OPA2674 Datasheet, PDF(19/33 Page) Burr-Brown (TI) – Dual Wideband, High Output Current Operational Amplifier with Current Limit

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OPA2674 Datasheet, PDF (19/33 Pages) Burr-Brown (TI) – Dual Wideband, High Output Current Operational Amplifier with Current Limit

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+VCC

Figure 8. Line Driver Headroom Model

Table 1 gives V1, V2, R1, and R2 for both +12V and +5V

operation of the OPA2674.

Table 1. Line Driver Headroom Model Values

+5V

0.9V

5â¦

0.8V

5â¦

+12V

0.9V

2â¦

0.9V

2â¦

TOTAL DRIVER POWER FOR xDSL

APPLICATIONS

The total internal power dissipation for the OPA2674 in an

xDSL line driver application will be the sum of the

quiescent power and the output stage power. The

OPA2674 holds a relatively constant quiescent current

versus supply voltageâgiving a power contribution that is

simply the quiescent current times the supply voltage used

(the supply voltage will be greater than the solution given

in Equation 10). The total output stage power may be

computed with reference to Figure 9.

+VCC

IAVG

Figure 9. Output Stage Power Model

OPA2674

SBOS270A â AUGUST 2003 â REVISED MAY 2006

The two output stages used to drive the load of Figure 7

can be seen as an H-Bridge in Figure 9. The average

current drawn from the supply into this H-Bridge and load

will be the peak current in the load given by Equation 8

divided by the crest factor (CF) for the xDSL modulation.

This total power from the supply is then reduced by the

power in RT to leave the power dissipated internal to the

drivers in the four output stage transistors. That power is

simply the target line power used in Equation 2 plus the

power lost in the matching elements (RM). In the examples

here, a perfect match is targeted giving the same power in

the matching elements as in the load. The output stage

power is then set by Equation 11.

P OUT

VCC * 2PL

(11)

The total amplifier power is then:

PTOT + Iq

VCC

)

VCC * 2PL

(12)

For the ADSL CPE upstream driver design of Figure 5, the

peak current is 128mA for a signal that requires a crest

factor of 5.33 with a target line power of 13dBm into 100â¦

(20mW). With a typical quiescent current of 18mA and a

nominal supply voltage of +12V, the total internal power

dissipation for the solution of Figure 5 will be:

(13)

PTOT

18mA(12V)

)

128mA

5.33

(12V)

2(20mW)

464mW

DESIGN-IN TOOLS

DEMONSTRATION FIXTURES

Two printed circuit boards (PCBs) are available to assist

in the initial evaluation of circuit performance using the

OPA2674 in its two package options. Both of these are

offered free of charge as unpopulated PCBs, delivered

with a userâs guide. The summary information for these

fixtures is shown in Table 2.

Table 2. Demonstration Fixtures by Package

PRODUCT

OPA2674ID

OPA2674I-14D

PACKAGE

SO-8

SO-14

ORDERING

NUMBER

DEM-OPA-SO-2A

DEM-OPA-SO-2D

LITERATURE

NUMBER

SBOU003

SBOU002

The demonstration fixtures can be requested at the Texas

Instruments web site (www.ti.com) through the OPA2674

product folder.

MACROMODELS AND APPLICATIONS

SUPPORT

Computer simulation of circuit performance using SPICE

is often useful when analyzing the performance of analog

circuits and systems. This is particularly true for video and

RF amplifier circuits where parasitic capacitance and

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