28023R12Z View Datasheet(PDF) - Intersil

Part Name

Description

Manufacturer

28023R12Z

Precision Digital Power Monitor with Margining / 24 Ld QFN Package

Intersil 

ISL28023

All alert bits are masked as the default state for both the SMB

alert pins. The master needs to send instructions to unmask the

alert bits.

As an example, a user would like to allow the COMERR bit to

trigger a SMBALERT2 interrupt while masking the rest of the

alerts within the Status CML register. The command that is sent

from the master to the DPM is the slave address, SMBALERT2

register address, Status CML register address and the mask bit

value. In a hexadecimal format, the data sent to the DPM is as

follows; 0x80 DF 7E FD.

To read the mask status of any alert register, a four byte write

command, without PEC, consisting of the slave address of the

device, the SMB mask register address, the number of bytes to

be read back and the register address of the mask to be read.

Once the write command has commenced, a read command

consisting of the device slave address and the register address of

the SMB mask will return the mask of the desired alert register.

As an example, a user would like to read the status of the Status

Byte register. The first command sent to the DPM is in

hexadecimal bytes is 0x82 1B 01 78. The second command is a

standard read. The slave address is 0x83 (0x82 + read bit set)

and the register address is 0x1B.

SMBALERT1 RESPONSE ADDRESS

It is common that the SMBALERT1 pin of each ISL28023 device

is shared to a single GPIO pin of the microcontroller. The

SMBALERT1 pin is an open drain allowing for multiple devices to

be OR’ed to a single GPIO pin.

The SMBALERT1 Response Address command reports the slave

address of the device that has triggered alert. The SMB Respond

Address command is shown in Figure 102.

External Clock Control

The DPM has an external clock feature that allows the chip to be

synchronized to an external clock. The feature is useful in limiting

the number of clocks running asynchronously within a system.

0XE5 CONFIGURE EXTERNAL CLOCK (R/W)

The Configure External Clock register is a read writable byte

register that controls the functionality of the external clock

feature.

TABLE 44. 0xE5 CONFIGURE EXTERNAL CLOCK REGISTER DEFINITION

BIT NUMBER D[7]

D[6]

D[5:4}

D[3:0]

Bit Name ExtCLK_EN SMBLALERT2 N/A

OEN

EXTClkDIV

Default

0

Value

0

00

0000

EXTCLK_EN D[7]

The ExtClk_EN bit enables the external clock feature. The

ExtClk_En default bit setting is 0 or disabled. A bit setting of 1

disables the internal oscillator of the DPM and connects circuitry

such that the system clock is routed from the external clock pin.

SMBALERT2_OEN D[6]

The SMBALERT2_OEN bit within the Configure External Clock

register either enables or disables the buffer that drives the

SMBALERT2 pin.

TABLE 45. SMBALERT2_OEN BIT DEFINED

SMBALERT_OEN

SMBALERT2 STATUS

0

Disabled

1

Enabled

FIGURE 102. THE COMMAND STRUCTURE OF THE SMBALERT

RESPONSE ADDRESS

The alert response address is 0x18. In the event of multiple

alerts pulling down the GPIO line, the alert respond command

will return the lowest slave address that is connected to the I2C

bus. Upon clearing the lowest slave address alert, the alert

command will return the lowest slave address of the remaining

alerts that are activated.

The alert response is operable when the interrupt active state is

forced low by the device at the SMBALERT1 pin. Changing

SMBALERT1 interrupt polarity or forcing an interrupt will enable

the alert response. By design, the open drain of the SMBALERT1

pin allows for ANDing of the interrupt via a pull-up resistor. The

alert response command is valid for only the SMBALERT1 pin.

The alert response command will return a 0x19 when there are

no errors that are detected.

EXTCLKDIV D[3:0]

The EXTCLKDIV bits control an internal clock divider that is useful

for fast system clocks. The internal clock frequency from pin to

chip is represented in Equation 16.

freq internal

f EXTCLK

(ClkDiv8)  8

(EQ. 16)

fEXTCLK is the frequency of the signal driven to the External Clock

pin. ClkDiv is the decimal value of the clock divide bits.

Voltage Margin

The voltage margining feature within the DPM is commonly used

as a means of testing the robustness of a system. The voltage

DAC from the DPM is connected to a summation circuit allowing

the voltage sourced from the DAC to raise or lower the overall

voltage supply to system. A simplified block diagram is

illustrated in Figure 103.

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FN8389.4

June 17, 2015

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