Versions Compared

Key

  • This line was added.
  • This line was removed.
  • Formatting was changed.

...

Page properties
hiddentrue
idComments

Note for Download Link of the Scroll ignore macro:


Scroll Ignore

Download PDF version of this document.


Scroll pdf ignore

Table of Contents

Table of Contents

...

The Trenz Electronic TE0716 is a commercial-grade* SoM (System on Module) based on Xilinx Zynq-7000 SoC XC7Z020*, with 1GB of DDR3L-1600 SDRAM*, 32MB of SPI flash memory, 10x 12-Bit Low Power SAR ADCs, 512Kb Serial EEPROM, Gigabit Ethernet PHY transceiver, an USB PHY transceiver, a single chip USB 2.0 to UART/JTAG Interface (Xilinx License included), and powerful switching-mode power supplies for all on-board voltages. A large number of configurable I/Os are provided via rugged high-speed board-to-board connectors.

Refer to http://trenz.org/te0716-info for the current online version of this manual and other available documentation.

Notes: * standard values but depends on assembly version. Additional assembly options are available for cost or performance optimization upon request.

Page properties
hiddentrue
idComments

Notes :

...

  • SoC/FPGA
    • Package: CLG484
    • Device: Xilinx Z-7020
    • Speed: -1 *
    • Temperature: C grade *.
  • RAM/Storage
    • Low Power DDR3 SDRAM on PS
      • Data width: 32bit
      • Size: def. 1GB *
      • Speed: 1600 Mbps **
    • QSPI boot Flash
      • Data width: 4bit
      • size: 32MB *
    • MAC address serial EEPROM with EUI-48™ node identity (Microchip 24AA025E48).
    • 512Kb user MAC address serial EEPROM.
  • On Board
    • 10x 12-Bit Low Power SAR ADCs up to 2 MSPS (NCD98011).
    • Low Power Oscillators.
    • Gigabit Ethernet PHY transceiver (Marvell Alaska 88E1512).
    • High-Speed USB 2.0 ULPI transceiver with full OTG support (Microchip USB3320C).
    • Single chip High-Speed USB 2.0 to UART/JTAG Interface (Xilinx License included) (FTDI FT2232H).
    • 2xUser RGB 2x User RGB LEDs (Green), LED FPGA "Done" (Green).
    • 2 x Tactile 2x Tactile Switches (User), 1 x Tactile Switche (Reset).
  • Interface
    • 120 x 120x HR PL I/Os (3 banks).
    • 2x PS MIOs (shared with UART TX/RX ZYNQ-FTDI).
    • 1 Gbps RGMII Ethernet interface.
    • High Speed USB 2.0 ULPI with full OTG support.
    • High Speed USB 2.0 to UART/JTAG interface, including microUSB-B connector.
    • microSD™
    • JTAG

...

Scroll Title
anchorFigure_OV_BD
titleTE0716-01 block diagram


Scroll Ignore

draw.io Diagram
borderfalse
diagramNameDB-TE0716-01
simpleViewerfalse
width
linksauto
tbstylehidden
diagramDisplayName
lboxtrue
diagramWidth641
revision1719


Scroll Only



Main Components

...

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

Scroll Table Layout
orientationportrait
sortDirectionASC
repeatTableHeadersdefault
style
widths
sortByColumn1
sortEnabledfalse
cellHighlightingtrue

Storage device name

IC Designator

Content

Notes

Quad SPI Flash

U7Empty

-

512Kb Serial EEPROMU21Empty

-

2Kb 24AA025E48 EEPROMU24Pre-programmed globally unique, 48-bit node address (MAC).-
4Kb M93C66-R EEPROMU40Xilinx JTAG Programmer License-For FTDI IC only (U39).



Configuration Signals

Page properties
hiddentrue
idComments
  • Overview of Boot Mode, Reset, Enables.

...

