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XC7A100T-2FGG484I

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XC7A100T-2FGG484I

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Part Number XC7A100T-2FGG484I
Manufacturer Xilinx Inc.
Description IC FPGA 285 I/O 484FCBGA
Datasheet XC7A100T-2FGG484I Datasheet
Package 484-BBGA
In Stock 1,406 piece(s)
Unit Price $ 169.0000 *
Lead Time Can Ship Immediately
Estimated Delivery Time Jan 25 - Jan 30 (Choose Expedited Shipping)
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Part Number # XC7A100T-2FGG484I (Embedded - FPGAs (Field Programmable Gate Array)) is manufactured by Xilinx Inc. and distributed by Heisener. Being one of the leading electronics distributors, we carry many kinds of electronic components from some of the world’s top class manufacturers. Their quality is guaranteed by its stringent quality control to meet all required standards.

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XC7A100T-2FGG484I Specifications

ManufacturerXilinx Inc.
CategoryIntegrated Circuits (ICs) - Embedded - FPGAs (Field Programmable Gate Array)
Datasheet XC7A100T-2FGG484IDatasheet
Package484-BBGA
SeriesArtix-7
Number of LABs/CLBs7925
Number of Logic Elements/Cells101440
Total RAM Bits4976640
Number of I/O285
Number of Gates-
Voltage - Supply0.95 V ~ 1.05 V
Mounting TypeSurface Mount
Operating Temperature-40°C ~ 100°C (TJ)
Package / Case484-BBGA
Supplier Device Package484-FBGA (23x23)

XC7A100T-2FGG484I Datasheet

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DS181 (v1.25) June 18, 2018 www.xilinx.com Product Specification 1 © 2011– 2018 Xilinx, Inc. XILINX, the Xilinx logo, Artix, Virtex, Kintex, Zynq, Spartan, ISE, Vivado and other designated brands included herein are trademarks of Xilinx in the United States and other countries. All other trademarks are the property of their respective owners. Introduction Artix®-7 FPGAs are available in -3, -2, -1, -1LI, and -2L speed grades, with -3 having the highest performance. The Artix-7 FPGAs predominantly operate at a 1.0V core voltage. The -1LI and -2L devices are screened for lower maximum static power and can operate at lower core voltages for lower dynamic power than the -1 and -2 devices, respectively. The -1LI devices operate only at VCCINT = VCCBRAM = 0.95V and have the same speed specifications as the -1 speed grade. The -2L devices can operate at either of two VCCINT voltages, 0.9V and 1.0V and are screened for lower maximum static power. When operated at VCCINT = 1.0V, the speed specification of a -2L device is the same as the -2 speed grade. When operated at VCCINT = 0.9V, the -2L static and dynamic power is reduced. Artix-7 FPGA DC and AC characteristics are specified in commercial, extended, industrial, expanded (-1Q), and military (-1M) temperature ranges. Except the operating temperature range or unless otherwise noted, all the DC and AC electrical parameters are the same for a particular speed grade (that is, the timing characteristics of a -1M speed grade military device are the same as for a -1C speed grade commercial device). However, only selected speed grades and/or devices are available in each temperature range. For example, -1M is only available in the defense-grade Artix-7Q family and -1Q is only available in XA Artix-7 FPGAs. All supply voltage and junction temperature specifications are representative of worst-case conditions. The parameters included are common to popular designs and typical applications. Available device and package combinations can be found in: • 7 Series FPGAs Overview (DS180) • Defense-Grade 7 Series FPGAs Overview (DS185) • XA Artix-7 FPGAs Overview (DS197) This Artix-7 FPGA data sheet, part of an overall set of documentation on the 7 series FPGAs, is available on the Xilinx website at www.xilinx.com/documentation. DC Characteristics Artix-7 FPGAs Data Sheet: DC and AC Switching Characteristics DS181 (v1.25) June 18, 2018 Product Specification Table 1: Absolute Maximum Ratings(1) Symbol Description Min Max Units FPGA Logic VCCINT Internal supply voltage –0.5 1.1 V VCCAUX Auxiliary supply voltage –0.5 2.0 V VCCBRAM Supply voltage for the block RAM memories –0.5 1.1 V VCCO Output drivers supply voltage for HR I/O banks –0.5 3.6 V VREF Input reference voltage –0.5 2.0 V VIN (2)(3)(4) I/O input voltage –0.4 VCCO + 0.55 V I/O input voltage (when VCCO = 3.3V) for VREF and differential I/O standards except TMDS_33(5) –0.4 2.625 V VCCBATT Key memory battery backup supply –0.5 2.0 V GTP Transceiver VMGTAVCC Analog supply voltage for the GTP transmitter and receiver circuits –0.5 1.1 V VMGTAVTT Analog supply voltage for the GTP transmitter and receiver termination circuits –0.5 1.32 V VMGTREFCLK Reference clock absolute input voltage –0.5 1.32 V VIN Receiver (RXP/RXN) and Transmitter (TXP/TXN) absolute input voltage –0.5 1.26 V Send Feedback

