TSV321, TSV358, TSV324, TSV321A, TSV358A, TSV324A,

General purpose input/output rail-to-rail low-power operational

amplifiers

Datasheet - production data



Pin connections (top view)

SOT23-5


SO8


SO8, MiniSO8, TSSOP8


SO14, TSSOP14

Features


Description

The TSV358, TSV358A, TSV324, and TSV324A

(dual and quad) devices are low voltage versions of the LM358 and LM324 commodity operational amplifiers. The TSV321 and TSV321A are the single version. All devices operate with voltages as low as 2.5 V and feature both I/O rail-to-rail.

The common mode input voltage extends 200 mV beyond the supply voltages at 25 °C while the output voltage swing is within 100 mV of each rail with a 600 Ω load resistor. At VCC = 3 V, these devices offer 1.3 MHz of gain bandwidth product and provide high output current capability with a typical value of 80 mA.

These features make the TSV3xx and TSV3xxA family ideal for active filters, general purpose low voltage applications, and general purpose portable devices.


June 2014 DocID11542 Rev 8 1/21 This is information on a product in full production. www.st.com

Contents TSV321, TSV358, TSV324, TSV321A, TSV358A,

TSV324A,


Contents

  1. Absolute maximum ratings and operating conditions 3

  2. Electrical characteristics 5

  3. Package information 11

    1. SOT23-5 package information 12

    2. SO8 package information 13

    3. MiniSO8 package information 14

    4. TSSOP8 package information 15

    5. SO14 package information 16

    6. TSSOP14 package information 17

  4. Ordering information 18

  5. Revision history 19


  1. Absolute maximum ratings and operating conditions

    Table 1: Absolute maximum ratings


    Symbol

    Parameter

    Value

    Unit

    VCC

    Supply voltage (1)

    7

    V

    Vid

    Differential input voltage (2)

    ±1

    Vin

    Input voltage

    VDD -0.3 to VCC +0.3

    Tstg

    Storage temperature

    -65 to +150

    °C

    Tj

    Maximum junction temperature

    150

    Rthja

    Thermal resistance junction-to-ambient (3)

    SOT23-5

    250

    °C/W

    SO8

    125

    MiniSO8

    190

    TSSOP8

    120

    SO14

    105

    TSSOP14

    100

    Rthjc

    Thermal resistance junction-to-case(3)

    SOT23-5

    81

    SO8

    40

    MiniSO8

    39

    TSSOP8

    37

    SO14

    31

    TSSOP14

    32

    ESD

    HBM: human body model (4)

    2

    kV

    MM: machine model (5)

    200

    V

    CDM: charged device model (6)

    1.5

    kV


    Latch-up immunity

    200

    mA


    Lead temperature (soldering, 10 s)

    250

    °C


    Output short-circuit duration

    See (7)



    Notes:

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

    (2)The differential voltage is the non-inverting input terminal with respect to the inverting input terminal. If

    Vid > ±1 V, the maximum input current must not exceed ±1 mA. When Vid > ±1 V, an input series resistor must be added to limit input current.

    (3)Short-circuits can cause excessive heating and destructive dissipation. Rth are typical values.

    (4)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.

    (5)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), done for all couples of pin combinations with other pins floating.

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

    (7)Short-circuits from the output to VCC can cause excessive heating. The maximum output current is approximately 80 mA, independent of the magnitude of VCC. Destructive dissipation can result from simultaneous short-circuits on all amplifiers.


    DocID11542 Rev 8 3/21


    Table 2: Operating conditions


    Symbol

    Parameter

    Value

    Unit

    VCC

    Supply voltage

    2.5 to 6

    V

    Vicm

    Common mode input voltage range

    Tamb = 25 °C, 2.5 ≤ VCC ≤ 6 V

    VDD - 0.2 to VCC + 0.2

    V

    Tmin < Tamb < Tmax, 2.5 ≤ VCC ≤ 5.5 V

    VDD to VCC

    Toper

    Operating free air temperature range

    -40 to + 125

    °C


    4/21 DocID11542 Rev 8


  2. Electrical characteristics

    Table 3: Electrical characteristics at VCC = +3 V, VDD = 0 V, RL, CL connected to VCC/2, and Tamb = 25 °C (unless otherwise specified)


    Symbol

    Parameter

    Test conditions

    Min.

