TS94x, TS94xA, TS94xB


Output rail-to-rail micropower operational amplifiers


Features


Description

Inverting Input 1 2


Non-inverting Input 1 3

The TS94x (single, dual and quad) series are operational amplifiers characterized for 2.5 V to 10 V operation over a -40° C to +85° C temperature range.

They exhibit excellent consumption -1.2 µA, while featuring 10 kHz gain bandwidth product, 1.5 mA output capability and output rail-to-rail operation


TS941ILT



Output 1

5 vcc


vDD 2


Non-inverting input 3

4 Inverting input


TS941ID-TS941IDT


N.c. 1 8 N.c.


Inverting Input 1 2

-

7 vcc


Non-inverting Input 1 3

+

6 Output 2


v DD 4

5 N.c.


TS942ID-TS942IDT-TS942IPT


Output 1 1

8 Vcc


Inverting Input 1 2

-

7 Output 2


Non-inverting Input 1

3

+

-

6 Inverting Input 2


5 Non-inverting Input 2


TS944ID-TS944IDT-TS944IPT



Output 1 1

14 Output 4


13 Inverting Input 4


12 Non-inverting Input 4


vcc 4


10 Non-inverting Input 3


9 Inverting Input 3


Output 2 7


8 Output 3

+

-

+

-

Non-inverting Input 2 5


Inverting Input 2 6

11 vDD

-

+

-

+

+

VDD 4

Reference

Selection on offset voltage

TS94x

TS941, TS942, TS944

TS94xA

TS941A, TS942A, TS944A

TS94xB

TS941B, TS942B, TS944B

Table 1. Device summary


October 2009 Doc ID 6972 Rev 6 1/18

www.st.com


  1. Absolute maximum ratings and operating conditions


    Table 2. Absolute maximum ratings

    Symbol

    Parameter

    Value

    Unit

    VCC

    Supply voltage (1)

    12

    V

    Vid

    Differential input voltage (2)

    ± VCC

    V

    Vin

    Input voltage range (3)

    VDD-0.3 to VCC+0.3

    V

    Tstg

    Storage temperature range

    -65 to +150

    °C

    Tj

    Maximum junction temperature

    150

    °C


    Rthja

    Thermal resistance junction to ambient (4)

    SOT23-5 SO-8 SO-14 TSSOP8

    TSSOP14


    250

    125

    103

    120

    100


    °C/W


    Rthjc

    Thermal resistance junction to case (4)

    SOT23-5 SO-8 SO-14 TSSOP8

    TSSOP14


    81

    40

    31

    37

    32


    °C/W


    ESD

    HBM: human body model (5)

    2

    kV

    MM: machine model (6) (TS941, TS942)

    200

    V

    CDM: charged device model (7)

    TS941 - TS944IDT TS942 - TS944IPT


    1.5

    1


    kV


    Latch-up immunity

    200

    mA

    Lead temperature (soldering, 10sec)

    250

    °C

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

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

    3. The magnitude of input and output voltages must never exceed VCC +0.3 V.

    4. Short-circuits can cause excessive heating and destructive dissipation. Rth are typical values.

    5. Human body model: a 100 pF capacitor is charged to the specified voltage, then discharged through a

      1.5 kΩ resistor between two pins of the device. This is done for all couples of connected pin combinations while the other pins are floating.

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

    7. Charged device model: all pins and the package are charged together to the specified voltage and then discharged directly to the ground through only one pin. This is done for all pins.


      Table 3. Operating conditions

      Symbol

      Parameter

      Value

      Unit

      VCC

      Supply voltage

      2.5 to 10

      V

      Vicm

      Common mode input voltage range

      VDD -0.2 to VCC -1.3

      V

      Toper

      Operating free air temperature range

      -40 to + 85

      °C


      Doc ID 6972 Rev 6 3/18


  2. Electrical characteristics


    Table 4. VCC = +2.5 V, VDD = 0 V, RL connected to VCC/2, Tamb = 25° C (unless otherwise specified)

    Symbol

    Parameter

    Min.

