TEF1002 TRM

Download PDF version of this document.

Table of Contents

Overview

The Trenz Electronic TE0xxx-xx ... is an industrial-grade ... module ... based on Xilinx ...

Refer to http://trenz.org/tec0850-info for the current online version of this manual and other available documentation.

Key Features

Carrier for 4x5 modules
LPC FMC
SFP+ connector
PCIe x1
SATA connector
RJ45 Gigabit Ethernet connector
micro-usb to JTAG/UART bridge
2x 8 lane high speed LVDS connectors
micro usb connector
micro SD card connector
4x LED (2User, Power and Status)
Module reset button
10x configuration/user dip switch
MAX10 CPLD

Block Diagram

TEF1002 block diagram

Main Components

TEF1002 main components

ANSI/VITA 57.1 compliant FMC LPC connector, J1
Cooling fan 5VDC M1 (45X5MM, 0.7W, 1.06CFM), M1
SFP+ connector, J12
PCIe x1 connector, J3
SATA connector, J31
Trenz Electronic 4 x 5 modules B2B connectors, JB1 ... JB3
RJ45 Gigabit Ethernet connector, J9
2x high speed LVDS arrangement of connectors J11, J13, J14, J18
Micro-USB2 connector, J10
FTDI FT2232H USB2 to JTAG,UART/FIFO Bridge, U4
Micro-USB2 connector, J16
MAX10 10M08SAU169C8G CPLD, U11
6-pin 12V power connector, J15
6x1 JTAG pin header (not fitted)
3x1 jumper pin header (select VCCIOA), J4
3x1 jumper pin header (select VCCA_SD), J7
2x1 pin header (VBAT), J6
2x5 1,27mm pitch pin header (PJTAG), J19
Push button, S1
10x dip switch, S2, S3
DCDC LMZ23605TZ @5.0V (5V0PER), U15
DCDC LMZ23605TZ @5.0V (5V0), U9
DCDC LMZ23605TZ @3.3V(3V3IN), U10
2x green LED (user), D1, D2
green LED (Power), D3
green LED (Status), D4
SD-Card connector (top loader),
DCDC EN5335QI (FMC_VADJ), U1
DCDC EN6338QI @3.3V (3V3FMC), U14
SDIO Level shifter TXS02612, U3

Initial Delivery State

Storage device name	Content	Notes
FTDI chip configuration EEPROM (93AA56B), U6	Xilinx License	Do not overwrite, see warning in related section
MAX10 System Controller CPLD (10M08SAU169C8G), U14	SC CPLD Firmware

Initial delivery state of programmable devices on the module.

Control Signals

To get started with TEF1002 board, some basic control signals are essential and are described in the following table:

Control signal	Switch / Button / LED / Pin	Signal Schematic Names	Connected to	Functionality	Notes
FMC_VADJ voltage selection	DIP switches S2-1, S2-2, S2-3	VID0 ... VID2	SC CPLD U11, pins K6, J5, K5	sets adjustable voltage for FMC connector	dependens on SC CPLD configuration
JTAG enable	DIP switch S2-4	JTAGEN	SC CPLD U11, pin E5	OFF: TEF1002 SC CPLD JTAG enabled, ON: Module/FMC JTAG enabled	-
Module JTAG select	DIP switch S2-5	M_JTAGEN	B2B JB1, pin 90	When S2-4 ON and S2-6 OFF: OFF: Module SC CPLD JTAG enabled, ON: Module SOC JTAG enabled	-
FMC JTAG select	DIP switch S2-6	FMC_JTAG	SC CPLD U11,L3	When S2-4 ON: OFF: TEF1002 SC CPLD JTAG enabled, ON: FMC JTAG enabled	depends on SC CPLD configuration, only avialiable when 4x5 module installed
Enable module power	DIP switch S2-7	CM0	SC CPLD U11, M3	Module power. Set ON to enable module power. (Power management depends on module. )	depends on SC CPLD configuration, only avialiable when 4x5 module installed
No sequenzing	DIP switch S2-8	CM1	SC CPLD U11, L2	Module Power management. Set ON to disable module CPLD power management. Power management depends on module and not all modules support extended power management with CPLD.	depends on SC CPLD configuration, only avialiable when 4x5 module installed
Boot Mode	DIP switch S3-1	CM2	SC CPLD U11, K2	Boot Mode for attached module (Default: OFF for primary SD boot and ON for primary QSPI boot. Depends also on module CPLD firmware).	depends on SC CPLD configuration, only avialiable when 4x5 module installed
FMC VADJ enable	DIP switch S3-2	USR0	SC CPLD U11, K1	ON: FMC VADJ enable also without installed FMC Card OFF: FMC_FADJ only enabled when FMC installed.	dependens on SC CPLD configuration, only avialiable when 4x5 module installed
Reset	Push button S1	BUTTON	SC CPLD U11, N6	Module Reset, Low active module reset. Pin force Power one reset on FPGA/SoC.	depends on SC CPLD configuration
2x User LED	Green LEDs D1, D2	LED1, LED2	SC CPLD U11, J5, K5	Depends on User configuration, curenntly both off, if not otherwise programmed.	depends on SC CPLD configuration
Board power indicator	Green LED D3	3V3IN	B2B JB1, pin 14, 16	ON: 3.3V on-board voltage available	-
Board status indicators	Green LED D4	-	SC CPLD U11, pin C2	ON: No failure. For other blinking status of this LED please refer to SC Firmware description.	dependens on SC CPLD configuration
Enable module power	SC CPLD U11, D11	EN1	B2B JB1, pin 27	Module power. (Power management depends on module. )	-
No sequenzing	SC CPLD U11, E13	NOSEQ	B2B JB1, pin 8	Power management depends on module and not all modules support extended power management with CPLD.	-
Boot Mode	SC CPLD U11, B11	MODE	B2B JB1, pin 31	Boot Mode for attached module. LOW for primary SD boot and HIGH for primary QSPI boot. (Depends also on module CPLD firmware).	-
Module Reset	SC CPLD U11, E12	RESIN	B2B JB2, pin 17	Module Reset	-

