LT1175CN8-ADJ#PBF Linear Technology, LT1175CN8-ADJ#PBF Datasheet - Page 3

LT1175CN8-ADJ#PBF

Manufacturer Part Number

LT1175CN8-ADJ#PBF

Description

V REG LDO ADJ -0.5/20V, 1175, DIP8

Manufacturer

Linear Technology

Datasheet

1.LT1175CN8-ADJPBF.pdf (16 pages)

Specifications of LT1175CN8-ADJ#PBF

Primary Input Voltage

20V

Output Voltage

Dropout Voltage Vdo

500mV

No. Of Pins

Output Current

500mA

Voltage Regulator Case Style

DIP

Operating Temperature Range

0Â°C To +125Â°C

Svhc

Output Voltage Fixed

Rohs Compliant

Yes

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

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ELECTRICAL CHARACTERISTICS

range, otherwise specifications are at T

unless otherwise noted. To avoid confusion with “min” and “max” as applied to negative voltages, all voltages are shown as

absolute values except where polarity is not obvious.

PARAMETER

GND Pin Current Increase with Load (Note 4)

Input Supply Current in Shutdown

Shutdown Thresholds (Note 9)

SHDN Pin Current (Note 2)

Output Bleed Current in Shutdown (Note 6)

SENSE Pin Input Current

Dropout Voltage (Note 7)

Current Limit (Note 11)

Line Regulation (Note 10)

Load Regulation (Note 5, 10)

Thermal Regulation

Output Voltage Temperature Drift

Note 1: Absolute Maximum Ratings are those values beyond which the life

of a device may be impaired.

Note 2: SHDN pin maximum positive voltage is 30V with respect to

– V

with respect to GND and – 5V with respect to – V

Note 3: P

power level holds only for input-to-output voltages up to 12V, beyond

which internal power limiting may reduce power. See Guaranteed Current

Limit curve in Typical Performance Characteristics section. Note that all

conditions must be met.

Note 4: GND pin current increases because of power transistor base drive.

At low input-to-output voltages (< 1V) where the power transistor is in

saturation, GND pin current will be slightly higher. See Typical

Performance Characteristics.

Note 5: With I

increase higher than the 10µA to 25µA drawn by the output divider or fixed

voltage SENSE pin, causing the output to rise above the regulated value.

To prevent this condition, an internal active pull-up will automatically turn

on, but supply current will increase.

Note 6: This is the current required to pull the output voltage to within 1V

of ground during shutdown.

Note 7: Dropout voltage is measured by setting the input voltage equal to

the normal regulated output voltage and measuring the difference between

and 13.5V with respect to GND. Maximum negative voltage is – 20V

MAX

= 1.5W for 8-pin packages, and 6W for 5-pin packages. This

LOAD

= 0, at T

> 125°C, power transistor leakage could

= 25°C. V

CONDITIONS

Either Polarity On SHDN Pin

(Adjustable Part Only, Current Flows Out of Pin)

(Fixed Voltage Only, Current Flows Out of Pin)

P = 0 to P

OUT

LIM2

LIM4

LIM2

LIM4

LIM2

OUT

SHDN

OUT

= 25°C to T

– V

= 25mA

= 100mA

= 500mA

, I

= 0mA to 500mA

= 0V, V

Open, I

Open

LIM4

= 0V

= 0V to 10V (Flows Into Pin)

= – 15V to 0V (Flows Into Pin)

OUT

MAX

= 1V to 12V

= 1V to V

Open, I

Open

OUT

= 5V, V

JMIN

(Notes 3, 8)

= 15V

= 300mA

= 200mA

The

, or 25°C to T

OUT

●

= 100mA

= 20V

= 7V, I

denotes specifications which apply over the operating temperature

pins tied to V

Note 8: Thermal regulation is a change in the output voltage caused by die

temperature gradients, so it is proportional to chip power dissipation.

Temperature gradients reach final value in less than 100ms. Output

voltage changes after 100ms are due to absolute die temperature changes

and reference voltage temperature coefficient.

Note 9: The lower limit of 0.8V is guaranteed to keep the regulator in

shutdown. The upper limit of 2.5V is guaranteed to keep the regulator

active. Either polarity may be used, referenced to GND pin.

Note 10: Load and line regulation are measured on a pulse basis with

pulse width of 20ms or less to keep chip temperature constant. DC

regulation will be affected by thermal regulation (Note 8) and chip

temperature changes. Load regulation specification also holds for currents

up to the specified current limit when I

Note 11: Current limit is reduced for input-to-output voltage above 12V.

See the graph in Typical Performance Characteristics for guaranteed limits

above 12V.

Note 12: Operating at very large input-to-output differential voltages

(>15V) with load currents less than 5mA requires an output capacitor with

an ESR greater than 1Ω to prevent low level output oscillations.

OUT

JMAX

and V

= 0.15 + 1.1Ω (I

5-Pin Packages

8-Pin Packages

= 0, V

OUT

SHDN

. For currents between 100mA and 500mA, with both I

, maximum dropout can be calculated from

= 3V, I

OUT

LIM2

●

and I

MIN

520

390

260

130

0.8

LIM4

LIM2

tied to V

or I

0.003

0.04

0.18

0.33

0.26

0.25

TYP

800

600

400

200

0.1

0.5

0.3

0.1

LIM4

are left open.

, T

0.015

1300

MAX

0.26

0.45

0.35

1.25

150

975

650

325

2.5

0.2

0.7

0.5

0.1

0.2

= 25°C,

LT1175

LIM

µA/mA

UNITS

%/W

1175fd

%/V

µA

LT1175CN8-ADJ#PBF Linear Technology, LT1175CN8-ADJ#PBF Datasheet - Page 3

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