    Typ.

    Max.

    Unit


    Input offset voltage





    Vio

    TS941/2/4 TS941/2/4A

    10

    5

    mV


    TS941/2/4B

    2


    ΔVio

    Input offset voltage drift


    7


    µV/°C

    Iio

    Input offset current (1)


    1

    100

    pA

    Iib

    Input bias current (1)


    1

    150

    pA

    CMR

    Common mode rejection ratio

    60

    85


    dB

    SVR

    Supply voltage rejection ratio

    50

    78


    dB

    Avd

    Large signal voltage gain VO = 2 Vpp, RL = 1 MΩ


    100


    dB


    VOH

    High level output voltage

    VID = 100 mV, RL = 1 MΩ RL = 10 kΩ


    2.45

    2.3


    2.49

    2.4



    V


    VOL

    Low level output voltage

    VID = -100 mV, RL = 1 MΩ RL = 10 kΩ



    1

    100


    5

    200


    mV


    Io

    Output source current

    VID = 100 mV, VO = VDD

    Output sink current

    VID = -100 mV, VO = VCC


    350


    650



    µA


    280

    500


    ICC

    Supply current (per amplifier), AVCL = 1, no load


    1.2

    1.8

    µA

    GBP

    Gain bandwidth product, RL = 1 MΩ, CL = 50 pF


    10


    kHz

    SR

    Slew rate, RL = 1 MΩ, CL = 50 pF

    3

    4.5


    V/ms

    m

    Phase margin, CL = 50 pF


    65


    Degrees

    1. Maximum values include unavoidable inaccuracies of the industrial tests.


      4/18 Doc ID 6972 Rev 6


      Table 5. VCC = +3 V, VDD = 0 V, RL connected to VCC/2,Tamb = 25° C (unless otherwise specified) (1)

      Symbol

      Parameter

      Min.

      Typ.

      Max.

      Unit


      Input offset voltage





      Vio

      TS941/2/4 TS941/2/4A

      10

      5

      mV


      TS941/2/4B

      2


      ΔVio

      Input offset voltage drift


      7


      µV/°C

      Iio

      Input offset current (2)


      1

      100

      pA

      Iib

      Input bias current (2)


      1

      150

      pA

      CMR

      Common mode rejection ratio

      60

      85


      dB

      SVR

      Supply voltage rejection ratio

      50

      85


      dB

      Avd

      Large signal voltage gain VO = 2 Vpp,RL = 1 MΩ


      100


      dB


      VOH

      High level output voltage

      VID = 100 mV, RL = 1 MΩ RL = 10 kΩ


      2.9

      2.8


      2.99

      2.85



      V


      VOL

      Low level output voltage

      VID = -100 mV, RL = 1 MΩ RL = 10 kΩ



      1

      100


      5

      200


      mV


      Io

      Output source current

      VID = 100 mV, VO = VDD

      Output sink current

      VID = -100 mV, VO = VCC


      680


      1500



      µA


      650

      1300


      ICC

      Supply current (per amplifier), AVCL = 1, no load


      1.2

      1.8

      µA

      GBP

      Gain bandwidth product, RL = 1 MΩ, CL = 50 pF


      10


      kHz

      SR

      Slew rate, RL = 1 MΩ, CL = 50 pF

      3

      4.5


      V/ms

      m

      Phase margin, CL = 50 pF


      65


      Degrees

      1. All electrical values are guaranteed with correlation measurements at 2.5 V and 5 V.

      2. Maximum values include unavoidable inaccuracies of the industrial tests.


      Doc ID 6972 Rev 6 5/18


      Table 6. VCC = +5 V, VDD = 0 V, RL connected to VCC/2, Tamb = 25° C (unless otherwise specified)

      Symbol

      Parameter

      Min.

      Typ.

      Max.