TEF1002 Control Signals

Signals, Interfaces and Pins

Board to Board (B2B) I/Os

I/O signals connected to the B2B connector:

B2B Connector	Interfaces	I/O Signal Count	Notes
JB1	User IO	15 single ended or 7 differential	TEF1002 CPLD
		16 single ended or 8 differential	FFA
		16 single ended or 8 differential	FFB
	MIO/PJTAG/User IO	4	Pinheader J19
	CPLD IO	2	Module CPLD IO to Carrier CPLD
	SD IO	6	-
	UART	2	-
	GbE PHY_MDIO + PHY_COM	8 +1	-
	Module Control	5	NOSEQ,, EN1, PGOOD, MODE, M_JTAGEN
JB2	User IO	12 single ended or 6 differential	LPC FMC
	MGTs (RX+TX)	4	PCIe x1, SFP+, LPC FMC, SATA
	MGTCLK	1 differential	-
	CLK	1 differential	-
	USB	2	OTG-D_P, OTG-D_N
	USB Control	3	OTG-ID
JB3	User IO	56 single ended or 28 differential	LPC FMC
	CLK	2 differential	M2C
	JTAG	4	-

General overview of B2B connectors

FMC LPC Connector

I/O signals and interfaces connected to the FPGA SoCs I/O bank and FMC connector J1:

FMC Connector J2 Pins and Interfaces	I/O Signal Count	LVDS-pairs count	Connected to	VCCIO voltage	Notes
I/O	56	28	B2B JB2 connector	FMC_VADJ	pins usable as single ended I/O's or LVDS pairs
I/O	12	6	B2B JB3 connector	FMC_VADJ	pins usable as single ended I/O's or LVDS pairs
Multi Gigabit Transceiver	-	2	B2B JB3 connector, pin 19, 21 and 20, 22	-	RX, TX
Gigabit Transceiver Clock	-	1	B2B JB3 connector, pin 31, 33	-
I²C (SDA, SCL)	2	-	SC CPLD U11, pin F9, J8	3V3IN	FMC I²C Geographical Address pins GA0 and GA1 set to GND.
JTAG	5	-	SC CPLD U11, pin N7, M8, F8, M7, N8	3V3IN	TDO, TMS, TCK, TDI, TRST
Clock Input	-	2	B2B JB3 connector	FMC_VADJ	2x reference clock inputs
Control Signals	2	-	SC CPLD U11, pin M5, E9	3V3IN	'PG_C2M', 'FMC_PRSNT'
Reference voltage (FMC_VREF)	-	-	-	-	Not Connected.

FMC connector interface

SFP+ Interface

Connector J12 Pins and Interfaces	I/O Signal Count	LVDS-pairs count	Connected to	VCCIO voltage	Notes
Multi Gigabit Transceiver	-	2	B2B JB3 connector, pin 13, 15 and 14, 16	-	RX, TX
Control	6		SC CPLD U11	3V3IN	TX_FAULT, TX_DIS, M-DEF0, RS0, RS1, LOS
I²C (SDA, SCL)	2	-	SC CPLD U11, pin F9, J8	3V3IN	MUX via CPLD

SFP+ interface

PCIe x1 card edge connector

Connector J3 Pins and Interfaces	I/O Signal Count	LVDS-pairs count	Connected to	VCCIO voltage	Notes
Multi Gigabit Transceiver	-	2	B2B JB3 connector, pin 7, 9 and 8, 10	-	RX, TX
Clock	-	1	B2B JB3 connector, pin 32, 34	-
JTAG	5	-	SC CPLD U11, M12, M13, L11, N12, G10	3V3IN	TDO, TMS, TCK, TDI, TRST

PCIe x1 card edge connector

SATA connector

Connector J31 Pins and Interfaces	I/O Signal Count	LVDS-pairs count	Connected to	VCCIO voltage	Notes
Multi Gigabit Transceiver	-	2	B2B JB3 connector, pin 7, 9 and 8, 10	-	RX, TX

SATA connector

LVDS high speed connectors FFA and FFB

There are two connector arrangements mechanical compatible to Firefly connectors, but with high speed LVDS signals.

