RE: Simple analog signaling for an AC adapter

["Bob Davis" <bobd@xxxxxxxx>]

All,

A simple resistor could specify a voltage or a power level but not both at
the same time. Two resistors on two separate lines can indeed specify
independently the voltage and power levels. 

Also please consider the requirements for reading that resistor value. The
resistor is driven into device that measures its value and makes a logical
judgment on usage based on that resistor value. This is most likely done
with a processor evaluating a voltage measured with a A/D input to a
microprocessor. This still requires an additional one or two signal lines in
the cable and a processor. 

The only savings is the cost of the processor in the power source that is
most likely needed anyway to effectively manage the power source. The
smallest processors capable of the job are in the <<$1 and would replace the
other power supply control elements with low cost logic.  

We still will need to limit the surge current into the adapter, and surge
current out of the adapter for safety reasons.  We should also be cognizant
of the Smart Grid requirements for appliance control. This communications
will likely become a requirement within the life of this standard. I am not
sure how to deal with the Smart Grid if there is no programmable logic or a
microcontroller available to talk on the power-line networking, OSHAN or
equivalent.  When this is a requirement, I would assume that we will need to
convey information to the device digitally or by changing the resistor value
is some rapid digital modulation scheme that the device will need to be able
to read. The device would then need to change the load or the resistor load
in some rapid modulation scheme to get information back to the adapter.
These will need to be specified at the outset of the UPAMD. CAN is of course
simpler. IEC 61970 and IEC 61968: Providing a Common Information Model
(CIM), necessary for exchanges of data between devices and networks,
primarily in the transmission (IEC 61970) and distribution (IEC 61968)
domains. See
http://www.smartgridnews.com/artman/uploads/1/2010_Smart_Appliance_Report_Zp
ryme_Smart_Grid_Insights.pdf 

From this morning's news:
http://www.kron.com/News/ArticleView/tabid/298/smid/1126/ArticleID/7615/reft
ab/536/t/Oakland%20Man%20Critically%20Burned%20in%20East%20Oakland%20Duplex%
20Explosion%20Firefighters%20Say/Default.aspx another house blows up in the
Bay Area cause by gas leaks and an ignition source. The actual ignition
source has not yet been identified.

I know from experience, that my wife's new MacBook power cube creates enough
of a spark when plugged in that she dropped the adapter once thinking it had
exploded inside. She was afraid to plug it in again until I had checked it
out. It is clearly not surge limited and clearly has sufficient energy in
the arc and flash visible outside of the outlet to ignite a combustible
natural gas, or in our case propane, fuel/air as in fuel/air bomb.  With
propane, if the smell agent is not added, it is not easily detected and it
pools nicely, being heavier than air, around outlets at normal heights. This
of course will not apply to those with all electric facilities.

We will need to deal with the source inrush current issue, which should be
worse at 264VAC with a peak voltage of ~380V to charge the input cap with.
This will arc about 1mm depending on altitude and shape. The inputs to power
factor corrected supplies will need to be dealt with. The Apple supply is
60W probably avoiding the power factor corrector issue, and is certainly
"snappy" with some indication on the blades of metal transfer and black
residue. I guess leaving the adapter plugged in one place all the time will
avoid this arcing issue being repeated but will certainly reduce the
portability. I am not suggesting that the Apple 60W adapter is out of
compliance in any way. However consider the news article.

User safety will certainly need to be included in this project. I do not
believe we can get away with designs based on history and living on existing
certifications based on historical designs.

A transformer, bridge rectifier, capacitor, and identity resistor, are
probably not going to be sufficient going forward.


Respectfully;

Bob Davis
Chair UPAMD/P1823
bobd@xxxxxxxx
408.353.5990 desk
408.857.1273 cell
bob.davis.scsi.com Skype

-----Original Message-----
From: upamd@xxxxxxxx [mailto:upamd@xxxxxxxx] On Behalf Of Paul Panepinto
Sent: Wednesday, December 08, 2010 7:52 AM
To: 'arjan strijker'; 'Tomlins, Garry'; 'Piotr Karocki'; 'upamd@xxxxxxxx'
Subject: RE: Simple analog signaling for an AC adapter

Very interesting discussion.  In my mind, we want a rich standard, but to
"force" the vendors to do something is probably not going to happen.  If we
try to force vendors into things that they don't want, they will find
reasons not to adopt UPAMD and the standard will likely be nothing more than
a footnote in history.  None of us want that.

Questions:

*  Without active communication with the sink (assuming resistor-based
signaling), how can you do standby power shutoff?  While you can do no-load
power shutoff, standby power shutoff will be difficult without requiring a
button push to tell the power supply it needs to turn back on.

*  Would you need 2 resistors - one for specifying voltage and one for
specifying maximum power allowable for the specific connected device?

