LM5116MH National Semiconductor, LM5116MH Datasheet - Page 13

LM5116MH

Manufacturer Part Number

LM5116MH

Description

IC,SMPS CONTROLLER,CURRENT-MODE,TSSOP,20PIN,PLASTIC

Manufacturer

National Semiconductor

Datasheet

1.LM5116MH.pdf (26 pages)

Specifications of LM5116MH

Rohs Compliant

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Current page: 13 of 26
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UVLO

An under-voltage lockout pin is provided to disable the regu-

lator without entering the sleep mode. If the UVLO pin is pulled

below 1.215V, the regulator enters a standby mode of oper-

ation with the soft-start capacitor discharged and outputs

disabled, but with the VCC regulator running. If the UVLO in-

put is pulled above 1.215V, the controller will resume normal

operation. A voltage divider from input to ground can be used

to set a VIN threshold to disable the supply in brown-out con-

ditions or for low input faults. The UVLO pin has a 5µA internal

pull up current that allows this pin to left open if the input un-

der-voltage lockout function is not needed.

The UVLO pin can also be used to implement a “hiccup” cur-

rent limit. If a current limit fault exists for more than 256

consecutive clock cycles, the UVLO pin will be internally

pulled down to 200mV and then released. A capacitor to

ground connected to the UVLO pin will set the timing for hic-

cup mode current limit. When this feature is used in conjunc-

tion with the voltage divider, a diode across the top resistor

may be used to discharge the capacitor in the event of an

input under-voltage condition.

Oscillator and Sync Capability

The LM5116 oscillator frequency is set by a single external

resistor connected between the RT/SYNC pin and the AGND

pin. The resistor should be located very close to the device

and connected directly to the pins of the IC (RT/SYNC and

AGND). To set a desired oscillator frequency (f

essary value for the resistor can be calculated from the fol-

lowing equation:

Where T = 1 / f

fixed minimum off time.

The RT/SYNC pin can be used to synchronize the internal

oscillator to an external clock. The external clock must be a

higher frequency than the free-running frequency set by the

RT resistor. The internal oscillator can be synchronized to an

external clock by AC coupling a positive edge into the RT/

SYNC pin. The voltage at the RT/SYNC pin is nominally

and R

is in ohms. 450ns represents the

FIGURE 5. Composition of Current Sense Signal

), the nec-

1.215V and must exceed 4V to trip the internal synchroniza-

tion pulse detection. A 5V amplitude signal and 100pF cou-

pling capacitor are recommended. The free-running frequen-

cy should be set nominally 15% below the external clock.

Synchronizing above twice the free-running frequency may

result in abnormal behavior of the pulse width modulator.

Error Amplifier and PWM

Comparator

The internal high-gain error amplifier generates an error sig-

nal proportional to the difference between the regulated out-

put voltage and an internal precision reference (1.215V). The

output of the error amplifier is connected to the COMP pin

allowing the user to provide loop compensation components,

generally a type II network. This network creates a pole at

very low frequency, a mid-band zero, and a noise reducing

high frequency pole. The PWM comparator compares the

emulated current sense signal from the RAMP generator to

the error amplifier output voltage at the COMP pin.

Ramp Generator

The ramp signal used in the pulse width modulator for current

mode control is typically derived directly from the buck switch

current. This switch current corresponds to the positive slope

portion of the inductor current. Using this signal for the PWM

ramp simplifies the control loop transfer function to a single

pole response and provides inherent input voltage feed-for-

ward compensation. The disadvantage of using the buck

switch current signal for PWM control is the large leading

edge spike due to circuit parasitics that must be filtered or

blanked. Also, the current measurement may introduce sig-

nificant propagation delays. The filtering, blanking time and

propagation delay limit the minimal achievable pulse width. In

applications where the input voltage may be relatively large

in comparison to the output voltage, controlling small pulse

widths and duty cycles is necessary for regulation. The

LM5116 utilizes a unique ramp generator which does not ac-

tually measure the buck switch current but rather reconstructs

the signal. Representing or emulating the inductor current

provides a ramp signal to the PWM comparator that is free of

leading edge spikes and measurement or filtering delays. The

current reconstruction is comprised of two elements, a sam-

ple-and-hold DC level and an emulated current ramp.

30007546

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LM5116MH National Semiconductor, LM5116MH Datasheet - Page 13

LM5116MH

Specifications of LM5116MH

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