Connector, Pins and Interfaces	I/O Signal Count	LVDS-pairs count	Connected to	VCCIO voltage	Notes
FFA, J11	-	8	B2B JB1 connector	-	-
FFA Control, J14	4	-	SC CPLD U11, pin C10, C9, E8, B9	3V3IN	MPRS, MSEL, INTL, RSTL
FFA I2C, J14	2	-	SC CPLD U11, pin E6, D6	3V3IN
FFB, J11	-	8	B2B JB1 connector	-	-
FFB Control, J14	4	-	SC CPLD U11, pin A11, B10, A10, B9	3V3IN	MPRS, MSEL, INTL, RSTL
FFB I2C, J14	2	-	SC CPLD U11, pin A9, D8	3V3IN

FMC connector interface

The RSTL of both connectors are tied together.

microUSB JTAG/UART/FIFO Interface

The microUSB connector provides JTAG access through the carriers USB to JTAG/UART/FIFO bridge. JTAG is routed for MUX and CPLD JTAG access to the CPLD. UART signals are connected to the module B2B connectors. For further description of the JTAG MUX see Dip switches or SC CPLD Firmware. For non-standard functionalitiers compare on-board Peripherals and datasheet of FTDI FT2232H.

microUSB

Connector J16, Pins and Interfaces	I/O Signal Count	LVDS-pairs count	Connected to	VCCIO voltage	Notes
DATA	-	1	B2B JB3 connector, pin 48, 50	-	-
Power, Control	3	-	B2B JB3 pin 52, 54, 56	-	OTG-ID, VBUS_V_EN, USB-VBUS

MicroUSB J16

RJ45 - Ethernet MagJack

Connector J9, Pins and Interfaces	I/O Signal Count	LVDS-pairs count	Connected to	VCCIO voltage	Notes
PHY_MDI	-	4	B2B JB1 connector, pin 3, 5, 9, 11, 15, 17, 21, 23	-	-
LED1	2	-	SC CPLD U11, pin B13, C12	3V3IN	green/yellow
LED2	2		SC CPLD U11, pin D12, C13	3V3IN	green/yellow

Gigabit Ethernet Connector

micro SD-Card connector

The micro SD-Card connector J8 is connected to a TXS02612 SDIO port expander, which is used as levelshifter. Depending on the modules IO Voltage of the IO Bank where the SD-Card is connected Jumper J7 has to be set.

Connector J8 pin	Signal Schematic Name	Muxed to signal on Port Expander	Connected to	Notes
2, DAT3	SD-D3_LS	SD_D3	B2B JB1, pin 18	-
3, CMD	SD-CMD_LS	SD_CMD	B2B JB1, pin 26	-
5, CLK	SD-CCLK_LS	SD_CCLK	B2B JB1, pin 28	-
7, DAT0	SD-D0_LS	SD_D0	B2B JB1, pin 24	-
8, DAT1	SD-D1_LS	SD_D1	B2B JB1, pin 22	-
1, DAT2	SD-D2_LS	SD_D2	B2B JB1, pin 20	-

micro SD-Card connector

On-board Peripherals

System Controller CPLD MAX10

The Intel/Altera MAX10 10M08SAU169C8G System Controller CPLD (U11) is the central system management unit where essential control signals are logically linked by the implemented logic in CPLD firmware. It generates output signals to control the system, the on-board peripherals and the interfaces. The JTAG and I²C between the on-board peripherals and the attached module are by-passed, forwarded and controlled by the System Controller CPLD. A main tasks of the System Controller CPLD is the monitoring of the power-on sequence and configuring the state of the attached module. For detailed information, refer to the firmware documentation of the SC CPLD. Table below lists the SC CPLD I/O signals and pins:

Signal name	SC CPLD Pin	Connected to	Function	Notes
ACBUS0	A4	FTDI U4, pin 22	GPIO's available to user	(FIFO or other FTDI functions when FTDI reprogrammed)
ACBUS1	B4	FTDI U4, pin 23
ACBUS2	A5	FTDI U4, pin 24
ACBUS3	B5	FTDI U4, pin 25
ACBUS4	A6	FTDI U4, pin 26
ACBUS5	B6	FTDI U4, pin 27
ACBUS6	A7	FTDI U4, pin 28
ACBUS7	A8	FTDI U4, pin 29
ADBUS4	A2	FTDI U4, pin 17
ADBUS5	B2	FTDI U4, pin 18
ADBUS6	A3	FTDI U4, pin 19
ADBUS7	B3	FTDI U4, pin 20
TCK	G2	FTDI U4, pin 12	Forwarded JTAG signals from FTDI chip.	(FIFO or other FTDI functions when FTDI reprogrammed)
TDI	F5	FTDI U4, pin 13
TDO	F6	FTDI U4, pin 14
TMS	G1	FTDI U4, pin 15
M_TCK	H5	JB2, pin 100	4x5 Module JTAG	Bank with VCCIO is VREF_JTAG from Module
M_TDI	J2	JB2, pin 96
M_TDO	J1	JB2, pin 98
M_TMS	H6	JB2, pin 94
FMC_TCK	F8	J1, pin D29	FMC JTAG	TRST not used
FMC_TDI	M7	J1, pin D30
FMC_TDO	N7	J1, pin D31
FMC_TMS	M8	J1, pin D33
FMC_TRST	N8	J1, pin D34
PCIE_TCK	L11	J3, pin A5	PCIe JTAG	Currently not used
PCIE_TDI	N12	J3, pin A6
PCIE_TDO	M12	J3, pin A7
PCIE_TMS	M13	J3, pin A8
PCIE_TRST	G10	J3, pin B9
PCIE_PERST	F12	J3, pin A11	Indication that PCIe Bus is up (power, clocks)
EN_FMC	L4	U14, pin 9	Enable switched 3.3V FMC power	pulled down
EN_FMC_VADJ	K7	U1, pin 41	Enable IO power FMC_VADJ	pulled down
EN_PER	F13	Q4, pin 5	Enable perepherie power 3V3_PER	pulled down
FAN_FMC_EN	K8	Q1, pin 5	Enable FMC FAN
FMC_PG_C2M	M5	J1, pin D1	Indicate that all FMC related powers are up	pulled up
FMC_PRSNT_M2C_L	E9	J1, pin H2	Indicate if FMC installed	Low when FMC present
FMC_SCL	J8	J1, pin C31	I²C 2-wire serial bus	MUX in CPLD
FMC_SDA	F9	J1, pin C30	I²C 2-wire serial bus	MUX in CPLD
PG_FMC_VADJ	J6	U1, pin 35	Indicate FMC VADJ power is up
FF_RSTL	B9	J13, pin 6 and J18, pin 6	Reset configuration	Both FF are resetted simultanously when pulled LOW
FFA_INTL	E8	J13, pin 5	Indicate interrrupt	LOW when fault condition, pulled up
FFA_MPRS	C10	J13, pin 3	Indicate FF Module installed	LOW when Module present, pulled up
FFA_MSEL	C9	J13, pin 4	Select attached FF Module	Pull low to use I²C
FFA_SCL	D6	J13, pin 8	I²C 2-wire serial bus	MUX in CPLD
FFA_SDA	E6	J13, pin 7	I²C 2-wire serial bus	MUX in CPLD
FFB_INTL	A10	J18, pin 5	Indicate interrrupt	LOW when fault condition, pulled up
FFB_MPRS	A11	J18, pin 3	Indicate FF Module installed	LOW when Module present, pulled up
FFB_MSEL	B10	J18, pin 4	Select attached FF Module	Pull low to use I²C
FFB_SCL	D8	J18, pin 8	I²C 2-wire serial bus	MUX in CPLD
FFB_SDA	A9	J18, pin 7	I²C 2-wire serial bus	MUX in CPLD
CPLD_IO_1	B12	JB1, pin 88	(M)IOs from 4x5 Module	(M)IOs used for ETH PHY LEDs
CPLD_IO_2	A12	JB1, pin 92	(M)IOs from 4x5 Module	(M)IOs used for ETH PHY LEDs
M10_RST	D1	TP22		Not used
M10_RX	E4	TP24
M10_TX	E3	TP23
EN1	D11	JB1, pin 27	Enable on module power	Depends on module, on some similar to reset.
MODE	B11	JB1, pin 31	Boot Mode selection	For Zynq modules only. (LOW → SD, HIGH → primary QSPI)
NOSEQ	E13	JB1, pin 8	Disable module CPLD power management	Depends on module. On some modules no extended CPLD power management avaialble.
PGOOD	C11	JB1, pin 29	Power good signal	This is only for monitoring, do not use as powerenable! Pulled up.
RESIN	E12	JB2, pin 17	Module Reset	Aktive LOW
M3.3VOUT	M4	JB2, pin 9 and 11	Indicates module power is up	Used for perepherie power enable.
SFPA_LOS	M10	J12, pin 8	SFP signal loss	HIGH indicates signal loss
SFPA_M-DEF0	F10	J12, pin 6	SFP modul absent	HIGH when module physically absent
SFPA_RS0	N10	J12, pin 7	SFP rate select RX	LOW for 1000BASE-SX, HIGH for 10GBASE-SR
SFPA_RS1	M11	J12, pin 9	SFP rate select TX	LOW for 1000BASE-SX, HIGH for 10GBASE-SR
SFPA_SCL	L10	J12, pin 5	I²C 2-wire serial bus	MUX in CPLD
SFPA_SDA	N9	J12, pin 4	I²C 2-wire serial bus	MUX in CPLD
SFPA_TX_DIS	M9	J12, pin 3	SFP transmitter disable	HIGH disables transmitter
SFPA_TX_FAULT	G9	J12, pin 2	Indicates SFP laser fault	HIGH indicates fault
VID0_FMC_VADJ	E10	U1, pin 34	FMC_VADJ Voltage select	Chip internal pulled up
VID1_FMC_VADJ	J7	U1, pin 33
VID2_FMC_VADJ	L5	U1, pin 32
VID0	K6	S2-1	For FMC_VADJ Voltage select
VID1	N5	S2-2
VID2	N4	S2-3
JTAGEN	E5	S2-4
FMC_JTAG	L3	S2-6
CM0	M3	S2-7
CM1	L2	S2-8
CM2	K2	S3-1
USR0	K1	S3-2
USB_OC	D9	U12, pin 5
BUTTON	N6	S1
LED1	J5	D1	user LED
LED2	K5	D2	user LED
-	C2	D4	Status LED	For further explanation see SC CPLD Firmware description
PHY_LED1	D12	J9	Phy LEDs
PHY_LED1R	C13	J9
PHY_LED2	B13	J9
PHY_LED2R	C12	J9
A_00_N	J10	JB1, pin 38	Module to CPLD communication	Currently "three wire" I²C and RGPIO, see SC CPLD Firmware description
A_00_P	K10	JB1, pin 36
A_01_N	L12	JB1, pin 35
A_01_P	K11	JB1, pin 37
A_02_N	J12	JB1, pin 41
A_02_P	K12	JB1, pin 39
A_03_N	H10	JB1, pin 44
A_03_P	J9	JB1, pin 42
A_04_N	H13	JB1, pin 47
A_04_P	J13	JB1, pin 45
A_05_N	H8	JB1, pin 57
A_05_P	H9	JB1, pin 55
A_06_N	G12	JB1, pin 49
A_06_P	G13	JB1, pin 51
A_07	L13	JB1, pin 34

