TS93x, TS93xA, TS93xB


Output rail-to-rail micropower operational amplifiers



Features


In1-

2 13


In4-

In1+ 3 +

+ 12

In4+

Description

The TS93x (single, dual and quad) series are

VCC+ 4

In2+ 5 +

In2- 6

11 VCC-

+ 10 In3+

9 In3-

operational amplifiers that can operate with voltages as low as 2.7 V and reach a 2.9 Vpp output swing with RL = 100 kΩ when supplied at 3 V.

Offering a typical consumption of only 20 A, these devices are particularly well suited to battery powered applications.

The amplifiers space saving 5-pin SOT23-5 package with outer dimensions of

2.8 mm x 2.9 mm make them very easy to implement on a board design.

Out2 7 8 Out3


Table 1. Device summary

Reference

Part number

TS93x

TS931, TS932, TS934

TS93xA

TS931A, TS932A, TS934A

TS93xB

TS931B, TS932B, TS934B



November 2012 Doc ID 6911 Rev 5 1/17

This is information on a product in full production. 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)

    VCC- -0.3 to VCC+ +0.3

    V

    Iin

    Input current range(4)

    10

    mA

    Tstd

    Storage temperature range

    -65 to +150

    °C

    Tj

    Maximum junction temperature

    150

    °C


    Rthja

    Thermal resistance junction-to-ambient(5)

    – SOT23-5


    250

    125

    103

    100


    °C/W


    ESD

    HBM: human body model(6)

    2

    kV

    MM: machine model(7)

    200

    V

    CDM: charged device model(8)

    2

    kV


    Latch-up immunity

    200

    mA


    Soldering temperature (10 sec.), leaded version

    250

    °C

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

    2. Differential voltages are 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. Input current must be limited by a resistor in series with the inputs.

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

    6. Human body model: 100 pF discharged through a 1.5 kΩ resistor into pin of device.

    7. Machine model ESD: a 200 pF capacitor is charged to the specified voltage, then discharged directly into the IC with no external series resistor (internal resistor < 5 Ω), into pin-to-pin of device.

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


      Table 3. Operating conditions

      Symbol

      Parameter

      Value

      Unit

      VCC

      Supply voltage

      2.7 to 10

      V

      Vicm

      Common mode input voltage range

      VCC- -0.2 to VCC+ -1.5

      V

      Toper

      Operating free air temperature range

      -40 to +105

      °C


  2. Electrical characteristics


    Table 4 and Table 5 give the electrical characteristics at each VCC value.

    Table 4. Electrical characteristics at VCC+ = +3 V, VCC- = 0 V, Tamb = 25 °C (unless otherwise specified)

    Symbol

    Parameter

    Min.

    Typ.

    Max.

    Unit


    Input offset voltage






    TS931/2/4

    10



    TS931/2/4A

    5


    Vio

    TS931/2/4B

    2


    mV

    Tmin < Top < Tmax TS931/2/4




    15


    TS931/2/4A TS931/2/4B

    10

    6


    ΔVio

    Input offset voltage drift


    3


    V/°C

    Iio

    Input offset current(1)

    Tmin < Top < Tmax


    1

    100

    200


    pA

    Iib

    Input bias current(1)

    Tmin < Top < Tmax


    1

    150

    300


    pA


    CMR

    Common mode rejection ratio, 0 Vicm VCC+ -1.7 Tmin < Top < Tmax

    55

    55

    85

    85



    dB


    SVR

    Supply voltage rejection ratio(2)

    Tmin < Top < Tmax

    55

    55

    85

    85



    dB


    Avd

    Large signal voltage gain

    VO = 2 Vpp, RL = 1 MΩ RL = 100 kΩ



    120

    106



    dB

    VOH

    High level output voltage, VID = 100 mV, RL = 100 kΩ Tmin < Top < Tmax

    2.95

    2.95

    2.99



    V

    VOL

    Low level output voltage, VID = -100 mV, RL = 100 kΩ Tmin < Top < Tmax


    10

    50

    50


    mV


    Io

    Output source current

    VID = 100 mV, VO = VCC-

    Output sink current

    VID = -100 mV, VO = VCC+



    1.5



    mA


    1.5


    ICC

    Supply current (per amplifier), AVCL = 1, no load Tmin < Top < Tmax


    20

    31

    33

    A


    GBP

    Gain bandwidth product RL = 100 kΩ, CL = 50 pF



    100



    kHz


    SR

    Slew rate

    RL = 100 kΩ, CL = 50 pF



    50



    V/ms


    Doc ID 6911 Rev 5 3/17


    Table 4. Electrical characteristics at VCC+ = +3 V, VCC- = 0 V, Tamb = 25 °C (unless otherwise specified) (continued)

    Symbol

    Parameter

    Min.

