Absolute Maximum Ratings

Table 1. Absolute Maximum Ratings—Power, Voltages, and Current
Symbol	Description¹		Min	Max	Units
V_CCAUX	Programmable logic auxiliary power supply		–0.500	1.650	V
V_{CCAUX_PMC}	Platform management controller (PMC) auxiliary power supply voltage		–0.500	1.650	V
V_{CCAUX_SMON} ²	PMC system monitor power supply relative to GND_SMON		–0.500	1.650	V
V_{CC_BATT}	Battery power supply		–0.500	1.650	V
V_{CC_FUSE}	eFUSE programming power supply		–0.500	2.000	V
V_CCINT	Programmable logic primary power supply		–0.500	0.970	V
V_{CCINT_IO_HBM} ³	High-bandwidth memory controller interface power supply		–0.500	0.970	V
V_{CC_CPM5}	CPM5 primary power supply		–0.500	0.970	V
V_{CC_IO} ³	XPIO power supply		–0.500	0.970	V
V_CCO ⁴	XPIO bank 7## output driver power supply Where the bank number is the three-digit bank number beginning with 7		–0.500	1.650	V
V_CCO ⁴	PSIO bank 5## power supplies Where the bank number is the three-digit bank number beginning with 5		–0.500	3.63	V
V_{CC_PMC}	PMC primary power supply		–0.500	0.970	V
V_{CC_PSFP}	PS full-power domain power supply		–0.500	0.970	V
V_{CC_PSLP}	PS low-power domain power supply		–0.500	0.970	V
V_{CC_RAM}	PL RAM and clocking network power supply		–0.500	0.970	V
V_{CC_SOC} ³	Network on Chip (NoC) and DDR memory controller power supply		–0.500	0.970	V
V_IN ^{4, 5}	I/O input voltage for PSIO and XPIO banks		–0.550	V_CCO + 0.550	V
V_REF	PMC system monitor reference input (V_REFP/V_REFN) relative to GND_SMON		–0.500	1.120	V
V_{CCO_HBM}	I/O supply voltage for the high-bandwidth memory		–0.300	1.500	V
V_{CC_HBM}	Supply voltage for the high-bandwidth memory		–0.300	1.500	V
V_{CCAUX_HBM}	Auxiliary supply voltage for the high-bandwidth memory		–0.300	3.000	V
GTYP (or GTM) Transceivers
V_{GTYP_AVCC} V_{GTM_AVCC}	GTYP (or GTM) transceiver primary analog power supply⁶		–0.500	0.97	V
V_{GTYP_AVCCAUX} V_{GTM_AVCCAUX}	GTYP (or GTM) transceiver auxiliary analog (PLL) power supply⁶		–0.500	1.650	V
V_{GTYP_AVTT} V_{GTM_AVTT}	GTYP (or GTM) transceiver termination power supply⁶		–0.500	1.320	V
V_{GTYP_AVTTRCAL} V_{GTM_AVTTRCAL}	GTYP (or GTM) transceiver analog resistor calibration power supply⁶		–0.500	1.320	V
V_{CCINT_GTM}	Digital supply voltage for select modules in the GTM transceivers		–0.500	0.97	V
V_{GTYP_REFCLK_DC} V_{GTM_REFCLK_DC}	Transceiver reference clock absolute input DC voltage		–0.500	1.000	V
V_{GTYP_REFCLK_AC} V_{GTM_REFCLK_AC}	Transceiver reference clock absolute input AC voltage⁷		–0.500	1.350	V
V_{IN_DC}	Receiver (RXP/RXN) and transmitter (TXP/TXN) absolute DC voltage	Unpowered	–0.800	0.800	V
V_{IN_DC}		Powered	–0.300	1.000	V
V_{IN_AC+DC}	Receiver (RXP/RXN) and transmitter (TXP/TXN) absolute AC plus DC voltage	Unpowered	–0.800	0.800	V
V_{IN_AC+DC}		Powered	–0.500	1.250	V
I_{DCIN_FLOAT}	DC input current for receiver input pins DC coupled RX termination = floating⁸		–	10	mA
I_{DCIN_GTYP_AVTT}	DC input current for GTYP receiver input pins DC coupled RX termination = or V_{GTYP_AVTT}		–	16	mA
I_{DCIN_GTM_AVTT}	DC input current for GTM receiver input pins DC coupled RX termination = V_{GTM_AVTT}		–	16	mA
I_{DCIN_GTYP_GND}	DC input current for GTY GTYP receiver input pins DC coupled RX termination = GND¹⁰		–	16	mA
I_{DCIN_GTM_GND}	DC input current for GTM receiver input pins DC coupled RX termination = GND		–	16	mA
I_{DCIN_PROG}	DC input current for receiver input pins DC coupled RX termination = programmable⁹		–	0	mA
I_{DCOUT_FLOAT}	DC output current for transmitter pins DC coupled RX termination = floating		–	6	mA
I_{DCOUT_GTYP_AVTT}	DC output current for transmitter pins DC coupled RX termination = or V_{GTYP_AVTT}		–	6	mA
Other Ratings
I_DC	Available output current at the pad		–20	20	mA
I_RMS	Available RMS output current at the pad		–20	20	mA
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. V_{CCAUX_SMON} must be connected to V_{CCAUX_PMC} . See Versal Adaptive SoC System Monitor Architecture Manual (AM006) for V_{CCAUX_SMON} information and filter considerations. V_{CCINT_IO_HBM} and V_{CC_IO} must be connected to V_{CC_SOC}. When operating outside of the recommended operating conditions, refer to the specifications in the VIN Maximum Allowed AC Voltage Overshoot and Undershoot section. The lower absolute voltage specification always applies. For more information on supported GTYP (or GTM) transceiver terminations see the Versal Adaptive SoC GTY and GTYP Transceivers Architecture Manual (AM002) or Versal Adaptive SoC GTM Transceivers Architecture Manual (AM017) . The or GTYP_REFCLK AC signal operates in the reference clock frequency range. See GTYP Transceiver Reference Clock Switching Characteristics. AC coupled operation is not supported for RX termination = floating. DC coupled operation is not supported for RX termination = programmable. For DC coupled links with RX termination set to ground, the transmitter or the board should insure that the RX input common mode voltage is set between 0.2V and 0.8V.

Table 2. Absolute Maximum Ratings—Temperature
Symbol	Description¹	Min	Max	Units
T_STG	Storage temperature (ambient, unpowered)	–55	120	°C
T_SOL ²	Maximum dry rework soldering temperature	–	260	°C
T_j	Maximum junction temperature	–	120	°C
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. For soldering guidelines and thermal considerations, see the Versal Adaptive SoC Packaging and Pinouts Architecture Manual (AM013).