MAX16047 Datasheet, PDF(53/62 Page) Maxim Integrated Products – 12-Channel/8-Channel EEPROM-Programmable System Managers with Nonvolatile Fault Registers

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MAX16047 Datasheet, PDF (53/62 Pages) Maxim Integrated Products – 12-Channel/8-Channel EEPROM-Programmable System Managers with Nonvolatile Fault Registers

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12-Channel/8-Channel EEPROM-Programmable

System Managers with Nonvolatile Fault Registers

LOAD ADDRESS: This is an extension to the standard

IEEE 1149.1 instruction set to support access to the

memory in the MAX16047/MAX16049. When the LOAD

ADDRESS instruction latches into the instruction regis-

ter, TDI connects to TDO through the 8-bit memory

address test data register during the shift-DR state.

READ DATA: This is an extension to the standard IEEE

1149.1 instruction set to support access to the memory

in the MAX16047/MAX16049. When the READ instruc-

tion latches into the instruction register, TDI connects to

TDO through the 8-bit memory read test data register

during the shift-DR state.

WRITE DATA: This is an extension to the standard

IEEE 1149.1 instruction set to support access to the

memory in the MAX16047/MAX16049. When the WRITE

instruction latches into the instruction register, TDI con-

nects to TDO through the 8-bit memory write test data

REBOOT: This is an extension to the standard IEEE

1149.1 instruction set to initiate a software controlled

reset to the MAX16047/MAX16049. When the REBOOT

instruction latches into the instruction register, the

MAX16047/MAX16049 resets and immediately begins

the boot-up sequence.

SAVE: This is an extension to the standard IEEE 1149.1

instruction set that triggers a fault log. The current ADC

conversion results along with fault information are

saved to EEPROM depending on the configuration of

the Critical Fault Log Control register (r47h).

SETEXTRAM: This is an extension to the standard IEEE

1149.1 instruction set that allows access to the extend-

ed page. Extended registers include ADC conversion

results, DACOUT enables, and GPIO input/output data.

RSTEXTRAM: This is an extension to the standard IEEE

1149.1 instruction set. Use RSTEXTRAM to return to the

default page and disable access to the extended page.

SETEEPADD: This is an extension to the standard IEEE

1149.1 instruction set that allows access to the EEPROM

page. Once the SETEEPADD command has been sent, all

addresses are recognized as EEPROM addresses only.

RSTEEPADD: This is an extension to the standard IEEE

1149.1 instruction set. Use RSTEEPADD to return to the

default page and disable access to the EEPROM.

Applications Information

ture startup of a power supply before the EEPROM is

programmed, connect a resistor to ground or the supply

voltage. Avoid connecting a resistor to ground if the out-

put is to be configured as open-drain with a separate

pullup resistor.

Device Behavior at Power-Up

When VCC is ramped from 0V, the RESET output is high

impedance until VCC reaches 1.4V, at which point it is

driven low. All other outputs are high impedance until

VCC reaches 2.85V, when the EEPROM contents are

copied into register memory, and after which the out-

puts assume their programmed states.

Maintaining Power During a

Fault Condition

Power to the MAX16047/MAX16049 must be main-

tained for a specific period of time to ensure a success-

ful EEPROM fault log operation during a fault that

removes power to the circuit. The amount of time

required depends on the settings in the fault control

Table 30. EEPROM Fault Log Operation

Period

FAULT CONTROL

r47h[1:0]

DESCRIPTION

REQUIRED

PERIOD

tFAULT_SAVE (ms)

Failed lines and

204

ADC values saved

Failed lines saved

ADC values saved

168

No information

N/A

saved

Maintain power for shutdown during fault conditions in

applications where the always-on power supply cannot

be relied upon by placing a diode and a large capaci-

tor between the voltage source, VIN, and VCC (Figure

15). The capacitor value depends on VIN and the time

delay required, tFAULT_SAVE. Use the following formula

to calculate the capacitor size:

C = tFAULT_SAVE Ã ICC(MAX)

VIN â VDIODE â VCC(MIN)

Unprogrammed Device Behavior

When the EEPROM has not been programmed using the

JTAG or I2C interface, the default configuration of the

EN_OUT_ outputs is open-drain active-low. If it is neces-

sary to hold an EN_OUT_ high or low to prevent prema-

where the capacitance is in Farads and tFAULT_SAVE is

in seconds. ICC(MAX) is 5mA, VDIODE is the voltage

drop across the diode, and VUVLO is 2.85V. For exam-

ple, with a VIN of 14V, a diode drop of 0.7V, and a

tFAULT_SAVE of 0.204s, the minimum required capaci-

tance is 100ÂµF.

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