    Typ.

    Max.

    Unit

    m

    Phase margin

    CL = 50 pF



    65


    Degrees

    en

    Input voltage noise


    75


    nV/Hz

    1. Maximum values including unavoidable inaccuracies of the industrial test.

    2. VCC has a 0.2 V variation.


      Table 5. Electrical characteristics at VCC+ = +5 V, VCC- = 0 V, Tamb = 25 °C (unless otherwise specified)

      Symbol

      Parameter

      Min.

      Typ.

      Max.

      Unit


      Input offset voltage






      TS931/2/4

      10



      TS931/2/4A

      5


      Vio

      TS931/2/4B

      2

      mV

      Tmin < Top < Tmax





      TS931/2/4

      15



      TS931/2/4A

      10



      TS931/2/4B

      6


      ΔVio

      Input offset voltage drift


      3


      V/°C

      Iio

      Input offset current(1)

      Tmin < Top < Tmax


      1

      100

      200


      pA

      Iib

      Input bias current(1)

      Tmin < Top < Tmax


      1

      150

      300


      pA


      CMR

      Common mode rejection ratio, 0 Vicm VCC+ - 1.7 Tmin < Top < Tmax

      55

      55

      85

      85



      dB


      SVR

      Supply voltage rejection ratio(2)

      Tmin < Top < Tmax

      55

      55

      85

      85



      dB


      Avd

      Large signal voltage gain

      VO = 4 Vpp, RL = 1 MΩ RL = 100 kΩ



      120

      112



      dB

      VOH

      High level output voltage, VID = 100 mV, RL = 100 kΩ Tmin < Top < Tmax

      4.95

      4.95

      4.99



      V

      VOL

      Low level output voltage, VID = -100 mV, RL = 100 kΩ Tmin < Top < Tmax


      10

      50

      50


      mV


      Io

      Output source current

      VID = 100 mV, VO = VDD

      Output sink current

      VID = -100 mV, VO = VCC



      5



      mA


      5


      ICC

      Supply current (per amplifier), AVCL = 1, no load Tmin < Top < Tmax


      20

      33

      35

      A


      4/17 Doc ID 6911 Rev 5


      Table 5. Electrical characteristics at VCC+ = +5 V, VCC- = 0 V, Tamb = 25 °C (unless otherwise specified) (continued)

      Symbol

      Parameter

      Min.

      Typ.

      Max.

      Unit

      GBP

      Gain bandwidth product

      RL = 100 KΩ, CL = 50 pF



      100


      kHz


      SR

      Slew rate

      RL = 100 KΩ, CL = 50 pF



      50



      V/ms

      m

      Phase margin CL = 50 pF



      65



      Degrees

      en

      Input voltage noise


      76


      nV/Hz

      1. Maximum values including unavoidable inaccuracies of the industrial test.

      2. VCC has a 0.2 V variation.



      Doc ID 6911 Rev 5 5/17


      Figure 1. Input offset voltage

      vs. temperature

      Figure 2. Supply current vs. supply voltage, in open loop configuration


      >

      3

      ·=.:

      "

      Ol

      J!!

      0

      =..

      >

      -a;

      0

      :i

      C.

      .5


      50


      0


      -50


      -100


      -150

      -40


      Vee= s v


      -20 0


      20 40

      Temperature ("C)


      60


      80


      12


      10


      8

      3<

      C:

      :E; 6

      u

      >,

      ci.

      C. 4

      j

      1/)


      2


      0


      0


      2


      4


      V;d = -100 mV


      V;d = +100 mV


      6 8

      Supply voltage (V)


      Tamb =25 °e


      10


      12


      Figure 3. Supply current vs. supply voltage in follower configuration, Vicm = Vcc/2

      Figure 4. Supply current vs. temperature


      3<

      C:

      :E;

      u

      >,

      i5.

      C.

      j

      1/)

      20








      21




      Vee from 2.7 v 10 10 v


      20 40 60 80

      Temperature ("C)

      18












      16





      Tamb= 25 "e



      20



      14


      12







      3<

      C:


      19



      10








      j

      u




      8







      >,

      ci.

      C.

      18














      6







      1/)




      4








      17




      0


      0


      2


      4


      6 8


      10


      12



      16

      -40


      -20


      0





      Supply voltage (V)








      Figure 5. Output short-circuit current vs. temperature

      Figure 6. Output short-circuit current

      vs. supply voltage


      6


      < 4

      .§.

      C: 2

      j

      u

      3!

      ..0c. -2

      :i

      C. -4

      :i

      0

      -6

      -40


      -20


      0



      Isink Vee= 5 V


      I sink Vee= 3 V Is ource•V CC = 3V


      1so urce, VCC = 5 V


      20 40 60

      Temperature (0 e)


      80


      <

      .§.

