Table of contents
Overview
TEI0006 firmware for Intel MAX 10 FPGA U18: 10M08SAU169C8G
Feature Summary
- JTAG routing
- UART routing
- LED control
- Power control
- Reset
- Configuration mode selection
- programming Oscillator SI5345A
Firmware Revision and supported PCB Revision
See Document Change History
Product Specification
Port Description
| Name / opt. VHD Name | Direction | Pin | Bank Power | Description |
|---|---|---|---|---|
BASE_BTN1 | in | C9 | 3.3V | User button "USER_BTN1" from carrier board TEIB0006 (B2B connector → J2-152) |
| BASE_BTN2 | in | B3 | 3.3V | User button "USER_BTN2" from carrier board TEIB0006 (B2B connector → J2-154) |
| BASE_LED1 | out | A6 | 3.3V | Led "LED1" from carrier board TEIB0006 (B2B connector → J2-146) |
| BASE_LED2 | out | A3 | 3.3V | Led "LED2" from carrier board TEIB0006 (B2B connector → J2-148) |
| DATA0 | in | N5 | 1.8VIO | Data input signal from Intel Cyclone 10 GX |
| DEVCLRN | out | J5 | 1.8VIO | Device-wide reset, Intel Cyclone 10 GX |
| DIS_GROUP1 | out | K12 | 3.3V | Fast Discharging |
| DIS_GROUP2 | out | K10 | 3.3V | Fast Discharging |
| DIS_GROUP3 | out | J9 | 3.3V | Fast Discharging |
| DIS_GROUP4 | out | J12 | 3.3V | Fast Discharging |
| EN_0V9 | out | E9 | 3.3V | Power enable signal 0.9V |
| EN_0V95 | out | J10 | 3.3V | Power enable signal 0.95V |
| EN_1V8 | out | D9 | 3.3V | Power enable signal 1.8V |
| EN_1V8MB | out | H9 | 3.3V | Power enable signal 1.8V for carrier board TEIB0006 (B2B connector → J2-86) |
| EN_1V8VIO | out | L12 | 3.3V | Power enable signal 1.8VIO |
| EN_1V35 | out | D12 | 3.3V | Power enable signal 1.35V |
| EN_3V3MB | out | A11 | 3.3V | Power enable signal 3.3V for carrier board TEIB0006 (B2B connector → J2-74) |
| EN_VTT | out | C11 | 3.3V | Power enable signal VTT |
| F_TCK_OUT | out | N2 | 1.8VIO | JTAG, Intel Cyclone 10 GX |
| F_TDI_OUT | out | M2 | 1.8VIO | JTAG, Intel Cyclone 10 GX |
| F_TDO_IN | in | M3 | 1.8VIO | JTAG, Intel Cyclone 10 GX |
| F_TMS_OUT | out | K1 | 1.8VIO | JTAG, Intel Cyclone 10 GX |
| I2C_SCL | bidir | K2 | 1.8VIO | Clock signal for I2C interface |
| I2C_SDA | bidir | L2 | 1.8VIO | Data signal for I2C interface |
| LED_FP_1 | out | B13 | 3.3V | red led D1, status led for Intel Cyclone 10 GX |
| LED_FP_2 | out | B11 | 3.3V | green led D2, status led for power sequencer core |
| LED_FP_3 | out | A12 | 3.3V | user defined, green led D3 |
| LED_FP_4 | out | B12 | 3.3V | user defined, green led D4 |
| MSEL0 | out | M7 | 1.8VIO | configuration mode selection, Intel Cyclone 10 GX |
| MSEL1 | out | M9 | 1.8VIO | configuration mode selection, Intel Cyclone 10 GX |
| NCONFIG | out | M8 | 1.8VIO | FPGA configuration pin, Intel Cyclone 10 GX |
| NSTATUS | in | M5 | 1.8VIO | FPGA configuration pin, Intel Cyclone 10 GX |
| PG_0V9 | in | E10 | 3.3V | Power Good signal 0.9V, U4 |
| PG_0V95 | in | H10 | 3.3V | Power Good signal 0.95V, U7 |
| PG_1V8 | in | F8 | 3.3V | Power Good signal 1.8V, U5 |
| PG_1V8VIO | in | K11 | 3.3V | Power Good signal 1.8VIO, U6 |
| PG_1V35 | in | E12 | 3.3V | Power Good signal 1.35V, U8 |
| PG_VTT | in | D11 | 3.3V | Power Good signal VTT_DDR, U9 |
| PHY1_33LED1 | out | F10 | 3.3V | green led from RJ45-connector on carrier board TEIB0006 (B2B connector → J2-67) |
| PHY1_33LED2 | out | F9 | 3.3V | yellow led from RJ45-connector on carrier board TEIB0006 (B2B connector → J2-69) |
| PHY1_LED1 | in | J1 | 1.8VIO | led output pin from ethernet phy U2 for PHY1_33LED1 |
| PHY1_LED2 | in | H5 | 1.8VIO | led output pin from ethernet phy U2 for PHY1_33LED2 |
| PLL_RST | out | L3 | 1.8VIO | Device reset for porgrammable oscillator SI5345A, U14 |
| TCK_IN | in | G2 | 3.3V | JTAG, B2B connector → J2-157 |
| TDI_IN | in | F5 | 3.3V | JTAG, B2B connector → J2-159 |