    Typ.

    Max.

    Unit

    Vio

    Input offset voltage

    Vicm = Vout = VCC /2




    mV

    TSV321/358/324


    0.2

    3

    Tmin ≤ Tamb ≤ Tmax



    6

    TSV321A/358A/324A


    0.1

    1

    Tmin ≤ Tamb ≤ Tmax



    3

    ΔVio/ΔT

    Input offset voltage drift



    2


    µV/°C

    Iio

    Input offset current

    Vicm = Vout = VCC /2 (1)


    3

    30

    nA

    Tmin ≤ Tamb ≤ Tmax



    60

    Iib

    Input bias current

    Vicm = Vout = VCC /2 (1)


    40

    125

    Tmin ≤ Tamb ≤ Tmax



    150

    CMR

    Common mode rejection ratio 20 log (ΔVic/ΔVio)

    0 ≤ Vicm ≤ VCC, Vout = VCC /2

    60

    80


    dB

    Avd

    Large signal voltage gain

    Vout = 0.5 V to 2.5 V, RL = 2 kΩ

    80

    92


    Vout = 0.5 V to 2.5 V, RL = 600 Ω

    74

    95


    VOH

    High level output voltage, VOH = Vout

    Vid = 100 mV, RL = 2 kΩ

    2.82

    2.95


    V

    Vid = 100 mV, RL = 600 Ω

    2.80

    2.95


    Vid = 100 mV, Tmin ≤ Tamb ≤ Tmax, RL = 2 kΩ

    2.82



    Vid = 100 mV, Tmin ≤ Tamb ≤ Tmax, RL = 600 Ω

    2.80



    VOL

    Low level output voltage

    Vid = -100 mV, RL = 2 kΩ


    88

    120

    mV

    Vid = -100 mV, RL = 600 Ω


    115

    160

    Vid = -100 mV, Tmin ≤ Tamb ≤ Tmax, RL = 2 kΩ



    120

    Vid = -100 mV, Tmin ≤ Tamb ≤ Tmax, RL = 600 Ω



    160

    Io

    Output source current

    Vid = 100 mV, VO = VDD

    20

    80


    mA

    Output sink current

    Vid = -100 mV, VO = VCC

    20

    80


    ICC

    Supply current (per amplifier)

    AVCL = 1, no load


    420

    650

    µA

    Tmin ≤ Tamb ≤ Tmax



    690

    GBP

    Gain bandwidth product

    RL = 10 kΩ, CL = 100 pF,

    f = 100 kHz

    1

    1.3


    MHz

    SR

    Slew rate

    RL = 10 kΩ, CL = 100 pF

    0.42

    0.6


    V/µs

    ɸm

    Phase margin

    CL = 100 pF


    53


    Degrees

    en

    Input voltage noise



    27


    nV/√ Hz

    THD

    Total harmonic distortion



    0.01


    %


    DocID11542 Rev 8 5/21


    Notes:

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


    Table 4: Electrical characteristics at VCC = +5 V, VDD = 0 V, RL, CL connected to VCC/2, and Tamb = 25 °C (unless otherwise specified)


    Symbol

    Parameter

    Conditions

    Min.

    Typ.

    Max.

    Unit

    Vio

    Input offset voltage

    Vicm = Vout = VCC /2




    mV

    TSV321/358/324


    0.2

    3

    Tmin ≤ Tamb ≤ Tmax



    6

    TSV321A/358A/324A


    0.1

    1

    Tmin ≤ Tamb ≤ Tmax



    3

    ΔVio/ΔT

    Input offset voltage drift



    2


    µV/°C

    Iio

    Input offset current

    Vicm = Vout = VCC /2 (1)


    3

    30

    nA

    Tmin ≤ Tamb ≤ Tmax



    60

    Iib

    Input bias current

    Vicm = Vout = VCC /2 (1)


    70

    130

    Tmin ≤ Tamb ≤ Tmax



    150

    CMR

    Common mode rejection ratio 20 log (ΔVic/ΔVio)

    0 ≤ Vicm ≤ VCC, Vout = VCC /2

    65

    85


    dB

    SVR

    Supply voltage rejection ratio 20 log (ΔVCC/ΔVio)

