Recommended Operating Conditions

Zynq UltraScale+ MPSoC Data Sheet: DC and AC Switching Characteristics (DS925)
Document ID
DS925
Release Date
2023-12-26
Revision
1.26 English
Table 1. Recommended Operating Conditions
Symbol Description 1, 2 Min Typ Max Units

Processor System
VCC_PSINTFP 3 PS full-power domain supply voltage 0.808 0.850 0.892 V
For -1LI and -2LE (VCCINT = 0.72V) devices: PS full-power domain supply voltage 0.808 0.850 0.892 V
For -3E devices: PS full-power domain supply voltage 0.873 0.900 0.927 V
VCC_PSINTLP PS low-power domain supply voltage 0.808 0.850 0.892 V
For -1LI and -2LE (VCCINT = 0.72V) devices: PS low-power domain supply voltage 0.808 0.850 0.892 V
For -3E devices: PS low-power domain supply voltage 0.873 0.900 0.927 V
VCC_PSAUX PS auxiliary supply voltage 1.710 1.800 1.890 V
VCC_PSINTFP_DDR 3 PS DDR controller and PHY supply voltage 0.808 0.850 0.892 V
For -1LI and -2LE (VCCINT = 0.72V) devices: PS DDR controller and PHY supply voltage 0.808 0.850 0.892 V
For -3E devices: PS DDR controller and PHY supply voltage 0.873 0.900 0.927 V
VCC_PSADC PS SYSMON ADC supply voltage relative to GND_PSADC 1.710 1.800 1.890 V
VCC_PSPLL PS PLL supply voltage 1.164 1.200 1.236 V
VPS_MGTRAVCC 4 PS-GTR supply voltage 0.825 0.850 0.875 V
VPS_MGTRAVTT 4 PS-GTR termination voltage 1.746 1.800 1.854 V
VCCO_PSDDR 5 PS DDR I/O supply voltage 1.06 1.575 V
VCC_PSDDR_PLL PS DDR PLL supply voltage 1.710 1.800 1.890 V
VCCO_PSIO 6 PS I/O supply 1.710 3.465 V
VPSIN PS I/O input voltage –0.200

VCCO_PSIO + 0.200

 V
PS DDR I/O input voltage –0.200

VCCO_PSDDR + 0.200

 V
VCC_PSBATT 7 PS battery-backed RAM and battery-backed real-time clock (RTC) supply voltage 1.200 1.500 V

Programmable Logic
VCCINT

PL internal supply voltage

 0.825 0.850 0.876 V

For -1LI and -2LE (VCCINT = 0.72V) devices: PL internal supply voltage

 0.698 0.720 0.742 V

For -3E devices: PL internal supply voltage

 0.873 0.900 0.927 V
VCCINT_IO 8

PL internal supply voltage for the I/O banks

 0.825 0.850 0.876 V

For -1LI and -2LE (VCCINT = 0.72V) devices: PL internal supply voltage for the I/O banks

 0.825 0.850 0.876 V

For -3E devices: PL internal supply voltage for the I/O banks

 0.873 0.900 0.927 V
VCCBRAM Block RAM supply voltage 0.825 0.850 0.876 V
For -3E devices: block RAM supply voltage 0.873 0.900 0.927 V
VCCAUX Auxiliary supply voltage 1.746 1.800 1.854 V
VCCO , 9 Supply voltage for HD I/O banks 1.140 3.400 V
Supply voltage for HP I/O banks and configuration bank 0 0.950 1.900 V
VCCAUX_IO 10 Auxiliary I/O supply voltage 1.746 1.800 1.854 V
VIN 11, 12 I/O input voltage –0.200 VCCO + 0.200 V
IIN 13

Maximum current through any PL or PS pin in a powered or unpowered bank when forward biasing the clamp diode

 10 mA

GTH or GTY Transceiver
VMGTAVCC 14

Analog supply voltage for the GTH or GTY transceiver

 0.873 0.900 0.927 V
VMGTAVTT 14

Analog supply voltage for the GTH or GTY transmitter and receiver termination circuits

 1.164 1.200 1.236 V
VMGTVCCAUX 14

Auxiliary analog QPLL voltage supply for the transceivers

 1.746 1.800 1.854 V
VMGTAVTTRCAL 14

Analog supply voltage for the resistor calibration circuit of the GTH or GTY transceiver column

 1.164 1.200 1.236 V

VCU
VCCINT_VCU Internal supply voltage for the VCU 0.873 0.900 0.927 V

PL System Monitor
VCCADC

PL System Monitor supply relative to GNDADC

 1.746 1.800 1.854 V
VREFP

PL System Monitor externally supplied reference voltage relative to GNDADC

 1.200 1.250 1.300 V

Temperature
Tj 15 Junction temperature operating range for extended (E) temperature devices 16 0 100 °C
Junction temperature operating range for industrial (I) temperature devices –40 100 °C
Junction temperature operating range for automotive (Q) temperature devices –40 125 °C
Junction temperature operating range for military (M) temperature devices –55 125 °C
Junction temperature operating range for eFUSE programming –40 125 °C
  1. All voltages are relative to GND, assuming supplies are present.
  2. For the design of the power distribution system consult the UltraScale Architecture PCB Design User Guide (UG583).
  3. VCC_PSINTFP_DDR must be tied to VCC_PSINTFP.
  4. Each voltage listed requires filtering as described in the UltraScale Architecture PCB Design User Guide (UG583).
  5. Includes VCCO_PSDDR of 1.2V, 1.35V, 1.5V at ±5% and 1.1V +0.07V/–0.04V depending upon the tolerances required by specific memory standards.
  6. Applies to all PS I/O supply banks. Includes VCCO_PSIO of 1.8V, 2.5V, and 3.3V at ±5%.
  7. Up to 1.89V is acceptable on VCC_PSBATT. If the battery-backed RAM or RTC is not used, connect VCC_PSBATT to GND or VCC_PSAUX.
  8. VCCINT_IO must be connected to VCCBRAM.
  9. Includes VCCO of 1.0V (HP I/O only), 1.2V, 1.35V, 1.5V, 1.8V, 2.5V (HD I/O only) at ±5%, and 3.3V (HD I/O only) at +3/–5%.
  10. VCCAUX_IO must be connected to VCCAUX.
  11. The lower absolute voltage specification always applies.
  12. VIN for the POR_OVERRIDE pin is unique. POR_OVERRIDE must be connected to either GND (default) or VCCINT. See TPOR in Configuration Switching Characteristics for additional information.
  13. A total of 200 mA per bank should not be exceeded.
  14. Each voltage listed requires filtering as described in the UltraScale Architecture GTH Transceivers User Guide (UG576) or the UltraScale Architecture GTY Transceivers User Guide (UG578) .
  15. AMD recommends measuring the Tj of a device using the system monitor as described in the UltraScale Architecture System Monitor User Guide (UG580). The SYSMON temperature measurement errors (that are described in Table 1 and Table 1) must be accounted for in your design. For example, when using the PL system monitor with an external reference of 1.25V, and when SYSMON reports 97°C, there is a measurement error ±3°C. A reading of 97°C is considered the maximum adjusted Tj (100°C – 3°C = 97°C).
  16. Devices labeled with the speed/temperature grade of -2LE can operate for a limited time at a junction temperature between 100°C and 110°C. Timing parameters adhere to the same speed file at 110°C as they do below 110°C, regardless of operating voltage (nominal voltage of 0.85V or a low-voltage of 0.72V). Operation up to Tj = 110°C is limited to 1% of the device lifetime and can occur sequentially or at regular intervals as long as the total time does not exceed 1% of the device lifetime.