Difference between revisions of "BoraXEVB"

Latest revision as of 10:02, 26 January 2022

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Info Box

Applies to BORA Xpress

Applies to BORA Lite

By default, BoraXEVB comes with a Zynq 7030-based SoM when it is sold with BoraX. When it is sold with Bora Lite, it is mated with a Zynq 7020-based SoM instead.

Nevertheless, BoarX can host different models of BoraX and Bora Lite SoM's. From the point of view of PL's I/O voltage levels, different models may not be equivalent. Please refer to this section to avoid unsupported configurations that may damage the hardware permanently.

1 Introduction
2 Block Diagram
- 2.1 Configurable routing options
  - 2.1.1 BoraX
  - 2.1.2 Bora Lite
3 Features
4 Known limitations
5 Connectors pinout
6 PL's I/O voltage selections
- 6.1 BoraXEVB voltage selection jumpers
7 SoM's signals mapping
- 7.1 Bora Lite
  - 7.1.1 BoraXEVB unavailable signals
8 Schematics
9 Mechanical

Introduction[edit | edit source]

BORA Xpress EVB is a carrier board designed to host BORA Xpress system-on-module.

The EVB is used also as Evaluation board for the BORA Lite SOM.

Block Diagram[edit | edit source]

The following picture shows BORA Xpress EVB block diagram:

BoraXEVB simplified block diagram

Configurable routing options[edit | edit source]

FPGA banks #12, #34 and #35 supports different routing options as shown in the following picture.

For a detailed description of FMC connector routing, please refer to this section.

BoraX[edit | edit source]

Configurable routing options diagram

Bora Lite[edit | edit source]

Configurable routing options diagram for BoraLite SoM

Features[edit | edit source]

10/100/1000 Ethernet #0 (PS)
10/100/1000 Ethernet #1 (Routed through EMIO)
1x USB 2.0 OTG (MicroAB connector)
1x Serial port (RS232 DB9)
1x MicroSD
1x FPGA Mezzanine Card (FMC) Connector
XADC
- Some signals of Bank 35 can be configured as XADC signals. For this reason they can be routed alternatively to 2.54mm-pitch connectors, instead of FMC connector.
State-of-the-art programmable MEMS clock generator (Silicon Labs Si504): this is an alternative clock source to allow the user to easily experiment his/her own peripherals and IPs on FPGA
JTAG port
Socket for DWM Wireless Module
Digilent Pmod™ Compatible expansion connectors
Headers for external for NAND flash and SPI NOR flash
2.54mm-pitch pin-strip connectors for Bora Xpress PS and PL configurable peripherals (MIO and EMIO interfaces, GPIOs, custom IPs, ..)
Jumpers for voltage selection of the PL banks
+12V power connector

Known limitations[edit | edit source]

Board version CS040713A has the following limitations:

Issue	Description
LCD_BKLT_PWM I/O voltage	LCD_BKLT_PWM signal is derived from IO_0_13 on BANK13. In the case of LVDS signals for LCD the BANK 13 must be powered at 2.5V. So in this case LCD_BKLT_PWM is an LVCMOS 2.5V signal. It is recommended to place a voltage level translator to 3.3V if the signal voltages are not compatible with the LCD diplay backlight input.
FMC connector	For the serial numbers included in the range EVBBX0000C0R00A0 - EVBBX0000C0R00AB, the connector that is actually mounted on the board is the LPC version, not the HPC version listed in the specifications.

Connectors pinout[edit | edit source]

J1,J2 and J3[edit | edit source]

The pinout of the J1, J2 and J3 connectors of the Bora Xpress EVB is the same of the counterpart connectors on BORA Xpress module.

Power supply - JP2[edit | edit source]

Power is provided through the JP2 connector.

JP2 connector is a standard 2.1mm/5.5mm DC power jack with positive center pin

Pin#	Pin name	Function	Notes
1	VIN	Power supply	Nominal: +12V
2 , 3	DGND	Ground	-

Reset button - S6[edit | edit source]

S6 is the hardware reset button connected to the MRSTn signal (J2.16 SOM connector)

Boot mode selection - S5[edit | edit source]

S5 is a dip-switch for the boot mode selection. The following table reports the available options and the related configurations:

	S5.1	S5.2	S5.3	S5.4	S5.5	S5.6	S5.7	S5.8
SPI-NOR	OFF	ON	OFF	ON	ON	ON	ON	OFF
SD-card	OFF	ON	OFF	ON	ON	OFF	ON	OFF
NAND (*)	OFF	ON	OFF	ON	ON	OFF	ON	ON
JTAG	OFF	ON	OFF	ON	ON	ON	ON	ON

(*) Boot mode from NAND in supported ONLY on BORA Lite SOM module

WatchDog Settings - S1, S2 and S3[edit | edit source]

S1, S2 and S3 are dip-switch to override the default startup delay and timeout of the BORA Xpress module watchdog. For more details please refer to this page.

	S1.1	S1.2
WD_SET0 SOM default	OFF	OFF
WD_SET0 = '1'	ON	OFF
WD_SET0 = '0'	OFF	ON

	S2.1	S2.2
WD_SET1 SOM default	OFF	OFF
WD_SET1 = '1'	ON	OFF
WD_SET1 = '0'	OFF	ON

	S3.1	S3.2
WD_SET2 SOM default	OFF	OFF
WD_SET2 = '1'	ON	OFF
WD_SET2 = '0'	OFF	ON

Ethernet port #0 (ETH0) - J8[edit | edit source]

J8 is a RJ45 Gigabit Ethernet connector - incorporating magnetics - connected to the Bora Xpress integrated ethernet controller and PHY.

Pin#	Pin name	Function	Notes
1	CT_TRD3	center tap TRD3	-
2	ETH_TXRX2_M	-	-
3	ETH_TXRX2_P	-	-
4	ETH_TXRX1_P	-	-
5	ETH_TXRX1_M	-	-
6	CT_TRD2	center tap TRD2	-
7	CT_TRD4	center tap TRD4	-
8	ETH_TXRX3_P	-	-
9	ETH_TXRX3_M	-	-
10	ETH_TXRX0_M	-	-
11	ETH_TXRX0_P	-	-
12	CT_TRD1	center tap TRD1	-
13	3.3V_ETH0_LED2	-	-
15	3.3V_ETH0_LED1	-	-
14, 16	+3.3V	-	-

Ethernet port #1 (ETH1) - J9[edit | edit source]

J9 is a RJ45 Gigabit Ethernet connector - incorporating magnetics - connected to Micrel KSZ9031 PHY (Gigabit Ethernet Transceiver). This, in turn, is connected to PL's bank 13 via RGMII interface. This is an example of EMIO routing showing how to route PS's MAC signals via PL subsystem.

Pin#	Pin name	Function	Notes
1	CT_TRD3	center tap TRD3	-
2	ETH1_TXRX2_M	-	-
3	ETH1_TXRX2_P	-	-
4	ETH1_TXRX1_P	-	-
5	ETH1_TXRX1_M	-	-
6	CT_TRD2	center tap TRD2	-
7	CT_TRD4	center tap TRD4	-
8	ETH1_TXRX3_P	-	-
9	ETH1_TXRX3_M	-	-
10	ETH1_TXRX0_M	-	-
11	ETH1_TXRX0_P	-	-
12	CT_TRD1	center tap TRD1	-
13	3.3V_ETH1_LED2	-	-
15	3.3V_ETH1_LED1	-	-
14, 16	+3.3V	-	-

BANK's Power GOOD signals - J28[edit | edit source]

J28 is a 10-pin 5x2x2.54 pitch vertical header used for accessing to the POWER GOOD signals. The following table reports the pinout of the connector:

Pin#	Pin name	Function	Notes
1 , 3	3.3V_SOM	-	-
2	SOM_PGOOD	-	-
4	1.8V_POWER_GOOD	-	-
5	3.3V_SBY	-	-
6	VADJ_PG	-	-
7	BANK13_PGOOD	-	-
8	BANK35_PGOOD	-	-
9	1V2_ETH1_PG	-	-
10	DGND	-	-

JTAG[edit | edit source]

JTAG port is available as two different mechanical connectors:

2.00mm-pitch 7x2 header (Xilinx standard)
2.54mm-pitch 10x2 header (ARM standard): http://www2.lauterbach.com/pdf/arm_app_jtag.pdf
This port is connected to Zynq's native JTAG signals. Please note that Zynq's internal JTAG chain supports differents configurations, depending on bootstrap signals. In case split mode is selected, CPU JTAG can be routed separately via PL. For more details please refer to Zynq Technical Reference Manual.
JTAG on BORA Xpress EVB is also connected to the FMC connector. For more details on how to connect JTAG on a custom FMC card please refer to ANSI/VITA FPGA Mezzanine Card (FMC) Standard.

JTAG XILINX - J13[edit | edit source]

J13 is a 14-pin 7x2x2 pitch vertical header. The following table reports the pinout of the connector:

Pin#	Pin name	Function	Notes
1, 3, 5, 7, 9, 11, 13	DGND	-	-
2	3.3V	-	-
4	JTAG_TMS	-	-
6	JTAG_TCK	-	-
8	JTAG_TDO	-	-
10	JTAG_TDI	-	-
12	N.C.	-	-
14	JTAG_TRSTn	-	-

JTAG ARM - J18[edit | edit source]

J18 is a 20-pin 10x2x2.54 pitch vertical header. The following table reports the pinout of the connector:

Pin#	Pin name	Function	Notes
1	3.3V	-	-
2	3.3V	-	-
3, 11, 17, 19	N.C.	-	-
4, 6 ,8 ,10 ,12, 14, 16, 18, 20	DGND	-	-
5	JTAG_TDI	-	-
7	JTAG_TMS	-	-
9	JTAG_TCK	-	-
13	JTAG_TDO	-	-
15	JTAG_TRSTn	-	-

UART1 - J17[edit | edit source]

J17 is a standard DB9 connector that routes the signals coming from the RS232 transceiver that is connected to the PS MIO signals of the UART1 port.

Pin#	Pin name	Function	Notes
1, 6, 4, 9	N.C.	N.C.
2	UART_EXT_RX	Receive line	Connected to protection diode array
3	UART_EXT_TX	Transmit line	Connected to protection diode array
5	DGND	Ground
7, 8	N.C.	N.C.	Connected to protection diode array

USB OTG - J19[edit | edit source]

J19 is a standard USB MICRO AB connector. It is connected to the BORA Xpress USB 2.0 OTG peripheral. The following table reports the pinout of the connector:

Pin#	Pin name	Function	Notes
1	USB_OTG_VBUS	-	-
2	USBM1	-	-
3	USBP1	-	-
4	OTG_ID	-	-
5	USB_OTG_DGND	-	-
6, 7, 8, 9	USB_OTG_SHIELD	-	-

MicroSD - J21[edit | edit source]

J21 is a microSD memory card connector. It is connected to the BORA Xpress SOM through a bidirectional 1.8V/3.3V voltage-level translator mounted on the BORA Xpress EVB. Level shifter is required because MIO signals are 1.8V. The following table reports the pinout of the connector:

Pin#	Pin name	Function	Notes
1	PS_SD0_DAT2	-	-
2	PS_SD0_DAT3	-	-
3	PS_SD0_CMD	-	-
4	3.3V	-	-
5	PS_SD0_CLK	-	-
6, 9, 10, 11, 12	DGND	-	-
7	PS_SD0_DAT0	-	-
8	PS_SD0_DAT1	-	-
3.3V	-		Pull up to 3.3V with 10K Ohm -

DWM (DAVE Wifi/BT module) socket - J23[edit | edit source]

J23 is a 52991-0308 connector type (30 pins, vertical, 0.50mm picth). This socket connects the DWM Wireless Module (optional) to the BORA Xpress EVB. The following table reports the pinout of the connector:

Pin#	Pin name	Function	Notes
1, 2	5V	-	-
3, 4	3.3V	-	-
5, 6, 9, 10, 19	DGND	-	-
7	DWM_SD_CMD	-	-
8	DWM_SD_CLK	-	-
11	DWM_SD_DAT0	-	-
12, 14, 16, 18, 20, 22	N.C.	-	-
13	DWM_SD_DAT1	-	-
15	DWM_SD_DAT2	-	-
17	DWM_SD_DAT3	-	-
21	DWM_UART_RX	-	-
23	DWM_UART_CTS	-	-
24	DWM_BT_F5	-	-
25	DWM_UART_TX	-	-
26	DWM_BT_F2	-	-
27	DWM_UART_RTS	-	-
28	DWM_WIFI_IRQ	-	-
29	DWM_BT_EN	-	-
30	DWM_WIFI_EN	-	-

CAN - J24[edit | edit source]

J24 is a 10-pin 5x2x2.54mm pitch vertical header directly connected to BORA Xpress SoM's transceiver for the CAN interface. This 2.5mm-pitch header is compatible with commonly available IDC-10/DB9 flat cables. The following table reports the pinout of the connector:

Pin#	Pin name	Function	Notes
1, 6, 7, 8, 9, 10	N.C.	-	-
2, 5	CAN_SHIELD	-	-
3	CAN_L	-	-
4	CAN_H	-	-

Touch screen - J25[edit | edit source]

J25 is a ZIF 4-pin 1.0mm pitch connector that connects the touchscreen drive lines to the touch screen controller on the BoORA Xpress EVB. The following table reports the pinout of the connector:

Pin#	Pin name	Function	Notes
1	TSC_YP	-	-
2	TSC_XP	-	-
3	TSC_YM	-	-
4	TSC_XM	-	-

LVDS - J26[edit | edit source]

J26 is a vertical double row straight 20-pin 1.25mm pitch header. This interface shows how to implement a differential connection to an LCD screen. As known, Zynq does not implement an LCD controller, however this can be integrated in FPGA fabric as shown by this example: https://wiki.analog.com/resources/tools-software/linux-drivers/platforms/zynq. The following table reports the pinout of the connector:

Pin#	Pin name	Function	Notes
1, 2	3.3V_LCD	-	-
3, 4, 7, 10, 13, 16, 19	DGND	Ground	-
5	LCD_LVDS_D0-	-	-
6	LCD_LVDS_D0+	-	-
8	LCD_LVDS_D1-	-	-
9	LCD_LVDS_D1+	-	-
11	LCD_LVDS_D2-	-	-
12	LCD_LVDS_D2+	-	-
14	LCD_LVDS_CLK-	-	-
15	LCD_LVDS_CLK+	-	-
17	LCD_P17	-	-
18	LCD_P18	-	-
20	LCD_P20	-	-
21,22	DGND	Ground	Shield

FPGA Mezzanine Card (FMC) Connector - J27[edit | edit source]

J27 is a 400 pins ANSI/VITA 57.1-2008 FPGA Mezzanine Card Connector that allows to connect to standard I/O mezzanine cards.

Please note that BoraXpress EVB FMC Connector is:

fully compliant to FMC LPC
partially compliant to FMC HPC because HPC side is not fully populated.

The following tables detail how BORA Xpress signals have been routed to FMC connector. At this link a spreadsheet providing the same information is available for download.

For more information about I/O voltage of single-ended signals available on FMC connector, please refer to this section.

HPC Row A[edit | edit source]

Pin#	Pin name	Function
A1	DGND	GND
A2	MGTxRXP1	DP1_M2C_P
A3	MGTxRXN1	DP1_M2C_N
A4	DGND	GND
A5	DGND	GND
A6	MGTxRXP2	DP2_M2C_P
A7	MGTxRXN2	DP2_M2C_N
A8	DGND	GND
A9	DGND	GND
A10	MGTxRXP3	DP3_M2C_P
A11	MGTxRXN3	DP3_M2C_N
A12	DGND	GND
A13	DGND	GND
A14	not connected	DP4_M2C_P
A15	not connected	DP4_M2C_N
A16	DGND	GND
A17	DGND	GND
A18	not connected	DP5_M2C_P
A19	not connected	DP5_M2C_N
A20	DGND	GND
A21	DGND	GND
A22	MGTxTXP1	DP1_C2M_P
A23	MGTxTXN1	DP1_C2M_N
A24	DGND	GND
A25	DGND	GND
A26	MGTxTXP2	DP2_C2M_P
A27	MGTxTXN2	DP2_C2M_N
A28	DGND	GND
A29	DGND	GND
A30	MGTxTXP3	DP3_C2M_P
A31	MGTxTXN3	DP3_C2M_N
A32	DGND	GND
A33	DGND	GND
A34	not connected	DP4_C2M_P
A35	not connected	DP4_C2M_N
A36	DGND	GND
A37	DGND	GND
A38	not connected	DP5_C2M_P
A39	not connected	DP5_C2M_N
A40	DGND	GND

HPC Row B[edit | edit source]

Pin#	Pin name	Function
B1	RSVD	RES1
B2	DGND	GND
B3	DGND	GND
B4	not connected	DP9_M2C_P
B5	not connected	DP9_M2C_N
B6	DGND	GND
B7	DGND	GND
B8	not connected	DP8_M2C_P
B9	not connected	DP8_M2C_N
B10	DGND	GND
B11	DGND	GND
B12	not connected	DP7_M2C_P
B13	not connected	DP7_M2C_N
B14	DGND	GND
B15	DGND	GND
B16	not connected	DP6_M2C_P
B17	not connected	DP6_M2C_N
B18	DGND	GND
B19	DGND	GND
B20	MGTREFCLK1P	GBTCLK1_M2C_P
B21	MGTREFCLK1N	GBTCLK1_M2C_N
B22	DGND	GND
B23	DGND	GND
B24	not connected	DP9_C2M_P
B25	not connected	DP9_C2M_N
B26	DGND	GND
B27	DGND	GND
B28	not connected	DP8_C2M_P
B29	not connected	DP8_C2M_N
B30	DGND	GND
B31	DGND	GND
B32	not connected	DP7_C2M_P
B33	not connected	DP7_C2M_N
B34	DGND	GND
B35	DGND	GND
B36	not connected	DP6_C2M_P
B37	not connected	DP6_C2M_N
B38	DGND	GND
B39	DGND	GND
B40	RSVD	RES0

LPC Row C[edit | edit source]

Pin#	Pin name	Function
C1	DGND	GND
C2	MGTxTXP0	DP0_C2M_P
C3	MGTxTXN0	DP0_C2M_N
C4	DGND	GND
C5	DGND	GND
C6	MGTxRXP0	DP0_M2C_P
C7	MGTxRXN0	DP0_M2C_N
C8	DGND	GND
C9	DGND	GND
C10	IO_L23P_T3_34	LA06_P
C11	IO_L23N_T3_34	LA06_N
C12	DGND	GND
C13	DGND	GND
C14	IO_L2P_T0_34	LA10_P
C15	IO_L2N_T0_34	LA10_N
C16	DGND	GND
C17	DGND	GND
C18	IO_L1P_T0_34	LA14_P
C19	IO_L1N_T0_34	LA14_N
C20	DGND	GND
C21	DGND	GND
C22	IO_L16P_T2_34	LA18_P_CC
C23	IO_L16N_T2_34	LA18_N_CC
C24	DGND	GND
C25	DGND	GND
C26	IO_L6P_T0_35	LA27_P
C27	IO_L6N_T0_VREF_35	LA27_N
C28	DGND	GND
C29	DGND	GND
C30	I2C0_SCL	SCL
C31	I2C0_SDA	SDA
C32	DGND	GND
C33	DGND	GND
C34	GA0	GA0
C35	FMC_12P0V	12P0V
C36	DGND	GND
C37	FMC_12P0V	12P0V
C38	DGND	GND
C39	FMC_3P3V	3P3V
C40	DGND	GND

LPC Row D[edit | edit source]

Pin#	Pin name	Function
D1	IO_25_VRP_34	PG_C2M
D2	DGND	GND
D3	DGND	GND
D4	MGTREFCLK0P	GBTCLK0_M2C_P
D5	MGTREFCLK0N	GBTCLK0_M2C_N
D6	DGND	GND
D7	DGND	GND
D8	IO_L14P_T2_SRCC_34	LA01_P_CC
D9	IO_L14N_T2_SRCC_34	LA01_N_CC
D10	DGND	GND
D11	IO_L9P_T1_DQS_34	LA05_P
D12	IO_L9N_T1_DQS_34	LA05_N
D13	DGND	GND
D14	IO_L6P_T0_34	LA09_P
D15	IO_L6N_T0_VREF_34	LA09_N
D16	DGND	GND
D17	IO_L20P_T3_34	LA13_P
D18	IO_L20N_T3_34	LA13_N
D19	DGND	GND
D20	IO_L15P_T2_DQS_34	LA17_P_CC
D21	IO_L15N_T2_DQS_34	LA17_N_CC
D22	DGND	GND
D23	IO_L2P_T0_AD8P_35	LA23_P
D24	IO_L2N_T0_AD8N_35	LA23_N
D25	DGND	GND
D26	IO_L5P_T0_AD9P_35	LA26_P
D27	IO_L5N_T0_AD9N_35	LA26_N
D28	DGND	GND
D29	JTAG_TCK	TCK
D30	JTAG_TDI	TDI
D31	FMC_TDO_ZYNQ_TDI	TDO
D32	FMC_3P3VAUX	3P3VAUX
D33	JTAG_TMS	TMS
D34	JTAG_TRSTn	TRST_L
D35	GA0	GA1
D36	FMC_3P3V	3P3V
D37	DGND	GND
D38	FMC_3P3V	3P3V
D39	DGND	GND
D40	FMC_3P3V	3P3V

HPC Row E[edit | edit source]

Pin#	Pin name	Function
E1	DGND	GND
E2	IO_L14P_T2_AD4P_SRCC_35	HA01_P_CC
E3	IO_L14N_T2_AD4N_SRCC_35	HA01_N_CC
E4	DGND	GND
E5	DGND	GND
E6	IO_L20P_T3_AD6P_35	HA05_P
E7	IO_L20N_T3_AD6N_35	HA05_N
E8	DGND	GND
E9	IO_L24P_T3_AD15P_35	HA09_P
E10	IO_L24N_T3_AD15N_35	HA09_N
E11	DGND	GND
E12	not connected	HA13_P
E13	not connected	HA13_N
E14	DGND	GND
E15	not connected	HA16_P
E16	not connected	HA16_N
E17	DGND	GND
E18	not connected	HA20_P
E19	not connected	HA20_N
E20	DGND	GND
E21	not connected	HB03_P
E22	not connected	HB03_N
E23	DGND	GND
E24	not connected	HB05_P
E25	not connected	HB05_N
E26	DGND	GND
E27	not connected	HB09_P
E28	not connected	HB09_N
E29	DGND	GND
E30	not connected	HB13_P
E31	not connected	HB13_N
E32	DGND	GND
E33	not connected	HB19_P
E34	not connected	HB19_N
E35	DGND	GND
E36	not connected	HB21_P
E37	not connected	HB21_N
E38	DGND	GND
E39	FMC_VADJ	VADJ
E40	DGND	GND

HPC Row F[edit | edit source]

