This battery lasts the life of the router under the operating environmental conditions specified for the router, and is not field-replaceable.

But who determines its lifespan?

Knowing there is a battery set to fail and I can’t simply replace it makes me physically uncomfortable. Enough so that I’d rather it not have RTC.

Thanks Cisco.

  • bloodfart
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    6 months ago

    When the time comes to replace soldered in batteries, (optional) snip off the leads, remove the remaining leads with a soldering iron and replace with whatever is handy.

    Speaking from the experience of replacing lots of soldered in batteries in devices with high downtime and understanding the design and function of rtc backup batteries in telecom equipment and specifically spending months cleaning and refurbishing old telecom equipment for resale, Nintendo cartridges need replacement batteries, not switches.

    The battery is only backing up the rtc when the power is off. Telecommunications equipment is high uptime and shouldn’t ever even see an outage as long as Pokémon emerald.

    This isn’t asshole design. This is good design.

    • towerful@programming.dev
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      6 months ago

      I’d expect anything that has a battery which defines the lifespan of a piece of electronics to make that battery replaceable.

      • bloodfart
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        6 months ago

        First things first: it is replaceable. I outlined how to replace it.

        Second, the battery doesn’t define the lifespan of the equipment. The upgrade cycle it’s designed around defines the lifespan of the equipment.

        But let’s say it didn’t. Let’s figure out how to make an rtc battery field replaceable:

        It will need an access panel and a battery holder. We’ll need to limit out selection of battery chemistry to those that don’t corrode around the contacts. We gotta standardize the location and type of battery so that means standardizing the type of rtc circuit and since the whole point of choosing a replaceable battery is to lengthen the life of the equipment, we need to pick a rtc circuit with a long design life too and integrate that choice into all our future designs. I say that because most of the time nowadays there’s so much stuff on any given board that you gotta go out of your way to get a pcb that doesn’t already have some kind of rtc integrated into some kind of chip you picked for a different reason somewhere.

        Now let’s put our battery door on. Wait a minute, this things 1u. The front panels all the way out because it’s taken up by 48 Ethernet jacks, six leds, two usbs, two fcs, two more ethernets, a serial port, a button and somehow a corporate logo around the edge. Okay let’s turn it around: crud, all taken up by two huge bus connectors, two power supplies and their vents, two power inlets, the quick release tabs for the power supplies and bus connectors, the mandated visible ul/health and safety sticker and another fan grille.

        Guess we’ll have to put it on the other sides. No big deal, just isolate the place on the pcb that the battery holder sits on so its standards compliant, add a few plasma cuts and a dimple to the machining steps for that panel and add a little plastic door (captive with a screw or hinge so it can’t be lost) and we’re done!

        Except we just made it worse.

        Imagine going to replace that battery. It’s field replaceable, right? So what’s that process? Oh it’s real straightforward, you just bring down or reroute the systems reliant on the unit, unplug 48 Ethernet jacks, two usbs, two fcs, two more ethernets, a serial port, two bus connectors from the back, and two power inlets from the back, pull it out of the rack, unscrew the battery door, replace the battery, put it back in the rack, plug in 48 Ethernet jacks, two usbs, two fcs, two more ethernets, a serial port, two bus connectors into the back, and two power inlets into the back, turn it on, securely set the rtc (this is incredibly important!) and reroute systems back to it or bring them back up.

        And if nothing goes wrong, if we didn’t damage a connector or receptacle, drop something or catch an esd event then we just doubled the lifespan of our device!

        Except we didn’t. The battery had a ten year service life in this environment, and we replaced it at nine to be safe. Cisco though, stopped releasing security patches too, so now our router has ten new years of being unavoidably owned by every sk the world over.

        Well, if we just went through all that work, probably the firmware policy would be updated and the support window lengthened to match, right? So now they’re pushing security patches for 20 years! Certainly that cost won’t be borne by the customer and we’ll be rewarded for our good design work!

        On a gigabit router. For the rack mount environment.

        And we also have a standard rtc and battery type to integrate into all future designs, training material and equipment.

        I didn’t just waste thirty minutes of a day off writing that up to make fun of you, but to illustrate how the conditions under which specifically telecommunications equipment operates, is designed and managed dictate what decisions the designer makes about stuff like rtc backup batteries, which are a security feature btw.

        If we had say, a planned economy, we could expect devices like these to be designed with a longer lifespan and an extant recycling process in mind. Under our current system that’s just not possible.

        • u/lukmly013 💾 (lemmy.sdf.org)@lemmy.sdf.orgOP
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          6 months ago

          There doesn’t need to be a separate access panel. It can just be in a normal battery holder like so:
          Replaceable CR1225 in Cisco 1802

          Considering it’s something that generally runs 24/7 for years, it may still be a good idea to clean out dust from the device when possible. That’s also an opportunity to replace the RTC battery, assuming it’s replaceable.
          Oh, hey, it seems Cisco even used to provide some Li batteries until 2017.

          Also, not all businesses need the networks up 24/7. There may be plenty of time for down time for maintenance.

          • bloodfart
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            6 months ago

            The eos on that 1802 was 2018. They stopped selling batteries for it a year before it stopped being supported. They claimed in that bulletin it was because of the shipping restrictions on batteries (which I believe!) too, so that might have had something to do with the series of decisions that led to soldered in batteries.

            I didn’t even think of shipping restrictions making it prohibitively expensive to ship replacement batteries. That’s a good one.

            Since you’re the op, how do you handle soldered in batteries? As you might expect from my replies, I just unsolder em (with a bench supply tacked in to keep power going to the circuit) and put in a replacement. Usually I don’t even put in battery holders, just another soldered in cell of the same type.

              • bloodfart
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                6 months ago

                if you want to preserve the clock memory then use an ungrounded soldering iron. Usualy the cheaper ones are ungrounded and the midlevel ones are grounded. expensive or micro stations will sometimes have a ground lift switch. if you use a grounded one it’ll run a chance of getting into a fight with your bench supply over weather 3v gets to be at the node youre soldering.

                Good luck. if you find that the through holes are too small to get good heat transfer, don’t be afraid to leave a 3/8" or so bit of the old leads sticking out and solder your replacement onto them. covered with heat shrink they’ll be fine.

                they make low acid or non corrosive or whatever hot glue to attach that little toilet lookin’ doohickey for just these applications.

              • bloodfart
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                6 months ago

                Yeah stuff like pokemon cartridges needs a 3v supply.