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Scroll Title
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titleInitial delivery state of programmable devices on the module.

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Storage device name

Content

Notes

Quad SPI Flash

U13

Empty

DDR3 SDRAMU1Empty
24LC64U11


Table 1:  Initial state of programmable devices on delivery of the module.

Control Signals

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  • Overview of Boot Mode, Reset, Enables,

Boot Process

MODE Signal State

Boot Mode

High or open

QSPI

Table 2: Boot Process

Signals, Interfaces and Pins

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FPGA BankB2B ConnectorI/O Signal CountVoltage LevelNotes
13JM148VCCO_13
500JM143.3V
33JM3343.3V
35JM3203.3V
35JM2223.3V
501JM238VMIO1MIO1 VREF is connected to resistor divider to support HSTL18

Table 3: Boot Process

JTAG Interface

JTAG access to the Xilinx XA7Z020 FPGA through B2B connector JM2.

JTAG Signal

B2B Pin

TMSJM2-12
TDIJM2-10
TDOJM2-8
TCKJM2-6

Table 4: JTAG pins connection


PS7 UART

There is no fixed mapping for PS7 UART, if needed it can be mapped to free pins from MIO1 Bank or via EMIO to PL pins.

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Chip/InterfaceICPS7 Peripheral
SPI FlashS25FL127SABMFV10QSPI016 MByte Flash
I2C EEPROM24LC64I2C08 KByte EEPROM
RTC I2CRV-3029I2C0
RTC InterruptRV-3029GPIO - MIO0
User LEDLED GreenGPIO - MIO7

Table 5: On board Peripherals

16 MByte Quad SPI Flash Memory

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MIO PinSchematicU13 PinNotes
MIO1SPI_CSA1
MIO2SPI_DQ0/M0A2
MIO3SPI_DQ1/M1F6
MIO4SPI_DQ2/M2E4
MIO5SPI_DQ3/M3A3
MIO6SPI_SCK/M4A4

Table 6: Quad SPI interface MIOs and pins

Supply Voltage: 2.7V to 3.6V

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MIO PinSchematicU7 PinNotes
MIO15SDA5On-board RTC, and EEPROM
MIO14SCL4On-board RTC, and EEPROM

Table 7: I2C interface MIOs and pins

 

I2C EEPROM

The Microchip Technology Inc. 24LC64 is a 64 Kbit Electrically Erasable PROM. The device is organized as a single block of 8K x 8-bit memory with a 2-wire serial interface. Lowvoltage design permits operation down to 1.7V, with standby and active currents of only 1 μA and 3 mA, respectively. It has been developed for advanced, lowpower applications such as personal communications or data acquisition. The 24LC64 also has a page write capability for up to 32 bytes of data. Functional address lines allow up to eight devices on the same bus, for up to 512 Kbits address space.

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MIO PinSchematicU11 PinNotes
MIO15SDA3On-board RTC, and EEPROM
MIO14SCL1On-board RTC, and EEPROM

Table 8: I2C EEPROM interface MIOs and pins


LEDs

SchematicColorConnected toActive LevelIO Standard
D9GreenDONELownot applicable
D8REDMIO7Highnot applicable
D4GreenPL pin V18HighLVCMOS33

Table 9: On-board LEDs.


512 Mbyte DDR3L SDRAM

The TE0728 SoM has two 512 GByte volatile DDR3 SDRAM IC for storing user application code and data.

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SchematicETH1ETH2PullupNotes
CTREFJ3-57J3-25
Magnetics center tap voltage
TD+J3-58J3-28on-board
TD-J3-56J3-26on-board
RD+J3-52J3-22on-board
RD-J3-50J3-20on-board
LED1J3-55J3-23on-board
LED2J3-53J3-21on-board
LED3J3-51J3-19on-board
POWERDOWN/INTL21R20on-chipIt is recommended to configure FPGA I/O as input with Pullup or as output driving 1 if Interrupt not used.
RESET_NM15R16on-chipIt is recommended to configure FPGA I/O as input with Pullup or as output (active low PHY Reset).

Table 10: Ethernet PHY to Zynq SoC connections.

It is recommended to add IOB TRUE constraint for the MII Interface pins.

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MIO PinSchematicU16 PinNotes
MIO8D1
MIO9R4

 Table 11: CAN Tranciever interface MIOs


SchematicB2BPull up/downNotes
CANHJ1-2on-board
CANLJ1-4on-board

Table 12: CAN Tranciever pins


Low Quiescent Current Programmable Delay Supervisory Circuit

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ICDescriptionFrequencyUsed as
U14MEMS Oscillator50 MHzPS PLL clock
U5MEMS Oscillator25 MHzEthernet PHY Clock
U7RTC (internal oscillator)32.768 KHzUsed by RTC, CLKOUT of RTC not connected

Table 13: Oscillators.

