Hi,
I'm confused designing a circuit where part is fed by an LDO to 2.8 V and part by a switching DC/DC to 3.8 V.
I have 8 batteries of 1.5 V and I'm considering 2 options:
2P4S: V = 6 V (DC/DC will be stepdown)
4P2S: V = 3 V (DC/DC will be stepup)
Is the following correct then?
- The lifetime for the part behind the DC/DC will be the same in both cases (assuming both ICs have identical efficiency in the operating zone)
- If the part behind the LDO draws 1 mA, every battery will be providing 0.5 mA in the first case and 0.25 mA in the second case, so for the consumption behind the LDO the second option is twice as efficient.
Conclusion: better 4P2S.
Correct?
Thanks!
I'm confused designing a circuit where part is fed by an LDO to 2.8 V and part by a switching DC/DC to 3.8 V.
I have 8 batteries of 1.5 V and I'm considering 2 options:
2P4S: V = 6 V (DC/DC will be stepdown)
4P2S: V = 3 V (DC/DC will be stepup)
Is the following correct then?
- The lifetime for the part behind the DC/DC will be the same in both cases (assuming both ICs have identical efficiency in the operating zone)
- If the part behind the LDO draws 1 mA, every battery will be providing 0.5 mA in the first case and 0.25 mA in the second case, so for the consumption behind the LDO the second option is twice as efficient.
Conclusion: better 4P2S.
Correct?
Thanks!