LT1790BIS6-1.25#PBF Linear Technology, LT1790BIS6-1.25#PBF Datasheet - Page 23

LT1790BIS6-1.25#PBF

Manufacturer Part Number

LT1790BIS6-1.25#PBF

Description

Manufacturer

Linear Technology

Datasheet

1.LT1790BIS6-1.25PBF.pdf (26 pages)

Specifications of LT1790BIS6-1.25#PBF

Fixed / Adjust / Prog

Precision

Output Voltage (max)

1.25V

Temperature Coefficient

25ppm/°C

Reference Voltage Accuracy (max)

0.1

Line Regulation

170ppm/V

Load Regulation

180ppm/mA

Input Voltage (max)

20V

Operating Temp Range

-40C to 85C

Operating Temperature Classification

Industrial

Mounting

Surface Mount

Pin Count

Package Type

TSOT-23

Lead Free Status / RoHS Status

Compliant

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APPLICATIONS INFORMATION

More Output Current

The circuit in Figure 16 is a compact, high output current,

low dropout precision supply. The circuit uses the SOT-23

LT1782 and the ThinSOT LT1790. Resistive divider R1 and

R2 set a voltage 22mV below V

current, the LT1790 supplies the load. Above 1mA of load

current, the (+) input of the LT1782 is pulled below the

22mV divider reference and the output FET turns on to

supply the load current. Capacitor C1 stops oscillations in

the transition region. The no load standing current is only

120μA, yet the output can deliver over 300mA.

Noise

An estimate of the total integrated noise from 10Hz to 1kHz

can be made by multiplying the ﬂ at band spot noise by

√BW. For example, from the Typical Performance curves,

the LT1790-1.25 noise spectrum shows the average spot

noise to be about 450nV/√Hz. The square root of the

SUPPLY CURRENT

2.8V TO 3.3V

NO LOAD

Figure 16. Compact, High Output Current, Low Dropout, Precision 2.5V Supply

120μA

. For under 1mA of output

680Ω

100k

LT1790-2.5

22Ω

1μF

bandwidth is √990 = 31.4. The total noise 10Hz to 1kHz

noise is (450nV)(31.4) = 14.1μV. This agrees well with the

measured noise.

This estimate may not be as good with higher voltage

options, there are several reasons for this. Higher voltage

options have higher noise and they have higher variability

due to process variations. 10Hz to 1kHz noise may vary by

2dB on the LT1790-5 and 1dB on the LT1790-2.5.

Measured noise may also vary because of peaking in the

noise spectrum. This effect can be seen in the range of

1kHz to 10kHz with all voltage options sourcing different

load currents. From the Typical Performance curves the

10Hz to 1kHz noise spectrum of the LT1790-5 is shown

to be 3μV/√Hz at low frequency. The estimated noise is

(3μV)(31.4) = 93.4μV. The actual integrated 10Hz to 1kHz

noise measures 118.3μV. The peaking shown causes this

larger number. Peaking is a function of output capacitor

as well as load current and process variations.

–

LT1782

NOTE: NOT CURRENT LIMITED

0.1μF

17909 F16

VISHAY SILICONIX

Si3445DV

LOAD

OUT

= 2.5V

= 0mA to 300mA

LT1790

1790fb

LT1790BIS6-1.25#PBF Linear Technology, LT1790BIS6-1.25#PBF Datasheet - Page 23

LT1790BIS6-1.25#PBF

Specifications of LT1790BIS6-1.25#PBF

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