LT1118-2.5_15 Datasheet, PDF(5/8 Page) Linear Technology – 800mA, Source and Sink Regulators Adjustable and Fixed 2.5V, 2.85V, 5V Output

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LT1118-2.5_15 Datasheet, PDF (5/8 Pages) Linear Technology – 800mA, Source and Sink Regulators Adjustable and Fixed 2.5V, 2.85V, 5V Output

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LT1118/LT1118-2.5

LT1118-2.85/LT1118-5

PIN FUNCTIONS

IN: Input Supply Pin. This pin should be decoupled with

a 1Î¼F or larger low ESR capacitor. The two IN pins on the

SO-8 package must be directly connected on the printed

circuit board to prevent voltage drops between the two

inputs. When used as a SCSI active termination, IN con-

nects to term power. When used as a supply splitter, IN is

also the positive supply output.

GND: Ground Pin. The multiple GND pins on the SO-8

package are internally connected, but lowest load regulation

errors will result if these pins are tightly connected on the

printed circuit board. This will also aid heat dissipation at

high power levels.

EN: TTL/CMOS Logic Input. A high level allows normal

operation. A low level reduces supply current to zero. This

pin is internally connected to VIN on 3-lead ST packaged

devices.

OUT: Regulated Output Voltage. Output can source or sink

current. Current limit for sourcing and sinking current is

provided to protect the device from fault conditons. The

output must have a low ESR output ï¬lter capacitor. COUT

â¥ 0.22Î¼F to guarantee stability. A 0.1Î¼F ceramic capacitor

may be needed in parallel with COUT if the ESR of the main

COUT is too high.

FB: Feedback Pin. The feedback pin is used to program

the output voltage of the adjustable S8 part. The output

voltage range that can be achieved is 2.1V to 6.5V. The

output voltage is determined by the selection of feedback

resistors deï¬ned by the following formula:

VOUT = VFB (1 + R1/R2) + IFBR1

LT1118 Adjustable

VIN

OUT

( ) VOUT = VFB 1 +

1Î¼F

+ IFB R1

1Î¼F

LT1118

EN GND FB

1118 TA06

OPERATION

Output Capacitor

The LT1118 family of voltage regulators require an output

capacitor for stability. The regulators are stable with out-

put capacitors larger than 0.2Î¼F. Load transient response

is very sensitive to output capacitor value and dielectric

choice. Low ESR ceramic capacitors are the best choice

for fast settling to load transients. Output capacitors

between 0.2Î¼F and 1Î¼F give good performance in most

applications. Larger tantalum output capacitors may be

used to reduce load transient amplitudes. Larger capaci-

tors should be paralleled with a 0.1Î¼F ceramic capacitor

to maintain quick settling time performance and to insure

stability of the regulator control loop. Capacitors larger

than 10Î¼F may be safely used with the regulators, but

little transient settling performance improvement results

from their use.

Worst case transient response of the LT1118 regulators

occurs at zero output current. In order to obtain the fastest

transient settling performance, the regulator output may

be preloaded with a small current. The preload current

reduces the regulator output impedance, reducing output

voltage settling time.

Thermal Considerations

The LT1118 regulators are packaged in plastic SOT-223 and

fused lead S8 packages. These small footprint packages

are unable to convectively dissipate the heat generated

when the regulator is operating at high current levels. In

order to control die operating temperatures, the PC board

layout should allow for maximum possible copper area at

the ground pins of the LT1118. The ground pins and the

tab on the SOT-223 package are electrically and thermally

1118fd

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