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Artix-7 FPGAs Data Sheet: DC and AC Switching Characteristics DS181 (v1.25) June 18, 2018 www.xilinx.com Product Specification 2 IDCIN-FLOAT DC input current for receiver input pins DC coupled RX termination = floating – 14 mA IDCIN-MGTAVTT DC input current for receiver input pins DC coupled RX termination = VMGTAVTT – 12 mA IDCIN-GND DC input current for receiver input pins DC coupled RX termination = GND – 6.5 mA IDCOUT-FLOAT DC output current for transmitter pins DC coupled RX termination = floating – 14 mA IDCOUT-MGTAVTT DC output current for transmitter pins DC coupled RX termination = VMGTAVTT – 12 mA XADC VCCADC XADC supply relative to GNDADC –0.5 2.0 V VREFP XADC reference input relative to GNDADC –0.5 2.0 V Temperature TSTG Storage temperature (ambient) –65 150 °C TSOL Maximum soldering temperature for Pb/Sn component bodies(6) – +220 °C Maximum soldering temperature for Pb-free component bodies(6) – +260 °C Tj Maximum junction temperature (6) – +125 °C Notes: 1. Stresses beyond those listed under Absolute Maximum Ratings might cause permanent damage to the device. These are stress ratings only, and functional operation of the device at these or any other conditions beyond those listed under Operating Conditions is not implied. Exposure to Absolute Maximum Ratings conditions for extended periods of time might affect device reliability. 2. The lower absolute voltage specification always applies. 3. For I/O operation, refer to 7 Series FPGAs SelectIO Resources User Guide (UG471). 4. The maximum limit applies to DC signals. For maximum undershoot and overshoot AC specifications, see Table 4. 5. See Table 9 for TMDS_33 specifications. 6. For soldering guidelines and thermal considerations, see 7 Series FPGA Packaging and Pinout Specification (UG475). Table 2: Recommended Operating Conditions(1)(2) Symbol Description Min Typ Max Units FPGA Logic VCCINT (3) For -3, -2, -2LE (1.0V), -1, -1Q, -1M devices: internal supply voltage 0.95 1.00 1.05 V For -1LI (0.95V) devices: internal supply voltage 0.92 0.95 0.98 V For -2LE (0.9V) devices: internal supply voltage 0.87 0.90 0.93 V VCCAUX Auxiliary supply voltage 1.71 1.80 1.89 V VCCBRAM (3) For -3, -2, -2LE (1.0V), -2LE (0.9V), -1, -1Q, -1M devices: block RAM supply voltage 0.95 1.00 1.05 V For -1LI (0.95V) devices: block RAM supply voltage 0.92 0.95 0.98 V VCCO (4)(5) Supply voltage for HR I/O banks 1.14 – 3.465 V VIN (6) I/O input voltage –0.20 – VCCO + 0.20 V I/O input voltage (when VCCO = 3.3V) for VREF and differential I/O standards except TMDS_33(7) –0.20 – 2.625 V IIN (8) Maximum current through any pin in a powered or unpowered bank when forward biasing the clamp diode. – – 10 mA VCCBATT (9) Battery voltage 1.0 – 1.89 V GTP Transceiver VMGTAVCC (10) Analog supply voltage for the GTP transmitter and receiver circuits 0.97 1.0 1.03 V VMGTAVTT (10) Analog supply voltage for the GTP transmitter and receiver termination circuits 1.17 1.2 1.23 V XADC VCCADC XADC supply relative to GNDADC 1.71 1.80 1.89 V Table 1: Absolute Maximum Ratings(1) (Cont’d) Symbol Description Min Max Units Send Feedback

