ST TSV6191, TSV6191A, TSV6192, TSV6192A User Manual

TSV6191, TSV6191A, TSV6192, TSV6192A

Features

■ Rail-to-rail input and output

■ Low power consumption: 10 µA typ at 5 V

■ Low supply voltage: 1.5 to 5.5 V

■ Gain bandwidth product: 450 kHz typ

■ Stable when used in gain configuration

■ Low input offset voltage: 800 µV max (A

version)

■ Low input bias current: 1 pA typ

■ Temperature range: -40 to +85° C

Applications

■ Battery-powered applications

■ Smoke detectors

■ Proximity sensors

■ Portable devices

■ Signal conditioning

■ Active filtering

■ Medical instrumentation

Rail-to-rail input/output 10 μA, 450 kHz

CMOS operational amplifiers

TSV6191ILT - TSV6191ICT

V

In+

In+

1

1

+

+
_

V

V

CC-

CC-

In-

In-

_

2

2

3

3

SOT23-5/SC70-5

TSV6192IST - TSV6192ID/DT

Out1

Out1

1

1

_

In1-

In1-

In1+

In1+

V

V

CC-

CC-

_

2

2

+

+

3

3

4

4

MiniSO-8/SO-8

V

5

5

CC+

CC+

4

4

Out

Out

8

8

V

V

CC+

CC+

7

7

Out2

Out2

_

_

+

+

In2-

In2-

6

6

In2+

In2+

5

5

Description

The TSV619x family of single and dual
operational amplifiers offers low voltage, low
power operation and rail-to-rail input and output.

The devices also feature an ultra-low input bias
current as well as a low input offset voltage.

The TSV619x have a gain bandwidth product of
450 kHz while consuming only 10 µA at 5 V. They
must be used in a gain configuration (equal or
above +4 or -3).

These features make the TSV619x family ideal
for sensor interfaces, battery supplied and
portable applications, as well as active filtering.

October 2010 Doc ID 17974 Rev 1 1/17

www.st.com

17

Absolute maximum ratings and operating conditions TSV619x, TSV619xA

1 Absolute maximum ratings and operating conditions

Table 1. Absolute maximum ratings

Symbol Parameter Value Unit

(3)

(1)

(7)

(2)

(6)

(8)

(4)(5)

V

CC-

6V

±V

CC

-0.2 to V

+0.2 V

CC+

V

°C/W

4kV

200 V

1.5 kV

V

CC

V

V

T

stg

Supply voltage

Differential input voltage

id

Input voltage

in

Storage temperature -65 to +150 °C

Thermal resistance junction to ambient

SC70-5 205

R

thja

SOT23-5 250

MiniSO-8 190

SO-8 125

T

Maximum junction temperature 150 °C

j

HBM: human body model

ESD

MM: machine model

CDM: charged device model

Latch-up immunity 200 mA

1. All voltage values, except differential voltage are with respect to network ground terminal.

2. Differential voltages are the non-inverting input terminal with respect to the inverting input terminal.

3. Vcc-Vin must not exceed 6 V.

4. Short-circuits can cause excessive heating and destructive dissipation.

5. Rth are typical values.

6. Human body model: 100 pF discharged through a 1.5 kΩ resistor between two pins of the device, done for
all couples of pin combinations with other pins floating.

7. Machine model: a 200 pF cap is charged to the specified voltage, then discharged directly between two
pins of the device with no external series resistor (internal resistor < 5 Ω), done for all couples of pin
combinations with other pins floating.

8. Charged device model: all pins plus package are charged together to the specified voltage and then
discharged directly to ground.

