LTC1873EG#TR Linear Technology, LTC1873EG#TR Datasheet - Page 29

LTC1873EG#TR

Manufacturer Part Number

LTC1873EG#TR

Description

IC REG SW 2PH DUAL SYNC 28SSOP

Manufacturer

Linear Technology

Datasheet

1.LTC1873EG.pdf (32 pages)

Specifications of LTC1873EG#TR

Pwm Type

Voltage Mode

Number Of Outputs

Frequency - Max

750kHz

Duty Cycle

93%

Voltage - Supply

3 V ~ 7 V

Buck

Yes

Boost

Flyback

Inverting

Doubler

Divider

Cuk

Isolated

Operating Temperature

-40°C ~ 85°C

Package / Case

28-SSOP

Frequency-max

750kHz

Lead Free Status / RoHS Status

Contains lead / RoHS non-compliant

Available stocks

Company

Part Number

Manufacturer

Quantity

Price

Company:

Part Number:

LTC1873EG#TRLTC1873EG

Manufacturer:

LT/凌特

Quantity:

20 000

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APPLICATIO S I FOR ATIO

Implementing voltage positioning is as simple as creating

an intentional resistance in the output path to generate the

required voltage drop. This resistance can be a low value

resistor, a length of PCB trace, or even the parasitic

resistance of the inductor if an appropriate filter is used. If

the LTC1873 senses the output voltage upstream from the

resistance (Figure 16c), the output voltage will move with

load as I • R

value of the voltage positioning resistor. If the feedback

network is then reset to regulate near the upper edge of the

specified tolerance, the output voltage will ride high when

to a traditional regulator (Figure 16a), a voltage position-

ing regulator can theoretically stand as much as twice the

ESR drop across the output capacitor while maintaining

output voltage regulation. This means smaller, cheaper

output capacitors can be used while keeping the output

voltage within acceptable limits.

LOAD

is low and will ride low when I

Figure 16c. Voltage Positioning Regulator

LTC1873

Figure 16a. Standard Regulator

, where I is the load current and R

LOAD

POSITIONING

RESISTOR

VOLTAGE

is high. Compared

1873 F16a

)

OUT

1873 F16c

OUT

is the

CURRENT

Figure 16b. Standard Regulator—Transient Response

Figure 16d. Positioning Regulator—Transient Response

LOAD

OUT

Measurement Techniques

Measuring transient response presents a challenge in two

respects: obtaining an accurate measurement and gener-

ating a suitable transient to use to test the circuit. Output

measurements should be taken with a scope probe

directly across the output capacitor. Proper high fre-

quency probing techniques should be used. In particular,

don’t use the 6" ground lead that comes with the probe!

Use an adapter that fits on the tip of the probe and has a

short ground clip to ensure that inductance in the ground

path doesn’t cause a bigger spike than the transient signal

being measured. Conveniently, the typical probe tip ground

clip is spaced just right to span the leads of a typical output

capacitor.

Now that we know how to measure the signal, we need to

have something to measure. The ideal situation is to use

NOM

+5%

–5%

MAX

+5%

–5%

MAX

TIME

1873 F16b

1873 F16d

MAXIMUM

ALLOWABLE

TRANSIENT

MAXIMUM

ALLOWABLE

TRANSIENT

2 FIGURE 16b

LTC1873

LTC1873EG#TR Linear Technology, LTC1873EG#TR Datasheet - Page 29

LTC1873EG#TR

Specifications of LTC1873EG#TR

Available stocks

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