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Artix-7 FPGAs Data Sheet: DC and AC Switching Characteristics DS181 (v1.25) June 18, 2018 www.xilinx.com Product Specification 3 VREFP Externally supplied reference voltage 1.20 1.25 1.30 V Temperature Tj Junction temperature operating range for commercial (C) temperature devices 0 – 85 °C Junction temperature operating range for extended (E) temperature devices 0 – 100 °C Junction temperature operating range for industrial (I) temperature devices –40 – 100 °C Junction temperature operating range for expanded (Q) temperature devices –40 – 125 °C Junction temperature operating range for military (M) temperature devices –55 – 125 °C Notes: 1. All voltages are relative to ground. 2. For the design of the power distribution system consult 7 Series FPGAs PCB Design and Pin Planning Guide (UG483). 3. If VCCINT and VCCBRAM are operating at the same voltage, VCCINT and VCCBRAM should be connected to the same supply. 4. Configuration data is retained even if VCCO drops to 0V. 5. Includes VCCO of 1.2V, 1.35V, 1.5V, 1.8V, 2.5V, and 3.3V at ±5%. 6. The lower absolute voltage specification always applies. 7. See Table 9 for TMDS_33 specifications. 8. A total of 200 mA per bank should not be exceeded. 9. VCCBATT is required only when using bitstream encryption. If battery is not used, connect VCCBATT to either ground or VCCAUX. 10. Each voltage listed requires the filter circuit described in 7 Series FPGAs GTP Transceiver User Guide (UG482). Table 3: DC Characteristics Over Recommended Operating Conditions Symbol Description Min Typ(1) Max Units VDRINT Data retention VCCINT voltage (below which configuration data might be lost) 0.75 – – V VDRI Data retention VCCAUX voltage (below which configuration data might be lost) 1.5 – – V IREF VREF leakage current per pin – – 15 µA IL Input or output leakage current per pin (sample-tested) – – 15 µA CIN (2) Die input capacitance at the pad – – 8 pF IRPU Pad pull-up (when selected) @ VIN = 0V, VCCO = 3.3V 90 – 330 µA Pad pull-up (when selected) @ VIN = 0V, VCCO = 2.5V 68 – 250 µA Pad pull-up (when selected) @ VIN = 0V, VCCO = 1.8V 34 – 220 µA Pad pull-up (when selected) @ VIN = 0V, VCCO = 1.5V 23 – 150 µA Pad pull-up (when selected) @ VIN = 0V, VCCO = 1.2V 12 – 120 µA IRPD Pad pull-down (when selected) @ VIN = 3.3V 68 – 330 µA ICCADC Analog supply current, analog circuits in powered up state – – 25 mA IBATT (3) Battery supply current – – 150 nA RIN_TERM (4) Thevenin equivalent resistance of programmable input termination to VCCO/2 (UNTUNED_SPLIT_40) 28 40 55 Ω Thevenin equivalent resistance of programmable input termination to VCCO/2 (UNTUNED_SPLIT_50) 35 50 65 Ω Thevenin equivalent resistance of programmable input termination to VCCO/2 (UNTUNED_SPLIT_60) 44 60 83 Ω Table 2: Recommended Operating Conditions(1)(2) (Cont’d) Symbol Description Min Typ Max Units Send Feedback

