Datasheet

ManualsBrandsSTMICROELECTRONICS ManualsLinear ICsLinear IC - Op-amp Multi-purpose SC 70 5

Table Of Contents

Electrical characteristics TSV521, TSV522, TSV524, TSV521A, TSV522A, TSV524A

8/27 Doc ID 022743 Rev 1

SVR

Supply voltage rejection

ratio 20 log (ΔV

/ΔV

)

= 2.7 V to 5.5 V,

out

T = 25 °C 65 87

-40 °C < T < 125 °C 60

Large signal voltage gain

out

= 0.5 V to (V

- 0.5 V),

=1MΩ

T = 25 °C 94 109

-40 °C < T < 125 °C 68

High level output voltage

T = 25 °C

-40 °C < T < 125 °C

535

Low level output voltage

T = 25 °C

-40 °C < T < 125 °C

935

out

sink

out

= V

, T = 25 °C 36 55

out

= V

, -40 °C < T < 125 °C 27

source

out

= 0 V, T = 25 °C 36 55

out

= 0 V, -40 °C < T < 125 °C 27

Supply current (per channel)

out

/2, R

>1MΩ

T = 25 °C 45 60

µA

-40 °C < T < 125 °C 45 60

AC performance

GBP Gain bandwidth product R

=10kΩ, C

= 100 pF 0.73 1.15 MHz

Unity gain frequency R

=10kΩ, C

= 100 pF 900 kHz

Phase margin R

=10kΩ, C

= 100 pF 55 degrees

Gain margin R

=10kΩ, C

= 100 pF 7 dB

SR Slew rate

=10kΩ, C

= 100 pF,

out

= 0.5 V to V

-0.5V

0.89 V/μs

∫ e

Low-frequency peak-to-

peak input noise

Bandwidth: f = 0.1 to 10 Hz 14 µV

Equivalent input noise

voltage

f = 1 kHz

f = 10 kHz

THD+N

Total harmonic distortion +

noise

Follower configuration, f

= 1 kHz,

= 100 kΩ, V

icm

= V

/2,

BW = 22 kHz, V

out

= 1 V

0.002 %

1. See Section 4.6: Input offset voltage drift over temperature on page 15.

2. Typical value is based on the V

drift observed after 1000 h at 125 °C extrapolated to 25 °C using the Arrhenius law and

assuming an activation energy of 0.7 eV. The operational amplifier is aged in follower mode configuration.

3. Guaranteed by design.

Table 6. Electrical characteristics at V

CC+

= +5 V with V

CC-

= 0 V, V

icm

= V

/2, T = 25 °C,

and R

=10kΩ connected to V

/2 (unless otherwise specified)

Symbol Parameter Conditions Min. Typ. Max. Unit

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