    VCC = 2.5 V to 5 V

    70

    90


    Avd

    Large signal voltage gain

    Vout = 0.5 V to 4.5 V, RL = 2 kΩ

    83

    92


    Vout = 0.5 V to 4.5 V, RL = 600 Ω

    77

    85


    VOH

    High level output voltage, VOH = Vout

    Vid = 100 mV, RL = 2 kΩ

    4.80

    4.95


    V

    Vid = 100 mV, RL = 600 Ω

    4.75

    4.90


    Vid = 100 mV, Tmin ≤ Tamb ≤ Tmax, RL = 2 kΩ

    4.80



    Vid = 100 mV, Tmin ≤ Tamb ≤ Tmax, RL = 600 Ω

    4.75



    VOL

    Low level output voltage

    Vid = -100 mV, RL = 2 kΩ


    88

    130

    mV

    Vid = -100 mV, RL = 600 Ω


    115

    188

    Vid = -100 mV, Tmin ≤ Tamb ≤ Tmax, RL = 2 kΩ



    130

    Vid = -100 mV, Tmin ≤ Tamb ≤ Tmax, RL = 600 Ω



    188

    Io

    Output source current

    Vid = 100 mV, VO = VDD

    20

    80


    mA

    Output sink current

    Vid = -100 mV, VO = VCC

    20

    80


    ICC

    Supply current (per amplifier)

    AVCL = 1, no load


    500

    835

    µA

    Tmin ≤ Tamb ≤ Tmax



    875

    GBP

    Gain bandwidth product

    RL = 10 kΩ, CL = 100 pF,

    f = 100 kHz

    1

    1.4


    MHz

    SR

    Slew rate

    RL = 10 kΩ, CL = 100 pF

    0.42

    0.6


    V/µs


    6/21 DocID11542 Rev 8


    Symbol

    Parameter

    Conditions

    Min.

    Typ.

    Max.

    Unit

    ɸm

    Phase margin

    CL = 100 pF


    55


    Degrees

    en

    Input voltage noise



    27


    nV/√ Hz

    THD

    Total harmonic distortion



    0.01


    %


    Notes:

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


    DocID11542 Rev 8 7/21



    -
























    250

    -40 -20 0 20 40 60 80 100 120 140

    Temperature (' CJ

    C. 350


    300

    ::,

    rn

    a.

    <

    -c= 450

    ::, 400

    (,)

    >,

    Figure 2: Supply current/amplifier vs. temperature

    550


    500

    8

    6

    4

    Supply voltage (VJ

    2

    0

    100


    0

    ::, 200

    rn

    >,


    C.

    a

    300

    (,)

    E 400

    ::,

    500

    .<a

    Figure 1: Supply current/amplifier vs. supply voltage


    600

    Figure 3: Output power vs. supply voltage Figure 4: Input offset voltage drift vs. temperature












    so - 200


    50

    2:

    §: >

    ! 40 =

    150


    100

    i '.§ 50

    0

    B

    8. 30 1l,

    ]

    ::,

    .:ai- 20

    0

    s

    C. -50

    .!::

    10 -100

    100

    in

    :8.

    C:

    - 90

    Q.

    0

    ..Q

    .""!!'!

    0.0


    -10.0

    :::,

    <

    .s

    E

    1

    2

    3 4

    5

    6

    -40 -20 0

    20 40 60 80 100 120 140



    Supply voltage (VJ




    Temperature ('CJ

    0 -150


    Figure 5: Input bias current vs. temperature


    10.0

    Figure 6: Open loop gain vs. temperature at VCC = 5 V

    110 -------------------


    Temperature ("CJ

    0 20 40 60 80 100 120 140

    C:


    70

    -40 -20

    8-

    0 80

    .!:: -30.0


    -40.0

    -40 -20 0 20 40 60 80 100 120 140

    Temp erature (' C)

    -20.0

    g_

    .c

    8/21 DocID11542 Rev 8


    >

    50 c-


    70

    40

    I

    I

    I

    I

    I

    I

    I


    Figure 9: Low level output voltage vs. temperature

    110


    .>s 100

    Figure 10: Output current vs. temperature at VCC = 5 V


    100

    90

    50


    Figure 11: Output current vs. temperature at VCC = 3 V


    100

    Figure 12: Output current vs. output voltage at VCC = 5 V

    100


    §,

    50

    .<s

    50


    -50


    -100 L- - - - - - - - - - - - - - - - -

    -40 -20 0 20 40 60 80 100 120 140

    Temperature (' C)

    -100

    0.0

    1.0

    2.0

    3.0

    4.0

    5.0


    Output voltage (V)


    0

    :::,

    0 c-

    i!!