      Unit


      Input offset voltage





      Vio

      TS941/2/4 TS941/2/4A

      10

      5

      mV


      TS941/2/4B

      2


      ΔVio

      Input offset voltage drift


      7


      µV/°C

      Iio

      Input offset current (1)


      1

      100

      pA

      Iib

      Input bias current (1)


      1

      150

      pA

      CMR

      Common mode rejection ratio

      60

      85


      dB

      SVR

      Supply voltage rejection ratio

      50

      85


      dB

      Avd

      Large signal voltage gain VO = 2 Vpp, RL = 1 MΩ


      100


      dB


      VOH

      High level output voltage

      VID = 100 mV, RL = 1 MΩ RL = 10 kΩ


      4.9

      4.8


      4.99

      4.85



      V


      VOL

      Low level output voltage

      VID = -100 mV, RL = 1 MΩ RL = 10 kΩ



      1

      100


      5

      150


      mV


      Io

      Output source current

      VID = 100 mV, VO = VDD

      Output sink current

      VID = -100 mV, VO = VCC


      3


      4.5



      mA


      3.7

      5


      ICC

      Supply current (per amplifier), AVCL = 1, no load


      1.2

      1.85

      µA

      GBP

      Gain bandwidth product, RL = 1 MΩ, CL = 50 pF


      10


      kHz

      SR

      Slew rate, RL = 1 MΩ, CL = 50 pF

      3

      4.5


      V/ms

      m

      Phase margin, CL = 50 pF


      65


      Degrees

      1. Maximum values include unavoidable inaccuracies of the industrial tests.



      6/18 Doc ID 6972 Rev 6


      Supply Current (µA)

      Supply Current (µA)

      Figure 1. Supply current per amplifier vs. supply voltage in overdrive

      Figure 2. Supply current per amplifier vs. supply voltage


      1.5





      2.0







      Tamb = 25°C





      Tamb = 25°C








      1.5





      1.0


      Vid = - 100mV










      Vid = + 100mV



      1.0





      0.5






      0.5






      0.0


      0


      2 4 6

      Supply Voltage (V)


      8


      10


      0.0


      0


      2 4 6

      Supply Voltage (V)


      8


      10


      Output Short-circuit Current (mA)

      Supply Current (µA)

      Figure 3. Output short-circuit current vs. temperature

      Figure 4. Supply current per amplifier vs. temperature



      6


      4


      2


      0


      -2


      -4


      -6


      -40


      -20


      0


      Isink, Vcc=5V


      Isink, Vcc=3V Isource,Vcc=3V

      Isource, Vcc=5V


      20 40 60 80

      Temperature (°C)

      1.30





      1.25





      Vcc from 2.5V to 10V



      1.20





      1.15





      1.10




      -40

      -20 0 20 40

      60

      80


      Temperature (°C)




      Output Short-Circuit Current (mA)

      Output Short-Circuit Current (mA)

      Figure 5. Output short-circuit current vs. supply voltage

      Figure 6. Output short-circuit current vs. output voltage


      30



      Supply Voltage


      Sink


      Source


      6

      Supply Voltage (V)



      8.0










      Sink


      T = -40°C




      Tamb = 25°C



      6.0




      T = +25°C


      20





      4.0







      10









      T = +85°C


      2.0



      Vcc = 5V



      0





      0.0






      -10





      -2.0








      T = +85°C





      -20





      -4.0






      -6.0


      T = +25°C




      -30


      2


      4


      8


      10


      -8.0


      T = -40°C

      Source




      0

      1

      2


      3


      4

      5









      Output Voltage (V)




      Doc ID 6972 Rev 6 7/18


      RL=100k ohm

      RL tied to Vdd Single Supply Vid = +100mV

      100

      RL=10k ohm

      Vcc = 22..56V

      0.0

      TT==++2255°C°C T = +85°C

      0.5

      Output Short-Circuit Current (mA)

      Voltage Referenced to Vcc (mV) Voltage referenced to Vdd (mV)