Pin#	Pin name	Function
F1	IO_0_VRN_35	PG_M2C
F2	DGND	GND
F3	DGND	GND
F4	IO_L13P_T2_MRCC_35	HA00_P_CC
F5	IO_L13N_T2_MRCC_35	HA00_N_CC
F6	DGND	GND
F7	IO_L19P_T3_35	HA04_P
F8	IO_L19N_T3_VREF_35	HA04_N
F9	DGND	GND
F10	IO_L23P_T3_35	HA08_P
F11	IO_L23N_T3_35	HA08_N
F12	DGND	GND
F13	not connected	HA12_P
F14	not connected	HA12_N
F15	DGND	GND
F16	not connected	HA15_P
F17	not connected	HA15_N
F18	DGND	GND
F19	not connected	HA19_P
F20	not connected	HA19_N
F21	DGND	GND
F22	not connected	HB02_P
F23	not connected	HB02_N
F24	DGND	GND
F25	not connected	HB04_P
F26	not connected	HB04_N
F27	DGND	GND
F28	not connected	HB08_P
F29	not connected	HB08_N
F30	DGND	GND
F31	not connected	HB12_P
F32	not connected	HB12_N
F33	DGND	GND
F34	not connected	HB16_P
F35	not connected	HB16_N
F36	DGND	GND
F37	not connected	HB20_P
F38	not connected	HB20_N
F39	DGND	GND
F40	FMC_VADJ	VADJ

LPC Row G[edit | edit source]

Pin#	Pin name	Function
G1	DGND	GND
G2	IO_L11P_T1_SRCC_34	CLK0_C2M_P
G3	IO_L11N_T1_SRCC_34	CLK0_C2M_N
G4	DGND	GND
G5	DGND	GND
G6	IO_L13P_T1_MRCC_34	LA00_P_CC
G7	IO_L13N_T1_MRCC_34	LA00_N_CC
G8	DGND	GND
G9	IO_L4P_T0_34	LA03_P
G10	IO_L4N_T0_34	LA03_N
G11	DGND	GND
G12	IO_L3P_T0_DQS_PUDC_B_34	LA08_P
G13	IO_L3N_T0_DQS_34	LA08_N
G14	DGND	GND
G15	IO_L22P_T3_34	LA12_P
G16	IO_L22N_T3_34	LA12_N
G17	DGND	GND
G18	IO_L19P_T3_34	LA16_P
G19	IO_L19N_T3_VREF_34	LA16_N
G20	DGND	GND
G21	IO_L17P_T2_34	LA20_P
G22	IO_L17N_T2_34	LA20_N
G23	DGND	GND
G24	IO_L1P_T0_AD0P_35	LA22_P
G25	IO_L1N_T0_AD0N_35	LA22_N
G26	DGND	GND
G27	IO_L4P_T0_35	LA25_P
G28	IO_L4N_T0_35	LA25_N
G29	DGND	GND
G30	IO_L8P_T1_AD10P_35	LA29_P
G31	IO_L8N_T1_AD10N_35	LA29_N
G32	DGND	GND
G33	IO_L10P_T1_AD11P_35	LA31_P
G34	IO_L10N_T1_AD11N_35	LA31_N
G35	DGND	GND
G36	IO_L16P_T2_35	LA33_P
G37	IO_L16N_T2_35	LA33_N
G38	DGND	GND
G39	FMC_VADJ	VADJ
G40	DGND	GND

LPC Row H[edit | edit source]

Pin#	Pin name	Function
H1	FMC_VREF_A_M2C	VREF_A_M2C
H2	FMC_PRSNT_M2C_L	PRSNT_M2C_L
H3	DGND	GND
H4	IO_L12P_T1_MRCC_34	CLK0_M2C_P
H5	IO_L12N_T1_MRCC_34	CLK0_M2C_N
H6	DGND	GND
H7	IO_L7P_T1_34	LA02_P
H8	IO_L7N_T1_34	LA02_N
H9	DGND	GND
H10	IO_L5P_T0_34	LA04_P
H11	IO_L5N_T0_34	LA04_N
H12	DGND	GND
H13	IO_L8P_T1_34	LA07_P
H14	IO_L8N_T1_34	LA07_N
H15	DGND	GND
H16	IO_L21P_T3_DQS_34	LA11_P
H17	IO_L21N_T3_DQS_34	LA11_N
H18	DGND	GND
H19	IO_L18P_T2_34	LA15_P
H20	IO_L18N_T2_34	LA15_N
H21	DGND	GND
H22	IO_L24P_T3_34	LA19_P
H23	IO_L24N_T3_34	LA19_N
H24	DGND	GND
H25	IO_L10P_T1_34	LA21_P
H26	IO_L10N_T1_34	LA21_N
H27	DGND	GND
H28	IO_L3P_T0_DQS_AD1P_35	LA24_P
H29	IO_L3N_T0_DQS_AD1N_35	LA24_N
H30	DGND	GND
H31	IO_L7P_T1_AD2P_35	LA28_P
H32	IO_L7N_T1_AD2N_35	LA28_N
H33	DGND	GND
H34	IO_L9P_T1_DQS_AD3P_35	LA30_P
H35	IO_L9N_T1_DQS_AD3N_35	LA30_N
H36	DGND	GND
H37	IO_L15P_T2_DQS_AD12P_35	LA32_P
H38	IO_L15N_T2_DQS_AD12N_35	LA32_N
H39	DGND	GND
H40	FMC_VADJ	VADJ

HPC Row J[edit | edit source]

Pin#	Pin name	Function
J1	DGND	GND
J2	IO_L11P_T1_SRCC_35	CLK1_C2M_P
J3	IO_L11N_T1_SRCC_35	CLK1_C2M_N
J4	DGND	GND
J5	DGND	GND
J6	IO_L18P_T2_AD13P_35	HA03_P
J7	IO_L18N_T2_AD13N_35	HA03_N
J8	DGND	GND
J9	IO_L22P_T3_AD7P_35	HA07_P
J10	IO_L22N_T3_AD7N_35	HA07_N
J11	DGND	GND
J12	not connected	HA11_P
J13	not connected	HA11_N
J14	DGND	GND
J15	not connected	HA14_P
J16	not connected	HA14_N
J17	DGND	GND
J18	not connected	HA18_P
J19	not connected	HA18_N
J20	DGND	GND
J21	not connected	HA22_P
J22	not connected	HA22_N
J23	DGND	GND
J24	not connected	HB01_P
J25	not connected	HB01_N
J26	DGND	GND
J27	not connected	HB07_P
J28	not connected	HB07_N
J29	DGND	GND
J30	not connected	HB11_P
J31	not connected	HB11_N
J32	DGND	GND
J33	not connected	HB15_P
J34	not connected	HB15_N
J35	DGND	GND
J36	not connected	HB18_P
J37	not connected	HB18_N
J38	DGND	GND
J39	not connected	VIO_B_M2C
J40	DGND	GND

HPC Row K[edit | edit source]

Pin#	Pin name	Function
K1	not connected	VREF_B_M2C
K2	DGND	GND
K3	DGND	GND
K4	IO_L12P_T1_MRCC_35	CLK1_M2C_P
K5	IO_L12N_T1_MRCC_35	CLK1_M2C_N
K6	DGND	GND
K7	IO_L17P_T2_AD5P_35	HA02_P
K8	IO_L17N_T2_AD5N_35	HA02_N
K9	DGND	GND
K10	IO_L21P_T3_DQS_AD14P_35	HA06_P
K11	IO_L21N_T3_DQS_AD14N_35	HA06_N
K12	DGND	GND
K13	IO_25_VRP_35	HA10_P
K14	not connected	HA10_N
K15	DGND	GND
K16	not connected	HA17_P_CC
K17	not connected	HA17_N_CC
K18	DGND	GND
K19	not connected	HA21_P
K20	not connected	HA21_N
K21	DGND	GND
K22	not connected	HA23_P
K23	not connected	HA23_N
K24	DGND	GND
K25	not connected	HB00_P_CC
K26	not connected	HB00_N_CC
K27	DGND	GND
K28	not connected	HB06_P_CC
K29	not connected	HB06_N_CC
K30	DGND	GND
K31	not connected	HB10_P
K32	not connected	HB10_N
K33	DGND	GND
K34	not connected	HB14_P
K35	not connected	HB14_N
K36	DGND	GND
K37	not connected	HB17_P_CC
K38	not connected	HB17_N_CC
K39	DGND	GND
K40	not connected	VIO_B_M2C

Pin strip connectors[edit | edit source]

SPI,NAND - JP13[edit | edit source]

JP13 is a 12-pin 6x2x2.54 pitch vertical header. The following table reports the pinout of the connector:

Pin#	Pin name	Function	Notes
1, 4, 9, 12	DGND	Ground	-
2	SPI0_CS0n	-	-
3	ZYNQ_SPI0_SCLK/NAND_IO1	-	-
5	ZYNQ_SPI0_DQ0/NAND_ALE	-	-
6	NAND_CS0/SPI0_CS1	-	-
7	ZYNQ_SPI0_DQ2/NAND_IO2	-	-
8	ZYNQ_SPI0_DQ1/NAND_WE	-	-
10	ZYNQ_SPI0_DQ3/NAND_IO0	-	-
11	ZYNQ_NAND_RD_B	-	-

Voltage Monitor - JP15[edit | edit source]

JP15 is a 16-pin 8x2x2.54 pitch vertical header. The following table reports the pinout of the connector:

Pin#	Pin name	Function	Notes
1	MON_VCCPLL	-	-
2	MON_3.3V	-	-
3	MON_XADC_VCC	-	-
4	MON_1V2_ETH	-	-
5	MON_FPGA_VDDIO_BANK35	-	-
6	MON_VDDQ_1V5	-	-
7	MON_FPGA_VDDIO_BANK34	-	-
8	MON_1.8V	-	-
9	MON_FPGA_VDDIO_BANK13	-	-
10	MON_1.0V	-	-
11	MON_1.8V_IO	-	-
12	MON_MGTAVCC	-	-
13	MON_MGTAVTT	-	-
14	MON_MGTAVCCAUX	-	-
15, 16	DGND	Ground	-

Ethernet GPIO - JP18[edit | edit source]

JP18 is a 16-pin 8x2x2.54 pitch vertical header. The following table reports the pinout of the connector:

Pin#	Pin name	Function	Notes
1, 2, 5, 6, 16	DGND	Ground	-
3	CLK125_NDO	-	-
4	ETH1_CLK125_NDO	-	-
7	ETH_MDC	-	-
8	ETH1_MDC	-	-
9	ETH_MDIO	-	-
10	ETH1_MDIO	-	-
11	ETH_INTn	-	-
12	ETH1_INTn	-	-
13	PS_MIO51_501	-	-
14	ETH1_RESETn	-	-
15	PS_MIO50_501	-	-

SPI,NAND - JP19[edit | edit source]

JP19 is a 12-pin 6x2x2.54 pitch vertical header. The following table reports the pinout of the connector:

Pin#	Pin name	Function	Notes
1, 11, 12	DGND	Ground	-
2	NAND_BUSY	-	-
3	ZYNQ_NAND_CLE	-	-
4	NAND_IO3	-	-
5	NAND_IO4	-	-
6	NAND_IO5	-	-
7	NAND_IO6	-	-
8	NAND_IO7	-	-
9	CONN_SPI_RSTn	-	-
10	MEM_WPn	-	-

FPGA, WatchDog, RTC, RST - JP22[edit | edit source]

JP22 is a 16-pin 8x2x2.54 pitch vertical header. The following table reports the pinout of the connector:

Pin#	Pin name	Function	Notes
1	FPGA_INIT_B	-	-
2	RTC_32KHZ	-	-
3	FPGA_PROGRAM_B	-	-
4	RTC_RST	-	-
5	FPGA_DONE	-	-
6	RTC_INT/SQW	-	-
7, 8	DGND	Ground	-
9	WD_SET0	-	-
10	SYS_RSTn	-	-
11	WD_SET1	-	-
12	PORSTn	-	-
13	WD_SET2	-	-
14	MRSTn	-	-
15	PS_MIO15_500	-	-
16	CB_PWR_GOOD	-	-

AUX PINs - JP29[edit | edit source]

JP29 is a 16-pin 8x2x2.54 pitch vertical header. The following table reports the pinout of the connector:

Pin#	Pin name	Function	Notes
1	EVB_1.8V	-	-
2	3.3V	-	-
3	PS_I2C0_DAT	-	-
4	I2C0_SDA	-	-
5	PS_I2C0_CK	-	-
6	I2C0_SCL	-	-
7, 8, 13	DGND	Ground	-
9	EXT_VMON2_V1	-	Mount option
10, 16	XADC_AGND	Analog Ground	-
11	EXT_VMON2_V2	-	Mount option
12	XADC_VN_R	-	-
14	XADC_VP_R	-	-
15	INA_ALERT	-	-

Please note that:

Three devices are connected to I2C0 bus (this is level shifted from 1.8V to 3.3V):
- Silicon Labs Si571 programmable clock generator: this clock si connected to PL to allow the user to easily experiment his/her own peripherals and IPs on FPGA
- resistive touch screen controller for LCD screen
- consumption monitor: this is connected to shunt resistor put in series on BORA power rail, allowing to measure SoM consumption

ADC - JP30, JP31, JP32[edit | edit source]

JP30, JP31, JP32 are 16-pin 8x2x2.54 pitch vertical header. The following tables reports the pinout of the connectors:

JP30:

Pin#	Pin name	Function	Notes
2	FPGA_BANK35_AD0N	AD0_N	Mount option
3	FPGA_BANK35_AD1P	AD1_P	Mount option
4	FPGA_BANK35_AD0P	AD0_P	Mount option
5	FPGA_BANK35_AD1N	AD1_N	Mount option
8	FPGA_BANK35_AD2P	AD2_P	Mount option
9	FPGA_BANK35_AD3P	AD3_P	Mount option
10	FPGA_BANK35_AD2N	AD2_N	Mount option
11	FPGA_BANK35_AD3N	AD3_N	Mount option
14	FPGA_BANK35_AD4P	AD4_P	Mount option
15	FPGA_BANK35_AD5P	AD5_P	Mount option
16	FPGA_BANK35_AD4N	AD4_N	Mount option
1, 6, 7, 12, 13	DGND	-	-

JP31:

Pin#	Pin name	Function	Notes
1	FPGA_BANK35_AD5N	AD5_N	Mount option
4	FPGA_BANK35_AD6P	AD6_P	Mount option
5	FPGA_BANK35_AD7P	AD7_P	Mount option
6	FPGA_BANK35_AD6N	AD6_N	Mount option
7	FPGA_BANK35_AD7N	AD7_N	Mount option
10	FPGA_BANK35_AD8P	AD8_P	Mount option
11	FPGA_BANK35_AD9P	AD9_P	Mount option
12	FPGA_BANK35_AD8N	AD8_N	Mount option
13	FPGA_BANK35_AD9N	AD9_N	Mount option
16	FPGA_BANK35_AD10P	AD10_P	Mount option
2, 3, 8, 9, 14, 15	DGND	-	-

JP32:

Pin#	Pin name	Function	Notes
1	FPGA_BANK35_AD11P	AD11_P	Mount option
2	FPGA_BANK35_AD10N	AD10_N	Mount option
3	FPGA_BANK35_AD11N	AD11_N	Mount option
6	FPGA_BANK35_AD12P	AD12_P	Mount option
7	FPGA_BANK35_AD13P	AD13_P	Mount option
8	FPGA_BANK35_AD12N	AD12_N	Mount option
9	FPGA_BANK35_AD13N	AD13_N	Mount option
12	FPGA_BANK35_AD14P	AD14_P	Mount option
13	FPGA_BANK35_AD15P	AD15_P	Mount option
14	FPGA_BANK35_AD14N	AD14_N	Mount option
15	FPGA_BANK35_AD15N	AD15_N	Mount option
4, 5, 10, 11, 16	DGND	-	-

Digilent Pmod™ Compatible headers[edit | edit source]

Please note that:

Digilent Pmod™ Interface Specification - defined by Digilent Inc. - allows to quickly connect several pre-built I/O modules to PL:
- http://www.digilentinc.com/Products/Catalog.cfm?NavPath=2,401&Cat=9&CFID=3145471&CFTOKEN=69407812
- http://www.maximintegrated.com/products/evkits/fpga-modules/
Signals used to implement LVDS LCD interface can alternatively routed to Digilent Pmod™ Compatible compatible connector

Digilent Pmod™ Compatible - JP17[edit | edit source]

JP17 is a 12-pin 6x2x2.54 pitch vertical header. The following table reports the pinout of the connector:

Pin#	Pin name	Function	Notes
1	PMOD_A0		-
2	PMOD_A4		-
3	PMOD_A1		-
4	PMOD_A5		-
5	PMOD_A2		-
6	PMOD_A6		-
7	PMOD_A3		-
8	PMOD_A7		-
9, 10	DGND	Ground	-
11, 12	3.3V		-

Digilent Pmod™ Compatible - JP23[edit | edit source]

JP23 is a 12-pin 6x2x2.54 pitch vertical header. The following table reports the pinout of the connector:

Pin#	Pin name	Function	Notes
1	PMOD_B0	-	-
2	PMOD_B4	-	-
3	PMOD_B1	-	-
4	PMOD_B5	-	-
5	PMOD_B2	-	-
6	PMOD_B6	-	-
7	PMOD_B3	-	-
8	PMOD_B7	-	-
9, 10	DGND	Ground	-
11, 12	3.3V	-	-

JP27 and JP28[edit | edit source]

These connectors allow to select power voltage of PL's I/O banks. For more details please refer to this section.

PL's I/O voltage selections[edit | edit source]

PL's I/O banks voltage can be selected via configuration jumpers. It is worth remembering that:

each bank must be powered even if none of its I/Os is used
voltage selection must be done before powering up the board.

The following table recaps the characteristics of the PL's I/O banks, in terms of allowable power supplies.

SoM	Zynq p/n	Bank #34		Bank #13		Bank #35
SoM	Zynq p/n	Type [1]	I/O voltage setting	Type [1]	I/O voltage setting	Type [1]	I/O voltage setting
BoraX	7015 (CLG485 package)	HR (1.2 - 3.3V)	User defined	HR (1.2 - 3.3V)	User defined	HR (1.2 - 3.3V)	User defined
BoraX	7030 (SBG485 package)	HP (1.2 - 1.8V)	User defined	HR (1.2 - 3.3V)	User defined	HP (1.2 - 1.8V)	User defined
Bora Lite	7007S/7010 (CLG400 package)	HR (1.2 - 3.3V)	User defined	HR (1.2 - 3.3V)	User defined	HR (1.2 - 3.3V)	User defined
Bora Lite	7014S/7020 (CLG400 package)	HR (1.2 - 3.3V)	User defined	HR (1.2 - 3.3V)	User defined	HR (1.2 - 3.3V)	User defined

[1]

HR = High Range
HP = High Performance

BoraXEVB voltage selection jumpers[edit | edit source]

BoraXEVB provides several configuration jumpers that allow to easily select the voltages used for PL's I/O banks. The following tables lists some of the allowed combinations used to select the most common voltage values. There are other combination available. However, some of them are not allowed and may cause permanent hardware damages to the Zynq part.

Since characteristics of PL's I/O banks differ between Zynq 7015 and 7030 parts, the valid combinations are not the same for all of the BoraX models. Please refer to the following sections for more details.

Even if PL's banks are independent, default configuration of BoraXEVB is such that

bank 34 and bank 35 have the same supply voltage
this voltage is selected via JP28.

This configuration is in accordance with default routing of signals used for FMC connector.

Examples of valid combinations for Zynq 7030-based SOMs (default option for BXELK)[edit | edit source]

Bank #13 (HR)
Nominal voltage [V]	JP25.1-2	JP25.3-4	JP25.5-6	JP25.7-8	JP25.9-10	JP25.11-12
1.2	open	open	closed	closed	closed	open
1.5	open	closed	open	closed	open	open
1.8	open	closed	closed	open	closed	open
2.5	closed	open	closed	open	open	open
3.3	closed	closed	closed	open	open	open

Bank #35 (HP)
Nominal voltage [V]	JP27.1-2	JP27.3-4	JP27.5-6	JP27.7-8	JP27.9-10	JP27.11-12
1.2	open	open	closed	closed	closed	open
1.5	open	closed	open	closed	open	open
1.8	open	closed	closed	open	closed	open

Bank #34 (HP)
Nominal voltage [V]	JP28.1-2	JP28.3-4	JP28.5-6	JP28.7-8	JP28.9-10	JP28.11-12
1.2	open	open	open	open	closed	open
1.5	open	open	open	closed	open	open
1.8	open	open	closed	open	open	open

Examples of valid combinations for Zynq 7015-based SOMs[edit | edit source]

Bank #13 (HR)
Nominal voltage [V]	JP25.1-2	JP25.3-4	JP25.5-6	JP25.7-8	JP25.9-10	JP25.11-12
1.2	open	open	closed	closed	closed	open
1.5	open	closed	open	closed	open	open
1.8	open	closed	closed	open	closed	open
2.5	closed	open	closed	open	open	open
3.3	closed	closed	closed	open	open	open

Bank #35 (HR)
Nominal voltage [V]	JP27.1-2	JP27.3-4	JP27.5-6	JP27.7-8	JP27.9-10	JP27.11-12
1.2	open	open	closed	closed	closed	open
1.5	open	closed	open	closed	open	open
1.8	open	closed	closed	open	closed	open
2.5	closed	open	closed	open	open	open
3.3	closed	closed	closed	open	open	open

Bank #34 (HR)
Nominal voltage [V]	JP28.1-2	JP28.3-4	JP28.5-6	JP28.7-8	JP28.9-10	JP28.11-12
1.2	open	open	open	open	closed	open
1.5	open	open	open	closed	open	open
1.8	open	open	closed	open	open	open
2.5	open	closed	open	open	open	open
3.3	closed	open	open	open	open	open

Advanced information about voltage selection connectors[edit | edit source]

Bank 13 VDDIO selection connector (JP25)[edit | edit source]

JP25 is a 12-pin 6x2x2.54 pitch vertical header used for the selection - through jumpers - of the bank supply voltages. The following table reports the pinout of the connector:

Pin#	Pin name	Function	Notes
2	LDO_B13_1V6	adds +1.6V to VDDIO_BANK13	-
4	LDO_B13_800mV	adds +800mV to VDDIO_BANK13	-
6	LDO_B13_400mV	adds +400mV to VDDIO_BANK13	-
8	LDO_B13_200mV	adds +200mV to VDDIO_BANK13	-
10	LDO_B13_100mV	adds +100mV to VDDIO_BANK13	-
12	LDO_B13_50mV	adds +50mV to VDDIO_BANK13	-
1, 3, 5, 7, 9, 11	DGND	-	-

The jumper configurations are:

No jumpers installed -> DC output for VDDIO_BANK13 is 500mV
Jumper on 1-2 -> adds 1.6V to VDDIO_BANK13 above the default 500mV
Jumper on 3-4 -> adds 800mV to VDDIO_BANK13 above the default 500mV
Jumper on 5-6 -> adds 400mV to VDDIO_BANK13 above the default 500mV
Jumper on 7-8 -> adds 200mV to VDDIO_BANK13 above the default 500mV
Jumper on 9-10 -> adds 100mV to VDDIO_BANK13 above the default 500mV
Jumper on 11-12 -> adds 50mV to VDDIO_BANK13 above the default 500mV

The default configuration is VDDIO_BANK13 @ 1.8V (500mV + 800mV + 400mV + 100mV):

Jumper on 3-4 -> adds 800mV to VDDIO_BANK13 above the default 500mV
Jumper on 5-6 -> adds 400mV to VDDIO_BANK13
Jumper on 9-10 -> adds 100mV to VDDIO_BANK13

Bank 35 VDDIO selection connector (JP27)[edit | edit source]

JP27 is a 12-pin 6x2x2.54 pitch vertical header used for the selection - through jumpers - of the bank supply voltages. The following table reports the pinout of the connector:

Pin#	Pin name	Function	Notes
2	LDO_B35_1V6	adds +1.6V to VDDIO_BANK35	-
4	LDO_B35_800mV	adds +800mV to VDDIO_BANK35	-
6	LDO_B35_400mV	adds +400mV to VDDIO_BANK35	-
8	LDO_B35_200mV	adds +200mV to VDDIO_BANK35	-
10	LDO_B35_100mV	adds +100mV to VDDIO_BANK35	-
12	LDO_B35_50mV	adds +50mV to VDDIO_BANK35	-
1, 3, 5, 7, 9, 11	DGND	-	-

The jumper configurations are:

No jumpers installed -> DC output for VDDIO_BANK35 is 500mV
Jumper on 1-2 -> adds 1.6V to VDDIO_BANK35 above the default 500mV
Jumper on 3-4 -> adds 800mV to VDDIO_BANK35 above the default 500mV
Jumper on 5-6 -> adds 400mV to VDDIO_BANK35 above the default 500mV
Jumper on 7-8 -> adds 200mV to VDDIO_BANK35 above the default 500mV
Jumper on 9-10 -> adds 100mV to VDDIO_BANK35 above the default 500mV
Jumper on 11-12 -> adds 50mV to VDDIO_BANK35 above the default 500mV

The DEFAULT configuration is VDDIO_BANK35 @ 1.8V (500mV + 800mV + 400mV + 100mV):

Jumper on 3-4 -> adds 800mV to VDDIO_BANK35 above the default 500mV
Jumper on 5-6 -> adds 400mV to VDDIO_BANK35
Jumper on 9-10 -> adds 100mV to VDDIO_BANK35

Please note that by default VDDIO_BANK35 is supplied by VADJ Regulator. For using a dedicated VDDIO_BANK35, it is required to remove R343 and mount R344: check BORA Xpress Evaluation Kit schematics page 10.
Then, check and/or properly configure JP27 for selecting the required VDDIO_BANK35

Bank 34 and VADJ VDDIO selection connector (JP28)[edit | edit source]

JP28 is a 12-pin 6x2x2.54 pitch vertical header used for the selection - through jumpers - of the bank supply voltages. The following table reports the pinout of the connector:

Pin#	Pin name	Function	Notes
2	VADJ_FB (22K)	selects 3.3V VADJ	-
4	VADJ_FB (30K9)	selects 2.5V VADJ	-
6	VADJ_FB (51K1)	selects 1.8V VADJ	-
8	VADJ_FB (68K)	selects 1.5V VADJ	-
10	VADJ_FB (100K)	selects 1.2V VADJ	-
12	RFU	Reserved	-
1, 3, 5, 7, 9, 11	DGND	-	-

The jumper configurations are:

Jumper on 1-2 -> supply VADJ with 3.3V
Jumper on 3-4 -> supply VADJ with 2.5V
Jumper on 5-6 -> supply VADJ with 1.8V
Jumper on 7-8 -> supply VADJ with 1.5V
Jumper on 9-10 -> supply VADJ with 1.2V

The default configuration is:

Jumper on 5-6 -> supply VADJ with 1.8V

SoM's signals mapping[edit | edit source]

Bora Lite[edit | edit source]

As known, Bora Lite requires an adapter to be mounted on the BoraXEVB carrier board. The adapter swap some signals to allow to use some carrier board peripherals routed on unavailable pins of the SoM. For this reason, it can be tricky to find out where the SoM's signals are routed at the carrier board level. The following table details such routing for PL banks. Here it is assumed to use an adapter with default mounting options.


SoM's signal		Routing options at carrier board level
Bank	Name	Option #1 (default)			Option #2
Bank	Name	Name	Pin	Note	Name	Pin	Note
34	IO_0_34	IO_0_VRN_34	J31.2	Header
	IO_0_34	IO_0_VRN_34	J27D.H2	FMC conn.
	IO_25_34	IO_25_VRP_35	J31.4	Header
	IO_25_34	IO_25_VRP_35	J27B.D1	FMC conn.
	IO_L10N_T1_34	IO_L10N_T1_34	J27D.H26	FMC conn.
	IO_L10P_T1_34	IO_L10P_T1_34	J27D.H25	FMC conn.
	IO_L11N_T1_SRCC_34	IO_L11N_T1_SRCC_34	J27D.G3	FMC conn.
	IO_L11P_T1_SRCC_34	IO_L11P_T1_SRCC_34	J27D.G2	FMC conn.
	IO_L12N_T1_MRCC_34	IO_L12N_T1_MRCC_34	J27D.H5	FMC conn.
	IO_L12P_T1_MRCC_34	IO_L12P_T1_MRCC_34	J27D.H4	FMC conn.
	IO_L13N_T2_MRCC_34	IO_L13N_T1_MRCC_34	J27D.G7	FMC conn.
	IO_L13P_T2_MRCC_34	IO_L13P_T1_MRCC_34	J27D.G6	FMC conn.
	IO_L14N_T2_SRCC_34	IO_L14N_T2_SRCC_34	J27B.D9	FMC conn.
	IO_L14P_T2_SRCC_34	IO_L14P_T2_SRCC_34	J27B.D8	FMC conn.
	IO_L15N_T2_DQS_34	IO_L15N_T2_DQS_34	J27B.D21	FMC conn.
	IO_L15P_T2_DQS_34	IO_L15P_T2_DQS_34	J27B.D20	FMC conn.
	IO_L16N_T2_34	IO_L16N_T2_34	J27B.C23	FMC conn.
	IO_L16P_T2_34	IO_L16P_T2_34	J27B.C22	FMC conn.
	IO_L17N_T2_34	IO_L17N_T2_34	J27D.G22	FMC conn.
	IO_L17P_T2_34	IO_L17P_T2_34	J27D.G21	FMC conn.
	IO_L18N_T2_34	IO_L18N_T2_34	J27D.H20	FMC conn.
	IO_L18P_T2_34	IO_L18P_T2_34	J27D.H19	FMC conn.
	IO_L19N_T3_VREF_34	IO_L19N_T3_VREF_34	J27D.G19	FMC conn.
	IO_L19N_T3_VREF_34	IO_L19N_T3_VREF_34	TP21	TP SMD
	IO_L19P_T3_34	n/a	n/a	At the adapter level, this signal (as CAN_RX) is connected to a CAN transceiver. The CAN bus is available at J24.
	IO_L1N_T0_34	IO_L1N_T0_34	J27B.C19	FMC conn.
	IO_L1P_T0_34	IO_L1P_T0_34	J27B.C18	FMC conn.
	IO_L20N_T3_34	IO_L20N_T3_34	J27B.D18	FMC conn.
	IO_L20P_T3_34	IO_L20P_T3_34	J27B.D17	FMC conn.
	IO_L21N_T3_DQS_34	IO_L21N_T3_DQS_34	J27D.H17	FMC conn.
	IO_L21P_T3_DQS_34	IO_L21P_T3_DQS_34	J27D.H16	FMC conn.
	IO_L22N_T3_34	IO_L22N_T3_34	J27D.G16	FMC conn.
	IO_L22P_T3_34	IO_L22P_T3_34	J27D.G15	FMC conn.
	IO_L23N_T3_34	IO_L23N_T3_34	J27B.C11	FMC conn.
	IO_L23P_T3_34	IO_L23P_T3_34	J27B.C10	FMC conn.
	IO_L24N_T3_34	IO_L24N_T3_34	J27D.H23	FMC conn.
	IO_L24P_T3_34	IO_L24P_T3_34	J27D.H22	FMC conn.
	IO_L2N_T0_34	IO_L2N_T0_34	J27B.C15	FMC conn.
	IO_L2P_T0_34	IO_L2P_T0_34	J27B.C14	FMC conn.
	IO_L3N_T0_DQS_34	IO_L3N_T0_DQS_34	J27D.G13	FMC conn.
	IO_L3P_T0_DQS_PUDC_B_34 (10K pull-up on SoM)	IO_L3P_T0_DQS_PUDC_B_34	J27D.G12	FMC conn.
	IO_L4N_T0_34	IO_L4N_T0_34	J27D.G10	FMC conn.
	IO_L4P_T0_34	IO_L4P_T0_34	J27D.G9	FMC conn.
	IO_L5N_T0_34	IO_L5N_T0_34	J27D.H11	FMC conn.
	IO_L5P_T0_34	IO_L5P_T0_34	J27D.H10	FMC conn.
	IO_L6N_T0_VREF_34	IO_L6N_T0_VREF_34	J27B.D15	FMC conn.
	IO_L6N_T0_VREF_34	IO_L6N_T0_VREF_34	TP22	TP SMD
	IO_L6P_T0_34	n/a	n/a	At the adapter level, this signal (as CAN_TX) is connected to a CAN transceiver. The CAN bus is available at J24.
	IO_L7N_T1_34	IO_L7N_T1_34	J27D.H8	FMC conn.
	IO_L7P_T1_34	IO_L7P_T1_34	J27D.H7	FMC conn.
	IO_L8N_T1_34	IO_L8N_T1_34	J27D.H14	FMC conn.
	IO_L8P_T1_34	IO_L8P_T1_34	J27D.H13	FMC conn.
	IO_L9N_T1_DQS_34	IO_L9N_T1_DQS_34	J27B.D12	FMC conn.
	IO_L9P_T1_DQS_34	IO_L9P_T1_DQS_34	J27B.D11	FMC conn.

35	IO_0_35	IO_0_VRN_35	J27C.F1	FMC conn.
	IO_0_35	IO_0_VRN_35	J31.1	Header
	IO_25_35	IO_25_VRP_35	J27E.K13	FMC conn.
	IO_25_35	IO_25_VRP_35	J31.3	Header
	IO_L10N_T1_AD11N_35	IO_L10N_T1_AD11N_35	J27D.G34	FMC conn.	FPGA_BANK35_AD11N	JP32.3	Header
	IO_L10P_T1_AD11P_35	IO_L10P_T1_AD11P_35	J27D.G33	FMC conn.	FPGA_BANK35_AD11P	JP32.1	Header
	IO_L11N_T1_SRCC_35	IO_L11N_T1_SRCC_35	J27E.J3	FMC conn.
	IO_L11P_T1_SRCC_35	IO_L11P_T1_SRCC_35	J27E.J2	FMC conn.
	IO_L12N_T1_MRCC_35	IO_L12N_T1_MRCC_35	J27E.K5	FMC conn.
	IO_L12P_T1_MRCC_35	IO_L12P_T1_MRCC_35	J27E.K4	FMC conn.
	IO_L13N_T2_MRCC_35	IO_L13N_T2_MRCC_35	J27C.F5	FMC conn.
	IO_L13P_T2_MRCC_35	IO_L13P_T2_MRCC_35	J27C.F4	FMC conn.
	IO_L14N_T2_AD4N_SRCC_35	IO_L14N_T2_AD4N_SRCC_35	J27C.E3	FMC conn.	FPGA_BANK35_AD4N	JP30.16	Header
	IO_L14P_T2_AD4P_SRCC_35	IO_L14P_T2_AD4P_SRCC_35	J27C.E2	FMC conn.	FPGA_BANK35_AD4P	JP30.14	Header
	IO_L15N_T2_DQS_AD12N_35	IO_L15N_T2_DQS_AD12N_35	J27D.H38	FMC conn.	FPGA_BANK35_AD12N	JP32.8	Header
	IO_L15P_T2_DQS_AD12P_35	IO_L15P_T2_DQS_AD12P_35	J27D.H37	FMC conn.	FPGA_BANK35_AD12P	JP32.6	Header
	IO_L16N_T2_35	IO_L16N_T2_35	J27D.G37	FMC conn.
	IO_L16P_T2_35	IO_L16P_T2_35	J27D.G36	FMC conn.
	IO_L17N_T2_AD5N_35	IO_L17N_T2_AD5N_35	J27E.K8	FMC conn.	FPGA_BANK35_AD5N	JP31.1	Header
	IO_L17P_T2_AD5P_35	IO_L17P_T2_AD5P_35	J27E.K7	FMC conn.	FPGA_BANK35_AD5P	JP30.15	Header
	IO_L18N_T2_AD13N_35	IO_L18N_T2_AD13N_35	J27E.J7	FMC conn.	FPGA_BANK35_AD13N	JP32.9	Header
	IO_L18P_T2_AD13P_35	IO_L18P_T2_AD13P_35	J27E.J6	FMC conn.	FPGA_BANK35_AD13P	JP32.7	Header
	IO_L19N_T3_VREF_35	IO_L19N_T3_VREF_35	J27C.F8	FMC conn.
	IO_L19N_T3_VREF_35	IO_L19N_T3_VREF_35	TP24	TP SMD
	IO_L19P_T3_35	IO_L19P_T3_35	J27C.F7	FMC conn.
	IO_L1N_T0_AD0N_35	IO_L1N_T0_AD0N_35	J27D.G25	FMC conn.	FPGA_BANK35_AD0P	JP30.4	Header
	IO_L1P_T0_AD0P_35	IO_L1P_T0_AD0P_35	J27D.G24	FMC conn.	FPGA_BANK35_AD0N	JP30.2	Header
	IO_L20N_T3_AD6N_35	IO_L20N_T3_AD6N_35	J27C.E7	FMC conn.	FPGA_BANK35_AD6N	JP31.6	Header
	IO_L20P_T3_AD6P_35	IO_L20P_T3_AD6P_35	J27C.E6	FMC conn.	FPGA_BANK35_AD6P	JP31.4	Header
	IO_L21N_T3_DQS_AD14N_35	IO_L21N_T3_DQS_AD14N_35	J27E.K11	FMC conn.	FPGA_BANK35_AD14N	JP32.14	Header
	IO_L21P_T3_DQS_AD14P_35	IO_L21P_T3_DQS_AD14P_35	J27E.K10	FMC conn.	FPGA_BANK35_AD14P	JP32.12	Header
	IO_L22N_T3_AD7N_35	IO_L22N_T3_AD7N_35	J27E.J10	FMC conn.	FPGA_BANK35_AD7N	JP31.7	Header
	IO_L22P_T3_AD7P_35	IO_L22P_T3_AD7P_35	J27E.J9	FMC conn.	FPGA_BANK35_AD7P	JP31.5	Header
	IO_L23N_T3_35	IO_L23N_T3_35	J27C.F11	FMC conn.
	IO_L23P_T3_35	IO_L23P_T3_35	J27C.F10	FMC conn.
	IO_L24N_T3_AD15N_35	IO_L24N_T3_AD15N_35	J27C.E10	FMC conn.	FPGA_BANK35_AD15N	JP32.15	Header
	IO_L24P_T3_AD15P_35	IO_L24P_T3_AD15P_35	J27C.E9	FMC conn.	FPGA_BANK35_AD15P	JP32.13	Header
	IO_L2N_T0_AD8N_35	IO_L2N_T0_AD8N_35	J27B.D24	FMC conn.	FPGA_BANK35_AD8N	JP31.12	Header
	IO_L2P_T0_AD8P_35	IO_L2P_T0_AD8P_35	J27B.D23	FMC conn.	FPGA_BANK35_AD8P	JP31.10	Header
	IO_L3N_T0_DQS_AD1N_35	IO_L3N_T0_DQS_AD1N_35	J27D.H29	FMC conn.	FPGA_BANK35_AD1N	JP30.5	Header
	IO_L3P_T0_DQS_AD1P_35	IO_L3P_T0_DQS_AD1P_35	J27D.H28	FMC conn.	FPGA_BANK35_AD1P	JP30.3	Header
	IO_L4N_T0_35	IO_L4N_T0_35	J27D.G28	FMC conn.
	IO_L4P_T0_35	IO_L4P_T0_35	J27D.G27	FMC conn.
	IO_L5N_T0_AD9N_35	IO_L5N_T0_AD9N_35	J27B.D27	FMC conn.	FPGA_BANK35_AD9N	JP31.13	Header
	IO_L5P_T0_AD9P_35	IO_L5P_T0_AD9P_35	J27B.D26	FMC conn.	FPGA_BANK35_AD9P	JP31.11	Header
	IO_L6N_T0_VREF_35	IO_L6N_T0_VREF_35	J27B.C27	FMC conn.
	IO_L6N_T0_VREF_35	IO_L6N_T0_VREF_35	TP23	TP SMD
	IO_L6P_T0_35	IO_L6P_T0_35	J27B.C26	FMC conn.
	IO_L7N_T1_AD2N_35	IO_L7N_T1_AD2N_35	J27D.H32	FMC conn.	FPGA_BANK35_AD2N	JP30.10	Header
	IO_L7P_T1_AD2P_35	IO_L7P_T1_AD2P_35	J27D.H31	FMC conn.	FPGA_BANK35_AD2P	JP30.8	Header
	IO_L8N_T1_AD10N_35	IO_L8N_T1_AD10N_35	J27D.G31	FMC conn.	FPGA_BANK35_AD10N	JP32.2	Header
	IO_L8P_T1_AD10P_35	IO_L8P_T1_AD10P_35	J27D.G30	FMC conn.	FPGA_BANK35_AD10P	JP31.16	Header
	IO_L9N_T1_DQS_AD3N_35	IO_L9N_T1_DQS_AD3N_35	J27D.H35	FMC conn.	FPGA_BANK35_AD3N	JP30.11	Header
	IO_L9P_T1_DQS_AD3P_35	IO_L9P_T1_DQS_AD3P_35	J27D.H34	FMC conn.	FPGA_BANK35_AD3P	JP30.9	Header

13 (not available on Zynq 7007S and 7010)	IO_L11P_T1_SRCC_13	IO_L23P_T3_13	JP17.3	PMOD [A]
	IO_L11N_T1_SRCC_13	IO_L23N_T3_13	JP17.4	PMOD [A]
	IO_L12P_T1_MRCC_13	IO_L9P_T1_DQS_13	JP17.2	PMOD [A]	IO_L9P_T1_DQS_13	J30.1	ONE PIECE
	IO_L12N_T1_MRCC_13	IO_L9N_T1_DQS_13	JP17.1	PMOD [A]	IO_L9N_T1_DQS_13	J30.3	ONE PIECE
	IO_L13P_T2_MRCC_13	IO_L7P_T1_13	JP17.7	PMOD [A]	IO_L7P_T1_13	J30.24	ONE PIECE
	IO_L13N_T2_MRCC_13	IO_L7N_T1_13	JP17.8	PMOD [A]	IO_L7N_T1_13	J30.26	ONE PIECE
	IO_L14P_T2_SRCC_13	IO_L15P_T2_DQS_13	n/a	ETH1_RXCK	IO_L15P_T2_DQS_13	J30.25	ONE PIECE
	IO_L14N_T2_SRCC_13	IO_L15N_T2_DQS_13	n/a	ETH1_RXCTL	IO_L15N_T2_DQS_13	J30.27	ONE PIECE
	IO_L15P_T2_DQS_13	IO_L5P_T0_13	JP17.6	PMOD [A]	IO_L5P_T0_13	J30.20	ONE PIECE
	IO_L15N_T2_DQS_13	IO_L5N_T0_13	JP17.5	PMOD [A]	IO_L5N_T0_13	J30.18	ONE PIECE
	IO_L16N_T2_13	IO_L16N_T2_13	n/a	ETH1_TXCTL	IO_L16N_T2_13	J30.31	ONE PIECE
	IO_L16P_T2_13	IO_L16P_T2_13	n/a	ETH1_TXCK	IO_L16P_T2_13	J30.29	ONE PIECE
	IO_L17N_T2_13	IO_L17N_T2_13	n/a	ETH1_RXD1	IO_L17N_T2_13	J30.35	ONE PIECE
	IO_L17P_T2_13	IO_L17P_T2_13	n/a	ETH1_RXD0	IO_L17P_T2_13	J30.33	ONE PIECE
	IO_L18N_T2_13	IO_L18N_T2_13	n/a	ETH1_RXD3	IO_L18N_T2_13	J30.39	ONE PIECE
	IO_L18P_T2_13	IO_L18P_T2_13	n/a	ETH1_RXD2	IO_L18P_T2_13	J30.37	ONE PIECE
	IO_L19N_T3_VREF_13	IO_L19N_T3_VREF_13	n/a	ETH1_TXD1	IO_L19N_T3_VREF_13	J30.43	ONE PIECE
	IO_L19P_T3_13	IO_L19P_T3_13	n/a	ETH1_TXD0	IO_L19P_T3_13	J30.41	ONE PIECE
	IO_L20N_T3_13	IO_L20N_T3_13	n/a	ETH1_TXD3	IO_L20N_T3_13	J30.47	ONE PIECE
	IO_L20P_T3_13	IO_L20P_T3_13	n/a	ETH1_TXD2	IO_L20P_T3_13	J30.45	ONE PIECE
	IO_L21N_T3_DQS_13	IO_L21N_T3_DQS_13	n/a	ETH1_MDC	IO_L21N_T3_DQS_13	J30.51	ONE PIECE
	IO_L21P_T3_DQS_13	IO_L21P_T3_DQS_13	n/a	ETH1_MDIO	IO_L21P_T3_DQS_13	J30.49	ONE PIECE
	IO_L22N_T3_13	IO_L22N_T3_13			IO_L22N_T3_13	J30.55	ONE PIECE
	IO_L22P_T3_13	IO_L22P_T3_13	n/a	DWM_WIFI_IRQ	IO_L22P_T3_13	J30.53	ONE PIECE
	IO_L6N_T0_VREF_13	IO_L6N_T0_VREF_13	JP23.3	PMOD [B]	IO_L6N_T0_VREF_13	J30.30	ONE PIECE
	IO_L6N_T0_VREF_13	IO_L6N_T0_VREF_13	n/a	USB1_OC	IO_L6N_T0_VREF_13	J30.30	ONE PIECE

BoraXEVB unavailable signals[edit | edit source]

Some BoraXEVB signals are unavailable when it is mated with Bora Lite SoM. The following signals are not routed to the SoM due to the limited pin count of the SODIMM connector.

