VCC and VCCP must operate at the same voltage level, should share the same power plane on the board, and be sourced from the same regulator.

For details about the recommended operating conditions, refer to the Electrical Characteristics in the Intel® Stratix® 10 Device Datasheet.

Use the Intel® Stratix® 10 Early Power Estimator (EPE) and the Intel® Quartus® Prime Power Analyzer to determine the current requirements for VCCP and other power supplies. Decoupling for these pins depends on the decoupling requirements of the specific board.

See Notes 2, 3, 4, 6, and 10 in Notes to Intel® Stratix® 10 Core Pins.

VCC and VCCP must operate at the same voltage level, should share the same power plane on the board, and be sourced from the same regulator.

For details about the recommended operating conditions, refer to the Electrical Characteristics in the Intel® Stratix® 10 Device Datasheet.

Use the Intel® Stratix® 10 Early Power Estimator (EPE) and the Intel® Quartus® Prime Power Analyzer to determine the current requirements for VCC and other power supplies. Decoupling for these pins depends on the decoupling requirements of the specific board.

See Notes 2, 3, 4, 6, and 10 in Notes to Intel® Stratix® 10 Core Pins.

Connect VCCPT to a 1.8V low noise switching regulator. You have the option to source the following from the same regulator as VCCPT:

• VCCIO_SDM and VCCIO_HPS
• VCCIO and VCCIO3V if these rails are using the same voltage level
• VCCBAT if this rail is using the same voltage level and the design security key feature is not required
• VCCH_GXB, VCCA_PLL, VCCPLL_SDM, VCCPLL_HPS, and VCCADC with proper isolation filtering

Provide a minimum decoupling of 1uF for the VCCPT power rail near the VCCPT pin.

A floating voltage may be observed on VCCPT during device power-up and power-down sequencing due to VCCERAM, with the magnitude of the floating voltage being lower than VCCPT. This is the expected behavior and will neither cause any functional failure nor reliability concerns to the device provided that the power-up or power-down sequence is followed.

For the power rail sharing, refer to the Power Supply Sharing Guidelines for Intel® Stratix® 10 Devices.

See Notes 2, 3, 4, 7, and 10 in Notes to Intel® Stratix® 10 Core Pins.

Connect VCCA_PLL to a 1.8V low noise switching regulator. With proper isolation filtering, you have the option to source VCCA_PLL from the same regulator as VCCPT.

See Notes 2, 3, 4, 7, and 10 in Notes to Intel® Stratix® 10 Core Pins.

VCCIO2[A,B,C,F,G,H,I, J,K,L,M,N]_F[1,2]

VCCIO3[A,B,C,D,E,F,G,H,I,J,K,L]_F[1,2]

These are the supply voltage pins for the I/O banks. Each bank can support a different voltage level.

Supported VCCIO standards include the following:

• Diff HSTL/HSTL(12,15,18)
• Diff SSTL/SSTL(12,125, 135, 15, 18)
• Diff HSUL/HSUL(12)
• Diff POD 12
• LVDS/Mini_LVDS/RSDS
• 1.2V, 1.5V, and 1.8V

These VCCIO guidelines only apply to non-HF35 package devices and HF35 package devices with exception of the GX 400 (1SG040), SX 400 (1SX040), and TX 400 (1ST040) devices. If you are using the HF35 package of the GX 400 (1SG040), SX 400 (1SX040), and TX 400 (1ST040) devices, refer to the 3.3V I/O Pins table in this document for the VCCIO3C and VCCIO3D connection guidelines.

Connect these pins to 1.2V, 1.25V, 1.35V, 1.5V, or 1.8V supplies, depending on the I/O standard required by the specific bank.

You have the option to power down unused I/O banks by connecting their VCCIO pin to GND.

During the power-up sequence only, a transient current whose magnitude is less than the VCCIO operating static current may be observed as the VCCIO transistors become operational. This is the expected behavior and will neither cause any functional failure nor reliability concerns to the device provided that the power-up or power-down sequence is followed.