| TDO_OUT | out | F6 | 3.3V | JTAG, B2B connector → J2-158 |
| TMS_IN | in | G1 | 3.3V | JTAG, B2B connector → J2-160 |
| UART_RXD_IN | in | N6 | 1.8VIO | UART, Intel Cyclone 10 GX |
| UART_RXD_OUT | out | A10 | 3.3V | UART, B2B connector → J2-151 |
| UART_TXD_IN | in | B10 | 3.3V | UART, B2B connector → J2-153 |
| UART_TXD_OUT | out | K5 | 1.8VIO | UART, Intel Cyclone 10 GX |
| VADJ_EN | out | C12 | 3.3V | Output enable signal for voltage regulator U11 |
| VADJ_VS0 | out | F12 | 3.3V | Voltage selection signal for voltage regulator U11 |
| VADJ_VS1 | out | E13 | 3.3V | Voltage selection signal for voltage regulator U11 |
| VADJ_VS2 | out | F13 | 3.3V | Voltage selection signal for voltage regulator U11 |
| M10_CLK | in | G9 | 3.3V | Clock input signal, 25 MHz |
Functional Description
JTAG
JTAG access to TEI0006 SoM only through B2B connector J2 available. The JTAG signals are routed directly from B2B connector through Intel MAX 10 to Intel Cyclone 10 GX.
Access between Intel MAX 10 and Intel Cyclone 10 GX can be selected via JTAGEN. JTAGEN pin is already pulled up to 3.3V for access to Intel MAX 10. For access to Intel Cyclone 10 GX JTAGEN pin has to pulled down to GND on B2B connector J2-105.
With carrier board TEIB0006:
DIP Switch S1-1 position = OFF → access to Intel MAX 10
ON → access to Intel Cyclone 10 GX
UART
UART signals are routed directly from B2B connector through Intel MAX 10 to Intel Cyclone 10 GX.
LED control
BASE_LED1 (B2B connector → J2-146) and the NCONFIG Pin from Intel Cyclone 10 GX are connected to user button BASE_BTN1 (B2B connector → J2-152).
BASE_LED2 (B2B connector → J2-148) is connected to user button BASE_BTN2 (B2B connector → J2-154).
LED_FP_1 is connected to NSTATUS pin from Intel Cyclone 10 GX.
LED_FP_2 is connected to the fault status signal of the power sequencer core.
ON → no fault detected
OFF → fault detected
LED_FP_3 and LED_FP_4 are connected to DATA0 pin from Intel Cyclone 10 GX.
PHY1_LED1 is directly connected with PHY1_33LED1.
PHY1_LED2 is directly connected with PHY1_33LED2.
Power control
All power regulators are controlled by the power sequencer core. It enables and discharges the power regulators and monitors the power good signals.
Output voltage VADJ of power regulator U11 is set to 1.8V via VADJ_VS0 pin, VADJ_VS1 pin and VADJ_VS2 pin (Pins are set to logical one).
Reset
DEVCLRN (Device-wide reset) pin for Intel Cyclone 10 GX and clock reset PLL_RST for the programmable Oscillator SI5345A are set to logical one.
Configuration mode selection
MSEL0 and MSEL1 are set to logical one. The selected configuration mode is "AS / Standard".
Programmable Oscillator SI5345A
The volatile memory of the programmable Oscillator SI5345A is configured via I2C interface with following clock frequencies.
| PLL out | Frequency | I/O Standard |
|---|---|---|
| OUT0 | 100 MHz | LVDS |
| OUT1 | 100 MHz | LVDS |
| OUT2 | 100 MHz | LVCMOS |
| OUT3 | unused | -- |
| OUT4 | unused | -- |
| OUT5 | 200 MHz | LVDS |
| OUT6 | 100 MHz | LVDS |
| OUT7 | 125 MHz | LVDS |
| OUT8 | 100 MHz | LVDS |
| OUT9 | 125 MHz | LVDS |
Appx. A: Change History and Legal Notices
Revision Changes
- REV02 to REV03
- add Power Sequencer Core
- programm Oscillator SI5345A via I2C interface
- REV01 to REV02
- add VADJ configuration for power regulator U11
Document Change History
To get content of older revision got to "Change History" of this page and select older document revision number.
| Date | Document Revision | CPLD Firmware Revision | Supported PCB Revision | Authors | Description |
|---|---|---|---|---|---|
| REV3 | REV2 |
| |||
| 2019-08-27 | v.1 | REV1 | REV1 | Thomas Dück |
|
| All |
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