BoraXEVB's signal that are not available when mated with Bora Lite SoM
Bank	Carrier's signal
13	IO_25_13
13	IO_L1P_T0_13
13	IO_L1N_T0_13
13	IO_L2P_T0_13
13	IO_L2N_T0_13
13	IO_L3P_T0_DQS_13
13	IO_L3N_T0_DQS_13
13	IO_L4P_T0_13
13	IO_L4N_T0_13
500	NAND_CS0/SPI0_CS1
500	NAND_IO3
500	NAND_IO4
500	NAND_IO5
500	NAND_IO6
500	NAND_IO7
500	NAND_RD_B/VCFG1
500	NAND_CLE/VCFG0

Schematics[edit | edit source]

ORCAD: BORAXEVB-1.6.1-BELK-dsn.zip
PDF : BoraXEVB-S-EVBBX0000C0R-1.6.1.pdf

Mechanical[edit | edit source]

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@@ Line 1: / Line 1: @@
 {{InfoBoxTop}}
 {{Applies To BoraX}}
+{{Applies To BoraLite}}
 {{InfoBoxBottom}}
+{{WarningMessage|text=By default, BoraXEVB comes with a Zynq 7030-based SoM when it is sold with BoraX. When it is sold with Bora Lite, it is mated with a Zynq 7020-based SoM instead.
+Nevertheless, BoarX can host different models of BoraX and Bora Lite SoM's. From the point of view of PL's I/O voltage levels, different models may not be equivalent. Please refer to [[#PL's I/O voltage selections|this section]] to avoid unsupported configurations that '''may damage the hardware permanently'''.}}
+==Introduction==
+BORA Xpress EVB is a carrier board designed to host [[BORA_Xpress_SOM|BORA Xpress system-on-module]].
+The EVB is used also as Evaluation board for the [[:Category:BoraLite | BORA Lite SOM]].
 [[File:BoraXEVB-01.png|500px|frameless|border]]
-==Introduction==
+<section begin=Block Diagram/>
-Bora Xpress EVB is a carrier board designed to host [[BORA_Xpress_SOM|Bora Xpress system-on-module]].
 ==Block Diagram==
-The following picture shows Bora Xpress EVB block diagram:
+The following picture shows BORA Xpress EVB block diagram:
 [[File:Boraxevb-block_diagram.png|thumb|center|600px|BoraXEVB simplified block diagram]]
+===Configurable routing options===
+FPGA banks #12, #34 and #35 supports different routing options as shown in the following picture.
+For a detailed description of FMC connector routing, please refer to [[#FPGA Mezzanine Card (FMC) Connector - J27|this section]].
+====BoraX====
+[[File:Boraxevb-FPGA-signals-routing.png|thumb|center|600px|Configurable routing options diagram]]
+====Bora Lite====
+[[File:Boralite-boraxevb-FPGA-signals-routing.png|center|thumb|862x862px|Configurable routing options diagram for BoraLite SoM]]
+<section end=Block Diagram/>
 == Features ==
@@ Line 46: / Line 66: @@
 |-
 | FMC connector
-| The FMC connector is the LPC version, not the HPC version listed in the specifications
+| For the [[Product_serial_number|serial numbers]] included in the range EVBBX0000C0R00A0 - EVBBX0000C0R00AB, the connector that is actually mounted on the board is the LPC version, not the HPC version listed in the specifications.
 |-
 |}
 == Connectors pinout ==
+<section begin=CPU/>
 === J1,J2 and J3 ===
-The pinout of the J1, J2 and J3 connectors of the Bora Xpress EVB is the same of the [[Pinout (BORAXpress)|counterpart connectors on BORA Xpress module]].
+The pinout of the J1, J2 and J3 connectors of the Bora Xpress EVB is the same of the [[BORA_Xpress_SOM/BORA_Xpress_Hardware/Pinout_Table#Connectors_description|counterpart connectors on BORA Xpress module]].
+<section end=CPU/>
+<section begin=Power Supply/>
 === Power supply - JP2 ===
@@ Line 73: / Line 95: @@
 |-
 |}
+<section end=Power Supply/>
+<section begin=Reset button/>
+=== Reset button - S6 ===
+S6 is the hardware reset button connected to the MRSTn signal (J2.16 SOM connector)
+<section end=Reset button/>
+<section begin=Boot Configurations/>
 === Boot mode selection - S5 ===
@@ Line 86: / Line 118: @@
 | SD-card || OFF || ON || OFF || ON || ON || OFF || ON || OFF
 |-
-| NAND || OFF || ON || OFF || ON || ON || OFF || ON || ON
+| NAND (*) || OFF || ON || OFF || ON || ON || OFF || ON || ON
 |-
 | JTAG || OFF || ON || OFF || ON || ON || ON || ON || ON
 |}
+<b>(*)</b> Boot mode from NAND in supported '''ONLY''' on [[BORA Lite SOM|BORA Lite]] SOM module
+<section end=Boot Configurations/>
+<section begin=Watchdog/>
 === WatchDog Settings - S1, S2 and S3 ===
-S1, S2 and S3 are dip-switch to override the default startup delay and timeout of the Bora Xpress module watchdog.
+S1, S2 and S3 are dip-switch to override the default startup delay and timeout of the BORA Xpress module watchdog.
-For more details please refer to [[Watchdog (BORAXpress)|this page]].
+For more details please refer to [[BORA_Xpress_SOM/BORA_Xpress_Hardware/Peripherals/Watchdog|this page]].
 {| class="wikitable"
@@ Line 127: / Line 164: @@
 | WD_SET2 = '0' || OFF || ON
 |}
+<section end=Watchdog/>
+<section begin=Ethernet0/>
 === Ethernet port #0 (ETH0) - J8 ===
@@ Line 169: / Line 209: @@
 |-
 |}
+<section end=Ethernet0/>
+<section begin=Ethernet1/>
 === Ethernet port #1 (ETH1) - J9 ===
@@ Line 212: / Line 253: @@
 |-
 |}
+<section end=Ethernet1/>
 === BANK's Power GOOD signals - J28 ===
@@ Line 243: / Line 285: @@
 |}
-=== BANK13 VDDIO selector - JP25 ===
+<section begin=JTAG/>
-JP25 is a 12-pin 6x2x2.54 pitch vertical header used for the selection - through jumpers - of the bank supply voltages. The following table reports the pinout of the connector:
+=== JTAG ===
+JTAG port is available as two different mechanical connectors:
+* 2.00mm-pitch 7x2 header (Xilinx standard)
+* 2.54mm-pitch 10x2 header (ARM standard): http://www2.lauterbach.com/pdf/arm_app_jtag.pdf
+* This port is connected to Zynq's native JTAG signals. Please note that Zynq's internal JTAG chain supports differents configurations, depending on bootstrap signals. In case split mode is selected, CPU JTAG can be routed separately via PL. For more details please refer to Zynq Technical Reference Manual.
+* JTAG on BORA Xpress EVB is also connected to the FMC connector. For more details on how to connect JTAG on a custom FMC card please refer to ANSI/VITA FPGA Mezzanine Card (FMC) Standard.
+==== JTAG XILINX - J13 ====
+J13 is a 14-pin 7x2x2 pitch vertical header. The following table reports the pinout of the connector:
 {| class="wikitable"
 |-
@@ Line 253: / Line 304: @@
 !Notes
 |-
-|2 || LDO_B13_1V6|| adds +1.6V to VDDIO_BANK13 || -
+|1, 3, 5, 7, 9, 11, 13 || DGND|| - || -
 |-
-|4 || LDO_B13_800mV|| adds +800mV to VDDIO_BANK13 || -
+|2 || 3.3V|| - || -
+|-
+|4 || JTAG_TMS|| - || -
 |-
-|6 || LDO_B13_400mV|| adds +400mV to VDDIO_BANK13 || -
+|6 || JTAG_TCK|| - || -
 |-
-|8 || LDO_B13_200mV|| adds +200mV to VDDIO_BANK13 || -
+|8 || JTAG_TDO|| - || -
 |-
-|10 || LDO_B13_100mV|| adds +100mV to VDDIO_BANK13 || -
+|10 || JTAG_TDI|| - || -
 |-
-|12 || LDO_B13_50mV|| adds +50mV to VDDIO_BANK13 || -
+|12 || N.C.|| - || -
 |-
-|1, 3, 5, 7, 9, 11 || DGND|| - || -
+|14 || JTAG_TRSTn|| - || -
 |-
 |}
-The jumper configurations are:
+==== JTAG ARM - J18 ====
-# No jumpers installed -> DC output for VDDIO_BANK13 is 500mV
+J18 is a 20-pin 10x2x2.54 pitch vertical header. The following table reports the pinout of the connector:
-# Jumper on 1-2 -> adds 1.6V to VDDIO_BANK13 above the default 500mV
-# Jumper on 3-4 -> adds 800mV to VDDIO_BANK13 above the default 500mV
-# Jumper on 5-6 -> adds 400mV to VDDIO_BANK13 above the default 500mV
-# Jumper on 7-8 -> adds 200mV to VDDIO_BANK13 above the default 500mV
-# Jumper on 9-10 -> adds 100mV to VDDIO_BANK13 above the default 500mV
-# Jumper on 11-12 -> adds 50mV to VDDIO_BANK13 above the default 500mV
-The DEFAULT configuration is VDDIO_BANK13 @ 1.8V (500mV + 800mV + 400mV + 100mV):
-# Jumper on 3-4 -> adds 800mV to VDDIO_BANK13 above the default 500mV
-# Jumper on 5-6 -> adds 400mV to VDDIO_BANK13
-# Jumper on 9-10 -> adds 100mV to VDDIO_BANK13
-=== BANK35 VDDIO selector - JP27 ===
-JP27 is a 12-pin 6x2x2.54 pitch vertical header used for the selection - through jumpers - of the bank supply voltages. The following table reports the pinout of the connector:
 {| class="wikitable"
 |-
@@ Line 293: / Line 331: @@
 !Notes
 |-
-|2 || LDO_B35_1V6|| adds +1.6V to VDDIO_BANK35 || -
+|1 || 3.3V|| - || -
+|-
+|2 || 3.3V|| - || -
+|-
+|3, 11, 17, 19 || N.C.|| - || -
 |-
-|4 || LDO_B35_800mV|| adds +800mV to VDDIO_BANK35 || -
+|4, 6 ,8 ,10 ,12,<br>14, 16, 18, 20|| DGND|| - || -
 |-
-|6 || LDO_B35_400mV|| adds +400mV to VDDIO_BANK35 || -
+|5 || JTAG_TDI|| - || -
 |-
-|8 || LDO_B35_200mV|| adds +200mV to VDDIO_BANK35 || -
+|7 || JTAG_TMS|| - || -
 |-
-|10 || LDO_B35_100mV|| adds +100mV to VDDIO_BANK35 || -
+|9 || JTAG_TCK|| - || -
 |-
-|12 || LDO_B35_50mV|| adds +50mV to VDDIO_BANK35 || -
+|13 || JTAG_TDO|| - || -
 |-
-|1, 3, 5, 7, 9, 11 || DGND|| - || -
+|15 || JTAG_TRSTn|| - || -
 |-
 |}
+<section end=JTAG/>
-The jumper configurations are:
+<section begin=Console/>
-# No jumpers installed -> DC output for VDDIO_BANK35 is 500mV
+=== UART1 - J17 ===
-# Jumper on 1-2 -> adds 1.6V to VDDIO_BANK35 above the default 500mV
-# Jumper on 3-4 -> adds 800mV to VDDIO_BANK35 above the default 500mV
-# Jumper on 5-6 -> adds 400mV to VDDIO_BANK35 above the default 500mV
-# Jumper on 7-8 -> adds 200mV to VDDIO_BANK35 above the default 500mV
-# Jumper on 9-10 -> adds 100mV to VDDIO_BANK35 above the default 500mV
-# Jumper on 11-12 -> adds 50mV to VDDIO_BANK35 above the default 500mV
-The DEFAULT configuration is VDDIO_BANK35 @ 1.8V (500mV + 800mV + 400mV + 100mV):
+J17 is a standard DB9 connector that routes the signals coming from the RS232 transceiver that is connected to the PS MIO signals of the UART1 port.
-# Jumper on 3-4 -> adds 800mV to VDDIO_BANK35 above the default 500mV
-# Jumper on 5-6 -> adds 400mV to VDDIO_BANK35
-# Jumper on 9-10 -> adds 100mV to VDDIO_BANK35
-Please note that:
-* By default VDDIO_BANK35 is supplied by VADJ Regulator
-=== VADJ VDDIO selector - JP28 ===
-JP28 is a 12-pin 6x2x2.54 pitch vertical header used for the selection - through jumpers - of the bank supply voltages. The following table reports the pinout of the connector:
 {| class="wikitable"
@@ Line 336: / Line 364: @@
 !Notes
 |-
-|2 || VADJ_FB (22K)|| selects 3.3V VADJ || -
+|1, 6, 4, 9
+|N.C.
+|N.C.
+|
 |-
-|4 || VADJ_FB (30K9)|| selects 2.5V VADJ || -
+|2
+|UART_EXT_RX
+|Receive line
+|Connected to protection diode array
 |-
-|6 || VADJ_FB (51K1)|| selects 1.8V VADJ || -
+|3
+|UART_EXT_TX
+|Transmit line
+|Connected to protection diode array
 |-
-|8 || VADJ_FB (68K)|| selects 1.5V VADJ || -
+|5
+|DGND
+|Ground
+|
 |-
-|10 || VADJ_FB (100K)|| selects 1.2V VADJ || -
+|7, 8
+|N.C.
+|N.C.
+|Connected to protection diode array
 |-
-|12 || RFU|| Reserved || -
+|}
-|-
+<section end=Console/>
-|1, 3, 5, 7, 9, 11 || DGND|| - || -
-|-
-|}
-The jumper configurations are:
+<section begin=USB OTG/>
-# Jumper on 1-2 -> supply VADJ with 3.3V
+=== USB OTG - J19 ===
-# Jumper on 3-4 -> supply VADJ with 2.5V
-# Jumper on 5-6 -> supply VADJ with 1.8V
-# Jumper on 7-8 -> supply VADJ with 1.5V
-# Jumper on 9-10 -> supply VADJ with 1.2V
-The DEFAULT configuration is:
-# Jumper on 5-6 -> supply VADJ with 1.8V
-=== JTAG ===
+J19 is a standard USB MICRO AB connector. It is connected to the BORA Xpress USB 2.0 OTG peripheral. The following table reports the pinout of the connector:
-JTAG port is available as two different mechanical connectors:
-* 2.00mm-pitch 7x2 header (Xilinx standard)
-* 2.54mm-pitch 10x2 header (ARM standard): http://www2.lauterbach.com/pdf/arm_app_jtag.pdf
-* This port is connected to Zynq's native JTAG signals. Please note that Zynq's internal JTAG chain supports differents configurations, depending on bootstrap signals. In case split mode is selected, CPU JTAG can be routed separately via PL. For more details please refer to Zynq Technical Reference Manual.
-* JTAG on Bora Xpress EVB is also connected to the FMC connector. For more details on how to connect JTAG on a custom FMC card please refer to ANSI/VITA FPGA Mezzanine Card (FMC) Standard.
-==== JTAG XILINX - J13 ====
-J13 is a 14-pin 7x2x2 pitch vertical header. The following table reports the pinout of the connector:
 {| class="wikitable"
 |-
@@ Line 380: / Line 404: @@
 !Notes
 |-
-|1, 3, 5, 7, 9, 11, 13 || DGND|| - || -
+|1 ||USB_OTG_VBUS || - || -
 |-
-|2 || 3.3V|| - || -
+|2 ||USBM1 || - || -
 |-
-|4 || JTAG_TMS|| - || -
+|3 ||USBP1 || - || -
 |-
-|6 || JTAG_TCK|| - || -
+|4 ||OTG_ID || - || -
 |-
-|8 || JTAG_TDO|| - || -
+|5 ||USB_OTG_DGND || - || -
 |-
-|10 || JTAG_TDI|| - || -
+|6, 7, 8, 9 ||USB_OTG_SHIELD || - || -
-|-
-|12 || N.C.|| - || -
-|-
-|14 || JTAG_TRSTn|| - || -
 |-
 |}
+<section end=USB OTG/>
+<section begin=micro SD/>
+=== MicroSD - J21 ===
+J21 is a microSD memory card connector. It is connected to the BORA Xpress SOM through a bidirectional 1.8V/3.3V voltage-level translator mounted on the BORA Xpress EVB. Level shifter is required because MIO signals are 1.8V. The following table reports the pinout of the connector:
-==== JTAG ARM - J18 ====
-J18 is a 20-pin 10x2x2.54 pitch vertical header. The following table reports the pinout of the connector:
 {| class="wikitable"
 |-
@@ Line 407: / Line 431: @@
 !Notes
 |-
-|1 || 3.3V|| - || -
+|1 ||PS_SD0_DAT2||| - || -
 |-
-|2 || 3.3V|| - || -
+|2 ||PS_SD0_DAT3||| - || -
 |-
-|3, 11, 17, 19 || N.C.|| - || -
+|3 ||PS_SD0_CMD||| - || -
 |-
-|4, 6 ,8 ,10 ,12,<br>14, 16, 18, 20|| DGND|| - || -
+|4 ||3.3V||| - || -
 |-
-|5 || JTAG_TDI|| - || -
+|5 ||PS_SD0_CLK||| - || -
 |-
-|7 || JTAG_TMS|| - || -
+|6, 9, 10, 11, 12 ||DGND||| - || -
 |-
-|9 || JTAG_TCK|| - || -
+|7 ||PS_SD0_DAT0||| - || -
 |-
-|13 || JTAG_TDO|| - || -
+|8 ||PS_SD0_DAT1||| - || -
 |-
-|15 || JTAG_TRSTn|| - || -
+| 13 |3.3V||| - ||  ||Pull up to 3.3V with 10K Ohm -
 |-
 |}
+<section end=micro SD/>
-=== UART1 - J17 ===
+<section begin=DWM/>
+=== DWM (DAVE Wifi/BT module) socket - J23 ===
-J17 is a standard DB9 connector that routes the signals coming from the RS232 transceiver that is connected to the PS MIO signals of the UART1 port.
+J23 is a 52991-0308 connector type (30 pins, vertical, 0.50mm picth). This socket connects the [[DWM_ADD-ON | DWM Wireless Module]] (optional) to the BORA Xpress EVB. The following table reports the pinout of the connector:
 {| class="wikitable"
@@ Line 438: / Line 463: @@
 !Notes
 |-
-|1, 6, 4, 9
+|1, 2 ||5V || - || -
-|N.C.
+|-
-|N.C.
+|3, 4 ||3.3V || - || -
-|
 |-
-|2
+|5, 6,<br> 9, 10,<br>19 ||DGND || - || -
-|UART_EXT_RX
-|Receive line
-|Connected to protection diode array
 |-
-|3
+|7 ||DWM_SD_CMD || - || -
-|UART_EXT_TX
-|Transmit line
-|Connected to protection diode array
 |-
-|5
+|8 ||DWM_SD_CLK || - || -
-|DGND
-|Ground
-|
 |-
-|7, 8
+|11 ||DWM_SD_DAT0 || - || -
-|N.C.
-|N.C.
-|Connected to protection diode array
 |-
-|}
+|12, 14,<br>16, 18,<br>20, 22 ||N.C. || - || -
+|-
-=== USB OTG - J19 ===
+|13 ||DWM_SD_DAT1 || - || -
-J19 is a standard USB MICRO AB connector. It is connected to the Bora Xpress USB 2.0 OTG peripheral. The following table reports the pinout of the connector:
-{| class="wikitable"
 |-
-!Pin#
+|15 ||DWM_SD_DAT2 || - || -
-!Pin name
-!Function
-!Notes
 |-
-|1 ||USB_OTG_VBUS || - || -
+|17 ||DWM_SD_DAT3 || - || -
 |-
-|2 ||USBM1 || - || -
+|21 ||DWM_UART_RX || - || -
 |-
-|3 ||USBP1 || - || -
+|23 ||DWM_UART_CTS || - || -
 |-
-|4 ||OTG_ID || - || -
+|24 ||DWM_BT_F5 || - || -
 |-
-|5 ||USB_OTG_DGND || - || -
+|25 ||DWM_UART_TX || - || -
 |-
-|6, 7, 8, 9 ||USB_OTG_SHIELD || - || -
+|26 ||DWM_BT_F2 || - || -
 |-
-|}
+|27 ||DWM_UART_RTS || - || -
-=== MicroSD - J21 ===
-J21 is a microSD memory card connector. It is connected to the Bora Xpress SOM through a bidirectional 1.8V/3.3V voltage-level translator mounted on the Bora Xpress EVB. Level shifter is required because MIO signals are 1.8V. The following table reports the pinout of the connector:
-{| class="wikitable"
 |-
-!Pin#
+|28 ||DWM_WIFI_IRQ || - || -
-!Pin name
-!Function
-!Notes
 |-
-|1 ||PS_SD0_DAT2||| - || -
+|29 ||DWM_BT_EN || - || -
 |-
-|2 ||PS_SD0_DAT3||| - || -
+|30 ||DWM_WIFI_EN || - || -
-|-
-|3 ||PS_SD0_CMD||| - || -
-|-
-|4 ||3.3V||| - || -
-|-
-|5 ||PS_SD0_CLK||| - || -
-|-
-|6, 9, 10, 11, 12 ||DGND||| - || -
-|-
-|7 ||PS_SD0_DAT0||| - || -
-|-
-|8 ||PS_SD0_DAT1||| - || -
-|-
-|13 |3.3V||| - ||  ||Pull up to 3.3V with 10K Ohm -
 |-
 |}
+<section end=DWM/>
+<section begin=CAN/>
-=== DWM (DAVE Wifi/BT module) socket - J23 ===
+=== CAN - J24 ===
-J23 is a 52991-0308 connector type (30 pins, vertical, 0.50mm picth). This socket connects the [[Wireless_Module_(DWM) | DWM Wireless Module]] (optional) to the Bora Xpress EVB. The following table reports the pinout of the connector:
+J24 is a 10-pin 5x2x2.54mm pitch vertical header directly connected to BORA Xpress SoM's transceiver for the CAN interface. This 2.5mm-pitch header is compatible with commonly available IDC-10/DB9 flat cables. The following table reports the pinout of the connector:
 {| class="wikitable"
@@ Line 531: / Line 516: @@
 !Notes
 |-
-|1, 2 ||5V || - || -
+|1, 6,<br>7, 8,<br>9, 10 ||N.C. || - || -
 |-
-|3, 4 ||3.3V || - || -
+|2, 5 ||CAN_SHIELD || - || -
 |-
-|5, 6,<br> 9, 10,<br>19 ||DGND || - || -
+|3 ||CAN_L  || - || -
 |-
-|7 ||DWM_SD_CMD || - || -
+|4 ||CAN_H  || - || -
 |-
-|8 ||DWM_SD_CLK || - || -
+|}
+<section end=CAN/>
+<section begin=Touchscreen/>
+=== Touch screen - J25===
+J25 is a ZIF 4-pin 1.0mm pitch connector that connects the touchscreen drive lines to the touch screen controller on the BoORA Xpress EVB. The following table reports the pinout of the connector:
+{| class="wikitable"
 |-
-|11 ||DWM_SD_DAT0 || - || -
+!Pin#
+!Pin name
+!Function
+!Notes
 |-
-|12, 14,<br>16, 18,<br>20, 22 ||N.C. || - || -
+|1 ||TSC_YP || - || -
 |-
-|13 ||DWM_SD_DAT1 || - || -
+|2 ||TSC_XP || - || -
 |-
-|15 ||DWM_SD_DAT2 || - || -
+|3 ||TSC_YM || - || -
 |-
-|17 ||DWM_SD_DAT3 || - || -
+|4 ||TSC_XM || - || -
 |-
-|21 ||DWM_UART_RX || - || -
+|}
+<section end=Touchscreen/>
+<section begin=LVDS/>
+=== LVDS - J26 ===
+J26 is a vertical double row straight 20-pin 1.25mm pitch header. This interface shows how to implement a differential connection to an LCD screen. As known, Zynq does not implement an LCD controller, however this can be integrated in FPGA fabric as shown by this example: https://wiki.analog.com/resources/tools-software/linux-drivers/platforms/zynq. The following table reports the pinout of the connector:
+{| class="wikitable"
 |-
-|23 ||DWM_UART_CTS || - || -
+!Pin#
+!Pin name
+!Function
+!Notes
 |-
-|24 ||DWM_BT_F5 || - || -
+|1, 2 ||3.3V_LCD || - || -
 |-
-|25 ||DWM_UART_TX || - || -
+|3, 4, 7, 10,<br>13, 16, 19 ||DGND || Ground || -
 |-
-|26 ||DWM_BT_F2 || - || -
+|5 ||LCD_LVDS_D0- || - || -
 |-
-|27 ||DWM_UART_RTS || - || -
+|6 ||LCD_LVDS_D0+ || - || -
 |-
-|28 ||DWM_WIFI_IRQ || - || -
+|8 ||LCD_LVDS_D1- || - || -
 |-
-|29 ||DWM_BT_EN || - || -
+|9 ||LCD_LVDS_D1+ || - || -
 |-
-|30 ||DWM_WIFI_EN || - || -
+|11 ||LCD_LVDS_D2- || - || -
 |-
-|}
+|12 ||LCD_LVDS_D2+ || - || -
-=== CAN - J24 ===
-J24 is a 10-pin 5x2x2.54mm pitch vertical header directly connected to Bora Xpress SoM's transceiver for the CAN interface. This 2.5mm-pitch header is compatible with commonly available IDC-10/DB9 flat cables. The following table reports the pinout of the connector:
-{| class="wikitable"
 |-
-!Pin#
