Hi Martin,
for the worst case current consumption scenario, it will be VCCA+VCCB<15uA.
Then adding the worst case current consumption of the I/O pins, +/-100mA*8I/O pins=800mA.
So the worst case current consumption will be 800.015mA, most of the time lower current consumption. You can design your DC/DC or MPU for this value (800.015mA).
With Best Regards,
Jozef
Hi Jozef,
thanks for your reply. Let me rephrase my question.
What is the drive current of each driver? Those drive currents need to be supplied by VCCA and VCCB, refer to figure 10 in the datasheet:
Or reformulated even more, what is the requirement on the PMU or DC/DC shown in Figure 10?
The current consumption of the NVT4858 in table 11 only refers to the static current consumption which is not really of interest for me.
Best,
Martin
Hi Martin,
for the worst case current consumption scenario, it will be VCCA+VCCB<15uA.
Then adding the worst case current consumption of the I/O pins, +/-100mA*8I/O pins=800mA.
So the worst case current consumption will be 800.015mA, most of the time lower current consumption. You can design your DC/DC or MPU for this value (800.015mA).
With Best Regards,
Jozef
Hi Martin,
for the NVT4858 current supply consumption please refer to the Table 11. in the NVT4858 datasheet. There is no separate current consumption only for VCCB, but for both VCCA and VCCB.
The 1W total power dissipation seems low, but if I calculate the maximum junction temperature, it looks to be sufficient. Please check below.
Ptot=1W
Tamax=85°C
Rthjc=51.4°C/W
Tjmax=Tamax+Ptot*Rthjc
Tjmax=85°C+1W*51.4°C/W
Tjmax=136.4°C.
Although I haven't found the Tjmax for the NVT4858, from my experience our components have can survive such junction temperature or even higher.
In another document attached I have found, that the NVT4858 was tested for Tjmax=+150°C.
With Best Regards,
Jozef