When I/O bank 3A is used for AVST x16 or AVST x32 configuration mode, you must connect the VCCIO3A power supply to the VCCIO_SDM power supply for proper device functionality.

For more details, refer to the Intel® Stratix® 10 General Purpose I/O User Guide.

For the power rail sharing, refer to the Power Supply Sharing Guidelines for Intel® Stratix® 10 Devices.

See Notes 2, 3, 4, 8, and 10 in Notes to Intel® Stratix® 10 Core Pins.

Connect these pins to 1.2V, 1.5V, 1.8V, 2.5V, or 3.0V supplies, depending on the I/O standard required by the specified bank.

VCCIO3V must be powered on for proper device operation even if the VCCIO3V banks are unused.

VCCR_GXB, VCCT_GXB, and VCCH_GXB must be powered up to operate the VCCIO3V bank.

For more details, refer to the Intel® Stratix® 10 General Purpose I/O User Guide.

For the power rail sharing, refer to the Power Supply Sharing Guidelines for Intel® Stratix® 10 Devices.

See Notes 2, 3, 4, 8, and 10 in Notes to Intel® Stratix® 10 Core Pins.

Connect these pins to a 1.8V power supply. When dual-purpose configuration pins are used for configuration, tie VCCIO of the bank where the dual-purpose configuration pins reside to the same regulator as VCCIO_SDM.

When these pins require the same voltage level as VCCIO, you have the option to tie them to the same regulator as VCCIO.

Provide a minimum decoupling of 47nF for the VCCIO_SDM power rail near the VCCIO_SDM pin.

For the power rail sharing, refer to the Power Supply Sharing Guidelines for Intel® Stratix® 10 Devices.

See Notes 2, 3, 4, and 10 in Notes to Intel® Stratix® 10 Core Pins.

Connect all VCCERAM pins to a 0.9V low noise switching power supply.

VCCPLLDIG_SDM must be sourced from the same regulator as VCCERAM with proper isolation filtering.

For more details, refer to the Intel® Stratix® 10 Device Datasheet.

See Notes 2, 3, 7, and 10 in Notes to Intel® Stratix® 10 Core Pins.

When using the design security volatile key, connect this pin to a non-volatile battery power source in the range of 1.2V - 1.8V.

When not using the volatile key, tie this pin to the 1.8-V VCCPT.

This pin must be properly powered as per the recommended voltage range as the power-on reset (POR) circuitry of the Intel® Stratix® 10 devices monitors VCCBAT.

Provide a minimum decoupling of 47nF for the VCCBAT power rail near the VCCBAT pin.

For the power rail sharing, refer to the Power Supply Sharing Guidelines for Intel® Stratix® 10 Devices.

Connect these pins to a 1.8V low noise power supply through a proper isolation filter.

With proper isolation filtering, you have the option to source VCCPLL_SDM from the same regulator as VCCPT when all power rails require 1.8V.

Decoupling for these pins depends on the design decoupling requirements of the specific board.

See Notes 2, 3, 4, and 7 in Notes to Intel® Stratix® 10 Core Pins.

VREFB2[A,B,C,F,G,H,I,J,K,L,M,N]N0_F[1,2]

VREFB3[A,B,C,D,E,F,G,H,I,J,K,L]N0_F[1,2]

If VREF pins are not used, connect them to either the VCCIO in the bank in which the pins reside or GND.

See Notes 2, 8, and 10 in Notes to Intel® Stratix® 10 Core Pins.

VCCLSENSE and GNDSENSE are differential remote sense pins for the VCC power. Connect your regulators’ differential remote sense lines to the respective VCCLSENSE and GNDSENSE pins. This compensates for the DC IR drop associated with the PCB and device package from the VCC power. Route these connections as differential pair traces and keep them isolated from any other noise source.

You must connect the VCCLSENSE and GNDSENSE lines to the regulator’s remote sense inputs.

You must supply a low noise 1.8V power supply to this pin if you are using the internal voltage sensors of the Intel® Stratix® 10 device.

When you are using the voltage sensors, tie this pin to VCCA_PLL with proper isolation filtering.

If you are not using the voltage sensors, tie this pin to VCCA_PLL.