+|14 ||LCD_LVDS_CLK- || - || -
-!Pin name
-!Function
-!Notes
 |-
-|1, 6,<br>7, 8,<br>9, 10 ||N.C. || - || -
+|15 ||LCD_LVDS_CLK+ || - || -
 |-
-|2, 5 ||CAN_SHIELD || - || -
+|17 ||LCD_P17 || - || -
 |-
-|3 ||CAN_L  || - || -
+|18 ||LCD_P18 || - || -
 |-
-|4 ||CAN_H  || - || -
+|20 ||LCD_P20 || - || -
+|-
+|21,22 ||DGND || Ground || Shield
 |-
 |}
+<section end=LVDS/>
+<section begin=FMC/>
+=== FPGA Mezzanine Card (FMC) Connector - J27 ===
+J27 is a 400 pins ANSI/VITA 57.1-2008 FPGA Mezzanine Card Connector that allows to connect to standard I/O mezzanine cards.
+Please note that BoraXpress EVB FMC Connector is:
+* fully compliant to FMC LPC
+* partially compliant to FMC HPC because HPC side is not fully populated.
+The following tables detail how BORA Xpress signals have been routed to FMC connector. At this [[:File:BoraXEVB-FMC-routing.zip|link]] a spreadsheet providing the same information is available for download.
+For more information about I/O voltage of single-ended signals available on FMC connector, please refer to [[#PL's I/O voltage selections|this section]].
-=== Touch screen - J25===
+==== HPC Row A ====
-J25 is a ZIF 4-pin 1.0mm pitch connector that connects the touchscreen drive lines to the touch screen controller on the Bora Xpress EVB. The following table reports the pinout of the connector:
 {| class="wikitable"
@@ Line 601: / Line 609: @@
 !Notes
 |-
-|1 ||TSC_YP || - || -
+| A1||DGND||GND||
+|-
+| A2||MGTxRXP1||DP1_M2C_P||
 |-
-|2 ||TSC_XP || - || -
+| A3||MGTxRXN1||DP1_M2C_N||
 |-
-|3 ||TSC_YM || - || -
+| A4||DGND||GND||
 |-
-|4 ||TSC_XM || - || -
+| A5||DGND||GND||
 |-
-|}
+| A6||MGTxRXP2||DP2_M2C_P||
-=== LVDS - J26 ===
-J26 is a vertical double row straight 20-pin 1.25mm pitch header. This interface shows how to implement a differential connection to an LCD screen. As known, Zynq does not implement an LCD controller, however this can be integrated in FPGA fabric as shown by this example: https://wiki.analog.com/resources/tools-software/linux-drivers/platforms/zynq. The following table reports the pinout of the connector:
-{| class="wikitable"
 |-
-!Pin#
+| A7||MGTxRXN2||DP2_M2C_N||
-!Pin name
+|-
-!Function
+| A8||DGND||GND||
-!Notes
 |-
-|1, 2 ||3.3V_LCD || - || -
+| A9||DGND||GND||
 |-
-|3, 4, 7, 10,<br>13, 16, 19 ||DGND || Ground || -
+| A10||MGTxRXP3||DP3_M2C_P||
 |-
-|5 ||LCD_LVDS_D0- || - || -
+| A11||MGTxRXN3||DP3_M2C_N||
 |-
-|6 ||LCD_LVDS_D0+ || - || -
+| A12||DGND||GND||
 |-
-|8 ||LCD_LVDS_D1- || - || -
+| A13||DGND||GND||
 |-
-|9 ||LCD_LVDS_D1+ || - || -
+| A14||<span style="color:#ff0000">not connected</span>||DP4_M2C_P||
 |-
-|11 ||LCD_LVDS_D2- || - || -
+| A15||<span style="color:#ff0000">not connected</span>||DP4_M2C_N||
 |-
-|12 ||LCD_LVDS_D2+ || - || -
+| A16||DGND||GND||
 |-
-|15 ||LCD_LVDS_CLK+ || - || -
+| A17||DGND||GND||
 |-
-|17 ||LCD_P17 || - || -
+| A18||<span style="color:#ff0000">not connected</span>||DP5_M2C_P||
 |-
-|18 ||LCD_P18 || - || -
+| A19||<span style="color:#ff0000">not connected</span>||DP5_M2C_N||
 |-
-|20 ||LCD_P20 || - || -
+| A20||DGND||GND||
 |-
-|21,22 ||DGND || Ground || Shield
+| A21||DGND||GND||
 |-
-|}
+| A22||MGTxTXP1||DP1_C2M_P||
-=== FPGA Mezzanine Card (FMC) Connector - J27 ===
-J27 is a 400 pins ANSI/VITA 57.1-2008 FPGA Mezzanine Card Connector that allows to connect to standard I/O mezzanine cards.
-Please note that BoraXpress EVB FMC Connector is:
-* fully compliant to FMC LPC
-* partially compliant to FMC HPC because HPC side is not fully populated.
-==== HPC Row A ====
-{| class="wikitable"
 |-
-!Pin#
+| A23||MGTxTXN1||DP1_C2M_N||
-!Pin name
-!Function
-!Notes
 |-
-| A1||DGND||GND||
+| A24||DGND||GND||
 |-
-| A2||MGTxRXP1||DP1_M2C_P||
+| A25||DGND||GND||
 |-
-| A3||MGTxRXN1||DP1_M2C_N||
+| A26||MGTxTXP2||DP2_C2M_P||
 |-
-| A4||DGND||GND||
+| A27||MGTxTXN2||DP2_C2M_N||
 |-
-| A5||DGND||GND||
+| A28||DGND||GND||
 |-
-| A6||MGTxRXP2||DP2_M2C_P||
+| A29||DGND||GND||
 |-
-| A7||MGTxRXN2||DP2_M2C_N||
+| A30||MGTxTXP3||DP3_C2M_P||
 |-
-| A8||DGND||GND||
+| A31||MGTxTXN3||DP3_C2M_N||
 |-
-| A9||DGND||GND||
+| A32||DGND||GND||
 |-
-| A10||MGTxRXP3||DP3_M2C_P||
+| A33||DGND||GND||
 |-
-| A11||MGTxRXN3||DP3_M2C_N||
+| A34||<span style="color:#ff0000">not connected</span>||DP4_C2M_P||
 |-
-| A12||DGND||GND||
+| A35||<span style="color:#ff0000">not connected</span>||DP4_C2M_N||
 |-
-| A13||DGND||GND||
+| A36||DGND||GND||
 |-
-| A14||NC||DP4_M2C_P||
+| A37||DGND||GND||
 |-
-| A15||NC||DP4_M2C_N||
+| A38||<span style="color:#ff0000">not connected</span>||DP5_C2M_P||
 |-
-| A16||DGND||GND||
+| A39||<span style="color:#ff0000">not connected</span>||DP5_C2M_N||
 |-
-| A17||DGND||GND||
+| A40||DGND||GND||
+|}
+==== HPC Row B ====
+{| class="wikitable"
 |-
-| A18||NC||DP5_M2C_P||
+!Pin#
+!Pin name
+!Function
+!Notes
 |-
-| A19||NC||DP5_M2C_N||
+| B1||RSVD||RES1||
 |-
-| A20||DGND||GND||
+| B2||DGND||GND||
 |-
-| A21||DGND||GND||
+| B3||DGND||GND||
 |-
-| A22||MGTxTXP1||DP1_C2M_P||
+| B4||<span style="color:#ff0000">not connected</span>||DP9_M2C_P||
 |-
-| A23||MGTxTXN1||DP1_C2M_N||
+| B5||<span style="color:#ff0000">not connected</span>||DP9_M2C_N||
 |-
-| A24||DGND||GND||
+| B6||DGND||GND||
 |-
-| A25||DGND||GND||
+| B7||DGND||GND||
 |-
-| A26||MGTxTXP2||DP2_C2M_P||
+| B8||<span style="color:#ff0000">not connected</span>||DP8_M2C_P||
 |-
-| A27||MGTxTXN2||DP2_C2M_N||
+| B9||<span style="color:#ff0000">not connected</span>||DP8_M2C_N||
 |-
-| A28||DGND||GND||
+| B10||DGND||GND||
 |-
-| A29||DGND||GND||
+| B11||DGND||GND||
 |-
-| A30||MGTxTXP3||DP3_C2M_P||
+| B12||<span style="color:#ff0000">not connected</span>||DP7_M2C_P||
 |-
-| A31||MGTxTXN3||DP3_C2M_N||
+| B13||<span style="color:#ff0000">not connected</span>||DP7_M2C_N||
 |-
-| A32||DGND||GND||
+| B14||DGND||GND||
 |-
-| A33||DGND||GND||
+| B15||DGND||GND||
 |-
-| A34||NC||DP4_C2M_P||
+| B16||<span style="color:#ff0000">not connected</span>||DP6_M2C_P||
 |-
-| A35||NC||DP4_C2M_N||
+| B17||<span style="color:#ff0000">not connected</span>||DP6_M2C_N||
 |-
-| A36||DGND||GND||
+| B18||DGND||GND||
 |-
-| A37||DGND||GND||
+| B19||DGND||GND||
 |-
-| A38||NC||DP5_C2M_P||
+| B20||MGTREFCLK1P||GBTCLK1_M2C_P||
 |-
-| A39||NC||DP5_C2M_N||
+| B21||MGTREFCLK1N||GBTCLK1_M2C_N||
 |-
-| A40||DGND||GND||
+| B22||DGND||GND||
-|}
-==== HPC Row B ====
-{| class="wikitable"
 |-
-!Pin#
+| B23||DGND||GND||
-!Pin name
-!Function
-!Notes
 |-
-| B1||RSVD||RES1||
+| B24||<span style="color:#ff0000">not connected</span>||DP9_C2M_P||
 |-
-| B2||DGND||GND||
+| B25||<span style="color:#ff0000">not connected</span>||DP9_C2M_N||
 |-
-| B3||DGND||GND||
+| B26||DGND||GND||
 |-
-| B4||NC||DP9_M2C_P||
+| B27||DGND||GND||
 |-
-| B5||NC||DP9_M2C_N||
+| B28||<span style="color:#ff0000">not connected</span>||DP8_C2M_P||
 |-
-| B6||DGND||GND||
+| B29||<span style="color:#ff0000">not connected</span>||DP8_C2M_N||
 |-
-| B7||DGND||GND||
+| B30||DGND||GND||
 |-
-| B8||NC||DP8_M2C_P||
+| B31||DGND||GND||
 |-
-| B9||NC||DP8_M2C_N||
+| B32||<span style="color:#ff0000">not connected</span>||DP7_C2M_P||
 |-
-| B10||DGND||GND||
+| B33||<span style="color:#ff0000">not connected</span>||DP7_C2M_N||
 |-
-| B11||DGND||GND||
+| B34||DGND||GND||
 |-
-| B12||NC||DP7_M2C_P||
+| B35||DGND||GND||
 |-
-| B13||NC||DP7_M2C_N||
+| B36||<span style="color:#ff0000">not connected</span>||DP6_C2M_P||
 |-
-| B14||DGND||GND||
+| B37||<span style="color:#ff0000">not connected</span>||DP6_C2M_N||
 |-
-| B15||DGND||GND||
+| B38||DGND||GND||
 |-
-| B16||NC||DP6_M2C_P||
+| B39||DGND||GND||
 |-
-| B17||NC||DP6_M2C_N||
+| B40||RSVD||RES0||
+|}
+==== LPC Row C ====
+{| class="wikitable"
 |-
-| B18||DGND||GND||
+!Pin#
+!Pin name
+!Function
+!Notes
 |-
-| B19||DGND||GND||
+| C1||DGND||GND||
 |-
-| B20||MGTREFCLK1P||GBTCLK1_M2C_P||
+| C2||MGTxTXP0||DP0_C2M_P||
 |-
-| B21||MGTREFCLK1N||GBTCLK1_M2C_N||
+| C3||MGTxTXN0||DP0_C2M_N||
 |-
-| B22||DGND||GND||
+| C4||DGND||GND||
 |-
-| B23||DGND||GND||
+| C5||DGND||GND||
 |-
-| B24||NC||DP9_C2M_P||
+| C6||MGTxRXP0||DP0_M2C_P||
 |-
-| B25||NC||DP9_C2M_N||
+| C7||MGTxRXN0||DP0_M2C_N||
 |-
-| B26||DGND||GND||
+| C8||DGND||GND||
 |-
-| B27||DGND||GND||
+| C9||DGND||GND||
 |-
-| B28||NC||DP8_C2M_P||
+| C10||IO_L23P_T3_34||LA06_P||
 |-
-| B29||NC||DP8_C2M_N||
+| C11||IO_L23N_T3_34||LA06_N||
 |-
-| B30||DGND||GND||
+| C12||DGND||GND||
 |-
-| B31||DGND||GND||
+| C13||DGND||GND||
 |-
-| B32||NC||DP7_C2M_P||
+| C14||IO_L2P_T0_34||LA10_P||
 |-
-| B33||NC||DP7_C2M_N||
+| C15||IO_L2N_T0_34||LA10_N||
 |-
-| B34||DGND||GND||
+| C16||DGND||GND||
 |-
-| B35||DGND||GND||
+| C17||DGND||GND||
 |-
-| B36||NC||DP6_C2M_P||
+| C18||IO_L1P_T0_34||LA14_P||
 |-
-| B37||NC||DP6_C2M_N||
+| C19||IO_L1N_T0_34||LA14_N||
 |-
-| B38||DGND||GND||
+| C20||DGND||GND||
 |-
-| B39||DGND||GND||
+| C21||DGND||GND||
 |-
-| B40||RSVD||RES0||
+| C22||IO_L16P_T2_34||LA18_P_CC||
-|}
-==== LPC Row C ====
-{| class="wikitable"
 |-
-!Pin#
+| C23||IO_L16N_T2_34||LA18_N_CC||
-!Pin name
-!Function
-!Notes
 |-
-| C1||DGND||GND||
+| C24||DGND||GND||
 |-
-| C2||MGTxTXP0||DP0_C2M_P||
+| C25||DGND||GND||
 |-
-| C3||MGTxTXN0||DP0_C2M_N||
+| C26||IO_L6P_T0_35||LA27_P||
 |-
-| C4||DGND||GND||
+| C27||IO_L6N_T0_VREF_35||LA27_N||
 |-
-| C5||DGND||GND||
+| C28||DGND||GND||
 |-
-| C6||MGTxRXP0||DP0_M2C_P||
+| C29||DGND||GND||
 |-
-| C7||MGTxRXN0||DP0_M2C_N||
+| C30||I2C0_SCL||SCL||
 |-
-| C8||DGND||GND||
+| C31||I2C0_SDA||SDA||
 |-
-| C9||DGND||GND||
+| C32||DGND||GND||
 |-
-| C10||IO_L23P_T3_34||LA06_P||
+| C33||DGND||GND||
 |-
-| C11||IO_L23N_T3_34||LA06_N||
+| C34||GA0||GA0||
 |-
-| C12||DGND||GND||
+| C35||FMC_12P0V||12P0V||
 |-
-| C13||DGND||GND||
+| C36||DGND||GND||
 |-
-| C14||IO_L2P_T0_34||LA10_P||
+| C37||FMC_12P0V||12P0V||
 |-
-| C15||IO_L2N_T0_34||LA10_N||
+| C38||DGND||GND||
 |-
-| C16||DGND||GND||
+| C39||FMC_3P3V||3P3V||
 |-
-| C17||DGND||GND||
+| C40||DGND||GND||
+|}
+==== LPC Row D ====
+{| class="wikitable"
 |-
-| C18||IO_L1P_T0_34||LA14_P||
+!Pin#
+!Pin name
+!Function
+!Notes
 |-
-| C19||IO_L1N_T0_34||LA14_N||
+| D1||IO_25_VRP_34||PG_C2M||
 |-
-| C20||DGND||GND||
+| D2||DGND||GND||
 |-
-| C21||DGND||GND||
+| D3||DGND||GND||
 |-
-| C22||IO_L16P_T2_34||LA18_P_CC||
+| D4||MGTREFCLK0P||GBTCLK0_M2C_P||
 |-
-| C23||IO_L16N_T2_34||LA18_N_CC||
+| D5||MGTREFCLK0N||GBTCLK0_M2C_N||
 |-
-| C24||DGND||GND||
+| D6||DGND||GND||
 |-
-| C25||DGND||GND||
+| D7||DGND||GND||
 |-
-| C26||IO_L6P_T0_35||LA27_P||
+| D8||IO_L14P_T2_SRCC_34||LA01_P_CC||
 |-
-| C27||IO_L6N_T0_VREF_35||LA27_N||
+| D9||IO_L14N_T2_SRCC_34||LA01_N_CC||
 |-
-| C28||DGND||GND||
+| D10||DGND||GND||
 |-
-| C29||DGND||GND||
+| D11||IO_L9P_T1_DQS_34||LA05_P||
 |-
-| C30||I2C0_SCL||SCL||
+| D12||IO_L9N_T1_DQS_34||LA05_N||
 |-
-| C31||I2C0_SDA||SDA||
+| D13||DGND||GND||
 |-
-| C32||DGND||GND||
+| D14||IO_L6P_T0_34||LA09_P||
 |-
-| C33||DGND||GND||
+| D15||IO_L6N_T0_VREF_34||LA09_N||
 |-
-| C34||GA0||GA0||
+| D16||DGND||GND||
 |-
-| C35||FMC_12P0V||12P0V||
+| D17||IO_L20P_T3_34||LA13_P||
 |-
-| C36||DGND||GND||
+| D18||IO_L20N_T3_34||LA13_N||
 |-
-| C37||FMC_12P0V||12P0V||
+| D19||DGND||GND||
 |-
-| C38||DGND||GND||
+| D20||IO_L15P_T2_DQS_34||LA17_P_CC||
 |-
-| C39||FMC_3P3V||3P3V||
+| D21||IO_L15N_T2_DQS_34||LA17_N_CC||
 |-
-| C40||DGND||GND||
+| D22||DGND||GND||
-|}
-==== LPC Row D ====
-{| class="wikitable"
 |-
-!Pin#
+| D23||IO_L2P_T0_AD8P_35||LA23_P||
-!Pin name
-!Function
-!Notes
 |-
-| D1||IO_25_VRP_34||PG_C2M||
+| D24||IO_L2N_T0_AD8N_35||LA23_N||
 |-
-| D2||DGND||GND||
+| D25||DGND||GND||
 |-
-| D3||DGND||GND||
+| D26||IO_L5P_T0_AD9P_35||LA26_P||
 |-
-| D4||MGTREFCLK0P||GBTCLK0_M2C_P||
+| D27||IO_L5N_T0_AD9N_35||LA26_N||
 |-
-| D5||MGTREFCLK0N||GBTCLK0_M2C_N||
+| D28||DGND||GND||
 |-
-| D6||DGND||GND||
+| D29||JTAG_TCK||TCK||
 |-
-| D7||DGND||GND||
+| D30||JTAG_TDI||TDI||
 |-
-| D8||IO_L14P_T2_SRCC_34||LA01_P_CC||
+| D31||FMC_TDO_ZYNQ_TDI||TDO||
 |-
-| D9||IO_L14N_T2_SRCC_34||LA01_N_CC||
+| D32||FMC_3P3VAUX||3P3VAUX||
 |-
-| D10||DGND||GND||
+| D33||JTAG_TMS||TMS||
 |-
-| D11||IO_L9P_T1_DQS_34||LA05_P||
+| D34||JTAG_TRSTn||TRST_L||
 |-
-| D12||IO_L9N_T1_DQS_34||LA05_N||
+| D35||GA0||GA1||
 |-
-| D13||DGND||GND||
+| D36||FMC_3P3V||3P3V||
 |-
-| D14||IO_L6P_T0_34||LA09_P||
+| D37||DGND||GND||
 |-
-| D15||IO_L6N_T0_VREF_34||LA09_N||
+| D38||FMC_3P3V||3P3V||
 |-
-| D16||DGND||GND||
+| D39||DGND||GND||
 |-
-| D17||IO_L20P_T3_34||LA13_P||
+| D40||FMC_3P3V||3P3V||
+|}
+==== HPC Row E ====
+{| class="wikitable"
 |-
-| D18||IO_L20N_T3_34||LA13_N||
+!Pin#
+!Pin name
+!Function
+!Notes
 |-
-| D19||DGND||GND||
+| E1||DGND||GND||
 |-
-| D20||IO_L15P_T2_DQS_34||LA17_P_CC||
+| E2||IO_L14P_T2_AD4P_SRCC_35||HA01_P_CC||
 |-
-| D21||IO_L15N_T2_DQS_34||LA17_N_CC||
+| E3||IO_L14N_T2_AD4N_SRCC_35||HA01_N_CC||
 |-
-| D22||DGND||GND||
+| E4||DGND||GND||
 |-
-| D23||IO_L2P_T0_AD8P_35||LA23_P||
+| E5||DGND||GND||
 |-
-| D24||IO_L2N_T0_AD8N_35||LA23_N||
+| E6||IO_L20P_T3_AD6P_35||HA05_P||
 |-
-| D25||DGND||GND||
+| E7||IO_L20N_T3_AD6N_35||HA05_N||
 |-
-| D26||IO_L5P_T0_AD9P_35||LA26_P||
+| E8||DGND||GND||
 |-
-| D27||IO_L5N_T0_AD9N_35||LA26_N||
+| E9||IO_L24P_T3_AD15P_35||HA09_P||
 |-
-| D28||DGND||GND||
+| E10||IO_L24N_T3_AD15N_35||HA09_N||
 |-
-| D29||JTAG_TCK||TCK||
+| E11||DGND||GND||
 |-
-| D30||JTAG_TDI||TDI||
+| E12||<span style="color:#ff0000">not connected</span>||HA13_P||
 |-
-| D31||FMC_TDO_ZYNQ_TDI||TDO||
+| E13||<span style="color:#ff0000">not connected</span>||HA13_N||
 |-
-| D32||FMC_3P3VAUX||3P3VAUX||
+| E14||DGND||GND||
 |-
-| D33||JTAG_TMS||TMS||
+| E15||<span style="color:#ff0000">not connected</span>||HA16_P||
 |-
-| D34||JTAG_TRSTn||TRST_L||
+| E16||<span style="color:#ff0000">not connected</span>||HA16_N||
 |-
-| D35||GA0||GA1||
+| E17||DGND||GND||
 |-
-| D36||FMC_3P3V||3P3V||
+| E18||<span style="color:#ff0000">not connected</span>||HA20_P||
 |-
-| D37||DGND||GND||
+| E19||<span style="color:#ff0000">not connected</span>||HA20_N||
 |-
-| D38||FMC_3P3V||3P3V||
+| E20||DGND||GND||
 |-
-| D39||DGND||GND||
+| E21||<span style="color:#ff0000">not connected</span>||HB03_P||
 |-
-| D40||FMC_3P3V||3P3V||
+| E22||<span style="color:#ff0000">not connected</span>||HB03_N||
-|}
-==== HPC Row E ====
-{| class="wikitable"
 |-
-!Pin#
+| E23||DGND||GND||
-!Pin name
-!Function
-!Notes
 |-
-| E1||DGND||GND||
+| E24||<span style="color:#ff0000">not connected</span>||HB05_P||
 |-
-| E2||IO_L14P_T2_AD4P_SRCC_35||HA01_P_CC||
+| E25||<span style="color:#ff0000">not connected</span>||HB05_N||
 |-
-| E3||IO_L14N_T2_AD4N_SRCC_35||HA01_N_CC||
+| E26||DGND||GND||
 |-
-| E4||DGND||GND||
+| E27||<span style="color:#ff0000">not connected</span>||HB09_P||
 |-
-| E5||DGND||GND||
+| E28||<span style="color:#ff0000">not connected</span>||HB09_N||
 |-
-| E6||IO_L20P_T3_AD6P_35||HA05_P||
+| E29||DGND||GND||
 |-
-| E7||IO_L20N_T3_AD6N_35||HA05_N||
+| E30||<span style="color:#ff0000">not connected</span>||HB13_P||
 |-
-| E8||DGND||GND||
+| E31||<span style="color:#ff0000">not connected</span>||HB13_N||
 |-
-| E9||IO_L24P_T3_AD15P_35||HA09_P||
+| E32||DGND||GND||
 |-
-| E10||IO_L24N_T3_AD15N_35||HA09_N||
+| E33||<span style="color:#ff0000">not connected</span>||HB19_P||
 |-
-| E11||DGND||GND||
+| E34||<span style="color:#ff0000">not connected</span>||HB19_N||
 |-
-| E12||NC||HA13_P||
+| E35||DGND||GND||
 |-
-| E13||NC||HA13_N||
+| E36||<span style="color:#ff0000">not connected</span>||HB21_P||
 |-
-| E14||DGND||GND||
+| E37||<span style="color:#ff0000">not connected</span>||HB21_N||
 |-
-| E15||NC||HA16_P||
+| E38||DGND||GND||
-|-
-| E16||NC||HA16_N||
-|-
-| E17||DGND||GND||
-|-
-| E18||NC||HA20_P||
-|-
-| E19||NC||HA20_N||
-|-
-| E20||DGND||GND||
-|-
-| E21||NC||HB03_P||
-|-
-| E22||NC||HB03_N||
-|-
-| E23||DGND||GND||
-|-
-| E24||NC||HB05_P||
-|-
-| E25||NC||HB05_N||
-|-
-| E26||DGND||GND||
-|-
-| E27||NC||HB09_P||
-|-
-| E28||NC||HB09_N||
-|-
-| E29||DGND||GND||
-|-
-| E30||NC||HB13_P||
-|-
-| E31||NC||HB13_N||
-|-
-| E32||DGND||GND||
-|-
-| E33||NC||HB19_P||
-|-
-| E34||NC||HB19_N||
-|-
-| E35||DGND||GND||
-|-
-| E36||NC||HB21_P||
-|-
-| E37||NC||HB21_N||
-|-
-| E38||DGND||GND||
 |-
 | E39||FMC_VADJ||VADJ||
@@ Line 1,139: / Line 1,083: @@
 | F12||DGND||GND||
 |-
-| F13||NC||HA12_P||
+| F13||<span style="color:#ff0000">not connected</span>||HA12_P||
 |-
-| F14||NC||HA12_N||
+| F14||<span style="color:#ff0000">not connected</span>||HA12_N||
 |-
 | F15||DGND||GND||
 |-
-| F16||NC||HA15_P||
+| F16||<span style="color:#ff0000">not connected</span>||HA15_P||
 |-
-| F17||NC||HA15_N||
+| F17||<span style="color:#ff0000">not connected</span>||HA15_N||
 |-
 | F18||DGND||GND||
 |-
-| F19||NC||HA19_P||
+| F19||<span style="color:#ff0000">not connected</span>||HA19_P||
 |-
-| F20||NC||HA19_N||
+| F20||<span style="color:#ff0000">not connected</span>||HA19_N||
 |-
 | F21||DGND||GND||
 |-
-| F22||NC||HB02_P||
+| F22||<span style="color:#ff0000">not connected</span>||HB02_P||
 |-
-| F23||NC||HB02_N||
+| F23||<span style="color:#ff0000">not connected</span>||HB02_N||
 |-
 | F24||DGND||GND||
 |-
-| F25||NC||HB04_P||
+| F25||<span style="color:#ff0000">not connected</span>||HB04_P||
 |-
-| F26||NC||HB04_N||
+| F26||<span style="color:#ff0000">not connected</span>||HB04_N||
 |-
 | F27||DGND||GND||
 |-
-| F28||NC||HB08_P||
+| F28||<span style="color:#ff0000">not connected</span>||HB08_P||
 |-
-| F29||NC||HB08_N||
+| F29||<span style="color:#ff0000">not connected</span>||HB08_N||
 |-
 | F30||DGND||GND||
 |-
-| F31||NC||HB12_P||
+| F31||<span style="color:#ff0000">not connected</span>||HB12_P||
 |-
-| F32||NC||HB12_N||
+| F32||<span style="color:#ff0000">not connected</span>||HB12_N||
 |-
 | F33||DGND||GND||
 |-
-| F34||NC||HB16_P||
+| F34||<span style="color:#ff0000">not connected</span>||HB16_P||
 |-
-| F35||NC||HB16_N||
+| F35||<span style="color:#ff0000">not connected</span>||HB16_N||
 |-
 | F36||DGND||GND||
 |-
-| F37||NC||HB20_P||
+| F37||<span style="color:#ff0000">not connected</span>||HB20_P||
 |-
-| F38||NC||HB20_N||
+| F38||<span style="color:#ff0000">not connected</span>||HB20_N||
 |-
 | F39||DGND||GND||
@@ Line 1,407: / Line 1,351: @@
 | J11||DGND||GND||
 |-
-| J12||NC||HA11_P||
+| J12||<span style="color:#ff0000">not connected</span>||HA11_P||
 |-
-| J13||NC||HA11_N||
+| J13||<span style="color:#ff0000">not connected</span>||HA11_N||
 |-
 | J14||DGND||GND||
 |-
-| J15||NC||HA14_P||
+| J15||<span style="color:#ff0000">not connected</span>||HA14_P||
 |-
-| J16||NC||HA14_N||
+| J16||<span style="color:#ff0000">not connected</span>||HA14_N||
 |-
 | J17||DGND||GND||
 |-
-| J18||NC||HA18_P||
+| J18||<span style="color:#ff0000">not connected</span>||HA18_P||
 |-
-| J19||NC||HA18_N||
+| J19||<span style="color:#ff0000">not connected</span>||HA18_N||
 |-
 | J20||DGND||GND||
 |-
-| J21||NC||HA22_P||
+| J21||<span style="color:#ff0000">not connected</span>||HA22_P||
 |-
-| J22||NC||HA22_N||
+| J22||<span style="color:#ff0000">not connected</span>||HA22_N||
 |-
 | J23||DGND||GND||
 |-
-| J24||NC||HB01_P||
+| J24||<span style="color:#ff0000">not connected</span>||HB01_P||
 |-
-| J25||NC||HB01_N||
+| J25||<span style="color:#ff0000">not connected</span>||HB01_N||
 |-
 | J26||DGND||GND||
 |-
-| J27||NC||HB07_P||
