Datasheet
Electrical Characteristics
i.MX 6DualPlus/6QuadPlus Automotive Applications Processors, Rev. 3, 11/2018
NXP Semiconductors 27
Table 8. Maximum Supply Currents
Power Supply Conditions
Maximum Current
Unit
Power Virus CoreMark
i.MX 6QuadPlus:
VDD_ARM_IN + VDD_ARM23_IN
• ARM frequency = 996 MHz
• ARM LDOs set to 1.3V
•T
j
= 125°C
3920 2500 mA
• ARM frequency = 852 MHz
• ARM LDOs set to 1.3V
•T
j
= 125°C
3630 2260 mA
i.MX 6DualPlus: VDD_ARM_IN
1
• ARM frequency = 996 MHz
• ARM LDOs set to 1.3V
•T
j
= 125°C
2350 1200 mA
• ARM frequency = 852 MHz
• ARM LDOs set to 1.3V
•T
j
= 125°C
2110 1090 mA
i.MX 6DualPlus: or i.MX 6Quad:
VDD_SOC_IN
• Running 3DMark
• GPU frequency = 720 MHz
• SOC LDO set to 1.3V
•T
j
= 125°C
3900 mA
VDD_HIGH_IN — 125
2
mA
VDD_SNVS_IN — 275
3
μA
USB_OTG_VBUS/
USB_H1_VBUS (LDO 3P0)
—25
4
mA
Primary Interface (IO) Supplies
NVCC_DRAM — (see note
5
)
NVCC_ENET N=10 Use maximum IO equation
6
NVCC_LCD N=29 Use maximum IO equation
6
NVCC_GPIO N=24 Use maximum IO equation
6
NVCC_CSI N=20 Use maximum IO equation
6
NVCC_EIM0 N=19 Use maximum IO equation
6
NVCC_EIM1 N=14 Use maximum IO equation
6
NVCC_EIM2 N=20 Use maximum IO equation
6
NVCC_JTAG N=6 Use maximum IO equation
6
NVCC_RGMII N=6 Use maximum IO equation
6
NVCC_SD1 N=6 Use maximum IO equation
6
NVCC_SD2 N=6 Use maximum IO equation
6
NVCC_SD3 N=11 Use maximum IO equation
6
NVCC_NANDF N=26 Use maximum IO equation
6
NVCC_MIPI — 25.5 mA