Table 2. Operating conditions

Symbol Parameter Value Unit

V

V

T

CC

icm

oper

Supply voltage 1.5 to 5.5 V

Common mode input voltage range V

Operating free air temperature range -40 to +85 °C

2/17 Doc ID 17974 Rev 1

CC-

-0.1 to V

+0.1 V

CC+

TSV619x, TSV619xA Electrical characteristics

2 Electrical characteristics

Table 3. Electrical characteristics at V

Symbol Parameter Conditions Min. Typ. Max. Unit

DC performance

with V

= 0 V, V

CC-

icm

otherwise specified)

= VCC/2, T

= +1.8 V

CC+

= 25° C, and RL connected to VCC/2 (unless

amb

V

Offset voltage

io

DV

CMR

V

V

Input offset voltage drift 2 μV/°C

io

Input offset current

I

io

(V

out=Vcc

I

Input bias current (V

ib

Common mode rejection ratio
20 log (ΔVic/ΔVio)

A

Large signal voltage gain

vd

High level output voltage

OH

Low level output voltage

OL

Isink

I

out

Isource

I

Supply current (per operator)

CC

AC performance

/2)

out=Vcc

TSV619x
TSV619xA

T
T

min.

min.

< Top < T
< Top < T

TSV619x

max.

TSV619xA

max

110

T

< Top < T

min.

125pA

max.

110

/2)

T

< Top < T

min.

0V to 1.8V, V

< Top < T

T

min.

125pA

max.

= 0.9 V 55 71 dB

out

max.

53 dB

RL= 10 kΩ, Vout = 0.5 V to 1.3 V 78 83 dB

< Top < T

T

min.

=10kΩ

R

L

T

< Top < T

min.

=10kΩ

R

L

T

< Top < T

min.

V

= 1.8 V

o

< Top < T

T

min.

V

= 0 V

o

< Top < T

T

min.

No load, V

T

< Top < T

min.

max.

max.

max.

max.

max.

out=Vcc

max.

/2 6.5 9 12 µA

74 dB

35

4

50

735

9

13

9

8

10

8

6 12.5 µA

4

0.8

5
2

50

(1)

(1)

mV

pA

pA

mV

mV

mA

GBP Gain bandwidth product RL=10kΩ, CL= 20 pF 380 kHz

Gain Minimum gain for stability

SR Slew rate

e

Equivalent input noise voltage f = 1 kHz 110

n

THD+N

1. Guaranteed by design.

Total harmonic distortion +
noise

Phase margin = 60°, R

=10kΩ, CL=20pF, Top= 25° C

R

L

=10kΩ, CL=20pF,

R

L

V

= 0.5V to 1.3V

out

= 1 kHz, Av = 5, V

F

in

RL = 100 kΩ, BW = 22 kHz

= 10kΩ,

f

= 1 V

out

pp,

5

0.06 V/μs

0.1 %

Doc ID 17974 Rev 1 3/17

nV

-----------­Hz

Electrical characteristics TSV619x, TSV619xA

Table 4. V

= +3.3 V, V

CC+

R

connected to VCC/2 (unless otherwise specified)

L

= 0 V, V

CC-

= VCC/2, T

icm

= 25° C,

amb

Symbol Parameter Min. Typ. Max. Unit

DC performance

V

io

DV

I

io

I

ib

CMR

A

vd

V

OH

V

OL

I

out

I

CC

TSV619x
TSV619xA

Offset voltage

T

min<Top<Tmax

T

min<Top<Tmax

Input offset voltage drift 2 μV/°C

io

TSV619x
TSV619xA

Input offset current

T

min.

< Top < T

125pA

max.

Input bias current

Common mode rejection ratio
20 log (ΔV

/ΔVio)

ic

Large signal voltage gain

High level output voltage

Low level output voltage

Isink

Isource

Supply current (per operator)

< Top < T

T

min.

0V to 3.3V, V

< Top < T

T

min.

R

=10kΩ, Vout = 0.5 V to 2.8 V 85 92 dB

L

T

< Top < T

min.

R

=10kΩ

L

T

< Top < T

min.

R

=10kΩ

L

T

< Top < T

min.

Vo = V

CC

T

< Top < T

min.

= 0 V

V

o

< Top < T

T

min.

No load, V

T

min.

out

< Top < T

125pA

max.

= 1.75 V 61 76 dB

out

58 dB

max.

max.

83 dB

35

max.

50

10 35

max.

373544

max.

323038

max.

=VCC/2 6.5 9.5 12.5 µA

max.

