SMM150ECR01 データシートの表示（PDF） - Summit Microelectronics

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SMM150ECR01

Single-Channel Supply Voltage Marginer/Monitor

Summit Microelectronics 

APPLICATIONS INFORMATION

DEVICE OPERATION

POWER SUPPLY

The SMM150 can be powered by a 2.7V to 5.5V input

to the VDD pin (Figure 1). Care should be exercised

that noise from the DC/DC converter is filtered from

the SMM150 VDD pin. See figure 6 for suggestions.

VOLTAGE REFERENCE

The SMM150 uses an internal voltage reference,

VREF with a user programmable level of 0.5V or

1.25V. Total accuracy of VREF is ±0.8% over

temperature and supply variations. For DC/DC

converters that have output voltages below 1.25V, set

the internal VREF to 0.5V.

MODES OF OPERATION

The SMM150 has two basic modes of operation: UV

and OV monitoring mode and supply margining mode.

A detailed description of each mode and feature

follows. A flow diagram is shown in Figure 5.

MARGIN MODE

The SMM150 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

SMM150 is connected to the trim input pin on the

power supply converter. A sense line from the

converter’s point-of-load connects to the VM input.

The margin function begins upon an I2C 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

DC/DC

Supply

Margin

N/H/L

GND

Turn on Time

SMM150

Preliminary Information

comparison of the margin target value and the actual

converter output voltage. The voltage on the TRIM

output will continue increasing (decreasing) until the

converter’s output voltage equals the target margin

voltage. This voltage adjustment allows the SMM150

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

SMM150 receives an I2C command or the respective

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

the TRIM pin on the SMM150 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 the

converter’s nominal voltage to the SMM150 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:

TMARG_UPDATE = (X)(1.8ms) where:

X=step number of possible 256 and 1 step=5mV

The Active Margin Command Delay Time using the

MUP and MDN pins is shown in Figure 4

TMARGIN_UPDATE

SMM150

Total Margin Delay Time

MPU/D/EN

tMARGIN - Internal

Programmable Active

Margin Delay Time

tADC_DAC ADC/DAC tADC_DAC ADC/DAC

Sample/

Sample/

Conversion time Conversion time

1.8ms

1.8ms

Figure 4 – Margin Delay Time

Summit Microelectronics, Inc

2075 2.6 05/13/05

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