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Artix-7 FPGAs Data Sheet: DC and AC Switching Characteristics DS181 (v1.25) June 18, 2018 www.xilinx.com Product Specification 4 n Temperature diode ideality factor – 1.010 – – r Temperature diode series resistance – 2 – Ω Notes: 1. Typical values are specified at nominal voltage, 25°C. 2. This measurement represents the die capacitance at the pad, not including the package. 3. Maximum value specified for worst case process at 25°C. 4. Termination resistance to a VCCO/2 level. Table 4: VIN Maximum Allowed AC Voltage Overshoot and Undershoot for HR I/O Banks (1)(2) AC Voltage Overshoot % of UI @–55°C to 125°C AC Voltage Undershoot % of UI @–55°C to 125°C VCCO + 0.55 100 –0.40 100 –0.45 61.7 –0.50 25.8 –0.55 11.0 VCCO + 0.60 46.6 –0.60 4.77 VCCO + 0.65 21.2 –0.65 2.10 VCCO + 0.70 9.75 –0.70 0.94 VCCO + 0.75 4.55 –0.75 0.43 VCCO + 0.80 2.15 –0.80 0.20 VCCO + 0.85 1.02 –0.85 0.09 VCCO + 0.90 0.49 –0.90 0.04 VCCO + 0.95 0.24 –0.95 0.02 Notes: 1. A total of 200 mA per bank should not be exceeded. 2. The peak voltage of the overshoot or undershoot, and the duration above VCCO + 0.20V or below GND – 0.20V, must not exceed the values in this table. Table 3: DC Characteristics Over Recommended Operating Conditions (Cont’d) Symbol Description Min Typ(1) Max Units Send Feedback

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Artix-7 FPGAs Data Sheet: DC and AC Switching Characteristics DS181 (v1.25) June 18, 2018 www.xilinx.com Product Specification 5 Table 5: Typical Quiescent Supply Current Symbol Description Device Speed Grade Units1.0V 0.95V 0.9V -3 -2 -2LE -1 -1LI -2LE ICCINTQ Quiescent VCCINT supply current XC7A12T 48 48 48 48 43 38 mA XC7A15T 95 95 95 95 58 66 mA XC7A25T 48 48 48 48 43 38 mA XC7A35T 95 95 95 95 58 66 mA XC7A50T 95 95 95 95 58 66 mA XC7A75T 155 155 155 155 96 108 mA XC7A100T 155 155 155 155 96 108 mA XC7A200T 328 328 328 328 203 232 mA XA7A12T N/A 48 N/A 48 N/A N/A mA XA7A15T N/A 95 N/A 95 N/A N/A mA XA7A25T N/A 48 N/A 48 N/A N/A mA XA7A35T N/A 95 N/A 95 N/A N/A mA XA7A50T N/A 95 N/A 95 N/A N/A mA XA7A75T N/A 155 N/A 155 N/A N/A mA XA7A100T N/A 155 N/A 155 N/A N/A mA XQ7A50T N/A 95 N/A 95 58 N/A mA XQ7A100T N/A 155 N/A 155 96 N/A mA XQ7A200T N/A 328 N/A 328 203 N/A mA ICCOQ Quiescent VCCO supply current XC7A12T 1 1 1 1 1 1 mA XC7A15T 1 1 1 1 1 1 mA XC7A25T 1 1 1 1 1 1 mA XC7A35T 1 1 1 1 1 1 mA XC7A50T 1 1 1 1 1 1 mA XC7A75T 4 4 4 4 4 4 mA XC7A100T 4 4 4 4 4 4 mA XC7A200T 5 5 5 5 5 5 mA XA7A12T N/A 1 N/A 1 N/A N/A mA XA7A15T N/A 1 N/A 1 N/A N/A mA XA7A25T N/A 1 N/A 1 N/A N/A mA XA7A35T N/A 1 N/A 1 N/A N/A mA XA7A50T N/A 1 N/A 1 N/A N/A mA XA7A75T N/A 4 N/A 4 N/A N/A mA XA7A100T N/A 4 N/A 4 N/A N/A mA XQ7A50T N/A 1 N/A 1 1 N/A mA XQ7A100T N/A 4 N/A 4 4 N/A mA XQ7A200T N/A 5 N/A 5 5 N/A mA Send Feedback

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Artix-7 FPGAs Data Sheet: DC and AC Switching Characteristics DS181 (v1.25) June 18, 2018 www.xilinx.com Product Specification 6 ICCAUXQ Quiescent VCCAUX supply current XC7A12T 13 13 13 13 13 13 mA XC7A15T 22 22 22 22 19 22 mA XC7A25T 13 13 13 13 13 13 mA XC7A35T 22 22 22 22 19 22 mA XC7A50T 22 22 22 22 19 22 mA XC7A75T 36 36 36 36 32 36 mA XC7A100T 36 36 36 36 32 36 mA XC7A200T 73 73 73 73 65 73 mA XA7A12T N/A 13 N/A 13 N/A N/A mA XA7A15T N/A 22 N/A 22 N/A N/A mA XA7A25T N/A 13 N/A 13 N/A N/A mA XA7A35T N/A 22 N/A 22 N/A N/A mA XA7A50T N/A 22 N/A 22 N/A N/A mA XA7A75T N/A 36 N/A 36 N/A N/A mA XA7A100T N/A 36 N/A 36 N/A N/A mA XQ7A50T N/A 22 N/A 22 19 N/A mA XQ7A100T N/A 36 N/A 36 32 N/A mA XQ7A200T N/A 73 N/A 73 65 N/A mA Table 5: Typical Quiescent Supply Current (Cont’d) Symbol Description Device Speed Grade Units1.0V 0.95V 0.9V -3 -2 -2LE -1 -1LI -2LE Send Feedback