    :i

    i"

    E

    -50

    0

    :::,

    :i 0

    1"

    I!:!

    "E

    ·100

    -40 -20 0 20 40 60 80 100 120 140

    Temperature ('C)

    -50

    "E

    :::, 0

    I.J

    :i

    Q.

    :i

    0

    .<s

    Temperature (' C)

    50


    40

    -40 -20 0 20 40 60 80 100 120 140

    >

    0

    .l2

    01

    60

    i!!

    J!!

    Q)

    70

    C:

    80

    Czl

    Cl

    .9

    'O

    Q)

    I.J

    -40 -20 0 20 40 60 80 100 120 140

    Temperature '( e )

    0

    I!!

    Q) 60

    Cl

    .l2

    J!!

    I!! 70

    C:

    Vee =3 v

    80

    B

    'O

    90

    0

    >

    £

    Vee =5 v

    100

    RL = 600 Q

    .>s

    0

    Figure 8: High level output voltage vs. temperature

    110

    -40 -20 0 20 40 60 80 100 120 140

    Temperature (' C)

    80

    90

    iii'

    01

    Q.

    0

    .Q

    C:

    Q)

    Q.

    0

    100

    Figure 7: Open loop gain vs. temperature at VCC = 3 V

    110

    c-

    c-

    DocID11542 Rev 8 9/21


    .§.

    C:

    :ui

    50

    50

    140


    20

    80


    -50

    10

    60


    -100

    0.0 0.5 1.0 1.5 2.0 2.5 3.0 3.5

    Output voltage (V)

    40


    20

    80



    0

    1E+3

    40


    I

    40 60 80 100 120 140

    Temperature (°C)

    0.35 I

    -40 -20 0 20

    0.45


    0.40

    --

    0.50

    0.55

    .3,

    iii

    Negalwe Slew Pill

    Vee =5 v

    gain= +1

    V;n = 2 to 3 V

    AL= 10 k!:!

    CL= 100

    0 .6 0

    -

    ::I.

    2.,

    0.65

    '"

    Figure 16: Slew rate vs. temperature at VCC = 5 V


    0.75


    0.70

    Frequency (Hz)

    1E+6

    1E+5

    1E+4

    60

    10

    0..

    100

    30

    .,

    ."l'cC'I

    C:

    "iii

    Cl

    in

    ::!:!.. 40 120

    140

    50

    160

    k

    60

    - 180

    70 -

    Figure 15: Gain and phase vs. frequency at VCC = 3 V

    I

    e

    j'Jos t ve Slew fiale

    Frequency (Hz)

    1E+6

    1E+5

    1E+4

    0

    1E+3

    .c

    100 c..

    Cl 30

    "l'C'I

    C:

    'iii

    .,

    120

    40

    0

    in

    ::!:!..

    160

    k

    60

    - 180

    70

    Figure 14: Gain and phase vs. frequency at VCC = 5 V

    0

    i

    :::,

    0

    <

    Figure 13: Output current vs. output voltage at VCC = 3 V

    100

    "C

    -

    Figure 17: Slew rate vs. temperature at VCC = 3 V Figure 18: Distortion vs. frequency


    0.70


    0.150



    ,;,

    :::i.

    0.65


    0.60


    0.55

    0.125


    l 0.100

    'f

    C:

    2l

    .,

    E 0.50

    3

    iii 0 ,45

    0.40


    0.35

    0 0.075


    i5 0.050


    0.025


    0.000

    -40

    -20 0

    20 40 60 80

    100

    120 140

    1E+1

    1E+2

    1E+3

    1E+4

    1E+5



    Temperature (°C)





    Frequency (Hz)




    10/21 DocID11542 Rev 8


  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.


    DocID11542 Rev 8 11/21


    1. SOT23-5 package information

      Figure 19: SOT23-5 package outline


      Table 5: SOT23-5 package mechanical data


      Symbol

      Dimensions

      Millimeters

      Mils

      Min.

      Typ.

      Max.

      Min.

      Typ.

      Max.

