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參數(shù)資料

型號(hào)：	AD8016ARE-EVAL
廠商：	Analog Devices, Inc.
英文描述：	Low Power, High Output Current xDSL Line Driver
中文描述：	低功耗，高輸出電流的xDSL線路驅(qū)動(dòng)器
文件頁(yè)數(shù)：	14/20頁(yè)
文件大?。?/td>	569K
代理商：	AD8016ARE-EVAL

REV. A

AD8016

–14–

we can use symmetry to simplify the computation for a dc input

signal.

(

–

)

where

is the peak output voltage of an amplifier.

This formula is slightly pessimistic due to the fact that some of

the quiescent supply current is commutated during sourcing or

sinking current into the load. For a sine wave source, integration

over a half cycle yields:

V V

The situation is more complicated with a complex modulated

signal. In the case of a DMT signal, taking the equivalent sine

wave power overestimates the power dissipation by ~23%. For

example:

OUT

= 23.4

dBm

= 220

OUT

@ 50

= 3.31

V rms

= 2.354

at each amplifier output, which yields a P

of 1.81 W.

Through measurement, a DMT signal of 23.4 dBm requires

1.47 W of power to be dissipated by the AD8016. Figure 41

shows the results of calculation and actual measurements

detailing the relationship between the power dissipated by the

AD8016 versus the total output power delivered to the back

termination resistors and the load combined. A 1:2 transformer

turns ratio was used in the calculations and measurements.

OUTPUT POWER

–

2.5

2.0

1.5

100

200

300

1.0

0.5

MEASURED

SINE

MEASURED

DMT

CALCULATED

Figure 41. Power Dissipation vs. Output Power (Including

Back Terminations). See Figure 7 for Test Circuit

THERMAL ENHANCEMENTS AND PCB LAYOUT

There are several ways to enhance the thermal capacity of the

CO solution. Additional thermal capacity can be created using

enhanced PCB layout techniques such as interlacing (sometimes

referred to as stitching or interconnection) of the layers immedi-

ately beneath the line driver. This technique serves to increase

the thermal mass or capacity of the PCB immediately beneath

the driver. (See AD8016-EVAL boards for an example of this

method of thermal enhancement.) A cooling fan that draws

moving air over the PCB and xDSL drivers, while not always

required, may be useful in reducing the operating temperature

of the die, allowing more drivers/square-inch within the CO

design. The AD8016, whether in a PSOP3 (ARP) or batwing

(ARB) package, can be designed to operate in the CO solution

using prudent measures to manage the power dissipation through

careful PCB design. The PSOP3 package is available for use in

designing the highest density CO solutions. Maximum heat trans-

fer to the PCB can be accomplished using the PSOP3 package

when the thermal slug is soldered to an exposed copper pad

directly beneath the AD8016. Optimum thermal performance

can be achieved in the ARE package only when the back of the

package is soldered to a PCB designed for maximum thermal

capacity (see Figure 44). Thermal experiments with the PS0P3

package were conducted

without

soldering the heat slug to the

PCB. Heat transfer was through physical contact only. The

following offers some insight into the AD8016 power dissipation

and relative junction temperature, the effects of PCB size and

composition on the junction-to-air thermal resistance or

THERMAL TESTING

A wind tunnel study was conducted to determine the relationship

between thermal capacity (i.e., printed circuit board copper area),

air flow and junction temperature. Junction-to-ambient ther-

mal resistance,

, was also calculated for the AD8016ARP,

AD8016ARE, and AD8016ARB packages. The AD8016 was

operated in a noninverting differential driver configuration, typical

of an xDSL application yet isolated from any other modem

components. Testing was conducted using a 1 ounce copper

board in an ambient temperature of ~24

C over air flows of

200, 150, 100, and 50 (0.200 and 400 for AD8016ARE) linear

feet per minute (LFM) and for ARP and ARB packages as well

as in still air. The four-layer PCB was designed to maximize the

area of copper on the outer two layers of the board while the

inner layers were used to configure the AD8016 in a differential

driver circuit. The PCB measured 3

4 inches in the beginning

of the study and was progressively reduced in size to approxi-

mately 2

2 inches. The testing was performed in a wind tunnel to

control air flow in units of LFM. The tunnel is approximately

11 inches in diameter.

AIR FLOW TEST CONDITIONS

DUT Power:

Typical DSL DMT signal produces about 1.5 W

of power dissipation in the AD8016 package. The fully biased

(PWDN0 and PWDN1 = Logic 1) quiescent current of the

AD8016 is ~25 mA. A 1 MHz differential sine wave at an ampli-

tude of 8 V p-p/amplifier into an R

LOAD

of 100

differential

(50

per side) will produce the 1.5 W of power typical in the

AD8016 device. (See the Power Dissipation section for details.)

Thermal Resistance:

The junction-to-case thermal resistance

(

) of the AD8016ARB or batwing package is 8.6

C/W,

AD8016ARE is 5.6

C/W, and the AD8016ARP or PSOP3

package is 0.86

C/W. These package specifications were used in

this study to determine junction temperature based on the mea-

sured case temperature.

PCB Dimensions of a Differential Driver Circuit:

Several

components are required to support the AD8016 in a differential

driver circuit. The PCB area necessary for these components (i.e.,

feedback and gain resistors, ac coupling and decoupling capaci-

tors, termination and load resistors) dictated the area of the

smallest PCB in this study, 4.7 square inches. Further reduction

in PCB area, although possible, will have consequences in terms

of the maximum operating junction temperature.

相關(guān)PDF資料	PDF描述
AD8016ARE-REEL	Low Power, High Output Current xDSL Line Driver
AD8016ARP-EVAL	Low Power, High Output Current xDSL Line Driver
AD8016ARP-REEL	Low Power, High Output Current xDSL Line Driver
AD8016	Low Power, High Output Current xDSL Line Driver
AD8016ARB	Low Power, High Output Current xDSL Line Driver

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