      C:


      j

      u

      l:?

      ·5

      .,!.

      .0c

      Cl)

      :i

      8C.


      30


      20


      10


      0


      -10


      -20


      -30


      2


      Tam b = 25 "C


      4


      Sin k


      Source


      6

      Supply voltage (V)


      8


      10

      • ;; 0

      • ;;



      6/17 Doc ID 6911 Rev 5


      Figure 7. Output short-circuit current

      vs. output voltage at VCC+ = 2.7 V

      Figure 8. Output short-circuit current

      vs. output voltage at VCC+ = 3 V


      < 0.5

      ,$

      C:

      0

      ::,

      u

      ·5

      l:! -0.5

      t

      0

      ii -1

      :i

      a.

      8 -1 .5

      -2


      0


      Sink T = -40 °e


      T = -40 °e


      1


      Output voltage (V)


      2


      Source


      3



      Sink


      T = -40 °e






      T = -40 °C





      0

      0.5


      1.5 2

      2.5

      3




      Outputv oltage (V)



      • ;:;


      Figure 9. Output short-circuit current

      vs. output voltage at VCC+ = 5 V

      Figure 10. Output short-circuit current





      T = -40 °e



































      T = -40 °


      e



      vs. output voltage at VCC+ = 10 V


      <

      ,$

      i: f

      :ui

      ·5

      l:!

      0

      rn

      :i

      .:9:, -

      0


      6


      4


      2


      0


      -2


      -4


      -6


      0


      2 3

      Outputv oltage (V)


      4


      5


      30


      < 20

      ,$

      c

      ::, 10

      u

      ·5

      l:! 0

      t

      rn -10

      :i

      .9-

      c5 -20


      -30


      0


      T = -40 °e


      2


      4 6

      Output voltage (V)


      8


      T = -40 °e


      Source


      10

      • ;:;


      Figure 11. High level output voltage drop vs. supply voltage

      Figure 12. Low level output voltage drop vs. supply voltage


      500


      > 200

      ,$ 100

      (.)

      (.)

      > 50

      £

      ".O,

      u 20

      C:

      f

      10

      .,

      l"!!' 5

      g

      2


      1




      RL = 10 kn


      RL = 1 00 kn


      RL = 1 Mn


      6

      Supply voltage (V)




      >

      ,$

      C C

      >

      £.,

      "O

      u

      C:

      f

      i.,

      l"!!'

      g


      500




      l!L 10 kO


      RL = 100 kn


      RL= 1 Mn


      6

      Supply voltage (V)








      200






      RL tied to v00



      100



      RL tied to Vee




      SINGLE SUPPLY

      V;d = +100 mV



      50


      SINGLE SUPPLY

      V;d = -100 mV







      20









      10









      5










      2






      2


      4


      8


      10

      1


      2


      4


      8


      10



      Doc ID 6911 Rev 5 7/17


      Figure 13. Voltage gain and phase

      vs. frequency for CL = 50 pF

      Figure 14. Voltage gain and phase

      vs. frequency for CL = 100 pF



      70






      180


      160


      140


      120 -...,

      ."c:'

      100 0..


      BO


      60


      50,000 100,000



      70





      180


      160


      140


      120 -...,

      "'

      100 .c:

      0..


      BO


      60


      50,000 '100 ,000

      40



      60



      RL = 100 k!l CL= 50 pF




      60



      RL = 100 k!l

      CL=100pF





      Vee= 3 V and 5 V






      VCC = 3 V and 5 V


      50






      50





      iii'


      40






      iii'


      40




      :!:,






      :!:,





      CJ

      30



      Gain p


      CJ

      30




      Gain Phase


      20






      20






      10







      10






      0

      100


      200


      500


      1,000 2,000 5,000 10,000


      20,000



      0

      100


      200


      500


      1,000 2,000 5,000 10,000 20,000





      Frequency (Hz)






      Frequency (Hz)

      • ;C;:;

      • ;C;: ;


      Figure 15. Distortion vs. frequency Figure 16. Equivalent input noise voltage

      vs. frequency






      , "J:

      .>s

      .,

      Cl


      .g,

      C:

      C.,:

      'iii

      ->

      CJ'

      w


      100




      Vee= 21 v

      Rs= 100

      lamb= 25 ' e


      300 1,000

      Frequency (Hz)





      0.8 RL = 100 k!l

      Gain= +2




      BO





      l


      0.6




      60





      C:

      :0e

      i5


      0.4

      Vee= 5 v

      V0 = 4 Vpp

      Vee= 3 v

      V0 = 2 Vpp


      40







      0.2




      20







      0

      20 50 100 200


      500 1,000 2,000


      5,000 10,000


      0

      10


      30


      100


      3,000


      10,000



      Frequency (Hz)







      • "5'


      Figure 17. Distortion vs. output voltage Figure 18. Supply voltage rejection

      vs. frequency




      Vee= 3 v


      3

      Output voltage (Vpp)



      iii'

      :!:,

      C:

      0

      .,

      Cl

      .!!!