Regards,

Paul Panepinto
UPAMD Power Subgroup Chair
(970) 461-3077

-----Original Message-----
From: upamd@xxxxxxxx [mailto:upamd@xxxxxxxx] On Behalf Of arjan strijker
Sent: Wednesday, December 08, 2010 7:47 AM
To: Tomlins, Garry; Piotr Karocki; upamd@xxxxxxxx
Subject: RE: Simple analog signaling for an AC adapter

If a power supply has provisions to do the full communication, I do not
think
that it will be much more expensive to also make it suitable for simple
devices.
If the power supply has a complete digital interface on the secondary side
to communicate with a sophisticated device, it should hardly cost anything
more to detect that a simple resistor is in the device that is being
powered.
It can be done with the same pin in the IC in the adapter.

On the other hand, if you have a simple device that does not have any fancy
stuff inside and just needs a certain voltage, you need to add a lot of
costs 
(an extra IC) to make it communicate with an adapter that can only work
with full communications.

The idea is that a customer has one adapter for several devices. So do we
want
to make one adapter a little more expensive, or do we want to make several 
devices much more expensive?

Arjan


-----Original Message-----
From: upamd@xxxxxxxx [mailto:upamd@xxxxxxxx] On Behalf Of Tomlins, Garry
Sent: Wednesday, December 08, 2010 1:20 PM
To: Piotr Karocki; upamd@xxxxxxxx
Subject: RE: Simple analog signaling for an AC adapter

I agree with Lee and Arjan:
This is heading down a path of unnecessary and complex functionality that
leads in turn to a complex and expensive implementation. I beleive it will
not be attractive to the major equipment ODM's who will need to adopt this
if it is to be a success.
We should have a simple analog low cost option.
In my experience in servicing the adapter market for high volume electronics
adding a pin, a wire, a resistor a pin to an IC is a big deal - let alone a
separate communications system!
My vote is for a simple analog option as described. I believe this will have
a good chance of adoption and would be a success for the project.
Garry



Texas Instruments (Cork) Limited, Registered in Ireland under Registration
Number: 294554, Registered Office: Riverside One, Sir John Rogerson's Quay,
Dublin 2

-----Original Message-----

From: upamd@xxxxxxxx [mailto:upamd@xxxxxxxx] On Behalf Of Piotr Karocki
Sent: 08 December 2010 11:50
To: upamd@xxxxxxxx
Subject: Re: Simple analog signaling for an AC adapter

I don't agree with Arjan.

We could either "describe current situation" or "shape the future".

Our standard could allow resistor-based "communication", something,
something, and full communication (required voltage etc.).
But as one of goals is to allow to connect every device to every supply
(and, in near future, connections in form of grid; power hubs, power storage
etc.), every supply has to have full communication option. Making provision
to understand simpler communication (as resistor based) makes supply more
costly.
Say, we have hundred million devices. Half of them - resistor based
communication, and tenth of them - full model of communication (4/10 of them
some 'in-between' form).
Or, we could force whole 100 000 000 devices to have full model of
communication.

But it is the only way to make this full communication cheaper - as it would
be "more mass" production. It would be ONE standard...
And the only way to make possible to connect device from 2010 to power
supply from 2050 or vice versa. This scenario is not impossible - when
standard becomes "grid version"... How often you change wiring in your
house?

________________________________
From: upamd@xxxxxxxx [upamd@xxxxxxxx] On Behalf Of arjan strijker
[arjan.strijker@xxxxxxx]
Sent: Wednesday, December 08, 2010 12:26 PM
To: Atkinson, Lee; Bob Davis; upamd@xxxxxxxx
Subject: RE: Simple analog signaling for an AC adapter

I agree with Lee that UPAMD should also support low cost devices.
A simple resistor to ground inside the device could tell the adapter what
voltage it requires.
More sophisticated device can still do power negotiation etc.

With regards,
Arjan Strijker

From: upamd@xxxxxxxx [mailto:upamd@xxxxxxxx] On Behalf Of Atkinson, Lee
Sent: Wednesday, December 08, 2010 12:08 AM
To: Bob Davis; upamd@xxxxxxxx
Subject: Simple analog signaling for an AC adapter

    Bob, here is a quick presentation on the method that HP uses for
signaling from the adapter to the notebook. We've had this system in place
since 2005 or 2006, and have shipped maybe close to 150million systems that
use the common "HP Smart" system (including notebooks, all in one desktops,
and small form-factor desktops).

    My suggestion is that we at least baseline a system that will allow some
scalability of the communication method; at least, allow very low cost
devices to connect to a UPAMD power source and work reliably even if their
functionality is limited. I'm not sure that a lot of simple devices that
would use UPAMD have a need for all the messages that the adapter could
provide, or would be able to negotiate variable power consumption. I think
we all agree, there is very little precedence for using sophisticated
signaling in the common DC powered devices now in the market. Though I agree
the simple methods are limited, if we can deliver a scalable solution there
will be fewer reasons for the industry to not adopt UPAMD.

 Thanks again--Lee