      A

      0.90


      1.45

      35.4


      57.1

      A1

      0.00


      0.15

      0.00


      5.9

      A2

      0.90


      1.30

      35.4


      51.2

      b

      0.35


      0.50

      13.7


      19.7

      C

      0.09


      0.20

      3.5


      7.8

      D

      2.80


      3.00

      110.2


      118.1

      E

      2.60


      3.00

      102.3


      118.1

      E1

      1.50


      1.75

      59.0


      68.8

      e


      0.95



      37.4


      e1


      1.9



      74.8


      L

      0.35


      0.55

      13.7


      21.6


      12/21 DocID11542 Rev 8


    2. SO8 package information

      Figure 20: SO8 package outline


      Table 6: SO8 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

      k



      ccc



      0.10



      0.004


      DocID11542 Rev 8 13/21


    3. MiniSO8 package information

      Figure 21: MiniSO8 package outline


      Table 7: MiniSO8 package mechanical data


      Symbol

      Dimensions

      Millimeters

      Inches

      Min.

      Typ.

      Max.

      Min.

      Typ.

      Max.

      A



      1.1



      0.043

      A1

      0


      0.15

      0


      0.006

      A2

      0.75

      0.85

      0.95

      0.030

      0.033

      0.037

      b

      0.22


      0.40

      0.009


      0.016

      c

      0.08


      0.23

      0.003


      0.009

      D

      2.80

      3.00

      3.20

      0.11

      0.118

      0.126

      E

      4.65

      4.90

      5.15

      0.183

      0.193

      0.203

      E1

      2.80

      3.00

      3.10

      0.11

      0.118

      0.122

      e


      0.65



      0.026


      L

      0.40

      0.60

      0.80

      0.016

      0.024

      0.031

      L1


      0.95



      0.037


      L2


      0.25



      0.010


      k



      ccc



      0.10



      0.004


      14/21 DocID11542 Rev 8


    4. TSSOP8 package information

      Figure 22: TSSOP8 package outline


      Table 8: TSSOP8 package mechanical data


      Symbol

      Dimensions

      Millimeters

      Inches

      Min.

      Typ.

      Max.

      Min.

      Typ.

      Max.

      A



      1.2



      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


      0.1



      0.004



      DocID11542 Rev 8 15/21


    5. SO14 package information

      Figure 23: SO14 package outline


      Table 9: SO14 package mechanical data


      Symbol

      Dimensions

      Millimeters

      Inches

      Min.

      Typ.

      Max.

      Min.

      Typ.

      Max.

      A



      1.75



      0.068

      a1

      0.1


      0.2

      0.003


      0.007

      a2



      1.65



      0.064

      b

      0.35


      0.46

      0.013


      0.018

      b1

      0.19


      0.25

      0.007


      0.010

      C


      0.5



      0.019


      c1

      45° (typ.)

      D

      8.55


      8.75

      0.336


      0.344

      E

      5.8


      6.2

      0.228


      0.244

      e


      1.27



      0.050


      e3


      7.62



      0.300


      F

      3.8


      4.0

      0.149


      0.157

      G

      4.6


      5.3

      0.181


      0.208

      L

      0.5


      1.27

      0.019


      0.050

      M



      0.68



      0.026

      S

      8° (max.)


      16/21 DocID11542 Rev 8


    6. TSSOP14 package information

      Figure 24: TSSOP14 package outline


      Table 10: TSSOP14 package mechanical data


      Symbol

      Dimensions

      Millimeters

      Inches

      Min.

      Typ.

      Max.

      Min.

      Typ.

      Max.

      A



      1.2



      0.047

      A1

      0.05


      0.15

      0.002

      0.004

      0.006

      A2

      0.8

      1

      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

      4.9

      5

      5.1

      0.193

      0.197

      0.201

      E

      6.2

      6.4

      6.6

      0.244

      0.252

      0.260

      E1

      4.3

      4.4

      4.48

      0.169

      0.173

      0.176

      e


      0.65 BSC



      0.0256

      BSC


      K



      L1

      0.45

      0.60

      0.75

      0.018

      0.024

      0.030


      DocID11542 Rev 8 17/21


  4. Ordering information

    Table 11: Order codes


    Order code

    Temperature range

    Package

    Packaging

    Marking

    TSV321RILT

    -40 °C to +125 °C

    SΟΤ23-5

    Tape and reel

    K174

    TSV321RAILT

    K178

    TSV321RIYLT (1)