SC CPLD pin mapping

FTDI FT2232H

The TEF1002 board has an on-board microUSB 2.0 (J10) high-speed to JTAG/UART/FIFO IC FT2232H (U4) from FTDI. Channel A can be used as JTAG Interface (MPSSE) to program on module JTAG devices. Channel B can be used as UART Interface routed to the B2B connector. There is also a 256-byte serial EEPROM connected to the FT2232H chip pre-programmed with license code to support Xilinx programming tools.

Do not access the FT2232H EEPROM using FTDI programming tools, doing so will erase normally invisible user EEPROM content and invalidate stored Xilinx JTAG license. Without this license the on-board JTAG will not be accessible any more with any Xilinx tools. Software tools from FTDI website do not warn or ask for confirmation before erasing user EEPROM content.

Refer to the FTDI datasheet to get information about other options of the FT2232H chip.

FTDI U4 pin	Signal Schematic Name	Connected to, Pin	Function	Notes
Pin 22	ACBUS0	SC CPLD U4, A4	GPIO's available to user	(FIFO or other FTDI functions when FTDI reprogrammed)
Pin 23	ACBUS1	SC CPLD U4, B4
Pin 24	ACBUS2	SC CPLD U4, A5
Pin 25	ACBUS3	SC CPLD U4, B5
Pin 26	ACBUS4	SC CPLD U4, A6
Pin 27	ACBUS5	SC CPLD U4, B6
Pin 28	ACBUS6	SC CPLD U4, A7
Pin 29	ACBUS7	SC CPLD U4, A8
Pin 17	ADBUS4	SC CPLD U4, A2
Pin 18	ADBUS5	SC CPLD U4, B2
Pin 19	ADBUS6	SC CPLD U4, A3
Pin 20	ADBUS7	SC CPLD U4, B3
Pin 12	TCK	SC CPLD U4, G2	JTAG signals forward to SC CPLD U4	(FIFO or other FTDI functions when FTDI reprogrammed)
Pin 13	TDI	SC CPLD U4, F5
Pin 14	TDO	SC CPLD U4, F6
Pin 15	TMS	SC CPLD U4, G1
Pin 32	BDBUS0	JB1, 91	UART
Pin 33	BDBUS1	JB1, 86	UART

FT2232H interface connections

SDIO Port Expander

The TEF1002 is equipped with the Texas Instruments TXS02612 SDIO Port Expander (U3), which is used as a SDIO level shifter. Port A is connected to the B2B connector J1. The IO Voltage VCCA_SD of this port is selected by jumper J7 and has to be set according to the module attached. Port B0 is directly connected to the microSD Card connector (J8).

Port Expander U3 pin	Signal Schematic Name	Connected to B2B Pin	Notes
Pin 6	SD-D0	JB1, Pin 24	Signals levelshiftet to 3.3V and connected to Card holder (J8)
Pin 7	SD-D1	JB1, Pin 22
Pin 1	SD-D2	JB1, Pin 20
Pin 3	SD-D3	JB1, Pin 18
Pin 4	SD-CMD	JB1, Pin 26
Pin 9	SD-CCLK	JB1, Pin 28

SDIO Port Expander connections

Configuration DIP-switches

S2 and S3 provide 10 dip-switchs for configuration purpurses. Some of them are hard wired others are SC CPLD firmware dependent. If Firmware dependet, the functions in Notes are for the actual delivery firmware. For further descriptions see firmware description.