613µA

4

0.8

5
2

110

110

(1)

(1)

5

50

mV

mV

mV

mA

AC performance

pA

pA

GBP Gain bandwidth product R

Gain Minimum gain for stability

SR Slew rate

Equivalent input noise voltage f = 1 kHz 110

e

n

1. Guaranteed by design.

=10kΩ, CL= 20 pF 400 kHz

L

Phase margin = 60°, R
RL=10kΩ, CL=20pF, Top= 25° C

R

=10kΩ, CL= 20 pF,

L

V

= 0.5V to 2.8V

out

4/17 Doc ID 17974 Rev 1

= 10kΩ,

f

5V/V

0.07 V/μs

nV

-----------­Hz

TSV619x, TSV619xA Electrical characteristics

Table 5. V

CC+

= +5 V, V

= 0 V, V

CC-

= VCC/2, T

icm

= 25° C, RL connected to VCC/2

amb

(unless otherwise specified)

Symbol Parameter Min. Typ. Max. Unit

DC performance

V

Offset voltage

io

DV

CMR

SVR

V

V

Input offset voltage drift 2 μV/°C

io

I

Input offset current

io

I

Input bias current

ib

Common mode rejection ratio
20 log (ΔV

Supply voltage rejection ratio 20
log (ΔV

A

Large signal voltage gain

vd

High level output voltage

OH

Low level output voltage

OL

Isink

I

out

Isource

I

Supply current (per operator)

CC

AC performance

/ΔVio)

cc

/ΔVio)

ic

TSV619x
TSV619xA

T

min<Top<Tmax

T

min<Top<Tmax

< Top < T

T

min.

< Top < T

T

min.

0 V to 5 V, V

< Top < T

T

min.

TSV619x

TSV619xA

125pA

max.

125pA

max.

= 2.5 V 64 80 dB

out

63 dB

max.

Vcc = 1.8 to 5 V 76 93 dB

T

< Top < T

min.

R

=10kΩ, Vout = 0.5 V to 4.5 V 88 93 dB

L

T

min<Top<Tmax

=10kΩ

R

L

< Top < T

T

min.

=10kΩ

R

L

< Top < T

T

min.

Vo = V

CC

T

< Top < T

min.

= 0 V

V

o

T

< Top < T

min.

No load, V

T

min.

out=VCC

< Top < T

74 dB

max.

85 dB

35

max.

50

16 35

max.

524257

max.

584963

max.

/2 7.5 10.5 14 µA

max.

715µA

4

0.8

5
2

110

110

(1)

(1)

7

50

mV

mV

mV

mA

pA

pA

GBP Gain bandwidth product RL=10kΩ, CL= 20 pF 450 kHz

Gain Minimum gain for stability

SR Slew rate

Equivalent input noise voltage f = 1 kHz 105

e

n

THD+N

1. Guaranteed by design.

Total harmonic distortion +
noise

Phase margin = 60°, R
RL=10kΩ, CL=20pF, Top=25°C

=10kΩ, CL= 20 pF,

R

L

= 0.5V to 4.5V

V

out

F

= 1 kHz, Av = 5, V

in

RL = 100 kΩ, BW = 22kHz

= 10kΩ,

f

= 1 V

out

pp,

5V/V

0.08 V/μs

0.1 %

Doc ID 17974 Rev 1 5/17

nV

-----------­Hz

Electrical characteristics TSV619x, TSV619xA

Gain (dB)

Phase margin(°)

Figure 1. Supply current vs. supply voltage

at V

icm

= VCC/2

Figure 3. Output current vs. output voltage at

V

=5V

CC

Figure 2. Output current vs. output voltage at

VCC=1.5V

Figure 4. Voltage gain and phase vs.

frequency at VCC = 1.5 V

Figure 5. Voltage gain and phase vs.

Gain (dB)

frequency at V

CC

=5V

Figure 6. Positive slew rate vs. time at

V

= 1.5 V,

CC

Phase margin(°)

Ω

6/17 Doc ID 17974 Rev 1