+| J27||<span style="color:#ff0000">not connected</span>||HB07_P||
 |-
-| J28||NC||HB07_N||
+| J28||<span style="color:#ff0000">not connected</span>||HB07_N||
 |-
 | J29||DGND||GND||
 |-
-| J30||NC||HB11_P||
+| J30||<span style="color:#ff0000">not connected</span>||HB11_P||
 |-
-| J31||NC||HB11_N||
+| J31||<span style="color:#ff0000">not connected</span>||HB11_N||
 |-
 | J32||DGND||GND||
 |-
-| J33||NC||HB15_P||
+| J33||<span style="color:#ff0000">not connected</span>||HB15_P||
 |-
-| J34||NC||HB15_N||
+| J34||<span style="color:#ff0000">not connected</span>||HB15_N||
 |-
 | J35||DGND||GND||
 |-
-| J36||NC||HB18_P||
+| J36||<span style="color:#ff0000">not connected</span>||HB18_P||
 |-
-| J37||NC||HB18_N||
+| J37||<span style="color:#ff0000">not connected</span>||HB18_N||
 |-
 | J38||DGND||GND||
 |-
-| J39||NC||VIO_B_M2C||
+| J39||<span style="color:#ff0000">not connected</span>||VIO_B_M2C||
 |-
 | J40||DGND||GND||
@@ Line 1,475: / Line 1,419: @@
 !Notes
 |-
-| K1||NC||VREF_B_M2C||
+| K1||<span style="color:#ff0000">not connected</span>||VREF_B_M2C||
 |-
 | K2||DGND||GND||
@@ Line 1,501: / Line 1,445: @@
 | K13||IO_25_VRP_35||HA10_P||
 |-
-| K14||NC||HA10_N||
+| K14||<span style="color:#ff0000">not connected</span>||HA10_N||
 |-
 | K15||DGND||GND||
 |-
-| K16||NC||HA17_P_CC||
+| K16||<span style="color:#ff0000">not connected</span>||HA17_P_CC||
 |-
-| K17||NC||HA17_N_CC||
+| K17||<span style="color:#ff0000">not connected</span>||HA17_N_CC||
 |-
 | K18||DGND||GND||
 |-
-| K19||NC||HA21_P||
+| K19||<span style="color:#ff0000">not connected</span>||HA21_P||
 |-
-| K20||NC||HA21_N||
+| K20||<span style="color:#ff0000">not connected</span>||HA21_N||
 |-
 | K21||DGND||GND||
 |-
-| K22||NC||HA23_P||
+| K22||<span style="color:#ff0000">not connected</span>||HA23_P||
 |-
-| K23||NC||HA23_N||
+| K23||<span style="color:#ff0000">not connected</span>||HA23_N||
 |-
 | K24||DGND||GND||
 |-
-| K25||NC||HB00_P_CC||
+| K25||<span style="color:#ff0000">not connected</span>||HB00_P_CC||
 |-
-| K26||NC||HB00_N_CC||
+| K26||<span style="color:#ff0000">not connected</span>||HB00_N_CC||
 |-
 | K27||DGND||GND||
 |-
-| K28||NC||HB06_P_CC||
+| K28||<span style="color:#ff0000">not connected</span>||HB06_P_CC||
 |-
-| K29||NC||HB06_N_CC||
+| K29||<span style="color:#ff0000">not connected</span>||HB06_N_CC||
 |-
 | K30||DGND||GND||
 |-
-| K31||NC||HB10_P||
+| K31||<span style="color:#ff0000">not connected</span>||HB10_P||
 |-
-| K32||NC||HB10_N||
+| K32||<span style="color:#ff0000">not connected</span>||HB10_N||
 |-
 | K33||DGND||GND||
 |-
-| K34||NC||HB14_P||
+| K34||<span style="color:#ff0000">not connected</span>||HB14_P||
 |-
-| K35||NC||HB14_N||
+| K35||<span style="color:#ff0000">not connected</span>||HB14_N||
 |-
 | K36||DGND||GND||
 |-
-| K37||NC||HB17_P_CC||
+| K37||<span style="color:#ff0000">not connected</span>||HB17_P_CC||
 |-
-| K38||NC||HB17_N_CC||
+| K38||<span style="color:#ff0000">not connected</span>||HB17_N_CC||
 |-
 | K39||DGND||GND||
 |-
-| K40||NC||VIO_B_M2C||
+| K40||<span style="color:#ff0000">not connected</span>||VIO_B_M2C||
 |}
+<section end=FMC/>
+<section begin=PinStrip/>
 === Pin strip connectors ===
@@ Line 1,631: / Line 1,576: @@
 |-
 |}
 ==== Ethernet GPIO - JP18 ====
@@ Line 1,668: / Line 1,612: @@
 |-
 |}
 ==== SPI,NAND - JP19 ====
@@ Line 1,702: / Line 1,645: @@
 |}
+<section begin=RTC/>
+<section end=PinStrip/>
 ==== FPGA, WatchDog, RTC, RST - JP22 ====
 JP22 is a 16-pin 8x2x2.54 pitch vertical header. The following table reports the pinout of the connector:
@@ Line 1,743: / Line 1,688: @@
 |-
 |}
+<section end=RTC/>
 ==== AUX PINs - JP29 ====
@@ Line 1,787: / Line 1,733: @@
 ** Silicon Labs Si571 programmable clock generator: this clock si connected to PL to allow the user to easily experiment his/her own peripherals and IPs on FPGA
 ** resistive touch screen controller for LCD screen
-** consumption monitor: this is connected to shunt resistor put in series on Bora power rail, allowing to measure SoM consumption
+** consumption monitor: this is connected to shunt resistor put in series on BORA power rail, allowing to measure SoM consumption
 ==== ADC - JP30, JP31, JP32 ====
@@ Line 1,893: / Line 1,839: @@
 |}
+<section begin=PMOD/>
 === Digilent Pmod™ Compatible headers ===
@@ Line 1,933: / Line 1,880: @@
 |-
 |}
 ==== Digilent Pmod™ Compatible - JP23 ====
@@ Line 1,965: / Line 1,911: @@
 |-
 |}
+<section end=PMOD/>
+===JP27 and JP28===
+These connectors allow to select power voltage of PL's I/O banks. For more details please refer to [[#PL's I/O voltage selections|this section]].
+==PL's I/O voltage selections==
+<section begin=Voltage selections/>
+PL's I/O banks voltage can be selected via configuration jumpers. It is worth remembering that:
+*'''each bank must be powered even if none of its I/Os is used'''
+*'''voltage selection must be done before powering up the board'''.
+The following table recaps the characteristics of the PL's I/O banks, in terms of allowable power supplies.
+{| class="wikitable" style="text-align: center;"
+! rowspan="2" |SoM
+! rowspan="2" style="text-align: center; font-weight: bold;" | Zynq p/n
+! colspan="2" style="text-align: center; font-weight: bold;" | Bank #34
+! colspan="2" style="text-align: center; font-weight: bold;" | Bank #13
+! colspan="2" style="text-align: center; font-weight: bold;" | Bank #35
+|-
+| style="text-align: center; font-weight: bold;" | Type [1]
+| style="text-align: center; font-weight: bold;" | I/O voltage setting
+| style="text-align: center; font-weight: bold;" | Type [1]
+| style="text-align: center; font-weight: bold;" | I/O voltage setting
+| style="text-align: center; font-weight: bold;" | Type [1]
+| style="text-align: center; font-weight: bold;" | I/O voltage setting
+|-
+| rowspan="2" |BoraX
+| style="text-align: center;" | 7015
+(CLG485 package)
+| style="text-align: center;" | HR
+(1.2 - 3.3V)
+| style="text-align: center;" | User defined
+| style="text-align: center;" | HR
+(1.2 - 3.3V)
+| style="text-align: center;" | User defined
+| style="text-align: center;" | HR
+(1.2 - 3.3V)
+| style="text-align: center;" | User defined
+|-
+| style="text-align: center;" | 7030
+(SBG485 package)
+| style="text-align: center;" | HP
+(1.2 - 1.8V)
+| style="text-align: center;" | User defined
+| style="text-align: center;" | HR
+(1.2 - 3.3V)
+| style="text-align: center;" | User defined
+| style="text-align: center;" | HP
+(1.2 - 1.8V)
+| style="text-align: center;" | User defined
+|-
+| rowspan="2" |Bora Lite
+| style="text-align: center;" | 7007S/7010
+(CLG400 package)
+| style="text-align: center;" | HR
+(1.2 - 3.3V)
+| style="text-align: center;" | User defined
+| style="text-align: center;" | HR
+(1.2 - 3.3V)
+| style="text-align: center;" | User defined
+| style="text-align: center;" | HR
+(1.2 - 3.3V)
+| style="text-align: center;" | User defined
+|-
+| style="text-align: center;" | 7014S/7020
+(CLG400 package)
+| style="text-align: center;" | HR
+(1.2 - 3.3V)
+| style="text-align: center;" | User defined
+| style="text-align: center;" | HR
+(1.2 - 3.3V)
+| style="text-align: center;" | User defined
+| style="text-align: center;" | HR
+(1.2 - 3.3V)
+| style="text-align: center;" | User defined
+|}
+[1]
+*HR = High Range
+*HP = High Performance
+===BoraXEVB voltage selection jumpers===
+BoraXEVB provides several configuration jumpers that allow to easily select the voltages used for PL's I/O banks. The following tables lists some of the allowed combinations used to select the most common voltage values. There are other combination available. However, '''some of them are not allowed and may cause permanent hardware damages to the Zynq part'''.
+Since characteristics of PL's I/O banks differ between Zynq 7015 and 7030 parts, the valid combinations '''are not the same for all of the BoraX models'''. Please refer to the following sections for more details.
+Even if PL's banks are independent, default configuration of BoraXEVB is such that
+*bank 34 and bank 35 have the same supply voltage
+*this voltage is selected via JP28.
+This configuration is in accordance with default routing of signals used for FMC connector.
+====Examples of valid combinations for Zynq 7030-based SOMs (default option for BXELK)====
+{| class="wikitable" style="text-align: center;"
+|+Bank #13 (HR)
+|-
+! style="text-align: center; font-weight: bold;" | Nominal voltage [V]
+! style="text-align: center; font-weight: bold;" | JP25.1-2
+! style="text-align: center; font-weight: bold;" | JP25.3-4
+! style="text-align: center; font-weight: bold;" | JP25.5-6
+! style="text-align: center; font-weight: bold;" | JP25.7-8
+! style="text-align: center; font-weight: bold;" | JP25.9-10
+! style="text-align: center; font-weight: bold;" | JP25.11-12
+|-
+| style="text-align: center;" | 1.2
+| style="text-align: center;" | open
+| style="text-align: center;" | open
+| style="text-align: center;" | '''closed'''
+| style="text-align: center;" | '''closed'''
+| style="text-align: center;" | '''closed'''
+| style="text-align: center;" | open
+|-
+| style="text-align: center;" | 1.5
+| style="text-align: center;" | open
+| style="text-align: center;" | '''closed'''
+| style="text-align: center;" | open
+| style="text-align: center;" | '''closed'''
+| style="text-align: center;" | open
+| style="text-align: center;" | open
+|-
+| style="text-align: center;" | 1.8
+| style="text-align: center;" | open
+| style="text-align: center;" | '''closed'''
+| style="text-align: center;" | '''closed'''
+| style="text-align: center;" | open
+| style="text-align: center;" | '''closed'''
+| style="text-align: center;" | open
+|-
+| style="text-align: center;" | 2.5
+| style="text-align: center;" | '''closed'''
+| style="text-align: center;" | open
+| style="text-align: center;" | '''closed'''
+| style="text-align: center;" | open
+| style="text-align: center;" | open
+| style="text-align: center;" | open
+|-
+| style="text-align: center;" | 3.3
+| style="text-align: center;" | '''closed'''
+| style="text-align: center;" | '''closed'''
+| style="text-align: center;" | '''closed'''
+| style="text-align: center;" | open
+| style="text-align: center;" | open
+| style="text-align: center;" | open
+|}
+{| class="wikitable" style="text-align: center;"
+|+Bank #35 (HP)
+|-
+! style="text-align: center; font-weight: bold;" | Nominal voltage [V]
+! style="text-align: center; font-weight: bold;" | JP27.1-2
+! style="text-align: center; font-weight: bold;" | JP27.3-4
+! style="text-align: center; font-weight: bold;" | JP27.5-6
+! style="text-align: center; font-weight: bold;" | JP27.7-8
+! style="text-align: center; font-weight: bold;" | JP27.9-10
+! style="text-align: center; font-weight: bold;" | JP27.11-12
+|-
+| style="text-align: center;" | 1.2
+| style="text-align: center;" | open
+| style="text-align: center;" | open
+| style="text-align: center;" | '''closed'''
+| style="text-align: center;" | '''closed'''
+| style="text-align: center;" | '''closed'''
+| style="text-align: center;" | open
+|-
+| style="text-align: center;" | 1.5
+| style="text-align: center;" | open
+| style="text-align: center;" | '''closed'''
+| style="text-align: center;" | open
+| style="text-align: center;" | '''closed'''
+| style="text-align: center;" | open
+| style="text-align: center;" | open
+|-
+| style="text-align: center;" | 1.8
+| style="text-align: center;" | open
+| style="text-align: center;" | '''closed'''
+| style="text-align: center;" | '''closed'''
+| style="text-align: center;" | open
+| style="text-align: center;" | '''closed'''
+| style="text-align: center;" | open
+|}
+{| class="wikitable" style="text-align: center;"
+|+Bank #34 (HP)
+|-
+! style="text-align: center; font-weight: bold;" | Nominal voltage [V]
+! style="text-align: center; font-weight: bold;" | JP28.1-2
+! style="text-align: center; font-weight: bold;" | JP28.3-4
+! style="text-align: center; font-weight: bold;" | JP28.5-6
+! style="text-align: center; font-weight: bold;" | JP28.7-8
+! style="text-align: center; font-weight: bold;" | JP28.9-10
+! style="text-align: center; font-weight: bold;" | JP28.11-12
+|-
+| style="text-align: center;" | 1.2
+| style="text-align: center;" | open
+| style="text-align: center;" | open
+| style="text-align: center;" | open
+| style="text-align: center;" | open
+| style="text-align: center;" | '''closed'''
+| style="text-align: center;" | open
+|-
+| style="text-align: center;" | 1.5
+| style="text-align: center;" | open
+| style="text-align: center;" | open
+| style="text-align: center;" | open
+| style="text-align: center;" | '''closed'''
+| style="text-align: center;" | open
+| style="text-align: center;" | open
+|-
+| style="text-align: center;" | 1.8
+| style="text-align: center;" | open
+| style="text-align: center;" | open
+| style="text-align: center;" | '''closed'''
+| style="text-align: center;" | open
+| style="text-align: center;" | open
+| style="text-align: center;" | open
+|}
+====Examples of valid combinations for Zynq 7015-based SOMs====
+{| class="wikitable" style="text-align: center;"
+|+Bank #13 (HR)
+|-
+! style="text-align: center; font-weight: bold;" | Nominal voltage [V]
+! style="text-align: center; font-weight: bold;" | JP25.1-2
+! style="text-align: center; font-weight: bold;" | JP25.3-4
+! style="text-align: center; font-weight: bold;" | JP25.5-6
+! style="text-align: center; font-weight: bold;" | JP25.7-8
+! style="text-align: center; font-weight: bold;" | JP25.9-10
+! style="text-align: center; font-weight: bold;" | JP25.11-12
+|-
+| style="text-align: center;" | 1.2
+| style="text-align: center;" | open
+| style="text-align: center;" | open
+| style="text-align: center;" | '''closed'''
+| style="text-align: center;" | '''closed'''
+| style="text-align: center;" | '''closed'''
+| style="text-align: center;" | open
+|-
+| style="text-align: center;" | 1.5
+| style="text-align: center;" | open
+| style="text-align: center;" | '''closed'''
+| style="text-align: center;" | open
+| style="text-align: center;" | '''closed'''
+| style="text-align: center;" | open
+| style="text-align: center;" | open
+|-
+| style="text-align: center;" | 1.8
+| style="text-align: center;" | open
+| style="text-align: center;" | '''closed'''
+| style="text-align: center;" | '''closed'''
+| style="text-align: center;" | open
+| style="text-align: center;" | '''closed'''
+| style="text-align: center;" | open
+|-
+| style="text-align: center;" | 2.5
+| style="text-align: center;" | '''closed'''
+| style="text-align: center;" | open
+| style="text-align: center;" | '''closed'''
+| style="text-align: center;" | open
+| style="text-align: center;" | open
+| style="text-align: center;" | open
+|-
+| style="text-align: center;" | 3.3
+| style="text-align: center;" | '''closed'''
+| style="text-align: center;" | '''closed'''
+| style="text-align: center;" | '''closed'''
+| style="text-align: center;" | open
+| style="text-align: center;" | open
+| style="text-align: center;" | open
+|}
+{| class="wikitable" style="text-align: center;"
+|+Bank #35 (HR)
+|-
+! style="text-align: center; font-weight: bold;" | Nominal voltage [V]
+! style="text-align: center; font-weight: bold;" | JP27.1-2
+! style="text-align: center; font-weight: bold;" | JP27.3-4
+! style="text-align: center; font-weight: bold;" | JP27.5-6
+! style="text-align: center; font-weight: bold;" | JP27.7-8
+! style="text-align: center; font-weight: bold;" | JP27.9-10
+! style="text-align: center; font-weight: bold;" | JP27.11-12
+|-
+| style="text-align: center;" | 1.2
+| style="text-align: center;" | open
+| style="text-align: center;" | open
+| style="text-align: center;" | '''closed'''
+| style="text-align: center;" | '''closed'''
+| style="text-align: center;" | '''closed'''
+| style="text-align: center;" | open
+|-
+| style="text-align: center;" | 1.5
+| style="text-align: center;" | open
+| style="text-align: center;" | '''closed'''
+| style="text-align: center;" | open
+| style="text-align: center;" | '''closed'''
+| style="text-align: center;" | open
+| style="text-align: center;" | open
+|-
+| style="text-align: center;" | 1.8
+| style="text-align: center;" | open
+| style="text-align: center;" | '''closed'''
+| style="text-align: center;" | '''closed'''
+| style="text-align: center;" | open
+| style="text-align: center;" | '''closed'''
+| style="text-align: center;" | open
+|-
+| style="text-align: center;" | 2.5
+| style="text-align: center;" | '''closed'''
+| style="text-align: center;" | open
+| style="text-align: center;" | '''closed'''
+| style="text-align: center;" | open
+| style="text-align: center;" | open
+| style="text-align: center;" | open
+|-
+| style="text-align: center;" | 3.3
+| style="text-align: center;" | '''closed'''
+| style="text-align: center;" | '''closed'''
+| style="text-align: center;" | '''closed'''
+| style="text-align: center;" | open
+| style="text-align: center;" | open
+| style="text-align: center;" | open
+|}
+{| class="wikitable" style="text-align: center;"
+|+Bank #34 (HR)
+|-
+! style="text-align: center; font-weight: bold;" | Nominal voltage [V]
+! style="text-align: center; font-weight: bold;" | JP28.1-2
+! style="text-align: center; font-weight: bold;" | JP28.3-4
+! style="text-align: center; font-weight: bold;" | JP28.5-6
+! style="text-align: center; font-weight: bold;" | JP28.7-8
+! style="text-align: center; font-weight: bold;" | JP28.9-10
+! style="text-align: center; font-weight: bold;" | JP28.11-12
+|-
+| style="text-align: center;" | 1.2
+| style="text-align: center;" | open
+| style="text-align: center;" | open
+| style="text-align: center;" | open
+| style="text-align: center;" | open
+| style="text-align: center;" | '''closed'''
+| style="text-align: center;" | open
+|-
+| style="text-align: center;" | 1.5
+| style="text-align: center;" | open
+| style="text-align: center;" | open
+| style="text-align: center;" | open
+| style="text-align: center;" | '''closed'''
+| style="text-align: center;" | open
+| style="text-align: center;" | open
+|-
+| style="text-align: center;" | 1.8
+| style="text-align: center;" | open
+| style="text-align: center;" | open
+| style="text-align: center;" | '''closed'''
+| style="text-align: center;" | open
+| style="text-align: center;" | open
+| style="text-align: center;" | open
+|-
+| style="text-align: center;" | 2.5
+| style="text-align: center;" | open
+| style="text-align: center;" | '''closed'''
+| style="text-align: center;" | open
+| style="text-align: center;" | open
+| style="text-align: center;" | open
+| style="text-align: center;" | open
+|-
+| style="text-align: center;" | 3.3
+| style="text-align: center;" | '''closed'''
+| style="text-align: center;" | open
+| style="text-align: center;" | open
+| style="text-align: center;" | open
+| style="text-align: center;" | open
+| style="text-align: center;" | open
+|}
+====Advanced information about voltage selection connectors====
+===== Bank 13 VDDIO selection connector (JP25) =====
