AD743BQ Analog Devices, AD743BQ Datasheet - Page 9

AD743BQ

Manufacturer Part Number

AD743BQ

Description

Ultralow Noise BiFET Op Amp

Manufacturer

Analog Devices

Datasheet

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HOW CHIP PACKAGE TYPE AND POWER DISSIPATION

AFFECT INPUT BIAS CURRENT

As with all JFET input amplifiers, the input bias current of the

AD743 is a direct function of device junction temperature, I

approximately doubling every 10°C. Figure 30 shows the

relationship between bias current and junction temperature for

the AD743. This graph shows that lowering the junction

temperature will dramatically improve I

The dc thermal properties of an IC can be closely approximated

by using the simple model of Figure 31 where current represents

power dissipation, voltage represents temperature, and resistors

represent thermal resistance ( in °C/Watt).

From this model T

determined in a particular application by using Figure 30

together with the published data for

The user can modify

sink such as the Aavid #5801.

the AD743 in chip form. Figure 32 shows bias current vs.

supply voltage with

used to predict bias current after

bias current will double for every 10°C. The designer using the

AD743 in chip form (Figure 33) must also be concerned with

both

mount technology used.

Typically,

for normal packages, this small power dissipation level may be

ignored. But, with a large hybrid substrate,

proportionately more of the total

Figure 30. Input Bias Current vs. Junction Temperature

WHERE:

and

= DEVICE DISSIPATION

= AMBIENT TEMPERATURE

= JUNCTION TEMPERATURE

= THERMAL RESISTANCE – JUNCTION TO CASE

= THERMAL RESISTANCE – CASE TO AMBIENT

Figure 31. A Device Thermal Model

’s will be in the 3°C to 5°C/watt range; therefore,

–10

–12

–11

–6

–7

–8

–9

–60 –40

, since

= T

–20

JUNCTION TEMPERATURE – °C

as the third variable. This graph can be

by use of an appropriate clip-on heat

can be affected by the type of die

Pin. Therefore, I

V = ±15V

T = 25°C

is also a variable when using

has been computed. Again

and power dissipation.

80 100 120 140

will dominate

can be

REDUCED POWER SUPPLY OPERATION FOR

LOWER I

Reduced power supply operation lowers I

lowering both the total power dissipation and second, by

reducing the basic gate-to-junction leakage (Figure 32). Figure

34 shows a 40 dB gain piezoelectric transducer amplifier, which

operates without an ac coupling capacitor, over the –40°C to

+85°C temperature range. If the optional coupling capacitor is

used, this circuit will operate over the entire –55°C to +125°C

military temperature range.

Figure 32. Input Bias Current vs. Supply Voltage for

Various Values of

Figure 33. A Breakdown of Various Package Thermal

Resistances

100

Figure 34. A Piezoelectric Transducer

300

200

T = +25°C

= 115°C/W

SUPPLY VOLTAGE – ±Volts

= 165°C/W

in two ways: first, by

= 0°C/W

AD743

AD743BQ Analog Devices, AD743BQ Datasheet - Page 9

AD743BQ

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