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Artix-7 FPGAs Data Sheet: DC and AC Switching Characteristics DS181 (v1.25) June 18, 2018 www.xilinx.com Product Specification 7 ICCBRAMQ Quiescent VCCBRAM supply current XC7A12T 1 1 1 1 1 1 mA XC7A15T 2 2 2 2 1 2 mA XC7A25T 1 1 1 1 1 1 mA XC7A35T 2 2 2 2 1 2 mA XC7A50T 2 2 2 2 1 2 mA XC7A75T 4 4 4 4 2 4 mA XC7A100T 4 4 4 4 2 4 mA XC7A200T 11 11 11 11 6 11 mA XA7A12T N/A 1 N/A 1 N/A N/A mA XA7A15T N/A 2 N/A 2 N/A N/A mA XA7A25T N/A 1 N/A 1 N/A N/A mA XA7A35T N/A 2 N/A 2 N/A N/A mA XA7A50T N/A 2 N/A 2 N/A N/A mA XA7A75T N/A 4 N/A 4 N/A N/A mA XA7A100T N/A 4 N/A 4 N/A N/A mA XQ7A50T N/A 2 N/A 2 1 N/A mA XQ7A100T N/A 4 N/A 4 2 N/A mA XQ7A200T N/A 11 N/A 11 6 N/A mA Notes: 1. Typical values are specified at nominal voltage, 85°C junction temperature (Tj) with single-ended SelectIO resources. 2. Typical values are for blank configured devices with no output current loads, no active input pull-up resistors, all I/O pins are 3-state and floating. 3. Use the Xilinx Power Estimator (XPE) spreadsheet tool (download at http://www.xilinx.com/power) to estimate static power consumption for conditions other than those specified. Table 5: Typical Quiescent Supply Current (Cont’d) Symbol Description Device Speed Grade Units1.0V 0.95V 0.9V -3 -2 -2LE -1 -1LI -2LE Send Feedback