      Figure 7. Output short-circuit current vs. output voltage

      Figure 8. High level output voltage vs. supply voltage


      1.0

      T = -40°C

      Sink

      1,000

      High Level Output Voltage vs Supply Voltage



      -2.0

      1


      10

      8

      6

      Supply Voltage (V)

      4

      2

      RL=1M ohm

      10

      3

      2

      Output Voltage (V)

      1

      0

      T = -40°C

      -1.5

      Source

      -0.5

      T = +85°C

      -1.0 T = +25°C

      Output Short-Circuit Current (mA)

      Voltage referenced to Vcc (mV)

      Figure 9. Output short-circuit current vs. output voltage

      Figure 10. Low level output voltage vs. supply voltage


      2.0


      T = -40°C



      Sink


      Vcc = 3V


      Source


      2

      Output Voltage (V)



      1,000


      Low Level Output Voltage vs Supply Voltage


      RL=10k ohm


      RL tied to Vcc Single Supply

      Vid = -100mV RL=100 ohm


      RL=1M ohm


      4 6 8

      Supply Voltage (V)




      T = +25°C






      1.0









      0.0


      T = +85°C




      100




      -1.0



      T = +85°C










      10



      -2.0


      T = +25°C








      T = -40°C






      -3.0


      0



      1


      3

      1


      2


      10


      gain

      80

      20

      phase

      100

      30

      120

      40

      50 140

      160

      RL = 1M ohm CL = 50 pF

      Vcc = 3V & 5V

      60

      0.0


      -10.0 T = +85°C

      Vcc = 10V

      10.0

      T = +25°C


      T = +85°C

      20.0

      Sink

      Output Short-Circuit Current (mA)

      Gain (dB)

      Phase (°)

      Figure 11. Output short-circuit current vs. output voltage

      Figure 12. Gain and phase vs. frequency


      30.0

      T = -40°C

      70

      180


      Frequency (Hz)

      40

      100,000

      10,000

      1,000

      0

      100

      60

      10

      Output Voltage (V)

      10

      8

      6

      4

      2

      0

      -30.0

      Source

      T = +25°C


      T = -40°C

      -20.0

      8/18 Doc ID 6972 Rev 6


      100

      30

      120

      40

      50 140

      160

      RL = 1M ohm CL = 100 pF

      Vcc = 3V & 5V

      60

      180

      70

      100

      Vcc = +-2.5V

      Gain = -1

      RL = 1M ohm CL = 50 pF

      200

      300

      Output Voltage (mV)

      Gain (dB)

      Phase (°)

      Figure 13. Small signal transient response Figure 14. Gain and phase versus frequency


      -100

      0.0

      0.5

      1.0

      Time (ms)

      1.5

      2.0

      0

      100

      40


      100,000

      10,000

      Frequency (Hz)

      1,000

      60

      gain

      10

      80

      20

      0

      phase

      Slew Rate (V/ms)

      Output Voltage (V)

      Figure 15. Slew rate positive and negative vs. temperature

      Figure 16. Large signal transient response


      4.8

      Slew rate negative

      4.6


      4.4


      4.2 Slew rate positive

      4.0

      Gain = +1

      3.8 RL = 1M ohm

      3.6 CL = 100pf

      Vcc = 5V

      3.4

      -80 -40 0 40 80 120

      Temperature (°C)

      2.5





      2.0





      1.5





      1.0







      Vcc = +-2.5V



      0.5


      Gain = -1





      RL = 1M ohm



      0.0


      CL = 50 pF



      -0.5





      -1.0





      0.0

      1.0

      2.0 3.0

      4.0

      5.0



      Time (ms)





      Doc ID 6972 Rev 6 9/18


  3. Package information


In order to meet environmental requirements, ST offers these devices in different grades of ECOPACK® packages, depending on their level of environmental compliance. ECOPACK® specifications, grade definitions and product status are available at: www.st.com.

ECOPACK® is an ST trademark.



