ADP2107ACPZ-1.8 Analog Devices Inc, ADP2107ACPZ-1.8 Datasheet - Page 23

ADP2107ACPZ-1.8

Manufacturer Part Number

ADP2107ACPZ-1.8

Description

V REG, 2A 1.8V, SMD, LFCSP-16, 2107

Manufacturer

Analog Devices Inc

Datasheet

1.ADP2105ACPZ-1.8-R7.pdf (36 pages)

Specifications of ADP2107ACPZ-1.8

Primary Input Voltage

3.6V

No. Of Outputs

Output Voltage

1.8V

Output Current

Voltage Regulator Case Style

LFCSP

No. Of Pins

Operating Temperature Range

-40Â°C To +125Â°C

Svhc

No SVHC

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Current page: 23 of 36
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For example, in an application where the ADP2107(1.8 V) is

used with an input voltage o

maximum ambient temperature of 85°C, at a load current of 2 A,

the most significant contributor of power dissipation in the dc-to-

dc converter package is the conduction loss of the power switches

Using the graph of switch on resistance vs. temperature (see

Figure 30), as well as the equation of power loss given in the

Pow S

in th

er wit h Con

e package can

[109 mΩ × 0.5 + 90 mΩ × 0.5] × (2 A)

SW − COND

= [R

duction Losses s

DS(ON) − P

be calculated by the following:

× D + R

f 3.6 V, a load current of 2 A, and a

DS(ON) − N

ection, the power dissipation

× (1

≈ 400 mW

− D)] × I

OUT

Rev. C | Page 23 of 36

The θ

Table 3. Therefore, the rise in temperature of the package due to

power dissipation is

The junction temperature of the converter is

Because the junction temperature of the converter is below the

maximum junction temperature of 125°C, this application operates

reliably from a thermal point of view.

= T

for the LFCSP_VQ package is 40°C/W, as shown in

= θ

+ T

× P

= 85°C + 16°C = 101°C

= 40°C/W × 0.40 W = 16°C

ADP2105/ADP2106/ADP2107

ADP2107ACPZ-1.8 Analog Devices Inc, ADP2107ACPZ-1.8 Datasheet - Page 23

ADP2107ACPZ-1.8

Specifications of ADP2107ACPZ-1.8

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