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1.1. Pins Status for Agilex™ 7 M-Series Devices
1.2. Agilex™ 7 M-Series FPGA Core Pins
1.3. Agilex™ 7 M-Series HBM2E Pins
1.4. Agilex™ 7 M-Series F-Tile Pins
1.5. Agilex™ 7 M-Series R-Tile Pins
1.6. Agilex™ 7 M-Series Hard Processor System (HPS) Pins
1.7. Agilex™ 7 M-Series Power Supply Sharing Guidelines
1.8. Notes to Agilex™ 7 M-Series Device Family Pin Connection Guidelines
1.9. Document Revision History for the Agilex™ 7 Device Family Pin Connection Guidelines: M-Series
1.2.1. Clock and PLL Pins
1.2.2. Dedicated Configuration/JTAG Pins
1.2.3. Optional/Dual-Purpose Configuration Pins
1.2.4. Differential I/O Pins
1.2.5. External Memory Interface Pins
1.2.6. Voltage Sensor and Voltage Reference Pins
1.2.7. Remote Temperature Sensing Diode Pins
1.2.8. Reference Pins
1.2.9. No Connect and DNU Pins
1.2.10. Power Supply Pins
1.2.11. Secure Device Manager (SDM) Pins
1.2.12. Secure Device Manager (SDM) Optional Signal Pins
1.6.1. HPS Supply Pins
1.6.2. HPS Oscillator Clock Input Pin
1.6.3. HPS JTAG Pins
1.6.4. HPS GPIO Pins
1.6.5. HPS SDMMC Pins
1.6.6. HPS NAND Pins
1.6.7. HPS USB Pins
1.6.8. HPS EMAC Pins
1.6.9. HPS I2C_EMAC and MDIO Pins
1.6.10. HPS I2C Pins
1.6.11. HPS SPI Pins
1.6.12. HPS UART Pins
1.6.13. HPS Trace Pins
1.7.1. Example 1— Agilex™ 7 M-Series Devices with R-Tile, F-Tile and HBM2E Using DDR4
1.7.2. Example 2— Agilex™ 7 M-Series Devices with R-Tile, F-Tile and HBM2E Using DDR5
1.7.3. Example 3— Agilex™ 7 M-Series Devices with R-Tile and F-Tile, Without HBM2E Using DDR4
1.7.4. Example 4— Agilex™ 7 M-Series Devices with F-Tile only and HBM2E Using DDR4
1.7.5. Example 5— Agilex™ 7 M-Series Devices with F-Tile only and HBM2E Using DDR5
1.7.6. Example 6— Agilex™ 7 M-Series Devices with F-Tile only and Without HBM2E Using DDR5
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1.7.4. Example 4— Agilex™ 7 M-Series Devices with F-Tile only and HBM2E Using DDR4
| Power Pin Name | Regulator Group | Voltage Level (V) | Supply Tolerance | Power Source | Regulator Sharing | Notes |
|---|---|---|---|---|---|---|
| VCC | 1 | SmartVID10, 0.8 | ±3% | Switcher 11 | Share | Source VCC and VCCP from the same regulator, sharing the same voltage plane. You have the option to connect VCCL_HPS to the same regulator as VCC and VCCP when the power rails require the same voltage level. You may also connect the VCCPLLDIG_HPS power to the shared VCC, VCCP, and VCCL_HPS power planes with proper isolation filtering. For -4X devices, VCC and VCCP are powered by SmartVID and a separate fixed 0.8 V supply must be used for VCCL_HPS and filtered VCCPLLDIG_HPS. When implementing a filtered supply topology, you must consider the IR drop across the filter. If you do not intend to utilize the HPS in the Agilex™ 7 M-Series device, you must still provide power to these power supply pins. Do not leave the VCCL_HPS and VCCPLLDIG_HPS power supply pins floating or connected to GND. |
| VCCP | ||||||
| VCCL_HPS | ||||||
| VCCPLLDIG_HPS | Filter | |||||
| VCCH | 2 | 0.8 | ±3% | Switcher11 | Share |
Connect these rails to a dedicated 0.8-V power supply. When implementing a filtered supply topology, you must consider the IR drop across the filter. |
| VCC_HSSI_GXF | ||||||
| VCCL_SDM | ||||||
| VCCH_SDM | ||||||
| VCCLPLL_NOC | Filter | |||||
| VCCPLLDIG_SDM | Filter | |||||
| VCCPLLDIG_NOC | Filter | |||||
| VCCERT_FGT_GXF | 3 | 1.0 |
±2.5% |
Switcher11 or Linear |
Share | Connect to a dedicated 1.0-V power supply. |
| VCCERT1_FHT_GXF | ||||||
| VCCERT2_FHT_GXF | ||||||
| VCCFUSEWR_GXF | ||||||
| VCCFUSECORE_GXF | ||||||
| VCCEHT_FHT_GXF | 4 | 1.5 | -2.5% to +2% | Linear | Isolate | Connect to a dedicated 1.5-V power supply. |
| VCCPT | 5 | 1.8 |
±3% | Switcher11 | Share |
Connect VCCPT to a dedicated 1.8-V power supply. Connect VCCADC, VCCPLL_SDM, VCCPLL_HPS, VCCH_FGT_GXF, and VCCCLK_GXF to the same power plane with proper isolation filtering. Depending on the regulator capabilities, you have the option to share this supply with multiple Agilex™ 7 M-Series devices. |
| VCCIO_NOC | ||||||
| VCCIO_SDM | ||||||
| VCCIO_HPS | ||||||
| VCCFUSEWR_SDM | ||||||
| VCCH_FGT_GXF | Filter | |||||
| VCCADC | Filter | |||||
| VCCPLL_SDM | ||||||
| VCCPLL_HPS | ||||||
| VCCPLL_NOC | Filter | |||||
| VCCCLK_GXF | Filter | |||||
| VCCM_PUMP_HBM | 6 | 2.5 | ±5% | Switcher11 | Isolate | Connect to a dedicated 2.5-V power supply. |
| VCCRCORE | 7 | 1.2 | ±5% or ±3%12 | Switcher11 | Share | Connect to a dedicated 1.2-V power supply. When implementing a filtered supply topology, you must consider the IR drop across the filter. |
| VCCIO_PIO_SDM | ||||||
| VCCIO_PIO_T/B | ||||||
| VCCIO_UIB |
Each board design requires its own power analysis to determine the required power regulators needed to satisfy the specific board design requirements. An example block diagram using the Agilex™ 7 M-Series devices is provided in the following figure.
Figure 4. Example Power Supply Sharing Guidelines for Agilex™ 7 M-Series Devices with F-Tile Only and HBM2E, Using DDR4
10 For the SmartVID voltage range, refer to the Agilex™ 7 FPGAs and SoCs Device Data Sheet: M-Series .
11 When using a switcher to supply these voltages, the switcher must be a low noise switcher as defined in note 4 of the Notes to Agilex™ 7 M-Series Device Family Pin Connection Guidelines .
12 You may supply the VCCIO_PIO voltage rail of a sub-bank with a ±5% voltage tolerance only if the entire sub-bank is operating in any of the LVDS SERDES receiver mode with the use of 1.05 V, 1.1 V, or 1.2 V True Differential Signaling input standard, PHY Lite mode, or GPIO mode. Otherwise, you must supply the VCCIO_PIO voltage rail with a ±3% voltage supply tolerance.