SMM151 SUMMIT Microelectronics, Inc:, SMM151 Datasheet - Page 10

SMM151

Manufacturer Part Number

SMM151

Description

Single-channel Voltage/current Monitors And Voltage Marginers

Manufacturer

SUMMIT Microelectronics, Inc:

Datasheet

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DEVICE OPERATION

POWER SUPPLY

The SMM151 and SMM152 can be powered by a 2.7V

to 5.5V input to the VDD pin (Figure 1). See Figure 6

as an example.

VOLTAGE REFERENCE

The SMM151/152 use an internal voltage reference,

VREF with a level of 1.25V. Total accuracy of VREF is

±1.0% over temperature and supply variations.

MODES OF OPERATION

The SMM151/152 have four basic modes of operation:

under-voltage (UV) and over-voltage (OV) monitoring

mode, differential output voltage sensing mode, input

current monitoring mode and supply margining mode.

A detailed description of each mode and feature

follows and can also be found in Application Note 68.

A flow diagram is shown in Figure 5.

MARGIN MODE

The SMM151/152 can control margining of a DC/DC

converter that has a trim pin or any regulator having

access to its feedback node. The TRIM pin on the

SMM151 is connected to the trim input pin on the

power supply converter. Sense lines from the

converter’s point-of-load connects to the VM+ and VM-

inputs. The margin function begins upon an I

command or assertion of the MUP/MDN pins. The

TRIM pin is driven by a DAC whose input is

incremented or decremented every 200µs based on

the digital comparison of the margin target value and

Summit Microelectronics, Inc

APPLICATIONS INFORMATION

MPU/D/EN

Supply

DC/DC

Margin

GND

N/H/L

SMM151

Turn on Time

Programmable Active

Margin Delay Time

MARGIN

- Internal

Figure 4 – Margin Delay Time

ADC_DAC

Conversion time

2131 3.0 1/20/2010

Total Margin Delay Time

Sample/

1.8ms

ADC/DAC

the actual converter output voltage. The voltage on the

TRIM output will continue increasing or decreasing

until the converter’s output voltage equals the target

margin voltage. This voltage adjustment allows the

SMM151 and SMM152 to control the margined output

voltage of the power supply converter to within ±1.0%

in an open-loop manner.

The converter is held at the margin voltage until the

SMM151 receives an I

MUP/MDN pin is de-asserted. When not margining,

the TRIM pin on the SMM151/152 is in a high

impedance state. The voltage on the TRIM pin is

buffered and applied to the ADC at the beginning of a

margin cycle to ensure the converter is margined from

its nominal setpoint. This allows a smooth transition

from

SMM151/152 controlling that margin voltage to the

margin target setting. After margining high, low or

nominal, issuing a margin Off command will cause the

trim pin to go high impedance. The part margin time

from Off to High or Off to Low is specified as a typical

according to the equation:

X=number of possible steps (256) and 1 step = 10mV

The Active Margin Command Delay Time using the

MUP and MDN pins is shown in Figure 4.

MARG_UPDATE

ADC_DAC

Conversion time

Sample/

1.8ms

the

ADC/DAC

converter’s

= (X)(1.8ms) where:

MARGIN_UPDATE

C command or the respective

nominal

SMM151/152

voltage

the

SMM151 SUMMIT Microelectronics, Inc:, SMM151 Datasheet - Page 10

SMM151

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