Hello to all,
Could someone help me with the Current consumption computation of the micro controller MPC5643L ?
my guess is something like : TotalPowerConsumption = RunModePower + Sleep × deepSleepModePower and it should be some integral shape equation since it won't be a linear and dependent on our time period. I don't know that how can I compute this current with regards to the data sheet.
any idea and answer would be appreciated. Thanks in Advance.
Regards
Ras
解決済! 解決策の投稿を見る。
Typical purposes of current consumption computation are to scale power supply or thermal management.
1.
It doesn't matter if the device is sleeping most time or not. Anyway, power supply must be able to provide maximum current consumed by the device.
HV supply should scaled at max(IDD_LV_FULL + IDD_LV_PLL + IDD_HV_xx) current.
80 mA + 2.50 mA*fCPU[MHz] + 10ma + 3ma + 3.5ma + 4ma + 10ma = 410.5ma @ 3.3V, 150'C, 120MHz
Recommended supply current ~450ma.
2.
Thermal management. Use typical current consumption characteristics.
If LV internal ballast transistor is used:
P_tot = typ (IDD_LV_FULL + IDD_LV_PLL + IDD_HV_xx) * 3.3V
P_tot = (41 ma + 2.3 mA*fCPU[MHz] + 10ma + 3ma + 3.5ma + 4ma + 10ma)*3.3V = 1.15W @ 150'C, 120MHz
If LV external ballast transistor is used:
P_tot = typ (IDD_LV_FULL + IDD_LV_PLL)*1.32V + IDD_HV_xx * 3.3V
P_tot = (41 ma + 2.3 mA*fCPU[MHz])*1.32V + (10ma + 3ma + 3.5ma + 4ma + 10ma)*3.3 = 0.52W @ 150'C, 120MHz
3.
Power consumption estimation in HALT mode.
P_HALT = typ (IDD_LV_HALT + IDD_HV_xx) * 3.3V
P_HALT = (115ma + 30.5ma) * 3.3V = 0.48W @ 150'C, 120MHz
This estimation provides some margin since IDD_HV_xx consumption in sleep modes should be less than in full run mode.
4.
If you want to estimate average consumption in mixed sleep/run mode:
P_average = P_tot * duty + P_HALT*(1-duty)
Note. All estimations are made at Tj=150'C.
Have a great day,
Paul
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Hey Paul,
that's exactly what I needed. Thanks a lot.
Cheers
Ras
Typical purposes of current consumption computation are to scale power supply or thermal management.
1.
It doesn't matter if the device is sleeping most time or not. Anyway, power supply must be able to provide maximum current consumed by the device.
HV supply should scaled at max(IDD_LV_FULL + IDD_LV_PLL + IDD_HV_xx) current.
80 mA + 2.50 mA*fCPU[MHz] + 10ma + 3ma + 3.5ma + 4ma + 10ma = 410.5ma @ 3.3V, 150'C, 120MHz
Recommended supply current ~450ma.
2.
Thermal management. Use typical current consumption characteristics.
If LV internal ballast transistor is used:
P_tot = typ (IDD_LV_FULL + IDD_LV_PLL + IDD_HV_xx) * 3.3V
P_tot = (41 ma + 2.3 mA*fCPU[MHz] + 10ma + 3ma + 3.5ma + 4ma + 10ma)*3.3V = 1.15W @ 150'C, 120MHz
If LV external ballast transistor is used:
P_tot = typ (IDD_LV_FULL + IDD_LV_PLL)*1.32V + IDD_HV_xx * 3.3V
P_tot = (41 ma + 2.3 mA*fCPU[MHz])*1.32V + (10ma + 3ma + 3.5ma + 4ma + 10ma)*3.3 = 0.52W @ 150'C, 120MHz
3.
Power consumption estimation in HALT mode.
P_HALT = typ (IDD_LV_HALT + IDD_HV_xx) * 3.3V
P_HALT = (115ma + 30.5ma) * 3.3V = 0.48W @ 150'C, 120MHz
This estimation provides some margin since IDD_HV_xx consumption in sleep modes should be less than in full run mode.
4.
If you want to estimate average consumption in mixed sleep/run mode:
P_average = P_tot * duty + P_HALT*(1-duty)
Note. All estimations are made at Tj=150'C.
Have a great day,
Paul
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Note: If this post answers your question, please click the Correct Answer button. Thank you!
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