10/18 Doc ID 6972 Rev 6


    1. SOT23-5 package information

      Figure 17. SOT23-5 package mechanical drawing


      Table 7. SOT23-5 package mechanical data


      Ref.

      Dimensions

      Millimeters

      Inches

      Min.

      Typ.

      Max.

      Min.

      Typ.

      Max.

      A

      0.90

      1.20

      1.45

      0.035

      0.047

      0.057

      A1



      0.15



      0.006

      A2

      0.90

      1.05

      1.30

      0.035

      0.041

      0.051

      B

      0.35

      0.40

      0.50

      0.013

      0.015

      0.019

      C

      0.09

      0.15

      0.20

      0.003

      0.006

      0.008

      D

      2.80

      2.90

      3.00

      0.110

      0.114

      0.118

      D1


      1.90



      0.075


      e


      0.95



      0.037


      E

      2.60

      2.80

      3.00

      0.102

      0.110

      0.118

      F

      1.50

      1.60

      1.75

      0.059

      0.063

      0.069

      L

      0.10

      0.35

      0.60

      0.004

      0.013

      0.023

      K

      0 degrees


      10 degrees





      Doc ID 6972 Rev 6 11/18


    2. SO-8 package information

      Figure 18. SO-8 package mechanical drawing


      Table 8. SO-8 package mechanical data


      Ref.

      Dimensions

      Millimeters

      Inches

      Min.

      Typ.

      Max.

      Min.

      Typ.

      Max.

      A



      1.75



      0.069

      A1

      0.10


      0.25

      0.004


      0.010

      A2

      1.25



      0.049



      b

      0.28


      0.48

      0.011


      0.019

      c

      0.17


      0.23

      0.007


      0.010

      D

      4.80

      4.90

      5.00

      0.189

      0.193

      0.197

      E

      5.80

      6.00

      6.20

      0.228

      0.236

      0.244

      E1

      3.80

      3.90

      4.00

      0.150

      0.154

      0.157

      e


      1.27



      0.050


      h

      0.25


      0.50

      0.010


      0.020

      L

      0.40


      1.27

      0.016


      0.050

      L1


      1.04



      0.040


      k

      0



      ccc



      0.10



      0.004


      12/18 Doc ID 6972 Rev 6


    3. TSSOP8 package information

      Figure 19. TSSOP8 package mechanical drawing


















      Table 9. TSSOP8 package mechanical data


      Ref.

      Dimensions

      Millimeters

      Inches

      Min.

      Typ.

      Max.

      Min.

      Typ.

      Max.

      A



      1.20



      0.047

      A1

      0.05


      0.15

      0.002


      0.006

      A2

      0.80

      1.00

      1.05

      0.031

      0.039

      0.041

      b

      0.19


      0.30

      0.007


      0.012

      c

      0.09


      0.20

      0.004


      0.008

      D

      2.90

      3.00

      3.10

      0.114

      0.118

      0.122

      E

      6.20

      6.40

      6.60

      0.244

      0.252

      0.260

      E1

      4.30

      4.40

      4.50

      0.169

      0.173

      0.177

      e


      0.65



      0.0256


      k



      L

      0.45

      0.60

      0.75

      0.018

      0.024

      0.030

      L1


      1



      0.039


      aaa



      0.10



      0.004


      Doc ID 6972 Rev 6 13/18


    4. SO-14 package information

      Figure 20. SO-14 package mechanical drawing


      Table 10. SO-14 package mechanical data

      Dimensions


      Ref.

      Millimeters

      Inches

      Min.

      Typ.

      Max.

      Min.

      Typ.

      Max.

