LT3022-1.2_15 Datasheet, PDF(13/20 Page) Linear Technology – 1A, 0.9V to 10V, Very Low Dropout Linear Regulator

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LT3022-1.2_15 Datasheet, PDF (13/20 Pages) Linear Technology – 1A, 0.9V to 10V, Very Low Dropout Linear Regulator

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LT3022/LT3022-1.2

LT3022-1.5/LT3022-1.8

APPLICATIONS INFORMATION

and are more suitable for use as the output capacitor at

fractionally increased cost. X5R and X7R dielectrics both

exhibit excellent voltage coefficient characteristics. X7R

works over a larger temperature range and exhibits better

temperature stability whereas X5R is less expensive and

is available in higher values. Figures 2 and 3 show voltage

coefficient and temperature coefficient comparisons

between Y5V and X5R material.

BOTH CAPACITORS ARE 16V,

1210 CASE SIZE, 10ÂµF

X5R

â20

â40

â60

Y5V

â80

â100

0 2 4 6 8 10 12 14 16

DC BIAS VOLTAGE (V)

3022 F02

Figure 2. Ceramic Capacitor DC Bias Characteristics

X5R

â20

â40

Y5V

â60

â80

BOTH CAPACITORS ARE 16V,

â100 1210 CASE SIZE, 10ÂµF

â50 â25 0 25 50 75

TEMPERATURE (Â°C)

100 125

3022 F03

Figure 3. Ceramic Capacitor Temperature Characteristics

Voltage and temperature coefficients are not the only

sources of problems. Some ceramic capacitors have a

piezoelectric response. A piezoelectric device generates

voltage across its terminals due to mechanical stress,

similar to the way a piezoelectric accelerometer or

microphone works. For a ceramic capacitor, the stress can

be induced by vibrations in the system or thermal transients.

The resulting voltages produced can cause appreciable

amounts of noise. A ceramic capacitor produced Figureâ¯ 4âs

trace in response to light tapping from a pencil. Similar

vibration induced behavior can masquerade as increased

output voltage noise.

1mV/DIV

VOUT = 1.3V

COUT = 10ÂµF

ILOAD = 0

1ms/DIV

3022 F04

Figure 4. Noise Resulting from Tapping on a Ceramic Capacitor

No-Load/Light-Load Recovery

A possible transient load step that occurs is where the

output current changes from its maximum level to zero

current or a very small load current. The output voltage

responds by overshooting until the regulator lowers the

amount of current it delivers to the new level. The regulator

loop response time and the amount of output capacitance

control the amount of overshoot. Once the regulator has

decreased its output current, the current provided by

the resistor divider (which sets VOUT) is the only current

remaining to discharge the output capacitor from the level

to which it overshot. The amount of time it takes for the

output voltage to recover easily extends to milliseconds

with minimum divider current and many microfarads of

output capacitance.

3022fb

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