMII_RXD_2
205
ETH_2_RGMII_RXD_3
207
ETH_2_RGMII_TX_CTL
211
ETH_2_RGMII_TXC
213
ETH_2_RGMII_TXD_3
215
ETH_2_RGMII_TXD_2
217
ETH_2_RGMII_TXD_1
219
ETH_2_RGMII_TXD_0
221
X1I
2309409-2
ETH_2_ RGMII_RXD0
ETH_2_ RGMII_RXD1
ETH_2_ RGMII_RXD2
ETH_2_ RGMII_RXD3
ETH_2_ RGMII_RXC
ETH_2_ RGMII_RX_CTL
ETH_2_ RGMII_TXD0
ETH_2_ RGMII_TXD1
ETH_2_ RGMII_TXD2
ETH_2_ RGMII_TXD3
ETH_2_ RGMII_TXC
ETH_2_ RGMII_TX_CTL
ETH_2_INT
100nF
16V
C136
100nF
16V
C137
100nF
16V
C138
100nF
16V
C148
100nF
16V
C149
100nF
16V
C150
100nF
16V
C134
100nF
16V
C135
100nF
16V
C142
100nF
16V
C143
100nF
16V
C144
100nF
16V
C145
100nF
16V
C146
100nF
16V
C147
100nF
16V
C154
3
5
4
NTZD3154NT1G
T22B
2
1
6
NTZD3154NT1G
T22A
GND
GND
GND
3
5
4
NTZD3154NT1G
T21B
2
1
6
NTZD3154NT1G
T21A
GND
GND
+V1.8_ETH
+V1.8_ETH
12pF
50V
C131
12pF
50V
C130
4
2
OSC2B
QC5A25.0000F10B22R
1 3
OSC2A
QC5A25.0000F10B22R
+V1.8_ETH
+V1.8_ETH
ETH_2[0..9]
R208 10R
R211
6.04K
SHARED PADS
+V1.8_ETH
GND
M
D
C
_
M
D
IO
[0
..
2
]
ETH_2_MDC
ETH_2_MDIO
ETH_2_INT
CTRL_RESET_MOCI#
10uF
6.3V
C141
10uF
6.3V
C133
10uF
6.3V
C139
10uF
6.3V
C151
10uF
6.3V
C127
120R@100MHz
600mA
L16
120R@100MHz
600mA
L18
120R@100MHz
600mA
L20
120R@100MHz
600mA
L17
120R@100MHz
600mA
L19
R199
10K
R204
10K
R209
10K
R200
100K
R210
100K
R188 10K
R189 10K
R190 10K
R191 10K
R192 10K
R193 10K
R194 10K
R195 10K
R196 10K
R197
10K
R201 10K
R202 10K
R198
1K
R203
1K
R212
1K
10uF
6.3V
C153
ETH_2_ RGMII_RXD0
ETH_2_ RGMII_RXD1
ETH_2_ RGMII_RXD2
ETH_2_ RGMII_RXD3
ETH_2_ RGMII_RXC
ETH_2_ RGMII_RX_CTL
i
Power
i
Power
i
Power
i
Power
i
Power
+V1.8_ETH
+V1.8_ETH
ETH_2_RESET#
CTRL_RECOVERY_MICO#
246
CTRL_PWR_BTN_MICO#
248
CTRL_FORCE_OFF_MOCI#
250
CTRL_WAKE1_MICO#
252
CTRL_PWR_EN_MOCI
254
CTRL_SLEEP_MOCI#
256
CTRL_RESET_MOCI#
258
CTRL_RESET_MICO#
260
X1W
2309409-2