Switch	Signal Schematic Name	Connected to, Pin	Notes
S2-1	VID0	SC CPLD U11, K6	SC CPLD firmware dependent, used for FMC_VADJ, see table below.
S2-2	VID1	SC CPLD U11, N5
S2-3	VID2	SC CPLD U11, N4
S2-4	JTAGEN	SC CPLD U11, E5	OFF TEF1002 SC CPLD JTAG; ON module/FMC JTAG, hard wired.
S2-5	M_JTAGEN	JB1, Pin 90	When S2-4 ON and S2-6 OFF: OFF 4x5 module CPLD JTAG, ON 4x5 module FPGA/SOC JTAG, hard wired.
S2-6	FMC_JTAG	SC CPLD U11, L3	SC CPLD firmware dependent. When S2-4 ON: ON FMC JTAG; OFF 4x5 module JTAG
S2-7	CM0	SC CPLD U11, M3	SC CPLD firmware dependent, EN1
S2-8	CM1	SC CPLD U11, L2	SC CPLD firmware dependent, NOSEQ
S3-1	CM2	SC CPLD U11, K2	SC CPLD firmware dependent, BOOT MODE
S3-2	USR0	SC CPLD U11, K1	SC CPLD firmware dependent, Override FMC_EN_VADJ

DIP-switches

S2-1	S2-2	S2-3	Output Voltage
OFF	OFF	OFF	3.3V
OFF	OFF	ON	2.5V
OFF	ON	OFF	1.8V
OFF	ON	ON	1.5V
ON	OFF	OFF	1.25V
ON	OFF	ON	1.2V
ON	ON	OFF	0.8V

FMC_VADJ selection

Jumper

There are two voltage select jumpers available. J4 is used to select the SDIO signal voltage and J7 is used to select VCCIOA IO Voltage. Both have to be selected according to the attached 4x5 module capabilities (See TRM of your module).

Jumper	Power rail	3.3V	1.8V	Remark
J4	VCCIOA	1-2	2-3	Powers 4x5 bank, where FFA and FFB high spped signals are connected.
J7	VCCA_SD	1-2	2-3	Powers side of SDIO Levelshifter where 4x5 module is connected.

Jumper positions

Push Button

There is on push button (S1) on the TEF1002. It is connected to the SC CPLD (U11 Pin N6). The function is firmware dependet. In the actual delivery firmware it is used as module reset connected to B2B JB2 Pin 17 (RESIN). For further descriptions see firmware description.

Pin Header

Pin 1 of the 2x1 pin header J6 is directly connected to the B2B connetor JB1 PSBATT pin. Pin to is connected to GND. This pin header can be used to supply the

Check the TRM of the attached 4x5 Module for the correct Battery voltage. Do not short or swap polarity, this may damage the module!

Pinheader J19 is, if available, for PJTAG access or can be used as connector for the 4 IO pins.

Pin	Signal Schematic Name	Connected to, pin	NOTE
1	3V3IN	-	Instant on Power rail.
2	PJTAG_TMS	JB1-98	Check 4x5 module TRM for capability of connected IO
3	GND	-	-
4	PJTAG_TCK	JB1, 96	Check 4x5 module TRM for capability of connected IO
5	GND	-	-
6	PJTAG_TDO	JB1, 100	Check 4x5 module TRM for capability of connected IO
7	-	-	-
8	PJTAG_TDI	JB1, 94	Check 4x5 module TRM for capability of connected IO
9	GND	-	-
10	-	-	-

Jumper positions

The 3V3IN power rail connected to pin 1 is instant on. Do not use for IO enable.

On-board LEDs

There are 4 green LEDs on the board, two of them are for user purpurses and controlabe via the RGPIO of the actual delivery firmware.

LED	Connected to	Function	Notes
D1	SC CPLD U11, Pin J5	User LEDs	SC CPLD firmware dependet
D2	SC CPLD U11, Pin K5	User LEDs	SC CPLD firmware dependet
D3	3V3IN	Power	ON when 3.3V generated from 12V input is up
D4	SC CPLD U11, Pin C2	Status	SC CPLD firmware dependet, for further dexcription see firmware description.

LED Overview

Power and Power-On Sequence

Power Consumption

Power consumption depends on the attached 4x5 module and configuration, as well as FPGA design. Generally a power supply with minimum current capability of 3A at 12V for system startup is recommended.

Power Distribution Dependencies

Power Distribution

Power-On Sequence

Power up sequenz is depicted in the following figure. Most of the enables are handled by the SC CPLD and are therefore Firmware dependent. The Power up meets all criteria to power up 4x5 modules.

Power Sequency

Power Rails

In the following table power rails acceccible for in or output on any connectors are summarized.

