THS3201D Texas Instruments, Current Feedback, Op Amp, 9 V, 12 V, 8-Pin SOIC

RS Stock No.: 661-1114Brand: Texas InstrumentsManufacturers Part No.: THS3201D
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Technical Document

Specifications

Brand

Texas Instruments

Amplifier Type

Current Feedback

Mounting Type

Surface Mount

Package Type

SOIC

Power Supply Type

Dual, Single

Number of Channels per Chip

1

Pin Count

8

Typical Single Supply Voltage

9 V, 12 V

Typical Dual Supply Voltage

±5V

Typical Slew Rate

5200V/µs

Minimum Operating Temperature

-40 °C

Maximum Operating Temperature

+85 °C

Rail to Rail

No

Typical Input Voltage Noise Density

1.65nV/√Hz

Height

1.58mm

Dimensions

4.9 x 3.91 x 1.58mm

Length

4.9mm

Width

3.91mm

Product details

Current Feedback Operational Amplifiers

A wide range of current feedback operational amplifiers from Texas Instruments. Current feedback operational amplifiers employ a circuit topology that is inherently faster than voltage-mode devices allowing better high frequency performance. They are ideally suited to high speed and video applications with modest DC accuracy requirements.

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View all in Op Amps

Stock information temporarily unavailable.

BD 5.757

BD 5.757 Each (Exc. Vat)

BD 6.333

BD 6.333 Each (inc. VAT)

THS3201D Texas Instruments, Current Feedback, Op Amp, 9 V, 12 V, 8-Pin SOIC
Select packaging type

Standard

Select packaging type

Standardeach

Available in multiples of 1.

Production -

Available in multiples of 1.

Recommended for ordering in large quantities. Items are packaged ready for insertion into machinery, allowing you to improve production efficiency.

1

Available in multiples of 1
1BD 5.757
2BD 11.515
3BD 17.272
4BD 23.029
5BD 28.787
6BD 34.544
7BD 40.301
8BD 46.059
9BD 51.816
10BD 57.574
11BD 63.331
12BD 69.088
13BD 74.846
14BD 80.603
15BD 86.360

BD 5.757

BD 5.757 Each (Exc. Vat)

BD 6.333

BD 6.333 Each (inc. VAT)

THS3201D Texas Instruments, Current Feedback, Op Amp, 9 V, 12 V, 8-Pin SOIC

Stock information temporarily unavailable.

Select packaging type

Standard

Select packaging type

Standardeach

Available in multiples of 1.

Production -

Available in multiples of 1.

Recommended for ordering in large quantities. Items are packaged ready for insertion into machinery, allowing you to improve production efficiency.

1

Available in multiples of 1
1BD 5.757
2BD 11.515
3BD 17.272
4BD 23.029
5BD 28.787
6BD 34.544
7BD 40.301
8BD 46.059
9BD 51.816
10BD 57.574
11BD 63.331
12BD 69.088
13BD 74.846
14BD 80.603
15BD 86.360

QuantityUnit price
1 - 24BD 5.757
25 - 99BD 4.802
100 - 249BD 4.328
250 - 499BD 4.108
500+BD 3.808

Ideate. Create. Collaborate

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  • Download and use our DesignSpark software for your PCB and 3D Mechanical designs
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  • Download 3D Models, Schematics and Footprints from more than a million products
Click here to find out more

Technical Document

Specifications

Brand

Texas Instruments

Amplifier Type

Current Feedback

Mounting Type

Surface Mount

Package Type

SOIC

Power Supply Type

Dual, Single

Number of Channels per Chip

1

Pin Count

8

Typical Single Supply Voltage

9 V, 12 V

Typical Dual Supply Voltage

±5V

Typical Slew Rate

5200V/µs

Minimum Operating Temperature

-40 °C

Maximum Operating Temperature

+85 °C

Rail to Rail

No

Typical Input Voltage Noise Density

1.65nV/√Hz

Height

1.58mm

Dimensions

4.9 x 3.91 x 1.58mm

Length

4.9mm

Width

3.91mm

Product details

Current Feedback Operational Amplifiers

A wide range of current feedback operational amplifiers from Texas Instruments. Current feedback operational amplifiers employ a circuit topology that is inherently faster than voltage-mode devices allowing better high frequency performance. They are ideally suited to high speed and video applications with modest DC accuracy requirements.

Ideate. Create. Collaborate

JOIN FOR FREE

No hidden fees!

design-spark
design-spark
  • Download and use our DesignSpark software for your PCB and 3D Mechanical designs
  • View and contribute website content and forums
  • Download 3D Models, Schematics and Footprints from more than a million products
Click here to find out more