OP293FSZ Analog Devices Inc, OP293FSZ Datasheet - Page 15

OP293FSZ

Manufacturer Part Number

OP293FSZ

Description

IC OPAMP GP 35KHZ DUAL 8SOIC

Manufacturer

Analog Devices Inc

Type

General Purpose Amplifierr

Datasheets

1.OP193FSZ.pdf (16 pages)

2.OP293FSZ.pdf (20 pages)

Specifications of OP293FSZ

Slew Rate

0.015 V/µs

Design Resources

4 mA-to-20 mA Loop-Powered Temperature Monitor Using ADuC7060/1 (CN0145)

Amplifier Type

General Purpose

Number Of Circuits

Output Type

Rail-to-Rail

Gain Bandwidth Product

35kHz

Current - Input Bias

20nA

Voltage - Input Offset

250µV

Current - Supply

30µA

Current - Output / Channel

25mA

Voltage - Supply, Single/dual (±)

1.7 V ~ 36 V, ±0.85 V ~ 18 V

Operating Temperature

-40°C ~ 125°C

Mounting Type

Surface Mount

Package / Case

8-SOIC (3.9mm Width)

Op Amp Type

Precision

No. Of Amplifiers

Bandwidth

35kHz

Supply Voltage Range

2V To Â± 18V

Amplifier Case Style

SOIC

No. Of Pins

Rail/rail I/o Type

Number Of Elements

Unity Gain Bandwidth Product

0.035MHz

Common Mode Rejection Ratio

96dB

Input Offset Voltage

250uV

Input Bias Current

20nA

Single Supply Voltage (typ)

3/5/9/12/15/18/24/28V

Voltage Gain In Db

106.02dB

Power Supply Rejection Ratio

97dB

Power Supply Requirement

Single/Dual

Shut Down Feature

Single Supply Voltage (min)

Single Supply Voltage (max)

36V

Dual Supply Voltage (min)

±1V

Dual Supply Voltage (max)

±18V

Operating Temp Range

-40C to 125C

Operating Temperature Classification

Automotive

Mounting

Surface Mount

Pin Count

Package Type

SOIC N

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

-3db Bandwidth

Lead Free Status / Rohs Status

Compliant

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Current page: 15 of 20
Download datasheet (374Kb)

A MICROPOWER FALSE-GROUND GENERATOR

Some single-supply circuits work best when inputs are biased

above ground, typically at ½ of the supply voltage. In these

cases, a false ground can be created by using a voltage divider

buffered by an amplifier. One such circuit is shown in Figure 30.

This circuit generates a false-ground reference at ½ of the supply

voltage, while drawing only about 27 μA from a 5 V supply.

The circuit includes compensation to allow for a 1 μF bypass

capacitor at the false-ground output. The benefit of a large

capacitor is that not only does the false ground present a very

low dc resistance to the load, but its ac impedance is low as well.

The OP193 can both sink and source more than 5 mA, which

improves recovery time from transients in the load current.

A BATTERY-POWERED VOLTAGE REFERENCE

The circuit of Figure 31 is a battery-powered voltage reference

that draws only 17 μA of supply current. At this level, two AA

alkaline cells can power this reference for more than 18 months.

At an output voltage of 1.23 V at 25°C, drift of the reference is

only 5.5 μV/°C over the industrial temperature range. Load

regulation is 85 μV/mA with line regulation at 120 μV/V.

Design of the reference is based on the Brokaw band gap core

technique. Scaling of Resistor R1 and Resistor R2 produces

unequal currents in Q1 and Q2. The resulting ΔV

creates a temperature-proportional voltage (PTAT), which, in

turn, produces a larger temperature-proportional voltage across

R4 and R5, V1. The temperature coefficient of V1 cancels (first

order) the complementary to absolute temperature (CTAT)

coefficient of V

voltage temperature coefficient is at a minimum. Band gap

references can have start-up problems. With no current in R1

and R2, the OP193 is beyond its positive input range limit and

has an undefined output state. Shorting Pin 5 (an offset adjust

pin) to ground forces the output high under these circumstances

and ensures reliable startup without significantly degrading the

OP193’s offset drift.

240kΩ

Figure 30. A Micropower False-Ground Generator

BE1

1µF

. When adjusted to 1.23 V at 25°C, output

OP193

0.022µF

5V OR 12V

10kΩ

100Ω

1µF

2.5V OR 6V

across R3

Rev. C | Page 15 of 20

A SINGLE-SUPPLY CURRENT MONITOR

Current monitoring essentially consists of amplifying the voltage

drop across a resistor placed in series with the current to be

measured. The difficulty is that only small voltage drops can be

tolerated, and with low precision op amps, this greatly limits the

overall resolution. The single-supply current monitor of Figure 32

has a resolution of 10 μA and is capable of monitoring 30 mA

of current. This range can be adjusted by changing the current

sense resistor, R1. When measuring total system current, it may

be necessary to include the supply current of the current monitor,

which bypasses the current sense resistor, in the final result.

This current can be measured and calibrated (together with the

residual offset) by adjustment of the offset trim potentiometer,

R2. This produces a deliberate temperature dependent offset.

However, the supply current of the OP193 is also proportional

to temperature, and the two effects tend to track. Voltage devel-

oped at the noninverting input and amplified by (1 + R4/R5)

appears at V

UNDER TEST

TO CIRCUIT

–

1000pF

R5, 20kΩ

OUTPUT

ADJUST

130kΩ

240kΩ

–

Figure 31. A Battery-Powered Voltage Reference

OUT

–

BE2

Figure 32. Single-Supply Current Monitor

MAT01AH

1Ω

TEST

ΔV

68kΩ

100Ω

1.5MΩ

–

100kΩ

BE1

100kΩ

OP193

V+

OP193/OP293

9.9kΩ

100mV/mA(I

OUT

V+

(2.5V TO 36V)

(1.23V @ 25°C)

OUT

TEST

)

OP293FSZ Analog Devices Inc, OP293FSZ Datasheet - Page 15

OP293FSZ

Specifications of OP293FSZ

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