Scroll Title
anchorTable_SIP_JTG
titleJTAG pins connection

Scroll Table Layout
orientationportrait
sortDirectionASC
repeatTableHeadersdefault
style
widths
sortByColumn1
sortEnabledfalse
cellHighlightingtrue

JTAG Signal

B2B Connector

Notes
TMSJP2-73.3V Voltage level. Also Connected to U39 (FTDI)
TDIJP2-113.3V Voltage level. Also Connected to U39 (FTDI)
TDOJP2-103.3V Voltage level. Also Connected to U39 (FTDI)
TCK

JP2-8

3.3V Voltage level. Also Connected to U39 (FTDI)

VREF_JTAGJP2-5Module Vout


UART Interface

...

Scroll Title
anchorTable_SIP_UART
titleUART pins connection

Scroll Table Layout
orientationportrait
sortDirectionASC
repeatTableHeadersdefault
style
widths
sortByColumn1
sortEnabledfalse
cellHighlightingtrue

UART Signal

B2B Connector

Notes
UART_TX_ZYNQJP1-703.3V Voltage level. Also Connected to FTDI through U36. To use this signal from B2B connector, "UART_OB_DISABLE" (JP1-11) must be "High".
UART_RX_ZYNQJP1-713.3V Voltage level. Also Connected to FTDI through U36. To use this signal from B2B connector, "UART_OB_DISABLE" (JP1-11) must be "High".


USB Interface

@Guillermo: Hier die JP2 Stecker Pins wo USB rausgeführt wird 

ETH Interface

@Guillermo: Hier die JP11 Stecker Pins  wo ETH rausgeführt wird 

ADC Interface

The analog inputs of the ADCs are connected to B2B connector JP1The TE0716 provides USB access to the TE0716 SoM through B2B connector JP2. The USB interface is connected later to the Zynq UART PS (USB 0), by using a USB PHY.

SAR ADC, U1.
Scroll Title
anchorTable_SIP_ADCsUSB
titleADCs USB pins connection

Scroll Table Layout
orientationportrait
sortDirectionASC
repeatTableHeadersdefault
style
widths
sortByColumn1
sortEnabledfalse
cellHighlightingtrue

ADC

USB Signal

B2B Connector

Notes
ADC0
USB_OTG_D_ P
ADC0_N
JP1-106..107
JP2-643.3V
Max.
Voltage
on any pin
level.
ADC1_P
ADC1SAR ADC, U3.
USB_OTG_D_ N
JP1-46..47
JP2-653.3V
Max.
Voltage
on any pin
level.
ADC2
USB_
P
ADC2
OTG_
NSAR ADC, U10.
ID
JP1-109..110
JP2-663.3V
Max.
Voltage
on any pin
level.
ADC3
USB_
P
ADC3SAR ADC, U15.
VBUS_E N
JP1-49..50
JP2-673.3V
Max.
Voltage
on any pin
level.
ADC4
USB_
P
ADC4_NJP1-112..113

SAR ADC, U17.
3.3V Max. Voltage on any pin.

ADC5_P
ADC5_NJP1-52..53

SAR ADC, U2.
3.3V Max. Voltage on any pin.

ADC6_P
ADC6_NJP1-115..116

SAR ADC, U4.
3.3V Max. Voltage on any pin.

ADC7_P
ADC7_NJP1-55..56

SAR ADC, U11.
3.3V Max. Voltage on any pin.

ADC8_P
ADC8_NJP1-118..119

SAR ADC, U16.
3.3V Max. Voltage on any pin.

ADC9_P
ADC9_NJP1-58..59

SAR ADC, U19.
3.3V Max. Voltage on any pin.

PWM Interface

@Guillermo: Hier die JP2 Stecker Pins  wo PWN rausgeführt wird 

Micro USB -JTAG/UART

A microUSB-B connector (J13) is connected to the FTDI. It provides the ability to communicate to the PL FPGA via JTAG, as well as to the PS UART (UART 0).

Caution: because the TE0716 also provides UART and JTAG access to the FPGA through B2B connectors JP1 and JP2 respectively, ONLY ONE connection for UART, and ONLY ONE connection for JTAG, should be used at the time! (please read "UART Interface" and "JTAG Interface" above in the "Board to Board (B2B)" Section).

Micro SD Socket

A microSD™ card connector (J2) is connected via U35 (SD/SDIO Multiplexer - Level Translator) to Zynq PS (Bank501/SDIO 0). It is a Push-On/Push-Off socket type, and work with a voltage level of 3.3V.