Connector, Pins	Voltage	Direction	Notes
J15, 1,2,3	12V	IN	TEF1002 supply voltage
J16, 1	5V	OUT	USB-VBUS_R
J6, 1	Depends on 4x5 Module	IN	Directly connected to B2B PSBATT pin
J2, 2	5V	OUT	FMC Fan Connector
JB1, 10,12	1,8V/3.3V	OUT	VCCIOA, selected by J4
JB1, 14,16	3.3V	OUT	Module supply voltage
JB1, 40	1.8V	IN	Module 1.8V output
JB1, 80	Depends on 4x5 Module	OUT	Directly connected to pinheader J6 PSBATT
JB1, 2,4,6	5V	OUT	Module power input
JB2, 1,3,5,7	5V	OUT	Module power input
JB2, 9,11	3.3V	IN	Module 3.3V output
JB2, 2,4,6,8,10	0,8V ... 3.3V	OUT	Module VCCIOB, VCCIOC, VCCIOD connected to FMC VADJ
JB2, 20	Depends on 4x5 Module	IN	Module DDR power output
JB2, 92	Depends on 4x5 Module	IN	VREF_JTAG
J13, 1,10	3.3V	OUT	FFA supply voltages
J18, 1,10	3.3V	OUT	FFB supply voltages

Power Rails

Technical Specifications

Absolute Maximum Ratings

Parameter

Min

Max

Units

Reference Document

VIN supply voltage

-0.3

20

V

TPS6217 datasheet

Note: voltage limitations are not valid for connected FMC module

Storage temperature

-40

+100

°C

SML-P11 LED datasheet

Module absolute maximum ratings.

Recommended Operating Conditions

Parameter	Min	Max	Units	Reference Document
VIN supply voltage	11.4	12.6	V	12V nominal, ANSI/VITA 57.1 power specification for FMC connector
Board Operating Temperature Range	0	85	°C	10M08SAU169C8G CPLD datasheet

Recommended Operating Conditions.

Physical Dimensions

Physical dimensions drawing

Variants Currently In Production

Trenz shop TEF1002 overview page
English page	German page

Trenz Electronic Shop Overview

Revision History

Hardware Revision History

Date	Revision	Note	PCN	Documentation Link
-	01	Prototypes	-	-

Hardware Revision History

Hardware Revision Number

Hardware revision number is printed on the PCB board next to the module model number separated by the dash.

Document Change History

Date

Revision

Contributor

Description

Error rendering macro 'page-info'

Ambiguous method overloading for method jdk.proxy241.$Proxy3496#hasContentLevelPermission. Cannot resolve which method to invoke for [null, class java.lang.String, class com.atlassian.confluence.pages.Page] due to overlapping prototypes between: [interface com.atlassian.confluence.user.ConfluenceUser, class java.lang.String, class com.atlassian.confluence.core.ContentEntityObject] [interface com.atlassian.user.User, class java.lang.String, class com.atlassian.confluence.core.ContentEntityObject]

Error rendering macro 'page-info'

Ambiguous method overloading for method jdk.proxy241.$Proxy3496#hasContentLevelPermission. Cannot resolve which method to invoke for [null, class java.lang.String, class com.atlassian.confluence.pages.Page] due to overlapping prototypes between: [interface com.atlassian.confluence.user.ConfluenceUser, class java.lang.String, class com.atlassian.confluence.core.ContentEntityObject] [interface com.atlassian.user.User, class java.lang.String, class com.atlassian.confluence.core.ContentEntityObject]

Error rendering macro 'page-info'

Ambiguous method overloading for method jdk.proxy241.$Proxy3496#hasContentLevelPermission. Cannot resolve which method to invoke for [null, class java.lang.String, class com.atlassian.confluence.pages.Page] due to overlapping prototypes between: [interface com.atlassian.confluence.user.ConfluenceUser, class java.lang.String, class com.atlassian.confluence.core.ContentEntityObject] [interface com.atlassian.user.User, class java.lang.String, class com.atlassian.confluence.core.ContentEntityObject]

initial version

--

all

Error rendering macro 'page-info'

Ambiguous method overloading for method jdk.proxy241.$Proxy3496#hasContentLevelPermission. Cannot resolve which method to invoke for [null, class java.lang.String, class com.atlassian.confluence.pages.Page] due to overlapping prototypes between: [interface com.atlassian.confluence.user.ConfluenceUser, class java.lang.String, class com.atlassian.confluence.core.ContentEntityObject] [interface com.atlassian.user.User, class java.lang.String, class com.atlassian.confluence.core.ContentEntityObject]

--

Document change history.

Disclaimer

Data Privacy

Please also note our data protection declaration at https://www.trenz-electronic.de/en/Data-protection-Privacy

Document Warranty

The material contained in this document is provided “as is” and is subject to being changed at any time without notice. Trenz Electronic does not warrant the accuracy and completeness of the materials in this document. Further, to the maximum extent permitted by applicable law, Trenz Electronic disclaims all warranties, either express or implied, with regard to this document and any information contained herein, including but not limited to the implied warranties of merchantability, fitness for a particular purpose or non infringement of intellectual property. Trenz Electronic shall not be liable for errors or for incidental or consequential damages in connection with the furnishing, use, or performance of this document or of any information contained herein.