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Artix-7 FPGAs Data Sheet: DC and AC Switching Characteristics DS181 (v1.25) June 18, 2018 www.xilinx.com Product Specification 8 Power-On/Off Power Supply Sequencing The recommended power-on sequence is VCCINT, VCCBRAM, VCCAUX, and VCCO to achieve minimum current draw and ensure that the I/Os are 3-stated at power-on. The recommended power-off sequence is the reverse of the power-on sequence. If VCCINT and VCCBRAM have the same recommended voltage levels then both can be powered by the same supply and ramped simultaneously. If VCCAUX and VCCO have the same recommended voltage levels then both can be powered by the same supply and ramped simultaneously. For VCCO voltages of 3.3V in HR I/O banks and configuration bank 0: • The voltage difference between VCCO and VCCAUX must not exceed 2.625V for longer than TVCCO2VCCAUX for each power-on/off cycle to maintain device reliability levels. • The TVCCO2VCCAUX time can be allocated in any percentage between the power-on and power-off ramps. The recommended power-on sequence to achieve minimum current draw for the GTP transceivers is VCCINT, VMGTAVCC, VMGTAVTT OR VMGTAVCC, VCCINT, VMGTAVTT. Both VMGTAVCC and VCCINT can be ramped simultaneously. The recommended power-off sequence is the reverse of the power-on sequence to achieve minimum current draw. If these recommended sequences are not met, current drawn from VMGTAVTT can be higher than specifications during power- up and power-down. • When VMGTAVTT is powered before VMGTAVCC and VMGTAVTT – VMGTAVCC > 150 mV and VMGTAVCC < 0.7V, the VMGTAVTT current draw can increase by 460 mA per transceiver during VMGTAVCC ramp up. The duration of the current draw can be up to 0.3 x TMGTAVCC (ramp time from GND to 90% of VMGTAVCC). The reverse is true for power-down. • When VMGTAVTT is powered before VCCINT and VMGTAVTT – VCCINT > 150 mV and VCCINT < 0.7V, the VMGTAVTT current draw can increase by 50 mA per transceiver during VCCINT ramp up. The duration of the current draw can be up to 0.3 x TVCCINT (ramp time from GND to 90% of VCCINT). The reverse is true for power-down. There is no recommended sequence for supplies not shown. Table 6 shows the minimum current, in addition to ICCQ, that is required by Artix-7 devices for proper power-on and configuration. If the current minimums shown in Table 5 and Table 6 are met, the device powers on after all four supplies have passed through their power-on reset threshold voltages. The FPGA must not be configured until after VCCINT is applied. Once initialized and configured, use the Xilinx Power Estimator (XPE) tools to estimate current drain on these supplies. Table 6: Power-On Current for Artix-7 Devices Device ICCINTMIN ICCAUXMIN ICCOMIN ICCBRAMMIN Units XC7A12T ICCINTQ + 120 ICCAUXQ + 40 ICCOQ + 40 mA per bank ICCBRAMQ + 60 mA XC7A15T ICCINTQ + 120 ICCAUXQ + 40 ICCOQ + 40 mA per bank ICCBRAMQ + 60 mA XC7A25T ICCINTQ + 120 ICCAUXQ + 40 ICCOQ + 40 mA per bank ICCBRAMQ + 60 mA XC7A35T ICCINTQ + 120 ICCAUXQ + 40 ICCOQ + 40 mA per bank ICCBRAMQ + 60 mA XC7A50T ICCINTQ + 120 ICCAUXQ + 40 ICCOQ + 40 mA per bank ICCBRAMQ + 60 mA XC7A75T ICCINTQ + 170 ICCAUXQ + 40 ICCOQ + 40 mA per bank ICCBRAMQ + 60 mA XC7A100T ICCINTQ + 170 ICCAUXQ + 40 ICCOQ + 40 mA per bank ICCBRAMQ + 60 mA XC7A200T ICCINTQ + 340 ICCAUXQ + 50 ICCOQ + 40 mA per bank ICCBRAMQ + 80 mA XA7A12T ICCINTQ + 120 ICCAUXQ + 40 ICCOQ + 40 mA per bank ICCBRAMQ + 60 mA XA7A15T ICCINTQ + 120 ICCAUXQ + 40 ICCOQ + 40 mA per bank ICCBRAMQ + 60 mA XA7A25T ICCINTQ + 120 ICCAUXQ + 40 ICCOQ + 40 mA per bank ICCBRAMQ + 60 mA XA7A35T ICCINTQ + 120 ICCAUXQ + 40 ICCOQ + 40 mA per bank ICCBRAMQ + 60 mA XA7A50T ICCINTQ + 120 ICCAUXQ + 40 ICCOQ + 40 mA per bank ICCBRAMQ + 60 mA XA7A75T ICCINTQ + 170 ICCAUXQ + 40 ICCOQ + 40 mA per bank ICCBRAMQ + 60 mA XA7A100T ICCINTQ + 170 ICCAUXQ + 40 ICCOQ + 40 mA per bank ICCBRAMQ + 60 mA XQ7A50T ICCINTQ + 120 ICCAUXQ + 40 ICCOQ + 40 mA per bank ICCBRAMQ + 60 mA Send Feedback

