LP38852S-ADJ Datasheet, PDF(12/29 Page) Texas Instruments – 1.5A Fast-Response High-Accuracy Adjustable LDO Linear Regulator with Enable and Soft-Start

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LP38852S-ADJ Datasheet, PDF (12/29 Pages) Texas Instruments – 1.5A Fast-Response High-Accuracy Adjustable LDO Linear Regulator with Enable and Soft-Start

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LP38852

SNVS482E â JANUARY 2007 â REVISED APRIL 2013

www.ti.com

Feed Forward Capacitor, CFF

(Refer to the Typical Application Circuit)

When using a ceramic capacitor for COUT, the typical ESR value will be too small to provide any meaningful

positive phase compensation, FZ, to offset the internal negative phase shifts in the gain loop.

FZ = (1 / (2 x Ï x COUT x ESR) )

(1)

A capacitor placed across the gain resistor R1 will provide additional phase margin to improve load transient

response of the device. This capacitor, CFF, in parallel with R1, will form a zero in the loop response given by the

formula:

FZ = (1 / (2 x Ï x CFF x R1) )

(2)

For optimum load transient response select CFF so the zero frequency, FZ, falls between 10 kHz and 15 kHz.

(CFF = (1 / (2 x Ï x R1 x FZ)

(3)

The phase lead provided by CFF diminishes as the DC gain approaches unity, or VOUT approaches VADJ. This is

because CFF also forms a pole with a frequency of:

FP = (1 / (2 x Ï x CFF x (R1 || R2) ) )

(4)

It's important to note that at higher output voltages, where R1 is much larger than R2, the pole and zero are far

apart in frequency. At lower output voltages the frequency of the pole and the zero mover closer together. The

phase lead provided from CFF diminishes quickly as the output voltage is reduced, and has no effect when VOUT

= VADJ. For this reason, relying on this compensation technique alone is adequate only for higher output

voltages. For the LP38852, the practical minimum VOUT is 0.8V when a ceramic capacitor is used for COUT.

Figure 31. FZERO and FPOLE vs Gain

SETTING THE OUTPUT VOLTAGE

(Refer to the Typical Application Circuit)

The output voltage is set using the external resistive divider R1 and R2. The output voltage is given by the

formula:

VOUT

VADJ

Â§

Â¨Â©1+

Â§

Â¨

Â©

Â¹Â·Â¸Â¹Â·Â¨

(5)

The resistors used for R1 and R2 should be high quality, tight tolerance, and with matching temperature

coefficients. It is important to remember that, although the value of VADJ is ensured, the use of low quality

resistors for R1 and R2 can easily produce a VOUT value that is unacceptable.

It is recommended that the values selected for R1 and R2 are such that the parallel value is less than 10 kâ¦.

This is to prevent internal parasitic capacitances on the ADJ pin from interfering with the FZ pole set by R1 and

CFF.

( (R1 x R2) / (R1 + R2) ) â¤ 10 kâ¦

(6)

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