      0

      >

      >,

      ci.

      C.

      :,

      ID


      -40








      RL = 100 k!l










      Gain= +2

      F=100Hz


      -45


      Vee=S V






      1.5




      -50

      Gain= +1










      -55











      -60









      Yee= 5 v


      -65







      0.5













      -70








      0




      -75

      100


      1,000


      3,000


      1,000 30,000


      100,000


      300,000


      1,000,000







      Frequency (Hz)




      • .,


      8/17 Doc ID 6911 Rev 5


      Figure 19. Slew rate vs. time for small input voltage signal

      Figure 20. Slew rate vs. time for large input voltage signal
























































































      Doc ID 6911 Rev 5 9/17


  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.



10/17 Doc ID 6911 Rev 5


    1. SO-8 package information

      Figure 21. SO-8 package outline


      Table 6. SO-8 package mechanical data


      Symbol

      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



      ccc



      0.10



      0.004


      Doc ID 6911 Rev 5 11/17


    2. SO-14 package information

      Figure 22. SO-14 package outline


      Table 7. SO-14 package mechanical data

      Dimensions


      Symbol

      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


      12/17 Doc ID 6911 Rev 5


    3. TSSOP14 package information

      Figure 23. TSSOP14 package outline


      Table 8. TSSOP14 package mechanical data


      Symbol

      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 6911 Rev 5 13/17


    4. SOT23-5 package information

      Figure 24. SOT23-5 package outline


      Table 9. SOT23-5 package mechanical data


      Symbol

      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





      14/17 Doc ID 6911 Rev 5


  1. Ordering information


    Table 10. Order codes


    Order code

    Temperature range


    Package


    Packaging


    Marking

    TS931ID



    Tube

    931I

    TS931IDT



    Tape and reel

    931I

    TS931AID

    TS931AIDT


    SO-8

    Tube

    Tape and reel

    931AI

    931AI

    TS931BID



    Tube

    931BI

    TS931BIDT



    Tape and reel

    931BI

    TS931ILT TS931AILT TS931BILT



    SOT23-5L


    Tape and reel

    K205 K206 K207

    TS932ID



    Tube

    932I

    TS932IDT



    Tape and reel

    932I

    TS932AID TS932AIDT

    TS932BID


    -40 °C, +105 °C

    SO-8

    Tube Tape and reel

    Tube

    932AI

    932AI

    932BI

    TS932BIDT



    Tape and reel

    932BI

    TS934ID



    Tube

    934I

    TS934IDT



    Tape and reel

    934I

    TS934AID

    TS934AIDT


    SO-14

    Tube

    Tape and reel

    934AI

    934AI

    TS934BIDT



    Tube

    934BI

    TS934BIDT



    Tape and reel

    934BI

    TS934IPT TS934AIPT

    TS934BIPT



    TSSOP-14

    (thin shrink outline package)


    Tape and reel

    934I

    934AI

    934BI

    TS934IYDT(1) TS934AIYDT(1)


    SO-14

    (automotive grade)


    Tape and reel

    934IY

    934AIY

    1. Qualified and characterized according to AEC Q100 and Q003 or equivalent, advanced screening according to AEC Q001 and Q 002 or equivalent.


    Doc ID 6911 Rev 5 15/17


  2. Revision history


Table 11. Document revision history

Date

Revision

Changes

01-Nov-2001

1

Initial release.

01-Dec-2004

2

Modified AMR values in Table 2 (explanation of Vid and Vi limits).


04-May-2009


3

Document reformatted.

Removed DIP package information and order codes from

Chapter 3.

Modified temperature range: extended to -40 to +105° C in

Table 10: Order codes.

Added automotive grade products in Table 10.


07-Sep-2009


4

Added root part numbers (TS93xA, TS93xB) and

Table 1: Device summary on cover page.

Added parameters for full temperature range in Table 4 and in

Table 5.


07-Nov-2012


5

Updated Features (added SO-8, SO-14, and TSSOP-14 package).

Updated Table 2 (removed TSSOP8 package).

Removed TS934IYD and TS934AIYD order codes from

Table 10, qualified status of TS934IYDT and TS934AIYDT order codes in Table 10.

Minor corrections throughout document.


16/17 Doc ID 6911 Rev 5


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