Datasheet
i.MX 6Dual/6Quad Automotive and Infotainment Applications Processors, Rev. 6, 11/2018
24 NXP Semiconductors
Electrical Characteristics
GPIO supplies
10
NVCC_CSI,
NVCC_EIM0,
NVCC_EIM1,
NVCC_EIM2,
NVCC_ENET,
NVCC_GPIO,
NVCC_LCD,
NVCC_NANDF,
NVCC_SD1,
NVCC_SD2,
NVCC_SD3,
NVCC_JTAG
1.65 1.8,
2.8,
3.3
3.6 V Isolation between the NVCC_EIMx and
NVCC_SDx different supplies allow them to
operate at different voltages within the specified
range.
Example: NVCC_EIM1 can operate at 1.8 V
while NVCC_EIM2 operates at 3.3 V.
NVCC_LVDS_2P5
11
NVCC_MIPI
2.25 2.5 2.75 V —
HDMI supply voltages HDMI_VP 0.99 1.1 1.3 V —
HDMI_VPH 2.25 2.5 2.75 V —
PCIe supply voltages PCIE_VP 1.023 1.1 1.3 V —
PCIE_VPH 2.325 2.5 2.75 V —
PCIE_VPTX 1.023 1.1 1.3 V —
SATA Supply voltages SATA_VP 0.99 1.1 1.3 V —
SATA_VPH 2.25 2.5 2.75 V —
Junction temperature T
J
-40 95 125 °CSee i.MX 6Dual/6Quad Product Lifetime Usage
Estimates Application Note, AN4724, for
information on product lifetime (power-on
years) for this processor.
1
Applying the maximum voltage results in maximum power consumption and heat generation. NXP recommends a voltage set
point = (Vmin + the supply tolerance). This results in an optimized power/speed ratio.
2
See the Hardware Development Guide for i.MX 6Quad, 6Dual, 6DualLite, 6Solo Families of Applications Processors
(IMX6DQ6SDLHDG) for bypass capacitors requirements for each of the *_CAP supply outputs.
3
For Quad core system, connect to VDD_ARM_IN. For Dual core system, may be shorted to GND together with
VDD_ARM23_CAP to reduce leakage.
4
VDD_ARM_IN and VDD_SOC_IN must be at least 125 mV higher than the LDO Output Set Point for correct voltage regulation.
5
VDD_ARM_CAP must not exceed VDD_CACHE_CAP by more than +50 mV. VDD_CACHE_CAP must not exceed
VDD_ARM_CAP by more than 200 mV.
6
VDD_SOC_CAP and VDD_PU_CAP must be equal.
7
In LDO enabled mode, the internal LDO output set points must be configured such that the:
VDD_ARM LDO output set point does not exceed the VDD_SOC LDO output set point by more than 100 mV.
VDD_SOC LDO output set point is equal to the VDD_PU LDO output set point.
The VDD_ARM LDO output set point can be lower than the VDD_SOC LDO output set point, however, the minimum output set
points shown in this table must be maintained.
8
In LDO bypassed mode, the external power supply must ensure that VDD_ARM_IN does not exceed VDD_SOC_IN by more
than 100 mV. The VDD_ARM_IN supply voltage can be lower than the VDD_SOC_IN supply voltage. The minimum voltages
shown in this table must be maintained.
9
To set VDD_SNVS_IN voltage with respect to Charging Currents and RTC, see the Hardware Development Guide for i.MX
6Dual, 6Quad, 6Solo, 6DualLite Families of Applications Processors (IMX6DQ6SDLHDG).
Table 6. Operating Ranges (continued)
Parameter
Description
Symbol Min Typ Max
1
Unit Comment
2