TS1002 TOUCHSTONE [Touchstone Semiconductor Inc], TS1002 Datasheet - Page 9

TS1002

Manufacturer Part Number

TS1002

Description

THE ONLY 0.8V/0.6uA RAIL-TO-RAIL DUAL/QUAD OP AMPS

Manufacturer

TOUCHSTONE [Touchstone Semiconductor Inc]

Datasheet

1.TS1002.pdf (13 pages)

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The circuit utilizes the classic two op amp

instrumentation amplifier topology with four resistors

to set the gain. The equation is simply that of a

noninverting amplifier as shown in the figure. The

two resistors labeled R1 should be closely matched

to each other as well as both resistors labeled R2 to

ensure

performance.

Resistor networks ensure the closest matching as

well as matched drifts for good temperature stability.

Capacitor C1 is included to limit the bandwidth and,

therefore, the noise in sensitive applications. The

value of this capacitor should be adjusted depending

on the desired closed-loop bandwidth of the

instrumentation amplifier. The RC combination

creates a pole at a frequency equal to 1/(2 π ×

R1C1). If the AC-CMRR is critical, then a matched

capacitor to C1 should be included across the

second resistor labeled R1.

Because these amplifiers accept rail-to-rail inputs,

their input common mode range includes both

ground and the positive supply of 1.5V. Furthermore,

their rail-to-rail output range ensures the widest

signal range possible and maximizes the dynamic

range of the system. Also, with their low supply

current of 0.6μA per amplifier, this circuit consumes

a quiescent current of only ~1.3μA, yet it still exhibits

a 1-kHz bandwidth at a circuit gain of 2.

Driving Capacitive Loads

While the amplifiers’ internal gain-bandwidth product

is 4kHz, both are capable of driving capacitive loads

up to 50pF in voltage follower configurations without

any additional components. In many applications,

however, an operational amplifier is required to drive

much larger capacitive loads. The amplifier’s output

impedance and a large capacitive load create

additional phase lag that further reduces the

amplifier’s phase margin. If enough phase delay is

introduced, the amplifier’s phase margin is reduced.

The effect is quite evident when the transient

TS1002_4DS r1p0

Figure 4: A Two Op Amp Instrumentation Amplifier.

acceptable

common-mode

rejection

response is observed as there will appear noticeable

peaking/ringing in the output transient response.

If any amplifier is used in an application that requires

driving larger capacitive loads, an isolation resistor

between the output and the capacitive load should

be used as illustrated in Figure 5.

Table 1 illustrates a range of R

function of the external C

amplifiers. The power supply voltage applied on the

these amplifiers at which these resistor values were

determined empirically was 1.8V. The oscilloscope

capture shown in Figure 6 illustrates a typical

transient response obtained with a C

and an R

a smaller R

response.

Figure 5: Using an External Resistor to Isolate a C

External Capacitive

Load, C

0-50pF

ISO

100pF

500pF

10nF

the Amplifer’s Output.

1nF

5nF

= 50kΩ. Note that as C

TS1002/TS1004

ISO

LOAD

is needed for optimal transient

LOAD

Isolation Resistor, R

External Output

on the output of these

Not Required

120kΩ

ISO

50kΩ

33kΩ

18kΩ

13kΩ

LOAD

values as a

is increased

LOAD

= 500pF

Page 9

from

RTFDS

ISO

TS1002 TOUCHSTONE [Touchstone Semiconductor Inc], TS1002 Datasheet - Page 9

TS1002

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