...

VBUSJP2-68

Max. voltage: 5.5V


ETH Interface

The TE0716 provides ETH access to the TE0716 SoM through B2B connector JP1. The ETH interface is connected later to the Zynq Ethernet PS (Ethernet 0), by using a ETH PHY.

Scroll Title
anchorTable_SIP_ETH
titleETH pins connection

Scroll Table Layout
orientationportrait
sortDirectionASC
repeatTableHeadersdefault
style
widths
sortByColumn1
sortEnabledfalse
cellHighlightingtrue

ETH Signal

B2B Connector

Notes

PHY_MDI0_P

PHY_MDI0_ N

JP1-5

JP1-4

3.3V Voltage level.

PHY_MDI1_P

PHY_MDI1_ N

JP1-7

JP1-8

3.3V Voltage level.

PHY_MDI2_P

PHY_MDI2_ N

JP1-68

JP1-67

3.3V Voltage level.

PHY_MDI3_P

PHY_MDI3_ N

JP1-65

JP1-64

3.3V Voltage level.


ADC Interface

The analog inputs of the ADCs are connected to B2B connector JP1.

Scroll Title
anchorTable_SIP_ADCs
titleADCs pins connection

Scroll Table Layout
orientationportrait
sortDirectionASC
repeatTableHeadersdefault
style
widths
sortByColumn1
sortEnabledfalse
cellHighlightingtrue

ADC Signal

B2B Connector

Notes
ADC0_P
ADC0_N
JP1-106..107

SAR ADC, U1.
3.3V Max. Voltage on any pin.

ADC1_P
ADC1_N
JP1-46..47

SAR ADC, U3.
3.3V Max. Voltage on any pin.

ADC2_P
ADC2_N
JP1-109..110

SAR ADC, U10.
3.3V Max. Voltage on any pin.

ADC3_P
ADC3_N
JP1-49..50

SAR ADC, U15.
3.3V Max. Voltage on any pin.

ADC4_P
ADC4_N
JP1-112..113

SAR ADC, U17.
3.3V Max. Voltage on any pin.

ADC5_P
ADC5_N
JP1-52..53

SAR ADC, U2.
3.3V Max. Voltage on any pin.

ADC6_P
ADC6_N
JP1-115..116

SAR ADC, U4.
3.3V Max. Voltage on any pin.

ADC7_P
ADC7_N
JP1-55..56

SAR ADC, U11.
3.3V Max. Voltage on any pin.

ADC8_P
ADC8_N
JP1-118..119

SAR ADC, U16.
3.3V Max. Voltage on any pin.

ADC9_P
ADC9_N
JP1-58..59

SAR ADC, U19.
3.3V Max. Voltage on any pin.


PWM Interface

The PWM signals are connected to B2B connector JP2. All this digital signals are connected to PL Bank 33 (except for PWM_6_H  and PWM_6_L which are connected to PL Bank 13). These signals could be also used as normal single ended I/Os.

Scroll Title
anchorTable_SIP_PWMs
titlePWMs pins connection

Scroll Table Layout
orientationportrait
sortDirectionASC
repeatTableHeadersdefault
style
widths
sortByColumn1
sortEnabledfalse
cellHighlightingtrue