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Artix-7 FPGAs Data Sheet: DC and AC Switching Characteristics DS181 (v1.25) June 18, 2018 www.xilinx.com Product Specification 9 DC Input and Output Levels Values for VIL and VIH are recommended input voltages. Values for IOL and IOH are guaranteed over the recommended operating conditions at the VOL and VOH test points. Only selected standards are tested. These are chosen to ensure that all standards meet their specifications. The selected standards are tested at a minimum VCCO with the respective VOL and VOH voltage levels shown. Other standards are sample tested. XQ7A100T ICCINTQ + 170 ICCAUXQ + 40 ICCOQ + 40 mA per bank ICCBRAMQ + 60 mA XQ7A200T ICCINTQ + 340 ICCAUXQ + 50 ICCOQ + 40 mA per bank ICCBRAMQ + 80 mA Table 7: Power Supply Ramp Time Symbol Description Conditions Min Max Units TVCCINT Ramp time from GND to 90% of VCCINT 0.2 50 ms TVCCO Ramp time from GND to 90% of VCCO 0.2 50 ms TVCCAUX Ramp time from GND to 90% of VCCAUX 0.2 50 ms TVCCBRAM Ramp time from GND to 90% of VCCBRAM 0.2 50 ms TVCCO2VCCAUX Allowed time per power cycle for VCCO – VCCAUX > 2.625V TJ = 125°C (1) – 300 msTJ = 100°C (1) – 500 TJ = 85°C (1) – 800 TMGTAVCC Ramp time from GND to 90% of VMGTAVCC 0.2 50 ms TMGTAVTT Ramp time from GND to 90% of VMGTAVTT 0.2 50 ms Notes: 1. Based on 240,000 power cycles with nominal VCCO of 3.3V or 36,500 power cycles with worst case VCCO of 3.465V. Table 8: SelectIO DC Input and Output Levels(1)(2) I/O Standard VIL VIH VOL VOH IOL IOH V, Min V, Max V, Min V, Max V, Max V, Min mA, Max mA, Min HSTL_I –0.300 VREF – 0.100 VREF + 0.100 VCCO + 0.300 0.400 VCCO – 0.400 8.00 –8.00 HSTL_I_18 –0.300 VREF – 0.100 VREF + 0.100 VCCO + 0.300 0.400 VCCO – 0.400 8.00 –8.00 HSTL_II –0.300 VREF – 0.100 VREF + 0.100 VCCO + 0.300 0.400 VCCO – 0.400 16.00 –16.00 HSTL_II_18 –0.300 VREF – 0.100 VREF + 0.100 VCCO + 0.300 0.400 VCCO – 0.400 16.00 –16.00 HSUL_12 –0.300 VREF – 0.130 VREF + 0.130 VCCO + 0.300 20% VCCO 80% VCCO 0.10 –0.10 LVCMOS12 –0.300 35% VCCO 65% VCCO VCCO + 0.300 0.400 VCCO – 0.400 Note 3 Note 3 LVCMOS15 –0.300 35% VCCO 65% VCCO VCCO + 0.300 25% VCCO 75% VCCO Note 4 Note 4 LVCMOS18 –0.300 35% VCCO 65% VCCO VCCO + 0.300 0.450 VCCO – 0.450 Note 5 Note 5 LVCMOS25 –0.300 0.7 1.700 VCCO + 0.300 0.400 VCCO – 0.400 Note 4 Note 4 LVCMOS33 –0.300 0.8 2.000 3.450 0.400 VCCO – 0.400 Note 4 Note 4 LVTTL –0.300 0.8 2.000 3.450 0.400 2.400 Note 5 Note 5 MOBILE_DDR –0.300 20% VCCO 80% VCCO VCCO + 0.300 10% VCCO 90% VCCO 0.10 –0.10 PCI33_3 –0.400 30% VCCO 50% VCCO VCCO + 0.500 10% VCCO 90% VCCO 1.50 –0.50 SSTL135 –0.300 VREF – 0.090 VREF + 0.090 VCCO + 0.300 VCCO/2 – 0.150 VCCO/2 + 0.150 13.00 –13.00 SSTL135_R –0.300 VREF – 0.090 VREF + 0.090 VCCO + 0.300 VCCO/2 – 0.150 VCCO/2 + 0.150 8.90 –8.90 SSTL15 –0.300 VREF – 0.100 VREF + 0.100 VCCO + 0.300 VCCO/2 – 0.175 VCCO/2 + 0.175 13.00 –13.00 Table 6: Power-On Current for Artix-7 Devices (Cont’d) Device ICCINTMIN ICCAUXMIN ICCOMIN ICCBRAMMIN Units Send Feedback

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December 27, 2021

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December 25, 2020

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Anth*****Sibal

November 29, 2020

Can't speak to the long term reliability as of yet, but they seem to be of decent quality and I don't expect any issues.

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We provide 90 days warranty.

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XC7A100T-2FGG484I

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