    SΟΤ23-5

    (automotive grade level)

    K179

    TSV321RAIYLT (1)

    K187

    TSV321IDT

    SO8

    V321ID

    TSV321AIDT

    V321AI

    TSV358IDT

    V358ID

    TSV358AIDT

    V358AID

    TSV358IYDT (1)

    SO8

    (automotive grade level)

    V358YD

    TSV358AIYDT (1)

    V358AY

    TSV358IPT

    TSSOP8

    (thin shrink outline package)

    V358I

    TSV358AIPT

    V358A

    TSV358IYPT (1)

    TSSOP8

    (automotive grade level)

    V358Y

    TSV358AIYPT (1)

    V58AY

    TSV358IST

    MiniSO8

    K175

    TSV358AIST

    K184

    TSV324IDT

    SO14

    V324ID

    TSV324AIDT

    V324AI

    TSV324IYDT (1)

    SO14

    (automotive grade level)

    V324YD

    TSV324AIYDT (1)

    V324AY

    TSV324IPT

    TSSOP14

    (thin shrink outline package)

    V324IP

    TSV324AIPT

    V324A

    TSV324AIYPT (1)

    TSSOP14

    (automotive grade level)

    V324AY

    TSV324IYPT (1)

    V324Y


    Notes:

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


    18/21 DocID11542 Rev 8


  5. Revision history


Table 12: Document revision history


Date

Revision

Changes

2-Aug-2005

1

First release - Products in full production.

20-Sep-2005

2

Addition of TS321A/TS324A/TS358A data in tables in Section 2: "Electrical characteristics".

Minor formatting and grammatical changes.

7-Dec-2005

3

Missing PPAP references inserted see Section 4: "Ordering information".

28-Jun-2007

4

Correction made on output drive capability, 80mA in description on cover page.

SVR measurement conditions inserted in electrical characteristics tables.

Offset voltage limit in temperature added in Section 2: "Electrical characteristics".

Correction made on Input Bias Current typical value in Section 2: "Electrical characteristics".

Captions of electrical characteristics figures updated.

Automotive grade order codes added to Section 4: "Ordering information".

21-Feb-2008

5

Corrected SO-14 Rthja value to 105 °C/W. Updated presentation of package information.

Corrected footnote for automotive grade order codes in order code table.

13-Sep-2012

6

Updated Features (added SO-8, SO-14, TSSOP8, TSSOP14, and MiniSO-8 package).

Updated “Pin connection” figure on page 1 (removed part numbers).

Removed TSV321ID, TSV321AID, TSV321IYDT, TSV358ID, TSV358AID, TSV324ID, TSV324AID, TSV321IYD, TSV358IYD, TSV358AIYD, TSV321IYD, TSV324IYD, and TSV324AIYD order

code from Table 11: "Order codes".

Qualified status of TSV324AIYPT, TSV324IYPT, TSV324IYDT, TSV324AIYDT, TSV358IYDT, TSV321RIYLT, TSV321RAIYLT,

and TSV358AIYDT order code in Table 11: "Order codes". Updated ECOPACK text in Section 3: "Package information".

Minor corrections throughout document.

16-Aug-2013

7

Updated Features

Added Related products

Table 3 and Table 4: replaced ΔVio with ΔVio/ΔT

Table 11: "Order codes": order code TSV321IDT renamed TSV321AIDT, added order code TSV358AIDT, updated footnote associated with order codes TSV358IYPT and TSV358AIYPT.


DocID11542 Rev 8 19/21


Date

Revision

Changes

27-Jun-2014

8

Added part numbers TSV321A, TSV358A, and TSV324A. Table 6: "SO8 package mechanical data": added L1 dimensions Table 11: "Order codes": removed “tube” from all packaging

Updated disclaimer


20/21 DocID11542 Rev 8


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TSV358IDT TSV358IPT TSV358IST TSV321IDT TSV358AIST TSV321RAIYLT TSV324AIYPT TSV358AIYDT TSV358AIYPT TSV324IPT TSV321ID TSV321RAILT TSV321RILT TSV324ID TSV324IDT TSV358ID TSV358AID

TSV358AIDT TSV358IYPT TSV321RIYLT TSV324IYDT TSV358IYDT TSV324IYPT TSV324AIYDT