PWM Signal

B2B Connector

Notes
PWM_0_H         JP2-103 3.3V Max. Voltage on any pin.
PWM_0_L         JP2-1043.3V Max. Voltage on any pin.
PWM_1_H         JP2433.3V Max. Voltage on any pin.
PWM_1_L         JP2-443.3V Max. Voltage on any pin.
PWM_10_H        JP2-1183.3V Max. Voltage on any pin.
PWM_10_L        JP2-1193.3V Max. Voltage on any pin.
PWM_11_H        JP2-583.3V Max. Voltage on any pin.
PWM_11_L        JP2-593.3V Max. Voltage on any pin.
PWM_2_H         JP2-1063.3V Max. Voltage on any pin.
PWM_2_L         JP2-1073.3V Max. Voltage on any pin.
PWM_3_H         JP2-463.3V Max. Voltage on any pin.
PWM_3_L         JP2-473.3V Max. Voltage on any pin.
PWM_4_H         JP2-1093.3V Max. Voltage on any pin.
PWM_4_L         JP2-1103.3V Max. Voltage on any pin.
PWM_5_H         JP2-493.3V Max. Voltage on any pin.
PWM_5_L         JP2-503.3V Max. Voltage on any pin.
PWM_6_H         JP2-1123.3V Max. Voltage on any pin.
PWM_6_L         JP2-113 3.3V Max. Voltage on any pin.
PWM_7_H         JP2-52 3.3V Max. Voltage on any pin.
PWM_7_L         JP2-533.3V Max. Voltage on any pin.
PWM_8_H         JP2-1153.3V Max. Voltage on any pin.
PWM_8_L         JP2-1163.3V Max. Voltage on any pin.
PWM_9_H         JP2-553.3V Max. Voltage on any pin.
PWM_9_L         JP2-563.3V Max. Voltage on any pin.


Micro USB -JTAG/UART

A microUSB-B connector (J13) is connected to the FTDI. It provides the ability to communicate to the PL FPGA via JTAG, as well as to the PS UART (UART 0).

Caution: because the TE0716 also provides UART and JTAG access to the FPGA through B2B connectors JP1 and JP2 respectively, ONLY ONE connection for UART, and ONLY ONE connection for JTAG, should be used at the time! (please read "UART Interface" and "JTAG Interface" above in the "Board to Board (B2B)" Section).

Micro SD Socket

A microSD™ card connector (J2) is connected via U35 (SD/SDIO Multiplexer - Level Translator) to Zynq PS (Bank501/SDIO 0). It is a Push-On/Push-Off socket type, and work with a voltage level of 3.3V.

MIO Pins

Page properties
hiddentrue
idComments

you must fill the table below with group of MIOs which are connected to a specific components or peripherals, you do not have to specify pins in B2B, Just mention which B2B is connected to MIOs. The rest is clear in the Schematic.

Example:

MIO PinConnected toB2BNotes
MIO12...14

SPI_CS , SPI_DQ0... SPI_DQ3

SPI_SCK

J2QSPI


PS MIO banks 500/501 signal connections to interface.

Scroll Title
anchorTable_SIP_MIOs
titleMIOs pins

Scroll Table Layout
orientationportrait
sortDirectionASC
repeatTableHeadersdefault
style
widths
sortByColumn1
sortEnabledfalse
cellHighlightingtrue

MIO PinConnected toB2BNotes
1..6

SPI-CS , SPI-DQ0... SPI-DQ3

SPI-SCK

-QSPI Flash, U7
11..13LED1_R..G..B-LED D4
14, 15UART_RX_ZYNQ, UART_TX_ZYNQJP13.3V Voltage level. Also Connected to U36-2. To use this signal from B2B connector, "UART_OB_DISABLE" (JP1-11) must be "High".
16..27ETH-TXCK, ETH-TXD0..ETH-TXD3, ETH-TXCTL, ETH-RXCK, ETH-RXD0..ETH-RXD3, ETH-RXCTL-Gigabit ETH Transceiver, U8
28..39OTG-DATA0..OTG-DATA7, OTG-DIR, OTG-STP, OTG-NXT, OTG-CLK-USB 2.0 ULPI transceiver, U18
40..45PS_SD_CLK, PS_SD_CMD, PS_SD_DAT0..PS_SD_DAT3J23.3V Voltage level. Connected to PS via U35 (SD/SDIO Multiplexer - Level Translator)
46, 47I2C_SCL, I2C_SDA-General Purpose EEPROM, U21
MAC EEPROM, U24
51PHY-RST-Gigabit ETH Transceiver, U8
USB 2.0 ULPI transceiver, U18
52, 53ETH-MDC, ETH-MDIO-Gigabit ETH Transceiver, U8


Test Points

Page properties
hiddentrue
idComments

you must fill the table below with group of MIOs Test Point which are connected to a specific components or peripherals, you do not have to specify pins in B2B, Just mention which B2B is connected to MIOs. The rest is clear in the Schematicindicated as TP in a schematic. If there is no Test Point remarked in the schematic, delet the Test Point section.

