John,
My suggestion is to think of charger/battery and operating supply as independent items. Connect them each to the load with beefy (Schottky?) diodes. Set the operating supply a bit above the float voltage such that the AC supply through its diode runs the load normally. When AC drops out the diode from the battery conducts, keeping the load powered. If you are concerned about efficiency/dropout use a SPDT relay to bridge one diode or the other based on the AC presence. That also makes the design less sensitive to the relative supply vs charger voltages.
Using this approach you can optimize the float charger for battery life, and have as much operating current as needed without concern for battery loading.
Bob L.
Sent: Sunday, May 26, 2024 at 10:39 AM
From: "John Ackermann N8UR via time-nuts" time-nuts@lists.febo.com
To: "Discussion of precise time and frequency measurement" time-nuts@lists.febo.com
Cc: "John Ackermann N8UR" jra@febo.com
Subject: [time-nuts] Backup DC power with current battery technology?
I need to replace the batteries in my 28 VDC power distribution system
in the clock room. It's currently two series 12V AGM batteries with an
IOTA Engineering float charger.
This system has two purposes: (a) primary power for some OCXOs and other
gear; and (b) failover power for some AC/DC gear like HP standards.
Under normal conditions, power draw is 2 or 3 amps. During mains
outage, it could reach 10 amps. Now that I have a house generator, long
run-time isn't a big issue so 25 Ah or so of capacity is plenty.
I haven't explored LiFePo4 batteries until now, and I'm having trouble
finding a charger that can provide significant continuous load current
while maintaining a battery floated across the line. Does anyone have
recommendations for something like this?
Thanks,
John
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John,
My suggestion is to think of charger/battery and operating supply as independent items. Connect them each to the load with beefy (Schottky?) diodes. Set the operating supply a bit above the float voltage such that the AC supply through its diode runs the load normally. When AC drops out the diode from the battery conducts, keeping the load powered. If you are concerned about efficiency/dropout use a SPDT relay to bridge one diode or the other based on the AC presence. That also makes the design less sensitive to the relative supply vs charger voltages.
Using this approach you can optimize the float charger for battery life, and have as much operating current as needed without concern for battery loading.
Bob L.
> Sent: Sunday, May 26, 2024 at 10:39 AM
> From: "John Ackermann N8UR via time-nuts" <time-nuts@lists.febo.com>
> To: "Discussion of precise time and frequency measurement" <time-nuts@lists.febo.com>
> Cc: "John Ackermann N8UR" <jra@febo.com>
> Subject: [time-nuts] Backup DC power with current battery technology?
>
> I need to replace the batteries in my 28 VDC power distribution system
> in the clock room. It's currently two series 12V AGM batteries with an
> IOTA Engineering float charger.
>
> This system has two purposes: (a) primary power for some OCXOs and other
> gear; and (b) failover power for some AC/DC gear like HP standards.
> Under normal conditions, power draw is 2 or 3 amps. During mains
> outage, it could reach 10 amps. Now that I have a house generator, long
> run-time isn't a big issue so 25 Ah or so of capacity is plenty.
>
> I haven't explored LiFePo4 batteries until now, and I'm having trouble
> finding a charger that can provide significant continuous load current
> while maintaining a battery floated across the line. Does anyone have
> recommendations for something like this?
>
> Thanks,
> John
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> time-nuts mailing list -- time-nuts@lists.febo.com
> To unsubscribe send an email to time-nuts-leave@lists.febo.com
>