      A

      1.35


      1.75

      0.05


      0.068

      A1

      0.10


      0.25

      0.004


      0.009

      A2

      1.10


      1.65

      0.04


      0.06

      B

      0.33


      0.51

      0.01


      0.02

      C

      0.19


      0.25

      0.007


      0.009

      D

      8.55


      8.75

      0.33


      0.34

      E

      3.80


      4.0

      0.15


      0.15

      e


      1.27



      0.05


      H

      5.80


      6.20

      0.22


      0.24

      h

      0.25


      0.50

      0.009


      0.02

      L

      0.40


      1.27

      0.015


      0.05

      k

      8° (max.)

      ddd



      0.10



      0.004


      14/18 Doc ID 6972 Rev 6


    5. TSSOP14 package information

      Figure 21. TSSOP14 package mechanical drawing


      Table 11. TSSOP14 package mechanical data


      Ref.

      Dimensions

      Millimeters

      Inches

      Min.

      Typ.

      Max.

      Min.

      Typ.

      Max.

      A



      1.20



      0.047

      A1

      0.05


      0.15

      0.002

      0.004

      0.006

      A2

      0.80

      1.00

      1.05

      0.031

      0.039

      0.041

      b

      0.19


      0.30

      0.007


      0.012

      c

      0.09


      0.20

      0.004


      0.0089

      D

      4.90

      5.00

      5.10

      0.193

      0.197

      0.201

      E

      6.20

      6.40

      6.60

      0.244

      0.252

      0.260

      E1

      4.30

      4.40

      4.50

      0.169

      0.173

      0.176

      e


      0.65



      0.0256


      L

      0.45

      0.60

      0.75

      0.018

      0.024

      0.030

      L1


      1.00



      0.039


      k



      aaa



      0.10



      0.004


      Doc ID 6972 Rev 6 15/18


  1. Ordering information


    Table 12. Order codes


    Order code

    Temperature range


    Package


    Packaging


    Marking

    TS941ID TS941IDT


    -40°C to +85°C


    SO-8


    Tube or Tape & reel

    TS941ID TS941IDT

    TS941AID TS941AIDT

    TS941AID

    TS941BID TS941BIDT

    TS941BID

    TS941ILT


    SOT23-5L


    Tape & reel

    K201

    TS941AILT

    K202

    TS941BILT

    K203

    TS942ID TS942IDT


    SO-8


    Tube or Tape & reel

    TS942ID TS942IDT

    TS942AID TS942AIDT

    TS942AID

    TS942BID TS942BIDT

    TS942BID

    TS942IPT


    TSSOP8


    Tape & reel

    TS942

    TS942AIPT

    942AI

    TS942BIPT

    942BI

    TS944ID TS944IDT


    SO-14


    Tube or Tape & reel

    TS944ID TS944IDT

    TS944AID TS944AIDT

    TS944AID TS944AIDT

    TS944BID TS944BIDT

    TS944BID TS944BIDT

    TS944IPT


    TSSOP14


    Tape & reel

    TS944IPT

    TS944AIPT

    TS944AI

    TS944BIPT

    TS944BI


    16/18 Doc ID 6972 Rev 6


  2. Revision history


Table 13. Document revision history

Date

Revision

Changes

01-Dec-2001

1

Initial release.

01-Dec-2004

2

Modifications on AMR table (explanation of Vid and Vin limits).

13-Mar-2008

3

CDM values added for TS944 in SO and TSSOP packages. Document reformatted.

09-Apr-2008

4

Corrected error in power consumption on cover page (1.2µA, not 1.2mA).


05-Mar-2009


5

Removed DIP package information and order codes in Chapter 3

and Chapter 4.

Updated all other package mechanical drawings and data in

Chapter 3.

06-Oct-2009

6

Added root part numbers (TS94xA, TS94xB) and

Table 1: Device summary on cover page.


Doc ID 6972 Rev 6 17/18



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18/18 Doc ID 6972 Rev 6

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TS942AID TS941ID TS942ID TS941AILT TS941IDT TS942AIDT TS942IDT TS942AIPT TS941BILT TS944ID TS941AID TS941ILT TS944AIPT TS944IDT TS944IPT TS942IPT TS941AIDT TS941BID TS941BIDT TS944AID

TS944AIDT TS944IN TS942IN