CABLE-SMBUS-3PIN Analog Devices Inc, CABLE-SMBUS-3PIN Datasheet - Page 25

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CABLE-SMBUS-3PIN

Manufacturer Part Number

CABLE-SMBUS-3PIN

Description

CABLE SMBUS 3PIN

Manufacturer

Analog Devices Inc

Datasheet

1.CABLE-SMBUS-3PINZ.pdf (38 pages)

Specifications of CABLE-SMBUS-3PIN

Rohs Status

RoHS non-compliant

Accessory Type

SMBus Cable

For Use With/related Products

EVALADM106x Boards

Current page: 25 of 38
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Preliminary Technical Data

PROGRAMMABLE DIRECT OUTPUTS (PDO)

The ADM106x features ten PDOs (eight inputs in the case of

ADM1068/9). These outputs can be used to control the turn-on/off

of supplies. The outputs are highly configurable. They can be

programmed to pull- up to a number of different options. The

outputs can be programmed as follows:–

• Open Drain (allowing the user to connect an external pull-up

• Open Drain with weak pull-up to VDD

• Push Pull to VDD

• Open-drain with weak pull-up to VPn

• Push-pull to VPn

• Strong pull-down to GND

• Internally charge- pumped high drive (12V- Available on PDO 1-

The data driving each of the PDO’s can come from one of three

sources. These are:

• An output from the Sequencing Engine (normal operation- where

• Directly from the SMBus. A PDO can be configured so that the

• An On- Chip Clock. A 100KHz clock is generated on the device.

resistor)

6 Only)

the ADM106x independently controls the sequence of supplies).

SMBus has direct control over it. This enables software control of

the PDO’s. Thus, a microcontroller could be used to initiate a

software power-up/power-down sequence.

This clock can be made available on any of the PDO’s. It could be

used to clock an external device such as a LED, for example.

Rev. PrB | Page 25 of 38

Figure 44. Programming outputs on ADM106x

SEQUENCING ENGINE

The logical core of the ADM106x is the Sequencing Engine.

This is a state machine based architecture which determines

how the ADM106x reacts to events as they occur. These

“events” could be a supply coming in to tolerance, a supply

failing, a digital input being asserted etc. The ADM106x

provides 63 states, allowing the device to control the sequence

of up to 63 events. The ADM106x’s control of the outside

world is through its programmable outputs, so their logical

status can be set in each state. For instance, the first state

could be set up to check that a supply is in tolerance. Once this

is the case, the sequencing engine can proceed to the next state

where the next supply is enabled by driving its controlling PDO

high. A diagram of a state cell is shown below.

Figure 45. ADM106x State Cell

The diagram shows that once a state is entered, there are three

possible ways to leave that state:-

1.

2.

Normal operation

End of Step- This is the primary way to leave a state.

The user can choose a single event (e.g.) an input

signal going high- to allow the engine to progress to

the next state. By selecting the end of step condition

in a number of states, the user defines the sequence in

which event must happen (i.e.) the sequence in which

supplies are turned on/off.

Timeout- This provides a safety net if an End-of Step

M

Fault

onitor

EVAL-ADM106x

STATE

End-of-Step

FET Driver

Pull-up to VP1,VP2,

VP3,VP4 or VDDCAP

Timeout

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