+JP25 is a 12-pin 6x2x2.54 pitch vertical header used for the selection - through jumpers - of the bank supply voltages. The following table reports the pinout of the connector:
+{| class="wikitable"
+|-
+!Pin#
+!Pin name
+!Function
+!Notes
+|-
+|2 || LDO_B13_1V6|| adds +1.6V to VDDIO_BANK13 || -
+|-
+|4 || LDO_B13_800mV|| adds +800mV to VDDIO_BANK13 || -
+|-
+|6 || LDO_B13_400mV|| adds +400mV to VDDIO_BANK13 || -
+|-
+|8 || LDO_B13_200mV|| adds +200mV to VDDIO_BANK13 || -
+|-
+|10 || LDO_B13_100mV|| adds +100mV to VDDIO_BANK13 || -
+|-
+|12 || LDO_B13_50mV|| adds +50mV to VDDIO_BANK13 || -
+|-
+|1, 3, 5, 7, 9, 11 || DGND|| - || -
+|-
+|}
+The jumper configurations are:
+# No jumpers installed -> DC output for VDDIO_BANK13 is 500mV
+# Jumper on 1-2 -> adds 1.6V to VDDIO_BANK13 above the default 500mV
+# Jumper on 3-4 -> adds 800mV to VDDIO_BANK13 above the default 500mV
+# Jumper on 5-6 -> adds 400mV to VDDIO_BANK13 above the default 500mV
+# Jumper on 7-8 -> adds 200mV to VDDIO_BANK13 above the default 500mV
+# Jumper on 9-10 -> adds 100mV to VDDIO_BANK13 above the default 500mV
+# Jumper on 11-12 -> adds 50mV to VDDIO_BANK13 above the default 500mV
+The default configuration is VDDIO_BANK13 @ 1.8V (500mV + 800mV + 400mV + 100mV):
+# Jumper on 3-4 -> adds 800mV to VDDIO_BANK13 above the default 500mV
+# Jumper on 5-6 -> adds 400mV to VDDIO_BANK13
+# Jumper on 9-10 -> adds 100mV to VDDIO_BANK13
+===== Bank 35 VDDIO selection connector (JP27) =====
+JP27 is a 12-pin 6x2x2.54 pitch vertical header used for the selection - through jumpers - of the bank supply voltages. The following table reports the pinout of the connector:
+{| class="wikitable"
+|-
+!Pin#
+!Pin name
+!Function
+!Notes
+|-
+|2 || LDO_B35_1V6|| adds +1.6V to VDDIO_BANK35 || -
+|-
+|4 || LDO_B35_800mV|| adds +800mV to VDDIO_BANK35 || -
+|-
+|6 || LDO_B35_400mV|| adds +400mV to VDDIO_BANK35 || -
+|-
+|8 || LDO_B35_200mV|| adds +200mV to VDDIO_BANK35 || -
+|-
+|10 || LDO_B35_100mV|| adds +100mV to VDDIO_BANK35 || -
+|-
+|12 || LDO_B35_50mV|| adds +50mV to VDDIO_BANK35 || -
+|-
+|1, 3, 5, 7, 9, 11 || DGND|| - || -
+|-
+|}
+The jumper configurations are:
+# No jumpers installed -> DC output for VDDIO_BANK35 is 500mV
+# Jumper on 1-2 -> adds 1.6V to VDDIO_BANK35 above the default 500mV
+# Jumper on 3-4 -> adds 800mV to VDDIO_BANK35 above the default 500mV
+# Jumper on 5-6 -> adds 400mV to VDDIO_BANK35 above the default 500mV
+# Jumper on 7-8 -> adds 200mV to VDDIO_BANK35 above the default 500mV
+# Jumper on 9-10 -> adds 100mV to VDDIO_BANK35 above the default 500mV
+# Jumper on 11-12 -> adds 50mV to VDDIO_BANK35 above the default 500mV
+The DEFAULT configuration is VDDIO_BANK35 @ 1.8V (500mV + 800mV + 400mV + 100mV):
+# Jumper on 3-4 -> adds 800mV to VDDIO_BANK35 above the default 500mV
+# Jumper on 5-6 -> adds 400mV to VDDIO_BANK35
+# Jumper on 9-10 -> adds 100mV to VDDIO_BANK35
+{{ImportantMessage|text=Please note that by default VDDIO_BANK35 is supplied by VADJ Regulator. For using a dedicated VDDIO_BANK35, it is required to remove R343 and mount R344: check BORA Xpress Evaluation Kit schematics page 10.<br>
+Then, check and/or properly configure JP27 for selecting the required VDDIO_BANK35}}
+===== Bank 34 and VADJ VDDIO selection connector (JP28) =====
+JP28 is a 12-pin 6x2x2.54 pitch vertical header used for the selection - through jumpers - of the bank supply voltages. The following table reports the pinout of the connector:
+{| class="wikitable"
+|-
+!Pin#
+!Pin name
+!Function
+!Notes
+|-
+|2 || VADJ_FB (22K)|| selects 3.3V VADJ || -
+|-
+|4 || VADJ_FB (30K9)|| selects 2.5V VADJ || -
+|-
+|6 || VADJ_FB (51K1)|| selects 1.8V VADJ || -
+|-
+|8 || VADJ_FB (68K)|| selects 1.5V VADJ || -
+|-
+|10 || VADJ_FB (100K)|| selects 1.2V VADJ || -
+|-
+|12 || RFU|| Reserved || -
+|-
+|1, 3, 5, 7, 9, 11 || DGND|| - || -
+|-
+|}
+The jumper configurations are:
+# Jumper on 1-2 -> supply VADJ with 3.3V
+# Jumper on 3-4 -> supply VADJ with 2.5V
+# Jumper on 5-6 -> supply VADJ with 1.8V
+# Jumper on 7-8 -> supply VADJ with 1.5V
+# Jumper on 9-10 -> supply VADJ with 1.2V
+The default configuration is:
+# Jumper on 5-6 -> supply VADJ with 1.8V
+<section end=Voltage selections/>
+<section begin=SOM/>
+==SoM's signals mapping==
+===Bora Lite===
+As known, Bora Lite requires an [[BoraLite_Adapter_for_the_BoraXEVB_carrier_board|adapter]] to be mounted on the BoraXEVB carrier board. The adapter swap some signals to allow to use some carrier board peripherals routed on unavailable pins of the SoM. For this reason, it can be tricky to find out where the SoM's signals are routed at the carrier board level. The following table details such routing for PL banks. Here '''it is assumed to use an adapter with default mounting options'''.
+{| class="wikitable"
+|+
+! colspan="2" |SoM's signal
+! colspan="6" |Routing options at carrier board level
+|-
+! rowspan="2" |Bank
+! rowspan="2" |Name
+! colspan="3" |Option #1
+(default)
+! colspan="3" |Option #2
+|-
+!Name
+!Pin
+!Note
+!Name
+!Pin
+!Note
+|-
+| rowspan="54" |34
+| rowspan="2" |IO_0_34
+| rowspan="2" |'''IO_0_VRN_34'''
+|J31.2
+|Header
+| rowspan="2" |
+| rowspan="2" |
+| rowspan="2" |
+|-
+|J27D.H2
+|FMC conn.
+|-
+| rowspan="2" |IO_25_34
+| rowspan="2" |'''IO_25_VRP_35'''
+|J31.4
+|Header
+| rowspan="2" |
+| rowspan="2" |
+| rowspan="2" |
+|-
+|J27B.D1
+|FMC conn.
+|-
+|IO_L10N_T1_34
+|IO_L10N_T1_34
+|J27D.H26
+|FMC conn.
+|
+|
+|
+|-
+|IO_L10P_T1_34
+|IO_L10P_T1_34
+|J27D.H25
+|FMC conn.
+|
+|
+|
+|-
+|IO_L11N_T1_SRCC_34
+|IO_L11N_T1_SRCC_34
+|J27D.G3
+|FMC conn.
+|
+|
+|
+|-
+|IO_L11P_T1_SRCC_34
+|IO_L11P_T1_SRCC_34
+|J27D.G2
+|FMC conn.
+|
+|
+|
+|-
+|IO_L12N_T1_MRCC_34
+|IO_L12N_T1_MRCC_34
+|J27D.H5
+|FMC conn.
+|
+|
+|
+|-
+|IO_L12P_T1_MRCC_34
+|IO_L12P_T1_MRCC_34
+|J27D.H4
+|FMC conn.
+|
+|
+|
+|-
+|IO_L13N_T2_MRCC_34
+|'''IO_L13N_T1_MRCC_34'''
+|J27D.G7
+|FMC conn.
+|
+|
+|
+|-
+|IO_L13P_T2_MRCC_34
+|'''IO_L13P_T1_MRCC_34'''
+|J27D.G6
+|FMC conn.
+|
+|
+|
+|-
+|IO_L14N_T2_SRCC_34
+|IO_L14N_T2_SRCC_34
+|J27B.D9
+|FMC conn.
+|
+|
+|
+|-
+|IO_L14P_T2_SRCC_34
+|IO_L14P_T2_SRCC_34
+|J27B.D8
+|FMC conn.
+|
+|
+|
+|-
+|IO_L15N_T2_DQS_34
+|IO_L15N_T2_DQS_34
+|J27B.D21
+|FMC conn.
+|
+|
+|
+|-
+|IO_L15P_T2_DQS_34
+|IO_L15P_T2_DQS_34
+|J27B.D20
+|FMC conn.
+|
+|
+|
+|-
+|IO_L16N_T2_34
+|IO_L16N_T2_34
+|J27B.C23
+|FMC conn.
+|
+|
+|
+|-
+|IO_L16P_T2_34
+|IO_L16P_T2_34
+|J27B.C22
+|FMC conn.
+|
+|
+|
+|-
+|IO_L17N_T2_34
+|IO_L17N_T2_34
+|J27D.G22
+|FMC conn.
+|
+|
+|
+|-
+|IO_L17P_T2_34
+|IO_L17P_T2_34
+|J27D.G21
+|FMC conn.
+|
+|
+|
+|-
+|IO_L18N_T2_34
+|IO_L18N_T2_34
+|J27D.H20
+|FMC conn.
+|
+|
+|
+|-
+|IO_L18P_T2_34
+|IO_L18P_T2_34
+|J27D.H19
+|FMC conn.
+|
+|
+|
+|-
+| rowspan="2" |IO_L19N_T3_VREF_34
+| rowspan="2" |IO_L19N_T3_VREF_34
+|J27D.G19
+|FMC conn.
+| rowspan="2" |
+| rowspan="2" |
+| rowspan="2" |
+|-
+|TP21
+|TP SMD
+|-
+|IO_L19P_T3_34
+|n/a
+|n/a
+|At the adapter level, this signal (as CAN_RX) is connected to a CAN transceiver. The CAN bus is available at J24.
+|
+|
+|
+|-
+|IO_L1N_T0_34
+|IO_L1N_T0_34
+|J27B.C19
+|FMC conn.
+|
+|
+|
+|-
+|IO_L1P_T0_34
+|IO_L1P_T0_34
+|J27B.C18
+|FMC conn.
+|
+|
+|
+|-
+|IO_L20N_T3_34
+|IO_L20N_T3_34
+|J27B.D18
+|FMC conn.
+|
+|
+|
+|-
+|IO_L20P_T3_34
+|IO_L20P_T3_34
+|J27B.D17
+|FMC conn.
+|
+|
+|
+|-
+|IO_L21N_T3_DQS_34
+|IO_L21N_T3_DQS_34
+|J27D.H17
+|FMC conn.
+|
+|
+|
+|-
+|IO_L21P_T3_DQS_34
+|IO_L21P_T3_DQS_34
+|J27D.H16
+|FMC conn.
+|
+|
+|
+|-
+|IO_L22N_T3_34
+|IO_L22N_T3_34
+|J27D.G16
+|FMC conn.
+|
+|
+|
+|-
+|IO_L22P_T3_34
+|IO_L22P_T3_34
+|J27D.G15
+|FMC conn.
+|
+|
+|
+|-
+|IO_L23N_T3_34
+|IO_L23N_T3_34
+|J27B.C11
+|FMC conn.
+|
+|
+|
+|-
+|IO_L23P_T3_34
+|IO_L23P_T3_34
+|J27B.C10
+|FMC conn.
+|
+|
+|
+|-
+|IO_L24N_T3_34
+|IO_L24N_T3_34
+|J27D.H23
+|FMC conn.
+|
+|
+|
+|-
+|IO_L24P_T3_34
+|IO_L24P_T3_34
+|J27D.H22
+|FMC conn.
+|
+|
+|
+|-
+|IO_L2N_T0_34
+|IO_L2N_T0_34
+|J27B.C15
+|FMC conn.
+|
+|
+|
+|-
+|IO_L2P_T0_34
+|IO_L2P_T0_34
+|J27B.C14
+|FMC conn.
+|
+|
+|
+|-
+|IO_L3N_T0_DQS_34
+|IO_L3N_T0_DQS_34
+|J27D.G13
+|FMC conn.
+|
+|
+|
+|-
+|IO_L3P_T0_DQS_PUDC_B_34
+(10K pull-up on SoM)
+|IO_L3P_T0_DQS_PUDC_B_34
+|J27D.G12
+|FMC conn.
+|
+|
+|
+|-
+|IO_L4N_T0_34
+|IO_L4N_T0_34
+|J27D.G10
+|FMC conn.
+|
+|
+|
+|-
+|IO_L4P_T0_34
+|IO_L4P_T0_34
+|J27D.G9
+|FMC conn.
+|
+|
+|
+|-
+|IO_L5N_T0_34
+|IO_L5N_T0_34
+|J27D.H11
+|FMC conn.
+|
+|
+|
+|-
+|IO_L5P_T0_34
+|IO_L5P_T0_34
+|J27D.H10
+|FMC conn.
+|
+|
+|
+|-
+| rowspan="2" |IO_L6N_T0_VREF_34
+| rowspan="2" |IO_L6N_T0_VREF_34
+|J27B.D15
+|FMC conn.
+|
+|
+|
+|-
+|TP22
+|TP SMD
+|
+|
+|
+|-
+|IO_L6P_T0_34
+|n/a
+|n/a
+|At the adapter level, this signal (as CAN_TX) is connected to a CAN transceiver. The CAN bus is available at J24.
+|
+|
+|
+|-
+|IO_L7N_T1_34
+|IO_L7N_T1_34
+|J27D.H8
+|FMC conn.
+|
+|
+|
+|-
+|IO_L7P_T1_34
+|IO_L7P_T1_34
+|J27D.H7
+|FMC conn.
+|
+|
+|
+|-
+|IO_L8N_T1_34
+|IO_L8N_T1_34
+|J27D.H14
+|FMC conn.
+|
+|
+|
+|-
+|IO_L8P_T1_34
+|IO_L8P_T1_34
+|J27D.H13
+|FMC conn.
+|
+|
+|
+|-
+|IO_L9N_T1_DQS_34
+|IO_L9N_T1_DQS_34
+|J27B.D12
+|FMC conn.
+|
+|
+|
+|-
+|IO_L9P_T1_DQS_34
+|IO_L9P_T1_DQS_34
+|J27B.D11
+|FMC conn.
+|
+|
+|
+|-
+|
+|
+|
+|
+|
+|
+|
+|
+|-
+| rowspan="54" |35
+| rowspan="2" |IO_0_35
+| rowspan="2" |'''IO_0_VRN_35'''
+|J27C.F1
+|FMC conn.
+| rowspan="2" |
+| rowspan="2" |
+| rowspan="2" |
+|-
+|J31.1
+|Header
+|-
+| rowspan="2" |IO_25_35
+| rowspan="2" |'''IO_25_VRP_35'''
+|J27E.K13
+|FMC conn.
+| rowspan="2" |
+| rowspan="2" |
+| rowspan="2" |
+|-
+|J31.3
+|Header
+|-
+|IO_L10N_T1_AD11N_35
+|IO_L10N_T1_AD11N_35
+|J27D.G34
+|FMC conn.
+|FPGA_BANK35_AD11N
+|JP32.3
+|Header
+|-
+|IO_L10P_T1_AD11P_35
+|IO_L10P_T1_AD11P_35
+|J27D.G33
+|FMC conn.
+|FPGA_BANK35_AD11P
+|JP32.1
+|Header
+|-
+|IO_L11N_T1_SRCC_35
+|IO_L11N_T1_SRCC_35
+|J27E.J3
+|FMC conn.
+|
+|
+|
+|-
+|IO_L11P_T1_SRCC_35
+|IO_L11P_T1_SRCC_35
+|J27E.J2
+|FMC conn.
+|
+|
+|
+|-
+|IO_L12N_T1_MRCC_35
+|IO_L12N_T1_MRCC_35
+|J27E.K5
+|FMC conn.
+|
+|
+|
+|-
+|IO_L12P_T1_MRCC_35
+|IO_L12P_T1_MRCC_35
+|J27E.K4
+|FMC conn.
+|
+|
+|
+|-
+|IO_L13N_T2_MRCC_35
+|IO_L13N_T2_MRCC_35
+|J27C.F5
+|FMC conn.
+|
+|
+|
+|-
+|IO_L13P_T2_MRCC_35
+|IO_L13P_T2_MRCC_35
+|J27C.F4
+|FMC conn.
+|
+|
+|
+|-
+|IO_L14N_T2_AD4N_SRCC_35
+|IO_L14N_T2_AD4N_SRCC_35
+|J27C.E3
+|FMC conn.
+|FPGA_BANK35_AD4N
+|JP30.16
+|Header
+|-
+|IO_L14P_T2_AD4P_SRCC_35
+|IO_L14P_T2_AD4P_SRCC_35
+|J27C.E2
+|FMC conn.
+|FPGA_BANK35_AD4P
+|JP30.14
+|Header
+|-
+|IO_L15N_T2_DQS_AD12N_35
+|IO_L15N_T2_DQS_AD12N_35
+|J27D.H38
+|FMC conn.
+|FPGA_BANK35_AD12N
+|JP32.8
+|Header
+|-
+|IO_L15P_T2_DQS_AD12P_35
+|IO_L15P_T2_DQS_AD12P_35
+|J27D.H37
+|FMC conn.
+|FPGA_BANK35_AD12P
+|JP32.6
+|Header
+|-
+|IO_L16N_T2_35
+|IO_L16N_T2_35
+|J27D.G37
+|FMC conn.
+|
+|
+|
+|-
+|IO_L16P_T2_35
+|IO_L16P_T2_35
+|J27D.G36
+|FMC conn.
+|
+|
+|
+|-
+|IO_L17N_T2_AD5N_35
+|IO_L17N_T2_AD5N_35
+|J27E.K8
+|FMC conn.
+|FPGA_BANK35_AD5N
+|JP31.1
+|Header
+|-
+|IO_L17P_T2_AD5P_35
+|IO_L17P_T2_AD5P_35
+|J27E.K7
+|FMC conn.
+|FPGA_BANK35_AD5P
+|JP30.15
+|Header
+|-
+|IO_L18N_T2_AD13N_35
+|IO_L18N_T2_AD13N_35
+|J27E.J7
+|FMC conn.
+|FPGA_BANK35_AD13N
+|JP32.9
+|Header
+|-
+|IO_L18P_T2_AD13P_35
+|IO_L18P_T2_AD13P_35
+|J27E.J6
+|FMC conn.
+|FPGA_BANK35_AD13P
+|JP32.7
+|Header
+|-
+| rowspan="2" |IO_L19N_T3_VREF_35
+| rowspan="2" |IO_L19N_T3_VREF_35
+|J27C.F8
+|FMC conn.
+| rowspan="2" |
+| rowspan="2" |
+| rowspan="2" |
+|-
+|TP24
+|TP SMD
+|-
+|IO_L19P_T3_35
+|IO_L19P_T3_35
+|J27C.F7
+|FMC conn.
+|
+|
+|
+|-
+|IO_L1N_T0_AD0N_35
+|IO_L1N_T0_AD0N_35
+|J27D.G25
+|FMC conn.
+|FPGA_BANK35_AD0P
+|JP30.4
+|Header
+|-
+|IO_L1P_T0_AD0P_35
+|IO_L1P_T0_AD0P_35
+|J27D.G24
+|FMC conn.
+|FPGA_BANK35_AD0N
+|JP30.2
+|Header
+|-
+|IO_L20N_T3_AD6N_35
+|IO_L20N_T3_AD6N_35
+|J27C.E7
+|FMC conn.
+|FPGA_BANK35_AD6N
+|JP31.6
+|Header
+|-
+|IO_L20P_T3_AD6P_35
+|IO_L20P_T3_AD6P_35
+|J27C.E6
+|FMC conn.
+|FPGA_BANK35_AD6P
+|JP31.4
+|Header
+|-
+|IO_L21N_T3_DQS_AD14N_35
+|IO_L21N_T3_DQS_AD14N_35
+|J27E.K11
+|FMC conn.
+|FPGA_BANK35_AD14N
+|JP32.14
+|Header
+|-
+|IO_L21P_T3_DQS_AD14P_35
+|IO_L21P_T3_DQS_AD14P_35
+|J27E.K10
+|FMC conn.
+|FPGA_BANK35_AD14P
+|JP32.12
+|Header
+|-
+|IO_L22N_T3_AD7N_35
+|IO_L22N_T3_AD7N_35
+|J27E.J10
+|FMC conn.
+|FPGA_BANK35_AD7N
+|JP31.7
+|Header
+|-
+|IO_L22P_T3_AD7P_35
+|IO_L22P_T3_AD7P_35
+|J27E.J9
+|FMC conn.
+|FPGA_BANK35_AD7P
+|JP31.5
+|Header
+|-
+|IO_L23N_T3_35
+|IO_L23N_T3_35
+|J27C.F11
+|FMC conn.
+|
+|
+|
+|-
+|IO_L23P_T3_35
+|IO_L23P_T3_35
+|J27C.F10
+|FMC conn.
+|
+|
+|
+|-
+|IO_L24N_T3_AD15N_35
+|IO_L24N_T3_AD15N_35
+|J27C.E10
+|FMC conn.
+|FPGA_BANK35_AD15N
+|JP32.15
+|Header
+|-
+|IO_L24P_T3_AD15P_35
+|IO_L24P_T3_AD15P_35
+|J27C.E9
+|FMC conn.
+|FPGA_BANK35_AD15P
+|JP32.13
+|Header
+|-
+|IO_L2N_T0_AD8N_35
+|IO_L2N_T0_AD8N_35
+|J27B.D24
+|FMC conn.
+|FPGA_BANK35_AD8N
+|JP31.12
+|Header
+|-
+|IO_L2P_T0_AD8P_35
+|IO_L2P_T0_AD8P_35
+|J27B.D23
+|FMC conn.
+|FPGA_BANK35_AD8P
+|JP31.10
+|Header
+|-
+|IO_L3N_T0_DQS_AD1N_35
+|IO_L3N_T0_DQS_AD1N_35
+|J27D.H29
+|FMC conn.
+|FPGA_BANK35_AD1N
+|JP30.5
+|Header
+|-
+|IO_L3P_T0_DQS_AD1P_35
+|IO_L3P_T0_DQS_AD1P_35
+|J27D.H28
+|FMC conn.
+|FPGA_BANK35_AD1P
+|JP30.3
+|Header
+|-
+|IO_L4N_T0_35
+|IO_L4N_T0_35
+|J27D.G28
+|FMC conn.
+|
+|
+|
+|-
+|IO_L4P_T0_35
+|IO_L4P_T0_35
+|J27D.G27
+|FMC conn.
+|
+|
+|
+|-
+|IO_L5N_T0_AD9N_35
+|IO_L5N_T0_AD9N_35
+|J27B.D27
+|FMC conn.
+|FPGA_BANK35_AD9N
+|JP31.13
+|Header
+|-
+|IO_L5P_T0_AD9P_35
+|IO_L5P_T0_AD9P_35
+|J27B.D26
+|FMC conn.
+|FPGA_BANK35_AD9P
+|JP31.11
+|Header
+|-
+| rowspan="2" |IO_L6N_T0_VREF_35
+| rowspan="2" |IO_L6N_T0_VREF_35
+|J27B.C27
+|FMC conn.
+| rowspan="2" |
+| rowspan="2" |
+| rowspan="2" |
+|-
+|TP23
+|TP SMD
+|-
+|IO_L6P_T0_35
+|IO_L6P_T0_35
+|J27B.C26
+|FMC conn.
+|
+|
+|
+|-
+|IO_L7N_T1_AD2N_35
+|IO_L7N_T1_AD2N_35
+|J27D.H32
+|FMC conn.
+|FPGA_BANK35_AD2N
+|JP30.10
+|Header
+|-
+|IO_L7P_T1_AD2P_35
+|IO_L7P_T1_AD2P_35
+|J27D.H31
+|FMC conn.
+|FPGA_BANK35_AD2P
+|JP30.8
+|Header
+|-
+|IO_L8N_T1_AD10N_35
+|IO_L8N_T1_AD10N_35
+|J27D.G31
+|FMC conn.
+|FPGA_BANK35_AD10N
+|JP32.2
+|Header
+|-
+|IO_L8P_T1_AD10P_35
+|IO_L8P_T1_AD10P_35
+|J27D.G30
+|FMC conn.
+|FPGA_BANK35_AD10P
+|JP31.16
+|Header
+|-
+|IO_L9N_T1_DQS_AD3N_35
+|IO_L9N_T1_DQS_AD3N_35
+|J27D.H35
+|FMC conn.
+|FPGA_BANK35_AD3N
+|JP30.11
+|Header
+|-
+|IO_L9P_T1_DQS_AD3P_35
+|IO_L9P_T1_DQS_AD3P_35
+|J27D.H34
+|FMC conn.
+|FPGA_BANK35_AD3P
+|JP30.9
+|Header
+|-
+|
+|
+|
+|
+|
+|
+|
+|
+|-
+| rowspan="26" |13
+'''(not available on Zynq 7007S and 7010)'''
+|IO_L11P_T1_SRCC_13
+|'''IO_L23P_T3_13'''
+|JP17.3
+|PMOD [A]
+|
+|
+|
+|-
+|IO_L11N_T1_SRCC_13
+|'''IO_L23N_T3_13'''
+|JP17.4
+|PMOD [A]
+|
+|
+|
+|-
+|IO_L12P_T1_MRCC_13
+|'''IO_L9P_T1_DQS_13'''
+|JP17.2
+|PMOD [A]
+|IO_L9P_T1_DQS_13
+|J30.1
+|ONE PIECE
+|-
+|IO_L12N_T1_MRCC_13
+|'''IO_L9N_T1_DQS_13'''
+|JP17.1
+|PMOD [A]
+|IO_L9N_T1_DQS_13
+|J30.3
+|ONE PIECE
+|-
+|IO_L13P_T2_MRCC_13
+|'''IO_L7P_T1_13'''
+|JP17.7
+|PMOD [A]
+|IO_L7P_T1_13
+|J30.24
+|ONE PIECE
+|-
+|IO_L13N_T2_MRCC_13
+|'''IO_L7N_T1_13'''
+|JP17.8
+|PMOD [A]
+|IO_L7N_T1_13
+|J30.26
+|ONE PIECE
+|-
+|IO_L14P_T2_SRCC_13
+|'''IO_L15P_T2_DQS_13'''
+|n/a
+|ETH1_RXCK
+|IO_L15P_T2_DQS_13
+|J30.25
+|ONE PIECE
+|-
+|IO_L14N_T2_SRCC_13
+|'''IO_L15N_T2_DQS_13'''
+|n/a
+|ETH1_RXCTL
+|IO_L15N_T2_DQS_13
+|J30.27
+|ONE PIECE
+|-
+|IO_L15P_T2_DQS_13
+|'''IO_L5P_T0_13'''
+|JP17.6
+|PMOD [A]
+|IO_L5P_T0_13
+|J30.20
+|ONE PIECE
+|-
+|IO_L15N_T2_DQS_13
+|'''IO_L5N_T0_13'''
+|JP17.5
+|PMOD [A]
+|IO_L5N_T0_13
+|J30.18
+|ONE PIECE
+|-
+|IO_L16N_T2_13
+|IO_L16N_T2_13
+|n/a
+|ETH1_TXCTL
+|IO_L16N_T2_13
+|J30.31
+|ONE PIECE
+|-
+|IO_L16P_T2_13
+|IO_L16P_T2_13
+|n/a
+|ETH1_TXCK
+|IO_L16P_T2_13
+|J30.29
+|ONE PIECE
+|-
+|IO_L17N_T2_13
+|IO_L17N_T2_13
+|n/a
+|ETH1_RXD1
+|IO_L17N_T2_13
+|J30.35
+|ONE PIECE
+|-
+|IO_L17P_T2_13
+|IO_L17P_T2_13
+|n/a
+|ETH1_RXD0
+|IO_L17P_T2_13
+|J30.33
+|ONE PIECE
+|-
+|IO_L18N_T2_13
+|IO_L18N_T2_13
+|n/a
+|ETH1_RXD3
+|IO_L18N_T2_13
+|J30.39
+|ONE PIECE
+|-
+|IO_L18P_T2_13
+|IO_L18P_T2_13
+|n/a
+|ETH1_RXD2
+|IO_L18P_T2_13
+|J30.37
+|ONE PIECE
+|-
+|IO_L19N_T3_VREF_13
+|IO_L19N_T3_VREF_13
+|n/a
+|ETH1_TXD1
+|IO_L19N_T3_VREF_13
+|J30.43
+|ONE PIECE
+|-
+|IO_L19P_T3_13
+|IO_L19P_T3_13
+|n/a
+|ETH1_TXD0
+|IO_L19P_T3_13
+|J30.41
+|ONE PIECE
+|-
+|IO_L20N_T3_13
+|IO_L20N_T3_13
+|n/a
+|ETH1_TXD3
+|IO_L20N_T3_13
+|J30.47
+|ONE PIECE
+|-
+|IO_L20P_T3_13
+|IO_L20P_T3_13
+|n/a
+|ETH1_TXD2
+|IO_L20P_T3_13
+|J30.45
+|ONE PIECE
+|-
+|IO_L21N_T3_DQS_13
+|IO_L21N_T3_DQS_13
+|n/a
+|ETH1_MDC
+|IO_L21N_T3_DQS_13
+|J30.51
+|ONE PIECE
+|-
+|IO_L21P_T3_DQS_13
+|IO_L21P_T3_DQS_13
+|n/a
+|ETH1_MDIO
+|IO_L21P_T3_DQS_13
+|J30.49
+|ONE PIECE
+|-
+|IO_L22N_T3_13
+|IO_L22N_T3_13
+|
+|
+|IO_L22N_T3_13
+|J30.55
+|ONE PIECE
+|-
+|IO_L22P_T3_13
+|IO_L22P_T3_13
+|n/a
+|DWM_WIFI_IRQ
+|IO_L22P_T3_13
+|J30.53
+|ONE PIECE
+|-
+| rowspan="2" |IO_L6N_T0_VREF_13
+| rowspan="2" |IO_L6N_T0_VREF_13
+|JP23.3
+|PMOD [B]
+| rowspan="2" |IO_L6N_T0_VREF_13
+| rowspan="2" |J30.30
+| rowspan="2" |ONE PIECE
+|-
+|n/a
+|USB1_OC
+|}
+==== BoraXEVB unavailable signals ====
+Some BoraXEVB signals are unavailable when it is mated with Bora Lite SoM. The following signals are '''not''' routed to the SoM due to the limited pin count of the SODIMM connector.
+{| class="wikitable"
+|+
+BoraXEVB's signal that are not available when mated with Bora Lite SoM
+!Bank
+!Carrier's signal
+|-
+|13
+|IO_25_13
+|-
+|13
+|IO_L1P_T0_13
+|-
+|13
+|IO_L1N_T0_13
+|-
+|13
+|IO_L2P_T0_13
+|-
+|13
+|IO_L2N_T0_13
+|-
+|13
+|IO_L3P_T0_DQS_13
+|-
+|13
+|IO_L3N_T0_DQS_13
+|-
+|13
+|IO_L4P_T0_13
+|-
+|13
+|IO_L4N_T0_13
+|-
+|500
+|NAND_CS0/SPI0_CS1
+|-
+|500
+|NAND_IO3
+|-
+|500
+|NAND_IO4
+|-
+|500
+|NAND_IO5
+|-
+|500
+|NAND_IO6
+|-
+|500
+|NAND_IO7
+|-
+|500
+|NAND_RD_B/VCFG1
+|-
+|500
+|NAND_CLE/VCFG0
+|}
+<section end=SOM/>
+<section begin=Schematics/>
 ==Schematics==
+* ORCAD: [https://www.dave.eu/links/p/yYW9VNsGutz6V0dd BORAXEVB-1.6.1-BELK-dsn.zip]
+* PDF : [https://www.dave.eu/links/p/hClB4N7blBdSG6AH BoraXEVB-S-EVBBX0000C0R-1.6.1.pdf]
-* ORCAD: http://www.dave.eu/system/files/area-riservata/boraxevb-1.0.3-BELK-dsn.zip
+===BOM===
-* PDF : http://www.dave.eu/system/files/area-riservata/BoraXEVB-S-EVBBX0000C0R-1.2.0.pdf
+* BoraXEVB: [https://www.dave.eu/links/p/PU08ewKLvX9Z9tZJ BORAXEVB_S.EVBBX0000C0R.1.6.0.CSV.zip]
-==BOM==
+===Layout===
-* BoraXEVB: http://www.dave.eu/system/files/area-riservata/boraxevb-BOM_S.EVBBX0000C0R.1.2.0.CSV_.zip
+* [https://www.dave.eu/links/p/cPT5UVAFNiSzj4NR CS143714 Assembly view]
-==Layout==
+===PCB design (Mentor PADS)===
-* http://www.dave.eu/system/files/area-riservata/boraxevb-CS143714_assembly_view.pdf
+* [https://www.dave.eu/links/p/BCTblnPPoDiwPrAE CS143714]
+<section end=Schematics/>
+<section begin=Mechanicals/>
 ==Mechanical==
-* DXF: http://www.dave.eu/system/files/area-riservata/boraxevb_2D_CS143714.zip
+* DXF: [https://www.dave.eu/links/p/s1k5AXL3AiCIo7Fj boraxevb-2D-CS143714]
-* IDF (3D): http://www.dave.eu/system/files/area-riservata/boraxevb_3D_CS143714.zip
+* IDF (3D): [https://www.dave.eu/links/p/xeQvq2IvKig5vlfd boraxevb-3D-CS143714]
+* STEP (3D): [https://www.dave.eu/links/p/cj2s2AlBHkeY7tJ7 boraxevb_3D_step_cs143714]
+<section end=Mechanicals/>

