LT6660HCDC5#PBF Linear Technology, LT6660HCDC5#PBF Datasheet - Page 8

LT6660HCDC5#PBF

Manufacturer Part Number

LT6660HCDC5#PBF

Description

Manufacturer

Linear Technology

Datasheet

1.LT6660HCDC5PBF.pdf (12 pages)

Specifications of LT6660HCDC5#PBF

Operating Temperature (max)

70C

Operating Temperature (min)

Pin Count

Mounting

Surface Mount

Package Type

DFN EP

Case Length

2mm

Screening Level

Commercial

Lead Free Status / RoHS Status

Compliant

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APPLICATIO S I FOR ATIO

LT6660

Longer Battery Life

Series references have a large advantage over older shunt

style references. Shunt references require a resistor

from the power supply to operate. This resistor must be

chosen to supply the maximum current that can ever be

demanded by the circuit being regulated. When the circuit

being controlled is not operating at this maximum current,

the shunt reference must always sink this current, resulting

in high dissipation and short battery life.

The LT6660 series references do not require a current

setting resistor and can operate with any supply voltage

from V

lated does not demand current, the LT6660s reduce their

dissipation and battery life is extended. If the references

are not delivering load current, they dissipate only several

mW, yet the same connection can deliver 20mA of load

current when demanded.

Capacitive Loads

The LT6660 family of references are designed to be stable

with a large range of capacitive loads. With no capacitive

load, these references are ideal for fast settling or applica-

tions where PC board space is a premium. The test circuit

shown in Figure 1 is used to measure the response time

and stability of various load currents and load capacitors.

This circuit is set for the 2.5V option. For other voltage

options, the input voltage must be scaled up and the

output voltage generator offset voltage must be adjusted.

The 1V step from 2.5V to 1.5V produces a current step of

10mA or 1mA for R

the response of the reference to these 1mA and 10mA

load steps with no load capacitance, and Figure 3 shows

a 1mA and 10mA load step with a 0.1µF output capaci-

tor. Figure 4 shows the response to a 1mA load step with

= 1µF and 4.7µF.

= 2.5V

0.1µF

OUT

+ 0.9V to 20V. When the circuitry being regu-

Figure 1. Response Time Test Circuit

LT6660-2.5

= 100Ω or R

OUT

= 1k. Figure 2 shows

GEN

6660 F01

2.5V

1.5V

GEN

OUT

GEN

OUT

GEN

OUT

Figure 4. I

Figure 3. C

Figure 2. C

100µs/DIV

1µs/DIV

OUT

= 0.1µF

= 0µF

= 1mA

6660 F02

6660 F03

6660 F04

2.5V

1.5V

1mA

10mA

2.5V

1.5V

1mA

10mA

2.5V

1.5V

1µF

4.7µF

6660fa

LT6660HCDC5#PBF Linear Technology, LT6660HCDC5#PBF Datasheet - Page 8

LT6660HCDC5#PBF

Specifications of LT6660HCDC5#PBF

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