Example:

MIO PinConnected toB2BNotes
MIO12...14

SPI_CS , SPI_DQ0... SPI_DQ3

SPI_SCK

J2QSPI

PS MIO banks 500/501 signal connections to interface.

Test PointSignalB2BNotes
10PWR_PL_OKJ2-120



Scroll Title
anchorTable_SIP_MIOsTPs
titleMIOs pinsTest Points Information

Scroll Table Layout
orientationportrait
sortDirectionASC
repeatTableHeadersdefault
style
widths
sortByColumn1
sortEnabledfalse
cellHighlightingtrue

Test PointSignal
MIO Pin
Connected to
B2B
Notes
Notes
TP1+1.
.6

SPI-CS , SPI-DQ0... SPI-DQ3

SPI-SCK

-QSPI Flash, U7
11..13LED1_R..G..B-LED D4
14, 15UART_RX_ZYNQ, UART_TX_ZYNQJP13.3V Voltage level. Also Connected to U36-2. To use this signal from B2B connector, "UART_OB_DISABLE" (JP1-11) must be "High".
16..27ETH-TXCK, ETH-TXD0..ETH-TXD3, ETH-TXCTL, ETH-RXCK, ETH-RXD0..ETH-RXD3, ETH-RXCTL-Gigabit ETH Transceiver, U8
28..39OTG-DATA0..OTG-DATA7, OTG-DIR, OTG-STP, OTG-NXT, OTG-CLK-USB 2.0 ULPI transceiver, U18
40..45PS_SD_CLK, PS_SD_CMD, PS_SD_DAT0..PS_SD_DAT3J23.3V Voltage level. Connected to PS via U35 (SD/SDIO Multiplexer - Level Translator)
46, 47I2C_SCL, I2C_SDA-General Purpose EEPROM, U21
MAC EEPROM, U24
51PHY-RST-Gigabit ETH Transceiver, U8
USB 2.0 ULPI transceiver, U18
52, 53ETH-MDC, ETH-MDIO-Gigabit ETH Transceiver, U8

Test Points

0V

U37, DC-DC Converter

PL-VCCINT
TP2ADC_VAAU38, LDO Regulator
ADC_VAA Analog supply/reference, (3.3V)
TP3+1.5VU43, DC-DC Converter-
TP4+1.8VU45, DC-DC Converter-
TP5VTTU47, DDR Termination Regulator(0.75V)
TP6VTTREFU47, DDR Termination Regulator(0.75V)
TP7+5.0VJP1-(1,2,3)
JP2-(1,2,3)
Main Digital Power Input
TP8+3.3VU46, DC-DC Converter-
TP9+5.0V_VAAJP1-(43,44)Main Analog Low Power Input
TP10+3.3V_ADCU23, LDO RegulatorADC's Digital I/O supply
TP11GND--
TP12GND--
TP13SPI-DQ3/M0MIO_5Remove SD card and short with TP14 for JTAG only mode
TP14GND--


On-board Peripherals

Page properties
hiddentrue
idComments

Notes :

  • add subsection for every component which is important for design, for example:
    • Two 100 Mbit Ethernet Transciever PHY
    • USB PHY
    • Programmable Clock Generator
    • Oscillators
    • eMMCs
    • RTC
    • FTDI
    • ...
    • DIP-Switches
    • Buttons
    • LEDs


J2-120

Page properties
hiddentrue
idComments

Notes :

In the on-board peripheral table "chip/Interface" must be linked to the corresponding chapter or subsection

you must fill the table below with group of Test Point which are indicated as TP in a schematic. If there is no Test Point remarked in the schematic, delet the Test Point section.

