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ADM1065ASUZ Datasheet(PDF) 19 Page - Analog Devices

Part No. ADM1065ASUZ
Description  Super Sequencer and Monitor
Download  28 Pages
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Maker  AD [Analog Devices]
Homepage  http://www.analog.com
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ADM1065ASUZ Datasheet(HTML) 19 Page - Analog Devices

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ADM1065
Rev. D | Page 19 of 28
COMMUNICATING WITH THE ADM1065
CONFIGURATION DOWNLOAD AT POWER-UP
The configuration of the ADM1065 (undervoltage/overvoltage
thresholds, glitch filter timeouts, PDO configurations, and so
on) is dictated by the contents of the RAM. The RAM comprises
digital latches that are local to each of the functions on the device.
The latches are double-buffered and have two identical latches,
Latch A and Latch B. Therefore, when an update to a function
occurs, the contents of Latch A are updated first, and then the
contents of Latch B are updated with identical data. The advantages
of this architecture are explained in detail in the Updating the
Configuration section.
The two latches are volatile memory and lose their contents at
power-down. Therefore, the configuration in the RAM must be
restored at power-up by downloading the contents of the EEPROM
(nonvolatile memory) to the local latches. This download occurs
in steps, as follows:
1.
With no power applied to the device, the PDOs are all high
impedance.
2.
When 1.2 V appears on any of the inputs connected to the
VDD arbitrator (VH or VPx), the PDOs are all weakly
pulled to GND with a 20 kΩ resistor.
3.
When the supply rises above the undervoltage lockout of
the device (UVLO is 2.5 V), the EEPROM starts to
download to the RAM.
4.
The EEPROM downloads its contents to all Latch As.
5.
When the contents of the EEPROM are completely
downloaded to the Latch As, the device controller signals
all Latch As to download to all Latch Bs simultaneously,
completing the configuration download.
6.
At 0.5 ms after the configuration download completes, the
first state definition is downloaded from the EEPROM into
the SE.
Note that any attempt to communicate with the device prior to
the completion of the download causes the ADM1065 to issue
a no acknowledge (NACK).
UPDATING THE CONFIGURATION
After power-up, with all the configuration settings loaded from
the EEPROM into the RAM registers, the user may need to alter
the configuration of functions on the ADM1065, such as changing
the undervoltage or overvoltage limit of an SFD, changing the
fault output of an SFD, or adjusting the rise time delay of one of
the PDOs.
The ADM1065 provides several options that allow the user to
update the configuration over the SMBus interface. The following
three options are controlled in the UPDCFG register.
Option 1
Update the configuration in real time. The user writes to the RAM
across the SMBus and the configuration is updated immediately.
Option 2
Update the Latch As without updating the Latch Bs. With this
method, the configuration of the ADM1065 remains unchanged
and continues to operate in the original setup until the instruction
is given to update the Latch Bs.
Option 3
Change the EEPROM register contents without changing the RAM
contents, and then download the revised EEPROM contents to the
RAM registers. With this method, the configuration of the
ADM1065 remains unchanged and continues to operate in the
original setup until the instruction is given to update the RAM.
The instruction to download from the EEPROM in Option 3 is
also a useful way to restore the original EEPROM contents if
revisions to the configuration are unsatisfactory. For example,
if the user needs to alter an overvoltage threshold, the RAM
register can be updated, as described in Option 1. However, if
the user is not satisfied with the change and wants to revert to
the original programmed value, the device controller can issue a
command to download the EEPROM contents to the RAM
again, as described in Option 3, restoring the ADM1065 to its
original configuration.
The topology of the ADM1065 makes this type of operation
possible. The local, volatile registers (RAM) are all double-
buffered latches. Setting Bit 0 of the UPDCFG register to 1 leaves
the double-buffered latches open at all times. If Bit 0 is set to 0
when a RAM write occurs across the SMBus, only the first side
of the double-buffered latch is written to. The user must then
write a 1 to Bit 1 of the UPDCFG register. This generates a pulse
to update all the second latches at once. EEPROM writes occur
in a similar way.
The final bit in this register can enable or disable EEPROM
page erasure. If this bit is set high, the contents of an EEPROM
page can all be set to 1. If this bit is set low, the contents of
a page cannot be erased, even if the command code for page
erasure is programmed across the SMBus. The bit map for the
UPDCFG register is shown in the AN-698 Application Note at
www.analog.com. A flow diagram for download at power-up
and subsequent configuration updates is shown in Figure 25.


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