Agilex™ 7 FPGAs and SoCs Device Data Sheet: F-Series and I-Series

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ID 683301
Date 4/01/2024
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Document Table of Contents
Document Table of Contents x
Agilex™ 7 FPGAs and SoCs Device Data Sheet: F-Series and I-Series
Agilex™ 7 FPGAs and SoCs Device Data Sheet: F-Series and I-Series x
Electrical Characteristics Switching Characteristics Configuration Specifications I/O Timing Programmable IOE Delay Glossary Document Revision History for the Agilex 7 FPGAs and SoCs Device Data Sheet: F-Series and I-Series
Electrical Characteristics x
Operating Conditions
Operating Conditions x
Absolute Maximum Ratings Maximum Allowed Overshoot and Undershoot Voltage Recommended Operating Conditions DC Characteristics I/O Standard Specifications
Recommended Operating Conditions x
Recommended Operating Conditions E-Tile Transceiver Power Supply Recommended Operating Conditions P-Tile Transceiver Power Supply Recommended Operating Conditions R-Tile Transceiver Power Supply Recommended Operating Conditions F-Tile Transceiver Power Supply Recommended Operating Conditions HPS Power Supply Recommended Operating Conditions
DC Characteristics x
Supply Current and Power Consumption I/O Pin Leakage Current Bus Hold Specifications OCT Calibration Accuracy Specifications OCT Without Calibration Resistance Tolerance Specifications Pin Capacitance Internal Weak Pull-Up Resistor Hysteresis Specifications for Schmitt Trigger Input
I/O Standard Specifications x
Single-Ended I/O Standards Specifications Single-Ended SSTL, HSTL, HSUL, and POD I/O Reference Voltage Specifications Single-Ended SSTL, HSTL, HSUL, and POD I/O Standards Signal Specifications Differential SSTL, HSTL, and HSUL I/O Standards Specifications Differential POD I/O Standards Specifications Differential I/O Standards Specifications
Switching Characteristics x
Core Performance Specifications Periphery Performance Specifications E-Tile Transceiver Performance Specifications P-Tile Transceiver Performance Specifications R-Tile Transceiver Performance Specifications F-Tile Transceiver Performance Specifications HPS Performance Specifications
Core Performance Specifications x
Clock Tree Specifications I/O PLL Specifications DSP Block Specifications Memory Block Specifications Local Temperature Sensor Specifications Remote Temperature Diode Specifications Voltage Sensor Specifications
Periphery Performance Specifications x
LVDS SERDES Specifications DPA Lock Time Specifications LVDS SERDES Soft-CDR Sinusoidal Jitter Tolerance Specifications Memory Standards Supported DLL Range Specifications Memory Output Clock Jitter Specifications
E-Tile Transceiver Performance Specifications x
E-Tile Transceiver Performance E-Tile Transceiver Reference Clock Specifications E-Tile Transmitter Specifications E-Tile Receiver Specifications
P-Tile Transceiver Performance Specifications x
P-Tile Transceiver Performance P-Tile Transceiver Reference Clock Specifications P-Tile Transmitter Specifications P-Tile Receiver Specifications
R-Tile Transceiver Performance Specifications x
R-Tile Transceiver Performance R-Tile Transceiver Reference Clock Specifications R-Tile Transmitter Specifications R-Tile Receiver Specifications
F-Tile Transceiver Performance Specifications x
F-Tile Transceiver Performance F-Tile Transceiver Reference Clock Specifications F-Tile Transmitter Specifications F-Tile Receiver Specifications F-Tile Electrical Compliance
HPS Performance Specifications x
HPS Clock Performance HPS Internal Oscillator Frequency HPS PLL Specifications HPS Cold Reset HPS SPI Timing Characteristics HPS SD/MMC Timing Characteristics HPS USB UPLI Timing Characteristics HPS Ethernet Media Access Controller (EMAC) Timing Characteristics HPS I2C Timing Characteristics HPS NAND Timing Characteristics HPS Trace Timing Characteristics HPS GPIO Interface HPS JTAG Timing Characteristics HPS Programmable I/O Timing Characteristics
Configuration Specifications x
General Configuration Timing Specifications POR Specifications External Configuration Clock Source Requirements JTAG Configuration Timing AS Configuration Timing Avalon® Streaming (Avalon®-ST) Configuration Timing Configuration Bit Stream Sizes
Agilex™ 7 FPGAs and SoCs Device Data Sheet: F-Series and I-Series

Remote Temperature Diode Specifications

Note the following for the remote temperature diode specifications:
  • The temperature diode characteristics in this table target for three-currents temperature sensing chip implementation. The characteristics can also apply to two-currents temperature sensing chip implementation.
  • Absolute accuracy is dependent on third-party external diode ADC and integration specifics.
Table 34.  Remote Temperature Diode Specifications (Core Fabric TSD) For specification status, see the Data Sheet Status table
Description Min Typ Max Unit
Ibias, diode source current 10 170 μA
Vbias, voltage across diode 0.43 0.75 V
Series resistance <3 Ω
Diode ideality factor 1.00643
Table 35.  Remote Temperature Diode Specifications (E-Tile TSD) For specification status, see the Data Sheet Status table
Description Min Typ Max Unit
Ibias, diode source current 10 170 μA
Vbias, voltage across diode 0.56 0.82 V
Series resistance <2 Ω
Diode ideality factor 1.005
Table 36.  Remote Temperature Diode Specifications (P-Tile TSD) For specification status, see the Data Sheet Status table
Description Min Typ Max Unit
Ibias, diode source current 10 170 μA
Vbias, voltage across diode 0.56 0.87 V
Series resistance <10 Ω
Diode ideality factor 1.010844
Table 37.  Remote Temperature Diode Specifications (R-Tile TSD) For specification status, see the Data Sheet Status table
Description Min Typ Max Unit
Ibias, diode source current 20 170 μA
Vbias, voltage across diode 0.5 0.78 V
Series resistance <10 Ω
Diode ideality factor 1.00045
Table 38.  Remote Temperature Diode Specifications (F-Tile TSD) For specification status, see the Data Sheet Status table
Description Min Typ Max Unit
Ibias, diode source current 20 170 μA
Vbias, voltage across diode 0.5 0.78 V
Series resistance <10 Ω
Diode ideality factor 1.00246
43 When using lower injection current (two-currents) implementation, the ideality factor is 1.009.
44 When using lower injection current (two-currents) implementation, the ideality factor is 1.03.
45 When using lower injection current (two-currents) implementation, the ideality factor is 1.008.
46 When using lower injection current (two-currents) implementation, the ideality factor is 1.016.
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