Difference between revisions of "BoraXEVB"

Latest revision as of 10:02, 26 January 2022

Contents

Introduction[edit | edit source]

Block Diagram[edit | edit source]

Configurable routing options[edit | edit source]

BoraX[edit | edit source]

Bora Lite[edit | edit source]

Features[edit | edit source]

Known limitations[edit | edit source]

Connectors pinout[edit | edit source]

J1,J2 and J3[edit | edit source]

Power supply - JP2[edit | edit source]

Reset button - S6[edit | edit source]

Boot mode selection - S5[edit | edit source]

WatchDog Settings - S1, S2 and S3[edit | edit source]

Ethernet port #0 (ETH0) - J8[edit | edit source]

Ethernet port #1 (ETH1) - J9[edit | edit source]

BANK's Power GOOD signals - J28[edit | edit source]

JTAG[edit | edit source]

JTAG XILINX - J13[edit | edit source]

JTAG ARM - J18[edit | edit source]

UART1 - J17[edit | edit source]

USB OTG - J19[edit | edit source]

MicroSD - J21[edit | edit source]

DWM (DAVE Wifi/BT module) socket - J23[edit | edit source]

CAN - J24[edit | edit source]

Touch screen - J25[edit | edit source]

LVDS - J26[edit | edit source]

FPGA Mezzanine Card (FMC) Connector - J27[edit | edit source]

HPC Row A[edit | edit source]

HPC Row B[edit | edit source]

LPC Row C[edit | edit source]

LPC Row D[edit | edit source]

HPC Row E[edit | edit source]

HPC Row F[edit | edit source]

LPC Row G[edit | edit source]

LPC Row H[edit | edit source]

HPC Row J[edit | edit source]

HPC Row K[edit | edit source]

Pin strip connectors[edit | edit source]

SPI,NAND - JP13[edit | edit source]

Voltage Monitor - JP15[edit | edit source]

Ethernet GPIO - JP18[edit | edit source]

SPI,NAND - JP19[edit | edit source]

FPGA, WatchDog, RTC, RST - JP22[edit | edit source]

AUX PINs - JP29[edit | edit source]

ADC - JP30, JP31, JP32[edit | edit source]

Digilent Pmod™ Compatible headers[edit | edit source]

Digilent Pmod™ Compatible - JP17[edit | edit source]

Digilent Pmod™ Compatible - JP23[edit | edit source]

JP27 and JP28[edit | edit source]

PL's I/O voltage selections[edit | edit source]

BoraXEVB voltage selection jumpers[edit | edit source]

Examples of valid combinations for Zynq 7030-based SOMs (default option for BXELK)[edit | edit source]

Examples of valid combinations for Zynq 7015-based SOMs[edit | edit source]

Advanced information about voltage selection connectors[edit | edit source]

Bank 13 VDDIO selection connector (JP25)[edit | edit source]

Bank 35 VDDIO selection connector (JP27)[edit | edit source]

Bank 34 and VADJ VDDIO selection connector (JP28)[edit | edit source]

SoM's signals mapping[edit | edit source]

Bora Lite[edit | edit source]

BoraXEVB unavailable signals[edit | edit source]

Schematics[edit | edit source]

BOM[edit | edit source]

Layout[edit | edit source]

PCB design (Mentor PADS)[edit | edit source]

Mechanical[edit | edit source]

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