Power and Power-On Sequence

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Power Input PinTypical Current
VINTBD*

Table 14: Power Consumption.

* TBD - To Be Determined


Power Distribution Dependencies

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Power Rail Name

B2B Connector

JM1 Pin

B2B Connector

JM2 Pin

B2B Connector

JM3 Pin

DirectionNotes
VIN1,3--Input


VMIO-2-I/O
3.3V19425,57Output

1.8V

-5-Output

Table 14: Module power rails.

Bank Voltages

Bank          

Schematic Name

Voltage

Notes
500VCCO_MIO0_5003.3V
501

VCCO_MIO1_500

3.3V
502VCCO_DDR_5021.5V
13 HRVCCO_13 3.3VSupplied by the carrier board. JM1
33 HRVCCO_333.3VSupplied by carrier board. JM3
34 HRVCCO_343.3V


35 HRVCCO_353.3V

Supplied by the carrier board. JM2,JM3

Table 15: Zynq SoC bank voltages.

Board to Board Connectors

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SymbolsDescriptionMinMaxUnit
VCCPINTPS internal logic supply voltage-0.51.1V
VCCPAUXPS auxiliary supply voltage-0.52.0V
VCCPLLPS PLL supply-0.52.0V
VCCO_DDRPS DDR I/O supply voltage-0.52.0V
VPREFPS input reference voltage-0.52.0V
VCCO_MIO0PS MIO I/O supply voltage for HR I/O banks-0.53.6V
VCCO_MIO1PS MIO I/O supply voltage for HR I/O banks1.713.45V

Table 16: PS absolute maximum ratings.

Programmable Logic(PL)

SymbolsDescriptionMinMaxUnit
VCCINTPL internal logic supply voltage-0.51.1V
VCCPAUXPL auxiliary supply voltage-0.52.0V
VCCPLLPL PLL supply-0.51.1V
VPREFPL input reference voltage-0.52.0V
VCCOPL supply voltage for HR I/O banks-0.53.6V
VINI/O input voltage for HR I/O banks1.713.45V

Table 16: PL absolute maximum ratings.

Technical Specifications

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titleModule absolute maximum ratings.

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Absolute Maximum Ratings

ParameterMinMaxUnitsReference Document
VIN supply voltage3.560VTPS54260-Q1 datasheets.
Supply voltage for PS MIO banks1.713.465VSee Xilinx DS187 datasheet.
I/O input voltage for PS MIO banks-0.2VCCO_MIO + 0.20VSee Xilinx DS187 datasheet.
Supply voltage for PS DDR1.141.89VSee Xilinx DS187 datasheet.
I/O input voltage for PS DDR-0.20VCCO_DDR + 0.20VSee Xilinx DS187 datasheet.
Supply voltage for HR I/Os banks1.143.465VSee Xilinx DS187 datasheet.
I/O input voltage for HR I/O banks-0.20VCCIO + 0.20VSee Xilinx DS187 datasheet.
Storage Temperature-65150°CSee Xilinx DS187 datasheet.
CAN Transceiver Temperature-40125°CSee Texas Instrument sn65hvd230q-q1 datasheet.
SPI Flash Memory-4085°CSee Cypress S25FL127S datasheet.
DDR3 SDRAM Temperature-4095°C

See Nanya NT5CC256M16CP-DIA datasheet.

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Table 17: Absolute Maximum Ratings..


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titleRecommended Operating Conditions.

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Recommended Operating Conditions

Commercial grade: 0°C to +70°C.

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ParameterMinMaxUnitsReference Document
VIN supply voltage3.560VTPS54260-Q1 datasheets.
Supply voltage for PS MIO banks1.713.465VSee Xilinx DS187 datasheet.
I/O input voltage for PS MIO banks-0.2VCCO_MIO + 0.20VSee Xilinx DS187 datasheet.
Supply voltage for PS DDR1.141.89VSee Xilinx DS187 datasheet.
I/O input voltage for PS DDR-0.20VCCO_DDR + 0.20VSee Xilinx DS187 datasheet.
Supply voltage for HR I/Os banks1.143.465VSee Xilinx DS187 datasheet.
I/O input voltage for HR I/O banks-0.20VCCIO + 0.20VSee Xilinx DS187 datasheet.
Storage Temperature-65150°CSee Xilinx DS187 datasheet.

Table 18: Recommended operating conditions.

Physical Dimensions

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SchematicColorConnected toActive LevelIO Standard
D9GreenDONELownot applicable
D8REDMIO7Highnot applicable
D4GreenPL pin V18HighLVCMOS33

512 Mbyte DDR3L SDRAM

The TE0728 SoM has two 512 GByte volatile DDR3 SDRAM IC for storing user application code and data.

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