Limitation of Liability

In no event will Trenz Electronic, its suppliers, or other third parties mentioned in this document be liable for any damages whatsoever (including, without limitation, those resulting from lost profits, lost data or business interruption) arising out of the use, inability to use, or the results of use of this document, any documents linked to this document, or the materials or information contained at any or all such documents. If your use of the materials or information from this document results in the need for servicing, repair or correction of equipment or data, you assume all costs thereof.

Copyright Notice

No part of this manual may be reproduced in any form or by any means (including electronic storage and retrieval or translation into a foreign language) without prior agreement and written consent from Trenz Electronic.

Technology Licenses

The hardware / firmware / software described in this document are furnished under a license and may be used /modified / copied only in accordance with the terms of such license.

Environmental Protection

To confront directly with the responsibility toward the environment, the global community and eventually also oneself. Such a resolution should be integral part not only of everybody's life. Also enterprises shall be conscious of their social responsibility and contribute to the preservation of our common living space. That is why Trenz Electronic invests in the protection of our Environment.

REACH, RoHS and WEEE

REACH

Trenz Electronic is a manufacturer and a distributor of electronic products. It is therefore a so called downstream user in the sense of REACH. The products we supply to you are solely non-chemical products (goods). Moreover and under normal and reasonably foreseeable circumstances of application, the goods supplied to you shall not release any substance. For that, Trenz Electronic is obliged to neither register nor to provide safety data sheet. According to present knowledge and to best of our knowledge, no SVHC (Substances of Very High Concern) on the Candidate List are contained in our products. Furthermore, we will immediately and unsolicited inform our customers in compliance with REACH - Article 33 if any substance present in our goods (above a concentration of 0,1 % weight by weight) will be classified as SVHC by the European Chemicals Agency (ECHA).

RoHS

Trenz Electronic GmbH herewith declares that all its products are developed, manufactured and distributed RoHS compliant.

WEEE

Information for users within the European Union in accordance with Directive 2002/96/EC of the European Parliament and of the Council of 27 January 2003 on waste electrical and electronic equipment (WEEE).

Users of electrical and electronic equipment in private households are required not to dispose of waste electrical and electronic equipment as unsorted municipal waste and to collect such waste electrical and electronic equipment separately. By the 13 August 2005, Member States shall have ensured that systems are set up allowing final holders and distributors to return waste electrical and electronic equipment at least free of charge. Member States shall ensure the availability and accessibility of the necessary collection facilities. Separate collection is the precondition to ensure specific treatment and recycling of waste electrical and electronic equipment and is necessary to achieve the chosen level of protection of human health and the environment in the European Union. Consumers have to actively contribute to the success of such collection and the return of waste electrical and electronic equipment. Presence of hazardous substances in electrical and electronic equipment results in potential effects on the environment and human health. The symbol consisting of the crossed-out wheeled bin indicates separate collection for waste electrical and electronic equipment.

Trenz Electronic is registered under WEEE-Reg.-Nr. DE97922676.

Error rendering macro 'page-info'

Ambiguous method overloading for method jdk.proxy241.$Proxy3496#hasContentLevelPermission. Cannot resolve which method to invoke for [null, class java.lang.String, class com.atlassian.confluence.pages.Page] due to overlapping prototypes between: [interface com.atlassian.confluence.user.ConfluenceUser, class java.lang.String, class com.atlassian.confluence.core.ContentEntityObject] [interface com.atlassian.user.User, class java.lang.String, class com.atlassian.confluence.core.ContentEntityObject]

Trenz Electronic Documentation

TEF1002 TRM

Overview

Key Features

Block Diagram

Main Components

Initial Delivery State

Control Signals

Signals, Interfaces and Pins

Board to Board (B2B) I/Os

FMC LPC Connector

SFP+ Interface

PCIe x1 card edge connector

SATA connector

LVDS high speed connectors FFA and FFB

microUSB JTAG/UART/FIFO Interface

microUSB

RJ45 - Ethernet MagJack

micro SD-Card connector

On-board Peripherals

System Controller CPLD MAX10

FTDI FT2232H

SDIO Port Expander

Configuration DIP-switches

Jumper

Push Button

Pin Header

On-board LEDs

Power and Power-On Sequence

Power Consumption

Power Distribution Dependencies

Power-On Sequence

Power Rails

Technical Specifications

Absolute Maximum Ratings

Recommended Operating Conditions

Physical Dimensions

Variants Currently In Production

Revision History

Hardware Revision History

Document Change History

Disclaimer

Data Privacy

Document Warranty

Limitation of Liability

Copyright Notice

Technology Licenses

Environmental Protection

REACH, RoHS and WEEE