Example:

Test PointSignalB2BNotes
10PWR_PL_OK


Connected to
Scroll Title
anchorTable_SIP_TPsOBP
titleTest Points InformationOn board peripherals

Scroll Table Layout
orientationportrait
sortDirectionASC
repeatTableHeadersdefault
style
widths
sortByColumn1
sortEnabledfalse
cellHighlightingtrue

Chip/InterfaceDesignator
Test PointSignal
Notes
TP1+1.0V

U37, DC-DC Converter

PL-VCCINTTP2ADC_VAAU38, LDO Regulator
ADC_VAA Analog supply/reference, (3.3V)TP3+1.5VU43, DC-DC Converter-TP4+1.8VU45, DC-DC Converter-TP5VTTU47, DDR Termination Regulator(0.75V)TP6VTTREFU47, DDR Termination Regulator(0.75V)TP7+5.0VJP1-(1,2,3)
JP2-(1,2,3)Main Digital Power InputTP8+3.3VU46, DC-DC Converter-TP9+5.0V_VAAJP1-(43,44)Main Analog Low Power InputTP10+3.3V_ADCU23, LDO RegulatorADC's Digital I/O supplyTP11GND--TP12GND--TP13SPI-DQ3/M0MIO_5Remove SD card and short with TP14 for JTAG only modeTP14GND--

On-board Peripherals

Page properties
hiddentrue
idComments

Notes :

  • add subsection for every component which is important for design, for example:
    • Two 100 Mbit Ethernet Transciever PHY
    • USB PHY
    • Programmable Clock Generator
    • Oscillators
    • eMMCs
    • RTC
    • FTDI
    • ...
    • DIP-Switches
    • Buttons
    • LEDs

...

hiddentrue
idComments

Notes :

...

DDR3 SDRAMU12, U13-
Quad SPI FlashU7-
MAC EEPROMU24-
General Purpose EEPROMU21-
SAR ADCsU1, U2, U3, U4, U10, U11, U15, U16, U17, U19-
Clock SourcesU6, U9, U14, U41-
Gigabit Ethernet PHYU8-
USB 2.0 ULPI transceiverU18-
FTDI USB 2.0 to UART/JTAGU39-
LEDsD3, D4, D5-
SwitchesS1, S2, S3-


DDR3 SDRAM

Page properties
hiddentrue
idComments

Notes :

Minimum and Maximum density of DDR3 SDRAM must be mentioned for other assembly options. (pay attention to supported address length for DDR3)

The TE0716 module has two 500MByte DDR3L SDRAM chips (U12 & U13) fully connected to PS DDR BANK 502, and arranged into 32-bit wide memory bus providing total on-board memory size of 1GByte.

  • Configuration: 256Mx16*
  • Supply voltage: 1.35V (1.5V tolerant).
  • Speed: 1.25ns @ CL11 (DDR3-1600)*
  • Temperature: Industrial Range -40°C to +95°C Tcase.

Notes: * standard value but depends on assembly version.

Quad SPI Flash Memory

Page properties
hiddentrue
idComments

Notes :

Minimum and Maximum density of quad SPI flash must be mentioned for other assembly options.

On-board 32MByte QSPI flash memory S25FL256S (U7) could be used to store the initial FPGA configuration file. After configuration completes, the remaining free memory can be used for application data storage. All four SPI data lines are connected to the FPGA allowing x1, x2 or x4 data bus widths. Maximum data rate depends on the selected bus width and clock frequency used.

  • Part number: S25FL256SAGBHI20*
  • Supply voltage: 3.3V (2.7V - 3.6V).
  • Speed: 133MHz max.*
  • Temperature: Industrial Range -40°C to +85°C.

Notes: * standard number/value but depends on assembly version.

Designator
Scroll Title
anchorTable_OBP_SPI
titleOn board peripheralsQuad SPI interface MIOs and pins

Scroll Table Layout
orientationportrait
sortDirectionASC
repeatTableHeadersdefault
style
widths
sortByColumn1
sortEnabledfalse
cellHighlightingtrue

MIO PinSchematicU7 Pin
Chip/Interface
Notes
DDR3 SDRAMU12, U13-Quad SPI FlashU7-MAC EEPROMU24
MIO1SPI-CSCS#-
General Purpose EEPROMU21-SAR ADCsU1, U2, U3, U4, U10, U11, U15, U16, U17, U19-Clock SourcesU6, U9, U14, U41-Gigabit Ethernet PHYU8-USB 2.0 ULPI transceiverU18-FTDI USB 2.0 to UART/JTAGU39-LEDsD3, D4, D5-SwitchesS1, S2, S3-